From c835b5fb4058dc6f5f2126118f94ccd20a40fe2b Mon Sep 17 00:00:00 2001 From: dcode Date: Fri, 8 Mar 2019 14:28:45 +0100 Subject: [PATCH] Update dependencies and rebuild dist files --- dist/asc.js | 2 +- dist/asc.js.map | 2 +- dist/assemblyscript.js | 4 ++-- dist/assemblyscript.js.map | 2 +- package-lock.json | 18 +++++++++--------- package.json | 10 +++++----- 6 files changed, 19 insertions(+), 19 deletions(-) diff --git a/dist/asc.js b/dist/asc.js index 60ee8af5..9feb23c2 100644 --- a/dist/asc.js +++ b/dist/asc.js @@ -1,2 +1,2 @@ -!function(e,n){"object"==typeof exports&&"object"==typeof module?module.exports=n(function(){try{return require("assemblyscript")}catch(e){}}()):"function"==typeof define&&define.amd?define(["assemblyscript"],n):"object"==typeof exports?exports.asc=n(function(){try{return require("assemblyscript")}catch(e){}}()):e.asc=n(e.assemblyscript)}("undefined"!=typeof self?self:this,function(__WEBPACK_EXTERNAL_MODULE__10__){return function(e){var n={};function t(i){if(n[i])return n[i].exports;var r=n[i]={i:i,l:!1,exports:{}};return e[i].call(r.exports,r,r.exports,t),r.l=!0,r.exports}return t.m=e,t.c=n,t.d=function(e,n,i){t.o(e,n)||Object.defineProperty(e,n,{enumerable:!0,get:i})},t.r=function(e){"undefined"!=typeof Symbol&&Symbol.toStringTag&&Object.defineProperty(e,Symbol.toStringTag,{value:"Module"}),Object.defineProperty(e,"__esModule",{value:!0})},t.t=function(e,n){if(1&n&&(e=t(e)),8&n)return e;if(4&n&&"object"==typeof e&&e&&e.__esModule)return e;var i=Object.create(null);if(t.r(i),Object.defineProperty(i,"default",{enumerable:!0,value:e}),2&n&&"string"!=typeof e)for(var r in e)t.d(i,r,function(n){return e[n]}.bind(null,r));return i},t.n=function(e){var n=e&&e.__esModule?function(){return e.default}:function(){return e};return t.d(n,"a",n),n},t.o=function(e,n){return Object.prototype.hasOwnProperty.call(e,n)},t.p="",t(t.s=4)}([function(e,n,t){var i,r;n.nextTick=function(e){setTimeout(e,0)},n.platform=n.arch=n.execPath=n.title="browser",n.pid=1,n.browser=!0,n.env={},n.argv=[],n.binding=function(e){throw new Error("No such module. 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A user has to make\n * sure that there are no more references to cleared memory afterwards. Always aligns to 8 bytes.\n *\n * @module std/assembly/allocator/arena\n *//***/\n\nimport { AL_MASK, MAX_SIZE_32 } from "../internal/allocator";\n\nvar startOffset: usize = (HEAP_BASE + AL_MASK) & ~AL_MASK;\nvar offset: usize = startOffset;\n\n// Memory allocator interface\n\n@global export function __memory_allocate(size: usize): usize {\n if (size > MAX_SIZE_32) unreachable();\n var ptr = offset;\n var newPtr = (ptr + max(size, 1) + AL_MASK) & ~AL_MASK;\n var pagesBefore = memory.size();\n if (newPtr > pagesBefore << 16) {\n let pagesNeeded = ((newPtr - ptr + 0xffff) & ~0xffff) >>> 16;\n let pagesWanted = max(pagesBefore, pagesNeeded); // double memory\n if (memory.grow(pagesWanted) < 0) {\n if (memory.grow(pagesNeeded) < 0) {\n unreachable(); // out of memory\n }\n }\n }\n offset = newPtr;\n return ptr;\n}\n\n@global export function __memory_free(ptr: usize): void { /* nop */ }\n\n@global export function __memory_reset(): void {\n offset = startOffset;\n}\n',"allocator/buddy":'/**\n * Buddy Memory Allocator.\n * @module std/assembly/allocator/buddy\n *//***/\n\n/*\n Copyright 2018 Evan Wallace\n\n Permission is hereby granted, free of charge, to any person obtaining a copy\n of this software and associated documentation files (the "Software"), to deal\n in the Software without restriction, including without limitation the rights\n to use, copy, modify, merge, publish, distribute, sublicense, and/or sell\n copies of the Software, and to permit persons to whom the Software is\n furnished to do so, subject to the following conditions:\n\n The above copyright notice and this permission notice shall be included in all\n copies or substantial portions of the Software.\n\n THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR\n IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,\n FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE\n AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER\n LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,\n OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE\n SOFTWARE.\n\n*/// see: https://github.com/evanw/buddy-malloc\n\n/*\n * This file implements a buddy memory allocator, which is an allocator that\n * allocates memory within a fixed linear address range. It spans the address\n * range with a binary tree that tracks free space. Both "malloc" and "free"\n * are O(log N) time where N is the maximum possible number of allocations.\n *\n * The "buddy" term comes from how the tree is used. When memory is allocated,\n * nodes in the tree are split recursively until a node of the appropriate size\n * is reached. Every split results in two child nodes, each of which is the\n * buddy of the other. When a node is freed, the node and its buddy can be\n * merged again if the buddy is also free. This makes the memory available\n * for larger allocations again.\n */\n\n/*\n * Every allocation needs an 8-byte header to store the allocation size while\n * staying 8-byte aligned. The address returned by "malloc" is the address\n * right after this header (i.e. the size occupies the 8 bytes before the\n * returned address).\n */\nconst HEADER_SIZE: usize = 8;\n\n/*\n * The minimum allocation size is 16 bytes because we have an 8-byte header and\n * we need to stay 8-byte aligned.\n */\nconst MIN_ALLOC_LOG2: usize = 4;\nconst MIN_ALLOC: usize = 1 << MIN_ALLOC_LOG2;\n\n/*\n * The maximum allocation size is currently set to 2gb. This is the total size\n * of the heap. It\'s technically also the maximum allocation size because the\n * heap could consist of a single allocation of this size. But of course real\n * heaps will have multiple allocations, so the real maximum allocation limit\n * is at most 1gb.\n */\nconst MAX_ALLOC_LOG2: usize = 30; // 31;\nconst MAX_ALLOC: usize = 1 << MAX_ALLOC_LOG2;\n\n/*\n * Allocations are done in powers of two starting from MIN_ALLOC and ending at\n * MAX_ALLOC inclusive. Each allocation size has a bucket that stores the free\n * list for that allocation size.\n *\n * Given a bucket index, the size of the allocations in that bucket can be\n * found with "(size_t)1 << (MAX_ALLOC_LOG2 - bucket)".\n */\nconst BUCKET_COUNT: usize = MAX_ALLOC_LOG2 - MIN_ALLOC_LOG2 + 1;\n\n/*\n * Free lists are stored as circular doubly-linked lists. Every possible\n * allocation size has an associated free list that is threaded through all\n * currently free blocks of that size. That means MIN_ALLOC must be at least\n * "sizeof(list_t)". MIN_ALLOC is currently 16 bytes, so this will be true for\n * both 32-bit and 64-bit.\n */\n@unmanaged\nclass List {\n prev: List;\n next: List;\n static readonly SIZE: usize = 2 * sizeof();\n}\n\n/*\n * Each bucket corresponds to a certain allocation size and stores a free list\n * for that size. The bucket at index 0 corresponds to an allocation size of\n * MAX_ALLOC (i.e. the whole address space).\n */\nvar BUCKETS_START: usize = HEAP_BASE;\nvar BUCKETS_END: usize = BUCKETS_START + BUCKET_COUNT * List.SIZE;\n\nfunction buckets$get(index: usize): List {\n assert(index < BUCKET_COUNT);\n return changetype(BUCKETS_START + index * List.SIZE);\n}\n\n/*\n * We could initialize the allocator by giving it one free block the size of\n * the entire address space. However, this would cause us to instantly reserve\n * half of the entire address space on the first allocation, since the first\n * split would store a free list entry at the start of the right child of the\n * root. Instead, we have the tree start out small and grow the size of the\n * tree as we use more memory. The size of the tree is tracked by this value.\n */\nvar bucket_limit: usize;\n\n/*\n * This array represents a linearized binary tree of bits. Every possible\n * allocation larger than MIN_ALLOC has a node in this tree (and therefore a\n * bit in this array).\n *\n * Given the index for a node, lineraized binary trees allow you to traverse to\n * the parent node or the child nodes just by doing simple arithmetic on the\n * index:\n *\n * - Move to parent: index = (index - 1) / 2;\n * - Move to left child: index = index * 2 + 1;\n * - Move to right child: index = index * 2 + 2;\n * - Move to sibling: index = ((index - 1) ^ 1) + 1;\n *\n * Each node in this tree can be in one of several states:\n *\n * - UNUSED (both children are UNUSED)\n * - SPLIT (one child is UNUSED and the other child isn\'t)\n * - USED (neither children are UNUSED)\n *\n * These states take two bits to store. However, it turns out we have enough\n * information to distinguish between UNUSED and USED from context, so we only\n * need to store SPLIT or not, which only takes a single bit.\n *\n * Note that we don\'t need to store any nodes for allocations of size MIN_ALLOC\n * since we only ever care about parent nodes.\n */\nconst SPLIT_COUNT: usize = (1 << (BUCKET_COUNT - 1)) / 8;\nvar NODE_IS_SPLIT_START: usize = BUCKETS_END;\nvar NODE_IS_SPLIT_END: usize = NODE_IS_SPLIT_START + SPLIT_COUNT * sizeof();\n\nfunction node_is_split$get(index: usize): i32 {\n assert(index < SPLIT_COUNT);\n return load(NODE_IS_SPLIT_START + index);\n}\n\nfunction node_is_split$set(index: usize, state: i32): void {\n assert(index < SPLIT_COUNT);\n store(NODE_IS_SPLIT_START + index, state);\n}\n\n/*\n * This is the starting address of the address range for this allocator. Every\n * returned allocation will be an offset of this pointer from 0 to MAX_ALLOC.\n */\nvar base_ptr: usize;\n\n/*\n * This is the maximum address that has ever been used by the allocator. It\'s\n * used to know when to call "brk" to request more memory from the kernel.\n */\nvar max_ptr: usize;\n\n/*\n * Make sure all addresses before "new_value" are valid and can be used. Memory\n * is allocated in a 2gb address range but that memory is not reserved up\n * front. It\'s only reserved when it\'s needed by calling this function. This\n * will return false if the memory could not be reserved.\n */\nfunction update_max_ptr(new_value: usize): i32 {\n if (new_value > max_ptr) {\n // if (brk(new_value)) {\n // return 0;\n // }\n let oldPages = memory.size();\n let newPages = (((new_value + 0xffff) & ~0xffff) >>> 16);\n assert(newPages > oldPages);\n if (memory.grow(newPages - oldPages) < 0) {\n return 0;\n }\n // max_ptr = new_value;\n max_ptr = newPages << 16;\n }\n return 1;\n}\n\n/*\n * Initialize a list to empty. Because these are circular lists, an "empty"\n * list is an entry where both links point to itself. This makes insertion\n * and removal simpler because they don\'t need any branches.\n */\nfunction list_init(list: List): void {\n list.prev = list;\n list.next = list;\n}\n\n/*\n * Append the provided entry to the end of the list. This assumes the entry\n * isn\'t in a list already because it overwrites the linked list pointers.\n */\nfunction list_push(list: List, entry: List): void {\n var prev = list.prev;\n entry.prev = prev;\n entry.next = list;\n prev.next = entry;\n list.prev = entry;\n}\n\n/*\n * Remove the provided entry from whichever list it\'s currently in. This\n * assumes that the entry is in a list. You don\'t need to provide the list\n * because the lists are circular, so the list\'s pointers will automatically\n * be updated if the first or last entries are removed.\n */\nfunction list_remove(entry: List): void {\n var prev = entry.prev;\n var next = entry.next;\n prev.next = next;\n next.prev = prev;\n}\n\n/*\n * Remove and return the first entry in the list or NULL if the list is empty.\n */\nfunction list_pop(list: List): List | null {\n var back = list.prev;\n if (back == list) return null;\n list_remove(back);\n return back;\n}\n\n/*\n * This maps from the index of a node to the address of memory that node\n * represents. The bucket can be derived from the index using a loop but is\n * required to be provided here since having them means we can avoid the loop\n * and have this function return in constant time.\n */\nfunction ptr_for_node(index: usize, bucket: usize): usize {\n return base_ptr + ((index - (1 << bucket) + 1) << (MAX_ALLOC_LOG2 - bucket));\n}\n\n/*\n * This maps from an address of memory to the node that represents that\n * address. There are often many nodes that all map to the same address, so\n * the bucket is needed to uniquely identify a node.\n */\nfunction node_for_ptr(ptr: usize, bucket: usize): usize {\n return ((ptr - base_ptr) >> (MAX_ALLOC_LOG2 - bucket)) + (1 << bucket) - 1;\n}\n\n/*\n * Given the index of a node, this returns the "is split" flag of the parent.\n */\nfunction parent_is_split(index: usize): bool {\n index = (index - 1) / 2;\n return ((node_is_split$get(index / 8) >>> (index % 8)) & 1) == 1;\n}\n\n/*\n * Given the index of a node, this flips the "is split" flag of the parent.\n */\nfunction flip_parent_is_split(index: usize): void {\n index = (index - 1) / 2;\n var indexDiv8 = index / 8;\n node_is_split$set(indexDiv8,\n node_is_split$get(indexDiv8) ^ (1 << (index % 8))\n );\n}\n\n/*\n * Given the requested size passed to "malloc", this function returns the index\n * of the smallest bucket that can fit that size.\n */\nfunction bucket_for_request(request: usize): usize {\n var bucket = BUCKET_COUNT - 1;\n var size = MIN_ALLOC;\n\n while (size < request) {\n bucket--;\n size *= 2;\n }\n\n return bucket;\n}\n\n/*\n * The tree is always rooted at the current bucket limit. This call grows the\n * tree by repeatedly doubling it in size until the root lies at the provided\n * bucket index. Each doubling lowers the bucket limit by 1.\n */\nfunction lower_bucket_limit(bucket: usize): u32 {\n while (bucket < bucket_limit) {\n let root = node_for_ptr(base_ptr, bucket_limit);\n let right_child: usize;\n\n /*\n * If the parent isn\'t SPLIT, that means the node at the current bucket\n * limit is UNUSED and our address space is entirely free. In that case,\n * clear the root free list, increase the bucket limit, and add a single\n * block with the newly-expanded address space to the new root free list.\n */\n if (!parent_is_split(root)) {\n list_remove(changetype(base_ptr));\n list_init(buckets$get(--bucket_limit));\n list_push(buckets$get(bucket_limit), changetype(base_ptr));\n continue;\n }\n\n /*\n * Otherwise, the tree is currently in use. Create a parent node for the\n * current root node in the SPLIT state with a right child on the free\n * list. Make sure to reserve the memory for the free list entry before\n * writing to it. Note that we do not need to flip the "is split" flag for\n * our current parent because it\'s already on (we know because we just\n * checked it above).\n */\n right_child = ptr_for_node(root + 1, bucket_limit);\n if (!update_max_ptr(right_child + List.SIZE)) {\n return 0;\n }\n list_push(buckets$get(bucket_limit), changetype(right_child));\n list_init(buckets$get(--bucket_limit));\n\n /*\n * Set the grandparent\'s SPLIT flag so if we need to lower the bucket limit\n * again, we\'ll know that the new root node we just added is in use.\n */\n root = (root - 1) / 2;\n if (root != 0) {\n flip_parent_is_split(root);\n }\n }\n\n return 1;\n}\n\n// Memory allocator interface\n\n@global export function __memory_allocate(request: usize): usize {\n var original_bucket: usize, bucket: usize;\n\n /*\n * Make sure it\'s possible for an allocation of this size to succeed. There\'s\n * a hard-coded limit on the maximum allocation size because of the way this\n * allocator works.\n */\n if (request > MAX_ALLOC - HEADER_SIZE) unreachable();\n\n /*\n * Initialize our global state if this is the first call to "malloc". At the\n * beginning, the tree has a single node that represents the smallest\n * possible allocation size. More memory will be reserved later as needed.\n */\n if (base_ptr == 0) {\n // base_ptr = max_ptr = (uint8_t *)sbrk(0);\n base_ptr = (NODE_IS_SPLIT_END + 7) & ~7; // must be aligned\n max_ptr = memory.size() << 16; // must grow first\n bucket_limit = BUCKET_COUNT - 1;\n if (!update_max_ptr(base_ptr + List.SIZE)) {\n return 0;\n }\n list_init(buckets$get(BUCKET_COUNT - 1));\n list_push(buckets$get(BUCKET_COUNT - 1), changetype(base_ptr));\n }\n\n /*\n * Find the smallest bucket that will fit this request. This doesn\'t check\n * that there\'s space for the request yet.\n */\n bucket = bucket_for_request(request + HEADER_SIZE);\n original_bucket = bucket;\n\n /*\n * Search for a bucket with a non-empty free list that\'s as large or larger\n * than what we need. If there isn\'t an exact match, we\'ll need to split a\n * larger one to get a match.\n */\n while (bucket + 1 != 0) {\n let size: usize, bytes_needed: usize, i: usize;\n let ptr: usize;\n\n /*\n * We may need to grow the tree to be able to fit an allocation of this\n * size. Try to grow the tree and stop here if we can\'t.\n */\n if (!lower_bucket_limit(bucket)) {\n return 0;\n }\n\n /*\n * Try to pop a block off the free list for this bucket. If the free list\n * is empty, we\'re going to have to split a larger block instead.\n */\n ptr = changetype(list_pop(buckets$get(bucket)));\n if (!ptr) {\n /*\n * If we\'re not at the root of the tree or it\'s impossible to grow the\n * tree any more, continue on to the next bucket.\n */\n if (bucket != bucket_limit || bucket == 0) {\n bucket--;\n continue;\n }\n\n /*\n * Otherwise, grow the tree one more level and then pop a block off the\n * free list again. Since we know the root of the tree is used (because\n * the free list was empty), this will add a parent above this node in\n * the SPLIT state and then add the new right child node to the free list\n * for this bucket. Popping the free list will give us this right child.\n */\n if (!lower_bucket_limit(bucket - 1)) {\n return 0;\n }\n ptr = changetype(list_pop(buckets$get(bucket)));\n }\n\n /*\n * Try to expand the address space first before going any further. If we\n * have run out of space, put this block back on the free list and fail.\n */\n size = 1 << (MAX_ALLOC_LOG2 - bucket);\n bytes_needed = bucket < original_bucket ? size / 2 + List.SIZE : size;\n if (!update_max_ptr(ptr + bytes_needed)) {\n list_push(buckets$get(bucket), changetype(ptr));\n return 0;\n }\n\n /*\n * If we got a node off the free list, change the node from UNUSED to USED.\n * This involves flipping our parent\'s "is split" bit because that bit is\n * the exclusive-or of the UNUSED flags of both children, and our UNUSED\n * flag (which isn\'t ever stored explicitly) has just changed.\n *\n * Note that we shouldn\'t ever need to flip the "is split" bit of our\n * grandparent because we know our buddy is USED so it\'s impossible for our\n * grandparent to be UNUSED (if our buddy chunk was UNUSED, our parent\n * wouldn\'t ever have been split in the first place).\n */\n i = node_for_ptr(ptr, bucket);\n if (i != 0) {\n flip_parent_is_split(i);\n }\n\n /*\n * If the node we got is larger than we need, split it down to the correct\n * size and put the new unused child nodes on the free list in the\n * corresponding bucket. This is done by repeatedly moving to the left\n * child, splitting the parent, and then adding the right child to the free\n * list.\n */\n while (bucket < original_bucket) {\n i = i * 2 + 1;\n bucket++;\n flip_parent_is_split(i);\n list_push(\n buckets$get(bucket),\n changetype(ptr_for_node(i + 1, bucket))\n );\n }\n\n /*\n * Now that we have a memory address, write the block header (just the size\n * of the allocation) and return the address immediately after the header.\n */\n store(ptr, request);\n return ptr + HEADER_SIZE;\n }\n\n return 0;\n}\n\n@global export function __memory_free(ptr: usize): void {\n var bucket: usize, i: usize;\n\n /*\n * Ignore any attempts to free a NULL pointer.\n */\n if (!ptr) {\n return;\n }\n\n /*\n * We were given the address returned by "malloc" so get back to the actual\n * address of the node by subtracting off the size of the block header. Then\n * look up the index of the node corresponding to this address.\n */\n ptr = ptr - HEADER_SIZE;\n bucket = bucket_for_request(load(ptr) + HEADER_SIZE);\n i = node_for_ptr(ptr, bucket);\n\n /*\n * Traverse up to the root node, flipping USED blocks to UNUSED and merging\n * UNUSED buddies together into a single UNUSED parent.\n */\n while (i != 0) {\n /*\n * Change this node from UNUSED to USED. This involves flipping our\n * parent\'s "is split" bit because that bit is the exclusive-or of the\n * UNUSED flags of both children, and our UNUSED flag (which isn\'t ever\n * stored explicitly) has just changed.\n */\n flip_parent_is_split(i);\n\n /*\n * If the parent is now SPLIT, that means our buddy is USED, so don\'t merge\n * with it. Instead, stop the iteration here and add ourselves to the free\n * list for our bucket.\n *\n * Also stop here if we\'re at the current root node, even if that root node\n * is now UNUSED. Root nodes don\'t have a buddy so we can\'t merge with one.\n */\n if (parent_is_split(i) || bucket == bucket_limit) {\n break;\n }\n\n /*\n * If we get here, we know our buddy is UNUSED. In this case we should\n * merge with that buddy and continue traversing up to the root node. We\n * need to remove the buddy from its free list here but we don\'t need to\n * add the merged parent to its free list yet. That will be done once after\n * this loop is finished.\n */\n list_remove(changetype(ptr_for_node(((i - 1) ^ 1) + 1, bucket)));\n i = (i - 1) / 2;\n bucket--;\n }\n\n /*\n * Add ourselves to the free list for our bucket. We add to the back of the\n * list because "malloc" takes from the back of the list and we want a "free"\n * followed by a "malloc" of the same size to ideally use the same address\n * for better memory locality.\n */\n list_push(buckets$get(bucket), changetype(ptr_for_node(i, bucket)));\n}\n',"allocator/emscripten":"/**\n * Emscripten Memory Allocator.\n *\n * Uses Emscripten's exported _malloc and _free implementations, i.e., when linking with\n * Emscripten-compiled programs that already provide these. Differs from 'system' in that their\n * names are prefixed with an underscore.\n *\n * @module std/assembly/allocator/emscripten\n *//***/\n\ndeclare function _malloc(size: usize): usize;\ndeclare function _free(ptr: usize): void;\n\n// Memory allocator interface\n\n@global export function __memory_allocate(size: usize): usize {\n return _malloc(size);\n}\n\n@global export function __memory_free(ptr: usize): void {\n _free(ptr);\n}\n","allocator/system":"/**\n * System Memory Allocator.\n *\n * Uses the environment's malloc and free implementations, i.e., when linking with other C-like\n * programs that already provide these.\n *\n * @module std/assembly/allocator/system\n *//***/\n\ndeclare function malloc(size: usize): usize;\ndeclare function free(ptr: usize): void;\n\n// Memory allocator interface\n\n@global export function __memory_allocate(size: usize): usize {\n return malloc(size);\n}\n\n@global export function __memory_free(ptr: usize): void {\n free(ptr);\n}\n","allocator/tlsf":"/**\n * Two-Level Segregate Fit Memory Allocator.\n *\n * A general purpose dynamic memory allocator specifically designed to meet real-time requirements.\n * Always aligns to 8 bytes.\n *\n * @module std/assembly/allocator/tlsf\n *//***/\n\n// ╒══════════════ Block size interpretation (32-bit) ═════════════╕\n// 3 2 1\n// 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 bits\n// ├─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┼─┴─┴─┴─┴─╫─┴─┴─┤\n// │ | FL │ SB = SL + AL │ ◄─ usize\n// └───────────────────────────────────────────────┴─────────╨─────┘\n// FL: first level, SL: second level, AL: alignment, SB: small block\n\nimport {\n AL_BITS,\n AL_SIZE,\n AL_MASK\n} from \"../internal/allocator\";\n\nconst SL_BITS: u32 = 5;\nconst SL_SIZE: usize = 1 << SL_BITS;\n\nconst SB_BITS: usize = (SL_BITS + AL_BITS);\nconst SB_SIZE: usize = 1 << SB_BITS;\n\nconst FL_BITS: u32 = (sizeof() == sizeof()\n ? 30 // ^= up to 1GB per block\n : 32 // ^= up to 4GB per block\n) - SB_BITS;\n\n// ╒════════════════ Block structure layout (32-bit) ══════════════╕\n// 3 2 1\n// 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 bits\n// ├─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┼─┼─┤\n// │ size │L│F│ ◄─┐ info\n// ╞═══════════════════════════════════════════════════════════╧═╧═╡ │ ┐\n// │ if free: ◄ prev │ ◄─┤ usize\n// ├───────────────────────────────────────────────────────────────┤ │\n// │ if free: next ► │ ◄─┤\n// ├───────────────────────────────────────────────────────────────┤ │\n// │ ... unused free space >= 0 ... │ │ = 0\n// ├ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ┤ │\n// │ if free: jump ▲ │ ◄─┘\n// └───────────────────────────────────────────────────────────────┘ MIN SIZE ┘\n// F: FREE, L: LEFT_FREE\n\n/** Tag indicating that this block is free. */\nconst FREE: usize = 1 << 0;\n/** Tag indicating that this block's left block is free. */\nconst LEFT_FREE: usize = 1 << 1;\n/** Mask to obtain all tags. */\nconst TAGS: usize = FREE | LEFT_FREE;\n\n/** Block structure. */\n@unmanaged\nclass Block {\n\n /** Info field holding this block's size and tags. */\n info: usize;\n\n /** End offset of the {@link Block#info} field. User data starts here. */\n static readonly INFO: usize = (sizeof() + AL_MASK) & ~AL_MASK;\n\n /** Previous free block, if any. Only valid if free. */\n prev: Block | null;\n /** Next free block, if any. Only valid if free. */\n next: Block | null;\n\n /** Minimum size of a block, excluding {@link Block#info}. */\n static readonly MIN_SIZE: usize = (3 * sizeof() + AL_MASK) & ~AL_MASK;// prev + next + jump\n\n /** Maximum size of a used block, excluding {@link Block#info}. */\n static readonly MAX_SIZE: usize = 1 << (FL_BITS + SB_BITS);\n\n /** Gets this block's left (free) block in memory. */\n get left(): Block {\n assert(this.info & LEFT_FREE); // must be free to contain a jump\n return assert(\n load(changetype(this) - sizeof())\n ); // can't be null\n }\n\n /** Gets this block's right block in memory. */\n get right(): Block {\n assert(this.info & ~TAGS); // can't skip beyond the tail block\n return assert(\n changetype(\n changetype(this) + Block.INFO + (this.info & ~TAGS)\n )\n ); // can't be null\n }\n}\n\n// ╒════════════════ Root structure layout (32-bit) ═══════════════╕\n// 3 2 1\n// 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 bits\n// ├─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┤ ┐\n// │ 0 | flMap S│ ◄────┐\n// ╞═══════════════════════════════════════════════════════════════╡ │\n// │ slMap[0] S │ ◄─┐ │\n// ├───────────────────────────────────────────────────────────────┤ │ │\n// │ slMap[1] │ ◄─┤ │\n// ├───────────────────────────────────────────────────────────────┤ u32 │\n// │ ... │ ◄─┤ │\n// ├───────────────────────────────────────────────────────────────┤ │ │\n// │ slMap[22] P │ ◄─┘ │\n// ╞═══════════════════════════════════════════════════════════════╡ usize\n// │ head[0] │ ◄────┤\n// ├───────────────────────────────────────────────────────────────┤ │\n// │ ... │ ◄────┤\n// ├───────────────────────────────────────────────────────────────┤ │\n// │ head[736] │ ◄────┤\n// ╞═══════════════════════════════════════════════════════════════╡ │\n// │ tailRef │ ◄────┘\n// └───────────────────────────────────────────────────────────────┘ SIZE ┘\n// S: Small blocks map, P: Possibly padded if 64-bit\n\nassert((1 << SL_BITS) <= 32); // second level must fit into 32 bits\n\n/** Root structure. */\n@unmanaged\nclass Root {\n\n /** First level bitmap. */\n flMap: usize = 0;\n\n /** Start offset of second level maps. */\n private static readonly SL_START: usize = sizeof();\n\n // Using *one* SL map per *FL bit*\n\n /** Gets the second level map for the specified first level. */\n getSLMap(fl: usize): u32 {\n assert(fl < FL_BITS); // fl out of range\n return load(changetype(this) + fl * 4, Root.SL_START);\n }\n\n /** Sets the second level map for the specified first level. */\n setSLMap(fl: usize, value: u32): void {\n assert(fl < FL_BITS); // fl out of range\n store(changetype(this) + fl * 4, value, Root.SL_START);\n }\n\n /** End offset of second level maps. */\n private static readonly SL_END: usize = Root.SL_START + FL_BITS * 4;\n\n // Using *number bits per SL* heads per *FL bit*\n\n /** Start offset of FL/SL heads. */\n private static readonly HL_START: usize = (Root.SL_END + AL_MASK) & ~AL_MASK;\n\n /** Gets the head of the specified first and second level index. */\n getHead(fl: usize, sl: u32): Block | null {\n assert(fl < FL_BITS); // fl out of range\n assert(sl < SL_SIZE); // sl out of range\n return changetype(load(\n changetype(this) + (fl * SL_SIZE + sl) * sizeof()\n , Root.HL_START));\n }\n\n /** Sets the head of the specified first and second level index. */\n setHead(fl: usize, sl: u32, value: Block | null): void {\n assert(fl < FL_BITS); // fl out of range\n assert(sl < SL_SIZE); // sl out of range\n store(\n changetype(this) + (fl * SL_SIZE + sl) * sizeof()\n , changetype(value)\n , Root.HL_START);\n }\n\n /** End offset of FL/SL heads. */\n private static readonly HL_END: usize = (\n Root.HL_START + FL_BITS * SL_SIZE * sizeof()\n );\n\n get tailRef(): usize { return load(0, Root.HL_END); }\n set tailRef(value: usize) { store(0, value, Root.HL_END); }\n\n /** Total size of the {@link Root} structure. */\n static readonly SIZE: usize = Root.HL_END + sizeof();\n\n /** Inserts a previously used block back into the free list. */\n insert(block: Block): void {\n // check as much as possible here to prevent invalid free blocks\n assert(block); // cannot be null\n var blockInfo = block.info;\n assert(blockInfo & FREE); // must be free\n var size: usize;\n assert(\n (size = block.info & ~TAGS) >= Block.MIN_SIZE && size < Block.MAX_SIZE\n ); // must be valid, not necessary to compute yet if noAssert=true\n\n var right: Block = assert(block.right); // can't be null\n var rightInfo = right.info;\n\n // merge with right block if also free\n if (rightInfo & FREE) {\n this.remove(right);\n block.info = (blockInfo += Block.INFO + (rightInfo & ~TAGS));\n right = block.right;\n rightInfo = right.info;\n // jump is set below\n }\n\n // merge with left block if also free\n if (blockInfo & LEFT_FREE) {\n let left: Block = assert(block.left); // can't be null\n let leftInfo = left.info;\n assert(leftInfo & FREE); // must be free according to tags\n this.remove(left);\n left.info = (leftInfo += Block.INFO + (blockInfo & ~TAGS));\n block = left;\n blockInfo = leftInfo;\n // jump is set below\n }\n\n right.info = rightInfo | LEFT_FREE;\n this.setJump(block, right);\n // right is no longer used now, hence rightInfo is not synced\n\n size = blockInfo & ~TAGS;\n assert(size >= Block.MIN_SIZE && size < Block.MAX_SIZE); // must be valid\n\n // mapping_insert\n var fl: usize, sl: u32;\n if (size < SB_SIZE) {\n fl = 0;\n sl = (size / AL_SIZE);\n } else {\n fl = fls(size);\n sl = ((size >> (fl - SL_BITS)) ^ (1 << SL_BITS));\n fl -= SB_BITS - 1;\n }\n\n // perform insertion\n var head = this.getHead(fl, sl);\n block.prev = null;\n block.next = head;\n if (head) head.prev = block;\n this.setHead(fl, sl, block);\n\n // update first and second level maps\n this.flMap |= (1 << fl);\n this.setSLMap(fl, this.getSLMap(fl) | (1 << sl));\n }\n\n /**\n * Removes a free block from FL/SL maps. Does not alter left/jump because it\n * is likely that splitting is performed afterwards, invalidating any changes\n * again.\n */\n private remove(block: Block): void {\n var blockInfo = block.info;\n assert(blockInfo & FREE); // must be free\n var size = blockInfo & ~TAGS;\n assert(size >= Block.MIN_SIZE && size < Block.MAX_SIZE); // must be valid\n\n // mapping_insert\n var fl: usize, sl: u32;\n if (size < SB_SIZE) {\n fl = 0;\n sl = (size / AL_SIZE);\n } else {\n fl = fls(size);\n sl = ((size >> (fl - SL_BITS)) ^ (1 << SL_BITS));\n fl -= SB_BITS - 1;\n }\n\n // link previous and next free block\n var prev = block.prev;\n var next = block.next;\n if (prev) prev.next = next;\n if (next) next.prev = prev;\n\n // update head if we are removing it\n if (block == this.getHead(fl, sl)) {\n this.setHead(fl, sl, next);\n\n // clear second level map if head is empty now\n if (!next) {\n let slMap = this.getSLMap(fl);\n this.setSLMap(fl, slMap &= ~(1 << sl));\n\n // clear first level map if second level is empty now\n if (!slMap) this.flMap &= ~(1 << fl);\n }\n }\n }\n\n /** Searches for a free block of at least the specified size. */\n search(size: usize): Block | null {\n assert(size >= Block.MIN_SIZE && size < Block.MAX_SIZE);\n\n // mapping_search\n var fl: usize, sl: u32;\n if (size < SB_SIZE) {\n fl = 0;\n sl = (size / AL_SIZE);\n } else {\n // (*) size += (1 << (fls(size) - SL_BITS)) - 1;\n fl = fls(size);\n sl = ((size >> (fl - SL_BITS)) ^ (1 << SL_BITS));\n fl -= SB_BITS - 1;\n // (*) instead of rounding up, use next second level list for better fit\n if (sl < SL_SIZE - 1) ++sl;\n else ++fl, sl = 0;\n }\n\n // search second level\n var slMap = this.getSLMap(fl) & (~0 << sl);\n var head: Block | null;\n if (!slMap) {\n // search next larger first level\n let flMap = this.flMap & (~0 << (fl + 1));\n if (!flMap) {\n head = null;\n } else {\n fl = ffs(flMap);\n slMap = assert(this.getSLMap(fl)); // can't be zero if fl points here\n head = this.getHead(fl, ffs(slMap));\n }\n } else {\n head = this.getHead(fl, ffs(slMap));\n }\n return head;\n }\n\n /** Links a free left with its right block in memory. */\n private setJump(left: Block, right: Block): void {\n assert(left.info & FREE); // must be free\n assert(left.right == right); // right block must match\n assert(right.info & LEFT_FREE); // right block must be tagged as LEFT_FREE\n store(\n changetype(right) - sizeof()\n , left); // last word in left block's (free) data region\n }\n\n /**\n * Uses the specified free block, removing it from internal maps and\n * splitting it if possible, and returns its data pointer.\n */\n use(block: Block, size: usize): usize {\n var blockInfo = block.info;\n assert(blockInfo & FREE); // must be free so we can use it\n assert(size >= Block.MIN_SIZE && size < Block.MAX_SIZE); // must be valid\n assert(!(size & AL_MASK)); // size must be aligned so the new block is\n\n this.remove(block);\n\n // split if the block can hold another MIN_SIZE block\n var remaining = (blockInfo & ~TAGS) - size;\n if (remaining >= Block.INFO + Block.MIN_SIZE) {\n block.info = size | (blockInfo & LEFT_FREE); // also discards FREE\n\n let spare = changetype(\n changetype(block) + Block.INFO + size\n );\n spare.info = (remaining - Block.INFO) | FREE; // not LEFT_FREE\n this.insert(spare); // also sets jump\n\n // otherwise tag block as no longer FREE and right as no longer LEFT_FREE\n } else {\n block.info = blockInfo & ~FREE;\n let right: Block = assert(block.right); // can't be null (tail)\n right.info &= ~LEFT_FREE;\n }\n\n return changetype(block) + Block.INFO;\n }\n\n /** Adds more memory to the pool. */\n addMemory(start: usize, end: usize): bool {\n assert(start <= end);\n assert(!(start & AL_MASK)); // must be aligned\n assert(!(end & AL_MASK)); // must be aligned\n\n var tailRef = this.tailRef;\n var tailInfo: usize = 0;\n if (tailRef) {\n assert(start >= tailRef + sizeof()); // starts after tail\n\n // merge with current tail if adjacent\n if (start - Block.INFO == tailRef) {\n start -= Block.INFO;\n tailInfo = changetype(tailRef).info;\n }\n\n } else {\n assert(start >= changetype(this) + Root.SIZE); // starts after root\n }\n\n // check if size is large enough for a free block and the tail block\n var size = end - start;\n if (size < Block.INFO + Block.MIN_SIZE + Block.INFO) {\n return false;\n }\n\n // left size is total minus its own and the zero-length tail's header\n var leftSize = size - 2 * Block.INFO;\n var left = changetype(start);\n left.info = leftSize | FREE | (tailInfo & LEFT_FREE);\n left.prev = null;\n left.next = null;\n\n // tail is a zero-length used block\n var tail = changetype(start + size - Block.INFO);\n tail.info = 0 | LEFT_FREE;\n this.tailRef = changetype(tail);\n\n this.insert(left); // also merges with free left before tail / sets jump\n\n return true;\n }\n}\n\n/** Determines the first (LSB to MSB) set bit's index of a word. */\nfunction ffs(word: T): T {\n assert(word != 0); // word cannot be 0\n return ctz(word); // differs from ffs only for 0\n}\n\n/** Determines the last (LSB to MSB) set bit's index of a word. */\nfunction fls(word: T): T {\n assert(word != 0); // word cannot be 0\n const inv: T = (sizeof() << 3) - 1;\n return inv - clz(word);\n}\n\n/** Reference to the initialized {@link Root} structure, once initialized. */\nvar ROOT: Root = changetype(0);\n\n// Memory allocator interface\n\n/** Allocates a chunk of memory. */\n@global export function __memory_allocate(size: usize): usize {\n\n // initialize if necessary\n var root = ROOT;\n if (!root) {\n let rootOffset = (HEAP_BASE + AL_MASK) & ~AL_MASK;\n let pagesBefore = memory.size();\n let pagesNeeded = ((((rootOffset + Root.SIZE) + 0xffff) & ~0xffff) >>> 16);\n if (pagesNeeded > pagesBefore && memory.grow(pagesNeeded - pagesBefore) < 0) unreachable();\n ROOT = root = changetype(rootOffset);\n root.tailRef = 0;\n root.flMap = 0;\n for (let fl: usize = 0; fl < FL_BITS; ++fl) {\n root.setSLMap(fl, 0);\n for (let sl: u32 = 0; sl < SL_SIZE; ++sl) {\n root.setHead(fl, sl, null);\n }\n }\n root.addMemory((rootOffset + Root.SIZE + AL_MASK) & ~AL_MASK, memory.size() << 16);\n }\n\n // search for a suitable block\n if (size > Block.MAX_SIZE) unreachable();\n\n // 32-bit MAX_SIZE is 1 << 30 and itself aligned, hence the following can't overflow MAX_SIZE\n size = max((size + AL_MASK) & ~AL_MASK, Block.MIN_SIZE);\n\n var block = root.search(size);\n if (!block) {\n\n // request more memory\n let pagesBefore = memory.size();\n let pagesNeeded = (((size + 0xffff) & ~0xffff) >>> 16);\n let pagesWanted = max(pagesBefore, pagesNeeded); // double memory\n if (memory.grow(pagesWanted) < 0) {\n if (memory.grow(pagesNeeded) < 0) {\n unreachable(); // out of memory\n }\n }\n let pagesAfter = memory.size();\n root.addMemory(pagesBefore << 16, pagesAfter << 16);\n block = assert(root.search(size)); // must be found now\n }\n\n assert((block.info & ~TAGS) >= size);\n return root.use(block, size);\n}\n\n/** Frees the chunk of memory at the specified address. */\n@global export function __memory_free(data: usize): void {\n if (data) {\n let root = ROOT;\n if (root) {\n let block = changetype(data - Block.INFO);\n let blockInfo = block.info;\n assert(!(blockInfo & FREE)); // must be used\n block.info = blockInfo | FREE;\n root.insert(changetype(data - Block.INFO));\n }\n }\n}\n\n@global export function __memory_reset(): void {\n unreachable();\n}\n",array:'import {\n MAX_BLENGTH,\n HEADER_SIZE,\n allocateUnsafe,\n reallocateUnsafe,\n LOAD,\n STORE\n} from "./internal/arraybuffer";\n\nimport {\n allocateUnsafe as allocateUnsafeString,\n freeUnsafe as freeUnsafeString,\n copyUnsafe as copyUnsafeString\n} from "./internal/string";\n\nimport {\n COMPARATOR,\n SORT\n} from "./internal/sort";\n\nimport {\n itoa,\n dtoa,\n itoa_stream,\n dtoa_stream,\n MAX_DOUBLE_LENGTH\n} from "./internal/number";\n\nimport {\n isArray as builtin_isArray\n} from "./builtins";\n\nexport class Array {\n [key: number]: T; // compatibility only\n\n /* @internal */ buffer_: ArrayBuffer;\n /* @internal */ length_: i32;\n\n @inline static isArray(value: U): bool {\n return builtin_isArray(value) && value !== null;\n }\n\n constructor(length: i32 = 0) {\n const MAX_LENGTH = MAX_BLENGTH >>> alignof();\n if (length > MAX_LENGTH) throw new RangeError("Invalid array length");\n var byteLength = length << alignof();\n var buffer = allocateUnsafe(byteLength);\n this.buffer_ = buffer;\n this.length_ = length;\n memory.fill(\n changetype(buffer) + HEADER_SIZE,\n 0,\n byteLength\n );\n }\n\n @inline\n get length(): i32 {\n return this.length_;\n }\n\n set length(length: i32) {\n var buffer = this.buffer_;\n var capacity = buffer.byteLength >>> alignof();\n if (length > capacity) {\n const MAX_LENGTH = MAX_BLENGTH >>> alignof();\n if (length > MAX_LENGTH) throw new RangeError("Invalid array length");\n buffer = reallocateUnsafe(buffer, length << alignof());\n this.buffer_ = buffer;\n }\n this.length_ = length;\n }\n\n every(callbackfn: (element: T, index: i32, array: Array) => bool): bool {\n for (let index = 0, length = this.length_; index < min(length, this.length_); ++index) {\n if (!callbackfn(LOAD(this.buffer_, index), index, this)) return false;\n }\n return true;\n }\n\n findIndex(predicate: (element: T, index: i32, array: Array) => bool): i32 {\n for (let index = 0, length = this.length_; index < min(length, this.length_); ++index) {\n if (predicate(LOAD(this.buffer_, index), index, this)) return index;\n }\n return -1;\n }\n\n @operator("[]")\n private __get(index: i32): T {\n var buffer = this.buffer_;\n return index < (buffer.byteLength >>> alignof())\n ? LOAD(buffer, index)\n : unreachable();\n }\n\n @operator("{}")\n private __unchecked_get(index: i32): T {\n return LOAD(this.buffer_, index);\n }\n\n @operator("[]=")\n private __set(index: i32, value: T): void {\n var buffer = this.buffer_;\n var capacity = buffer.byteLength >>> alignof();\n if (index >= capacity) {\n const MAX_LENGTH = MAX_BLENGTH >>> alignof();\n if (index >= MAX_LENGTH) throw new Error("Invalid array length");\n buffer = reallocateUnsafe(buffer, (index + 1) << alignof());\n this.buffer_ = buffer;\n this.length_ = index + 1;\n }\n STORE(buffer, index, value);\n if (isManaged()) __gc_link(changetype(this), changetype(value)); // tslint:disable-line\n }\n\n @operator("{}=")\n private __unchecked_set(index: i32, value: T): void {\n STORE(this.buffer_, index, value);\n if (isManaged()) __gc_link(changetype(this), changetype(value)); // tslint:disable-line\n }\n\n fill(value: T, start: i32 = 0, end: i32 = i32.MAX_VALUE): this {\n var buffer = this.buffer_;\n var len = this.length_;\n\n start = start < 0 ? max(len + start, 0) : min(start, len);\n end = end < 0 ? max(len + end, 0) : min(end, len);\n\n if (sizeof() == 1) {\n if (start < end) {\n memory.fill(\n changetype(buffer) + start + HEADER_SIZE,\n value,\n (end - start)\n );\n }\n } else {\n for (; start < end; ++start) {\n STORE(buffer, start, value);\n }\n }\n return this;\n }\n\n @inline\n includes(searchElement: T, fromIndex: i32 = 0): bool {\n return this.indexOf(searchElement, fromIndex) >= 0;\n }\n\n indexOf(searchElement: T, fromIndex: i32 = 0): i32 {\n var length = this.length_;\n if (length == 0 || fromIndex >= length) return -1;\n if (fromIndex < 0) fromIndex = max(length + fromIndex, 0);\n var buffer = this.buffer_;\n while (fromIndex < length) {\n if (LOAD(buffer, fromIndex) == searchElement) return fromIndex;\n ++fromIndex;\n }\n return -1;\n }\n\n lastIndexOf(searchElement: T, fromIndex: i32 = this.length_): i32 {\n var length = this.length_;\n if (length == 0) return -1;\n if (fromIndex < 0) fromIndex = length + fromIndex; // no need to clamp\n else if (fromIndex >= length) fromIndex = length - 1;\n var buffer = this.buffer_;\n while (fromIndex >= 0) { // ^\n if (LOAD(buffer, fromIndex) == searchElement) return fromIndex;\n --fromIndex;\n }\n return -1;\n }\n\n push(element: T): i32 {\n var length = this.length_;\n var buffer = this.buffer_;\n var capacity = buffer.byteLength >>> alignof();\n var newLength = length + 1; // safe only if length is checked\n if (length >= capacity) {\n const MAX_LENGTH = MAX_BLENGTH >>> alignof();\n if (length >= MAX_LENGTH) throw new Error("Invalid array length");\n buffer = reallocateUnsafe(buffer, newLength << alignof());\n this.buffer_ = buffer;\n }\n this.length_ = newLength;\n STORE(buffer, length, element);\n if (isManaged()) __gc_link(changetype(this), changetype(element)); // tslint:disable-line\n return newLength;\n }\n\n concat(items: Array): Array {\n var thisLen = this.length_;\n var otherLen = select(0, items.length_, items === null);\n var outLen = thisLen + otherLen;\n var out = new Array(outLen);\n\n if (thisLen) {\n memory.copy(\n changetype(out.buffer_) + HEADER_SIZE,\n changetype(this.buffer_) + HEADER_SIZE,\n thisLen << alignof()\n );\n }\n if (otherLen) {\n memory.copy(\n changetype(out.buffer_) + HEADER_SIZE + (thisLen << alignof()),\n changetype(items.buffer_) + HEADER_SIZE,\n otherLen << alignof()\n );\n }\n return out;\n }\n\n copyWithin(target: i32, start: i32, end: i32 = i32.MAX_VALUE): this {\n var buffer = this.buffer_;\n var len = this.length_;\n\n end = min(end, len);\n var to = target < 0 ? max(len + target, 0) : min(target, len);\n var from = start < 0 ? max(len + start, 0) : min(start, len);\n var last = end < 0 ? max(len + end, 0) : min(end, len);\n var count = min(last - from, len - to);\n\n if (from < to && to < (from + count)) {\n from += count - 1;\n to += count - 1;\n while (count) {\n STORE(buffer, to, LOAD(buffer, from));\n --from, --to, --count;\n }\n } else {\n memory.copy(\n changetype(buffer) + HEADER_SIZE + (to << alignof()),\n changetype(buffer) + HEADER_SIZE + (from << alignof()),\n count << alignof()\n );\n }\n return this;\n }\n\n pop(): T {\n var length = this.length_;\n if (length < 1) throw new RangeError("Array is empty");\n var element = LOAD(this.buffer_, --length);\n this.length_ = length;\n return element;\n }\n\n forEach(callbackfn: (value: T, index: i32, array: Array) => void): void {\n for (let index = 0, length = this.length_; index < min(length, this.length_); ++index) {\n callbackfn(LOAD(this.buffer_, index), index, this);\n }\n }\n\n map(callbackfn: (value: T, index: i32, array: Array) => U): Array {\n var length = this.length_;\n var result = new Array(length);\n var buffer = result.buffer_;\n for (let index = 0; index < min(length, this.length_); ++index) {\n STORE(buffer, index, callbackfn(LOAD(this.buffer_, index), index, this));\n }\n return result;\n }\n\n filter(callbackfn: (value: T, index: i32, array: Array) => bool): Array {\n var result = new Array();\n for (let index = 0, length = this.length_; index < min(length, this.length_); ++index) {\n let value = LOAD(this.buffer_, index);\n if (callbackfn(value, index, this)) result.push(value);\n }\n return result;\n }\n\n reduce(\n callbackfn: (previousValue: U, currentValue: T, currentIndex: i32, array: Array) => U,\n initialValue: U\n ): U {\n var accum = initialValue;\n for (let index = 0, length = this.length_; index < min(length, this.length_); ++index) {\n accum = callbackfn(accum, LOAD(this.buffer_, index), index, this);\n }\n return accum;\n }\n\n reduceRight(\n callbackfn: (previousValue: U, currentValue: T, currentIndex: i32, array: Array) => U,\n initialValue: U\n ): U {\n var accum = initialValue;\n for (let index = this.length_ - 1; index >= 0; --index) {\n accum = callbackfn(accum, LOAD(this.buffer_, index), index, this);\n }\n return accum;\n }\n\n shift(): T {\n var length = this.length_;\n if (length < 1) throw new RangeError("Array is empty");\n var buffer = this.buffer_;\n var element = LOAD(buffer, 0);\n var lastIndex = length - 1;\n memory.copy(\n changetype(buffer) + HEADER_SIZE,\n changetype(buffer) + HEADER_SIZE + sizeof(),\n lastIndex << alignof()\n );\n STORE(buffer, lastIndex, null);\n this.length_ = lastIndex;\n return element;\n }\n\n some(callbackfn: (element: T, index: i32, array: Array) => bool): bool {\n for (let index = 0, length = this.length_; index < min(length, this.length_); ++index) {\n if (callbackfn(LOAD(this.buffer_, index), index, this)) return true;\n }\n return false;\n }\n\n unshift(element: T): i32 {\n var buffer = this.buffer_;\n var capacity = buffer.byteLength >>> alignof();\n var length = this.length_;\n var newLength = length + 1; // safe only if length is checked\n if (length >= capacity) {\n const MAX_LENGTH = MAX_BLENGTH >>> alignof();\n if (length >= MAX_LENGTH) throw new Error("Invalid array length");\n buffer = reallocateUnsafe(buffer, newLength << alignof());\n capacity = buffer.byteLength >>> alignof();\n this.buffer_ = buffer;\n }\n memory.copy(\n changetype(buffer) + HEADER_SIZE + sizeof(),\n changetype(buffer) + HEADER_SIZE,\n (capacity - 1) << alignof()\n );\n STORE(buffer, 0, element);\n this.length_ = newLength;\n if (isManaged()) __gc_link(changetype(this), changetype(element)); // tslint:disable-line\n return newLength;\n }\n\n slice(begin: i32 = 0, end: i32 = i32.MAX_VALUE): Array {\n var len = this.length_;\n begin = begin < 0 ? max(begin + len, 0) : min(begin, len);\n end = end < 0 ? max(end + len, 0) : min(end, len);\n len = max(end - begin, 0);\n var sliced = new Array(len);\n if (len) {\n memory.copy(\n changetype(sliced.buffer_) + HEADER_SIZE,\n changetype(this.buffer_) + HEADER_SIZE + (begin << alignof()),\n len << alignof()\n );\n }\n return sliced;\n }\n\n splice(start: i32, deleteCount: i32 = i32.MAX_VALUE): Array {\n var length = this.length_;\n start = start < 0 ? max(length + start, 0) : min(start, length);\n deleteCount = max(min(deleteCount, length - start), 0);\n var buffer = this.buffer_;\n var spliced = new Array(deleteCount);\n var source = changetype(buffer) + HEADER_SIZE + (start << alignof());\n memory.copy(\n changetype(spliced.buffer_) + HEADER_SIZE,\n source,\n deleteCount << alignof()\n );\n var offset = start + deleteCount;\n if (length != offset) {\n memory.copy(\n source,\n changetype(buffer) + HEADER_SIZE + (offset << alignof()),\n (length - offset) << alignof()\n );\n }\n this.length_ = length - deleteCount;\n return spliced;\n }\n\n reverse(): Array {\n var buffer = this.buffer_;\n for (let front = 0, back = this.length_ - 1; front < back; ++front, --back) {\n let temp = LOAD(buffer, front);\n STORE(buffer, front, LOAD(buffer, back));\n STORE(buffer, back, temp);\n }\n return this;\n }\n\n sort(comparator: (a: T, b: T) => i32 = COMPARATOR()): this {\n // TODO remove this when flow will allow trackcing null\n assert(comparator); // The comparison function must be a function\n\n var length = this.length_;\n if (length <= 1) return this;\n var buffer = this.buffer_;\n if (length == 2) {\n let a = LOAD(buffer, 1); // a = arr[1]\n let b = LOAD(buffer, 0); // b = arr[0]\n if (comparator(a, b) < 0) {\n STORE(buffer, 1, b); // arr[1] = b;\n STORE(buffer, 0, a); // arr[0] = a;\n }\n return this;\n }\n SORT(buffer, 0, length, comparator);\n return this;\n }\n\n join(separator: string = ","): string {\n var lastIndex = this.length_ - 1;\n if (lastIndex < 0) return "";\n var result = "";\n var value: T;\n var buffer = this.buffer_;\n var sepLen = separator.length;\n var hasSeparator = sepLen != 0;\n if (value instanceof bool) {\n if (!lastIndex) return select("true", "false", LOAD(buffer, 0));\n\n let valueLen = 5; // max possible length of element len("false")\n let estLen = (valueLen + sepLen) * lastIndex + valueLen;\n let result = allocateUnsafeString(estLen);\n let offset = 0;\n for (let i = 0; i < lastIndex; ++i) {\n value = LOAD(buffer, i);\n valueLen = 4 + (!value);\n copyUnsafeString(result, offset, select("true", "false", value), 0, valueLen);\n offset += valueLen;\n if (hasSeparator) {\n copyUnsafeString(result, offset, changetype(separator), 0, sepLen);\n offset += sepLen;\n }\n }\n value = LOAD(buffer, lastIndex);\n valueLen = 4 + (!value);\n copyUnsafeString(result, offset, select("true", "false", value), 0, valueLen);\n offset += valueLen;\n\n let out = result;\n if (estLen > offset) {\n out = result.substring(0, offset);\n freeUnsafeString(result);\n }\n return out;\n } else if (isInteger()) {\n if (!lastIndex) return changetype(itoa(LOAD(buffer, 0)));\n\n const valueLen = (sizeof() <= 4 ? 10 : 20) + isSigned();\n let estLen = (valueLen + sepLen) * lastIndex + valueLen;\n let result = allocateUnsafeString(estLen);\n let offset = 0;\n for (let i = 0; i < lastIndex; ++i) {\n value = LOAD(buffer, i);\n offset += itoa_stream(changetype(result), offset, value);\n if (hasSeparator) {\n copyUnsafeString(result, offset, separator, 0, sepLen);\n offset += sepLen;\n }\n }\n value = LOAD(buffer, lastIndex);\n offset += itoa_stream(changetype(result), offset, value);\n let out = result;\n if (estLen > offset) {\n out = result.substring(0, offset);\n freeUnsafeString(result);\n }\n return out;\n } else if (isFloat()) {\n if (!lastIndex) return changetype(dtoa(LOAD(buffer, 0)));\n\n const valueLen = MAX_DOUBLE_LENGTH;\n let estLen = (valueLen + sepLen) * lastIndex + valueLen;\n let result = allocateUnsafeString(estLen);\n let offset = 0;\n for (let i = 0; i < lastIndex; ++i) {\n value = LOAD(buffer, i);\n offset += dtoa_stream(changetype(result), offset, value);\n if (hasSeparator) {\n copyUnsafeString(result, offset, separator, 0, sepLen);\n offset += sepLen;\n }\n }\n value = LOAD(buffer, lastIndex);\n offset += dtoa_stream(changetype(result), offset, value);\n let out = result;\n if (estLen > offset) {\n out = result.substring(0, offset);\n freeUnsafeString(result);\n }\n return out;\n } else if (isString()) {\n if (!lastIndex) return LOAD(buffer, 0);\n\n let estLen = 0;\n for (let i = 0, len = lastIndex + 1; i < len; ++i) {\n estLen += LOAD(buffer, i).length;\n }\n let offset = 0;\n let result = allocateUnsafeString(estLen + sepLen * lastIndex);\n for (let i = 0; i < lastIndex; ++i) {\n value = LOAD(buffer, i);\n if (value) {\n let valueLen = value.length; // tslint:disable-line:no-unsafe-any\n copyUnsafeString(result, offset, value, 0, valueLen); // tslint:disable-line:no-unsafe-any\n offset += valueLen; // tslint:disable-line:no-unsafe-any\n }\n if (hasSeparator) {\n copyUnsafeString(result, offset, separator, 0, sepLen);\n offset += sepLen;\n }\n }\n value = LOAD(buffer, lastIndex);\n if (value) {\n let valueLen = value.length; // tslint:disable-line:no-unsafe-any\n copyUnsafeString(result, offset, value, 0, valueLen); // tslint:disable-line:no-unsafe-any\n }\n return result;\n } else if (isArray()) {\n if (!lastIndex) {\n value = LOAD(buffer, 0);\n return value ? value.join(separator) : ""; // tslint:disable-line:no-unsafe-any\n }\n for (let i = 0; i < lastIndex; ++i) {\n value = LOAD(buffer, i);\n if (value) result += value.join(separator); // tslint:disable-line:no-unsafe-any\n if (hasSeparator) result += separator;\n }\n value = LOAD(buffer, lastIndex);\n if (value) result += value.join(separator); // tslint:disable-line:no-unsafe-any\n return result;\n } else if (isReference()) { // References\n if (!lastIndex) return "[object Object]";\n const valueLen = 15; // max possible length of element len("[object Object]")\n let estLen = (valueLen + sepLen) * lastIndex + valueLen;\n let result = allocateUnsafeString(estLen);\n let offset = 0;\n for (let i = 0; i < lastIndex; ++i) {\n value = LOAD(buffer, i);\n if (value) {\n copyUnsafeString(result, offset, changetype("[object Object]"), 0, valueLen);\n offset += valueLen;\n }\n if (hasSeparator) {\n copyUnsafeString(result, offset, changetype(separator), 0, sepLen);\n offset += sepLen;\n }\n }\n if (LOAD(buffer, lastIndex)) {\n copyUnsafeString(result, offset, changetype("[object Object]"), 0, valueLen);\n offset += valueLen;\n }\n let out = result;\n if (estLen > offset) {\n out = result.substring(0, offset);\n freeUnsafeString(result);\n }\n return out;\n } else {\n assert(false); // Unsupported generic typename\n }\n }\n\n @inline\n toString(): string {\n return this.join();\n }\n\n private __gc(): void {\n var buffer = this.buffer_;\n __gc_mark(changetype(buffer)); // tslint:disable-line\n if (isManaged()) {\n let offset: usize = 0;\n let end = this.length_ << alignof();\n while (offset < end) {\n __gc_mark(load(changetype(buffer) + offset, HEADER_SIZE)); // tslint:disable-line\n offset += sizeof();\n }\n }\n }\n}\n',arraybuffer:'import {\n HEADER_SIZE,\n MAX_BLENGTH,\n allocateUnsafe\n} from "./internal/arraybuffer";\n\nimport {\n Uint8ClampedArray,\n Uint8Array,\n Int8Array,\n Uint16Array,\n Int16Array,\n Uint32Array,\n Int32Array,\n Uint64Array,\n Int64Array\n} from "./typedarray";\n\nimport {\n DataView\n} from "./dataview";\n\n@sealed\nexport class ArrayBuffer {\n\n readonly byteLength: i32; // capped to [0, MAX_LENGTH]\n\n @inline static isView(value: T): bool {\n if (value === null) return false;\n if (value instanceof Uint8ClampedArray) return true;\n if (value instanceof Uint8Array) return true;\n if (value instanceof Int8Array) return true;\n if (value instanceof Uint16Array) return true;\n if (value instanceof Int16Array) return true;\n if (value instanceof Uint32Array) return true;\n if (value instanceof Int32Array) return true;\n if (value instanceof Uint64Array) return true;\n if (value instanceof Int64Array) return true;\n if (value instanceof DataView) return true;\n return false;\n }\n\n // @unsafe\n @inline get data(): usize { return changetype(this) + HEADER_SIZE; }\n\n constructor(length: i32, unsafe: bool = false) {\n if (length > MAX_BLENGTH) throw new RangeError("Invalid array buffer length");\n var buffer = allocateUnsafe(length);\n if (!unsafe) memory.fill(changetype(buffer) + HEADER_SIZE, 0, length);\n return buffer;\n }\n\n slice(begin: i32 = 0, end: i32 = MAX_BLENGTH): ArrayBuffer {\n var len = this.byteLength;\n begin = begin < 0 ? max(len + begin, 0) : min(begin, len);\n end = end < 0 ? max(len + end, 0) : min(end, len);\n len = max(end - begin, 0);\n var buffer = allocateUnsafe(len);\n memory.copy(\n changetype(buffer) + HEADER_SIZE,\n changetype(this) + HEADER_SIZE + begin,\n len\n );\n return buffer;\n }\n\n toString(): string {\n return "[object ArrayBuffer]";\n }\n}\n',"bindings/Date":"export declare function UTC(\n // NOTE: Using i32 below saves us a f64.convert_s instruction and moves the responsibility for\n // converting the value to the WASM/JS boundary.\n year: i32,\n month: i32,\n day: i32,\n hour: i32,\n minute: i32,\n second: i32,\n millisecond: f64\n): f64;\nexport declare function now(): f64;\n","bindings/Math":"export declare const E: f64;\nexport declare const LN2: f64;\nexport declare const LN10: f64;\nexport declare const LOG2E: f64;\nexport declare const LOG10E: f64;\nexport declare const PI: f64;\nexport declare const SQRT1_2: f64;\nexport declare const SQRT2: f64;\n\nexport declare function abs(x: f64): f64;\nexport declare function acos(x: f64): f64;\nexport declare function acosh(x: f64): f64;\nexport declare function asin(x: f64): f64;\nexport declare function asinh(x: f64): f64;\nexport declare function atan(x: f64): f64;\nexport declare function atan2(y: f64, x: f64): f64;\nexport declare function atanh(x: f64): f64;\nexport declare function cbrt(x: f64): f64;\nexport declare function ceil(x: f64): f64;\nexport declare function clz32(x: f64): f64;\nexport declare function cos(x: f64): f64;\nexport declare function cosh(x: f64): f64;\nexport declare function exp(x: f64): f64;\nexport declare function expm1(x: f64): f64;\nexport declare function floor(x: f64): f64;\nexport declare function fround(x: f64): f32;\nexport declare function hypot(value1: f64, value2: f64): f64; // TODO: rest\nexport declare function imul(a: f64, b: f64): f64;\nexport declare function log(x: f64): f64;\nexport declare function log10(x: f64): f64;\nexport declare function log1p(x: f64): f64;\nexport declare function log2(x: f64): f64;\nexport declare function max(value1: f64, value2: f64): f64; // TODO: rest\nexport declare function min(value1: f64, value2: f64): f64; // TODO: rest\nexport declare function pow(base: f64, exponent: f64): f64;\nexport declare function random(): f64;\nexport declare function round(x: f64): f64;\nexport declare function sign(x: f64): f64;\nexport declare function sin(x: f64): f64;\nexport declare function sinh(x: f64): f64;\nexport declare function sqrt(x: f64): f64;\nexport declare function tan(x: f64): f64;\nexport declare function tanh(x: f64): f64;\nexport declare function trunc(x: f64): f64;\n",builtins:"/* tslint:disable */\n\n@builtin @inline export const NaN: f64 = 0 / 0;\n@builtin @inline export const Infinity: f64 = 1 / 0;\n\n@builtin export declare function isInteger(value?: T): bool;\n@builtin export declare function isFloat(value?: T): bool;\n@builtin export declare function isSigned(value?: T): bool;\n@builtin export declare function isReference(value?: T): bool;\n@builtin export declare function isString(value?: T): bool;\n@builtin export declare function isArray(value?: T): bool;\n@builtin export declare function isArrayLike(value?: T): bool;\n@builtin export declare function isFunction(value?: T): bool;\n@builtin export declare function isNullable(value?: T): bool;\n@builtin export declare function isDefined(expression: void): bool;\n@builtin export declare function isConstant(expression: void): bool;\n@builtin export declare function isManaged(value?: T): bool;\n@inline export function isNaN(value: T): bool { return value != value; }\n@inline export function isFinite(value: T): bool { return value - value == 0; }\n\n@builtin export declare function clz(value: T): T;\n@builtin export declare function ctz(value: T): T;\n@builtin export declare function popcnt(value: T): T;\n@builtin export declare function rotl(value: T, shift: T): T;\n@builtin export declare function rotr(value: T, shift: T): T;\n@builtin export declare function abs(value: T): T;\n@builtin export declare function max(left: T, right: T): T;\n@builtin export declare function min(left: T, right: T): T;\n@builtin export declare function ceil(value: T): T;\n@builtin export declare function floor(value: T): T;\n@builtin export declare function copysign(left: T, right: T): T;\n@builtin export declare function nearest(value: T): T;\n@builtin export declare function reinterpret(value: void): T;\n@builtin export declare function sqrt(value: T): T;\n@builtin export declare function trunc(value: T): T;\n@builtin export declare function load(offset: usize, immOffset?: usize, immAlign?: usize): T;\n@builtin export declare function store(offset: usize, value: void, immOffset?: usize, immAlign?: usize): void;\n@builtin export declare function sizeof(): usize; // | u32 / u64\n@builtin export declare function alignof(): usize; // | u32 / u64\n@builtin export declare function offsetof(fieldName?: string): usize; // | u32 / u64\n@builtin export declare function select(ifTrue: T, ifFalse: T, condition: bool): T;\n@builtin export declare function unreachable(): void;\n@builtin export declare function changetype(value: void): T;\n@builtin export declare function assert(isTrueish: T, message?: string): T;\n@builtin export declare function unchecked(expr: T): T;\n@builtin export declare function call_indirect(target: void, ...args: void[]): T;\n@builtin export declare function instantiate(...args: void[]): T;\n\nexport namespace atomic {\n @builtin export declare function load(offset: usize, immOffset?: usize): T;\n @builtin export declare function store(offset: usize, value: void, immOffset?: usize): void;\n @builtin export declare function add(ptr: usize, value: T, immOffset?: usize): T;\n @builtin export declare function sub(ptr: usize, value: T, immOffset?: usize): T;\n @builtin export declare function and(ptr: usize, value: T, immOffset?: usize): T;\n @builtin export declare function or(ptr: usize, value: T, immOffset?: usize): T;\n @builtin export declare function xor(ptr: usize, value: T, immOffset?: usize): T;\n @builtin export declare function xchg(ptr: usize, value: T, immOffset?: usize): T;\n @builtin export declare function cmpxchg(ptr: usize, expected:T, replacement: T, immOffset?: usize): T;\n @builtin export declare function wait(ptr: usize, expected:T, timeout:i64): i32;\n @builtin export declare function notify(ptr: usize, count: u32): u32;\n}\n\n@builtin export declare function i8(value: void): i8;\nexport namespace i8 {\n @lazy export const MIN_VALUE: i8 = -128;\n @lazy export const MAX_VALUE: i8 = 127;\n}\n\n@builtin export declare function i16(value: void): i16;\nexport namespace i16 {\n @lazy export const MIN_VALUE: i16 = -32768;\n @lazy export const MAX_VALUE: i16 = 32767;\n}\n\n@builtin export declare function i32(value: void): i32;\nexport namespace i32 {\n @lazy export const MIN_VALUE: i32 = -2147483648;\n @lazy export const MAX_VALUE: i32 = 2147483647;\n @builtin export declare function clz(value: i32): i32;\n @builtin export declare function ctz(value: i32): i32;\n @builtin export declare function popcnt(value: i32): i32;\n @builtin export declare function rotl(value: i32, shift: i32): i32;\n @builtin export declare function rotr(value: i32, shift: i32): i32;\n @builtin export declare function reinterpret_f32(value: f32): i32;\n @builtin export declare function load8_s(offset: usize, immOffset?: usize, immAlign?: usize): i32;\n @builtin export declare function load8_u(offset: usize, immOffset?: usize, immAlign?: usize): i32;\n @builtin export declare function load16_s(offset: usize, immOffset?: usize, immAlign?: usize): i32;\n @builtin export declare function load16_u(offset: usize, immOffset?: usize, immAlign?: usize): i32;\n @builtin export declare function load(offset: usize, immOffset?: usize, immAlign?: usize): i32;\n @builtin export declare function store8(offset: usize, value: i32, immOffset?: usize, immAlign?: usize): void;\n @builtin export declare function store16(offset: usize, value: i32, immOffset?: usize, immAlign?: usize): void;\n @builtin export declare function store(offset: usize, value: i32, immOffset?: usize, immAlign?: usize): void;\n \n export namespace atomic {\n @builtin export declare function load8_s(offset: usize, immOffset?: usize): i32;\n @builtin export declare function load8_u(offset: usize, immOffset?: usize): i32;\n @builtin export declare function load16_s(offset: usize, immOffset?: usize): i32;\n @builtin export declare function load16_u(offset: usize, immOffset?: usize): i32;\n @builtin export declare function load(offset: usize, immOffset?: usize): i32;\n @builtin export declare function store8(offset: usize, value: i32, immOffset?: usize): void;\n @builtin export declare function store16(offset: usize, value: i32, immOffset?: usize): void;\n @builtin export declare function store(offset: usize, value: i32, immOffset?: usize): void;\n @builtin export declare function wait(ptr: usize, expected:i32, timeout:i64): i32;\n @builtin export declare function notify(ptr: usize, count:u32): u32;\n\n export namespace rmw8_u {\n @builtin export declare function add(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function sub(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function and(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function or(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function xor(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function xchg(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function cmpxchg(offset: usize, expected:i32, replacement: i32, immOffset?: usize): i32;\n }\n\n export namespace rmw16_u {\n @builtin export declare function add(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function sub(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function and(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function or(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function xor(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function xchg(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function cmpxchg(offset: usize, expected:i32, replacement: i32, immOffset?: usize): i32;\n }\n\n export namespace rmw {\n @builtin export declare function add(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function sub(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function and(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function or(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function xor(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function xchg(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function cmpxchg(offset: usize, expected:i32, replacement: i32, immOffset?: usize): i32;\n }\n }\n}\n\n@builtin export declare function i64(value: void): i64;\nexport namespace i64 {\n @lazy export const MIN_VALUE: i64 = -9223372036854775808;\n @lazy export const MAX_VALUE: i64 = 9223372036854775807;\n @builtin export declare function clz(value: i64): i64;\n @builtin export declare function ctz(value: i64): i64;\n @builtin export declare function load8_s(offset: usize, immOffset?: usize, immAlign?: usize): i64;\n @builtin export declare function load8_u(offset: usize, immOffset?: usize, immAlign?: usize): u64;\n @builtin export declare function load16_s(offset: usize, immOffset?: usize, immAlign?: usize): i64;\n @builtin export declare function load16_u(offset: usize, immOffset?: usize, immAlign?: usize): u64;\n @builtin export declare function load32_s(offset: usize, immOffset?: usize, immAlign?: usize): i64;\n @builtin export declare function load32_u(offset: usize, immOffset?: usize, immAlign?: usize): u64;\n @builtin export declare function load(offset: usize, immOffset?: usize): i64;\n @builtin export declare function popcnt(value: i64): i64;\n @builtin export declare function rotl(value: i64, shift: i64): i64;\n @builtin export declare function rotr(value: i64, shift: i64): i64;\n @builtin export declare function reinterpret_f64(value: f64): i64;\n @builtin export declare function store8(offset: usize, value: i64, immOffset?: usize, immAlign?: usize): void;\n @builtin export declare function store16(offset: usize, value: i64, immOffset?: usize, immAlign?: usize): void;\n @builtin export declare function store32(offset: usize, value: i64, immOffset?: usize, immAlign?: usize): void;\n @builtin export declare function store(offset: usize, value: i64, immOffset?: usize, immAlign?: usize): void;\n\n namespace atomic {\n @builtin export declare function load8_s(offset: usize, immOffset?: usize): i64;\n @builtin export declare function load8_u(offset: usize, immOffset?: usize): i64;\n @builtin export declare function load16_s(offset: usize, immOffset?: usize): i64;\n @builtin export declare function load16_u(offset: usize, immOffset?: usize): i64;\n @builtin export declare function load(offset: usize, immOffset?: usize): i64;\n @builtin export declare function store8(offset: usize, value: i64, immOffset?: usize): void;\n @builtin export declare function store16(offset: usize, value: i64, immOffset?: usize): void;\n @builtin export declare function store(offset: usize, value: i64, immOffset?: usize): void;\n @builtin export declare function wait(ptr: usize, expected:i64, timeout:i64): i32;\n @builtin export declare function notify(ptr: usize, count:u32): u32;\n\n export namespace rmw8_u {\n @builtin export declare function add(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function sub(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function and(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function or(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function xor(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function xchg(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function cmpxchg(offset: usize, expected:i64, replacement: i64, immOffset?: usize): i64;\n }\n\n export namespace rmw16_u {\n @builtin export declare function add(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function sub(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function and(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function or(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function xor(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function xchg(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function cmpxchg(offset: usize, expected:i64, replacement: i64, immOffset?: usize): i64;\n }\n\n export namespace rmw32_u {\n @builtin export declare function add(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function sub(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function and(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function or(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function xor(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function xchg(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function cmpxchg(offset: usize, expected:i64, replacement: i64, immOffset?: usize): i64;\n }\n\n export namespace rmw {\n @builtin export declare function add(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function sub(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function and(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function or(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function xor(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function xchg(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function cmpxchg(offset: usize, expected:i64, replacement: i64, immOffset?: usize): i64;\n }\n } \n}\n\n@builtin export declare function isize(value: void): isize;\nexport namespace isize {\n @lazy export const MIN_VALUE: isize = sizeof() == sizeof()\n ? -2147483648\n : -9223372036854775808;\n @lazy export const MAX_VALUE: isize = sizeof() == sizeof()\n ? 2147483647\n : 9223372036854775807;\n}\n\n@builtin export declare function u8(value: void): u8;\nexport namespace u8 {\n @lazy export const MIN_VALUE: u8 = 0;\n @lazy export const MAX_VALUE: u8 = 255;\n}\n\n@builtin export declare function u16(value: void): u16;\nexport namespace u16 {\n @lazy export const MIN_VALUE: u16 = 0;\n @lazy export const MAX_VALUE: u16 = 65535;\n}\n\n@builtin export declare function u32(value: void): u32;\nexport namespace u32 {\n @lazy export const MIN_VALUE: u32 = 0;\n @lazy export const MAX_VALUE: u32 = 4294967295;\n}\n\n@builtin export declare function u64(value: void): u64;\nexport namespace u64 {\n @lazy export const MIN_VALUE: u64 = 0;\n @lazy export const MAX_VALUE: u64 = 18446744073709551615;\n}\n\n@builtin export declare function usize(value: void): usize;\nexport namespace usize {\n @lazy export const MIN_VALUE: usize = 0;\n @lazy export const MAX_VALUE: usize = sizeof() == sizeof()\n ? 4294967295\n : 18446744073709551615;\n}\n\n@builtin export declare function bool(value: void): bool;\nexport namespace bool {\n @lazy export const MIN_VALUE: bool = false;\n @lazy export const MAX_VALUE: bool = true;\n}\n\n@builtin export declare function f32(value: void): f32;\nexport namespace f32 {\n @lazy export const EPSILON = reinterpret(0x34000000); // 0x1p-23f\n @lazy export const MIN_VALUE = reinterpret(0x00000001); // 0x0.000001p+0f\n @lazy export const MAX_VALUE = reinterpret(0x7F7FFFFF); // 0x1.fffffep+127f\n @lazy export const MIN_NORMAL_VALUE = reinterpret(0x00800000); // 0x1p-126f\n @lazy export const MIN_SAFE_INTEGER: f32 = -16777215;\n @lazy export const MAX_SAFE_INTEGER: f32 = 16777215;\n @builtin export declare function abs(value: f32): f32;\n @builtin export declare function ceil(value: f32): f32;\n @builtin export declare function copysign(x: f32, y: f32): f32;\n @builtin export declare function floor(value: f32): f32;\n @builtin export declare function load(offset: usize, immOffset?: usize, immAlign?: usize): f32;\n @builtin export declare function max(left: f32, right: f32): f32;\n @builtin export declare function min(left: f32, right: f32): f32;\n @builtin export declare function nearest(value: f32): f32;\n @builtin export declare function reinterpret_i32(value: i32): f32;\n @builtin export declare function sqrt(value: f32): f32;\n @builtin export declare function store(offset: usize, value: f32, immOffset?: usize, immAlign?: usize): void;\n @builtin export declare function trunc(value: f32): f32;\n}\n\n@builtin export declare function f64(value: void): f64;\nexport namespace f64 {\n @lazy export const EPSILON = reinterpret(0x3CB0000000000000); // 0x1p-52\n @lazy export const MIN_VALUE = reinterpret(0x0000000000000001); // 0x0.0000000000001p+0\n @lazy export const MAX_VALUE = reinterpret(0x7FEFFFFFFFFFFFFF); // 0x1.fffffffffffffp+1023\n @lazy export const MIN_NORMAL_VALUE = reinterpret(0x0010000000000000); // 0x1p-1022\n @lazy export const MIN_SAFE_INTEGER: f64 = -9007199254740991;\n @lazy export const MAX_SAFE_INTEGER: f64 = 9007199254740991;\n @builtin export declare function abs(value: f64): f64;\n @builtin export declare function ceil(value: f64): f64;\n @builtin export declare function copysign(x: f64, y: f64): f64;\n @builtin export declare function floor(value: f64): f64;\n @builtin export declare function load(offset: usize, immOffset?: usize, immAlign?: usize): f64;\n @builtin export declare function max(left: f64, right: f64): f64;\n @builtin export declare function min(left: f64, right: f64): f64;\n @builtin export declare function nearest(value: f64): f64;\n @builtin export declare function reinterpret_i64(value: i64): f64;\n @builtin export declare function sqrt(value: f64): f64;\n @builtin export declare function store(offset: usize, value: f64, immOffset?: usize, immAlign?: usize): void;\n @builtin export declare function trunc(value: f64): f64;\n}\n\n@builtin export declare function v128(a: i8, b: i8, c: i8, d: i8, e: i8, f: i8, g: i8, h: i8, i: i8, j: i8, k: i8, l: i8, m: i8, n: i8, o: i8, p: i8): v128;\nexport namespace v128 {\n @builtin export declare function splat(x: T): v128;\n @builtin export declare function extract_lane(x: v128, idx: u8): T;\n @builtin export declare function replace_lane(x: v128, idx: u8, value: T): v128;\n @builtin export declare function shuffle(a: v128, b: v128, ...lanes: u8[]): v128;\n @builtin export declare function load(offset: usize, immOffset?: usize, immAlign?: usize): v128;\n @builtin export declare function store(offset: usize, value: v128, immOffset?: usize, immAlign?: usize): void;\n @builtin export declare function add(a: v128, b: v128): v128;\n @builtin export declare function sub(a: v128, b: v128): v128;\n @builtin export declare function mul(a: v128, b: v128): v128; // except i64\n @builtin export declare function div(a: v128, b: v128): v128; // f32, f64 only\n @builtin export declare function neg(a: v128): v128;\n @builtin export declare function add_saturate(a: v128, b: v128): v128;\n @builtin export declare function sub_saturate(a: v128, b: v128): v128;\n @builtin export declare function shl(a: v128, b: i32): v128;\n @builtin export declare function shr(a: v128, b: i32): v128;\n @builtin export declare function and(a: v128, b: v128): v128;\n @builtin export declare function or(a: v128, b: v128): v128;\n @builtin export declare function xor(a: v128, b: v128): v128;\n @builtin export declare function not(a: v128): v128;\n @builtin export declare function bitselect(v1: v128, v2: v128, c: v128): v128;\n @builtin export declare function any_true(a: v128): bool;\n @builtin export declare function all_true(a: v128): bool;\n @builtin export declare function min(a: v128, b: v128): v128; // f32, f64 only\n @builtin export declare function max(a: v128, b: v128): v128; // f32, f64 only\n @builtin export declare function abs(a: v128): v128; // f32, f64 only\n @builtin export declare function sqrt(a: v128): v128; // f32, f64 only\n @builtin export declare function eq(a: v128, b: v128): v128;\n @builtin export declare function ne(a: v128, b: v128): v128;\n @builtin export declare function lt(a: v128, b: v128): v128;\n @builtin export declare function le(a: v128, b: v128): v128;\n @builtin export declare function gt(a: v128, b: v128): v128;\n @builtin export declare function ge(a: v128, b: v128): v128;\n @builtin export declare function convert(a: v128): v128;\n @builtin export declare function trunc(a: v128): v128;\n}\n\n@builtin export declare function i8x16(a: i8, b: i8, c: i8, d: i8, e: i8, f: i8, g: i8, h: i8, i: i8, j: i8, k: i8, l: i8, m: i8, n: i8, o: i8, p: i8): v128;\nexport namespace i8x16 {\n @builtin export declare function splat(x: i8): v128;\n @builtin export declare function extract_lane_s(x: v128, idx: u8): i8;\n @builtin export declare function extract_lane_u(x: v128, idx: u8): u8;\n @builtin export declare function replace_lane(x: v128, idx: u8, value: i8): v128;\n @builtin export declare function add(a: v128, b: v128): v128;\n @builtin export declare function sub(a: v128, b: v128): v128;\n @builtin export declare function mul(a: v128, b: v128): v128;\n @builtin export declare function neg(a: v128): v128;\n @builtin export declare function add_saturate_s(a: v128, b: v128): v128;\n @builtin export declare function add_saturate_u(a: v128, b: v128): v128;\n @builtin export declare function sub_saturate_s(a: v128, b: v128): v128;\n @builtin export declare function sub_saturate_u(a: v128, b: v128): v128;\n @builtin export declare function shl(a: v128, b: i32): v128;\n @builtin export declare function shr_s(a: v128, b: i32): v128;\n @builtin export declare function shr_u(a: v128, b: i32): v128;\n @builtin export declare function any_true(a: v128): bool;\n @builtin export declare function all_true(a: v128): bool;\n @builtin export declare function eq(a: v128, b: v128): v128;\n @builtin export declare function ne(a: v128, b: v128): v128;\n @builtin export declare function lt_s(a: v128, b: v128): v128;\n @builtin export declare function lt_u(a: v128, b: v128): v128;\n @builtin export declare function le_s(a: v128, b: v128): v128;\n @builtin export declare function le_u(a: v128, b: v128): v128;\n @builtin export declare function gt_s(a: v128, b: v128): v128;\n @builtin export declare function gt_u(a: v128, b: v128): v128;\n @builtin export declare function ge_s(a: v128, b: v128): v128;\n @builtin export declare function ge_u(a: v128, b: v128): v128;\n}\n\n@builtin export declare function i16x8(a: i16, b: i16, c: i16, d: i16, e: i16, f: i16, g: i16, h: i16): v128;\nexport namespace i16x8 {\n @builtin export declare function splat(x: i16): v128;\n @builtin export declare function extract_lane_s(x: v128, idx: u8): i16;\n @builtin export declare function extract_lane_u(x: v128, idx: u8): u16;\n @builtin export declare function replace_lane(x: v128, idx: u8, value: i16): v128;\n @builtin export declare function add(a: v128, b: v128): v128;\n @builtin export declare function sub(a: v128, b: v128): v128;\n @builtin export declare function mul(a: v128, b: v128): v128;\n @builtin export declare function neg(a: v128): v128;\n @builtin export declare function add_saturate_s(a: v128, b: v128): v128;\n @builtin export declare function add_saturate_u(a: v128, b: v128): v128;\n @builtin export declare function sub_saturate_s(a: v128, b: v128): v128;\n @builtin export declare function sub_saturate_u(a: v128, b: v128): v128;\n @builtin export declare function shl(a: v128, b: i32): v128;\n @builtin export declare function shr_s(a: v128, b: i32): v128;\n @builtin export declare function shr_u(a: v128, b: i32): v128;\n @builtin export declare function any_true(a: v128): bool;\n @builtin export declare function all_true(a: v128): bool;\n @builtin export declare function eq(a: v128, b: v128): v128;\n @builtin export declare function ne(a: v128, b: v128): v128;\n @builtin export declare function lt_s(a: v128, b: v128): v128;\n @builtin export declare function lt_u(a: v128, b: v128): v128;\n @builtin export declare function le_s(a: v128, b: v128): v128;\n @builtin export declare function le_u(a: v128, b: v128): v128;\n @builtin export declare function gt_s(a: v128, b: v128): v128;\n @builtin export declare function gt_u(a: v128, b: v128): v128;\n @builtin export declare function ge_s(a: v128, b: v128): v128;\n @builtin export declare function ge_u(a: v128, b: v128): v128;\n}\n\n@builtin export declare function i32x4(a: i32, b: i32, c: i32, d: i32): v128;\nexport namespace i32x4 {\n @builtin export declare function splat(x: i32): v128;\n @builtin export declare function extract_lane(x: v128, idx: u8): i32;\n @builtin export declare function replace_lane(x: v128, idx: u8, value: i32): v128;\n @builtin export declare function add(a: v128, b: v128): v128;\n @builtin export declare function sub(a: v128, b: v128): v128;\n @builtin export declare function mul(a: v128, b: v128): v128;\n @builtin export declare function neg(a: v128): v128;\n @builtin export declare function shl(a: v128, b: i32): v128;\n @builtin export declare function shr_s(a: v128, b: i32): v128;\n @builtin export declare function shr_u(a: v128, b: i32): v128;\n @builtin export declare function any_true(a: v128): bool;\n @builtin export declare function all_true(a: v128): bool;\n @builtin export declare function eq(a: v128, b: v128): v128;\n @builtin export declare function ne(a: v128, b: v128): v128;\n @builtin export declare function lt_s(a: v128, b: v128): v128;\n @builtin export declare function lt_u(a: v128, b: v128): v128;\n @builtin export declare function le_s(a: v128, b: v128): v128;\n @builtin export declare function le_u(a: v128, b: v128): v128;\n @builtin export declare function gt_s(a: v128, b: v128): v128;\n @builtin export declare function gt_u(a: v128, b: v128): v128;\n @builtin export declare function ge_s(a: v128, b: v128): v128;\n @builtin export declare function ge_u(a: v128, b: v128): v128;\n @builtin export declare function trunc_s_f32x4_sat(a: v128): v128;\n @builtin export declare function trunc_u_f32x4_sat(a: v128): v128;\n}\n\n@builtin export declare function i64x2(a: i64, b: i64): v128;\nexport namespace i64x2 {\n @builtin export declare function splat(x: i64): v128;\n @builtin export declare function extract_lane(x: v128, idx: u8): i64;\n @builtin export declare function replace_lane(x: v128, idx: u8, value: i64): v128;\n @builtin export declare function add(a: v128, b: v128): v128;\n @builtin export declare function sub(a: v128, b: v128): v128;\n @builtin export declare function mul(a: v128, b: v128): v128;\n @builtin export declare function neg(a: v128): v128;\n @builtin export declare function shl(a: v128, b: i32): v128;\n @builtin export declare function shr_s(a: v128, b: i32): v128;\n @builtin export declare function shr_u(a: v128, b: i32): v128;\n @builtin export declare function any_true(a: v128): bool;\n @builtin export declare function all_true(a: v128): bool;\n @builtin export declare function trunc_s_f64x2_sat(a: v128): v128;\n @builtin export declare function trunc_u_f64x2_sat(a: v128): v128;\n}\n\n@builtin export declare function f32x4(a: f32, b: f32, c: f32, d: f32): v128;\nexport namespace f32x4 {\n @builtin export declare function splat(x: f32): v128;\n @builtin export declare function extract_lane(x: v128, idx: u8): f32;\n @builtin export declare function replace_lane(x: v128, idx: u8, value: f32): v128;\n @builtin export declare function add(a: v128, b: v128): v128;\n @builtin export declare function sub(a: v128, b: v128): v128;\n @builtin export declare function mul(a: v128, b: v128): v128;\n @builtin export declare function div(a: v128, b: v128): v128;\n @builtin export declare function neg(a: v128): v128;\n @builtin export declare function min(a: v128, b: v128): v128;\n @builtin export declare function max(a: v128, b: v128): v128;\n @builtin export declare function abs(a: v128): v128;\n @builtin export declare function sqrt(a: v128): v128;\n @builtin export declare function eq(a: v128, b: v128): v128;\n @builtin export declare function ne(a: v128, b: v128): v128;\n @builtin export declare function lt(a: v128, b: v128): v128;\n @builtin export declare function le(a: v128, b: v128): v128;\n @builtin export declare function gt(a: v128, b: v128): v128;\n @builtin export declare function ge(a: v128, b: v128): v128;\n @builtin export declare function convert_s_i32x4(a: v128): v128;\n @builtin export declare function convert_u_i32x4(a: v128): v128;\n}\n\n@builtin export declare function f64x2(a: f64, b: f64): v128;\nexport namespace f64x2 {\n @builtin export declare function splat(x: f64): v128;\n @builtin export declare function extract_lane(x: v128, idx: u8): f64;\n @builtin export declare function replace_lane(x: v128, idx: u8, value: f64): v128;\n @builtin export declare function add(a: v128, b: v128): v128;\n @builtin export declare function sub(a: v128, b: v128): v128;\n @builtin export declare function mul(a: v128, b: v128): v128;\n @builtin export declare function div(a: v128, b: v128): v128;\n @builtin export declare function neg(a: v128): v128;\n @builtin export declare function min(a: v128, b: v128): v128;\n @builtin export declare function max(a: v128, b: v128): v128;\n @builtin export declare function abs(a: v128): v128;\n @builtin export declare function sqrt(a: v128): v128;\n @builtin export declare function eq(a: v128, b: v128): v128;\n @builtin export declare function ne(a: v128, b: v128): v128;\n @builtin export declare function lt(a: v128, b: v128): v128;\n @builtin export declare function le(a: v128, b: v128): v128;\n @builtin export declare function gt(a: v128, b: v128): v128;\n @builtin export declare function ge(a: v128, b: v128): v128;\n @builtin export declare function convert_s_i64x2(a: v128): v128;\n @builtin export declare function convert_u_i64x2(a: v128): v128;\n}\n\nexport namespace v8x16 {\n @builtin export declare function shuffle(a: v128, b: v128, l0: u8, l1: u8, l2: u8, l3: u8, l4: u8, l5: u8, l6: u8, l7: u8, l8: u8, l9: u8, l10: u8, l11: u8, l12: u8, l13: u8, l14: u8, l15: u8): v128;\n}\n\n@builtin export declare function start(): void;\n","collector/itcm":'/**\n * Incremental Tri-Color-Marking Garbage Collector.\n *\n * @module std/assembly/collector/itcm\n *//***/\n\n// Largely based on Bach Le\'s μgc, see: https://github.com/bullno1/ugc\n\n@inline const TRACE = false;\n\n/** Size of a managed object header. */\n@inline export const HEADER_SIZE: usize = (offsetof() + AL_MASK) & ~AL_MASK;\n\nimport { AL_MASK, MAX_SIZE_32 } from "../internal/allocator";\nimport { iterateRoots } from "../gc";\n\n/** Collector states. */\nconst enum State {\n /** Not yet initialized. */\n INIT = 0,\n /** Currently transitioning from SWEEP to MARK state. */\n IDLE = 1,\n /** Currently marking reachable objects. */\n MARK = 2,\n /** Currently sweeping unreachable objects. */\n SWEEP = 3\n}\n\n/** Current collector state. */\nvar state = State.INIT;\n/** Current white color value. */\nvar white = 0;\n\n// From and to spaces\nvar fromSpace: ManagedObjectList;\nvar toSpace: ManagedObjectList;\nvar iter: ManagedObject;\n\n// ╒═══════════════ Managed object layout (32-bit) ════════════════╕\n// 3 2 1\n// 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 bits\n// ├─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┼─┼─┴─┤ ┐\n// │ next │0│ C │ ◄─┐ = nextWithColor\n// ├─────────────────────────────────────────────────────────┴─┴───┤ │ usize\n// │ prev │ ◄─┘\n// ├───────────────────────────────────────────────────────────────┤\n// │ hookFn │\n// ╞═══════════════════════════════════════════════════════════════╡ SIZE ┘ ◄─ user-space reference\n// │ ... data ... │\n// └───────────────────────────────────────────────────────────────┘\n// C: color\n\n/** Represents a managed object in memory, consisting of a header followed by the object\'s data. */\n@unmanaged class ManagedObject {\n\n /** Pointer to the next object with color flags stored in the alignment bits. */\n nextWithColor: usize;\n\n /** Pointer to the previous object. */\n prev: ManagedObject;\n\n /** Class-specific hook function called with the user-space reference. */\n hookFn: (ref: usize) => void;\n\n /** Gets the pointer to the next object. */\n get next(): ManagedObject {\n return changetype(this.nextWithColor & ~3);\n }\n\n /** Sets the pointer to the next object. */\n set next(obj: ManagedObject) {\n this.nextWithColor = changetype(obj) | (this.nextWithColor & 3);\n }\n\n /** Gets this object\'s color. */\n get color(): i32 {\n return this.nextWithColor & 3;\n }\n\n /** Sets this object\'s color. */\n set color(color: i32) {\n this.nextWithColor = (this.nextWithColor & ~3) | color;\n }\n\n /** Unlinks this object from its list. */\n unlink(): void {\n var next = this.next;\n var prev = this.prev;\n if (TRACE) trace(" unlink", 3, objToRef(prev), objToRef(this), objToRef(next));\n next.prev = prev;\n prev.next = next;\n }\n\n /** Marks this object as gray, that is reachable with unscanned children. */\n makeGray(): void {\n if (TRACE) trace(" makeGray", 1, objToRef(this));\n const gray = 2;\n if (this == iter) iter = this.prev;\n this.unlink();\n toSpace.push(this);\n this.nextWithColor = (this.nextWithColor & ~3) | gray;\n }\n}\n\n/** A list of managed objects. Used for the from and to spaces. */\n@unmanaged class ManagedObjectList extends ManagedObject {\n\n /** Inserts an object. */\n push(obj: ManagedObject): void {\n var prev = this.prev;\n if (TRACE) trace(" push", 3, objToRef(prev), objToRef(obj), objToRef(this));\n obj.next = this;\n obj.prev = prev;\n prev.next = obj;\n this.prev = obj;\n }\n\n /** Clears this list. */\n clear(): void {\n if (TRACE) trace(" clear", 1, objToRef(this));\n this.nextWithColor = changetype(this);\n this.prev = this;\n }\n}\n\n/** Performs a single step according to the current state. */\nfunction step(): void {\n var obj: ManagedObject;\n switch (state) {\n case State.INIT: {\n if (TRACE) trace("gc~step/INIT");\n fromSpace = changetype(memory.allocate(HEADER_SIZE));\n fromSpace.hookFn = changetype<(ref: usize) => void>(-1); // would error\n fromSpace.clear();\n toSpace = changetype(memory.allocate(HEADER_SIZE));\n toSpace.hookFn = changetype<(ref: usize) => void>(-1); // would error\n toSpace.clear();\n iter = toSpace;\n state = State.IDLE;\n if (TRACE) trace("gc~state = IDLE");\n // fall-through\n }\n case State.IDLE: {\n if (TRACE) trace("gc~step/IDLE");\n iterateRoots(__gc_mark);\n state = State.MARK;\n if (TRACE) trace("gc~state = MARK");\n break;\n }\n case State.MARK: {\n obj = iter.next;\n if (obj !== toSpace) {\n if (TRACE) trace("gc~step/MARK iterate", 1, objToRef(obj));\n iter = obj;\n obj.color = !white;\n // if (TRACE) {\n // trace(" next/prev/hook", 3,\n // changetype(obj.next),\n // changetype(obj.prev),\n // changetype(obj.hookFn)\n // );\n // }\n obj.hookFn(objToRef(obj));\n } else {\n if (TRACE) trace("gc~step/MARK finish");\n iterateRoots(__gc_mark);\n obj = iter.next;\n if (obj === toSpace) {\n let from = fromSpace;\n fromSpace = toSpace;\n toSpace = from;\n white = !white;\n iter = from.next;\n state = State.SWEEP;\n if (TRACE) trace("gc~state = SWEEP");\n }\n }\n break;\n }\n case State.SWEEP: {\n obj = iter;\n if (obj !== toSpace) {\n if (TRACE) trace("gc~step/SWEEP free", 1, objToRef(obj));\n iter = obj.next;\n if (changetype(obj) >= HEAP_BASE) memory.free(changetype(obj));\n } else {\n if (TRACE) trace("gc~step/SWEEP finish");\n toSpace.clear();\n state = State.IDLE;\n if (TRACE) trace("gc~state = IDLE");\n }\n break;\n }\n }\n}\n\n@inline function refToObj(ref: usize): ManagedObject {\n return changetype(ref - HEADER_SIZE);\n}\n\n@inline function objToRef(obj: ManagedObject): usize {\n return changetype(obj) + HEADER_SIZE;\n}\n\n// Garbage collector interface\n\n@global export function __gc_allocate(\n size: usize,\n markFn: (ref: usize) => void\n): usize {\n if (TRACE) trace("gc.allocate", 1, size);\n if (size > MAX_SIZE_32 - HEADER_SIZE) unreachable();\n step(); // also makes sure it\'s initialized\n var obj = changetype(memory.allocate(HEADER_SIZE + size));\n obj.hookFn = markFn;\n obj.color = white;\n fromSpace.push(obj);\n return objToRef(obj);\n}\n\n@global export function __gc_link(parentRef: usize, childRef: usize): void {\n if (TRACE) trace("gc.link", 2, parentRef, childRef);\n var parent = refToObj(parentRef);\n if (parent.color == !white && refToObj(childRef).color == white) parent.makeGray();\n}\n\n@global export function __gc_mark(ref: usize): void {\n if (TRACE) trace("gc.mark", 1, ref);\n if (ref) {\n let obj = refToObj(ref);\n if (obj.color == white) obj.makeGray();\n }\n}\n\n@global export function __gc_collect(): void {\n if (TRACE) trace("gc.collect");\n // begin collecting if not yet collecting\n switch (state) {\n case State.INIT:\n case State.IDLE: step();\n }\n // finish the cycle\n while (state != State.IDLE) step();\n}\n',dataview:'import {\n HEADER_SIZE,\n MAX_BLENGTH\n} from "./internal/arraybuffer";\n\nexport class DataView {\n\n constructor(\n readonly buffer: ArrayBuffer,\n readonly byteOffset: i32 = 0,\n readonly byteLength: i32 = i32.MIN_VALUE // FIXME\n ) {\n if (byteLength === i32.MIN_VALUE) byteLength = buffer.byteLength - byteOffset; // FIXME\n if (byteOffset > MAX_BLENGTH) throw new RangeError("Invalid byteOffset");\n if (byteLength > MAX_BLENGTH) throw new RangeError("Invalid byteLength");\n if (byteOffset + byteLength > buffer.byteLength) throw new RangeError("Invalid length");\n }\n\n getFloat32(byteOffset: i32, littleEndian: boolean = false): f32 {\n checkOffset(byteOffset, 4, this.byteLength);\n return littleEndian\n ? load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE)\n : reinterpret(\n bswap(\n load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE)\n )\n );\n }\n\n getFloat64(byteOffset: i32, littleEndian: boolean = false): f64 {\n checkOffset(byteOffset, 8, this.byteLength);\n return littleEndian\n ? load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE)\n : reinterpret(\n bswap(\n load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE)\n )\n );\n }\n\n getInt8(byteOffset: i32): i8 {\n checkOffset(byteOffset, 1, this.byteLength);\n return load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE);\n }\n\n getInt16(byteOffset: i32, littleEndian: boolean = false): i16 {\n checkOffset(byteOffset, 2, this.byteLength);\n var result: i16 = load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE);\n return littleEndian ? result : bswap(result);\n }\n\n getInt32(byteOffset: i32, littleEndian: boolean = false): i32 {\n checkOffset(byteOffset, 4, this.byteLength);\n var result = load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE);\n return littleEndian ? result : bswap(result);\n }\n\n getUint8(byteOffset: i32): u8 {\n checkOffset(byteOffset, 1, this.byteLength);\n return load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE);\n }\n\n getUint16(byteOffset: i32, littleEndian: boolean = false): u16 {\n checkOffset(byteOffset, 2, this.byteLength);\n var result: u16 = load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE);\n return littleEndian ? result : bswap(result);\n }\n\n getUint32(byteOffset: i32, littleEndian: boolean = false): u32 {\n checkOffset(byteOffset, 4, this.byteLength);\n var result = load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE);\n return littleEndian ? result : bswap(result);\n }\n\n setFloat32(byteOffset: i32, value: f32, littleEndian: boolean = false): void {\n checkOffset(byteOffset, 4, this.byteLength);\n if (littleEndian) {\n store(changetype(this.buffer) + this.byteOffset + byteOffset, value, HEADER_SIZE);\n } else {\n store(changetype(this.buffer) + this.byteOffset + byteOffset,\n bswap(\n reinterpret(value)\n ),\n HEADER_SIZE\n );\n }\n }\n\n setFloat64(byteOffset: i32, value: f64, littleEndian: boolean = false): void {\n checkOffset(byteOffset, 8, this.byteLength);\n if (littleEndian) {\n store(changetype(this.buffer) + this.byteOffset + byteOffset, value, HEADER_SIZE);\n } else {\n store(changetype(this.buffer) + this.byteOffset + byteOffset,\n bswap(\n reinterpret(value)\n ),\n HEADER_SIZE\n );\n }\n }\n\n setInt8(byteOffset: i32, value: i8): void {\n checkOffset(byteOffset, 1, this.byteLength);\n store(changetype(this.buffer) + this.byteOffset + byteOffset, value, HEADER_SIZE);\n }\n\n setInt16(byteOffset: i32, value: i16, littleEndian: boolean = false): void {\n checkOffset(byteOffset, 2, this.byteLength);\n store(\n changetype(this.buffer) + this.byteOffset + byteOffset,\n littleEndian ? value : bswap(value),\n HEADER_SIZE\n );\n }\n\n setInt32(byteOffset: i32, value: i32, littleEndian: boolean = false): void {\n checkOffset(byteOffset, 4, this.byteLength);\n store(\n changetype(this.buffer) + this.byteOffset + byteOffset,\n littleEndian ? value : bswap(value),\n HEADER_SIZE\n );\n }\n\n setUint8(byteOffset: i32, value: u8): void {\n checkOffset(byteOffset, 1, this.byteLength);\n store(changetype(this.buffer) + this.byteOffset + byteOffset, value, HEADER_SIZE);\n }\n\n setUint16(byteOffset: i32, value: u16, littleEndian: boolean = false): void {\n checkOffset(byteOffset, 2, this.byteLength);\n store(\n changetype(this.buffer) + this.byteOffset + byteOffset,\n littleEndian ? value : bswap(value),\n HEADER_SIZE\n );\n }\n\n setUint32(byteOffset: i32, value: u32, littleEndian: boolean = false): void {\n checkOffset(byteOffset, 4, this.byteLength);\n store(\n changetype(this.buffer) + this.byteOffset + byteOffset,\n littleEndian ? value : bswap(value),\n HEADER_SIZE\n );\n }\n\n // Non-standard additions that make sense in WebAssembly, but won\'t work in JS:\n\n getInt64(byteOffset: i32, littleEndian: boolean = false): i64 {\n checkOffset(byteOffset, 8, this.byteLength);\n var result = load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE);\n return littleEndian ? result : bswap(result);\n }\n\n getUint64(byteOffset: i32, littleEndian: boolean = false): u64 {\n checkOffset(byteOffset, 8, this.byteLength);\n var result = load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE);\n return littleEndian ? result : bswap(result);\n }\n\n setInt64(byteOffset: i32, value: i64, littleEndian: boolean = false): void {\n checkOffset(byteOffset, 8, this.byteLength);\n store(\n changetype(this.buffer) + this.byteOffset + byteOffset,\n littleEndian ? value : bswap(value),\n HEADER_SIZE\n );\n }\n\n setUint64(byteOffset: i32, value: u64, littleEndian: boolean = false): void {\n checkOffset(byteOffset, 8, this.byteLength);\n store(\n changetype(this.buffer) + this.byteOffset + byteOffset,\n littleEndian ? value : bswap(value),\n HEADER_SIZE\n );\n }\n\n toString(): string {\n return "[object DataView]";\n }\n}\n\n@inline function checkOffset(byteOffset: i32, n: i32, byteLength: i32): void {\n // n and byteLength must be known to be in bounds\n if (byteOffset > MAX_BLENGTH || byteOffset + n > byteLength) throw new Error("Offset out of bounds");\n}\n',date:'import {\n UTC as Date_UTC,\n now as Date_now\n} from "./bindings/Date";\n\nexport class Date {\n\n @inline static UTC(\n year: i32,\n month: i32 = 0,\n day: i32 = 1,\n hour: i32 = 0,\n minute: i32 = 0,\n second: i32 = 0,\n millisecond: i64 = 0\n ): i64 {\n return Date_UTC(year, month, day, hour, minute, second, millisecond);\n }\n\n @inline static now(): i64 {\n return Date_now();\n }\n\n private value: i64;\n\n constructor(value: i64) {\n this.value = value;\n }\n\n getTime(): i64 {\n return this.value;\n }\n\n setTime(value: i64): i64 {\n this.value = value;\n return value;\n }\n}\n',diagnostics:"/* tslint:disable */\n\n@builtin export declare function ERROR(message?: void): void;\n@builtin export declare function WARNING(message?: void): void;\n@builtin export declare function INFO(message?: void): void;\n",env:"declare function abort(\n message?: string | null,\n fileName?: string | null,\n lineNumber?: u32,\n columnNumber?: u32\n): void;\n\ndeclare function trace(\n message: string,\n n?: i32,\n a0?: f64,\n a1?: f64,\n a2?: f64,\n a3?: f64,\n a4?: f64\n): void;\n",error:'export class Error {\n\n name: string = "Error";\n stack: string = ""; // TODO\n\n constructor(\n public message: string = ""\n ) {}\n\n toString(): string {\n var message = this.message;\n return message.length\n ? this.name + ": " + message\n : this.name;\n }\n}\n\nexport class RangeError extends Error {\n constructor(message: string = "") {\n super(message);\n this.name = "RangeError";\n }\n}\n\nexport class TypeError extends Error {\n constructor(message: string = "") {\n super(message);\n this.name = "TypeError";\n }\n}\n\nexport class SyntaxError extends Error {\n constructor(message: string = "") {\n super(message);\n this.name = "SyntaxError";\n }\n}\n',gc:"/* tslint:disable */\n\n@builtin export declare function iterateRoots(fn: (ref: usize) => void): void;\n\nexport namespace gc {\n\n export function collect(): void {\n if (isDefined(__gc_collect)) { __gc_collect(); return; }\n WARNING(\"Calling 'gc.collect' requires a garbage collector to be present.\");\n unreachable();\n }\n}\n","internal/allocator":"/** Number of alignment bits. */\n@inline export const AL_BITS: u32 = 3;\n/** Number of possible alignment values. */\n@inline export const AL_SIZE: usize = 1 << AL_BITS;\n/** Mask to obtain just the alignment bits. */\n@inline export const AL_MASK: usize = AL_SIZE - 1;\n/** Maximum 32-bit allocation size. */\n@inline export const MAX_SIZE_32: usize = 1 << 30; // 1GB\n","internal/arraybuffer":'import {\n AL_MASK,\n MAX_SIZE_32\n } from "./allocator";\n\n/** Size of an ArrayBuffer header. */\n@inline export const HEADER_SIZE: usize = (offsetof() + AL_MASK) & ~AL_MASK;\n/** Maximum byte length of an ArrayBuffer. */\n@inline export const MAX_BLENGTH: i32 = MAX_SIZE_32 - HEADER_SIZE;\n\nfunction computeSize(byteLength: i32): usize {\n // round up to power of 2, with HEADER_SIZE=8:\n // 0 -> 2^3 = 8\n // 1..8 -> 2^4 = 16\n // 9..24 -> 2^5 = 32\n // ...\n // MAX_LENGTH -> 2^30 = 0x40000000 (MAX_SIZE_32)\n return 1 << (32 - clz(byteLength + HEADER_SIZE - 1));\n}\n\n// Low-level utility\n\nfunction __gc(ref: usize): void {}\n\nexport function allocateUnsafe(byteLength: i32): ArrayBuffer {\n assert(byteLength <= MAX_BLENGTH);\n var buffer: usize;\n if (isManaged()) {\n buffer = __gc_allocate(computeSize(byteLength), __gc); // tslint:disable-line\n } else {\n buffer = memory.allocate(computeSize(byteLength));\n }\n store(buffer, byteLength, offsetof("byteLength"));\n return changetype(buffer);\n}\n\nexport function reallocateUnsafe(buffer: ArrayBuffer, newByteLength: i32): ArrayBuffer {\n var oldByteLength = buffer.byteLength;\n if (newByteLength > oldByteLength) {\n assert(newByteLength <= MAX_BLENGTH);\n if (newByteLength <= (computeSize(oldByteLength) - HEADER_SIZE)) { // fast path: zero out additional space\n store(changetype(buffer), newByteLength, offsetof("byteLength"));\n } else { // slow path: copy to new buffer\n let newBuffer = allocateUnsafe(newByteLength);\n memory.copy(\n changetype(newBuffer) + HEADER_SIZE,\n changetype(buffer) + HEADER_SIZE,\n oldByteLength\n );\n if (!isManaged()) {\n memory.free(changetype(buffer));\n }\n buffer = newBuffer;\n }\n memory.fill(\n changetype(buffer) + HEADER_SIZE + oldByteLength,\n 0,\n (newByteLength - oldByteLength)\n );\n } else if (newByteLength < oldByteLength) { // fast path: override size\n // TBD: worth to copy and release if size is significantly less than before?\n assert(newByteLength >= 0);\n store(changetype(buffer), newByteLength, offsetof("byteLength"));\n }\n return buffer;\n}\n\n// The helpers below use two different types in order to emit loads and stores that load respectively\n// store one type to/from memory while returning/taking the desired output/input type. This allows to\n// emit instructions like\n//\n// * `i32.load8` ^= `load(...)` that reads an i8 but returns an i32, or\n// * `i64.load32_s` ^= `load(...)`) that reads a 32-bit as a 64-bit integer\n//\n// without having to emit an additional instruction for conversion purposes. The second parameter\n// can be omitted for references and other loads and stores that simply return the exact type.\n\n@inline export function LOAD(buffer: ArrayBuffer, index: i32, byteOffset: i32 = 0): TOut {\n return load(changetype(buffer) + (index << alignof()) + byteOffset, HEADER_SIZE);\n}\n\n@inline export function STORE(buffer: ArrayBuffer, index: i32, value: TIn, byteOffset: i32 = 0): void {\n store(changetype(buffer) + (index << alignof()) + byteOffset, value, HEADER_SIZE);\n}\n',"internal/hash":'import {\n HEADER_SIZE\n} from "./string";\n\n/** Computes the 32-bit hash of a value of any type. */\n@inline\nexport function HASH(key: T): u32 {\n // branch-level tree-shaking makes this a `(return (call ...))`\n if (isString(key)) {\n return hashStr(key);\n } else if (isReference()) {\n if (sizeof() == 4) return hash32(changetype(key));\n if (sizeof() == 8) return hash64(changetype(key));\n } else if (isFloat()) {\n if (sizeof() == 4) return hash32(reinterpret(key));\n if (sizeof() == 8) return hash64(reinterpret(key));\n } else {\n if (sizeof() == 1) return hash8 (key);\n if (sizeof() == 2) return hash16(key);\n if (sizeof() == 4) return hash32(key);\n if (sizeof() == 8) return hash64(key);\n }\n unreachable();\n}\n\n// FNV-1a 32-bit as a starting point, see: http://isthe.com/chongo/tech/comp/fnv/\n\n@inline const FNV_OFFSET: u32 = 2166136261;\n@inline const FNV_PRIME: u32 = 16777619;\n\nfunction hash8(key: u32): u32 {\n return (FNV_OFFSET ^ key) * FNV_PRIME;\n}\n\nfunction hash16(key: u32): u32 {\n var v = FNV_OFFSET;\n v = (v ^ ( key & 0xff)) * FNV_PRIME;\n v = (v ^ ( key >> 8 )) * FNV_PRIME;\n return v;\n}\n\nfunction hash32(key: u32): u32 {\n var v = FNV_OFFSET;\n v = (v ^ ( key & 0xff)) * FNV_PRIME;\n v = (v ^ ((key >> 8) & 0xff)) * FNV_PRIME;\n v = (v ^ ((key >> 16) & 0xff)) * FNV_PRIME;\n v = (v ^ ( key >> 24 )) * FNV_PRIME;\n return v;\n}\n\nfunction hash64(key: u64): u32 {\n var l = key;\n var h = (key >>> 32);\n var v = FNV_OFFSET;\n v = (v ^ ( l & 0xff)) * FNV_PRIME;\n v = (v ^ ((l >> 8) & 0xff)) * FNV_PRIME;\n v = (v ^ ((l >> 16) & 0xff)) * FNV_PRIME;\n v = (v ^ ( l >> 24 )) * FNV_PRIME;\n v = (v ^ ( h & 0xff)) * FNV_PRIME;\n v = (v ^ ((h >> 8) & 0xff)) * FNV_PRIME;\n v = (v ^ ((h >> 16) & 0xff)) * FNV_PRIME;\n v = (v ^ ( h >> 24 )) * FNV_PRIME;\n return v;\n}\n\nfunction hashStr(key: string): u32 {\n var v = FNV_OFFSET;\n for (let i: usize = 0, k: usize = key.length << 1; i < k; ++i) {\n v = (v ^ load(changetype(key) + i, HEADER_SIZE)) * FNV_PRIME;\n }\n return v;\n}\n',"internal/memory":"// this function will go away once `memory.copy` becomes an intrinsic\nexport function memcpy(dest: usize, src: usize, n: usize): void { // see: musl/src/string/memcpy.c\n var w: u32, x: u32;\n\n // copy 1 byte each until src is aligned to 4 bytes\n while (n && (src & 3)) {\n store(dest++, load(src++));\n n--;\n }\n\n // if dst is aligned to 4 bytes as well, copy 4 bytes each\n if ((dest & 3) == 0) {\n while (n >= 16) {\n store(dest , load(src ));\n store(dest + 4, load(src + 4));\n store(dest + 8, load(src + 8));\n store(dest + 12, load(src + 12));\n src += 16; dest += 16; n -= 16;\n }\n if (n & 8) {\n store(dest , load(src ));\n store(dest + 4, load(src + 4));\n dest += 8; src += 8;\n }\n if (n & 4) {\n store(dest, load(src));\n dest += 4; src += 4;\n }\n if (n & 2) { // drop to 2 bytes each\n store(dest, load(src));\n dest += 2; src += 2;\n }\n if (n & 1) { // drop to 1 byte\n store(dest++, load(src++));\n }\n return;\n }\n\n // if dst is not aligned to 4 bytes, use alternating shifts to copy 4 bytes each\n // doing shifts if faster when copying enough bytes (here: 32 or more)\n if (n >= 32) {\n switch (dest & 3) {\n // known to be != 0\n case 1: {\n w = load(src);\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n n -= 3;\n while (n >= 17) {\n x = load(src + 1);\n store(dest, w >> 24 | x << 8);\n w = load(src + 5);\n store(dest + 4, x >> 24 | w << 8);\n x = load(src + 9);\n store(dest + 8, w >> 24 | x << 8);\n w = load(src + 13);\n store(dest + 12, x >> 24 | w << 8);\n src += 16; dest += 16; n -= 16;\n }\n break;\n }\n case 2: {\n w = load(src);\n store(dest++, load(src++));\n store(dest++, load(src++));\n n -= 2;\n while (n >= 18) {\n x = load(src + 2);\n store(dest, w >> 16 | x << 16);\n w = load(src + 6);\n store(dest + 4, x >> 16 | w << 16);\n x = load(src + 10);\n store(dest + 8, w >> 16 | x << 16);\n w = load(src + 14);\n store(dest + 12, x >> 16 | w << 16);\n src += 16; dest += 16; n -= 16;\n }\n break;\n }\n case 3: {\n w = load(src);\n store(dest++, load(src++));\n n -= 1;\n while (n >= 19) {\n x = load(src + 3);\n store(dest, w >> 8 | x << 24);\n w = load(src + 7);\n store(dest + 4, x >> 8 | w << 24);\n x = load(src + 11);\n store(dest + 8, w >> 8 | x << 24);\n w = load(src + 15);\n store(dest + 12, x >> 8 | w << 24);\n src += 16; dest += 16; n -= 16;\n }\n break;\n }\n }\n }\n\n // copy remaining bytes one by one\n if (n & 16) {\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n }\n if (n & 8) {\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n }\n if (n & 4) {\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n }\n if (n & 2) {\n store(dest++, load(src++));\n store(dest++, load(src++));\n }\n if (n & 1) {\n store(dest++, load(src++));\n }\n}\n\n// this function will go away once `memory.copy` becomes an intrinsic\nexport function memmove(dest: usize, src: usize, n: usize): void { // see: musl/src/string/memmove.c\n if (dest === src) return;\n if (src + n <= dest || dest + n <= src) {\n memcpy(dest, src, n);\n return;\n }\n if (dest < src) {\n if ((src & 7) == (dest & 7)) {\n while (dest & 7) {\n if (!n) return;\n --n;\n store(dest++, load(src++));\n }\n while (n >= 8) {\n store(dest, load(src));\n n -= 8;\n dest += 8;\n src += 8;\n }\n }\n while (n) {\n store(dest++, load(src++));\n --n;\n }\n } else {\n if ((src & 7) == (dest & 7)) {\n while ((dest + n) & 7) {\n if (!n) return;\n store(dest + --n, load(src + n));\n }\n while (n >= 8) {\n n -= 8;\n store(dest + n, load(src + n));\n }\n }\n while (n) {\n store(dest + --n, load(src + n));\n }\n }\n}\n\n// this function will go away once `memory.fill` becomes an intrinsic\nexport function memset(dest: usize, c: u8, n: usize): void { // see: musl/src/string/memset\n\n // fill head and tail with minimal branching\n if (!n) return;\n store(dest, c);\n store(dest + n - 1, c);\n if (n <= 2) return;\n\n store(dest + 1, c);\n store(dest + 2, c);\n store(dest + n - 2, c);\n store(dest + n - 3, c);\n if (n <= 6) return;\n store(dest + 3, c);\n store(dest + n - 4, c);\n if (n <= 8) return;\n\n // advance pointer to align it at 4-byte boundary\n var k: usize = -dest & 3;\n dest += k;\n n -= k;\n n &= -4;\n\n var c32: u32 = -1 / 255 * c;\n\n // fill head/tail up to 28 bytes each in preparation\n store(dest, c32);\n store(dest + n - 4, c32);\n if (n <= 8) return;\n store(dest + 4, c32);\n store(dest + 8, c32);\n store(dest + n - 12, c32);\n store(dest + n - 8, c32);\n if (n <= 24) return;\n store(dest + 12, c32);\n store(dest + 16, c32);\n store(dest + 20, c32);\n store(dest + 24, c32);\n store(dest + n - 28, c32);\n store(dest + n - 24, c32);\n store(dest + n - 20, c32);\n store(dest + n - 16, c32);\n\n // align to a multiple of 8\n k = 24 + (dest & 4);\n dest += k;\n n -= k;\n\n // copy 32 bytes each\n var c64: u64 = c32 | (c32 << 32);\n while (n >= 32) {\n store(dest, c64);\n store(dest + 8, c64);\n store(dest + 16, c64);\n store(dest + 24, c64);\n n -= 32;\n dest += 32;\n }\n}\n\nexport function memcmp(vl: usize, vr: usize, n: usize): i32 { // see: musl/src/string/memcmp.c\n if (vl == vr) return 0;\n while (n != 0 && load(vl) == load(vr)) {\n n--; vl++; vr++;\n }\n return n ? load(vl) - load(vr) : 0;\n}\n","internal/number":'import {\n CharCode,\n allocateUnsafe as allocateUnsafeString,\n freeUnsafe as freeUnsafeString,\n HEADER_SIZE as STRING_HEADER_SIZE\n} from "./string";\n\nimport {\n LOAD\n} from "./arraybuffer";\n\n@inline export const MAX_DOUBLE_LENGTH = 28;\n\n@lazy @inline const POWERS10: u32[] = [\n 1,\n 10,\n 100,\n 1000,\n 10000,\n 100000,\n 1000000,\n 10000000,\n 100000000,\n 1000000000\n];\n\n/*\n Lookup table for pairwise char codes in range [0-99]\n\n "00", "01", "02", "03", "04", "05", "06", "07", "08", "09",\n "10", "11", "12", "13", "14", "15", "16", "17", "18", "19",\n "20", "21", "22", "23", "24", "25", "26", "27", "28", "29",\n "30", "31", "32", "33", "34", "35", "36", "37", "38", "39",\n "40", "41", "42", "43", "44", "45", "46", "47", "48", "49",\n "50", "51", "52", "53", "54", "55", "56", "57", "58", "59",\n "60", "61", "62", "63", "64", "65", "66", "67", "68", "69",\n "70", "71", "72", "73", "74", "75", "76", "77", "78", "79",\n "80", "81", "82", "83", "84", "85", "86", "87", "88", "89",\n "90", "91", "92", "93", "94", "95", "96", "97", "98", "99"\n*/\n@lazy @inline const DIGITS: u32[] = [\n 0x00300030, 0x00310030, 0x00320030, 0x00330030, 0x00340030,\n 0x00350030, 0x00360030, 0x00370030, 0x00380030, 0x00390030,\n 0x00300031, 0x00310031, 0x00320031, 0x00330031, 0x00340031,\n 0x00350031, 0x00360031, 0x00370031, 0x00380031, 0x00390031,\n 0x00300032, 0x00310032, 0x00320032, 0x00330032, 0x00340032,\n 0x00350032, 0x00360032, 0x00370032, 0x00380032, 0x00390032,\n 0x00300033, 0x00310033, 0x00320033, 0x00330033, 0x00340033,\n 0x00350033, 0x00360033, 0x00370033, 0x00380033, 0x00390033,\n 0x00300034, 0x00310034, 0x00320034, 0x00330034, 0x00340034,\n 0x00350034, 0x00360034, 0x00370034, 0x00380034, 0x00390034,\n 0x00300035, 0x00310035, 0x00320035, 0x00330035, 0x00340035,\n 0x00350035, 0x00360035, 0x00370035, 0x00380035, 0x00390035,\n 0x00300036, 0x00310036, 0x00320036, 0x00330036, 0x00340036,\n 0x00350036, 0x00360036, 0x00370036, 0x00380036, 0x00390036,\n 0x00300037, 0x00310037, 0x00320037, 0x00330037, 0x00340037,\n 0x00350037, 0x00360037, 0x00370037, 0x00380037, 0x00390037,\n 0x00300038, 0x00310038, 0x00320038, 0x00330038, 0x00340038,\n 0x00350038, 0x00360038, 0x00370038, 0x00380038, 0x00390038,\n 0x00300039, 0x00310039, 0x00320039, 0x00330039, 0x00340039,\n 0x00350039, 0x00360039, 0x00370039, 0x00380039, 0x00390039\n];\n\n@lazy @inline const EXP_POWERS: i16[] = [\n -1220, -1193, -1166, -1140, -1113, -1087, -1060, -1034, -1007, -980,\n -954, -927, -901, -874, -847, -821, -794, -768, -741, -715,\n -688, -661, -635, -608, -582, -555, -529, -502, -475, -449,\n -422, -396, -369, -343, -316, -289, -263, -236, -210, -183,\n -157, -130, -103, -77, -50, -24, 3, 30, 56, 83,\n 109, 136, 162, 189, 216, 242, 269, 295, 322, 348,\n 375, 402, 428, 455, 481, 508, 534, 561, 588, 614,\n 641, 667, 694, 720, 747, 774, 800, 827, 853, 880,\n 907, 933, 960, 986, 1013, 1039, 1066\n];\n\n// 1e-348, 1e-340, ..., 1e340\n@lazy @inline const FRC_POWERS: u64[] = [\n 0xFA8FD5A0081C0288, 0xBAAEE17FA23EBF76, 0x8B16FB203055AC76, 0xCF42894A5DCE35EA,\n 0x9A6BB0AA55653B2D, 0xE61ACF033D1A45DF, 0xAB70FE17C79AC6CA, 0xFF77B1FCBEBCDC4F,\n 0xBE5691EF416BD60C, 0x8DD01FAD907FFC3C, 0xD3515C2831559A83, 0x9D71AC8FADA6C9B5,\n 0xEA9C227723EE8BCB, 0xAECC49914078536D, 0x823C12795DB6CE57, 0xC21094364DFB5637,\n 0x9096EA6F3848984F, 0xD77485CB25823AC7, 0xA086CFCD97BF97F4, 0xEF340A98172AACE5,\n 0xB23867FB2A35B28E, 0x84C8D4DFD2C63F3B, 0xC5DD44271AD3CDBA, 0x936B9FCEBB25C996,\n 0xDBAC6C247D62A584, 0xA3AB66580D5FDAF6, 0xF3E2F893DEC3F126, 0xB5B5ADA8AAFF80B8,\n 0x87625F056C7C4A8B, 0xC9BCFF6034C13053, 0x964E858C91BA2655, 0xDFF9772470297EBD,\n 0xA6DFBD9FB8E5B88F, 0xF8A95FCF88747D94, 0xB94470938FA89BCF, 0x8A08F0F8BF0F156B,\n 0xCDB02555653131B6, 0x993FE2C6D07B7FAC, 0xE45C10C42A2B3B06, 0xAA242499697392D3,\n 0xFD87B5F28300CA0E, 0xBCE5086492111AEB, 0x8CBCCC096F5088CC, 0xD1B71758E219652C,\n 0x9C40000000000000, 0xE8D4A51000000000, 0xAD78EBC5AC620000, 0x813F3978F8940984,\n 0xC097CE7BC90715B3, 0x8F7E32CE7BEA5C70, 0xD5D238A4ABE98068, 0x9F4F2726179A2245,\n 0xED63A231D4C4FB27, 0xB0DE65388CC8ADA8, 0x83C7088E1AAB65DB, 0xC45D1DF942711D9A,\n 0x924D692CA61BE758, 0xDA01EE641A708DEA, 0xA26DA3999AEF774A, 0xF209787BB47D6B85,\n 0xB454E4A179DD1877, 0x865B86925B9BC5C2, 0xC83553C5C8965D3D, 0x952AB45CFA97A0B3,\n 0xDE469FBD99A05FE3, 0xA59BC234DB398C25, 0xF6C69A72A3989F5C, 0xB7DCBF5354E9BECE,\n 0x88FCF317F22241E2, 0xCC20CE9BD35C78A5, 0x98165AF37B2153DF, 0xE2A0B5DC971F303A,\n 0xA8D9D1535CE3B396, 0xFB9B7CD9A4A7443C, 0xBB764C4CA7A44410, 0x8BAB8EEFB6409C1A,\n 0xD01FEF10A657842C, 0x9B10A4E5E9913129, 0xE7109BFBA19C0C9D, 0xAC2820D9623BF429,\n 0x80444B5E7AA7CF85, 0xBF21E44003ACDD2D, 0x8E679C2F5E44FF8F, 0xD433179D9C8CB841,\n 0x9E19DB92B4E31BA9, 0xEB96BF6EBADF77D9, 0xAF87023B9BF0EE6B\n];\n\n// Count number of decimals for u32 values\n// In our case input value always non-zero so we can simplify some parts\nexport function decimalCount32(value: u32): u32 {\n if (ASC_SHRINK_LEVEL >= 1) {\n let l: u32 = 32 - clz(value); // log2\n let t = l * 1233 >>> 12; // log10\n\n let lutbuf = POWERS10.buffer_;\n let power = LOAD(lutbuf, t);\n t -= (value < power);\n return t + 1;\n } else {\n if (value < 100000) {\n if (value < 100) {\n return select(1, 2, value < 10);\n } else {\n let m = select(4, 5, value < 10000);\n return select(3, m, value < 1000);\n }\n } else {\n if (value < 10000000) {\n return select(6, 7, value < 1000000);\n } else {\n let m = select(9, 10, value < 1000000000);\n return select(8, m, value < 100000000);\n }\n }\n }\n}\n\n// Count number of decimals for u64 values\n// In our case input value always greater than 2^32-1 so we can skip some parts\nexport function decimalCount64(value: u64): u32 {\n if (ASC_SHRINK_LEVEL >= 1) {\n let l: u32 = 64 - clz(value); // log2\n let t = l * 1233 >>> 12; // log10\n\n let lutbuf = POWERS10.buffer_;\n let power = LOAD(lutbuf, t - 10);\n t -= (value < 10000000000 * power);\n return t + 1;\n } else {\n if (value < 1000000000000000) {\n if (value < 1000000000000) {\n return select(11, 12, value < 100000000000);\n } else {\n let m = select(14, 15, value < 100000000000000);\n return select(13, m, value < 10000000000000);\n }\n } else {\n if (value < 100000000000000000) {\n return select(16, 17, value < 10000000000000000);\n } else {\n let m = select(19, 20, value < 10000000000000000000);\n return select(18, m, value < 1000000000000000000);\n }\n }\n }\n}\n\nfunction utoa32_lut(buffer: usize, num: u32, offset: usize): void {\n var lutbuf = DIGITS.buffer_;\n\n while (num >= 10000) {\n // in most VMs i32/u32 div and modulo by constant can be shared and simplificate\n let t = num / 10000;\n let r = num % 10000;\n num = t;\n\n let d1 = r / 100;\n let d2 = r % 100;\n\n let digits1 = LOAD(lutbuf, d1);\n let digits2 = LOAD(lutbuf, d2);\n\n offset -= 4;\n store(buffer + (offset << 1), digits1 | (digits2 << 32), STRING_HEADER_SIZE);\n }\n\n if (num >= 100) {\n let t = num / 100;\n let d1 = num % 100;\n num = t;\n offset -= 2;\n let digits = LOAD(lutbuf, d1);\n store(buffer + (offset << 1), digits, STRING_HEADER_SIZE);\n }\n\n if (num >= 10) {\n offset -= 2;\n let digits = LOAD(lutbuf, num);\n store(buffer + (offset << 1), digits, STRING_HEADER_SIZE);\n } else {\n offset -= 1;\n let digit = CharCode._0 + num;\n store(buffer + (offset << 1), digit, STRING_HEADER_SIZE);\n }\n}\n\nfunction utoa64_lut(buffer: usize, num: u64, offset: usize): void {\n var lutbuf = DIGITS.buffer_;\n\n while (num >= 100000000) {\n let t = num / 100000000;\n let r = (num - t * 100000000);\n num = t;\n\n let b = r / 10000;\n let c = r % 10000;\n\n let b1 = b / 100;\n let b2 = b % 100;\n let c1 = c / 100;\n let c2 = c % 100;\n\n let digits1 = LOAD(lutbuf, c1);\n let digits2 = LOAD(lutbuf, c2);\n\n offset -= 4;\n store(buffer + (offset << 1), digits1 | (digits2 << 32), STRING_HEADER_SIZE);\n\n digits1 = LOAD(lutbuf, b1);\n digits2 = LOAD(lutbuf, b2);\n\n offset -= 4;\n store(buffer + (offset << 1), digits1 | (digits2 << 32), STRING_HEADER_SIZE);\n }\n\n utoa32_lut(buffer, num, offset);\n}\n\nfunction utoa_simple(buffer: usize, num: T, offset: usize): void {\n do {\n let t = num / 10;\n let r = (num % 10);\n num = t;\n offset -= 1;\n store(buffer + (offset << 1), CharCode._0 + r, STRING_HEADER_SIZE);\n } while (num);\n}\n\n@inline\nexport function utoa32_core(buffer: usize, num: u32, offset: u32): void {\n if (ASC_SHRINK_LEVEL >= 1) {\n utoa_simple(buffer, num, offset);\n } else {\n utoa32_lut(buffer, num, offset);\n }\n}\n\n@inline\nexport function utoa64_core(buffer: usize, num: u64, offset: u32): void {\n if (ASC_SHRINK_LEVEL >= 1) {\n utoa_simple(buffer, num, offset);\n } else {\n utoa64_lut(buffer, num, offset);\n }\n}\n\nexport function utoa32(value: u32): String {\n if (!value) return "0";\n\n var decimals = decimalCount32(value);\n var buffer = allocateUnsafeString(decimals);\n\n utoa32_core(changetype(buffer), value, decimals);\n return buffer;\n}\n\nexport function itoa32(value: i32): String {\n if (!value) return "0";\n\n var sign = value < 0;\n if (sign) value = -value;\n\n var decimals = decimalCount32(value) + sign;\n var buffer = allocateUnsafeString(decimals);\n\n utoa32_core(changetype(buffer), value, decimals);\n if (sign) store(changetype(buffer), CharCode.MINUS, STRING_HEADER_SIZE);\n\n return buffer;\n}\n\nexport function utoa64(value: u64): String {\n if (!value) return "0";\n\n var buffer: String;\n if (value <= u32.MAX_VALUE) {\n let val32 = value;\n let decimals = decimalCount32(val32);\n buffer = allocateUnsafeString(decimals);\n utoa32_core(changetype(buffer), val32, decimals);\n } else {\n let decimals = decimalCount64(value);\n buffer = allocateUnsafeString(decimals);\n utoa64_core(changetype(buffer), value, decimals);\n }\n return buffer;\n}\n\nexport function itoa64(value: i64): String {\n if (!value) return "0";\n\n var sign = value < 0;\n if (sign) value = -value;\n\n var buffer: String;\n if (value <= u32.MAX_VALUE) {\n let val32 = value;\n let decimals = decimalCount32(val32) + sign;\n buffer = allocateUnsafeString(decimals);\n utoa32_core(changetype(buffer), val32, decimals);\n } else {\n let decimals = decimalCount64(value) + sign;\n buffer = allocateUnsafeString(decimals);\n utoa64_core(changetype(buffer), value, decimals);\n }\n if (sign) store(changetype(buffer), CharCode.MINUS, STRING_HEADER_SIZE);\n\n return buffer;\n}\n\nexport function itoa(value: T): String {\n if (!isInteger()) {\n assert(false); // unexpecteble non-integer generic type\n } else {\n if (isSigned()) {\n if (sizeof() <= 4) {\n return itoa32(value);\n } else {\n return itoa64(value);\n }\n } else {\n if (sizeof() <= 4) {\n return utoa32(value);\n } else {\n return utoa64(value);\n }\n }\n }\n}\n\n@lazy var _K: i32 = 0;\n// @lazy var _frc: u64 = 0;\n@lazy var _exp: i32 = 0;\n@lazy var _frc_minus: u64 = 0;\n@lazy var _frc_plus: u64 = 0;\n@lazy var _frc_pow: u64 = 0;\n@lazy var _exp_pow: i32 = 0;\n\n@inline\nfunction umul64f(u: u64, v: u64): u64 {\n var u0 = u & 0xFFFFFFFF;\n var v0 = v & 0xFFFFFFFF;\n\n var u1 = u >> 32;\n var v1 = v >> 32;\n\n var l = u0 * v0;\n var t = u1 * v0 + (l >> 32);\n var w = u0 * v1 + (t & 0xFFFFFFFF);\n\n w += 0x7FFFFFFF; // rounding\n\n t >>= 32;\n w >>= 32;\n\n return u1 * v1 + t + w;\n}\n\n@inline\nfunction umul64e(e1: i32, e2: i32): i32 {\n return e1 + e2 + 64; // where 64 is significand size\n}\n\n@inline\nfunction normalizedBoundaries(f: u64, e: i32): void {\n var frc = (f << 1) + 1;\n var exp = e - 1;\n var off = clz(frc);\n frc <<= off;\n exp -= off;\n\n var m = 1 + (f == 0x0010000000000000);\n\n _frc_plus = frc;\n _frc_minus = ((f << m) - 1) << e - m - exp;\n _exp = exp;\n}\n\n@inline\nfunction grisuRound(buffer: usize, len: i32, delta: u64, rest: u64, ten_kappa: u64, wp_w: u64): void {\n var lastp = buffer + ((len - 1) << 1);\n var digit = load(lastp, STRING_HEADER_SIZE);\n while (\n rest < wp_w &&\n delta - rest >= ten_kappa && (\n rest + ten_kappa < wp_w ||\n wp_w - rest > rest + ten_kappa - wp_w\n )\n ) {\n --digit;\n rest += ten_kappa;\n }\n store(lastp, digit, STRING_HEADER_SIZE);\n}\n\n@inline\nfunction getCachedPower(minExp: i32): void {\n const c = reinterpret(0x3FD34413509F79FE); // 1 / lg(10) = 0.30102999566398114\n var dk = (-61 - minExp) * c + 347;\t // dk must be positive, so can do ceiling in positive\n var k = dk;\n k += (k != dk); // conversion with ceil\n\n var index = (k >> 3) + 1;\n _K = 348 - (index << 3);\t// decimal exponent no need lookup table\n var frcPowers = FRC_POWERS.buffer_;\n var expPowers = EXP_POWERS.buffer_;\n _frc_pow = LOAD(frcPowers, index);\n _exp_pow = LOAD(expPowers, index);\n}\n\n@inline\nfunction grisu2(value: f64, buffer: usize, sign: i32): i32 {\n\n // frexp routine\n var uv = reinterpret(value);\n var exp = ((uv & 0x7FF0000000000000) >>> 52);\n var sid = uv & 0x000FFFFFFFFFFFFF;\n var frc = ((exp != 0) << 52) + sid;\n exp = select(exp, 1, exp != 0) - (0x3FF + 52);\n\n normalizedBoundaries(frc, exp);\n getCachedPower(_exp);\n\n // normalize\n var off = clz(frc);\n frc <<= off;\n exp -= off;\n\n var frc_pow = _frc_pow;\n var exp_pow = _exp_pow;\n\n var w_frc = umul64f(frc, frc_pow);\n var w_exp = umul64e(exp, exp_pow);\n\n var wp_frc = umul64f(_frc_plus, frc_pow) - 1;\n var wp_exp = umul64e(_exp, exp_pow);\n\n var wm_frc = umul64f(_frc_minus, frc_pow) + 1;\n var delta = wp_frc - wm_frc;\n\n return genDigits(buffer, w_frc, w_exp, wp_frc, wp_exp, delta, sign);\n}\n\nfunction genDigits(buffer: usize, w_frc: u64, w_exp: i32, mp_frc: u64, mp_exp: i32, delta: u64, sign: i32): i32 {\n var one_exp = -mp_exp;\n var one_frc = (1) << one_exp;\n var mask = one_frc - 1;\n\n var wp_w_frc = mp_frc - w_frc;\n var wp_w_exp = mp_exp;\n\n var p1 = (mp_frc >> one_exp);\n var p2 = mp_frc & mask;\n\n var kappa = decimalCount32(p1);\n var len = sign;\n\n var powers10 = POWERS10.buffer_;\n\n while (kappa > 0) {\n let d: u32;\n switch (kappa) {\n case 10: { d = p1 / 1000000000; p1 %= 1000000000; break; }\n case 9: { d = p1 / 100000000; p1 %= 100000000; break; }\n case 8: { d = p1 / 10000000; p1 %= 10000000; break; }\n case 7: { d = p1 / 1000000; p1 %= 1000000; break; }\n case 6: { d = p1 / 100000; p1 %= 100000; break; }\n case 5: { d = p1 / 10000; p1 %= 10000; break; }\n case 4: { d = p1 / 1000; p1 %= 1000; break; }\n case 3: { d = p1 / 100; p1 %= 100; break; }\n case 2: { d = p1 / 10; p1 %= 10; break; }\n case 1: { d = p1; p1 = 0; break; }\n default: { d = 0; break; }\n }\n\n if (d | len) store(buffer + (len++ << 1), CharCode._0 + d, STRING_HEADER_SIZE);\n\n --kappa;\n let tmp = ((p1) << one_exp) + p2;\n if (tmp <= delta) {\n _K += kappa;\n grisuRound(buffer, len, delta, tmp, LOAD(powers10, kappa) << one_exp, wp_w_frc);\n return len;\n }\n }\n\n while (1) {\n p2 *= 10;\n delta *= 10;\n\n let d = p2 >> one_exp;\n if (d | len) store(buffer + (len++ << 1), CharCode._0 + d, STRING_HEADER_SIZE);\n\n p2 &= mask;\n --kappa;\n if (p2 < delta) {\n _K += kappa;\n wp_w_frc *= LOAD(powers10, -kappa);\n grisuRound(buffer, len, delta, p2, one_frc, wp_w_frc);\n return len;\n }\n }\n\n return len;\n}\n\n@inline\nfunction genExponent(buffer: usize, k: i32): i32 {\n var sign = k < 0;\n if (sign) k = -k;\n var decimals = decimalCount32(k) + 1;\n utoa32_core(buffer, k, decimals);\n store(buffer, select(CharCode.MINUS, CharCode.PLUS, sign), STRING_HEADER_SIZE);\n return decimals;\n}\n\nfunction prettify(buffer: usize, length: i32, k: i32): i32 {\n if (!k) {\n store(buffer + (length << 1), CharCode.DOT | (CharCode._0 << 16), STRING_HEADER_SIZE);\n return length + 2;\n }\n\n var kk = length + k;\n if (length <= kk && kk <= 21) {\n // 1234e7 -> 12340000000\n for (let i = length; i < kk; ++i) {\n store(buffer + (i << 1), CharCode._0, STRING_HEADER_SIZE);\n }\n store(buffer + (kk << 1), CharCode.DOT | (CharCode._0 << 16), STRING_HEADER_SIZE);\n return kk + 2;\n } else if (kk > 0 && kk <= 21) {\n // 1234e-2 -> 12.34\n let ptr = buffer + (kk << 1);\n memory.copy(\n ptr + STRING_HEADER_SIZE + 2,\n ptr + STRING_HEADER_SIZE,\n -k << 1\n );\n store(buffer + (kk << 1), CharCode.DOT, STRING_HEADER_SIZE);\n return length + 1;\n } else if (-6 < kk && kk <= 0) {\n // 1234e-6 -> 0.001234\n let offset = 2 - kk;\n memory.copy(\n buffer + STRING_HEADER_SIZE + (offset << 1),\n buffer + STRING_HEADER_SIZE,\n length << 1\n );\n store(buffer, CharCode._0 | (CharCode.DOT << 16), STRING_HEADER_SIZE);\n for (let i = 2; i < offset; ++i) {\n store(buffer + (i << 1), CharCode._0, STRING_HEADER_SIZE);\n }\n return length + offset;\n } else if (length == 1) {\n // 1e30\n store(buffer, CharCode.e, STRING_HEADER_SIZE + 2);\n length = genExponent(buffer + 4, kk - 1);\n return length + 2;\n } else {\n let len = length << 1;\n memory.copy(\n buffer + STRING_HEADER_SIZE + 4,\n buffer + STRING_HEADER_SIZE + 2,\n len - 2\n );\n store(buffer, CharCode.DOT, STRING_HEADER_SIZE + 2);\n store(buffer + len, CharCode.e, STRING_HEADER_SIZE + 2);\n length += genExponent(buffer + len + 4, kk - 1);\n return length + 2;\n }\n}\n\nexport function dtoa_core(buffer: usize, value: f64): i32 {\n var sign = (value < 0);\n if (sign) {\n value = -value;\n store(buffer, CharCode.MINUS, STRING_HEADER_SIZE);\n }\n // assert(value > 0 && value <= 1.7976931348623157e308);\n var len = grisu2(value, buffer, sign);\n len = prettify(buffer + (sign << 1), len - sign, _K);\n return len + sign;\n}\n\nexport function dtoa(value: f64): String {\n if (value == 0) return "0.0";\n if (!isFinite(value)) {\n if (isNaN(value)) return "NaN";\n return select("-Infinity", "Infinity", value < 0);\n }\n var buffer = allocateUnsafeString(MAX_DOUBLE_LENGTH);\n var length = dtoa_core(changetype(buffer), value);\n var result = buffer.substring(0, length);\n freeUnsafeString(buffer);\n return result;\n}\n\nexport function itoa_stream(buffer: usize, offset: usize, value: T): u32 {\n buffer += (offset << 1);\n if (!value) {\n store(buffer, CharCode._0, STRING_HEADER_SIZE);\n return 1;\n }\n var decimals: u32 = 0;\n if (isSigned()) {\n let sign = value < 0;\n if (sign) value = -value;\n if (sizeof() <= 4) {\n decimals = decimalCount32(value) + sign;\n utoa32_core(buffer, value, decimals);\n } else {\n if (value <= u32.MAX_VALUE) {\n let val32 = value;\n decimals = decimalCount32(val32) + sign;\n utoa32_core(buffer, val32, decimals);\n } else {\n decimals = decimalCount64(value) + sign;\n utoa64_core(buffer, value, decimals);\n }\n }\n if (sign) store(buffer, CharCode.MINUS, STRING_HEADER_SIZE);\n } else {\n if (sizeof() <= 4) {\n decimals = decimalCount32(value);\n utoa32_core(buffer, value, decimals);\n } else {\n if (value <= u32.MAX_VALUE) {\n let val32 = value;\n decimals = decimalCount32(val32);\n utoa32_core(buffer, val32, decimals);\n } else {\n decimals = decimalCount64(value);\n utoa64_core(buffer, value, decimals);\n }\n }\n }\n return decimals;\n}\n\nexport function dtoa_stream(buffer: usize, offset: usize, value: f64): u32 {\n buffer += (offset << 1);\n if (value == 0.0) {\n store(buffer, CharCode._0, STRING_HEADER_SIZE + 0);\n store(buffer, CharCode.DOT, STRING_HEADER_SIZE + 2);\n store(buffer, CharCode._0, STRING_HEADER_SIZE + 4);\n return 3;\n }\n if (!isFinite(value)) {\n if (isNaN(value)) {\n store(buffer, CharCode.N, STRING_HEADER_SIZE + 0);\n store(buffer, CharCode.a, STRING_HEADER_SIZE + 2);\n store(buffer, CharCode.N, STRING_HEADER_SIZE + 4);\n return 3;\n } else {\n let sign = (value < 0);\n let len = 8 + sign;\n let source = changetype(select("-Infinity", "Infinity", sign));\n memory.copy(buffer + STRING_HEADER_SIZE, source + STRING_HEADER_SIZE, len << 1);\n return len;\n }\n }\n return dtoa_core(buffer, value);\n}\n',"internal/sort":"import {\n LOAD,\n STORE\n} from \"./arraybuffer\";\n\nimport {\n compareUnsafe\n} from \"./string\";\n\n/** Obtains the default comparator for the specified value type. */\n@inline\nexport function COMPARATOR(): (a: T, b: T) => i32 {\n if (isInteger()) {\n if (isSigned() && sizeof() <= 4) {\n return (a: T, b: T): i32 => ((a - b));\n } else {\n return (a: T, b: T): i32 => ((a > b) - (a < b));\n }\n } else if (isFloat()) {\n if (sizeof() == 4) {\n return (a: T, b: T): i32 => {\n var ia = reinterpret(a);\n var ib = reinterpret(b);\n ia ^= (ia >> 31) >>> 1;\n ib ^= (ib >> 31) >>> 1;\n return (ia > ib) - (ia < ib);\n };\n } else {\n return (a: T, b: T): i32 => {\n var ia = reinterpret(a);\n var ib = reinterpret(b);\n ia ^= (ia >> 63) >>> 1;\n ib ^= (ib >> 63) >>> 1;\n return (ia > ib) - (ia < ib);\n };\n }\n } else if (isString()) {\n return (a: T, b: T): i32 => {\n if (a === b || a === null || b === null) return 0;\n var alen = (a).length;\n var blen = (b).length;\n if (!alen && !blen) return 0;\n if (!alen) return -1;\n if (!blen) return 1;\n return compareUnsafe(a, 0, b, 0, min(alen, blen));\n };\n } else {\n return (a: T, b: T): i32 => ((a > b) - (a < b));\n }\n}\n\n@inline\nexport function SORT(\n buffer: ArrayBuffer,\n byteOffset: i32,\n length: i32,\n comparator: (a: T, b: T) => i32\n): void {\n if (isReference()) {\n // TODO replace this to faster stable sort (TimSort) when it implemented\n insertionSort(buffer, byteOffset, length, comparator);\n } else {\n if (length < 256) {\n insertionSort(buffer, byteOffset, length, comparator);\n } else {\n weakHeapSort(buffer, byteOffset, length, comparator);\n }\n }\n}\n\n/** Sorts an Array with the 'Insertion Sort' algorithm. */\nfunction insertionSort(\n buffer: ArrayBuffer,\n byteOffset: i32,\n length: i32,\n comparator: (a: T, b: T) => i32\n): void {\n for (let i = 0; i < length; i++) {\n let a = LOAD(buffer, i, byteOffset); // a = arr[i]\n let j = i - 1;\n while (j >= 0) {\n let b = LOAD(buffer, j, byteOffset); // b = arr[j]\n if (comparator(a, b) < 0) {\n STORE(buffer, j-- + 1, b, byteOffset); // arr[j + 1] = b\n } else break;\n }\n STORE(buffer, j + 1, a, byteOffset); // arr[j + 1] = a\n }\n}\n\n/** Sorts an Array with the 'Weak Heap Sort' algorithm. */\nfunction weakHeapSort(\n buffer: ArrayBuffer,\n byteOffset: i32,\n length: i32,\n comparator: (a: T, b: T) => i32\n): void {\n const shift32 = alignof();\n\n var bitsetSize = (length + 31) >> 5 << shift32;\n var bitset = memory.allocate(bitsetSize); // indexed in 32-bit chunks below\n memory.fill(bitset, 0, bitsetSize);\n\n // see: http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.21.1863&rep=rep1&type=pdf\n\n for (let i = length - 1; i > 0; i--) {\n let j = i;\n while ((j & 1) == (load(bitset + (j >> 6 << shift32)) >> (j >> 1 & 31) & 1)) j >>= 1;\n\n let p = j >> 1;\n let a = LOAD(buffer, p, byteOffset); // a = arr[p]\n let b = LOAD(buffer, i, byteOffset); // b = arr[i]\n if (comparator(a, b) < 0) {\n store(\n bitset + (i >> 5 << shift32),\n load(bitset + (i >> 5 << shift32)) ^ (1 << (i & 31))\n );\n STORE(buffer, i, a, byteOffset); // arr[i] = a\n STORE(buffer, p, b, byteOffset); // arr[p] = b\n }\n }\n\n for (let i = length - 1; i >= 2; i--) {\n let a = LOAD(buffer, 0, byteOffset);\n STORE(buffer, 0, LOAD(buffer, i, byteOffset), byteOffset);\n STORE(buffer, i, a, byteOffset);\n\n let x = 1, y: i32;\n while ((y = (x << 1) + ((load(bitset + (x >> 5 << shift32)) >> (x & 31)) & 1)) < i) x = y;\n\n while (x > 0) {\n a = LOAD(buffer, 0, byteOffset); // a = arr[0]\n let b = LOAD(buffer, x, byteOffset); // b = arr[x]\n\n if (comparator(a, b) < 0) {\n store(\n bitset + (x >> 5 << shift32),\n load(bitset + (x >> 5 << shift32)) ^ (1 << (x & 31))\n );\n STORE(buffer, x, a, byteOffset); // arr[x] = a\n STORE(buffer, 0, b, byteOffset); // arr[0] = b\n }\n x >>= 1;\n }\n }\n\n memory.free(bitset);\n\n var t = LOAD(buffer, 1, byteOffset); // t = arr[1]\n STORE(buffer, 1, LOAD(buffer, 0, byteOffset), byteOffset);\n STORE(buffer, 0, t, byteOffset); // arr[0] = t\n}\n","internal/string":'import { MAX_SIZE_32 } from "./allocator";\nimport { String } from "../string";\n\n/** Size of a String header. */\n@inline export const HEADER_SIZE = (offsetof() + 1) & ~1; // 2 byte aligned\n/** Maximum length of a String. */\n@inline export const MAX_LENGTH = (MAX_SIZE_32 - HEADER_SIZE) >>> 1;\n\n// Low-level utility\n\nfunction __gc(ref: usize): void {}\n\nexport function allocateUnsafe(length: i32): String {\n assert(length > 0 && length <= MAX_LENGTH);\n var buffer: usize;\n if (isManaged()) {\n buffer = __gc_allocate(HEADER_SIZE + (length << 1), __gc); // tslint:disable-line\n } else {\n buffer = memory.allocate(HEADER_SIZE + (length << 1));\n }\n store(buffer, length);\n return changetype(buffer);\n}\n\n@inline\nexport function freeUnsafe(buffer: String): void {\n if (!isManaged()) {\n assert(buffer);\n memory.free(changetype(buffer));\n }\n}\n\nexport function copyUnsafe(dest: String, destOffset: usize, src: String, srcOffset: usize, len: usize): void {\n memory.copy(\n changetype(dest) + (destOffset << 1) + HEADER_SIZE,\n changetype(src) + (srcOffset << 1) + HEADER_SIZE,\n len << 1\n );\n}\n\nexport function compareUnsafe(str1: String, offset1: usize, str2: String, offset2: usize, len: usize): i32 {\n var cmp: i32 = 0;\n var ptr1 = changetype(str1) + (offset1 << 1);\n var ptr2 = changetype(str2) + (offset2 << 1);\n while (len && !(cmp = load(ptr1, HEADER_SIZE) - load(ptr2, HEADER_SIZE))) {\n --len, ptr1 += 2, ptr2 += 2;\n }\n return cmp;\n}\n\nexport function repeatUnsafe(dest: String, destOffset: usize, src: String, count: i32): void {\n var length = src.length;\n if (ASC_SHRINK_LEVEL > 1) {\n let strLen = length << 1;\n let to = changetype(dest) + HEADER_SIZE + (destOffset << 1);\n let from = changetype(src) + HEADER_SIZE;\n for (let i = 0, len = strLen * count; i < len; i += strLen) {\n memory.copy(to + i, from, strLen);\n }\n } else {\n switch (length) {\n case 0: break;\n case 1: {\n let cc = load(changetype(src), HEADER_SIZE);\n let out = changetype(dest) + (destOffset << 1);\n for (let i = 0; i < count; ++i) {\n store(out + (i << 1), cc, HEADER_SIZE);\n }\n break;\n }\n case 2: {\n let cc = load(changetype(src), HEADER_SIZE);\n let out = changetype(dest) + (destOffset << 1);\n for (let i = 0; i < count; ++i) {\n store(out + (i << 2), cc, HEADER_SIZE);\n }\n break;\n }\n case 3: {\n let cc1 = load(changetype(src), HEADER_SIZE + 0);\n let cc2 = load(changetype(src), HEADER_SIZE + 4);\n let out = changetype(dest) + (destOffset << 1);\n for (let i = 0; i < count; ++i) {\n store(out + (i << 2), cc1, HEADER_SIZE + 0);\n store(out + (i << 1), cc2, HEADER_SIZE + 4);\n }\n break;\n }\n case 4: {\n let cc = load(changetype(src), HEADER_SIZE);\n let out = changetype(dest) + (destOffset << 1);\n for (let i = 0; i < count; ++i) {\n store(out + (i << 3), cc, HEADER_SIZE);\n }\n break;\n }\n default: {\n let strLen = length << 1;\n let to = changetype(dest) + HEADER_SIZE + (destOffset << 1);\n let from = changetype(src) + HEADER_SIZE;\n for (let i = 0, len = strLen * count; i < len; i += strLen) {\n memory.copy(to + i, from, strLen);\n }\n break;\n }\n }\n }\n}\n\n// Helpers\n\n@inline export const enum CharCode {\n PLUS = 0x2B,\n MINUS = 0x2D,\n DOT = 0x2E,\n _0 = 0x30,\n _1 = 0x31,\n _2 = 0x32,\n _3 = 0x33,\n _4 = 0x34,\n _5 = 0x35,\n _6 = 0x36,\n _7 = 0x37,\n _8 = 0x38,\n _9 = 0x39,\n A = 0x41,\n B = 0x42,\n E = 0x45,\n N = 0x4E,\n O = 0x4F,\n X = 0x58,\n Z = 0x5a,\n a = 0x61,\n b = 0x62,\n e = 0x65,\n n = 0x6E,\n o = 0x6F,\n x = 0x78,\n z = 0x7A\n}\n\nexport function isWhiteSpaceOrLineTerminator(c: u16): bool {\n switch (c) {\n case 9: // \n case 10: // \n case 13: // \n case 11: // \n case 12: // \n case 32: // \n case 160: // \n case 8232: // \n case 8233: // \n case 65279: return true; // \n default: return false;\n }\n}\n\n/** Parses a string to an integer (usually), using the specified radix. */\nexport function parse(str: String, radix: i32 = 0): T {\n var len: i32 = str.length;\n if (!len) return NaN;\n\n var ptr = changetype(str) /* + HEAD -> offset */;\n var code = load(ptr, HEADER_SIZE);\n\n // determine sign\n var sign: T;\n if (code == CharCode.MINUS) {\n if (!--len) return NaN;\n code = load(ptr += 2, HEADER_SIZE);\n sign = -1;\n } else if (code == CharCode.PLUS) {\n if (!--len) return NaN;\n code = load(ptr += 2, HEADER_SIZE);\n sign = 1;\n } else {\n sign = 1;\n }\n\n // determine radix\n if (!radix) {\n if (code == CharCode._0 && len > 2) {\n switch (load(ptr + 2, HEADER_SIZE)) {\n case CharCode.B:\n case CharCode.b: {\n ptr += 4; len -= 2;\n radix = 2;\n break;\n }\n case CharCode.O:\n case CharCode.o: {\n ptr += 4; len -= 2;\n radix = 8;\n break;\n }\n case CharCode.X:\n case CharCode.x: {\n ptr += 4; len -= 2;\n radix = 16;\n break;\n }\n default: radix = 10;\n }\n } else radix = 10;\n } else if (radix < 2 || radix > 36) {\n return NaN;\n }\n\n // calculate value\n var num: T = 0;\n while (len--) {\n code = load(ptr, HEADER_SIZE);\n if (code >= CharCode._0 && code <= CharCode._9) {\n code -= CharCode._0;\n } else if (code >= CharCode.A && code <= CharCode.Z) {\n code -= CharCode.A - 10;\n } else if (code >= CharCode.a && code <= CharCode.z) {\n code -= CharCode.a - 10;\n } else break;\n if (code >= radix) break;\n num = (num * radix) + code;\n ptr += 2;\n }\n return sign * num;\n}\n',"internal/typedarray":'import {\n HEADER_SIZE as AB_HEADER_SIZE,\n MAX_BLENGTH as AB_MAX_BLENGTH,\n allocateUnsafe,\n LOAD,\n STORE\n} from "./arraybuffer";\n\nimport {\n SORT as SORT_IMPL\n} from "./sort";\n\n/** Typed array base class. Not a global object. */\nexport abstract class TypedArray {\n [key: number]: T; // compatibility only\n\n readonly buffer: ArrayBuffer;\n readonly byteOffset: i32;\n readonly byteLength: i32;\n\n constructor(length: i32) {\n const MAX_LENGTH = AB_MAX_BLENGTH / sizeof();\n if (length > MAX_LENGTH) throw new RangeError("Invalid typed array length");\n var byteLength = length << alignof();\n var buffer = allocateUnsafe(byteLength);\n memory.fill(changetype(buffer) + AB_HEADER_SIZE, 0, byteLength);\n this.buffer = buffer;\n this.byteOffset = 0;\n this.byteLength = byteLength;\n }\n\n @inline\n get length(): i32 {\n return this.byteLength >>> alignof();\n }\n\n @operator("[]")\n protected __get(index: i32): T {\n if (index >= (this.byteLength >>> alignof())) throw new Error("Index out of bounds");\n return LOAD(this.buffer, index, this.byteOffset);\n }\n\n @inline @operator("{}")\n protected __unchecked_get(index: i32): T {\n return LOAD(this.buffer, index, this.byteOffset);\n }\n\n @operator("[]=")\n protected __set(index: i32, value: native): void {\n if (index >= (this.byteLength >>> alignof())) throw new Error("Index out of bounds");\n STORE>(this.buffer, index, value, this.byteOffset);\n }\n\n @inline @operator("{}=")\n protected __unchecked_set(index: i32, value: native): void {\n STORE>(this.buffer, index, value, this.byteOffset);\n }\n\n // copyWithin(target: i32, start: i32, end: i32 = this.length): this\n}\n\n@inline\nexport function FILL, T extends number>(\n array: TArray,\n value: native,\n start: i32,\n end: i32\n): TArray {\n var buffer = array.buffer;\n var byteOffset = array.byteOffset;\n var len = array.length;\n start = start < 0 ? max(len + start, 0) : min(start, len);\n end = end < 0 ? max(len + end, 0) : min(end, len);\n if (sizeof() == 1) {\n if (start < end) {\n memory.fill(\n changetype(buffer) + start + byteOffset + AB_HEADER_SIZE,\n value,\n (end - start)\n );\n }\n } else {\n for (; start < end; ++start) {\n STORE>(buffer, start, value, byteOffset);\n }\n }\n return array;\n}\n\n@inline\nexport function SORT, T>(\n array: TArray,\n comparator: (a: T, b: T) => i32\n): TArray {\n var byteOffset = array.byteOffset;\n var length = array.length;\n if (length <= 1) return array;\n var buffer = array.buffer;\n if (length == 2) {\n let a = LOAD(buffer, 1, byteOffset);\n let b = LOAD(buffer, 0, byteOffset);\n if (comparator(a, b) < 0) {\n STORE(buffer, 1, b, byteOffset);\n STORE(buffer, 0, a, byteOffset);\n }\n return array;\n }\n SORT_IMPL(buffer, byteOffset, length, comparator);\n return array;\n}\n\n@inline\nexport function SUBARRAY, T>(\n array: TArray,\n begin: i32,\n end: i32\n): TArray {\n var length = array.length;\n if (begin < 0) begin = max(length + begin, 0);\n else begin = min(begin, length);\n if (end < 0) end = max(length + end, begin);\n else end = max(min(end, length), begin);\n var slice = memory.allocate(offsetof());\n store(slice, array.buffer, offsetof("buffer"));\n store(slice, array.byteOffset + (begin << alignof()), offsetof("byteOffset"));\n store(slice, (end - begin) << alignof(), offsetof("byteLength"));\n return changetype(slice);\n}\n\n@inline\nexport function REDUCE, T, TRet>(\n array: TArray,\n callbackfn: (accumulator: TRet, value: T, index: i32, array: TArray) => TRet,\n initialValue: TRet\n): TRet {\n var length = array.length;\n var buffer = array.buffer;\n var byteOffset = array.byteOffset;\n for (let i = 0; i < length; i++) {\n initialValue = callbackfn(\n initialValue,\n LOAD(buffer, i, byteOffset),\n i,\n array,\n );\n }\n return initialValue;\n}\n\n@inline\nexport function REDUCE_RIGHT, T, TRet>(\n array: TArray,\n callbackfn: (accumulator: TRet, value: T, index: i32, array: TArray) => TRet,\n initialValue: TRet\n): TRet {\n var buffer = array.buffer;\n var byteOffset = array.byteOffset;\n for (let i = array.length - 1; i >= 0; i--) {\n initialValue = callbackfn(\n initialValue,\n LOAD(buffer, i, byteOffset),\n i,\n array,\n );\n }\n return initialValue;\n}\n\n@inline\nexport function MAP, T>(\n array: TArray,\n callbackfn: (value: T, index: i32, self: TArray) => T,\n): TArray {\n var length = array.length;\n var buffer = array.buffer;\n var byteOffset = array.byteOffset;\n var result = instantiate(length);\n var resultBuffer = result.buffer;\n for (let i = 0; i < length; i++) {\n STORE>(resultBuffer, i, >callbackfn(LOAD(buffer, i, byteOffset), i, array));\n }\n\n return result;\n}\n\n@inline\nexport function FIND_INDEX, T>(\n array: TArray,\n callbackfn: (value: T, index: i32, array: TArray) => bool,\n): i32 {\n var length = array.length;\n var buffer = array.buffer;\n var byteOffset = array.byteOffset;\n for (let i = 0; i < length; i++) {\n if (callbackfn(LOAD(buffer, i, byteOffset), i, array)) {\n return i;\n }\n }\n return -1;\n}\n\n@inline\nexport function SOME, T>(\n array: TArray,\n callbackfn: (value: T, index: i32, array: TArray) => bool,\n): bool {\n var length = array.length;\n var buffer = array.buffer;\n var byteOffset = array.byteOffset;\n for (let i = 0; i < length; i++) {\n if (callbackfn(LOAD(buffer, i, byteOffset), i, array)) {\n return true;\n }\n }\n return false;\n}\n\n@inline\nexport function EVERY, T>(\n array: TArray,\n callbackfn: (value: T, index: i32, array: TArray) => bool,\n): bool {\n var length = array.length;\n var buffer = array.buffer;\n var byteOffset = array.byteOffset;\n for (let i = 0; i < length; i++) {\n if (callbackfn(LOAD(buffer, i, byteOffset), i, array)) {\n continue;\n }\n return false;\n }\n return true;\n}\n',iterator:"export abstract class Iterable {\n // ?\n}\n\n@sealed\nexport abstract class Iterator {\n\n // private constructor(iterable: Iterable) {\n // }\n\n // TODO: these need to evaluate the classId at the respective reference in order to obtain the\n // next value, i.e. arrays work differently than maps. we'd then have:\n //\n // ╒═══════════════════ Iterator layout (32-bit) ══════════════════╕\n // 3 2 1\n // 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 bits\n // ├─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┤\n // │ index │\n // ├─────────────────────────────────────────────────────────┬───┬─┤\n // │ reference │ 0 │D│\n // └─────────────────────────────────────────────────────────┴───┴─┘\n // D: Done flag\n\n // get value(this: u64): T {\n // ?\n // }\n\n // next(this: u64): Iterator {\n // ?\n // }\n\n done(this: u64): bool {\n return (this & 1);\n }\n}\n",map:'import {\n HEADER_SIZE as HEADER_SIZE_AB\n} from "./internal/arraybuffer";\n\nimport {\n HASH\n} from "./internal/hash";\n\n// A deterministic hash map based on CloseTable from https://github.com/jorendorff/dht\n\n@inline const INITIAL_CAPACITY = 4;\n@inline const FILL_FACTOR: f64 = 8 / 3;\n@inline const FREE_FACTOR: f64 = 3 / 4;\n\n/** Structure of a map entry. */\n@unmanaged class MapEntry {\n key: K;\n value: V;\n taggedNext: usize; // LSB=1 indicates EMPTY\n}\n\n/** Empty bit. */\n@inline const EMPTY: usize = 1 << 0;\n\n/** Size of a bucket. */\n@inline const BUCKET_SIZE = sizeof();\n\n/** Computes the alignment of an entry. */\n@inline function ENTRY_ALIGN(): usize {\n // can align to 4 instead of 8 if 32-bit and K/V is <= 32-bits\n const maxkv = sizeof() > sizeof() ? sizeof() : sizeof();\n const align = (maxkv > sizeof() ? maxkv : sizeof()) - 1;\n return align;\n}\n\n/** Computes the aligned size of an entry. */\n@inline function ENTRY_SIZE(): usize {\n const align = ENTRY_ALIGN();\n const size = (offsetof>() + align) & ~align;\n return size;\n}\n\nexport class Map {\n\n // buckets holding references to the respective first entry within\n private buckets: ArrayBuffer; // usize[bucketsMask + 1]\n private bucketsMask: u32;\n\n // entries in insertion order\n private entries: ArrayBuffer; // MapEntry[entriesCapacity]\n private entriesCapacity: i32;\n private entriesOffset: i32;\n private entriesCount: i32;\n\n get size(): i32 { return this.entriesCount; }\n\n constructor() { this.clear(); }\n\n clear(): void {\n const bucketsSize = INITIAL_CAPACITY * BUCKET_SIZE;\n this.buckets = new ArrayBuffer(bucketsSize);\n this.bucketsMask = INITIAL_CAPACITY - 1;\n const entriesSize = INITIAL_CAPACITY * ENTRY_SIZE();\n this.entries = new ArrayBuffer(entriesSize, true);\n this.entriesCapacity = INITIAL_CAPACITY;\n this.entriesOffset = 0;\n this.entriesCount = 0;\n }\n\n private find(key: K, hashCode: u32): MapEntry | null {\n var entry = load>(\n changetype(this.buckets) + (hashCode & this.bucketsMask) * BUCKET_SIZE,\n HEADER_SIZE_AB\n );\n while (entry) {\n if (!(entry.taggedNext & EMPTY) && entry.key == key) return entry;\n entry = changetype>(entry.taggedNext & ~EMPTY);\n }\n return null;\n }\n\n has(key: K): bool {\n return this.find(key, HASH(key)) !== null;\n }\n\n get(key: K): V {\n var entry = this.find(key, HASH(key));\n return entry ? entry.value : unreachable();\n }\n\n set(key: K, value: V): void {\n var hashCode = HASH(key);\n var entry = this.find(key, hashCode);\n if (entry) {\n entry.value = value;\n } else {\n // check if rehashing is necessary\n if (this.entriesOffset == this.entriesCapacity) {\n this.rehash(\n this.entriesCount < (this.entriesCapacity * FREE_FACTOR)\n ? this.bucketsMask // just rehash if 1/4+ entries are empty\n : (this.bucketsMask << 1) | 1 // grow capacity to next 2^N\n );\n }\n // append new entry\n let entries = this.entries;\n entry = changetype>(\n changetype(entries) + HEADER_SIZE_AB + this.entriesOffset++ * ENTRY_SIZE()\n );\n entry.key = key;\n entry.value = value;\n ++this.entriesCount;\n // link with previous entry in bucket\n let bucketPtrBase = changetype(this.buckets) + (hashCode & this.bucketsMask) * BUCKET_SIZE;\n entry.taggedNext = load(bucketPtrBase, HEADER_SIZE_AB);\n store(bucketPtrBase, changetype(entry), HEADER_SIZE_AB);\n if (isManaged()) __gc_link(changetype(this), changetype(key)); // tslint:disable-line\n if (isManaged()) __gc_link(changetype(this), changetype(value)); // tslint:disable-line\n }\n }\n\n delete(key: K): bool {\n var entry = this.find(key, HASH(key));\n if (!entry) return false;\n entry.taggedNext |= EMPTY;\n --this.entriesCount;\n // check if rehashing is appropriate\n var halfBucketsMask = this.bucketsMask >> 1;\n if (\n halfBucketsMask + 1 >= max(INITIAL_CAPACITY, this.entriesCount) &&\n this.entriesCount < (this.entriesCapacity * FREE_FACTOR)\n ) this.rehash(halfBucketsMask);\n return true;\n }\n\n private rehash(newBucketsMask: u32): void {\n var newBucketsCapacity = (newBucketsMask + 1);\n var newBuckets = new ArrayBuffer(newBucketsCapacity * BUCKET_SIZE);\n var newEntriesCapacity = (newBucketsCapacity * FILL_FACTOR);\n var newEntries = new ArrayBuffer(newEntriesCapacity * ENTRY_SIZE(), true);\n\n // copy old entries to new entries\n var oldPtr = changetype(this.entries) + HEADER_SIZE_AB;\n var oldEnd = oldPtr + this.entriesOffset * ENTRY_SIZE();\n var newPtr = changetype(newEntries) + HEADER_SIZE_AB;\n while (oldPtr != oldEnd) {\n let oldEntry = changetype>(oldPtr);\n if (!(oldEntry.taggedNext & EMPTY)) {\n let newEntry = changetype>(newPtr);\n newEntry.key = oldEntry.key;\n newEntry.value = oldEntry.value;\n let newBucketIndex = HASH(oldEntry.key) & newBucketsMask;\n let newBucketPtrBase = changetype(newBuckets) + newBucketIndex * BUCKET_SIZE;\n newEntry.taggedNext = load(newBucketPtrBase, HEADER_SIZE_AB);\n store(newBucketPtrBase, newPtr, HEADER_SIZE_AB);\n newPtr += ENTRY_SIZE();\n }\n oldPtr += ENTRY_SIZE();\n }\n\n this.buckets = newBuckets;\n this.bucketsMask = newBucketsMask;\n this.entries = newEntries;\n this.entriesCapacity = newEntriesCapacity;\n this.entriesOffset = this.entriesCount;\n }\n\n toString(): string {\n return "[object Map]";\n }\n\n private __gc(): void {\n __gc_mark(changetype(this.buckets)); // tslint:disable-line\n var entries = this.entries;\n __gc_mark(changetype(entries)); // tslint:disable-line\n if (isManaged() || isManaged()) {\n let offset: usize = 0;\n let end: usize = this.entriesOffset * ENTRY_SIZE();\n while (offset < end) {\n let entry = changetype>(\n changetype(entries) + HEADER_SIZE_AB + offset * ENTRY_SIZE()\n );\n if (!(entry.taggedNext & EMPTY)) {\n if (isManaged()) __gc_mark(changetype(entry.key)); // tslint:disable-line\n if (isManaged()) __gc_mark(changetype(entry.value)); // tslint:disable-line\n }\n offset += ENTRY_SIZE();\n }\n }\n }\n}\n',math:'import * as JSMath from "./bindings/Math";\nexport { JSMath };\n\nimport {\n abs as builtin_abs,\n ceil as builtin_ceil,\n clz as builtin_clz,\n copysign as builtin_copysign,\n floor as builtin_floor,\n max as builtin_max,\n min as builtin_min,\n sqrt as builtin_sqrt,\n trunc as builtin_trunc\n} from "./builtins";\n\n// SUN COPYRIGHT NOTICE\n//\n// Copyright (C) 1993 by Sun Microsystems, Inc. All rights reserved.\n// Developed at SunPro, a Sun Microsystems, Inc. business.\n// Permission to use, copy, modify, and distribute this software\n// is freely granted, provided that this notice is preserved.\n//\n// Applies to all functions marked with a comment referring here.\n\n// TODO: sin, cos, tan\n\nfunction R(z: f64): f64 { // Rational approximation of (asin(x)-x)/x^3\n const // see: musl/src/math/asin.c and SUN COPYRIGHT NOTICE above\n pS0 = reinterpret(0x3FC5555555555555), // 1.66666666666666657415e-01\n pS1 = reinterpret(0xBFD4D61203EB6F7D), // -3.25565818622400915405e-01\n pS2 = reinterpret(0x3FC9C1550E884455), // 2.01212532134862925881e-01\n pS3 = reinterpret(0xBFA48228B5688F3B), // -4.00555345006794114027e-02\n pS4 = reinterpret(0x3F49EFE07501B288), // 7.91534994289814532176e-04\n pS5 = reinterpret(0x3F023DE10DFDF709), // 3.47933107596021167570e-05\n qS1 = reinterpret(0xC0033A271C8A2D4B), // -2.40339491173441421878e+00\n qS2 = reinterpret(0x40002AE59C598AC8), // 2.02094576023350569471e+00\n qS3 = reinterpret(0xBFE6066C1B8D0159), // -6.88283971605453293030e-01\n qS4 = reinterpret(0x3FB3B8C5B12E9282); // 7.70381505559019352791e-02\n var p = z * (pS0 + z * (pS1 + z * (pS2 + z * (pS3 + z * (pS4 + z * pS5)))));\n var q = 1.0 + z * (qS1 + z * (qS2 + z * (qS3 + z * qS4)));\n return p / q;\n}\n\n@inline function expo2(x: f64): f64 { // exp(x)/2 for x >= log(DBL_MAX)\n const // see: musl/src/math/__expo2.c\n k = 2043,\n kln2 = reinterpret(0x40962066151ADD8B); // 0x1.62066151add8bp+10\n var scale = reinterpret(((0x3FF + k / 2) << 20) << 32);\n return NativeMath.exp(x - kln2) * scale * scale;\n}\n\n@lazy var random_seeded = false;\n@lazy var random_state0_64: u64;\n@lazy var random_state1_64: u64;\n@lazy var random_state0_32: u32;\n@lazy var random_state1_32: u32;\n\nfunction murmurHash3(h: u64): u64 { // Force all bits of a hash block to avalanche\n h ^= h >> 33; // see: https://github.com/aappleby/smhasher\n h *= 0xFF51AFD7ED558CCD;\n h ^= h >> 33;\n h *= 0xC4CEB9FE1A85EC53;\n h ^= h >> 33;\n return h;\n}\n\nfunction splitMix32(h: u32): u32 {\n h += 0x6D2B79F5;\n h = (h ^ (h >> 15)) * (h | 1);\n h ^= h + (h ^ (h >> 7)) * (h | 61);\n return h ^ (h >> 14);\n}\n\nexport namespace NativeMath {\n\n @lazy export const E = reinterpret(0x4005BF0A8B145769); // 2.7182818284590452354\n @lazy export const LN2 = reinterpret(0x3FE62E42FEFA39EF); // 0.69314718055994530942\n @lazy export const LN10 = reinterpret(0x40026BB1BBB55516); // 2.30258509299404568402\n @lazy export const LOG2E = reinterpret(0x3FF71547652B82FE); // 1.4426950408889634074\n @lazy export const LOG10E = reinterpret(0x3FDBCB7B1526E50E); // 0.43429448190325182765\n @lazy export const PI = reinterpret(0x400921FB54442D18); // 3.14159265358979323846\n @lazy export const SQRT1_2 = reinterpret(0x3FE6A09E667F3BCD); // 0.70710678118654752440\n @lazy export const SQRT2 = reinterpret(0x3FF6A09E667F3BCD); // 1.41421356237309504880\n\n @inline\n export function abs(x: f64): f64 {\n return builtin_abs(x);\n }\n\n export function acos(x: f64): f64 { // see: musl/src/math/acos.c and SUN COPYRIGHT NOTICE above\n const\n pio2_hi = reinterpret(0x3FF921FB54442D18), // 1.57079632679489655800e+00\n pio2_lo = reinterpret(0x3C91A62633145C07), // 6.12323399573676603587e-17\n Ox1p_120f = reinterpret(0x03800000);\n var hx = (reinterpret(x) >> 32);\n var ix = hx & 0x7FFFFFFF;\n if (ix >= 0x3FF00000) {\n let lx = reinterpret(x);\n if ((ix - 0x3FF00000 | lx) == 0) {\n if (hx >> 31) return 2 * pio2_hi + Ox1p_120f;\n return 0;\n }\n return 0 / (x - x);\n }\n if (ix < 0x3FE00000) {\n if (ix <= 0x3C600000) return pio2_hi + Ox1p_120f;\n return pio2_hi - (x - (pio2_lo - x * R(x * x)));\n }\n var s: f64, w: f64, z: f64;\n if (hx >> 31) {\n // z = (1.0 + x) * 0.5;\n z = 0.5 + x * 0.5;\n s = builtin_sqrt(z);\n w = R(z) * s - pio2_lo;\n return 2 * (pio2_hi - (s + w));\n }\n // z = (1.0 - x) * 0.5;\n z = 0.5 - x * 0.5;\n s = builtin_sqrt(z);\n var df = reinterpret(reinterpret(s) & 0xFFFFFFFF00000000);\n var c = (z - df * df) / (s + df);\n w = R(z) * s + c;\n return 2 * (df + w);\n }\n\n export function acosh(x: f64): f64 { // see: musl/src/math/acosh.c\n const s = reinterpret(0x3FE62E42FEFA39EF);\n var e = reinterpret(x) >> 52 & 0x7FF;\n if (e < 0x3FF + 1) return log1p(x - 1 + builtin_sqrt((x - 1) * (x - 1) + 2 * (x - 1)));\n if (e < 0x3FF + 26) return log(2 * x - 1 / (x + builtin_sqrt(x * x - 1)));\n return log(x) + s;\n }\n\n export function asin(x: f64): f64 { // see: musl/src/math/asin.c and SUN COPYRIGHT NOTICE above\n const\n pio2_hi = reinterpret(0x3FF921FB54442D18), // 1.57079632679489655800e+00\n pio2_lo = reinterpret(0x3C91A62633145C07), // 6.12323399573676603587e-17\n Ox1p_120f = reinterpret(0x03800000);\n var hx = (reinterpret(x) >> 32);\n var ix = hx & 0x7FFFFFFF;\n if (ix >= 0x3FF00000) {\n let lx = reinterpret(x);\n if ((ix - 0x3FF00000 | lx) == 0) return x * pio2_hi + Ox1p_120f;\n return 0 / (x - x);\n }\n if (ix < 0x3FE00000) {\n if (ix < 0x3E500000 && ix >= 0x00100000) return x;\n return x + x * R(x * x);\n }\n // var z = (1.0 - builtin_abs(x)) * 0.5;\n var z = 0.5 - builtin_abs(x) * 0.5;\n var s = builtin_sqrt(z);\n var r = R(z);\n if (ix >= 0x3FEF3333) x = pio2_hi - (2 * (s + s * r) - pio2_lo);\n else {\n let f = reinterpret(reinterpret(s) & 0xFFFFFFFF00000000);\n let c = (z - f * f) / (s + f);\n x = 0.5 * pio2_hi - (2 * s * r - (pio2_lo - 2 * c) - (0.5 * pio2_hi - 2 * f));\n }\n if (hx >> 31) return -x;\n return x;\n }\n\n export function asinh(x: f64): f64 { // see: musl/src/math/asinh.c\n const c = reinterpret(0x3FE62E42FEFA39EF); // 0.693147180559945309417232121458176568\n var u = reinterpret(x);\n var e = u >> 52 & 0x7FF;\n var y = reinterpret(u & 0x7FFFFFFFFFFFFFFF);\n if (e >= 0x3FF + 26) y = log(y) + c;\n else if (e >= 0x3FF + 1) y = log(2 * y + 1 / (builtin_sqrt(y * y + 1) + y));\n else if (e >= 0x3FF - 26) y = log1p(y + y * y / (builtin_sqrt(y * y + 1) + 1));\n return builtin_copysign(y, x);\n }\n\n export function atan(x: f64): f64 { // see musl/src/math/atan.c and SUN COPYRIGHT NOTICE above\n const\n atanhi0 = reinterpret(0x3FDDAC670561BB4F), // 4.63647609000806093515e-01\n atanhi1 = reinterpret(0x3FE921FB54442D18), // 7.85398163397448278999e-01\n atanhi2 = reinterpret(0x3FEF730BD281F69B), // 9.82793723247329054082e-01\n atanhi3 = reinterpret(0x3FF921FB54442D18), // 1.57079632679489655800e+00\n atanlo0 = reinterpret(0x3C7A2B7F222F65E2), // 2.26987774529616870924e-17\n atanlo1 = reinterpret(0x3C81A62633145C07), // 3.06161699786838301793e-17\n atanlo2 = reinterpret(0x3C7007887AF0CBBD), // 1.39033110312309984516e-17\n atanlo3 = reinterpret(0x3C91A62633145C07), // 6.12323399573676603587e-17\n aT0 = reinterpret(0x3FD555555555550D), // 3.33333333333329318027e-01\n aT1 = reinterpret(0xBFC999999998EBC4), // -1.99999999998764832476e-01\n aT2 = reinterpret(0x3FC24924920083FF), // 1.42857142725034663711e-01\n aT3 = reinterpret(0xBFBC71C6FE231671), // -1.11111104054623557880e-01,\n aT4 = reinterpret(0x3FB745CDC54C206E), // 9.09088713343650656196e-02\n aT5 = reinterpret(0xBFB3B0F2AF749A6D), // -7.69187620504482999495e-02\n aT6 = reinterpret(0x3FB10D66A0D03D51), // 6.66107313738753120669e-02\n aT7 = reinterpret(0xBFADDE2D52DEFD9A), // -5.83357013379057348645e-02\n aT8 = reinterpret(0x3FA97B4B24760DEB), // 4.97687799461593236017e-02\n aT9 = reinterpret(0xBFA2B4442C6A6C2F), // -3.65315727442169155270e-02\n aT10 = reinterpret(0x3F90AD3AE322DA11), // 1.62858201153657823623e-02\n Ox1p_120f = reinterpret(0x03800000);\n var ix = (reinterpret(x) >> 32);\n var sx = x;\n ix &= 0x7FFFFFFF;\n var z: f64;\n if (ix >= 0x44100000) {\n if (isNaN(x)) return x;\n z = atanhi3 + Ox1p_120f;\n return builtin_copysign(z, sx);\n }\n var id: i32;\n if (ix < 0x3FDC0000) {\n if (ix < 0x3E400000) return x;\n id = -1;\n } else {\n x = builtin_abs(x);\n if (ix < 0x3FF30000) {\n if (ix < 0x3FE60000) {\n id = 0;\n x = (2.0 * x - 1.0) / (2.0 + x);\n } else {\n id = 1;\n x = (x - 1.0) / (x + 1.0);\n }\n } else {\n if (ix < 0x40038000) {\n id = 2;\n x = (x - 1.5) / (1.0 + 1.5 * x);\n } else {\n id = 3;\n x = -1.0 / x;\n }\n }\n }\n z = x * x;\n var w = z * z;\n var s1 = z * (aT0 + w * (aT2 + w * (aT4 + w * (aT6 + w * (aT8 + w * aT10)))));\n var s2 = w * (aT1 + w * (aT3 + w * (aT5 + w * (aT7 + w * aT9))));\n var s3 = x * (s1 + s2);\n if (id < 0) return x - s3;\n switch (id) {\n case 0: { z = atanhi0 - ((s3 - atanlo0) - x); break; }\n case 1: { z = atanhi1 - ((s3 - atanlo1) - x); break; }\n case 2: { z = atanhi2 - ((s3 - atanlo2) - x); break; }\n case 3: { z = atanhi3 - ((s3 - atanlo3) - x); break; }\n default: unreachable();\n }\n return builtin_copysign(z, sx);\n }\n\n export function atanh(x: f64): f64 { // see: musl/src/math/atanh.c\n var u = reinterpret(x);\n var e = u >> 52 & 0x7FF;\n var s = u >> 63;\n u &= 0x7FFFFFFFFFFFFFFF;\n var y = reinterpret(u);\n if (e < 0x3FF - 1) {\n if (e >= 0x3FF - 32) y = 0.5 * log1p(2 * y + 2 * y * y / (1 - y));\n } else {\n y = 0.5 * log1p(2 * (y / (1 - y)));\n }\n return builtin_copysign(y, x);\n }\n\n export function atan2(y: f64, x: f64): f64 { // see: musl/src/math/atan2.c and SUN COPYRIGHT NOTICE above\n const pi_lo = reinterpret(0x3CA1A62633145C07); // 1.2246467991473531772E-16\n if (isNaN(x) || isNaN(y)) return x + y;\n var u = reinterpret(x);\n var ix = (u >> 32);\n var lx = u;\n u = reinterpret(y);\n var iy = (u >> 32);\n var ly = u;\n if ((ix - 0x3FF00000 | lx) == 0) return atan(y);\n var m = ((iy >> 31) & 1) | ((ix >> 30) & 2);\n ix = ix & 0x7FFFFFFF;\n iy = iy & 0x7FFFFFFF;\n if ((iy | ly) == 0) {\n switch (m) {\n case 0:\n case 1: return y;\n case 2: return PI;\n case 3: return -PI;\n }\n }\n if ((ix | lx) == 0) return m & 1 ? -PI / 2 : PI / 2;\n if (ix == 0x7FF00000) {\n if (iy == 0x7FF00000) {\n switch (m) {\n case 0: return PI / 4;\n case 1: return -PI / 4;\n case 2: return 3 * PI / 4;\n case 3: return -3 * PI / 4;\n }\n } else {\n switch (m) {\n case 0: return 0.0;\n case 1: return -0.0;\n case 2: return PI;\n case 3: return -PI;\n }\n }\n }\n var z: f64;\n if (ix + (64 << 20) < iy || iy == 0x7FF00000) return m & 1 ? -PI / 2 : PI / 2;\n if ((m & 2) && iy + (64 << 20) < ix) z = 0;\n else z = atan(builtin_abs(y / x));\n switch (m) {\n case 0: return z;\n case 1: return -z;\n case 2: return PI - (z - pi_lo);\n case 3: return (z - pi_lo) - PI;\n }\n unreachable();\n return 0;\n }\n\n export function cbrt(x: f64): f64 { // see: musl/src/math/cbrt.c and SUN COPYRIGHT NOTICE above\n const\n B1 = 715094163,\n B2 = 696219795,\n P0 = reinterpret(0x3FFE03E60F61E692), // 1.87595182427177009643\n P1 = reinterpret(0xBFFE28E092F02420), // -1.88497979543377169875\n P2 = reinterpret(0x3FF9F1604A49D6C2), // 1.621429720105354466140\n P3 = reinterpret(0xBFE844CBBEE751D9), // -0.758397934778766047437\n P4 = reinterpret(0x3FC2B000D4E4EDD7), // 0.145996192886612446982\n Ox1p54 = reinterpret(0x4350000000000000);\n var u = reinterpret(x);\n var hx = (u >> 32) & 0x7FFFFFFF;\n if (hx >= 0x7FF00000) return x + x;\n if (hx < 0x00100000) {\n u = reinterpret(x * Ox1p54);\n hx = (u >> 32) & 0x7FFFFFFF;\n if (hx == 0) return x;\n hx = hx / 3 + B2;\n } else {\n hx = hx / 3 + B1;\n }\n u &= 1 << 63;\n u |= hx << 32;\n var t = reinterpret(u);\n var r = (t * t) * (t / x);\n t = t * ((P0 + r * (P1 + r * P2)) + ((r * r) * r) * (P3 + r * P4));\n t = reinterpret((reinterpret(t) + 0x80000000) & 0xFFFFFFFFC0000000);\n var s = t * t;\n r = x / s;\n r = (r - t) / (2 * t + r);\n t = t + t * r;\n return t;\n }\n\n @inline\n export function ceil(x: f64): f64 {\n return builtin_ceil(x);\n }\n\n export function clz32(x: f64): f64 {\n if (!isFinite(x)) return 32;\n /*\n * Wasm (MVP) and JS have different approaches for double->int conversions.\n *\n * For emulate JS conversion behavior and avoid trapping from wasm we should modulate by MAX_INT\n * our float-point arguments before actual convertion to integers.\n */\n return builtin_clz(\n (x - 4294967296 * builtin_floor(x * (1.0 / 4294967296)))\n );\n }\n\n export function cos(x: f64): f64 { // TODO\n unreachable();\n return 0;\n }\n\n export function cosh(x: f64): f64 { // see: musl/src/math/cosh.c\n var u = reinterpret(x);\n u &= 0x7FFFFFFFFFFFFFFF;\n x = reinterpret(u);\n var w = (u >> 32);\n var t: f64;\n if (w < 0x3FE62E42) {\n if (w < 0x3FF00000 - (26 << 20)) return 1;\n t = expm1(x);\n // return 1 + t * t / (2 * (1 + t));\n return 1 + t * t / (2 + 2 * t);\n }\n if (w < 0x40862E42) {\n t = exp(x);\n return 0.5 * (t + 1 / t);\n }\n t = expo2(x);\n return t;\n }\n\n export function exp(x: f64): f64 { // see: musl/src/math/exp.c and SUN COPYRIGHT NOTICE above\n const\n ln2hi = reinterpret(0x3FE62E42FEE00000), // 6.93147180369123816490e-01\n ln2lo = reinterpret(0x3DEA39EF35793C76), // 1.90821492927058770002e-10\n invln2 = reinterpret(0x3FF71547652B82FE), // 1.44269504088896338700e+00\n P1 = reinterpret(0x3FC555555555553E), // 1.66666666666666019037e-01\n P2 = reinterpret(0xBF66C16C16BEBD93), // -2.77777777770155933842e-03\n P3 = reinterpret(0x3F11566AAF25DE2C), // 6.61375632143793436117e-05\n P4 = reinterpret(0xBEBBBD41C5D26BF1), // -1.65339022054652515390e-06\n P5 = reinterpret(0x3E66376972BEA4D0), // 4.13813679705723846039e-08\n overflow = reinterpret(0x40862E42FEFA39EF), // 709.782712893383973096\n underflow = reinterpret(0xC0874910D52D3051), // -745.13321910194110842\n Ox1p1023 = reinterpret(0x7FE0000000000000);\n var hx = (reinterpret(x) >> 32);\n var sign_ = (hx >> 31);\n hx &= 0x7FFFFFFF;\n if (hx >= 0x4086232B) {\n if (isNaN(x)) return x;\n if (x > overflow) return x * Ox1p1023;\n if (x < underflow) return 0;\n }\n var hi: f64, lo: f64 = 0;\n var k = 0;\n if (hx > 0x3FD62E42) {\n if (hx >= 0x3FF0A2B2) {\n k = (invln2 * x + builtin_copysign(0.5, x));\n } else {\n k = 1 - (sign_ << 1);\n }\n hi = x - k * ln2hi;\n lo = k * ln2lo;\n x = hi - lo;\n } else if (hx > 0x3E300000) {\n hi = x;\n } else return 1.0 + x;\n var xs = x * x;\n // var c = x - xp2 * (P1 + xp2 * (P2 + xp2 * (P3 + xp2 * (P4 + xp2 * P5))));\n var xq = xs * xs;\n var c = x - (xs * P1 + xq * ((P2 + xs * P3) + xq * (P4 + xs * P5)));\n var y = 1.0 + (x * c / (2 - c) - lo + hi);\n if (k == 0) return y;\n return scalbn(y, k);\n }\n\n export function expm1(x: f64): f64 { // see: musl/src/math/expm1.c and SUN COPYRIGHT NOTICE above\n const\n o_threshold = reinterpret(0x40862E42FEFA39EF), // 7.09782712893383973096e+02\n ln2_hi = reinterpret(0x3FE62E42FEE00000), // 6.93147180369123816490e-01\n ln2_lo = reinterpret(0x3DEA39EF35793C76), // 1.90821492927058770002e-10\n invln2 = reinterpret(0x3FF71547652B82FE), // 1.44269504088896338700e+00\n Q1 = reinterpret(0xBFA11111111110F4), // -3.33333333333331316428e-02\n Q2 = reinterpret(0x3F5A01A019FE5585), // 1.58730158725481460165e-03\n Q3 = reinterpret(0xBF14CE199EAADBB7), // -7.93650757867487942473e-05\n Q4 = reinterpret(0x3ED0CFCA86E65239), // 4.00821782732936239552e-06\n Q5 = reinterpret(0xBE8AFDB76E09C32D), // -2.01099218183624371326e-07\n Ox1p1023 = reinterpret(0x7FE0000000000000);\n var u = reinterpret(x);\n var hx = (u >> 32 & 0x7FFFFFFF);\n var k = 0, sign_ = (u >> 63);\n if (hx >= 0x4043687A) {\n if (isNaN(x)) return x;\n if (sign_) return -1;\n if (x > o_threshold) return x * Ox1p1023;\n }\n var c = 0.0, t: f64;\n if (hx > 0x3FD62E42) {\n k = select(\n 1 - (sign_ << 1),\n (invln2 * x + builtin_copysign(0.5, x)),\n hx < 0x3FF0A2B2\n );\n t = k;\n let hi = x - t * ln2_hi;\n let lo = t * ln2_lo;\n x = hi - lo;\n c = (hi - x) - lo;\n } else if (hx < 0x3C900000) return x;\n var hfx = 0.5 * x;\n var hxs = x * hfx;\n // var r1 = 1.0 + hxs * (Q1 + hxs * (Q2 + hxs * (Q3 + hxs * (Q4 + hxs * Q5))));\n var hxq = hxs * hxs;\n var r1 = (1.0 + hxs * Q1) + hxq * ((Q2 + hxs * Q3) + hxq * (Q4 + hxs * Q5));\n t = 3.0 - r1 * hfx;\n var e = hxs * ((r1 - t) / (6.0 - x * t));\n if (k == 0) return x - (x * e - hxs);\n e = x * (e - c) - c;\n e -= hxs;\n if (k == -1) return 0.5 * (x - e) - 0.5;\n if (k == 1) {\n if (x < -0.25) return -2.0 * (e - (x + 0.5));\n return 1.0 + 2.0 * (x - e);\n }\n u = (0x3FF + k) << 52;\n var twopk = reinterpret(u);\n var y: f64;\n if (k < 0 || k > 56) {\n y = x - e + 1.0;\n if (k == 1024) y = y * 2.0 * Ox1p1023;\n else y = y * twopk;\n return y - 1.0;\n }\n u = (0x3FF - k) << 52;\n y = reinterpret(u);\n if (k < 20) y = (1 - y) - e;\n else y = 1 - (e + y);\n return (x + y) * twopk;\n }\n\n @inline\n export function floor(x: f64): f64 {\n return builtin_floor(x);\n }\n\n @inline\n export function fround(x: f64): f32 {\n return x;\n }\n\n export function hypot(x: f64, y: f64): f64 { // see: musl/src/math/hypot.c\n const\n SPLIT = reinterpret(0x41A0000000000000) + 1, // 0x1p27 + 1\n Ox1p700 = reinterpret(0x6BB0000000000000),\n Ox1p_700 = reinterpret(0x1430000000000000);\n var ux = reinterpret(x);\n var uy = reinterpret(y);\n ux &= 0x7FFFFFFFFFFFFFFF;\n uy &= 0x7FFFFFFFFFFFFFFF;\n if (ux < uy) {\n let ut = ux;\n ux = uy;\n uy = ut;\n }\n var ex = (ux >> 52);\n var ey = (uy >> 52);\n y = reinterpret(uy);\n if (ey == 0x7FF) return y;\n x = reinterpret(ux);\n if (ex == 0x7FF || uy == 0) return x;\n if (ex - ey > 64) return x + y;\n var z = 1.0;\n if (ex > 0x3FF + 510) {\n z = Ox1p700;\n x *= Ox1p_700;\n y *= Ox1p_700;\n } else if (ey < 0x3FF - 450) {\n z = Ox1p_700;\n x *= Ox1p700;\n y *= Ox1p700;\n }\n var c = x * SPLIT;\n var h = x - c + c;\n var l = x - h;\n var hx = x * x;\n var lx = h * h - hx + (2 * h + l) * l;\n c = y * SPLIT;\n h = y - c + c;\n l = y - h;\n var hy = y * y;\n var ly = h * h - hy + (2 * h + l) * l;\n return z * builtin_sqrt(ly + lx + hy + hx);\n }\n\n export function imul(x: f64, y: f64): f64 {\n /*\n * Wasm (MVP) and JS have different approaches for double->int conversions.\n *\n * For emulate JS conversion behavior and avoid trapping from wasm we should modulate by MAX_INT\n * our float-point arguments before actual convertion to integers.\n */\n if (!isFinite(x + y)) return 0;\n const inv32 = 1.0 / 4294967296;\n return (\n (x - 4294967296 * builtin_floor(x * inv32)) *\n (y - 4294967296 * builtin_floor(y * inv32))\n );\n }\n\n export function log(x: f64): f64 { // see: musl/src/math/log.c and SUN COPYRIGHT NOTICE above\n const\n ln2_hi = reinterpret(0x3FE62E42FEE00000), // 6.93147180369123816490e-01\n ln2_lo = reinterpret(0x3DEA39EF35793C76), // 1.90821492927058770002e-10\n Lg1 = reinterpret(0x3FE5555555555593), // 6.666666666666735130e-01\n Lg2 = reinterpret(0x3FD999999997FA04), // 3.999999999940941908e-01\n Lg3 = reinterpret(0x3FD2492494229359), // 2.857142874366239149e-01\n Lg4 = reinterpret(0x3FCC71C51D8E78AF), // 2.222219843214978396e-01\n Lg5 = reinterpret(0x3FC7466496CB03DE), // 1.818357216161805012e-01\n Lg6 = reinterpret(0x3FC39A09D078C69F), // 1.531383769920937332e-01\n Lg7 = reinterpret(0x3FC2F112DF3E5244), // 1.479819860511658591e-01\n Ox1p54 = reinterpret(0x4350000000000000);\n var u = reinterpret(x);\n var hx = (u >> 32);\n var k = 0;\n if (hx < 0x00100000 || (hx >> 31)) {\n if (u << 1 == 0) return -1 / (x * x);\n if (hx >> 31) return (x - x) / 0.0;\n k -= 54;\n x *= Ox1p54;\n u = reinterpret(x);\n hx = (u >> 32);\n } else if (hx >= 0x7FF00000) return x;\n else if (hx == 0x3FF00000 && u << 32 == 0) return 0;\n hx += 0x3FF00000 - 0x3FE6A09E;\n k += (hx >> 20) - 0x3FF;\n hx = (hx & 0x000FFFFF) + 0x3FE6A09E;\n u = hx << 32 | (u & 0xFFFFFFFF);\n x = reinterpret(u);\n var f = x - 1.0;\n var hfsq = 0.5 * f * f;\n var s = f / (2.0 + f);\n var z = s * s;\n var w = z * z;\n var t1 = w * (Lg2 + w * (Lg4 + w * Lg6));\n var t2 = z * (Lg1 + w * (Lg3 + w * (Lg5 + w * Lg7)));\n var r = t2 + t1;\n var dk = k;\n return s * (hfsq + r) + dk * ln2_lo - hfsq + f + dk * ln2_hi;\n }\n\n export function log10(x: f64): f64 { // see: musl/src/math/log10.c and SUN COPYRIGHT NOTICE above\n const\n ivln10hi = reinterpret(0x3FDBCB7B15200000), // 4.34294481878168880939e-01\n ivln10lo = reinterpret(0x3DBB9438CA9AADD5), // 2.50829467116452752298e-11\n log10_2hi = reinterpret(0x3FD34413509F6000), // 3.01029995663611771306e-01\n log10_2lo = reinterpret(0x3D59FEF311F12B36), // 3.69423907715893078616e-13\n Lg1 = reinterpret(0x3FE5555555555593), // 6.666666666666735130e-01\n Lg2 = reinterpret(0x3FD999999997FA04), // 3.999999999940941908e-01\n Lg3 = reinterpret(0x3FD2492494229359), // 2.857142874366239149e-01\n Lg4 = reinterpret(0x3FCC71C51D8E78AF), // 2.222219843214978396e-01\n Lg5 = reinterpret(0x3FC7466496CB03DE), // 1.818357216161805012e-01\n Lg6 = reinterpret(0x3FC39A09D078C69F), // 1.531383769920937332e-01\n Lg7 = reinterpret(0x3FC2F112DF3E5244), // 1.479819860511658591e-01\n Ox1p54 = reinterpret(0x4350000000000000);\n var u = reinterpret(x);\n var hx = (u >> 32);\n var k = 0;\n if (hx < 0x00100000 || (hx >> 31)) {\n if (u << 1 == 0) return -1 / (x * x);\n if (hx >> 31) return (x - x) / 0.0;\n k -= 54;\n x *= Ox1p54;\n u = reinterpret(x);\n hx = (u >> 32);\n } else if (hx >= 0x7FF00000) return x;\n else if (hx == 0x3FF00000 && u << 32 == 0) return 0;\n hx += 0x3FF00000 - 0x3FE6A09E;\n k += (hx >> 20) - 0x3FF;\n hx = (hx & 0x000FFFFF) + 0x3FE6A09E;\n u = hx << 32 | (u & 0xFFFFFFFF);\n x = reinterpret(u);\n var f = x - 1.0;\n var hfsq = 0.5 * f * f;\n var s = f / (2.0 + f);\n var z = s * s;\n var w = z * z;\n var t1 = w * (Lg2 + w * (Lg4 + w * Lg6));\n var t2 = z * (Lg1 + w * (Lg3 + w * (Lg5 + w * Lg7)));\n var r = t2 + t1;\n var hi = f - hfsq;\n u = reinterpret(hi);\n u &= 0xFFFFFFFF00000000;\n hi = reinterpret(u);\n var lo = f - hi - hfsq + s * (hfsq + r);\n var val_hi = hi * ivln10hi;\n var dk = k;\n var y = dk * log10_2hi;\n var val_lo = dk * log10_2lo + (lo + hi) * ivln10lo + lo * ivln10hi;\n w = y + val_hi;\n val_lo += (y - w) + val_hi;\n return val_lo + w;\n }\n\n export function log1p(x: f64): f64 { // see: musl/src/math/log1p.c and SUN COPYRIGHT NOTICE above\n const\n ln2_hi = reinterpret(0x3FE62E42FEE00000), // 6.93147180369123816490e-01\n ln2_lo = reinterpret(0x3DEA39EF35793C76), // 1.90821492927058770002e-10\n Lg1 = reinterpret(0x3FE5555555555593), // 6.666666666666735130e-01\n Lg2 = reinterpret(0x3FD999999997FA04), // 3.999999999940941908e-01\n Lg3 = reinterpret(0x3FD2492494229359), // 2.857142874366239149e-01\n Lg4 = reinterpret(0x3FCC71C51D8E78AF), // 2.222219843214978396e-01\n Lg5 = reinterpret(0x3FC7466496CB03DE), // 1.818357216161805012e-01\n Lg6 = reinterpret(0x3FC39A09D078C69F), // 1.531383769920937332e-01\n Lg7 = reinterpret(0x3FC2F112DF3E5244); // 1.479819860511658591e-01\n var u = reinterpret(x);\n var hx = (u >> 32);\n var k = 1;\n var c = 0.0, f = 0.0;\n if (hx < 0x3FDA827A || (hx >> 31)) {\n if (hx >= 0xBFF00000) {\n if (x == -1) return x / 0.0;\n return (x - x) / 0.0;\n }\n if (hx << 1 < 0x3CA00000 << 1) return x;\n if (hx <= 0xBFD2BEC4) {\n k = 0;\n c = 0;\n f = x;\n }\n } else if (hx >= 0x7FF00000) return x;\n if (k) {\n u = reinterpret(1 + x);\n let hu = (u >> 32);\n hu += 0x3FF00000 - 0x3FE6A09E;\n k = (hu >> 20) - 0x3FF;\n if (k < 54) {\n let uf = reinterpret(u);\n c = k >= 2 ? 1 - (uf - x) : x - (uf - 1);\n c /= uf;\n } else c = 0;\n hu = (hu & 0x000FFFFF) + 0x3FE6A09E;\n u = hu << 32 | (u & 0xFFFFFFFF);\n f = reinterpret(u) - 1;\n }\n var hfsq = 0.5 * f * f;\n var s = f / (2.0 + f);\n var z = s * s;\n var w = z * z;\n var t1 = w * (Lg2 + w * (Lg4 + w * Lg6));\n var t2 = z * (Lg1 + w * (Lg3 + w * (Lg5 + w * Lg7)));\n var r = t2 + t1;\n var dk = k;\n return s * (hfsq + r) + (dk * ln2_lo + c) - hfsq + f + dk * ln2_hi;\n }\n\n export function log2(x: f64): f64 { // see: musl/src/math/log2.c and SUN COPYRIGHT NOTICE above\n const\n ivln2hi = reinterpret(0x3FF7154765200000), // 1.44269504072144627571e+00\n ivln2lo = reinterpret(0x3DE705FC2EEFA200), // 1.67517131648865118353e-10\n Lg1 = reinterpret(0x3FE5555555555593), // 6.666666666666735130e-01\n Lg2 = reinterpret(0x3FD999999997FA04), // 3.999999999940941908e-01\n Lg3 = reinterpret(0x3FD2492494229359), // 2.857142874366239149e-01\n Lg4 = reinterpret(0x3FCC71C51D8E78AF), // 2.222219843214978396e-01\n Lg5 = reinterpret(0x3FC7466496CB03DE), // 1.818357216161805012e-01\n Lg6 = reinterpret(0x3FC39A09D078C69F), // 1.531383769920937332e-01\n Lg7 = reinterpret(0x3FC2F112DF3E5244), // 1.479819860511658591e-01\n Ox1p54 = reinterpret(0x4350000000000000);\n var u = reinterpret(x);\n var hx = (u >> 32);\n var k = 0;\n if (hx < 0x00100000 || (hx >> 31)) {\n if (u << 1 == 0) return -1 / (x * x);\n if (hx >> 31) return (x - x) / 0.0;\n k -= 54;\n x *= Ox1p54;\n u = reinterpret(x);\n hx = (u >> 32);\n } else if (hx >= 0x7FF00000) return x;\n else if (hx == 0x3FF00000 && u << 32 == 0) return 0;\n hx += 0x3FF00000 - 0x3FE6A09E;\n k += (hx >> 20) - 0x3FF;\n hx = (hx & 0x000FFFFF) + 0x3FE6A09E;\n u = hx << 32 | (u & 0xFFFFFFFF);\n x = reinterpret(u);\n var f = x - 1.0;\n var hfsq = 0.5 * f * f;\n var s = f / (2.0 + f);\n var z = s * s;\n var w = z * z;\n var t1 = w * (Lg2 + w * (Lg4 + w * Lg6));\n var t2 = z * (Lg1 + w * (Lg3 + w * (Lg5 + w * Lg7)));\n var r = t2 + t1;\n var hi = f - hfsq;\n u = reinterpret(hi);\n u &= 0xFFFFFFFF00000000;\n hi = reinterpret(u);\n var lo = f - hi - hfsq + s * (hfsq + r);\n var val_hi = hi * ivln2hi;\n var val_lo = (lo + hi) * ivln2lo + lo * ivln2hi;\n var y = k;\n w = y + val_hi;\n val_lo += (y - w) + val_hi;\n val_hi = w;\n return val_lo + val_hi;\n }\n\n @inline\n export function max(value1: f64, value2: f64): f64 {\n return builtin_max(value1, value2);\n }\n\n @inline\n export function min(value1: f64, value2: f64): f64 {\n return builtin_min(value1, value2);\n }\n\n export function pow(x: f64, y: f64): f64 { // see: musl/src/math/pow.c and SUN COPYRIGHT NOTICE above\n const\n dp_h1 = reinterpret(0x3FE2B80340000000), // 5.84962487220764160156e-01\n dp_l1 = reinterpret(0x3E4CFDEB43CFD006), // 1.35003920212974897128e-08\n two53 = reinterpret(0x4340000000000000), // 9007199254740992.0\n huge = reinterpret(0x7E37E43C8800759C), // 1e+300\n tiny = reinterpret(0x01A56E1FC2F8F359), // 1e-300\n L1 = reinterpret(0x3FE3333333333303), // 5.99999999999994648725e-01\n L2 = reinterpret(0x3FDB6DB6DB6FABFF), // 4.28571428578550184252e-01\n L3 = reinterpret(0x3FD55555518F264D), // 3.33333329818377432918e-01\n L4 = reinterpret(0x3FD17460A91D4101), // 2.72728123808534006489e-01\n L5 = reinterpret(0x3FCD864A93C9DB65), // 2.30660745775561754067e-01\n L6 = reinterpret(0x3FCA7E284A454EEF), // 2.06975017800338417784e-01\n P1 = reinterpret(0x3FC555555555553E), // 1.66666666666666019037e-01\n P2 = reinterpret(0xBF66C16C16BEBD93), // -2.77777777770155933842e-03\n P3 = reinterpret(0x3F11566AAF25DE2C), // 6.61375632143793436117e-05\n P4 = reinterpret(0xBEBBBD41C5D26BF1), // -1.65339022054652515390e-06\n P5 = reinterpret(0x3E66376972BEA4D0), // 4.13813679705723846039e-08\n lg2 = reinterpret(0x3FE62E42FEFA39EF), // 6.93147180559945286227e-01\n lg2_h = reinterpret(0x3FE62E4300000000), // 6.93147182464599609375e-01\n lg2_l = reinterpret(0xBE205C610CA86C39), // -1.90465429995776804525e-09\n ovt = reinterpret(0x3C971547652B82FE), // 8.0085662595372944372e-017\n cp = reinterpret(0x3FEEC709DC3A03FD), // 9.61796693925975554329e-01\n cp_h = reinterpret(0x3FEEC709E0000000), // 9.61796700954437255859e-01\n cp_l = reinterpret(0xBE3E2FE0145B01F5), // -7.02846165095275826516e-09\n ivln2 = reinterpret(0x3FF71547652B82FE), // 1.44269504088896338700e+00\n ivln2_h = reinterpret(0x3FF7154760000000), // 1.44269502162933349609e+00\n ivln2_l = reinterpret(0x3E54AE0BF85DDF44), // 1.92596299112661746887e-08\n inv3 = reinterpret(0x3FD5555555555555); // 0.3333333333333333333333\n var u_ = reinterpret(x);\n var hx = (u_ >> 32);\n var lx = u_;\n u_ = reinterpret(y);\n var hy = (u_ >> 32);\n var ly = u_;\n var ix = hx & 0x7FFFFFFF;\n var iy = hy & 0x7FFFFFFF;\n if ((iy | ly) == 0) return 1.0; // x**0 = 1, even if x is NaN\n // if (hx == 0x3FF00000 && lx == 0) return 1.0; // C: 1**y = 1, even if y is NaN, JS: NaN\n if ( // NaN if either arg is NaN\n ix > 0x7FF00000 || (ix == 0x7FF00000 && lx != 0) ||\n iy > 0x7FF00000 || (iy == 0x7FF00000 && ly != 0)\n ) return x + y;\n var yisint = 0, k: i32;\n if (hx < 0) {\n if (iy >= 0x43400000) yisint = 2;\n else if (iy >= 0x3FF00000) {\n k = (iy >> 20) - 0x3FF;\n let kcond = k > 20;\n let offset = select(52, 20, kcond) - k;\n let Ly = select(ly, iy, kcond);\n let jj = Ly >> offset;\n if ((jj << offset) == Ly) yisint = 2 - (jj & 1);\n }\n }\n if (ly == 0) {\n if (iy == 0x7FF00000) { // y is +-inf\n if (((ix - 0x3FF00000) | lx) == 0) return NaN; // C: (-1)**+-inf is 1, JS: NaN\n else if (ix >= 0x3FF00000) return hy >= 0 ? y : 0.0; // (|x|>1)**+-inf = inf,0\n else return hy >= 0 ? 0.0 : -y; // (|x|<1)**+-inf = 0,inf\n }\n if (iy == 0x3FF00000) {\n if (hy >= 0) return x;\n return 1 / x;\n }\n if (hy == 0x40000000) return x * x;\n if (hy == 0x3FE00000) {\n if (hx >= 0) return builtin_sqrt(x);\n }\n }\n var ax = builtin_abs(x), z: f64;\n if (lx == 0) {\n if (ix == 0 || ix == 0x7FF00000 || ix == 0x3FF00000) {\n z = ax;\n if (hy < 0) z = 1.0 / z;\n if (hx < 0) {\n if (((ix - 0x3FF00000) | yisint) == 0) {\n let d = z - z;\n z = d / d;\n } else if (yisint == 1) z = -z;\n }\n return z;\n }\n }\n var s = 1.0;\n if (hx < 0) {\n if (yisint == 0) {\n let d = x - x;\n return d / d;\n }\n if (yisint == 1) s = -1.0;\n }\n var t1: f64, t2: f64, p_h: f64, p_l: f64, r: f64, t: f64, u: f64, v: f64, w: f64;\n var j: i32, n: i32;\n if (iy > 0x41E00000) {\n if (iy > 0x43F00000) {\n if (ix <= 0x3FEFFFFF) return hy < 0 ? huge * huge : tiny * tiny;\n if (ix >= 0x3FF00000) return hy > 0 ? huge * huge : tiny * tiny;\n }\n if (ix < 0x3FEFFFFF) return hy < 0 ? s * huge * huge : s * tiny * tiny;\n if (ix > 0x3FF00000) return hy > 0 ? s * huge * huge : s * tiny * tiny;\n t = ax - 1.0;\n w = (t * t) * (0.5 - t * (inv3 - t * 0.25));\n u = ivln2_h * t;\n v = t * ivln2_l - w * ivln2;\n t1 = u + v;\n t1 = reinterpret(reinterpret(t1) & 0xFFFFFFFF00000000);\n t2 = v - (t1 - u);\n } else {\n let ss: f64, s2: f64, s_h: f64, s_l: f64, t_h: f64, t_l: f64;\n n = 0;\n if (ix < 0x00100000) {\n ax *= two53;\n n -= 53;\n ix = (reinterpret(ax) >> 32);\n }\n n += (ix >> 20) - 0x3FF;\n j = ix & 0x000FFFFF;\n ix = j | 0x3FF00000;\n if (j <= 0x3988E) k = 0;\n else if (j < 0xBB67A) k = 1;\n else {\n k = 0;\n n += 1;\n ix -= 0x00100000;\n }\n ax = reinterpret(reinterpret(ax) & 0xFFFFFFFF | (ix << 32));\n let bp = select(1.5, 1.0, k); // k ? 1.5 : 1.0\n u = ax - bp;\n v = 1.0 / (ax + bp);\n ss = u * v;\n s_h = ss;\n s_h = reinterpret(reinterpret(s_h) & 0xFFFFFFFF00000000);\n t_h = reinterpret((((ix >> 1) | 0x20000000) + 0x00080000 + (k << 18)) << 32);\n t_l = ax - (t_h - bp);\n s_l = v * ((u - s_h * t_h) - s_h * t_l);\n s2 = ss * ss;\n r = s2 * s2 * (L1 + s2 * (L2 + s2 * (L3 + s2 * (L4 + s2 * (L5 + s2 * L6)))));\n r += s_l * (s_h + ss);\n s2 = s_h * s_h;\n t_h = 3.0 + s2 + r;\n t_h = reinterpret(reinterpret(t_h) & 0xFFFFFFFF00000000);\n t_l = r - ((t_h - 3.0) - s2);\n u = s_h * t_h;\n v = s_l * t_h + t_l * ss;\n p_h = u + v;\n p_h = reinterpret(reinterpret(p_h) & 0xFFFFFFFF00000000);\n p_l = v - (p_h - u);\n let z_h = cp_h * p_h;\n let dp_l = select(dp_l1, 0.0, k);\n let z_l = cp_l * p_h + p_l * cp + dp_l;\n t = n;\n let dp_h = select(dp_h1, 0.0, k);\n t1 = ((z_h + z_l) + dp_h) + t;\n t1 = reinterpret(reinterpret(t1) & 0xFFFFFFFF00000000);\n t2 = z_l - (((t1 - t) - dp_h) - z_h);\n }\n var y1 = y;\n y1 = reinterpret(reinterpret(y1) & 0xFFFFFFFF00000000);\n p_l = (y - y1) * t1 + y * t2;\n p_h = y1 * t1;\n z = p_l + p_h;\n u_ = reinterpret(z);\n j = (u_ >> 32);\n var i = u_;\n if (j >= 0x40900000) {\n if (((j - 0x40900000) | i) != 0) return s * huge * huge;\n if (p_l + ovt > z - p_h) return s * huge * huge;\n } else if ((j & 0x7FFFFFFF) >= 0x4090CC00) {\n if (((j - 0xC090CC00) | i) != 0) return s * tiny * tiny;\n if (p_l <= z - p_h) return s * tiny * tiny;\n }\n i = j & 0x7FFFFFFF;\n k = (i >> 20) - 0x3FF;\n n = 0;\n if (i > 0x3FE00000) {\n n = j + (0x00100000 >> (k + 1));\n k = ((n & 0x7FFFFFFF) >> 20) - 0x3FF;\n t = 0.0;\n t = reinterpret((n & ~(0x000FFFFF >> k)) << 32);\n n = ((n & 0x000FFFFF) | 0x00100000) >> (20 - k);\n if (j < 0) n = -n;\n p_h -= t;\n }\n t = p_l + p_h;\n t = reinterpret(reinterpret(t) & 0xFFFFFFFF00000000);\n u = t * lg2_h;\n v = (p_l - (t - p_h)) * lg2 + t * lg2_l;\n z = u + v;\n w = v - (z - u);\n t = z * z;\n t1 = z - t * (P1 + t * (P2 + t * (P3 + t * (P4 + t * P5))));\n r = (z * t1) / (t1 - 2.0) - (w + z * w);\n z = 1.0 - (r - z);\n j = (reinterpret(z) >> 32);\n j += n << 20;\n if ((j >> 20) <= 0) z = scalbn(z, n);\n else z = reinterpret(reinterpret(z) & 0xFFFFFFFF | (j << 32));\n return s * z;\n }\n\n export function seedRandom(value: i64): void {\n assert(value);\n random_seeded = true;\n random_state0_64 = murmurHash3(value);\n random_state1_64 = murmurHash3(~random_state0_64);\n random_state0_32 = splitMix32(value);\n random_state1_32 = splitMix32(random_state0_32);\n }\n\n export function random(): f64 { // see: v8/src/base/random-number-generator.cc\n if (!random_seeded) throw new Error("PRNG must be seeded.");\n var s1 = random_state0_64;\n var s0 = random_state1_64;\n random_state0_64 = s0;\n s1 ^= s1 << 23;\n s1 ^= s1 >> 17;\n s1 ^= s0;\n s1 ^= s0 >> 26;\n random_state1_64 = s1;\n var r = ((s0 + s1) & 0x000FFFFFFFFFFFFF) | 0x3FF0000000000000;\n return reinterpret(r) - 1;\n }\n\n @inline\n export function round(x: f64): f64 {\n return builtin_copysign(builtin_floor(x + 0.5), x);\n }\n\n @inline\n export function sign(x: f64): f64 {\n if (ASC_SHRINK_LEVEL > 0) {\n return builtin_abs(x) > 0 ? builtin_copysign(1, x) : x;\n } else {\n return x > 0 ? 1 : x < 0 ? -1 : x;\n }\n }\n\n @inline\n export function signbit(x: f64): bool {\n // In ECMAScript all NaN values are indistinguishable from each other\n // so we need handle NaN and negative NaN in similar way\n return ((reinterpret(x) >>> 63) & (x == x));\n }\n\n export function sin(x: f64): f64 { // TODO\n unreachable();\n return 0;\n }\n\n export function sinh(x: f64): f64 { // see: musl/src/math/sinh.c\n var u = reinterpret(x) & 0x7FFFFFFFFFFFFFFF;\n var absx = reinterpret(u);\n var w = (u >> 32);\n var t: f64;\n var h = builtin_copysign(0.5, x);\n if (w < 0x40862E42) {\n t = expm1(absx);\n if (w < 0x3FF00000) {\n if (w < 0x3FF00000 - (26 << 20)) return x;\n return h * (2 * t - t * t / (t + 1));\n }\n return h * (t + t / (t + 1));\n }\n t = 2 * h * expo2(absx);\n return t;\n }\n\n @inline\n export function sqrt(x: f64): f64 {\n return builtin_sqrt(x);\n }\n\n export function tan(x: f64): f64 { // TODO\n unreachable();\n return 0;\n }\n\n export function tanh(x: f64): f64 { // see: musl/src/math/tanh.c\n var u = reinterpret(x);\n u &= 0x7FFFFFFFFFFFFFFF;\n var y = reinterpret(u);\n var w = (u >> 32);\n var t: f64;\n if (w > 0x3FE193EA) {\n if (w > 0x40340000) {\n t = 1 - 0 / y;\n } else {\n t = expm1(2 * y);\n t = 1 - 2 / (t + 2);\n }\n } else if (w > 0x3FD058AE) {\n t = expm1(2 * y);\n t = t / (t + 2);\n } else if (w >= 0x00100000) {\n t = expm1(-2 * y);\n t = -t / (t + 2);\n } else t = y;\n return builtin_copysign(t, x);\n }\n\n @inline\n export function trunc(x: f64): f64 {\n return builtin_trunc(x);\n }\n\n export function scalbn(x: f64, n: i32): f64 { // see: https://git.musl-libc.org/cgit/musl/tree/src/math/scalbn.c\n const\n Ox1p53 = reinterpret(0x4340000000000000),\n Ox1p1023 = reinterpret(0x7FE0000000000000),\n Ox1p_1022 = reinterpret(0x0010000000000000);\n var y = x;\n if (n > 1023) {\n y *= Ox1p1023;\n n -= 1023;\n if (n > 1023) {\n y *= Ox1p1023;\n n = builtin_min(n - 1023, 1023);\n }\n } else if (n < -1022) {\n /* make sure final n < -53 to avoid double\n\t\t rounding in the subnormal range */\n y *= Ox1p_1022 * Ox1p53;\n n += 1022 - 53;\n if (n < -1022) {\n y *= Ox1p_1022 * Ox1p53;\n n = builtin_max(n + 1022 - 53, -1022);\n }\n }\n return y * reinterpret((0x3FF + n) << 52);\n }\n\n export function mod(x: f64, y: f64): f64 { // see: musl/src/math/fmod.c\n var ux = reinterpret(x);\n var uy = reinterpret(y);\n var ex = (ux >> 52 & 0x7FF);\n var ey = (uy >> 52 & 0x7FF);\n var sx = ux >> 63;\n var uy1 = uy << 1;\n if (uy1 == 0 || ex == 0x7FF || isNaN(y)) {\n let m = x * y;\n return m / m;\n }\n var ux1 = ux << 1;\n if (ux1 <= uy1) {\n if (ux1 == uy1) return 0 * x;\n return x;\n }\n if (!ex) {\n ex -= builtin_clz(ux << 12);\n ux <<= -ex + 1;\n } else {\n ux &= -1 >> 12;\n ux |= 1 << 52;\n }\n if (!ey) {\n ey -= builtin_clz(uy << 12);\n uy <<= -ey + 1;\n } else {\n uy &= -1 >> 12;\n uy |= 1 << 52;\n }\n while (ex > ey) {\n if (ux >= uy) {\n if (ux == uy) return 0 * x;\n ux -= uy;\n }\n ux <<= 1;\n --ex;\n }\n if (ux >= uy) {\n if (ux == uy) return 0 * x;\n ux -= uy;\n }\n // for (; !(ux >> 52); ux <<= 1) --ex;\n var shift = builtin_clz(ux << 11);\n ex -= shift;\n ux <<= shift;\n if (ex > 0) {\n ux -= 1 << 52;\n ux |= ex << 52;\n } else {\n ux >>= -ex + 1;\n }\n ux |= sx << 63;\n return reinterpret(ux);\n }\n\n export function rem(x: f64, y: f64): f64 { // see: musl/src/math/remquo.c\n var ux = reinterpret(x);\n var uy = reinterpret(y);\n var ex = (ux >> 52 & 0x7FF);\n var ey = (uy >> 52 & 0x7FF);\n var sx = (ux >> 63);\n if (uy << 1 == 0 || ex == 0x7FF || isNaN(y)) {\n let m = x * y;\n return m / m;\n }\n if (ux << 1 == 0) return x;\n var uxi = ux;\n if (!ex) {\n ex -= builtin_clz(uxi << 12);\n uxi <<= -ex + 1;\n } else {\n uxi &= -1 >> 12;\n uxi |= 1 << 52;\n }\n if (!ey) {\n ey -= builtin_clz(uy << 12);\n uy <<= -ey + 1;\n } else {\n uy &= -1 >> 12;\n uy |= 1 << 52;\n }\n var q: u32 = 0;\n do {\n if (ex < ey) {\n if (ex + 1 == ey) break; // goto end\n return x;\n }\n while (ex > ey) {\n if (uxi >= uy) {\n uxi -= uy;\n ++q;\n }\n uxi <<= 1;\n q <<= 1;\n --ex;\n }\n if (uxi >= uy) {\n uxi -= uy;\n ++q;\n }\n if (uxi == 0) ex = -60;\n else {\n let shift = builtin_clz(uxi << 11);\n ex -= shift;\n uxi <<= shift;\n }\n break;\n } while (false);\n // end:\n if (ex > 0) {\n uxi -= 1 << 52;\n uxi |= ex << 52;\n } else {\n uxi >>= -ex + 1;\n }\n x = reinterpret(uxi);\n y = builtin_abs(y);\n var x2 = x + x;\n if (ex == ey || (ex + 1 == ey && (x2 > y || (x2 == y && (q & 1))))) {\n x -= y;\n // ++q;\n }\n return sx ? -x : x;\n }\n}\n\nfunction Rf(z: f32): f32 { // Rational approximation of (asin(x)-x)/x^3\n const // see: musl/src/math/asinf.c and SUN COPYRIGHT NOTICE above\n pS0 = reinterpret(0x3E2AAA75), // 1.6666586697e-01f\n pS1 = reinterpret(0xBD2F13BA), // -4.2743422091e-02f\n pS2 = reinterpret(0xBC0DD36B), // -8.6563630030e-03f\n qS1 = reinterpret(0xBF34E5AE); // -7.0662963390e-01f\n var p = z * (pS0 + z * (pS1 + z * pS2));\n var q: f32 = 1 + z * qS1;\n return p / q;\n}\n\n@inline function expo2f(x: f32): f32 { // exp(x)/2 for x >= log(DBL_MAX)\n const // see: musl/src/math/__expo2f.c\n k = 235,\n kln2 = reinterpret(0x4322E3BC); // 0x1.45c778p+7f\n var scale = reinterpret((0x7F + (k >> 1)) << 23);\n return NativeMathf.exp(x - kln2) * scale * scale;\n}\n\nexport namespace NativeMathf {\n\n @lazy export const E = NativeMath.E;\n @lazy export const LN2 = NativeMath.LN2;\n @lazy export const LN10 = NativeMath.LN10;\n @lazy export const LOG2E = NativeMath.LOG2E;\n @lazy export const LOG10E = NativeMath.LOG10E;\n @lazy export const PI = NativeMath.PI;\n @lazy export const SQRT1_2 = NativeMath.SQRT1_2;\n @lazy export const SQRT2 = NativeMath.SQRT2;\n\n @inline\n export function abs(x: f32): f32 {\n return builtin_abs(x);\n }\n\n export function acos(x: f32): f32 { // see: musl/src/math/acosf.c and SUN COPYRIGHT NOTICE above\n const\n pio2_hi = reinterpret(0x3FC90FDA), // 1.5707962513e+00f\n pio2_lo = reinterpret(0x33A22168), // 7.5497894159e-08f\n Ox1p_120f = reinterpret(0x03800000);\n var hx = reinterpret(x);\n var ix = hx & 0x7FFFFFFF;\n if (ix >= 0x3F800000) {\n if (ix == 0x3F800000) {\n if (hx >> 31) return 2 * pio2_hi + Ox1p_120f;\n return 0;\n }\n return 0 / (x - x);\n }\n if (ix < 0x3F000000) {\n if (ix <= 0x32800000) return pio2_hi + Ox1p_120f;\n return pio2_hi - (x - (pio2_lo - x * Rf(x * x)));\n }\n var z: f32, w: f32, s: f32;\n if (hx >> 31) {\n // z = (1 + x) * 0.5;\n z = 0.5 + x * 0.5;\n s = builtin_sqrt(z);\n w = Rf(z) * s - pio2_lo;\n return 2 * (pio2_hi - (s + w));\n }\n // z = (1 - x) * 0.5;\n z = 0.5 - x * 0.5;\n s = builtin_sqrt(z);\n hx = reinterpret(s);\n var df = reinterpret(hx & 0xFFFFF000);\n var c = (z - df * df) / (s + df);\n w = Rf(z) * s + c;\n return 2 * (df + w);\n }\n\n export function acosh(x: f32): f32 { // see: musl/src/math/acoshf.c\n const s = reinterpret(0x3F317218); // 0.693147180559945309417232121458176568f\n var u = reinterpret(x);\n var a = u & 0x7FFFFFFF;\n if (a < 0x3F800000 + (1 << 23)) {\n let xm1 = x - 1;\n return log1p(xm1 + builtin_sqrt(xm1 * (xm1 + 2)));\n }\n if (a < 0x3F800000 + (12 << 23)) return log(2 * x - 1 / (x + builtin_sqrt(x * x - 1)));\n return log(x) + s;\n }\n\n export function asin(x: f32): f32 { // see: musl/src/math/asinf.c and SUN COPYRIGHT NOTICE above\n const\n pio2 = reinterpret(0x3FC90FDB), // 1.570796326794896558e+00f\n Ox1p_120f = reinterpret(0x03800000);\n var sx = x;\n var hx = reinterpret(x) & 0x7FFFFFFF;\n if (hx >= 0x3F800000) {\n if (hx == 0x3F800000) return x * pio2 + Ox1p_120f;\n return 0 / (x - x);\n }\n if (hx < 0x3F000000) {\n if (hx < 0x39800000 && hx >= 0x00800000) return x;\n return x + x * Rf(x * x);\n }\n // var z: f32 = (1 - builtin_abs(x)) * 0.5;\n var z: f32 = 0.5 - builtin_abs(x) * 0.5;\n var s = builtin_sqrt(z); // sic\n x = (pio2 - 2 * (s + s * Rf(z)));\n return builtin_copysign(x, sx);\n }\n\n export function asinh(x: f32): f32 { // see: musl/src/math/asinhf.c\n const c = reinterpret(0x3F317218); // 0.693147180559945309417232121458176568f\n var u = reinterpret(x) & 0x7FFFFFFF;\n var y = reinterpret(u);\n if (u >= 0x3F800000 + (12 << 23)) y = log(y) + c;\n else if (u >= 0x3F800000 + (1 << 23)) y = log(2 * y + 1 / (builtin_sqrt(y * y + 1) + y));\n else if (u >= 0x3F800000 - (12 << 23)) y = log1p(y + y * y / (builtin_sqrt(y * y + 1) + 1));\n return builtin_copysign(y, x);\n }\n\n export function atan(x: f32): f32 { // see: musl/src/math/atanf.c and SUN COPYRIGHT NOTICE above\n const\n atanhi0 = reinterpret(0x3EED6338), // 4.6364760399e-01f\n atanhi1 = reinterpret(0x3F490FDA), // 7.8539812565e-01f\n atanhi2 = reinterpret(0x3F7B985E), // 9.8279368877e-01f\n atanhi3 = reinterpret(0x3FC90FDA), // 1.5707962513e+00f\n atanlo0 = reinterpret(0x31AC3769), // 5.0121582440e-09f\n atanlo1 = reinterpret(0x33222168), // 3.7748947079e-08f\n atanlo2 = reinterpret(0x33140FB4), // 3.4473217170e-08f\n atanlo3 = reinterpret(0x33A22168), // 7.5497894159e-08f\n aT0 = reinterpret(0x3EAAAAA9), // 3.3333328366e-01f\n aT1 = reinterpret(0xBE4CCA98), // -1.9999158382e-01f\n aT2 = reinterpret(0x3E11F50D), // 1.4253635705e-01f\n aT3 = reinterpret(0xBDDA1247), // -1.0648017377e-01f\n aT4 = reinterpret(0x3D7CAC25), // 6.1687607318e-02f\n Ox1p_120f = reinterpret(0x03800000);\n var ix = reinterpret(x);\n var sx = x;\n ix &= 0x7FFFFFFF;\n var z: f32;\n if (ix >= 0x4C800000) {\n if (isNaN(x)) return x;\n z = atanhi3 + Ox1p_120f;\n return builtin_copysign(z, sx);\n }\n var id: i32;\n if (ix < 0x3EE00000) {\n if (ix < 0x39800000) return x;\n id = -1;\n } else {\n x = builtin_abs(x);\n if (ix < 0x3F980000) {\n if (ix < 0x3F300000) {\n id = 0;\n x = (2.0 * x - 1.0) / (2.0 + x);\n } else {\n id = 1;\n x = (x - 1.0) / (x + 1.0);\n }\n } else {\n if (ix < 0x401C0000) {\n id = 2;\n x = (x - 1.5) / (1.0 + 1.5 * x);\n } else {\n id = 3;\n x = -1.0 / x;\n }\n }\n }\n z = x * x;\n var w = z * z;\n var s1 = z * (aT0 + w * (aT2 + w * aT4));\n var s2 = w * (aT1 + w * aT3);\n var s3 = x * (s1 + s2);\n if (id < 0) return x - s3;\n switch (id) {\n case 0: { z = atanhi0 - ((s3 - atanlo0) - x); break; }\n case 1: { z = atanhi1 - ((s3 - atanlo1) - x); break; }\n case 2: { z = atanhi2 - ((s3 - atanlo2) - x); break; }\n case 3: { z = atanhi3 - ((s3 - atanlo3) - x); break; }\n default: unreachable();\n }\n return builtin_copysign(z, sx);\n }\n\n export function atanh(x: f32): f32 { // see: musl/src/math/atanhf.c\n var u = reinterpret(x);\n u &= 0x7FFFFFFF;\n var y = reinterpret(u);\n if (u < 0x3F800000 - (1 << 23)) {\n if (u >= 0x3F800000 - (32 << 23)) y = 0.5 * log1p(2 * y * (1.0 + y / (1 - y)));\n } else y = 0.5 * log1p(2 * (y / (1 - y)));\n return builtin_copysign(y, x);\n }\n\n export function atan2(y: f32, x: f32): f32 { // see: musl/src/math/atan2f.c and SUN COPYRIGHT NOTICE above\n const\n pi = reinterpret(0x40490FDB), // 3.1415927410e+00f\n pi_lo = reinterpret(0xB3BBBD2E); // -8.7422776573e-08f\n if (isNaN(x) || isNaN(y)) return x + y;\n var ix = reinterpret(x);\n var iy = reinterpret(y);\n if (ix == 0x3F800000) return atan(y);\n var m = (((iy >> 31) & 1) | ((ix >> 30) & 2));\n ix &= 0x7FFFFFFF;\n iy &= 0x7FFFFFFF;\n if (iy == 0) {\n switch (m) {\n case 0:\n case 1: return y;\n case 2: return pi;\n case 3: return -pi;\n }\n }\n if (ix == 0) return m & 1 ? -pi / 2 : pi / 2;\n if (ix == 0x7F800000) {\n if (iy == 0x7F800000) {\n switch (m) {\n case 0: return pi / 4;\n case 1: return -pi / 4;\n case 2: return 3 * pi / 4;\n case 3: return -3 * pi / 4;\n }\n } else {\n switch (m) {\n case 0: return 0;\n case 1: return -0;\n case 2: return pi;\n case 3: return -pi;\n }\n }\n }\n if (ix + (26 << 23) < iy || iy == 0x7F800000) return m & 1 ? -pi / 2 : pi / 2;\n var z: f32;\n if ((m & 2) && iy + (26 << 23) < ix) z = 0.0;\n else z = atan(builtin_abs(y / x));\n switch (m) {\n case 0: return z;\n case 1: return -z;\n case 2: return pi - (z - pi_lo);\n case 3: return (z - pi_lo) - pi;\n }\n unreachable();\n return 0;\n }\n\n export function cbrt(x: f32): f32 { // see: musl/src/math/cbrtf.c and SUN COPYRIGHT NOTICE above\n const\n B1 = 709958130,\n B2 = 642849266,\n Ox1p24f = reinterpret(0x4B800000);\n var u = reinterpret(x);\n var hx = u & 0x7FFFFFFF;\n if (hx >= 0x7F800000) return x + x;\n if (hx < 0x00800000) {\n if (hx == 0) return x;\n u = reinterpret(x * Ox1p24f);\n hx = u & 0x7FFFFFFF;\n hx = hx / 3 + B2;\n } else {\n hx = hx / 3 + B1;\n }\n u &= 0x80000000;\n u |= hx;\n var t = reinterpret(u);\n var r = t * t * t;\n t = t * (x + x + r) / (x + r + r);\n r = t * t * t;\n t = t * (x + x + r) / (x + r + r);\n return t;\n }\n\n @inline\n export function ceil(x: f32): f32 {\n return builtin_ceil(x);\n }\n\n export function clz32(x: f32): f32 {\n if (!isFinite(x)) return 32;\n return builtin_clz(\n (x - 4294967296 * builtin_floor(x * (1.0 / 4294967296)))\n );\n }\n\n export function cos(x: f32): f32 { // TODO\n unreachable();\n return 0;\n }\n\n export function cosh(x: f32): f32 { // see: musl/src/math/coshf.c\n var u = reinterpret(x);\n u &= 0x7FFFFFFF;\n x = reinterpret(u);\n if (u < 0x3F317217) {\n if (u < 0x3F800000 - (12 << 23)) return 1;\n let t = expm1(x);\n // return 1 + t * t / (2 * (1 + t));\n return 1 + t * t / (2 + 2 * t);\n }\n if (u < 0x42B17217) {\n let t = exp(x);\n // return 0.5 * (t + 1 / t);\n return 0.5 * t + 0.5 / t;\n }\n return expo2f(x);\n }\n\n @inline\n export function floor(x: f32): f32 {\n return builtin_floor(x);\n }\n\n export function exp(x: f32): f32 { // see: musl/src/math/expf.c and SUN COPYRIGHT NOTICE above\n const\n ln2hi = reinterpret(0x3F317200), // 6.9314575195e-1f\n ln2lo = reinterpret(0x35BFBE8E), // 1.4286067653e-6f\n invln2 = reinterpret(0x3FB8AA3B), // 1.4426950216e+0f\n P1 = reinterpret(0x3E2AAA8F), // 1.6666625440e-1f\n P2 = reinterpret(0xBB355215), // -2.7667332906e-3f\n Ox1p127f = reinterpret(0x7F000000);\n var hx = reinterpret(x);\n var sign_ = (hx >> 31);\n hx &= 0x7FFFFFFF;\n if (hx >= 0x42AEAC50) {\n if (hx >= 0x42B17218) {\n if (!sign_) return x * Ox1p127f;\n else if (hx >= 0x42CFF1B5) return 0;\n }\n }\n var hi: f32, lo: f32;\n var k: i32;\n if (hx > 0x3EB17218) {\n if (hx > 0x3F851592) {\n k = (invln2 * x + builtin_copysign(0.5, x));\n } else {\n k = 1 - (sign_ << 1);\n }\n hi = x - k * ln2hi;\n lo = k * ln2lo;\n x = hi - lo;\n } else if (hx > 0x39000000) {\n k = 0;\n hi = x;\n lo = 0;\n } else {\n return 1 + x;\n }\n var xx = x * x;\n var c = x - xx * (P1 + xx * P2);\n var y: f32 = 1 + (x * c / (2 - c) - lo + hi);\n if (k == 0) return y;\n return scalbn(y, k);\n }\n\n export function expm1(x: f32): f32 { // see: musl/src/math/expm1f.c and SUN COPYRIGHT NOTICE above\n const\n o_threshold = reinterpret(0x42B17180), // 8.8721679688e+01f\n ln2_hi = reinterpret(0x3F317180), // 6.9313812256e-01f\n ln2_lo = reinterpret(0x3717F7D1), // 9.0580006145e-06f\n invln2 = reinterpret(0x3FB8AA3B), // 1.4426950216e+00f\n Q1 = reinterpret(0xBD088868), // -3.3333212137e-02f\n Q2 = reinterpret(0x3ACF3010), // 1.5807170421e-03f\n Ox1p127f = reinterpret(0x7F000000);\n var u = reinterpret(x);\n var hx = u & 0x7FFFFFFF;\n var sign_ = (u >> 31);\n if (hx >= 0x4195B844) {\n if (hx > 0x7F800000) return x;\n if (sign_) return -1;\n if (x > o_threshold) {\n x *= Ox1p127f;\n return x;\n }\n }\n var c: f32 = 0.0, t: f32, k: i32;\n if (hx > 0x3EB17218) {\n k = select(\n 1 - (sign_ << 1),\n (invln2 * x + builtin_copysign(0.5, x)),\n hx < 0x3F851592\n );\n t = k;\n let hi = x - t * ln2_hi;\n let lo = t * ln2_lo;\n x = hi - lo;\n c = (hi - x) - lo;\n } else if (hx < 0x33000000) {\n return x;\n } else k = 0;\n var hfx: f32 = 0.5 * x;\n var hxs: f32 = x * hfx;\n var r1: f32 = 1.0 + hxs * (Q1 + hxs * Q2);\n t = 3.0 - r1 * hfx;\n var e = hxs * ((r1 - t) / (6.0 - x * t));\n if (k == 0) return x - (x * e - hxs);\n e = x * (e - c) - c;\n e -= hxs;\n if (k == -1) return 0.5 * (x - e) - 0.5;\n if (k == 1) {\n if (x < -0.25) return -2.0 * (e - (x + 0.5));\n return 1.0 + 2.0 * (x - e);\n }\n u = (0x7F + k) << 23;\n var twopk = reinterpret(u);\n var y: f32;\n if (k < 0 || k > 56) {\n y = x - e + 1.0;\n if (k == 128) y = y * 2.0 * Ox1p127f;\n else y = y * twopk;\n return y - 1.0;\n }\n u = (0x7F - k) << 23;\n y = reinterpret(u);\n if (k < 20) y = (1 - y) - e;\n else y = 1 - (e + y);\n return (x + y) * twopk;\n }\n\n @inline\n export function fround(x: f32): f32 {\n return x;\n }\n\n export function hypot(x: f32, y: f32): f32 { // see: musl/src/math/hypotf.c\n const\n Ox1p90f = reinterpret(0x6C800000),\n Ox1p_90f = reinterpret(0x12800000);\n var ux = reinterpret(x);\n var uy = reinterpret(y);\n ux &= 0x7FFFFFFF;\n uy &= 0x7FFFFFFF;\n if (ux < uy) {\n let ut = ux;\n ux = uy;\n uy = ut;\n }\n x = reinterpret(ux);\n y = reinterpret(uy);\n if (uy == 0xFF << 23) return y;\n if (ux >= 0xFF << 23 || uy == 0 || ux - uy >= 25 << 23) return x + y;\n var z: f32 = 1;\n if (ux >= (0x7F + 60) << 23) {\n z = Ox1p90f;\n x *= Ox1p_90f;\n y *= Ox1p_90f;\n } else if (uy < (0x7F - 60) << 23) {\n z = Ox1p_90f;\n x *= Ox1p90f;\n y *= Ox1p90f;\n }\n return z * builtin_sqrt((x * x + y * y));\n }\n\n @inline\n export function imul(x: f32, y: f32): f32 {\n /*\n * Wasm (MVP) and JS have different approaches for double->int conversions.\n *\n * For emulate JS conversion behavior and avoid trapping from wasm we should modulate by MAX_INT\n * our float-point arguments before actual convertion to integers.\n */\n if (!isFinite(x + y)) return 0;\n const inv32 = 1.0 / 4294967296;\n return (\n (x - 4294967296 * builtin_floor(x * inv32)) *\n (y - 4294967296 * builtin_floor(y * inv32))\n );\n }\n\n export function log(x: f32): f32 { // see: musl/src/math/logf.c and SUN COPYRIGHT NOTICE above\n const\n ln2_hi = reinterpret(0x3F317180), // 6.9313812256e-01f\n ln2_lo = reinterpret(0x3717F7D1), // 9.0580006145e-06f\n Lg1 = reinterpret(0x3F2AAAAA), // 0xaaaaaa.0p-24f\n Lg2 = reinterpret(0x3ECCCE13), // 0xccce13.0p-25f\n Lg3 = reinterpret(0x3E91E9EE), // 0x91e9ee.0p-25f\n Lg4 = reinterpret(0x3E789E26), // 0xf89e26.0p-26f\n Ox1p25f = reinterpret(0x4C000000);\n var u = reinterpret(x);\n var k = 0;\n if (u < 0x00800000 || (u >> 31)) {\n if (u << 1 == 0) return -1 / (x * x);\n if (u >> 31) return (x - x) / 0;\n k -= 25;\n x *= Ox1p25f;\n u = reinterpret(x);\n } else if (u >= 0x7F800000) return x;\n else if (u == 0x3F800000) return 0;\n u += 0x3F800000 - 0x3F3504F3;\n k += (u >> 23) - 0x7F;\n u = (u & 0x007FFFFF) + 0x3F3504F3;\n x = reinterpret(u);\n var f = x - 1.0;\n var s = f / (2.0 + f);\n var z = s * s;\n var w = z * z;\n var t1 = w * (Lg2 + w * Lg4);\n var t2 = z * (Lg1 + w * Lg3);\n var r = t2 + t1;\n var hfsq = 0.5 * f * f;\n var dk = k;\n return s * (hfsq + r) + dk * ln2_lo - hfsq + f + dk * ln2_hi;\n }\n\n export function log10(x: f32): f32 { // see: musl/src/math/log10f.c and SUN COPYRIGHT NOTICE above\n const\n ivln10hi = reinterpret(0x3EDE6000), // 4.3432617188e-01f\n ivln10lo = reinterpret(0xB804EAD9), // -3.1689971365e-05f\n log10_2hi = reinterpret(0x3E9A2080), // 3.0102920532e-01f\n log10_2lo = reinterpret(0x355427DB), // 7.9034151668e-07f\n Lg1 = reinterpret(0x3F2AAAAA), // 0xaaaaaa.0p-24f, 0.66666662693f\n Lg2 = reinterpret(0x3ECCCE13), // 0xccce13.0p-25f, 0.40000972152f\n Lg3 = reinterpret(0x3E91E9EE), // 0x91e9ee.0p-25f, 0.28498786688f\n Lg4 = reinterpret(0x3E789E26), // 0xf89e26.0p-26f, 0.24279078841f\n Ox1p25f = reinterpret(0x4C000000);\n var ix = reinterpret(x);\n var k = 0;\n if (ix < 0x00800000 || (ix >> 31)) {\n if (ix << 1 == 0) return -1 / (x * x);\n if (ix >> 31) return (x - x) / 0.0;\n k -= 25;\n x *= Ox1p25f;\n ix = reinterpret(x);\n } else if (ix >= 0x7F800000) return x;\n else if (ix == 0x3F800000) return 0;\n ix += 0x3F800000 - 0x3F3504F3;\n k += (ix >> 23) - 0x7F;\n ix = (ix & 0x007FFFFF) + 0x3F3504F3;\n x = reinterpret(ix);\n var f = x - 1.0;\n var s = f / (2.0 + f);\n var z = s * s;\n var w = z * z;\n var t1 = w * (Lg2 + w * Lg4);\n var t2 = z * (Lg1 + w * Lg3);\n var r = t2 + t1;\n var hfsq: f32 = 0.5 * f * f;\n var hi = f - hfsq;\n ix = reinterpret(hi);\n ix &= 0xFFFFF000;\n hi = reinterpret(ix);\n var lo = f - hi - hfsq + s * (hfsq + r);\n var dk = k;\n return dk * log10_2lo + (lo + hi) * ivln10lo + lo * ivln10hi + hi * ivln10hi + dk * log10_2hi;\n }\n\n export function log1p(x: f32): f32 { // see: musl/src/math/log1pf.c and SUN COPYRIGHT NOTICE above\n const\n ln2_hi = reinterpret(0x3F317180), // 6.9313812256e-01\n ln2_lo = reinterpret(0x3717F7D1), // 9.0580006145e-06\n Lg1 = reinterpret(0x3F2AAAAA), // 0xaaaaaa.0p-24f, 0.66666662693f\n Lg2 = reinterpret(0x3ECCCE13), // 0xccce13.0p-25f, 0.40000972152f\n Lg3 = reinterpret(0x3E91E9EE), // 0x91e9ee.0p-25f, 0.28498786688f\n Lg4 = reinterpret(0x3E789E26); // 0xf89e26.0p-26f, 0.24279078841f\n var ix = reinterpret(x);\n var c: f32 = 0, f: f32 = 0;\n var k: i32 = 1;\n if (ix < 0x3ED413D0 || (ix >> 31)) {\n if (ix >= 0xBF800000) {\n if (x == -1) return x / 0.0;\n return (x - x) / 0.0;\n }\n if (ix << 1 < 0x33800000 << 1) return x;\n if (ix <= 0xBE95F619) {\n k = 0;\n c = 0;\n f = x;\n }\n } else if (ix >= 0x7F800000) return x;\n if (k) {\n let uf: f32 = 1 + x;\n let iu = reinterpret(uf);\n iu += 0x3F800000 - 0x3F3504F3;\n k = (iu >> 23) - 0x7F;\n if (k < 25) {\n c = k >= 2 ? 1 - (uf - x) : x - (uf - 1);\n c /= uf;\n } else c = 0;\n iu = (iu & 0x007FFFFF) + 0x3F3504F3;\n f = reinterpret(iu) - 1;\n }\n var s = f / (2.0 + f);\n var z = s * s;\n var w = z * z;\n var t1 = w * (Lg2 + w * Lg4);\n var t2 = z * (Lg1 + w * Lg3);\n var r = t2 + t1;\n var hfsq: f32 = 0.5 * f * f;\n var dk = k;\n return s * (hfsq + r) + (dk * ln2_lo + c) - hfsq + f + dk * ln2_hi;\n }\n\n export function log2(x: f32): f32 { // see: musl/src/math/log2f.c and SUN COPYRIGHT NOTICE above\n const\n ivln2hi = reinterpret(0x3FB8B000), // 1.4428710938e+00f\n ivln2lo = reinterpret(0xB9389AD4), // -1.7605285393e-04\n Lg1 = reinterpret(0x3F2AAAAA), // 0xaaaaaa.0p-24f, 0.66666662693f\n Lg2 = reinterpret(0x3ECCCE13), // 0xccce13.0p-25f, 0.40000972152f\n Lg3 = reinterpret(0x3E91E9EE), // 0x91e9ee.0p-25f, 0.28498786688f\n Lg4 = reinterpret(0x3E789E26), // 0xf89e26.0p-26f, 0.24279078841f\n Ox1p25f = reinterpret(0x4C000000);\n var ix = reinterpret(x);\n var k: i32 = 0;\n if (ix < 0x00800000 || (ix >> 31)) {\n if (ix << 1 == 0) return -1 / (x * x);\n if (ix >> 31) return (x - x) / 0.0;\n k -= 25;\n x *= Ox1p25f;\n ix = reinterpret(x);\n } else if (ix >= 0x7F800000) return x;\n else if (ix == 0x3F800000) return 0;\n ix += 0x3F800000 - 0x3F3504F3;\n k += (ix >> 23) - 0x7F;\n ix = (ix & 0x007FFFFF) + 0x3F3504F3;\n x = reinterpret(ix);\n var f = x - 1.0;\n var s = f / (2.0 + f);\n var z = s * s;\n var w = z * z;\n var t1 = w * (Lg2 + w * Lg4);\n var t2 = z * (Lg1 + w * Lg3);\n var r = t2 + t1;\n var hfsq: f32 = 0.5 * f * f;\n var hi = f - hfsq;\n var u = reinterpret(hi);\n u &= 0xFFFFF000;\n hi = reinterpret(u);\n var lo: f32 = f - hi - hfsq + s * (hfsq + r);\n var dk = k;\n return (lo + hi) * ivln2lo + lo * ivln2hi + hi * ivln2hi + dk;\n }\n\n @inline\n export function max(value1: f32, value2: f32): f32 {\n return builtin_max(value1, value2);\n }\n\n @inline\n export function min(value1: f32, value2: f32): f32 {\n return builtin_min(value1, value2);\n }\n\n export function pow(x: f32, y: f32): f32 { // see: musl/src/math/powf.c and SUN COPYRIGHT NOTICE above\n const\n dp_h1 = reinterpret(0x3F15C000), // 5.84960938e-01f\n dp_l1 = reinterpret(0x35D1CFDC), // 1.56322085e-06f\n two24 = reinterpret(0x4B800000), // 16777216f\n huge = reinterpret(0x7149F2CA), // 1.0e+30f\n tiny = reinterpret(0x0DA24260), // 1.0e-30f\n L1 = reinterpret(0x3F19999A), // 6.0000002384e-01f\n L2 = reinterpret(0x3EDB6DB7), // 4.2857143283e-01f\n L3 = reinterpret(0x3EAAAAAB), // 3.3333334327e-01f\n L4 = reinterpret(0x3E8BA305), // 2.7272811532e-01f\n L5 = reinterpret(0x3E6C3255), // 2.3066075146e-01f\n L6 = reinterpret(0x3E53F142), // 2.0697501302e-01f\n P1 = reinterpret(0x3E2AAAAB), // 1.6666667163e-01f\n P2 = reinterpret(0xBB360B61), // -2.7777778450e-03f\n P3 = reinterpret(0x388AB355), // 6.6137559770e-05f\n P4 = reinterpret(0xB5DDEA0E), // -1.6533901999e-06f\n P5 = reinterpret(0x3331BB4C), // 4.1381369442e-08f\n lg2 = reinterpret(0x3F317218), // 6.9314718246e-01f\n lg2_h = reinterpret(0x3F317200), // 6.93145752e-01f\n lg2_l = reinterpret(0x35BFBE8C), // 1.42860654e-06f\n ovt = reinterpret(0x3338AA3C), // 4.2995665694e-08f\n cp = reinterpret(0x3F76384F), // 9.6179670095e-01\n cp_h = reinterpret(0x3F764000), // 9.6191406250e-01\n cp_l = reinterpret(0xB8F623C6), // -1.1736857402e-04\n ivln2 = reinterpret(0x3FB8AA3B), // 1.4426950216e+00\n ivln2_h = reinterpret(0x3FB8AA00), // 1.4426879883e+00\n ivln2_l = reinterpret(0x36ECA570), // 7.0526075433e-06\n inv3 = reinterpret(0x3EAAAAAB); // 0.333333333333\n var hx = reinterpret(x);\n var hy = reinterpret(y);\n var ix = hx & 0x7FFFFFFF;\n var iy = hy & 0x7FFFFFFF;\n if (iy == 0) return 1.0; // x**0 = 1, even if x is NaN\n // if (hx == 0x3F800000) return 1.0; // C: 1**y = 1, even if y is NaN, JS: NaN\n if (ix > 0x7F800000 || iy > 0x7F800000) return x + y; // NaN if either arg is NaN\n var yisint = 0, j: i32, k: i32;\n if (hx < 0) {\n if (iy >= 0x4B800000) yisint = 2;\n else if (iy >= 0x3F800000) {\n k = (iy >> 23) - 0x7F;\n let ki = 23 - k;\n j = iy >> ki;\n if ((j << ki) == iy) yisint = 2 - (j & 1);\n }\n }\n if (iy == 0x7F800000) { // y is +-inf\n if (ix == 0x3F800000) return NaN; // C: (-1)**+-inf is 1, JS: NaN\n else if (ix > 0x3F800000) return hy >= 0 ? y : 0.0; // (|x|>1)**+-inf = inf,0\n else return hy >= 0 ? 0.0 : -y; // (|x|<1)**+-inf = 0,inf\n }\n if (iy == 0x3F800000) return hy >= 0 ? x : 1.0 / x;\n if (hy == 0x40000000) return x * x;\n if (hy == 0x3F000000) {\n if (hx >= 0) return builtin_sqrt(x);\n }\n var ax = builtin_abs(x);\n var z: f32;\n if (ix == 0x7F800000 || ix == 0 || ix == 0x3F800000) {\n z = ax;\n if (hy < 0) z = 1.0 / z;\n if (hx < 0) {\n if (((ix - 0x3F800000) | yisint) == 0) {\n let d = z - z;\n z = d / d;\n }\n else if (yisint == 1) z = -z;\n }\n return z;\n }\n var sn = 1.0;\n if (hx < 0) {\n if (yisint == 0) {\n let d = x - x;\n return d / d;\n }\n if (yisint == 1) sn = -1.0;\n }\n var t1: f32, t2: f32, r: f32, s: f32, t: f32, u: f32, v: f32, w: f32, p_h: f32, p_l: f32;\n var n: i32, is: i32;\n if (iy > 0x4D000000) {\n if (ix < 0x3F7FFFF8) return hy < 0 ? sn * huge * huge : sn * tiny * tiny;\n if (ix > 0x3F800007) return hy > 0 ? sn * huge * huge : sn * tiny * tiny;\n t = ax - 1;\n w = (t * t) * (0.5 - t * (inv3 - t * 0.25));\n u = ivln2_h * t;\n v = t * ivln2_l - w * ivln2;\n t1 = u + v;\n is = reinterpret(t1);\n t1 = reinterpret(is & 0xFFFFF000);\n t2 = v - (t1 - u);\n } else {\n let s2: f32, s_h: f32, s_l: f32, t_h: f32, t_l: f32;\n n = 0;\n if (ix < 0x00800000) {\n ax *= two24;\n n -= 24;\n ix = reinterpret(ax);\n }\n n += (ix >> 23) - 0x7F;\n j = ix & 0x007FFFFF;\n ix = j | 0x3F800000;\n if (j <= 0x1CC471) k = 0;\n else if (j < 0x5DB3D7) k = 1;\n else {\n k = 0;\n n += 1;\n ix -= 0x00800000;\n }\n ax = reinterpret(ix);\n let bp = select(1.5, 1.0, k); // k ? 1.5 : 1.0\n u = ax - bp;\n v = 1.0 / (ax + bp);\n s = u * v;\n s_h = s;\n is = reinterpret(s_h);\n s_h = reinterpret(is & 0xFFFFF000);\n is = ((ix >> 1) & 0xFFFFF000) | 0x20000000;\n t_h = reinterpret(is + 0x00400000 + (k << 21));\n t_l = ax - (t_h - bp);\n s_l = v * ((u - s_h * t_h) - s_h * t_l);\n s2 = s * s;\n r = s2 * s2 * (L1 + s2 * (L2 + s2 * (L3 + s2 * (L4 + s2 * (L5 + s2 * L6)))));\n r += s_l * (s_h + s);\n s2 = s_h * s_h;\n t_h = 3.0 + s2 + r;\n is = reinterpret(t_h);\n t_h = reinterpret(is & 0xFFFFF000);\n t_l = r - ((t_h - 3.0) - s2);\n u = s_h * t_h;\n v = s_l * t_h + t_l * s;\n p_h = u + v;\n is = reinterpret(p_h);\n p_h = reinterpret(is & 0xFFFFF000);\n p_l = v - (p_h - u);\n let z_h = cp_h * p_h;\n let dp_l = select(dp_l1, 0.0, k);\n let z_l = cp_l * p_h + p_l * cp + dp_l;\n t = n;\n let dp_h = select(dp_h1, 0.0, k);\n t1 = (((z_h + z_l) + dp_h) + t);\n is = reinterpret(t1);\n t1 = reinterpret(is & 0xFFFFF000);\n t2 = z_l - (((t1 - t) - dp_h) - z_h);\n }\n is = reinterpret(y);\n var y1 = reinterpret(is & 0xFFFFF000);\n p_l = (y - y1) * t1 + y * t2;\n p_h = y1 * t1;\n z = p_l + p_h;\n j = reinterpret(z);\n if (j > 0x43000000) {\n return sn * huge * huge;\n } else if (j == 0x43000000) {\n if (p_l + ovt > z - p_h) return sn * huge * huge;\n } else if ((j & 0x7FFFFFFF) > 0x43160000) {\n return sn * tiny * tiny;\n } else if (j == 0xC3160000) {\n if (p_l <= z - p_h) return sn * tiny * tiny;\n }\n var i = j & 0x7FFFFFFF;\n k = (i >> 23) - 0x7F;\n n = 0;\n if (i > 0x3F000000) {\n n = j + (0x00800000 >> (k + 1));\n k = ((n & 0x7FFFFFFF) >> 23) - 0x7F;\n t = reinterpret(n & ~(0x007FFFFF >> k));\n n = ((n & 0x007FFFFF) | 0x00800000) >> (23 - k);\n if (j < 0) n = -n;\n p_h -= t;\n }\n t = p_l + p_h;\n is = reinterpret(t);\n t = reinterpret(is & 0xFFFF8000);\n u = t * lg2_h;\n v = (p_l - (t - p_h)) * lg2 + t * lg2_l;\n z = u + v;\n w = v - (z - u);\n t = z * z;\n t1 = z - t * (P1 + t * (P2 + t * (P3 + t * (P4 + t * P5))));\n r = (z * t1) / (t1 - 2.0) - (w + z * w);\n z = 1.0 - (r - z);\n j = reinterpret(z);\n j += n << 23;\n if ((j >> 23) <= 0) z = scalbn(z, n);\n else z = reinterpret(j);\n return sn * z;\n }\n\n @inline\n export function seedRandom(value: i64): void {\n NativeMath.seedRandom(value);\n }\n\n // Using xoroshiro64starstar from http://xoshiro.di.unimi.it/xoroshiro64starstar.c\n export function random(): f32 {\n if (!random_seeded) throw new Error("PRNG must be seeded.");\n\n var s0 = random_state0_32;\n var s1 = random_state1_32;\n var r = rotl(s0 * 0x9E3779BB, 5) * 5;\n\n s1 ^= s0;\n random_state0_32 = rotl(s0, 26) ^ s1 ^ (s1 << 9);\n random_state1_32 = rotl(s1, 13);\n\n return reinterpret((r >> 9) | (127 << 23)) - 1.0;\n }\n\n @inline\n export function round(x: f32): f32 {\n return builtin_copysign(builtin_floor(x + 0.5), x);\n }\n\n @inline\n export function sign(x: f32): f32 {\n if (ASC_SHRINK_LEVEL > 0) {\n return builtin_abs(x) > 0 ? builtin_copysign(1, x) : x;\n } else {\n return x > 0 ? 1 : x < 0 ? -1 : x;\n }\n }\n\n @inline\n export function signbit(x: f32): bool {\n return ((reinterpret(x) >>> 31) & (x == x));\n }\n\n export function sin(x: f32): f32 { // TODO\n unreachable();\n return 0;\n }\n\n export function sinh(x: f32): f32 { // see: musl/src/math/sinhf.c\n var u = reinterpret(x) & 0x7FFFFFFF;\n var absx = reinterpret(u);\n var t: f32;\n var h = builtin_copysign(0.5, x);\n if (u < 0x42B17217) {\n t = expm1(absx);\n if (u < 0x3F800000) {\n if (u < 0x3F800000 - (12 << 23)) return x;\n return h * (2 * t - t * t / (t + 1));\n }\n return h * (t + t / (t + 1));\n }\n t = 2 * h * expo2f(absx);\n return t;\n }\n\n @inline\n export function sqrt(x: f32): f32 {\n return builtin_sqrt(x);\n }\n\n export function tan(x: f32): f32 { // TODO\n unreachable();\n return 0;\n }\n\n export function tanh(x: f32): f32 { // see: musl/src/math/tanhf.c\n var u = reinterpret(x);\n u &= 0x7FFFFFFF;\n var y = reinterpret(u);\n var t: f32;\n if (u > 0x3F0C9F54) {\n if (u > 0x41200000) t = 1 + 0 / y;\n else {\n t = expm1(2 * y);\n t = 1 - 2 / (t + 2);\n }\n } else if (u > 0x3E82C578) {\n t = expm1(2 * y);\n t = t / (t + 2);\n } else if (u >= 0x00800000) {\n t = expm1(-2 * y);\n t = -t / (t + 2);\n } else t = y;\n return builtin_copysign(t, x);\n }\n\n @inline\n export function trunc(x: f32): f32 {\n return builtin_trunc(x);\n }\n\n export function scalbn(x: f32, n: i32): f32 { // see: https://git.musl-libc.org/cgit/musl/tree/src/math/scalbnf.c\n const\n Ox1p24f = reinterpret(0x4B800000),\n Ox1p127f = reinterpret(0x7F000000),\n Ox1p_126f = reinterpret(0x00800000);\n var y = x;\n if (n > 127) {\n y *= Ox1p127f;\n n -= 127;\n if (n > 127) {\n y *= Ox1p127f;\n n = builtin_min(n - 127, 127);\n }\n } else if (n < -126) {\n y *= Ox1p_126f * Ox1p24f;\n n += 126 - 24;\n if (n < -126) {\n y *= Ox1p_126f * Ox1p24f;\n n = builtin_max(n + 126 - 24, -126);\n }\n }\n return y * reinterpret((0x7F + n) << 23);\n }\n\n export function mod(x: f32, y: f32): f32 { // see: musl/src/math/fmodf.c\n var ux = reinterpret(x);\n var uy = reinterpret(y);\n var ex = (ux >> 23 & 0xFF);\n var ey = (uy >> 23 & 0xFF);\n var sx = ux & 0x80000000;\n var uy1 = uy << 1;\n if (uy1 == 0 || ex == 0xFF || isNaN(y)) {\n let m = x * y;\n return m / m;\n }\n var ux1 = ux << 1;\n if (ux1 <= uy1) {\n if (ux1 == uy1) return 0 * x;\n return x;\n }\n if (!ex) {\n ex -= builtin_clz(ux << 9);\n ux <<= -ex + 1;\n } else {\n ux &= -1 >> 9;\n ux |= 1 << 23;\n }\n if (!ey) {\n ey -= builtin_clz(uy << 9);\n uy <<= -ey + 1;\n } else {\n uy &= -1 >> 9;\n uy |= 1 << 23;\n }\n while (ex > ey) {\n if (ux >= uy) {\n if (ux == uy) return 0 * x;\n ux -= uy;\n }\n ux <<= 1;\n --ex;\n }\n if (ux >= uy) {\n if (ux == uy) return 0 * x;\n ux -= uy;\n }\n // for (; !(ux >> 23); ux <<= 1) --ex;\n var shift = builtin_clz(ux << 8);\n ex -= shift;\n ux <<= shift;\n if (ex > 0) {\n ux -= 1 << 23;\n ux |= ex << 23;\n } else {\n ux >>= -ex + 1;\n }\n ux |= sx;\n return reinterpret(ux);\n }\n\n export function rem(x: f32, y: f32): f32 { // see: musl/src/math/remquof.c\n var ux = reinterpret(x);\n var uy = reinterpret(y);\n var ex = (ux >> 23 & 0xFF);\n var ey = (uy >> 23 & 0xFF);\n var sx = (ux >> 31);\n var uxi = ux;\n if (uy << 1 == 0 || ex == 0xFF || isNaN(y)) return (x * y) / (x * y);\n if (ux << 1 == 0) return x;\n if (!ex) {\n ex -= builtin_clz(uxi << 9);\n uxi <<= -ex + 1;\n } else {\n uxi &= -1 >> 9;\n uxi |= 1 << 23;\n }\n if (!ey) {\n ey -= builtin_clz(uy << 9);\n uy <<= -ey + 1;\n } else {\n uy &= -1 >> 9;\n uy |= 1 << 23;\n }\n var q = 0;\n do {\n if (ex < ey) {\n if (ex + 1 == ey) break; // goto end\n return x;\n }\n while (ex > ey) {\n if (uxi >= uy) {\n uxi -= uy;\n ++q;\n }\n uxi <<= 1;\n q <<= 1;\n --ex;\n }\n if (uxi >= uy) {\n uxi -= uy;\n ++q;\n }\n if (uxi == 0) ex = -30;\n else {\n let shift = builtin_clz(uxi << 8);\n ex -= shift;\n uxi <<= shift;\n }\n break;\n } while (false);\n // end\n if (ex > 0) {\n uxi -= 1 << 23;\n uxi |= ex << 23;\n } else {\n uxi >>= -ex + 1;\n }\n x = reinterpret(uxi);\n y = builtin_abs(y);\n var x2 = x + x;\n if (ex == ey || (ex + 1 == ey && (x2 > y || (x2 == y && (q & 1))))) {\n x -= y;\n // q++;\n }\n return sx ? -x : x;\n }\n}\n\nexport function ipow32(x: i32, e: i32): i32 {\n var out = 1;\n if (ASC_SHRINK_LEVEL < 1) {\n if (e < 0) return 0;\n\n switch (e) {\n case 0: return 1;\n case 1: return x;\n case 2: return x * x;\n }\n\n let log = 32 - clz(e);\n if (log <= 5) {\n // 32 = 2 ^ 5, so need only five cases.\n // But some extra cases needs for properly overflowing\n switch (log) {\n case 5: {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n case 4: {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n case 3: {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n case 2: {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n case 1: {\n if (e & 1) out *= x;\n }\n }\n return out;\n }\n }\n\n while (e > 0) {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n return out;\n}\n\nexport function ipow64(x: i64, e: i32): i64 {\n var out: i64 = 1;\n if (ASC_SHRINK_LEVEL < 1) {\n if (e < 0) return 0;\n switch (e) {\n case 0: return 1;\n case 1: return x;\n case 2: return x * x;\n }\n\n let log = 32 - clz(e);\n if (log <= 6) {\n // 64 = 2 ^ 6, so need only six cases.\n // But some extra cases needs for properly overflowing\n switch (log) {\n case 6: {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n case 5: {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n case 4: {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n case 3: {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n case 2: {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n case 1: {\n if (e & 1) out *= x;\n }\n }\n return out;\n }\n }\n\n while (e > 0) {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n return out;\n}\n\nexport function ipow32f(x: f32, e: i32): f32 {\n var sign = e >> 31;\n e = (e + sign) ^ sign; // abs(e)\n var out: f32 = 1;\n while (e) {\n out *= select(x, 1.0, e & 1);\n e >>= 1;\n x *= x;\n }\n return sign ? 1.0 / out : out;\n}\n\nexport function ipow64f(x: f64, e: i32): f64 {\n var sign = e >> 31;\n e = (e + sign) ^ sign; // abs(e)\n var out = 1.0;\n while (e) {\n out *= select(x, 1.0, e & 1);\n e >>= 1;\n x *= x;\n }\n return sign ? 1.0 / out : out;\n}\n',memory:'import { memcmp, memmove, memset } from "./internal/memory";\n\n@builtin export declare const HEAP_BASE: usize; // tslint:disable-line\n\n/* tslint:disable */\n\nexport namespace memory {\n\n @builtin export declare function size(): i32;\n\n @builtin export declare function grow(pages: i32): i32;\n\n @builtin @inline\n export function fill(dest: usize, c: u8, n: usize): void { // see: musl/src/string/memset\n memset(dest, c, n); // fallback if "bulk-memory" isn\'t enabled\n }\n\n @builtin @inline\n export function copy(dest: usize, src: usize, n: usize): void { // see: musl/src/string/memmove.c\n memmove(dest, src, n); // fallback if "bulk-memory" isn\'t enabled\n }\n\n @inline export function compare(vl: usize, vr: usize, n: usize): i32 { // see: musl/src/string/memcmp.c\n return memcmp(vl, vr, n);\n }\n\n // Passive segments\n\n // export function init(segmentIndex: u32, srcOffset: usize, dstOffset: usize, n: usize): void {\n // __memory_init(segmentIndex, srcOffset, dstOffset);\n // }\n\n // export function drop(segmentIndex: u32): void {\n // __memory_drop(segmentIndex);\n // }\n\n // Allocator\n\n @inline export function allocate(size: usize): usize {\n if (isDefined(__memory_allocate)) return __memory_allocate(size);\n WARNING("Calling \'memory.allocate\' requires a memory manager to be present.");\n return unreachable();\n }\n\n @inline export function free(ptr: usize): void {\n if (isDefined(__memory_free)) { __memory_free(ptr); return; }\n WARNING("Calling \'memory.free\' requires a memory manager to be present.");\n unreachable();\n }\n\n @inline export function reset(): void {\n if (isDefined(__memory_reset)) { __memory_reset(); return; }\n unreachable();\n }\n}\n',number:'import {\n itoa,\n dtoa\n} from "./internal/number";\n\nimport {\n isNaN as builtin_isNaN,\n isFinite as builtin_isFinite\n} from "./builtins";\n\n@sealed\nexport abstract class I8 {\n\n @lazy static readonly MIN_VALUE: i8 = i8.MIN_VALUE;\n @lazy static readonly MAX_VALUE: i8 = i8.MAX_VALUE;\n\n static parseInt(value: string, radix: i32 = 0): i8 {\n return parseI32(value, radix);\n }\n\n toString(this: i8): String {\n // TODO: radix\n return itoa(this);\n }\n}\n\n@sealed\nexport abstract class I16 {\n\n @lazy static readonly MIN_VALUE: i16 = i16.MIN_VALUE;\n @lazy static readonly MAX_VALUE: i16 = i16.MAX_VALUE;\n\n static parseInt(value: string, radix: i32 = 0): i16 {\n return parseI32(value, radix);\n }\n\n toString(this: i16): String {\n // TODO: radix\n return itoa(this);\n }\n}\n\n@sealed\nexport abstract class I32 {\n\n @lazy static readonly MIN_VALUE: i32 = i32.MIN_VALUE;\n @lazy static readonly MAX_VALUE: i32 = i32.MAX_VALUE;\n\n static parseInt(value: string, radix: i32 = 0): i32 {\n return parseI32(value, radix);\n }\n\n toString(this: i32): String {\n // TODO: radix\n return itoa(this);\n }\n}\n\n@sealed\nexport abstract class I64 {\n\n @lazy static readonly MIN_VALUE: i64 = i64.MIN_VALUE;\n @lazy static readonly MAX_VALUE: i64 = i64.MAX_VALUE;\n\n static parseInt(value: string, radix: i32 = 0): i64 {\n return parseI64(value, radix);\n }\n\n toString(this: i64): String {\n // TODO: radix\n return itoa(this);\n }\n}\n\n@sealed\nexport abstract class Isize {\n\n @lazy static readonly MIN_VALUE: isize = isize.MIN_VALUE;\n @lazy static readonly MAX_VALUE: isize = isize.MAX_VALUE;\n\n static parseInt(value: string, radix: i32 = 0): isize {\n return parseI64(value, radix);\n }\n\n toString(this: isize): String {\n // TODO: radix\n return itoa(this);\n }\n}\n\n@sealed\nexport abstract class U8 {\n\n @lazy static readonly MIN_VALUE: u8 = u8.MIN_VALUE;\n @lazy static readonly MAX_VALUE: u8 = u8.MAX_VALUE;\n\n static parseInt(value: string, radix: i32 = 0): u8 {\n return parseI32(value, radix);\n }\n\n toString(this: u8): String {\n // TODO: radix\n return itoa(this);\n }\n}\n\n@sealed\nexport abstract class U16 {\n\n @lazy static readonly MIN_VALUE: u16 = u16.MIN_VALUE;\n @lazy static readonly MAX_VALUE: u16 = u16.MAX_VALUE;\n\n static parseInt(value: string, radix: i32 = 0): u16 {\n return parseI32(value, radix);\n }\n\n toString(this: u16): String {\n // TODO: radix\n return itoa(this);\n }\n}\n\n@sealed\nexport abstract class U32 {\n\n @lazy static readonly MIN_VALUE: u32 = u32.MIN_VALUE;\n @lazy static readonly MAX_VALUE: u32 = u32.MAX_VALUE;\n\n static parseInt(value: string, radix: i32 = 0): u32 {\n return parseI32(value, radix);\n }\n\n toString(this: u32): String {\n // TODO: radix\n return itoa(this);\n }\n}\n\n@sealed\nexport abstract class U64 {\n\n @lazy static readonly MIN_VALUE: u64 = u64.MIN_VALUE;\n @lazy static readonly MAX_VALUE: u64 = u64.MAX_VALUE;\n\n static parseInt(value: string, radix: i32 = 0): u64 {\n return parseI64(value, radix);\n }\n\n toString(this: u64): String {\n // TODO: radix\n return itoa(this);\n }\n}\n\n@sealed\nexport abstract class Usize {\n\n @lazy static readonly MIN_VALUE: usize = usize.MIN_VALUE;\n @lazy static readonly MAX_VALUE: usize = usize.MAX_VALUE;\n\n static parseInt(value: string, radix: i32 = 0): usize {\n return parseI64(value, radix);\n }\n\n toString(this: usize): String {\n // TODO: radix\n return itoa(this);\n }\n}\n\n@sealed\nexport abstract class Bool {\n\n @lazy static readonly MIN_VALUE: bool = bool.MIN_VALUE;\n @lazy static readonly MAX_VALUE: bool = bool.MAX_VALUE;\n\n toString(this: bool): String {\n // TODO: radix?\n return this ? "true" : "false";\n }\n}\n\nexport { Bool as Boolean };\n\n@sealed\nexport abstract class F32 {\n\n @lazy static readonly EPSILON: f32 = f32.EPSILON;\n @lazy static readonly MIN_VALUE: f32 = f32.MIN_VALUE;\n @lazy static readonly MAX_VALUE: f32 = f32.MAX_VALUE;\n @lazy static readonly MIN_SAFE_INTEGER: f32 = f32.MIN_SAFE_INTEGER;\n @lazy static readonly MAX_SAFE_INTEGER: f32 = f32.MAX_SAFE_INTEGER;\n @lazy static readonly POSITIVE_INFINITY: f32 = Infinity;\n @lazy static readonly NEGATIVE_INFINITY: f32 = -Infinity;\n @lazy static readonly NaN: f32 = NaN;\n\n static isNaN(value: f32): bool {\n return isNaN(value);\n }\n\n static isFinite(value: f32): bool {\n return isFinite(value);\n }\n\n static isSafeInteger(value: f32): bool {\n return abs(value) <= f32.MAX_SAFE_INTEGER && trunc(value) == value;\n }\n\n static isInteger(value: f32): bool {\n return isFinite(value) && trunc(value) == value;\n }\n\n static parseInt(value: string, radix: i32 = 0): f32 {\n return parseI64(value, radix);\n }\n\n static parseFloat(value: string): f32 {\n return parseFloat(value);\n }\n\n toString(this: f32): String {\n // TODO: radix\n return dtoa(this);\n }\n}\n\n@sealed\nexport abstract class F64 {\n\n @lazy static readonly EPSILON: f64 = f64.EPSILON;\n @lazy static readonly MIN_VALUE: f64 = f64.MIN_VALUE;\n @lazy static readonly MAX_VALUE: f64 = f64.MAX_VALUE;\n @lazy static readonly MIN_SAFE_INTEGER: f64 = f64.MIN_SAFE_INTEGER;\n @lazy static readonly MAX_SAFE_INTEGER: f64 = f64.MAX_SAFE_INTEGER;\n @lazy static readonly POSITIVE_INFINITY: f64 = Infinity;\n @lazy static readonly NEGATIVE_INFINITY: f64 = -Infinity;\n @lazy static readonly NaN: f64 = NaN;\n\n static isNaN(value: f64): bool {\n return builtin_isNaN(value);\n }\n\n static isFinite(value: f64): bool {\n return builtin_isFinite(value);\n }\n\n static isSafeInteger(value: f64): bool {\n return abs(value) <= f64.MAX_SAFE_INTEGER && trunc(value) == value;\n }\n\n static isInteger(value: f64): bool {\n return builtin_isFinite(value) && trunc(value) == value;\n }\n\n static parseInt(value: string, radix: i32 = 0): f64 {\n return parseI64(value, radix);\n }\n\n static parseFloat(value: string): f64 {\n return parseFloat(value);\n }\n\n toString(this: f64): String {\n // TODO: radix\n return dtoa(this);\n }\n}\n\nexport { F64 as Number };\n',polyfills:"export function bswap(value: T): T {\n if (isInteger()) {\n if (sizeof() == 2) {\n return ((value << 8) | ((value >> 8) & 0x00FF));\n }\n if (sizeof() == 4) {\n return (\n rotl(value & 0xFF00FF00, 8) |\n rotr(value & 0x00FF00FF, 8)\n );\n }\n if (sizeof() == 8) {\n let a = (value >> 8) & 0x00FF00FF00FF00FF;\n let b = (value & 0x00FF00FF00FF00FF) << 8;\n let v = a | b;\n\n a = (v >> 16) & 0x0000FFFF0000FFFF;\n b = (v & 0x0000FFFF0000FFFF) << 16;\n\n return rotr(a | b, 32);\n }\n return value;\n }\n assert(false);\n return value;\n}\n\n@inline\nexport function bswap16(value: T): T {\n if (isInteger() && sizeof() <= 4) {\n if (sizeof() == 2) {\n return ((value << 8) | ((value >> 8) & 0x00FF));\n } else if (sizeof() == 4) {\n return (((value << 8) & 0xFF00) | ((value >> 8) & 0x00FF) | (value & 0xFFFF0000));\n }\n return value;\n }\n assert(false);\n return value;\n}\n",regexp:'export class RegExp {\n\n // @binding(CALL_NEW, [ STRING, STRING], OBJECT_HANDLE)\n constructor(pattern: string, flags: string = "") { throw new Error("unreachable"); }\n\n // @binding(CALL_THIS, [ STRING ], PASS_THRU)\n test(search: string): bool { throw new Error("unreachable"); }\n\n // @binding(CALL_THIS, [], STRING)\n toString(): string { throw new Error("unreachable"); }\n\n}\n',set:'import {\n HEADER_SIZE as HEADER_SIZE_AB\n} from "./internal/arraybuffer";\n\nimport {\n HASH\n} from "./internal/hash";\n\n// A deterministic hash set based on CloseTable from https://github.com/jorendorff/dht\n\n@inline const INITIAL_CAPACITY = 4;\n@inline const FILL_FACTOR: f64 = 8 / 3;\n@inline const FREE_FACTOR: f64 = 3 / 4;\n\n/** Structure of a set entry. */\n@unmanaged class SetEntry {\n key: K;\n taggedNext: usize; // LSB=1 indicates EMPTY\n}\n\n/** Empty bit. */\n@inline const EMPTY: usize = 1 << 0;\n\n/** Size of a bucket. */\n@inline const BUCKET_SIZE = sizeof();\n\n/** Computes the alignment of an entry. */\n@inline function ENTRY_ALIGN(): usize {\n // can align to 4 instead of 8 if 32-bit and K is <= 32-bits\n const align = (sizeof() > sizeof() ? sizeof() : sizeof()) - 1;\n return align;\n}\n\n/** Computes the aligned size of an entry. */\n@inline function ENTRY_SIZE(): usize {\n const align = ENTRY_ALIGN();\n const size = (offsetof>() + align) & ~align;\n return size;\n}\n\nexport class Set {\n\n // buckets holding references to the respective first entry within\n private buckets: ArrayBuffer; // usize[bucketsMask + 1]\n private bucketsMask: u32;\n\n // entries in insertion order\n private entries: ArrayBuffer; // SetEntry[entriesCapacity]\n private entriesCapacity: i32;\n private entriesOffset: i32;\n private entriesCount: i32;\n\n get size(): i32 { return this.entriesCount; }\n\n constructor() { this.clear(); }\n\n clear(): void {\n const bucketsSize = INITIAL_CAPACITY * BUCKET_SIZE;\n this.buckets = new ArrayBuffer(bucketsSize);\n this.bucketsMask = INITIAL_CAPACITY - 1;\n const entriesSize = INITIAL_CAPACITY * ENTRY_SIZE();\n this.entries = new ArrayBuffer(entriesSize, true);\n this.entriesCapacity = INITIAL_CAPACITY;\n this.entriesOffset = 0;\n this.entriesCount = 0;\n }\n\n private find(key: K, hashCode: u32): SetEntry | null {\n var entry = load>(\n changetype(this.buckets) + (hashCode & this.bucketsMask) * BUCKET_SIZE,\n HEADER_SIZE_AB\n );\n while (entry) {\n if (!(entry.taggedNext & EMPTY) && entry.key == key) return entry;\n entry = changetype>(entry.taggedNext & ~EMPTY);\n }\n return null;\n }\n\n has(key: K): bool {\n return this.find(key, HASH(key)) !== null;\n }\n\n add(key: K): void {\n var hashCode = HASH(key);\n var entry = this.find(key, hashCode);\n if (!entry) {\n // check if rehashing is necessary\n if (this.entriesOffset == this.entriesCapacity) {\n this.rehash(\n this.entriesCount < (this.entriesCapacity * FREE_FACTOR)\n ? this.bucketsMask // just rehash if 1/4+ entries are empty\n : (this.bucketsMask << 1) | 1 // grow capacity to next 2^N\n );\n }\n // append new entry\n let entries = this.entries;\n entry = changetype>(\n changetype(entries) + HEADER_SIZE_AB + this.entriesOffset++ * ENTRY_SIZE()\n );\n entry.key = key;\n ++this.entriesCount;\n // link with previous entry in bucket\n let bucketPtrBase = changetype(this.buckets) + (hashCode & this.bucketsMask) * BUCKET_SIZE;\n entry.taggedNext = load(bucketPtrBase, HEADER_SIZE_AB);\n store(bucketPtrBase, changetype(entry), HEADER_SIZE_AB);\n if (isManaged()) __gc_link(changetype(this), changetype(key)); // tslint:disable-line\n }\n }\n\n delete(key: K): bool {\n var entry = this.find(key, HASH(key));\n if (!entry) return false;\n entry.taggedNext |= EMPTY;\n --this.entriesCount;\n // check if rehashing is appropriate\n var halfBucketsMask = this.bucketsMask >> 1;\n if (\n halfBucketsMask + 1 >= max(INITIAL_CAPACITY, this.entriesCount) &&\n this.entriesCount < (this.entriesCapacity * FREE_FACTOR)\n ) this.rehash(halfBucketsMask);\n return true;\n }\n\n private rehash(newBucketsMask: u32): void {\n var newBucketsCapacity = (newBucketsMask + 1);\n var newBuckets = new ArrayBuffer(newBucketsCapacity * BUCKET_SIZE);\n var newEntriesCapacity = (newBucketsCapacity * FILL_FACTOR);\n var newEntries = new ArrayBuffer(newEntriesCapacity * ENTRY_SIZE(), true);\n\n // copy old entries to new entries\n var oldPtr = changetype(this.entries) + HEADER_SIZE_AB;\n var oldEnd = oldPtr + this.entriesOffset * ENTRY_SIZE();\n var newPtr = changetype(newEntries) + HEADER_SIZE_AB;\n while (oldPtr != oldEnd) {\n let oldEntry = changetype>(oldPtr);\n if (!(oldEntry.taggedNext & EMPTY)) {\n let newEntry = changetype>(newPtr);\n newEntry.key = oldEntry.key;\n let newBucketIndex = HASH(oldEntry.key) & newBucketsMask;\n let newBucketPtrBase = changetype(newBuckets) + newBucketIndex * BUCKET_SIZE;\n newEntry.taggedNext = load(newBucketPtrBase, HEADER_SIZE_AB);\n store(newBucketPtrBase, newPtr, HEADER_SIZE_AB);\n newPtr += ENTRY_SIZE();\n }\n oldPtr += ENTRY_SIZE();\n }\n\n this.buckets = newBuckets;\n this.bucketsMask = newBucketsMask;\n this.entries = newEntries;\n this.entriesCapacity = newEntriesCapacity;\n this.entriesOffset = this.entriesCount;\n }\n\n toString(): string {\n return "[object Set]";\n }\n\n private __gc(): void {\n __gc_mark(changetype(this.buckets)); // tslint:disable-line\n var entries = this.entries;\n __gc_mark(changetype(entries)); // tslint:disable-line\n if (isManaged()) {\n let offset: usize = 0;\n let end: usize = this.entriesOffset * ENTRY_SIZE();\n while (offset < end) {\n let entry = changetype>(\n changetype(entries) + HEADER_SIZE_AB + offset * ENTRY_SIZE()\n );\n if (!(entry.taggedNext & EMPTY)) __gc_mark(changetype(entry.key)); // tslint:disable-line\n offset += ENTRY_SIZE();\n }\n }\n }\n}\n',string:'import {\n HEADER_SIZE,\n MAX_LENGTH,\n allocateUnsafe,\n compareUnsafe,\n repeatUnsafe,\n copyUnsafe,\n isWhiteSpaceOrLineTerminator,\n CharCode,\n parse\n} from "./internal/string";\n\nimport {\n STORE\n} from "./internal/arraybuffer";\n\n@sealed\nexport class String {\n\n readonly length: i32; // capped to [0, MAX_LENGTH]\n\n // TODO Add and handle second argument\n static fromCharCode(code: i32): String {\n var out = allocateUnsafe(1);\n store(\n changetype(out),\n code,\n HEADER_SIZE\n );\n return out;\n }\n\n static fromCodePoint(code: i32): String {\n assert(code <= 0x10FFFF);\n var sur = code > 0xFFFF;\n var out = allocateUnsafe(sur + 1);\n if (!sur) {\n store(\n changetype(out),\n code,\n HEADER_SIZE\n );\n } else {\n code -= 0x10000;\n let hi: u32 = (code >>> 10) + 0xD800;\n let lo: u32 = (code & 0x3FF) + 0xDC00;\n store(\n changetype(out),\n (hi << 16) | lo,\n HEADER_SIZE\n );\n }\n return out;\n }\n\n @operator("[]")\n charAt(pos: i32): String {\n assert(this !== null);\n\n if (pos >= this.length) return changetype("");\n\n var out = allocateUnsafe(1);\n store(\n changetype(out),\n load(\n changetype(this) + (pos << 1),\n HEADER_SIZE\n ),\n HEADER_SIZE\n );\n return out;\n }\n\n charCodeAt(pos: i32): i32 {\n assert(this !== null);\n if (pos >= this.length) return -1; // (NaN)\n\n return load(\n changetype(this) + (pos << 1),\n HEADER_SIZE\n );\n }\n\n codePointAt(pos: i32): i32 {\n assert(this !== null);\n if (pos >= this.length) return -1; // (undefined)\n\n var first = load(\n changetype(this) + (pos << 1),\n HEADER_SIZE\n );\n if (first < 0xD800 || first > 0xDBFF || pos + 1 == this.length) {\n return first;\n }\n var second = load(\n changetype(this) + ((pos + 1) << 1),\n HEADER_SIZE\n );\n if (second < 0xDC00 || second > 0xDFFF) return first;\n return ((first - 0xD800) << 10) + (second - 0xDC00) + 0x10000;\n }\n\n @operator("+")\n private static __concat(left: String, right: String): String {\n if (!changetype(left)) left = changetype("null");\n return left.concat(right);\n }\n\n concat(other: String): String {\n assert(this !== null);\n if (other === null) other = changetype("null");\n\n var thisLen: isize = this.length;\n var otherLen: isize = other.length;\n var outLen: usize = thisLen + otherLen;\n if (outLen == 0) return changetype("");\n var out = allocateUnsafe(outLen);\n copyUnsafe(out, 0, this, 0, thisLen);\n copyUnsafe(out, thisLen, other, 0, otherLen);\n return out;\n }\n\n endsWith(searchString: String, endPosition: i32 = MAX_LENGTH): bool {\n assert(this !== null);\n if (searchString === null) return false;\n var end = min(max(endPosition, 0), this.length);\n var searchLength: isize = searchString.length;\n var start: isize = end - searchLength;\n if (start < 0) return false;\n return !compareUnsafe(this, start, searchString, 0, searchLength);\n }\n\n @operator("==")\n private static __eq(left: String, right: String): bool {\n if (left === right) return true;\n if (left === null || right === null) return false;\n\n var leftLength = left.length;\n if (leftLength != right.length) return false;\n\n return !compareUnsafe(left, 0, right, 0, leftLength);\n }\n\n @operator("!=")\n private static __ne(left: String, right: String): bool {\n return !this.__eq(left, right);\n }\n\n @operator(">")\n private static __gt(left: String, right: String): bool {\n if (left === right || left === null || right === null) return false;\n\n var leftLength = left.length;\n var rightLength = right.length;\n\n if (!leftLength) return false;\n if (!rightLength) return true;\n\n var length = min(leftLength, rightLength);\n return compareUnsafe(left, 0, right, 0, length) > 0;\n }\n\n @operator(">=")\n private static __gte(left: String, right: String): bool {\n return !this.__lt(left, right);\n }\n\n @operator("<")\n private static __lt(left: String, right: String): bool {\n if (left === right || left === null || right === null) return false;\n\n var leftLength = left.length;\n var rightLength = right.length;\n\n if (!rightLength) return false;\n if (!leftLength) return true;\n\n var length = min(leftLength, rightLength);\n return compareUnsafe(left, 0, right, 0, length) < 0;\n }\n\n @operator("<=")\n private static __lte(left: String, right: String): bool {\n return !this.__gt(left, right);\n }\n\n @inline\n includes(searchString: String, position: i32 = 0): bool {\n return this.indexOf(searchString, position) != -1;\n }\n\n indexOf(searchString: String, fromIndex: i32 = 0): i32 {\n assert(this !== null);\n if (searchString === null) searchString = changetype("null");\n\n var searchLen: isize = searchString.length;\n if (!searchLen) return 0;\n var len: isize = this.length;\n if (!len) return -1;\n var start = min(max(fromIndex, 0), len);\n len -= searchLen;\n for (let k: isize = start; k <= len; ++k) {\n if (!compareUnsafe(this, k, searchString, 0, searchLen)) return k;\n }\n return -1;\n }\n\n lastIndexOf(searchString: String, fromIndex: i32 = i32.MAX_VALUE): i32 {\n assert(this !== null);\n if (searchString === null) searchString = changetype("null");\n\n var len: isize = this.length;\n var searchLen: isize = searchString.length;\n if (!searchLen) return len;\n if (!len) return -1;\n var start = min(max(fromIndex, 0), len - searchLen);\n for (let k = start; k >= 0; --k) {\n if (!compareUnsafe(this, k, searchString, 0, searchLen)) return k;\n }\n return -1;\n }\n\n startsWith(searchString: String, position: i32 = 0): bool {\n assert(this !== null);\n if (searchString === null) searchString = changetype("null");\n\n var pos: isize = position;\n var len: isize = this.length;\n var start = min(max(pos, 0), len);\n var searchLength: isize = searchString.length;\n if (searchLength + start > len) return false;\n return !compareUnsafe(this, start, searchString, 0, searchLength);\n }\n\n substr(start: i32, length: i32 = i32.MAX_VALUE): String {\n assert(this !== null);\n var intStart: isize = start;\n var end: isize = length;\n var size: isize = this.length;\n if (intStart < 0) intStart = max(size + intStart, 0);\n var resultLength = min(max(end, 0), size - intStart);\n if (resultLength <= 0) return changetype("");\n var out = allocateUnsafe(resultLength);\n copyUnsafe(out, 0, this, intStart, resultLength);\n return out;\n }\n\n substring(start: i32, end: i32 = i32.MAX_VALUE): String {\n assert(this !== null);\n var len = this.length;\n var finalStart = min(max(start, 0), len);\n var finalEnd = min(max(end, 0), len);\n var from = min(finalStart, finalEnd);\n var to = max(finalStart, finalEnd);\n len = to - from;\n if (!len) return changetype("");\n if (!from && to == this.length) return this;\n var out = allocateUnsafe(len);\n copyUnsafe(out, 0, this, from, len);\n return out;\n }\n\n trim(): String {\n assert(this !== null);\n var length: usize = this.length;\n\n while (\n length &&\n isWhiteSpaceOrLineTerminator(\n load(changetype(this) + (length << 1), HEADER_SIZE)\n )\n ) {\n --length;\n }\n var start: usize = 0;\n while (\n start < length &&\n isWhiteSpaceOrLineTerminator(\n load(changetype(this) + (start << 1), HEADER_SIZE)\n )\n ) {\n ++start, --length;\n }\n if (!length) return changetype("");\n if (!start && length == this.length) return this;\n var out = allocateUnsafe(length);\n copyUnsafe(out, 0, this, start, length);\n return out;\n }\n\n @inline\n trimLeft(): String {\n return this.trimStart();\n }\n\n @inline\n trimRight(): String {\n return this.trimEnd();\n }\n\n trimStart(): String {\n assert(this !== null);\n var start: isize = 0;\n var len: isize = this.length;\n while (\n start < len &&\n isWhiteSpaceOrLineTerminator(\n load(changetype(this) + (start << 1), HEADER_SIZE)\n )\n ) {\n ++start;\n }\n if (!start) return this;\n var outLen = len - start;\n if (!outLen) return changetype("");\n var out = allocateUnsafe(outLen);\n copyUnsafe(out, 0, this, start, outLen);\n return out;\n }\n\n trimEnd(): String {\n assert(this !== null);\n var len: isize = this.length;\n while (\n len > 0 &&\n isWhiteSpaceOrLineTerminator(\n load(changetype(this) + (len << 1), HEADER_SIZE)\n )\n ) {\n --len;\n }\n if (len <= 0) return changetype("");\n if (len == this.length) return this;\n var out = allocateUnsafe(len);\n copyUnsafe(out, 0, this, 0, len);\n return out;\n }\n\n padStart(targetLength: i32, padString: String = changetype(" ")): String {\n assert(this !== null);\n var length = this.length;\n var padLen = padString.length;\n if (targetLength < length || !padLen) return this;\n var len = targetLength - length;\n var out = allocateUnsafe(targetLength);\n if (len > padLen) {\n let count = (len - 1) / padLen;\n let base = count * padLen;\n let rest = len - base;\n repeatUnsafe(out, 0, padString, count);\n if (rest) copyUnsafe(out, base, padString, 0, rest);\n } else {\n copyUnsafe(out, 0, padString, 0, len);\n }\n if (length) copyUnsafe(out, len, this, 0, length);\n return out;\n }\n\n padEnd(targetLength: i32, padString: String = changetype(" ")): String {\n assert(this !== null);\n var length = this.length;\n var padLen = padString.length;\n if (targetLength < length || !padLen) return this;\n var len = targetLength - length;\n var out = allocateUnsafe(targetLength);\n if (length) copyUnsafe(out, 0, this, 0, length);\n if (len > padLen) {\n let count = (len - 1) / padLen;\n let base = count * padLen;\n let rest = len - base;\n repeatUnsafe(out, length, padString, count);\n if (rest) copyUnsafe(out, base + length, padString, 0, rest);\n } else {\n copyUnsafe(out, length, padString, 0, len);\n }\n return out;\n }\n\n repeat(count: i32 = 0): String {\n assert(this !== null);\n var length = this.length;\n\n // Most browsers can\'t handle strings 1 << 28 chars or longer\n if (count < 0 || length * count > (1 << 28)) {\n throw new RangeError("Invalid count value");\n }\n\n if (count == 0 || !length) return changetype("");\n if (count == 1) return this;\n\n var result = allocateUnsafe(length * count);\n repeatUnsafe(result, 0, this, count);\n return result;\n }\n\n slice(beginIndex: i32, endIndex: i32 = i32.MAX_VALUE): String {\n var len = this.length;\n var begin = beginIndex < 0 ? max(beginIndex + len, 0) : min(beginIndex, len);\n var end = endIndex < 0 ? max(endIndex + len, 0) : min(endIndex, len);\n len = end - begin;\n if (len <= 0) return changetype("");\n var out = allocateUnsafe(len);\n copyUnsafe(out, 0, this, begin, len);\n return out;\n }\n\n split(separator: String = null, limit: i32 = i32.MAX_VALUE): String[] {\n assert(this !== null);\n if (!limit) return new Array();\n if (separator === null) return [this];\n var length: isize = this.length;\n var sepLen: isize = separator.length;\n if (limit < 0) limit = i32.MAX_VALUE;\n if (!sepLen) {\n if (!length) return new Array();\n // split by chars\n length = min(length, limit);\n let result = new Array(length);\n let buffer = result.buffer_;\n for (let i: isize = 0; i < length; ++i) {\n let char = allocateUnsafe(1);\n store(\n changetype(char),\n load(\n changetype(this) + (i << 1),\n HEADER_SIZE\n ),\n HEADER_SIZE\n );\n STORE(buffer, i, char);\n }\n return result;\n } else if (!length) {\n let result = new Array(1);\n unchecked(result[0] = changetype(""));\n return result;\n }\n var result = new Array();\n var end = 0, start = 0, i = 0;\n while ((end = this.indexOf(separator, start)) != -1) {\n let len = end - start;\n if (len > 0) {\n let out = allocateUnsafe(len);\n copyUnsafe(out, 0, this, start, len);\n result.push(out);\n } else {\n result.push(changetype(""));\n }\n if (++i == limit) return result;\n start = end + sepLen;\n }\n if (!start) {\n let result = new Array(1);\n unchecked(result[0] = this);\n return result;\n }\n var len = length - start;\n if (len > 0) {\n let out = allocateUnsafe(len);\n copyUnsafe(out, 0, this, start, len);\n result.push(out);\n } else {\n result.push(changetype(""));\n }\n return result;\n }\n\n toString(): String {\n return this;\n }\n\n get lengthUTF8(): i32 {\n var len = 1; // null terminated\n var pos: usize = 0;\n var end = this.length;\n while (pos < end) {\n let c = load(changetype(this) + (pos << 1), HEADER_SIZE);\n if (c < 128) {\n len += 1; ++pos;\n } else if (c < 2048) {\n len += 2; ++pos;\n } else {\n if (\n (c & 0xFC00) == 0xD800 && pos + 1 < end &&\n (load(changetype(this) + ((pos + 1) << 1), HEADER_SIZE) & 0xFC00) == 0xDC00\n ) {\n len += 4; pos += 2;\n } else {\n len += 3; ++pos;\n }\n }\n }\n return len;\n }\n\n static fromUTF8(ptr: usize, len: usize): String {\n if (len < 1) return changetype("");\n var ptrPos = 0;\n var buf = memory.allocate(len << 1);\n var bufPos = 0;\n while (ptrPos < len) {\n let cp = load(ptr + ptrPos++);\n if (cp < 128) {\n store(buf + bufPos, cp);\n bufPos += 2;\n } else if (cp > 191 && cp < 224) {\n assert(ptrPos + 1 <= len);\n store(buf + bufPos, (cp & 31) << 6 | load(ptr + ptrPos++) & 63);\n bufPos += 2;\n } else if (cp > 239 && cp < 365) {\n assert(ptrPos + 3 <= len);\n cp = (\n (cp & 7) << 18 |\n (load(ptr + ptrPos++) & 63) << 12 |\n (load(ptr + ptrPos++) & 63) << 6 |\n load(ptr + ptrPos++) & 63\n ) - 0x10000;\n store(buf + bufPos, 0xD800 + (cp >> 10));\n bufPos += 2;\n store(buf + bufPos, 0xDC00 + (cp & 1023));\n bufPos += 2;\n } else {\n assert(ptrPos + 2 <= len);\n store(buf + bufPos,\n (cp & 15) << 12 |\n (load(ptr + ptrPos++) & 63) << 6 |\n load(ptr + ptrPos++) & 63\n );\n bufPos += 2;\n }\n }\n assert(ptrPos == len);\n var str = allocateUnsafe((bufPos >> 1));\n memory.copy(changetype(str) + HEADER_SIZE, buf, bufPos);\n memory.free(buf);\n return str;\n }\n\n toUTF8(): usize {\n var buf = memory.allocate(this.lengthUTF8);\n var pos: usize = 0;\n var end = this.length;\n var off: usize = 0;\n while (pos < end) {\n let c1 = load(changetype(this) + (pos << 1), HEADER_SIZE);\n if (c1 < 128) {\n store(buf + off, c1);\n ++off; ++pos;\n } else if (c1 < 2048) {\n let ptr = buf + off;\n store(ptr, c1 >> 6 | 192);\n store(ptr, c1 & 63 | 128, 1);\n off += 2; ++pos;\n } else {\n let ptr = buf + off;\n if ((c1 & 0xFC00) == 0xD800 && pos + 1 < end) {\n let c2 = load(changetype(this) + ((pos + 1) << 1), HEADER_SIZE);\n if ((c2 & 0xFC00) == 0xDC00) {\n c1 = 0x10000 + ((c1 & 0x03FF) << 10) + (c2 & 0x03FF);\n store(ptr, c1 >> 18 | 240);\n store(ptr, c1 >> 12 & 63 | 128, 1);\n store(ptr, c1 >> 6 & 63 | 128, 2);\n store(ptr, c1 & 63 | 128, 3);\n off += 4; pos += 2;\n continue;\n }\n }\n store(ptr, c1 >> 12 | 224);\n store(ptr, c1 >> 6 & 63 | 128, 1);\n store(ptr, c1 & 63 | 128, 2);\n off += 3; ++pos;\n }\n }\n store(buf + off, 0);\n return buf;\n }\n}\n\nexport type string = String;\n\nexport function parseInt(str: String, radix: i32 = 0): f64 {\n return parse(str, radix);\n}\n\nexport function parseI32(str: String, radix: i32 = 0): i32 {\n return parse(str, radix);\n}\n\nexport function parseI64(str: String, radix: i32 = 0): i64 {\n return parse(str, radix);\n}\n\n// FIXME: naive implementation\nexport function parseFloat(str: String): f64 {\n var len: i32 = str.length;\n if (!len) return NaN;\n\n var ptr = changetype(str) /* + HEAD -> offset */;\n var code = load(ptr, HEADER_SIZE);\n\n // determine sign\n var sign: f64;\n if (code == CharCode.MINUS) {\n if (!--len) return NaN;\n code = load(ptr += 2, HEADER_SIZE);\n sign = -1;\n } else if (code == CharCode.PLUS) {\n if (!--len) return NaN;\n code = load(ptr += 2, HEADER_SIZE);\n sign = 1;\n } else {\n sign = 1;\n }\n\n // calculate value\n var num: f64 = 0;\n while (len--) {\n code = load(ptr, HEADER_SIZE);\n if (code == CharCode.DOT) {\n ptr += 2;\n let fac: f64 = 0.1; // precision :(\n while (len--) {\n code = load(ptr, HEADER_SIZE);\n if (code == CharCode.E || code == CharCode.e) {\n assert(false); // TODO\n }\n code -= CharCode._0;\n if (code > 9) break;\n num += code * fac;\n fac *= 0.1;\n ptr += 2;\n }\n break;\n }\n code -= CharCode._0;\n if (code >= 10) break;\n num = (num * 10) + code;\n ptr += 2;\n }\n return sign * num;\n}\n',symbol:'import { Map } from "./map";\n\n@lazy var stringToId: Map;\n@lazy var idToString: Map;\n@lazy var nextId: usize = 12; // Symbol.unscopables + 1\n\n@unmanaged export class symbol {\n toString(): string {\n var id = changetype(this);\n var str = "";\n switch (id) {\n case 1: { str = "hasInstance"; break; }\n case 2: { str = "isConcatSpreadable"; break; }\n case 3: { str = "isRegExp"; break; }\n case 4: { str = "match"; break; }\n case 5: { str = "replace"; break; }\n case 6: { str = "search"; break; }\n case 7: { str = "species"; break; }\n case 8: { str = "split"; break; }\n case 9: { str = "toPrimitive"; break; }\n case 10: { str = "toStringTag"; break; }\n case 11: { str = "unscopables"; break; }\n default: {\n if (idToString !== null && idToString.has(id)) str = idToString.get(id);\n break;\n }\n }\n return "Symbol(" + str + ")";\n }\n}\n\nexport function Symbol(description: string | null = null): symbol {\n var id = nextId++;\n if (!id) unreachable(); // out of ids\n return changetype(id);\n}\n\nexport namespace Symbol {\n\n // well-known symbols\n @lazy export const hasInstance = changetype(1);\n @lazy export const isConcatSpreadable = changetype(2);\n @lazy export const isRegExp = changetype(3);\n @lazy export const iterator = changetype(3);\n @lazy export const match = changetype(4);\n @lazy export const replace = changetype(5);\n @lazy export const search = changetype(6);\n @lazy export const species = changetype(7);\n @lazy export const split = changetype(8);\n @lazy export const toPrimitive = changetype(9);\n @lazy export const toStringTag = changetype(10);\n @lazy export const unscopables = changetype(11);\n\n /* tslint:disable */// not valid TS\n export function for(key: string): symbol {\n if (!stringToId) { stringToId = new Map(); idToString = new Map(); }\n else if (stringToId.has(key)) return changetype(stringToId.get(key));\n var id = nextId++;\n if (!id) unreachable(); // out of ids\n stringToId.set(key, id);\n idToString.set(id, key);\n return changetype(id);\n }\n /* tslint:enable */\n\n export function keyFor(sym: symbol): string | null {\n return idToString !== null && idToString.has(changetype(sym))\n ? idToString.get(changetype(sym))\n : null;\n }\n}\n',table:"export namespace table {\n\n // export function copy(dst: u32, src: u32, n: u32): void {\n // __table_copy(dst, src, n);\n // }\n\n // Passive elements\n\n // export function init(elementIndex: u32, srcOffset: u32, dstOffset: u32, n: u32): void {\n // __table_init(elementIndex, srcOffset, dstOffset, n);\n // }\n\n // export function drop(elementIndex: u32): void {\n // __table_drop(elementIndex);\n // }\n}\n",typedarray:"import {\n TypedArray,\n FILL,\n SORT,\n SUBARRAY,\n REDUCE,\n REDUCE_RIGHT,\n MAP,\n FIND_INDEX,\n SOME,\n EVERY,\n} from \"./internal/typedarray\";\n\nimport {\n COMPARATOR\n} from \"./internal/sort\";\n\nfunction clampToByte(value: i32): i32 {\n return ~(value >> 31) & (((255 - value) >> 31) | value); // & 255\n}\n\nexport class Int8Array extends TypedArray {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n fill(value: i32, start: i32 = 0, end: i32 = i32.MAX_VALUE): Int8Array {\n return FILL(this, value, start, end);\n }\n\n sort(comparator: (a: i8, b: i8) => i32 = COMPARATOR()): Int8Array {\n return SORT(this, comparator);\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Int8Array {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: i8, index: i32, array: Int8Array) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: i8, index: i32, array: Int8Array) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: i8, index: i32, self: Int8Array) => i8): Int8Array {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: i8, index: i32, self: Int8Array) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: i8, index: i32, self: Int8Array) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: i8, index: i32, self: Int8Array) => bool): bool {\n return EVERY(this, callbackfn);\n }\n}\n\nexport class Uint8Array extends TypedArray {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n fill(value: u32, start: i32 = 0, end: i32 = i32.MAX_VALUE): Uint8Array {\n return FILL(this, value, start, end);\n }\n\n sort(comparator: (a: u8, b: u8) => i32 = COMPARATOR()): Uint8Array {\n return SORT(this, comparator);\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Uint8Array {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: u8, index: i32, array: Uint8Array) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: u8, index: i32, array: Uint8Array) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: u8, index: i32, self: Uint8Array) => u8): Uint8Array {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: u8, index: i32, self: Uint8Array) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: u8, index: i32, self: Uint8Array) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: u8, index: i32, self: Uint8Array) => bool): bool {\n return EVERY(this, callbackfn);\n }\n}\n\nexport class Uint8ClampedArray extends Uint8Array {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n @inline @operator(\"[]=\")\n protected __set(index: i32, value: i32): void {\n super.__set(index, clampToByte(value));\n }\n\n @inline @operator(\"{}=\")\n protected __unchecked_set(index: i32, value: i32): void {\n super.__unchecked_set(index, clampToByte(value));\n }\n\n fill(value: u32, start: i32 = 0, end: i32 = i32.MAX_VALUE): Uint8ClampedArray {\n return changetype(super.fill(value, start, end)); // safe because '.fill' reuses 'this'\n }\n\n sort(comparator: (a: u8, b: u8) => i32 = COMPARATOR()): Uint8ClampedArray {\n return changetype(super.sort(comparator)); // safe because '.sort' reuses 'this'\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Uint8ClampedArray {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: u8, index: i32, array: Uint8ClampedArray) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: u8, index: i32, array: Uint8ClampedArray) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: u8, index: i32, self: Uint8ClampedArray) => u8): Uint8ClampedArray {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: u8, index: i32, self: Uint8ClampedArray) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: u8, index: i32, self: Uint8ClampedArray) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: u8, index: i32, self: Uint8ClampedArray) => bool): bool {\n return EVERY(this, callbackfn);\n }\n}\n\nexport class Int16Array extends TypedArray {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n fill(value: i32, start: i32 = 0, end: i32 = i32.MAX_VALUE): Int16Array {\n return FILL(this, value, start, end);\n }\n\n sort(comparator: (a: i16, b: i16) => i32 = COMPARATOR()): Int16Array {\n return SORT(this, comparator);\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Int16Array {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: i16, index: i32, array: Int16Array) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: i16, index: i32, array: Int16Array) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: i16, index: i32, self: Int16Array) => i16): Int16Array {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: i16, index: i32, self: Int16Array) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: i16, index: i32, self: Int16Array) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: i16, index: i32, self: Int16Array) => bool): bool {\n return EVERY(this, callbackfn);\n }\n}\n\nexport class Uint16Array extends TypedArray {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n fill(value: u32, start: i32 = 0, end: i32 = i32.MAX_VALUE): Uint16Array {\n return FILL(this, value, start, end);\n }\n\n sort(comparator: (a: u16, b: u16) => i32 = COMPARATOR()): Uint16Array {\n return SORT(this, comparator);\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Uint16Array {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: u16, index: i32, array: Uint16Array) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: u16, index: i32, array: Uint16Array) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: u16, index: i32, self: Uint16Array) => u16): Uint16Array {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: u16, index: i32, self: Uint16Array) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: u16, index: i32, self: Uint16Array) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: u16, index: i32, self: Uint16Array) => bool): bool {\n return EVERY(this, callbackfn);\n }\n}\n\nexport class Int32Array extends TypedArray {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n fill(value: i32, start: i32 = 0, end: i32 = i32.MAX_VALUE): Int32Array {\n return FILL(this, value, start, end);\n }\n\n sort(comparator: (a: i32, b: i32) => i32 = COMPARATOR()): Int32Array {\n return SORT(this, comparator);\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Int32Array {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: i32, index: i32, array: Int32Array) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: i32, index: i32, array: Int32Array) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: i32, index: i32, self: Int32Array) => i32): Int32Array {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: i32, index: i32, self: Int32Array) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: i32, index: i32, self: Int32Array) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: i32, index: i32, self: Int32Array) => bool): bool {\n return EVERY(this, callbackfn);\n }\n}\n\nexport class Uint32Array extends TypedArray {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n fill(value: u32, start: i32 = 0, end: i32 = i32.MAX_VALUE): Uint32Array {\n return FILL(this, value, start, end);\n }\n\n sort(comparator: (a: u32, b: u32) => i32 = COMPARATOR()): Uint32Array {\n return SORT(this, comparator);\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Uint32Array {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: u32, index: i32, array: Uint32Array) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: u32, index: i32, array: Uint32Array) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: u32, index: i32, self: Uint32Array) => u32): Uint32Array {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: u32, index: i32, self: Uint32Array) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: u32, index: i32, self: Uint32Array) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: u32, index: i32, self: Uint32Array) => bool): bool {\n return EVERY(this, callbackfn);\n }\n}\n\nexport class Int64Array extends TypedArray {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n fill(value: i64, start: i32 = 0, end: i32 = i32.MAX_VALUE): Int64Array {\n return FILL(this, value, start, end);\n }\n\n sort(comparator: (a: i64, b: i64) => i32 = COMPARATOR()): Int64Array {\n return SORT(this, comparator);\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Int64Array {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: i64, index: i32, array: Int64Array) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: i64, index: i32, array: Int64Array) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: i64, index: i32, self: Int64Array) => i64): Int64Array {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: i64, index: i32, self: Int64Array) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: i64, index: i32, self: Int64Array) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: i64, index: i32, self: Int64Array) => bool): bool {\n return EVERY(this, callbackfn);\n }\n}\n\nexport class Uint64Array extends TypedArray {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n fill(value: u64, start: i32 = 0, end: i32 = i32.MAX_VALUE): Uint64Array {\n return FILL(this, value, start, end);\n }\n\n sort(comparator: (a: u64, b: u64) => i32 = COMPARATOR()): Uint64Array {\n return SORT(this, comparator);\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Uint64Array {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: u64, index: i32, array: Uint64Array) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: u64, index: i32, array: Uint64Array) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: u64, index: i32, self: Uint64Array) => u64): Uint64Array {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: u64, index: i32, self: Uint64Array) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: u64, index: i32, self: Uint64Array) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: u64, index: i32, self: Uint64Array) => bool): bool {\n return EVERY(this, callbackfn);\n }\n}\n\nexport class Float32Array extends TypedArray {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n fill(value: f32, start: i32 = 0, end: i32 = i32.MAX_VALUE): Float32Array {\n return FILL(this, value, start, end);\n }\n\n sort(comparator: (a: f32, b: f32) => i32 = COMPARATOR()): Float32Array {\n return SORT(this, comparator);\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Float32Array {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: f32, index: i32, array: Float32Array) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: f32, index: i32, array: Float32Array) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: f32, index: i32, self: Float32Array) => f32): Float32Array {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: f32, index: i32, self: Float32Array) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: f32, index: i32, self: Float32Array) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: f32, index: i32, self: Float32Array) => bool): bool {\n return EVERY(this, callbackfn);\n }\n}\n\nexport class Float64Array extends TypedArray {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n fill(value: f64, start: i32 = 0, end: i32 = i32.MAX_VALUE): Float64Array {\n return FILL(this, value, start, end);\n }\n\n sort(comparator: (a: f64, b: f64) => i32 = COMPARATOR()): Float64Array {\n return SORT(this, comparator);\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Float64Array {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: f64, index: i32, array: Float64Array) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: f64, index: i32, array: Float64Array) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: f64, index: i32, self: Float64Array) => f64): Float64Array {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: f64, index: i32, self: Float64Array) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: f64, index: i32, self: Float64Array) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: f64, index: i32, self: Float64Array) => bool): bool {\n return EVERY(this, callbackfn);\n }\n}\n",vector:"@sealed\nexport abstract class V128 {\n}\n"}):(()=>{const e=path.join(".","..","std","assembly"),n=__webpack_require__(!function(){var e=new Error("Cannot find module 'glob'");throw e.code="MODULE_NOT_FOUND",e}()).sync("**/!(*.d).ts",{cwd:e}),t={};return n.forEach(n=>t[n.replace(/\.ts$/,"")]=fs.readFileSync(path.join(e,n),"utf8")),t})(),exports.definitionFiles=exports.isBundle?Object({assembly:'/**\n * Environment definitions for compiling AssemblyScript to WebAssembly using asc.\n * @module std/assembly\n *//***/\n\n/// \n\n// Types\n\n/** An 8-bit signed integer. */\ndeclare type i8 = number;\n/** A 16-bit signed integer. */\ndeclare type i16 = number;\n/** A 32-bit signed integer. */\ndeclare type i32 = number;\n/** A 64-bit signed integer. */\ndeclare type i64 = number;\n/** A 32-bit signed integer when targeting 32-bit WebAssembly or a 64-bit signed integer when targeting 64-bit WebAssembly. */\ndeclare type isize = number;\n/** An 8-bit unsigned integer. */\ndeclare type u8 = number;\n/** A 16-bit unsigned integer. */\ndeclare type u16 = number;\n/** A 32-bit unsigned integer. */\ndeclare type u32 = number;\n/** A 64-bit unsigned integer. */\ndeclare type u64 = number;\n/** A 32-bit unsigned integer when targeting 32-bit WebAssembly or a 64-bit unsigned integer when targeting 64-bit WebAssembly. */\ndeclare type usize = number;\n/** A 1-bit unsigned integer. */\ndeclare type bool = boolean | number;\n/** A 32-bit float. */\ndeclare type f32 = number;\n/** A 64-bit float. */\ndeclare type f64 = number;\n/** A 128-bit vector. */\ndeclare type v128 = object;\n\n// Compiler hints\n\n/** Compiler target. 0 = JS, 1 = WASM32, 2 = WASM64. */\ndeclare const ASC_TARGET: i32;\n/** Provided noAssert option. */\ndeclare const ASC_NO_ASSERT: bool;\n/** Provided memoryBase option. */\ndeclare const ASC_MEMORY_BASE: i32;\n/** Provided optimizeLevel option. */\ndeclare const ASC_OPTIMIZE_LEVEL: i32;\n/** Provided shrinkLevel option. */\ndeclare const ASC_SHRINK_LEVEL: i32;\n/** Whether the mutable global feature is enabled. */\ndeclare const ASC_FEATURE_MUTABLE_GLOBAL: bool;\n/** Whether the sign extension feature is enabled. */\ndeclare const ASC_FEATURE_SIGN_EXTENSION: bool;\n/** Whether the bulk memory feature is enabled. */\ndeclare const ASC_FEATURE_BULK_MEMORY: bool;\n/** Whether the SIMD feature is enabled. */\ndeclare const ASC_FEATURE_SIMD: bool;\n/** Whether the threads feature is enabled. */\ndeclare const ASC_FEATURE_THREADS: bool;\n\n// Builtins\n\n/** Performs the sign-agnostic count leading zero bits operation on a 32-bit or 64-bit integer. All zero bits are considered leading if the value is zero. */\ndeclare function clz(value: T): T;\n/** Performs the sign-agnostic count tailing zero bits operation on a 32-bit or 64-bit integer. All zero bits are considered trailing if the value is zero. */\ndeclare function ctz(value: T): T;\n/** Performs the sign-agnostic count number of one bits operation on a 32-bit or 64-bit integer. */\ndeclare function popcnt(value: T): T;\n/** Performs the sign-agnostic rotate left operation on a 32-bit or 64-bit integer. */\ndeclare function rotl(value: T, shift: T): T;\n/** Performs the sign-agnostic rotate right operation on a 32-bit or 64-bit integer. */\ndeclare function rotr(value: T, shift: T): T;\n/** Computes the absolute value of an integer or float. */\ndeclare function abs(value: T): T;\n/** Determines the maximum of two integers or floats. If either operand is `NaN`, returns `NaN`. */\ndeclare function max(left: T, right: T): T;\n/** Determines the minimum of two integers or floats. If either operand is `NaN`, returns `NaN`. */\ndeclare function min(left: T, right: T): T;\n/** Performs the ceiling operation on a 32-bit or 64-bit float. */\ndeclare function ceil(value: T): T;\n/** Composes a 32-bit or 64-bit float from the magnitude of `x` and the sign of `y`. */\ndeclare function copysign(x: T, y: T): T;\n/** Performs the floor operation on a 32-bit or 64-bit float. */\ndeclare function floor(value: T): T;\n/** Rounds to the nearest integer tied to even of a 32-bit or 64-bit float. */\ndeclare function nearest(value: T): T;\n/** Reinterprets the bits of the specified value as type `T`. Valid reinterpretations are u32/i32 to/from f32 and u64/i64 to/from f64. */\ndeclare function reinterpret(value: number): T;\n/** Selects one of two pre-evaluated values depending on the condition. */\ndeclare function select(ifTrue: T, ifFalse: T, condition: bool): T;\n/** Calculates the square root of a 32-bit or 64-bit float. */\ndeclare function sqrt(value: T): T;\n/** Rounds to the nearest integer towards zero of a 32-bit or 64-bit float. */\ndeclare function trunc(value: T): T;\n/** Loads a value of the specified type from memory. Equivalent to dereferncing a pointer in other languages. */\ndeclare function load(ptr: usize, immOffset?: usize, immAlign?: usize): T;\n/** Stores a value of the specified type to memory. Equivalent to dereferencing a pointer in other languages when assigning a value. */\ndeclare function store(ptr: usize, value: any, immOffset?: usize, immAlign?: usize): void;\n/** Emits an unreachable operation that results in a runtime error when executed. Both a statement and an expression of any type. */\ndeclare function unreachable(): any; // sic\n\n/** NaN (not a number) as a 32-bit or 64-bit float depending on context. */\ndeclare const NaN: f32 | f64;\n/** Positive infinity as a 32-bit or 64-bit float depending on context. */\ndeclare const Infinity: f32 | f64;\n/** Heap base offset. */\ndeclare const HEAP_BASE: usize;\n/** Determines the byte size of the specified underlying core type. Compiles to a constant. */\ndeclare function sizeof(): usize;\n/** Determines the alignment (log2) of the specified underlying core type. Compiles to a constant. */\ndeclare function alignof(): usize;\n/** Determines the offset of the specified field within the given class type. Returns the class type\'s end offset if field name has been omitted. Compiles to a constant. */\ndeclare function offsetof(fieldName?: string): usize;\n/** Changes the type of any value of `usize` kind to another one of `usize` kind. Useful for casting class instances to their pointer values and vice-versa. Beware that this is unsafe.*/\ndeclare function changetype(value: any): T;\n/** Explicitly requests no bounds checks on the provided expression. Useful for array accesses. */\ndeclare function unchecked(value: T): T;\n/** Emits a `call_indirect` instruction, calling the specified function in the function table by index with the specified arguments. Does result in a runtime error if the arguments do not match the called function. */\ndeclare function call_indirect(target: Function | u32, ...args: any[]): T;\n/** Instantiates a new instance of `T` using the specified constructor arguments. */\ndeclare function instantiate(...args: any[]): T;\n/** Tests if a 32-bit or 64-bit float is `NaN`. */\ndeclare function isNaN(value: T): bool;\n/** Tests if a 32-bit or 64-bit float is finite, that is not `NaN` or +/-`Infinity`. */\ndeclare function isFinite(value: T): bool;\n/** Tests if the specified type *or* expression is of an integer type and not a reference. Compiles to a constant. */\ndeclare function isInteger(value?: any): value is number;\n/** Tests if the specified type *or* expression is of a float type. Compiles to a constant. */\ndeclare function isFloat(value?: any): value is number;\n/** Tests if the specified type *or* expression can represent negative numbers. Compiles to a constant. */\ndeclare function isSigned(value?: any): value is number;\n/** Tests if the specified type *or* expression is of a reference type. Compiles to a constant. */\ndeclare function isReference(value?: any): value is object | string;\n/** Tests if the specified type *or* expression can be used as a string. Compiles to a constant. */\ndeclare function isString(value?: any): value is string | String;\n/** Tests if the specified type *or* expression can be used as an array. Compiles to a constant. */\ndeclare function isArray(value?: any): value is Array;\n/** Tests if the specified type *or* expression can be used as an array like object. Compiles to a constant. */\ndeclare function isArrayLike(value?: any): value is ArrayLike;\n/** Tests if the specified type *or* expression is of a function type. Compiles to a constant. */\ndeclare function isFunction(value?: any): value is (...args: any) => any;\n/** Tests if the specified type *or* expression is of a nullable reference type. Compiles to a constant. */\ndeclare function isNullable(value?: any): bool;\n/** Tests if the specified expression resolves to a defined element. Compiles to a constant. */\ndeclare function isDefined(expression: any): bool;\n/** Tests if the specified expression evaluates to a constant value. Compiles to a constant. */\ndeclare function isConstant(expression: any): bool;\n/** Tests if the specified type *or* expression is of a managed type. Compiles to a constant. */\ndeclare function isManaged(value?: any): bool;\n/** Traps if the specified value is not true-ish, otherwise returns the (non-nullable) value. */\ndeclare function assert(isTrueish: T, message?: string): T & object; // any better way to model `: T != null`?\n/** Parses an integer string to a 64-bit float. */\ndeclare function parseInt(str: string, radix?: i32): f64;\n/** Parses an integer string to a 32-bit integer. */\ndeclare function parseI32(str: string, radix?: i32): i32;\n/** Parses an integer string to a 64-bit integer. */\ndeclare function parseI64(str: string, radix?: i32): i64;\n/** Parses a string to a 64-bit float. */\ndeclare function parseFloat(str: string): f64;\n/** Returns the 64-bit floating-point remainder of `x/y`. */\ndeclare function fmod(x: f64, y: f64): f64;\n/** Returns the 32-bit floating-point remainder of `x/y`. */\ndeclare function fmodf(x: f32, y: f32): f32;\n\n/** Converts any other numeric value to an 8-bit signed integer. */\ndeclare function i8(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): i8;\ndeclare namespace i8 {\n /** Smallest representable value. */\n export const MIN_VALUE: i8;\n /** Largest representable value. */\n export const MAX_VALUE: i8;\n}\n/** Converts any other numeric value to a 16-bit signed integer. */\ndeclare function i16(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): i8;\ndeclare namespace i16 {\n /** Smallest representable value. */\n export const MIN_VALUE: i16;\n /** Largest representable value. */\n export const MAX_VALUE: i16;\n}\n/** Converts any other numeric value to a 32-bit signed integer. */\ndeclare function i32(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): i32;\ndeclare namespace i32 {\n /** Smallest representable value. */\n export const MIN_VALUE: i32;\n /** Largest representable value. */\n export const MAX_VALUE: i32;\n /** Loads an 8-bit signed integer from memory and returns it as a 32-bit integer. */\n export function load8_s(offset: usize, immOffset?: usize, immAlign?: usize): i32;\n /** Loads an 8-bit unsigned integer from memory and returns it as a 32-bit integer. */\n export function load8_u(offset: usize, immOffset?: usize, immAlign?: usize): i32;\n /** Loads a 16-bit signed integer from memory and returns it as a 32-bit integer. */\n export function load16_s(offset: usize, immOffset?: usize, immAlign?: usize): i32;\n /** Loads a 16-bit unsigned integer from memory and returns it as a 32-bit integer. */\n export function load16_u(offset: usize, immOffset?: usize, immAlign?: usize): i32;\n /** Loads a 32-bit integer from memory. */\n export function load(offset: usize, immOffset?: usize, immAlign?: usize): i32;\n /** Stores a 32-bit integer to memory as an 8-bit integer. */\n export function store8(offset: usize, value: i32, immOffset?: usize, immAlign?: usize): void;\n /** Stores a 32-bit integer to memory as a 16-bit integer. */\n export function store16(offset: usize, value: i32, immOffset?: usize, immAlign?: usize): void;\n /** Stores a 32-bit integer to memory. */\n export function store(offset: usize, value: i32, immOffset?: usize, immAlign?: usize): void;\n}\n/** Converts any other numeric value to a 64-bit signed integer. */\ndeclare function i64(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): i64;\ndeclare namespace i64 {\n /** Smallest representable value. */\n export const MIN_VALUE: i64;\n /** Largest representable value. */\n export const MAX_VALUE: i64;\n /** Loads an 8-bit signed integer from memory and returns it as a 64-bit signed integer. */\n export function load8_s(offset: usize, immOffset?: usize, immAlign?: usize): i64;\n /** Loads an 8-bit unsigned integer from memory and returns it as a 64-bit unsigned integer. */\n export function load8_u(offset: usize, immOffset?: usize, immAlign?: usize): u64;\n /** Loads a 16-bit signed integer from memory and returns it as a 64-bit signed integer. */\n export function load16_s(offset: usize, immOffset?: usize, immAlign?: usize): i64;\n /** Loads a 16-bit unsigned integer from memory and returns it as a 64-bit unsigned integer. */\n export function load16_u(offset: usize, immOffset?: usize, immAlign?: usize): u64;\n /** Loads a 32-bit signed integer from memory and returns it as a 64-bit signed integer. */\n export function load32_s(offset: usize, immOffset?: usize, immAlign?: usize): i64;\n /** Loads a 32-bit unsigned integer from memory and returns it as a 64-bit unsigned integer. */\n export function load32_u(offset: usize, immOffset?: usize, immAlign?: usize): u64;\n /** Loads a 64-bit unsigned integer from memory. */\n export function load(offset: usize, immOffset?: usize, immAlign?: usize): i64;\n /** Stores a 64-bit integer to memory as an 8-bit integer. */\n export function store8(offset: usize, value: i64, immOffset?: usize, immAlign?: usize): void;\n /** Stores a 64-bit integer to memory as a 16-bit integer. */\n export function store16(offset: usize, value: i64, immOffset?: usize, immAlign?: usize): void;\n /** Stores a 64-bit integer to memory as a 32-bit integer. */\n export function store32(offset: usize, value: i64, immOffset?: usize, immAlign?: usize): void;\n /** Stores a 64-bit integer to memory. */\n export function store(offset: usize, value: i64, immOffset?: usize, immAlign?: usize): void;\n}\n/** Converts any other numeric value to a 32-bit (in WASM32) respectivel 64-bit (in WASM64) signed integer. */\ndeclare var isize: typeof i32 | typeof i64;\n/** Converts any other numeric value to an 8-bit unsigned integer. */\ndeclare function u8(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): i8;\ndeclare namespace u8 {\n /** Smallest representable value. */\n export const MIN_VALUE: u8;\n /** Largest representable value. */\n export const MAX_VALUE: u8;\n}\n/** Converts any other numeric value to a 16-bit unsigned integer. */\ndeclare function u16(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): i8;\ndeclare namespace u16 {\n /** Smallest representable value. */\n export const MIN_VALUE: u16;\n /** Largest representable value. */\n export const MAX_VALUE: u16;\n}\n/** Converts any other numeric value to a 32-bit unsigned integer. */\ndeclare function u32(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): i32;\ndeclare namespace u32 {\n /** Smallest representable value. */\n export const MIN_VALUE: u32;\n /** Largest representable value. */\n export const MAX_VALUE: u32;\n}\n/** Converts any other numeric value to a 64-bit unsigned integer. */\ndeclare function u64(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): i64;\ndeclare namespace u64 {\n /** Smallest representable value. */\n export const MIN_VALUE: u64;\n /** Largest representable value. */\n export const MAX_VALUE: u64;\n}\n/** Converts any other numeric value to a 32-bit (in WASM32) respectivel 64-bit (in WASM64) unsigned integer. */\ndeclare var usize: typeof u32 | typeof u64;\n/** Converts any other numeric value to a 1-bit unsigned integer. */\ndeclare function bool(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): bool;\ndeclare namespace bool {\n /** Smallest representable value. */\n export const MIN_VALUE: bool;\n /** Largest representable value. */\n export const MAX_VALUE: bool;\n}\n/** Converts any other numeric value to a 32-bit float. */\ndeclare function f32(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): f32;\ndeclare namespace f32 {\n /** Smallest representable value. */\n export const MIN_VALUE: f32;\n /** Largest representable value. */\n export const MAX_VALUE: f32;\n /** Smallest normalized positive value. */\n export const MIN_POSITIVE_VALUE: f32;\n /** Smallest safely representable integer value. */\n export const MIN_SAFE_INTEGER: f32;\n /** Largest safely representable integer value. */\n export const MAX_SAFE_INTEGER: f32;\n /** Difference between 1 and the smallest representable value greater than 1. */\n export const EPSILON: f32;\n /** Loads a 32-bit float from memory. */\n export function load(offset: usize, immOffset?: usize, immAlign?: usize): f32;\n /** Stores a 32-bit float to memory. */\n export function store(offset: usize, value: f32, immOffset?: usize, immAlign?: usize): void;\n}\n/** Converts any other numeric value to a 64-bit float. */\ndeclare function f64(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): f64;\ndeclare namespace f64 {\n /** Smallest representable value. */\n export const MIN_VALUE: f64;\n /** Largest representable value. */\n export const MAX_VALUE: f64;\n /** Smallest normalized positive value. */\n export const MIN_POSITIVE_VALUE: f64;\n /** Smallest safely representable integer value. */\n export const MIN_SAFE_INTEGER: f64;\n /** Largest safely representable integer value. */\n export const MAX_SAFE_INTEGER: f64;\n /** Difference between 1 and the smallest representable value greater than 1. */\n export const EPSILON: f64;\n /** Loads a 64-bit float from memory. */\n export function load(offset: usize, immOffset?: usize, immAlign?: usize): f64;\n /** Stores a 64-bit float to memory. */\n export function store(offset: usize, value: f64, immOffset?: usize, immAlign?: usize): void;\n}\n/** Initializes a 128-bit vector from sixteen 8-bit integer values. Arguments must be compile-time constants. */\ndeclare function v128(a: i8, b: i8, c: i8, d: i8, e: i8, f: i8, g: i8, h: i8, i: i8, j: i8, k: i8, l: i8, m: i8, n: i8, o: i8, p: i8): v128;\ndeclare namespace v128 {\n /** Creates a 128-bit vector with identical lanes. */\n export function splat(x: T): v128;\n /** Extracts one lane from a 128-bit vector as a scalar. */\n export function extract_lane(x: v128, idx: u8): T;\n /** Replaces one lane in a 128-bit vector. */\n export function replace_lane(x: v128, idx: u8, value: T): v128;\n /** Selects lanes from either 128-bit vector according to the specified lane indexes. */\n export function shuffle(a: v128, b: v128, ...lanes: u8[]): v128;\n /** Loads a 128-bit vector from memory. */\n export function load(offset: usize, immOffset?: usize, immAlign?: usize): v128;\n /** Stores a 128-bit vector to memory. */\n export function store(offset: usize, value: v128, immOffset?: usize, immAlign?: usize): void;\n /** Adds each lane of two 128-bit vectors. */\n export function add(a: v128, b: v128): v128;\n /** Subtracts each lane of two 128-bit vectors. */\n export function sub(a: v128, b: v128): v128;\n /** Multiplies each lane of two 128-bit vectors. */\n export function mul(a: v128, b: v128): v128; // except i64\n /** Divides each lane of two 128-bit vectors. */\n export function div(a: v128, b: v128): v128;\n /** Negates each lane of a 128-bit vector */\n export function neg(a: v128): v128;\n /** Adds each lane of two 128-bit vectors using saturation. */\n export function add_saturate(a: v128, b: v128): v128;\n /** Subtracts each lane of two 128-bit vectors using saturation. */\n export function sub_saturate(a: v128, b: v128): v128;\n /** Performs a bitwise left shift on each lane of a 128-bit vector by a scalar. */\n export function shl(a: v128, b: i32): v128;\n /** Performs a bitwise right shift on each lane of a 128-bit vector by a scalar. */\n export function shr(a: v128, b: i32): v128;\n /** Performs the bitwise AND operation on each lane of two 128-bit vectors. */\n export function and(a: v128, b: v128): v128;\n /** Performs the bitwise OR operation on each lane of two 128-bit vectors. */\n export function or(a: v128, b: v128): v128;\n /** Performs the bitwise XOR operation on each lane of two 128-bit vectors. */\n export function xor(a: v128, b: v128): v128;\n /** Performs the bitwise NOT operation on each lane of a 128-bit vector. */\n export function not(a: v128): v128;\n /** Selects bits of either 128-bit vector according to the specified mask. */\n export function bitselect(v1: v128, v2: v128, mask: v128): v128;\n /** Reduces a 128-bit vector to a scalar indicating whether any lane is considered `true`. */\n export function any_true(a: v128): bool;\n /** Reduces a 128-bit vector to a scalar indicating whether all lanes are considered `true`. */\n export function all_true(a: v128): bool;\n /** Computes the minimum of each lane of two 128-bit vectors. */\n export function min(a: v128, b: v128): v128;\n /** Computes the maximum of each lane of two 128-bit vectors. */\n export function max(a: v128, b: v128): v128;\n /** Computes the absolute value of each lane of a 128-bit vector. */\n export function abs(a: v128): v128;\n /** Computes the square root of each lane of a 128-bit vector. */\n export function sqrt(a: v128): v128;\n /** Computes which lanes of two 128-bit vectors are equal. */\n export function eq(a: v128, b: v128): v128;\n /** Computes which lanes of two 128-bit vectors are not equal. */\n export function ne(a: v128, b: v128): v128;\n /** Computes which lanes of the first 128-bit vector are less than those of the second. */\n export function lt(a: v128, b: v128): v128;\n /** Computes which lanes of the first 128-bit vector are less than or equal those of the second. */\n export function le(a: v128, b: v128): v128;\n /** Computes which lanes of the first 128-bit vector are greater than those of the second. */\n export function gt(a: v128, b: v128): v128;\n /** Computes which lanes of the first 128-bit vector are greater than or equal those of the second. */\n export function ge(a: v128, b: v128): v128;\n /** Converts each lane of a 128-bit vector from integer to floating point. */\n export function convert(a: v128): v128;\n /** Truncates each lane of a 128-bit vector from floating point to integer with saturation. */\n export function trunc(a: v128): v128;\n}\n/** Initializes a 128-bit vector from sixteen 8-bit integer values. Arguments must be compile-time constants. */\ndeclare function i8x16(a: i8, b: i8, c: i8, d: i8, e: i8, f: i8, g: i8, h: i8, i: i8, j: i8, k: i8, l: i8, m: i8, n: i8, o: i8, p: i8): v128;\ndeclare namespace i8x16 {\n /** Creates a vector with sixteen identical 8-bit integer lanes. */\n export function splat(x: i8): v128;\n /** Extracts one 8-bit integer lane from a 128-bit vector as a signed scalar. */\n export function extract_lane_s(x: v128, idx: u8): i8;\n /** Extracts one 8-bit integer lane from a 128-bit vector as an unsigned scalar. */\n export function extract_lane_u(x: v128, idx: u8): u8;\n /** Replaces one 8-bit integer lane in a 128-bit vector. */\n export function replace_lane(x: v128, idx: u8, value: i8): v128;\n /** Adds each 8-bit integer lane of two 128-bit vectors. */\n export function add(a: v128, b: v128): v128;\n /** Subtracts each 8-bit integer lane of two 128-bit vectors. */\n export function sub(a: v128, b: v128): v128;\n /** Multiplies each 8-bit integer lane of two 128-bit vectors. */\n export function mul(a: v128, b: v128): v128;\n /** Negates each 8-bit integer lane of a 128-bit vector. */\n export function neg(a: v128): v128;\n /** Adds each 8-bit integer lane of two 128-bit vectors using signed saturation. */\n export function add_saturate_s(a: v128, b: v128): v128;\n /** Adds each 8-bit integer lane of two 128-bit vectors using unsigned saturation. */\n export function add_saturate_u(a: v128, b: v128): v128;\n /** Subtracts each 8-bit integer lane of two 128-bit vectors using signed saturation. */\n export function sub_saturate_s(a: v128, b: v128): v128;\n /** Subtracts each 8-bit integer lane of two 128-bit vectors using unsigned saturation. */\n export function sub_saturate_u(a: v128, b: v128): v128;\n /** Performs a bitwise left shift on each 8-bit integer lane of a 128-bit vector by a scalar. */\n export function shl(a: v128, b: i32): v128;\n /** Performs a bitwise arithmetic right shift on each 8-bit integer lane of a 128-bit vector by a scalar. */\n export function shr_s(a: v128, b: i32): v128;\n /** Performs a bitwise logical right shift on each 8-bit integer lane of a 128-bit vector by a scalar. */\n export function shr_u(a: v128, b: i32): v128;\n /** Reduces a 128-bit vector to a scalar indicating whether any 8-bit integer lane is considered `true`. */\n export function any_true(a: v128): bool;\n /** Reduces a 128-bit vector to a scalar indicating whether all 8-bit integer lanes are considered `true`. */\n export function all_true(a: v128): bool;\n /** Computes which 8-bit integer lanes of two 128-bit vectors are equal. */\n export function eq(a: v128, b: v128): v128;\n /** Computes which 8-bit integer lanes of two 128-bit vectors are not equal. */\n export function ne(a: v128, b: v128): v128;\n /** Computes which 8-bit signed integer lanes of the first 128-bit vector are less than those of the second. */\n export function lt_s(a: v128, b: v128): v128;\n /** Computes which 8-bit unsigned integer lanes of the first 128-bit vector are less than those of the second. */\n export function lt_u(a: v128, b: v128): v128;\n /** Computes which 8-bit signed integer lanes of the first 128-bit vector are less than or equal those of the second. */\n export function le_s(a: v128, b: v128): v128;\n /** Computes which 8-bit unsigned integer lanes of the first 128-bit vector are less than or equal those of the second. */\n export function le_u(a: v128, b: v128): v128;\n /** Computes which 8-bit signed integer lanes of the first 128-bit vector are greater than those of the second. */\n export function gt_s(a: v128, b: v128): v128;\n /** Computes which 8-bit unsigned integer lanes of the first 128-bit vector are greater than those of the second. */\n export function gt_u(a: v128, b: v128): v128;\n /** Computes which 8-bit signed integer lanes of the first 128-bit vector are greater than or equal those of the second. */\n export function ge_s(a: v128, b: v128): v128;\n /** Computes which 8-bit unsigned integer lanes of the first 128-bit vector are greater than or equal those of the second. */\n export function ge_u(a: v128, b: v128): v128;\n}\n/** Initializes a 128-bit vector from eight 16-bit integer values. Arguments must be compile-time constants. */\ndeclare function i16x8(a: i16, b: i16, c: i16, d: i16, e: i16, f: i16, g: i16, h: i16): v128;\ndeclare namespace i16x8 {\n /** Creates a vector with eight identical 16-bit integer lanes. */\n export function splat(x: i16): v128;\n /** Extracts one 16-bit integer lane from a 128-bit vector as a signed scalar. */\n export function extract_lane_s(x: v128, idx: u8): i16;\n /** Extracts one 16-bit integer lane from a 128-bit vector as an unsigned scalar. */\n export function extract_lane_u(x: v128, idx: u8): u16;\n /** Replaces one 16-bit integer lane in a 128-bit vector. */\n export function replace_lane(x: v128, idx: u8, value: i16): v128;\n /** Adds each 16-bit integer lane of two 128-bit vectors. */\n export function add(a: v128, b: v128): v128;\n /** Subtracts each 16-bit integer lane of two 128-bit vectors. */\n export function sub(a: v128, b: v128): v128;\n /** Multiplies each 16-bit integer lane of two 128-bit vectors. */\n export function mul(a: v128, b: v128): v128;\n /** Negates each 16-bit integer lane of a 128-bit vector. */\n export function neg(a: v128): v128;\n /** Adds each 16-bit integer lane of two 128-bit vectors using signed saturation. */\n export function add_saturate_s(a: v128, b: v128): v128;\n /** Adds each 16-bit integer lane of two 128-bit vectors using unsigned saturation. */\n export function add_saturate_u(a: v128, b: v128): v128;\n /** Subtracts each 16-bit integer lane of two 128-bit vectors using signed saturation. */\n export function sub_saturate_s(a: v128, b: v128): v128;\n /** Subtracts each 16-bit integer lane of two 128-bit vectors using unsigned saturation. */\n export function sub_saturate_u(a: v128, b: v128): v128;\n /** Performs a bitwise left shift on each 16-bit integer lane of a 128-bit vector by a scalar. */\n export function shl(a: v128, b: i32): v128;\n /** Performs a bitwise arithmetic right shift each 16-bit integer lane of a 128-bit vector by a scalar. */\n export function shr_s(a: v128, b: i32): v128;\n /** Performs a bitwise logical right shift on each 16-bit integer lane of a 128-bit vector by a scalar. */\n export function shr_u(a: v128, b: i32): v128;\n /** Reduces a 128-bit vector to a scalar indicating whether any 16-bit integer lane is considered `true`. */\n export function any_true(a: v128): bool;\n /** Reduces a 128-bit vector to a scalar indicating whether all 16-bit integer lanes are considered `true`. */\n export function all_true(a: v128): bool;\n /** Computes which 16-bit integer lanes of two 128-bit vectors are equal. */\n export function eq(a: v128, b: v128): v128;\n /** Computes which 16-bit integer lanes of two 128-bit vectors are not equal. */\n export function ne(a: v128, b: v128): v128;\n /** Computes which 16-bit signed integer lanes of the first 128-bit vector are less than those of the second. */\n export function lt_s(a: v128, b: v128): v128;\n /** Computes which 16-bit unsigned integer lanes of the first 128-bit vector are less than those of the second. */\n export function lt_u(a: v128, b: v128): v128;\n /** Computes which 16-bit signed integer lanes of the first 128-bit vector are less than or equal those of the second. */\n export function le_s(a: v128, b: v128): v128;\n /** Computes which 16-bit unsigned integer lanes of the first 128-bit vector are less than or equal those of the second. */\n export function le_u(a: v128, b: v128): v128;\n /** Computes which 16-bit signed integer lanes of the first 128-bit vector are greater than those of the second. */\n export function gt_s(a: v128, b: v128): v128;\n /** Computes which 16-bit unsigned integer lanes of the first 128-bit vector are greater than those of the second. */\n export function gt_u(a: v128, b: v128): v128;\n /** Computes which 16-bit signed integer lanes of the first 128-bit vector are greater than or equal those of the second. */\n export function ge_s(a: v128, b: v128): v128;\n /** Computes which 16-bit unsigned integer lanes of the first 128-bit vector are greater than or equal those of the second. */\n export function ge_u(a: v128, b: v128): v128;\n}\n/** Initializes a 128-bit vector from four 32-bit integer values. Arguments must be compile-time constants. */\ndeclare function i32x4(a: i32, b: i32, c: i32, d: i32): v128;\ndeclare namespace i32x4 {\n /** Creates a 128-bit vector with four identical 32-bit integer lanes. */\n export function splat(x: i32): v128;\n /** Extracts one 32-bit integer lane from a 128-bit vector as a scalar. */\n export function extract_lane(x: v128, idx: u8): i32;\n /** Replaces one 32-bit integer lane in a 128-bit vector. */\n export function replace_lane(x: v128, idx: u8, value: i32): v128;\n /** Adds each 32-bit integer lane of two 128-bit vectors. */\n export function add(a: v128, b: v128): v128;\n /** Subtracts each 32-bit integer lane of two 128-bit vectors. */\n export function sub(a: v128, b: v128): v128;\n /** Multiplies each 32-bit integer lane of two 128-bit vectors. */\n export function mul(a: v128, b: v128): v128;\n /** Negates each 32-bit integer lane of a 128-bit vector. */\n export function neg(a: v128): v128;\n /** Performs a bitwise left shift on each 32-bit integer lane of a 128-bit vector by a scalar. */\n export function shl(a: v128, b: i32): v128;\n /** Performs a bitwise arithmetic right shift on each 32-bit integer lane of a 128-bit vector by a scalar. */\n export function shr_s(a: v128, b: i32): v128;\n /** Performs a bitwise logical right shift on each 32-bit integer lane of a 128-bit vector by a scalar. */\n export function shr_u(a: v128, b: i32): v128;\n /** Reduces a 128-bit vector to a scalar indicating whether any 32-bit integer lane is considered `true`. */\n export function any_true(a: v128): bool;\n /** Reduces a 128-bit vector to a scalar indicating whether all 32-bit integer lanes are considered `true`. */\n export function all_true(a: v128): bool;\n /** Computes which 32-bit integer lanes of two 128-bit vectors are equal. */\n export function eq(a: v128, b: v128): v128;\n /** Computes which 32-bit integer lanes of two 128-bit vectors are not equal. */\n export function ne(a: v128, b: v128): v128;\n /** Computes which 32-bit signed integer lanes of the first 128-bit vector are less than those of the second. */\n export function lt_s(a: v128, b: v128): v128;\n /** Computes which 32-bit unsigned integer lanes of the first 128-bit vector are less than those of the second. */\n export function lt_u(a: v128, b: v128): v128;\n /** Computes which 32-bit signed integer lanes of the first 128-bit vector are less than or equal those of the second. */\n export function le_s(a: v128, b: v128): v128;\n /** Computes which 32-bit unsigned integer lanes of the first 128-bit vector are less than or equal those of the second. */\n export function le_u(a: v128, b: v128): v128;\n /** Computes which 32-bit signed integer lanes of the first 128-bit vector are greater than those of the second. */\n export function gt_s(a: v128, b: v128): v128;\n /** Computes which 32-bit unsigned integer lanes of the first 128-bit vector are greater than those of the second. */\n export function gt_u(a: v128, b: v128): v128;\n /** Computes which 32-bit signed integer lanes of the first 128-bit vector are greater than or equal those of the second. */\n export function ge_s(a: v128, b: v128): v128;\n /** Computes which 32-bit unsigned integer lanes of the first 128-bit vector are greater than or equal those of the second. */\n export function ge_u(a: v128, b: v128): v128;\n /** Truncates each 32-bit float lane of a 128-bit vector to a signed integer with saturation. */\n export function trunc_s_f32x4_sat(a: v128): v128;\n /** Truncates each 32-bit float lane of a 128-bit vector to an unsigned integer with saturation. */\n export function trunc_u_f32x4_sat(a: v128): v128;\n}\n/** Initializes a 128-bit vector from two 64-bit integer values. Arguments must be compile-time constants. */\ndeclare function i64x2(a: i64, b: i64): v128;\ndeclare namespace i64x2 {\n /** Creates a 128-bit vector with two identical 64-bit integer lanes. */\n export function splat(x: i64): v128;\n /** Extracts one 64-bit integer lane from a 128-bit vector as a scalar. */\n export function extract_lane(x: v128, idx: u8): i64;\n /** Replaces one 64-bit integer lane in a 128-bit vector. */\n export function replace_lane(x: v128, idx: u8, value: i64): v128;\n /** Adds each 64-bit integer lane of two 128-bit vectors. */\n export function add(a: v128, b: v128): v128;\n /** Subtracts each 64-bit integer lane of two 128-bit vectors. */\n export function sub(a: v128, b: v128): v128;\n /** Multiplies each 64-bit integer lane of two 128-bit vectors. */\n export function mul(a: v128, b: v128): v128;\n /** Negates each 64-bit integer lane of a 128-bit vector. */\n export function neg(a: v128): v128;\n /** Performs a bitwise left shift on each 64-bit integer lane of a 128-bit vector by a scalar. */\n export function shl(a: v128, b: i32): v128;\n /** Performs a bitwise arithmetic right shift on each 64-bit integer lane of a 128-bit vector by a scalar. */\n export function shr_s(a: v128, b: i32): v128;\n /** Performs a bitwise logical right shift on each 64-bit integer lane of a 128-bit vector by a scalar. */\n export function shr_u(a: v128, b: i32): v128;\n /** Reduces a 128-bit vector to a scalar indicating whether any 64-bit integer lane is considered `true`. */\n export function any_true(a: v128): bool;\n /** Reduces a 128-bit vector to a scalar indicating whether all 64-bit integer lanes are considered `true`. */\n export function all_true(a: v128): bool;\n /** Truncates each 64-bit float lane of a 128-bit vector to a signed integer with saturation. */\n export function trunc_s_f64x2_sat(a: v128): v128;\n /** Truncates each 64-bit float lane of a 128-bit vector to an unsigned integer with saturation. */\n export function trunc_u_f64x2_sat(a: v128): v128;\n}\n/** Initializes a 128-bit vector from four 32-bit float values. Arguments must be compile-time constants. */\ndeclare function f32x4(a: f32, b: f32, c: f32, d: f32): v128;\ndeclare namespace f32x4 {\n /** Creates a 128-bit vector with four identical 32-bit float lanes. */\n export function splat(x: f32): v128;\n /** Extracts one 32-bit float lane from a 128-bit vector as a scalar. */\n export function extract_lane(x: v128, idx: u8): f32;\n /** Replaces one 32-bit float lane in a 128-bit vector. */\n export function replace_lane(x: v128, idx: u8, value: f32): v128;\n /** Adds each 32-bit float lane of two 128-bit vectors. */\n export function add(a: v128, b: v128): v128;\n /** Subtracts each 32-bit float lane of two 128-bit vectors. */\n export function sub(a: v128, b: v128): v128;\n /** Multiplies each 32-bit float lane of two 128-bit vectors. */\n export function mul(a: v128, b: v128): v128;\n /** Divides each 32-bit float lane of two 128-bit vectors. */\n export function div(a: v128, b: v128): v128;\n /** Negates each 32-bit float lane of a 128-bit vector. */\n export function neg(a: v128): v128;\n /** Computes the minimum of each 32-bit float lane of two 128-bit vectors. */\n export function min(a: v128, b: v128): v128;\n /** Computes the maximum of each 32-bit float lane of two 128-bit vectors. */\n export function max(a: v128, b: v128): v128;\n /** Computes the absolute value of each 32-bit float lane of a 128-bit vector. */\n export function abs(a: v128): v128;\n /** Computes the square root of each 32-bit float lane of a 128-bit vector. */\n export function sqrt(a: v128): v128;\n /** Computes which 32-bit float lanes of two 128-bit vectors are equal. */\n export function eq(a: v128, b: v128): v128;\n /** Computes which 32-bit float lanes of two 128-bit vectors are not equal. */\n export function ne(a: v128, b: v128): v128;\n /** Computes which 32-bit float lanes of the first 128-bit vector are less than those of the second. */\n export function lt(a: v128, b: v128): v128;\n /** Computes which 32-bit float lanes of the first 128-bit vector are less than or equal those of the second. */\n export function le(a: v128, b: v128): v128;\n /** Computes which 32-bit float lanes of the first 128-bit vector are greater than those of the second. */\n export function gt(a: v128, b: v128): v128;\n /** Computes which 32-bit float lanes of the first 128-bit vector are greater than or equal those of the second. */\n export function ge(a: v128, b: v128): v128;\n /** Converts each 32-bit signed integer lane of a 128-bit vector to floating point. */\n export function convert_s_i32x4(a: v128): v128;\n /** Converts each 32-bit unsigned integer lane of a 128-bit vector to floating point. */\n export function convert_u_i32x4(a: v128): v128;\n}\n/** Initializes a 128-bit vector from two 64-bit float values. Arguments must be compile-time constants. */\ndeclare function f64x2(a: f64, b: f64): v128;\ndeclare namespace f64x2 {\n /** Creates a 128-bit vector with two identical 64-bit float lanes. */\n export function splat(x: f64): v128;\n /** Extracts one 64-bit float lane from a 128-bit vector as a scalar. */\n export function extract_lane(x: v128, idx: u8): f64;\n /** Replaces one 64-bit float lane in a 128-bit vector. */\n export function replace_lane(x: v128, idx: u8, value: f64): v128;\n /** Adds each 64-bit float lane of two 128-bit vectors. */\n export function add(a: v128, b: v128): v128;\n /** Subtracts each 64-bit float lane of two 128-bit vectors. */\n export function sub(a: v128, b: v128): v128;\n /** Multiplies each 64-bit float lane of two 128-bit vectors. */\n export function mul(a: v128, b: v128): v128;\n /** Divides each 64-bit float lane of two 128-bit vectors. */\n export function div(a: v128, b: v128): v128;\n /** Negates each 64-bit float lane of a 128-bit vector. */\n export function neg(a: v128): v128;\n /** Computes the minimum of each 64-bit float lane of two 128-bit vectors. */\n export function min(a: v128, b: v128): v128;\n /** Computes the maximum of each 64-bit float lane of two 128-bit vectors. */\n export function max(a: v128, b: v128): v128;\n /** Computes the absolute value of each 64-bit float lane of a 128-bit vector. */\n export function abs(a: v128): v128;\n /** Computes the square root of each 64-bit float lane of a 128-bit vector. */\n export function sqrt(a: v128): v128;\n /** Computes which 64-bit float lanes of two 128-bit vectors are equal. */\n export function eq(a: v128, b: v128): v128;\n /** Computes which 64-bit float lanes of two 128-bit vectors are not equal. */\n export function ne(a: v128, b: v128): v128;\n /** Computes which 64-bit float lanes of the first 128-bit vector are less than those of the second. */\n export function lt(a: v128, b: v128): v128;\n /** Computes which 64-bit float lanes of the first 128-bit vector are less than or equal those of the second. */\n export function le(a: v128, b: v128): v128;\n /** Computes which 64-bit float lanes of the first 128-bit vector are greater than those of the second. */\n export function gt(a: v128, b: v128): v128;\n /** Computes which 64-bit float lanes of the first 128-bit vector are greater than or equal those of the second. */\n export function ge(a: v128, b: v128): v128;\n /** Converts each 64-bit signed integer lane of a 128-bit vector to floating point. */\n export function convert_s_i64x2(a: v128): v128;\n /** Converts each 64-bit unsigned integer lane of a 128-bit vector to floating point. */\n export function convert_u_i64x2(a: v128): v128;\n}\ndeclare namespace v8x16 {\n /** Selects 8-bit lanes from either 128-bit vector according to the specified lane indexes. */\n export function shuffle(a: v128, b: v128, l0: u8, l1: u8, l2: u8, l3: u8, l4: u8, l5: u8, l6: u8, l7: u8, l8: u8, l9: u8, l10: u8, l11: u8, l12: u8, l13: u8, l14: u8, l15: u8): v128;\n}\n/** Macro type evaluating to the underlying native WebAssembly type. */\ndeclare type native = T;\n\n/** Pseudo-class representing the backing class of integer types. */\ndeclare class _Integer {\n /** Smallest representable value. */\n static readonly MIN_VALUE: number;\n /** Largest representable value. */\n static readonly MAX_VALUE: number;\n /** Converts a string to an integer of this type. */\n static parseInt(value: string, radix?: number): number;\n /** Converts this integer to a string. */\n toString(): string;\n}\n\n/** Pseudo-class representing the backing class of floating-point types. */\ndeclare class _Float {\n /** Difference between 1 and the smallest representable value greater than 1. */\n static readonly EPSILON: f32 | f64;\n /** Smallest representable value. */\n static readonly MIN_VALUE: f32 | f64;\n /** Largest representable value. */\n static readonly MAX_VALUE: f32 | f64;\n /** Smallest safely representable integer value. */\n static readonly MIN_SAFE_INTEGER: f32 | f64;\n /** Largest safely representable integer value. */\n static readonly MAX_SAFE_INTEGER: f32 | f64;\n /** Value representing positive infinity. */\n static readonly POSITIVE_INFINITY: f32 | f64;\n /** Value representing negative infinity. */\n static readonly NEGATIVE_INFINITY: f32 | f64;\n /** Value representing \'not a number\'. */\n static readonly NaN: f32 | f64;\n /** Returns a boolean value that indicates whether a value is the reserved value NaN (not a number). */\n static isNaN(value: f32 | f64): bool;\n /** Returns true if passed value is finite. */\n static isFinite(value: f32 | f64): bool;\n /** Returns true if the value passed is a safe integer. */\n static isSafeInteger(value: f32 | f64): bool;\n /** Returns true if the value passed is an integer, false otherwise. */\n static isInteger(value: f32 | f64): bool;\n /** Converts a string to an integer. */\n static parseInt(value: string, radix?: i32): f32 | f64;\n /** Converts a string to a floating-point number. */\n static parseFloat(value: string): f32 | f64;\n /** Converts this floating-point number to a string. */\n toString(this: f64): string;\n}\n\n/** Backing class of signed 8-bit integers. */\ndeclare const I8: typeof _Integer;\n/** Backing class of signed 16-bit integers. */\ndeclare const I16: typeof _Integer;\n/** Backing class of signed 32-bit integers. */\ndeclare const I32: typeof _Integer;\n/** Backing class of signed 64-bit integers. */\ndeclare const I64: typeof _Integer;\n/** Backing class of signed size integers. */\ndeclare const Isize: typeof _Integer;\n/** Backing class of unsigned 8-bit integers. */\ndeclare const U8: typeof _Integer;\n/** Backing class of unsigned 16-bit integers. */\ndeclare const U16: typeof _Integer;\n/** Backing class of unsigned 32-bit integers. */\ndeclare const U32: typeof _Integer;\n/** Backing class of unsigned 64-bit integers. */\ndeclare const U64: typeof _Integer;\n/** Backing class of unsigned size integers. */\ndeclare const Usize: typeof _Integer;\n/** Backing class of 32-bit floating-point values. */\ndeclare const F32: typeof _Float;\n/** Backing class of 64-bit floating-point values. */\ndeclare const F64: typeof _Float;\n\n// User-defined diagnostic macros\n\n/** Emits a user-defined diagnostic error when encountered. */\ndeclare function ERROR(message?: any): void;\n/** Emits a user-defined diagnostic warning when encountered. */\ndeclare function WARNING(message?: any): void;\n/** Emits a user-defined diagnostic info when encountered. */\ndeclare function INFO(message?: any): void;\n\n// Polyfills\n\n/** Performs the sign-agnostic reverse bytes **/\ndeclare function bswap(value: T): T;\n/** Performs the sign-agnostic reverse bytes only for last 16-bit **/\ndeclare function bswap16(value: T): T;\n\n// Standard library\n\n/** Memory operations. */\ndeclare namespace memory {\n /** Returns the current memory size in units of pages. One page is 64kb. */\n export function size(): i32;\n /** Grows linear memory by a given unsigned delta of pages. One page is 64kb. Returns the previous memory size in units of pages or `-1` on failure. */\n export function grow(value: i32): i32;\n /** Sets n bytes beginning at the specified destination in memory to the specified byte value. */\n export function fill(dst: usize, value: u8, count: usize): void;\n /** Copies n bytes from the specified source to the specified destination in memory. These regions may overlap. */\n export function copy(dst: usize, src: usize, n: usize): void;\n /** Copies elements from a passive element segment to a table. */\n // export function init(segmentIndex: u32, srcOffset: usize, dstOffset: usize, n: usize): void;\n /** Prevents further use of a passive element segment. */\n // export function drop(segmentIndex: u32): void;\n /** Copies elements from one region of a table to another region. */\n export function allocate(size: usize): usize;\n /** Disposes a chunk of memory by its pointer. */\n export function free(ptr: usize): void;\n /** Compares two chunks of memory. Returns `0` if equal, otherwise the difference of the first differing bytes. */\n export function compare(vl: usize, vr: usize, n: usize): i32;\n /** Resets the allocator to its initial state, if supported. */\n export function reset(): void;\n}\n\n/** Garbage collector operations. */\ndeclare namespace gc {\n /** Allocates a managed object identified by its visitor function. */\n export function allocate(size: usize, visitFn: (ref: usize) => void): usize;\n /** Performs a full garbage collection cycle. */\n export function collect(): void;\n}\n\n/** Table operations. */\ndeclare namespace table {\n /** Copies elements from a passive element segment to a table. */\n // export function init(elementIndex: u32, srcOffset: u32, dstOffset: u32, n: u32): void;\n /** Prevents further use of a passive element segment. */\n // export function drop(elementIndex: u32): void;\n /** Copies elements from one region of a table to another region. */\n // export function copy(dest: u32, src: u32, n: u32): void;\n}\n\n/** Class representing a generic, fixed-length raw binary data buffer. */\ndeclare class ArrayBuffer {\n /** The size, in bytes, of the array. */\n readonly byteLength: i32;\n /** Unsafe pointer to the start of the data in memory. */\n readonly data: usize;\n /** Returns true if value is one of the ArrayBuffer views, such as typed array or a DataView **/\n static isView(value: T): bool;\n /** Constructs a new array buffer of the given length in bytes. */\n constructor(length: i32, unsafe?: bool);\n /** Returns a copy of this array buffer\'s bytes from begin, inclusive, up to end, exclusive. */\n slice(begin?: i32, end?: i32): ArrayBuffer;\n /** Returns a string representation of ArrayBuffer. */\n toString(): string;\n}\n\n/** The `DataView` view provides a low-level interface for reading and writing multiple number types in a binary `ArrayBuffer`, without having to care about the platform\'s endianness. */\ndeclare class DataView {\n /** The `buffer` accessor property represents the `ArrayBuffer` or `SharedArrayBuffer` referenced by the `DataView` at construction time. */\n readonly buffer: ArrayBuffer;\n /** The `byteLength` accessor property represents the length (in bytes) of this view from the start of its `ArrayBuffer` or `SharedArrayBuffer`. */\n readonly byteLength: i32;\n /** The `byteOffset` accessor property represents the offset (in bytes) of this view from the start of its `ArrayBuffer` or `SharedArrayBuffer`. */\n readonly byteOffset: i32;\n /** Constructs a new `DataView` with the given properties */\n constructor(buffer: ArrayBuffer, byteOffset?: i32, byteLength?: i32);\n /** The `getFloat32()` method gets a signed 32-bit float (float) at the specified byte offset from the start of the `DataView`. */\n getFloat32(byteOffset: i32, littleEndian?: boolean): f32;\n /** The `getFloat64()` method gets a signed 64-bit float (double) at the specified byte offset from the start of the `DataView`. */\n getFloat64(byteOffset: i32, littleEndian?: boolean): f64;\n /** The `getInt8()` method gets a signed 8-bit integer (byte) at the specified byte offset from the start of the `DataView`. */\n getInt8(byteOffset: i32): i8;\n /** The `getInt16()` method gets a signed 16-bit integer (short) at the specified byte offset from the start of the `DataView`. */\n getInt16(byteOffset: i32, littleEndian?: boolean): i16;\n /** The `getInt32()` method gets a signed 32-bit integer (long) at the specified byte offset from the start of the `DataView`. */\n getInt32(byteOffset: i32, littleEndian?: boolean): i32;\n /** The `getInt64()` method gets a signed 64-bit integer (long long) at the specified byte offset from the start of the `DataView`. */\n getInt64(byteOffset: i32, littleEndian?: boolean): i64;\n /** The `getUint8()` method gets an unsigned 8-bit integer (unsigned byte) at the specified byte offset from the start of the `DataView`. */\n getUint8(byteOffset: i32): u8;\n /** The `getUint16()` method gets an unsigned 16-bit integer (unsigned short) at the specified byte offset from the start of the `DataView`. */\n getUint16(byteOffset: i32, littleEndian?: boolean): u16;\n /** The `getUint32()` method gets an unsigned 32-bit integer (unsigned long) at the specified byte offset from the start of the `DataView`. */\n getUint32(byteOffset: i32, littleEndian?: boolean): u32;\n /** The `getUint64()` method gets an unsigned 64-bit integer (unsigned long long) at the specified byte offset from the start of the `DataView`. */\n getUint64(byteOffset: i32, littleEndian?: boolean): u64;\n /** The `setFloat32()` method stores a signed 32-bit float (float) value at the specified byte offset from the start of the `DataView`. */\n setFloat32(byteOffset: i32, value: f32, littleEndian?: boolean): void;\n /** The `setFloat64()` method stores a signed 64-bit float (double) value at the specified byte offset from the start of the `DataView`. */\n setFloat64(byteOffset: i32, value: f64, littleEndian?: boolean): void;\n /** The `setInt8()` method stores a signed 8-bit integer (byte) value at the specified byte offset from the start of the `DataView`. */\n setInt8(byteOffset: i32, value: i8): void;\n /** The `setInt16()` method stores a signed 16-bit integer (short) value at the specified byte offset from the start of the `DataView`. */\n setInt16(byteOffset: i32, value: i16, littleEndian?: boolean): void;\n /** The `setInt32()` method stores a signed 32-bit integer (long) value at the specified byte offset from the start of the `DataView`. */\n setInt32(byteOffset: i32, value: i32, littleEndian?: boolean): void;\n /** The `setInt64()` method stores a signed 64-bit integer (long long) value at the specified byte offset from the start of the `DataView`. */\n setInt64(byteOffset: i32, value: i64, littleEndian?: boolean): void;\n /** The `setUint8()` method stores an unsigned 8-bit integer (byte) value at the specified byte offset from the start of the `DataView`. */\n setUint8(byteOffset: i32, value: u8): void;\n /** The `setUint16()` method stores an unsigned 16-bit integer (unsigned short) value at the specified byte offset from the start of the `DataView`. */\n setUint16(byteOffset: i32, value: u16, littleEndian?: boolean): void;\n /** The `setUint32()` method stores an unsigned 32-bit integer (unsigned long) value at the specified byte offset from the start of the `DataView`. */\n setUint32(byteOffset: i32, value: u32, littleEndian?: boolean): void;\n /** The `setUint64()` method stores an unsigned 64-bit integer (unsigned long long) value at the specified byte offset from the start of the `DataView`. */\n setUint64(byteOffset: i32, value: u64, littleEndian?: boolean): void;\n /** Returns a string representation of DataView. */\n toString(): string;\n}\n\ninterface ArrayLike {\n length: i32;\n // [key: number]: T;\n}\n\n/** Interface for a typed view on an array buffer. */\ninterface ArrayBufferView {\n [key: number]: T;\n /** The {@link ArrayBuffer} referenced by this view. */\n readonly buffer: ArrayBuffer;\n /** The offset in bytes from the start of the referenced {@link ArrayBuffer}. */\n readonly byteOffset: i32;\n /** The length in bytes from the start of the referenced {@link ArrayBuffer}. */\n readonly byteLength: i32;\n}\n\n/* @internal */\ndeclare abstract class TypedArray implements ArrayBufferView {\n [key: number]: T;\n /** Number of bytes per element. */\n static readonly BYTES_PER_ELEMENT: usize;\n /** Constructs a new typed array. */\n constructor(length: i32);\n /** The {@link ArrayBuffer} referenced by this view. */\n readonly buffer: ArrayBuffer;\n /** The offset in bytes from the start of the referenced {@link ArrayBuffer}. */\n readonly byteOffset: i32;\n /** The length in bytes from the start of the referenced {@link ArrayBuffer}. */\n readonly byteLength: i32;\n /** The length (in elements). */\n readonly length: i32;\n /** Returns a new TypedArray of this type on the same ArrayBuffer from begin inclusive to end exclusive. */\n subarray(begin?: i32, end?: i32): this;\n /** The reduce() method applies a function against an accumulator and each value of the typed array (from left-to-right) has to reduce it to a single value. This method has the same algorithm as Array.prototype.reduce(). */\n reduce(\n callbackfn: (accumulator: W, value: T, index: i32, self: this) => W,\n initialValue: W,\n ): W;\n /** The reduceRight() method applies a function against an accumulator and each value of the typed array (from left-to-right) has to reduce it to a single value, starting from the end of the array. This method has the same algorithm as Array.prototype.reduceRight(). */\n reduceRight(\n callbackfn: (accumulator: W, value: T, index: i32, self: this) => W,\n initialValue: W,\n ): W;\n /** The some() method tests whether some element in the typed array passes the test implemented by the provided function. This method has the same algorithm as Array.prototype.some().*/\n some(callbackfn: (value: T, index: i32, self: this) => bool): bool;\n /** The map() method creates a new typed array with the results of calling a provided function on every element in this typed array. This method has the same algorithm as Array.prototype.map().*/\n map(callbackfn: (value: T, index: i32, self: this) => T): this;\n /** The sort() method sorts the elements of a typed array numerically in place and returns the typed array. This method has the same algorithm as Array.prototype.sort(), except that sorts the values numerically instead of as strings. TypedArray is one of the typed array types here. */\n sort(callback?: (a: T, b: T) => i32): this;\n /** The fill() method fills all the elements of a typed array from a start index to an end index with a static value. This method has the same algorithm as Array.prototype.fill(). */\n fill(value: T, start?: i32, end?: i32): this;\n /** The findIndex() method returns an index in the typed array, if an element in the typed array satisfies the provided testing function. Otherwise -1 is returned. See also the find() [not implemented] method, which returns the value of a found element in the typed array instead of its index. */\n findIndex(callbackfn: (value: T, index: i32, self: this) => bool): i32;\n /** The every() method tests whether all elements in the typed array pass the test implemented by the provided function. This method has the same algorithm as Array.prototype.every(). */\n every(callbackfn: (value: T, index: i32, self: this) => bool): i32;\n}\n\n/** An array of twos-complement 8-bit signed integers. */\ndeclare class Int8Array extends TypedArray {}\n/** An array of 8-bit unsigned integers. */\ndeclare class Uint8Array extends TypedArray {}\n/** A clamped array of 8-bit unsigned integers. */\ndeclare class Uint8ClampedArray extends TypedArray {}\n/** An array of twos-complement 16-bit signed integers. */\ndeclare class Int16Array extends TypedArray {}\n/** An array of 16-bit unsigned integers. */\ndeclare class Uint16Array extends TypedArray {}\n/** An array of twos-complement 32-bit signed integers. */\ndeclare class Int32Array extends TypedArray {}\n/** An array of 32-bit unsigned integers. */\ndeclare class Uint32Array extends TypedArray {}\n/** An array of twos-complement 64-bit signed integers. */\ndeclare class Int64Array extends TypedArray {}\n/** An array of 64-bit unsigned integers. */\ndeclare class Uint64Array extends TypedArray {}\n/** An array of 32-bit floating point numbers. */\ndeclare class Float32Array extends TypedArray {}\n/** An array of 64-bit floating point numbers. */\ndeclare class Float64Array extends TypedArray {}\n\n/** Class representing a sequence of values of type `T`. */\ndeclare class Array {\n\n static isArray(value: any): value is Array;\n\n [key: number]: T;\n /** Current length of the array. */\n length: i32;\n /** Constructs a new array. */\n constructor(capacity?: i32);\n\n fill(value: T, start?: i32, end?: i32): this;\n every(callbackfn: (element: T, index: i32, array?: Array) => bool): bool;\n findIndex(predicate: (element: T, index: i32, array?: Array) => bool): i32;\n includes(searchElement: T, fromIndex?: i32): bool;\n indexOf(searchElement: T, fromIndex?: i32): i32;\n lastIndexOf(searchElement: T, fromIndex?: i32): i32;\n push(element: T): i32;\n concat(items: T[]): T[];\n copyWithin(target: i32, start: i32, end?: i32): this;\n pop(): T;\n forEach(callbackfn: (value: T, index: i32, array: Array) => void): void;\n map(callbackfn: (value: T, index: i32, array: Array) => U): Array;\n filter(callbackfn: (value: T, index: i32, array: Array) => bool): Array;\n reduce(callbackfn: (previousValue: U, currentValue: T, currentIndex: i32, array: Array) => U, initialValue: U): U;\n reduceRight(callbackfn: (previousValue: U, currentValue: T, currentIndex: i32, array: Array) => U, initialValue: U): U;\n shift(): T;\n some(callbackfn: (element: T, index: i32, array?: Array) => bool): bool;\n unshift(element: T): i32;\n slice(from: i32, to?: i32): Array;\n splice(start: i32, deleteCount?: i32): Array;\n sort(comparator?: (a: T, b: T) => i32): this;\n join(separator?: string): string;\n reverse(): T[];\n toString(): string;\n}\n\n/** Class representing a sequence of characters. */\ndeclare class String {\n\n static fromCharCode(ls: i32, hs?: i32): string;\n static fromCharCodes(arr: u16[]): string;\n static fromCodePoint(code: i32): string;\n static fromCodePoints(arr: i32[]): string;\n\n readonly length: i32;\n readonly lengthUTF8: i32;\n\n charAt(index: u32): string;\n charCodeAt(index: u32): u16;\n concat(other: string): string;\n endsWith(other: string): bool;\n indexOf(other: string, fromIndex?: i32): u32;\n lastIndexOf(other: string, fromIndex?: i32): i32;\n includes(other: string): bool;\n startsWith(other: string): bool;\n substr(start: u32, length?: u32): string;\n substring(start: u32, end?: u32): string;\n trim(): string;\n trimLeft(): string;\n trimRight(): string;\n trimStart(): string;\n trimEnd(): string;\n padStart(targetLength: i32, padString?: string): string;\n padEnd(targetLength: i32, padString?: string): string;\n repeat(count?: i32): string;\n slice(beginIndex: i32, endIndex?: i32): string;\n split(separator?: string, limit?: i32): string[];\n toString(): string;\n static fromUTF8(ptr: usize, len: usize): string;\n toUTF8(): usize;\n}\n\n/** Class for representing a runtime error. Base class of all errors. */\ndeclare class Error {\n\n /** Error name. */\n name: string;\n\n /** Message provided on construction. */\n message: string;\n\n /** Stack trace. */\n stack?: string;\n\n /** Constructs a new error, optionally with a message. */\n constructor(message?: string);\n\n /** Method returns a string representing the specified Error class. */\n toString(): string;\n}\n\n/** Class for indicating an error when a value is not in the set or range of allowed values. */\ndeclare class RangeError extends Error { }\n\n/** Class for indicating an error when a value is not of the expected type. */\ndeclare class TypeError extends Error { }\n\n/** Class for indicating an error when trying to interpret syntactically invalid code. */\ndeclare class SyntaxError extends Error { }\n\ninterface Boolean {}\ninterface Function {}\ninterface IArguments {}\ninterface Number {}\ninterface Object {}\ninterface RegExp {}\n\ndeclare class Map {\n readonly size: i32;\n has(key: K): bool;\n set(key: K, value: V): void;\n get(key: K): V;\n delete(key: K): bool;\n clear(): void;\n toString(): string;\n}\n\ndeclare class Set {\n readonly size: i32;\n has(value: T): bool;\n add(value: T): void;\n delete(value: T): bool;\n clear(): void;\n toString(): string;\n}\n\ninterface SymbolConstructor {\n readonly hasInstance: symbol;\n readonly isConcatSpreadable: symbol;\n readonly isRegExp: symbol;\n readonly iterator: symbol;\n readonly match: symbol;\n readonly replace: symbol;\n readonly search: symbol;\n readonly species: symbol;\n readonly split: symbol;\n readonly toPrimitive: symbol;\n readonly toStringTag: symbol;\n readonly unscopables: symbol;\n (description?: string | null): symbol;\n for(key: string): symbol;\n keyFor(sym: symbol): string | null;\n}\n\ndeclare const Symbol: SymbolConstructor;\n\ninterface IMath {\n /** The base of natural logarithms, e, approximately 2.718. */\n readonly E: T;\n /** The natural logarithm of 2, approximately 0.693. */\n readonly LN2: T;\n /** The natural logarithm of 10, approximately 2.302. */\n readonly LN10: T;\n /** The base 2 logarithm of e, approximately 1.442. */\n readonly LOG2E: T;\n /** The base 10 logarithm of e, approximately 0.434. */\n readonly LOG10E: T;\n /** The ratio of the circumference of a circle to its diameter, approximately 3.14159. */\n readonly PI: T;\n /** The square root of 1/2, approximately 0.707. */\n readonly SQRT1_2: T;\n /** The square root of 2, approximately 1.414. */\n readonly SQRT2: T;\n /** Returns the absolute value of `x`. */\n abs(x: T): T;\n /** Returns the arccosine (in radians) of `x`. */\n acos(x: T): T;\n /** Returns the hyperbolic arc-cosine of `x`. */\n acosh(x: T): T;\n /** Returns the arcsine (in radians) of `x` */\n asin(x: T): T;\n /** Returns the hyperbolic arcsine of `x`. */\n asinh(x: T): T;\n /** Returns the arctangent (in radians) of `x`. */\n atan(x: T): T;\n /** Returns the arctangent of the quotient of its arguments. */\n atan2(y: T, x: T): T;\n /** Returns the hyperbolic arctangent of `x`. */\n atanh(x: T): T;\n /** Returns the cube root of `x`. */\n cbrt(x: T): T;\n /** Returns the smallest integer greater than or equal to `x`. */\n ceil(x: T): T;\n /** Returns the number of leading zero bits in the 32-bit binary representation of `x`. */\n clz32(x: T): T;\n /** Returns the cosine (in radians) of `x`. */\n cos(x: T): T;\n /** Returns the hyperbolic cosine of `x`. */\n cosh(x: T): T;\n /** Returns e to the power of `x`. */\n exp(x: T): T;\n /** Returns e to the power of `x`, minus 1. */\n expm1(x: T): T;\n /** Returns the largest integer less than or equal to `x`. */\n floor(x: T): T;\n /** Returns the nearest 32-bit single precision float representation of `x`. */\n fround(x: T): f32;\n /** Returns the square root of the sum of squares of its arguments. */\n hypot(value1: T, value2: T): T; // TODO: rest\n /** Returns the result of the C-like 32-bit multiplication of `a` and `b`. */\n imul(a: T, b: T): T;\n /** Returns the natural logarithm (base e) of `x`. */\n log(x: T): T;\n /** Returns the base 10 logarithm of `x`. */\n log10(x: T): T;\n /** Returns the natural logarithm (base e) of 1 + `x`. */\n log1p(x: T): T;\n /** Returns the base 2 logarithm of `x`. */\n log2(x: T): T;\n /** Returns the largest-valued number of its arguments. */\n max(value1: T, value2: T): T; // TODO: rest\n /** Returns the lowest-valued number of its arguments. */\n min(value1: T, value2: T): T; // TODO: rest\n /** Returns `base` to the power of `exponent`. */\n pow(base: T, exponent: T): T;\n /** Returns a pseudo-random number in the range from 0.0 inclusive up to but not including 1.0. */\n random(): T;\n /** Returns the value of `x` rounded to the nearest integer. */\n round(x: T): T;\n /** Returns the sign of `x`, indicating whether the number is positive, negative or zero. */\n sign(x: T): T;\n /** Returns whether the sign bit of `x` is set */\n signbit(x: T): bool;\n /** Returns the sine of `x`. */\n sin(x: T): T;\n /** Returns the hyperbolic sine of `x`. */\n sinh(x: T): T;\n /** Returns the square root of `x`. */\n sqrt(x: T): T;\n /** Returns the tangent of `x`. */\n tan(x: T): T;\n /** Returns the hyperbolic tangent of `x`. */\n tanh(x: T): T;\n /** Returns the integer part of `x` by removing any fractional digits. */\n trunc(x: T): T;\n}\n\ninterface INativeMath extends IMath {\n /** Seeds the random number generator. */\n seedRandom(value: i64): void;\n /** Returns the floating-point remainder of `x / y` (rounded towards zero). */\n mod(x: T, y: T): T;\n /** Returns the floating-point remainder of `x / y` (rounded to nearest). */\n rem(x: T, y: T): T;\n}\n\n/** Double precision math imported from JavaScript. */\ndeclare const JSMath: IMath;\n/** Double precision math implemented natively. */\ndeclare const NativeMath: INativeMath;\n/** Single precision math implemented natively. */\ndeclare const NativeMathf: INativeMath;\n/** Alias of {@link NativeMath} or {@link JSMath} respectively. Defaults to `NativeMath`. */\ndeclare const Math: IMath;\n/** Alias of {@link NativeMathf} or {@link JSMath} respectively. Defaults to `NativeMathf`. */\ndeclare const Mathf: IMath;\n\ndeclare class Date {\n /** Returns the UTC timestamp in milliseconds of the specified date. */\n static UTC(\n year: i32,\n month: i32,\n day: i32,\n hour: i32,\n minute: i32,\n second: i32,\n millisecond: i32\n ): i64;\n /** Returns the current UTC timestamp in milliseconds. */\n static now(): i64;\n /** Constructs a new date object from an UTC timestamp in milliseconds. */\n constructor(value: i64);\n /** Returns the UTC timestamp of this date in milliseconds. */\n getTime(): i64;\n /** Sets the UTC timestamp of this date in milliseconds. */\n setTime(value: i64): i64;\n}\n\n/** Environmental tracing function for debugging purposes. */\ndeclare function trace(msg: string, n?: i32, a0?: f64, a1?: f64, a2?: f64, a3?: f64, a4?: f64): void;\n\n// Decorators\n\ninterface TypedPropertyDescriptor {\n configurable?: boolean;\n enumerable?: boolean;\n writable?: boolean;\n value?: T;\n get?(): T;\n set?(value: T): void;\n}\n\n/** Annotates an element as a program global. */\ndeclare function global(\n target: any,\n propertyKey: string,\n descriptor: TypedPropertyDescriptor\n): TypedPropertyDescriptor | void;\n\n/** Annotates a method as a binary operator overload for the specified `token`. */\ndeclare function operator(token:\n "[]" | "[]=" | "{}" | "{}=" | "==" | "!=" | ">" | "<" | "<=" | ">=" |\n ">>" | ">>>" | "<<" | "&" | "|" | "^" | "+" | "-" | "*" | "**" | "/" | "%"\n): (\n target: any,\n propertyKey: string,\n descriptor: TypedPropertyDescriptor\n) => TypedPropertyDescriptor | void;\n\ndeclare namespace operator {\n /** Annotates a method as a binary operator overload for the specified `token`. */\n export function binary(token:\n "[]" | "[]=" | "{}" | "{}=" | "==" | "!=" | ">" | "<" | "<=" | ">=" |\n ">>" | ">>>" | "<<" | "&" | "|" | "^" | "+" | "-" | "*" | "**" | "/" | "%"\n ): (\n target: any,\n propertyKey: string,\n descriptor: TypedPropertyDescriptor\n ) => TypedPropertyDescriptor | void;\n /** Annotates a method as an unary prefix operator overload for the specified `token`. */\n export function prefix(token: "!" | "~" | "+" | "-" | "++" | "--"): (\n target: any,\n propertyKey: string,\n descriptor: TypedPropertyDescriptor\n ) => TypedPropertyDescriptor | void;\n /** Annotates a method as an unary postfix operator overload for the specified `token`. */\n export function postfix(token: "++" | "--"): (\n target: any,\n propertyKey: string,\n descriptor: TypedPropertyDescriptor\n ) => TypedPropertyDescriptor | void;\n}\n\n/** Annotates a class as being unmanaged with limited capabilities. */\ndeclare function unmanaged(constructor: Function): void;\n\n/** Annotates a class as being sealed / non-derivable. */\ndeclare function sealed(constructor: Function): void;\n\n/** Annotates a method, function or constant global as always inlined. */\ndeclare function inline(\n target: any,\n propertyKey: string,\n descriptor: TypedPropertyDescriptor\n): TypedPropertyDescriptor | void;\n\n/** Annotates an explicit external name of a function or global. */\ndeclare function external(namespace: string, name: string): (\n target: any,\n propertyKey: string,\n descriptor: TypedPropertyDescriptor\n) => TypedPropertyDescriptor | void;\n\n/** Annotates a global for lazy compilation. */\ndeclare function lazy(\n target: any,\n propertyKey: string,\n descriptor: TypedPropertyDescriptor\n): TypedPropertyDescriptor | void;\n\n/** Annotates a function as the explicit start function. */\ndeclare function start(\n target: any,\n propertyKey: string,\n descriptor: TypedPropertyDescriptor\n): TypedPropertyDescriptor | void;\n',portable:"/**\n * Environment definitions for compiling AssemblyScript to JavaScript using tsc.\n *\n * Note that semantic differences require additional explicit conversions for full compatibility.\n * For example, when casting an i32 to an u8, doing `(someI32 & 0xff)` will yield the same\n * result when compiling to WebAssembly or JS while `someI32` alone does nothing in JS.\n *\n * Note that i64's are not portable (JS numbers are IEEE754 doubles with a maximum safe integer\n * value of 2^53-1) and instead require a compatibility layer to work in JS as well, as for example\n * {@link glue/js/i64} respectively {@link glue/wasm/i64}.\n *\n * @module std/portable\n *//***/\n\n/// \n\n// Types\n\ndeclare type bool = boolean;\ndeclare type i8 = number;\ndeclare type i16 = number;\ndeclare type i32 = number;\ndeclare type isize = number;\ndeclare type u8 = number;\ndeclare type u16 = number;\ndeclare type u32 = number;\ndeclare type usize = number;\ndeclare type f32 = number;\ndeclare type f64 = number;\n\n// Compiler hints\n\n/** Compiler target. 0 = JS, 1 = WASM32, 2 = WASM64. */\ndeclare const ASC_TARGET: i32;\n/** Provided noAssert option. */\ndeclare const ASC_NO_ASSERT: bool;\n/** Provided memoryBase option. */\ndeclare const ASC_MEMORY_BASE: i32;\n/** Provided optimizeLevel option. */\ndeclare const ASC_OPTIMIZE_LEVEL: i32;\n/** Provided shrinkLevel option. */\ndeclare const ASC_SHRINK_LEVEL: i32;\n/** Whether the mutable global feature is enabled. */\ndeclare const ASC_FEATURE_MUTABLE_GLOBAL: bool;\n/** Whether the sign extension feature is enabled. */\ndeclare const ASC_FEATURE_SIGN_EXTENSION: bool;\n\n// Builtins\n\n/** Performs the sign-agnostic count leading zero bits operation on a 32-bit integer. All zero bits are considered leading if the value is zero. */\ndeclare function clz(value: T): T;\n/** Performs the sign-agnostic count tailing zero bits operation on a 32-bit integer. All zero bits are considered trailing if the value is zero. */\ndeclare function ctz(value: T): T;\n/** Performs the sign-agnostic count number of one bits operation on a 32-bit integer. */\ndeclare function popcnt(value: T): T;\n/** Performs the sign-agnostic rotate left operation on a 32-bit integer. */\ndeclare function rotl(value: T, shift: T): T;\n/** Performs the sign-agnostic rotate right operation on a 32-bit integer. */\ndeclare function rotr(value: T, shift: T): T;\n/** Computes the absolute value of an integer or float. */\ndeclare function abs(value: T): T;\n/** Determines the maximum of two integers or floats. If either operand is `NaN`, returns `NaN`. */\ndeclare function max(left: T, right: T): T;\n/** Determines the minimum of two integers or floats. If either operand is `NaN`, returns `NaN`. */\ndeclare function min(left: T, right: T): T;\n/** Composes a 32-bit or 64-bit float from the magnitude of `x` and the sign of `y`. */\ndeclare function copysign(x: T, y: T): T;\n/** Performs the ceiling operation on a 32-bit or 64-bit float. */\ndeclare function ceil(value: T): T;\n/** Performs the floor operation on a 32-bit or 64-bit float. */\ndeclare function floor(value: T): T;\n/** Rounds to the nearest integer tied to even of a 32-bit or 64-bit float. */\ndeclare function nearest(value: T): T;\n/** Selects one of two pre-evaluated values depending on the condition. */\ndeclare function select(ifTrue: T, ifFalse: T, condition: bool): T;\n/** Calculates the square root of a 32-bit or 64-bit float. */\ndeclare function sqrt(value: T): T;\n/** Rounds to the nearest integer towards zero of a 32-bit or 64-bit float. */\ndeclare function trunc(value: T): T;\n/** Loads a value of the specified type from memory. Type must be `u8`. */\ndeclare function load(ptr: usize, constantOffset?: usize): T;\n/** Stores a value of the specified type to memory. Type must be `u8`. */\ndeclare function store(ptr: usize, value: T, constantOffset?: usize): void;\n/** Emits an unreachable operation that results in a runtime error when executed. */\ndeclare function unreachable(): any; // sic\n\n/** NaN (not a number) as a 32-bit or 64-bit float depending on context. */\ndeclare const NaN: f32 | f64;\n/** Positive infinity as a 32-bit or 64-bit float depending on context. */\ndeclare const Infinity: f32 | f64;\n/** Changes the type of any value of `usize` kind to another one of `usize` kind. Useful for casting class instances to their pointer values and vice-versa. Beware that this is unsafe.*/\ndeclare function changetype(value: any): T;\n/** Explicitly requests no bounds checks on the provided expression. Useful for array accesses. */\ndeclare function unchecked(value: T): T;\n/** Tests if a 32-bit or 64-bit float is `NaN`. */\ndeclare function isNaN(value: T): bool;\n/** Tests if a 32-bit or 64-bit float is finite, that is not `NaN` or +/-`Infinity`. */\ndeclare function isFinite(value: T): bool;\n/** Tests if the specified value is a valid integer. Can't distinguish an integer from an integral float. */\ndeclare function isInteger(value: any): value is number;\n/** Tests if the specified value is a valid float. Can't distinguish a float from an integer. */\ndeclare function isFloat(value: any): value is number;\n/** Tests if the specified value is of a reference type. */\ndeclare function isReference(value: any): value is object | string;\n/** Tests if the specified value can be used as a string. */\ndeclare function isString(value: any): value is string | String;\n/** Tests if the specified value can be used as an array. */\ndeclare function isArray(value: any): value is Array;\n/** Tests if the specified type *or* expression can be used as an array like object. Compiles to a constant. */\ndeclare function isArrayLike(value: any): value is ArrayLike;\n/** Tests if the specified expression resolves to a defined element. */\ndeclare function isDefined(expression: any): bool;\n/** Tests if the specified expression evaluates to a constant value. */\ndeclare function isConstant(expression: any): bool;\n/** Traps if the specified value is not true-ish, otherwise returns the value. */\ndeclare function assert(isTrueish: T | null, message?: string): T;\n/** Parses an integer string to a 64-bit float. */\ndeclare function parseInt(str: string, radix?: i32): f64;\n/** Parses an integer string to a 32-bit integer. */\ndeclare function parseI32(str: string, radix?: i32): i32;\n/** Parses a floating point string to a 64-bit float. */\ndeclare function parseFloat(str: string): f64;\n/** Returns the 64-bit floating-point remainder of `x/y`. */\ndeclare function fmod(x: f64, y: f64): f64;\n/** Returns the 32-bit floating-point remainder of `x/y`. */\ndeclare function fmodf(x: f32, y: f32): f32;\n\n/** Converts any other numeric value to an 8-bit signed integer. */\ndeclare function i8(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): i8;\ndeclare namespace i8 {\n /** Smallest representable value. */\n export const MIN_VALUE: i8;\n /** Largest representable value. */\n export const MAX_VALUE: i8;\n /** Converts a string to a floating-point number and cast to target integer after. */\n export function parseFloat(string: string): i8;\n /** Converts A string to an integer. */\n export function parseInt(string: string, radix?: i32): i8;\n}\n/** Converts any other numeric value to a 16-bit signed integer. */\ndeclare function i16(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): i8;\ndeclare namespace i16 {\n /** Smallest representable value. */\n export const MIN_VALUE: i16;\n /** Largest representable value. */\n export const MAX_VALUE: i16;\n /** Converts a string to a floating-point number and cast to target integer after. */\n export function parseFloat(string: string): i16;\n /** Converts A string to an integer. */\n export function parseInt(string: string, radix?: i32): i16;\n}\n/** Converts any other numeric value to a 32-bit signed integer. */\ndeclare function i32(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): i32;\ndeclare namespace i32 {\n /** Smallest representable value. */\n export const MIN_VALUE: i32;\n /** Largest representable value. */\n export const MAX_VALUE: i32;\n /** Converts a string to a floating-point number and cast to target integer after. */\n export function parseFloat(string: string): i32;\n /** Converts A string to an integer. */\n export function parseInt(string: string, radix?: i32): i32;\n}\n/** Converts any other numeric value to a 32-bit (in WASM32) respectivel 64-bit (in WASM64) signed integer. */\ndeclare function isize(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): isize;\ndeclare namespace isize {\n /** Smallest representable value. */\n export const MIN_VALUE: isize;\n /** Largest representable value. */\n export const MAX_VALUE: isize;\n /** Converts a string to a floating-point number and cast to target integer after. */\n export function parseFloat(string: string): isize;\n /** Converts A string to an integer. */\n export function parseInt(string: string, radix?: i32): isize;\n}\n/** Converts any other numeric value to an 8-bit unsigned integer. */\ndeclare function u8(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): i8;\ndeclare namespace u8 {\n /** Smallest representable value. */\n export const MIN_VALUE: u8;\n /** Largest representable value. */\n export const MAX_VALUE: u8;\n /** Converts a string to a floating-point number and cast to target integer after. */\n export function parseFloat(string: string): u8;\n /** Converts A string to an integer. */\n export function parseInt(string: string, radix?: i32): u8;\n}\n/** Converts any other numeric value to a 16-bit unsigned integer. */\ndeclare function u16(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): i8;\ndeclare namespace u16 {\n /** Smallest representable value. */\n export const MIN_VALUE: u16;\n /** Largest representable value. */\n export const MAX_VALUE: u16;\n /** Converts a string to a floating-point number and cast to target integer after. */\n export function parseFloat(string: string): u16;\n /** Converts A string to an integer. */\n export function parseInt(string: string, radix?: i32): u16;\n}\n/** Converts any other numeric value to a 32-bit unsigned integer. */\ndeclare function u32(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): i32;\ndeclare namespace u32 {\n /** Smallest representable value. */\n export const MIN_VALUE: u32;\n /** Largest representable value. */\n export const MAX_VALUE: u32;\n /** Converts a string to a floating-point number and cast to target integer after. */\n export function parseFloat(string: string): u32;\n /** Converts A string to an integer. */\n export function parseInt(string: string, radix?: i32): u32;\n}\n/** Converts any other numeric value to a 32-bit (in WASM32) respectivel 64-bit (in WASM64) unsigned integer. */\ndeclare function usize(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): isize;\ndeclare namespace usize {\n /** Smallest representable value. */\n export const MIN_VALUE: usize;\n /** Largest representable value. */\n export const MAX_VALUE: usize;\n /** Converts a string to a floating-point number and cast to target integer after. */\n export function parseFloat(string: string): usize;\n /** Converts A string to an integer. */\n export function parseInt(string: string, radix?: i32): usize;\n}\n/** Converts any other numeric value to a 1-bit unsigned integer. */\ndeclare function bool(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): bool;\ndeclare namespace bool {\n /** Smallest representable value. */\n export const MIN_VALUE: bool;\n /** Largest representable value. */\n export const MAX_VALUE: bool;\n}\n/** Converts any other numeric value to a 32-bit float. */\ndeclare function f32(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): f32;\ndeclare namespace f32 {\n /** Smallest representable value. */\n export const MIN_VALUE: f32;\n /** Largest representable value. */\n export const MAX_VALUE: f32;\n /** Smallest normalized positive value. */\n export const MIN_POSITIVE_VALUE: f32;\n /** Smallest safely representable integer value. */\n export const MIN_SAFE_INTEGER: f32;\n /** Largest safely representable integer value. */\n export const MAX_SAFE_INTEGER: f32;\n /** Difference between 1 and the smallest representable value greater than 1. */\n export const EPSILON: f32;\n /** Returns a boolean value that indicates whether a value is the reserved value NaN (not a number). */\n export function isNaN(value: f32): bool;\n /** Returns true if passed value is finite. */\n export function isFinite(value: f32): bool;\n /** Returns true if the value passed is a safe integer. */\n export function isSafeInteger(value: f32): bool;\n /** Returns true if the value passed is an integer, false otherwise. */\n export function isInteger(value: f32): bool;\n /** Converts a string to a floating-point number. */\n export function parseFloat(string: string): f32;\n /** Converts A string to an integer. */\n export function parseInt(string: string, radix?: i32): f32;\n}\n/** Converts any other numeric value to a 64-bit float. */\ndeclare function f64(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): f64;\ndeclare namespace f64 {\n /** Smallest representable value. */\n export const MIN_VALUE: f64;\n /** Largest representable value. */\n export const MAX_VALUE: f64;\n /** Smallest normalized positive value. */\n export const MIN_POSITIVE_VALUE: f64;\n /** Smallest safely representable integer value. */\n export const MIN_SAFE_INTEGER: f64;\n /** Largest safely representable integer value. */\n export const MAX_SAFE_INTEGER: f64;\n /** Difference between 1 and the smallest representable value greater than 1. */\n export const EPSILON: f64;\n /** Returns a boolean value that indicates whether a value is the reserved value NaN (not a number). */\n export function isNaN(value: f32): bool;\n /** Returns true if passed value is finite. */\n export function isFinite(value: f32): bool;\n /** Returns true if the value passed is a safe integer. */\n export function isSafeInteger(value: f64): bool;\n /** Returns true if the value passed is an integer, false otherwise. */\n export function isInteger(value: f64): bool;\n /** Converts a string to a floating-point number. */\n export function parseFloat(string: string): f64;\n /** Converts A string to an integer. */\n export function parseInt(string: string, radix?: i32): f64;\n}\n\n// Polyfills\n\n/** [Polyfill] Performs the sign-agnostic reverse bytes **/\ndeclare function bswap(value: T): T;\n/** [Polyfill] Performs the sign-agnostic reverse bytes only for last 16-bit **/\ndeclare function bswap16(value: T): T;\n\n// Standard library\n\n/** Memory operations. */\ndeclare namespace memory {\n /** Allocates a chunk of memory of the specified size and returns a pointer to it. */\n function allocate(size: usize): usize;\n /** Disposes a chunk of memory by its pointer. */\n function free(ptr: usize): void;\n /** Copies n bytes from the specified source to the specified destination in memory. These regions may overlap. */\n function copy(dst: usize, src: usize, n: usize): void;\n /** Fills size bytes from from the specified destination by same value in memory. */\n function fill(dst: usize, value: u8, size: usize): void;\n /** Resets the allocator to its initial state, if supported. */\n function reset(): void;\n}\n\n/** Class representing a generic, fixed-length raw binary data buffer. */\ndeclare class ArrayBuffer {\n /** The size, in bytes, of the array. */\n readonly byteLength: i32;\n /** Returns true if value is one of the ArrayBuffer views, such as typed array or a DataView **/\n static isView(value: T): bool;\n /** Constructs a new array buffer of the given length in bytes. */\n constructor(length: i32);\n /** Returns a copy of this array buffer's bytes from begin, inclusive, up to end, exclusive. */\n slice(begin?: i32, end?: i32): ArrayBuffer;\n /** Returns a string representation of ArrayBuffer. */\n toString(): string;\n}\n\n/** The `DataView` view provides a low-level interface for reading and writing multiple number types in a binary `ArrayBuffer`, without having to care about the platform's endianness. */\ndeclare class DataView {\n /** The `buffer` accessor property represents the `ArrayBuffer` or `SharedArrayBuffer` referenced by the `DataView` at construction time. */\n readonly buffer: ArrayBuffer;\n /** The `byteLength` accessor property represents the length (in bytes) of this view from the start of its `ArrayBuffer` or `SharedArrayBuffer`. */\n readonly byteLength: i32;\n /** The `byteOffset` accessor property represents the offset (in bytes) of this view from the start of its `ArrayBuffer` or `SharedArrayBuffer`. */\n readonly byteOffset: i32;\n /** Constructs a new `DataView` with the given properties */\n constructor(buffer: ArrayBuffer, byteOffset?: i32, byteLength?: i32);\n /** The `getFloat32()` method gets a signed 32-bit float (float) at the specified byte offset from the start of the `DataView`. */\n getFloat32(byteOffset: i32, littleEndian?: boolean): f32;\n /** The `getFloat64()` method gets a signed 64-bit float (double) at the specified byte offset from the start of the `DataView`. */\n getFloat64(byteOffset: i32, littleEndian?: boolean): f64;\n /** The `getInt8()` method gets a signed 8-bit integer (byte) at the specified byte offset from the start of the `DataView`. */\n getInt8(byteOffset: i32): i8;\n /** The `getInt16()` method gets a signed 16-bit integer (short) at the specified byte offset from the start of the `DataView`. */\n getInt16(byteOffset: i32, littleEndian?: boolean): i16;\n /** The `getInt32()` method gets a signed 32-bit integer (long) at the specified byte offset from the start of the `DataView`. */\n getInt32(byteOffset: i32, littleEndian?: boolean): i32;\n /** The `getUint8()` method gets an unsigned 8-bit integer (unsigned byte) at the specified byte offset from the start of the `DataView`. */\n getUint8(byteOffset: i32): u8;\n /** The `getUint16()` method gets an unsigned 16-bit integer (unsigned short) at the specified byte offset from the start of the `DataView`. */\n getUint16(byteOffset: i32, littleEndian?: boolean): u16;\n /** The `getUint32()` method gets an unsigned 32-bit integer (unsigned long) at the specified byte offset from the start of the `DataView`. */\n getUint32(byteOffset: i32, littleEndian?: boolean): u32;\n /** The `setFloat32()` method stores a signed 32-bit float (float) value at the specified byte offset from the start of the `DataView`. */\n setFloat32(byteOffset: i32, value: f32, littleEndian?: boolean): void;\n /** The `setFloat64()` method stores a signed 64-bit float (double) value at the specified byte offset from the start of the `DataView`. */\n setFloat64(byteOffset: i32, value: f64, littleEndian?: boolean): void;\n /** The `setInt8()` method stores a signed 8-bit integer (byte) value at the specified byte offset from the start of the `DataView`. */\n setInt8(byteOffset: i32, value: i8): void;\n /** The `setInt16()` method stores a signed 16-bit integer (short) value at the specified byte offset from the start of the `DataView`. */\n setInt16(byteOffset: i32, value: i16, littleEndian?: boolean): void;\n /** The `setInt32()` method stores a signed 32-bit integer (long) value at the specified byte offset from the start of the `DataView`. */\n setInt32(byteOffset: i32, value: i32, littleEndian?: boolean): void;\n /** The `setUint8()` method stores an unsigned 8-bit integer (byte) value at the specified byte offset from the start of the `DataView`. */\n setUint8(byteOffset: i32, value: u8): void;\n /** The `setUint16()` method stores an unsigned 16-bit integer (unsigned short) value at the specified byte offset from the start of the `DataView`. */\n setUint16(byteOffset: i32, value: u16, littleEndian?: boolean): void;\n /** The `setUint32()` method stores an unsigned 32-bit integer (unsigned long) value at the specified byte offset from the start of the `DataView`. */\n setUint32(byteOffset: i32, value: u32, littleEndian?: boolean): void;\n /** Returns a string representation of DataView. */\n toString(): string;\n}\n\ndeclare class Array {\n\n static isArray(value: any): value is Array;\n\n [key: number]: T;\n length: i32;\n constructor(capacity?: i32);\n\n fill(value: T, start?: i32, end?: i32): this;\n every(callbackfn: (element: T, index: i32, array?: Array) => bool): bool;\n findIndex(predicate: (element: T, index: i32, array?: Array) => bool): i32;\n includes(searchElement: T, fromIndex?: i32): bool;\n indexOf(searchElement: T, fromIndex?: i32): i32;\n lastIndexOf(searchElement: T, fromIndex?: i32): i32;\n push(element: T): i32;\n concat(items: T[]): T[];\n copyWithin(target: i32, start: i32, end?: i32): this;\n pop(): T;\n forEach(callbackfn: (value: T, index: i32, array: Array) => void): void;\n map(callbackfn: (value: T, index: i32, array: Array) => U): Array;\n filter(callbackfn: (value: T, index: i32, array: Array) => bool): Array;\n reduce(callbackfn: (previousValue: U, currentValue: T, currentIndex: i32, array: Array) => U, initialValue: U): U;\n reduceRight(callbackfn: (previousValue: U, currentValue: T, currentIndex: i32, array: Array) => U, initialValue: U): U;\n shift(): T;\n some(callbackfn: (element: T, index: i32, array?: Array) => bool): bool;\n unshift(element: T): i32;\n slice(from?: i32, to?: i32): Array;\n splice(start: i32, deleteCount?: i32): Array;\n sort(comparator?: (a: T, b: T) => i32): this;\n join(separator?: string): string;\n reverse(): T[];\n toString(): string;\n}\n\ndeclare class Uint8Array extends Array {}\ndeclare class Uint8ClampedArray extends Array {}\ndeclare class Uint16Array extends Array {}\ndeclare class Uint32Array extends Array {}\ndeclare class Int8Array extends Array {}\ndeclare class Int16Array extends Array {}\ndeclare class Int32Array extends Array {}\ndeclare class Float32Array extends Array {}\ndeclare class Float64Array extends Array {}\n\ninterface ArrayLike {\n length: i32;\n [key: number]: T;\n}\n\n/** Interface for a typed view on an array buffer. */\ninterface ArrayBufferView {\n [key: number]: T;\n /** The {@link ArrayBuffer} referenced by this view. */\n readonly buffer: ArrayBuffer;\n /** The offset in bytes from the start of the referenced {@link ArrayBuffer}. */\n readonly byteOffset: i32;\n /** The length in bytes from the start of the referenced {@link ArrayBuffer}. */\n readonly byteLength: i32;\n}\n\ndeclare class String {\n\n static fromCharCode(ls: i32, hs?: i32): string;\n static fromCharCodes(arr: u16[]): string;\n static fromCodePoint(code: i32): string;\n static fromCodePoints(arr: i32[]): string;\n\n readonly length: i32;\n\n private constructor();\n\n charAt(index: i32): string;\n charCodeAt(index: i32): i32;\n concat(other: string): string;\n indexOf(other: string, fromIndex?: i32): i32;\n lastIndexOf(other: string, fromIndex?: i32): i32;\n includes(other: string): bool;\n startsWith(other: string): bool;\n endsWith(other: string): bool;\n substr(start: u32, length?: u32): string;\n substring(from: i32, to?: i32): string;\n trim(): string;\n trimLeft(): string;\n trimRight(): string;\n trimStart(): string;\n trimEnd(): string;\n padStart(targetLength: i32, padString?: string): string;\n padEnd(targetLength: i32, padString?: string): string;\n replace(search: string, replacement: string): string;\n repeat(count?: i32): string;\n slice(beginIndex: i32, endIndex?: i32): string;\n split(separator?: string, limit?: i32): string[];\n toString(): string;\n}\n\ninterface Boolean {}\n\ndeclare class Number {\n private constructor();\n toString(radix?: i32): string;\n}\n\ninterface Object {}\n\ninterface Function {}\n\ninterface RegExp {}\n\ninterface IArguments {}\n\n/** Class for representing a runtime error. Base class of all errors. */\ndeclare class Error {\n\n /** Error name. */\n name: string;\n\n /** Message provided on construction. */\n message: string;\n\n /** Stack trace. */\n stack?: string;\n\n /** Constructs a new error, optionally with a message. */\n constructor(message?: string);\n\n /** Method returns a string representing the specified Error class. */\n toString(): string;\n}\n\n/** Class for indicating an error when a value is not in the set or range of allowed values. */\ndeclare class RangeError extends Error { }\n\n/** Class for indicating an error when a value is not of the expected type. */\ndeclare class TypeError extends Error { }\n\n/** Class for indicating an error when trying to interpret syntactically invalid code. */\ndeclare class SyntaxError extends Error { }\n\ndeclare class Set {\n constructor(entries?: T[]);\n readonly size: i32;\n has(value: T): bool;\n add(value: T): void;\n delete(value: T): bool;\n clear(): void;\n toString(): string;\n [Symbol.iterator](): Iterator;\n}\n\ndeclare class Map {\n constructor(entries?: [K, V][]);\n readonly size: i32;\n set(key: K, value: V): void;\n has(key: K): bool;\n get(key: K): V | null;\n clear(): void;\n entries(): Iterable<[K, V]>;\n keys(): Iterable;\n values(): Iterable;\n delete(key: K): bool;\n toString(): string;\n [Symbol.iterator](): Iterator<[K,V]>;\n}\n\ninterface SymbolConstructor {\n readonly hasInstance: symbol;\n readonly isConcatSpreadable: symbol;\n readonly isRegExp: symbol;\n readonly iterator: symbol;\n readonly match: symbol;\n readonly replace: symbol;\n readonly search: symbol;\n readonly species: symbol;\n readonly split: symbol;\n readonly toPrimitive: symbol;\n readonly toStringTag: symbol;\n readonly unscopables: symbol;\n (description?: string | null): symbol;\n for(key: string): symbol;\n keyFor(sym: symbol): string | null;\n}\ndeclare const Symbol: SymbolConstructor;\n\ninterface Iterable {\n [Symbol.iterator](): Iterator;\n}\n\ninterface Iterator {}\n\ninterface IMath {\n readonly E: f64;\n readonly LN2: f64;\n readonly LN10: f64;\n readonly LOG2E: f64;\n readonly LOG10E: f64;\n readonly PI: f64;\n readonly SQRT1_2: f64;\n readonly SQRT2: f64;\n abs(x: f64): f64;\n acos(x: f64): f64;\n acosh(x: f64): f64;\n asin(x: f64): f64;\n asinh(x: f64): f64;\n atan(x: f64): f64;\n atan2(y: f64, x: f64): f64;\n atanh(x: f64): f64;\n cbrt(x: f64): f64;\n ceil(x: f64): f64;\n clz32(x: f64): i32;\n cos(x: f64): f64;\n cosh(x: f64): f64;\n exp(x: f64): f64;\n expm1(x: f64): f64;\n floor(x: f64): f64;\n fround(x: f64): f32;\n hypot(value1: f64, value2: f64): f64; // TODO: see std/math\n imul(a: f64, b: f64): i32;\n log(x: f64): f64;\n log10(x: f64): f64;\n log1p(x: f64): f64;\n log2(x: f64): f64;\n max(value1: f64, value2: f64): f64; // TODO: see std/math\n min(value1: f64, value2: f64): f64; // TODO: see std/math\n pow(base: f64, exponent: f64): f64;\n random(): f64;\n round(x: f64): f64;\n sign(x: f64): f64;\n signbit(x: f64): bool;\n sin(x: f64): f64;\n sinh(x: f64): f64;\n sqrt(x: f64): f64;\n tan(x: f64): f64;\n tanh(x: f64): f64;\n trunc(x: f64): f64;\n}\n\ndeclare const Math: IMath;\ndeclare const Mathf: IMath;\ndeclare const JSMath: IMath;\n\ndeclare class Date {\n /** Returns the UTC timestamp in milliseconds of the specified date. */\n static UTC(\n year: i32,\n month: i32,\n day: i32,\n hour: i32,\n minute: i32,\n second: i32,\n millisecond: i32\n ): number;\n /** Returns the current UTC timestamp in milliseconds. */\n static now(): number;\n /** Constructs a new date object from an UTC timestamp in milliseconds. */\n constructor(value: number);\n /** Returns the UTC timestamp of this date in milliseconds. */\n getTime(): number;\n /** Sets the UTC timestamp of this date in milliseconds. */\n setTime(value: number): number;\n}\n\ndeclare namespace console {\n /** @deprecated */\n function log(message: string): void;\n}\n"}):(()=>{const 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IN NO EVENT SHALL THE\n AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER\n LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,\n OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE\n SOFTWARE.\n\n*/// see: https://github.com/evanw/buddy-malloc\n\n/*\n * This file implements a buddy memory allocator, which is an allocator that\n * allocates memory within a fixed linear address range. It spans the address\n * range with a binary tree that tracks free space. Both "malloc" and "free"\n * are O(log N) time where N is the maximum possible number of allocations.\n *\n * The "buddy" term comes from how the tree is used. When memory is allocated,\n * nodes in the tree are split recursively until a node of the appropriate size\n * is reached. Every split results in two child nodes, each of which is the\n * buddy of the other. When a node is freed, the node and its buddy can be\n * merged again if the buddy is also free. 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There\'s\n * a hard-coded limit on the maximum allocation size because of the way this\n * allocator works.\n */\n if (request > MAX_ALLOC - HEADER_SIZE) unreachable();\n\n /*\n * Initialize our global state if this is the first call to "malloc". At the\n * beginning, the tree has a single node that represents the smallest\n * possible allocation size. More memory will be reserved later as needed.\n */\n if (base_ptr == 0) {\n // base_ptr = max_ptr = (uint8_t *)sbrk(0);\n base_ptr = (NODE_IS_SPLIT_END + 7) & ~7; // must be aligned\n max_ptr = memory.size() << 16; // must grow first\n bucket_limit = BUCKET_COUNT - 1;\n if (!update_max_ptr(base_ptr + List.SIZE)) {\n return 0;\n }\n list_init(buckets$get(BUCKET_COUNT - 1));\n list_push(buckets$get(BUCKET_COUNT - 1), changetype(base_ptr));\n }\n\n /*\n * Find the smallest bucket that will fit this request. This doesn\'t check\n * that there\'s space for the request yet.\n */\n bucket = bucket_for_request(request + HEADER_SIZE);\n original_bucket = bucket;\n\n /*\n * Search for a bucket with a non-empty free list that\'s as large or larger\n * than what we need. If there isn\'t an exact match, we\'ll need to split a\n * larger one to get a match.\n */\n while (bucket + 1 != 0) {\n let size: usize, bytes_needed: usize, i: usize;\n let ptr: usize;\n\n /*\n * We may need to grow the tree to be able to fit an allocation of this\n * size. Try to grow the tree and stop here if we can\'t.\n */\n if (!lower_bucket_limit(bucket)) {\n return 0;\n }\n\n /*\n * Try to pop a block off the free list for this bucket. If the free list\n * is empty, we\'re going to have to split a larger block instead.\n */\n ptr = changetype(list_pop(buckets$get(bucket)));\n if (!ptr) {\n /*\n * If we\'re not at the root of the tree or it\'s impossible to grow the\n * tree any more, continue on to the next bucket.\n */\n if (bucket != bucket_limit || bucket == 0) {\n bucket--;\n continue;\n }\n\n /*\n * Otherwise, grow the tree one more level and then pop a block off the\n * free list again. Since we know the root of the tree is used (because\n * the free list was empty), this will add a parent above this node in\n * the SPLIT state and then add the new right child node to the free list\n * for this bucket. Popping the free list will give us this right child.\n */\n if (!lower_bucket_limit(bucket - 1)) {\n return 0;\n }\n ptr = changetype(list_pop(buckets$get(bucket)));\n }\n\n /*\n * Try to expand the address space first before going any further. If we\n * have run out of space, put this block back on the free list and fail.\n */\n size = 1 << (MAX_ALLOC_LOG2 - bucket);\n bytes_needed = bucket < original_bucket ? size / 2 + List.SIZE : size;\n if (!update_max_ptr(ptr + bytes_needed)) {\n list_push(buckets$get(bucket), changetype(ptr));\n return 0;\n }\n\n /*\n * If we got a node off the free list, change the node from UNUSED to USED.\n * This involves flipping our parent\'s "is split" bit because that bit is\n * the exclusive-or of the UNUSED flags of both children, and our UNUSED\n * flag (which isn\'t ever stored explicitly) has just changed.\n *\n * Note that we shouldn\'t ever need to flip the "is split" bit of our\n * grandparent because we know our buddy is USED so it\'s impossible for our\n * grandparent to be UNUSED (if our buddy chunk was UNUSED, our parent\n * wouldn\'t ever have been split in the first place).\n */\n i = node_for_ptr(ptr, bucket);\n if (i != 0) {\n flip_parent_is_split(i);\n }\n\n /*\n * If the node we got is larger than we need, split it down to the correct\n * size and put the new unused child nodes on the free list in the\n * corresponding bucket. This is done by repeatedly moving to the left\n * child, splitting the parent, and then adding the right child to the free\n * list.\n */\n while (bucket < original_bucket) {\n i = i * 2 + 1;\n bucket++;\n flip_parent_is_split(i);\n list_push(\n buckets$get(bucket),\n changetype(ptr_for_node(i + 1, bucket))\n );\n }\n\n /*\n * Now that we have a memory address, write the block header (just the size\n * of the allocation) and return the address immediately after the header.\n */\n store(ptr, request);\n return ptr + HEADER_SIZE;\n }\n\n return 0;\n}\n\n@global export function __memory_free(ptr: usize): void {\n var bucket: usize, i: usize;\n\n /*\n * Ignore any attempts to free a NULL pointer.\n */\n if (!ptr) {\n return;\n }\n\n /*\n * We were given the address returned by "malloc" so get back to the actual\n * address of the node by subtracting off the size of the block header. Then\n * look up the index of the node corresponding to this address.\n */\n ptr = ptr - HEADER_SIZE;\n bucket = bucket_for_request(load(ptr) + HEADER_SIZE);\n i = node_for_ptr(ptr, bucket);\n\n /*\n * Traverse up to the root node, flipping USED blocks to UNUSED and merging\n * UNUSED buddies together into a single UNUSED parent.\n */\n while (i != 0) {\n /*\n * Change this node from UNUSED to USED. This involves flipping our\n * parent\'s "is split" bit because that bit is the exclusive-or of the\n * UNUSED flags of both children, and our UNUSED flag (which isn\'t ever\n * stored explicitly) has just changed.\n */\n flip_parent_is_split(i);\n\n /*\n * If the parent is now SPLIT, that means our buddy is USED, so don\'t merge\n * with it. Instead, stop the iteration here and add ourselves to the free\n * list for our bucket.\n *\n * Also stop here if we\'re at the current root node, even if that root node\n * is now UNUSED. Root nodes don\'t have a buddy so we can\'t merge with one.\n */\n if (parent_is_split(i) || bucket == bucket_limit) {\n break;\n }\n\n /*\n * If we get here, we know our buddy is UNUSED. In this case we should\n * merge with that buddy and continue traversing up to the root node. We\n * need to remove the buddy from its free list here but we don\'t need to\n * add the merged parent to its free list yet. That will be done once after\n * this loop is finished.\n */\n list_remove(changetype(ptr_for_node(((i - 1) ^ 1) + 1, bucket)));\n i = (i - 1) / 2;\n bucket--;\n }\n\n /*\n * Add ourselves to the free list for our bucket. We add to the back of the\n * list because "malloc" takes from the back of the list and we want a "free"\n * followed by a "malloc" of the same size to ideally use the same address\n * for better memory locality.\n */\n list_push(buckets$get(bucket), changetype(ptr_for_node(i, bucket)));\n}\n',"allocator/emscripten":"/**\n * Emscripten Memory Allocator.\n *\n * Uses Emscripten's exported _malloc and _free implementations, i.e., when linking with\n * Emscripten-compiled programs that already provide these. Differs from 'system' in that their\n * names are prefixed with an underscore.\n *\n * @module std/assembly/allocator/emscripten\n *//***/\n\ndeclare function _malloc(size: usize): usize;\ndeclare function _free(ptr: usize): void;\n\n// Memory allocator interface\n\n@global export function __memory_allocate(size: usize): usize {\n return _malloc(size);\n}\n\n@global export function __memory_free(ptr: usize): void {\n _free(ptr);\n}\n","allocator/system":"/**\n * System Memory Allocator.\n *\n * Uses the environment's malloc and free implementations, i.e., when linking with other C-like\n * programs that already provide these.\n *\n * @module std/assembly/allocator/system\n *//***/\n\ndeclare function malloc(size: usize): usize;\ndeclare function free(ptr: usize): void;\n\n// Memory allocator interface\n\n@global export function __memory_allocate(size: usize): usize {\n return malloc(size);\n}\n\n@global export function __memory_free(ptr: usize): void {\n free(ptr);\n}\n","allocator/tlsf":"/**\n * Two-Level Segregate Fit Memory Allocator.\n *\n * A general purpose dynamic memory allocator specifically designed to meet real-time requirements.\n * Always aligns to 8 bytes.\n *\n * @module std/assembly/allocator/tlsf\n *//***/\n\n// ╒══════════════ Block size interpretation (32-bit) ═════════════╕\n// 3 2 1\n// 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 bits\n// ├─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┼─┴─┴─┴─┴─╫─┴─┴─┤\n// │ | FL │ SB = SL + AL │ ◄─ usize\n// └───────────────────────────────────────────────┴─────────╨─────┘\n// FL: first level, SL: second level, AL: alignment, SB: small block\n\nimport {\n AL_BITS,\n AL_SIZE,\n AL_MASK\n} from \"../internal/allocator\";\n\nconst SL_BITS: u32 = 5;\nconst SL_SIZE: usize = 1 << SL_BITS;\n\nconst SB_BITS: usize = (SL_BITS + AL_BITS);\nconst SB_SIZE: usize = 1 << SB_BITS;\n\nconst FL_BITS: u32 = (sizeof() == sizeof()\n ? 30 // ^= up to 1GB per block\n : 32 // ^= up to 4GB per block\n) - SB_BITS;\n\n// ╒════════════════ Block structure layout (32-bit) ══════════════╕\n// 3 2 1\n// 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 bits\n// ├─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┼─┼─┤\n// │ size │L│F│ ◄─┐ info\n// ╞═══════════════════════════════════════════════════════════╧═╧═╡ │ ┐\n// │ if free: ◄ prev │ ◄─┤ usize\n// ├───────────────────────────────────────────────────────────────┤ │\n// │ if free: next ► │ ◄─┤\n// ├───────────────────────────────────────────────────────────────┤ │\n// │ ... unused free space >= 0 ... │ │ = 0\n// ├ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ┤ │\n// │ if free: jump ▲ │ ◄─┘\n// └───────────────────────────────────────────────────────────────┘ MIN SIZE ┘\n// F: FREE, L: LEFT_FREE\n\n/** Tag indicating that this block is free. */\nconst FREE: usize = 1 << 0;\n/** Tag indicating that this block's left block is free. */\nconst LEFT_FREE: usize = 1 << 1;\n/** Mask to obtain all tags. */\nconst TAGS: usize = FREE | LEFT_FREE;\n\n/** Block structure. */\n@unmanaged\nclass Block {\n\n /** Info field holding this block's size and tags. */\n info: usize;\n\n /** End offset of the {@link Block#info} field. User data starts here. */\n static readonly INFO: usize = (sizeof() + AL_MASK) & ~AL_MASK;\n\n /** Previous free block, if any. Only valid if free. */\n prev: Block | null;\n /** Next free block, if any. Only valid if free. */\n next: Block | null;\n\n /** Minimum size of a block, excluding {@link Block#info}. */\n static readonly MIN_SIZE: usize = (3 * sizeof() + AL_MASK) & ~AL_MASK;// prev + next + jump\n\n /** Maximum size of a used block, excluding {@link Block#info}. */\n static readonly MAX_SIZE: usize = 1 << (FL_BITS + SB_BITS);\n\n /** Gets this block's left (free) block in memory. */\n get left(): Block {\n assert(this.info & LEFT_FREE); // must be free to contain a jump\n return assert(\n load(changetype(this) - sizeof())\n ); // can't be null\n }\n\n /** Gets this block's right block in memory. */\n get right(): Block {\n assert(this.info & ~TAGS); // can't skip beyond the tail block\n return assert(\n changetype(\n changetype(this) + Block.INFO + (this.info & ~TAGS)\n )\n ); // can't be null\n }\n}\n\n// ╒════════════════ Root structure layout (32-bit) ═══════════════╕\n// 3 2 1\n// 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 bits\n// ├─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┤ ┐\n// │ 0 | flMap S│ ◄────┐\n// ╞═══════════════════════════════════════════════════════════════╡ │\n// │ slMap[0] S │ ◄─┐ │\n// ├───────────────────────────────────────────────────────────────┤ │ │\n// │ slMap[1] │ ◄─┤ │\n// ├───────────────────────────────────────────────────────────────┤ u32 │\n// │ ... │ ◄─┤ │\n// ├───────────────────────────────────────────────────────────────┤ │ │\n// │ slMap[22] P │ ◄─┘ │\n// ╞═══════════════════════════════════════════════════════════════╡ usize\n// │ head[0] │ ◄────┤\n// ├───────────────────────────────────────────────────────────────┤ │\n// │ ... │ ◄────┤\n// ├───────────────────────────────────────────────────────────────┤ │\n// │ head[736] │ ◄────┤\n// ╞═══════════════════════════════════════════════════════════════╡ │\n// │ tailRef │ ◄────┘\n// └───────────────────────────────────────────────────────────────┘ SIZE ┘\n// S: Small blocks map, P: Possibly padded if 64-bit\n\nassert((1 << SL_BITS) <= 32); // second level must fit into 32 bits\n\n/** Root structure. */\n@unmanaged\nclass Root {\n\n /** First level bitmap. */\n flMap: usize = 0;\n\n /** Start offset of second level maps. */\n private static readonly SL_START: usize = sizeof();\n\n // Using *one* SL map per *FL bit*\n\n /** Gets the second level map for the specified first level. */\n getSLMap(fl: usize): u32 {\n assert(fl < FL_BITS); // fl out of range\n return load(changetype(this) + fl * 4, Root.SL_START);\n }\n\n /** Sets the second level map for the specified first level. */\n setSLMap(fl: usize, value: u32): void {\n assert(fl < FL_BITS); // fl out of range\n store(changetype(this) + fl * 4, value, Root.SL_START);\n }\n\n /** End offset of second level maps. */\n private static readonly SL_END: usize = Root.SL_START + FL_BITS * 4;\n\n // Using *number bits per SL* heads per *FL bit*\n\n /** Start offset of FL/SL heads. */\n private static readonly HL_START: usize = (Root.SL_END + AL_MASK) & ~AL_MASK;\n\n /** Gets the head of the specified first and second level index. */\n getHead(fl: usize, sl: u32): Block | null {\n assert(fl < FL_BITS); // fl out of range\n assert(sl < SL_SIZE); // sl out of range\n return changetype(load(\n changetype(this) + (fl * SL_SIZE + sl) * sizeof()\n , Root.HL_START));\n }\n\n /** Sets the head of the specified first and second level index. */\n setHead(fl: usize, sl: u32, value: Block | null): void {\n assert(fl < FL_BITS); // fl out of range\n assert(sl < SL_SIZE); // sl out of range\n store(\n changetype(this) + (fl * SL_SIZE + sl) * sizeof()\n , changetype(value)\n , Root.HL_START);\n }\n\n /** End offset of FL/SL heads. */\n private static readonly HL_END: usize = (\n Root.HL_START + FL_BITS * SL_SIZE * sizeof()\n );\n\n get tailRef(): usize { return load(0, Root.HL_END); }\n set tailRef(value: usize) { store(0, value, Root.HL_END); }\n\n /** Total size of the {@link Root} structure. */\n static readonly SIZE: usize = Root.HL_END + sizeof();\n\n /** Inserts a previously used block back into the free list. */\n insert(block: Block): void {\n // check as much as possible here to prevent invalid free blocks\n assert(block); // cannot be null\n var blockInfo = block.info;\n assert(blockInfo & FREE); // must be free\n var size: usize;\n assert(\n (size = block.info & ~TAGS) >= Block.MIN_SIZE && size < Block.MAX_SIZE\n ); // must be valid, not necessary to compute yet if noAssert=true\n\n var right: Block = assert(block.right); // can't be null\n var rightInfo = right.info;\n\n // merge with right block if also free\n if (rightInfo & FREE) {\n this.remove(right);\n block.info = (blockInfo += Block.INFO + (rightInfo & ~TAGS));\n right = block.right;\n rightInfo = right.info;\n // jump is set below\n }\n\n // merge with left block if also free\n if (blockInfo & LEFT_FREE) {\n let left: Block = assert(block.left); // can't be null\n let leftInfo = left.info;\n assert(leftInfo & FREE); // must be free according to tags\n this.remove(left);\n left.info = (leftInfo += Block.INFO + (blockInfo & ~TAGS));\n block = left;\n blockInfo = leftInfo;\n // jump is set below\n }\n\n right.info = rightInfo | LEFT_FREE;\n this.setJump(block, right);\n // right is no longer used now, hence rightInfo is not synced\n\n size = blockInfo & ~TAGS;\n assert(size >= Block.MIN_SIZE && size < Block.MAX_SIZE); // must be valid\n\n // mapping_insert\n var fl: usize, sl: u32;\n if (size < SB_SIZE) {\n fl = 0;\n sl = (size / AL_SIZE);\n } else {\n fl = fls(size);\n sl = ((size >> (fl - SL_BITS)) ^ (1 << SL_BITS));\n fl -= SB_BITS - 1;\n }\n\n // perform insertion\n var head = this.getHead(fl, sl);\n block.prev = null;\n block.next = head;\n if (head) head.prev = block;\n this.setHead(fl, sl, block);\n\n // update first and second level maps\n this.flMap |= (1 << fl);\n this.setSLMap(fl, this.getSLMap(fl) | (1 << sl));\n }\n\n /**\n * Removes a free block from FL/SL maps. Does not alter left/jump because it\n * is likely that splitting is performed afterwards, invalidating any changes\n * again.\n */\n private remove(block: Block): void {\n var blockInfo = block.info;\n assert(blockInfo & FREE); // must be free\n var size = blockInfo & ~TAGS;\n assert(size >= Block.MIN_SIZE && size < Block.MAX_SIZE); // must be valid\n\n // mapping_insert\n var fl: usize, sl: u32;\n if (size < SB_SIZE) {\n fl = 0;\n sl = (size / AL_SIZE);\n } else {\n fl = fls(size);\n sl = ((size >> (fl - SL_BITS)) ^ (1 << SL_BITS));\n fl -= SB_BITS - 1;\n }\n\n // link previous and next free block\n var prev = block.prev;\n var next = block.next;\n if (prev) prev.next = next;\n if (next) next.prev = prev;\n\n // update head if we are removing it\n if (block == this.getHead(fl, sl)) {\n this.setHead(fl, sl, next);\n\n // clear second level map if head is empty now\n if (!next) {\n let slMap = this.getSLMap(fl);\n this.setSLMap(fl, slMap &= ~(1 << sl));\n\n // clear first level map if second level is empty now\n if (!slMap) this.flMap &= ~(1 << fl);\n }\n }\n }\n\n /** Searches for a free block of at least the specified size. */\n search(size: usize): Block | null {\n assert(size >= Block.MIN_SIZE && size < Block.MAX_SIZE);\n\n // mapping_search\n var fl: usize, sl: u32;\n if (size < SB_SIZE) {\n fl = 0;\n sl = (size / AL_SIZE);\n } else {\n // (*) size += (1 << (fls(size) - SL_BITS)) - 1;\n fl = fls(size);\n sl = ((size >> (fl - SL_BITS)) ^ (1 << SL_BITS));\n fl -= SB_BITS - 1;\n // (*) instead of rounding up, use next second level list for better fit\n if (sl < SL_SIZE - 1) ++sl;\n else ++fl, sl = 0;\n }\n\n // search second level\n var slMap = this.getSLMap(fl) & (~0 << sl);\n var head: Block | null;\n if (!slMap) {\n // search next larger first level\n let flMap = this.flMap & (~0 << (fl + 1));\n if (!flMap) {\n head = null;\n } else {\n fl = ffs(flMap);\n slMap = assert(this.getSLMap(fl)); // can't be zero if fl points here\n head = this.getHead(fl, ffs(slMap));\n }\n } else {\n head = this.getHead(fl, ffs(slMap));\n }\n return head;\n }\n\n /** Links a free left with its right block in memory. */\n private setJump(left: Block, right: Block): void {\n assert(left.info & FREE); // must be free\n assert(left.right == right); // right block must match\n assert(right.info & LEFT_FREE); // right block must be tagged as LEFT_FREE\n store(\n changetype(right) - sizeof()\n , left); // last word in left block's (free) data region\n }\n\n /**\n * Uses the specified free block, removing it from internal maps and\n * splitting it if possible, and returns its data pointer.\n */\n use(block: Block, size: usize): usize {\n var blockInfo = block.info;\n assert(blockInfo & FREE); // must be free so we can use it\n assert(size >= Block.MIN_SIZE && size < Block.MAX_SIZE); // must be valid\n assert(!(size & AL_MASK)); // size must be aligned so the new block is\n\n this.remove(block);\n\n // split if the block can hold another MIN_SIZE block\n var remaining = (blockInfo & ~TAGS) - size;\n if (remaining >= Block.INFO + Block.MIN_SIZE) {\n block.info = size | (blockInfo & LEFT_FREE); // also discards FREE\n\n let spare = changetype(\n changetype(block) + Block.INFO + size\n );\n spare.info = (remaining - Block.INFO) | FREE; // not LEFT_FREE\n this.insert(spare); // also sets jump\n\n // otherwise tag block as no longer FREE and right as no longer LEFT_FREE\n } else {\n block.info = blockInfo & ~FREE;\n let right: Block = assert(block.right); // can't be null (tail)\n right.info &= ~LEFT_FREE;\n }\n\n return changetype(block) + Block.INFO;\n }\n\n /** Adds more memory to the pool. */\n addMemory(start: usize, end: usize): bool {\n assert(start <= end);\n assert(!(start & AL_MASK)); // must be aligned\n assert(!(end & AL_MASK)); // must be aligned\n\n var tailRef = this.tailRef;\n var tailInfo: usize = 0;\n if (tailRef) {\n assert(start >= tailRef + sizeof()); // starts after tail\n\n // merge with current tail if adjacent\n if (start - Block.INFO == tailRef) {\n start -= Block.INFO;\n tailInfo = changetype(tailRef).info;\n }\n\n } else {\n assert(start >= changetype(this) + Root.SIZE); // starts after root\n }\n\n // check if size is large enough for a free block and the tail block\n var size = end - start;\n if (size < Block.INFO + Block.MIN_SIZE + Block.INFO) {\n return false;\n }\n\n // left size is total minus its own and the zero-length tail's header\n var leftSize = size - 2 * Block.INFO;\n var left = changetype(start);\n left.info = leftSize | FREE | (tailInfo & LEFT_FREE);\n left.prev = null;\n left.next = null;\n\n // tail is a zero-length used block\n var tail = changetype(start + size - Block.INFO);\n tail.info = 0 | LEFT_FREE;\n this.tailRef = changetype(tail);\n\n this.insert(left); // also merges with free left before tail / sets jump\n\n return true;\n }\n}\n\n/** Determines the first (LSB to MSB) set bit's index of a word. */\nfunction ffs(word: T): T {\n assert(word != 0); // word cannot be 0\n return ctz(word); // differs from ffs only for 0\n}\n\n/** Determines the last (LSB to MSB) set bit's index of a word. */\nfunction fls(word: T): T {\n assert(word != 0); // word cannot be 0\n const inv: T = (sizeof() << 3) - 1;\n return inv - clz(word);\n}\n\n/** Reference to the initialized {@link Root} structure, once initialized. */\nvar ROOT: Root = changetype(0);\n\n// Memory allocator interface\n\n/** Allocates a chunk of memory. */\n@global export function __memory_allocate(size: usize): usize {\n\n // initialize if necessary\n var root = ROOT;\n if (!root) {\n let rootOffset = (HEAP_BASE + AL_MASK) & ~AL_MASK;\n let pagesBefore = memory.size();\n let pagesNeeded = ((((rootOffset + Root.SIZE) + 0xffff) & ~0xffff) >>> 16);\n if (pagesNeeded > pagesBefore && memory.grow(pagesNeeded - pagesBefore) < 0) unreachable();\n ROOT = root = changetype(rootOffset);\n root.tailRef = 0;\n root.flMap = 0;\n for (let fl: usize = 0; fl < FL_BITS; ++fl) {\n root.setSLMap(fl, 0);\n for (let sl: u32 = 0; sl < SL_SIZE; ++sl) {\n root.setHead(fl, sl, null);\n }\n }\n root.addMemory((rootOffset + Root.SIZE + AL_MASK) & ~AL_MASK, memory.size() << 16);\n }\n\n // search for a suitable block\n if (size > Block.MAX_SIZE) unreachable();\n\n // 32-bit MAX_SIZE is 1 << 30 and itself aligned, hence the following can't overflow MAX_SIZE\n size = max((size + AL_MASK) & ~AL_MASK, Block.MIN_SIZE);\n\n var block = root.search(size);\n if (!block) {\n\n // request more memory\n let pagesBefore = memory.size();\n let pagesNeeded = (((size + 0xffff) & ~0xffff) >>> 16);\n let pagesWanted = max(pagesBefore, pagesNeeded); // double memory\n if (memory.grow(pagesWanted) < 0) {\n if (memory.grow(pagesNeeded) < 0) {\n unreachable(); // out of memory\n }\n }\n let pagesAfter = memory.size();\n root.addMemory(pagesBefore << 16, pagesAfter << 16);\n block = assert(root.search(size)); // must be found now\n }\n\n assert((block.info & ~TAGS) >= size);\n return root.use(block, size);\n}\n\n/** Frees the chunk of memory at the specified address. */\n@global export function __memory_free(data: usize): void {\n if (data) {\n let root = ROOT;\n if (root) {\n let block = changetype(data - Block.INFO);\n let blockInfo = block.info;\n assert(!(blockInfo & FREE)); // must be used\n block.info = blockInfo | FREE;\n root.insert(changetype(data - Block.INFO));\n }\n }\n}\n\n@global export function __memory_reset(): void {\n unreachable();\n}\n",array:'import {\n MAX_BLENGTH,\n HEADER_SIZE,\n allocateUnsafe,\n reallocateUnsafe,\n LOAD,\n STORE\n} from "./internal/arraybuffer";\n\nimport {\n allocateUnsafe as allocateUnsafeString,\n freeUnsafe as freeUnsafeString,\n copyUnsafe as copyUnsafeString\n} from "./internal/string";\n\nimport {\n COMPARATOR,\n SORT\n} from "./internal/sort";\n\nimport {\n itoa,\n dtoa,\n itoa_stream,\n dtoa_stream,\n MAX_DOUBLE_LENGTH\n} from "./internal/number";\n\nimport {\n isArray as builtin_isArray\n} from "./builtins";\n\nexport class Array {\n [key: number]: T; // compatibility only\n\n /* @internal */ buffer_: ArrayBuffer;\n /* @internal */ length_: i32;\n\n @inline static isArray(value: U): bool {\n return builtin_isArray(value) && value !== null;\n }\n\n constructor(length: i32 = 0) {\n const MAX_LENGTH = MAX_BLENGTH >>> alignof();\n if (length > MAX_LENGTH) throw new RangeError("Invalid array length");\n var byteLength = length << alignof();\n var buffer = allocateUnsafe(byteLength);\n this.buffer_ = buffer;\n this.length_ = length;\n memory.fill(\n changetype(buffer) + HEADER_SIZE,\n 0,\n byteLength\n );\n }\n\n @inline\n get length(): i32 {\n return this.length_;\n }\n\n set length(length: i32) {\n var buffer = this.buffer_;\n var capacity = buffer.byteLength >>> alignof();\n if (length > capacity) {\n const MAX_LENGTH = MAX_BLENGTH >>> alignof();\n if (length > MAX_LENGTH) throw new RangeError("Invalid array length");\n buffer = reallocateUnsafe(buffer, length << alignof());\n this.buffer_ = buffer;\n }\n this.length_ = length;\n }\n\n every(callbackfn: (element: T, index: i32, array: Array) => bool): bool {\n for (let index = 0, length = this.length_; index < min(length, this.length_); ++index) {\n if (!callbackfn(LOAD(this.buffer_, index), index, this)) return false;\n }\n return true;\n }\n\n findIndex(predicate: (element: T, index: i32, array: Array) => bool): i32 {\n for (let index = 0, length = this.length_; index < min(length, this.length_); ++index) {\n if (predicate(LOAD(this.buffer_, index), index, this)) return index;\n }\n return -1;\n }\n\n @operator("[]")\n private __get(index: i32): T {\n var buffer = this.buffer_;\n return index < (buffer.byteLength >>> alignof())\n ? LOAD(buffer, index)\n : unreachable();\n }\n\n @operator("{}")\n private __unchecked_get(index: i32): T {\n return LOAD(this.buffer_, index);\n }\n\n @operator("[]=")\n private __set(index: i32, value: T): void {\n var buffer = this.buffer_;\n var capacity = buffer.byteLength >>> alignof();\n if (index >= capacity) {\n const MAX_LENGTH = MAX_BLENGTH >>> alignof();\n if (index >= MAX_LENGTH) throw new Error("Invalid array length");\n buffer = reallocateUnsafe(buffer, (index + 1) << alignof());\n this.buffer_ = buffer;\n this.length_ = index + 1;\n }\n STORE(buffer, index, value);\n if (isManaged()) __gc_link(changetype(this), changetype(value)); // tslint:disable-line\n }\n\n @operator("{}=")\n private __unchecked_set(index: i32, value: T): void {\n STORE(this.buffer_, index, value);\n if (isManaged()) __gc_link(changetype(this), changetype(value)); // tslint:disable-line\n }\n\n fill(value: T, start: i32 = 0, end: i32 = i32.MAX_VALUE): this {\n var buffer = this.buffer_;\n var len = this.length_;\n\n start = start < 0 ? max(len + start, 0) : min(start, len);\n end = end < 0 ? max(len + end, 0) : min(end, len);\n\n if (sizeof() == 1) {\n if (start < end) {\n memory.fill(\n changetype(buffer) + start + HEADER_SIZE,\n value,\n (end - start)\n );\n }\n } else {\n for (; start < end; ++start) {\n STORE(buffer, start, value);\n }\n }\n return this;\n }\n\n @inline\n includes(searchElement: T, fromIndex: i32 = 0): bool {\n return this.indexOf(searchElement, fromIndex) >= 0;\n }\n\n indexOf(searchElement: T, fromIndex: i32 = 0): i32 {\n var length = this.length_;\n if (length == 0 || fromIndex >= length) return -1;\n if (fromIndex < 0) fromIndex = max(length + fromIndex, 0);\n var buffer = this.buffer_;\n while (fromIndex < length) {\n if (LOAD(buffer, fromIndex) == searchElement) return fromIndex;\n ++fromIndex;\n }\n return -1;\n }\n\n lastIndexOf(searchElement: T, fromIndex: i32 = this.length_): i32 {\n var length = this.length_;\n if (length == 0) return -1;\n if (fromIndex < 0) fromIndex = length + fromIndex; // no need to clamp\n else if (fromIndex >= length) fromIndex = length - 1;\n var buffer = this.buffer_;\n while (fromIndex >= 0) { // ^\n if (LOAD(buffer, fromIndex) == searchElement) return fromIndex;\n --fromIndex;\n }\n return -1;\n }\n\n push(element: T): i32 {\n var length = this.length_;\n var buffer = this.buffer_;\n var capacity = buffer.byteLength >>> alignof();\n var newLength = length + 1; // safe only if length is checked\n if (length >= capacity) {\n const MAX_LENGTH = MAX_BLENGTH >>> alignof();\n if (length >= MAX_LENGTH) throw new Error("Invalid array length");\n buffer = reallocateUnsafe(buffer, newLength << alignof());\n this.buffer_ = buffer;\n }\n this.length_ = newLength;\n STORE(buffer, length, element);\n if (isManaged()) __gc_link(changetype(this), changetype(element)); // tslint:disable-line\n return newLength;\n }\n\n concat(items: Array): Array {\n var thisLen = this.length_;\n var otherLen = select(0, items.length_, items === null);\n var outLen = thisLen + otherLen;\n var out = new Array(outLen);\n\n if (thisLen) {\n memory.copy(\n changetype(out.buffer_) + HEADER_SIZE,\n changetype(this.buffer_) + HEADER_SIZE,\n thisLen << alignof()\n );\n }\n if (otherLen) {\n memory.copy(\n changetype(out.buffer_) + HEADER_SIZE + (thisLen << alignof()),\n changetype(items.buffer_) + HEADER_SIZE,\n otherLen << alignof()\n );\n }\n return out;\n }\n\n copyWithin(target: i32, start: i32, end: i32 = i32.MAX_VALUE): this {\n var buffer = this.buffer_;\n var len = this.length_;\n\n end = min(end, len);\n var to = target < 0 ? max(len + target, 0) : min(target, len);\n var from = start < 0 ? max(len + start, 0) : min(start, len);\n var last = end < 0 ? max(len + end, 0) : min(end, len);\n var count = min(last - from, len - to);\n\n if (from < to && to < (from + count)) {\n from += count - 1;\n to += count - 1;\n while (count) {\n STORE(buffer, to, LOAD(buffer, from));\n --from, --to, --count;\n }\n } else {\n memory.copy(\n changetype(buffer) + HEADER_SIZE + (to << alignof()),\n changetype(buffer) + HEADER_SIZE + (from << alignof()),\n count << alignof()\n );\n }\n return this;\n }\n\n pop(): T {\n var length = this.length_;\n if (length < 1) throw new RangeError("Array is empty");\n var element = LOAD(this.buffer_, --length);\n this.length_ = length;\n return element;\n }\n\n forEach(callbackfn: (value: T, index: i32, array: Array) => void): void {\n for (let index = 0, length = this.length_; index < min(length, this.length_); ++index) {\n callbackfn(LOAD(this.buffer_, index), index, this);\n }\n }\n\n map(callbackfn: (value: T, index: i32, array: Array) => U): Array {\n var length = this.length_;\n var result = new Array(length);\n var buffer = result.buffer_;\n for (let index = 0; index < min(length, this.length_); ++index) {\n STORE(buffer, index, callbackfn(LOAD(this.buffer_, index), index, this));\n }\n return result;\n }\n\n filter(callbackfn: (value: T, index: i32, array: Array) => bool): Array {\n var result = new Array();\n for (let index = 0, length = this.length_; index < min(length, this.length_); ++index) {\n let value = LOAD(this.buffer_, index);\n if (callbackfn(value, index, this)) result.push(value);\n }\n return result;\n }\n\n reduce(\n callbackfn: (previousValue: U, currentValue: T, currentIndex: i32, array: Array) => U,\n initialValue: U\n ): U {\n var accum = initialValue;\n for (let index = 0, length = this.length_; index < min(length, this.length_); ++index) {\n accum = callbackfn(accum, LOAD(this.buffer_, index), index, this);\n }\n return accum;\n }\n\n reduceRight(\n callbackfn: (previousValue: U, currentValue: T, currentIndex: i32, array: Array) => U,\n initialValue: U\n ): U {\n var accum = initialValue;\n for (let index = this.length_ - 1; index >= 0; --index) {\n accum = callbackfn(accum, LOAD(this.buffer_, index), index, this);\n }\n return accum;\n }\n\n shift(): T {\n var length = this.length_;\n if (length < 1) throw new RangeError("Array is empty");\n var buffer = this.buffer_;\n var element = LOAD(buffer, 0);\n var lastIndex = length - 1;\n memory.copy(\n changetype(buffer) + HEADER_SIZE,\n changetype(buffer) + HEADER_SIZE + sizeof(),\n lastIndex << alignof()\n );\n STORE(buffer, lastIndex, null);\n this.length_ = lastIndex;\n return element;\n }\n\n some(callbackfn: (element: T, index: i32, array: Array) => bool): bool {\n for (let index = 0, length = this.length_; index < min(length, this.length_); ++index) {\n if (callbackfn(LOAD(this.buffer_, index), index, this)) return true;\n }\n return false;\n }\n\n unshift(element: T): i32 {\n var buffer = this.buffer_;\n var capacity = buffer.byteLength >>> alignof();\n var length = this.length_;\n var newLength = length + 1; // safe only if length is checked\n if (length >= capacity) {\n const MAX_LENGTH = MAX_BLENGTH >>> alignof();\n if (length >= MAX_LENGTH) throw new Error("Invalid array length");\n buffer = reallocateUnsafe(buffer, newLength << alignof());\n capacity = buffer.byteLength >>> alignof();\n this.buffer_ = buffer;\n }\n memory.copy(\n changetype(buffer) + HEADER_SIZE + sizeof(),\n changetype(buffer) + HEADER_SIZE,\n (capacity - 1) << alignof()\n );\n STORE(buffer, 0, element);\n this.length_ = newLength;\n if (isManaged()) __gc_link(changetype(this), changetype(element)); // tslint:disable-line\n return newLength;\n }\n\n slice(begin: i32 = 0, end: i32 = i32.MAX_VALUE): Array {\n var len = this.length_;\n begin = begin < 0 ? max(begin + len, 0) : min(begin, len);\n end = end < 0 ? max(end + len, 0) : min(end, len);\n len = max(end - begin, 0);\n var sliced = new Array(len);\n if (len) {\n memory.copy(\n changetype(sliced.buffer_) + HEADER_SIZE,\n changetype(this.buffer_) + HEADER_SIZE + (begin << alignof()),\n len << alignof()\n );\n }\n return sliced;\n }\n\n splice(start: i32, deleteCount: i32 = i32.MAX_VALUE): Array {\n var length = this.length_;\n start = start < 0 ? max(length + start, 0) : min(start, length);\n deleteCount = max(min(deleteCount, length - start), 0);\n var buffer = this.buffer_;\n var spliced = new Array(deleteCount);\n var source = changetype(buffer) + HEADER_SIZE + (start << alignof());\n memory.copy(\n changetype(spliced.buffer_) + HEADER_SIZE,\n source,\n deleteCount << alignof()\n );\n var offset = start + deleteCount;\n if (length != offset) {\n memory.copy(\n source,\n changetype(buffer) + HEADER_SIZE + (offset << alignof()),\n (length - offset) << alignof()\n );\n }\n this.length_ = length - deleteCount;\n return spliced;\n }\n\n reverse(): Array {\n var buffer = this.buffer_;\n for (let front = 0, back = this.length_ - 1; front < back; ++front, --back) {\n let temp = LOAD(buffer, front);\n STORE(buffer, front, LOAD(buffer, back));\n STORE(buffer, back, temp);\n }\n return this;\n }\n\n sort(comparator: (a: T, b: T) => i32 = COMPARATOR()): this {\n // TODO remove this when flow will allow trackcing null\n assert(comparator); // The comparison function must be a function\n\n var length = this.length_;\n if (length <= 1) return this;\n var buffer = this.buffer_;\n if (length == 2) {\n let a = LOAD(buffer, 1); // a = arr[1]\n let b = LOAD(buffer, 0); // b = arr[0]\n if (comparator(a, b) < 0) {\n STORE(buffer, 1, b); // arr[1] = b;\n STORE(buffer, 0, a); // arr[0] = a;\n }\n return this;\n }\n SORT(buffer, 0, length, comparator);\n return this;\n }\n\n join(separator: string = ","): string {\n var lastIndex = this.length_ - 1;\n if (lastIndex < 0) return "";\n var result = "";\n var value: T;\n var buffer = this.buffer_;\n var sepLen = separator.length;\n var hasSeparator = sepLen != 0;\n if (value instanceof bool) {\n if (!lastIndex) return select("true", "false", LOAD(buffer, 0));\n\n let valueLen = 5; // max possible length of element len("false")\n let estLen = (valueLen + sepLen) * lastIndex + valueLen;\n let result = allocateUnsafeString(estLen);\n let offset = 0;\n for (let i = 0; i < lastIndex; ++i) {\n value = LOAD(buffer, i);\n valueLen = 4 + (!value);\n copyUnsafeString(result, offset, select("true", "false", value), 0, valueLen);\n offset += valueLen;\n if (hasSeparator) {\n copyUnsafeString(result, offset, changetype(separator), 0, sepLen);\n offset += sepLen;\n }\n }\n value = LOAD(buffer, lastIndex);\n valueLen = 4 + (!value);\n copyUnsafeString(result, offset, select("true", "false", value), 0, valueLen);\n offset += valueLen;\n\n let out = result;\n if (estLen > offset) {\n out = result.substring(0, offset);\n freeUnsafeString(result);\n }\n return out;\n } else if (isInteger()) {\n if (!lastIndex) return changetype(itoa(LOAD(buffer, 0)));\n\n const valueLen = (sizeof() <= 4 ? 10 : 20) + isSigned();\n let estLen = (valueLen + sepLen) * lastIndex + valueLen;\n let result = allocateUnsafeString(estLen);\n let offset = 0;\n for (let i = 0; i < lastIndex; ++i) {\n value = LOAD(buffer, i);\n offset += itoa_stream(changetype(result), offset, value);\n if (hasSeparator) {\n copyUnsafeString(result, offset, separator, 0, sepLen);\n offset += sepLen;\n }\n }\n value = LOAD(buffer, lastIndex);\n offset += itoa_stream(changetype(result), offset, value);\n let out = result;\n if (estLen > offset) {\n out = result.substring(0, offset);\n freeUnsafeString(result);\n }\n return out;\n } else if (isFloat()) {\n if (!lastIndex) return changetype(dtoa(LOAD(buffer, 0)));\n\n const valueLen = MAX_DOUBLE_LENGTH;\n let estLen = (valueLen + sepLen) * lastIndex + valueLen;\n let result = allocateUnsafeString(estLen);\n let offset = 0;\n for (let i = 0; i < lastIndex; ++i) {\n value = LOAD(buffer, i);\n offset += dtoa_stream(changetype(result), offset, value);\n if (hasSeparator) {\n copyUnsafeString(result, offset, separator, 0, sepLen);\n offset += sepLen;\n }\n }\n value = LOAD(buffer, lastIndex);\n offset += dtoa_stream(changetype(result), offset, value);\n let out = result;\n if (estLen > offset) {\n out = result.substring(0, offset);\n freeUnsafeString(result);\n }\n return out;\n } else if (isString()) {\n if (!lastIndex) return LOAD(buffer, 0);\n\n let estLen = 0;\n for (let i = 0, len = lastIndex + 1; i < len; ++i) {\n estLen += LOAD(buffer, i).length;\n }\n let offset = 0;\n let result = allocateUnsafeString(estLen + sepLen * lastIndex);\n for (let i = 0; i < lastIndex; ++i) {\n value = LOAD(buffer, i);\n if (value) {\n let valueLen = value.length; // tslint:disable-line:no-unsafe-any\n copyUnsafeString(result, offset, value, 0, valueLen); // tslint:disable-line:no-unsafe-any\n offset += valueLen; // tslint:disable-line:no-unsafe-any\n }\n if (hasSeparator) {\n copyUnsafeString(result, offset, separator, 0, sepLen);\n offset += sepLen;\n }\n }\n value = LOAD(buffer, lastIndex);\n if (value) {\n let valueLen = value.length; // tslint:disable-line:no-unsafe-any\n copyUnsafeString(result, offset, value, 0, valueLen); // tslint:disable-line:no-unsafe-any\n }\n return result;\n } else if (isArray()) {\n if (!lastIndex) {\n value = LOAD(buffer, 0);\n return value ? value.join(separator) : ""; // tslint:disable-line:no-unsafe-any\n }\n for (let i = 0; i < lastIndex; ++i) {\n value = LOAD(buffer, i);\n if (value) result += value.join(separator); // tslint:disable-line:no-unsafe-any\n if (hasSeparator) result += separator;\n }\n value = LOAD(buffer, lastIndex);\n if (value) result += value.join(separator); // tslint:disable-line:no-unsafe-any\n return result;\n } else if (isReference()) { // References\n if (!lastIndex) return "[object Object]";\n const valueLen = 15; // max possible length of element len("[object Object]")\n let estLen = (valueLen + sepLen) * lastIndex + valueLen;\n let result = allocateUnsafeString(estLen);\n let offset = 0;\n for (let i = 0; i < lastIndex; ++i) {\n value = LOAD(buffer, i);\n if (value) {\n copyUnsafeString(result, offset, changetype("[object Object]"), 0, valueLen);\n offset += valueLen;\n }\n if (hasSeparator) {\n copyUnsafeString(result, offset, changetype(separator), 0, sepLen);\n offset += sepLen;\n }\n }\n if (LOAD(buffer, lastIndex)) {\n copyUnsafeString(result, offset, changetype("[object Object]"), 0, valueLen);\n offset += valueLen;\n }\n let out = result;\n if (estLen > offset) {\n out = result.substring(0, offset);\n freeUnsafeString(result);\n }\n return out;\n } else {\n assert(false); // Unsupported generic typename\n }\n }\n\n @inline\n toString(): string {\n return this.join();\n }\n\n private __gc(): void {\n var buffer = this.buffer_;\n __gc_mark(changetype(buffer)); // tslint:disable-line\n if (isManaged()) {\n let offset: usize = 0;\n let end = this.length_ << alignof();\n while (offset < end) {\n __gc_mark(load(changetype(buffer) + offset, HEADER_SIZE)); // tslint:disable-line\n offset += sizeof();\n }\n }\n }\n}\n',arraybuffer:'import {\n HEADER_SIZE,\n MAX_BLENGTH,\n allocateUnsafe\n} from "./internal/arraybuffer";\n\nimport {\n Uint8ClampedArray,\n Uint8Array,\n Int8Array,\n Uint16Array,\n Int16Array,\n Uint32Array,\n Int32Array,\n Uint64Array,\n Int64Array\n} from "./typedarray";\n\nimport {\n DataView\n} from "./dataview";\n\n@sealed\nexport class ArrayBuffer {\n\n readonly byteLength: i32; // capped to [0, MAX_LENGTH]\n\n @inline static isView(value: T): bool {\n if (value === null) return false;\n if (value instanceof Uint8ClampedArray) return true;\n if (value instanceof Uint8Array) return true;\n if (value instanceof Int8Array) return true;\n if (value instanceof Uint16Array) return true;\n if (value instanceof Int16Array) return true;\n if (value instanceof Uint32Array) return true;\n if (value instanceof Int32Array) return true;\n if (value instanceof Uint64Array) return true;\n if (value instanceof Int64Array) return true;\n if (value instanceof DataView) return true;\n return false;\n }\n\n // @unsafe\n @inline get data(): usize { return changetype(this) + HEADER_SIZE; }\n\n constructor(length: i32, unsafe: bool = false) {\n if (length > MAX_BLENGTH) throw new RangeError("Invalid array buffer length");\n var buffer = allocateUnsafe(length);\n if (!unsafe) memory.fill(changetype(buffer) + HEADER_SIZE, 0, length);\n return buffer;\n }\n\n slice(begin: i32 = 0, end: i32 = MAX_BLENGTH): ArrayBuffer {\n var len = this.byteLength;\n begin = begin < 0 ? max(len + begin, 0) : min(begin, len);\n end = end < 0 ? max(len + end, 0) : min(end, len);\n len = max(end - begin, 0);\n var buffer = allocateUnsafe(len);\n memory.copy(\n changetype(buffer) + HEADER_SIZE,\n changetype(this) + HEADER_SIZE + begin,\n len\n );\n return buffer;\n }\n\n toString(): string {\n return "[object ArrayBuffer]";\n }\n}\n',"bindings/Date":"export declare function UTC(\n // NOTE: Using i32 below saves us a f64.convert_s instruction and moves the responsibility for\n // converting the value to the WASM/JS boundary.\n year: i32,\n month: i32,\n day: i32,\n hour: i32,\n minute: i32,\n second: i32,\n millisecond: f64\n): f64;\nexport declare function now(): f64;\n","bindings/Math":"export declare const E: f64;\nexport declare const LN2: f64;\nexport declare const LN10: f64;\nexport declare const LOG2E: f64;\nexport declare const LOG10E: f64;\nexport declare const PI: f64;\nexport declare const SQRT1_2: f64;\nexport declare const SQRT2: f64;\n\nexport declare function abs(x: f64): f64;\nexport declare function acos(x: f64): f64;\nexport declare function acosh(x: f64): f64;\nexport declare function asin(x: f64): f64;\nexport declare function asinh(x: f64): f64;\nexport declare function atan(x: f64): f64;\nexport declare function atan2(y: f64, x: f64): f64;\nexport declare function atanh(x: f64): f64;\nexport declare function cbrt(x: f64): f64;\nexport declare function ceil(x: f64): f64;\nexport declare function clz32(x: f64): f64;\nexport declare function cos(x: f64): f64;\nexport declare function cosh(x: f64): f64;\nexport declare function exp(x: f64): f64;\nexport declare function expm1(x: f64): f64;\nexport declare function floor(x: f64): f64;\nexport declare function fround(x: f64): f32;\nexport declare function hypot(value1: f64, value2: f64): f64; // TODO: rest\nexport declare function imul(a: f64, b: f64): f64;\nexport declare function log(x: f64): f64;\nexport declare function log10(x: f64): f64;\nexport declare function log1p(x: f64): f64;\nexport declare function log2(x: f64): f64;\nexport declare function max(value1: f64, value2: f64): f64; // TODO: rest\nexport declare function min(value1: f64, value2: f64): f64; // TODO: rest\nexport declare function pow(base: f64, exponent: f64): f64;\nexport declare function random(): f64;\nexport declare function round(x: f64): f64;\nexport declare function sign(x: f64): f64;\nexport declare function sin(x: f64): f64;\nexport declare function sinh(x: f64): f64;\nexport declare function sqrt(x: f64): f64;\nexport declare function tan(x: f64): f64;\nexport declare function tanh(x: f64): f64;\nexport declare function trunc(x: f64): f64;\n",builtins:"/* tslint:disable */\n\n@builtin @inline export const NaN: f64 = 0 / 0;\n@builtin @inline export const Infinity: f64 = 1 / 0;\n\n@builtin export declare function isInteger(value?: T): bool;\n@builtin export declare function isFloat(value?: T): bool;\n@builtin export declare function isSigned(value?: T): bool;\n@builtin export declare function isReference(value?: T): bool;\n@builtin export declare function isString(value?: T): bool;\n@builtin export declare function isArray(value?: T): bool;\n@builtin export declare function isArrayLike(value?: T): bool;\n@builtin export declare function isFunction(value?: T): bool;\n@builtin export declare function isNullable(value?: T): bool;\n@builtin export declare function isDefined(expression: void): bool;\n@builtin export declare function isConstant(expression: void): bool;\n@builtin export declare function isManaged(value?: T): bool;\n@inline export function isNaN(value: T): bool { return value != value; }\n@inline export function isFinite(value: T): bool { return value - value == 0; }\n\n@builtin export declare function clz(value: T): T;\n@builtin export declare function ctz(value: T): T;\n@builtin export declare function popcnt(value: T): T;\n@builtin export declare function rotl(value: T, shift: T): T;\n@builtin export declare function rotr(value: T, shift: T): T;\n@builtin export declare function abs(value: T): T;\n@builtin export declare function max(left: T, right: T): T;\n@builtin export declare function min(left: T, right: T): T;\n@builtin export declare function ceil(value: T): T;\n@builtin export declare function floor(value: T): T;\n@builtin export declare function copysign(left: T, right: T): T;\n@builtin export declare function nearest(value: T): T;\n@builtin export declare function reinterpret(value: void): T;\n@builtin export declare function sqrt(value: T): T;\n@builtin export declare function trunc(value: T): T;\n@builtin export declare function load(offset: usize, immOffset?: usize, immAlign?: usize): T;\n@builtin export declare function store(offset: usize, value: void, immOffset?: usize, immAlign?: usize): void;\n@builtin export declare function sizeof(): usize; // | u32 / u64\n@builtin export declare function alignof(): usize; // | u32 / u64\n@builtin export declare function offsetof(fieldName?: string): usize; // | u32 / u64\n@builtin export declare function select(ifTrue: T, ifFalse: T, condition: bool): T;\n@builtin export declare function unreachable(): void;\n@builtin export declare function changetype(value: void): T;\n@builtin export declare function assert(isTrueish: T, message?: string): T;\n@builtin export declare function unchecked(expr: T): T;\n@builtin export declare function call_indirect(target: void, ...args: void[]): T;\n@builtin export declare function instantiate(...args: void[]): T;\n\nexport namespace atomic {\n @builtin export declare function load(offset: usize, immOffset?: usize): T;\n @builtin export declare function store(offset: usize, value: T, immOffset?: usize): void;\n @builtin export declare function add(ptr: usize, value: T, immOffset?: usize): T;\n @builtin export declare function sub(ptr: usize, value: T, immOffset?: usize): T;\n @builtin export declare function and(ptr: usize, value: T, immOffset?: usize): T;\n @builtin export declare function or(ptr: usize, value: T, immOffset?: usize): T;\n @builtin export declare function xor(ptr: usize, value: T, immOffset?: usize): T;\n @builtin export declare function xchg(ptr: usize, value: T, immOffset?: usize): T;\n @builtin export declare function cmpxchg(ptr: usize, expected: T, replacement: T, immOffset?: usize): T;\n @builtin export declare function wait(ptr: usize, expected: T, timeout: i64): AtomicWaitResult;\n @builtin export declare function notify(ptr: usize, count: i32): i32;\n}\n\n@lazy export const enum AtomicWaitResult {\n OK = 0,\n NOT_EQUAL = 1,\n TIMED_OUT = 2\n}\n\n@builtin export declare function i8(value: void): i8;\nexport namespace i8 {\n @lazy export const MIN_VALUE: i8 = -128;\n @lazy export const MAX_VALUE: i8 = 127;\n}\n\n@builtin export declare function i16(value: void): i16;\nexport namespace i16 {\n @lazy export const MIN_VALUE: i16 = -32768;\n @lazy export const MAX_VALUE: i16 = 32767;\n}\n\n@builtin export declare function i32(value: void): i32;\nexport namespace i32 {\n @lazy export const MIN_VALUE: i32 = -2147483648;\n @lazy export const MAX_VALUE: i32 = 2147483647;\n @builtin export declare function clz(value: i32): i32;\n @builtin export declare function ctz(value: i32): i32;\n @builtin export declare function popcnt(value: i32): i32;\n @builtin export declare function rotl(value: i32, shift: i32): i32;\n @builtin export declare function rotr(value: i32, shift: i32): i32;\n @builtin export declare function reinterpret_f32(value: f32): i32;\n @builtin export declare function load8_s(offset: usize, immOffset?: usize, immAlign?: usize): i32;\n @builtin export declare function load8_u(offset: usize, immOffset?: usize, immAlign?: usize): i32;\n @builtin export declare function load16_s(offset: usize, immOffset?: usize, immAlign?: usize): i32;\n @builtin export declare function load16_u(offset: usize, immOffset?: usize, immAlign?: usize): i32;\n @builtin export declare function load(offset: usize, immOffset?: usize, immAlign?: usize): i32;\n @builtin export declare function store8(offset: usize, value: i32, immOffset?: usize, immAlign?: usize): void;\n @builtin export declare function store16(offset: usize, value: i32, immOffset?: usize, immAlign?: usize): void;\n @builtin export declare function store(offset: usize, value: i32, immOffset?: usize, immAlign?: usize): void;\n \n export namespace atomic {\n @builtin export declare function load8_u(offset: usize, immOffset?: usize): i32;\n @builtin export declare function load16_u(offset: usize, immOffset?: usize): i32;\n @builtin export declare function load(offset: usize, immOffset?: usize): i32;\n @builtin export declare function store8(offset: usize, value: i32, immOffset?: usize): void;\n @builtin export declare function store16(offset: usize, value: i32, immOffset?: usize): void;\n @builtin export declare function store(offset: usize, value: i32, immOffset?: usize): void;\n @builtin export declare function wait(ptr: usize, expected: i32, timeout: i64): AtomicWaitResult;\n @builtin export declare function notify(ptr: usize, count: i32): i32;\n\n export namespace rmw8 {\n @builtin export declare function add_u(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function sub_u(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function and_u(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function or_u(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function xor_u(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function xchg_u(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function cmpxchg_u(offset: usize, expected: i32, replacement: i32, immOffset?: usize): i32;\n }\n export namespace rmw16 {\n @builtin export declare function add_u(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function sub_u(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function and_u(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function or_u(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function xor_u(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function xchg_u(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function cmpxchg_u(offset: usize, expected: i32, replacement: i32, immOffset?: usize): i32;\n }\n export namespace rmw {\n @builtin export declare function add(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function sub(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function and(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function or(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function xor(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function xchg(offset: usize, value: i32, immOffset?: usize): i32;\n @builtin export declare function cmpxchg(offset: usize, expected: i32, replacement: i32, immOffset?: usize): i32;\n }\n }\n}\n\n@builtin export declare function i64(value: void): i64;\nexport namespace i64 {\n @lazy export const MIN_VALUE: i64 = -9223372036854775808;\n @lazy export const MAX_VALUE: i64 = 9223372036854775807;\n @builtin export declare function clz(value: i64): i64;\n @builtin export declare function ctz(value: i64): i64;\n @builtin export declare function load8_s(offset: usize, immOffset?: usize, immAlign?: usize): i64;\n @builtin export declare function load8_u(offset: usize, immOffset?: usize, immAlign?: usize): i64;\n @builtin export declare function load16_s(offset: usize, immOffset?: usize, immAlign?: usize): i64;\n @builtin export declare function load16_u(offset: usize, immOffset?: usize, immAlign?: usize): i64;\n @builtin export declare function load32_s(offset: usize, immOffset?: usize, immAlign?: usize): i64;\n @builtin export declare function load32_u(offset: usize, immOffset?: usize, immAlign?: usize): i64;\n @builtin export declare function load(offset: usize, immOffset?: usize): i64;\n @builtin export declare function popcnt(value: i64): i64;\n @builtin export declare function rotl(value: i64, shift: i64): i64;\n @builtin export declare function rotr(value: i64, shift: i64): i64;\n @builtin export declare function reinterpret_f64(value: f64): i64;\n @builtin export declare function store8(offset: usize, value: i64, immOffset?: usize, immAlign?: usize): void;\n @builtin export declare function store16(offset: usize, value: i64, immOffset?: usize, immAlign?: usize): void;\n @builtin export declare function store32(offset: usize, value: i64, immOffset?: usize, immAlign?: usize): void;\n @builtin export declare function store(offset: usize, value: i64, immOffset?: usize, immAlign?: usize): void;\n\n export namespace atomic {\n @builtin export declare function load8_u(offset: usize, immOffset?: usize): i64;\n @builtin export declare function load16_u(offset: usize, immOffset?: usize): i64;\n @builtin export declare function load32_u(offset: usize, immOffset?: usize): i64;\n @builtin export declare function load(offset: usize, immOffset?: usize): i64;\n @builtin export declare function store8(offset: usize, value: i64, immOffset?: usize): void;\n @builtin export declare function store16(offset: usize, value: i64, immOffset?: usize): void;\n @builtin export declare function store32(offset: usize, value: i64, immOffset?: usize): void;\n @builtin export declare function store(offset: usize, value: i64, immOffset?: usize): void;\n @builtin export declare function wait(ptr: usize, expected: i64, timeout: i64): AtomicWaitResult;\n @builtin export declare function notify(ptr: usize, count: i32): i32;\n\n export namespace rmw8 {\n @builtin export declare function add_u(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function sub_u(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function and_u(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function or_u(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function xor_u(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function xchg_u(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function cmpxchg_u(offset: usize, expected: i64, replacement: i64, immOffset?: usize): i64;\n }\n export namespace rmw16 {\n @builtin export declare function add_u(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function sub_u(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function and_u(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function or_u(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function xor_u(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function xchg_u(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function cmpxchg_u(offset: usize, expected: i64, replacement: i64, immOffset?: usize): i64;\n }\n export namespace rmw32 {\n @builtin export declare function add_u(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function sub_u(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function and_u(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function or_u(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function xor_u(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function xchg_u(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function cmpxchg_u(offset: usize, expected: i64, replacement: i64, immOffset?: usize): i64;\n }\n export namespace rmw {\n @builtin export declare function add(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function sub(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function and(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function or(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function xor(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function xchg(offset: usize, value: i64, immOffset?: usize): i64;\n @builtin export declare function cmpxchg(offset: usize, expected: i64, replacement: i64, immOffset?: usize): i64;\n }\n }\n}\n\n@builtin export declare function isize(value: void): isize;\nexport namespace isize {\n @lazy export const MIN_VALUE: isize = sizeof() == sizeof()\n ? -2147483648\n : -9223372036854775808;\n @lazy export const MAX_VALUE: isize = sizeof() == sizeof()\n ? 2147483647\n : 9223372036854775807;\n}\n\n@builtin export declare function u8(value: void): u8;\nexport namespace u8 {\n @lazy export const MIN_VALUE: u8 = 0;\n @lazy export const MAX_VALUE: u8 = 255;\n}\n\n@builtin export declare function u16(value: void): u16;\nexport namespace u16 {\n @lazy export const MIN_VALUE: u16 = 0;\n @lazy export const MAX_VALUE: u16 = 65535;\n}\n\n@builtin export declare function u32(value: void): u32;\nexport namespace u32 {\n @lazy export const MIN_VALUE: u32 = 0;\n @lazy export const MAX_VALUE: u32 = 4294967295;\n}\n\n@builtin export declare function u64(value: void): u64;\nexport namespace u64 {\n @lazy export const MIN_VALUE: u64 = 0;\n @lazy export const MAX_VALUE: u64 = 18446744073709551615;\n}\n\n@builtin export declare function usize(value: void): usize;\nexport namespace usize {\n @lazy export const MIN_VALUE: usize = 0;\n @lazy export const MAX_VALUE: usize = sizeof() == sizeof()\n ? 4294967295\n : 18446744073709551615;\n}\n\n@builtin export declare function bool(value: void): bool;\nexport namespace bool {\n @lazy export const MIN_VALUE: bool = false;\n @lazy export const MAX_VALUE: bool = true;\n}\n\n@builtin export declare function f32(value: void): f32;\nexport namespace f32 {\n @lazy export const EPSILON = reinterpret(0x34000000); // 0x1p-23f\n @lazy export const MIN_VALUE = reinterpret(0x00000001); // 0x0.000001p+0f\n @lazy export const MAX_VALUE = reinterpret(0x7F7FFFFF); // 0x1.fffffep+127f\n @lazy export const MIN_NORMAL_VALUE = reinterpret(0x00800000); // 0x1p-126f\n @lazy export const MIN_SAFE_INTEGER: f32 = -16777215;\n @lazy export const MAX_SAFE_INTEGER: f32 = 16777215;\n @builtin export declare function abs(value: f32): f32;\n @builtin export declare function ceil(value: f32): f32;\n @builtin export declare function copysign(x: f32, y: f32): f32;\n @builtin export declare function floor(value: f32): f32;\n @builtin export declare function load(offset: usize, immOffset?: usize, immAlign?: usize): f32;\n @builtin export declare function max(left: f32, right: f32): f32;\n @builtin export declare function min(left: f32, right: f32): f32;\n @builtin export declare function nearest(value: f32): f32;\n @builtin export declare function reinterpret_i32(value: i32): f32;\n @builtin export declare function sqrt(value: f32): f32;\n @builtin export declare function store(offset: usize, value: f32, immOffset?: usize, immAlign?: usize): void;\n @builtin export declare function trunc(value: f32): f32;\n}\n\n@builtin export declare function f64(value: void): f64;\nexport namespace f64 {\n @lazy export const EPSILON = reinterpret(0x3CB0000000000000); // 0x1p-52\n @lazy export const MIN_VALUE = reinterpret(0x0000000000000001); // 0x0.0000000000001p+0\n @lazy export const MAX_VALUE = reinterpret(0x7FEFFFFFFFFFFFFF); // 0x1.fffffffffffffp+1023\n @lazy export const MIN_NORMAL_VALUE = reinterpret(0x0010000000000000); // 0x1p-1022\n @lazy export const MIN_SAFE_INTEGER: f64 = -9007199254740991;\n @lazy export const MAX_SAFE_INTEGER: f64 = 9007199254740991;\n @builtin export declare function abs(value: f64): f64;\n @builtin export declare function ceil(value: f64): f64;\n @builtin export declare function copysign(x: f64, y: f64): f64;\n @builtin export declare function floor(value: f64): f64;\n @builtin export declare function load(offset: usize, immOffset?: usize, immAlign?: usize): f64;\n @builtin export declare function max(left: f64, right: f64): f64;\n @builtin export declare function min(left: f64, right: f64): f64;\n @builtin export declare function nearest(value: f64): f64;\n @builtin export declare function reinterpret_i64(value: i64): f64;\n @builtin export declare function sqrt(value: f64): f64;\n @builtin export declare function store(offset: usize, value: f64, immOffset?: usize, immAlign?: usize): void;\n @builtin export declare function trunc(value: f64): f64;\n}\n\n@builtin export declare function v128(a: i8, b: i8, c: i8, d: i8, e: i8, f: i8, g: i8, h: i8, i: i8, j: i8, k: i8, l: i8, m: i8, n: i8, o: i8, p: i8): v128;\nexport namespace v128 {\n @builtin export declare function splat(x: T): v128;\n @builtin export declare function extract_lane(x: v128, idx: u8): T;\n @builtin export declare function replace_lane(x: v128, idx: u8, value: T): v128;\n @builtin export declare function shuffle(a: v128, b: v128, ...lanes: u8[]): v128;\n @builtin export declare function load(offset: usize, immOffset?: usize, immAlign?: usize): v128;\n @builtin export declare function store(offset: usize, value: v128, immOffset?: usize, immAlign?: usize): void;\n @builtin export declare function add(a: v128, b: v128): v128;\n @builtin export declare function sub(a: v128, b: v128): v128;\n @builtin export declare function mul(a: v128, b: v128): v128; // except i64\n @builtin export declare function div(a: v128, b: v128): v128; // f32, f64 only\n @builtin export declare function neg(a: v128): v128;\n @builtin export declare function add_saturate(a: v128, b: v128): v128;\n @builtin export declare function sub_saturate(a: v128, b: v128): v128;\n @builtin export declare function shl(a: v128, b: i32): v128;\n @builtin export declare function shr(a: v128, b: i32): v128;\n @builtin export declare function and(a: v128, b: v128): v128;\n @builtin export declare function or(a: v128, b: v128): v128;\n @builtin export declare function xor(a: v128, b: v128): v128;\n @builtin export declare function not(a: v128): v128;\n @builtin export declare function bitselect(v1: v128, v2: v128, c: v128): v128;\n @builtin export declare function any_true(a: v128): bool;\n @builtin export declare function all_true(a: v128): bool;\n @builtin export declare function min(a: v128, b: v128): v128; // f32, f64 only\n @builtin export declare function max(a: v128, b: v128): v128; // f32, f64 only\n @builtin export declare function abs(a: v128): v128; // f32, f64 only\n @builtin export declare function sqrt(a: v128): v128; // f32, f64 only\n @builtin export declare function eq(a: v128, b: v128): v128;\n @builtin export declare function ne(a: v128, b: v128): v128;\n @builtin export declare function lt(a: v128, b: v128): v128;\n @builtin export declare function le(a: v128, b: v128): v128;\n @builtin export declare function gt(a: v128, b: v128): v128;\n @builtin export declare function ge(a: v128, b: v128): v128;\n @builtin export declare function convert(a: v128): v128;\n @builtin export declare function trunc(a: v128): v128;\n}\n\n@builtin export declare function i8x16(a: i8, b: i8, c: i8, d: i8, e: i8, f: i8, g: i8, h: i8, i: i8, j: i8, k: i8, l: i8, m: i8, n: i8, o: i8, p: i8): v128;\nexport namespace i8x16 {\n @builtin export declare function splat(x: i8): v128;\n @builtin export declare function extract_lane_s(x: v128, idx: u8): i8;\n @builtin export declare function extract_lane_u(x: v128, idx: u8): u8;\n @builtin export declare function replace_lane(x: v128, idx: u8, value: i8): v128;\n @builtin export declare function add(a: v128, b: v128): v128;\n @builtin export declare function sub(a: v128, b: v128): v128;\n @builtin export declare function mul(a: v128, b: v128): v128;\n @builtin export declare function neg(a: v128): v128;\n @builtin export declare function add_saturate_s(a: v128, b: v128): v128;\n @builtin export declare function add_saturate_u(a: v128, b: v128): v128;\n @builtin export declare function sub_saturate_s(a: v128, b: v128): v128;\n @builtin export declare function sub_saturate_u(a: v128, b: v128): v128;\n @builtin export declare function shl(a: v128, b: i32): v128;\n @builtin export declare function shr_s(a: v128, b: i32): v128;\n @builtin export declare function shr_u(a: v128, b: i32): v128;\n @builtin export declare function any_true(a: v128): bool;\n @builtin export declare function all_true(a: v128): bool;\n @builtin export declare function eq(a: v128, b: v128): v128;\n @builtin export declare function ne(a: v128, b: v128): v128;\n @builtin export declare function lt_s(a: v128, b: v128): v128;\n @builtin export declare function lt_u(a: v128, b: v128): v128;\n @builtin export declare function le_s(a: v128, b: v128): v128;\n @builtin export declare function le_u(a: v128, b: v128): v128;\n @builtin export declare function gt_s(a: v128, b: v128): v128;\n @builtin export declare function gt_u(a: v128, b: v128): v128;\n @builtin export declare function ge_s(a: v128, b: v128): v128;\n @builtin export declare function ge_u(a: v128, b: v128): v128;\n}\n\n@builtin export declare function i16x8(a: i16, b: i16, c: i16, d: i16, e: i16, f: i16, g: i16, h: i16): v128;\nexport namespace i16x8 {\n @builtin export declare function splat(x: i16): v128;\n @builtin export declare function extract_lane_s(x: v128, idx: u8): i16;\n @builtin export declare function extract_lane_u(x: v128, idx: u8): u16;\n @builtin export declare function replace_lane(x: v128, idx: u8, value: i16): v128;\n @builtin export declare function add(a: v128, b: v128): v128;\n @builtin export declare function sub(a: v128, b: v128): v128;\n @builtin export declare function mul(a: v128, b: v128): v128;\n @builtin export declare function neg(a: v128): v128;\n @builtin export declare function add_saturate_s(a: v128, b: v128): v128;\n @builtin export declare function add_saturate_u(a: v128, b: v128): v128;\n @builtin export declare function sub_saturate_s(a: v128, b: v128): v128;\n @builtin export declare function sub_saturate_u(a: v128, b: v128): v128;\n @builtin export declare function shl(a: v128, b: i32): v128;\n @builtin export declare function shr_s(a: v128, b: i32): v128;\n @builtin export declare function shr_u(a: v128, b: i32): v128;\n @builtin export declare function any_true(a: v128): bool;\n @builtin export declare function all_true(a: v128): bool;\n @builtin export declare function eq(a: v128, b: v128): v128;\n @builtin export declare function ne(a: v128, b: v128): v128;\n @builtin export declare function lt_s(a: v128, b: v128): v128;\n @builtin export declare function lt_u(a: v128, b: v128): v128;\n @builtin export declare function le_s(a: v128, b: v128): v128;\n @builtin export declare function le_u(a: v128, b: v128): v128;\n @builtin export declare function gt_s(a: v128, b: v128): v128;\n @builtin export declare function gt_u(a: v128, b: v128): v128;\n @builtin export declare function ge_s(a: v128, b: v128): v128;\n @builtin export declare function ge_u(a: v128, b: v128): v128;\n}\n\n@builtin export declare function i32x4(a: i32, b: i32, c: i32, d: i32): v128;\nexport namespace i32x4 {\n @builtin export declare function splat(x: i32): v128;\n @builtin export declare function extract_lane(x: v128, idx: u8): i32;\n @builtin export declare function replace_lane(x: v128, idx: u8, value: i32): v128;\n @builtin export declare function add(a: v128, b: v128): v128;\n @builtin export declare function sub(a: v128, b: v128): v128;\n @builtin export declare function mul(a: v128, b: v128): v128;\n @builtin export declare function neg(a: v128): v128;\n @builtin export declare function shl(a: v128, b: i32): v128;\n @builtin export declare function shr_s(a: v128, b: i32): v128;\n @builtin export declare function shr_u(a: v128, b: i32): v128;\n @builtin export declare function any_true(a: v128): bool;\n @builtin export declare function all_true(a: v128): bool;\n @builtin export declare function eq(a: v128, b: v128): v128;\n @builtin export declare function ne(a: v128, b: v128): v128;\n @builtin export declare function lt_s(a: v128, b: v128): v128;\n @builtin export declare function lt_u(a: v128, b: v128): v128;\n @builtin export declare function le_s(a: v128, b: v128): v128;\n @builtin export declare function le_u(a: v128, b: v128): v128;\n @builtin export declare function gt_s(a: v128, b: v128): v128;\n @builtin export declare function gt_u(a: v128, b: v128): v128;\n @builtin export declare function ge_s(a: v128, b: v128): v128;\n @builtin export declare function ge_u(a: v128, b: v128): v128;\n @builtin export declare function trunc_s_f32x4_sat(a: v128): v128;\n @builtin export declare function trunc_u_f32x4_sat(a: v128): v128;\n}\n\n@builtin export declare function i64x2(a: i64, b: i64): v128;\nexport namespace i64x2 {\n @builtin export declare function splat(x: i64): v128;\n @builtin export declare function extract_lane(x: v128, idx: u8): i64;\n @builtin export declare function replace_lane(x: v128, idx: u8, value: i64): v128;\n @builtin export declare function add(a: v128, b: v128): v128;\n @builtin export declare function sub(a: v128, b: v128): v128;\n @builtin export declare function mul(a: v128, b: v128): v128;\n @builtin export declare function neg(a: v128): v128;\n @builtin export declare function shl(a: v128, b: i32): v128;\n @builtin export declare function shr_s(a: v128, b: i32): v128;\n @builtin export declare function shr_u(a: v128, b: i32): v128;\n @builtin export declare function any_true(a: v128): bool;\n @builtin export declare function all_true(a: v128): bool;\n @builtin export declare function trunc_s_f64x2_sat(a: v128): v128;\n @builtin export declare function trunc_u_f64x2_sat(a: v128): v128;\n}\n\n@builtin export declare function f32x4(a: f32, b: f32, c: f32, d: f32): v128;\nexport namespace f32x4 {\n @builtin export declare function splat(x: f32): v128;\n @builtin export declare function extract_lane(x: v128, idx: u8): f32;\n @builtin export declare function replace_lane(x: v128, idx: u8, value: f32): v128;\n @builtin export declare function add(a: v128, b: v128): v128;\n @builtin export declare function sub(a: v128, b: v128): v128;\n @builtin export declare function mul(a: v128, b: v128): v128;\n @builtin export declare function div(a: v128, b: v128): v128;\n @builtin export declare function neg(a: v128): v128;\n @builtin export declare function min(a: v128, b: v128): v128;\n @builtin export declare function max(a: v128, b: v128): v128;\n @builtin export declare function abs(a: v128): v128;\n @builtin export declare function sqrt(a: v128): v128;\n @builtin export declare function eq(a: v128, b: v128): v128;\n @builtin export declare function ne(a: v128, b: v128): v128;\n @builtin export declare function lt(a: v128, b: v128): v128;\n @builtin export declare function le(a: v128, b: v128): v128;\n @builtin export declare function gt(a: v128, b: v128): v128;\n @builtin export declare function ge(a: v128, b: v128): v128;\n @builtin export declare function convert_s_i32x4(a: v128): v128;\n @builtin export declare function convert_u_i32x4(a: v128): v128;\n}\n\n@builtin export declare function f64x2(a: f64, b: f64): v128;\nexport namespace f64x2 {\n @builtin export declare function splat(x: f64): v128;\n @builtin export declare function extract_lane(x: v128, idx: u8): f64;\n @builtin export declare function replace_lane(x: v128, idx: u8, value: f64): v128;\n @builtin export declare function add(a: v128, b: v128): v128;\n @builtin export declare function sub(a: v128, b: v128): v128;\n @builtin export declare function mul(a: v128, b: v128): v128;\n @builtin export declare function div(a: v128, b: v128): v128;\n @builtin export declare function neg(a: v128): v128;\n @builtin export declare function min(a: v128, b: v128): v128;\n @builtin export declare function max(a: v128, b: v128): v128;\n @builtin export declare function abs(a: v128): v128;\n @builtin export declare function sqrt(a: v128): v128;\n @builtin export declare function eq(a: v128, b: v128): v128;\n @builtin export declare function ne(a: v128, b: v128): v128;\n @builtin export declare function lt(a: v128, b: v128): v128;\n @builtin export declare function le(a: v128, b: v128): v128;\n @builtin export declare function gt(a: v128, b: v128): v128;\n @builtin export declare function ge(a: v128, b: v128): v128;\n @builtin export declare function convert_s_i64x2(a: v128): v128;\n @builtin export declare function convert_u_i64x2(a: v128): v128;\n}\n\nexport namespace v8x16 {\n @builtin export declare function shuffle(a: v128, b: v128, l0: u8, l1: u8, l2: u8, l3: u8, l4: u8, l5: u8, l6: u8, l7: u8, l8: u8, l9: u8, l10: u8, l11: u8, l12: u8, l13: u8, l14: u8, l15: u8): v128;\n}\n\n@builtin export declare function start(): void;\n","collector/itcm":'/**\n * Incremental Tri-Color-Marking Garbage Collector.\n *\n * @module std/assembly/collector/itcm\n *//***/\n\n// Largely based on Bach Le\'s μgc, see: https://github.com/bullno1/ugc\n\n@inline const TRACE = false;\n\n/** Size of a managed object header. */\n@inline export const HEADER_SIZE: usize = (offsetof() + AL_MASK) & ~AL_MASK;\n\nimport { AL_MASK, MAX_SIZE_32 } from "../internal/allocator";\nimport { iterateRoots } from "../gc";\n\n/** Collector states. */\nconst enum State {\n /** Not yet initialized. */\n INIT = 0,\n /** Currently transitioning from SWEEP to MARK state. */\n IDLE = 1,\n /** Currently marking reachable objects. */\n MARK = 2,\n /** Currently sweeping unreachable objects. */\n SWEEP = 3\n}\n\n/** Current collector state. */\nvar state = State.INIT;\n/** Current white color value. */\nvar white = 0;\n\n// From and to spaces\nvar fromSpace: ManagedObjectList;\nvar toSpace: ManagedObjectList;\nvar iter: ManagedObject;\n\n// ╒═══════════════ Managed object layout (32-bit) ════════════════╕\n// 3 2 1\n// 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 bits\n// ├─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┼─┼─┴─┤ ┐\n// │ next │0│ C │ ◄─┐ = nextWithColor\n// ├─────────────────────────────────────────────────────────┴─┴───┤ │ usize\n// │ prev │ ◄─┘\n// ├───────────────────────────────────────────────────────────────┤\n// │ hookFn │\n// ╞═══════════════════════════════════════════════════════════════╡ SIZE ┘ ◄─ user-space reference\n// │ ... data ... │\n// └───────────────────────────────────────────────────────────────┘\n// C: color\n\n/** Represents a managed object in memory, consisting of a header followed by the object\'s data. */\n@unmanaged class ManagedObject {\n\n /** Pointer to the next object with color flags stored in the alignment bits. */\n nextWithColor: usize;\n\n /** Pointer to the previous object. */\n prev: ManagedObject;\n\n /** Class-specific hook function called with the user-space reference. */\n hookFn: (ref: usize) => void;\n\n /** Gets the pointer to the next object. */\n get next(): ManagedObject {\n return changetype(this.nextWithColor & ~3);\n }\n\n /** Sets the pointer to the next object. */\n set next(obj: ManagedObject) {\n this.nextWithColor = changetype(obj) | (this.nextWithColor & 3);\n }\n\n /** Gets this object\'s color. */\n get color(): i32 {\n return this.nextWithColor & 3;\n }\n\n /** Sets this object\'s color. */\n set color(color: i32) {\n this.nextWithColor = (this.nextWithColor & ~3) | color;\n }\n\n /** Unlinks this object from its list. */\n unlink(): void {\n var next = this.next;\n var prev = this.prev;\n if (TRACE) trace(" unlink", 3, objToRef(prev), objToRef(this), objToRef(next));\n next.prev = prev;\n prev.next = next;\n }\n\n /** Marks this object as gray, that is reachable with unscanned children. */\n makeGray(): void {\n if (TRACE) trace(" makeGray", 1, objToRef(this));\n const gray = 2;\n if (this == iter) iter = this.prev;\n this.unlink();\n toSpace.push(this);\n this.nextWithColor = (this.nextWithColor & ~3) | gray;\n }\n}\n\n/** A list of managed objects. Used for the from and to spaces. */\n@unmanaged class ManagedObjectList extends ManagedObject {\n\n /** Inserts an object. */\n push(obj: ManagedObject): void {\n var prev = this.prev;\n if (TRACE) trace(" push", 3, objToRef(prev), objToRef(obj), objToRef(this));\n obj.next = this;\n obj.prev = prev;\n prev.next = obj;\n this.prev = obj;\n }\n\n /** Clears this list. */\n clear(): void {\n if (TRACE) trace(" clear", 1, objToRef(this));\n this.nextWithColor = changetype(this);\n this.prev = this;\n }\n}\n\n/** Performs a single step according to the current state. */\nfunction step(): void {\n var obj: ManagedObject;\n switch (state) {\n case State.INIT: {\n if (TRACE) trace("gc~step/INIT");\n fromSpace = changetype(memory.allocate(HEADER_SIZE));\n fromSpace.hookFn = changetype<(ref: usize) => void>(-1); // would error\n fromSpace.clear();\n toSpace = changetype(memory.allocate(HEADER_SIZE));\n toSpace.hookFn = changetype<(ref: usize) => void>(-1); // would error\n toSpace.clear();\n iter = toSpace;\n state = State.IDLE;\n if (TRACE) trace("gc~state = IDLE");\n // fall-through\n }\n case State.IDLE: {\n if (TRACE) trace("gc~step/IDLE");\n iterateRoots(__gc_mark);\n state = State.MARK;\n if (TRACE) trace("gc~state = MARK");\n break;\n }\n case State.MARK: {\n obj = iter.next;\n if (obj !== toSpace) {\n if (TRACE) trace("gc~step/MARK iterate", 1, objToRef(obj));\n iter = obj;\n obj.color = !white;\n // if (TRACE) {\n // trace(" next/prev/hook", 3,\n // changetype(obj.next),\n // changetype(obj.prev),\n // changetype(obj.hookFn)\n // );\n // }\n obj.hookFn(objToRef(obj));\n } else {\n if (TRACE) trace("gc~step/MARK finish");\n iterateRoots(__gc_mark);\n obj = iter.next;\n if (obj === toSpace) {\n let from = fromSpace;\n fromSpace = toSpace;\n toSpace = from;\n white = !white;\n iter = from.next;\n state = State.SWEEP;\n if (TRACE) trace("gc~state = SWEEP");\n }\n }\n break;\n }\n case State.SWEEP: {\n obj = iter;\n if (obj !== toSpace) {\n if (TRACE) trace("gc~step/SWEEP free", 1, objToRef(obj));\n iter = obj.next;\n if (changetype(obj) >= HEAP_BASE) memory.free(changetype(obj));\n } else {\n if (TRACE) trace("gc~step/SWEEP finish");\n toSpace.clear();\n state = State.IDLE;\n if (TRACE) trace("gc~state = IDLE");\n }\n break;\n }\n }\n}\n\n@inline function refToObj(ref: usize): ManagedObject {\n return changetype(ref - HEADER_SIZE);\n}\n\n@inline function objToRef(obj: ManagedObject): usize {\n return changetype(obj) + HEADER_SIZE;\n}\n\n// Garbage collector interface\n\n@global export function __gc_allocate(\n size: usize,\n markFn: (ref: usize) => void\n): usize {\n if (TRACE) trace("gc.allocate", 1, size);\n if (size > MAX_SIZE_32 - HEADER_SIZE) unreachable();\n step(); // also makes sure it\'s initialized\n var obj = changetype(memory.allocate(HEADER_SIZE + size));\n obj.hookFn = markFn;\n obj.color = white;\n fromSpace.push(obj);\n return objToRef(obj);\n}\n\n@global export function __gc_link(parentRef: usize, childRef: usize): void {\n if (TRACE) trace("gc.link", 2, parentRef, childRef);\n var parent = refToObj(parentRef);\n if (parent.color == !white && refToObj(childRef).color == white) parent.makeGray();\n}\n\n@global export function __gc_mark(ref: usize): void {\n if (TRACE) trace("gc.mark", 1, ref);\n if (ref) {\n let obj = refToObj(ref);\n if (obj.color == white) obj.makeGray();\n }\n}\n\n@global export function __gc_collect(): void {\n if (TRACE) trace("gc.collect");\n // begin collecting if not yet collecting\n switch (state) {\n case State.INIT:\n case State.IDLE: step();\n }\n // finish the cycle\n while (state != State.IDLE) step();\n}\n',dataview:'import {\n HEADER_SIZE,\n MAX_BLENGTH\n} from "./internal/arraybuffer";\n\nexport class DataView {\n\n constructor(\n readonly buffer: ArrayBuffer,\n readonly byteOffset: i32 = 0,\n readonly byteLength: i32 = i32.MIN_VALUE // FIXME\n ) {\n if (byteLength === i32.MIN_VALUE) byteLength = buffer.byteLength - byteOffset; // FIXME\n if (byteOffset > MAX_BLENGTH) throw new RangeError("Invalid byteOffset");\n if (byteLength > MAX_BLENGTH) throw new RangeError("Invalid byteLength");\n if (byteOffset + byteLength > buffer.byteLength) throw new RangeError("Invalid length");\n }\n\n getFloat32(byteOffset: i32, littleEndian: boolean = false): f32 {\n checkOffset(byteOffset, 4, this.byteLength);\n return littleEndian\n ? load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE)\n : reinterpret(\n bswap(\n load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE)\n )\n );\n }\n\n getFloat64(byteOffset: i32, littleEndian: boolean = false): f64 {\n checkOffset(byteOffset, 8, this.byteLength);\n return littleEndian\n ? load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE)\n : reinterpret(\n bswap(\n load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE)\n )\n );\n }\n\n getInt8(byteOffset: i32): i8 {\n checkOffset(byteOffset, 1, this.byteLength);\n return load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE);\n }\n\n getInt16(byteOffset: i32, littleEndian: boolean = false): i16 {\n checkOffset(byteOffset, 2, this.byteLength);\n var result: i16 = load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE);\n return littleEndian ? result : bswap(result);\n }\n\n getInt32(byteOffset: i32, littleEndian: boolean = false): i32 {\n checkOffset(byteOffset, 4, this.byteLength);\n var result = load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE);\n return littleEndian ? result : bswap(result);\n }\n\n getUint8(byteOffset: i32): u8 {\n checkOffset(byteOffset, 1, this.byteLength);\n return load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE);\n }\n\n getUint16(byteOffset: i32, littleEndian: boolean = false): u16 {\n checkOffset(byteOffset, 2, this.byteLength);\n var result: u16 = load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE);\n return littleEndian ? result : bswap(result);\n }\n\n getUint32(byteOffset: i32, littleEndian: boolean = false): u32 {\n checkOffset(byteOffset, 4, this.byteLength);\n var result = load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE);\n return littleEndian ? result : bswap(result);\n }\n\n setFloat32(byteOffset: i32, value: f32, littleEndian: boolean = false): void {\n checkOffset(byteOffset, 4, this.byteLength);\n if (littleEndian) {\n store(changetype(this.buffer) + this.byteOffset + byteOffset, value, HEADER_SIZE);\n } else {\n store(changetype(this.buffer) + this.byteOffset + byteOffset,\n bswap(\n reinterpret(value)\n ),\n HEADER_SIZE\n );\n }\n }\n\n setFloat64(byteOffset: i32, value: f64, littleEndian: boolean = false): void {\n checkOffset(byteOffset, 8, this.byteLength);\n if (littleEndian) {\n store(changetype(this.buffer) + this.byteOffset + byteOffset, value, HEADER_SIZE);\n } else {\n store(changetype(this.buffer) + this.byteOffset + byteOffset,\n bswap(\n reinterpret(value)\n ),\n HEADER_SIZE\n );\n }\n }\n\n setInt8(byteOffset: i32, value: i8): void {\n checkOffset(byteOffset, 1, this.byteLength);\n store(changetype(this.buffer) + this.byteOffset + byteOffset, value, HEADER_SIZE);\n }\n\n setInt16(byteOffset: i32, value: i16, littleEndian: boolean = false): void {\n checkOffset(byteOffset, 2, this.byteLength);\n store(\n changetype(this.buffer) + this.byteOffset + byteOffset,\n littleEndian ? value : bswap(value),\n HEADER_SIZE\n );\n }\n\n setInt32(byteOffset: i32, value: i32, littleEndian: boolean = false): void {\n checkOffset(byteOffset, 4, this.byteLength);\n store(\n changetype(this.buffer) + this.byteOffset + byteOffset,\n littleEndian ? value : bswap(value),\n HEADER_SIZE\n );\n }\n\n setUint8(byteOffset: i32, value: u8): void {\n checkOffset(byteOffset, 1, this.byteLength);\n store(changetype(this.buffer) + this.byteOffset + byteOffset, value, HEADER_SIZE);\n }\n\n setUint16(byteOffset: i32, value: u16, littleEndian: boolean = false): void {\n checkOffset(byteOffset, 2, this.byteLength);\n store(\n changetype(this.buffer) + this.byteOffset + byteOffset,\n littleEndian ? value : bswap(value),\n HEADER_SIZE\n );\n }\n\n setUint32(byteOffset: i32, value: u32, littleEndian: boolean = false): void {\n checkOffset(byteOffset, 4, this.byteLength);\n store(\n changetype(this.buffer) + this.byteOffset + byteOffset,\n littleEndian ? value : bswap(value),\n HEADER_SIZE\n );\n }\n\n // Non-standard additions that make sense in WebAssembly, but won\'t work in JS:\n\n getInt64(byteOffset: i32, littleEndian: boolean = false): i64 {\n checkOffset(byteOffset, 8, this.byteLength);\n var result = load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE);\n return littleEndian ? result : bswap(result);\n }\n\n getUint64(byteOffset: i32, littleEndian: boolean = false): u64 {\n checkOffset(byteOffset, 8, this.byteLength);\n var result = load(changetype(this.buffer) + this.byteOffset + byteOffset, HEADER_SIZE);\n return littleEndian ? result : bswap(result);\n }\n\n setInt64(byteOffset: i32, value: i64, littleEndian: boolean = false): void {\n checkOffset(byteOffset, 8, this.byteLength);\n store(\n changetype(this.buffer) + this.byteOffset + byteOffset,\n littleEndian ? value : bswap(value),\n HEADER_SIZE\n );\n }\n\n setUint64(byteOffset: i32, value: u64, littleEndian: boolean = false): void {\n checkOffset(byteOffset, 8, this.byteLength);\n store(\n changetype(this.buffer) + this.byteOffset + byteOffset,\n littleEndian ? value : bswap(value),\n HEADER_SIZE\n );\n }\n\n toString(): string {\n return "[object DataView]";\n }\n}\n\n@inline function checkOffset(byteOffset: i32, n: i32, byteLength: i32): void {\n // n and byteLength must be known to be in bounds\n if (byteOffset > MAX_BLENGTH || byteOffset + n > byteLength) throw new Error("Offset out of bounds");\n}\n',date:'import {\n UTC as Date_UTC,\n now as Date_now\n} from "./bindings/Date";\n\nexport class Date {\n\n @inline static UTC(\n year: i32,\n month: i32 = 0,\n day: i32 = 1,\n hour: i32 = 0,\n minute: i32 = 0,\n second: i32 = 0,\n millisecond: i64 = 0\n ): i64 {\n return Date_UTC(year, month, day, hour, minute, second, millisecond);\n }\n\n @inline static now(): i64 {\n return Date_now();\n }\n\n private value: i64;\n\n constructor(value: i64) {\n this.value = value;\n }\n\n getTime(): i64 {\n return this.value;\n }\n\n setTime(value: i64): i64 {\n this.value = value;\n return value;\n }\n}\n',diagnostics:"/* tslint:disable */\n\n@builtin export declare function ERROR(message?: void): void;\n@builtin export declare function WARNING(message?: void): void;\n@builtin export declare function INFO(message?: void): void;\n",env:"declare function abort(\n message?: string | null,\n fileName?: string | null,\n lineNumber?: u32,\n columnNumber?: u32\n): void;\n\ndeclare function trace(\n message: string,\n n?: i32,\n a0?: f64,\n a1?: f64,\n a2?: f64,\n a3?: f64,\n a4?: f64\n): void;\n",error:'export class Error {\n\n name: string = "Error";\n stack: string = ""; // TODO\n\n constructor(\n public message: string = ""\n ) {}\n\n toString(): string {\n var message = this.message;\n return message.length\n ? this.name + ": " + message\n : this.name;\n }\n}\n\nexport class RangeError extends Error {\n constructor(message: string = "") {\n super(message);\n this.name = "RangeError";\n }\n}\n\nexport class TypeError extends Error {\n constructor(message: string = "") {\n super(message);\n this.name = "TypeError";\n }\n}\n\nexport class SyntaxError extends Error {\n constructor(message: string = "") {\n super(message);\n this.name = "SyntaxError";\n }\n}\n',gc:"/* tslint:disable */\n\n@builtin export declare function iterateRoots(fn: (ref: usize) => void): void;\n\nexport namespace gc {\n\n export function collect(): void {\n if (isDefined(__gc_collect)) { __gc_collect(); return; }\n WARNING(\"Calling 'gc.collect' requires a garbage collector to be present.\");\n unreachable();\n }\n}\n","internal/allocator":"/** Number of alignment bits. */\n@inline export const AL_BITS: u32 = 3;\n/** Number of possible alignment values. */\n@inline export const AL_SIZE: usize = 1 << AL_BITS;\n/** Mask to obtain just the alignment bits. */\n@inline export const AL_MASK: usize = AL_SIZE - 1;\n/** Maximum 32-bit allocation size. */\n@inline export const MAX_SIZE_32: usize = 1 << 30; // 1GB\n","internal/arraybuffer":'import {\n AL_MASK,\n MAX_SIZE_32\n } from "./allocator";\n\n/** Size of an ArrayBuffer header. */\n@inline export const HEADER_SIZE: usize = (offsetof() + AL_MASK) & ~AL_MASK;\n/** Maximum byte length of an ArrayBuffer. */\n@inline export const MAX_BLENGTH: i32 = MAX_SIZE_32 - HEADER_SIZE;\n\nfunction computeSize(byteLength: i32): usize {\n // round up to power of 2, with HEADER_SIZE=8:\n // 0 -> 2^3 = 8\n // 1..8 -> 2^4 = 16\n // 9..24 -> 2^5 = 32\n // ...\n // MAX_LENGTH -> 2^30 = 0x40000000 (MAX_SIZE_32)\n return 1 << (32 - clz(byteLength + HEADER_SIZE - 1));\n}\n\n// Low-level utility\n\nfunction __gc(ref: usize): void {}\n\nexport function allocateUnsafe(byteLength: i32): ArrayBuffer {\n assert(byteLength <= MAX_BLENGTH);\n var buffer: usize;\n if (isManaged()) {\n buffer = __gc_allocate(computeSize(byteLength), __gc); // tslint:disable-line\n } else {\n buffer = memory.allocate(computeSize(byteLength));\n }\n store(buffer, byteLength, offsetof("byteLength"));\n return changetype(buffer);\n}\n\nexport function reallocateUnsafe(buffer: ArrayBuffer, newByteLength: i32): ArrayBuffer {\n var oldByteLength = buffer.byteLength;\n if (newByteLength > oldByteLength) {\n assert(newByteLength <= MAX_BLENGTH);\n if (newByteLength <= (computeSize(oldByteLength) - HEADER_SIZE)) { // fast path: zero out additional space\n store(changetype(buffer), newByteLength, offsetof("byteLength"));\n } else { // slow path: copy to new buffer\n let newBuffer = allocateUnsafe(newByteLength);\n memory.copy(\n changetype(newBuffer) + HEADER_SIZE,\n changetype(buffer) + HEADER_SIZE,\n oldByteLength\n );\n if (!isManaged()) {\n memory.free(changetype(buffer));\n }\n buffer = newBuffer;\n }\n memory.fill(\n changetype(buffer) + HEADER_SIZE + oldByteLength,\n 0,\n (newByteLength - oldByteLength)\n );\n } else if (newByteLength < oldByteLength) { // fast path: override size\n // TBD: worth to copy and release if size is significantly less than before?\n assert(newByteLength >= 0);\n store(changetype(buffer), newByteLength, offsetof("byteLength"));\n }\n return buffer;\n}\n\n// The helpers below use two different types in order to emit loads and stores that load respectively\n// store one type to/from memory while returning/taking the desired output/input type. This allows to\n// emit instructions like\n//\n// * `i32.load8` ^= `load(...)` that reads an i8 but returns an i32, or\n// * `i64.load32_s` ^= `load(...)`) that reads a 32-bit as a 64-bit integer\n//\n// without having to emit an additional instruction for conversion purposes. The second parameter\n// can be omitted for references and other loads and stores that simply return the exact type.\n\n@inline export function LOAD(buffer: ArrayBuffer, index: i32, byteOffset: i32 = 0): TOut {\n return load(changetype(buffer) + (index << alignof()) + byteOffset, HEADER_SIZE);\n}\n\n@inline export function STORE(buffer: ArrayBuffer, index: i32, value: TIn, byteOffset: i32 = 0): void {\n store(changetype(buffer) + (index << alignof()) + byteOffset, value, HEADER_SIZE);\n}\n',"internal/hash":'import {\n HEADER_SIZE\n} from "./string";\n\n/** Computes the 32-bit hash of a value of any type. */\n@inline\nexport function HASH(key: T): u32 {\n // branch-level tree-shaking makes this a `(return (call ...))`\n if (isString(key)) {\n return hashStr(key);\n } else if (isReference()) {\n if (sizeof() == 4) return hash32(changetype(key));\n if (sizeof() == 8) return hash64(changetype(key));\n } else if (isFloat()) {\n if (sizeof() == 4) return hash32(reinterpret(key));\n if (sizeof() == 8) return hash64(reinterpret(key));\n } else {\n if (sizeof() == 1) return hash8 (key);\n if (sizeof() == 2) return hash16(key);\n if (sizeof() == 4) return hash32(key);\n if (sizeof() == 8) return hash64(key);\n }\n unreachable();\n}\n\n// FNV-1a 32-bit as a starting point, see: http://isthe.com/chongo/tech/comp/fnv/\n\n@inline const FNV_OFFSET: u32 = 2166136261;\n@inline const FNV_PRIME: u32 = 16777619;\n\nfunction hash8(key: u32): u32 {\n return (FNV_OFFSET ^ key) * FNV_PRIME;\n}\n\nfunction hash16(key: u32): u32 {\n var v = FNV_OFFSET;\n v = (v ^ ( key & 0xff)) * FNV_PRIME;\n v = (v ^ ( key >> 8 )) * FNV_PRIME;\n return v;\n}\n\nfunction hash32(key: u32): u32 {\n var v = FNV_OFFSET;\n v = (v ^ ( key & 0xff)) * FNV_PRIME;\n v = (v ^ ((key >> 8) & 0xff)) * FNV_PRIME;\n v = (v ^ ((key >> 16) & 0xff)) * FNV_PRIME;\n v = (v ^ ( key >> 24 )) * FNV_PRIME;\n return v;\n}\n\nfunction hash64(key: u64): u32 {\n var l = key;\n var h = (key >>> 32);\n var v = FNV_OFFSET;\n v = (v ^ ( l & 0xff)) * FNV_PRIME;\n v = (v ^ ((l >> 8) & 0xff)) * FNV_PRIME;\n v = (v ^ ((l >> 16) & 0xff)) * FNV_PRIME;\n v = (v ^ ( l >> 24 )) * FNV_PRIME;\n v = (v ^ ( h & 0xff)) * FNV_PRIME;\n v = (v ^ ((h >> 8) & 0xff)) * FNV_PRIME;\n v = (v ^ ((h >> 16) & 0xff)) * FNV_PRIME;\n v = (v ^ ( h >> 24 )) * FNV_PRIME;\n return v;\n}\n\nfunction hashStr(key: string): u32 {\n var v = FNV_OFFSET;\n for (let i: usize = 0, k: usize = key.length << 1; i < k; ++i) {\n v = (v ^ load(changetype(key) + i, HEADER_SIZE)) * FNV_PRIME;\n }\n return v;\n}\n',"internal/memory":"// this function will go away once `memory.copy` becomes an intrinsic\nexport function memcpy(dest: usize, src: usize, n: usize): void { // see: musl/src/string/memcpy.c\n var w: u32, x: u32;\n\n // copy 1 byte each until src is aligned to 4 bytes\n while (n && (src & 3)) {\n store(dest++, load(src++));\n n--;\n }\n\n // if dst is aligned to 4 bytes as well, copy 4 bytes each\n if ((dest & 3) == 0) {\n while (n >= 16) {\n store(dest , load(src ));\n store(dest + 4, load(src + 4));\n store(dest + 8, load(src + 8));\n store(dest + 12, load(src + 12));\n src += 16; dest += 16; n -= 16;\n }\n if (n & 8) {\n store(dest , load(src ));\n store(dest + 4, load(src + 4));\n dest += 8; src += 8;\n }\n if (n & 4) {\n store(dest, load(src));\n dest += 4; src += 4;\n }\n if (n & 2) { // drop to 2 bytes each\n store(dest, load(src));\n dest += 2; src += 2;\n }\n if (n & 1) { // drop to 1 byte\n store(dest++, load(src++));\n }\n return;\n }\n\n // if dst is not aligned to 4 bytes, use alternating shifts to copy 4 bytes each\n // doing shifts if faster when copying enough bytes (here: 32 or more)\n if (n >= 32) {\n switch (dest & 3) {\n // known to be != 0\n case 1: {\n w = load(src);\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n n -= 3;\n while (n >= 17) {\n x = load(src + 1);\n store(dest, w >> 24 | x << 8);\n w = load(src + 5);\n store(dest + 4, x >> 24 | w << 8);\n x = load(src + 9);\n store(dest + 8, w >> 24 | x << 8);\n w = load(src + 13);\n store(dest + 12, x >> 24 | w << 8);\n src += 16; dest += 16; n -= 16;\n }\n break;\n }\n case 2: {\n w = load(src);\n store(dest++, load(src++));\n store(dest++, load(src++));\n n -= 2;\n while (n >= 18) {\n x = load(src + 2);\n store(dest, w >> 16 | x << 16);\n w = load(src + 6);\n store(dest + 4, x >> 16 | w << 16);\n x = load(src + 10);\n store(dest + 8, w >> 16 | x << 16);\n w = load(src + 14);\n store(dest + 12, x >> 16 | w << 16);\n src += 16; dest += 16; n -= 16;\n }\n break;\n }\n case 3: {\n w = load(src);\n store(dest++, load(src++));\n n -= 1;\n while (n >= 19) {\n x = load(src + 3);\n store(dest, w >> 8 | x << 24);\n w = load(src + 7);\n store(dest + 4, x >> 8 | w << 24);\n x = load(src + 11);\n store(dest + 8, w >> 8 | x << 24);\n w = load(src + 15);\n store(dest + 12, x >> 8 | w << 24);\n src += 16; dest += 16; n -= 16;\n }\n break;\n }\n }\n }\n\n // copy remaining bytes one by one\n if (n & 16) {\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n }\n if (n & 8) {\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n }\n if (n & 4) {\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n store(dest++, load(src++));\n }\n if (n & 2) {\n store(dest++, load(src++));\n store(dest++, load(src++));\n }\n if (n & 1) {\n store(dest++, load(src++));\n }\n}\n\n// this function will go away once `memory.copy` becomes an intrinsic\nexport function memmove(dest: usize, src: usize, n: usize): void { // see: musl/src/string/memmove.c\n if (dest === src) return;\n if (src + n <= dest || dest + n <= src) {\n memcpy(dest, src, n);\n return;\n }\n if (dest < src) {\n if ((src & 7) == (dest & 7)) {\n while (dest & 7) {\n if (!n) return;\n --n;\n store(dest++, load(src++));\n }\n while (n >= 8) {\n store(dest, load(src));\n n -= 8;\n dest += 8;\n src += 8;\n }\n }\n while (n) {\n store(dest++, load(src++));\n --n;\n }\n } else {\n if ((src & 7) == (dest & 7)) {\n while ((dest + n) & 7) {\n if (!n) return;\n store(dest + --n, load(src + n));\n }\n while (n >= 8) {\n n -= 8;\n store(dest + n, load(src + n));\n }\n }\n while (n) {\n store(dest + --n, load(src + n));\n }\n }\n}\n\n// this function will go away once `memory.fill` becomes an intrinsic\nexport function memset(dest: usize, c: u8, n: usize): void { // see: musl/src/string/memset\n\n // fill head and tail with minimal branching\n if (!n) return;\n store(dest, c);\n store(dest + n - 1, c);\n if (n <= 2) return;\n\n store(dest + 1, c);\n store(dest + 2, c);\n store(dest + n - 2, c);\n store(dest + n - 3, c);\n if (n <= 6) return;\n store(dest + 3, c);\n store(dest + n - 4, c);\n if (n <= 8) return;\n\n // advance pointer to align it at 4-byte boundary\n var k: usize = -dest & 3;\n dest += k;\n n -= k;\n n &= -4;\n\n var c32: u32 = -1 / 255 * c;\n\n // fill head/tail up to 28 bytes each in preparation\n store(dest, c32);\n store(dest + n - 4, c32);\n if (n <= 8) return;\n store(dest + 4, c32);\n store(dest + 8, c32);\n store(dest + n - 12, c32);\n store(dest + n - 8, c32);\n if (n <= 24) return;\n store(dest + 12, c32);\n store(dest + 16, c32);\n store(dest + 20, c32);\n store(dest + 24, c32);\n store(dest + n - 28, c32);\n store(dest + n - 24, c32);\n store(dest + n - 20, c32);\n store(dest + n - 16, c32);\n\n // align to a multiple of 8\n k = 24 + (dest & 4);\n dest += k;\n n -= k;\n\n // copy 32 bytes each\n var c64: u64 = c32 | (c32 << 32);\n while (n >= 32) {\n store(dest, c64);\n store(dest + 8, c64);\n store(dest + 16, c64);\n store(dest + 24, c64);\n n -= 32;\n dest += 32;\n }\n}\n\nexport function memcmp(vl: usize, vr: usize, n: usize): i32 { // see: musl/src/string/memcmp.c\n if (vl == vr) return 0;\n while (n != 0 && load(vl) == load(vr)) {\n n--; vl++; vr++;\n }\n return n ? load(vl) - load(vr) : 0;\n}\n","internal/number":'import {\n CharCode,\n allocateUnsafe as allocateUnsafeString,\n freeUnsafe as freeUnsafeString,\n HEADER_SIZE as STRING_HEADER_SIZE\n} from "./string";\n\nimport {\n LOAD\n} from "./arraybuffer";\n\n@inline export const MAX_DOUBLE_LENGTH = 28;\n\n@lazy @inline const POWERS10: u32[] = [\n 1,\n 10,\n 100,\n 1000,\n 10000,\n 100000,\n 1000000,\n 10000000,\n 100000000,\n 1000000000\n];\n\n/*\n Lookup table for pairwise char codes in range [0-99]\n\n "00", "01", "02", "03", "04", "05", "06", "07", "08", "09",\n "10", "11", "12", "13", "14", "15", "16", "17", "18", "19",\n "20", "21", "22", "23", "24", "25", "26", "27", "28", "29",\n "30", "31", "32", "33", "34", "35", "36", "37", "38", "39",\n "40", "41", "42", "43", "44", "45", "46", "47", "48", "49",\n "50", "51", "52", "53", "54", "55", "56", "57", "58", "59",\n "60", "61", "62", "63", "64", "65", "66", "67", "68", "69",\n "70", "71", "72", "73", "74", "75", "76", "77", "78", "79",\n "80", "81", "82", "83", "84", "85", "86", "87", "88", "89",\n "90", "91", "92", "93", "94", "95", "96", "97", "98", "99"\n*/\n@lazy @inline const DIGITS: u32[] = [\n 0x00300030, 0x00310030, 0x00320030, 0x00330030, 0x00340030,\n 0x00350030, 0x00360030, 0x00370030, 0x00380030, 0x00390030,\n 0x00300031, 0x00310031, 0x00320031, 0x00330031, 0x00340031,\n 0x00350031, 0x00360031, 0x00370031, 0x00380031, 0x00390031,\n 0x00300032, 0x00310032, 0x00320032, 0x00330032, 0x00340032,\n 0x00350032, 0x00360032, 0x00370032, 0x00380032, 0x00390032,\n 0x00300033, 0x00310033, 0x00320033, 0x00330033, 0x00340033,\n 0x00350033, 0x00360033, 0x00370033, 0x00380033, 0x00390033,\n 0x00300034, 0x00310034, 0x00320034, 0x00330034, 0x00340034,\n 0x00350034, 0x00360034, 0x00370034, 0x00380034, 0x00390034,\n 0x00300035, 0x00310035, 0x00320035, 0x00330035, 0x00340035,\n 0x00350035, 0x00360035, 0x00370035, 0x00380035, 0x00390035,\n 0x00300036, 0x00310036, 0x00320036, 0x00330036, 0x00340036,\n 0x00350036, 0x00360036, 0x00370036, 0x00380036, 0x00390036,\n 0x00300037, 0x00310037, 0x00320037, 0x00330037, 0x00340037,\n 0x00350037, 0x00360037, 0x00370037, 0x00380037, 0x00390037,\n 0x00300038, 0x00310038, 0x00320038, 0x00330038, 0x00340038,\n 0x00350038, 0x00360038, 0x00370038, 0x00380038, 0x00390038,\n 0x00300039, 0x00310039, 0x00320039, 0x00330039, 0x00340039,\n 0x00350039, 0x00360039, 0x00370039, 0x00380039, 0x00390039\n];\n\n@lazy @inline const EXP_POWERS: i16[] = [\n -1220, -1193, -1166, -1140, -1113, -1087, -1060, -1034, -1007, -980,\n -954, -927, -901, -874, -847, -821, -794, -768, -741, -715,\n -688, -661, -635, -608, -582, -555, -529, -502, -475, -449,\n -422, -396, -369, -343, -316, -289, -263, -236, -210, -183,\n -157, -130, -103, -77, -50, -24, 3, 30, 56, 83,\n 109, 136, 162, 189, 216, 242, 269, 295, 322, 348,\n 375, 402, 428, 455, 481, 508, 534, 561, 588, 614,\n 641, 667, 694, 720, 747, 774, 800, 827, 853, 880,\n 907, 933, 960, 986, 1013, 1039, 1066\n];\n\n// 1e-348, 1e-340, ..., 1e340\n@lazy @inline const FRC_POWERS: u64[] = [\n 0xFA8FD5A0081C0288, 0xBAAEE17FA23EBF76, 0x8B16FB203055AC76, 0xCF42894A5DCE35EA,\n 0x9A6BB0AA55653B2D, 0xE61ACF033D1A45DF, 0xAB70FE17C79AC6CA, 0xFF77B1FCBEBCDC4F,\n 0xBE5691EF416BD60C, 0x8DD01FAD907FFC3C, 0xD3515C2831559A83, 0x9D71AC8FADA6C9B5,\n 0xEA9C227723EE8BCB, 0xAECC49914078536D, 0x823C12795DB6CE57, 0xC21094364DFB5637,\n 0x9096EA6F3848984F, 0xD77485CB25823AC7, 0xA086CFCD97BF97F4, 0xEF340A98172AACE5,\n 0xB23867FB2A35B28E, 0x84C8D4DFD2C63F3B, 0xC5DD44271AD3CDBA, 0x936B9FCEBB25C996,\n 0xDBAC6C247D62A584, 0xA3AB66580D5FDAF6, 0xF3E2F893DEC3F126, 0xB5B5ADA8AAFF80B8,\n 0x87625F056C7C4A8B, 0xC9BCFF6034C13053, 0x964E858C91BA2655, 0xDFF9772470297EBD,\n 0xA6DFBD9FB8E5B88F, 0xF8A95FCF88747D94, 0xB94470938FA89BCF, 0x8A08F0F8BF0F156B,\n 0xCDB02555653131B6, 0x993FE2C6D07B7FAC, 0xE45C10C42A2B3B06, 0xAA242499697392D3,\n 0xFD87B5F28300CA0E, 0xBCE5086492111AEB, 0x8CBCCC096F5088CC, 0xD1B71758E219652C,\n 0x9C40000000000000, 0xE8D4A51000000000, 0xAD78EBC5AC620000, 0x813F3978F8940984,\n 0xC097CE7BC90715B3, 0x8F7E32CE7BEA5C70, 0xD5D238A4ABE98068, 0x9F4F2726179A2245,\n 0xED63A231D4C4FB27, 0xB0DE65388CC8ADA8, 0x83C7088E1AAB65DB, 0xC45D1DF942711D9A,\n 0x924D692CA61BE758, 0xDA01EE641A708DEA, 0xA26DA3999AEF774A, 0xF209787BB47D6B85,\n 0xB454E4A179DD1877, 0x865B86925B9BC5C2, 0xC83553C5C8965D3D, 0x952AB45CFA97A0B3,\n 0xDE469FBD99A05FE3, 0xA59BC234DB398C25, 0xF6C69A72A3989F5C, 0xB7DCBF5354E9BECE,\n 0x88FCF317F22241E2, 0xCC20CE9BD35C78A5, 0x98165AF37B2153DF, 0xE2A0B5DC971F303A,\n 0xA8D9D1535CE3B396, 0xFB9B7CD9A4A7443C, 0xBB764C4CA7A44410, 0x8BAB8EEFB6409C1A,\n 0xD01FEF10A657842C, 0x9B10A4E5E9913129, 0xE7109BFBA19C0C9D, 0xAC2820D9623BF429,\n 0x80444B5E7AA7CF85, 0xBF21E44003ACDD2D, 0x8E679C2F5E44FF8F, 0xD433179D9C8CB841,\n 0x9E19DB92B4E31BA9, 0xEB96BF6EBADF77D9, 0xAF87023B9BF0EE6B\n];\n\n// Count number of decimals for u32 values\n// In our case input value always non-zero so we can simplify some parts\nexport function decimalCount32(value: u32): u32 {\n if (ASC_SHRINK_LEVEL >= 1) {\n let l: u32 = 32 - clz(value); // log2\n let t = l * 1233 >>> 12; // log10\n\n let lutbuf = POWERS10.buffer_;\n let power = LOAD(lutbuf, t);\n t -= (value < power);\n return t + 1;\n } else {\n if (value < 100000) {\n if (value < 100) {\n return select(1, 2, value < 10);\n } else {\n let m = select(4, 5, value < 10000);\n return select(3, m, value < 1000);\n }\n } else {\n if (value < 10000000) {\n return select(6, 7, value < 1000000);\n } else {\n let m = select(9, 10, value < 1000000000);\n return select(8, m, value < 100000000);\n }\n }\n }\n}\n\n// Count number of decimals for u64 values\n// In our case input value always greater than 2^32-1 so we can skip some parts\nexport function decimalCount64(value: u64): u32 {\n if (ASC_SHRINK_LEVEL >= 1) {\n let l: u32 = 64 - clz(value); // log2\n let t = l * 1233 >>> 12; // log10\n\n let lutbuf = POWERS10.buffer_;\n let power = LOAD(lutbuf, t - 10);\n t -= (value < 10000000000 * power);\n return t + 1;\n } else {\n if (value < 1000000000000000) {\n if (value < 1000000000000) {\n return select(11, 12, value < 100000000000);\n } else {\n let m = select(14, 15, value < 100000000000000);\n return select(13, m, value < 10000000000000);\n }\n } else {\n if (value < 100000000000000000) {\n return select(16, 17, value < 10000000000000000);\n } else {\n let m = select(19, 20, value < 10000000000000000000);\n return select(18, m, value < 1000000000000000000);\n }\n }\n }\n}\n\nfunction utoa32_lut(buffer: usize, num: u32, offset: usize): void {\n var lutbuf = DIGITS.buffer_;\n\n while (num >= 10000) {\n // in most VMs i32/u32 div and modulo by constant can be shared and simplificate\n let t = num / 10000;\n let r = num % 10000;\n num = t;\n\n let d1 = r / 100;\n let d2 = r % 100;\n\n let digits1 = LOAD(lutbuf, d1);\n let digits2 = LOAD(lutbuf, d2);\n\n offset -= 4;\n store(buffer + (offset << 1), digits1 | (digits2 << 32), STRING_HEADER_SIZE);\n }\n\n if (num >= 100) {\n let t = num / 100;\n let d1 = num % 100;\n num = t;\n offset -= 2;\n let digits = LOAD(lutbuf, d1);\n store(buffer + (offset << 1), digits, STRING_HEADER_SIZE);\n }\n\n if (num >= 10) {\n offset -= 2;\n let digits = LOAD(lutbuf, num);\n store(buffer + (offset << 1), digits, STRING_HEADER_SIZE);\n } else {\n offset -= 1;\n let digit = CharCode._0 + num;\n store(buffer + (offset << 1), digit, STRING_HEADER_SIZE);\n }\n}\n\nfunction utoa64_lut(buffer: usize, num: u64, offset: usize): void {\n var lutbuf = DIGITS.buffer_;\n\n while (num >= 100000000) {\n let t = num / 100000000;\n let r = (num - t * 100000000);\n num = t;\n\n let b = r / 10000;\n let c = r % 10000;\n\n let b1 = b / 100;\n let b2 = b % 100;\n let c1 = c / 100;\n let c2 = c % 100;\n\n let digits1 = LOAD(lutbuf, c1);\n let digits2 = LOAD(lutbuf, c2);\n\n offset -= 4;\n store(buffer + (offset << 1), digits1 | (digits2 << 32), STRING_HEADER_SIZE);\n\n digits1 = LOAD(lutbuf, b1);\n digits2 = LOAD(lutbuf, b2);\n\n offset -= 4;\n store(buffer + (offset << 1), digits1 | (digits2 << 32), STRING_HEADER_SIZE);\n }\n\n utoa32_lut(buffer, num, offset);\n}\n\nfunction utoa_simple(buffer: usize, num: T, offset: usize): void {\n do {\n let t = num / 10;\n let r = (num % 10);\n num = t;\n offset -= 1;\n store(buffer + (offset << 1), CharCode._0 + r, STRING_HEADER_SIZE);\n } while (num);\n}\n\n@inline\nexport function utoa32_core(buffer: usize, num: u32, offset: u32): void {\n if (ASC_SHRINK_LEVEL >= 1) {\n utoa_simple(buffer, num, offset);\n } else {\n utoa32_lut(buffer, num, offset);\n }\n}\n\n@inline\nexport function utoa64_core(buffer: usize, num: u64, offset: u32): void {\n if (ASC_SHRINK_LEVEL >= 1) {\n utoa_simple(buffer, num, offset);\n } else {\n utoa64_lut(buffer, num, offset);\n }\n}\n\nexport function utoa32(value: u32): String {\n if (!value) return "0";\n\n var decimals = decimalCount32(value);\n var buffer = allocateUnsafeString(decimals);\n\n utoa32_core(changetype(buffer), value, decimals);\n return buffer;\n}\n\nexport function itoa32(value: i32): String {\n if (!value) return "0";\n\n var sign = value < 0;\n if (sign) value = -value;\n\n var decimals = decimalCount32(value) + sign;\n var buffer = allocateUnsafeString(decimals);\n\n utoa32_core(changetype(buffer), value, decimals);\n if (sign) store(changetype(buffer), CharCode.MINUS, STRING_HEADER_SIZE);\n\n return buffer;\n}\n\nexport function utoa64(value: u64): String {\n if (!value) return "0";\n\n var buffer: String;\n if (value <= u32.MAX_VALUE) {\n let val32 = value;\n let decimals = decimalCount32(val32);\n buffer = allocateUnsafeString(decimals);\n utoa32_core(changetype(buffer), val32, decimals);\n } else {\n let decimals = decimalCount64(value);\n buffer = allocateUnsafeString(decimals);\n utoa64_core(changetype(buffer), value, decimals);\n }\n return buffer;\n}\n\nexport function itoa64(value: i64): String {\n if (!value) return "0";\n\n var sign = value < 0;\n if (sign) value = -value;\n\n var buffer: String;\n if (value <= u32.MAX_VALUE) {\n let val32 = value;\n let decimals = decimalCount32(val32) + sign;\n buffer = allocateUnsafeString(decimals);\n utoa32_core(changetype(buffer), val32, decimals);\n } else {\n let decimals = decimalCount64(value) + sign;\n buffer = allocateUnsafeString(decimals);\n utoa64_core(changetype(buffer), value, decimals);\n }\n if (sign) store(changetype(buffer), CharCode.MINUS, STRING_HEADER_SIZE);\n\n return buffer;\n}\n\nexport function itoa(value: T): String {\n if (!isInteger()) {\n assert(false); // unexpecteble non-integer generic type\n } else {\n if (isSigned()) {\n if (sizeof() <= 4) {\n return itoa32(value);\n } else {\n return itoa64(value);\n }\n } else {\n if (sizeof() <= 4) {\n return utoa32(value);\n } else {\n return utoa64(value);\n }\n }\n }\n}\n\n@lazy var _K: i32 = 0;\n// @lazy var _frc: u64 = 0;\n@lazy var _exp: i32 = 0;\n@lazy var _frc_minus: u64 = 0;\n@lazy var _frc_plus: u64 = 0;\n@lazy var _frc_pow: u64 = 0;\n@lazy var _exp_pow: i32 = 0;\n\n@inline\nfunction umul64f(u: u64, v: u64): u64 {\n var u0 = u & 0xFFFFFFFF;\n var v0 = v & 0xFFFFFFFF;\n\n var u1 = u >> 32;\n var v1 = v >> 32;\n\n var l = u0 * v0;\n var t = u1 * v0 + (l >> 32);\n var w = u0 * v1 + (t & 0xFFFFFFFF);\n\n w += 0x7FFFFFFF; // rounding\n\n t >>= 32;\n w >>= 32;\n\n return u1 * v1 + t + w;\n}\n\n@inline\nfunction umul64e(e1: i32, e2: i32): i32 {\n return e1 + e2 + 64; // where 64 is significand size\n}\n\n@inline\nfunction normalizedBoundaries(f: u64, e: i32): void {\n var frc = (f << 1) + 1;\n var exp = e - 1;\n var off = clz(frc);\n frc <<= off;\n exp -= off;\n\n var m = 1 + (f == 0x0010000000000000);\n\n _frc_plus = frc;\n _frc_minus = ((f << m) - 1) << e - m - exp;\n _exp = exp;\n}\n\n@inline\nfunction grisuRound(buffer: usize, len: i32, delta: u64, rest: u64, ten_kappa: u64, wp_w: u64): void {\n var lastp = buffer + ((len - 1) << 1);\n var digit = load(lastp, STRING_HEADER_SIZE);\n while (\n rest < wp_w &&\n delta - rest >= ten_kappa && (\n rest + ten_kappa < wp_w ||\n wp_w - rest > rest + ten_kappa - wp_w\n )\n ) {\n --digit;\n rest += ten_kappa;\n }\n store(lastp, digit, STRING_HEADER_SIZE);\n}\n\n@inline\nfunction getCachedPower(minExp: i32): void {\n const c = reinterpret(0x3FD34413509F79FE); // 1 / lg(10) = 0.30102999566398114\n var dk = (-61 - minExp) * c + 347;\t // dk must be positive, so can do ceiling in positive\n var k = dk;\n k += (k != dk); // conversion with ceil\n\n var index = (k >> 3) + 1;\n _K = 348 - (index << 3);\t// decimal exponent no need lookup table\n var frcPowers = FRC_POWERS.buffer_;\n var expPowers = EXP_POWERS.buffer_;\n _frc_pow = LOAD(frcPowers, index);\n _exp_pow = LOAD(expPowers, index);\n}\n\n@inline\nfunction grisu2(value: f64, buffer: usize, sign: i32): i32 {\n\n // frexp routine\n var uv = reinterpret(value);\n var exp = ((uv & 0x7FF0000000000000) >>> 52);\n var sid = uv & 0x000FFFFFFFFFFFFF;\n var frc = ((exp != 0) << 52) + sid;\n exp = select(exp, 1, exp != 0) - (0x3FF + 52);\n\n normalizedBoundaries(frc, exp);\n getCachedPower(_exp);\n\n // normalize\n var off = clz(frc);\n frc <<= off;\n exp -= off;\n\n var frc_pow = _frc_pow;\n var exp_pow = _exp_pow;\n\n var w_frc = umul64f(frc, frc_pow);\n var w_exp = umul64e(exp, exp_pow);\n\n var wp_frc = umul64f(_frc_plus, frc_pow) - 1;\n var wp_exp = umul64e(_exp, exp_pow);\n\n var wm_frc = umul64f(_frc_minus, frc_pow) + 1;\n var delta = wp_frc - wm_frc;\n\n return genDigits(buffer, w_frc, w_exp, wp_frc, wp_exp, delta, sign);\n}\n\nfunction genDigits(buffer: usize, w_frc: u64, w_exp: i32, mp_frc: u64, mp_exp: i32, delta: u64, sign: i32): i32 {\n var one_exp = -mp_exp;\n var one_frc = (1) << one_exp;\n var mask = one_frc - 1;\n\n var wp_w_frc = mp_frc - w_frc;\n var wp_w_exp = mp_exp;\n\n var p1 = (mp_frc >> one_exp);\n var p2 = mp_frc & mask;\n\n var kappa = decimalCount32(p1);\n var len = sign;\n\n var powers10 = POWERS10.buffer_;\n\n while (kappa > 0) {\n let d: u32;\n switch (kappa) {\n case 10: { d = p1 / 1000000000; p1 %= 1000000000; break; }\n case 9: { d = p1 / 100000000; p1 %= 100000000; break; }\n case 8: { d = p1 / 10000000; p1 %= 10000000; break; }\n case 7: { d = p1 / 1000000; p1 %= 1000000; break; }\n case 6: { d = p1 / 100000; p1 %= 100000; break; }\n case 5: { d = p1 / 10000; p1 %= 10000; break; }\n case 4: { d = p1 / 1000; p1 %= 1000; break; }\n case 3: { d = p1 / 100; p1 %= 100; break; }\n case 2: { d = p1 / 10; p1 %= 10; break; }\n case 1: { d = p1; p1 = 0; break; }\n default: { d = 0; break; }\n }\n\n if (d | len) store(buffer + (len++ << 1), CharCode._0 + d, STRING_HEADER_SIZE);\n\n --kappa;\n let tmp = ((p1) << one_exp) + p2;\n if (tmp <= delta) {\n _K += kappa;\n grisuRound(buffer, len, delta, tmp, LOAD(powers10, kappa) << one_exp, wp_w_frc);\n return len;\n }\n }\n\n while (1) {\n p2 *= 10;\n delta *= 10;\n\n let d = p2 >> one_exp;\n if (d | len) store(buffer + (len++ << 1), CharCode._0 + d, STRING_HEADER_SIZE);\n\n p2 &= mask;\n --kappa;\n if (p2 < delta) {\n _K += kappa;\n wp_w_frc *= LOAD(powers10, -kappa);\n grisuRound(buffer, len, delta, p2, one_frc, wp_w_frc);\n return len;\n }\n }\n\n return len;\n}\n\n@inline\nfunction genExponent(buffer: usize, k: i32): i32 {\n var sign = k < 0;\n if (sign) k = -k;\n var decimals = decimalCount32(k) + 1;\n utoa32_core(buffer, k, decimals);\n store(buffer, select(CharCode.MINUS, CharCode.PLUS, sign), STRING_HEADER_SIZE);\n return decimals;\n}\n\nfunction prettify(buffer: usize, length: i32, k: i32): i32 {\n if (!k) {\n store(buffer + (length << 1), CharCode.DOT | (CharCode._0 << 16), STRING_HEADER_SIZE);\n return length + 2;\n }\n\n var kk = length + k;\n if (length <= kk && kk <= 21) {\n // 1234e7 -> 12340000000\n for (let i = length; i < kk; ++i) {\n store(buffer + (i << 1), CharCode._0, STRING_HEADER_SIZE);\n }\n store(buffer + (kk << 1), CharCode.DOT | (CharCode._0 << 16), STRING_HEADER_SIZE);\n return kk + 2;\n } else if (kk > 0 && kk <= 21) {\n // 1234e-2 -> 12.34\n let ptr = buffer + (kk << 1);\n memory.copy(\n ptr + STRING_HEADER_SIZE + 2,\n ptr + STRING_HEADER_SIZE,\n -k << 1\n );\n store(buffer + (kk << 1), CharCode.DOT, STRING_HEADER_SIZE);\n return length + 1;\n } else if (-6 < kk && kk <= 0) {\n // 1234e-6 -> 0.001234\n let offset = 2 - kk;\n memory.copy(\n buffer + STRING_HEADER_SIZE + (offset << 1),\n buffer + STRING_HEADER_SIZE,\n length << 1\n );\n store(buffer, CharCode._0 | (CharCode.DOT << 16), STRING_HEADER_SIZE);\n for (let i = 2; i < offset; ++i) {\n store(buffer + (i << 1), CharCode._0, STRING_HEADER_SIZE);\n }\n return length + offset;\n } else if (length == 1) {\n // 1e30\n store(buffer, CharCode.e, STRING_HEADER_SIZE + 2);\n length = genExponent(buffer + 4, kk - 1);\n return length + 2;\n } else {\n let len = length << 1;\n memory.copy(\n buffer + STRING_HEADER_SIZE + 4,\n buffer + STRING_HEADER_SIZE + 2,\n len - 2\n );\n store(buffer, CharCode.DOT, STRING_HEADER_SIZE + 2);\n store(buffer + len, CharCode.e, STRING_HEADER_SIZE + 2);\n length += genExponent(buffer + len + 4, kk - 1);\n return length + 2;\n }\n}\n\nexport function dtoa_core(buffer: usize, value: f64): i32 {\n var sign = (value < 0);\n if (sign) {\n value = -value;\n store(buffer, CharCode.MINUS, STRING_HEADER_SIZE);\n }\n // assert(value > 0 && value <= 1.7976931348623157e308);\n var len = grisu2(value, buffer, sign);\n len = prettify(buffer + (sign << 1), len - sign, _K);\n return len + sign;\n}\n\nexport function dtoa(value: f64): String {\n if (value == 0) return "0.0";\n if (!isFinite(value)) {\n if (isNaN(value)) return "NaN";\n return select("-Infinity", "Infinity", value < 0);\n }\n var buffer = allocateUnsafeString(MAX_DOUBLE_LENGTH);\n var length = dtoa_core(changetype(buffer), value);\n var result = buffer.substring(0, length);\n freeUnsafeString(buffer);\n return result;\n}\n\nexport function itoa_stream(buffer: usize, offset: usize, value: T): u32 {\n buffer += (offset << 1);\n if (!value) {\n store(buffer, CharCode._0, STRING_HEADER_SIZE);\n return 1;\n }\n var decimals: u32 = 0;\n if (isSigned()) {\n let sign = value < 0;\n if (sign) value = -value;\n if (sizeof() <= 4) {\n decimals = decimalCount32(value) + sign;\n utoa32_core(buffer, value, decimals);\n } else {\n if (value <= u32.MAX_VALUE) {\n let val32 = value;\n decimals = decimalCount32(val32) + sign;\n utoa32_core(buffer, val32, decimals);\n } else {\n decimals = decimalCount64(value) + sign;\n utoa64_core(buffer, value, decimals);\n }\n }\n if (sign) store(buffer, CharCode.MINUS, STRING_HEADER_SIZE);\n } else {\n if (sizeof() <= 4) {\n decimals = decimalCount32(value);\n utoa32_core(buffer, value, decimals);\n } else {\n if (value <= u32.MAX_VALUE) {\n let val32 = value;\n decimals = decimalCount32(val32);\n utoa32_core(buffer, val32, decimals);\n } else {\n decimals = decimalCount64(value);\n utoa64_core(buffer, value, decimals);\n }\n }\n }\n return decimals;\n}\n\nexport function dtoa_stream(buffer: usize, offset: usize, value: f64): u32 {\n buffer += (offset << 1);\n if (value == 0.0) {\n store(buffer, CharCode._0, STRING_HEADER_SIZE + 0);\n store(buffer, CharCode.DOT, STRING_HEADER_SIZE + 2);\n store(buffer, CharCode._0, STRING_HEADER_SIZE + 4);\n return 3;\n }\n if (!isFinite(value)) {\n if (isNaN(value)) {\n store(buffer, CharCode.N, STRING_HEADER_SIZE + 0);\n store(buffer, CharCode.a, STRING_HEADER_SIZE + 2);\n store(buffer, CharCode.N, STRING_HEADER_SIZE + 4);\n return 3;\n } else {\n let sign = (value < 0);\n let len = 8 + sign;\n let source = changetype(select("-Infinity", "Infinity", sign));\n memory.copy(buffer + STRING_HEADER_SIZE, source + STRING_HEADER_SIZE, len << 1);\n return len;\n }\n }\n return dtoa_core(buffer, value);\n}\n',"internal/sort":"import {\n LOAD,\n STORE\n} from \"./arraybuffer\";\n\nimport {\n compareUnsafe\n} from \"./string\";\n\n/** Obtains the default comparator for the specified value type. */\n@inline\nexport function COMPARATOR(): (a: T, b: T) => i32 {\n if (isInteger()) {\n if (isSigned() && sizeof() <= 4) {\n return (a: T, b: T): i32 => ((a - b));\n } else {\n return (a: T, b: T): i32 => ((a > b) - (a < b));\n }\n } else if (isFloat()) {\n if (sizeof() == 4) {\n return (a: T, b: T): i32 => {\n var ia = reinterpret(a);\n var ib = reinterpret(b);\n ia ^= (ia >> 31) >>> 1;\n ib ^= (ib >> 31) >>> 1;\n return (ia > ib) - (ia < ib);\n };\n } else {\n return (a: T, b: T): i32 => {\n var ia = reinterpret(a);\n var ib = reinterpret(b);\n ia ^= (ia >> 63) >>> 1;\n ib ^= (ib >> 63) >>> 1;\n return (ia > ib) - (ia < ib);\n };\n }\n } else if (isString()) {\n return (a: T, b: T): i32 => {\n if (a === b || a === null || b === null) return 0;\n var alen = (a).length;\n var blen = (b).length;\n if (!alen && !blen) return 0;\n if (!alen) return -1;\n if (!blen) return 1;\n return compareUnsafe(a, 0, b, 0, min(alen, blen));\n };\n } else {\n return (a: T, b: T): i32 => ((a > b) - (a < b));\n }\n}\n\n@inline\nexport function SORT(\n buffer: ArrayBuffer,\n byteOffset: i32,\n length: i32,\n comparator: (a: T, b: T) => i32\n): void {\n if (isReference()) {\n // TODO replace this to faster stable sort (TimSort) when it implemented\n insertionSort(buffer, byteOffset, length, comparator);\n } else {\n if (length < 256) {\n insertionSort(buffer, byteOffset, length, comparator);\n } else {\n weakHeapSort(buffer, byteOffset, length, comparator);\n }\n }\n}\n\n/** Sorts an Array with the 'Insertion Sort' algorithm. */\nfunction insertionSort(\n buffer: ArrayBuffer,\n byteOffset: i32,\n length: i32,\n comparator: (a: T, b: T) => i32\n): void {\n for (let i = 0; i < length; i++) {\n let a = LOAD(buffer, i, byteOffset); // a = arr[i]\n let j = i - 1;\n while (j >= 0) {\n let b = LOAD(buffer, j, byteOffset); // b = arr[j]\n if (comparator(a, b) < 0) {\n STORE(buffer, j-- + 1, b, byteOffset); // arr[j + 1] = b\n } else break;\n }\n STORE(buffer, j + 1, a, byteOffset); // arr[j + 1] = a\n }\n}\n\n/** Sorts an Array with the 'Weak Heap Sort' algorithm. */\nfunction weakHeapSort(\n buffer: ArrayBuffer,\n byteOffset: i32,\n length: i32,\n comparator: (a: T, b: T) => i32\n): void {\n const shift32 = alignof();\n\n var bitsetSize = (length + 31) >> 5 << shift32;\n var bitset = memory.allocate(bitsetSize); // indexed in 32-bit chunks below\n memory.fill(bitset, 0, bitsetSize);\n\n // see: http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.21.1863&rep=rep1&type=pdf\n\n for (let i = length - 1; i > 0; i--) {\n let j = i;\n while ((j & 1) == (load(bitset + (j >> 6 << shift32)) >> (j >> 1 & 31) & 1)) j >>= 1;\n\n let p = j >> 1;\n let a = LOAD(buffer, p, byteOffset); // a = arr[p]\n let b = LOAD(buffer, i, byteOffset); // b = arr[i]\n if (comparator(a, b) < 0) {\n store(\n bitset + (i >> 5 << shift32),\n load(bitset + (i >> 5 << shift32)) ^ (1 << (i & 31))\n );\n STORE(buffer, i, a, byteOffset); // arr[i] = a\n STORE(buffer, p, b, byteOffset); // arr[p] = b\n }\n }\n\n for (let i = length - 1; i >= 2; i--) {\n let a = LOAD(buffer, 0, byteOffset);\n STORE(buffer, 0, LOAD(buffer, i, byteOffset), byteOffset);\n STORE(buffer, i, a, byteOffset);\n\n let x = 1, y: i32;\n while ((y = (x << 1) + ((load(bitset + (x >> 5 << shift32)) >> (x & 31)) & 1)) < i) x = y;\n\n while (x > 0) {\n a = LOAD(buffer, 0, byteOffset); // a = arr[0]\n let b = LOAD(buffer, x, byteOffset); // b = arr[x]\n\n if (comparator(a, b) < 0) {\n store(\n bitset + (x >> 5 << shift32),\n load(bitset + (x >> 5 << shift32)) ^ (1 << (x & 31))\n );\n STORE(buffer, x, a, byteOffset); // arr[x] = a\n STORE(buffer, 0, b, byteOffset); // arr[0] = b\n }\n x >>= 1;\n }\n }\n\n memory.free(bitset);\n\n var t = LOAD(buffer, 1, byteOffset); // t = arr[1]\n STORE(buffer, 1, LOAD(buffer, 0, byteOffset), byteOffset);\n STORE(buffer, 0, t, byteOffset); // arr[0] = t\n}\n","internal/string":'import { MAX_SIZE_32 } from "./allocator";\nimport { String } from "../string";\n\n/** Size of a String header. */\n@inline export const HEADER_SIZE = (offsetof() + 1) & ~1; // 2 byte aligned\n/** Maximum length of a String. */\n@inline export const MAX_LENGTH = (MAX_SIZE_32 - HEADER_SIZE) >>> 1;\n\n// Low-level utility\n\nfunction __gc(ref: usize): void {}\n\nexport function allocateUnsafe(length: i32): String {\n assert(length > 0 && length <= MAX_LENGTH);\n var buffer: usize;\n if (isManaged()) {\n buffer = __gc_allocate(HEADER_SIZE + (length << 1), __gc); // tslint:disable-line\n } else {\n buffer = memory.allocate(HEADER_SIZE + (length << 1));\n }\n store(buffer, length);\n return changetype(buffer);\n}\n\n@inline\nexport function freeUnsafe(buffer: String): void {\n if (!isManaged()) {\n assert(buffer);\n memory.free(changetype(buffer));\n }\n}\n\nexport function copyUnsafe(dest: String, destOffset: usize, src: String, srcOffset: usize, len: usize): void {\n memory.copy(\n changetype(dest) + (destOffset << 1) + HEADER_SIZE,\n changetype(src) + (srcOffset << 1) + HEADER_SIZE,\n len << 1\n );\n}\n\nexport function compareUnsafe(str1: String, offset1: usize, str2: String, offset2: usize, len: usize): i32 {\n var cmp: i32 = 0;\n var ptr1 = changetype(str1) + (offset1 << 1);\n var ptr2 = changetype(str2) + (offset2 << 1);\n while (len && !(cmp = load(ptr1, HEADER_SIZE) - load(ptr2, HEADER_SIZE))) {\n --len, ptr1 += 2, ptr2 += 2;\n }\n return cmp;\n}\n\nexport function repeatUnsafe(dest: String, destOffset: usize, src: String, count: i32): void {\n var length = src.length;\n if (ASC_SHRINK_LEVEL > 1) {\n let strLen = length << 1;\n let to = changetype(dest) + HEADER_SIZE + (destOffset << 1);\n let from = changetype(src) + HEADER_SIZE;\n for (let i = 0, len = strLen * count; i < len; i += strLen) {\n memory.copy(to + i, from, strLen);\n }\n } else {\n switch (length) {\n case 0: break;\n case 1: {\n let cc = load(changetype(src), HEADER_SIZE);\n let out = changetype(dest) + (destOffset << 1);\n for (let i = 0; i < count; ++i) {\n store(out + (i << 1), cc, HEADER_SIZE);\n }\n break;\n }\n case 2: {\n let cc = load(changetype(src), HEADER_SIZE);\n let out = changetype(dest) + (destOffset << 1);\n for (let i = 0; i < count; ++i) {\n store(out + (i << 2), cc, HEADER_SIZE);\n }\n break;\n }\n case 3: {\n let cc1 = load(changetype(src), HEADER_SIZE + 0);\n let cc2 = load(changetype(src), HEADER_SIZE + 4);\n let out = changetype(dest) + (destOffset << 1);\n for (let i = 0; i < count; ++i) {\n store(out + (i << 2), cc1, HEADER_SIZE + 0);\n store(out + (i << 1), cc2, HEADER_SIZE + 4);\n }\n break;\n }\n case 4: {\n let cc = load(changetype(src), HEADER_SIZE);\n let out = changetype(dest) + (destOffset << 1);\n for (let i = 0; i < count; ++i) {\n store(out + (i << 3), cc, HEADER_SIZE);\n }\n break;\n }\n default: {\n let strLen = length << 1;\n let to = changetype(dest) + HEADER_SIZE + (destOffset << 1);\n let from = changetype(src) + HEADER_SIZE;\n for (let i = 0, len = strLen * count; i < len; i += strLen) {\n memory.copy(to + i, from, strLen);\n }\n break;\n }\n }\n }\n}\n\n// Helpers\n\n@inline export const enum CharCode {\n PLUS = 0x2B,\n MINUS = 0x2D,\n DOT = 0x2E,\n _0 = 0x30,\n _1 = 0x31,\n _2 = 0x32,\n _3 = 0x33,\n _4 = 0x34,\n _5 = 0x35,\n _6 = 0x36,\n _7 = 0x37,\n _8 = 0x38,\n _9 = 0x39,\n A = 0x41,\n B = 0x42,\n E = 0x45,\n N = 0x4E,\n O = 0x4F,\n X = 0x58,\n Z = 0x5a,\n a = 0x61,\n b = 0x62,\n e = 0x65,\n n = 0x6E,\n o = 0x6F,\n x = 0x78,\n z = 0x7A\n}\n\nexport function isWhiteSpaceOrLineTerminator(c: u16): bool {\n switch (c) {\n case 9: // \n case 10: // \n case 13: // \n case 11: // \n case 12: // \n case 32: // \n case 160: // \n case 8232: // \n case 8233: // \n case 65279: return true; // \n default: return false;\n }\n}\n\n/** Parses a string to an integer (usually), using the specified radix. */\nexport function parse(str: String, radix: i32 = 0): T {\n var len: i32 = str.length;\n if (!len) return NaN;\n\n var ptr = changetype(str) /* + HEAD -> offset */;\n var code = load(ptr, HEADER_SIZE);\n\n // determine sign\n var sign: T;\n if (code == CharCode.MINUS) {\n if (!--len) return NaN;\n code = load(ptr += 2, HEADER_SIZE);\n sign = -1;\n } else if (code == CharCode.PLUS) {\n if (!--len) return NaN;\n code = load(ptr += 2, HEADER_SIZE);\n sign = 1;\n } else {\n sign = 1;\n }\n\n // determine radix\n if (!radix) {\n if (code == CharCode._0 && len > 2) {\n switch (load(ptr + 2, HEADER_SIZE)) {\n case CharCode.B:\n case CharCode.b: {\n ptr += 4; len -= 2;\n radix = 2;\n break;\n }\n case CharCode.O:\n case CharCode.o: {\n ptr += 4; len -= 2;\n radix = 8;\n break;\n }\n case CharCode.X:\n case CharCode.x: {\n ptr += 4; len -= 2;\n radix = 16;\n break;\n }\n default: radix = 10;\n }\n } else radix = 10;\n } else if (radix < 2 || radix > 36) {\n return NaN;\n }\n\n // calculate value\n var num: T = 0;\n while (len--) {\n code = load(ptr, HEADER_SIZE);\n if (code >= CharCode._0 && code <= CharCode._9) {\n code -= CharCode._0;\n } else if (code >= CharCode.A && code <= CharCode.Z) {\n code -= CharCode.A - 10;\n } else if (code >= CharCode.a && code <= CharCode.z) {\n code -= CharCode.a - 10;\n } else break;\n if (code >= radix) break;\n num = (num * radix) + code;\n ptr += 2;\n }\n return sign * num;\n}\n',"internal/typedarray":'import {\n HEADER_SIZE as AB_HEADER_SIZE,\n MAX_BLENGTH as AB_MAX_BLENGTH,\n allocateUnsafe,\n LOAD,\n STORE\n} from "./arraybuffer";\n\nimport {\n SORT as SORT_IMPL\n} from "./sort";\n\n/** Typed array base class. Not a global object. */\nexport abstract class TypedArray {\n [key: number]: T; // compatibility only\n\n readonly buffer: ArrayBuffer;\n readonly byteOffset: i32;\n readonly byteLength: i32;\n\n constructor(length: i32) {\n const MAX_LENGTH = AB_MAX_BLENGTH / sizeof();\n if (length > MAX_LENGTH) throw new RangeError("Invalid typed array length");\n var byteLength = length << alignof();\n var buffer = allocateUnsafe(byteLength);\n memory.fill(changetype(buffer) + AB_HEADER_SIZE, 0, byteLength);\n this.buffer = buffer;\n this.byteOffset = 0;\n this.byteLength = byteLength;\n }\n\n @inline\n get length(): i32 {\n return this.byteLength >>> alignof();\n }\n\n @operator("[]")\n protected __get(index: i32): T {\n if (index >= (this.byteLength >>> alignof())) throw new Error("Index out of bounds");\n return LOAD(this.buffer, index, this.byteOffset);\n }\n\n @inline @operator("{}")\n protected __unchecked_get(index: i32): T {\n return LOAD(this.buffer, index, this.byteOffset);\n }\n\n @operator("[]=")\n protected __set(index: i32, value: native): void {\n if (index >= (this.byteLength >>> alignof())) throw new Error("Index out of bounds");\n STORE>(this.buffer, index, value, this.byteOffset);\n }\n\n @inline @operator("{}=")\n protected __unchecked_set(index: i32, value: native): void {\n STORE>(this.buffer, index, value, this.byteOffset);\n }\n\n // copyWithin(target: i32, start: i32, end: i32 = this.length): this\n}\n\n@inline\nexport function FILL, T extends number>(\n array: TArray,\n value: native,\n start: i32,\n end: i32\n): TArray {\n var buffer = array.buffer;\n var byteOffset = array.byteOffset;\n var len = array.length;\n start = start < 0 ? max(len + start, 0) : min(start, len);\n end = end < 0 ? max(len + end, 0) : min(end, len);\n if (sizeof() == 1) {\n if (start < end) {\n memory.fill(\n changetype(buffer) + start + byteOffset + AB_HEADER_SIZE,\n value,\n (end - start)\n );\n }\n } else {\n for (; start < end; ++start) {\n STORE>(buffer, start, value, byteOffset);\n }\n }\n return array;\n}\n\n@inline\nexport function SORT, T>(\n array: TArray,\n comparator: (a: T, b: T) => i32\n): TArray {\n var byteOffset = array.byteOffset;\n var length = array.length;\n if (length <= 1) return array;\n var buffer = array.buffer;\n if (length == 2) {\n let a = LOAD(buffer, 1, byteOffset);\n let b = LOAD(buffer, 0, byteOffset);\n if (comparator(a, b) < 0) {\n STORE(buffer, 1, b, byteOffset);\n STORE(buffer, 0, a, byteOffset);\n }\n return array;\n }\n SORT_IMPL(buffer, byteOffset, length, comparator);\n return array;\n}\n\n@inline\nexport function SUBARRAY, T>(\n array: TArray,\n begin: i32,\n end: i32\n): TArray {\n var length = array.length;\n if (begin < 0) begin = max(length + begin, 0);\n else begin = min(begin, length);\n if (end < 0) end = max(length + end, begin);\n else end = max(min(end, length), begin);\n var slice = memory.allocate(offsetof());\n store(slice, array.buffer, offsetof("buffer"));\n store(slice, array.byteOffset + (begin << alignof()), offsetof("byteOffset"));\n store(slice, (end - begin) << alignof(), offsetof("byteLength"));\n return changetype(slice);\n}\n\n@inline\nexport function REDUCE, T, TRet>(\n array: TArray,\n callbackfn: (accumulator: TRet, value: T, index: i32, array: TArray) => TRet,\n initialValue: TRet\n): TRet {\n var length = array.length;\n var buffer = array.buffer;\n var byteOffset = array.byteOffset;\n for (let i = 0; i < length; i++) {\n initialValue = callbackfn(\n initialValue,\n LOAD(buffer, i, byteOffset),\n i,\n array,\n );\n }\n return initialValue;\n}\n\n@inline\nexport function REDUCE_RIGHT, T, TRet>(\n array: TArray,\n callbackfn: (accumulator: TRet, value: T, index: i32, array: TArray) => TRet,\n initialValue: TRet\n): TRet {\n var buffer = array.buffer;\n var byteOffset = array.byteOffset;\n for (let i = array.length - 1; i >= 0; i--) {\n initialValue = callbackfn(\n initialValue,\n LOAD(buffer, i, byteOffset),\n i,\n array,\n );\n }\n return initialValue;\n}\n\n@inline\nexport function MAP, T>(\n array: TArray,\n callbackfn: (value: T, index: i32, self: TArray) => T,\n): TArray {\n var length = array.length;\n var buffer = array.buffer;\n var byteOffset = array.byteOffset;\n var result = instantiate(length);\n var resultBuffer = result.buffer;\n for (let i = 0; i < length; i++) {\n STORE>(resultBuffer, i, >callbackfn(LOAD(buffer, i, byteOffset), i, array));\n }\n\n return result;\n}\n\n@inline\nexport function FIND_INDEX, T>(\n array: TArray,\n callbackfn: (value: T, index: i32, array: TArray) => bool,\n): i32 {\n var length = array.length;\n var buffer = array.buffer;\n var byteOffset = array.byteOffset;\n for (let i = 0; i < length; i++) {\n if (callbackfn(LOAD(buffer, i, byteOffset), i, array)) {\n return i;\n }\n }\n return -1;\n}\n\n@inline\nexport function SOME, T>(\n array: TArray,\n callbackfn: (value: T, index: i32, array: TArray) => bool,\n): bool {\n var length = array.length;\n var buffer = array.buffer;\n var byteOffset = array.byteOffset;\n for (let i = 0; i < length; i++) {\n if (callbackfn(LOAD(buffer, i, byteOffset), i, array)) {\n return true;\n }\n }\n return false;\n}\n\n@inline\nexport function EVERY, T>(\n array: TArray,\n callbackfn: (value: T, index: i32, array: TArray) => bool,\n): bool {\n var length = array.length;\n var buffer = array.buffer;\n var byteOffset = array.byteOffset;\n for (let i = 0; i < length; i++) {\n if (callbackfn(LOAD(buffer, i, byteOffset), i, array)) {\n continue;\n }\n return false;\n }\n return true;\n}\n\n@inline\nexport function FOREACH, T>(\n array: TArray,\n callbackfn: (value: T, index: i32, array: TArray) => void,\n): void {\n var length = array.length;\n var buffer = array.buffer;\n var byteOffset = array.byteOffset;\n for (let i = 0; i < length; i++) {\n callbackfn(LOAD(buffer, i, byteOffset), i, array);\n }\n}\n',iterator:"export abstract class Iterable {\n // ?\n}\n\n@sealed\nexport abstract class Iterator {\n\n // private constructor(iterable: Iterable) {\n // }\n\n // TODO: these need to evaluate the classId at the respective reference in order to obtain the\n // next value, i.e. arrays work differently than maps. we'd then have:\n //\n // ╒═══════════════════ Iterator layout (32-bit) ══════════════════╕\n // 3 2 1\n // 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 bits\n // ├─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┴─┤\n // │ index │\n // ├─────────────────────────────────────────────────────────┬───┬─┤\n // │ reference │ 0 │D│\n // └─────────────────────────────────────────────────────────┴───┴─┘\n // D: Done flag\n\n // get value(this: u64): T {\n // ?\n // }\n\n // next(this: u64): Iterator {\n // ?\n // }\n\n done(this: u64): bool {\n return (this & 1);\n }\n}\n",map:'import {\n HEADER_SIZE as HEADER_SIZE_AB\n} from "./internal/arraybuffer";\n\nimport {\n HASH\n} from "./internal/hash";\n\n// A deterministic hash map based on CloseTable from https://github.com/jorendorff/dht\n\n@inline const INITIAL_CAPACITY = 4;\n@inline const FILL_FACTOR: f64 = 8 / 3;\n@inline const FREE_FACTOR: f64 = 3 / 4;\n\n/** Structure of a map entry. */\n@unmanaged class MapEntry {\n key: K;\n value: V;\n taggedNext: usize; // LSB=1 indicates EMPTY\n}\n\n/** Empty bit. */\n@inline const EMPTY: usize = 1 << 0;\n\n/** Size of a bucket. */\n@inline const BUCKET_SIZE = sizeof();\n\n/** Computes the alignment of an entry. */\n@inline function ENTRY_ALIGN(): usize {\n // can align to 4 instead of 8 if 32-bit and K/V is <= 32-bits\n const maxkv = sizeof() > sizeof() ? sizeof() : sizeof();\n const align = (maxkv > sizeof() ? maxkv : sizeof()) - 1;\n return align;\n}\n\n/** Computes the aligned size of an entry. */\n@inline function ENTRY_SIZE(): usize {\n const align = ENTRY_ALIGN();\n const size = (offsetof>() + align) & ~align;\n return size;\n}\n\nexport class Map {\n\n // buckets holding references to the respective first entry within\n private buckets: ArrayBuffer; // usize[bucketsMask + 1]\n private bucketsMask: u32;\n\n // entries in insertion order\n private entries: ArrayBuffer; // MapEntry[entriesCapacity]\n private entriesCapacity: i32;\n private entriesOffset: i32;\n private entriesCount: i32;\n\n get size(): i32 { return this.entriesCount; }\n\n constructor() { this.clear(); }\n\n clear(): void {\n const bucketsSize = INITIAL_CAPACITY * BUCKET_SIZE;\n this.buckets = new ArrayBuffer(bucketsSize);\n this.bucketsMask = INITIAL_CAPACITY - 1;\n const entriesSize = INITIAL_CAPACITY * ENTRY_SIZE();\n this.entries = new ArrayBuffer(entriesSize, true);\n this.entriesCapacity = INITIAL_CAPACITY;\n this.entriesOffset = 0;\n this.entriesCount = 0;\n }\n\n private find(key: K, hashCode: u32): MapEntry | null {\n var entry = load>(\n changetype(this.buckets) + (hashCode & this.bucketsMask) * BUCKET_SIZE,\n HEADER_SIZE_AB\n );\n while (entry) {\n if (!(entry.taggedNext & EMPTY) && entry.key == key) return entry;\n entry = changetype>(entry.taggedNext & ~EMPTY);\n }\n return null;\n }\n\n has(key: K): bool {\n return this.find(key, HASH(key)) !== null;\n }\n\n get(key: K): V {\n var entry = this.find(key, HASH(key));\n return entry ? entry.value : unreachable();\n }\n\n set(key: K, value: V): void {\n var hashCode = HASH(key);\n var entry = this.find(key, hashCode);\n if (entry) {\n entry.value = value;\n } else {\n // check if rehashing is necessary\n if (this.entriesOffset == this.entriesCapacity) {\n this.rehash(\n this.entriesCount < (this.entriesCapacity * FREE_FACTOR)\n ? this.bucketsMask // just rehash if 1/4+ entries are empty\n : (this.bucketsMask << 1) | 1 // grow capacity to next 2^N\n );\n }\n // append new entry\n let entries = this.entries;\n entry = changetype>(\n changetype(entries) + HEADER_SIZE_AB + this.entriesOffset++ * ENTRY_SIZE()\n );\n entry.key = key;\n entry.value = value;\n ++this.entriesCount;\n // link with previous entry in bucket\n let bucketPtrBase = changetype(this.buckets) + (hashCode & this.bucketsMask) * BUCKET_SIZE;\n entry.taggedNext = load(bucketPtrBase, HEADER_SIZE_AB);\n store(bucketPtrBase, changetype(entry), HEADER_SIZE_AB);\n if (isManaged()) __gc_link(changetype(this), changetype(key)); // tslint:disable-line\n if (isManaged()) __gc_link(changetype(this), changetype(value)); // tslint:disable-line\n }\n }\n\n delete(key: K): bool {\n var entry = this.find(key, HASH(key));\n if (!entry) return false;\n entry.taggedNext |= EMPTY;\n --this.entriesCount;\n // check if rehashing is appropriate\n var halfBucketsMask = this.bucketsMask >> 1;\n if (\n halfBucketsMask + 1 >= max(INITIAL_CAPACITY, this.entriesCount) &&\n this.entriesCount < (this.entriesCapacity * FREE_FACTOR)\n ) this.rehash(halfBucketsMask);\n return true;\n }\n\n private rehash(newBucketsMask: u32): void {\n var newBucketsCapacity = (newBucketsMask + 1);\n var newBuckets = new ArrayBuffer(newBucketsCapacity * BUCKET_SIZE);\n var newEntriesCapacity = (newBucketsCapacity * FILL_FACTOR);\n var newEntries = new ArrayBuffer(newEntriesCapacity * ENTRY_SIZE(), true);\n\n // copy old entries to new entries\n var oldPtr = changetype(this.entries) + HEADER_SIZE_AB;\n var oldEnd = oldPtr + this.entriesOffset * ENTRY_SIZE();\n var newPtr = changetype(newEntries) + HEADER_SIZE_AB;\n while (oldPtr != oldEnd) {\n let oldEntry = changetype>(oldPtr);\n if (!(oldEntry.taggedNext & EMPTY)) {\n let newEntry = changetype>(newPtr);\n newEntry.key = oldEntry.key;\n newEntry.value = oldEntry.value;\n let newBucketIndex = HASH(oldEntry.key) & newBucketsMask;\n let newBucketPtrBase = changetype(newBuckets) + newBucketIndex * BUCKET_SIZE;\n newEntry.taggedNext = load(newBucketPtrBase, HEADER_SIZE_AB);\n store(newBucketPtrBase, newPtr, HEADER_SIZE_AB);\n newPtr += ENTRY_SIZE();\n }\n oldPtr += ENTRY_SIZE();\n }\n\n this.buckets = newBuckets;\n this.bucketsMask = newBucketsMask;\n this.entries = newEntries;\n this.entriesCapacity = newEntriesCapacity;\n this.entriesOffset = this.entriesCount;\n }\n\n toString(): string {\n return "[object Map]";\n }\n\n private __gc(): void {\n __gc_mark(changetype(this.buckets)); // tslint:disable-line\n var entries = this.entries;\n __gc_mark(changetype(entries)); // tslint:disable-line\n if (isManaged() || isManaged()) {\n let offset: usize = 0;\n let end: usize = this.entriesOffset * ENTRY_SIZE();\n while (offset < end) {\n let entry = changetype>(\n changetype(entries) + HEADER_SIZE_AB + offset * ENTRY_SIZE()\n );\n if (!(entry.taggedNext & EMPTY)) {\n if (isManaged()) __gc_mark(changetype(entry.key)); // tslint:disable-line\n if (isManaged()) __gc_mark(changetype(entry.value)); // tslint:disable-line\n }\n offset += ENTRY_SIZE();\n }\n }\n }\n}\n',math:'import * as JSMath from "./bindings/Math";\nexport { JSMath };\n\nimport {\n abs as builtin_abs,\n ceil as builtin_ceil,\n clz as builtin_clz,\n copysign as builtin_copysign,\n floor as builtin_floor,\n max as builtin_max,\n min as builtin_min,\n sqrt as builtin_sqrt,\n trunc as builtin_trunc\n} from "./builtins";\n\n// SUN COPYRIGHT NOTICE\n//\n// Copyright (C) 1993 by Sun Microsystems, Inc. All rights reserved.\n// Developed at SunPro, a Sun Microsystems, Inc. business.\n// Permission to use, copy, modify, and distribute this software\n// is freely granted, provided that this notice is preserved.\n//\n// Applies to all functions marked with a comment referring here.\n\n// TODO: sin, cos, tan for Math namespace\n\n/** @internal */\nfunction R(z: f64): f64 { // Rational approximation of (asin(x)-x)/x^3\n const // see: musl/src/math/asin.c and SUN COPYRIGHT NOTICE above\n pS0 = reinterpret(0x3FC5555555555555), // 1.66666666666666657415e-01\n pS1 = reinterpret(0xBFD4D61203EB6F7D), // -3.25565818622400915405e-01\n pS2 = reinterpret(0x3FC9C1550E884455), // 2.01212532134862925881e-01\n pS3 = reinterpret(0xBFA48228B5688F3B), // -4.00555345006794114027e-02\n pS4 = reinterpret(0x3F49EFE07501B288), // 7.91534994289814532176e-04\n pS5 = reinterpret(0x3F023DE10DFDF709), // 3.47933107596021167570e-05\n qS1 = reinterpret(0xC0033A271C8A2D4B), // -2.40339491173441421878e+00\n qS2 = reinterpret(0x40002AE59C598AC8), // 2.02094576023350569471e+00\n qS3 = reinterpret(0xBFE6066C1B8D0159), // -6.88283971605453293030e-01\n qS4 = reinterpret(0x3FB3B8C5B12E9282); // 7.70381505559019352791e-02\n var p = z * (pS0 + z * (pS1 + z * (pS2 + z * (pS3 + z * (pS4 + z * pS5)))));\n var q = 1.0 + z * (qS1 + z * (qS2 + z * (qS3 + z * qS4)));\n return p / q;\n}\n\n@inline function expo2(x: f64): f64 { // exp(x)/2 for x >= log(DBL_MAX)\n const // see: musl/src/math/__expo2.c\n k = 2043,\n kln2 = reinterpret(0x40962066151ADD8B); // 0x1.62066151add8bp+10\n var scale = reinterpret(((0x3FF + k / 2) << 20) << 32);\n return NativeMath.exp(x - kln2) * scale * scale;\n}\n\n/** @internal */\n@lazy var random_seeded = false;\n@lazy var random_state0_64: u64;\n@lazy var random_state1_64: u64;\n@lazy var random_state0_32: u32;\n@lazy var random_state1_32: u32;\n\nfunction murmurHash3(h: u64): u64 { // Force all bits of a hash block to avalanche\n h ^= h >> 33; // see: https://github.com/aappleby/smhasher\n h *= 0xFF51AFD7ED558CCD;\n h ^= h >> 33;\n h *= 0xC4CEB9FE1A85EC53;\n h ^= h >> 33;\n return h;\n}\n\nfunction splitMix32(h: u32): u32 {\n h += 0x6D2B79F5;\n h = (h ^ (h >> 15)) * (h | 1);\n h ^= h + (h ^ (h >> 7)) * (h | 61);\n return h ^ (h >> 14);\n}\n\nexport namespace NativeMath {\n\n @lazy export const E = reinterpret(0x4005BF0A8B145769); // 2.7182818284590452354\n @lazy export const LN2 = reinterpret(0x3FE62E42FEFA39EF); // 0.69314718055994530942\n @lazy export const LN10 = reinterpret(0x40026BB1BBB55516); // 2.30258509299404568402\n @lazy export const LOG2E = reinterpret(0x3FF71547652B82FE); // 1.4426950408889634074\n @lazy export const LOG10E = reinterpret(0x3FDBCB7B1526E50E); // 0.43429448190325182765\n @lazy export const PI = reinterpret(0x400921FB54442D18); // 3.14159265358979323846\n @lazy export const SQRT1_2 = reinterpret(0x3FE6A09E667F3BCD); // 0.70710678118654752440\n @lazy export const SQRT2 = reinterpret(0x3FF6A09E667F3BCD); // 1.41421356237309504880\n\n @inline\n export function abs(x: f64): f64 {\n return builtin_abs(x);\n }\n\n export function acos(x: f64): f64 { // see: musl/src/math/acos.c and SUN COPYRIGHT NOTICE above\n const\n pio2_hi = reinterpret(0x3FF921FB54442D18), // 1.57079632679489655800e+00\n pio2_lo = reinterpret(0x3C91A62633145C07), // 6.12323399573676603587e-17\n Ox1p_120f = reinterpret(0x03800000);\n var hx = (reinterpret(x) >> 32);\n var ix = hx & 0x7FFFFFFF;\n if (ix >= 0x3FF00000) {\n let lx = reinterpret(x);\n if ((ix - 0x3FF00000 | lx) == 0) {\n if (hx >> 31) return 2 * pio2_hi + Ox1p_120f;\n return 0;\n }\n return 0 / (x - x);\n }\n if (ix < 0x3FE00000) {\n if (ix <= 0x3C600000) return pio2_hi + Ox1p_120f;\n return pio2_hi - (x - (pio2_lo - x * R(x * x)));\n }\n var s: f64, w: f64, z: f64;\n if (hx >> 31) {\n // z = (1.0 + x) * 0.5;\n z = 0.5 + x * 0.5;\n s = builtin_sqrt(z);\n w = R(z) * s - pio2_lo;\n return 2 * (pio2_hi - (s + w));\n }\n // z = (1.0 - x) * 0.5;\n z = 0.5 - x * 0.5;\n s = builtin_sqrt(z);\n var df = reinterpret(reinterpret(s) & 0xFFFFFFFF00000000);\n var c = (z - df * df) / (s + df);\n w = R(z) * s + c;\n return 2 * (df + w);\n }\n\n export function acosh(x: f64): f64 { // see: musl/src/math/acosh.c\n const s = reinterpret(0x3FE62E42FEFA39EF);\n var e = reinterpret(x) >> 52 & 0x7FF;\n if (e < 0x3FF + 1) return log1p(x - 1 + builtin_sqrt((x - 1) * (x - 1) + 2 * (x - 1)));\n if (e < 0x3FF + 26) return log(2 * x - 1 / (x + builtin_sqrt(x * x - 1)));\n return log(x) + s;\n }\n\n export function asin(x: f64): f64 { // see: musl/src/math/asin.c and SUN COPYRIGHT NOTICE above\n const\n pio2_hi = reinterpret(0x3FF921FB54442D18), // 1.57079632679489655800e+00\n pio2_lo = reinterpret(0x3C91A62633145C07), // 6.12323399573676603587e-17\n Ox1p_120f = reinterpret(0x03800000);\n var hx = (reinterpret(x) >> 32);\n var ix = hx & 0x7FFFFFFF;\n if (ix >= 0x3FF00000) {\n let lx = reinterpret(x);\n if ((ix - 0x3FF00000 | lx) == 0) return x * pio2_hi + Ox1p_120f;\n return 0 / (x - x);\n }\n if (ix < 0x3FE00000) {\n if (ix < 0x3E500000 && ix >= 0x00100000) return x;\n return x + x * R(x * x);\n }\n // var z = (1.0 - builtin_abs(x)) * 0.5;\n var z = 0.5 - builtin_abs(x) * 0.5;\n var s = builtin_sqrt(z);\n var r = R(z);\n if (ix >= 0x3FEF3333) x = pio2_hi - (2 * (s + s * r) - pio2_lo);\n else {\n let f = reinterpret(reinterpret(s) & 0xFFFFFFFF00000000);\n let c = (z - f * f) / (s + f);\n x = 0.5 * pio2_hi - (2 * s * r - (pio2_lo - 2 * c) - (0.5 * pio2_hi - 2 * f));\n }\n if (hx >> 31) return -x;\n return x;\n }\n\n export function asinh(x: f64): f64 { // see: musl/src/math/asinh.c\n const c = reinterpret(0x3FE62E42FEFA39EF); // 0.693147180559945309417232121458176568\n var u = reinterpret(x);\n var e = u >> 52 & 0x7FF;\n var y = reinterpret(u & 0x7FFFFFFFFFFFFFFF);\n if (e >= 0x3FF + 26) y = log(y) + c;\n else if (e >= 0x3FF + 1) y = log(2 * y + 1 / (builtin_sqrt(y * y + 1) + y));\n else if (e >= 0x3FF - 26) y = log1p(y + y * y / (builtin_sqrt(y * y + 1) + 1));\n return builtin_copysign(y, x);\n }\n\n export function atan(x: f64): f64 { // see musl/src/math/atan.c and SUN COPYRIGHT NOTICE above\n const\n atanhi0 = reinterpret(0x3FDDAC670561BB4F), // 4.63647609000806093515e-01\n atanhi1 = reinterpret(0x3FE921FB54442D18), // 7.85398163397448278999e-01\n atanhi2 = reinterpret(0x3FEF730BD281F69B), // 9.82793723247329054082e-01\n atanhi3 = reinterpret(0x3FF921FB54442D18), // 1.57079632679489655800e+00\n atanlo0 = reinterpret(0x3C7A2B7F222F65E2), // 2.26987774529616870924e-17\n atanlo1 = reinterpret(0x3C81A62633145C07), // 3.06161699786838301793e-17\n atanlo2 = reinterpret(0x3C7007887AF0CBBD), // 1.39033110312309984516e-17\n atanlo3 = reinterpret(0x3C91A62633145C07), // 6.12323399573676603587e-17\n aT0 = reinterpret(0x3FD555555555550D), // 3.33333333333329318027e-01\n aT1 = reinterpret(0xBFC999999998EBC4), // -1.99999999998764832476e-01\n aT2 = reinterpret(0x3FC24924920083FF), // 1.42857142725034663711e-01\n aT3 = reinterpret(0xBFBC71C6FE231671), // -1.11111104054623557880e-01,\n aT4 = reinterpret(0x3FB745CDC54C206E), // 9.09088713343650656196e-02\n aT5 = reinterpret(0xBFB3B0F2AF749A6D), // -7.69187620504482999495e-02\n aT6 = reinterpret(0x3FB10D66A0D03D51), // 6.66107313738753120669e-02\n aT7 = reinterpret(0xBFADDE2D52DEFD9A), // -5.83357013379057348645e-02\n aT8 = reinterpret(0x3FA97B4B24760DEB), // 4.97687799461593236017e-02\n aT9 = reinterpret(0xBFA2B4442C6A6C2F), // -3.65315727442169155270e-02\n aT10 = reinterpret(0x3F90AD3AE322DA11), // 1.62858201153657823623e-02\n Ox1p_120f = reinterpret(0x03800000);\n var ix = (reinterpret(x) >> 32);\n var sx = x;\n ix &= 0x7FFFFFFF;\n var z: f64;\n if (ix >= 0x44100000) {\n if (isNaN(x)) return x;\n z = atanhi3 + Ox1p_120f;\n return builtin_copysign(z, sx);\n }\n var id: i32;\n if (ix < 0x3FDC0000) {\n if (ix < 0x3E400000) return x;\n id = -1;\n } else {\n x = builtin_abs(x);\n if (ix < 0x3FF30000) {\n if (ix < 0x3FE60000) {\n id = 0;\n x = (2.0 * x - 1.0) / (2.0 + x);\n } else {\n id = 1;\n x = (x - 1.0) / (x + 1.0);\n }\n } else {\n if (ix < 0x40038000) {\n id = 2;\n x = (x - 1.5) / (1.0 + 1.5 * x);\n } else {\n id = 3;\n x = -1.0 / x;\n }\n }\n }\n z = x * x;\n var w = z * z;\n var s1 = z * (aT0 + w * (aT2 + w * (aT4 + w * (aT6 + w * (aT8 + w * aT10)))));\n var s2 = w * (aT1 + w * (aT3 + w * (aT5 + w * (aT7 + w * aT9))));\n var s3 = x * (s1 + s2);\n if (id < 0) return x - s3;\n switch (id) {\n case 0: { z = atanhi0 - ((s3 - atanlo0) - x); break; }\n case 1: { z = atanhi1 - ((s3 - atanlo1) - x); break; }\n case 2: { z = atanhi2 - ((s3 - atanlo2) - x); break; }\n case 3: { z = atanhi3 - ((s3 - atanlo3) - x); break; }\n default: unreachable();\n }\n return builtin_copysign(z, sx);\n }\n\n export function atanh(x: f64): f64 { // see: musl/src/math/atanh.c\n var u = reinterpret(x);\n var e = u >> 52 & 0x7FF;\n var s = u >> 63;\n u &= 0x7FFFFFFFFFFFFFFF;\n var y = reinterpret(u);\n if (e < 0x3FF - 1) {\n if (e >= 0x3FF - 32) y = 0.5 * log1p(2 * y + 2 * y * y / (1 - y));\n } else {\n y = 0.5 * log1p(2 * (y / (1 - y)));\n }\n return builtin_copysign(y, x);\n }\n\n export function atan2(y: f64, x: f64): f64 { // see: musl/src/math/atan2.c and SUN COPYRIGHT NOTICE above\n const pi_lo = reinterpret(0x3CA1A62633145C07); // 1.2246467991473531772E-16\n if (isNaN(x) || isNaN(y)) return x + y;\n var u = reinterpret(x);\n var ix = (u >> 32);\n var lx = u;\n u = reinterpret(y);\n var iy = (u >> 32);\n var ly = u;\n if ((ix - 0x3FF00000 | lx) == 0) return atan(y);\n var m = ((iy >> 31) & 1) | ((ix >> 30) & 2);\n ix = ix & 0x7FFFFFFF;\n iy = iy & 0x7FFFFFFF;\n if ((iy | ly) == 0) {\n switch (m) {\n case 0:\n case 1: return y;\n case 2: return PI;\n case 3: return -PI;\n }\n }\n if ((ix | lx) == 0) return m & 1 ? -PI / 2 : PI / 2;\n if (ix == 0x7FF00000) {\n if (iy == 0x7FF00000) {\n switch (m) {\n case 0: return PI / 4;\n case 1: return -PI / 4;\n case 2: return 3 * PI / 4;\n case 3: return -3 * PI / 4;\n }\n } else {\n switch (m) {\n case 0: return 0.0;\n case 1: return -0.0;\n case 2: return PI;\n case 3: return -PI;\n }\n }\n }\n var z: f64;\n if (ix + (64 << 20) < iy || iy == 0x7FF00000) return m & 1 ? -PI / 2 : PI / 2;\n if ((m & 2) && iy + (64 << 20) < ix) z = 0;\n else z = atan(builtin_abs(y / x));\n switch (m) {\n case 0: return z;\n case 1: return -z;\n case 2: return PI - (z - pi_lo);\n case 3: return (z - pi_lo) - PI;\n }\n unreachable();\n return 0;\n }\n\n export function cbrt(x: f64): f64 { // see: musl/src/math/cbrt.c and SUN COPYRIGHT NOTICE above\n const\n B1 = 715094163,\n B2 = 696219795,\n P0 = reinterpret(0x3FFE03E60F61E692), // 1.87595182427177009643\n P1 = reinterpret(0xBFFE28E092F02420), // -1.88497979543377169875\n P2 = reinterpret(0x3FF9F1604A49D6C2), // 1.621429720105354466140\n P3 = reinterpret(0xBFE844CBBEE751D9), // -0.758397934778766047437\n P4 = reinterpret(0x3FC2B000D4E4EDD7), // 0.145996192886612446982\n Ox1p54 = reinterpret(0x4350000000000000);\n var u = reinterpret(x);\n var hx = (u >> 32) & 0x7FFFFFFF;\n if (hx >= 0x7FF00000) return x + x;\n if (hx < 0x00100000) {\n u = reinterpret(x * Ox1p54);\n hx = (u >> 32) & 0x7FFFFFFF;\n if (hx == 0) return x;\n hx = hx / 3 + B2;\n } else {\n hx = hx / 3 + B1;\n }\n u &= 1 << 63;\n u |= hx << 32;\n var t = reinterpret(u);\n var r = (t * t) * (t / x);\n t = t * ((P0 + r * (P1 + r * P2)) + ((r * r) * r) * (P3 + r * P4));\n t = reinterpret((reinterpret(t) + 0x80000000) & 0xFFFFFFFFC0000000);\n var s = t * t;\n r = x / s;\n r = (r - t) / (2 * t + r);\n t = t + t * r;\n return t;\n }\n\n @inline\n export function ceil(x: f64): f64 {\n return builtin_ceil(x);\n }\n\n export function clz32(x: f64): f64 {\n if (!isFinite(x)) return 32;\n /*\n * Wasm (MVP) and JS have different approaches for double->int conversions.\n *\n * For emulate JS conversion behavior and avoid trapping from wasm we should modulate by MAX_INT\n * our float-point arguments before actual convertion to integers.\n */\n return builtin_clz(\n (x - 4294967296 * builtin_floor(x * (1.0 / 4294967296)))\n );\n }\n\n export function cos(x: f64): f64 { // TODO\n unreachable();\n return 0;\n }\n\n export function cosh(x: f64): f64 { // see: musl/src/math/cosh.c\n var u = reinterpret(x);\n u &= 0x7FFFFFFFFFFFFFFF;\n x = reinterpret(u);\n var w = (u >> 32);\n var t: f64;\n if (w < 0x3FE62E42) {\n if (w < 0x3FF00000 - (26 << 20)) return 1;\n t = expm1(x);\n // return 1 + t * t / (2 * (1 + t));\n return 1 + t * t / (2 + 2 * t);\n }\n if (w < 0x40862E42) {\n t = exp(x);\n return 0.5 * (t + 1 / t);\n }\n t = expo2(x);\n return t;\n }\n\n export function exp(x: f64): f64 { // see: musl/src/math/exp.c and SUN COPYRIGHT NOTICE above\n const\n ln2hi = reinterpret(0x3FE62E42FEE00000), // 6.93147180369123816490e-01\n ln2lo = reinterpret(0x3DEA39EF35793C76), // 1.90821492927058770002e-10\n invln2 = reinterpret(0x3FF71547652B82FE), // 1.44269504088896338700e+00\n P1 = reinterpret(0x3FC555555555553E), // 1.66666666666666019037e-01\n P2 = reinterpret(0xBF66C16C16BEBD93), // -2.77777777770155933842e-03\n P3 = reinterpret(0x3F11566AAF25DE2C), // 6.61375632143793436117e-05\n P4 = reinterpret(0xBEBBBD41C5D26BF1), // -1.65339022054652515390e-06\n P5 = reinterpret(0x3E66376972BEA4D0), // 4.13813679705723846039e-08\n overflow = reinterpret(0x40862E42FEFA39EF), // 709.782712893383973096\n underflow = reinterpret(0xC0874910D52D3051), // -745.13321910194110842\n Ox1p1023 = reinterpret(0x7FE0000000000000);\n var hx = (reinterpret(x) >> 32);\n var sign_ = (hx >> 31);\n hx &= 0x7FFFFFFF;\n if (hx >= 0x4086232B) {\n if (isNaN(x)) return x;\n if (x > overflow) return x * Ox1p1023;\n if (x < underflow) return 0;\n }\n var hi: f64, lo: f64 = 0;\n var k = 0;\n if (hx > 0x3FD62E42) {\n if (hx >= 0x3FF0A2B2) {\n k = (invln2 * x + builtin_copysign(0.5, x));\n } else {\n k = 1 - (sign_ << 1);\n }\n hi = x - k * ln2hi;\n lo = k * ln2lo;\n x = hi - lo;\n } else if (hx > 0x3E300000) {\n hi = x;\n } else return 1.0 + x;\n var xs = x * x;\n // var c = x - xp2 * (P1 + xp2 * (P2 + xp2 * (P3 + xp2 * (P4 + xp2 * P5))));\n var xq = xs * xs;\n var c = x - (xs * P1 + xq * ((P2 + xs * P3) + xq * (P4 + xs * P5)));\n var y = 1.0 + (x * c / (2 - c) - lo + hi);\n if (k == 0) return y;\n return scalbn(y, k);\n }\n\n export function expm1(x: f64): f64 { // see: musl/src/math/expm1.c and SUN COPYRIGHT NOTICE above\n const\n o_threshold = reinterpret(0x40862E42FEFA39EF), // 7.09782712893383973096e+02\n ln2_hi = reinterpret(0x3FE62E42FEE00000), // 6.93147180369123816490e-01\n ln2_lo = reinterpret(0x3DEA39EF35793C76), // 1.90821492927058770002e-10\n invln2 = reinterpret(0x3FF71547652B82FE), // 1.44269504088896338700e+00\n Q1 = reinterpret(0xBFA11111111110F4), // -3.33333333333331316428e-02\n Q2 = reinterpret(0x3F5A01A019FE5585), // 1.58730158725481460165e-03\n Q3 = reinterpret(0xBF14CE199EAADBB7), // -7.93650757867487942473e-05\n Q4 = reinterpret(0x3ED0CFCA86E65239), // 4.00821782732936239552e-06\n Q5 = reinterpret(0xBE8AFDB76E09C32D), // -2.01099218183624371326e-07\n Ox1p1023 = reinterpret(0x7FE0000000000000);\n var u = reinterpret(x);\n var hx = (u >> 32 & 0x7FFFFFFF);\n var k = 0, sign_ = (u >> 63);\n if (hx >= 0x4043687A) {\n if (isNaN(x)) return x;\n if (sign_) return -1;\n if (x > o_threshold) return x * Ox1p1023;\n }\n var c = 0.0, t: f64;\n if (hx > 0x3FD62E42) {\n k = select(\n 1 - (sign_ << 1),\n (invln2 * x + builtin_copysign(0.5, x)),\n hx < 0x3FF0A2B2\n );\n t = k;\n let hi = x - t * ln2_hi;\n let lo = t * ln2_lo;\n x = hi - lo;\n c = (hi - x) - lo;\n } else if (hx < 0x3C900000) return x;\n var hfx = 0.5 * x;\n var hxs = x * hfx;\n // var r1 = 1.0 + hxs * (Q1 + hxs * (Q2 + hxs * (Q3 + hxs * (Q4 + hxs * Q5))));\n var hxq = hxs * hxs;\n var r1 = (1.0 + hxs * Q1) + hxq * ((Q2 + hxs * Q3) + hxq * (Q4 + hxs * Q5));\n t = 3.0 - r1 * hfx;\n var e = hxs * ((r1 - t) / (6.0 - x * t));\n if (k == 0) return x - (x * e - hxs);\n e = x * (e - c) - c;\n e -= hxs;\n if (k == -1) return 0.5 * (x - e) - 0.5;\n if (k == 1) {\n if (x < -0.25) return -2.0 * (e - (x + 0.5));\n return 1.0 + 2.0 * (x - e);\n }\n u = (0x3FF + k) << 52;\n var twopk = reinterpret(u);\n var y: f64;\n if (k < 0 || k > 56) {\n y = x - e + 1.0;\n if (k == 1024) y = y * 2.0 * Ox1p1023;\n else y = y * twopk;\n return y - 1.0;\n }\n u = (0x3FF - k) << 52;\n y = reinterpret(u);\n if (k < 20) y = (1 - y) - e;\n else y = 1 - (e + y);\n return (x + y) * twopk;\n }\n\n @inline\n export function floor(x: f64): f64 {\n return builtin_floor(x);\n }\n\n @inline\n export function fround(x: f64): f32 {\n return x;\n }\n\n export function hypot(x: f64, y: f64): f64 { // see: musl/src/math/hypot.c\n const\n SPLIT = reinterpret(0x41A0000000000000) + 1, // 0x1p27 + 1\n Ox1p700 = reinterpret(0x6BB0000000000000),\n Ox1p_700 = reinterpret(0x1430000000000000);\n var ux = reinterpret(x);\n var uy = reinterpret(y);\n ux &= 0x7FFFFFFFFFFFFFFF;\n uy &= 0x7FFFFFFFFFFFFFFF;\n if (ux < uy) {\n let ut = ux;\n ux = uy;\n uy = ut;\n }\n var ex = (ux >> 52);\n var ey = (uy >> 52);\n y = reinterpret(uy);\n if (ey == 0x7FF) return y;\n x = reinterpret(ux);\n if (ex == 0x7FF || uy == 0) return x;\n if (ex - ey > 64) return x + y;\n var z = 1.0;\n if (ex > 0x3FF + 510) {\n z = Ox1p700;\n x *= Ox1p_700;\n y *= Ox1p_700;\n } else if (ey < 0x3FF - 450) {\n z = Ox1p_700;\n x *= Ox1p700;\n y *= Ox1p700;\n }\n var c = x * SPLIT;\n var h = x - c + c;\n var l = x - h;\n var hx = x * x;\n var lx = h * h - hx + (2 * h + l) * l;\n c = y * SPLIT;\n h = y - c + c;\n l = y - h;\n var hy = y * y;\n var ly = h * h - hy + (2 * h + l) * l;\n return z * builtin_sqrt(ly + lx + hy + hx);\n }\n\n export function imul(x: f64, y: f64): f64 {\n /*\n * Wasm (MVP) and JS have different approaches for double->int conversions.\n *\n * For emulate JS conversion behavior and avoid trapping from wasm we should modulate by MAX_INT\n * our float-point arguments before actual convertion to integers.\n */\n if (!isFinite(x + y)) return 0;\n const inv32 = 1.0 / 4294967296;\n return (\n (x - 4294967296 * builtin_floor(x * inv32)) *\n (y - 4294967296 * builtin_floor(y * inv32))\n );\n }\n\n export function log(x: f64): f64 { // see: musl/src/math/log.c and SUN COPYRIGHT NOTICE above\n const\n ln2_hi = reinterpret(0x3FE62E42FEE00000), // 6.93147180369123816490e-01\n ln2_lo = reinterpret(0x3DEA39EF35793C76), // 1.90821492927058770002e-10\n Lg1 = reinterpret(0x3FE5555555555593), // 6.666666666666735130e-01\n Lg2 = reinterpret(0x3FD999999997FA04), // 3.999999999940941908e-01\n Lg3 = reinterpret(0x3FD2492494229359), // 2.857142874366239149e-01\n Lg4 = reinterpret(0x3FCC71C51D8E78AF), // 2.222219843214978396e-01\n Lg5 = reinterpret(0x3FC7466496CB03DE), // 1.818357216161805012e-01\n Lg6 = reinterpret(0x3FC39A09D078C69F), // 1.531383769920937332e-01\n Lg7 = reinterpret(0x3FC2F112DF3E5244), // 1.479819860511658591e-01\n Ox1p54 = reinterpret(0x4350000000000000);\n var u = reinterpret(x);\n var hx = (u >> 32);\n var k = 0;\n if (hx < 0x00100000 || (hx >> 31)) {\n if (u << 1 == 0) return -1 / (x * x);\n if (hx >> 31) return (x - x) / 0.0;\n k -= 54;\n x *= Ox1p54;\n u = reinterpret(x);\n hx = (u >> 32);\n } else if (hx >= 0x7FF00000) return x;\n else if (hx == 0x3FF00000 && u << 32 == 0) return 0;\n hx += 0x3FF00000 - 0x3FE6A09E;\n k += (hx >> 20) - 0x3FF;\n hx = (hx & 0x000FFFFF) + 0x3FE6A09E;\n u = hx << 32 | (u & 0xFFFFFFFF);\n x = reinterpret(u);\n var f = x - 1.0;\n var hfsq = 0.5 * f * f;\n var s = f / (2.0 + f);\n var z = s * s;\n var w = z * z;\n var t1 = w * (Lg2 + w * (Lg4 + w * Lg6));\n var t2 = z * (Lg1 + w * (Lg3 + w * (Lg5 + w * Lg7)));\n var r = t2 + t1;\n var dk = k;\n return s * (hfsq + r) + dk * ln2_lo - hfsq + f + dk * ln2_hi;\n }\n\n export function log10(x: f64): f64 { // see: musl/src/math/log10.c and SUN COPYRIGHT NOTICE above\n const\n ivln10hi = reinterpret(0x3FDBCB7B15200000), // 4.34294481878168880939e-01\n ivln10lo = reinterpret(0x3DBB9438CA9AADD5), // 2.50829467116452752298e-11\n log10_2hi = reinterpret(0x3FD34413509F6000), // 3.01029995663611771306e-01\n log10_2lo = reinterpret(0x3D59FEF311F12B36), // 3.69423907715893078616e-13\n Lg1 = reinterpret(0x3FE5555555555593), // 6.666666666666735130e-01\n Lg2 = reinterpret(0x3FD999999997FA04), // 3.999999999940941908e-01\n Lg3 = reinterpret(0x3FD2492494229359), // 2.857142874366239149e-01\n Lg4 = reinterpret(0x3FCC71C51D8E78AF), // 2.222219843214978396e-01\n Lg5 = reinterpret(0x3FC7466496CB03DE), // 1.818357216161805012e-01\n Lg6 = reinterpret(0x3FC39A09D078C69F), // 1.531383769920937332e-01\n Lg7 = reinterpret(0x3FC2F112DF3E5244), // 1.479819860511658591e-01\n Ox1p54 = reinterpret(0x4350000000000000);\n var u = reinterpret(x);\n var hx = (u >> 32);\n var k = 0;\n if (hx < 0x00100000 || (hx >> 31)) {\n if (u << 1 == 0) return -1 / (x * x);\n if (hx >> 31) return (x - x) / 0.0;\n k -= 54;\n x *= Ox1p54;\n u = reinterpret(x);\n hx = (u >> 32);\n } else if (hx >= 0x7FF00000) return x;\n else if (hx == 0x3FF00000 && u << 32 == 0) return 0;\n hx += 0x3FF00000 - 0x3FE6A09E;\n k += (hx >> 20) - 0x3FF;\n hx = (hx & 0x000FFFFF) + 0x3FE6A09E;\n u = hx << 32 | (u & 0xFFFFFFFF);\n x = reinterpret(u);\n var f = x - 1.0;\n var hfsq = 0.5 * f * f;\n var s = f / (2.0 + f);\n var z = s * s;\n var w = z * z;\n var t1 = w * (Lg2 + w * (Lg4 + w * Lg6));\n var t2 = z * (Lg1 + w * (Lg3 + w * (Lg5 + w * Lg7)));\n var r = t2 + t1;\n var hi = f - hfsq;\n u = reinterpret(hi);\n u &= 0xFFFFFFFF00000000;\n hi = reinterpret(u);\n var lo = f - hi - hfsq + s * (hfsq + r);\n var val_hi = hi * ivln10hi;\n var dk = k;\n var y = dk * log10_2hi;\n var val_lo = dk * log10_2lo + (lo + hi) * ivln10lo + lo * ivln10hi;\n w = y + val_hi;\n val_lo += (y - w) + val_hi;\n return val_lo + w;\n }\n\n export function log1p(x: f64): f64 { // see: musl/src/math/log1p.c and SUN COPYRIGHT NOTICE above\n const\n ln2_hi = reinterpret(0x3FE62E42FEE00000), // 6.93147180369123816490e-01\n ln2_lo = reinterpret(0x3DEA39EF35793C76), // 1.90821492927058770002e-10\n Lg1 = reinterpret(0x3FE5555555555593), // 6.666666666666735130e-01\n Lg2 = reinterpret(0x3FD999999997FA04), // 3.999999999940941908e-01\n Lg3 = reinterpret(0x3FD2492494229359), // 2.857142874366239149e-01\n Lg4 = reinterpret(0x3FCC71C51D8E78AF), // 2.222219843214978396e-01\n Lg5 = reinterpret(0x3FC7466496CB03DE), // 1.818357216161805012e-01\n Lg6 = reinterpret(0x3FC39A09D078C69F), // 1.531383769920937332e-01\n Lg7 = reinterpret(0x3FC2F112DF3E5244); // 1.479819860511658591e-01\n var u = reinterpret(x);\n var hx = (u >> 32);\n var k = 1;\n var c = 0.0, f = 0.0;\n if (hx < 0x3FDA827A || (hx >> 31)) {\n if (hx >= 0xBFF00000) {\n if (x == -1) return x / 0.0;\n return (x - x) / 0.0;\n }\n if (hx << 1 < 0x3CA00000 << 1) return x;\n if (hx <= 0xBFD2BEC4) {\n k = 0;\n c = 0;\n f = x;\n }\n } else if (hx >= 0x7FF00000) return x;\n if (k) {\n u = reinterpret(1 + x);\n let hu = (u >> 32);\n hu += 0x3FF00000 - 0x3FE6A09E;\n k = (hu >> 20) - 0x3FF;\n if (k < 54) {\n let uf = reinterpret(u);\n c = k >= 2 ? 1 - (uf - x) : x - (uf - 1);\n c /= uf;\n } else c = 0;\n hu = (hu & 0x000FFFFF) + 0x3FE6A09E;\n u = hu << 32 | (u & 0xFFFFFFFF);\n f = reinterpret(u) - 1;\n }\n var hfsq = 0.5 * f * f;\n var s = f / (2.0 + f);\n var z = s * s;\n var w = z * z;\n var t1 = w * (Lg2 + w * (Lg4 + w * Lg6));\n var t2 = z * (Lg1 + w * (Lg3 + w * (Lg5 + w * Lg7)));\n var r = t2 + t1;\n var dk = k;\n return s * (hfsq + r) + (dk * ln2_lo + c) - hfsq + f + dk * ln2_hi;\n }\n\n export function log2(x: f64): f64 { // see: musl/src/math/log2.c and SUN COPYRIGHT NOTICE above\n const\n ivln2hi = reinterpret(0x3FF7154765200000), // 1.44269504072144627571e+00\n ivln2lo = reinterpret(0x3DE705FC2EEFA200), // 1.67517131648865118353e-10\n Lg1 = reinterpret(0x3FE5555555555593), // 6.666666666666735130e-01\n Lg2 = reinterpret(0x3FD999999997FA04), // 3.999999999940941908e-01\n Lg3 = reinterpret(0x3FD2492494229359), // 2.857142874366239149e-01\n Lg4 = reinterpret(0x3FCC71C51D8E78AF), // 2.222219843214978396e-01\n Lg5 = reinterpret(0x3FC7466496CB03DE), // 1.818357216161805012e-01\n Lg6 = reinterpret(0x3FC39A09D078C69F), // 1.531383769920937332e-01\n Lg7 = reinterpret(0x3FC2F112DF3E5244), // 1.479819860511658591e-01\n Ox1p54 = reinterpret(0x4350000000000000);\n var u = reinterpret(x);\n var hx = (u >> 32);\n var k = 0;\n if (hx < 0x00100000 || (hx >> 31)) {\n if (u << 1 == 0) return -1 / (x * x);\n if (hx >> 31) return (x - x) / 0.0;\n k -= 54;\n x *= Ox1p54;\n u = reinterpret(x);\n hx = (u >> 32);\n } else if (hx >= 0x7FF00000) return x;\n else if (hx == 0x3FF00000 && u << 32 == 0) return 0;\n hx += 0x3FF00000 - 0x3FE6A09E;\n k += (hx >> 20) - 0x3FF;\n hx = (hx & 0x000FFFFF) + 0x3FE6A09E;\n u = hx << 32 | (u & 0xFFFFFFFF);\n x = reinterpret(u);\n var f = x - 1.0;\n var hfsq = 0.5 * f * f;\n var s = f / (2.0 + f);\n var z = s * s;\n var w = z * z;\n var t1 = w * (Lg2 + w * (Lg4 + w * Lg6));\n var t2 = z * (Lg1 + w * (Lg3 + w * (Lg5 + w * Lg7)));\n var r = t2 + t1;\n var hi = f - hfsq;\n u = reinterpret(hi);\n u &= 0xFFFFFFFF00000000;\n hi = reinterpret(u);\n var lo = f - hi - hfsq + s * (hfsq + r);\n var val_hi = hi * ivln2hi;\n var val_lo = (lo + hi) * ivln2lo + lo * ivln2hi;\n var y = k;\n w = y + val_hi;\n val_lo += (y - w) + val_hi;\n val_hi = w;\n return val_lo + val_hi;\n }\n\n @inline\n export function max(value1: f64, value2: f64): f64 {\n return builtin_max(value1, value2);\n }\n\n @inline\n export function min(value1: f64, value2: f64): f64 {\n return builtin_min(value1, value2);\n }\n\n export function pow(x: f64, y: f64): f64 { // see: musl/src/math/pow.c and SUN COPYRIGHT NOTICE above\n const\n dp_h1 = reinterpret(0x3FE2B80340000000), // 5.84962487220764160156e-01\n dp_l1 = reinterpret(0x3E4CFDEB43CFD006), // 1.35003920212974897128e-08\n two53 = reinterpret(0x4340000000000000), // 9007199254740992.0\n huge = reinterpret(0x7E37E43C8800759C), // 1e+300\n tiny = reinterpret(0x01A56E1FC2F8F359), // 1e-300\n L1 = reinterpret(0x3FE3333333333303), // 5.99999999999994648725e-01\n L2 = reinterpret(0x3FDB6DB6DB6FABFF), // 4.28571428578550184252e-01\n L3 = reinterpret(0x3FD55555518F264D), // 3.33333329818377432918e-01\n L4 = reinterpret(0x3FD17460A91D4101), // 2.72728123808534006489e-01\n L5 = reinterpret(0x3FCD864A93C9DB65), // 2.30660745775561754067e-01\n L6 = reinterpret(0x3FCA7E284A454EEF), // 2.06975017800338417784e-01\n P1 = reinterpret(0x3FC555555555553E), // 1.66666666666666019037e-01\n P2 = reinterpret(0xBF66C16C16BEBD93), // -2.77777777770155933842e-03\n P3 = reinterpret(0x3F11566AAF25DE2C), // 6.61375632143793436117e-05\n P4 = reinterpret(0xBEBBBD41C5D26BF1), // -1.65339022054652515390e-06\n P5 = reinterpret(0x3E66376972BEA4D0), // 4.13813679705723846039e-08\n lg2 = reinterpret(0x3FE62E42FEFA39EF), // 6.93147180559945286227e-01\n lg2_h = reinterpret(0x3FE62E4300000000), // 6.93147182464599609375e-01\n lg2_l = reinterpret(0xBE205C610CA86C39), // -1.90465429995776804525e-09\n ovt = reinterpret(0x3C971547652B82FE), // 8.0085662595372944372e-017\n cp = reinterpret(0x3FEEC709DC3A03FD), // 9.61796693925975554329e-01\n cp_h = reinterpret(0x3FEEC709E0000000), // 9.61796700954437255859e-01\n cp_l = reinterpret(0xBE3E2FE0145B01F5), // -7.02846165095275826516e-09\n ivln2 = reinterpret(0x3FF71547652B82FE), // 1.44269504088896338700e+00\n ivln2_h = reinterpret(0x3FF7154760000000), // 1.44269502162933349609e+00\n ivln2_l = reinterpret(0x3E54AE0BF85DDF44), // 1.92596299112661746887e-08\n inv3 = reinterpret(0x3FD5555555555555); // 0.3333333333333333333333\n var u_ = reinterpret(x);\n var hx = (u_ >> 32);\n var lx = u_;\n u_ = reinterpret(y);\n var hy = (u_ >> 32);\n var ly = u_;\n var ix = hx & 0x7FFFFFFF;\n var iy = hy & 0x7FFFFFFF;\n if ((iy | ly) == 0) return 1.0; // x**0 = 1, even if x is NaN\n // if (hx == 0x3FF00000 && lx == 0) return 1.0; // C: 1**y = 1, even if y is NaN, JS: NaN\n if ( // NaN if either arg is NaN\n ix > 0x7FF00000 || (ix == 0x7FF00000 && lx != 0) ||\n iy > 0x7FF00000 || (iy == 0x7FF00000 && ly != 0)\n ) return x + y;\n var yisint = 0, k: i32;\n if (hx < 0) {\n if (iy >= 0x43400000) yisint = 2;\n else if (iy >= 0x3FF00000) {\n k = (iy >> 20) - 0x3FF;\n let kcond = k > 20;\n let offset = select(52, 20, kcond) - k;\n let Ly = select(ly, iy, kcond);\n let jj = Ly >> offset;\n if ((jj << offset) == Ly) yisint = 2 - (jj & 1);\n }\n }\n if (ly == 0) {\n if (iy == 0x7FF00000) { // y is +-inf\n if (((ix - 0x3FF00000) | lx) == 0) return NaN; // C: (-1)**+-inf is 1, JS: NaN\n else if (ix >= 0x3FF00000) return hy >= 0 ? y : 0.0; // (|x|>1)**+-inf = inf,0\n else return hy >= 0 ? 0.0 : -y; // (|x|<1)**+-inf = 0,inf\n }\n if (iy == 0x3FF00000) {\n if (hy >= 0) return x;\n return 1 / x;\n }\n if (hy == 0x40000000) return x * x;\n if (hy == 0x3FE00000) {\n if (hx >= 0) return builtin_sqrt(x);\n }\n }\n var ax = builtin_abs(x), z: f64;\n if (lx == 0) {\n if (ix == 0 || ix == 0x7FF00000 || ix == 0x3FF00000) {\n z = ax;\n if (hy < 0) z = 1.0 / z;\n if (hx < 0) {\n if (((ix - 0x3FF00000) | yisint) == 0) {\n let d = z - z;\n z = d / d;\n } else if (yisint == 1) z = -z;\n }\n return z;\n }\n }\n var s = 1.0;\n if (hx < 0) {\n if (yisint == 0) {\n let d = x - x;\n return d / d;\n }\n if (yisint == 1) s = -1.0;\n }\n var t1: f64, t2: f64, p_h: f64, p_l: f64, r: f64, t: f64, u: f64, v: f64, w: f64;\n var j: i32, n: i32;\n if (iy > 0x41E00000) {\n if (iy > 0x43F00000) {\n if (ix <= 0x3FEFFFFF) return hy < 0 ? huge * huge : tiny * tiny;\n if (ix >= 0x3FF00000) return hy > 0 ? huge * huge : tiny * tiny;\n }\n if (ix < 0x3FEFFFFF) return hy < 0 ? s * huge * huge : s * tiny * tiny;\n if (ix > 0x3FF00000) return hy > 0 ? s * huge * huge : s * tiny * tiny;\n t = ax - 1.0;\n w = (t * t) * (0.5 - t * (inv3 - t * 0.25));\n u = ivln2_h * t;\n v = t * ivln2_l - w * ivln2;\n t1 = u + v;\n t1 = reinterpret(reinterpret(t1) & 0xFFFFFFFF00000000);\n t2 = v - (t1 - u);\n } else {\n let ss: f64, s2: f64, s_h: f64, s_l: f64, t_h: f64, t_l: f64;\n n = 0;\n if (ix < 0x00100000) {\n ax *= two53;\n n -= 53;\n ix = (reinterpret(ax) >> 32);\n }\n n += (ix >> 20) - 0x3FF;\n j = ix & 0x000FFFFF;\n ix = j | 0x3FF00000;\n if (j <= 0x3988E) k = 0;\n else if (j < 0xBB67A) k = 1;\n else {\n k = 0;\n n += 1;\n ix -= 0x00100000;\n }\n ax = reinterpret(reinterpret(ax) & 0xFFFFFFFF | (ix << 32));\n let bp = select(1.5, 1.0, k); // k ? 1.5 : 1.0\n u = ax - bp;\n v = 1.0 / (ax + bp);\n ss = u * v;\n s_h = ss;\n s_h = reinterpret(reinterpret(s_h) & 0xFFFFFFFF00000000);\n t_h = reinterpret((((ix >> 1) | 0x20000000) + 0x00080000 + (k << 18)) << 32);\n t_l = ax - (t_h - bp);\n s_l = v * ((u - s_h * t_h) - s_h * t_l);\n s2 = ss * ss;\n r = s2 * s2 * (L1 + s2 * (L2 + s2 * (L3 + s2 * (L4 + s2 * (L5 + s2 * L6)))));\n r += s_l * (s_h + ss);\n s2 = s_h * s_h;\n t_h = 3.0 + s2 + r;\n t_h = reinterpret(reinterpret(t_h) & 0xFFFFFFFF00000000);\n t_l = r - ((t_h - 3.0) - s2);\n u = s_h * t_h;\n v = s_l * t_h + t_l * ss;\n p_h = u + v;\n p_h = reinterpret(reinterpret(p_h) & 0xFFFFFFFF00000000);\n p_l = v - (p_h - u);\n let z_h = cp_h * p_h;\n let dp_l = select(dp_l1, 0.0, k);\n let z_l = cp_l * p_h + p_l * cp + dp_l;\n t = n;\n let dp_h = select(dp_h1, 0.0, k);\n t1 = ((z_h + z_l) + dp_h) + t;\n t1 = reinterpret(reinterpret(t1) & 0xFFFFFFFF00000000);\n t2 = z_l - (((t1 - t) - dp_h) - z_h);\n }\n var y1 = y;\n y1 = reinterpret(reinterpret(y1) & 0xFFFFFFFF00000000);\n p_l = (y - y1) * t1 + y * t2;\n p_h = y1 * t1;\n z = p_l + p_h;\n u_ = reinterpret(z);\n j = (u_ >> 32);\n var i = u_;\n if (j >= 0x40900000) {\n if (((j - 0x40900000) | i) != 0) return s * huge * huge;\n if (p_l + ovt > z - p_h) return s * huge * huge;\n } else if ((j & 0x7FFFFFFF) >= 0x4090CC00) {\n if (((j - 0xC090CC00) | i) != 0) return s * tiny * tiny;\n if (p_l <= z - p_h) return s * tiny * tiny;\n }\n i = j & 0x7FFFFFFF;\n k = (i >> 20) - 0x3FF;\n n = 0;\n if (i > 0x3FE00000) {\n n = j + (0x00100000 >> (k + 1));\n k = ((n & 0x7FFFFFFF) >> 20) - 0x3FF;\n t = 0.0;\n t = reinterpret((n & ~(0x000FFFFF >> k)) << 32);\n n = ((n & 0x000FFFFF) | 0x00100000) >> (20 - k);\n if (j < 0) n = -n;\n p_h -= t;\n }\n t = p_l + p_h;\n t = reinterpret(reinterpret(t) & 0xFFFFFFFF00000000);\n u = t * lg2_h;\n v = (p_l - (t - p_h)) * lg2 + t * lg2_l;\n z = u + v;\n w = v - (z - u);\n t = z * z;\n t1 = z - t * (P1 + t * (P2 + t * (P3 + t * (P4 + t * P5))));\n r = (z * t1) / (t1 - 2.0) - (w + z * w);\n z = 1.0 - (r - z);\n j = (reinterpret(z) >> 32);\n j += n << 20;\n if ((j >> 20) <= 0) z = scalbn(z, n);\n else z = reinterpret(reinterpret(z) & 0xFFFFFFFF | (j << 32));\n return s * z;\n }\n\n export function seedRandom(value: i64): void {\n assert(value);\n random_seeded = true;\n random_state0_64 = murmurHash3(value);\n random_state1_64 = murmurHash3(~random_state0_64);\n random_state0_32 = splitMix32(value);\n random_state1_32 = splitMix32(random_state0_32);\n }\n\n export function random(): f64 { // see: v8/src/base/random-number-generator.cc\n if (!random_seeded) throw new Error("PRNG must be seeded.");\n var s1 = random_state0_64;\n var s0 = random_state1_64;\n random_state0_64 = s0;\n s1 ^= s1 << 23;\n s1 ^= s1 >> 17;\n s1 ^= s0;\n s1 ^= s0 >> 26;\n random_state1_64 = s1;\n var r = ((s0 + s1) & 0x000FFFFFFFFFFFFF) | 0x3FF0000000000000;\n return reinterpret(r) - 1;\n }\n\n @inline\n export function round(x: f64): f64 {\n return builtin_copysign(builtin_floor(x + 0.5), x);\n }\n\n @inline\n export function sign(x: f64): f64 {\n if (ASC_SHRINK_LEVEL > 0) {\n return builtin_abs(x) > 0 ? builtin_copysign(1, x) : x;\n } else {\n return x > 0 ? 1 : x < 0 ? -1 : x;\n }\n }\n\n @inline\n export function signbit(x: f64): bool {\n // In ECMAScript all NaN values are indistinguishable from each other\n // so we need handle NaN and negative NaN in similar way\n return ((reinterpret(x) >>> 63) & (x == x));\n }\n\n export function sin(x: f64): f64 { // TODO\n unreachable();\n return 0;\n }\n\n export function sinh(x: f64): f64 { // see: musl/src/math/sinh.c\n var u = reinterpret(x) & 0x7FFFFFFFFFFFFFFF;\n var absx = reinterpret(u);\n var w = (u >> 32);\n var t: f64;\n var h = builtin_copysign(0.5, x);\n if (w < 0x40862E42) {\n t = expm1(absx);\n if (w < 0x3FF00000) {\n if (w < 0x3FF00000 - (26 << 20)) return x;\n return h * (2 * t - t * t / (t + 1));\n }\n return h * (t + t / (t + 1));\n }\n t = 2 * h * expo2(absx);\n return t;\n }\n\n @inline\n export function sqrt(x: f64): f64 {\n return builtin_sqrt(x);\n }\n\n export function tan(x: f64): f64 { // TODO\n unreachable();\n return 0;\n }\n\n export function tanh(x: f64): f64 { // see: musl/src/math/tanh.c\n var u = reinterpret(x);\n u &= 0x7FFFFFFFFFFFFFFF;\n var y = reinterpret(u);\n var w = (u >> 32);\n var t: f64;\n if (w > 0x3FE193EA) {\n if (w > 0x40340000) {\n t = 1 - 0 / y;\n } else {\n t = expm1(2 * y);\n t = 1 - 2 / (t + 2);\n }\n } else if (w > 0x3FD058AE) {\n t = expm1(2 * y);\n t = t / (t + 2);\n } else if (w >= 0x00100000) {\n t = expm1(-2 * y);\n t = -t / (t + 2);\n } else t = y;\n return builtin_copysign(t, x);\n }\n\n @inline\n export function trunc(x: f64): f64 {\n return builtin_trunc(x);\n }\n\n export function scalbn(x: f64, n: i32): f64 { // see: https://git.musl-libc.org/cgit/musl/tree/src/math/scalbn.c\n const\n Ox1p53 = reinterpret(0x4340000000000000),\n Ox1p1023 = reinterpret(0x7FE0000000000000),\n Ox1p_1022 = reinterpret(0x0010000000000000);\n var y = x;\n if (n > 1023) {\n y *= Ox1p1023;\n n -= 1023;\n if (n > 1023) {\n y *= Ox1p1023;\n n = builtin_min(n - 1023, 1023);\n }\n } else if (n < -1022) {\n /* make sure final n < -53 to avoid double\n rounding in the subnormal range */\n y *= Ox1p_1022 * Ox1p53;\n n += 1022 - 53;\n if (n < -1022) {\n y *= Ox1p_1022 * Ox1p53;\n n = builtin_max(n + 1022 - 53, -1022);\n }\n }\n return y * reinterpret((0x3FF + n) << 52);\n }\n\n export function mod(x: f64, y: f64): f64 { // see: musl/src/math/fmod.c\n var ux = reinterpret(x);\n var uy = reinterpret(y);\n var ex = (ux >> 52 & 0x7FF);\n var ey = (uy >> 52 & 0x7FF);\n var sx = ux >> 63;\n var uy1 = uy << 1;\n if (uy1 == 0 || ex == 0x7FF || isNaN(y)) {\n let m = x * y;\n return m / m;\n }\n var ux1 = ux << 1;\n if (ux1 <= uy1) {\n if (ux1 == uy1) return 0 * x;\n return x;\n }\n if (!ex) {\n ex -= builtin_clz(ux << 12);\n ux <<= -ex + 1;\n } else {\n ux &= -1 >> 12;\n ux |= 1 << 52;\n }\n if (!ey) {\n ey -= builtin_clz(uy << 12);\n uy <<= -ey + 1;\n } else {\n uy &= -1 >> 12;\n uy |= 1 << 52;\n }\n while (ex > ey) {\n if (ux >= uy) {\n if (ux == uy) return 0 * x;\n ux -= uy;\n }\n ux <<= 1;\n --ex;\n }\n if (ux >= uy) {\n if (ux == uy) return 0 * x;\n ux -= uy;\n }\n // for (; !(ux >> 52); ux <<= 1) --ex;\n var shift = builtin_clz(ux << 11);\n ex -= shift;\n ux <<= shift;\n if (ex > 0) {\n ux -= 1 << 52;\n ux |= ex << 52;\n } else {\n ux >>= -ex + 1;\n }\n ux |= sx << 63;\n return reinterpret(ux);\n }\n\n export function rem(x: f64, y: f64): f64 { // see: musl/src/math/remquo.c\n var ux = reinterpret(x);\n var uy = reinterpret(y);\n var ex = (ux >> 52 & 0x7FF);\n var ey = (uy >> 52 & 0x7FF);\n var sx = (ux >> 63);\n if (uy << 1 == 0 || ex == 0x7FF || isNaN(y)) {\n let m = x * y;\n return m / m;\n }\n if (ux << 1 == 0) return x;\n var uxi = ux;\n if (!ex) {\n ex -= builtin_clz(uxi << 12);\n uxi <<= -ex + 1;\n } else {\n uxi &= -1 >> 12;\n uxi |= 1 << 52;\n }\n if (!ey) {\n ey -= builtin_clz(uy << 12);\n uy <<= -ey + 1;\n } else {\n uy &= -1 >> 12;\n uy |= 1 << 52;\n }\n var q: u32 = 0;\n do {\n if (ex < ey) {\n if (ex + 1 == ey) break; // goto end\n return x;\n }\n while (ex > ey) {\n if (uxi >= uy) {\n uxi -= uy;\n ++q;\n }\n uxi <<= 1;\n q <<= 1;\n --ex;\n }\n if (uxi >= uy) {\n uxi -= uy;\n ++q;\n }\n if (uxi == 0) ex = -60;\n else {\n let shift = builtin_clz(uxi << 11);\n ex -= shift;\n uxi <<= shift;\n }\n break;\n } while (false);\n // end:\n if (ex > 0) {\n uxi -= 1 << 52;\n uxi |= ex << 52;\n } else {\n uxi >>= -ex + 1;\n }\n x = reinterpret(uxi);\n y = builtin_abs(y);\n var x2 = x + x;\n if (ex == ey || (ex + 1 == ey && (x2 > y || (x2 == y && (q & 1))))) {\n x -= y;\n // ++q;\n }\n return sx ? -x : x;\n }\n}\n\n/** @internal */\n@lazy var rempio2f_y: f64;\n@lazy const PIO2_TABLE: u64[] = [\n 0xA2F9836E4E441529,\n 0xFC2757D1F534DDC0,\n 0xDB6295993C439041,\n 0xFE5163ABDEBBC561\n];\n\n/** @internal */\nfunction Rf(z: f32): f32 { // Rational approximation of (asin(x)-x)/x^3\n const // see: musl/src/math/asinf.c and SUN COPYRIGHT NOTICE above\n pS0 = reinterpret(0x3E2AAA75), // 1.6666586697e-01f\n pS1 = reinterpret(0xBD2F13BA), // -4.2743422091e-02f\n pS2 = reinterpret(0xBC0DD36B), // -8.6563630030e-03f\n qS1 = reinterpret(0xBF34E5AE); // -7.0662963390e-01f\n var p = z * (pS0 + z * (pS1 + z * pS2));\n var q: f32 = 1 + z * qS1;\n return p / q;\n}\n\n@inline function expo2f(x: f32): f32 { // exp(x)/2 for x >= log(DBL_MAX)\n const // see: musl/src/math/__expo2f.c\n k = 235,\n kln2 = reinterpret(0x4322E3BC); // 0x1.45c778p+7f\n var scale = reinterpret((0x7F + (k >> 1)) << 23);\n return NativeMathf.exp(x - kln2) * scale * scale;\n}\n\n@inline /** @internal */\nfunction pio2_large_quot(x: f32, u: i32): i32 { // see: jdh8/metallic/blob/master/src/math/float/rem_pio2f.c\n const coeff = reinterpret(0x3BF921FB54442D18); // π * 0x1p-65 = 8.51530395021638647334e-20\n const bits = PIO2_TABLE;\n\n var offset = (u >> 23) - 152;\n var index = offset >> 6;\n var shift = offset & 63;\n\n var b0 = unchecked(bits[index + 0]);\n var b1 = unchecked(bits[index + 1]);\n var lo: u64;\n\n if (shift > 32) {\n let b2 = unchecked(bits[index + 2]);\n lo = b2 >> (96 - shift);\n lo |= b1 << (shift - 32);\n } else {\n lo = b1 >> (32 - shift);\n }\n\n var hi = (b1 >> (64 - shift)) | (b0 << shift);\n var mantissa: u64 = (u & 0x007FFFFF) | 0x00800000;\n var product: u64 = mantissa * hi + (mantissa * lo >> 32);\n var r: i64 = product << 2;\n var q: i32 = ((product >> 62) + (r >>> 63));\n rempio2f_y = copysign(coeff, x) * r;\n return q;\n}\n\n@inline /** @internal */\nfunction rempio2f(x: f32, u: u32, sign: i32): i32 { // see: jdh8/metallic/blob/master/src/math/float/rem_pio2f.c\n const pi2hi = reinterpret(0x3FF921FB50000000); // 1.57079631090164184570\n const pi2lo = reinterpret(0x3E5110B4611A6263); // 1.58932547735281966916e-8\n const _2_pi = reinterpret(0x3FE45F306DC9C883); // 0.63661977236758134308\n\n if (u < 0x4DC90FDB) { /* π * 0x1p28 */\n let q = nearest(x * _2_pi);\n rempio2f_y = x - q * pi2hi - q * pi2lo;\n return q;\n }\n\n var q = pio2_large_quot(x, u);\n return select(-q, q, sign);\n}\n\n/* |sin(x)/x - s(x)| < 2**-37.5 (~[-4.89e-12, 4.824e-12]). */\n@inline /** @internal */\nfunction sin_kernf(x: f64): f32 { // see: musl/tree/src/math/__sindf.c\n const S1 = reinterpret(0xBFC5555554CBAC77); // -0x15555554cbac77.0p-55\n const S2 = reinterpret(0x3F811110896EFBB2); // 0x111110896efbb2.0p-59\n const S3 = reinterpret(0xBF2A00F9E2CAE774); // -0x1a00f9e2cae774.0p-65\n const S4 = reinterpret(0x3EC6CD878C3B46A7); // 0x16cd878c3b46a7.0p-71\n\n var z = x * x;\n var w = z * z;\n var r = S3 + z * S4;\n var s = z * x;\n return ((x + s * (S1 + z * S2)) + s * w * r);\n}\n\n/* |cos(x) - c(x)| < 2**-34.1 (~[-5.37e-11, 5.295e-11]). */\n@inline /** @internal */\nfunction cos_kernf(x: f64): f32 { // see: musl/tree/src/math/__cosdf.c\n const C0 = reinterpret(0xBFDFFFFFFD0C5E81); // -0x1ffffffd0c5e81.0p-54\n const C1 = reinterpret(0x3FA55553E1053A42); // 0x155553e1053a42.0p-57\n const C2 = reinterpret(0xBF56C087E80F1E27); // -0x16c087e80f1e27.0p-62\n const C3 = reinterpret(0x3EF99342E0EE5069); // 0x199342e0ee5069.0p-68\n\n var z = x * x;\n var w = z * z;\n var r = C2 + z * C3;\n return (((1 + z * C0) + w * C1) + (w * z) * r);\n}\n\n/* |tan(x)/x - t(x)| < 2**-25.5 (~[-2e-08, 2e-08]). */\n@inline /** @internal */\nfunction tan_kernf(x: f64, odd: i32): f32 { // see: musl/tree/src/math/__tandf.c\n\n const T0 = reinterpret(0x3FD5554D3418C99F); /* 0x15554d3418c99f.0p-54 */\n const T1 = reinterpret(0x3FC112FD38999F72); /* 0x1112fd38999f72.0p-55 */\n const T2 = reinterpret(0x3FAB54C91D865AFE); /* 0x1b54c91d865afe.0p-57 */\n const T3 = reinterpret(0x3F991DF3908C33CE); /* 0x191df3908c33ce.0p-58 */\n const T4 = reinterpret(0x3F685DADFCECF44E); /* 0x185dadfcecf44e.0p-61 */\n const T5 = reinterpret(0x3F8362B9BF971BCD); /* 0x1362b9bf971bcd.0p-59 */\n\n var z = x * x;\n var r = T4 + z * T5;\n var t = T2 + z * T3;\n var w = z * z;\n var s = z * x;\n var u = T0 + z * T1;\n\n r = (x + s * u) + (s * w) * (t + w * r);\n return (odd ? -1 / r : r);\n}\n\nexport namespace NativeMathf {\n\n @lazy export const E = NativeMath.E;\n @lazy export const LN2 = NativeMath.LN2;\n @lazy export const LN10 = NativeMath.LN10;\n @lazy export const LOG2E = NativeMath.LOG2E;\n @lazy export const LOG10E = NativeMath.LOG10E;\n @lazy export const PI = NativeMath.PI;\n @lazy export const SQRT1_2 = NativeMath.SQRT1_2;\n @lazy export const SQRT2 = NativeMath.SQRT2;\n\n /** Used as return values from Mathf.sincos */\n @lazy export var sincos_sin: f32 = 0;\n @lazy export var sincos_cos: f32 = 0;\n\n @inline\n export function abs(x: f32): f32 {\n return builtin_abs(x);\n }\n\n export function acos(x: f32): f32 { // see: musl/src/math/acosf.c and SUN COPYRIGHT NOTICE above\n const\n pio2_hi = reinterpret(0x3FC90FDA), // 1.5707962513e+00f\n pio2_lo = reinterpret(0x33A22168), // 7.5497894159e-08f\n Ox1p_120f = reinterpret(0x03800000);\n var hx = reinterpret(x);\n var ix = hx & 0x7FFFFFFF;\n if (ix >= 0x3F800000) {\n if (ix == 0x3F800000) {\n if (hx >> 31) return 2 * pio2_hi + Ox1p_120f;\n return 0;\n }\n return 0 / (x - x);\n }\n if (ix < 0x3F000000) {\n if (ix <= 0x32800000) return pio2_hi + Ox1p_120f;\n return pio2_hi - (x - (pio2_lo - x * Rf(x * x)));\n }\n var z: f32, w: f32, s: f32;\n if (hx >> 31) {\n // z = (1 + x) * 0.5;\n z = 0.5 + x * 0.5;\n s = builtin_sqrt(z);\n w = Rf(z) * s - pio2_lo;\n return 2 * (pio2_hi - (s + w));\n }\n // z = (1 - x) * 0.5;\n z = 0.5 - x * 0.5;\n s = builtin_sqrt(z);\n hx = reinterpret(s);\n var df = reinterpret(hx & 0xFFFFF000);\n var c = (z - df * df) / (s + df);\n w = Rf(z) * s + c;\n return 2 * (df + w);\n }\n\n export function acosh(x: f32): f32 { // see: musl/src/math/acoshf.c\n const s = reinterpret(0x3F317218); // 0.693147180559945309417232121458176568f\n var u = reinterpret(x);\n var a = u & 0x7FFFFFFF;\n if (a < 0x3F800000 + (1 << 23)) {\n let xm1 = x - 1;\n return log1p(xm1 + builtin_sqrt(xm1 * (xm1 + 2)));\n }\n if (a < 0x3F800000 + (12 << 23)) return log(2 * x - 1 / (x + builtin_sqrt(x * x - 1)));\n return log(x) + s;\n }\n\n export function asin(x: f32): f32 { // see: musl/src/math/asinf.c and SUN COPYRIGHT NOTICE above\n const\n pio2 = reinterpret(0x3FC90FDB), // 1.570796326794896558e+00f\n Ox1p_120f = reinterpret(0x03800000);\n var sx = x;\n var hx = reinterpret(x) & 0x7FFFFFFF;\n if (hx >= 0x3F800000) {\n if (hx == 0x3F800000) return x * pio2 + Ox1p_120f;\n return 0 / (x - x);\n }\n if (hx < 0x3F000000) {\n if (hx < 0x39800000 && hx >= 0x00800000) return x;\n return x + x * Rf(x * x);\n }\n // var z: f32 = (1 - builtin_abs(x)) * 0.5;\n var z: f32 = 0.5 - builtin_abs(x) * 0.5;\n var s = builtin_sqrt(z); // sic\n x = (pio2 - 2 * (s + s * Rf(z)));\n return builtin_copysign(x, sx);\n }\n\n export function asinh(x: f32): f32 { // see: musl/src/math/asinhf.c\n const c = reinterpret(0x3F317218); // 0.693147180559945309417232121458176568f\n var u = reinterpret(x) & 0x7FFFFFFF;\n var y = reinterpret(u);\n if (u >= 0x3F800000 + (12 << 23)) y = log(y) + c;\n else if (u >= 0x3F800000 + (1 << 23)) y = log(2 * y + 1 / (builtin_sqrt(y * y + 1) + y));\n else if (u >= 0x3F800000 - (12 << 23)) y = log1p(y + y * y / (builtin_sqrt(y * y + 1) + 1));\n return builtin_copysign(y, x);\n }\n\n export function atan(x: f32): f32 { // see: musl/src/math/atanf.c and SUN COPYRIGHT NOTICE above\n const\n atanhi0 = reinterpret(0x3EED6338), // 4.6364760399e-01f\n atanhi1 = reinterpret(0x3F490FDA), // 7.8539812565e-01f\n atanhi2 = reinterpret(0x3F7B985E), // 9.8279368877e-01f\n atanhi3 = reinterpret(0x3FC90FDA), // 1.5707962513e+00f\n atanlo0 = reinterpret(0x31AC3769), // 5.0121582440e-09f\n atanlo1 = reinterpret(0x33222168), // 3.7748947079e-08f\n atanlo2 = reinterpret(0x33140FB4), // 3.4473217170e-08f\n atanlo3 = reinterpret(0x33A22168), // 7.5497894159e-08f\n aT0 = reinterpret(0x3EAAAAA9), // 3.3333328366e-01f\n aT1 = reinterpret(0xBE4CCA98), // -1.9999158382e-01f\n aT2 = reinterpret(0x3E11F50D), // 1.4253635705e-01f\n aT3 = reinterpret(0xBDDA1247), // -1.0648017377e-01f\n aT4 = reinterpret(0x3D7CAC25), // 6.1687607318e-02f\n Ox1p_120f = reinterpret(0x03800000);\n var ix = reinterpret(x);\n var sx = x;\n ix &= 0x7FFFFFFF;\n var z: f32;\n if (ix >= 0x4C800000) {\n if (isNaN(x)) return x;\n z = atanhi3 + Ox1p_120f;\n return builtin_copysign(z, sx);\n }\n var id: i32;\n if (ix < 0x3EE00000) {\n if (ix < 0x39800000) return x;\n id = -1;\n } else {\n x = builtin_abs(x);\n if (ix < 0x3F980000) {\n if (ix < 0x3F300000) {\n id = 0;\n x = (2.0 * x - 1.0) / (2.0 + x);\n } else {\n id = 1;\n x = (x - 1.0) / (x + 1.0);\n }\n } else {\n if (ix < 0x401C0000) {\n id = 2;\n x = (x - 1.5) / (1.0 + 1.5 * x);\n } else {\n id = 3;\n x = -1.0 / x;\n }\n }\n }\n z = x * x;\n var w = z * z;\n var s1 = z * (aT0 + w * (aT2 + w * aT4));\n var s2 = w * (aT1 + w * aT3);\n var s3 = x * (s1 + s2);\n if (id < 0) return x - s3;\n switch (id) {\n case 0: { z = atanhi0 - ((s3 - atanlo0) - x); break; }\n case 1: { z = atanhi1 - ((s3 - atanlo1) - x); break; }\n case 2: { z = atanhi2 - ((s3 - atanlo2) - x); break; }\n case 3: { z = atanhi3 - ((s3 - atanlo3) - x); break; }\n default: unreachable();\n }\n return builtin_copysign(z, sx);\n }\n\n export function atanh(x: f32): f32 { // see: musl/src/math/atanhf.c\n var u = reinterpret(x);\n u &= 0x7FFFFFFF;\n var y = reinterpret(u);\n if (u < 0x3F800000 - (1 << 23)) {\n if (u >= 0x3F800000 - (32 << 23)) y = 0.5 * log1p(2 * y * (1.0 + y / (1 - y)));\n } else y = 0.5 * log1p(2 * (y / (1 - y)));\n return builtin_copysign(y, x);\n }\n\n export function atan2(y: f32, x: f32): f32 { // see: musl/src/math/atan2f.c and SUN COPYRIGHT NOTICE above\n const\n pi = reinterpret(0x40490FDB), // 3.1415927410e+00f\n pi_lo = reinterpret(0xB3BBBD2E); // -8.7422776573e-08f\n if (isNaN(x) || isNaN(y)) return x + y;\n var ix = reinterpret(x);\n var iy = reinterpret(y);\n if (ix == 0x3F800000) return atan(y);\n var m = (((iy >> 31) & 1) | ((ix >> 30) & 2));\n ix &= 0x7FFFFFFF;\n iy &= 0x7FFFFFFF;\n if (iy == 0) {\n switch (m) {\n case 0:\n case 1: return y;\n case 2: return pi;\n case 3: return -pi;\n }\n }\n if (ix == 0) return m & 1 ? -pi / 2 : pi / 2;\n if (ix == 0x7F800000) {\n if (iy == 0x7F800000) {\n switch (m) {\n case 0: return pi / 4;\n case 1: return -pi / 4;\n case 2: return 3 * pi / 4;\n case 3: return -3 * pi / 4;\n }\n } else {\n switch (m) {\n case 0: return 0;\n case 1: return -0;\n case 2: return pi;\n case 3: return -pi;\n }\n }\n }\n if (ix + (26 << 23) < iy || iy == 0x7F800000) return m & 1 ? -pi / 2 : pi / 2;\n var z: f32;\n if ((m & 2) && iy + (26 << 23) < ix) z = 0.0;\n else z = atan(builtin_abs(y / x));\n switch (m) {\n case 0: return z;\n case 1: return -z;\n case 2: return pi - (z - pi_lo);\n case 3: return (z - pi_lo) - pi;\n }\n unreachable();\n return 0;\n }\n\n export function cbrt(x: f32): f32 { // see: musl/src/math/cbrtf.c and SUN COPYRIGHT NOTICE above\n const\n B1 = 709958130,\n B2 = 642849266,\n Ox1p24f = reinterpret(0x4B800000);\n var u = reinterpret(x);\n var hx = u & 0x7FFFFFFF;\n if (hx >= 0x7F800000) return x + x;\n if (hx < 0x00800000) {\n if (hx == 0) return x;\n u = reinterpret(x * Ox1p24f);\n hx = u & 0x7FFFFFFF;\n hx = hx / 3 + B2;\n } else {\n hx = hx / 3 + B1;\n }\n u &= 0x80000000;\n u |= hx;\n var t = reinterpret(u);\n var r = t * t * t;\n t = t * (x + x + r) / (x + r + r);\n r = t * t * t;\n t = t * (x + x + r) / (x + r + r);\n return t;\n }\n\n @inline\n export function ceil(x: f32): f32 {\n return builtin_ceil(x);\n }\n\n export function clz32(x: f32): f32 {\n if (!isFinite(x)) return 32;\n return builtin_clz(\n (x - 4294967296 * builtin_floor(x * (1.0 / 4294967296)))\n );\n }\n\n export function cos(x: f32): f32 { // see: musl/src/math/cosf.c\n const c1pio2 = reinterpret(0x3FF921FB54442D18); // M_PI_2 * 1\n const c2pio2 = reinterpret(0x400921FB54442D18); // M_PI_2 * 2\n const c3pio2 = reinterpret(0x4012D97C7F3321D2); // M_PI_2 * 3\n const c4pio2 = reinterpret(0x401921FB54442D18); // M_PI_2 * 4\n\n var ix = reinterpret(x);\n var sign = ix >> 31;\n ix &= 0x7FFFFFFF;\n\n if (ix <= 0x3f490fda) { /* |x| ~<= π/4 */\n if (ix < 0x39800000) { /* |x| < 2**-12 */\n /* raise inexact if x != 0 */\n return 1;\n }\n return cos_kernf(x);\n }\n\n if (ASC_SHRINK_LEVEL < 1) {\n if (ix <= 0x407b53d1) { /* |x| ~<= 5π/4 */\n if (ix > 0x4016cbe3) { /* |x| ~> 3π/4 */\n return -cos_kernf(sign ? x + c2pio2 : x - c2pio2);\n } else {\n return sign ? sin_kernf(x + c1pio2) : sin_kernf(c1pio2 - x);\n }\n }\n if (ix <= 0x40e231d5) { /* |x| ~<= 9π/4 */\n if (ix > 0x40afeddf) { /* |x| ~> 7π/4 */\n return cos_kernf(sign ? x + c4pio2 : x - c4pio2);\n } else {\n return sign ? sin_kernf(-x - c3pio2) : sin_kernf(x - c3pio2);\n }\n }\n }\n\n /* cos(Inf or NaN) is NaN */\n if (ix >= 0x7f800000) return x - x;\n\n /* general argument reduction needed */\n var n = rempio2f(x, ix, sign);\n var y = rempio2f_y;\n\n var t = n & 1 ? sin_kernf(y) : cos_kernf(y);\n return (n + 1) & 2 ? -t : t;\n }\n\n export function cosh(x: f32): f32 { // see: musl/src/math/coshf.c\n var u = reinterpret(x);\n u &= 0x7FFFFFFF;\n x = reinterpret(u);\n if (u < 0x3F317217) {\n if (u < 0x3F800000 - (12 << 23)) return 1;\n let t = expm1(x);\n // return 1 + t * t / (2 * (1 + t));\n return 1 + t * t / (2 + 2 * t);\n }\n if (u < 0x42B17217) {\n let t = exp(x);\n // return 0.5 * (t + 1 / t);\n return 0.5 * t + 0.5 / t;\n }\n return expo2f(x);\n }\n\n @inline\n export function floor(x: f32): f32 {\n return builtin_floor(x);\n }\n\n export function exp(x: f32): f32 { // see: musl/src/math/expf.c and SUN COPYRIGHT NOTICE above\n const\n ln2hi = reinterpret(0x3F317200), // 6.9314575195e-1f\n ln2lo = reinterpret(0x35BFBE8E), // 1.4286067653e-6f\n invln2 = reinterpret(0x3FB8AA3B), // 1.4426950216e+0f\n P1 = reinterpret(0x3E2AAA8F), // 1.6666625440e-1f\n P2 = reinterpret(0xBB355215), // -2.7667332906e-3f\n Ox1p127f = reinterpret(0x7F000000);\n var hx = reinterpret(x);\n var sign_ = (hx >> 31);\n hx &= 0x7FFFFFFF;\n if (hx >= 0x42AEAC50) {\n if (hx >= 0x42B17218) {\n if (!sign_) return x * Ox1p127f;\n else if (hx >= 0x42CFF1B5) return 0;\n }\n }\n var hi: f32, lo: f32;\n var k: i32;\n if (hx > 0x3EB17218) {\n if (hx > 0x3F851592) {\n k = (invln2 * x + builtin_copysign(0.5, x));\n } else {\n k = 1 - (sign_ << 1);\n }\n hi = x - k * ln2hi;\n lo = k * ln2lo;\n x = hi - lo;\n } else if (hx > 0x39000000) {\n k = 0;\n hi = x;\n lo = 0;\n } else {\n return 1 + x;\n }\n var xx = x * x;\n var c = x - xx * (P1 + xx * P2);\n var y: f32 = 1 + (x * c / (2 - c) - lo + hi);\n if (k == 0) return y;\n return scalbn(y, k);\n }\n\n export function expm1(x: f32): f32 { // see: musl/src/math/expm1f.c and SUN COPYRIGHT NOTICE above\n const\n o_threshold = reinterpret(0x42B17180), // 8.8721679688e+01f\n ln2_hi = reinterpret(0x3F317180), // 6.9313812256e-01f\n ln2_lo = reinterpret(0x3717F7D1), // 9.0580006145e-06f\n invln2 = reinterpret(0x3FB8AA3B), // 1.4426950216e+00f\n Q1 = reinterpret(0xBD088868), // -3.3333212137e-02f\n Q2 = reinterpret(0x3ACF3010), // 1.5807170421e-03f\n Ox1p127f = reinterpret(0x7F000000);\n var u = reinterpret(x);\n var hx = u & 0x7FFFFFFF;\n var sign_ = (u >> 31);\n if (hx >= 0x4195B844) {\n if (hx > 0x7F800000) return x;\n if (sign_) return -1;\n if (x > o_threshold) {\n x *= Ox1p127f;\n return x;\n }\n }\n var c: f32 = 0.0, t: f32, k: i32;\n if (hx > 0x3EB17218) {\n k = select(\n 1 - (sign_ << 1),\n (invln2 * x + builtin_copysign(0.5, x)),\n hx < 0x3F851592\n );\n t = k;\n let hi = x - t * ln2_hi;\n let lo = t * ln2_lo;\n x = hi - lo;\n c = (hi - x) - lo;\n } else if (hx < 0x33000000) {\n return x;\n } else k = 0;\n var hfx: f32 = 0.5 * x;\n var hxs: f32 = x * hfx;\n var r1: f32 = 1.0 + hxs * (Q1 + hxs * Q2);\n t = 3.0 - r1 * hfx;\n var e = hxs * ((r1 - t) / (6.0 - x * t));\n if (k == 0) return x - (x * e - hxs);\n e = x * (e - c) - c;\n e -= hxs;\n if (k == -1) return 0.5 * (x - e) - 0.5;\n if (k == 1) {\n if (x < -0.25) return -2.0 * (e - (x + 0.5));\n return 1.0 + 2.0 * (x - e);\n }\n u = (0x7F + k) << 23;\n var twopk = reinterpret(u);\n var y: f32;\n if (k < 0 || k > 56) {\n y = x - e + 1.0;\n if (k == 128) y = y * 2.0 * Ox1p127f;\n else y = y * twopk;\n return y - 1.0;\n }\n u = (0x7F - k) << 23;\n y = reinterpret(u);\n if (k < 20) y = (1 - y) - e;\n else y = 1 - (e + y);\n return (x + y) * twopk;\n }\n\n @inline\n export function fround(x: f32): f32 {\n return x;\n }\n\n export function hypot(x: f32, y: f32): f32 { // see: musl/src/math/hypotf.c\n const\n Ox1p90f = reinterpret(0x6C800000),\n Ox1p_90f = reinterpret(0x12800000);\n var ux = reinterpret(x);\n var uy = reinterpret(y);\n ux &= 0x7FFFFFFF;\n uy &= 0x7FFFFFFF;\n if (ux < uy) {\n let ut = ux;\n ux = uy;\n uy = ut;\n }\n x = reinterpret(ux);\n y = reinterpret(uy);\n if (uy == 0xFF << 23) return y;\n if (ux >= 0xFF << 23 || uy == 0 || ux - uy >= 25 << 23) return x + y;\n var z: f32 = 1;\n if (ux >= (0x7F + 60) << 23) {\n z = Ox1p90f;\n x *= Ox1p_90f;\n y *= Ox1p_90f;\n } else if (uy < (0x7F - 60) << 23) {\n z = Ox1p_90f;\n x *= Ox1p90f;\n y *= Ox1p90f;\n }\n return z * builtin_sqrt((x * x + y * y));\n }\n\n @inline\n export function imul(x: f32, y: f32): f32 {\n /*\n * Wasm (MVP) and JS have different approaches for double->int conversions.\n *\n * For emulate JS conversion behavior and avoid trapping from wasm we should modulate by MAX_INT\n * our float-point arguments before actual convertion to integers.\n */\n if (!isFinite(x + y)) return 0;\n const inv32 = 1.0 / 4294967296;\n return (\n (x - 4294967296 * builtin_floor(x * inv32)) *\n (y - 4294967296 * builtin_floor(y * inv32))\n );\n }\n\n export function log(x: f32): f32 { // see: musl/src/math/logf.c and SUN COPYRIGHT NOTICE above\n const\n ln2_hi = reinterpret(0x3F317180), // 6.9313812256e-01f\n ln2_lo = reinterpret(0x3717F7D1), // 9.0580006145e-06f\n Lg1 = reinterpret(0x3F2AAAAA), // 0xaaaaaa.0p-24f\n Lg2 = reinterpret(0x3ECCCE13), // 0xccce13.0p-25f\n Lg3 = reinterpret(0x3E91E9EE), // 0x91e9ee.0p-25f\n Lg4 = reinterpret(0x3E789E26), // 0xf89e26.0p-26f\n Ox1p25f = reinterpret(0x4C000000);\n var u = reinterpret(x);\n var k = 0;\n if (u < 0x00800000 || (u >> 31)) {\n if (u << 1 == 0) return -1 / (x * x);\n if (u >> 31) return (x - x) / 0;\n k -= 25;\n x *= Ox1p25f;\n u = reinterpret(x);\n } else if (u >= 0x7F800000) return x;\n else if (u == 0x3F800000) return 0;\n u += 0x3F800000 - 0x3F3504F3;\n k += (u >> 23) - 0x7F;\n u = (u & 0x007FFFFF) + 0x3F3504F3;\n x = reinterpret(u);\n var f = x - 1.0;\n var s = f / (2.0 + f);\n var z = s * s;\n var w = z * z;\n var t1 = w * (Lg2 + w * Lg4);\n var t2 = z * (Lg1 + w * Lg3);\n var r = t2 + t1;\n var hfsq = 0.5 * f * f;\n var dk = k;\n return s * (hfsq + r) + dk * ln2_lo - hfsq + f + dk * ln2_hi;\n }\n\n export function log10(x: f32): f32 { // see: musl/src/math/log10f.c and SUN COPYRIGHT NOTICE above\n const\n ivln10hi = reinterpret(0x3EDE6000), // 4.3432617188e-01f\n ivln10lo = reinterpret(0xB804EAD9), // -3.1689971365e-05f\n log10_2hi = reinterpret(0x3E9A2080), // 3.0102920532e-01f\n log10_2lo = reinterpret(0x355427DB), // 7.9034151668e-07f\n Lg1 = reinterpret(0x3F2AAAAA), // 0xaaaaaa.0p-24f, 0.66666662693f\n Lg2 = reinterpret(0x3ECCCE13), // 0xccce13.0p-25f, 0.40000972152f\n Lg3 = reinterpret(0x3E91E9EE), // 0x91e9ee.0p-25f, 0.28498786688f\n Lg4 = reinterpret(0x3E789E26), // 0xf89e26.0p-26f, 0.24279078841f\n Ox1p25f = reinterpret(0x4C000000);\n var ix = reinterpret(x);\n var k = 0;\n if (ix < 0x00800000 || (ix >> 31)) {\n if (ix << 1 == 0) return -1 / (x * x);\n if (ix >> 31) return (x - x) / 0.0;\n k -= 25;\n x *= Ox1p25f;\n ix = reinterpret(x);\n } else if (ix >= 0x7F800000) return x;\n else if (ix == 0x3F800000) return 0;\n ix += 0x3F800000 - 0x3F3504F3;\n k += (ix >> 23) - 0x7F;\n ix = (ix & 0x007FFFFF) + 0x3F3504F3;\n x = reinterpret(ix);\n var f = x - 1.0;\n var s = f / (2.0 + f);\n var z = s * s;\n var w = z * z;\n var t1 = w * (Lg2 + w * Lg4);\n var t2 = z * (Lg1 + w * Lg3);\n var r = t2 + t1;\n var hfsq: f32 = 0.5 * f * f;\n var hi = f - hfsq;\n ix = reinterpret(hi);\n ix &= 0xFFFFF000;\n hi = reinterpret(ix);\n var lo = f - hi - hfsq + s * (hfsq + r);\n var dk = k;\n return dk * log10_2lo + (lo + hi) * ivln10lo + lo * ivln10hi + hi * ivln10hi + dk * log10_2hi;\n }\n\n export function log1p(x: f32): f32 { // see: musl/src/math/log1pf.c and SUN COPYRIGHT NOTICE above\n const\n ln2_hi = reinterpret(0x3F317180), // 6.9313812256e-01\n ln2_lo = reinterpret(0x3717F7D1), // 9.0580006145e-06\n Lg1 = reinterpret(0x3F2AAAAA), // 0xaaaaaa.0p-24f, 0.66666662693f\n Lg2 = reinterpret(0x3ECCCE13), // 0xccce13.0p-25f, 0.40000972152f\n Lg3 = reinterpret(0x3E91E9EE), // 0x91e9ee.0p-25f, 0.28498786688f\n Lg4 = reinterpret(0x3E789E26); // 0xf89e26.0p-26f, 0.24279078841f\n var ix = reinterpret(x);\n var c: f32 = 0, f: f32 = 0;\n var k: i32 = 1;\n if (ix < 0x3ED413D0 || (ix >> 31)) {\n if (ix >= 0xBF800000) {\n if (x == -1) return x / 0.0;\n return (x - x) / 0.0;\n }\n if (ix << 1 < 0x33800000 << 1) return x;\n if (ix <= 0xBE95F619) {\n k = 0;\n c = 0;\n f = x;\n }\n } else if (ix >= 0x7F800000) return x;\n if (k) {\n let uf: f32 = 1 + x;\n let iu = reinterpret(uf);\n iu += 0x3F800000 - 0x3F3504F3;\n k = (iu >> 23) - 0x7F;\n if (k < 25) {\n c = k >= 2 ? 1 - (uf - x) : x - (uf - 1);\n c /= uf;\n } else c = 0;\n iu = (iu & 0x007FFFFF) + 0x3F3504F3;\n f = reinterpret(iu) - 1;\n }\n var s = f / (2.0 + f);\n var z = s * s;\n var w = z * z;\n var t1 = w * (Lg2 + w * Lg4);\n var t2 = z * (Lg1 + w * Lg3);\n var r = t2 + t1;\n var hfsq: f32 = 0.5 * f * f;\n var dk = k;\n return s * (hfsq + r) + (dk * ln2_lo + c) - hfsq + f + dk * ln2_hi;\n }\n\n export function log2(x: f32): f32 { // see: musl/src/math/log2f.c and SUN COPYRIGHT NOTICE above\n const\n ivln2hi = reinterpret(0x3FB8B000), // 1.4428710938e+00f\n ivln2lo = reinterpret(0xB9389AD4), // -1.7605285393e-04\n Lg1 = reinterpret(0x3F2AAAAA), // 0xaaaaaa.0p-24f, 0.66666662693f\n Lg2 = reinterpret(0x3ECCCE13), // 0xccce13.0p-25f, 0.40000972152f\n Lg3 = reinterpret(0x3E91E9EE), // 0x91e9ee.0p-25f, 0.28498786688f\n Lg4 = reinterpret(0x3E789E26), // 0xf89e26.0p-26f, 0.24279078841f\n Ox1p25f = reinterpret(0x4C000000);\n var ix = reinterpret(x);\n var k: i32 = 0;\n if (ix < 0x00800000 || (ix >> 31)) {\n if (ix << 1 == 0) return -1 / (x * x);\n if (ix >> 31) return (x - x) / 0.0;\n k -= 25;\n x *= Ox1p25f;\n ix = reinterpret(x);\n } else if (ix >= 0x7F800000) return x;\n else if (ix == 0x3F800000) return 0;\n ix += 0x3F800000 - 0x3F3504F3;\n k += (ix >> 23) - 0x7F;\n ix = (ix & 0x007FFFFF) + 0x3F3504F3;\n x = reinterpret(ix);\n var f = x - 1.0;\n var s = f / (2.0 + f);\n var z = s * s;\n var w = z * z;\n var t1 = w * (Lg2 + w * Lg4);\n var t2 = z * (Lg1 + w * Lg3);\n var r = t2 + t1;\n var hfsq: f32 = 0.5 * f * f;\n var hi = f - hfsq;\n var u = reinterpret(hi);\n u &= 0xFFFFF000;\n hi = reinterpret(u);\n var lo: f32 = f - hi - hfsq + s * (hfsq + r);\n var dk = k;\n return (lo + hi) * ivln2lo + lo * ivln2hi + hi * ivln2hi + dk;\n }\n\n @inline\n export function max(value1: f32, value2: f32): f32 {\n return builtin_max(value1, value2);\n }\n\n @inline\n export function min(value1: f32, value2: f32): f32 {\n return builtin_min(value1, value2);\n }\n\n export function pow(x: f32, y: f32): f32 { // see: musl/src/math/powf.c and SUN COPYRIGHT NOTICE above\n const\n dp_h1 = reinterpret(0x3F15C000), // 5.84960938e-01f\n dp_l1 = reinterpret(0x35D1CFDC), // 1.56322085e-06f\n two24 = reinterpret(0x4B800000), // 16777216f\n huge = reinterpret(0x7149F2CA), // 1.0e+30f\n tiny = reinterpret(0x0DA24260), // 1.0e-30f\n L1 = reinterpret(0x3F19999A), // 6.0000002384e-01f\n L2 = reinterpret(0x3EDB6DB7), // 4.2857143283e-01f\n L3 = reinterpret(0x3EAAAAAB), // 3.3333334327e-01f\n L4 = reinterpret(0x3E8BA305), // 2.7272811532e-01f\n L5 = reinterpret(0x3E6C3255), // 2.3066075146e-01f\n L6 = reinterpret(0x3E53F142), // 2.0697501302e-01f\n P1 = reinterpret(0x3E2AAAAB), // 1.6666667163e-01f\n P2 = reinterpret(0xBB360B61), // -2.7777778450e-03f\n P3 = reinterpret(0x388AB355), // 6.6137559770e-05f\n P4 = reinterpret(0xB5DDEA0E), // -1.6533901999e-06f\n P5 = reinterpret(0x3331BB4C), // 4.1381369442e-08f\n lg2 = reinterpret(0x3F317218), // 6.9314718246e-01f\n lg2_h = reinterpret(0x3F317200), // 6.93145752e-01f\n lg2_l = reinterpret(0x35BFBE8C), // 1.42860654e-06f\n ovt = reinterpret(0x3338AA3C), // 4.2995665694e-08f\n cp = reinterpret(0x3F76384F), // 9.6179670095e-01\n cp_h = reinterpret(0x3F764000), // 9.6191406250e-01\n cp_l = reinterpret(0xB8F623C6), // -1.1736857402e-04\n ivln2 = reinterpret(0x3FB8AA3B), // 1.4426950216e+00\n ivln2_h = reinterpret(0x3FB8AA00), // 1.4426879883e+00\n ivln2_l = reinterpret(0x36ECA570), // 7.0526075433e-06\n inv3 = reinterpret(0x3EAAAAAB); // 0.333333333333\n var hx = reinterpret(x);\n var hy = reinterpret(y);\n var ix = hx & 0x7FFFFFFF;\n var iy = hy & 0x7FFFFFFF;\n if (iy == 0) return 1.0; // x**0 = 1, even if x is NaN\n // if (hx == 0x3F800000) return 1.0; // C: 1**y = 1, even if y is NaN, JS: NaN\n if (ix > 0x7F800000 || iy > 0x7F800000) return x + y; // NaN if either arg is NaN\n var yisint = 0, j: i32, k: i32;\n if (hx < 0) {\n if (iy >= 0x4B800000) yisint = 2;\n else if (iy >= 0x3F800000) {\n k = (iy >> 23) - 0x7F;\n let ki = 23 - k;\n j = iy >> ki;\n if ((j << ki) == iy) yisint = 2 - (j & 1);\n }\n }\n if (iy == 0x7F800000) { // y is +-inf\n if (ix == 0x3F800000) return NaN; // C: (-1)**+-inf is 1, JS: NaN\n else if (ix > 0x3F800000) return hy >= 0 ? y : 0.0; // (|x|>1)**+-inf = inf,0\n else return hy >= 0 ? 0.0 : -y; // (|x|<1)**+-inf = 0,inf\n }\n if (iy == 0x3F800000) return hy >= 0 ? x : 1.0 / x;\n if (hy == 0x40000000) return x * x;\n if (hy == 0x3F000000) {\n if (hx >= 0) return builtin_sqrt(x);\n }\n var ax = builtin_abs(x);\n var z: f32;\n if (ix == 0x7F800000 || ix == 0 || ix == 0x3F800000) {\n z = ax;\n if (hy < 0) z = 1.0 / z;\n if (hx < 0) {\n if (((ix - 0x3F800000) | yisint) == 0) {\n let d = z - z;\n z = d / d;\n }\n else if (yisint == 1) z = -z;\n }\n return z;\n }\n var sn = 1.0;\n if (hx < 0) {\n if (yisint == 0) {\n let d = x - x;\n return d / d;\n }\n if (yisint == 1) sn = -1.0;\n }\n var t1: f32, t2: f32, r: f32, s: f32, t: f32, u: f32, v: f32, w: f32, p_h: f32, p_l: f32;\n var n: i32, is: i32;\n if (iy > 0x4D000000) {\n if (ix < 0x3F7FFFF8) return hy < 0 ? sn * huge * huge : sn * tiny * tiny;\n if (ix > 0x3F800007) return hy > 0 ? sn * huge * huge : sn * tiny * tiny;\n t = ax - 1;\n w = (t * t) * (0.5 - t * (inv3 - t * 0.25));\n u = ivln2_h * t;\n v = t * ivln2_l - w * ivln2;\n t1 = u + v;\n is = reinterpret(t1);\n t1 = reinterpret(is & 0xFFFFF000);\n t2 = v - (t1 - u);\n } else {\n let s2: f32, s_h: f32, s_l: f32, t_h: f32, t_l: f32;\n n = 0;\n if (ix < 0x00800000) {\n ax *= two24;\n n -= 24;\n ix = reinterpret(ax);\n }\n n += (ix >> 23) - 0x7F;\n j = ix & 0x007FFFFF;\n ix = j | 0x3F800000;\n if (j <= 0x1CC471) k = 0;\n else if (j < 0x5DB3D7) k = 1;\n else {\n k = 0;\n n += 1;\n ix -= 0x00800000;\n }\n ax = reinterpret(ix);\n let bp = select(1.5, 1.0, k); // k ? 1.5 : 1.0\n u = ax - bp;\n v = 1.0 / (ax + bp);\n s = u * v;\n s_h = s;\n is = reinterpret(s_h);\n s_h = reinterpret(is & 0xFFFFF000);\n is = ((ix >> 1) & 0xFFFFF000) | 0x20000000;\n t_h = reinterpret(is + 0x00400000 + (k << 21));\n t_l = ax - (t_h - bp);\n s_l = v * ((u - s_h * t_h) - s_h * t_l);\n s2 = s * s;\n r = s2 * s2 * (L1 + s2 * (L2 + s2 * (L3 + s2 * (L4 + s2 * (L5 + s2 * L6)))));\n r += s_l * (s_h + s);\n s2 = s_h * s_h;\n t_h = 3.0 + s2 + r;\n is = reinterpret(t_h);\n t_h = reinterpret(is & 0xFFFFF000);\n t_l = r - ((t_h - 3.0) - s2);\n u = s_h * t_h;\n v = s_l * t_h + t_l * s;\n p_h = u + v;\n is = reinterpret(p_h);\n p_h = reinterpret(is & 0xFFFFF000);\n p_l = v - (p_h - u);\n let z_h = cp_h * p_h;\n let dp_l = select(dp_l1, 0.0, k);\n let z_l = cp_l * p_h + p_l * cp + dp_l;\n t = n;\n let dp_h = select(dp_h1, 0.0, k);\n t1 = (((z_h + z_l) + dp_h) + t);\n is = reinterpret(t1);\n t1 = reinterpret(is & 0xFFFFF000);\n t2 = z_l - (((t1 - t) - dp_h) - z_h);\n }\n is = reinterpret(y);\n var y1 = reinterpret(is & 0xFFFFF000);\n p_l = (y - y1) * t1 + y * t2;\n p_h = y1 * t1;\n z = p_l + p_h;\n j = reinterpret(z);\n if (j > 0x43000000) {\n return sn * huge * huge;\n } else if (j == 0x43000000) {\n if (p_l + ovt > z - p_h) return sn * huge * huge;\n } else if ((j & 0x7FFFFFFF) > 0x43160000) {\n return sn * tiny * tiny;\n } else if (j == 0xC3160000) {\n if (p_l <= z - p_h) return sn * tiny * tiny;\n }\n var i = j & 0x7FFFFFFF;\n k = (i >> 23) - 0x7F;\n n = 0;\n if (i > 0x3F000000) {\n n = j + (0x00800000 >> (k + 1));\n k = ((n & 0x7FFFFFFF) >> 23) - 0x7F;\n t = reinterpret(n & ~(0x007FFFFF >> k));\n n = ((n & 0x007FFFFF) | 0x00800000) >> (23 - k);\n if (j < 0) n = -n;\n p_h -= t;\n }\n t = p_l + p_h;\n is = reinterpret(t);\n t = reinterpret(is & 0xFFFF8000);\n u = t * lg2_h;\n v = (p_l - (t - p_h)) * lg2 + t * lg2_l;\n z = u + v;\n w = v - (z - u);\n t = z * z;\n t1 = z - t * (P1 + t * (P2 + t * (P3 + t * (P4 + t * P5))));\n r = (z * t1) / (t1 - 2.0) - (w + z * w);\n z = 1.0 - (r - z);\n j = reinterpret(z);\n j += n << 23;\n if ((j >> 23) <= 0) z = scalbn(z, n);\n else z = reinterpret(j);\n return sn * z;\n }\n\n @inline\n export function seedRandom(value: i64): void {\n NativeMath.seedRandom(value);\n }\n\n // Using xoroshiro64starstar from http://xoshiro.di.unimi.it/xoroshiro64starstar.c\n export function random(): f32 {\n if (!random_seeded) throw new Error("PRNG must be seeded.");\n\n var s0 = random_state0_32;\n var s1 = random_state1_32;\n var r = rotl(s0 * 0x9E3779BB, 5) * 5;\n\n s1 ^= s0;\n random_state0_32 = rotl(s0, 26) ^ s1 ^ (s1 << 9);\n random_state1_32 = rotl(s1, 13);\n\n return reinterpret((r >> 9) | (127 << 23)) - 1.0;\n }\n\n @inline\n export function round(x: f32): f32 {\n return builtin_copysign(builtin_floor(x + 0.5), x);\n }\n\n @inline\n export function sign(x: f32): f32 {\n if (ASC_SHRINK_LEVEL > 0) {\n return builtin_abs(x) > 0 ? builtin_copysign(1, x) : x;\n } else {\n return x > 0 ? 1 : x < 0 ? -1 : x;\n }\n }\n\n @inline\n export function signbit(x: f32): bool {\n return ((reinterpret(x) >>> 31) & (x == x));\n }\n\n export function sin(x: f32): f32 { // see: musl/src/math/sinf.c\n const s1pio2 = reinterpret(0x3FF921FB54442D18); // M_PI_2 * 1\n const s2pio2 = reinterpret(0x400921FB54442D18); // M_PI_2 * 2\n const s3pio2 = reinterpret(0x4012D97C7F3321D2); // M_PI_2 * 3\n const s4pio2 = reinterpret(0x401921FB54442D18); // M_PI_2 * 4\n\n var ix = reinterpret(x);\n var sign = ix >> 31;\n ix &= 0x7FFFFFFF;\n\n if (ix <= 0x3f490fda) { /* |x| ~<= π/4 */\n if (ix < 0x39800000) { /* |x| < 2**-12 */\n return x;\n }\n return sin_kernf(x);\n }\n\n if (ASC_SHRINK_LEVEL < 1) {\n if (ix <= 0x407b53d1) { /* |x| ~<= 5π/4 */\n if (ix <= 0x4016cbe3) { /* |x| ~<= 3π/4 */\n return sign ? -cos_kernf(x + s1pio2) : cos_kernf(x - s1pio2);\n }\n return sin_kernf(-(sign ? x + s2pio2 : x - s2pio2));\n }\n\n if (ix <= 0x40e231d5) { /* |x| ~<= 9π/4 */\n if (ix <= 0x40afeddf) { /* |x| ~<= 7π/4 */\n return sign ? cos_kernf(x + s3pio2) : -cos_kernf(x - s3pio2);\n }\n return sin_kernf(sign ? x + s4pio2 : x - s4pio2);\n }\n }\n\n /* sin(Inf or NaN) is NaN */\n if (ix >= 0x7f800000) return x - x;\n\n var n = rempio2f(x, ix, sign);\n var y = rempio2f_y;\n\n var t = n & 1 ? cos_kernf(y) : sin_kernf(y);\n return n & 2 ? -t : t;\n }\n\n export function sinh(x: f32): f32 { // see: musl/src/math/sinhf.c\n var u = reinterpret(x) & 0x7FFFFFFF;\n var absx = reinterpret(u);\n var t: f32;\n var h = builtin_copysign(0.5, x);\n if (u < 0x42B17217) {\n t = expm1(absx);\n if (u < 0x3F800000) {\n if (u < 0x3F800000 - (12 << 23)) return x;\n return h * (2 * t - t * t / (t + 1));\n }\n return h * (t + t / (t + 1));\n }\n t = 2 * h * expo2f(absx);\n return t;\n }\n\n @inline\n export function sqrt(x: f32): f32 {\n return builtin_sqrt(x);\n }\n\n export function tan(x: f32): f32 { // see: musl/src/math/tanf.c\n const t1pio2 = reinterpret(0x3FF921FB54442D18); // 1 * M_PI_2\n const t2pio2 = reinterpret(0x400921FB54442D18); // 2 * M_PI_2\n const t3pio2 = reinterpret(0x4012D97C7F3321D2); // 3 * M_PI_2\n const t4pio2 = reinterpret(0x401921FB54442D18); // 4 * M_PI_2\n\n var ix = reinterpret(x);\n var sign = ix >> 31;\n ix &= 0x7FFFFFFF;\n\n if (ix <= 0x3f490fda) { /* |x| ~<= π/4 */\n if (ix < 0x39800000) { /* |x| < 2**-12 */\n return x;\n }\n return tan_kernf(x, 0);\n }\n\n if (ASC_SHRINK_LEVEL < 1) {\n if (ix <= 0x407b53d1) { /* |x| ~<= 5π/4 */\n if (ix <= 0x4016cbe3) { /* |x| ~<= 3π/4 */\n return tan_kernf((sign ? x + t1pio2 : x - t1pio2), 1);\n } else {\n return tan_kernf((sign ? x + t2pio2 : x - t2pio2), 0);\n }\n }\n if (ix <= 0x40e231d5) { /* |x| ~<= 9π/4 */\n if (ix <= 0x40afeddf) { /* |x| ~<= 7π/4 */\n return tan_kernf((sign ? x + t3pio2 : x - t3pio2), 1);\n } else {\n return tan_kernf((sign ? x + t4pio2 : x - t4pio2), 0);\n }\n }\n }\n\n /* tan(Inf or NaN) is NaN */\n if (ix >= 0x7f800000) return x - x;\n\n /* argument reduction */\n var n = rempio2f(x, ix, sign);\n var y = rempio2f_y;\n return tan_kernf(y, n & 1);\n }\n\n export function tanh(x: f32): f32 { // see: musl/src/math/tanhf.c\n var u = reinterpret(x);\n u &= 0x7FFFFFFF;\n var y = reinterpret(u);\n var t: f32;\n if (u > 0x3F0C9F54) {\n if (u > 0x41200000) t = 1 + 0 / y;\n else {\n t = expm1(2 * y);\n t = 1 - 2 / (t + 2);\n }\n } else if (u > 0x3E82C578) {\n t = expm1(2 * y);\n t = t / (t + 2);\n } else if (u >= 0x00800000) {\n t = expm1(-2 * y);\n t = -t / (t + 2);\n } else t = y;\n return builtin_copysign(t, x);\n }\n\n @inline\n export function trunc(x: f32): f32 {\n return builtin_trunc(x);\n }\n\n export function scalbn(x: f32, n: i32): f32 { // see: https://git.musl-libc.org/cgit/musl/tree/src/math/scalbnf.c\n const\n Ox1p24f = reinterpret(0x4B800000),\n Ox1p127f = reinterpret(0x7F000000),\n Ox1p_126f = reinterpret(0x00800000);\n var y = x;\n if (n > 127) {\n y *= Ox1p127f;\n n -= 127;\n if (n > 127) {\n y *= Ox1p127f;\n n = builtin_min(n - 127, 127);\n }\n } else if (n < -126) {\n y *= Ox1p_126f * Ox1p24f;\n n += 126 - 24;\n if (n < -126) {\n y *= Ox1p_126f * Ox1p24f;\n n = builtin_max(n + 126 - 24, -126);\n }\n }\n return y * reinterpret((0x7F + n) << 23);\n }\n\n export function mod(x: f32, y: f32): f32 { // see: musl/src/math/fmodf.c\n var ux = reinterpret(x);\n var uy = reinterpret(y);\n var ex = (ux >> 23 & 0xFF);\n var ey = (uy >> 23 & 0xFF);\n var sx = ux & 0x80000000;\n var uy1 = uy << 1;\n if (uy1 == 0 || ex == 0xFF || isNaN(y)) {\n let m = x * y;\n return m / m;\n }\n var ux1 = ux << 1;\n if (ux1 <= uy1) {\n if (ux1 == uy1) return 0 * x;\n return x;\n }\n if (!ex) {\n ex -= builtin_clz(ux << 9);\n ux <<= -ex + 1;\n } else {\n ux &= -1 >> 9;\n ux |= 1 << 23;\n }\n if (!ey) {\n ey -= builtin_clz(uy << 9);\n uy <<= -ey + 1;\n } else {\n uy &= -1 >> 9;\n uy |= 1 << 23;\n }\n while (ex > ey) {\n if (ux >= uy) {\n if (ux == uy) return 0 * x;\n ux -= uy;\n }\n ux <<= 1;\n --ex;\n }\n if (ux >= uy) {\n if (ux == uy) return 0 * x;\n ux -= uy;\n }\n // for (; !(ux >> 23); ux <<= 1) --ex;\n var shift = builtin_clz(ux << 8);\n ex -= shift;\n ux <<= shift;\n if (ex > 0) {\n ux -= 1 << 23;\n ux |= ex << 23;\n } else {\n ux >>= -ex + 1;\n }\n ux |= sx;\n return reinterpret(ux);\n }\n\n export function rem(x: f32, y: f32): f32 { // see: musl/src/math/remquof.c\n var ux = reinterpret(x);\n var uy = reinterpret(y);\n var ex = (ux >> 23 & 0xFF);\n var ey = (uy >> 23 & 0xFF);\n var sx = (ux >> 31);\n var uxi = ux;\n if (uy << 1 == 0 || ex == 0xFF || isNaN(y)) return (x * y) / (x * y);\n if (ux << 1 == 0) return x;\n if (!ex) {\n ex -= builtin_clz(uxi << 9);\n uxi <<= -ex + 1;\n } else {\n uxi &= -1 >> 9;\n uxi |= 1 << 23;\n }\n if (!ey) {\n ey -= builtin_clz(uy << 9);\n uy <<= -ey + 1;\n } else {\n uy &= -1 >> 9;\n uy |= 1 << 23;\n }\n var q = 0;\n do {\n if (ex < ey) {\n if (ex + 1 == ey) break; // goto end\n return x;\n }\n while (ex > ey) {\n if (uxi >= uy) {\n uxi -= uy;\n ++q;\n }\n uxi <<= 1;\n q <<= 1;\n --ex;\n }\n if (uxi >= uy) {\n uxi -= uy;\n ++q;\n }\n if (uxi == 0) ex = -30;\n else {\n let shift = builtin_clz(uxi << 8);\n ex -= shift;\n uxi <<= shift;\n }\n break;\n } while (false);\n // end\n if (ex > 0) {\n uxi -= 1 << 23;\n uxi |= ex << 23;\n } else {\n uxi >>= -ex + 1;\n }\n x = reinterpret(uxi);\n y = builtin_abs(y);\n var x2 = x + x;\n if (ex == ey || (ex + 1 == ey && (x2 > y || (x2 == y && (q & 1))))) {\n x -= y;\n // q++;\n }\n return sx ? -x : x;\n }\n\n export function sincos(x: f32): void { // see: musl/tree/src/math/sincosf.c\n const s1pio2 = reinterpret(0x3FF921FB54442D18); // 1 * M_PI_2\n const s2pio2 = reinterpret(0x400921FB54442D18); // 2 * M_PI_2\n const s3pio2 = reinterpret(0x4012D97C7F3321D2); // 3 * M_PI_2\n const s4pio2 = reinterpret(0x401921FB54442D18); // 4 * M_PI_2\n\n var ix = reinterpret(x);\n var sign = ix >> 31;\n ix &= 0x7fffffff;\n\n if (ix <= 0x3f490fda) { /* |x| ~<= π/4 */\n if (ix < 0x39800000) { /* |x| < 2**-12 */\n sincos_s32 = x;\n sincos_c32 = 1;\n return;\n }\n sincos_s32 = sin_kernf(x);\n sincos_c32 = cos_kernf(x);\n return;\n }\n\n if (ASC_SHRINK_LEVEL < 1) {\n if (ix <= 0x407b53d1) { /* |x| ~<= 5π/4 */\n if (ix <= 0x4016cbe3) { /* |x| ~<= 3π/4 */\n if (sign) {\n sincos_s32 = -cos_kernf(x + s1pio2);\n sincos_c32 = sin_kernf(x + s1pio2);\n } else {\n sincos_s32 = cos_kernf(s1pio2 - x);\n sincos_c32 = sin_kernf(s1pio2 - x);\n }\n return;\n }\n /* -sin(x + c) is not correct if x+c could be 0: -0 vs +0 */\n sincos_s32 = -sin_kernf(sign ? x + s2pio2 : x - s2pio2);\n sincos_c32 = -cos_kernf(sign ? x + s2pio2 : x - s2pio2);\n return;\n }\n\n if (ix <= 0x40e231d5) { /* |x| ~<= 9π/4 */\n if (ix <= 0x40afeddf) { /* |x| ~<= 7π/4 */\n if (sign) {\n sincos_s32 = cos_kernf(x + s3pio2);\n sincos_c32 = -sin_kernf(x + s3pio2);\n } else {\n sincos_s32 = -cos_kernf(x - s3pio2);\n sincos_c32 = sin_kernf(x - s3pio2);\n }\n return;\n }\n sincos_s32 = sin_kernf(sign ? x + s4pio2 : x - s4pio2);\n sincos_c32 = cos_kernf(sign ? x + s4pio2 : x - s4pio2);\n return;\n }\n }\n\n /* sin(Inf or NaN) is NaN */\n if (ix >= 0x7f800000) {\n let xx = x - x;\n sincos_s32 = xx;\n sincos_c32 = xx;\n return;\n }\n\n /* general argument reduction needed */\n var n = rempio2f(x, ix, sign);\n var y = rempio2f_y;\n var s = sin_kernf(y);\n var c = cos_kernf(y);\n\n switch (n & 3) {\n case 0: {\n sincos_s32 = s;\n sincos_c32 = c;\n break;\n }\n case 1: {\n sincos_s32 = c;\n sincos_c32 = -s;\n break;\n }\n case 2: {\n sincos_s32 = -s;\n sincos_c32 = -c;\n break;\n }\n case 3:\n default: {\n sincos_s32 = -c;\n sincos_c32 = s;\n break;\n }\n }\n }\n}\n\nexport function ipow32(x: i32, e: i32): i32 {\n var out = 1;\n if (ASC_SHRINK_LEVEL < 1) {\n if (e < 0) return 0;\n\n switch (e) {\n case 0: return 1;\n case 1: return x;\n case 2: return x * x;\n }\n\n let log = 32 - clz(e);\n if (log <= 5) {\n // 32 = 2 ^ 5, so need only five cases.\n // But some extra cases needs for properly overflowing\n switch (log) {\n case 5: {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n case 4: {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n case 3: {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n case 2: {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n case 1: {\n if (e & 1) out *= x;\n }\n }\n return out;\n }\n }\n\n while (e > 0) {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n return out;\n}\n\nexport function ipow64(x: i64, e: i32): i64 {\n var out: i64 = 1;\n if (ASC_SHRINK_LEVEL < 1) {\n if (e < 0) return 0;\n switch (e) {\n case 0: return 1;\n case 1: return x;\n case 2: return x * x;\n }\n\n let log = 32 - clz(e);\n if (log <= 6) {\n // 64 = 2 ^ 6, so need only six cases.\n // But some extra cases needs for properly overflowing\n switch (log) {\n case 6: {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n case 5: {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n case 4: {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n case 3: {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n case 2: {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n case 1: {\n if (e & 1) out *= x;\n }\n }\n return out;\n }\n }\n\n while (e > 0) {\n if (e & 1) out *= x;\n e >>= 1;\n x *= x;\n }\n return out;\n}\n\nexport function ipow32f(x: f32, e: i32): f32 {\n var sign = e >> 31;\n e = (e + sign) ^ sign; // abs(e)\n var out: f32 = 1;\n while (e) {\n out *= select(x, 1.0, e & 1);\n e >>= 1;\n x *= x;\n }\n return sign ? 1.0 / out : out;\n}\n\nexport function ipow64f(x: f64, e: i32): f64 {\n var sign = e >> 31;\n e = (e + sign) ^ sign; // abs(e)\n var out = 1.0;\n while (e) {\n out *= select(x, 1.0, e & 1);\n e >>= 1;\n x *= x;\n }\n return sign ? 1.0 / out : out;\n}\n',memory:'import { memcmp, memmove, memset } from "./internal/memory";\n\n@builtin export declare const HEAP_BASE: usize; // tslint:disable-line\n\n/* tslint:disable */\n\nexport namespace memory {\n\n @builtin export declare function size(): i32;\n\n @builtin export declare function grow(pages: i32): i32;\n\n @builtin @inline\n export function fill(dest: usize, c: u8, n: usize): void { // see: musl/src/string/memset\n memset(dest, c, n); // fallback if "bulk-memory" isn\'t enabled\n }\n\n @builtin @inline\n export function copy(dest: usize, src: usize, n: usize): void { // see: musl/src/string/memmove.c\n memmove(dest, src, n); // fallback if "bulk-memory" isn\'t enabled\n }\n\n @inline export function compare(vl: usize, vr: usize, n: usize): i32 { // see: musl/src/string/memcmp.c\n return memcmp(vl, vr, n);\n }\n\n // Passive segments\n\n // export function init(segmentIndex: u32, srcOffset: usize, dstOffset: usize, n: usize): void {\n // __memory_init(segmentIndex, srcOffset, dstOffset);\n // }\n\n // export function drop(segmentIndex: u32): void {\n // __memory_drop(segmentIndex);\n // }\n\n // Allocator\n\n @inline export function allocate(size: usize): usize {\n if (isDefined(__memory_allocate)) return __memory_allocate(size);\n WARNING("Calling \'memory.allocate\' requires a memory manager to be present.");\n return unreachable();\n }\n\n @inline export function free(ptr: usize): void {\n if (isDefined(__memory_free)) { __memory_free(ptr); return; }\n WARNING("Calling \'memory.free\' requires a memory manager to be present.");\n unreachable();\n }\n\n @inline export function reset(): void {\n if (isDefined(__memory_reset)) { __memory_reset(); return; }\n unreachable();\n }\n}\n',number:'import {\n itoa,\n dtoa\n} from "./internal/number";\n\nimport {\n isNaN as builtin_isNaN,\n isFinite as builtin_isFinite\n} from "./builtins";\n\n@sealed\nexport abstract class I8 {\n\n @lazy static readonly MIN_VALUE: i8 = i8.MIN_VALUE;\n @lazy static readonly MAX_VALUE: i8 = i8.MAX_VALUE;\n\n static parseInt(value: string, radix: i32 = 0): i8 {\n return parseI32(value, radix);\n }\n\n toString(this: i8): String {\n // TODO: radix\n return itoa(this);\n }\n}\n\n@sealed\nexport abstract class I16 {\n\n @lazy static readonly MIN_VALUE: i16 = i16.MIN_VALUE;\n @lazy static readonly MAX_VALUE: i16 = i16.MAX_VALUE;\n\n static parseInt(value: string, radix: i32 = 0): i16 {\n return parseI32(value, radix);\n }\n\n toString(this: i16): String {\n // TODO: radix\n return itoa(this);\n }\n}\n\n@sealed\nexport abstract class I32 {\n\n @lazy static readonly MIN_VALUE: i32 = i32.MIN_VALUE;\n @lazy static readonly MAX_VALUE: i32 = i32.MAX_VALUE;\n\n static parseInt(value: string, radix: i32 = 0): i32 {\n return parseI32(value, radix);\n }\n\n toString(this: i32): String {\n // TODO: radix\n return itoa(this);\n }\n}\n\n@sealed\nexport abstract class I64 {\n\n @lazy static readonly MIN_VALUE: i64 = i64.MIN_VALUE;\n @lazy static readonly MAX_VALUE: i64 = i64.MAX_VALUE;\n\n static parseInt(value: string, radix: i32 = 0): i64 {\n return parseI64(value, radix);\n }\n\n toString(this: i64): String {\n // TODO: radix\n return itoa(this);\n }\n}\n\n@sealed\nexport abstract class Isize {\n\n @lazy static readonly MIN_VALUE: isize = isize.MIN_VALUE;\n @lazy static readonly MAX_VALUE: isize = isize.MAX_VALUE;\n\n static parseInt(value: string, radix: i32 = 0): isize {\n return parseI64(value, radix);\n }\n\n toString(this: isize): String {\n // TODO: radix\n return itoa(this);\n }\n}\n\n@sealed\nexport abstract class U8 {\n\n @lazy static readonly MIN_VALUE: u8 = u8.MIN_VALUE;\n @lazy static readonly MAX_VALUE: u8 = u8.MAX_VALUE;\n\n static parseInt(value: string, radix: i32 = 0): u8 {\n return parseI32(value, radix);\n }\n\n toString(this: u8): String {\n // TODO: radix\n return itoa(this);\n }\n}\n\n@sealed\nexport abstract class U16 {\n\n @lazy static readonly MIN_VALUE: u16 = u16.MIN_VALUE;\n @lazy static readonly MAX_VALUE: u16 = u16.MAX_VALUE;\n\n static parseInt(value: string, radix: i32 = 0): u16 {\n return parseI32(value, radix);\n }\n\n toString(this: u16): String {\n // TODO: radix\n return itoa(this);\n }\n}\n\n@sealed\nexport abstract class U32 {\n\n @lazy static readonly MIN_VALUE: u32 = u32.MIN_VALUE;\n @lazy static readonly MAX_VALUE: u32 = u32.MAX_VALUE;\n\n static parseInt(value: string, radix: i32 = 0): u32 {\n return parseI32(value, radix);\n }\n\n toString(this: u32): String {\n // TODO: radix\n return itoa(this);\n }\n}\n\n@sealed\nexport abstract class U64 {\n\n @lazy static readonly MIN_VALUE: u64 = u64.MIN_VALUE;\n @lazy static readonly MAX_VALUE: u64 = u64.MAX_VALUE;\n\n static parseInt(value: string, radix: i32 = 0): u64 {\n return parseI64(value, radix);\n }\n\n toString(this: u64): String {\n // TODO: radix\n return itoa(this);\n }\n}\n\n@sealed\nexport abstract class Usize {\n\n @lazy static readonly MIN_VALUE: usize = usize.MIN_VALUE;\n @lazy static readonly MAX_VALUE: usize = usize.MAX_VALUE;\n\n static parseInt(value: string, radix: i32 = 0): usize {\n return parseI64(value, radix);\n }\n\n toString(this: usize): String {\n // TODO: radix\n return itoa(this);\n }\n}\n\n@sealed\nexport abstract class Bool {\n\n @lazy static readonly MIN_VALUE: bool = bool.MIN_VALUE;\n @lazy static readonly MAX_VALUE: bool = bool.MAX_VALUE;\n\n toString(this: bool): String {\n // TODO: radix?\n return this ? "true" : "false";\n }\n}\n\nexport { Bool as Boolean };\n\n@sealed\nexport abstract class F32 {\n\n @lazy static readonly EPSILON: f32 = f32.EPSILON;\n @lazy static readonly MIN_VALUE: f32 = f32.MIN_VALUE;\n @lazy static readonly MAX_VALUE: f32 = f32.MAX_VALUE;\n @lazy static readonly MIN_SAFE_INTEGER: f32 = f32.MIN_SAFE_INTEGER;\n @lazy static readonly MAX_SAFE_INTEGER: f32 = f32.MAX_SAFE_INTEGER;\n @lazy static readonly POSITIVE_INFINITY: f32 = Infinity;\n @lazy static readonly NEGATIVE_INFINITY: f32 = -Infinity;\n @lazy static readonly NaN: f32 = NaN;\n\n static isNaN(value: f32): bool {\n return isNaN(value);\n }\n\n static isFinite(value: f32): bool {\n return isFinite(value);\n }\n\n static isSafeInteger(value: f32): bool {\n return abs(value) <= f32.MAX_SAFE_INTEGER && trunc(value) == value;\n }\n\n static isInteger(value: f32): bool {\n return isFinite(value) && trunc(value) == value;\n }\n\n static parseInt(value: string, radix: i32 = 0): f32 {\n return parseI64(value, radix);\n }\n\n static parseFloat(value: string): f32 {\n return parseFloat(value);\n }\n\n toString(this: f32): String {\n // TODO: radix\n return dtoa(this);\n }\n}\n\n@sealed\nexport abstract class F64 {\n\n @lazy static readonly EPSILON: f64 = f64.EPSILON;\n @lazy static readonly MIN_VALUE: f64 = f64.MIN_VALUE;\n @lazy static readonly MAX_VALUE: f64 = f64.MAX_VALUE;\n @lazy static readonly MIN_SAFE_INTEGER: f64 = f64.MIN_SAFE_INTEGER;\n @lazy static readonly MAX_SAFE_INTEGER: f64 = f64.MAX_SAFE_INTEGER;\n @lazy static readonly POSITIVE_INFINITY: f64 = Infinity;\n @lazy static readonly NEGATIVE_INFINITY: f64 = -Infinity;\n @lazy static readonly NaN: f64 = NaN;\n\n static isNaN(value: f64): bool {\n return builtin_isNaN(value);\n }\n\n static isFinite(value: f64): bool {\n return builtin_isFinite(value);\n }\n\n static isSafeInteger(value: f64): bool {\n return abs(value) <= f64.MAX_SAFE_INTEGER && trunc(value) == value;\n }\n\n static isInteger(value: f64): bool {\n return builtin_isFinite(value) && trunc(value) == value;\n }\n\n static parseInt(value: string, radix: i32 = 0): f64 {\n return parseI64(value, radix);\n }\n\n static parseFloat(value: string): f64 {\n return parseFloat(value);\n }\n\n toString(this: f64): String {\n // TODO: radix\n return dtoa(this);\n }\n}\n\nexport { F64 as Number };\n',polyfills:"export function bswap(value: T): T {\n if (isInteger()) {\n if (sizeof() == 2) {\n return ((value << 8) | ((value >> 8) & 0x00FF));\n }\n if (sizeof() == 4) {\n return (\n rotl(value & 0xFF00FF00, 8) |\n rotr(value & 0x00FF00FF, 8)\n );\n }\n if (sizeof() == 8) {\n let a = (value >> 8) & 0x00FF00FF00FF00FF;\n let b = (value & 0x00FF00FF00FF00FF) << 8;\n let v = a | b;\n\n a = (v >> 16) & 0x0000FFFF0000FFFF;\n b = (v & 0x0000FFFF0000FFFF) << 16;\n\n return rotr(a | b, 32);\n }\n return value;\n }\n assert(false);\n return value;\n}\n\n@inline\nexport function bswap16(value: T): T {\n if (isInteger() && sizeof() <= 4) {\n if (sizeof() == 2) {\n return ((value << 8) | ((value >> 8) & 0x00FF));\n } else if (sizeof() == 4) {\n return (((value << 8) & 0xFF00) | ((value >> 8) & 0x00FF) | (value & 0xFFFF0000));\n }\n return value;\n }\n assert(false);\n return value;\n}\n",regexp:'export class RegExp {\n\n // @binding(CALL_NEW, [ STRING, STRING], OBJECT_HANDLE)\n constructor(pattern: string, flags: string = "") { throw new Error("unreachable"); }\n\n // @binding(CALL_THIS, [ STRING ], PASS_THRU)\n test(search: string): bool { throw new Error("unreachable"); }\n\n // @binding(CALL_THIS, [], STRING)\n toString(): string { throw new Error("unreachable"); }\n\n}\n',set:'import {\n HEADER_SIZE as HEADER_SIZE_AB\n} from "./internal/arraybuffer";\n\nimport {\n HASH\n} from "./internal/hash";\n\n// A deterministic hash set based on CloseTable from https://github.com/jorendorff/dht\n\n@inline const INITIAL_CAPACITY = 4;\n@inline const FILL_FACTOR: f64 = 8 / 3;\n@inline const FREE_FACTOR: f64 = 3 / 4;\n\n/** Structure of a set entry. */\n@unmanaged class SetEntry {\n key: K;\n taggedNext: usize; // LSB=1 indicates EMPTY\n}\n\n/** Empty bit. */\n@inline const EMPTY: usize = 1 << 0;\n\n/** Size of a bucket. */\n@inline const BUCKET_SIZE = sizeof();\n\n/** Computes the alignment of an entry. */\n@inline function ENTRY_ALIGN(): usize {\n // can align to 4 instead of 8 if 32-bit and K is <= 32-bits\n const align = (sizeof() > sizeof() ? sizeof() : sizeof()) - 1;\n return align;\n}\n\n/** Computes the aligned size of an entry. */\n@inline function ENTRY_SIZE(): usize {\n const align = ENTRY_ALIGN();\n const size = (offsetof>() + align) & ~align;\n return size;\n}\n\nexport class Set {\n\n // buckets holding references to the respective first entry within\n private buckets: ArrayBuffer; // usize[bucketsMask + 1]\n private bucketsMask: u32;\n\n // entries in insertion order\n private entries: ArrayBuffer; // SetEntry[entriesCapacity]\n private entriesCapacity: i32;\n private entriesOffset: i32;\n private entriesCount: i32;\n\n get size(): i32 { return this.entriesCount; }\n\n constructor() { this.clear(); }\n\n clear(): void {\n const bucketsSize = INITIAL_CAPACITY * BUCKET_SIZE;\n this.buckets = new ArrayBuffer(bucketsSize);\n this.bucketsMask = INITIAL_CAPACITY - 1;\n const entriesSize = INITIAL_CAPACITY * ENTRY_SIZE();\n this.entries = new ArrayBuffer(entriesSize, true);\n this.entriesCapacity = INITIAL_CAPACITY;\n this.entriesOffset = 0;\n this.entriesCount = 0;\n }\n\n private find(key: K, hashCode: u32): SetEntry | null {\n var entry = load>(\n changetype(this.buckets) + (hashCode & this.bucketsMask) * BUCKET_SIZE,\n HEADER_SIZE_AB\n );\n while (entry) {\n if (!(entry.taggedNext & EMPTY) && entry.key == key) return entry;\n entry = changetype>(entry.taggedNext & ~EMPTY);\n }\n return null;\n }\n\n has(key: K): bool {\n return this.find(key, HASH(key)) !== null;\n }\n\n add(key: K): void {\n var hashCode = HASH(key);\n var entry = this.find(key, hashCode);\n if (!entry) {\n // check if rehashing is necessary\n if (this.entriesOffset == this.entriesCapacity) {\n this.rehash(\n this.entriesCount < (this.entriesCapacity * FREE_FACTOR)\n ? this.bucketsMask // just rehash if 1/4+ entries are empty\n : (this.bucketsMask << 1) | 1 // grow capacity to next 2^N\n );\n }\n // append new entry\n let entries = this.entries;\n entry = changetype>(\n changetype(entries) + HEADER_SIZE_AB + this.entriesOffset++ * ENTRY_SIZE()\n );\n entry.key = key;\n ++this.entriesCount;\n // link with previous entry in bucket\n let bucketPtrBase = changetype(this.buckets) + (hashCode & this.bucketsMask) * BUCKET_SIZE;\n entry.taggedNext = load(bucketPtrBase, HEADER_SIZE_AB);\n store(bucketPtrBase, changetype(entry), HEADER_SIZE_AB);\n if (isManaged()) __gc_link(changetype(this), changetype(key)); // tslint:disable-line\n }\n }\n\n delete(key: K): bool {\n var entry = this.find(key, HASH(key));\n if (!entry) return false;\n entry.taggedNext |= EMPTY;\n --this.entriesCount;\n // check if rehashing is appropriate\n var halfBucketsMask = this.bucketsMask >> 1;\n if (\n halfBucketsMask + 1 >= max(INITIAL_CAPACITY, this.entriesCount) &&\n this.entriesCount < (this.entriesCapacity * FREE_FACTOR)\n ) this.rehash(halfBucketsMask);\n return true;\n }\n\n private rehash(newBucketsMask: u32): void {\n var newBucketsCapacity = (newBucketsMask + 1);\n var newBuckets = new ArrayBuffer(newBucketsCapacity * BUCKET_SIZE);\n var newEntriesCapacity = (newBucketsCapacity * FILL_FACTOR);\n var newEntries = new ArrayBuffer(newEntriesCapacity * ENTRY_SIZE(), true);\n\n // copy old entries to new entries\n var oldPtr = changetype(this.entries) + HEADER_SIZE_AB;\n var oldEnd = oldPtr + this.entriesOffset * ENTRY_SIZE();\n var newPtr = changetype(newEntries) + HEADER_SIZE_AB;\n while (oldPtr != oldEnd) {\n let oldEntry = changetype>(oldPtr);\n if (!(oldEntry.taggedNext & EMPTY)) {\n let newEntry = changetype>(newPtr);\n newEntry.key = oldEntry.key;\n let newBucketIndex = HASH(oldEntry.key) & newBucketsMask;\n let newBucketPtrBase = changetype(newBuckets) + newBucketIndex * BUCKET_SIZE;\n newEntry.taggedNext = load(newBucketPtrBase, HEADER_SIZE_AB);\n store(newBucketPtrBase, newPtr, HEADER_SIZE_AB);\n newPtr += ENTRY_SIZE();\n }\n oldPtr += ENTRY_SIZE();\n }\n\n this.buckets = newBuckets;\n this.bucketsMask = newBucketsMask;\n this.entries = newEntries;\n this.entriesCapacity = newEntriesCapacity;\n this.entriesOffset = this.entriesCount;\n }\n\n toString(): string {\n return "[object Set]";\n }\n\n private __gc(): void {\n __gc_mark(changetype(this.buckets)); // tslint:disable-line\n var entries = this.entries;\n __gc_mark(changetype(entries)); // tslint:disable-line\n if (isManaged()) {\n let offset: usize = 0;\n let end: usize = this.entriesOffset * ENTRY_SIZE();\n while (offset < end) {\n let entry = changetype>(\n changetype(entries) + HEADER_SIZE_AB + offset * ENTRY_SIZE()\n );\n if (!(entry.taggedNext & EMPTY)) __gc_mark(changetype(entry.key)); // tslint:disable-line\n offset += ENTRY_SIZE();\n }\n }\n }\n}\n',string:'import {\n HEADER_SIZE,\n MAX_LENGTH,\n allocateUnsafe,\n compareUnsafe,\n repeatUnsafe,\n copyUnsafe,\n isWhiteSpaceOrLineTerminator,\n CharCode,\n parse\n} from "./internal/string";\n\nimport {\n STORE\n} from "./internal/arraybuffer";\n\n@sealed\nexport class String {\n\n readonly length: i32; // capped to [0, MAX_LENGTH]\n\n // TODO Add and handle second argument\n static fromCharCode(code: i32): String {\n var out = allocateUnsafe(1);\n store(\n changetype(out),\n code,\n HEADER_SIZE\n );\n return out;\n }\n\n static fromCodePoint(code: i32): String {\n assert(code <= 0x10FFFF);\n var sur = code > 0xFFFF;\n var out = allocateUnsafe(sur + 1);\n if (!sur) {\n store(\n changetype(out),\n code,\n HEADER_SIZE\n );\n } else {\n code -= 0x10000;\n let hi: u32 = (code >>> 10) + 0xD800;\n let lo: u32 = (code & 0x3FF) + 0xDC00;\n store(\n changetype(out),\n (hi << 16) | lo,\n HEADER_SIZE\n );\n }\n return out;\n }\n\n @operator("[]")\n charAt(pos: i32): String {\n assert(this !== null);\n\n if (pos >= this.length) return changetype("");\n\n var out = allocateUnsafe(1);\n store(\n changetype(out),\n load(\n changetype(this) + (pos << 1),\n HEADER_SIZE\n ),\n HEADER_SIZE\n );\n return out;\n }\n\n charCodeAt(pos: i32): i32 {\n assert(this !== null);\n if (pos >= this.length) return -1; // (NaN)\n\n return load(\n changetype(this) + (pos << 1),\n HEADER_SIZE\n );\n }\n\n codePointAt(pos: i32): i32 {\n assert(this !== null);\n if (pos >= this.length) return -1; // (undefined)\n\n var first = load(\n changetype(this) + (pos << 1),\n HEADER_SIZE\n );\n if (first < 0xD800 || first > 0xDBFF || pos + 1 == this.length) {\n return first;\n }\n var second = load(\n changetype(this) + ((pos + 1) << 1),\n HEADER_SIZE\n );\n if (second < 0xDC00 || second > 0xDFFF) return first;\n return ((first - 0xD800) << 10) + (second - 0xDC00) + 0x10000;\n }\n\n @operator("+")\n private static __concat(left: String, right: String): String {\n if (!changetype(left)) left = changetype("null");\n return left.concat(right);\n }\n\n concat(other: String): String {\n assert(this !== null);\n if (other === null) other = changetype("null");\n\n var thisLen: isize = this.length;\n var otherLen: isize = other.length;\n var outLen: usize = thisLen + otherLen;\n if (outLen == 0) return changetype("");\n var out = allocateUnsafe(outLen);\n copyUnsafe(out, 0, this, 0, thisLen);\n copyUnsafe(out, thisLen, other, 0, otherLen);\n return out;\n }\n\n endsWith(searchString: String, endPosition: i32 = MAX_LENGTH): bool {\n assert(this !== null);\n if (searchString === null) return false;\n var end = min(max(endPosition, 0), this.length);\n var searchLength: isize = searchString.length;\n var start: isize = end - searchLength;\n if (start < 0) return false;\n return !compareUnsafe(this, start, searchString, 0, searchLength);\n }\n\n @operator("==")\n private static __eq(left: String, right: String): bool {\n if (left === right) return true;\n if (left === null || right === null) return false;\n\n var leftLength = left.length;\n if (leftLength != right.length) return false;\n\n return !compareUnsafe(left, 0, right, 0, leftLength);\n }\n\n @operator("!=")\n private static __ne(left: String, right: String): bool {\n return !this.__eq(left, right);\n }\n\n @operator(">")\n private static __gt(left: String, right: String): bool {\n if (left === right || left === null || right === null) return false;\n\n var leftLength = left.length;\n var rightLength = right.length;\n\n if (!leftLength) return false;\n if (!rightLength) return true;\n\n var length = min(leftLength, rightLength);\n return compareUnsafe(left, 0, right, 0, length) > 0;\n }\n\n @operator(">=")\n private static __gte(left: String, right: String): bool {\n return !this.__lt(left, right);\n }\n\n @operator("<")\n private static __lt(left: String, right: String): bool {\n if (left === right || left === null || right === null) return false;\n\n var leftLength = left.length;\n var rightLength = right.length;\n\n if (!rightLength) return false;\n if (!leftLength) return true;\n\n var length = min(leftLength, rightLength);\n return compareUnsafe(left, 0, right, 0, length) < 0;\n }\n\n @operator("<=")\n private static __lte(left: String, right: String): bool {\n return !this.__gt(left, right);\n }\n\n @inline\n includes(searchString: String, position: i32 = 0): bool {\n return this.indexOf(searchString, position) != -1;\n }\n\n indexOf(searchString: String, fromIndex: i32 = 0): i32 {\n assert(this !== null);\n if (searchString === null) searchString = changetype("null");\n\n var searchLen: isize = searchString.length;\n if (!searchLen) return 0;\n var len: isize = this.length;\n if (!len) return -1;\n var start = min(max(fromIndex, 0), len);\n len -= searchLen;\n for (let k: isize = start; k <= len; ++k) {\n if (!compareUnsafe(this, k, searchString, 0, searchLen)) return k;\n }\n return -1;\n }\n\n lastIndexOf(searchString: String, fromIndex: i32 = i32.MAX_VALUE): i32 {\n assert(this !== null);\n if (searchString === null) searchString = changetype("null");\n\n var len: isize = this.length;\n var searchLen: isize = searchString.length;\n if (!searchLen) return len;\n if (!len) return -1;\n var start = min(max(fromIndex, 0), len - searchLen);\n for (let k = start; k >= 0; --k) {\n if (!compareUnsafe(this, k, searchString, 0, searchLen)) return k;\n }\n return -1;\n }\n\n startsWith(searchString: String, position: i32 = 0): bool {\n assert(this !== null);\n if (searchString === null) searchString = changetype("null");\n\n var pos: isize = position;\n var len: isize = this.length;\n var start = min(max(pos, 0), len);\n var searchLength: isize = searchString.length;\n if (searchLength + start > len) return false;\n return !compareUnsafe(this, start, searchString, 0, searchLength);\n }\n\n substr(start: i32, length: i32 = i32.MAX_VALUE): String {\n assert(this !== null);\n var intStart: isize = start;\n var end: isize = length;\n var size: isize = this.length;\n if (intStart < 0) intStart = max(size + intStart, 0);\n var resultLength = min(max(end, 0), size - intStart);\n if (resultLength <= 0) return changetype("");\n var out = allocateUnsafe(resultLength);\n copyUnsafe(out, 0, this, intStart, resultLength);\n return out;\n }\n\n substring(start: i32, end: i32 = i32.MAX_VALUE): String {\n assert(this !== null);\n var len = this.length;\n var finalStart = min(max(start, 0), len);\n var finalEnd = min(max(end, 0), len);\n var from = min(finalStart, finalEnd);\n var to = max(finalStart, finalEnd);\n len = to - from;\n if (!len) return changetype("");\n if (!from && to == this.length) return this;\n var out = allocateUnsafe(len);\n copyUnsafe(out, 0, this, from, len);\n return out;\n }\n\n trim(): String {\n assert(this !== null);\n var length: usize = this.length;\n\n while (\n length &&\n isWhiteSpaceOrLineTerminator(\n load(changetype(this) + (length << 1), HEADER_SIZE)\n )\n ) {\n --length;\n }\n var start: usize = 0;\n while (\n start < length &&\n isWhiteSpaceOrLineTerminator(\n load(changetype(this) + (start << 1), HEADER_SIZE)\n )\n ) {\n ++start, --length;\n }\n if (!length) return changetype("");\n if (!start && length == this.length) return this;\n var out = allocateUnsafe(length);\n copyUnsafe(out, 0, this, start, length);\n return out;\n }\n\n @inline\n trimLeft(): String {\n return this.trimStart();\n }\n\n @inline\n trimRight(): String {\n return this.trimEnd();\n }\n\n trimStart(): String {\n assert(this !== null);\n var start: isize = 0;\n var len: isize = this.length;\n while (\n start < len &&\n isWhiteSpaceOrLineTerminator(\n load(changetype(this) + (start << 1), HEADER_SIZE)\n )\n ) {\n ++start;\n }\n if (!start) return this;\n var outLen = len - start;\n if (!outLen) return changetype("");\n var out = allocateUnsafe(outLen);\n copyUnsafe(out, 0, this, start, outLen);\n return out;\n }\n\n trimEnd(): String {\n assert(this !== null);\n var len: isize = this.length;\n while (\n len > 0 &&\n isWhiteSpaceOrLineTerminator(\n load(changetype(this) + (len << 1), HEADER_SIZE)\n )\n ) {\n --len;\n }\n if (len <= 0) return changetype("");\n if (len == this.length) return this;\n var out = allocateUnsafe(len);\n copyUnsafe(out, 0, this, 0, len);\n return out;\n }\n\n padStart(targetLength: i32, padString: String = changetype(" ")): String {\n assert(this !== null);\n var length = this.length;\n var padLen = padString.length;\n if (targetLength < length || !padLen) return this;\n var len = targetLength - length;\n var out = allocateUnsafe(targetLength);\n if (len > padLen) {\n let count = (len - 1) / padLen;\n let base = count * padLen;\n let rest = len - base;\n repeatUnsafe(out, 0, padString, count);\n if (rest) copyUnsafe(out, base, padString, 0, rest);\n } else {\n copyUnsafe(out, 0, padString, 0, len);\n }\n if (length) copyUnsafe(out, len, this, 0, length);\n return out;\n }\n\n padEnd(targetLength: i32, padString: String = changetype(" ")): String {\n assert(this !== null);\n var length = this.length;\n var padLen = padString.length;\n if (targetLength < length || !padLen) return this;\n var len = targetLength - length;\n var out = allocateUnsafe(targetLength);\n if (length) copyUnsafe(out, 0, this, 0, length);\n if (len > padLen) {\n let count = (len - 1) / padLen;\n let base = count * padLen;\n let rest = len - base;\n repeatUnsafe(out, length, padString, count);\n if (rest) copyUnsafe(out, base + length, padString, 0, rest);\n } else {\n copyUnsafe(out, length, padString, 0, len);\n }\n return out;\n }\n\n repeat(count: i32 = 0): String {\n assert(this !== null);\n var length = this.length;\n\n // Most browsers can\'t handle strings 1 << 28 chars or longer\n if (count < 0 || length * count > (1 << 28)) {\n throw new RangeError("Invalid count value");\n }\n\n if (count == 0 || !length) return changetype("");\n if (count == 1) return this;\n\n var result = allocateUnsafe(length * count);\n repeatUnsafe(result, 0, this, count);\n return result;\n }\n\n slice(beginIndex: i32, endIndex: i32 = i32.MAX_VALUE): String {\n var len = this.length;\n var begin = beginIndex < 0 ? max(beginIndex + len, 0) : min(beginIndex, len);\n var end = endIndex < 0 ? max(endIndex + len, 0) : min(endIndex, len);\n len = end - begin;\n if (len <= 0) return changetype("");\n var out = allocateUnsafe(len);\n copyUnsafe(out, 0, this, begin, len);\n return out;\n }\n\n split(separator: String = null, limit: i32 = i32.MAX_VALUE): String[] {\n assert(this !== null);\n if (!limit) return new Array();\n if (separator === null) return [this];\n var length: isize = this.length;\n var sepLen: isize = separator.length;\n if (limit < 0) limit = i32.MAX_VALUE;\n if (!sepLen) {\n if (!length) return new Array();\n // split by chars\n length = min(length, limit);\n let result = new Array(length);\n let buffer = result.buffer_;\n for (let i: isize = 0; i < length; ++i) {\n let char = allocateUnsafe(1);\n store(\n changetype(char),\n load(\n changetype(this) + (i << 1),\n HEADER_SIZE\n ),\n HEADER_SIZE\n );\n STORE(buffer, i, char);\n }\n return result;\n } else if (!length) {\n let result = new Array(1);\n unchecked(result[0] = changetype(""));\n return result;\n }\n var result = new Array();\n var end = 0, start = 0, i = 0;\n while ((end = this.indexOf(separator, start)) != -1) {\n let len = end - start;\n if (len > 0) {\n let out = allocateUnsafe(len);\n copyUnsafe(out, 0, this, start, len);\n result.push(out);\n } else {\n result.push(changetype(""));\n }\n if (++i == limit) return result;\n start = end + sepLen;\n }\n if (!start) {\n let result = new Array(1);\n unchecked(result[0] = this);\n return result;\n }\n var len = length - start;\n if (len > 0) {\n let out = allocateUnsafe(len);\n copyUnsafe(out, 0, this, start, len);\n result.push(out);\n } else {\n result.push(changetype(""));\n }\n return result;\n }\n\n toString(): String {\n return this;\n }\n\n get lengthUTF8(): i32 {\n var len = 1; // null terminated\n var pos: usize = 0;\n var end = this.length;\n while (pos < end) {\n let c = load(changetype(this) + (pos << 1), HEADER_SIZE);\n if (c < 128) {\n len += 1; ++pos;\n } else if (c < 2048) {\n len += 2; ++pos;\n } else {\n if (\n (c & 0xFC00) == 0xD800 && pos + 1 < end &&\n (load(changetype(this) + ((pos + 1) << 1), HEADER_SIZE) & 0xFC00) == 0xDC00\n ) {\n len += 4; pos += 2;\n } else {\n len += 3; ++pos;\n }\n }\n }\n return len;\n }\n\n static fromUTF8(ptr: usize, len: usize): String {\n if (len < 1) return changetype("");\n var ptrPos = 0;\n var buf = memory.allocate(len << 1);\n var bufPos = 0;\n while (ptrPos < len) {\n let cp = load(ptr + ptrPos++);\n if (cp < 128) {\n store(buf + bufPos, cp);\n bufPos += 2;\n } else if (cp > 191 && cp < 224) {\n assert(ptrPos + 1 <= len);\n store(buf + bufPos, (cp & 31) << 6 | load(ptr + ptrPos++) & 63);\n bufPos += 2;\n } else if (cp > 239 && cp < 365) {\n assert(ptrPos + 3 <= len);\n cp = (\n (cp & 7) << 18 |\n (load(ptr + ptrPos++) & 63) << 12 |\n (load(ptr + ptrPos++) & 63) << 6 |\n load(ptr + ptrPos++) & 63\n ) - 0x10000;\n store(buf + bufPos, 0xD800 + (cp >> 10));\n bufPos += 2;\n store(buf + bufPos, 0xDC00 + (cp & 1023));\n bufPos += 2;\n } else {\n assert(ptrPos + 2 <= len);\n store(buf + bufPos,\n (cp & 15) << 12 |\n (load(ptr + ptrPos++) & 63) << 6 |\n load(ptr + ptrPos++) & 63\n );\n bufPos += 2;\n }\n }\n assert(ptrPos == len);\n var str = allocateUnsafe((bufPos >> 1));\n memory.copy(changetype(str) + HEADER_SIZE, buf, bufPos);\n memory.free(buf);\n return str;\n }\n\n toUTF8(): usize {\n var buf = memory.allocate(this.lengthUTF8);\n var pos: usize = 0;\n var end = this.length;\n var off: usize = 0;\n while (pos < end) {\n let c1 = load(changetype(this) + (pos << 1), HEADER_SIZE);\n if (c1 < 128) {\n store(buf + off, c1);\n ++off; ++pos;\n } else if (c1 < 2048) {\n let ptr = buf + off;\n store(ptr, c1 >> 6 | 192);\n store(ptr, c1 & 63 | 128, 1);\n off += 2; ++pos;\n } else {\n let ptr = buf + off;\n if ((c1 & 0xFC00) == 0xD800 && pos + 1 < end) {\n let c2 = load(changetype(this) + ((pos + 1) << 1), HEADER_SIZE);\n if ((c2 & 0xFC00) == 0xDC00) {\n c1 = 0x10000 + ((c1 & 0x03FF) << 10) + (c2 & 0x03FF);\n store(ptr, c1 >> 18 | 240);\n store(ptr, c1 >> 12 & 63 | 128, 1);\n store(ptr, c1 >> 6 & 63 | 128, 2);\n store(ptr, c1 & 63 | 128, 3);\n off += 4; pos += 2;\n continue;\n }\n }\n store(ptr, c1 >> 12 | 224);\n store(ptr, c1 >> 6 & 63 | 128, 1);\n store(ptr, c1 & 63 | 128, 2);\n off += 3; ++pos;\n }\n }\n store(buf + off, 0);\n return buf;\n }\n}\n\nexport type string = String;\n\nexport function parseInt(str: String, radix: i32 = 0): f64 {\n return parse(str, radix);\n}\n\nexport function parseI32(str: String, radix: i32 = 0): i32 {\n return parse(str, radix);\n}\n\nexport function parseI64(str: String, radix: i32 = 0): i64 {\n return parse(str, radix);\n}\n\n// FIXME: naive implementation\nexport function parseFloat(str: String): f64 {\n var len: i32 = str.length;\n if (!len) return NaN;\n\n var ptr = changetype(str) /* + HEAD -> offset */;\n var code = load(ptr, HEADER_SIZE);\n\n // determine sign\n var sign: f64;\n if (code == CharCode.MINUS) {\n if (!--len) return NaN;\n code = load(ptr += 2, HEADER_SIZE);\n sign = -1;\n } else if (code == CharCode.PLUS) {\n if (!--len) return NaN;\n code = load(ptr += 2, HEADER_SIZE);\n sign = 1;\n } else {\n sign = 1;\n }\n\n // calculate value\n var num: f64 = 0;\n while (len--) {\n code = load(ptr, HEADER_SIZE);\n if (code == CharCode.DOT) {\n ptr += 2;\n let fac: f64 = 0.1; // precision :(\n while (len--) {\n code = load(ptr, HEADER_SIZE);\n if (code == CharCode.E || code == CharCode.e) {\n assert(false); // TODO\n }\n code -= CharCode._0;\n if (code > 9) break;\n num += code * fac;\n fac *= 0.1;\n ptr += 2;\n }\n break;\n }\n code -= CharCode._0;\n if (code >= 10) break;\n num = (num * 10) + code;\n ptr += 2;\n }\n return sign * num;\n}\n',symbol:'import { Map } from "./map";\n\n@lazy var stringToId: Map;\n@lazy var idToString: Map;\n@lazy var nextId: usize = 12; // Symbol.unscopables + 1\n\n@unmanaged export class symbol {\n toString(): string {\n var id = changetype(this);\n var str = "";\n switch (id) {\n case 1: { str = "hasInstance"; break; }\n case 2: { str = "isConcatSpreadable"; break; }\n case 3: { str = "isRegExp"; break; }\n case 4: { str = "match"; break; }\n case 5: { str = "replace"; break; }\n case 6: { str = "search"; break; }\n case 7: { str = "species"; break; }\n case 8: { str = "split"; break; }\n case 9: { str = "toPrimitive"; break; }\n case 10: { str = "toStringTag"; break; }\n case 11: { str = "unscopables"; break; }\n default: {\n if (idToString !== null && idToString.has(id)) str = idToString.get(id);\n break;\n }\n }\n return "Symbol(" + str + ")";\n }\n}\n\nexport function Symbol(description: string | null = null): symbol {\n var id = nextId++;\n if (!id) unreachable(); // out of ids\n return changetype(id);\n}\n\nexport namespace Symbol {\n\n // well-known symbols\n @lazy export const hasInstance = changetype(1);\n @lazy export const isConcatSpreadable = changetype(2);\n @lazy export const isRegExp = changetype(3);\n @lazy export const iterator = changetype(3);\n @lazy export const match = changetype(4);\n @lazy export const replace = changetype(5);\n @lazy export const search = changetype(6);\n @lazy export const species = changetype(7);\n @lazy export const split = changetype(8);\n @lazy export const toPrimitive = changetype(9);\n @lazy export const toStringTag = changetype(10);\n @lazy export const unscopables = changetype(11);\n\n /* tslint:disable */// not valid TS\n export function for(key: string): symbol {\n if (!stringToId) { stringToId = new Map(); idToString = new Map(); }\n else if (stringToId.has(key)) return changetype(stringToId.get(key));\n var id = nextId++;\n if (!id) unreachable(); // out of ids\n stringToId.set(key, id);\n idToString.set(id, key);\n return changetype(id);\n }\n /* tslint:enable */\n\n export function keyFor(sym: symbol): string | null {\n return idToString !== null && idToString.has(changetype(sym))\n ? idToString.get(changetype(sym))\n : null;\n }\n}\n',table:"export namespace table {\n\n // export function copy(dst: u32, src: u32, n: u32): void {\n // __table_copy(dst, src, n);\n // }\n\n // Passive elements\n\n // export function init(elementIndex: u32, srcOffset: u32, dstOffset: u32, n: u32): void {\n // __table_init(elementIndex, srcOffset, dstOffset, n);\n // }\n\n // export function drop(elementIndex: u32): void {\n // __table_drop(elementIndex);\n // }\n}\n",typedarray:"import {\n TypedArray,\n FILL,\n SORT,\n SUBARRAY,\n REDUCE,\n REDUCE_RIGHT,\n MAP,\n FIND_INDEX,\n SOME,\n EVERY,\n FOREACH,\n} from \"./internal/typedarray\";\n\nimport {\n COMPARATOR\n} from \"./internal/sort\";\n\nfunction clampToByte(value: i32): i32 {\n return ~(value >> 31) & (((255 - value) >> 31) | value); // & 255\n}\n\nexport class Int8Array extends TypedArray {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n fill(value: i32, start: i32 = 0, end: i32 = i32.MAX_VALUE): Int8Array {\n return FILL(this, value, start, end);\n }\n\n sort(comparator: (a: i8, b: i8) => i32 = COMPARATOR()): Int8Array {\n return SORT(this, comparator);\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Int8Array {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: i8, index: i32, array: Int8Array) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: i8, index: i32, array: Int8Array) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: i8, index: i32, self: Int8Array) => i8): Int8Array {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: i8, index: i32, self: Int8Array) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: i8, index: i32, self: Int8Array) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: i8, index: i32, self: Int8Array) => bool): bool {\n return EVERY(this, callbackfn);\n }\n\n forEach(callbackfn: (value: i8, index: i32, self: Int8Array) => void): void {\n FOREACH(this, callbackfn);\n }\n}\n\nexport class Uint8Array extends TypedArray {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n fill(value: u32, start: i32 = 0, end: i32 = i32.MAX_VALUE): Uint8Array {\n return FILL(this, value, start, end);\n }\n\n sort(comparator: (a: u8, b: u8) => i32 = COMPARATOR()): Uint8Array {\n return SORT(this, comparator);\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Uint8Array {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: u8, index: i32, array: Uint8Array) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: u8, index: i32, array: Uint8Array) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: u8, index: i32, self: Uint8Array) => u8): Uint8Array {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: u8, index: i32, self: Uint8Array) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: u8, index: i32, self: Uint8Array) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: u8, index: i32, self: Uint8Array) => bool): bool {\n return EVERY(this, callbackfn);\n }\n\n forEach(callbackfn: (value: u8, index: i32, self: Uint8Array) => void): void {\n FOREACH(this, callbackfn);\n }\n}\n\nexport class Uint8ClampedArray extends Uint8Array {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n @inline @operator(\"[]=\")\n protected __set(index: i32, value: i32): void {\n super.__set(index, clampToByte(value));\n }\n\n @inline @operator(\"{}=\")\n protected __unchecked_set(index: i32, value: i32): void {\n super.__unchecked_set(index, clampToByte(value));\n }\n\n fill(value: u32, start: i32 = 0, end: i32 = i32.MAX_VALUE): Uint8ClampedArray {\n return changetype(super.fill(value, start, end)); // safe because '.fill' reuses 'this'\n }\n\n sort(comparator: (a: u8, b: u8) => i32 = COMPARATOR()): Uint8ClampedArray {\n return changetype(super.sort(comparator)); // safe because '.sort' reuses 'this'\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Uint8ClampedArray {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: u8, index: i32, array: Uint8ClampedArray) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: u8, index: i32, array: Uint8ClampedArray) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: u8, index: i32, self: Uint8ClampedArray) => u8): Uint8ClampedArray {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: u8, index: i32, self: Uint8ClampedArray) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: u8, index: i32, self: Uint8ClampedArray) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: u8, index: i32, self: Uint8ClampedArray) => bool): bool {\n return EVERY(this, callbackfn);\n }\n\n forEach(callbackfn: (value: u8, index: i32, self: Uint8ClampedArray) => void): void {\n FOREACH(this, callbackfn);\n }\n}\n\nexport class Int16Array extends TypedArray {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n fill(value: i32, start: i32 = 0, end: i32 = i32.MAX_VALUE): Int16Array {\n return FILL(this, value, start, end);\n }\n\n sort(comparator: (a: i16, b: i16) => i32 = COMPARATOR()): Int16Array {\n return SORT(this, comparator);\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Int16Array {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: i16, index: i32, array: Int16Array) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: i16, index: i32, array: Int16Array) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: i16, index: i32, self: Int16Array) => i16): Int16Array {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: i16, index: i32, self: Int16Array) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: i16, index: i32, self: Int16Array) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: i16, index: i32, self: Int16Array) => bool): bool {\n return EVERY(this, callbackfn);\n }\n\n forEach(callbackfn: (value: i16, index: i32, self: Int16Array) => void): void {\n FOREACH(this, callbackfn);\n }\n}\n\nexport class Uint16Array extends TypedArray {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n fill(value: u32, start: i32 = 0, end: i32 = i32.MAX_VALUE): Uint16Array {\n return FILL(this, value, start, end);\n }\n\n sort(comparator: (a: u16, b: u16) => i32 = COMPARATOR()): Uint16Array {\n return SORT(this, comparator);\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Uint16Array {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: u16, index: i32, array: Uint16Array) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: u16, index: i32, array: Uint16Array) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: u16, index: i32, self: Uint16Array) => u16): Uint16Array {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: u16, index: i32, self: Uint16Array) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: u16, index: i32, self: Uint16Array) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: u16, index: i32, self: Uint16Array) => bool): bool {\n return EVERY(this, callbackfn);\n }\n\n forEach(callbackfn: (value: u16, index: i32, self: Uint16Array) => void): void {\n FOREACH(this, callbackfn);\n }\n}\n\nexport class Int32Array extends TypedArray {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n fill(value: i32, start: i32 = 0, end: i32 = i32.MAX_VALUE): Int32Array {\n return FILL(this, value, start, end);\n }\n\n sort(comparator: (a: i32, b: i32) => i32 = COMPARATOR()): Int32Array {\n return SORT(this, comparator);\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Int32Array {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: i32, index: i32, array: Int32Array) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: i32, index: i32, array: Int32Array) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: i32, index: i32, self: Int32Array) => i32): Int32Array {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: i32, index: i32, self: Int32Array) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: i32, index: i32, self: Int32Array) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: i32, index: i32, self: Int32Array) => bool): bool {\n return EVERY(this, callbackfn);\n }\n\n forEach(callbackfn: (value: i32, index: i32, self: Int32Array) => void): void {\n FOREACH(this, callbackfn);\n }\n}\n\nexport class Uint32Array extends TypedArray {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n fill(value: u32, start: i32 = 0, end: i32 = i32.MAX_VALUE): Uint32Array {\n return FILL(this, value, start, end);\n }\n\n sort(comparator: (a: u32, b: u32) => i32 = COMPARATOR()): Uint32Array {\n return SORT(this, comparator);\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Uint32Array {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: u32, index: i32, array: Uint32Array) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: u32, index: i32, array: Uint32Array) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: u32, index: i32, self: Uint32Array) => u32): Uint32Array {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: u32, index: i32, self: Uint32Array) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: u32, index: i32, self: Uint32Array) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: u32, index: i32, self: Uint32Array) => bool): bool {\n return EVERY(this, callbackfn);\n }\n\n forEach(callbackfn: (value: u32, index: i32, self: Uint32Array) => void): void {\n FOREACH(this, callbackfn);\n }\n}\n\nexport class Int64Array extends TypedArray {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n fill(value: i64, start: i32 = 0, end: i32 = i32.MAX_VALUE): Int64Array {\n return FILL(this, value, start, end);\n }\n\n sort(comparator: (a: i64, b: i64) => i32 = COMPARATOR()): Int64Array {\n return SORT(this, comparator);\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Int64Array {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: i64, index: i32, array: Int64Array) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: i64, index: i32, array: Int64Array) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: i64, index: i32, self: Int64Array) => i64): Int64Array {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: i64, index: i32, self: Int64Array) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: i64, index: i32, self: Int64Array) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: i64, index: i32, self: Int64Array) => bool): bool {\n return EVERY(this, callbackfn);\n }\n\n forEach(callbackfn: (value: i64, index: i32, self: Int64Array) => void): void {\n FOREACH(this, callbackfn);\n }\n}\n\nexport class Uint64Array extends TypedArray {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n fill(value: u64, start: i32 = 0, end: i32 = i32.MAX_VALUE): Uint64Array {\n return FILL(this, value, start, end);\n }\n\n sort(comparator: (a: u64, b: u64) => i32 = COMPARATOR()): Uint64Array {\n return SORT(this, comparator);\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Uint64Array {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: u64, index: i32, array: Uint64Array) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: u64, index: i32, array: Uint64Array) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: u64, index: i32, self: Uint64Array) => u64): Uint64Array {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: u64, index: i32, self: Uint64Array) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: u64, index: i32, self: Uint64Array) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: u64, index: i32, self: Uint64Array) => bool): bool {\n return EVERY(this, callbackfn);\n }\n\n forEach(callbackfn: (value: u64, index: i32, self: Uint64Array) => void): void {\n FOREACH(this, callbackfn);\n }\n}\n\nexport class Float32Array extends TypedArray {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n fill(value: f32, start: i32 = 0, end: i32 = i32.MAX_VALUE): Float32Array {\n return FILL(this, value, start, end);\n }\n\n sort(comparator: (a: f32, b: f32) => i32 = COMPARATOR()): Float32Array {\n return SORT(this, comparator);\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Float32Array {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: f32, index: i32, array: Float32Array) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: f32, index: i32, array: Float32Array) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: f32, index: i32, self: Float32Array) => f32): Float32Array {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: f32, index: i32, self: Float32Array) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: f32, index: i32, self: Float32Array) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: f32, index: i32, self: Float32Array) => bool): bool {\n return EVERY(this, callbackfn);\n }\n\n forEach(callbackfn: (value: f32, index: i32, self: Float32Array) => void): void {\n FOREACH(this, callbackfn);\n }\n}\n\nexport class Float64Array extends TypedArray {\n @lazy static readonly BYTES_PER_ELEMENT: usize = sizeof();\n\n fill(value: f64, start: i32 = 0, end: i32 = i32.MAX_VALUE): Float64Array {\n return FILL(this, value, start, end);\n }\n\n sort(comparator: (a: f64, b: f64) => i32 = COMPARATOR()): Float64Array {\n return SORT(this, comparator);\n }\n\n subarray(begin: i32 = 0, end: i32 = 0x7fffffff): Float64Array {\n return SUBARRAY(this, begin, end);\n }\n\n reduce(\n callbackfn: (accumulator: T, value: f64, index: i32, array: Float64Array) => T,\n initialValue: T,\n ): T {\n return REDUCE(this, callbackfn, initialValue);\n }\n\n reduceRight(\n callbackfn: (accumulator: T, value: f64, index: i32, array: Float64Array) => T,\n initialValue: T,\n ): T {\n return REDUCE_RIGHT(this, callbackfn, initialValue);\n }\n\n map(callbackfn: (value: f64, index: i32, self: Float64Array) => f64): Float64Array {\n return MAP(this, callbackfn);\n }\n\n findIndex(callbackfn: (value: f64, index: i32, self: Float64Array) => bool): i32 {\n return FIND_INDEX(this, callbackfn);\n }\n\n some(callbackfn: (value: f64, index: i32, self: Float64Array) => bool): bool {\n return SOME(this, callbackfn);\n }\n\n every(callbackfn: (value: f64, index: i32, self: Float64Array) => bool): bool {\n return EVERY(this, callbackfn);\n }\n\n forEach(callbackfn: (value: f64, index: i32, self: Float64Array) => void): void {\n FOREACH(this, callbackfn);\n }\n}\n",vector:"@sealed\nexport abstract class V128 {\n}\n"}):(()=>{const e=path.join(".","..","std","assembly"),n=__webpack_require__(!function(){var e=new Error("Cannot find module 'glob'");throw e.code="MODULE_NOT_FOUND",e}()).sync("**/!(*.d).ts",{cwd:e}),t={};return n.forEach(n=>t[n.replace(/\.ts$/,"")]=fs.readFileSync(path.join(e,n),"utf8")),t})(),exports.definitionFiles=exports.isBundle?Object({assembly:'/**\n * Environment definitions for compiling AssemblyScript to WebAssembly using asc.\n * @module std/assembly\n *//***/\n\n/// \n\n// Types\n\n/** An 8-bit signed integer. */\ndeclare type i8 = number;\n/** A 16-bit signed integer. */\ndeclare type i16 = number;\n/** A 32-bit signed integer. */\ndeclare type i32 = number;\n/** A 64-bit signed integer. */\ndeclare type i64 = number;\n/** A 32-bit signed integer when targeting 32-bit WebAssembly or a 64-bit signed integer when targeting 64-bit WebAssembly. */\ndeclare type isize = number;\n/** An 8-bit unsigned integer. */\ndeclare type u8 = number;\n/** A 16-bit unsigned integer. */\ndeclare type u16 = number;\n/** A 32-bit unsigned integer. */\ndeclare type u32 = number;\n/** A 64-bit unsigned integer. */\ndeclare type u64 = number;\n/** A 32-bit unsigned integer when targeting 32-bit WebAssembly or a 64-bit unsigned integer when targeting 64-bit WebAssembly. */\ndeclare type usize = number;\n/** A 1-bit unsigned integer. */\ndeclare type bool = boolean | number;\n/** A 32-bit float. */\ndeclare type f32 = number;\n/** A 64-bit float. */\ndeclare type f64 = number;\n/** A 128-bit vector. */\ndeclare type v128 = object;\n\n// Compiler hints\n\n/** Compiler target. 0 = JS, 1 = WASM32, 2 = WASM64. */\ndeclare const ASC_TARGET: i32;\n/** Provided noAssert option. */\ndeclare const ASC_NO_ASSERT: bool;\n/** Provided memoryBase option. */\ndeclare const ASC_MEMORY_BASE: i32;\n/** Provided optimizeLevel option. */\ndeclare const ASC_OPTIMIZE_LEVEL: i32;\n/** Provided shrinkLevel option. */\ndeclare const ASC_SHRINK_LEVEL: i32;\n/** Whether the mutable global feature is enabled. */\ndeclare const ASC_FEATURE_MUTABLE_GLOBAL: bool;\n/** Whether the sign extension feature is enabled. */\ndeclare const ASC_FEATURE_SIGN_EXTENSION: bool;\n/** Whether the bulk memory feature is enabled. */\ndeclare const ASC_FEATURE_BULK_MEMORY: bool;\n/** Whether the SIMD feature is enabled. */\ndeclare const ASC_FEATURE_SIMD: bool;\n/** Whether the threads feature is enabled. */\ndeclare const ASC_FEATURE_THREADS: bool;\n\n// Builtins\n\n/** Performs the sign-agnostic count leading zero bits operation on a 32-bit or 64-bit integer. All zero bits are considered leading if the value is zero. */\ndeclare function clz(value: T): T;\n/** Performs the sign-agnostic count tailing zero bits operation on a 32-bit or 64-bit integer. All zero bits are considered trailing if the value is zero. */\ndeclare function ctz(value: T): T;\n/** Performs the sign-agnostic count number of one bits operation on a 32-bit or 64-bit integer. */\ndeclare function popcnt(value: T): T;\n/** Performs the sign-agnostic rotate left operation on a 32-bit or 64-bit integer. */\ndeclare function rotl(value: T, shift: T): T;\n/** Performs the sign-agnostic rotate right operation on a 32-bit or 64-bit integer. */\ndeclare function rotr(value: T, shift: T): T;\n/** Computes the absolute value of an integer or float. */\ndeclare function abs(value: T): T;\n/** Determines the maximum of two integers or floats. If either operand is `NaN`, returns `NaN`. */\ndeclare function max(left: T, right: T): T;\n/** Determines the minimum of two integers or floats. If either operand is `NaN`, returns `NaN`. */\ndeclare function min(left: T, right: T): T;\n/** Performs the ceiling operation on a 32-bit or 64-bit float. */\ndeclare function ceil(value: T): T;\n/** Composes a 32-bit or 64-bit float from the magnitude of `x` and the sign of `y`. */\ndeclare function copysign(x: T, y: T): T;\n/** Performs the floor operation on a 32-bit or 64-bit float. */\ndeclare function floor(value: T): T;\n/** Rounds to the nearest integer tied to even of a 32-bit or 64-bit float. */\ndeclare function nearest(value: T): T;\n/** Reinterprets the bits of the specified value as type `T`. Valid reinterpretations are u32/i32 to/from f32 and u64/i64 to/from f64. */\ndeclare function reinterpret(value: number): T;\n/** Selects one of two pre-evaluated values depending on the condition. */\ndeclare function select(ifTrue: T, ifFalse: T, condition: bool): T;\n/** Calculates the square root of a 32-bit or 64-bit float. */\ndeclare function sqrt(value: T): T;\n/** Rounds to the nearest integer towards zero of a 32-bit or 64-bit float. */\ndeclare function trunc(value: T): T;\n/** Loads a value of the specified type from memory. Equivalent to dereferncing a pointer in other languages. */\ndeclare function load(ptr: usize, immOffset?: usize, immAlign?: usize): T;\n/** Stores a value of the specified type to memory. Equivalent to dereferencing a pointer in other languages when assigning a value. */\ndeclare function store(ptr: usize, value: any, immOffset?: usize, immAlign?: usize): void;\n/** Emits an unreachable operation that results in a runtime error when executed. Both a statement and an expression of any type. */\ndeclare function unreachable(): any; // sic\n\n/** NaN (not a number) as a 32-bit or 64-bit float depending on context. */\ndeclare const NaN: f32 | f64;\n/** Positive infinity as a 32-bit or 64-bit float depending on context. */\ndeclare const Infinity: f32 | f64;\n/** Heap base offset. */\ndeclare const HEAP_BASE: usize;\n/** Determines the byte size of the specified underlying core type. Compiles to a constant. */\ndeclare function sizeof(): usize;\n/** Determines the alignment (log2) of the specified underlying core type. Compiles to a constant. */\ndeclare function alignof(): usize;\n/** Determines the offset of the specified field within the given class type. Returns the class type\'s end offset if field name has been omitted. Compiles to a constant. */\ndeclare function offsetof(fieldName?: string): usize;\n/** Changes the type of any value of `usize` kind to another one of `usize` kind. Useful for casting class instances to their pointer values and vice-versa. Beware that this is unsafe.*/\ndeclare function changetype(value: any): T;\n/** Explicitly requests no bounds checks on the provided expression. Useful for array accesses. */\ndeclare function unchecked(value: T): T;\n/** Emits a `call_indirect` instruction, calling the specified function in the function table by index with the specified arguments. Does result in a runtime error if the arguments do not match the called function. */\ndeclare function call_indirect(target: Function | u32, ...args: any[]): T;\n/** Instantiates a new instance of `T` using the specified constructor arguments. */\ndeclare function instantiate(...args: any[]): T;\n/** Tests if a 32-bit or 64-bit float is `NaN`. */\ndeclare function isNaN(value: T): bool;\n/** Tests if a 32-bit or 64-bit float is finite, that is not `NaN` or +/-`Infinity`. */\ndeclare function isFinite(value: T): bool;\n/** Tests if the specified type *or* expression is of an integer type and not a reference. Compiles to a constant. */\ndeclare function isInteger(value?: any): value is number;\n/** Tests if the specified type *or* expression is of a float type. Compiles to a constant. */\ndeclare function isFloat(value?: any): value is number;\n/** Tests if the specified type *or* expression can represent negative numbers. Compiles to a constant. */\ndeclare function isSigned(value?: any): value is number;\n/** Tests if the specified type *or* expression is of a reference type. Compiles to a constant. */\ndeclare function isReference(value?: any): value is object | string;\n/** Tests if the specified type *or* expression can be used as a string. Compiles to a constant. */\ndeclare function isString(value?: any): value is string | String;\n/** Tests if the specified type *or* expression can be used as an array. Compiles to a constant. */\ndeclare function isArray(value?: any): value is Array;\n/** Tests if the specified type *or* expression can be used as an array like object. Compiles to a constant. */\ndeclare function isArrayLike(value?: any): value is ArrayLike;\n/** Tests if the specified type *or* expression is of a function type. Compiles to a constant. */\ndeclare function isFunction(value?: any): value is (...args: any) => any;\n/** Tests if the specified type *or* expression is of a nullable reference type. Compiles to a constant. */\ndeclare function isNullable(value?: any): bool;\n/** Tests if the specified expression resolves to a defined element. Compiles to a constant. */\ndeclare function isDefined(expression: any): bool;\n/** Tests if the specified expression evaluates to a constant value. Compiles to a constant. */\ndeclare function isConstant(expression: any): bool;\n/** Tests if the specified type *or* expression is of a managed type. Compiles to a constant. */\ndeclare function isManaged(value?: any): bool;\n/** Traps if the specified value is not true-ish, otherwise returns the (non-nullable) value. */\ndeclare function assert(isTrueish: T, message?: string): T & object; // any better way to model `: T != null`?\n/** Parses an integer string to a 64-bit float. */\ndeclare function parseInt(str: string, radix?: i32): f64;\n/** Parses an integer string to a 32-bit integer. */\ndeclare function parseI32(str: string, radix?: i32): i32;\n/** Parses an integer string to a 64-bit integer. */\ndeclare function parseI64(str: string, radix?: i32): i64;\n/** Parses a string to a 64-bit float. */\ndeclare function parseFloat(str: string): f64;\n/** Returns the 64-bit floating-point remainder of `x/y`. */\ndeclare function fmod(x: f64, y: f64): f64;\n/** Returns the 32-bit floating-point remainder of `x/y`. */\ndeclare function fmodf(x: f32, y: f32): f32;\n\n/** Atomic operations. */\ndeclare namespace atomic {\n /** Atomically loads an integer value from memory and returns it. */\n export function load(offset: usize, immOffset?: usize): T;\n /** Atomically stores an integer value to memory. */\n export function store(offset: usize, value: T, immOffset?: usize): void;\n /** Atomically adds an integer value in memory. */\n export function add(ptr: usize, value: T, immOffset?: usize): T;\n /** Atomically subtracts an integer value in memory. */\n export function sub(ptr: usize, value: T, immOffset?: usize): T;\n /** Atomically performs a bitwise AND operation on an integer value in memory. */\n export function and(ptr: usize, value: T, immOffset?: usize): T;\n /** Atomically performs a bitwise OR operation on an integer value in memory. */\n export function or(ptr: usize, value: T, immOffset?: usize): T;\n /** Atomically performs a bitwise XOR operation on an integer value in memory. */\n export function xor(ptr: usize, value: T, immOffset?: usize): T;\n /** Atomically exchanges an integer value in memory. */\n export function xchg(ptr: usize, value: T, immOffset?: usize): T;\n /** Atomically compares and exchanges an integer value in memory if the condition is met. */\n export function cmpxchg(ptr: usize, expected: T, replacement: T, immOffset?: usize): T;\n /** Performs a wait operation on an integer value in memory suspending this agent if the condition is met. */\n export function wait(ptr: usize, expected: T, timeout: i64): AtomicWaitResult;\n /** Performs a notify operation on an integer value in memory waking up suspended agents. */\n export function notify(ptr: usize, count: i32): i32;\n}\n\n/** Describes the result of an atomic wait operation. */\ndeclare enum AtomicWaitResult {\n /** Woken by another agent. */\n OK,\n /** Loaded value did not match the expected value. */\n NOT_EQUAL,\n /** Not woken before the timeout expired. */\n TIMED_OUT\n}\n\n/** Converts any other numeric value to an 8-bit signed integer. */\ndeclare function i8(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): i8;\ndeclare namespace i8 {\n /** Smallest representable value. */\n export const MIN_VALUE: i8;\n /** Largest representable value. */\n export const MAX_VALUE: i8;\n}\n/** Converts any other numeric value to a 16-bit signed integer. */\ndeclare function i16(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): i8;\ndeclare namespace i16 {\n /** Smallest representable value. */\n export const MIN_VALUE: i16;\n /** Largest representable value. */\n export const MAX_VALUE: i16;\n}\n/** Converts any other numeric value to a 32-bit signed integer. */\ndeclare function i32(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): i32;\ndeclare namespace i32 {\n /** Smallest representable value. */\n export const MIN_VALUE: i32;\n /** Largest representable value. */\n export const MAX_VALUE: i32;\n /** Loads an 8-bit signed integer value from memory and returns it as a 32-bit integer. */\n export function load8_s(offset: usize, immOffset?: usize, immAlign?: usize): i32;\n /** Loads an 8-bit unsigned integer value from memory and returns it as a 32-bit integer. */\n export function load8_u(offset: usize, immOffset?: usize, immAlign?: usize): i32;\n /** Loads a 16-bit signed integer value from memory and returns it as a 32-bit integer. */\n export function load16_s(offset: usize, immOffset?: usize, immAlign?: usize): i32;\n /** Loads a 16-bit unsigned integer value from memory and returns it as a 32-bit integer. */\n export function load16_u(offset: usize, immOffset?: usize, immAlign?: usize): i32;\n /** Loads a 32-bit integer value from memory. */\n export function load(offset: usize, immOffset?: usize, immAlign?: usize): i32;\n /** Stores a 32-bit integer value to memory as an 8-bit integer. */\n export function store8(offset: usize, value: i32, immOffset?: usize, immAlign?: usize): void;\n /** Stores a 32-bit integer value to memory as a 16-bit integer. */\n export function store16(offset: usize, value: i32, immOffset?: usize, immAlign?: usize): void;\n /** Stores a 32-bit integer value to memory. */\n export function store(offset: usize, value: i32, immOffset?: usize, immAlign?: usize): void;\n /** Atomic 32-bit integer operations. */\n export namespace atomic {\n /** Atomically loads an 8-bit unsigned integer value from memory and returns it as a 32-bit integer. */\n export function load8_u(offset: usize, immOffset?: usize): i32;\n /** Atomically loads a 16-bit unsigned integer value from memory and returns it as a 32-bit integer. */\n export function load16_u(offset: usize, immOffset?: usize): i32;\n /** Atomically loads a 32-bit integer value from memory and returns it. */\n export function load(offset: usize, immOffset?: usize): i32;\n /** Atomically stores a 32-bit integer value to memory as an 8-bit integer. */\n export function store8(offset: usize, value: i32, immOffset?: usize): void;\n /** Atomically stores a 32-bit integer value to memory as a 16-bit integer. */\n export function store16(offset: usize, value: i32, immOffset?: usize): void;\n /** Atomically stores a 32-bit integer value to memory. */\n export function store(offset: usize, value: i32, immOffset?: usize): void;\n /** Performs a wait operation on a 32-bit integer value in memory suspending this agent if the condition is met. */\n export function wait(ptr: usize, expected: i32, timeout: i64): AtomicWaitResult;\n /** Performs a notify operation on a 32-bit integer value in memory waking up suspended agents. */\n export function notify(ptr: usize, count: i32): i32;\n /** Atomic 32-bit integer read-modify-write operations on 8-bit values. */\n export namespace rmw8 {\n /** Atomically adds an 8-bit unsigned integer value in memory. */\n export function add_u(offset: usize, value: i32, immOffset?: usize): i32;\n /** Atomically subtracts an 8-bit unsigned integer value in memory. */\n export function sub_u(offset: usize, value: i32, immOffset?: usize): i32;\n /** Atomically performs a bitwise AND operation an 8-bit unsigned integer value in memory. */\n export function and_u(offset: usize, value: i32, immOffset?: usize): i32;\n /** Atomically performs a bitwise OR operation an 8-bit unsigned integer value in memory. */\n export function or_u(offset: usize, value: i32, immOffset?: usize): i32;\n /** Atomically performs a bitwise XOR operation an 8-bit unsigned integer value in memory. */\n export function xor_u(offset: usize, value: i32, immOffset?: usize): i32;\n /** Atomically exchanges an 8-bit unsigned integer value in memory. */\n export function xchg_u(offset: usize, value: i32, immOffset?: usize): i32;\n /** Atomically compares and exchanges an 8-bit unsigned integer value in memory if the condition is met. */\n export function cmpxchg_u(offset: usize, expected: i32, replacement: i32, immOffset?: usize): i32;\n }\n /** Atomic 32-bit integer read-modify-write operations on 16-bit values. */\n export namespace rmw16 {\n /** Atomically adds a 16-bit unsigned integer value in memory. */\n export function add_u(offset: usize, value: i32, immOffset?: usize): i32;\n /** Atomically adds a 16-bit unsigned integer value in memory. */\n export function sub_u(offset: usize, value: i32, immOffset?: usize): i32;\n /** Atomically performs a bitwise AND operation a 16-bit unsigned integer value in memory. */\n export function and_u(offset: usize, value: i32, immOffset?: usize): i32;\n /** Atomically performs a bitwise OR operation a 16-bit unsigned integer value in memory. */\n export function or_u(offset: usize, value: i32, immOffset?: usize): i32;\n /** Atomically performs a bitwise XOR operation a 16-bit unsigned integer value in memory. */\n export function xor_u(offset: usize, value: i32, immOffset?: usize): i32;\n /** Atomically exchanges a 16-bit unsigned integer value in memory. */\n export function xchg_u(offset: usize, value: i32, immOffset?: usize): i32;\n /** Atomically compares and exchanges a 16-bit unsigned integer value in memory if the condition is met. */\n export function cmpxchg_u(offset: usize, expected: i32, replacement: i32, immOffset?: usize): i32;\n }\n /** Atomic 32-bit integer read-modify-write operations. */\n export namespace rmw {\n /** Atomically adds a 32-bit integer value in memory. */\n export function add(offset: usize, value: i32, immOffset?: usize): i32;\n /** Atomically subtracts a 32-bit integer value in memory. */\n export function sub(offset: usize, value: i32, immOffset?: usize): i32;\n /** Atomically performs a bitwise AND operation a 32-bit integer value in memory. */\n export function and(offset: usize, value: i32, immOffset?: usize): i32;\n /** Atomically performs a bitwise OR operation a 32-bit integer value in memory. */\n export function or(offset: usize, value: i32, immOffset?: usize): i32;\n /** Atomically performs a bitwise XOR operation a 32-bit integer value in memory. */\n export function xor(offset: usize, value: i32, immOffset?: usize): i32;\n /** Atomically exchanges a 32-bit integer value in memory. */\n export function xchg(offset: usize, value: i32, immOffset?: usize): i32;\n /** Atomically compares and exchanges a 32-bit integer value in memory if the condition is met. */\n export function cmpxchg(offset: usize, expected: i32, replacement: i32, immOffset?: usize): i32;\n }\n }\n}\n/** Converts any other numeric value to a 64-bit signed integer. */\ndeclare function i64(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): i64;\ndeclare namespace i64 {\n /** Smallest representable value. */\n export const MIN_VALUE: i64;\n /** Largest representable value. */\n export const MAX_VALUE: i64;\n /** Loads an 8-bit signed integer value from memory and returns it as a 64-bit integer. */\n export function load8_s(offset: usize, immOffset?: usize, immAlign?: usize): i64;\n /** Loads an 8-bit unsigned integer value from memory and returns it as a 64-bit integer. */\n export function load8_u(offset: usize, immOffset?: usize, immAlign?: usize): i64;\n /** Loads a 16-bit signed integer value from memory and returns it as a 64-bit integer. */\n export function load16_s(offset: usize, immOffset?: usize, immAlign?: usize): i64;\n /** Loads a 16-bit unsigned integer value from memory and returns it as a 64-bit integer. */\n export function load16_u(offset: usize, immOffset?: usize, immAlign?: usize): i64;\n /** Loads a 32-bit signed integer value from memory and returns it as a 64-bit integer. */\n export function load32_s(offset: usize, immOffset?: usize, immAlign?: usize): i64;\n /** Loads a 32-bit unsigned integer value from memory and returns it as a 64-bit integer. */\n export function load32_u(offset: usize, immOffset?: usize, immAlign?: usize): i64;\n /** Loads a 64-bit unsigned integer value from memory. */\n export function load(offset: usize, immOffset?: usize, immAlign?: usize): i64;\n /** Stores a 64-bit integer value to memory as an 8-bit integer. */\n export function store8(offset: usize, value: i64, immOffset?: usize, immAlign?: usize): void;\n /** Stores a 64-bit integer value to memory as a 16-bit integer. */\n export function store16(offset: usize, value: i64, immOffset?: usize, immAlign?: usize): void;\n /** Stores a 64-bit integer value to memory as a 32-bit integer. */\n export function store32(offset: usize, value: i64, immOffset?: usize, immAlign?: usize): void;\n /** Stores a 64-bit integer value to memory. */\n export function store(offset: usize, value: i64, immOffset?: usize, immAlign?: usize): void;\n /** Atomic 64-bit integer operations. */\n export namespace atomic {\n /** Atomically loads an 8-bit unsigned integer value from memory and returns it as a 64-bit integer. */\n export function load8_u(offset: usize, immOffset?: usize): i64;\n /** Atomically loads a 16-bit unsigned integer value from memory and returns it as a 64-bit integer. */\n export function load16_u(offset: usize, immOffset?: usize): i64;\n /** Atomically loads a 32-bit unsigned integer value from memory and returns it as a 64-bit integer. */\n export function load32_u(offset: usize, immOffset?: usize): i64;\n /** Atomically loads a 64-bit integer value from memory and returns it. */\n export function load(offset: usize, immOffset?: usize): i64;\n /** Atomically stores a 64-bit integer value to memory as an 8-bit integer. */\n export function store8(offset: usize, value: i64, immOffset?: usize): void;\n /** Atomically stores a 64-bit integer value to memory as a 16-bit integer. */\n export function store16(offset: usize, value: i64, immOffset?: usize): void;\n /** Atomically stores a 64-bit integer value to memory as a 32-bit integer. */\n export function store32(offset: usize, value: i64, immOffset?: usize): void;\n /** Atomically stores a 64-bit integer value to memory. */\n export function store(offset: usize, value: i64, immOffset?: usize): void;\n /** Performs a wait operation on a 64-bit integer value in memory suspending this agent if the condition is met. */\n export function wait(ptr: usize, expected: i64, timeout: i64): AtomicWaitResult;\n /** Performs a notify operation on a 64-bit integer value in memory waking up suspended agents. */\n export function notify(ptr: usize, count: i32): i32;\n /** Atomic 64-bit integer read-modify-write operations on 8-bit values. */\n export namespace rmw8 {\n /** Atomically adds an 8-bit unsigned integer value in memory. */\n export function add_u(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically subtracts an 8-bit unsigned integer value in memory. */\n export function sub_u(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically performs a bitwise AND operation on an 8-bit unsigned integer value in memory. */\n export function and_u(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically performs a bitwise OR operation on an 8-bit unsigned integer value in memory. */\n export function or_u(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically performs a bitwise XOR operation on an 8-bit unsigned integer value in memory. */\n export function xor_u(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically exchanges an 8-bit unsigned integer value in memory. */\n export function xchg_u(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically compares and exchanges an 8-bit unsigned integer value in memory if the condition is met. */\n export function cmpxchg_u(offset: usize, expected: i64, replacement: i64, immOffset?: usize): i64;\n }\n /** Atomic 64-bit integer read-modify-write operations on 16-bit values. */\n export namespace rmw16 {\n /** Atomically adds a 16-bit unsigned integer value in memory. */\n export function add_u(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically subtracts a 16-bit unsigned integer value in memory. */\n export function sub_u(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically performs a bitwise AND operation on a 16-bit unsigned integer value in memory. */\n export function and_u(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically performs a bitwise OR operation on a 16-bit unsigned integer value in memory. */\n export function or_u(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically performs a bitwise XOR operation on a 16-bit unsigned integer value in memory. */\n export function xor_u(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically exchanges a 16-bit unsigned integer value in memory. */\n export function xchg_u(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically compares and exchanges a 16-bit unsigned integer value in memory if the condition is met. */\n export function cmpxchg_u(offset: usize, expected: i64, replacement: i64, immOffset?: usize): i64;\n }\n /** Atomic 64-bit integer read-modify-write operations on 32-bit values. */\n export namespace rmw32 {\n /** Atomically adds a 32-bit unsigned integer value in memory. */\n export function add_u(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically subtracts a 32-bit unsigned integer value in memory. */\n export function sub_u(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically performs a bitwise AND operation on a 32-bit unsigned integer value in memory. */\n export function and_u(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically performs a bitwise OR operation on a 32-bit unsigned integer value in memory. */\n export function or_u(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically performs a bitwise XOR operation on a 32-bit unsigned integer value in memory. */\n export function xor_u(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically exchanges a 32-bit unsigned integer value in memory. */\n export function xchg_u(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically compares and exchanges a 32-bit unsigned integer value in memory if the condition is met. */\n export function cmpxchg_u(offset: usize, expected: i64, replacement: i64, immOffset?: usize): i64;\n }\n /** Atomic 64-bit integer read-modify-write operations. */\n export namespace rmw {\n /** Atomically adds a 64-bit integer value in memory. */\n export function add(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically subtracts a 64-bit integer value in memory. */\n export function sub(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically performs a bitwise AND operation on a 64-bit integer value in memory. */\n export function and(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically performs a bitwise OR operation on a 64-bit integer value in memory. */\n export function or(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically performs a bitwise XOR operation on a 64-bit integer value in memory. */\n export function xor(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically exchanges a 64-bit integer value in memory. */\n export function xchg(offset: usize, value: i64, immOffset?: usize): i64;\n /** Atomically compares and exchanges a 64-bit integer value in memory if the condition is met. */\n export function cmpxchg(offset: usize, expected: i64, replacement: i64, immOffset?: usize): i64;\n }\n }\n}\n/** Converts any other numeric value to a 32-bit (in WASM32) respectivel 64-bit (in WASM64) signed integer. */\ndeclare var isize: typeof i32 | typeof i64;\n/** Converts any other numeric value to an 8-bit unsigned integer. */\ndeclare function u8(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): i8;\ndeclare namespace u8 {\n /** Smallest representable value. */\n export const MIN_VALUE: u8;\n /** Largest representable value. */\n export const MAX_VALUE: u8;\n}\n/** Converts any other numeric value to a 16-bit unsigned integer. */\ndeclare function u16(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): i8;\ndeclare namespace u16 {\n /** Smallest representable value. */\n export const MIN_VALUE: u16;\n /** Largest representable value. */\n export const MAX_VALUE: u16;\n}\n/** Converts any other numeric value to a 32-bit unsigned integer. */\ndeclare function u32(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): i32;\ndeclare namespace u32 {\n /** Smallest representable value. */\n export const MIN_VALUE: u32;\n /** Largest representable value. */\n export const MAX_VALUE: u32;\n}\n/** Converts any other numeric value to a 64-bit unsigned integer. */\ndeclare function u64(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): i64;\ndeclare namespace u64 {\n /** Smallest representable value. */\n export const MIN_VALUE: u64;\n /** Largest representable value. */\n export const MAX_VALUE: u64;\n}\n/** Converts any other numeric value to a 32-bit (in WASM32) respectivel 64-bit (in WASM64) unsigned integer. */\ndeclare var usize: typeof u32 | typeof u64;\n/** Converts any other numeric value to a 1-bit unsigned integer. */\ndeclare function bool(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): bool;\ndeclare namespace bool {\n /** Smallest representable value. */\n export const MIN_VALUE: bool;\n /** Largest representable value. */\n export const MAX_VALUE: bool;\n}\n/** Converts any other numeric value to a 32-bit float. */\ndeclare function f32(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): f32;\ndeclare namespace f32 {\n /** Smallest representable value. */\n export const MIN_VALUE: f32;\n /** Largest representable value. */\n export const MAX_VALUE: f32;\n /** Smallest normalized positive value. */\n export const MIN_POSITIVE_VALUE: f32;\n /** Smallest safely representable integer value. */\n export const MIN_SAFE_INTEGER: f32;\n /** Largest safely representable integer value. */\n export const MAX_SAFE_INTEGER: f32;\n /** Difference between 1 and the smallest representable value greater than 1. */\n export const EPSILON: f32;\n /** Loads a 32-bit float from memory. */\n export function load(offset: usize, immOffset?: usize, immAlign?: usize): f32;\n /** Stores a 32-bit float to memory. */\n export function store(offset: usize, value: f32, immOffset?: usize, immAlign?: usize): void;\n}\n/** Converts any other numeric value to a 64-bit float. */\ndeclare function f64(value: i8 | i16 | i32 | i64 | isize | u8 | u16 | u32 | u64 | usize | bool | f32 | f64): f64;\ndeclare namespace f64 {\n /** Smallest representable value. */\n export const MIN_VALUE: f64;\n /** Largest representable value. */\n export const MAX_VALUE: f64;\n /** Smallest normalized positive value. */\n export const MIN_POSITIVE_VALUE: f64;\n /** Smallest safely representable integer value. */\n export const MIN_SAFE_INTEGER: f64;\n /** Largest safely representable integer value. */\n export const MAX_SAFE_INTEGER: f64;\n /** Difference between 1 and the smallest representable value greater than 1. */\n export const EPSILON: f64;\n /** Loads a 64-bit float from memory. */\n export function load(offset: usize, immOffset?: usize, immAlign?: usize): f64;\n /** Stores a 64-bit float to memory. */\n export function store(offset: usize, value: f64, immOffset?: usize, immAlign?: usize): void;\n}\n/** Initializes a 128-bit vector from sixteen 8-bit integer values. Arguments must be compile-time constants. */\ndeclare function v128(a: i8, b: i8, c: i8, d: i8, e: i8, f: i8, g: i8, h: i8, i: i8, j: i8, k: i8, l: i8, m: i8, n: i8, o: i8, p: i8): v128;\ndeclare namespace v128 {\n /** Creates a 128-bit vector with identical lanes. */\n export function splat(x: T): v128;\n /** Extracts one lane from a 128-bit vector as a scalar. */\n export function extract_lane(x: v128, idx: u8): T;\n /** Replaces one lane in a 128-bit vector. */\n export function replace_lane(x: v128, idx: u8, value: T): v128;\n /** Selects lanes from either 128-bit vector according to the specified lane indexes. */\n export function shuffle(a: v128, b: v128, ...lanes: u8[]): v128;\n /** Loads a 128-bit vector from memory. */\n export function load(offset: usize, immOffset?: usize, immAlign?: usize): v128;\n /** Stores a 128-bit vector to memory. */\n export function store(offset: usize, value: v128, immOffset?: usize, immAlign?: usize): void;\n /** Adds each lane of two 128-bit vectors. */\n export function add(a: v128, b: v128): v128;\n /** Subtracts each lane of two 128-bit vectors. */\n export function sub(a: v128, b: v128): v128;\n /** Multiplies each lane of two 128-bit vectors. */\n export function mul(a: v128, b: v128): v128; // except i64\n /** Divides each lane of two 128-bit vectors. */\n export function div(a: v128, b: v128): v128;\n /** Negates each lane of a 128-bit vector */\n export function neg(a: v128): v128;\n /** Adds each lane of two 128-bit vectors using saturation. */\n export function add_saturate(a: v128, b: v128): v128;\n /** Subtracts each lane of two 128-bit vectors using saturation. */\n export function sub_saturate(a: v128, b: v128): v128;\n /** Performs a bitwise left shift on each lane of a 128-bit vector by a scalar. */\n export function shl(a: v128, b: i32): v128;\n /** Performs a bitwise right shift on each lane of a 128-bit vector by a scalar. */\n export function shr(a: v128, b: i32): v128;\n /** Performs the bitwise AND operation on each lane of two 128-bit vectors. */\n export function and(a: v128, b: v128): v128;\n /** Performs the bitwise OR operation on each lane of two 128-bit vectors. */\n export function or(a: v128, b: v128): v128;\n /** Performs the bitwise XOR operation on each lane of two 128-bit vectors. */\n export function xor(a: v128, b: v128): v128;\n /** Performs the bitwise NOT operation on each lane of a 128-bit vector. */\n export function not(a: v128): v128;\n /** Selects bits of either 128-bit vector according to the specified mask. */\n export function bitselect(v1: v128, v2: v128, mask: v128): v128;\n /** Reduces a 128-bit vector to a scalar indicating whether any lane is considered `true`. */\n export function any_true(a: v128): bool;\n /** Reduces a 128-bit vector to a scalar indicating whether all lanes are considered `true`. */\n export function all_true(a: v128): bool;\n /** Computes the minimum of each lane of two 128-bit vectors. */\n export function min(a: v128, b: v128): v128;\n /** Computes the maximum of each lane of two 128-bit vectors. */\n export function max(a: v128, b: v128): v128;\n /** Computes the absolute value of each lane of a 128-bit vector. */\n export function abs(a: v128): v128;\n /** Computes the square root of each lane of a 128-bit vector. */\n export function sqrt(a: v128): v128;\n /** Computes which lanes of two 128-bit vectors are equal. */\n export function eq(a: v128, b: v128): v128;\n /** Computes which lanes of two 128-bit vectors are not equal. */\n export function ne(a: v128, b: v128): v128;\n /** Computes which lanes of the first 128-bit vector are less than those of the second. */\n export function lt(a: v128, b: v128): v128;\n /** Computes which lanes of the first 128-bit vector are less than or equal those of the second. */\n export function le(a: v128, b: v128): v128;\n /** Computes which lanes of the first 128-bit vector are greater than those of the second. */\n export function gt(a: v128, b: v128): v128;\n /** Computes which lanes of the first 128-bit vector are greater than or equal those of the second. */\n export function ge(a: v128, b: v128): v128;\n /** Converts each lane of a 128-bit vector from integer to floating point. */\n export function convert(a: v128): v128;\n /** Truncates each lane of a 128-bit vector from floating point to integer with saturation. */\n export function trunc(a: v128): v128;\n}\n/** Initializes a 128-bit vector from sixteen 8-bit integer values. Arguments must be compile-time constants. */\ndeclare function i8x16(a: i8, b: i8, c: i8, d: i8, e: i8, f: i8, g: i8, h: i8, i: i8, j: i8, k: i8, l: i8, m: i8, n: i8, o: i8, p: i8): v128;\ndeclare namespace i8x16 {\n /** Creates a vector with sixteen identical 8-bit integer lanes. */\n export function splat(x: i8): v128;\n /** Extracts one 8-bit integer lane from a 128-bit vector as a signed scalar. */\n export function extract_lane_s(x: v128, idx: u8): i8;\n /** Extracts one 8-bit integer lane from a 128-bit vector as an unsigned scalar. */\n export function extract_lane_u(x: v128, idx: u8): u8;\n /** Replaces one 8-bit integer lane in a 128-bit vector. */\n export function replace_lane(x: v128, idx: u8, value: i8): v128;\n /** Adds each 8-bit integer lane of two 128-bit vectors. */\n export function add(a: v128, b: v128): v128;\n /** Subtracts each 8-bit integer lane of two 128-bit vectors. */\n export function sub(a: v128, b: v128): v128;\n /** Multiplies each 8-bit integer lane of two 128-bit vectors. */\n export function mul(a: v128, b: v128): v128;\n /** Negates each 8-bit integer lane of a 128-bit vector. */\n export function neg(a: v128): v128;\n /** Adds each 8-bit integer lane of two 128-bit vectors using signed saturation. */\n export function add_saturate_s(a: v128, b: v128): v128;\n /** Adds each 8-bit integer lane of two 128-bit vectors using unsigned saturation. */\n export function add_saturate_u(a: v128, b: v128): v128;\n /** Subtracts each 8-bit integer lane of two 128-bit vectors using signed saturation. */\n export function sub_saturate_s(a: v128, b: v128): v128;\n /** Subtracts each 8-bit integer lane of two 128-bit vectors using unsigned saturation. */\n export function sub_saturate_u(a: v128, b: v128): v128;\n /** Performs a bitwise left shift on each 8-bit integer lane of a 128-bit vector by a scalar. */\n export function shl(a: v128, b: i32): v128;\n /** Performs a bitwise arithmetic right shift on each 8-bit integer lane of a 128-bit vector by a scalar. */\n export function shr_s(a: v128, b: i32): v128;\n /** Performs a bitwise logical right shift on each 8-bit integer lane of a 128-bit vector by a scalar. */\n export function shr_u(a: v128, b: i32): v128;\n /** Reduces a 128-bit vector to a scalar indicating whether any 8-bit integer lane is considered `true`. */\n export function any_true(a: v128): bool;\n /** Reduces a 128-bit vector to a scalar indicating whether all 8-bit integer lanes are considered `true`. */\n export function all_true(a: v128): bool;\n /** Computes which 8-bit integer lanes of two 128-bit vectors are equal. */\n export function eq(a: v128, b: v128): v128;\n /** Computes which 8-bit integer lanes of two 128-bit vectors are not equal. */\n export function ne(a: v128, b: v128): v128;\n /** Computes which 8-bit signed integer lanes of the first 128-bit vector are less than those of the second. */\n export function lt_s(a: v128, b: v128): v128;\n /** Computes which 8-bit unsigned integer lanes of the first 128-bit vector are less than those of the second. */\n export function lt_u(a: v128, b: v128): v128;\n /** Computes which 8-bit signed integer lanes of the first 128-bit vector are less than or equal those of the second. */\n export function le_s(a: v128, b: v128): v128;\n /** Computes which 8-bit unsigned integer lanes of the first 128-bit vector are less than or equal those of the second. */\n export function le_u(a: v128, b: v128): v128;\n /** Computes which 8-bit signed integer lanes of the first 128-bit vector are greater than those of the second. */\n export function gt_s(a: v128, b: v128): v128;\n /** Computes which 8-bit unsigned integer lanes of the first 128-bit vector are greater than those of the second. */\n export function gt_u(a: v128, b: v128): v128;\n /** Computes which 8-bit signed integer lanes of the first 128-bit vector are greater than or equal those of the second. */\n export function ge_s(a: v128, b: v128): v128;\n /** Computes which 8-bit unsigned integer lanes of the first 128-bit vector are greater than or equal those of the second. */\n export function ge_u(a: v128, b: v128): v128;\n}\n/** Initializes a 128-bit vector from eight 16-bit integer values. Arguments must be compile-time constants. */\ndeclare function i16x8(a: i16, b: i16, c: i16, d: i16, e: i16, f: i16, g: i16, h: i16): v128;\ndeclare namespace i16x8 {\n /** Creates a vector with eight identical 16-bit integer lanes. */\n export function splat(x: i16): v128;\n /** Extracts one 16-bit integer lane from a 128-bit vector as a signed scalar. */\n export function extract_lane_s(x: v128, idx: u8): i16;\n /** Extracts one 16-bit integer lane from a 128-bit vector as an unsigned scalar. */\n export function extract_lane_u(x: v128, idx: u8): u16;\n /** Replaces one 16-bit integer lane in a 128-bit vector. */\n export function replace_lane(x: v128, idx: u8, value: i16): v128;\n /** Adds each 16-bit integer lane of two 128-bit vectors. */\n export function add(a: v128, b: v128): v128;\n /** Subtracts each 16-bit integer lane of two 128-bit vectors. */\n export function sub(a: v128, b: v128): v128;\n /** Multiplies each 16-bit integer lane of two 128-bit vectors. */\n export function mul(a: v128, b: v128): v128;\n /** Negates each 16-bit integer lane of a 128-bit vector. */\n export function neg(a: v128): v128;\n /** Adds each 16-bit integer lane of two 128-bit vectors using signed saturation. */\n export function add_saturate_s(a: v128, b: v128): v128;\n /** Adds each 16-bit integer lane of two 128-bit vectors using unsigned saturation. */\n export function add_saturate_u(a: v128, b: v128): v128;\n /** Subtracts each 16-bit integer lane of two 128-bit vectors using signed saturation. */\n export function sub_saturate_s(a: v128, b: v128): v128;\n /** Subtracts each 16-bit integer lane of two 128-bit vectors using unsigned saturation. */\n export function sub_saturate_u(a: v128, b: v128): v128;\n /** Performs a bitwise left shift on each 16-bit integer lane of a 128-bit vector by a scalar. */\n export function shl(a: v128, b: i32): v128;\n /** Performs a bitwise arithmetic right shift each 16-bit integer lane of a 128-bit vector by a scalar. */\n export function shr_s(a: v128, b: i32): v128;\n /** Performs a bitwise logical right shift on each 16-bit integer lane of a 128-bit vector by a scalar. */\n export function shr_u(a: v128, b: i32): v128;\n /** Reduces a 128-bit vector to a scalar indicating whether any 16-bit integer lane is considered `true`. */\n export function any_true(a: v128): bool;\n /** Reduces a 128-bit vector to a scalar indicating whether all 16-bit integer lanes are considered `true`. */\n export function all_true(a: v128): bool;\n /** Computes which 16-bit integer lanes of two 128-bit vectors are equal. */\n export function eq(a: v128, b: v128): v128;\n /** Computes which 16-bit integer lanes of two 128-bit vectors are not equal. */\n export function ne(a: v128, b: v128): v128;\n /** Computes which 16-bit signed integer lanes of the first 128-bit vector are less than those of the second. */\n export function lt_s(a: v128, b: v128): v128;\n /** Computes which 16-bit unsigned integer lanes of the first 128-bit vector are less than those of the second. */\n export function lt_u(a: v128, b: v128): v128;\n /** Computes which 16-bit signed integer lanes of the first 128-bit vector are less than or equal those of the second. */\n export function le_s(a: v128, b: v128): v128;\n /** Computes which 16-bit unsigned integer lanes of the first 128-bit vector are less than or equal those of the second. */\n export function le_u(a: v128, b: v128): v128;\n /** Computes which 16-bit signed integer lanes of the first 128-bit vector are greater than those of the second. */\n export function gt_s(a: v128, b: v128): v128;\n /** Computes which 16-bit unsigned integer lanes of the first 128-bit vector are greater than those of the second. */\n export function gt_u(a: v128, b: v128): v128;\n /** Computes which 16-bit signed integer lanes of the first 128-bit vector are greater than or equal those of the second. */\n export function ge_s(a: v128, b: v128): v128;\n /** Computes which 16-bit unsigned integer lanes of the first 128-bit vector are greater than or equal those of the second. */\n export function ge_u(a: v128, b: v128): v128;\n}\n/** Initializes a 128-bit vector from four 32-bit integer values. Arguments must be compile-time constants. */\ndeclare function i32x4(a: i32, b: i32, c: i32, d: i32): v128;\ndeclare namespace i32x4 {\n /** Creates a 128-bit vector with four identical 32-bit integer lanes. */\n export function splat(x: i32): v128;\n /** Extracts one 32-bit integer lane from a 128-bit vector as a scalar. */\n export function extract_lane(x: v128, idx: u8): i32;\n /** Replaces one 32-bit integer lane in a 128-bit vector. */\n export function replace_lane(x: v128, idx: u8, value: i32): v128;\n /** Adds each 32-bit integer lane of two 128-bit vectors. */\n export function add(a: v128, b: v128): v128;\n /** Subtracts each 32-bit integer lane of two 128-bit vectors. */\n export function sub(a: v128, b: v128): v128;\n /** Multiplies each 32-bit integer lane of two 128-bit vectors. */\n export function mul(a: v128, b: v128): v128;\n /** Negates each 32-bit integer lane of a 128-bit vector. */\n export function neg(a: v128): v128;\n /** Performs a bitwise left shift on each 32-bit integer lane of a 128-bit vector by a scalar. */\n export function shl(a: v128, b: i32): v128;\n /** Performs a bitwise arithmetic right shift on each 32-bit integer lane of a 128-bit vector by a scalar. */\n export function shr_s(a: v128, b: i32): v128;\n /** Performs a bitwise logical right shift on each 32-bit integer lane of a 128-bit vector by a scalar. */\n export function shr_u(a: v128, b: i32): v128;\n /** Reduces a 128-bit vector to a scalar indicating whether any 32-bit integer lane is considered `true`. */\n export function any_true(a: v128): bool;\n /** Reduces a 128-bit vector to a scalar indicating whether all 32-bit integer lanes are considered `true`. */\n export function all_true(a: v128): bool;\n /** Computes which 32-bit integer lanes of two 128-bit vectors are equal. */\n export function eq(a: v128, b: v128): v128;\n /** Computes which 32-bit integer lanes of two 128-bit vectors are not equal. */\n export function ne(a: v128, b: v128): v128;\n /** Computes which 32-bit signed integer lanes of the first 128-bit vector are less than those of the second. */\n export function lt_s(a: v128, b: v128): v128;\n /** Computes which 32-bit unsigned integer lanes of the first 128-bit vector are less than those of the second. */\n export function lt_u(a: v128, b: v128): v128;\n /** Computes which 32-bit signed integer lanes of the first 128-bit vector are less than or equal those of the second. */\n export function le_s(a: v128, b: v128): v128;\n /** Computes which 32-bit unsigned integer lanes of the first 128-bit vector are less than or equal those of the second. */\n export function le_u(a: v128, b: v128): v128;\n /** Computes which 32-bit signed integer lanes of the first 128-bit vector are greater than those of the second. */\n export function gt_s(a: v128, b: v128): v128;\n /** Computes which 32-bit unsigned integer lanes of the first 128-bit vector are greater than those of the second. */\n export function gt_u(a: v128, b: v128): v128;\n /** Computes which 32-bit signed integer lanes of the first 128-bit vector are greater than or equal those of the second. */\n export function ge_s(a: v128, b: v128): v128;\n /** Computes which 32-bit unsigned integer lanes of the first 128-bit vector are greater than or equal those of the second. */\n export function ge_u(a: v128, b: v128): v128;\n /** Truncates each 32-bit float lane of a 128-bit vector to a signed integer with saturation. */\n export function trunc_s_f32x4_sat(a: v128): v128;\n /** Truncates each 32-bit float lane of a 128-bit vector to an unsigned integer with saturation. */\n export function trunc_u_f32x4_sat(a: v128): v128;\n}\n/** Initializes a 128-bit vector from two 64-bit integer values. Arguments must be compile-time constants. */\ndeclare function i64x2(a: i64, b: i64): v128;\ndeclare namespace i64x2 {\n /** Creates a 128-bit vector with two identical 64-bit integer lanes. */\n export function splat(x: i64): v128;\n /** Extracts one 64-bit integer lane from a 128-bit vector as a scalar. */\n export function extract_lane(x: v128, idx: u8): i64;\n /** Replaces one 64-bit integer lane in a 128-bit vector. */\n export function replace_lane(x: v128, idx: u8, value: i64): v128;\n /** Adds each 64-bit integer lane of two 128-bit vectors. */\n export function add(a: v128, b: v128): v128;\n /** Subtracts each 64-bit integer lane of two 128-bit vectors. */\n export function sub(a: v128, b: v128): v128;\n /** Multiplies each 64-bit integer lane of two 128-bit vectors. */\n export function mul(a: v128, b: v128): v128;\n /** Negates each 64-bit integer lane of a 128-bit vector. */\n export function neg(a: v128): v128;\n /** Performs a bitwise left shift on each 64-bit integer lane of a 128-bit vector by a scalar. */\n export function shl(a: v128, b: i32): v128;\n /** Performs a bitwise arithmetic right shift on each 64-bit integer lane of a 128-bit vector by a scalar. */\n export function shr_s(a: v128, b: i32): v128;\n /** Performs a bitwise logical right shift on each 64-bit integer lane of a 128-bit vector by a scalar. */\n export function shr_u(a: v128, b: i32): v128;\n /** Reduces a 128-bit vector to a scalar indicating whether any 64-bit integer lane is considered `true`. */\n export function any_true(a: v128): bool;\n /** Reduces a 128-bit vector to a scalar indicating whether all 64-bit integer lanes are considered `true`. */\n export function all_true(a: v128): bool;\n /** Truncates each 64-bit float lane of a 128-bit vector to a signed integer with saturation. */\n export function trunc_s_f64x2_sat(a: v128): v128;\n /** Truncates each 64-bit float lane of a 128-bit vector to an unsigned integer with saturation. */\n export function trunc_u_f64x2_sat(a: v128): v128;\n}\n/** Initializes a 128-bit vector from four 32-bit float values. Arguments must be compile-time constants. */\ndeclare function f32x4(a: f32, b: f32, c: f32, d: f32): v128;\ndeclare namespace f32x4 {\n /** Creates a 128-bit vector with four identical 32-bit float lanes. */\n export function splat(x: f32): v128;\n /** Extracts one 32-bit float lane from a 128-bit vector as a scalar. */\n export function extract_lane(x: v128, idx: u8): f32;\n /** Replaces one 32-bit float lane in a 128-bit vector. */\n export function replace_lane(x: v128, idx: u8, value: f32): v128;\n /** Adds each 32-bit float lane of two 128-bit vectors. */\n export function add(a: v128, b: v128): v128;\n /** Subtracts each 32-bit float lane of two 128-bit vectors. */\n export function sub(a: v128, b: v128): v128;\n /** Multiplies each 32-bit float lane of two 128-bit vectors. */\n export function mul(a: v128, b: v128): v128;\n /** Divides each 32-bit float lane of two 128-bit vectors. */\n export function div(a: v128, b: v128): v128;\n /** Negates each 32-bit float lane of a 128-bit vector. */\n export function neg(a: v128): v128;\n /** Computes the minimum of each 32-bit float lane of two 128-bit vectors. */\n export function min(a: v128, b: v128): v128;\n /** Computes the maximum of each 32-bit float lane of two 128-bit vectors. */\n export function max(a: v128, b: v128): v128;\n /** Computes the absolute value of each 32-bit float lane of a 128-bit vector. */\n export function abs(a: v128): v128;\n /** Computes the square root of each 32-bit float lane of a 128-bit vector. */\n export function sqrt(a: v128): v128;\n /** Computes which 32-bit float lanes of two 128-bit vectors are equal. */\n export function eq(a: v128, b: v128): v128;\n /** Computes which 32-bit float lanes of two 128-bit vectors are not equal. */\n export function ne(a: v128, b: v128): v128;\n /** Computes which 32-bit float lanes of the first 128-bit vector are less than those of the second. */\n export function lt(a: v128, b: v128): v128;\n /** Computes which 32-bit float lanes of the first 128-bit vector are less than or equal those of the second. */\n export function le(a: v128, b: v128): v128;\n /** Computes which 32-bit float lanes of the first 128-bit vector are greater than those of the second. */\n export function gt(a: v128, b: v128): v128;\n /** Computes which 32-bit float lanes of the first 128-bit vector are greater than or equal those of the second. */\n export function ge(a: v128, b: v128): v128;\n /** Converts each 32-bit signed integer lane of a 128-bit vector to floating point. */\n export function convert_s_i32x4(a: v128): v128;\n /** Converts each 32-bit unsigned integer lane of a 128-bit vector to floating point. */\n export function convert_u_i32x4(a: v128): v128;\n}\n/** Initializes a 128-bit vector from two 64-bit float values. Arguments must be compile-time constants. */\ndeclare function f64x2(a: f64, b: f64): v128;\ndeclare namespace f64x2 {\n /** Creates a 128-bit vector with two identical 64-bit float lanes. */\n export function splat(x: f64): v128;\n /** Extracts one 64-bit float lane from a 128-bit vector as a scalar. */\n export function extract_lane(x: v128, idx: u8): f64;\n /** Replaces one 64-bit float lane in a 128-bit vector. */\n export function replace_lane(x: v128, idx: u8, value: f64): v128;\n /** Adds each 64-bit float lane of two 128-bit vectors. */\n export function add(a: v128, b: v128): v128;\n /** Subtracts each 64-bit float lane of two 128-bit vectors. */\n export function sub(a: v128, b: v128): v128;\n /** Multiplies each 64-bit float lane of two 128-bit vectors. */\n export function mul(a: v128, b: v128): v128;\n /** Divides each 64-bit float lane of two 128-bit vectors. */\n export function div(a: v128, b: v128): v128;\n /** Negates each 64-bit float lane of a 128-bit vector. */\n export function neg(a: v128): v128;\n /** Computes the minimum of each 64-bit float lane of two 128-bit vectors. */\n export function min(a: v128, b: v128): v128;\n /** Computes the maximum of each 64-bit float lane of two 128-bit vectors. */\n export function max(a: v128, b: v128): v128;\n /** Computes the absolute value of each 64-bit float lane of a 128-bit vector. */\n export function abs(a: v128): v128;\n /** Computes the square root of each 64-bit float lane of a 128-bit vector. */\n export function sqrt(a: v128): v128;\n /** Computes which 64-bit float lanes of two 128-bit vectors are equal. */\n export function eq(a: v128, b: v128): v128;\n /** Computes which 64-bit float lanes of two 128-bit vectors are not equal. */\n export function ne(a: v128, b: v128): v128;\n /** Computes which 64-bit float lanes of the first 128-bit vector are less than those of the second. */\n export function lt(a: v128, b: v128): v128;\n /** Computes which 64-bit float lanes of the first 128-bit vector are less than or equal those of the second. */\n export function le(a: v128, b: v128): v128;\n /** Computes which 64-bit float lanes of the first 128-bit vector are greater than those of the second. */\n export function gt(a: v128, b: v128): v128;\n /** Computes which 64-bit float lanes of the first 128-bit vector are greater than or equal those of the second. */\n export function ge(a: v128, b: v128): v128;\n /** Converts each 64-bit signed integer lane of a 128-bit vector to floating point. */\n export function convert_s_i64x2(a: v128): v128;\n /** Converts each 64-bit unsigned integer lane of a 128-bit vector to floating point. */\n export function convert_u_i64x2(a: v128): v128;\n}\ndeclare namespace v8x16 {\n /** Selects 8-bit lanes from either 128-bit vector according to the specified lane indexes. */\n export function shuffle(a: v128, b: v128, l0: u8, l1: u8, l2: u8, l3: u8, l4: u8, l5: u8, l6: u8, l7: u8, l8: u8, l9: u8, l10: u8, l11: u8, l12: u8, l13: u8, l14: u8, l15: u8): v128;\n}\n/** Macro type evaluating to the underlying native WebAssembly type. */\ndeclare type native = T;\n\n/** Pseudo-class representing the backing class of integer types. */\ndeclare class _Integer {\n /** Smallest representable value. */\n static readonly MIN_VALUE: number;\n /** Largest representable value. */\n static readonly MAX_VALUE: number;\n /** Converts a string to an integer of this type. */\n static parseInt(value: string, radix?: number): number;\n /** Converts this integer to a string. */\n toString(): string;\n}\n\n/** Pseudo-class representing the backing class of floating-point types. */\ndeclare class _Float {\n /** Difference between 1 and the smallest representable value greater than 1. */\n static readonly EPSILON: f32 | f64;\n /** Smallest representable value. */\n static readonly MIN_VALUE: f32 | f64;\n /** Largest representable value. */\n static readonly MAX_VALUE: f32 | f64;\n /** Smallest safely representable integer value. */\n static readonly MIN_SAFE_INTEGER: f32 | f64;\n /** Largest safely representable integer value. */\n static readonly MAX_SAFE_INTEGER: f32 | f64;\n /** Value representing positive infinity. */\n static readonly POSITIVE_INFINITY: f32 | f64;\n /** Value representing negative infinity. */\n static readonly NEGATIVE_INFINITY: f32 | f64;\n /** Value representing \'not a number\'. */\n static readonly NaN: f32 | f64;\n /** Returns a boolean value that indicates whether a value is the reserved value NaN (not a number). */\n static isNaN(value: f32 | f64): bool;\n /** Returns true if passed value is finite. */\n static isFinite(value: f32 | f64): bool;\n /** Returns true if the value passed is a safe integer. */\n static isSafeInteger(value: f32 | f64): bool;\n /** Returns true if the value passed is an integer, false otherwise. */\n static isInteger(value: f32 | f64): bool;\n /** Converts a string to an integer. */\n static parseInt(value: string, radix?: i32): f32 | f64;\n /** Converts a string to a floating-point number. */\n static parseFloat(value: string): f32 | f64;\n /** Converts this floating-point number to a string. */\n toString(this: f64): string;\n}\n\n/** Backing class of signed 8-bit integers. */\ndeclare const I8: typeof _Integer;\n/** Backing class of signed 16-bit integers. */\ndeclare const I16: typeof _Integer;\n/** Backing class of signed 32-bit integers. */\ndeclare const I32: typeof _Integer;\n/** Backing class of signed 64-bit integers. */\ndeclare const I64: typeof _Integer;\n/** Backing class of signed size integers. */\ndeclare const Isize: typeof _Integer;\n/** Backing class of unsigned 8-bit integers. */\ndeclare const U8: typeof _Integer;\n/** Backing class of unsigned 16-bit integers. */\ndeclare const U16: typeof _Integer;\n/** Backing class of unsigned 32-bit integers. */\ndeclare const U32: typeof _Integer;\n/** Backing class of unsigned 64-bit integers. */\ndeclare const U64: typeof _Integer;\n/** Backing class of unsigned size integers. */\ndeclare const Usize: typeof _Integer;\n/** Backing class of 32-bit floating-point values. */\ndeclare const F32: typeof _Float;\n/** Backing class of 64-bit floating-point values. */\ndeclare const F64: typeof _Float;\n\n// User-defined diagnostic macros\n\n/** Emits a user-defined diagnostic error when encountered. */\ndeclare function ERROR(message?: any): void;\n/** Emits a user-defined diagnostic warning when encountered. */\ndeclare function WARNING(message?: any): void;\n/** Emits a user-defined diagnostic info when encountered. */\ndeclare function INFO(message?: any): void;\n\n// Polyfills\n\n/** Performs the sign-agnostic reverse bytes **/\ndeclare function bswap(value: T): T;\n/** Performs the sign-agnostic reverse bytes only for last 16-bit **/\ndeclare function bswap16(value: T): T;\n\n// Standard library\n\n/** Memory operations. */\ndeclare namespace memory {\n /** Returns the current memory size in units of pages. One page is 64kb. */\n export function size(): i32;\n /** Grows linear memory by a given unsigned delta of pages. One page is 64kb. Returns the previous memory size in units of pages or `-1` on failure. */\n export function grow(value: i32): i32;\n /** Sets n bytes beginning at the specified destination in memory to the specified byte value. */\n export function fill(dst: usize, value: u8, count: usize): void;\n /** Copies n bytes from the specified source to the specified destination in memory. These regions may overlap. */\n export function copy(dst: usize, src: usize, n: usize): void;\n /** Copies elements from a passive element segment to a table. */\n // export function init(segmentIndex: u32, srcOffset: usize, dstOffset: usize, n: usize): void;\n /** Prevents further use of a passive element segment. */\n // export function drop(segmentIndex: u32): void;\n /** Copies elements from one region of a table to another region. */\n export function allocate(size: usize): usize;\n /** Disposes a chunk of memory by its pointer. */\n export function free(ptr: usize): void;\n /** Compares two chunks of memory. Returns `0` if equal, otherwise the difference of the first differing bytes. */\n export function compare(vl: usize, vr: usize, n: usize): i32;\n /** Resets the allocator to its initial state, if supported. */\n export function reset(): void;\n}\n\n/** Garbage collector operations. */\ndeclare namespace gc {\n /** Allocates a managed object identified by its visitor function. */\n export function allocate(size: usize, visitFn: (ref: usize) => void): usize;\n /** Performs a full garbage collection cycle. */\n export function collect(): void;\n}\n\n/** Table operations. */\ndeclare namespace table {\n /** Copies elements from a passive element segment to a table. */\n // export function init(elementIndex: u32, srcOffset: u32, dstOffset: u32, n: u32): void;\n /** Prevents further use of a passive element segment. */\n // export function drop(elementIndex: u32): void;\n /** Copies elements from one region of a table to another region. */\n // export function copy(dest: u32, src: u32, n: u32): void;\n}\n\n/** Class representing a generic, fixed-length raw binary data buffer. */\ndeclare class ArrayBuffer {\n /** The size, in bytes, of the array. */\n readonly byteLength: i32;\n /** Unsafe pointer to the start of the data in memory. */\n readonly data: usize;\n /** Returns true if value is one of the ArrayBuffer views, such as typed array or a DataView **/\n static isView(value: T): bool;\n /** Constructs a new array buffer of the given length in bytes. */\n constructor(length: i32, unsafe?: bool);\n /** Returns a copy of this array buffer\'s bytes from begin, inclusive, up to end, exclusive. */\n slice(begin?: i32, end?: i32): ArrayBuffer;\n /** Returns a string representation of ArrayBuffer. */\n toString(): string;\n}\n\n/** The `DataView` view provides a low-level interface for reading and writing multiple number types in a binary `ArrayBuffer`, without having to care about the platform\'s endianness. */\ndeclare class DataView {\n /** The `buffer` accessor property represents the `ArrayBuffer` or `SharedArrayBuffer` referenced by the `DataView` at construction time. */\n readonly buffer: ArrayBuffer;\n /** The `byteLength` accessor property represents the length (in bytes) of this view from the start of its `ArrayBuffer` or `SharedArrayBuffer`. */\n readonly byteLength: i32;\n /** The `byteOffset` accessor property represents the offset (in bytes) of this view from the start of its `ArrayBuffer` or `SharedArrayBuffer`. */\n readonly byteOffset: i32;\n /** Constructs a new `DataView` with the given properties */\n constructor(buffer: ArrayBuffer, byteOffset?: i32, byteLength?: i32);\n /** The `getFloat32()` method gets a signed 32-bit float (float) at the specified byte offset from the start of the `DataView`. */\n getFloat32(byteOffset: i32, littleEndian?: boolean): f32;\n /** The `getFloat64()` method gets a signed 64-bit float (double) at the specified byte offset from the start of the `DataView`. */\n getFloat64(byteOffset: i32, littleEndian?: boolean): f64;\n /** The `getInt8()` method gets a signed 8-bit integer (byte) at the specified byte offset from the start of the `DataView`. */\n getInt8(byteOffset: i32): i8;\n /** The `getInt16()` method gets a signed 16-bit integer (short) at the specified byte offset from the start of the `DataView`. */\n getInt16(byteOffset: i32, littleEndian?: boolean): i16;\n /** The `getInt32()` method gets a signed 32-bit integer (long) at the specified byte offset from the start of the `DataView`. */\n getInt32(byteOffset: i32, littleEndian?: boolean): i32;\n /** The `getInt64()` method gets a signed 64-bit integer (long long) at the specified byte offset from the start of the `DataView`. */\n getInt64(byteOffset: i32, littleEndian?: boolean): i64;\n /** The `getUint8()` method gets an unsigned 8-bit integer (unsigned byte) at the specified byte offset from the start of the `DataView`. */\n getUint8(byteOffset: i32): u8;\n /** The `getUint16()` method gets an unsigned 16-bit integer (unsigned short) at the specified byte offset from the start of the `DataView`. */\n getUint16(byteOffset: i32, littleEndian?: boolean): u16;\n /** The `getUint32()` method gets an unsigned 32-bit integer (unsigned long) at the specified byte offset from the start of the `DataView`. */\n getUint32(byteOffset: i32, littleEndian?: boolean): u32;\n /** The `getUint64()` method gets an unsigned 64-bit integer (unsigned long long) at the specified byte offset from the start of the `DataView`. */\n getUint64(byteOffset: i32, littleEndian?: boolean): u64;\n /** The `setFloat32()` method stores a signed 32-bit float (float) value at the specified byte offset from the start of the `DataView`. */\n setFloat32(byteOffset: i32, value: f32, littleEndian?: boolean): void;\n /** The `setFloat64()` method stores a signed 64-bit float (double) value at the specified byte offset from the start of the `DataView`. */\n setFloat64(byteOffset: i32, value: f64, littleEndian?: boolean): void;\n /** The `setInt8()` method stores a signed 8-bit integer (byte) value at the specified byte offset from the start of the `DataView`. */\n setInt8(byteOffset: i32, value: i8): void;\n /** The `setInt16()` method stores a signed 16-bit integer (short) value at the specified byte offset from the start of the `DataView`. */\n setInt16(byteOffset: i32, value: i16, littleEndian?: boolean): void;\n /** The `setInt32()` method stores a signed 32-bit integer (long) value at the specified byte offset from the start of the `DataView`. */\n setInt32(byteOffset: i32, value: i32, littleEndian?: boolean): void;\n /** The `setInt64()` method stores a signed 64-bit integer (long long) value at the specified byte offset from the start of the `DataView`. */\n setInt64(byteOffset: i32, value: i64, littleEndian?: boolean): void;\n /** The `setUint8()` method stores an unsigned 8-bit integer (byte) value at the specified byte offset from the start of the `DataView`. */\n setUint8(byteOffset: i32, value: u8): void;\n /** The `setUint16()` method stores an unsigned 16-bit integer (unsigned short) value at the specified byte offset from the start of the `DataView`. */\n setUint16(byteOffset: i32, value: u16, littleEndian?: boolean): void;\n /** The `setUint32()` method stores an unsigned 32-bit integer (unsigned long) value at the specified byte offset from the start of the `DataView`. */\n setUint32(byteOffset: i32, value: u32, littleEndian?: boolean): void;\n /** The `setUint64()` method stores an unsigned 64-bit integer (unsigned long long) value at the specified byte offset from the start of the `DataView`. */\n setUint64(byteOffset: i32, value: u64, littleEndian?: boolean): void;\n /** Returns a string representation of DataView. */\n toString(): string;\n}\n\ninterface ArrayLike {\n length: i32;\n // [key: number]: T;\n}\n\n/** Interface for a typed view on an array buffer. */\ninterface ArrayBufferView {\n [key: number]: T;\n /** The {@link ArrayBuffer} referenced by this view. */\n readonly buffer: ArrayBuffer;\n /** The offset in bytes from the start of the referenced {@link ArrayBuffer}. */\n readonly byteOffset: i32;\n /** The length in bytes from the start of the referenced {@link ArrayBuffer}. */\n readonly byteLength: i32;\n}\n\n/* @internal */\ndeclare abstract class TypedArray implements ArrayBufferView {\n [key: number]: T;\n /** Number of bytes per element. */\n static readonly BYTES_PER_ELEMENT: usize;\n /** Constructs a new typed array. */\n constructor(length: i32);\n /** The {@link ArrayBuffer} referenced by this view. */\n readonly buffer: ArrayBuffer;\n /** The offset in bytes from the start of the referenced {@link ArrayBuffer}. */\n readonly byteOffset: i32;\n /** The length in bytes from the start of the referenced {@link ArrayBuffer}. */\n readonly byteLength: i32;\n /** The length (in elements). */\n readonly length: i32;\n /** Returns a new TypedArray of this type on the same ArrayBuffer from begin inclusive to end exclusive. */\n subarray(begin?: i32, end?: i32): this;\n /** The reduce() method applies a function against an accumulator and each value of the typed array (from left-to-right) has to reduce it to a single value. This method has the same algorithm as Array.prototype.reduce(). */\n reduce(\n callbackfn: (accumulator: W, value: T, index: i32, self: this) => W,\n initialValue: W,\n ): W;\n /** The reduceRight() method applies a function against an accumulator and each value of the typed array (from left-to-right) has to reduce it to a single value, starting from the end of the array. This method has the same algorithm as Array.prototype.reduceRight(). */\n reduceRight(\n callbackfn: (accumulator: W, value: T, index: i32, self: this) => W,\n initialValue: W,\n ): W;\n /** The some() method tests whether some element in the typed array passes the test implemented by the provided function. This method has the same algorithm as Array.prototype.some().*/\n some(callbackfn: (value: T, index: i32, self: this) => bool): bool;\n /** The map() method creates a new typed array with the results of calling a provided function on every element in this typed array. This method has the same algorithm as Array.prototype.map().*/\n map(callbackfn: (value: T, index: i32, self: this) => T): this;\n /** The sort() method sorts the elements of a typed array numerically in place and returns the typed array. This method has the same algorithm as Array.prototype.sort(), except that sorts the values numerically instead of as strings. TypedArray is one of the typed array types here. */\n sort(callback?: (a: T, b: T) => i32): this;\n /** The fill() method fills all the elements of a typed array from a start index to an end index with a static value. This method has the same algorithm as Array.prototype.fill(). */\n fill(value: T, start?: i32, end?: i32): this;\n /** The findIndex() method returns an index in the typed array, if an element in the typed array satisfies the provided testing function. Otherwise -1 is returned. See also the find() [not implemented] method, which returns the value of a found element in the typed array instead of its index. */\n findIndex(callbackfn: (value: T, index: i32, self: this) => bool): i32;\n /** The every() method tests whether all elements in the typed array pass the test implemented by the provided function. This method has the same algorithm as Array.prototype.every(). */\n every(callbackfn: (value: T, index: i32, self: this) => bool): bool;\n /** The forEach() method executes a provided function once per array element. This method has the same algorithm as Array.prototype.forEach().*/\n forEach(callbackfn: (value: T, index: i32, self: this) => void): void;\n}\n\n/** An array of twos-complement 8-bit signed integers. */\ndeclare class Int8Array extends TypedArray {}\n/** An array of 8-bit unsigned integers. */\ndeclare class Uint8Array extends TypedArray {}\n/** A clamped array of 8-bit unsigned integers. */\ndeclare class Uint8ClampedArray extends TypedArray {}\n/** An array of twos-complement 16-bit signed integers. */\ndeclare class Int16Array extends TypedArray {}\n/** An array of 16-bit unsigned integers. */\ndeclare class Uint16Array extends TypedArray {}\n/** An array of twos-complement 32-bit signed integers. */\ndeclare class Int32Array extends TypedArray {}\n/** An array of 32-bit unsigned integers. */\ndeclare class Uint32Array extends TypedArray {}\n/** An array of twos-complement 64-bit signed integers. */\ndeclare class Int64Array extends TypedArray {}\n/** An array of 64-bit unsigned integers. */\ndeclare class Uint64Array extends TypedArray {}\n/** An array of 32-bit floating point numbers. */\ndeclare class Float32Array extends TypedArray {}\n/** An array of 64-bit floating point numbers. */\ndeclare class Float64Array extends TypedArray {}\n\n/** Class representing a sequence of values of type `T`. */\ndeclare class Array {\n\n static isArray(value: any): value is Array;\n\n [key: number]: T;\n /** Current length of the array. */\n length: i32;\n /** Constructs a new array. */\n constructor(capacity?: i32);\n\n fill(value: T, start?: i32, end?: i32): this;\n every(callbackfn: (element: T, index: i32, array?: Array) => bool): bool;\n findIndex(predicate: (element: T, index: i32, array?: Array) => bool): i32;\n includes(searchElement: T, fromIndex?: i32): bool;\n indexOf(searchElement: T, fromIndex?: i32): i32;\n lastIndexOf(searchElement: T, fromIndex?: i32): i32;\n push(element: T): i32;\n concat(items: T[]): T[];\n copyWithin(target: i32, start: i32, end?: i32): this;\n pop(): T;\n forEach(callbackfn: (value: T, index: i32, array: Array) => void): void;\n map(callbackfn: (value: T, index: i32, array: Array) => U): Array;\n filter(callbackfn: (value: T, index: i32, array: Array) => bool): Array;\n reduce(callbackfn: (previousValue: U, currentValue: T, currentIndex: i32, array: Array) => U, initialValue: U): U;\n reduceRight(callbackfn: (previousValue: U, currentValue: T, currentIndex: i32, array: Array) => U, initialValue: U): U;\n shift(): T;\n some(callbackfn: (element: T, index: i32, array?: Array) => bool): bool;\n unshift(element: T): i32;\n slice(from: i32, to?: i32): Array;\n splice(start: i32, deleteCount?: i32): Array;\n sort(comparator?: (a: T, b: T) => i32): this;\n join(separator?: string): string;\n reverse(): T[];\n toString(): string;\n}\n\n/** Class representing a sequence of characters. */\ndeclare class String {\n\n static fromCharCode(ls: i32, hs?: i32): string;\n static fromCharCodes(arr: u16[]): string;\n static fromCodePoint(code: i32): string;\n static fromCodePoints(arr: i32[]): string;\n\n readonly length: i32;\n readonly lengthUTF8: i32;\n\n charAt(index: u32): string;\n charCodeAt(index: u32): u16;\n concat(other: string): string;\n endsWith(other: string): bool;\n indexOf(other: string, fromIndex?: i32): u32;\n lastIndexOf(other: string, fromIndex?: i32): i32;\n includes(other: string): bool;\n startsWith(other: string): bool;\n substr(start: u32, length?: u32): string;\n substring(start: u32, end?: u32): string;\n trim(): string;\n trimLeft(): string;\n trimRight(): string;\n trimStart(): string;\n trimEnd(): string;\n padStart(targetLength: i32, padString?: string): string;\n padEnd(targetLength: i32, padString?: string): string;\n repeat(count?: i32): string;\n slice(beginIndex: i32, endIndex?: i32): string;\n split(separator?: string, limit?: i32): string[];\n toString(): string;\n static fromUTF8(ptr: usize, len: usize): string;\n toUTF8(): usize;\n}\n\n/** Class for representing a runtime error. Base class of all errors. */\ndeclare class Error {\n\n /** Error name. */\n name: string;\n\n /** Message provided on construction. */\n message: string;\n\n /** Stack trace. */\n stack?: string;\n\n /** Constructs a new error, optionally with a message. */\n constructor(message?: string);\n\n /** Method returns a string representing the specified Error class. */\n toString(): string;\n}\n\n/** Class for indicating an error when a value is not in the set or range of allowed values. */\ndeclare class RangeError extends Error { }\n\n/** Class for indicating an error when a value is not of the expected type. */\ndeclare class TypeError extends Error { }\n\n/** Class for indicating an error when trying to interpret syntactically invalid code. */\ndeclare class SyntaxError extends Error { }\n\ninterface Boolean {}\ninterface Function {}\ninterface IArguments {}\ninterface Number {}\ninterface Object {}\ninterface RegExp {}\n\ndeclare class Map {\n readonly size: i32;\n has(key: K): bool;\n set(key: K, value: V): void;\n get(key: K): V;\n delete(key: K): bool;\n clear(): void;\n toString(): string;\n}\n\ndeclare class Set {\n readonly size: i32;\n has(value: T): bool;\n add(value: T): void;\n delete(value: T): bool;\n clear(): void;\n toString(): string;\n}\n\ninterface SymbolConstructor {\n readonly hasInstance: symbol;\n readonly isConcatSpreadable: symbol;\n readonly isRegExp: symbol;\n readonly iterator: symbol;\n readonly match: symbol;\n readonly replace: symbol;\n readonly search: symbol;\n readonly species: symbol;\n readonly split: symbol;\n readonly toPrimitive: symbol;\n readonly toStringTag: symbol;\n readonly unscopables: symbol;\n (description?: string | null): symbol;\n for(key: string): symbol;\n keyFor(sym: symbol): string | null;\n}\n\ndeclare const Symbol: SymbolConstructor;\n\ninterface IMath {\n /** The base of natural logarithms, e, approximately 2.718. */\n readonly E: T;\n /** The natural logarithm of 2, approximately 0.693. */\n readonly LN2: T;\n /** The natural logarithm of 10, approximately 2.302. */\n readonly LN10: T;\n /** The base 2 logarithm of e, approximately 1.442. */\n readonly LOG2E: T;\n /** The base 10 logarithm of e, approximately 0.434. */\n readonly LOG10E: T;\n /** The ratio of the circumference of a circle to its diameter, approximately 3.14159. */\n readonly PI: T;\n /** The square root of 1/2, approximately 0.707. */\n readonly SQRT1_2: T;\n /** The square root of 2, approximately 1.414. */\n readonly SQRT2: T;\n /** Returns the absolute value of `x`. */\n abs(x: T): T;\n /** Returns the arccosine (in radians) of `x`. */\n acos(x: T): T;\n /** Returns the hyperbolic arc-cosine of `x`. */\n acosh(x: T): T;\n /** Returns the arcsine (in radians) of `x` */\n asin(x: T): T;\n /** Returns the hyperbolic arcsine of `x`. */\n asinh(x: T): T;\n /** Returns the arctangent (in radians) of `x`. */\n atan(x: T): T;\n /** Returns the arctangent of the quotient of its arguments. */\n atan2(y: T, x: T): T;\n /** Returns the hyperbolic arctangent of `x`. */\n atanh(x: T): T;\n /** Returns the cube root of `x`. */\n cbrt(x: T): T;\n /** Returns the smallest integer greater than or equal to `x`. */\n ceil(x: T): T;\n /** Returns the number of leading zero bits in the 32-bit binary representation of `x`. */\n clz32(x: T): T;\n /** Returns the cosine (in radians) of `x`. */\n cos(x: T): T;\n /** Returns the hyperbolic cosine of `x`. */\n cosh(x: T): T;\n /** Returns e to the power of `x`. */\n exp(x: T): T;\n /** Returns e to the power of `x`, minus 1. */\n expm1(x: T): T;\n /** Returns the largest integer less than or equal to `x`. */\n floor(x: T): T;\n /** Returns the nearest 32-bit single precision float representation of `x`. */\n fround(x: T): f32;\n /** Returns the square root of the sum of squares of its arguments. */\n hypot(value1: T, value2: T): T; // TODO: rest\n /** Returns the result of the C-like 32-bit multiplication of `a` and `b`. */\n imul(a: T, b: T): T;\n /** Returns the natural logarithm (base e) of `x`. */\n log(x: T): T;\n /** Returns the base 10 logarithm of `x`. */\n log10(x: T): T;\n /** Returns the natural logarithm (base e) of 1 + `x`. */\n log1p(x: T): T;\n /** Returns the base 2 logarithm of `x`. */\n log2(x: T): T;\n /** Returns the largest-valued number of its arguments. */\n max(value1: T, value2: T): T; // TODO: rest\n /** Returns the lowest-valued number of its arguments. */\n min(value1: T, value2: T): T; // TODO: rest\n /** Returns `base` to the power of `exponent`. */\n pow(base: T, exponent: T): T;\n /** Returns a pseudo-random number in the range from 0.0 inclusive up to but not including 1.0. */\n random(): T;\n /** Returns the value of `x` rounded to the nearest integer. */\n round(x: T): T;\n /** Returns the sign of `x`, indicating whether the number is positive, negative or zero. */\n sign(x: T): T;\n /** Returns whether the sign bit of `x` is set */\n signbit(x: T): bool;\n /** Returns the sine of `x`. */\n sin(x: T): T;\n /** Returns the hyperbolic sine of `x`. */\n sinh(x: T): T;\n /** Returns the square root of `x`. */\n sqrt(x: T): T;\n /** Returns the tangent of `x`. */\n tan(x: T): T;\n /** Returns the hyperbolic tangent of `x`. */\n tanh(x: T): T;\n /** Returns the integer part of `x` by removing any fractional digits. */\n trunc(x: T): T;\n}\n\ninterface INativeMath extends IMath {\n /** Contains sin value produced after Math/Mathf.sincos */\n sincos_sin: T;\n /** Contains cos value produced after Math/Mathf.sincos */\n sincos_cos: T;\n /** Seeds the random number generator. */\n seedRandom(value: i64): void;\n /** Returns the floating-point remainder of `x / y` (rounded towards zero). */\n mod(x: T, y: T): T;\n /** Returns the floating-point remainder of `x / y` (rounded to nearest). */\n rem(x: T, y: T): T;\n /** Returns sin and cos simultaneously for same angle. Results stored to `sincos_s32/64` and `sincos_c32/64` globals */\n sincos(x: T): void;\n}\n\n/** Double precision math imported from JavaScript. */\ndeclare const JSMath: IMath;\n/** Double precision math implemented natively. */\ndeclare const NativeMath: INativeMath;\n/** Single precision math implemented natively. */\ndeclare const NativeMathf: INativeMath;\n/** Alias of {@link NativeMath} or {@link JSMath} respectively. Defaults to `NativeMath`. */\ndeclare const Math: IMath;\n/** Alias of {@link NativeMathf} or {@link JSMath} respectively. Defaults to `NativeMathf`. */\ndeclare const Mathf: IMath;\n\ndeclare class Date {\n /** Returns the UTC timestamp in milliseconds of the specified date. */\n static UTC(\n year: i32,\n month: i32,\n day: i32,\n hour: i32,\n minute: i32,\n second: i32,\n millisecond: i32\n ): i64;\n /** Returns the current UTC timestamp in milliseconds. */\n static now(): i64;\n /** Constructs a new date object from an UTC timestamp in milliseconds. */\n constructor(value: i64);\n /** Returns the UTC timestamp of this date in milliseconds. */\n getTime(): i64;\n /** Sets the UTC timestamp of this date in milliseconds. */\n setTime(value: i64): i64;\n}\n\n/** Environmental tracing function for debugging purposes. */\ndeclare function trace(msg: string, n?: i32, a0?: f64, a1?: f64, a2?: f64, a3?: f64, a4?: f64): void;\n\n// Decorators\n\ninterface TypedPropertyDescriptor {\n configurable?: boolean;\n enumerable?: boolean;\n writable?: boolean;\n value?: T;\n get?(): T;\n set?(value: T): void;\n}\n\n/** Annotates an element as a program global. */\ndeclare function global(\n target: any,\n propertyKey: string,\n descriptor: TypedPropertyDescriptor\n): TypedPropertyDescriptor | void;\n\n/** Annotates a method as a binary operator overload for the specified `token`. */\ndeclare function operator(token:\n "[]" | "[]=" | "{}" | "{}=" | "==" | "!=" | ">" | "<" | "<=" | ">=" |\n ">>" | ">>>" | "<<" | "&" | "|" | "^" | "+" | "-" | "*" | "**" | "/" | "%"\n): (\n target: any,\n propertyKey: string,\n descriptor: TypedPropertyDescriptor\n) => TypedPropertyDescriptor | void;\n\ndeclare namespace operator {\n /** Annotates a method as a binary operator overload for the specified `token`. */\n export function binary(token:\n "[]" | "[]=" | "{}" | "{}=" | "==" | "!=" | ">" | "<" | "<=" | ">=" |\n ">>" | ">>>" | "<<" | "&" | "|" | "^" | "+" | "-" | "*" | "**" | "/" | "%"\n ): (\n target: any,\n propertyKey: string,\n descriptor: TypedPropertyDescriptor\n ) => TypedPropertyDescriptor | void;\n /** Annotates a method as an unary prefix operator overload for the specified `token`. */\n export function prefix(token: "!" | "~" | "+" | "-" | "++" | "--"): (\n target: any,\n propertyKey: string,\n descriptor: TypedPropertyDescriptor\n ) => TypedPropertyDescriptor | void;\n /** Annotates a method as an unary postfix operator overload for the specified `token`. */\n export function postfix(token: "++" | "--"): (\n target: any,\n propertyKey: string,\n descriptor: TypedPropertyDescriptor\n ) => TypedPropertyDescriptor | void;\n}\n\n/** Annotates a class as being unmanaged with limited capabilities. */\ndeclare function unmanaged(constructor: Function): void;\n\n/** Annotates a class as being sealed / non-derivable. */\ndeclare function sealed(constructor: Function): void;\n\n/** Annotates a method, function or constant global as always inlined. */\ndeclare function inline(\n target: any,\n propertyKey: string,\n descriptor: TypedPropertyDescriptor\n): TypedPropertyDescriptor | void;\n\n/** Annotates an explicit external name of a function or global. */\ndeclare function external(namespace: string, name: string): (\n target: any,\n propertyKey: string,\n descriptor: TypedPropertyDescriptor\n) => TypedPropertyDescriptor | void;\n\n/** Annotates a global for lazy compilation. */\ndeclare function lazy(\n target: any,\n propertyKey: string,\n descriptor: TypedPropertyDescriptor\n): TypedPropertyDescriptor | void;\n\n/** Annotates a function as the explicit start function. */\ndeclare function start(\n target: any,\n propertyKey: string,\n descriptor: TypedPropertyDescriptor\n): TypedPropertyDescriptor | void;\n',portable:"/**\n * Environment definitions for compiling AssemblyScript to JavaScript using tsc.\n *\n * Note that semantic differences require additional explicit conversions for full compatibility.\n * For example, when casting an i32 to an u8, doing `(someI32 & 0xff)` will yield the same\n * result when compiling to WebAssembly or JS while `someI32` alone does nothing in JS.\n *\n * Note that i64's are not portable (JS numbers are IEEE754 doubles with a maximum safe integer\n * value of 2^53-1) and instead require a compatibility layer to work in JS as well, as for example\n * {@link glue/js/i64} respectively {@link glue/wasm/i64}.\n *\n * @module std/portable\n *//***/\n\n/// \n\n// Types\n\ndeclare type bool = boolean;\ndeclare type i8 = number;\ndeclare type i16 = number;\ndeclare type i32 = number;\ndeclare type isize = number;\ndeclare type u8 = number;\ndeclare type u16 = number;\ndeclare type u32 = number;\ndeclare type usize = number;\ndeclare type f32 = number;\ndeclare type f64 = number;\n\n// Compiler hints\n\n/** Compiler target. 0 = JS, 1 = WASM32, 2 = WASM64. */\ndeclare const ASC_TARGET: i32;\n/** Provided noAssert option. */\ndeclare const ASC_NO_ASSERT: bool;\n/** Provided memoryBase option. */\ndeclare const ASC_MEMORY_BASE: i32;\n/** Provided optimizeLevel option. */\ndeclare const ASC_OPTIMIZE_LEVEL: i32;\n/** Provided shrinkLevel option. */\ndeclare const ASC_SHRINK_LEVEL: i32;\n/** Whether the mutable global feature is enabled. */\ndeclare const ASC_FEATURE_MUTABLE_GLOBAL: bool;\n/** Whether the sign extension feature is enabled. */\ndeclare const ASC_FEATURE_SIGN_EXTENSION: bool;\n\n// Builtins\n\n/** Performs the sign-agnostic count leading zero bits operation on a 32-bit integer. All zero bits are considered leading if the value is zero. */\ndeclare function clz(value: T): T;\n/** Performs the sign-agnostic count tailing zero bits operation on a 32-bit integer. All zero bits are considered trailing if the value is zero. */\ndeclare function ctz(value: T): T;\n/** Performs the sign-agnostic count number of one bits operation on a 32-bit integer. */\ndeclare function popcnt(value: T): T;\n/** Performs the sign-agnostic rotate left operation on a 32-bit integer. */\ndeclare function rotl(value: T, shift: T): T;\n/** Performs the sign-agnostic rotate right operation on a 32-bit integer. */\ndeclare function rotr(value: T, shift: T): T;\n/** Computes the absolute value of an integer or float. */\ndeclare function abs(value: T): T;\n/** Determines the maximum of two integers or floats. If either operand is `NaN`, returns `NaN`. */\ndeclare function max(left: T, right: T): T;\n/** Determines the minimum of two integers or floats. If either operand is `NaN`, returns `NaN`. */\ndeclare function min(left: T, right: T): T;\n/** Composes a 32-bit or 64-bit float from the magnitude of `x` and the sign of `y`. */\ndeclare function copysign(x: T, y: T): T;\n/** Performs the ceiling operation on a 32-bit or 64-bit float. */\ndeclare function ceil(value: T): T;\n/** Performs the floor operation on a 32-bit or 64-bit float. */\ndeclare function floor(value: T): T;\n/** Rounds to the nearest integer tied to even of a 32-bit or 64-bit float. */\ndeclare function nearest(value: T): T;\n/** Selects one of two pre-evaluated values depending on the condition. */\ndeclare function select(ifTrue: T, ifFalse: T, condition: bool): T;\n/** Calculates the square root of a 32-bit or 64-bit float. */\ndeclare function sqrt(value: T): T;\n/** Rounds to the nearest integer towards zero of a 32-bit or 64-bit float. */\ndeclare function trunc(value: T): T;\n/** Loads a value of the specified type from memory. Type must be `u8`. */\ndeclare function load(ptr: usize, constantOffset?: usize): T;\n/** Stores a value of the specified type to memory. Type must be `u8`. */\ndeclare function store(ptr: usize, value: T, constantOffset?: usize): void;\n/** Emits an unreachable operation that results in a runtime error when executed. */\ndeclare function unreachable(): any; // sic\n\n/** NaN (not a number) as a 32-bit or 64-bit float depending on context. */\ndeclare const NaN: f32 | f64;\n/** Positive infinity as a 32-bit or 64-bit float depending on context. */\ndeclare const Infinity: f32 | f64;\n/** Changes the type of any value of `usize` kind to another one of `usize` kind. Useful for casting class instances to their pointer values and vice-versa. Beware that this is unsafe.*/\ndeclare function changetype(value: any): T;\n/** Explicitly requests no bounds checks on the provided expression. Useful for array accesses. */\ndeclare function unchecked(value: T): T;\n/** Tests if a 32-bit or 64-bit float is `NaN`. */\ndeclare function isNaN(value: T): bool;\n/** Tests if a 32-bit or 64-bit float is finite, that is not `NaN` or +/-`Infinity`. */\ndeclare function isFinite(value: T): bool;\n/** Tests if the specified value is a valid integer. Can't distinguish an integer from an integral float. */\ndeclare function isInteger(value: any): value is number;\n/** Tests if the specified value is a valid float. Can't distinguish a float from an integer. */\ndeclare function isFloat(value: any): value is number;\n/** Tests if the specified value is of a nullable reference type. */\ndeclare function isNullable(value: any): bool;\n/** Tests if the specified value is of a reference type. */\ndeclare function isReference(value: any): value is object | string;\n/** Tests if the specified value is of a function type */\ndeclare function isFunction(value: any): value is Function;\n/** Tests if the specified value can be used as a string. */\ndeclare function isString(value: any): value is string | String;\n/** Tests if the specified value can be used as an array. */\ndeclare function isArray(value: any): value is Array;\n/** Tests if the specified type *or* expression can be used as an array like object. */\ndeclare function isArrayLike(value: any): value is ArrayLike;\n/** Tests if the specified expression resolves to a defined element. */\ndeclare function isDefined(expression: any): bool;\n/** Tests if the specified expression evaluates to a constant value. */\ndeclare function isConstant(expression: any): bool;\n/** Traps if the specified value is not true-ish, otherwise returns the value. */\ndeclare function assert(isTrueish: T | null, message?: string): T;\n/** Parses an integer string to a 64-bit float. */\ndeclare function parseInt(str: string, radix?: i32): f64;\n/** Parses an integer string to a 32-bit integer. */\ndeclare function parseI32(str: string, radix?: i32): i32;\n/** Parses a floating point string to a 64-bit float. */\ndeclare function parseFloat(str: string): f64;\n/** Returns the 64-bit floating-point remainder of `x/y`. */\ndeclare function fmod(x: f64, y: f64): f64;\n/** Returns the 32-bit floating-point remainder of `x/y`. */\ndeclare function fmodf(x: f32, y: f32): f32;\n\n/** Converts any other numeric value to an 8-bit signed integer. */\ndeclare function i8(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): i8;\ndeclare namespace i8 {\n /** Smallest representable value. */\n export const MIN_VALUE: i8;\n /** Largest representable value. */\n export const MAX_VALUE: i8;\n /** Converts a string to a floating-point number and cast to target integer after. */\n export function parseFloat(string: string): i8;\n /** Converts A string to an integer. */\n export function parseInt(string: string, radix?: i32): i8;\n}\n/** Converts any other numeric value to a 16-bit signed integer. */\ndeclare function i16(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): i8;\ndeclare namespace i16 {\n /** Smallest representable value. */\n export const MIN_VALUE: i16;\n /** Largest representable value. */\n export const MAX_VALUE: i16;\n /** Converts a string to a floating-point number and cast to target integer after. */\n export function parseFloat(string: string): i16;\n /** Converts A string to an integer. */\n export function parseInt(string: string, radix?: i32): i16;\n}\n/** Converts any other numeric value to a 32-bit signed integer. */\ndeclare function i32(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): i32;\ndeclare namespace i32 {\n /** Smallest representable value. */\n export const MIN_VALUE: i32;\n /** Largest representable value. */\n export const MAX_VALUE: i32;\n /** Converts a string to a floating-point number and cast to target integer after. */\n export function parseFloat(string: string): i32;\n /** Converts A string to an integer. */\n export function parseInt(string: string, radix?: i32): i32;\n}\n/** Converts any other numeric value to a 32-bit (in WASM32) respectivel 64-bit (in WASM64) signed integer. */\ndeclare function isize(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): isize;\ndeclare namespace isize {\n /** Smallest representable value. */\n export const MIN_VALUE: isize;\n /** Largest representable value. */\n export const MAX_VALUE: isize;\n /** Converts a string to a floating-point number and cast to target integer after. */\n export function parseFloat(string: string): isize;\n /** Converts A string to an integer. */\n export function parseInt(string: string, radix?: i32): isize;\n}\n/** Converts any other numeric value to an 8-bit unsigned integer. */\ndeclare function u8(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): i8;\ndeclare namespace u8 {\n /** Smallest representable value. */\n export const MIN_VALUE: u8;\n /** Largest representable value. */\n export const MAX_VALUE: u8;\n /** Converts a string to a floating-point number and cast to target integer after. */\n export function parseFloat(string: string): u8;\n /** Converts A string to an integer. */\n export function parseInt(string: string, radix?: i32): u8;\n}\n/** Converts any other numeric value to a 16-bit unsigned integer. */\ndeclare function u16(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): i8;\ndeclare namespace u16 {\n /** Smallest representable value. */\n export const MIN_VALUE: u16;\n /** Largest representable value. */\n export const MAX_VALUE: u16;\n /** Converts a string to a floating-point number and cast to target integer after. */\n export function parseFloat(string: string): u16;\n /** Converts A string to an integer. */\n export function parseInt(string: string, radix?: i32): u16;\n}\n/** Converts any other numeric value to a 32-bit unsigned integer. */\ndeclare function u32(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): i32;\ndeclare namespace u32 {\n /** Smallest representable value. */\n export const MIN_VALUE: u32;\n /** Largest representable value. */\n export const MAX_VALUE: u32;\n /** Converts a string to a floating-point number and cast to target integer after. */\n export function parseFloat(string: string): u32;\n /** Converts A string to an integer. */\n export function parseInt(string: string, radix?: i32): u32;\n}\n/** Converts any other numeric value to a 32-bit (in WASM32) respectivel 64-bit (in WASM64) unsigned integer. */\ndeclare function usize(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): isize;\ndeclare namespace usize {\n /** Smallest representable value. */\n export const MIN_VALUE: usize;\n /** Largest representable value. */\n export const MAX_VALUE: usize;\n /** Converts a string to a floating-point number and cast to target integer after. */\n export function parseFloat(string: string): usize;\n /** Converts A string to an integer. */\n export function parseInt(string: string, radix?: i32): usize;\n}\n/** Converts any other numeric value to a 1-bit unsigned integer. */\ndeclare function bool(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): bool;\ndeclare namespace bool {\n /** Smallest representable value. */\n export const MIN_VALUE: bool;\n /** Largest representable value. */\n export const MAX_VALUE: bool;\n}\n/** Converts any other numeric value to a 32-bit float. */\ndeclare function f32(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): f32;\ndeclare namespace f32 {\n /** Smallest representable value. */\n export const MIN_VALUE: f32;\n /** Largest representable value. */\n export const MAX_VALUE: f32;\n /** Smallest normalized positive value. */\n export const MIN_POSITIVE_VALUE: f32;\n /** Smallest safely representable integer value. */\n export const MIN_SAFE_INTEGER: f32;\n /** Largest safely representable integer value. */\n export const MAX_SAFE_INTEGER: f32;\n /** Difference between 1 and the smallest representable value greater than 1. */\n export const EPSILON: f32;\n /** Returns a boolean value that indicates whether a value is the reserved value NaN (not a number). */\n export function isNaN(value: f32): bool;\n /** Returns true if passed value is finite. */\n export function isFinite(value: f32): bool;\n /** Returns true if the value passed is a safe integer. */\n export function isSafeInteger(value: f32): bool;\n /** Returns true if the value passed is an integer, false otherwise. */\n export function isInteger(value: f32): bool;\n /** Converts a string to a floating-point number. */\n export function parseFloat(string: string): f32;\n /** Converts A string to an integer. */\n export function parseInt(string: string, radix?: i32): f32;\n}\n/** Converts any other numeric value to a 64-bit float. */\ndeclare function f64(value: i8 | i16 | i32 | isize | u8 | u16 | u32 | usize | bool | f32 | f64): f64;\ndeclare namespace f64 {\n /** Smallest representable value. */\n export const MIN_VALUE: f64;\n /** Largest representable value. */\n export const MAX_VALUE: f64;\n /** Smallest normalized positive value. */\n export const MIN_POSITIVE_VALUE: f64;\n /** Smallest safely representable integer value. */\n export const MIN_SAFE_INTEGER: f64;\n /** Largest safely representable integer value. */\n export const MAX_SAFE_INTEGER: f64;\n /** Difference between 1 and the smallest representable value greater than 1. */\n export const EPSILON: f64;\n /** Returns a boolean value that indicates whether a value is the reserved value NaN (not a number). */\n export function isNaN(value: f32): bool;\n /** Returns true if passed value is finite. */\n export function isFinite(value: f32): bool;\n /** Returns true if the value passed is a safe integer. */\n export function isSafeInteger(value: f64): bool;\n /** Returns true if the value passed is an integer, false otherwise. */\n export function isInteger(value: f64): bool;\n /** Converts a string to a floating-point number. */\n export function parseFloat(string: string): f64;\n /** Converts A string to an integer. */\n export function parseInt(string: string, radix?: i32): f64;\n}\n\n// Polyfills\n\n/** [Polyfill] Performs the sign-agnostic reverse bytes **/\ndeclare function bswap(value: T): T;\n/** [Polyfill] Performs the sign-agnostic reverse bytes only for last 16-bit **/\ndeclare function bswap16(value: T): T;\n\n// Standard library\n\n/** Memory operations. */\ndeclare namespace memory {\n /** Allocates a chunk of memory of the specified size and returns a pointer to it. */\n function allocate(size: usize): usize;\n /** Disposes a chunk of memory by its pointer. */\n function free(ptr: usize): void;\n /** Copies n bytes from the specified source to the specified destination in memory. These regions may overlap. */\n function copy(dst: usize, src: usize, n: usize): void;\n /** Fills size bytes from from the specified destination by same value in memory. */\n function fill(dst: usize, value: u8, size: usize): void;\n /** Resets the allocator to its initial state, if supported. */\n function reset(): void;\n}\n\n/** Class representing a generic, fixed-length raw binary data buffer. */\ndeclare class ArrayBuffer {\n /** The size, in bytes, of the array. */\n readonly byteLength: i32;\n /** Returns true if value is one of the ArrayBuffer views, such as typed array or a DataView **/\n static isView(value: T): bool;\n /** Constructs a new array buffer of the given length in bytes. */\n constructor(length: i32);\n /** Returns a copy of this array buffer's bytes from begin, inclusive, up to end, exclusive. */\n slice(begin?: i32, end?: i32): ArrayBuffer;\n /** Returns a string representation of ArrayBuffer. */\n toString(): string;\n}\n\n/** The `DataView` view provides a low-level interface for reading and writing multiple number types in a binary `ArrayBuffer`, without having to care about the platform's endianness. */\ndeclare class DataView {\n /** The `buffer` accessor property represents the `ArrayBuffer` or `SharedArrayBuffer` referenced by the `DataView` at construction time. */\n readonly buffer: ArrayBuffer;\n /** The `byteLength` accessor property represents the length (in bytes) of this view from the start of its `ArrayBuffer` or `SharedArrayBuffer`. */\n readonly byteLength: i32;\n /** The `byteOffset` accessor property represents the offset (in bytes) of this view from the start of its `ArrayBuffer` or `SharedArrayBuffer`. */\n readonly byteOffset: i32;\n /** Constructs a new `DataView` with the given properties */\n constructor(buffer: ArrayBuffer, byteOffset?: i32, byteLength?: i32);\n /** The `getFloat32()` method gets a signed 32-bit float (float) at the specified byte offset from the start of the `DataView`. */\n getFloat32(byteOffset: i32, littleEndian?: boolean): f32;\n /** The `getFloat64()` method gets a signed 64-bit float (double) at the specified byte offset from the start of the `DataView`. */\n getFloat64(byteOffset: i32, littleEndian?: boolean): f64;\n /** The `getInt8()` method gets a signed 8-bit integer (byte) at the specified byte offset from the start of the `DataView`. */\n getInt8(byteOffset: i32): i8;\n /** The `getInt16()` method gets a signed 16-bit integer (short) at the specified byte offset from the start of the `DataView`. */\n getInt16(byteOffset: i32, littleEndian?: boolean): i16;\n /** The `getInt32()` method gets a signed 32-bit integer (long) at the specified byte offset from the start of the `DataView`. */\n getInt32(byteOffset: i32, littleEndian?: boolean): i32;\n /** The `getUint8()` method gets an unsigned 8-bit integer (unsigned byte) at the specified byte offset from the start of the `DataView`. */\n getUint8(byteOffset: i32): u8;\n /** The `getUint16()` method gets an unsigned 16-bit integer (unsigned short) at the specified byte offset from the start of the `DataView`. */\n getUint16(byteOffset: i32, littleEndian?: boolean): u16;\n /** The `getUint32()` method gets an unsigned 32-bit integer (unsigned long) at the specified byte offset from the start of the `DataView`. */\n getUint32(byteOffset: i32, littleEndian?: boolean): u32;\n /** The `setFloat32()` method stores a signed 32-bit float (float) value at the specified byte offset from the start of the `DataView`. */\n setFloat32(byteOffset: i32, value: f32, littleEndian?: boolean): void;\n /** The `setFloat64()` method stores a signed 64-bit float (double) value at the specified byte offset from the start of the `DataView`. */\n setFloat64(byteOffset: i32, value: f64, littleEndian?: boolean): void;\n /** The `setInt8()` method stores a signed 8-bit integer (byte) value at the specified byte offset from the start of the `DataView`. */\n setInt8(byteOffset: i32, value: i8): void;\n /** The `setInt16()` method stores a signed 16-bit integer (short) value at the specified byte offset from the start of the `DataView`. */\n setInt16(byteOffset: i32, value: i16, littleEndian?: boolean): void;\n /** The `setInt32()` method stores a signed 32-bit integer (long) value at the specified byte offset from the start of the `DataView`. */\n setInt32(byteOffset: i32, value: i32, littleEndian?: boolean): void;\n /** The `setUint8()` method stores an unsigned 8-bit integer (byte) value at the specified byte offset from the start of the `DataView`. */\n setUint8(byteOffset: i32, value: u8): void;\n /** The `setUint16()` method stores an unsigned 16-bit integer (unsigned short) value at the specified byte offset from the start of the `DataView`. */\n setUint16(byteOffset: i32, value: u16, littleEndian?: boolean): void;\n /** The `setUint32()` method stores an unsigned 32-bit integer (unsigned long) value at the specified byte offset from the start of the `DataView`. */\n setUint32(byteOffset: i32, value: u32, littleEndian?: boolean): void;\n /** Returns a string representation of DataView. */\n toString(): string;\n}\n\ndeclare class Array {\n\n static isArray(value: any): value is Array;\n\n [key: number]: T;\n length: i32;\n constructor(capacity?: i32);\n\n fill(value: T, start?: i32, end?: i32): this;\n every(callbackfn: (element: T, index: i32, array?: Array) => bool): bool;\n findIndex(predicate: (element: T, index: i32, array?: Array) => bool): i32;\n includes(searchElement: T, fromIndex?: i32): bool;\n indexOf(searchElement: T, fromIndex?: i32): i32;\n lastIndexOf(searchElement: T, fromIndex?: i32): i32;\n push(element: T): i32;\n concat(items: T[]): T[];\n copyWithin(target: i32, start: i32, end?: i32): this;\n pop(): T;\n forEach(callbackfn: (value: T, index: i32, array: Array) => void): void;\n map(callbackfn: (value: T, index: i32, array: Array) => U): Array;\n filter(callbackfn: (value: T, index: i32, array: Array) => bool): Array;\n reduce(callbackfn: (previousValue: U, currentValue: T, currentIndex: i32, array: Array) => U, initialValue: U): U;\n reduceRight(callbackfn: (previousValue: U, currentValue: T, currentIndex: i32, array: Array) => U, initialValue: U): U;\n shift(): T;\n some(callbackfn: (element: T, index: i32, array?: Array) => bool): bool;\n unshift(element: T): i32;\n slice(from?: i32, to?: i32): Array;\n splice(start: i32, deleteCount?: i32): Array;\n sort(comparator?: (a: T, b: T) => i32): this;\n join(separator?: string): string;\n reverse(): T[];\n toString(): string;\n}\n\ndeclare class Uint8Array extends Array {}\ndeclare class Uint8ClampedArray extends Array {}\ndeclare class Uint16Array extends Array {}\ndeclare class Uint32Array extends Array {}\ndeclare class Int8Array extends Array {}\ndeclare class Int16Array extends Array {}\ndeclare class Int32Array extends Array {}\ndeclare class Float32Array extends Array {}\ndeclare class Float64Array extends Array {}\n\ninterface ArrayLike {\n length: i32;\n [key: number]: T;\n}\n\n/** Interface for a typed view on an array buffer. */\ninterface ArrayBufferView {\n [key: number]: T;\n /** The {@link ArrayBuffer} referenced by this view. */\n readonly buffer: ArrayBuffer;\n /** The offset in bytes from the start of the referenced {@link ArrayBuffer}. */\n readonly byteOffset: i32;\n /** The length in bytes from the start of the referenced {@link ArrayBuffer}. */\n readonly byteLength: i32;\n}\n\ndeclare class String {\n\n static fromCharCode(ls: i32, hs?: i32): string;\n static fromCharCodes(arr: u16[]): string;\n static fromCodePoint(code: i32): string;\n static fromCodePoints(arr: i32[]): string;\n\n readonly length: i32;\n\n private constructor();\n\n charAt(index: i32): string;\n charCodeAt(index: i32): i32;\n concat(other: string): string;\n indexOf(other: string, fromIndex?: i32): i32;\n lastIndexOf(other: string, fromIndex?: i32): i32;\n includes(other: string): bool;\n startsWith(other: string): bool;\n endsWith(other: string): bool;\n substr(start: u32, length?: u32): string;\n substring(from: i32, to?: i32): string;\n trim(): string;\n trimLeft(): string;\n trimRight(): string;\n trimStart(): string;\n trimEnd(): string;\n padStart(targetLength: i32, padString?: string): string;\n padEnd(targetLength: i32, padString?: string): string;\n replace(search: string, replacement: string): string;\n repeat(count?: i32): string;\n slice(beginIndex: i32, endIndex?: i32): string;\n split(separator?: string, limit?: i32): string[];\n toString(): string;\n}\n\ninterface Boolean {}\n\ndeclare class Number {\n private constructor();\n toString(radix?: i32): string;\n}\n\ninterface Object {}\n\ninterface Function {}\n\ninterface RegExp {}\n\ninterface IArguments {}\n\n/** Class for representing a runtime error. Base class of all errors. */\ndeclare class Error {\n\n /** Error name. */\n name: string;\n\n /** Message provided on construction. */\n message: string;\n\n /** Stack trace. */\n stack?: string;\n\n /** Constructs a new error, optionally with a message. */\n constructor(message?: string);\n\n /** Method returns a string representing the specified Error class. */\n toString(): string;\n}\n\n/** Class for indicating an error when a value is not in the set or range of allowed values. */\ndeclare class RangeError extends Error { }\n\n/** Class for indicating an error when a value is not of the expected type. */\ndeclare class TypeError extends Error { }\n\n/** Class for indicating an error when trying to interpret syntactically invalid code. */\ndeclare class SyntaxError extends Error { }\n\ndeclare class Set {\n constructor(entries?: T[]);\n readonly size: i32;\n has(value: T): bool;\n add(value: T): void;\n delete(value: T): bool;\n clear(): void;\n toString(): string;\n [Symbol.iterator](): Iterator;\n}\n\ndeclare class Map {\n constructor(entries?: [K, V][]);\n readonly size: i32;\n set(key: K, value: V): void;\n has(key: K): bool;\n get(key: K): V | null;\n clear(): void;\n entries(): Iterable<[K, V]>;\n keys(): Iterable;\n values(): Iterable;\n delete(key: K): bool;\n toString(): string;\n [Symbol.iterator](): Iterator<[K,V]>;\n}\n\ninterface SymbolConstructor {\n readonly hasInstance: symbol;\n readonly isConcatSpreadable: symbol;\n readonly isRegExp: symbol;\n readonly iterator: symbol;\n readonly match: symbol;\n readonly replace: symbol;\n readonly search: symbol;\n readonly species: symbol;\n readonly split: symbol;\n readonly toPrimitive: symbol;\n readonly toStringTag: symbol;\n readonly unscopables: symbol;\n (description?: string | null): symbol;\n for(key: string): symbol;\n keyFor(sym: symbol): string | null;\n}\ndeclare const Symbol: SymbolConstructor;\n\ninterface Iterable {\n [Symbol.iterator](): Iterator;\n}\n\ninterface Iterator {}\n\ninterface IMath {\n readonly E: f64;\n readonly LN2: f64;\n readonly LN10: f64;\n readonly LOG2E: f64;\n readonly LOG10E: f64;\n readonly PI: f64;\n readonly SQRT1_2: f64;\n readonly SQRT2: f64;\n\n sincos_sin: f64;\n sincos_cos: f64;\n\n abs(x: f64): f64;\n acos(x: f64): f64;\n acosh(x: f64): f64;\n asin(x: f64): f64;\n asinh(x: f64): f64;\n atan(x: f64): f64;\n atan2(y: f64, x: f64): f64;\n atanh(x: f64): f64;\n cbrt(x: f64): f64;\n ceil(x: f64): f64;\n clz32(x: f64): i32;\n cos(x: f64): f64;\n cosh(x: f64): f64;\n exp(x: f64): f64;\n expm1(x: f64): f64;\n floor(x: f64): f64;\n fround(x: f64): f32;\n hypot(value1: f64, value2: f64): f64; // TODO: see std/math\n imul(a: f64, b: f64): i32;\n log(x: f64): f64;\n log10(x: f64): f64;\n log1p(x: f64): f64;\n log2(x: f64): f64;\n max(value1: f64, value2: f64): f64; // TODO: see std/math\n min(value1: f64, value2: f64): f64; // TODO: see std/math\n pow(base: f64, exponent: f64): f64;\n random(): f64;\n round(x: f64): f64;\n sign(x: f64): f64;\n signbit(x: f64): bool;\n sin(x: f64): f64;\n sincos(x: f64): f64;\n sinh(x: f64): f64;\n sqrt(x: f64): f64;\n tan(x: f64): f64;\n tanh(x: f64): f64;\n trunc(x: f64): f64;\n}\n\ndeclare const Math: IMath;\ndeclare const Mathf: IMath;\ndeclare const JSMath: IMath;\n\ndeclare class Date {\n /** Returns the UTC timestamp in milliseconds of the specified date. */\n static UTC(\n year: i32,\n month: i32,\n day: i32,\n hour: i32,\n minute: i32,\n second: i32,\n millisecond: i32\n ): number;\n /** Returns the current UTC timestamp in milliseconds. */\n static now(): number;\n /** Constructs a new date object from an UTC timestamp in milliseconds. */\n constructor(value: number);\n /** Returns the UTC timestamp of this date in milliseconds. */\n getTime(): number;\n /** Sets the UTC timestamp of this date in milliseconds. */\n setTime(value: number): number;\n}\n\ndeclare namespace console {\n /** @deprecated */\n function log(message: string): void;\n}\n"}):(()=>{const 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{\n throw new TypeError('Arguments to path.resolve must be strings');\n } else if (!path) {\n continue;\n }\n\n resolvedPath = path + '/' + resolvedPath;\n resolvedAbsolute = path.charAt(0) === '/';\n }\n\n // At this point the path should be resolved to a full absolute path, but\n // handle relative paths to be safe (might happen when process.cwd() fails)\n\n // Normalize the path\n resolvedPath = normalizeArray(filter(resolvedPath.split('/'), function(p) {\n return !!p;\n }), !resolvedAbsolute).join('/');\n\n return ((resolvedAbsolute ? '/' : '') + resolvedPath) || '.';\n};\n\n// path.normalize(path)\n// posix version\nexports.normalize = function(path) {\n var isAbsolute = exports.isAbsolute(path),\n trailingSlash = substr(path, -1) === '/';\n\n // Normalize the path\n path = normalizeArray(filter(path.split('/'), function(p) {\n return !!p;\n }), !isAbsolute).join('/');\n\n if (!path && !isAbsolute) {\n path = '.';\n }\n if (path && trailingSlash) {\n path += '/';\n }\n\n return (isAbsolute ? '/' : '') + path;\n};\n\n// posix version\nexports.isAbsolute = function(path) {\n return path.charAt(0) === '/';\n};\n\n// posix version\nexports.join = function() {\n var paths = Array.prototype.slice.call(arguments, 0);\n return exports.normalize(filter(paths, function(p, index) {\n if (typeof p !== 'string') {\n throw new TypeError('Arguments to path.join must be strings');\n }\n return p;\n }).join('/'));\n};\n\n\n// path.relative(from, to)\n// posix version\nexports.relative = function(from, to) {\n from = exports.resolve(from).substr(1);\n to = exports.resolve(to).substr(1);\n\n function trim(arr) {\n var start = 0;\n for (; start < arr.length; start++) {\n if (arr[start] !== '') break;\n }\n\n var end = arr.length - 1;\n for (; end >= 0; end--) {\n if (arr[end] !== '') break;\n }\n\n if (start > end) return [];\n return arr.slice(start, end - start + 1);\n }\n\n var fromParts = trim(from.split('/'));\n var toParts = trim(to.split('/'));\n\n var length = Math.min(fromParts.length, toParts.length);\n var samePartsLength = length;\n for (var i = 0; i < length; i++) {\n if (fromParts[i] !== toParts[i]) {\n samePartsLength = i;\n break;\n }\n }\n\n var outputParts = [];\n for (var i = samePartsLength; i < fromParts.length; i++) {\n outputParts.push('..');\n }\n\n outputParts = outputParts.concat(toParts.slice(samePartsLength));\n\n return outputParts.join('/');\n};\n\nexports.sep = '/';\nexports.delimiter = ':';\n\nexports.dirname = function(path) {\n var result = splitPath(path),\n root = result[0],\n dir = result[1];\n\n if (!root && !dir) {\n // No dirname whatsoever\n return '.';\n }\n\n if (dir) {\n // It has a dirname, strip trailing slash\n dir = dir.substr(0, dir.length - 1);\n }\n\n return root + dir;\n};\n\n\nexports.basename = function(path, ext) {\n var f = splitPath(path)[2];\n // TODO: make this comparison case-insensitive on windows?\n if (ext && f.substr(-1 * ext.length) === ext) {\n f = f.substr(0, f.length - ext.length);\n }\n return f;\n};\n\n\nexports.extname = function(path) {\n return splitPath(path)[3];\n};\n\nfunction filter (xs, f) {\n if (xs.filter) return xs.filter(f);\n var res = [];\n for (var i = 0; i < xs.length; i++) {\n if (f(xs[i], i, xs)) res.push(xs[i]);\n }\n return res;\n}\n\n// String.prototype.substr - negative index don't work in IE8\nvar substr = 'ab'.substr(-1) === 'b'\n ? function (str, start, len) { return str.substr(start, len) }\n : function (str, start, len) {\n if (start < 0) start = str.length + start;\n return str.substr(start, len);\n }\n;\n","var g;\n\n// This works in non-strict mode\ng = (function() {\n\treturn this;\n})();\n\ntry {\n\t// This works if eval is allowed (see CSP)\n\tg = g || new Function(\"return this\")();\n} catch (e) {\n\t// This works if the window reference is available\n\tif (typeof window === \"object\") g = window;\n}\n\n// g can still be undefined, but nothing to do about it...\n// We return undefined, instead of nothing here, so it's\n// easier to handle this case. if(!global) { ...}\n\nmodule.exports = g;\n","/**\r\n * Compiler frontend for node.js\r\n *\r\n * Uses the low-level API exported from src/index.ts so it works with the compiler compiled to\r\n * JavaScript as well as the compiler compiled to WebAssembly (eventually). Runs the sources\r\n * directly through ts-node if distribution files are not present (indicated by a `-dev` version).\r\n *\r\n * Can also be packaged as a bundle suitable for in-browser use with the standard library injected\r\n * in the build step. See dist/asc.js for the bundle and webpack.config.js for building details.\r\n *\r\n * @module cli/asc\r\n */\r\n\r\n// Use \".\" instead of \"/\" as cwd in browsers\r\nif (process.browser) process.cwd = function() { return \".\"; };\r\n\r\nconst fs = require(\"fs\");\r\nconst path = require(\"path\");\r\nconst utf8 = require(\"@protobufjs/utf8\");\r\nconst colorsUtil = require(\"./util/colors\");\r\nconst optionsUtil = require(\"./util/options\");\r\nconst mkdirp = require(\"./util/mkdirp\");\r\nconst EOL = process.platform === \"win32\" ? \"\\r\\n\" : \"\\n\";\r\n\r\n// Emscripten adds an `uncaughtException` listener to Binaryen that results in an additional\r\n// useless code fragment on top of an actual error. suppress this:\r\nif (process.removeAllListeners) process.removeAllListeners(\"uncaughtException\");\r\n\r\n// Use distribution files if present, otherwise run the sources directly\r\nvar assemblyscript, isDev = false;\r\n(() => {\r\n try { // `asc` on the command line\r\n assemblyscript = require(\"../dist/assemblyscript.js\");\r\n } catch (e) {\r\n try { // `asc` on the command line without dist files\r\n require(\"ts-node\").register({ project: path.join(__dirname, \"..\", \"src\", \"tsconfig.json\") });\r\n require(\"../src/glue/js\");\r\n assemblyscript = require(\"../src\");\r\n isDev = true;\r\n } catch (e_ts) {\r\n try { // `require(\"dist/asc.js\")` in explicit browser tests\r\n assemblyscript = eval(\"require('./assemblyscript')\");\r\n } catch (e) {\r\n // combine both errors that lead us here\r\n e.stack = e_ts.stack + \"\\n---\\n\" + e.stack;\r\n throw e;\r\n }\r\n }\r\n }\r\n})();\r\n\r\n/** Whether this is a webpack bundle or not. */\r\nexports.isBundle = typeof BUNDLE_VERSION === \"string\";\r\n\r\n/** Whether asc runs the sources directly or not. */\r\nexports.isDev = isDev;\r\n\r\n/** AssemblyScript version. */\r\nexports.version = exports.isBundle ? BUNDLE_VERSION : require(\"../package.json\").version;\r\n\r\n/** Available CLI options. */\r\nexports.options = require(\"./asc.json\");\r\n\r\n/** Common root used in source maps. */\r\nexports.sourceMapRoot = \"assemblyscript:///\";\r\n\r\n/** Prefix used for library files. */\r\nexports.libraryPrefix = assemblyscript.LIBRARY_PREFIX;\r\n\r\n/** Default Binaryen optimization level. */\r\nexports.defaultOptimizeLevel = 2;\r\n\r\n/** Default Binaryen shrink level. */\r\nexports.defaultShrinkLevel = 1;\r\n\r\n/** Bundled library files. */\r\nexports.libraryFiles = exports.isBundle ? BUNDLE_LIBRARY : (() => { // set up if not a bundle\r\n const libDir = path.join(__dirname, \"..\", \"std\", \"assembly\");\r\n const libFiles = require(\"glob\").sync(\"**/!(*.d).ts\", { cwd: libDir });\r\n const bundled = {};\r\n libFiles.forEach(file => bundled[file.replace(/\\.ts$/, \"\")] = fs.readFileSync(path.join(libDir, file), \"utf8\" ));\r\n return bundled;\r\n})();\r\n\r\n/** Bundled definition files. */\r\nexports.definitionFiles = exports.isBundle ? BUNDLE_DEFINITIONS : (() => { // set up if not a bundle\r\n const stdDir = path.join(__dirname, \"..\", \"std\");\r\n return {\r\n \"assembly\": fs.readFileSync(path.join(stdDir, \"assembly\", \"index.d.ts\"), \"utf8\"),\r\n \"portable\": fs.readFileSync(path.join(stdDir, \"portable\", \"index.d.ts\"), \"utf8\")\r\n };\r\n})();\r\n\r\n/** Convenience function that parses and compiles source strings directly. */\r\nexports.compileString = (sources, options) => {\r\n if (typeof sources === \"string\") sources = { \"input.ts\": sources };\r\n const output = Object.create({\r\n stdout: createMemoryStream(),\r\n stderr: createMemoryStream()\r\n });\r\n var argv = [\r\n \"--binaryFile\", \"binary\",\r\n \"--textFile\", \"text\",\r\n ];\r\n Object.keys(options || {}).forEach(key => {\r\n var val = options[key];\r\n if (Array.isArray(val)) val.forEach(val => argv.push(\"--\" + key, String(val)));\r\n else argv.push(\"--\" + key, String(val));\r\n });\r\n exports.main(argv.concat(Object.keys(sources)), {\r\n stdout: output.stdout,\r\n stderr: output.stderr,\r\n readFile: name => sources.hasOwnProperty(name) ? sources[name] : null,\r\n writeFile: (name, contents) => output[name] = contents,\r\n listFiles: () => []\r\n });\r\n return output;\r\n}\r\n\r\n/** Runs the command line utility using the specified arguments array. */\r\nexports.main = function main(argv, options, callback) {\r\n if (typeof options === \"function\") {\r\n callback = options;\r\n options = {};\r\n } else if (!options) {\r\n options = {};\r\n }\r\n\r\n const stdout = options.stdout || process.stdout;\r\n const stderr = options.stderr || process.stderr;\r\n const readFile = options.readFile || readFileNode;\r\n const writeFile = options.writeFile || writeFileNode;\r\n const listFiles = options.listFiles || listFilesNode;\r\n const stats = options.stats || createStats();\r\n\r\n // Output must be specified if not present in the environment\r\n if (!stdout) throw Error(\"'options.stdout' must be specified\");\r\n if (!stderr) throw Error(\"'options.stderr' must be specified\");\r\n\r\n const opts = optionsUtil.parse(argv, exports.options);\r\n const args = opts.options;\r\n argv = opts.arguments;\r\n if (args.noColors) {\r\n colorsUtil.stdout.supported =\r\n colorsUtil.stderr.supported = false;\r\n } else {\r\n colorsUtil.stdout = colorsUtil.from(stdout);\r\n colorsUtil.stderr = colorsUtil.from(stderr);\r\n }\r\n\r\n // Check for unknown arguments\r\n if (opts.unknown.length) {\r\n opts.unknown.forEach(arg => {\r\n stderr.write(colorsUtil.stderr.yellow(\"WARN: \") + \"Unknown option '\" + arg + \"'\" + EOL);\r\n });\r\n }\r\n\r\n // Check for trailing arguments\r\n if (opts.trailing.length) {\r\n stderr.write(colorsUtil.stderr.yellow(\"WARN: \") + \"Unsupported trailing arguments: \" + opts.trailing.join(\" \") + EOL);\r\n }\r\n\r\n // Use default callback if none is provided\r\n if (!callback) callback = function defaultCallback(err) {\r\n var code = 0;\r\n if (err) {\r\n stderr.write(colorsUtil.stderr.red(\"ERROR: \") + err.stack.replace(/^ERROR: /i, \"\") + EOL);\r\n code = 1;\r\n }\r\n return code;\r\n };\r\n\r\n // Just print the version if requested\r\n if (args.version) {\r\n stdout.write(\"Version \" + exports.version + (isDev ? \"-dev\" : \"\") + EOL);\r\n return callback(null);\r\n }\r\n // Print the help message if requested or no source files are provided\r\n if (args.help || !argv.length) {\r\n var out = args.help ? stdout : stderr;\r\n var color = args.help ? colorsUtil.stdout : colorsUtil.stderr;\r\n out.write([\r\n color.white(\"SYNTAX\"),\r\n \" \" + color.cyan(\"asc\") + \" [entryFile ...] [options]\",\r\n \"\",\r\n color.white(\"EXAMPLES\"),\r\n \" \" + color.cyan(\"asc\") + \" hello.ts\",\r\n \" \" + color.cyan(\"asc\") + \" hello.ts -b hello.wasm -t hello.wat\",\r\n \" \" + color.cyan(\"asc\") + \" hello1.ts hello2.ts -b -O > hello.wasm\",\r\n \"\",\r\n color.white(\"OPTIONS\"),\r\n ].concat(\r\n optionsUtil.help(exports.options, 24, EOL)\r\n ).join(EOL) + EOL);\r\n return callback(null);\r\n }\r\n\r\n // I/O must be specified if not present in the environment\r\n if (!fs.readFileSync) {\r\n if (readFile === readFileNode) throw Error(\"'options.readFile' must be specified\");\r\n if (writeFile === writeFileNode) throw Error(\"'options.writeFile' must be specified\");\r\n if (listFiles === listFilesNode) throw Error(\"'options.listFiles' must be specified\");\r\n }\r\n\r\n // Set up base directory\r\n const baseDir = args.baseDir ? path.resolve(args.baseDir) : \".\";\r\n\r\n // Set up transforms\r\n const transforms = [];\r\n if (args.transform) {\r\n args.transform.forEach(transform =>\r\n transforms.push(\r\n require(\r\n path.isAbsolute(transform = transform.trim())\r\n ? transform\r\n : path.join(process.cwd(), transform)\r\n )\r\n )\r\n );\r\n }\r\n function applyTransform(name, ...args) {\r\n transforms.forEach(transform => {\r\n if (typeof transform[name] === \"function\") transform[name](...args);\r\n });\r\n }\r\n\r\n // Begin parsing\r\n var parser = null;\r\n\r\n // Include library files\r\n if (!args.noLib) {\r\n Object.keys(exports.libraryFiles).forEach(libPath => {\r\n if (libPath.indexOf(\"/\") >= 0) return; // in sub-directory: imported on demand\r\n stats.parseCount++;\r\n stats.parseTime += measure(() => {\r\n parser = assemblyscript.parseFile(\r\n exports.libraryFiles[libPath],\r\n exports.libraryPrefix + libPath + \".ts\",\r\n false,\r\n parser\r\n );\r\n });\r\n });\r\n } else { // always include builtins\r\n stats.parseCount++;\r\n stats.parseTime += measure(() => {\r\n parser = assemblyscript.parseFile(\r\n exports.libraryFiles[\"builtins\"],\r\n exports.libraryPrefix + \"builtins.ts\",\r\n false,\r\n parser\r\n );\r\n });\r\n }\r\n const customLibDirs = [];\r\n if (args.lib) {\r\n let lib = args.lib;\r\n if (typeof lib === \"string\") lib = lib.split(\",\");\r\n Array.prototype.push.apply(customLibDirs, lib.map(lib => lib.trim()));\r\n for (let i = 0, k = customLibDirs.length; i < k; ++i) { // custom\r\n let libDir = customLibDirs[i];\r\n let libFiles;\r\n if (libDir.endsWith(\".ts\")) {\r\n libFiles = [ path.basename(libDir) ];\r\n libDir = path.dirname(libDir);\r\n } else {\r\n libFiles = listFiles(libDir);\r\n }\r\n for (let j = 0, l = libFiles.length; j < l; ++j) {\r\n let libPath = libFiles[j];\r\n let libText = readFile(libPath, libDir);\r\n if (libText === null) return callback(Error(\"Library file '\" + libPath + \"' not found.\"));\r\n stats.parseCount++;\r\n stats.parseTime += measure(() => {\r\n parser = assemblyscript.parseFile(\r\n libText,\r\n exports.libraryPrefix + libPath,\r\n false,\r\n parser\r\n );\r\n });\r\n }\r\n }\r\n }\r\n\r\n // Parses the backlog of imported files after including entry files\r\n function parseBacklog() {\r\n var sourcePath, sourceText;\r\n while ((sourcePath = parser.nextFile()) != null) {\r\n\r\n // Load library file if explicitly requested\r\n if (sourcePath.startsWith(exports.libraryPrefix)) {\r\n const plainName = sourcePath.substring(exports.libraryPrefix.length);\r\n const indexName = sourcePath.substring(exports.libraryPrefix.length) + \"/index\";\r\n if (exports.libraryFiles.hasOwnProperty(plainName)) {\r\n sourceText = exports.libraryFiles[plainName];\r\n sourcePath = exports.libraryPrefix + plainName + \".ts\";\r\n } else if (exports.libraryFiles.hasOwnProperty(indexName)) {\r\n sourceText = exports.libraryFiles[indexName];\r\n sourcePath = exports.libraryPrefix + indexName + \".ts\";\r\n } else {\r\n for (let i = 0, k = customLibDirs.length; i < k; ++i) {\r\n sourceText = readFile(plainName + \".ts\", customLibDirs[i]);\r\n if (sourceText !== null) {\r\n sourcePath = exports.libraryPrefix + plainName + \".ts\";\r\n break;\r\n } else {\r\n sourceText = readFile(indexName + \".ts\", customLibDirs[i]);\r\n if (sourceText !== null) {\r\n sourcePath = exports.libraryPrefix + indexName + \".ts\";\r\n break;\r\n }\r\n }\r\n }\r\n }\r\n\r\n // Otherwise try nextFile.ts, nextFile/index.ts, ~lib/nextFile.ts, ~lib/nextFile/index.ts\r\n } else {\r\n const plainName = sourcePath;\r\n const indexName = sourcePath + \"/index\";\r\n sourceText = readFile(plainName + \".ts\", baseDir);\r\n if (sourceText !== null) {\r\n sourcePath = plainName + \".ts\";\r\n } else {\r\n sourceText = readFile(indexName + \".ts\", baseDir);\r\n if (sourceText !== null) {\r\n sourcePath = indexName + \".ts\";\r\n } else if (!plainName.startsWith(\".\")) {\r\n if (exports.libraryFiles.hasOwnProperty(plainName)) {\r\n sourceText = exports.libraryFiles[plainName];\r\n sourcePath = exports.libraryPrefix + plainName + \".ts\";\r\n } else if (exports.libraryFiles.hasOwnProperty(indexName)) {\r\n sourceText = exports.libraryFiles[indexName];\r\n sourcePath = exports.libraryPrefix + indexName + \".ts\";\r\n } else {\r\n for (let i = 0, k = customLibDirs.length; i < k; ++i) {\r\n const dir = customLibDirs[i];\r\n sourceText = readFile(plainName + \".ts\", customLibDirs[i]);\r\n if (sourceText !== null) {\r\n sourcePath = exports.libraryPrefix + plainName + \".ts\";\r\n break;\r\n } else {\r\n sourceText = readFile(indexName + \".ts\", customLibDirs[i]);\r\n if (sourceText !== null) {\r\n sourcePath = exports.libraryPrefix + indexName + \".ts\";\r\n break;\r\n }\r\n }\r\n }\r\n }\r\n }\r\n }\r\n }\r\n if (sourceText == null) {\r\n return callback(Error(\"Import file '\" + sourcePath + \".ts' not found.\"));\r\n }\r\n stats.parseCount++;\r\n stats.parseTime += measure(() => {\r\n assemblyscript.parseFile(sourceText, sourcePath, false, parser);\r\n });\r\n }\r\n if (checkDiagnostics(parser, stderr)) {\r\n return callback(Error(\"Parse error\"));\r\n }\r\n }\r\n\r\n // Include entry files\r\n for (let i = 0, k = argv.length; i < k; ++i) {\r\n const filename = argv[i];\r\n\r\n let sourcePath = String(filename).replace(/\\\\/g, \"/\").replace(/(\\.ts|\\/)$/, \"\");\r\n\r\n // Try entryPath.ts, then entryPath/index.ts\r\n let sourceText = readFile(sourcePath + \".ts\", baseDir);\r\n if (sourceText === null) {\r\n sourceText = readFile(sourcePath + \"/index.ts\", baseDir);\r\n if (sourceText === null) {\r\n return callback(Error(\"Entry file '\" + sourcePath + \".ts' not found.\"));\r\n } else {\r\n sourcePath += \"/index.ts\";\r\n }\r\n } else {\r\n sourcePath += \".ts\";\r\n }\r\n\r\n stats.parseCount++;\r\n stats.parseTime += measure(() => {\r\n parser = assemblyscript.parseFile(sourceText, sourcePath, true, parser);\r\n });\r\n let code = parseBacklog();\r\n if (code) return code;\r\n }\r\n\r\n applyTransform(\"afterParse\", parser);\r\n {\r\n let code = parseBacklog();\r\n if (code) return code;\r\n }\r\n\r\n // Finish parsing\r\n const program = assemblyscript.finishParsing(parser);\r\n\r\n // Set up optimization levels\r\n var optimizeLevel = 0;\r\n var shrinkLevel = 0;\r\n if (args.optimize) {\r\n optimizeLevel = exports.defaultOptimizeLevel;\r\n shrinkLevel = exports.defaultShrinkLevel;\r\n }\r\n if (typeof args.optimizeLevel === \"number\") {\r\n optimizeLevel = args.optimizeLevel;\r\n }\r\n if (typeof args.shrinkLevel === \"number\") {\r\n shrinkLevel = args.shrinkLevel;\r\n }\r\n optimizeLevel = Math.min(Math.max(optimizeLevel, 0), 3);\r\n shrinkLevel = Math.min(Math.max(shrinkLevel, 0), 2);\r\n\r\n // Begin compilation\r\n const compilerOptions = assemblyscript.createOptions();\r\n assemblyscript.setTarget(compilerOptions, 0);\r\n assemblyscript.setNoAssert(compilerOptions, args.noAssert);\r\n assemblyscript.setImportMemory(compilerOptions, args.importMemory);\r\n assemblyscript.setSharedMemory(compilerOptions, args.sharedMemory);\r\n assemblyscript.setImportTable(compilerOptions, args.importTable);\r\n assemblyscript.setMemoryBase(compilerOptions, args.memoryBase >>> 0);\r\n assemblyscript.setSourceMap(compilerOptions, args.sourceMap != null);\r\n assemblyscript.setOptimizeLevelHints(compilerOptions, optimizeLevel, shrinkLevel);\r\n\r\n if (!args.noLib) {\r\n // Initialize default aliases\r\n assemblyscript.setGlobalAlias(compilerOptions, \"Math\", \"NativeMath\");\r\n assemblyscript.setGlobalAlias(compilerOptions, \"Mathf\", \"NativeMathf\");\r\n assemblyscript.setGlobalAlias(compilerOptions, \"abort\", \"~lib/env/abort\");\r\n assemblyscript.setGlobalAlias(compilerOptions, \"trace\", \"~lib/env/trace\");\r\n }\r\n\r\n // Add or override aliases if specified\r\n if (args.use) {\r\n let aliases = args.use;\r\n for (let i = 0, k = aliases.length; i < k; ++i) {\r\n let part = aliases[i];\r\n let p = part.indexOf(\"=\");\r\n if (p < 0) return callback(Error(\"Global alias '\" + part + \"' is invalid.\"));\r\n let name = part.substring(0, p).trim();\r\n let alias = part.substring(p + 1).trim();\r\n if (!name.length) return callback(Error(\"Global alias '\" + part + \"' is invalid.\"));\r\n assemblyscript.setGlobalAlias(compilerOptions, name, alias);\r\n }\r\n }\r\n\r\n // Enable additional features if specified\r\n var features = args.enable;\r\n if (features != null) {\r\n if (typeof features === \"string\") features = features.split(\",\");\r\n for (let i = 0, k = features.length; i < k; ++i) {\r\n let name = features[i].trim();\r\n let flag = assemblyscript[\"FEATURE_\" + name.replace(/\\-/g, \"_\").toUpperCase()];\r\n if (!flag) return callback(Error(\"Feature '\" + name + \"' is unknown.\"));\r\n assemblyscript.enableFeature(compilerOptions, flag);\r\n }\r\n }\r\n\r\n var module;\r\n stats.compileCount++;\r\n (() => {\r\n try {\r\n stats.compileTime += measure(() => {\r\n module = assemblyscript.compileProgram(program, compilerOptions);\r\n });\r\n } catch (e) {\r\n return callback(e);\r\n }\r\n })();\r\n if (checkDiagnostics(parser, stderr)) {\r\n if (module) module.dispose();\r\n return callback(Error(\"Compile error\"));\r\n }\r\n\r\n // Validate the module if requested\r\n if (args.validate) {\r\n stats.validateCount++;\r\n stats.validateTime += measure(() => {\r\n if (!module.validate()) {\r\n module.dispose();\r\n return callback(Error(\"Validate error\"));\r\n }\r\n });\r\n }\r\n\r\n // Set Binaryen-specific options\r\n if (args.trapMode === \"clamp\") {\r\n stats.optimizeCount++;\r\n stats.optimizeTime += measure(() => {\r\n module.runPasses([ \"trap-mode-clamp\" ]);\r\n });\r\n } else if (args.trapMode === \"js\") {\r\n stats.optimizeCount++;\r\n stats.optimizeTime += measure(() => {\r\n module.runPasses([ \"trap-mode-js\" ]);\r\n });\r\n } else if (args.trapMode !== \"allow\") {\r\n module.dispose();\r\n return callback(Error(\"Unsupported trap mode\"));\r\n }\r\n\r\n // Implicitly run costly non-LLVM optimizations on -O3 or -Oz\r\n // see: https://github.com/WebAssembly/binaryen/pull/1596\r\n if (optimizeLevel >= 3 || shrinkLevel >= 2) optimizeLevel = 4;\r\n\r\n module.setOptimizeLevel(optimizeLevel);\r\n module.setShrinkLevel(shrinkLevel);\r\n module.setDebugInfo(args.debug);\r\n\r\n var runPasses = [];\r\n if (args.runPasses) {\r\n if (typeof args.runPasses === \"string\") {\r\n args.runPasses = args.runPasses.split(\",\");\r\n }\r\n if (args.runPasses.length) {\r\n args.runPasses.forEach(pass => {\r\n if (runPasses.indexOf(pass) < 0)\r\n runPasses.push(pass);\r\n });\r\n }\r\n }\r\n\r\n // Optimize the module if requested\r\n if (optimizeLevel > 0 || shrinkLevel > 0) {\r\n stats.optimizeCount++;\r\n stats.optimizeTime += measure(() => {\r\n module.optimize();\r\n });\r\n }\r\n\r\n // Run additional passes if requested\r\n if (runPasses.length) {\r\n stats.optimizeCount++;\r\n stats.optimizeTime += measure(() => {\r\n module.runPasses(runPasses.map(pass => pass.trim()));\r\n });\r\n }\r\n\r\n // Prepare output\r\n if (!args.noEmit) {\r\n let hasStdout = false;\r\n let hasOutput = false;\r\n\r\n if (args.outFile != null) {\r\n if (/\\.was?t$/.test(args.outFile) && args.textFile == null) {\r\n args.textFile = args.outFile;\r\n } else if (/\\.js$/.test(args.outFile) && args.asmjsFile == null) {\r\n args.asmjsFile = args.outFile;\r\n } else if (args.binaryFile == null) {\r\n args.binaryFile = args.outFile;\r\n }\r\n }\r\n\r\n // Write binary\r\n if (args.binaryFile != null) {\r\n let sourceMapURL = args.sourceMap != null\r\n ? args.sourceMap.length\r\n ? args.sourceMap\r\n : path.basename(args.binaryFile) + \".map\"\r\n : null;\r\n\r\n let wasm;\r\n stats.emitCount++;\r\n stats.emitTime += measure(() => {\r\n wasm = module.toBinary(sourceMapURL)\r\n });\r\n\r\n if (args.binaryFile.length) {\r\n writeFile(args.binaryFile, wasm.output, baseDir);\r\n } else {\r\n writeStdout(wasm.output);\r\n hasStdout = true;\r\n }\r\n hasOutput = true;\r\n\r\n // Post-process source map\r\n if (wasm.sourceMap != null) {\r\n if (args.binaryFile.length) {\r\n let sourceMap = JSON.parse(wasm.sourceMap);\r\n sourceMap.sourceRoot = exports.sourceMapRoot;\r\n sourceMap.sources.forEach((name, index) => {\r\n let text = null;\r\n if (name.startsWith(exports.libraryPrefix)) {\r\n let stdName = name.substring(exports.libraryPrefix.length).replace(/\\.ts$/, \"\");\r\n if (exports.libraryFiles.hasOwnProperty(stdName)) {\r\n text = exports.libraryFiles[stdName];\r\n } else {\r\n for (let i = 0, k = customLibDirs.length; i < k; ++i) {\r\n text = readFile(name.substring(exports.libraryPrefix.length), customLibDirs[i]);\r\n if (text !== null) break;\r\n }\r\n }\r\n } else {\r\n text = readFile(name, baseDir);\r\n }\r\n if (text === null) {\r\n return callback(Error(\"Source file '\" + name + \"' not found.\"));\r\n }\r\n if (!sourceMap.sourceContents) sourceMap.sourceContents = [];\r\n sourceMap.sourceContents[index] = text;\r\n });\r\n writeFile(path.join(\r\n path.dirname(args.binaryFile),\r\n path.basename(sourceMapURL)\r\n ).replace(/^\\.\\//, \"\"), JSON.stringify(sourceMap), baseDir);\r\n } else {\r\n stderr.write(\"Skipped source map (stdout already occupied)\" + EOL);\r\n }\r\n }\r\n }\r\n\r\n // Write asm.js\r\n if (args.asmjsFile != null) {\r\n let asm;\r\n if (args.asmjsFile.length) {\r\n stats.emitCount++;\r\n stats.emitTime += measure(() => {\r\n asm = module.toAsmjs();\r\n });\r\n writeFile(args.asmjsFile, asm, baseDir);\r\n } else if (!hasStdout) {\r\n stats.emitCount++;\r\n stats.emitTime += measure(() => {\r\n asm = module.toAsmjs();\r\n });\r\n writeStdout(asm);\r\n hasStdout = true;\r\n }\r\n hasOutput = true;\r\n }\r\n\r\n // Write WebIDL\r\n if (args.idlFile != null) {\r\n let idl;\r\n if (args.idlFile.length) {\r\n stats.emitCount++;\r\n stats.emitTime += measure(() => {\r\n idl = assemblyscript.buildIDL(program);\r\n });\r\n writeFile(args.idlFile, idl, baseDir);\r\n } else if (!hasStdout) {\r\n stats.emitCount++;\r\n stats.emitTime += measure(() => {\r\n idl = assemblyscript.buildIDL(program);\r\n });\r\n writeStdout(idl);\r\n hasStdout = true;\r\n }\r\n hasOutput = true;\r\n }\r\n\r\n // Write TypeScript definition\r\n if (args.tsdFile != null) {\r\n let tsd;\r\n if (args.tsdFile.length) {\r\n stats.emitCount++;\r\n stats.emitTime += measure(() => {\r\n tsd = assemblyscript.buildTSD(program);\r\n });\r\n writeFile(args.tsdFile, tsd, baseDir);\r\n } else if (!hasStdout) {\r\n stats.emitCount++;\r\n stats.emitTime += measure(() => {\r\n tsd = assemblyscript.buildTSD(program);\r\n });\r\n writeStdout(tsd);\r\n hasStdout = true;\r\n }\r\n hasOutput = true;\r\n }\r\n\r\n // Write text (must be last)\r\n if (args.textFile != null || !hasOutput) {\r\n let wat;\r\n if (args.textFile && args.textFile.length) {\r\n stats.emitCount++;\r\n stats.emitTime += measure(() => {\r\n wat = module.toText();\r\n });\r\n writeFile(args.textFile, wat, baseDir);\r\n } else if (!hasStdout) {\r\n stats.emitCount++;\r\n stats.emitTime += measure(() => {\r\n wat = module.toText()\r\n });\r\n writeStdout(wat);\r\n }\r\n }\r\n }\r\n\r\n module.dispose();\r\n if (args.measure) {\r\n printStats(stats, stderr);\r\n }\r\n return callback(null);\r\n\r\n function readFileNode(filename, baseDir) {\r\n try {\r\n let text;\r\n stats.readCount++;\r\n stats.readTime += measure(() => {\r\n text = fs.readFileSync(path.join(baseDir, filename), { encoding: \"utf8\" });\r\n });\r\n return text;\r\n } catch (e) {\r\n return null;\r\n }\r\n }\r\n\r\n function writeFileNode(filename, contents, baseDir) {\r\n try {\r\n stats.writeCount++;\r\n stats.writeTime += measure(() => {\r\n mkdirp(path.join(baseDir, path.dirname(filename)));\r\n if (typeof contents === \"string\") {\r\n fs.writeFileSync(path.join(baseDir, filename), contents, { encoding: \"utf8\" } );\r\n } else {\r\n fs.writeFileSync(path.join(baseDir, filename), contents);\r\n }\r\n });\r\n return true;\r\n } catch (e) {\r\n return false;\r\n }\r\n }\r\n\r\n function listFilesNode(dirname, baseDir) {\r\n var files;\r\n try {\r\n stats.readTime += measure(() => {\r\n files = fs.readdirSync(path.join(baseDir, dirname)).filter(file => /^(?!.*\\.d\\.ts$).*\\.ts$/.test(file));\r\n });\r\n return files;\r\n } catch (e) {\r\n return [];\r\n }\r\n }\r\n\r\n function writeStdout(contents) {\r\n if (!writeStdout.used) {\r\n stats.writeCount++;\r\n writeStdout.used = true;\r\n }\r\n stats.writeTime += measure(() => {\r\n if (typeof contents === \"string\") {\r\n stdout.write(contents, { encoding: \"utf8\" });\r\n } else {\r\n stdout.write(contents);\r\n }\r\n });\r\n }\r\n}\r\n\r\n/** Checks diagnostics emitted so far for errors. */\r\nfunction checkDiagnostics(emitter, stderr) {\r\n var diagnostic;\r\n var hasErrors = false;\r\n while ((diagnostic = assemblyscript.nextDiagnostic(emitter)) != null) {\r\n if (stderr) {\r\n stderr.write(\r\n assemblyscript.formatDiagnostic(diagnostic, stderr.isTTY, true) +\r\n EOL + EOL\r\n );\r\n }\r\n if (assemblyscript.isError(diagnostic)) hasErrors = true;\r\n }\r\n return hasErrors;\r\n}\r\n\r\nexports.checkDiagnostics = checkDiagnostics;\r\n\r\n/** Creates an empty set of stats. */\r\nfunction createStats() {\r\n return {\r\n readTime: 0,\r\n readCount: 0,\r\n writeTime: 0,\r\n writeCount: 0,\r\n parseTime: 0,\r\n parseCount: 0,\r\n compileTime: 0,\r\n compileCount: 0,\r\n emitTime: 0,\r\n emitCount: 0,\r\n validateTime: 0,\r\n validateCount: 0,\r\n optimizeTime: 0,\r\n optimizeCount: 0\r\n };\r\n}\r\n\r\nexports.createStats = createStats;\r\n\r\nif (!process.hrtime) process.hrtime = require(\"browser-process-hrtime\");\r\n\r\n/** Measures the execution time of the specified function. */\r\nfunction measure(fn) {\r\n const start = process.hrtime();\r\n fn();\r\n const times = process.hrtime(start);\r\n return times[0] * 1e9 + times[1];\r\n}\r\n\r\nexports.measure = measure;\r\n\r\n/** Formats a high resolution time to a human readable string. */\r\nfunction formatTime(time) {\r\n return time ? (time / 1e6).toFixed(3) + \" ms\" : \"N/A\";\r\n}\r\n\r\nexports.formatTime = formatTime;\r\n\r\n/** Formats and prints out the contents of a set of stats. */\r\nfunction printStats(stats, output) {\r\n function format(time, count) {\r\n return formatTime(time);\r\n }\r\n (output || process.stdout).write([\r\n \"I/O Read : \" + format(stats.readTime, stats.readCount),\r\n \"I/O Write : \" + format(stats.writeTime, stats.writeCount),\r\n \"Parse : \" + format(stats.parseTime, stats.parseCount),\r\n \"Compile : \" + format(stats.compileTime, stats.compileCount),\r\n \"Emit : \" + format(stats.emitTime, stats.emitCount),\r\n \"Validate : \" + format(stats.validateTime, stats.validateCount),\r\n \"Optimize : \" + format(stats.optimizeTime, stats.optimizeCount)\r\n ].join(EOL) + EOL);\r\n}\r\n\r\nexports.printStats = printStats;\r\n\r\nvar allocBuffer = typeof global !== \"undefined\" && global.Buffer\r\n ? global.Buffer.allocUnsafe || function(len) { return new global.Buffer(len); }\r\n : function(len) { return new Uint8Array(len) };\r\n\r\n/** Creates a memory stream that can be used in place of stdout/stderr. */\r\nfunction createMemoryStream(fn) {\r\n var stream = [];\r\n stream.write = function(chunk) {\r\n if (fn) fn(chunk);\r\n if (typeof chunk === \"string\") {\r\n let buffer = allocBuffer(utf8.length(chunk));\r\n utf8.write(chunk, buffer, 0);\r\n chunk = buffer;\r\n }\r\n this.push(chunk);\r\n };\r\n stream.reset = function() {\r\n stream.length = 0;\r\n };\r\n stream.toBuffer = function() {\r\n var offset = 0, i = 0, k = this.length;\r\n while (i < k) offset += this[i++].length;\r\n var buffer = allocBuffer(offset);\r\n offset = i = 0;\r\n while (i < k) {\r\n buffer.set(this[i], offset);\r\n offset += this[i].length;\r\n ++i;\r\n }\r\n return buffer;\r\n };\r\n stream.toString = function() {\r\n var buffer = this.toBuffer();\r\n return utf8.read(buffer, 0, buffer.length);\r\n };\r\n return stream;\r\n}\r\n\r\nexports.createMemoryStream = createMemoryStream;\r\n\r\n/** Compatible TypeScript compiler options for syntax highlighting etc. */\r\nexports.tscOptions = {\r\n alwaysStrict: true,\r\n noImplicitAny: true,\r\n noImplicitReturns: true,\r\n noImplicitThis: true,\r\n noEmitOnError: true,\r\n strictNullChecks: true,\r\n experimentalDecorators: true,\r\n target: \"esnext\",\r\n module: \"commonjs\",\r\n noLib: true,\r\n types: [],\r\n allowJs: false\r\n};\r\n","\"use strict\";\r\n\r\n/**\r\n * A minimal UTF8 implementation for number arrays.\r\n * @memberof util\r\n * @namespace\r\n */\r\nvar utf8 = exports;\r\n\r\n/**\r\n * Calculates the UTF8 byte length of a string.\r\n * @param {string} string String\r\n * @returns {number} Byte length\r\n */\r\nutf8.length = function utf8_length(string) {\r\n var len = 0,\r\n c = 0;\r\n for (var i = 0; i < string.length; ++i) {\r\n c = string.charCodeAt(i);\r\n if (c < 128)\r\n len += 1;\r\n else if (c < 2048)\r\n len += 2;\r\n else if ((c & 0xFC00) === 0xD800 && (string.charCodeAt(i + 1) & 0xFC00) === 0xDC00) {\r\n ++i;\r\n len += 4;\r\n } else\r\n len += 3;\r\n }\r\n return len;\r\n};\r\n\r\n/**\r\n * Reads UTF8 bytes as a string.\r\n * @param {Uint8Array} buffer Source buffer\r\n * @param {number} start Source start\r\n * @param {number} end Source end\r\n * @returns {string} String read\r\n */\r\nutf8.read = function utf8_read(buffer, start, end) {\r\n var len = end - start;\r\n if (len < 1)\r\n return \"\";\r\n var parts = null,\r\n chunk = [],\r\n i = 0, // char offset\r\n t; // temporary\r\n while (start < end) {\r\n t = buffer[start++];\r\n if (t < 128)\r\n chunk[i++] = t;\r\n else if (t > 191 && t < 224)\r\n chunk[i++] = (t & 31) << 6 | buffer[start++] & 63;\r\n else if (t > 239 && t < 365) {\r\n t = ((t & 7) << 18 | (buffer[start++] & 63) << 12 | (buffer[start++] & 63) << 6 | buffer[start++] & 63) - 0x10000;\r\n chunk[i++] = 0xD800 + (t >> 10);\r\n chunk[i++] = 0xDC00 + (t & 1023);\r\n } else\r\n chunk[i++] = (t & 15) << 12 | (buffer[start++] & 63) << 6 | buffer[start++] & 63;\r\n if (i > 8191) {\r\n (parts || (parts = [])).push(String.fromCharCode.apply(String, chunk));\r\n i = 0;\r\n }\r\n }\r\n if (parts) {\r\n if (i)\r\n parts.push(String.fromCharCode.apply(String, chunk.slice(0, i)));\r\n return parts.join(\"\");\r\n }\r\n return String.fromCharCode.apply(String, chunk.slice(0, i));\r\n};\r\n\r\n/**\r\n * Writes a string as UTF8 bytes.\r\n * @param {string} string Source string\r\n * @param {Uint8Array} buffer Destination buffer\r\n * @param {number} offset Destination offset\r\n * @returns {number} Bytes written\r\n */\r\nutf8.write = function utf8_write(string, buffer, offset) {\r\n var start = offset,\r\n c1, // character 1\r\n c2; // character 2\r\n for (var i = 0; i < string.length; ++i) {\r\n c1 = string.charCodeAt(i);\r\n if (c1 < 128) {\r\n buffer[offset++] = c1;\r\n } else if (c1 < 2048) {\r\n buffer[offset++] = c1 >> 6 | 192;\r\n buffer[offset++] = c1 & 63 | 128;\r\n } else if ((c1 & 0xFC00) === 0xD800 && ((c2 = string.charCodeAt(i + 1)) & 0xFC00) === 0xDC00) {\r\n c1 = 0x10000 + ((c1 & 0x03FF) << 10) + (c2 & 0x03FF);\r\n ++i;\r\n buffer[offset++] = c1 >> 18 | 240;\r\n buffer[offset++] = c1 >> 12 & 63 | 128;\r\n buffer[offset++] = c1 >> 6 & 63 | 128;\r\n buffer[offset++] = c1 & 63 | 128;\r\n } else {\r\n buffer[offset++] = c1 >> 12 | 224;\r\n buffer[offset++] = c1 >> 6 & 63 | 128;\r\n buffer[offset++] = c1 & 63 | 128;\r\n }\r\n }\r\n return offset - start;\r\n};\r\n","var proc = typeof process !== \"undefined\" && process || {};\r\nvar isCI = proc.env && \"CI\" in proc.env; // doesn't work when bundled because 'process' is a mock\r\n\r\nfunction from(stream, base) {\r\n var colors = base || {};\r\n colors.supported = (stream && !!stream.isTTY) || isCI;\r\n colors.gray = text => colors.supported ? exports.GRAY + text + exports.RESET : text;\r\n colors.red = text => colors.supported ? exports.RED + text + exports.RESET : text;\r\n colors.green = text => colors.supported ? exports.GREEN + text + exports.RESET : text;\r\n colors.yellow = text => colors.supported ? exports.YELLOW + text + exports.RESET : text;\r\n colors.blue = text => colors.supported ? exports.BLUE + text + exports.RESET : text;\r\n colors.magenta = text => colors.supported ? exports.MAGENTA + text + exports.RESET : text;\r\n colors.cyan = text => colors.supported ? exports.CYAN + text + exports.RESET : text;\r\n colors.white = text => colors.supported ? exports.WHITE + text + exports.RESET : text;\r\n return colors;\r\n}\r\n\r\nexports.stdout = from(proc.stdout, exports);\r\nexports.stderr = from(proc.stderr);\r\nexports.from = from;\r\n\r\nexports.GRAY = \"\\u001b[90m\";\r\nexports.RED = \"\\u001b[91m\";\r\nexports.GREEN = \"\\u001b[92m\";\r\nexports.YELLOW = \"\\u001b[93m\";\r\nexports.BLUE = \"\\u001b[94m\";\r\nexports.MAGENTA = \"\\u001b[95m\";\r\nexports.CYAN = \"\\u001b[96m\";\r\nexports.WHITE = \"\\u001b[97m\";\r\nexports.RESET = \"\\u001b[0m\";\r\n","// type | meaning\r\n// -----|---------------\r\n// b | boolean\r\n// i | integer\r\n// f | float\r\n// s | string\r\n// I | integer array\r\n// F | float array\r\n// S | string array\r\n\r\n/** Parses the specified command line arguments according to the given configuration. */\r\nfunction parse(argv, config) {\r\n var options = {};\r\n var unknown = [];\r\n var arguments = [];\r\n var trailing = [];\r\n\r\n // make an alias map and initialize defaults\r\n var aliases = {};\r\n Object.keys(config).forEach(key => {\r\n var option = config[key];\r\n if (option.alias != null) {\r\n if (typeof option.alias === \"string\") aliases[option.alias] = key;\r\n else if (Array.isArray(option.alias)) option.alias.forEach(alias => aliases[alias] = key);\r\n }\r\n if (option.default != null) options[key] = option.default;\r\n });\r\n\r\n // iterate over argv\r\n for (var i = 0, k = (argv = argv.slice()).length; i < k; ++i) {\r\n let arg = argv[i];\r\n if (arg == \"--\") { ++i; break; }\r\n let match = /^(?:(\\-\\w)(?:=(.*))?|(\\-\\-\\w{2,})(?:=(.*))?)$/.exec(arg), option, key;\r\n if (match) {\r\n if (config[arg]) option = config[key = arg]; // exact\r\n else if (match[1] != null) { // alias\r\n option = config[key = aliases[match[1].substring(1)]];\r\n if (option && match[2] != null) argv[i--] = match[2];\r\n } else if (match[3] != null) { // full\r\n option = config[key = match[3].substring(2)];\r\n if (option && match[4] != null) argv[i--] = match[4];\r\n }\r\n } else {\r\n if (arg.charCodeAt(0) == 45) option = config[key = arg]; // exact\r\n else { arguments.push(arg); continue; } // argument\r\n }\r\n if (option) {\r\n if (option.type == null || option.type === \"b\") options[key] = true; // flag\r\n else {\r\n if (i + 1 < argv.length && argv[i + 1].charCodeAt(0) != 45) { // present\r\n switch (option.type) {\r\n case \"i\": options[key] = parseInt(argv[++i], 10); break;\r\n case \"I\": options[key] = (options[key] || []).concat(parseInt(argv[++i], 10)); break;\r\n case \"f\": options[key] = parseFloat(argv[++i]); break;\r\n case \"F\": options[key] = (options[key] || []).concat(parseFloat(argv[++i])); break;\r\n case \"s\": options[key] = String(argv[++i]); break;\r\n case \"S\": options[key] = (options[key] || []).concat(argv[++i].split(\",\")); break;\r\n default: unknown.push(arg); --i;\r\n }\r\n } else { // omitted\r\n switch (option.type) {\r\n case \"i\":\r\n case \"f\": options[key] = option.default || 0; break;\r\n case \"s\": options[key] = option.default || \"\"; break;\r\n case \"I\":\r\n case \"F\":\r\n case \"S\": options[key] = options.default || []; break;\r\n default: unknown.push(arg);\r\n }\r\n }\r\n }\r\n if (option.value) Object.keys(option.value).forEach(k => options[k] = option.value[k]);\r\n } else unknown.push(arg);\r\n }\r\n while (i < k) trailing.push(argv[i++]); // trailing\r\n\r\n return { options, unknown, arguments, trailing };\r\n}\r\n\r\nexports.parse = parse;\r\n\r\n/** Generates the help text for the specified configuration. */\r\nfunction help(config, options) {\r\n if (!options) options = {};\r\n var indent = options.indent || 2;\r\n var padding = options.padding || 24;\r\n var eol = options.eol || \"\\n\";\r\n var sb = [];\r\n Object.keys(config).forEach(key => {\r\n var option = config[key];\r\n if (option.description == null) return;\r\n var text = \"\";\r\n while (text.length < indent) text += \" \";\r\n text += \"--\" + key;\r\n if (option.alias) text += \", -\" + option.alias;\r\n while (text.length < padding) text += \" \";\r\n if (Array.isArray(option.description)) {\r\n sb.push(text + option.description[0] + option.description.slice(1).map(line => {\r\n for (let i = 0; i < padding; ++i) line = \" \" + line;\r\n return eol + line;\r\n }).join(\"\"));\r\n } else sb.push(text + option.description);\r\n });\r\n return sb.join(eol);\r\n}\r\n\r\nexports.help = help;\r\n","/*\r\nCopyright 2010 James Halliday (mail@substack.net)\r\n\r\nThis project is free software released under the MIT/X11 license:\r\n\r\nPermission is hereby granted, free of charge, to any person obtaining a copy\r\nof this software and associated documentation files (the \"Software\"), to deal\r\nin the Software without restriction, including without limitation the rights\r\nto use, copy, modify, merge, publish, distribute, sublicense, and/or sell\r\ncopies of the Software, and to permit persons to whom the Software is\r\nfurnished to do so, subject to the following conditions:\r\n\r\nThe above copyright notice and this permission notice shall be included in\r\nall copies or substantial portions of the Software.\r\n\r\nTHE SOFTWARE IS PROVIDED \"AS IS\", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR\r\nIMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,\r\nFITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. 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function for compatibility with non-harmony modules\n \t__webpack_require__.n = function(module) {\n \t\tvar getter = module && module.__esModule ?\n \t\t\tfunction getDefault() { return module['default']; } :\n \t\t\tfunction getModuleExports() { return module; };\n \t\t__webpack_require__.d(getter, 'a', getter);\n \t\treturn getter;\n \t};\n\n \t// Object.prototype.hasOwnProperty.call\n \t__webpack_require__.o = function(object, property) { return Object.prototype.hasOwnProperty.call(object, property); };\n\n \t// __webpack_public_path__\n \t__webpack_require__.p = \"\";\n\n\n \t// Load entry module and return exports\n \treturn __webpack_require__(__webpack_require__.s = 4);\n","exports.nextTick = function nextTick(fn) {\n\tsetTimeout(fn, 0);\n};\n\nexports.platform = exports.arch = \nexports.execPath = exports.title = 'browser';\nexports.pid = 1;\nexports.browser = true;\nexports.env = {};\nexports.argv = [];\n\nexports.binding = function (name) {\n\tthrow new Error('No such module. (Possibly not yet loaded)')\n};\n\n(function () {\n var cwd = '/';\n var path;\n exports.cwd = function () { return cwd };\n exports.chdir = function (dir) {\n if (!path) path = require('path');\n cwd = path.resolve(dir, cwd);\n };\n})();\n\nexports.exit = exports.kill = \nexports.umask = exports.dlopen = \nexports.uptime = exports.memoryUsage = \nexports.uvCounters = function() {};\nexports.features = {};\n","// Copyright Joyent, Inc. and other Node contributors.\n//\n// Permission is hereby granted, free of charge, to any person obtaining a\n// copy of this software and associated documentation files (the\n// \"Software\"), to deal in the Software without restriction, including\n// without limitation the rights to use, copy, modify, merge, publish,\n// distribute, sublicense, and/or sell copies of the Software, and to permit\n// persons to whom the Software is furnished to do so, subject to the\n// following conditions:\n//\n// The above copyright notice and this permission notice shall be included\n// in all copies or substantial portions of the Software.\n//\n// THE SOFTWARE IS PROVIDED \"AS IS\", WITHOUT WARRANTY OF ANY KIND, EXPRESS\n// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF\n// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN\n// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,\n// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR\n// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE\n// USE OR OTHER DEALINGS IN THE SOFTWARE.\n\n// resolves . and .. elements in a path array with directory names there\n// must be no slashes, empty elements, or device names (c:\\) in the array\n// (so also no leading and trailing slashes - it does not distinguish\n// relative and absolute paths)\nfunction normalizeArray(parts, allowAboveRoot) {\n // if the path tries to go above the root, `up` ends up > 0\n var up = 0;\n for (var i = parts.length - 1; i >= 0; i--) {\n var last = parts[i];\n if (last === '.') {\n parts.splice(i, 1);\n } else if (last === '..') {\n parts.splice(i, 1);\n up++;\n } else if (up) {\n parts.splice(i, 1);\n up--;\n }\n }\n\n // if the path is allowed to go above the root, restore leading ..s\n if (allowAboveRoot) {\n for (; up--; up) {\n parts.unshift('..');\n }\n }\n\n return parts;\n}\n\n// Split a filename into [root, dir, basename, ext], unix version\n// 'root' is just a slash, or nothing.\nvar splitPathRe =\n /^(\\/?|)([\\s\\S]*?)((?:\\.{1,2}|[^\\/]+?|)(\\.[^.\\/]*|))(?:[\\/]*)$/;\nvar splitPath = function(filename) {\n return splitPathRe.exec(filename).slice(1);\n};\n\n// path.resolve([from ...], to)\n// posix version\nexports.resolve = function() {\n var resolvedPath = '',\n resolvedAbsolute = false;\n\n for (var i = arguments.length - 1; i >= -1 && !resolvedAbsolute; i--) {\n var path = (i >= 0) ? arguments[i] : process.cwd();\n\n // Skip empty and invalid entries\n if (typeof path !== 'string') {\n throw new TypeError('Arguments to path.resolve must be strings');\n } else if (!path) {\n continue;\n }\n\n resolvedPath = path + '/' + resolvedPath;\n resolvedAbsolute = path.charAt(0) === '/';\n }\n\n // At this point the path should be resolved to a full absolute path, but\n // handle relative paths to be safe (might happen when process.cwd() fails)\n\n // Normalize the path\n resolvedPath = normalizeArray(filter(resolvedPath.split('/'), function(p) {\n return !!p;\n }), !resolvedAbsolute).join('/');\n\n return ((resolvedAbsolute ? '/' : '') + resolvedPath) || '.';\n};\n\n// path.normalize(path)\n// posix version\nexports.normalize = function(path) {\n var isAbsolute = exports.isAbsolute(path),\n trailingSlash = substr(path, -1) === '/';\n\n // Normalize the path\n path = normalizeArray(filter(path.split('/'), function(p) {\n return !!p;\n }), !isAbsolute).join('/');\n\n if (!path && !isAbsolute) {\n path = '.';\n }\n if (path && trailingSlash) {\n path += '/';\n }\n\n return (isAbsolute ? '/' : '') + path;\n};\n\n// posix version\nexports.isAbsolute = function(path) {\n return path.charAt(0) === '/';\n};\n\n// posix version\nexports.join = function() {\n var paths = Array.prototype.slice.call(arguments, 0);\n return exports.normalize(filter(paths, function(p, index) {\n if (typeof p !== 'string') {\n throw new TypeError('Arguments to path.join must be strings');\n }\n return p;\n }).join('/'));\n};\n\n\n// path.relative(from, to)\n// posix version\nexports.relative = function(from, to) {\n from = exports.resolve(from).substr(1);\n to = exports.resolve(to).substr(1);\n\n function trim(arr) {\n var start = 0;\n for (; start < arr.length; start++) {\n if (arr[start] !== '') break;\n }\n\n var end = arr.length - 1;\n for (; end >= 0; end--) {\n if (arr[end] !== '') break;\n }\n\n if (start > end) return [];\n return arr.slice(start, end - start + 1);\n }\n\n var fromParts = trim(from.split('/'));\n var toParts = trim(to.split('/'));\n\n var length = Math.min(fromParts.length, toParts.length);\n var samePartsLength = length;\n for (var i = 0; i < length; i++) {\n if (fromParts[i] !== toParts[i]) {\n samePartsLength = i;\n break;\n }\n }\n\n var outputParts = [];\n for (var i = samePartsLength; i < fromParts.length; i++) {\n outputParts.push('..');\n }\n\n outputParts = outputParts.concat(toParts.slice(samePartsLength));\n\n return outputParts.join('/');\n};\n\nexports.sep = '/';\nexports.delimiter = ':';\n\nexports.dirname = function(path) {\n var result = splitPath(path),\n root = result[0],\n dir = result[1];\n\n if (!root && !dir) {\n // No dirname whatsoever\n return '.';\n }\n\n if (dir) {\n // It has a dirname, strip trailing slash\n dir = dir.substr(0, dir.length - 1);\n }\n\n return root + dir;\n};\n\n\nexports.basename = function(path, ext) {\n var f = splitPath(path)[2];\n // TODO: make this comparison case-insensitive on windows?\n if (ext && f.substr(-1 * ext.length) === ext) {\n f = f.substr(0, f.length - ext.length);\n }\n return f;\n};\n\n\nexports.extname = function(path) {\n return splitPath(path)[3];\n};\n\nfunction filter (xs, f) {\n if (xs.filter) return xs.filter(f);\n var res = [];\n for (var i = 0; i < xs.length; i++) {\n if (f(xs[i], i, xs)) res.push(xs[i]);\n }\n return res;\n}\n\n// String.prototype.substr - negative index don't work in IE8\nvar substr = 'ab'.substr(-1) === 'b'\n ? function (str, start, len) { return str.substr(start, len) }\n : function (str, start, len) {\n if (start < 0) start = str.length + start;\n return str.substr(start, len);\n }\n;\n","var g;\n\n// This works in non-strict mode\ng = (function() {\n\treturn this;\n})();\n\ntry {\n\t// This works if eval is allowed (see CSP)\n\tg = g || new Function(\"return this\")();\n} catch (e) {\n\t// This works if the window reference is available\n\tif (typeof window === \"object\") g = window;\n}\n\n// g can still be undefined, but nothing to do about it...\n// We return undefined, instead of nothing here, so it's\n// easier to handle this case. if(!global) { ...}\n\nmodule.exports = g;\n","/**\r\n * Compiler frontend for node.js\r\n *\r\n * Uses the low-level API exported from src/index.ts so it works with the compiler compiled to\r\n * JavaScript as well as the compiler compiled to WebAssembly (eventually). Runs the sources\r\n * directly through ts-node if distribution files are not present (indicated by a `-dev` version).\r\n *\r\n * Can also be packaged as a bundle suitable for in-browser use with the standard library injected\r\n * in the build step. See dist/asc.js for the bundle and webpack.config.js for building details.\r\n *\r\n * @module cli/asc\r\n */\r\n\r\n// Use \".\" instead of \"/\" as cwd in browsers\r\nif (process.browser) process.cwd = function() { return \".\"; };\r\n\r\nconst fs = require(\"fs\");\r\nconst path = require(\"path\");\r\nconst utf8 = require(\"@protobufjs/utf8\");\r\nconst colorsUtil = require(\"./util/colors\");\r\nconst optionsUtil = require(\"./util/options\");\r\nconst mkdirp = require(\"./util/mkdirp\");\r\nconst EOL = process.platform === \"win32\" ? \"\\r\\n\" : \"\\n\";\r\n\r\n// Emscripten adds an `uncaughtException` listener to Binaryen that results in an additional\r\n// useless code fragment on top of an actual error. suppress this:\r\nif (process.removeAllListeners) process.removeAllListeners(\"uncaughtException\");\r\n\r\n// Use distribution files if present, otherwise run the sources directly\r\nvar assemblyscript, isDev = false;\r\n(() => {\r\n try { // `asc` on the command line\r\n assemblyscript = require(\"../dist/assemblyscript.js\");\r\n } catch (e) {\r\n try { // `asc` on the command line without dist files\r\n require(\"ts-node\").register({ project: path.join(__dirname, \"..\", \"src\", \"tsconfig.json\") });\r\n require(\"../src/glue/js\");\r\n assemblyscript = require(\"../src\");\r\n isDev = true;\r\n } catch (e_ts) {\r\n try { // `require(\"dist/asc.js\")` in explicit browser tests\r\n assemblyscript = eval(\"require('./assemblyscript')\");\r\n } catch (e) {\r\n // combine both errors that lead us here\r\n e.stack = e_ts.stack + \"\\n---\\n\" + e.stack;\r\n throw e;\r\n }\r\n }\r\n }\r\n})();\r\n\r\n/** Whether this is a webpack bundle or not. */\r\nexports.isBundle = typeof BUNDLE_VERSION === \"string\";\r\n\r\n/** Whether asc runs the sources directly or not. */\r\nexports.isDev = isDev;\r\n\r\n/** AssemblyScript version. */\r\nexports.version = exports.isBundle ? BUNDLE_VERSION : require(\"../package.json\").version;\r\n\r\n/** Available CLI options. */\r\nexports.options = require(\"./asc.json\");\r\n\r\n/** Common root used in source maps. */\r\nexports.sourceMapRoot = \"assemblyscript:///\";\r\n\r\n/** Prefix used for library files. */\r\nexports.libraryPrefix = assemblyscript.LIBRARY_PREFIX;\r\n\r\n/** Default Binaryen optimization level. */\r\nexports.defaultOptimizeLevel = 2;\r\n\r\n/** Default Binaryen shrink level. */\r\nexports.defaultShrinkLevel = 1;\r\n\r\n/** Bundled library files. */\r\nexports.libraryFiles = exports.isBundle ? BUNDLE_LIBRARY : (() => { // set up if not a bundle\r\n const libDir = path.join(__dirname, \"..\", \"std\", \"assembly\");\r\n const libFiles = require(\"glob\").sync(\"**/!(*.d).ts\", { cwd: libDir });\r\n const bundled = {};\r\n libFiles.forEach(file => bundled[file.replace(/\\.ts$/, \"\")] = fs.readFileSync(path.join(libDir, file), \"utf8\" ));\r\n return bundled;\r\n})();\r\n\r\n/** Bundled definition files. */\r\nexports.definitionFiles = exports.isBundle ? BUNDLE_DEFINITIONS : (() => { // set up if not a bundle\r\n const stdDir = path.join(__dirname, \"..\", \"std\");\r\n return {\r\n \"assembly\": fs.readFileSync(path.join(stdDir, \"assembly\", \"index.d.ts\"), \"utf8\"),\r\n \"portable\": fs.readFileSync(path.join(stdDir, \"portable\", \"index.d.ts\"), \"utf8\")\r\n };\r\n})();\r\n\r\n/** Convenience function that parses and compiles source strings directly. */\r\nexports.compileString = (sources, options) => {\r\n if (typeof sources === \"string\") sources = { \"input.ts\": sources };\r\n const output = Object.create({\r\n stdout: createMemoryStream(),\r\n stderr: createMemoryStream()\r\n });\r\n var argv = [\r\n \"--binaryFile\", \"binary\",\r\n \"--textFile\", \"text\",\r\n ];\r\n Object.keys(options || {}).forEach(key => {\r\n var val = options[key];\r\n if (Array.isArray(val)) val.forEach(val => argv.push(\"--\" + key, String(val)));\r\n else argv.push(\"--\" + key, String(val));\r\n });\r\n exports.main(argv.concat(Object.keys(sources)), {\r\n stdout: output.stdout,\r\n stderr: output.stderr,\r\n readFile: name => sources.hasOwnProperty(name) ? sources[name] : null,\r\n writeFile: (name, contents) => output[name] = contents,\r\n listFiles: () => []\r\n });\r\n return output;\r\n}\r\n\r\n/** Runs the command line utility using the specified arguments array. */\r\nexports.main = function main(argv, options, callback) {\r\n if (typeof options === \"function\") {\r\n callback = options;\r\n options = {};\r\n } else if (!options) {\r\n options = {};\r\n }\r\n\r\n const stdout = options.stdout || process.stdout;\r\n const stderr = options.stderr || process.stderr;\r\n const readFile = options.readFile || readFileNode;\r\n const writeFile = options.writeFile || writeFileNode;\r\n const listFiles = options.listFiles || listFilesNode;\r\n const stats = options.stats || createStats();\r\n\r\n // Output must be specified if not present in the environment\r\n if (!stdout) throw Error(\"'options.stdout' must be specified\");\r\n if (!stderr) throw Error(\"'options.stderr' must be specified\");\r\n\r\n const opts = optionsUtil.parse(argv, exports.options);\r\n const args = opts.options;\r\n argv = opts.arguments;\r\n if (args.noColors) {\r\n colorsUtil.stdout.supported =\r\n colorsUtil.stderr.supported = false;\r\n } else {\r\n colorsUtil.stdout = colorsUtil.from(stdout);\r\n colorsUtil.stderr = colorsUtil.from(stderr);\r\n }\r\n\r\n // Check for unknown arguments\r\n if (opts.unknown.length) {\r\n opts.unknown.forEach(arg => {\r\n stderr.write(colorsUtil.stderr.yellow(\"WARN: \") + \"Unknown option '\" + arg + \"'\" + EOL);\r\n });\r\n }\r\n\r\n // Check for trailing arguments\r\n if (opts.trailing.length) {\r\n stderr.write(colorsUtil.stderr.yellow(\"WARN: \") + \"Unsupported trailing arguments: \" + opts.trailing.join(\" \") + EOL);\r\n }\r\n\r\n // Use default callback if none is provided\r\n if (!callback) callback = function defaultCallback(err) {\r\n var code = 0;\r\n if (err) {\r\n stderr.write(colorsUtil.stderr.red(\"ERROR: \") + err.stack.replace(/^ERROR: /i, \"\") + EOL);\r\n code = 1;\r\n }\r\n return code;\r\n };\r\n\r\n // Just print the version if requested\r\n if (args.version) {\r\n stdout.write(\"Version \" + exports.version + (isDev ? \"-dev\" : \"\") + EOL);\r\n return callback(null);\r\n }\r\n // Print the help message if requested or no source files are provided\r\n if (args.help || !argv.length) {\r\n var out = args.help ? stdout : stderr;\r\n var color = args.help ? colorsUtil.stdout : colorsUtil.stderr;\r\n out.write([\r\n color.white(\"SYNTAX\"),\r\n \" \" + color.cyan(\"asc\") + \" [entryFile ...] [options]\",\r\n \"\",\r\n color.white(\"EXAMPLES\"),\r\n \" \" + color.cyan(\"asc\") + \" hello.ts\",\r\n \" \" + color.cyan(\"asc\") + \" hello.ts -b hello.wasm -t hello.wat\",\r\n \" \" + color.cyan(\"asc\") + \" hello1.ts hello2.ts -b -O > hello.wasm\",\r\n \"\",\r\n color.white(\"OPTIONS\"),\r\n ].concat(\r\n optionsUtil.help(exports.options, 24, EOL)\r\n ).join(EOL) + EOL);\r\n return callback(null);\r\n }\r\n\r\n // I/O must be specified if not present in the environment\r\n if (!fs.readFileSync) {\r\n if (readFile === readFileNode) throw Error(\"'options.readFile' must be specified\");\r\n if (writeFile === writeFileNode) throw Error(\"'options.writeFile' must be specified\");\r\n if (listFiles === listFilesNode) throw Error(\"'options.listFiles' must be specified\");\r\n }\r\n\r\n // Set up base directory\r\n const baseDir = args.baseDir ? path.resolve(args.baseDir) : \".\";\r\n\r\n // Set up transforms\r\n const transforms = [];\r\n if (args.transform) {\r\n args.transform.forEach(transform =>\r\n transforms.push(\r\n require(\r\n path.isAbsolute(transform = transform.trim())\r\n ? transform\r\n : path.join(process.cwd(), transform)\r\n )\r\n )\r\n );\r\n }\r\n function applyTransform(name, ...args) {\r\n transforms.forEach(transform => {\r\n if (typeof transform[name] === \"function\") transform[name](...args);\r\n });\r\n }\r\n\r\n // Begin parsing\r\n var parser = null;\r\n\r\n // Include library files\r\n if (!args.noLib) {\r\n Object.keys(exports.libraryFiles).forEach(libPath => {\r\n if (libPath.indexOf(\"/\") >= 0) return; // in sub-directory: imported on demand\r\n stats.parseCount++;\r\n stats.parseTime += measure(() => {\r\n parser = assemblyscript.parseFile(\r\n exports.libraryFiles[libPath],\r\n exports.libraryPrefix + libPath + \".ts\",\r\n false,\r\n parser\r\n );\r\n });\r\n });\r\n } else { // always include builtins\r\n stats.parseCount++;\r\n stats.parseTime += measure(() => {\r\n parser = assemblyscript.parseFile(\r\n exports.libraryFiles[\"builtins\"],\r\n exports.libraryPrefix + \"builtins.ts\",\r\n false,\r\n parser\r\n );\r\n });\r\n }\r\n const customLibDirs = [];\r\n if (args.lib) {\r\n let lib = args.lib;\r\n if (typeof lib === \"string\") lib = lib.split(\",\");\r\n Array.prototype.push.apply(customLibDirs, lib.map(lib => lib.trim()));\r\n for (let i = 0, k = customLibDirs.length; i < k; ++i) { // custom\r\n let libDir = customLibDirs[i];\r\n let libFiles;\r\n if (libDir.endsWith(\".ts\")) {\r\n libFiles = [ path.basename(libDir) ];\r\n libDir = path.dirname(libDir);\r\n } else {\r\n libFiles = listFiles(libDir);\r\n }\r\n for (let j = 0, l = libFiles.length; j < l; ++j) {\r\n let libPath = libFiles[j];\r\n let libText = readFile(libPath, libDir);\r\n if (libText === null) return callback(Error(\"Library file '\" + libPath + \"' not found.\"));\r\n stats.parseCount++;\r\n stats.parseTime += measure(() => {\r\n parser = assemblyscript.parseFile(\r\n libText,\r\n exports.libraryPrefix + libPath,\r\n false,\r\n parser\r\n );\r\n });\r\n }\r\n }\r\n }\r\n\r\n // Parses the backlog of imported files after including entry files\r\n function parseBacklog() {\r\n var sourcePath, sourceText;\r\n while ((sourcePath = parser.nextFile()) != null) {\r\n\r\n // Load library file if explicitly requested\r\n if (sourcePath.startsWith(exports.libraryPrefix)) {\r\n const plainName = sourcePath.substring(exports.libraryPrefix.length);\r\n const indexName = sourcePath.substring(exports.libraryPrefix.length) + \"/index\";\r\n if (exports.libraryFiles.hasOwnProperty(plainName)) {\r\n sourceText = exports.libraryFiles[plainName];\r\n sourcePath = exports.libraryPrefix + plainName + \".ts\";\r\n } else if (exports.libraryFiles.hasOwnProperty(indexName)) {\r\n sourceText = exports.libraryFiles[indexName];\r\n sourcePath = exports.libraryPrefix + indexName + \".ts\";\r\n } else {\r\n for (let i = 0, k = customLibDirs.length; i < k; ++i) {\r\n sourceText = readFile(plainName + \".ts\", customLibDirs[i]);\r\n if (sourceText !== null) {\r\n sourcePath = exports.libraryPrefix + plainName + \".ts\";\r\n break;\r\n } else {\r\n sourceText = readFile(indexName + \".ts\", customLibDirs[i]);\r\n if (sourceText !== null) {\r\n sourcePath = exports.libraryPrefix + indexName + \".ts\";\r\n break;\r\n }\r\n }\r\n }\r\n }\r\n\r\n // Otherwise try nextFile.ts, nextFile/index.ts, ~lib/nextFile.ts, ~lib/nextFile/index.ts\r\n } else {\r\n const plainName = sourcePath;\r\n const indexName = sourcePath + \"/index\";\r\n sourceText = readFile(plainName + \".ts\", baseDir);\r\n if (sourceText !== null) {\r\n sourcePath = plainName + \".ts\";\r\n } else {\r\n sourceText = readFile(indexName + \".ts\", baseDir);\r\n if (sourceText !== null) {\r\n sourcePath = indexName + \".ts\";\r\n } else if (!plainName.startsWith(\".\")) {\r\n if (exports.libraryFiles.hasOwnProperty(plainName)) {\r\n sourceText = exports.libraryFiles[plainName];\r\n sourcePath = exports.libraryPrefix + plainName + \".ts\";\r\n } else if (exports.libraryFiles.hasOwnProperty(indexName)) {\r\n sourceText = exports.libraryFiles[indexName];\r\n sourcePath = exports.libraryPrefix + indexName + \".ts\";\r\n } else {\r\n for (let i = 0, k = customLibDirs.length; i < k; ++i) {\r\n const dir = customLibDirs[i];\r\n sourceText = readFile(plainName + \".ts\", customLibDirs[i]);\r\n if (sourceText !== null) {\r\n sourcePath = exports.libraryPrefix + plainName + \".ts\";\r\n break;\r\n } else {\r\n sourceText = readFile(indexName + \".ts\", customLibDirs[i]);\r\n if (sourceText !== null) {\r\n sourcePath = exports.libraryPrefix + indexName + \".ts\";\r\n break;\r\n }\r\n }\r\n }\r\n }\r\n }\r\n }\r\n }\r\n if (sourceText == null) {\r\n return callback(Error(\"Import file '\" + sourcePath + \".ts' not found.\"));\r\n }\r\n stats.parseCount++;\r\n stats.parseTime += measure(() => {\r\n assemblyscript.parseFile(sourceText, sourcePath, false, parser);\r\n });\r\n }\r\n if (checkDiagnostics(parser, stderr)) {\r\n return callback(Error(\"Parse error\"));\r\n }\r\n }\r\n\r\n // Include entry files\r\n for (let i = 0, k = argv.length; i < k; ++i) {\r\n const filename = argv[i];\r\n\r\n let sourcePath = String(filename).replace(/\\\\/g, \"/\").replace(/(\\.ts|\\/)$/, \"\");\r\n\r\n // Try entryPath.ts, then entryPath/index.ts\r\n let sourceText = readFile(sourcePath + \".ts\", baseDir);\r\n if (sourceText === null) {\r\n sourceText = readFile(sourcePath + \"/index.ts\", baseDir);\r\n if (sourceText === null) {\r\n return callback(Error(\"Entry file '\" + sourcePath + \".ts' not found.\"));\r\n } else {\r\n sourcePath += \"/index.ts\";\r\n }\r\n } else {\r\n sourcePath += \".ts\";\r\n }\r\n\r\n stats.parseCount++;\r\n stats.parseTime += measure(() => {\r\n parser = assemblyscript.parseFile(sourceText, sourcePath, true, parser);\r\n });\r\n let code = parseBacklog();\r\n if (code) return code;\r\n }\r\n\r\n applyTransform(\"afterParse\", parser);\r\n {\r\n let code = parseBacklog();\r\n if (code) return code;\r\n }\r\n\r\n // Finish parsing\r\n const program = assemblyscript.finishParsing(parser);\r\n\r\n // Set up optimization levels\r\n var optimizeLevel = 0;\r\n var shrinkLevel = 0;\r\n if (args.optimize) {\r\n optimizeLevel = exports.defaultOptimizeLevel;\r\n shrinkLevel = exports.defaultShrinkLevel;\r\n }\r\n if (typeof args.optimizeLevel === \"number\") {\r\n optimizeLevel = args.optimizeLevel;\r\n }\r\n if (typeof args.shrinkLevel === \"number\") {\r\n shrinkLevel = args.shrinkLevel;\r\n }\r\n optimizeLevel = Math.min(Math.max(optimizeLevel, 0), 3);\r\n shrinkLevel = Math.min(Math.max(shrinkLevel, 0), 2);\r\n\r\n // Begin compilation\r\n const compilerOptions = assemblyscript.createOptions();\r\n assemblyscript.setTarget(compilerOptions, 0);\r\n assemblyscript.setNoAssert(compilerOptions, args.noAssert);\r\n assemblyscript.setImportMemory(compilerOptions, args.importMemory);\r\n assemblyscript.setSharedMemory(compilerOptions, args.sharedMemory);\r\n assemblyscript.setImportTable(compilerOptions, args.importTable);\r\n assemblyscript.setMemoryBase(compilerOptions, args.memoryBase >>> 0);\r\n assemblyscript.setSourceMap(compilerOptions, args.sourceMap != null);\r\n assemblyscript.setOptimizeLevelHints(compilerOptions, optimizeLevel, shrinkLevel);\r\n\r\n if (!args.noLib) {\r\n // Initialize default aliases\r\n assemblyscript.setGlobalAlias(compilerOptions, \"Math\", \"NativeMath\");\r\n assemblyscript.setGlobalAlias(compilerOptions, \"Mathf\", \"NativeMathf\");\r\n assemblyscript.setGlobalAlias(compilerOptions, \"abort\", \"~lib/env/abort\");\r\n assemblyscript.setGlobalAlias(compilerOptions, \"trace\", \"~lib/env/trace\");\r\n }\r\n\r\n // Add or override aliases if specified\r\n if (args.use) {\r\n let aliases = args.use;\r\n for (let i = 0, k = aliases.length; i < k; ++i) {\r\n let part = aliases[i];\r\n let p = part.indexOf(\"=\");\r\n if (p < 0) return callback(Error(\"Global alias '\" + part + \"' is invalid.\"));\r\n let name = part.substring(0, p).trim();\r\n let alias = part.substring(p + 1).trim();\r\n if (!name.length) return callback(Error(\"Global alias '\" + part + \"' is invalid.\"));\r\n assemblyscript.setGlobalAlias(compilerOptions, name, alias);\r\n }\r\n }\r\n\r\n // Enable additional features if specified\r\n var features = args.enable;\r\n if (features != null) {\r\n if (typeof features === \"string\") features = features.split(\",\");\r\n for (let i = 0, k = features.length; i < k; ++i) {\r\n let name = features[i].trim();\r\n let flag = assemblyscript[\"FEATURE_\" + name.replace(/\\-/g, \"_\").toUpperCase()];\r\n if (!flag) return callback(Error(\"Feature '\" + name + \"' is unknown.\"));\r\n assemblyscript.enableFeature(compilerOptions, flag);\r\n }\r\n }\r\n\r\n var module;\r\n stats.compileCount++;\r\n (() => {\r\n try {\r\n stats.compileTime += measure(() => {\r\n module = assemblyscript.compileProgram(program, compilerOptions);\r\n });\r\n } catch (e) {\r\n return callback(e);\r\n }\r\n })();\r\n if (checkDiagnostics(parser, stderr)) {\r\n if (module) module.dispose();\r\n return callback(Error(\"Compile error\"));\r\n }\r\n\r\n // Validate the module if requested\r\n if (args.validate) {\r\n stats.validateCount++;\r\n stats.validateTime += measure(() => {\r\n if (!module.validate()) {\r\n module.dispose();\r\n return callback(Error(\"Validate error\"));\r\n }\r\n });\r\n }\r\n\r\n // Set Binaryen-specific options\r\n if (args.trapMode === \"clamp\") {\r\n stats.optimizeCount++;\r\n stats.optimizeTime += measure(() => {\r\n module.runPasses([ \"trap-mode-clamp\" ]);\r\n });\r\n } else if (args.trapMode === \"js\") {\r\n stats.optimizeCount++;\r\n stats.optimizeTime += measure(() => {\r\n module.runPasses([ \"trap-mode-js\" ]);\r\n });\r\n } else if (args.trapMode !== \"allow\") {\r\n module.dispose();\r\n return callback(Error(\"Unsupported trap mode\"));\r\n }\r\n\r\n // Implicitly run costly non-LLVM optimizations on -O3 or -Oz\r\n // see: https://github.com/WebAssembly/binaryen/pull/1596\r\n if (optimizeLevel >= 3 || shrinkLevel >= 2) optimizeLevel = 4;\r\n\r\n module.setOptimizeLevel(optimizeLevel);\r\n module.setShrinkLevel(shrinkLevel);\r\n module.setDebugInfo(args.debug);\r\n\r\n var runPasses = [];\r\n if (args.runPasses) {\r\n if (typeof args.runPasses === \"string\") {\r\n args.runPasses = args.runPasses.split(\",\");\r\n }\r\n if (args.runPasses.length) {\r\n args.runPasses.forEach(pass => {\r\n if (runPasses.indexOf(pass) < 0)\r\n runPasses.push(pass);\r\n });\r\n }\r\n }\r\n\r\n // Optimize the module if requested\r\n if (optimizeLevel > 0 || shrinkLevel > 0) {\r\n stats.optimizeCount++;\r\n stats.optimizeTime += measure(() => {\r\n module.optimize();\r\n });\r\n }\r\n\r\n // Run additional passes if requested\r\n if (runPasses.length) {\r\n stats.optimizeCount++;\r\n stats.optimizeTime += measure(() => {\r\n module.runPasses(runPasses.map(pass => pass.trim()));\r\n });\r\n }\r\n\r\n // Prepare output\r\n if (!args.noEmit) {\r\n let hasStdout = false;\r\n let hasOutput = false;\r\n\r\n if (args.outFile != null) {\r\n if (/\\.was?t$/.test(args.outFile) && args.textFile == null) {\r\n args.textFile = args.outFile;\r\n } else if (/\\.js$/.test(args.outFile) && args.asmjsFile == null) {\r\n args.asmjsFile = args.outFile;\r\n } else if (args.binaryFile == null) {\r\n args.binaryFile = args.outFile;\r\n }\r\n }\r\n\r\n // Write binary\r\n if (args.binaryFile != null) {\r\n let sourceMapURL = args.sourceMap != null\r\n ? args.sourceMap.length\r\n ? args.sourceMap\r\n : path.basename(args.binaryFile) + \".map\"\r\n : null;\r\n\r\n let wasm;\r\n stats.emitCount++;\r\n stats.emitTime += measure(() => {\r\n wasm = module.toBinary(sourceMapURL)\r\n });\r\n\r\n if (args.binaryFile.length) {\r\n writeFile(args.binaryFile, wasm.output, baseDir);\r\n } else {\r\n writeStdout(wasm.output);\r\n hasStdout = true;\r\n }\r\n hasOutput = true;\r\n\r\n // Post-process source map\r\n if (wasm.sourceMap != null) {\r\n if (args.binaryFile.length) {\r\n let sourceMap = JSON.parse(wasm.sourceMap);\r\n sourceMap.sourceRoot = exports.sourceMapRoot;\r\n sourceMap.sources.forEach((name, index) => {\r\n let text = null;\r\n if (name.startsWith(exports.libraryPrefix)) {\r\n let stdName = name.substring(exports.libraryPrefix.length).replace(/\\.ts$/, \"\");\r\n if (exports.libraryFiles.hasOwnProperty(stdName)) {\r\n text = exports.libraryFiles[stdName];\r\n } else {\r\n for (let i = 0, k = customLibDirs.length; i < k; ++i) {\r\n text = readFile(name.substring(exports.libraryPrefix.length), customLibDirs[i]);\r\n if (text !== null) break;\r\n }\r\n }\r\n } else {\r\n text = readFile(name, baseDir);\r\n }\r\n if (text === null) {\r\n return callback(Error(\"Source file '\" + name + \"' not found.\"));\r\n }\r\n if (!sourceMap.sourceContents) sourceMap.sourceContents = [];\r\n sourceMap.sourceContents[index] = text;\r\n });\r\n writeFile(path.join(\r\n path.dirname(args.binaryFile),\r\n path.basename(sourceMapURL)\r\n ).replace(/^\\.\\//, \"\"), JSON.stringify(sourceMap), baseDir);\r\n } else {\r\n stderr.write(\"Skipped source map (stdout already occupied)\" + EOL);\r\n }\r\n }\r\n }\r\n\r\n // Write asm.js\r\n if (args.asmjsFile != null) {\r\n let asm;\r\n if (args.asmjsFile.length) {\r\n stats.emitCount++;\r\n stats.emitTime += measure(() => {\r\n asm = module.toAsmjs();\r\n });\r\n writeFile(args.asmjsFile, asm, baseDir);\r\n } else if (!hasStdout) {\r\n stats.emitCount++;\r\n stats.emitTime += measure(() => {\r\n asm = module.toAsmjs();\r\n });\r\n writeStdout(asm);\r\n hasStdout = true;\r\n }\r\n hasOutput = true;\r\n }\r\n\r\n // Write WebIDL\r\n if (args.idlFile != null) {\r\n let idl;\r\n if (args.idlFile.length) {\r\n stats.emitCount++;\r\n stats.emitTime += measure(() => {\r\n idl = assemblyscript.buildIDL(program);\r\n });\r\n writeFile(args.idlFile, idl, baseDir);\r\n } else if (!hasStdout) {\r\n stats.emitCount++;\r\n stats.emitTime += measure(() => {\r\n idl = assemblyscript.buildIDL(program);\r\n });\r\n writeStdout(idl);\r\n hasStdout = true;\r\n }\r\n hasOutput = true;\r\n }\r\n\r\n // Write TypeScript definition\r\n if (args.tsdFile != null) {\r\n let tsd;\r\n if (args.tsdFile.length) {\r\n stats.emitCount++;\r\n stats.emitTime += measure(() => {\r\n tsd = assemblyscript.buildTSD(program);\r\n });\r\n writeFile(args.tsdFile, tsd, baseDir);\r\n } else if (!hasStdout) {\r\n stats.emitCount++;\r\n stats.emitTime += measure(() => {\r\n tsd = assemblyscript.buildTSD(program);\r\n });\r\n writeStdout(tsd);\r\n hasStdout = true;\r\n }\r\n hasOutput = true;\r\n }\r\n\r\n // Write text (must be last)\r\n if (args.textFile != null || !hasOutput) {\r\n let wat;\r\n if (args.textFile && args.textFile.length) {\r\n stats.emitCount++;\r\n stats.emitTime += measure(() => {\r\n wat = module.toText();\r\n });\r\n writeFile(args.textFile, wat, baseDir);\r\n } else if (!hasStdout) {\r\n stats.emitCount++;\r\n stats.emitTime += measure(() => {\r\n wat = module.toText()\r\n });\r\n writeStdout(wat);\r\n }\r\n }\r\n }\r\n\r\n module.dispose();\r\n if (args.measure) {\r\n printStats(stats, stderr);\r\n }\r\n return callback(null);\r\n\r\n function readFileNode(filename, baseDir) {\r\n try {\r\n let text;\r\n stats.readCount++;\r\n stats.readTime += measure(() => {\r\n text = fs.readFileSync(path.join(baseDir, filename), { encoding: \"utf8\" });\r\n });\r\n return text;\r\n } catch (e) {\r\n return null;\r\n }\r\n }\r\n\r\n function writeFileNode(filename, contents, baseDir) {\r\n try {\r\n stats.writeCount++;\r\n stats.writeTime += measure(() => {\r\n mkdirp(path.join(baseDir, path.dirname(filename)));\r\n if (typeof contents === \"string\") {\r\n fs.writeFileSync(path.join(baseDir, filename), contents, { encoding: \"utf8\" } );\r\n } else {\r\n fs.writeFileSync(path.join(baseDir, filename), contents);\r\n }\r\n });\r\n return true;\r\n } catch (e) {\r\n return false;\r\n }\r\n }\r\n\r\n function listFilesNode(dirname, baseDir) {\r\n var files;\r\n try {\r\n stats.readTime += measure(() => {\r\n files = fs.readdirSync(path.join(baseDir, dirname)).filter(file => /^(?!.*\\.d\\.ts$).*\\.ts$/.test(file));\r\n });\r\n return files;\r\n } catch (e) {\r\n return [];\r\n }\r\n }\r\n\r\n function writeStdout(contents) {\r\n if (!writeStdout.used) {\r\n stats.writeCount++;\r\n writeStdout.used = true;\r\n }\r\n stats.writeTime += measure(() => {\r\n if (typeof contents === \"string\") {\r\n stdout.write(contents, { encoding: \"utf8\" });\r\n } else {\r\n stdout.write(contents);\r\n }\r\n });\r\n }\r\n}\r\n\r\n/** Checks diagnostics emitted so far for errors. */\r\nfunction checkDiagnostics(emitter, stderr) {\r\n var diagnostic;\r\n var hasErrors = false;\r\n while ((diagnostic = assemblyscript.nextDiagnostic(emitter)) != null) {\r\n if (stderr) {\r\n stderr.write(\r\n assemblyscript.formatDiagnostic(diagnostic, stderr.isTTY, true) +\r\n EOL + EOL\r\n );\r\n }\r\n if (assemblyscript.isError(diagnostic)) hasErrors = true;\r\n }\r\n return hasErrors;\r\n}\r\n\r\nexports.checkDiagnostics = checkDiagnostics;\r\n\r\n/** Creates an empty set of stats. */\r\nfunction createStats() {\r\n return {\r\n readTime: 0,\r\n readCount: 0,\r\n writeTime: 0,\r\n writeCount: 0,\r\n parseTime: 0,\r\n parseCount: 0,\r\n compileTime: 0,\r\n compileCount: 0,\r\n emitTime: 0,\r\n emitCount: 0,\r\n validateTime: 0,\r\n validateCount: 0,\r\n optimizeTime: 0,\r\n optimizeCount: 0\r\n };\r\n}\r\n\r\nexports.createStats = createStats;\r\n\r\nif (!process.hrtime) process.hrtime = require(\"browser-process-hrtime\");\r\n\r\n/** Measures the execution time of the specified function. */\r\nfunction measure(fn) {\r\n const start = process.hrtime();\r\n fn();\r\n const times = process.hrtime(start);\r\n return times[0] * 1e9 + times[1];\r\n}\r\n\r\nexports.measure = measure;\r\n\r\n/** Formats a high resolution time to a human readable string. */\r\nfunction formatTime(time) {\r\n return time ? (time / 1e6).toFixed(3) + \" ms\" : \"N/A\";\r\n}\r\n\r\nexports.formatTime = formatTime;\r\n\r\n/** Formats and prints out the contents of a set of stats. */\r\nfunction printStats(stats, output) {\r\n function format(time, count) {\r\n return formatTime(time);\r\n }\r\n (output || process.stdout).write([\r\n \"I/O Read : \" + format(stats.readTime, stats.readCount),\r\n \"I/O Write : \" + format(stats.writeTime, stats.writeCount),\r\n \"Parse : \" + format(stats.parseTime, stats.parseCount),\r\n \"Compile : \" + format(stats.compileTime, stats.compileCount),\r\n \"Emit : \" + format(stats.emitTime, stats.emitCount),\r\n \"Validate : \" + format(stats.validateTime, stats.validateCount),\r\n \"Optimize : \" + format(stats.optimizeTime, stats.optimizeCount)\r\n ].join(EOL) + EOL);\r\n}\r\n\r\nexports.printStats = printStats;\r\n\r\nvar allocBuffer = typeof global !== \"undefined\" && global.Buffer\r\n ? global.Buffer.allocUnsafe || function(len) { return new global.Buffer(len); }\r\n : function(len) { return new Uint8Array(len) };\r\n\r\n/** Creates a memory stream that can be used in place of stdout/stderr. */\r\nfunction createMemoryStream(fn) {\r\n var stream = [];\r\n stream.write = function(chunk) {\r\n if (fn) fn(chunk);\r\n if (typeof chunk === \"string\") {\r\n let buffer = allocBuffer(utf8.length(chunk));\r\n utf8.write(chunk, buffer, 0);\r\n chunk = buffer;\r\n }\r\n this.push(chunk);\r\n };\r\n stream.reset = function() {\r\n stream.length = 0;\r\n };\r\n stream.toBuffer = function() {\r\n var offset = 0, i = 0, k = this.length;\r\n while (i < k) offset += this[i++].length;\r\n var buffer = allocBuffer(offset);\r\n offset = i = 0;\r\n while (i < k) {\r\n buffer.set(this[i], offset);\r\n offset += this[i].length;\r\n ++i;\r\n }\r\n return buffer;\r\n };\r\n stream.toString = function() {\r\n var buffer = this.toBuffer();\r\n return utf8.read(buffer, 0, buffer.length);\r\n };\r\n return stream;\r\n}\r\n\r\nexports.createMemoryStream = createMemoryStream;\r\n\r\n/** Compatible TypeScript compiler options for syntax highlighting etc. */\r\nexports.tscOptions = {\r\n alwaysStrict: true,\r\n noImplicitAny: true,\r\n noImplicitReturns: true,\r\n noImplicitThis: true,\r\n noEmitOnError: true,\r\n strictNullChecks: true,\r\n experimentalDecorators: true,\r\n target: \"esnext\",\r\n module: \"commonjs\",\r\n noLib: true,\r\n types: [],\r\n allowJs: false\r\n};\r\n","\"use strict\";\r\n\r\n/**\r\n * A minimal UTF8 implementation for number arrays.\r\n * @memberof util\r\n * @namespace\r\n */\r\nvar utf8 = exports;\r\n\r\n/**\r\n * Calculates the UTF8 byte length of a string.\r\n * @param {string} string String\r\n * @returns {number} Byte length\r\n */\r\nutf8.length = function utf8_length(string) {\r\n var len = 0,\r\n c = 0;\r\n for (var i = 0; i < string.length; ++i) {\r\n c = string.charCodeAt(i);\r\n if (c < 128)\r\n len += 1;\r\n else if (c < 2048)\r\n len += 2;\r\n else if ((c & 0xFC00) === 0xD800 && (string.charCodeAt(i + 1) & 0xFC00) === 0xDC00) {\r\n ++i;\r\n len += 4;\r\n } else\r\n len += 3;\r\n }\r\n return len;\r\n};\r\n\r\n/**\r\n * Reads UTF8 bytes as a string.\r\n * @param {Uint8Array} buffer Source buffer\r\n * @param {number} start Source start\r\n * @param {number} end Source end\r\n * @returns {string} String read\r\n */\r\nutf8.read = function utf8_read(buffer, start, end) {\r\n var len = end - start;\r\n if (len < 1)\r\n return \"\";\r\n var parts = null,\r\n chunk = [],\r\n i = 0, // char offset\r\n t; // temporary\r\n while (start < end) {\r\n t = buffer[start++];\r\n if (t < 128)\r\n chunk[i++] = t;\r\n else if (t > 191 && t < 224)\r\n chunk[i++] = (t & 31) << 6 | buffer[start++] & 63;\r\n else if (t > 239 && t < 365) {\r\n t = ((t & 7) << 18 | (buffer[start++] & 63) << 12 | (buffer[start++] & 63) << 6 | buffer[start++] & 63) - 0x10000;\r\n chunk[i++] = 0xD800 + (t >> 10);\r\n chunk[i++] = 0xDC00 + (t & 1023);\r\n } else\r\n chunk[i++] = (t & 15) << 12 | (buffer[start++] & 63) << 6 | buffer[start++] & 63;\r\n if (i > 8191) {\r\n (parts || (parts = [])).push(String.fromCharCode.apply(String, chunk));\r\n i = 0;\r\n }\r\n }\r\n if (parts) {\r\n if (i)\r\n parts.push(String.fromCharCode.apply(String, chunk.slice(0, i)));\r\n return parts.join(\"\");\r\n }\r\n return String.fromCharCode.apply(String, chunk.slice(0, i));\r\n};\r\n\r\n/**\r\n * Writes a string as UTF8 bytes.\r\n * @param {string} string Source string\r\n * @param {Uint8Array} buffer Destination buffer\r\n * @param {number} offset Destination offset\r\n * @returns {number} Bytes written\r\n */\r\nutf8.write = function utf8_write(string, buffer, offset) {\r\n var start = offset,\r\n c1, // character 1\r\n c2; // character 2\r\n for (var i = 0; i < string.length; ++i) {\r\n c1 = string.charCodeAt(i);\r\n if (c1 < 128) {\r\n buffer[offset++] = c1;\r\n } else if (c1 < 2048) {\r\n buffer[offset++] = c1 >> 6 | 192;\r\n buffer[offset++] = c1 & 63 | 128;\r\n } else if ((c1 & 0xFC00) === 0xD800 && ((c2 = string.charCodeAt(i + 1)) & 0xFC00) === 0xDC00) {\r\n c1 = 0x10000 + ((c1 & 0x03FF) << 10) + (c2 & 0x03FF);\r\n ++i;\r\n buffer[offset++] = c1 >> 18 | 240;\r\n buffer[offset++] = c1 >> 12 & 63 | 128;\r\n buffer[offset++] = c1 >> 6 & 63 | 128;\r\n buffer[offset++] = c1 & 63 | 128;\r\n } else {\r\n buffer[offset++] = c1 >> 12 | 224;\r\n buffer[offset++] = c1 >> 6 & 63 | 128;\r\n buffer[offset++] = c1 & 63 | 128;\r\n }\r\n }\r\n return offset - start;\r\n};\r\n","var proc = typeof process !== \"undefined\" && process || {};\r\nvar isCI = proc.env && \"CI\" in proc.env; // doesn't work when bundled because 'process' is a mock\r\n\r\nfunction from(stream, base) {\r\n var colors = base || {};\r\n colors.supported = (stream && !!stream.isTTY) || isCI;\r\n colors.gray = text => colors.supported ? exports.GRAY + text + exports.RESET : text;\r\n colors.red = text => colors.supported ? exports.RED + text + exports.RESET : text;\r\n colors.green = text => colors.supported ? exports.GREEN + text + exports.RESET : text;\r\n colors.yellow = text => colors.supported ? exports.YELLOW + text + exports.RESET : text;\r\n colors.blue = text => colors.supported ? exports.BLUE + text + exports.RESET : text;\r\n colors.magenta = text => colors.supported ? exports.MAGENTA + text + exports.RESET : text;\r\n colors.cyan = text => colors.supported ? exports.CYAN + text + exports.RESET : text;\r\n colors.white = text => colors.supported ? exports.WHITE + text + exports.RESET : text;\r\n return colors;\r\n}\r\n\r\nexports.stdout = from(proc.stdout, exports);\r\nexports.stderr = from(proc.stderr);\r\nexports.from = from;\r\n\r\nexports.GRAY = \"\\u001b[90m\";\r\nexports.RED = \"\\u001b[91m\";\r\nexports.GREEN = \"\\u001b[92m\";\r\nexports.YELLOW = \"\\u001b[93m\";\r\nexports.BLUE = \"\\u001b[94m\";\r\nexports.MAGENTA = \"\\u001b[95m\";\r\nexports.CYAN = \"\\u001b[96m\";\r\nexports.WHITE = \"\\u001b[97m\";\r\nexports.RESET = \"\\u001b[0m\";\r\n","// type | meaning\r\n// -----|---------------\r\n// b | boolean\r\n// i | integer\r\n// f | float\r\n// s | string\r\n// I | integer array\r\n// F | float array\r\n// S | string array\r\n\r\n/** Parses the specified command line arguments according to the given configuration. */\r\nfunction parse(argv, config) {\r\n var options = {};\r\n var unknown = [];\r\n var arguments = [];\r\n var trailing = [];\r\n\r\n // make an alias map and initialize defaults\r\n var aliases = {};\r\n Object.keys(config).forEach(key => {\r\n var option = config[key];\r\n if (option.alias != null) {\r\n if (typeof option.alias === \"string\") aliases[option.alias] = key;\r\n else if (Array.isArray(option.alias)) option.alias.forEach(alias => aliases[alias] = key);\r\n }\r\n if (option.default != null) options[key] = option.default;\r\n });\r\n\r\n // iterate over argv\r\n for (var i = 0, k = (argv = argv.slice()).length; i < k; ++i) {\r\n let arg = argv[i];\r\n if (arg == \"--\") { ++i; break; }\r\n let match = /^(?:(\\-\\w)(?:=(.*))?|(\\-\\-\\w{2,})(?:=(.*))?)$/.exec(arg), option, key;\r\n if (match) {\r\n if (config[arg]) option = config[key = arg]; // exact\r\n else if (match[1] != null) { // alias\r\n option = config[key = aliases[match[1].substring(1)]];\r\n if (option && match[2] != null) argv[i--] = match[2];\r\n } else if (match[3] != null) { // full\r\n option = config[key = match[3].substring(2)];\r\n if (option && match[4] != null) argv[i--] = match[4];\r\n }\r\n } else {\r\n if (arg.charCodeAt(0) == 45) option = config[key = arg]; // exact\r\n else { arguments.push(arg); continue; } // argument\r\n }\r\n if (option) {\r\n if (option.type == null || option.type === \"b\") options[key] = true; // flag\r\n else {\r\n if (i + 1 < argv.length && argv[i + 1].charCodeAt(0) != 45) { // present\r\n switch (option.type) {\r\n case \"i\": options[key] = parseInt(argv[++i], 10); break;\r\n case \"I\": options[key] = (options[key] || []).concat(parseInt(argv[++i], 10)); break;\r\n case \"f\": options[key] = parseFloat(argv[++i]); break;\r\n case \"F\": options[key] = (options[key] || []).concat(parseFloat(argv[++i])); break;\r\n case \"s\": options[key] = String(argv[++i]); break;\r\n case \"S\": options[key] = (options[key] || []).concat(argv[++i].split(\",\")); break;\r\n default: unknown.push(arg); --i;\r\n }\r\n } else { // omitted\r\n switch (option.type) {\r\n case \"i\":\r\n case \"f\": options[key] = option.default || 0; break;\r\n case \"s\": options[key] = option.default || \"\"; break;\r\n case \"I\":\r\n case \"F\":\r\n case \"S\": options[key] = options.default || []; break;\r\n default: unknown.push(arg);\r\n }\r\n }\r\n }\r\n if (option.value) Object.keys(option.value).forEach(k => options[k] = option.value[k]);\r\n } else unknown.push(arg);\r\n }\r\n while (i < k) trailing.push(argv[i++]); // trailing\r\n\r\n return { options, unknown, arguments, trailing };\r\n}\r\n\r\nexports.parse = parse;\r\n\r\n/** Generates the help text for the specified configuration. */\r\nfunction help(config, options) {\r\n if (!options) options = {};\r\n var indent = options.indent || 2;\r\n var padding = options.padding || 24;\r\n var eol = options.eol || \"\\n\";\r\n var sb = [];\r\n Object.keys(config).forEach(key => {\r\n var option = config[key];\r\n if (option.description == null) return;\r\n var text = \"\";\r\n while (text.length < indent) text += \" \";\r\n text += \"--\" + key;\r\n if (option.alias) text += \", -\" + option.alias;\r\n while (text.length < padding) text += \" \";\r\n if (Array.isArray(option.description)) {\r\n sb.push(text + option.description[0] + option.description.slice(1).map(line => {\r\n for (let i = 0; i < padding; ++i) line = \" \" + line;\r\n return eol + line;\r\n }).join(\"\"));\r\n } else sb.push(text + option.description);\r\n });\r\n return sb.join(eol);\r\n}\r\n\r\nexports.help = help;\r\n","/*\r\nCopyright 2010 James Halliday (mail@substack.net)\r\n\r\nThis project is free software released under the MIT/X11 license:\r\n\r\nPermission is hereby granted, free of charge, to any person obtaining a copy\r\nof this software and associated documentation files (the \"Software\"), to deal\r\nin the Software without restriction, including without limitation the rights\r\nto use, copy, modify, merge, publish, distribute, sublicense, and/or sell\r\ncopies of the Software, and to permit persons to whom the Software is\r\nfurnished to do so, subject to the following conditions:\r\n\r\nThe above copyright notice and this permission notice shall be included in\r\nall copies or substantial portions of the Software.\r\n\r\nTHE SOFTWARE IS PROVIDED \"AS IS\", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR\r\nIMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,\r\nFITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE\r\nAUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER\r\nLIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,\r\nOUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN\r\nTHE SOFTWARE.\r\n*/\r\n\r\nvar path = require(\"path\");\r\nvar fs = require(\"fs\");\r\nvar _0777 = parseInt(\"0777\", 8);\r\n\r\nmodule.exports = function mkdirp(p, opts, made) {\r\n if (!opts || typeof opts !== \"object\") {\r\n opts = { mode: opts };\r\n }\r\n var mode = opts.mode;\r\n if (mode === undefined) {\r\n mode = _0777 & (~process.umask());\r\n }\r\n if (!made) made = null;\r\n p = path.resolve(p);\r\n try {\r\n fs.mkdirSync(p, mode);\r\n made = made || p;\r\n } catch (err0) {\r\n switch (err0.code) {\r\n case \"ENOENT\":\r\n made = mkdirp(path.dirname(p), opts, made);\r\n mkdirp(p, opts, made);\r\n break;\r\n default:\r\n var stat;\r\n try {\r\n stat = fs.statSync(p);\r\n } catch (err1) {\r\n throw err0;\r\n }\r\n if (!stat.isDirectory()) throw err0;\r\n break;\r\n }\r\n }\r\n return made;\r\n};\r\n","if(typeof __WEBPACK_EXTERNAL_MODULE__10__ === 'undefined') {var e = new Error(\"Cannot find module 'assemblyscript'\"); e.code = 'MODULE_NOT_FOUND'; throw e;}\nmodule.exports = __WEBPACK_EXTERNAL_MODULE__10__;","function webpackEmptyContext(req) {\n\tvar e = new Error(\"Cannot find module '\" + req + \"'\");\n\te.code = 'MODULE_NOT_FOUND';\n\tthrow e;\n}\nwebpackEmptyContext.keys = function() { return []; };\nwebpackEmptyContext.resolve = webpackEmptyContext;\nmodule.exports = webpackEmptyContext;\nwebpackEmptyContext.id = 12;","module.exports = process.hrtime || hrtime\n\n// polyfil for window.performance.now\nvar performance = global.performance || {}\nvar performanceNow =\n performance.now ||\n performance.mozNow ||\n performance.msNow ||\n performance.oNow ||\n performance.webkitNow ||\n function(){ return (new Date()).getTime() }\n\n// generate timestamp or delta\n// see 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MWXor()]="Xor",e[e.Xchg=_BinaryenAtomicRMWXchg()]="Xchg"}(r.AtomicRMWOp||(r.AtomicRMWOp={})),function(e){e[e.ExtractLaneSVecI8x16=_BinaryenExtractLaneSVecI8x16()]="ExtractLaneSVecI8x16",e[e.ExtractLaneUVecI8x16=_BinaryenExtractLaneUVecI8x16()]="ExtractLaneUVecI8x16",e[e.ExtractLaneSVecI16x8=_BinaryenExtractLaneSVecI16x8()]="ExtractLaneSVecI16x8",e[e.ExtractLaneUVecI16x8=_BinaryenExtractLaneUVecI16x8()]="ExtractLaneUVecI16x8",e[e.ExtractLaneVecI32x4=_BinaryenExtractLaneVecI32x4()]="ExtractLaneVecI32x4",e[e.ExtractLaneVecI64x2=_BinaryenExtractLaneVecI64x2()]="ExtractLaneVecI64x2",e[e.ExtractLaneVecF32x4=_BinaryenExtractLaneVecF32x4()]="ExtractLaneVecF32x4",e[e.ExtractLaneVecF64x2=_BinaryenExtractLaneVecF64x2()]="ExtractLaneVecF64x2"}(r.SIMDExtractOp||(r.SIMDExtractOp={})),function(e){e[e.ReplaceLaneVecI8x16=_BinaryenReplaceLaneVecI8x16()]="ReplaceLaneVecI8x16",e[e.ReplaceLaneVecI16x8=_BinaryenReplaceLaneVecI16x8()]="ReplaceLaneVecI16x8",e[e.ReplaceLaneVecI32x4=_BinaryenReplaceLaneVecI32x4()]="ReplaceLaneVecI32x4",e[e.ReplaceLaneVecI64x2=_BinaryenReplaceLaneVecI64x2()]="ReplaceLaneVecI64x2",e[e.ReplaceLaneVecF32x4=_BinaryenReplaceLaneVecF32x4()]="ReplaceLaneVecF32x4",e[e.ReplaceLaneVecF64x2=_BinaryenReplaceLaneVecF64x2()]="ReplaceLaneVecF64x2"}(r.SIMDReplaceOp||(r.SIMDReplaceOp={})),function(e){e[e.ShlVecI8x16=0]="ShlVecI8x16",e[e.ShrSVecI8x16=1]="ShrSVecI8x16",e[e.ShrUVecI8x16=2]="ShrUVecI8x16",e[e.ShlVecI16x8=3]="ShlVecI16x8",e[e.ShrSVecI16x8=4]="ShrSVecI16x8",e[e.ShrUVecI16x8=5]="ShrUVecI16x8",e[e.ShlVecI32x4=6]="ShlVecI32x4",e[e.ShrSVecI32x4=7]="ShrSVecI32x4",e[e.ShrUVecI32x4=8]="ShrUVecI32x4",e[e.ShlVecI64x2=9]="ShlVecI64x2",e[e.ShrSVecI64x2=10]="ShrSVecI64x2",e[e.ShrUVecI64x2=11]="ShrUVecI64x2"}(r.SIMDShiftOp||(r.SIMDShiftOp={}));var o=function(){function e(){}return e.create=function(r,t){var n=new e;return n.buffer=r,n.offset=t,n},e}();r.MemorySegment=o;var c=function(){function e(){this.hasTemporaryFunction=!1,this.cachedPrecomputeNames=0,this.cachedStrings=new Map}return e.create=function(){var r=new e;return r.ref=_BinaryenModuleCreate(),r.lit=memory.allocate(_BinaryenSizeofLiteral()),r},e.createFrom=function(r){var t=p(r);try{var n=new e;return n.ref=_BinaryenModuleRead(t,r.length),n.lit=memory.allocate(_BinaryenSizeofLiteral()),n}finally{memory.free(changetype(t))}},e.prototype.addFunctionType=function(e,r,t){var n=this.allocStringCached(e),i=u(t);try{return _BinaryenAddFunctionType(this.ref,n,r,i,t?t.length:0)}finally{memory.free(i)}},e.prototype.getFunctionTypeBySignature=function(e,r){var t=u(r);try{return _BinaryenGetFunctionTypeBySignature(this.ref,e,t,r?r.length:0)}finally{memory.free(t)}},e.prototype.removeFunctionType=function(e){var r=this.allocStringCached(e);_BinaryenRemoveFunctionType(this.ref,r)},e.prototype.createI32=function(e){var r=this.lit;return _BinaryenLiteralInt32(r,e),_BinaryenConst(this.ref,r)},e.prototype.createI64=function(e,r){void 0===r&&(r=0);var t=this.lit;return _BinaryenLiteralInt64(t,e,r),_BinaryenConst(this.ref,t)},e.prototype.createF32=function(e){var r=this.lit;return _BinaryenLiteralFloat32(r,e),_BinaryenConst(this.ref,r)},e.prototype.createF64=function(e){var r=this.lit;return _BinaryenLiteralFloat64(r,e),_BinaryenConst(this.ref,r)},e.prototype.createV128=function(e){assert(16==e.length);for(var r=this.lit,t=0;t<16;++t)store(r+t,e[t]);return _BinaryenLiteralVec128(r,r),_BinaryenConst(this.ref,r)},e.prototype.createUnary=function(e,r){return _BinaryenUnary(this.ref,e,r)},e.prototype.createBinary=function(e,r,t){return _BinaryenBinary(this.ref,e,r,t)},e.prototype.createHost=function(e,r,t){void 0===r&&(r=null),void 0===t&&(t=null);var n=this.allocStringCached(r),i=_(t);try{return 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g=l.signature,T=s.addFunction(l.internalName,this.ensureFunctionType(g.parameterTypes,g.returnType,g.thisType),m.typesToNativeTypes(l.additionalLocals),s.createBlock(null,u));l.finalize(s,T),y||s.setStart(T)}var f=this.memoryOffset;f=i64_align(f,i.usizeType.byteSize),this.memoryOffset=f,s.removeGlobal(c.BuiltinSymbols.HEAP_BASE),i.isWasm64?s.addGlobal(c.BuiltinSymbols.HEAP_BASE,p.NativeType.I64,!1,s.createI64(i64_low(f),i64_high(f))):s.addGlobal(c.BuiltinSymbols.HEAP_BASE,p.NativeType.I32,!1,s.createI32(i64_low(f)));var E=i.hasFeature(16)&&i.sharedMemory>0;s.setMemory(this.options.memoryBase||this.memorySegments.length?i64_low(i64_shr_u(i64_align(f,65536),i64_new(16,0))):0,E?i.sharedMemory:p.Module.UNLIMITED_MEMORY,this.memorySegments,i.target,"memory"),i.importMemory&&s.addMemoryImport("0","env","memory",E);var b=this.functionTable;s.setFunctionTable(b.length,4294967295,b),s.addTableExport("0","table"),s.addFunction("null",this.ensureFunctionType(null,m.Type.void),null,s.createBlock(null,[])),i.importTable&&s.addTableImport("0","env","table");try{for(var v=a(this.program.filesByName.values()),I=v.next();!I.done;I=v.next()){var x;(x=I.value).source.isEntry&&this.makeModuleExports(x)}}catch(e){t={error:e}}finally{try{I&&!I.done&&(n=v.return)&&n.call(v)}finally{if(t)throw t.error}}return this.needsIterateRoots&&c.compileIterateRoots(this),s},r.prototype.makeModuleExports=function(e){var r,t,n=e.exports;if(n)try{for(var i=a(n),o=i.next();!o.done;o=i.next()){var c=s(o.value,2),l=c[0],p=c[1];this.makeModuleExport(l,p)}}catch(e){r={error:e}}finally{try{o&&!o.done&&(t=i.return)&&t.call(i)}finally{if(r)throw r.error}}var u=e.exportsStar;if(u)for(var _=0,h=u.length;_1?c.createBlock(null,n):n[0]),t.push(c.createCall(r.internalName,null,p.NativeType.None))}}},r.prototype.compileGlobal=function(e){if(e.is(u.CommonFlags.COMPILED))return!0;e.set(u.CommonFlags.COMPILED);var r=this.module,t=0,n=e.typeNode,i=e.initializerNode;if(!e.is(u.CommonFlags.RESOLVED))if(n){var a=this.resolver.resolveType(n,e.parent);if(!a)return!1;if(a==m.Type.void)return this.error(l.DiagnosticCode.Type_expected,n.range),!1;e.setType(a)}else{if(!i)return this.error(l.DiagnosticCode.Type_expected,e.identifierNode.range.atEnd),!1;var s=this.currentFlow;if(e.hasDecorator(_.DecoratorFlags.LAZY)&&(this.currentFlow=e.file.startFunction.flow),t=this.compileExpressionRetainType(i,m.Type.void,1),this.currentFlow=s,this.currentType==m.Type.void)return this.error(l.DiagnosticCode.Type_0_is_not_assignable_to_type_1,i.range,this.currentType.toString(),""),!1;e.setType(this.currentType)}if(e.is(u.CommonFlags.AMBIENT)&&e.hasDecorator(_.DecoratorFlags.BUILTIN))return!0;var o=e.type.toNativeType(),c=e.is(u.CommonFlags.CONST)||e.is(u.CommonFlags.STATIC|u.CommonFlags.READONLY);if(e.is(u.CommonFlags.AMBIENT))return c||this.options.hasFeature(2)?(e.set(u.CommonFlags.MODULE_IMPORT),x(e,e.declaration),r.addGlobalImport(e.internalName,E,b,o),e.set(u.CommonFlags.COMPILED),!0):(this.error(l.DiagnosticCode.Operation_not_supported,e.declaration.range),!1);var h=!1;if(i){if(!t){s=this.currentFlow;e.hasDecorator(_.DecoratorFlags.LAZY)&&(this.currentFlow=e.file.startFunction.flow),t=this.compileExpression(i,e.type,1,1),this.currentFlow=s}if(p.getExpressionId(t)!=p.ExpressionId.Const&&(c?(t=r.precomputeExpression(t),p.getExpressionId(t)!=p.ExpressionId.Const&&(this.warning(l.DiagnosticCode.Compiling_constant_with_non_constant_initializer_as_mutable,i.range),h=!0)):h=!0),e.hasDecorator(_.DecoratorFlags.INLINE)&&!h){switch(assert(p.getExpressionId(t)==p.ExpressionId.Const),p.getExpressionType(t)){case p.NativeType.I32:e.constantValueKind=1,e.constantIntegerValue=i64_new(p.getConstValueI32(t),0);break;case p.NativeType.I64:e.constantValueKind=1,e.constantIntegerValue=i64_new(p.getConstValueI64Low(t),p.getConstValueI64High(t));break;case p.NativeType.F32:e.constantValueKind=2,e.constantFloatValue=p.getConstValueF32(t);break;case p.NativeType.F64:e.constantValueKind=2,e.constantFloatValue=p.getConstValueF64(t);break;default:return assert(!1),!1}e.set(u.CommonFlags.INLINED)}}else t=e.type.toNativeZero(r);var d=e.internalName;return h?(e.hasDecorator(_.DecoratorFlags.INLINE)&&this.error(l.DiagnosticCode.Decorator_0_is_not_valid_here,e.identifierNode.range,"inline"),r.addGlobal(d,o,!0,e.type.toNativeZero(r)),this.currentBody.push(r.createSetGlobal(d,t))):e.hasDecorator(_.DecoratorFlags.INLINE)||r.addGlobal(d,o,!c,t),!0},r.prototype.compileEnum=function(e){var r,t;if(e.is(u.CommonFlags.COMPILED))return!0;e.set(u.CommonFlags.COMPILED);var n=this.module;this.currentEnum=e;var i=null,s=!1,o=e.is(u.CommonFlags.CONST)||e.hasDecorator(_.DecoratorFlags.INLINE);if(e.members)try{for(var c=a(e.members.values()),h=c.next();!h.done;h=c.next()){var d=h.value;if(d.kind==_.ElementKind.ENUMVALUE){var y=!1,g=d,T=g.valueNode;g.set(u.CommonFlags.COMPILED);var f=this.currentFlow;e.hasDecorator(_.DecoratorFlags.LAZY)&&(this.currentFlow=e.file.startFunction.flow);var E=void 0;T?(E=this.compileExpression(T,m.Type.i32,1,0),p.getExpressionId(E)!=p.ExpressionId.Const&&(e.is(u.CommonFlags.CONST)?(E=n.precomputeExpression(E),p.getExpressionId(E)!=p.ExpressionId.Const&&(this.error(l.DiagnosticCode.In_const_enum_declarations_member_initializer_must_be_constant_expression,T.range),y=!0)):y=!0)):null==i?E=n.createI32(0):(s&&this.error(l.DiagnosticCode.Enum_member_must_have_initializer,d.identifierNode.range.atEnd),E=n.createBinary(p.BinaryOp.AddI32,n.createGetGlobal(i.internalName,p.NativeType.I32),n.createI32(1)),E=n.precomputeExpression(E),p.getExpressionId(E)!=p.ExpressionId.Const&&(e.is(u.CommonFlags.CONST)&&this.error(l.DiagnosticCode.In_const_enum_declarations_member_initializer_must_be_constant_expression,d.declaration.range),y=!0)),this.currentFlow=f,y?(n.addGlobal(g.internalName,p.NativeType.I32,!0,n.createI32(0)),this.currentBody.push(n.createSetGlobal(g.internalName,E)),s=!0):(o?(g.setConstantIntegerValue(i64_new(p.getConstValueI32(E)),m.Type.i32),g.is(u.CommonFlags.MODULE_EXPORT)&&n.addGlobal(g.internalName,p.NativeType.I32,!1,E)):n.addGlobal(g.internalName,p.NativeType.I32,!0,E),s=!1),i=g}}}catch(e){r={error:e}}finally{try{h&&!h.done&&(t=c.return)&&t.call(c)}finally{if(r)throw 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r.set(4),r.set(1),c.compileAbort(this,null,e)},r.prototype.compileTryStatement=function(e){return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()},r.prototype.compileVariableStatement=function(e){for(var r=e.declarations,t=r.length,n=this.currentFlow,i=new Array,a=this.resolver,s=0;s");continue}h=this.currentType}var y=!1;if(o.is(u.CommonFlags.CONST))if(d)if(d=this.module.precomputeExpression(d),p.getExpressionId(d)==p.ExpressionId.Const){var g=new _.Local(c,-1,h,n.parentFunction);switch(p.getExpressionType(d)){case p.NativeType.I32:g.setConstantIntegerValue(i64_new(p.getConstValueI32(d),0),h);break;case p.NativeType.I64:g.setConstantIntegerValue(i64_new(p.getConstValueI64Low(d),p.getConstValueI64High(d)),h);break;case p.NativeType.F32:g.setConstantFloatValue(p.getConstValueF32(d),h);break;case p.NativeType.F64:g.setConstantFloatValue(p.getConstValueF64(d),h);break;default:return assert(!1),this.module.createUnreachable()}var T=n.scopedLocals;if(T){if(T.has(c))return this.error(l.DiagnosticCode.Duplicate_identifier_0,o.name.range,c),this.module.createUnreachable()}else n.scopedLocals=T=new Map;T.set(c,g),y=!0}else this.warning(l.DiagnosticCode.Compiling_constant_with_non_constant_initializer_as_mutable,o.range);else this.error(l.DiagnosticCode._const_declarations_must_be_initialized,o.range);if(!y){g=void 0;if(o.isAny(u.CommonFlags.LET|u.CommonFlags.CONST)||n.is(4096))g=n.addScopedLocal(c,h,!1,o.name);else{if(n.lookupLocal(c)){this.error(l.DiagnosticCode.Duplicate_identifier_0,o.name.range,c);continue}g=n.parentFunction.addLocal(h,c,o)}d?(i.push(this.compileAssignmentWithValue(o.name,d)),g.type.is(36)&&n.setLocalWrapped(g.index,!n.canOverflow(d,h))):g.type.is(36)&&n.setLocalWrapped(g.index,!0)}}return i.length?1==i.length?i[0]:this.module.createBlock(null,i,p.NativeType.None):0},r.prototype.compileVoidStatement=function(e){return this.compileExpression(e.expression,m.Type.void,2,0)},r.prototype.compileWhileStatement=function(e){var r=this.module,t=this.currentFlow,n=this.makeIsTrueish(this.compileExpressionRetainType(e.condition,m.Type.bool,0),this.currentType),i=r.precomputeExpression(n);if(p.getExpressionId(i)==p.ExpressionId.Const&&p.getExpressionType(i)==p.NativeType.I32){if(!p.getConstValueI32(i))return r.createNop()}else n=this.makeIsTrueish(this.compileExpressionRetainType(e.condition,m.Type.bool,0),this.currentType);var a=t.pushBreakLabel(),s=t.fork();this.currentFlow=s;var o="break|"+a;s.breakLabel=o;var c="continue|"+a;s.continueLabel=c;var l=this.compileStatement(e.statement),u=s.isAny(29);return s.freeScopedLocals(),t.popBreakLabel(),this.currentFlow=t,s.unset(1560),t.inheritConditional(s),r.createBlock(o,[r.createLoop(c,r.createIf(n,u?l:r.createBlock(null,[l,r.createBreak(c)],p.NativeType.None)))])},r.prototype.compileInlineConstant=function(e,r,t){assert(e.is(u.CommonFlags.INLINED));var n=e.type;switch(!t&&n.is(4)&&r.is(4)&&n.size>i:0);case 5:case 6:case 10:var a=e.type.computeSmallIntegerMask(m.Type.i32);return this.module.createI32(1==e.constantValueKind?i64_low(e.constantIntegerValue)&a:0);case 2:case 7:return this.module.createI32(1==e.constantValueKind?i64_low(e.constantIntegerValue):0);case 4:case 9:if(!e.program.options.isWasm64)return this.module.createI32(1==e.constantValueKind?i64_low(e.constantIntegerValue):0);case 3:case 8:return 1==e.constantValueKind?this.module.createI64(i64_low(e.constantIntegerValue),i64_high(e.constantIntegerValue)):this.module.createI64(0);case 12:if(!e.hasDecorator(_.DecoratorFlags.BUILTIN)||r!=m.Type.f32)return this.module.createF64(e.constantFloatValue);this.currentType=m.Type.f32;case 11:return this.module.createF32(e.constantFloatValue);default:return assert(!1),this.module.createUnreachable()}},r.prototype.compileExpression=function(e,r,t,n){var i;switch(this.currentType=r,e.kind){case g.NodeKind.ASSERTION:i=this.compileAssertionExpression(e,r);break;case g.NodeKind.BINARY:i=this.compileBinaryExpression(e,r);break;case g.NodeKind.CALL:i=this.compileCallExpression(e,r);break;case g.NodeKind.COMMA:i=this.compileCommaExpression(e,r);break;case g.NodeKind.ELEMENTACCESS:i=this.compileElementAccessExpression(e,r);break;case g.NodeKind.FUNCTION:i=this.compileFunctionExpression(e,r.signatureReference);break;case g.NodeKind.IDENTIFIER:case g.NodeKind.FALSE:case g.NodeKind.NULL:case g.NodeKind.THIS:case g.NodeKind.SUPER:case g.NodeKind.TRUE:i=this.compileIdentifierExpression(e,r,0==t);break;case g.NodeKind.INSTANCEOF:i=this.compileInstanceOfExpression(e,r);break;case g.NodeKind.LITERAL:i=this.compileLiteralExpression(e,r);break;case g.NodeKind.NEW:i=this.compileNewExpression(e,r);break;case g.NodeKind.PARENTHESIZED:i=this.compileParenthesizedExpression(e,r);break;case g.NodeKind.PROPERTYACCESS:i=this.compilePropertyAccessExpression(e,r,0==t);break;case g.NodeKind.TERNARY:i=this.compileTernaryExpression(e,r);break;case g.NodeKind.UNARYPOSTFIX:i=this.compileUnaryPostfixExpression(e,r);break;case g.NodeKind.UNARYPREFIX:i=this.compileUnaryPrefixExpression(e,r);break;default:this.error(l.DiagnosticCode.Operation_not_supported,e.range),i=this.module.createUnreachable()}var a=this.currentType;return 0!=t&&a!=r?(i=this.convertExpression(i,a,r,t,n,e),this.currentType=r):1==n&&(i=this.ensureSmallIntegerWrap(i,a)),this.options.sourceMap&&this.addDebugLocation(i,e.range),i},r.prototype.compileExpressionRetainType=function(e,r,t){return this.compileExpression(e,r==m.Type.void?m.Type.i32:r,0,t)},r.prototype.precomputeExpression=function(e,r,t,n){return this.module.precomputeExpression(this.compileExpression(e,r,t,n))},r.prototype.convertExpression=function(e,r,t,n,i,a){assert(0!=n);var s=this.module;return 14==r.kind?(assert(14!=t.kind),this.error(l.DiagnosticCode.Type_0_is_not_assignable_to_type_1,a.range,r.toString(),t.toString()),s.createUnreachable()):14==t.kind?s.createDrop(e):(r.isAssignableTo(t)||1==n&&this.error(l.DiagnosticCode.Conversion_from_type_0_to_1_requires_an_explicit_cast,a.range,r.toString(),t.toString()),r.is(8)?t.is(8)?11==r.kind?12==t.kind&&(e=s.createUnary(p.UnaryOp.PromoteF32,e)):11==t.kind&&(e=s.createUnary(p.UnaryOp.DemoteF64,e)):t.is(4)?11==r.kind?t==m.Type.bool?(e=s.createBinary(p.BinaryOp.NeF32,e,s.createF32(0)),i=0):e=t.is(1)?t.is(64)?s.createUnary(p.UnaryOp.TruncF32ToI64,e):s.createUnary(p.UnaryOp.TruncF32ToI32,e):t.is(64)?s.createUnary(p.UnaryOp.TruncF32ToU64,e):s.createUnary(p.UnaryOp.TruncF32ToU32,e):t==m.Type.bool?(e=s.createBinary(p.BinaryOp.NeF64,e,s.createF64(0)),i=0):e=t.is(1)?t.is(64)?s.createUnary(p.UnaryOp.TruncF64ToI64,e):s.createUnary(p.UnaryOp.TruncF64ToI32,e):t.is(64)?s.createUnary(p.UnaryOp.TruncF64ToU64,e):s.createUnary(p.UnaryOp.TruncF64ToU32,e):(assert(0==t.flags,"void type expected"),e=s.createDrop(e)):r.is(4)&&t.is(8)?e=11==t.kind?r.is(64)?s.createUnary(r.is(1)?p.UnaryOp.ConvertI64ToF32:p.UnaryOp.ConvertU64ToF32,e):s.createUnary(r.is(1)?p.UnaryOp.ConvertI32ToF32:p.UnaryOp.ConvertU32ToF32,e):r.is(64)?s.createUnary(r.is(1)?p.UnaryOp.ConvertI64ToF64:p.UnaryOp.ConvertU64ToF64,e):s.createUnary(r.is(1)?p.UnaryOp.ConvertI32ToF64:p.UnaryOp.ConvertU32ToF64,e):r.is(64)?t==m.Type.bool?(e=s.createBinary(p.BinaryOp.NeI64,e,s.createI64(0)),i=0):t.is(64)||(e=s.createUnary(p.UnaryOp.WrapI64,e)):t.is(64)?(e=s.createUnary(r.is(1)?p.UnaryOp.ExtendI32:p.UnaryOp.ExtendU32,this.ensureSmallIntegerWrap(e,r)),i=0):r.is(32)&&r.size",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();switch(t=this.convertExpression(t,n,n=s,1,1,h),i=this.convertExpression(i,a,a=s,1,1,d),s.kind){case 0:case 1:case 2:o=c.createBinary(p.BinaryOp.GtI32,t,i);break;case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.GtI64:p.BinaryOp.GtI32,t,i);break;case 3:o=c.createBinary(p.BinaryOp.GtI64,t,i);break;case 5:case 6:case 7:case 10:o=c.createBinary(p.BinaryOp.GtU32,t,i);break;case 9:o=c.createBinary(this.options.isWasm64?p.BinaryOp.GtU64:p.BinaryOp.GtU32,t,i);break;case 8:o=c.createBinary(p.BinaryOp.GtU64,t,i);break;case 11:o=c.createBinary(p.BinaryOp.GtF32,t,i);break;case 12:o=c.createBinary(p.BinaryOp.GtF64,t,i);break;default:assert(!1),o=c.createUnreachable()}this.currentType=m.Type.bool;break;case y.Token.LESSTHAN_EQUALS:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,this.currentType.is(256)){if(v=n.classReference)if(I=v.lookupOverload(_.OperatorKind.LE)){o=this.compileBinaryOverload(I,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=m.Type.commonDenominator(n,a,!0)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,"<=",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();switch(t=this.convertExpression(t,n,n=s,1,1,h),i=this.convertExpression(i,a,a=s,1,1,d),s.kind){case 0:case 1:case 2:o=c.createBinary(p.BinaryOp.LeI32,t,i);break;case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.LeI64:p.BinaryOp.LeI32,t,i);break;case 3:o=c.createBinary(p.BinaryOp.LeI64,t,i);break;case 5:case 6:case 7:case 10:o=c.createBinary(p.BinaryOp.LeU32,t,i);break;case 9:o=c.createBinary(this.options.isWasm64?p.BinaryOp.LeU64:p.BinaryOp.LeU32,t,i);break;case 8:o=c.createBinary(p.BinaryOp.LeU64,t,i);break;case 11:o=c.createBinary(p.BinaryOp.LeF32,t,i);break;case 12:o=c.createBinary(p.BinaryOp.LeF64,t,i);break;default:assert(!1),o=c.createUnreachable()}this.currentType=m.Type.bool;break;case y.Token.GREATERTHAN_EQUALS:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,this.currentType.is(256)){if(v=n.classReference)if(I=v.lookupOverload(_.OperatorKind.GE)){o=this.compileBinaryOverload(I,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=m.Type.commonDenominator(n,a,!0)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,">=",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();switch(t=this.convertExpression(t,n,n=s,1,1,h),i=this.convertExpression(i,a,a=s,1,1,d),s.kind){case 0:case 1:case 2:o=c.createBinary(p.BinaryOp.GeI32,t,i);break;case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.GeI64:p.BinaryOp.GeI32,t,i);break;case 3:o=c.createBinary(p.BinaryOp.GeI64,t,i);break;case 5:case 6:case 7:case 10:o=c.createBinary(p.BinaryOp.GeU32,t,i);break;case 9:o=c.createBinary(this.options.isWasm64?p.BinaryOp.GeU64:p.BinaryOp.GeU32,t,i);break;case 8:o=c.createBinary(p.BinaryOp.GeU64,t,i);break;case 11:o=c.createBinary(p.BinaryOp.GeF32,t,i);break;case 12:o=c.createBinary(p.BinaryOp.GeF64,t,i);break;default:assert(!1),o=c.createUnreachable()}this.currentType=m.Type.bool;break;case y.Token.EQUALS_EQUALS_EQUALS:case y.Token.EQUALS_EQUALS:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,T==y.Token.EQUALS_EQUALS&&this.currentType.is(256))if(v=n.classReference)if(I=v.lookupOverload(_.OperatorKind.EQ)){o=this.compileBinaryOverload(I,h,t,d,e);break}if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=m.Type.commonDenominator(n,a,!1)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,y.operatorTokenToString(e.operator),n.toString(),a.toString()),this.currentType=r,c.createUnreachable();switch(t=this.convertExpression(t,n,n=s,1,1,h),i=this.convertExpression(i,a,a=s,1,1,d),s.kind){case 0:case 1:case 2:case 5:case 6:case 7:case 10:o=c.createBinary(p.BinaryOp.EqI32,t,i);break;case 9:case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.EqI64:p.BinaryOp.EqI32,t,i);break;case 3:case 8:o=c.createBinary(p.BinaryOp.EqI64,t,i);break;case 11:o=c.createBinary(p.BinaryOp.EqF32,t,i);break;case 12:o=c.createBinary(p.BinaryOp.EqF64,t,i);break;case 13:o=c.createUnary(p.UnaryOp.AllTrueVecI8x16,c.createBinary(p.BinaryOp.EqVecI8x16,t,i));break;default:assert(!1),o=c.createUnreachable()}this.currentType=m.Type.bool;break;case y.Token.EXCLAMATION_EQUALS_EQUALS:case y.Token.EXCLAMATION_EQUALS:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,T==y.Token.EXCLAMATION_EQUALS&&this.currentType.is(256))if(v=n.classReference)if(I=v.lookupOverload(_.OperatorKind.NE)){o=this.compileBinaryOverload(I,h,t,d,e);break}if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=m.Type.commonDenominator(n,a,!1)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,y.operatorTokenToString(e.operator),n.toString(),a.toString()),this.currentType=r,c.createUnreachable();switch(t=this.convertExpression(t,n,n=s,1,1,h),i=this.convertExpression(i,a,a=s,1,1,d),s.kind){case 0:case 1:case 2:case 5:case 6:case 7:case 10:o=c.createBinary(p.BinaryOp.NeI32,t,i);break;case 9:case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.NeI64:p.BinaryOp.NeI32,t,i);break;case 3:case 8:o=c.createBinary(p.BinaryOp.NeI64,t,i);break;case 11:o=c.createBinary(p.BinaryOp.NeF32,t,i);break;case 12:o=c.createBinary(p.BinaryOp.NeF64,t,i);break;case 13:o=c.createUnary(p.UnaryOp.AnyTrueVecI8x16,c.createBinary(p.BinaryOp.NeVecI8x16,t,i));break;default:assert(!1),o=c.createUnreachable()}this.currentType=m.Type.bool;break;case y.Token.EQUALS:return this.compileAssignment(h,d,r);case y.Token.PLUS_EQUALS:g=!0;case y.Token.PLUS:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,this.currentType.is(256)){if(v=n.classReference)if(I=v.lookupOverload(_.OperatorKind.ADD)){o=this.compileBinaryOverload(I,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}if(g)i=this.compileExpression(d,n,1,0);else{if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=m.Type.commonDenominator(n,a,!1)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,"+",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();t=this.convertExpression(t,n,n=s,1,0,h),i=this.convertExpression(i,a,a=s,1,0,d)}switch(this.currentType.kind){case 0:case 1:case 5:case 6:case 10:case 2:case 7:o=c.createBinary(p.BinaryOp.AddI32,t,i);break;case 9:case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.AddI64:p.BinaryOp.AddI32,t,i);break;case 3:case 8:o=c.createBinary(p.BinaryOp.AddI64,t,i);break;case 11:o=c.createBinary(p.BinaryOp.AddF32,t,i);break;case 12:o=c.createBinary(p.BinaryOp.AddF64,t,i);break;default:assert(!1),o=c.createUnreachable()}break;case y.Token.MINUS_EQUALS:g=!0;case y.Token.MINUS:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,this.currentType.is(256)){if(v=n.classReference)if(I=v.lookupOverload(_.OperatorKind.SUB)){o=this.compileBinaryOverload(I,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}if(g)i=this.compileExpression(d,n,1,0),a=this.currentType;else{if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=m.Type.commonDenominator(n,a,!1)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,"-",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();t=this.convertExpression(t,n,n=s,1,0,h),i=this.convertExpression(i,a,a=s,1,0,d)}switch(this.currentType.kind){case 0:case 1:case 5:case 6:case 10:case 2:case 7:o=c.createBinary(p.BinaryOp.SubI32,t,i);break;case 9:case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.SubI64:p.BinaryOp.SubI32,t,i);break;case 3:case 8:o=c.createBinary(p.BinaryOp.SubI64,t,i);break;case 11:o=c.createBinary(p.BinaryOp.SubF32,t,i);break;case 12:o=c.createBinary(p.BinaryOp.SubF64,t,i);break;default:assert(!1),o=c.createUnreachable()}break;case y.Token.ASTERISK_EQUALS:g=!0;case y.Token.ASTERISK:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,this.currentType.is(256)){if(v=n.classReference)if(I=v.lookupOverload(_.OperatorKind.MUL)){o=this.compileBinaryOverload(I,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}if(g)t=this.ensureSmallIntegerWrap(t,n),i=this.compileExpression(d,n,1,1);else{if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=m.Type.commonDenominator(n,a,!1)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,"*",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();t=this.convertExpression(t,n,n=s,1,0,h),i=this.convertExpression(i,a,a=s,1,0,d)}switch(this.currentType.kind){case 0:case 1:case 5:case 6:case 10:case 2:case 7:o=c.createBinary(p.BinaryOp.MulI32,t,i);break;case 9:case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.MulI64:p.BinaryOp.MulI32,t,i);break;case 3:case 8:o=c.createBinary(p.BinaryOp.MulI64,t,i);break;case 11:o=c.createBinary(p.BinaryOp.MulF32,t,i);break;case 12:o=c.createBinary(p.BinaryOp.MulF64,t,i);break;default:assert(!1),o=c.createUnreachable()}break;case y.Token.ASTERISK_ASTERISK_EQUALS:g=!0;case y.Token.ASTERISK_ASTERISK:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,this.currentType.is(256)){if(v=n.classReference)if(I=v.lookupOverload(_.OperatorKind.POW)){o=this.compileBinaryOverload(I,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}var f=void 0;if(11==this.currentType.kind){if(i=this.compileExpression(d,m.Type.f32,1,0),a=this.currentType,!(f=this.f32PowInstance)){if(!(E=this.program.lookupGlobal(u.LibrarySymbols.Mathf))){this.error(l.DiagnosticCode.Cannot_find_name_0,e.range,"Mathf"),o=c.createUnreachable();break}if(!(b=E.members?E.members.get(u.LibrarySymbols.pow):null)){this.error(l.DiagnosticCode.Cannot_find_name_0,e.range,"Mathf.pow"),o=c.createUnreachable();break}assert(b.kind==_.ElementKind.FUNCTION_PROTOTYPE),this.f32PowInstance=f=this.resolver.resolveFunction(b,null)}}else if(t=this.convertExpression(t,this.currentType,m.Type.f64,1,0,h),n=this.currentType,i=this.compileExpression(d,m.Type.f64,1,0),a=this.currentType,!(f=this.f64PowInstance)){if(!(E=this.program.lookupGlobal(u.LibrarySymbols.Math))){this.error(l.DiagnosticCode.Cannot_find_name_0,e.range,"Math"),o=c.createUnreachable();break}if(!(b=E.members?E.members.get(u.LibrarySymbols.pow):null)){this.error(l.DiagnosticCode.Cannot_find_name_0,e.range,"Math.pow"),o=c.createUnreachable();break}assert(b.kind==_.ElementKind.FUNCTION_PROTOTYPE),this.f64PowInstance=f=this.resolver.resolveFunction(b,null)}o=f&&this.compileFunction(f)?this.makeCallDirect(f,[t,i]):c.createUnreachable();break;case y.Token.SLASH_EQUALS:g=!0;case y.Token.SLASH:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,this.currentType.is(256)){if(v=n.classReference)if(I=v.lookupOverload(_.OperatorKind.DIV)){o=this.compileBinaryOverload(I,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}if(g)t=this.ensureSmallIntegerWrap(t,n),i=this.compileExpression(d,n,1,1),a=this.currentType;else{if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=m.Type.commonDenominator(n,a,!1)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,"/",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();t=this.convertExpression(t,n,n=s,1,1,h),i=this.convertExpression(i,a,a=s,1,1,d)}switch(this.currentType.kind){case 0:case 1:case 2:o=c.createBinary(p.BinaryOp.DivI32,t,i);break;case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.DivI64:p.BinaryOp.DivI32,t,i);break;case 3:o=c.createBinary(p.BinaryOp.DivI64,t,i);break;case 5:case 6:case 10:case 7:o=c.createBinary(p.BinaryOp.DivU32,t,i);break;case 9:o=c.createBinary(this.options.isWasm64?p.BinaryOp.DivU64:p.BinaryOp.DivU32,t,i);break;case 8:o=c.createBinary(p.BinaryOp.DivU64,t,i);break;case 11:o=c.createBinary(p.BinaryOp.DivF32,t,i);break;case 12:o=c.createBinary(p.BinaryOp.DivF64,t,i);break;default:assert(!1),o=c.createUnreachable()}break;case y.Token.PERCENT_EQUALS:g=!0;case y.Token.PERCENT:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,this.currentType.is(256)){if(v=n.classReference)if(I=v.lookupOverload(_.OperatorKind.REM)){o=this.compileBinaryOverload(I,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}if(g)t=this.ensureSmallIntegerWrap(t,n),i=this.compileExpression(d,n,1,1),a=this.currentType;else{if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=m.Type.commonDenominator(n,a,!1)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,"%",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();t=this.convertExpression(t,n,n=s,1,1,h),i=this.convertExpression(i,a,a=s,1,1,d)}switch(this.currentType.kind){case 0:case 1:case 2:o=c.createBinary(p.BinaryOp.RemI32,t,i);break;case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.RemI64:p.BinaryOp.RemI32,t,i);break;case 3:o=c.createBinary(p.BinaryOp.RemI64,t,i);break;case 5:case 6:case 10:case 7:o=c.createBinary(p.BinaryOp.RemU32,t,i);break;case 9:o=c.createBinary(this.options.isWasm64?p.BinaryOp.RemU64:p.BinaryOp.RemU32,t,i);break;case 8:o=c.createBinary(p.BinaryOp.RemU64,t,i);break;case 11:if(!(f=this.f32ModInstance)){if(!(E=this.program.lookupGlobal(u.LibrarySymbols.Mathf))){this.error(l.DiagnosticCode.Cannot_find_name_0,e.range,"Mathf"),o=c.createUnreachable();break}if(!(b=E.members?E.members.get(u.LibrarySymbols.mod):null)){this.error(l.DiagnosticCode.Cannot_find_name_0,e.range,"Mathf.mod"),o=c.createUnreachable();break}assert(b.kind==_.ElementKind.FUNCTION_PROTOTYPE),this.f32ModInstance=f=this.resolver.resolveFunction(b,null)}o=f&&this.compileFunction(f)?this.makeCallDirect(f,[t,i]):c.createUnreachable();break;case 12:if(!(f=this.f64ModInstance)){var E,b;if(!(E=this.program.lookupGlobal(u.LibrarySymbols.Math))){this.error(l.DiagnosticCode.Cannot_find_name_0,e.range,"Math"),o=c.createUnreachable();break}if(!(b=E.members?E.members.get(u.LibrarySymbols.mod):null)){this.error(l.DiagnosticCode.Cannot_find_name_0,e.range,"Math.mod"),o=c.createUnreachable();break}assert(b.kind==_.ElementKind.FUNCTION_PROTOTYPE),this.f64ModInstance=f=this.resolver.resolveFunction(b,null)}o=f&&this.compileFunction(f)?this.makeCallDirect(f,[t,i]):c.createUnreachable();break;default:assert(!1),o=c.createUnreachable()}break;case y.Token.LESSTHAN_LESSTHAN_EQUALS:g=!0;case y.Token.LESSTHAN_LESSTHAN:if(t=this.compileExpressionRetainType(h,r.intType,0),n=this.currentType,this.currentType.is(256)){if(v=n.classReference)if(I=v.lookupOverload(_.OperatorKind.BITWISE_SHL)){o=this.compileBinaryOverload(I,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}switch(i=this.compileExpression(d,n,1,0),a=this.currentType,this.currentType.kind){case 0:case 1:case 5:case 6:case 10:case 2:case 7:o=c.createBinary(p.BinaryOp.ShlI32,t,i);break;case 3:case 8:o=c.createBinary(p.BinaryOp.ShlI64,t,i);break;case 9:case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.ShlI64:p.BinaryOp.ShlI32,t,i);break;case 11:case 12:return this.error(l.DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,e.range,y.operatorTokenToString(e.operator),this.currentType.toString()),c.createUnreachable();default:assert(!1),o=c.createUnreachable()}break;case y.Token.GREATERTHAN_GREATERTHAN_EQUALS:g=!0;case y.Token.GREATERTHAN_GREATERTHAN:if(t=this.compileExpressionRetainType(h,r.intType,0),n=this.currentType,this.currentType.is(256)){if(v=n.classReference)if(I=v.lookupOverload(_.OperatorKind.BITWISE_SHR)){o=this.compileBinaryOverload(I,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}switch(t=this.ensureSmallIntegerWrap(t,n),i=this.compileExpression(d,n,1,1),a=this.currentType,this.currentType.kind){case 0:case 1:case 2:o=c.createBinary(p.BinaryOp.ShrI32,t,i);break;case 3:o=c.createBinary(p.BinaryOp.ShrI64,t,i);break;case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.ShrI64:p.BinaryOp.ShrI32,t,i);break;case 5:case 6:case 10:case 7:o=c.createBinary(p.BinaryOp.ShrU32,t,i);break;case 8:o=c.createBinary(p.BinaryOp.ShrU64,t,i);break;case 9:o=c.createBinary(this.options.isWasm64?p.BinaryOp.ShrU64:p.BinaryOp.ShrU32,t,i);break;case 11:case 12:return this.error(l.DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,e.range,y.operatorTokenToString(e.operator),this.currentType.toString()),c.createUnreachable();default:assert(!1),o=c.createUnreachable()}break;case y.Token.GREATERTHAN_GREATERTHAN_GREATERTHAN_EQUALS:g=!0;case y.Token.GREATERTHAN_GREATERTHAN_GREATERTHAN:if(t=this.compileExpressionRetainType(h,r.intType,0),n=this.currentType,this.currentType.is(256)){if(v=n.classReference)if(I=v.lookupOverload(_.OperatorKind.BITWISE_SHR_U)){o=this.compileBinaryOverload(I,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}switch(t=this.ensureSmallIntegerWrap(t,n),i=this.compileExpression(d,n,1,0),a=this.currentType,this.currentType.kind){case 5:case 6:case 10:o=c.createBinary(p.BinaryOp.ShrU32,t,i);case 0:case 1:case 2:case 7:o=c.createBinary(p.BinaryOp.ShrU32,t,i);break;case 3:case 8:o=c.createBinary(p.BinaryOp.ShrU64,t,i);break;case 9:case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.ShrU64:p.BinaryOp.ShrU32,t,i);break;case 11:case 12:return this.error(l.DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,e.range,y.operatorTokenToString(e.operator),this.currentType.toString()),c.createUnreachable();default:assert(!1),o=c.createUnreachable()}break;case y.Token.AMPERSAND_EQUALS:g=!0;case y.Token.AMPERSAND:if(t=this.compileExpressionRetainType(h,r.intType,0),n=this.currentType,this.currentType.is(256)){if(v=n.classReference)if(I=v.lookupOverload(_.OperatorKind.BITWISE_AND)){o=this.compileBinaryOverload(I,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}if(g)i=this.compileExpression(d,n,1,0),a=this.currentType;else{if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=m.Type.commonDenominator(n,a,!1)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,"&",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();t=this.convertExpression(t,n,n=s,1,0,h),i=this.convertExpression(i,a,a=s,1,0,d)}switch(this.currentType.kind){case 0:case 1:case 2:case 5:case 6:case 10:case 7:o=c.createBinary(p.BinaryOp.AndI32,t,i);break;case 3:case 8:o=c.createBinary(p.BinaryOp.AndI64,t,i);break;case 9:case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.AndI64:p.BinaryOp.AndI32,t,i);break;case 11:case 12:return this.error(l.DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,e.range,y.operatorTokenToString(e.operator),this.currentType.toString()),c.createUnreachable();default:assert(!1),o=c.createUnreachable()}break;case y.Token.BAR_EQUALS:g=!0;case y.Token.BAR:if(t=this.compileExpressionRetainType(h,r.intType,0),n=this.currentType,this.currentType.is(256)){if(v=n.classReference)if(I=v.lookupOverload(_.OperatorKind.BITWISE_OR)){o=this.compileBinaryOverload(I,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}if(g)i=this.compileExpression(d,n,1,0),a=this.currentType;else{if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=m.Type.commonDenominator(n,a,!1)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,"|",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();t=this.convertExpression(t,n,n=s,1,0,h),i=this.convertExpression(i,a,a=s,1,0,d)}switch(this.currentType.kind){case 0:case 1:case 5:case 6:case 10:o=c.createBinary(p.BinaryOp.OrI32,t,i);break;case 2:case 7:o=c.createBinary(p.BinaryOp.OrI32,t,i);break;case 3:case 8:o=c.createBinary(p.BinaryOp.OrI64,t,i);break;case 9:case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.OrI64:p.BinaryOp.OrI32,t,i);break;case 11:case 12:return this.error(l.DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,e.range,y.operatorTokenToString(e.operator),this.currentType.toString()),c.createUnreachable();default:assert(!1),o=c.createUnreachable()}break;case y.Token.CARET_EQUALS:g=!0;case y.Token.CARET:if(t=this.compileExpressionRetainType(h,r.intType,0),n=this.currentType,this.currentType.is(256)){var v,I;if(v=n.classReference)if(I=v.lookupOverload(_.OperatorKind.BITWISE_XOR)){o=this.compileBinaryOverload(I,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}if(g)i=this.compileExpression(d,n,1,0),a=this.currentType;else{if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=m.Type.commonDenominator(n,a,!1)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,"^",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();t=this.convertExpression(t,n,n=s,1,0,h),i=this.convertExpression(i,a,a=s,1,0,d)}switch(this.currentType.kind){case 0:case 1:case 5:case 6:case 10:o=c.createBinary(p.BinaryOp.XorI32,t,i);break;case 2:case 7:o=c.createBinary(p.BinaryOp.XorI32,t,i);break;case 3:case 8:o=c.createBinary(p.BinaryOp.XorI64,t,i);break;case 9:case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.XorI64:p.BinaryOp.XorI32,t,i);break;case 11:case 12:return this.error(l.DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,e.range,y.operatorTokenToString(e.operator),this.currentType.toString()),c.createUnreachable();default:assert(!1),o=c.createUnreachable()}break;case y.Token.AMPERSAND_AMPERSAND:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,i=this.compileExpression(d,n,1,0),a=this.currentType,o=c.cloneExpression(t,!0,0))o=c.createIf(this.makeIsTrueish(t,this.currentType),i,o);else{var x=(S=this.currentFlow).getAndFreeTempLocal(this.currentType,!S.canOverflow(t,this.currentType));o=c.createIf(this.makeIsTrueish(c.createTeeLocal(x.index,t),this.currentType),i,c.createGetLocal(assert(x).index,this.currentType.toNativeType()))}break;case y.Token.BAR_BAR:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,i=this.compileExpression(d,n,1,0),a=this.currentType,o=this.module.cloneExpression(t,!0,0))o=this.module.createIf(this.makeIsTrueish(t,this.currentType),o,i);else{var S;x=(S=this.currentFlow).getAndFreeTempLocal(this.currentType,!S.canOverflow(t,this.currentType));o=c.createIf(this.makeIsTrueish(c.createTeeLocal(x.index,t),this.currentType),c.createGetLocal(assert(x).index,this.currentType.toNativeType()),i)}break;default:assert(!1),o=this.module.createUnreachable()}return g?this.compileAssignmentWithValue(h,o,r!=m.Type.void):o},r.prototype.compileUnaryOverload=function(e,r,t,n){var i,a=0;return e.is(u.CommonFlags.INSTANCE)?(a=t,i=[]):i=[r],this.compileCallDirect(e,i,n,a)},r.prototype.compileBinaryOverload=function(e,r,t,n,i){var a,s=0;if(e.is(u.CommonFlags.INSTANCE)){var o=assert(e.parent);assert(o.kind==_.ElementKind.CLASS),s=t,a=[n]}else a=[r,n];return this.compileCallDirect(e,a,i,s)},r.prototype.compileAssignment=function(e,r,t){var n,i=this.program.resolver,a=this.currentFlow,s=i.resolveExpression(e,a);if(!s)return this.module.createUnreachable();switch(s.kind){case _.ElementKind.GLOBAL:if(!this.compileGlobal(s))return this.module.createUnreachable();assert(s.type!=m.Type.void);case _.ElementKind.LOCAL:case _.ElementKind.FIELD:n=s.type;break;case _.ElementKind.PROPERTY_PROTOTYPE:var o=s.setterPrototype;if(!o)return this.error(l.DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,e.range,s.internalName),this.module.createUnreachable();if(!(c=this.resolver.resolveFunction(o,null,T.makeMap(),d.ReportMode.REPORT)))return this.module.createUnreachable();assert(1==c.signature.parameterTypes.length),n=c.signature.parameterTypes[0];break;case _.ElementKind.PROPERTY:var c;if(!(c=s.setterInstance))return this.error(l.DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,e.range,s.internalName),this.module.createUnreachable();assert(1==c.signature.parameterTypes.length),n=c.signature.parameterTypes[0];break;case _.ElementKind.CLASS:if(i.currentElementExpression){var p=a.is(8192),u=s.lookupOverload(_.OperatorKind.INDEXED_SET,p);if(!u)return s.lookupOverload(_.OperatorKind.INDEXED_GET,p)?this.error(l.DiagnosticCode.Index_signature_in_type_0_only_permits_reading,e.range,s.internalName):this.error(l.DiagnosticCode.Index_signature_is_missing_in_type_0,e.range,s.internalName),this.module.createUnreachable();assert(2==u.signature.parameterTypes.length),n=u.signature.parameterTypes[1];break}default:return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}assert(n!=m.Type.void);var h=this.compileExpression(r,n,1,0);return this.compileAssignmentWithValue(e,h,t!=m.Type.void)},r.prototype.compileAssignmentWithValue=function(e,r,t){void 0===t&&(t=!1);var n=this.module,i=this.currentFlow,a=this.resolver.resolveExpression(e,i);if(!a)return n.createUnreachable();switch(a.kind){case _.ElementKind.LOCAL:var s=a.type;return assert(s!=m.Type.void),this.currentType=t?s:m.Type.void,a.is(u.CommonFlags.CONST)?(this.error(l.DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,e.range,a.internalName),n.createUnreachable()):(s.is(36)&&i.setLocalWrapped(a.index,!i.canOverflow(r,s)),t?n.createTeeLocal(a.index,r):n.createSetLocal(a.index,r));case _.ElementKind.GLOBAL:if(!this.compileGlobal(a))return n.createUnreachable();s=a.type;if(assert(s!=m.Type.void),this.currentType=t?s:m.Type.void,a.is(u.CommonFlags.CONST))return this.error(l.DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,e.range,a.internalName),n.createUnreachable();if(r=this.ensureSmallIntegerWrap(r,s),t){var o=s.toNativeType(),c=a.internalName;return n.createBlock(null,[n.createSetGlobal(c,r),n.createGetGlobal(c,o)],o)}return n.createSetGlobal(a.internalName,r);case _.ElementKind.FIELD:var p=a.initializerNode;if(a.is(u.CommonFlags.READONLY)&&!i.actualFunction.is(u.CommonFlags.CONSTRUCTOR)&&!p)return this.error(l.DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,e.range,a.internalName),n.createUnreachable();var h=assert(this.resolver.currentThisExpression),y=this.compileExpressionRetainType(h,this.options.usizeType,0);s=a.type;this.currentType=t?s:m.Type.void;o=s.toNativeType();if(10==s.kind&&(r=this.ensureSmallIntegerWrap(r,s)),t){var g=this.currentFlow,f=g.getAndFreeTempLocal(s,!g.canOverflow(r,s)).index;return n.createBlock(null,[n.createSetLocal(f,r),n.createStore(s.byteSize,y,n.createGetLocal(f,o),o,a.memoryOffset),n.createGetLocal(f,o)],o)}return n.createStore(s.byteSize,y,r,o,a.memoryOffset);case _.ElementKind.PROPERTY_PROTOTYPE:var E=a.setterPrototype;if(!E)return this.error(l.DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,e.range,a.internalName),n.createUnreachable();if(!(I=this.resolver.resolveFunction(E,null,T.makeMap(),d.ReportMode.REPORT)))return n.createUnreachable();if(!t)return this.makeCallDirect(I,[r]);var b=assert(a.getterPrototype);if(!(S=this.resolver.resolveFunction(b,null,T.makeMap(),d.ReportMode.REPORT)))return n.createUnreachable();var v=(U=S.signature.returnType).toNativeType();return n.createBlock(null,[this.makeCallDirect(I,[r]),this.makeCallDirect(S)],v);case _.ElementKind.PROPERTY:var I;if(!(I=a.setterInstance))return this.error(l.DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,e.range,a.internalName),n.createUnreachable();if(!t){var x=this.compileExpressionRetainType(assert(this.resolver.currentThisExpression),this.options.usizeType,0);return this.makeCallDirect(I,[x,r])}var S;v=(U=(S=assert(a.getterInstance)).signature.returnType).toNativeType(),y=this.compileExpressionRetainType(assert(this.resolver.currentThisExpression),this.options.usizeType,0),f=i.getAndFreeTempLocal(U,!1).index;return n.createBlock(null,[this.makeCallDirect(I,[n.createTeeLocal(f,y),r]),this.makeCallDirect(S,[n.createGetLocal(f,v)])],v);case _.ElementKind.CLASS:var C=this.resolver.currentElementExpression;if(C){var A=i.is(8192),N=a.lookupOverload(_.OperatorKind.INDEXED_GET,A);if(!N)return this.error(l.DiagnosticCode.Index_signature_is_missing_in_type_0,e.range,a.internalName),n.createUnreachable();var O=a.lookupOverload(_.OperatorKind.INDEXED_SET,A);if(!O)return this.error(l.DiagnosticCode.Index_signature_in_type_0_only_permits_reading,e.range,a.internalName),this.currentType=t?N.signature.returnType:m.Type.void,n.createUnreachable();var k=a.type,L=(h=assert(this.resolver.currentThisExpression),y=this.compileExpressionRetainType(h,this.options.usizeType,0),this.compileExpression(C,m.Type.i32,1,0));if(t){var R=i.getTempLocal(k,!1),F=i.getAndFreeTempLocal(this.currentType,!1),U=N.signature.returnType;return i.freeTempLocal(R),n.createBlock(null,[this.makeCallDirect(O,[n.createTeeLocal(R.index,y),n.createTeeLocal(F.index,L),r]),this.makeCallDirect(N,[n.createGetLocal(R.index,R.type.toNativeType()),n.createGetLocal(F.index,F.type.toNativeType())])],U.toNativeType())}return this.makeCallDirect(O,[y,L,r])}}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),n.createUnreachable()},r.prototype.compileCallExpression=function(e,r){var t=this.module,n=this.currentFlow;if(e.expression.kind==g.NodeKind.SUPER){var i=this.currentFlow,a=i.actualFunction;if(!a.is(u.CommonFlags.CONSTRUCTOR))return this.error(l.DiagnosticCode.Super_calls_are_not_permitted_outside_constructors_or_in_nested_functions_inside_constructors,e.range),t.createUnreachable();var s=assert(a.parent);assert(s.kind==_.ElementKind.CLASS);var o=assert(s.base),c=assert(i.lookupLocal(u.CommonSymbols.this_)),h=this.options.nativeSizeType,d=[t.createSetLocal(c.index,this.compileCallDirect(this.ensureConstructor(o,e),e.arguments,e,t.createIf(t.createGetLocal(c.index,h),t.createGetLocal(c.index,h),this.makeAllocation(s))))];return this.makeFieldInitialization(s,d),i.isAny(2080)?(this.error(l.DiagnosticCode._super_must_be_called_before_accessing_this_in_the_constructor_of_a_derived_class,e.range),t.createUnreachable()):(i.set(96),this.currentType=m.Type.void,t.createBlock(null,d))}var y,f,E=this.resolver.resolveExpression(e.expression,n);if(!E)return t.createUnreachable();switch(E.kind){case _.ElementKind.FUNCTION_PROTOTYPE:var b=E,v=e.typeArguments;if(b.hasDecorator(_.DecoratorFlags.BUILTIN))return this.compileCallExpressionBuiltin(b,e,r);var I=null;if(v){if(!b.is(u.CommonFlags.GENERIC))return this.error(l.DiagnosticCode.Type_0_is_not_generic,e.expression.range,b.internalName),t.createUnreachable();I=this.resolver.resolveFunctionInclTypeArguments(b,v,n.actualFunction.parent,T.makeMap(n.contextualTypeArguments),e)}else{if(b.is(u.CommonFlags.GENERIC)){for(var x=new Map,S=assert(b.typeParameterNodes),C=S.length,A=0;As&&!i)||(this.error(l.DiagnosticCode.Expected_0_arguments_but_got_1,n.range,s.toString(),r.toString()),!1)},r.prototype.compileCallDirect=function(e,r,t,n){void 0===n&&(n=0);var i=r.length,a=e.signature;if(!this.checkCallSignature(a,i,0!=n,t))return this.module.createUnreachable();if(e.hasDecorator(_.DecoratorFlags.INLINE)){if(assert(!e.is(u.CommonFlags.TRAMPOLINE)),!this.currentInlineFunctions.includes(e)){this.currentInlineFunctions.push(e);var s=this.compileCallInlinePrechecked(e,r,n);return this.currentInlineFunctions.pop(),s}this.warning(l.DiagnosticCode.Function_0_cannot_be_inlined_into_itself,t.range,e.internalName)}var o=n?i+1:i,c=new Array(o),p=0;n&&(c[0]=n,p=1);for(var h=a.parameterTypes,d=0;d=i);var o=this.module;if(!this.compileFunction(e))return o.createUnreachable();var c=e.signature.returnType,l=e.is(u.CommonFlags.MODULE_IMPORT);if(t=a),this.ensureFunctionType(e.parameterTypes,e.returnType,e.thisType);var c=this.module;if(nd)return this.error(l.DiagnosticCode.Expected_0_arguments_but_got_1,e.range,d.toString(),u.toString()),this.module.createUnreachable();for(var y=new Array(u),f=0;f=0),this.currentType=C,this.module.createGetLocal(A,C.toNativeType());case _.ElementKind.GLOBAL:if(!this.compileGlobal(S))return this.module.createUnreachable();var N=S.type;return assert(N!=m.Type.void),S.is(u.CommonFlags.INLINED)?this.compileInlineConstant(S,r,t):(this.currentType=N,this.module.createGetGlobal(S.internalName,N.toNativeType()));case _.ElementKind.ENUMVALUE:return S.is(u.CommonFlags.COMPILED)?(this.currentType=m.Type.i32,S.is(u.CommonFlags.INLINED)?(assert(1==S.constantValueKind),this.module.createI32(i64_low(S.constantIntegerValue))):this.module.createGetGlobal(S.internalName,p.NativeType.I32)):(this.error(l.DiagnosticCode.A_member_initializer_in_a_enum_declaration_cannot_reference_members_declared_after_it_including_members_defined_in_other_enums,e.range),this.currentType=m.Type.i32,this.module.createUnreachable());case _.ElementKind.FUNCTION_PROTOTYPE:var O=this.resolver.resolveFunction(S,null,T.makeMap(i.contextualTypeArguments));if(!O||!this.compileFunction(O))return n.createUnreachable();var k=this.ensureFunctionTableEntry(O);return this.currentType=O.signature.type,this.module.createI32(k)}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()},r.prototype.compileInstanceOfExpression=function(e,r){var t=this.module,n=this.compileExpressionRetainType(e.expression,this.options.usizeType,0),i=this.currentType,a=this.resolver.resolveType(e.isType,this.currentFlow.actualFunction);return this.currentType=m.Type.bool,a?a.is(256)?i.is(512)&&!a.is(512)&&i.nonNullableType.isAssignableTo(a)?t.createBinary(i.is(64)?p.BinaryOp.NeI64:p.BinaryOp.NeI32,n,i.toNativeZero(t)):t.createI32(i.isAssignableTo(a)?1:0):t.createI32(i==a?1:0):t.createUnreachable()},r.prototype.compileLiteralExpression=function(e,r,t){void 0===t&&(t=!1);var n=this.module;switch(e.literalKind){case g.LiteralKind.ARRAY:assert(!t);var i=r.classReference;return i&&i.prototype==this.program.arrayPrototype?this.compileArrayLiteral(assert(i.typeArguments)[0],e.elementExpressions,!1,e):(this.error(l.DiagnosticCode.Operation_not_supported,e.range),n.createUnreachable());case g.LiteralKind.FLOAT:var a=e.value;return t&&(a=-a),r==m.Type.f32?n.createF32(a):(this.currentType=m.Type.f64,n.createF64(a));case g.LiteralKind.INTEGER:var s=e.value;t&&(s=i64_sub(i64_new(0),s));var o=this.resolver.determineIntegerLiteralType(s,r);switch(this.currentType=o,o.kind){case 4:if(!this.options.isWasm64)return n.createI32(i64_low(s));case 3:return n.createI64(i64_low(s),i64_high(s));case 9:if(!this.options.isWasm64)return n.createI32(i64_low(s));case 8:return n.createI64(i64_low(s),i64_high(s));case 11:return n.createF32(i64_to_f32(s));case 12:return n.createF64(i64_to_f64(s));default:return n.createI32(i64_low(s))}case g.LiteralKind.STRING:return assert(!t),this.compileStringLiteral(e);case g.LiteralKind.OBJECT:return assert(!t),this.compileObjectLiteral(e,r)}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.currentType=r,n.createUnreachable()},r.prototype.ensureStaticString=function(e){var r,t=this.program,n=t.hasGC,i=t.gcHeaderSize,a=assert(t.stringInstance),s=this.stringSegments;if(s.has(e))r=s.get(e);else{var o=e.length,l=a.currentMemoryOffset+1&-2,p=l+2*o,_=void 0,h=void 0;n?(_=new Uint8Array(i+p),h=i,T.writeI32(c.ensureGCHook(this,a),_,t.gcHookOffset)):(_=new Uint8Array(p),h=0),T.writeI32(o,_,h+a.offsetof(u.LibrarySymbols.length)),h+=l;for(var d=0;d",r.toString()),t.createUnreachable();var i=n.constructorInstance;if(i){if(i.signature.requiredParameters)return this.error(l.DiagnosticCode.Constructor_of_class_0_must_not_require_any_arguments,e.range,n.toString()),t.createUnreachable();if(i.is(u.CommonFlags.PRIVATE))return this.error(l.DiagnosticCode.Constructor_of_class_0_is_private_and_only_accessible_within_the_class_declaration,e.range,n.toString()),t.createUnreachable();if(i.is(u.CommonFlags.PROTECTED))return this.error(l.DiagnosticCode.Constructor_of_class_0_is_protected_and_only_accessible_within_the_class_declaration,e.range,n.toString()),t.createUnreachable()}var a=e.names,s=a.length,o=e.values,c=n.members,p=!1,h=new Array(s+2),d=this.currentFlow.getTempLocal(this.options.usizeType);assert(s==o.length);for(var y=0,g=s;yb)for(g=b;g=0);var c=this.compileExpressionRetainType(assert(this.resolver.currentThisExpression),this.options.usizeType,0);return this.currentType=a.type,n.createLoad(a.type.byteSize,a.type.is(5),c,a.type.toNativeType(),a.memoryOffset);case _.ElementKind.PROPERTY_PROTOTYPE:var h=a.getterPrototype;if(h){var d=this.resolver.resolveFunction(h,null);if(d)return this.compileCallDirect(d,[],e,0)}return n.createUnreachable();case _.ElementKind.PROPERTY:var y=assert(a.getterInstance);return this.compileCallDirect(y,[],e,this.compileExpressionRetainType(assert(this.resolver.currentThisExpression),this.options.usizeType,0));case _.ElementKind.FUNCTION_PROTOTYPE:return this.error(l.DiagnosticCode.Cannot_access_method_0_without_calling_it_as_it_requires_this_to_be_set,e.range,a.name),n.createUnreachable()}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),n.createUnreachable()},r.prototype.compileGetter=function(e,r){var t=e.getterPrototype;if(t){var n=this.resolver.resolveFunction(t,null);if(!n)return this.module.createUnreachable();var i=n.signature;if(!this.checkCallSignature(i,0,n.is(u.CommonFlags.INSTANCE),r))return this.module.createUnreachable();if(n.is(u.CommonFlags.INSTANCE)){var a=assert(n.parent);assert(a.kind==_.ElementKind.CLASS);var s=assert(this.resolver.currentThisExpression),o=this.compileExpressionRetainType(s,this.options.usizeType,0);//!!! -return this.currentType=i.returnType,this.compileCallDirect(n,[],r,o)}return this.currentType=i.returnType,this.compileCallDirect(n,[],r,0)}return this.error(l.DiagnosticCode.Property_0_does_not_exist_on_type_1,r.range,e.name,e.parent.toString()),this.module.createUnreachable()},r.prototype.compileTernaryExpression=function(e,r){var t=e.ifThen,n=e.ifElse,i=this.currentFlow,a=this.makeIsTrueish(this.compileExpressionRetainType(e.condition,m.Type.bool,0),this.currentType),s=this.module.precomputeExpression(a);if(p.getExpressionId(s)==p.ExpressionId.Const&&p.getExpressionType(s)==p.NativeType.I32)return p.getConstValueI32(s)?this.compileExpressionRetainType(t,r,0):this.compileExpressionRetainType(n,r,0);a=this.makeIsTrueish(this.compileExpressionRetainType(e.condition,m.Type.bool,0),this.currentType);var o=i.fork();this.currentFlow=o;var c=this.compileExpressionRetainType(t,r,0),u=this.currentType;o.freeScopedLocals();var _=i.fork();this.currentFlow=_;var h=this.compileExpressionRetainType(n,r,0),d=this.currentType;_.freeScopedLocals(),this.currentFlow=i,i.inheritMutual(o,_);var y=m.Type.commonDenominator(u,d,!1);return y?(c=this.convertExpression(c,u,y,1,0,t),h=this.convertExpression(h,d,y,1,0,n),this.currentType=y,this.module.createIf(a,c,h)):(this.error(l.DiagnosticCode.Type_0_is_not_assignable_to_type_1,e.range,u.toString(),d.toString()),this.currentType=r,this.module.createUnreachable())},r.prototype.compileUnaryPostfixExpression=function(e,r){var t=this.module,n=this.currentFlow,i=this.compileExpression(e.operand,r==m.Type.void?m.Type.i32:r,0,0);if(p.getExpressionId(i)==p.ExpressionId.Unreachable)return i;var a,s=this.currentType,o=null;switch(r!=m.Type.void&&(o=n.getTempLocal(s,!1),i=t.createTeeLocal(o.index,i)),e.operator){case y.Token.PLUS_PLUS:switch(s.kind){case 0:case 1:case 2:case 5:case 6:case 7:case 10:a=t.createBinary(p.BinaryOp.AddI32,i,t.createI32(1));break;case 9:if(this.currentType.is(256)){if(u=this.currentType.classReference)if(h=u.lookupOverload(_.OperatorKind.POSTFIX_INC)){a=this.compileUnaryOverload(h,e.operand,i,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),t.createUnreachable()}case 4:var c=this.options;a=t.createBinary(c.isWasm64?p.BinaryOp.AddI64:p.BinaryOp.AddI32,i,s.toNativeOne(t));break;case 3:case 8:a=t.createBinary(p.BinaryOp.AddI64,i,t.createI64(1));break;case 11:a=t.createBinary(p.BinaryOp.AddF32,i,t.createF32(1));break;case 12:a=t.createBinary(p.BinaryOp.AddF64,i,t.createF64(1));break;default:return assert(!1),t.createUnreachable()}break;case y.Token.MINUS_MINUS:switch(s.kind){case 0:case 1:case 2:case 5:case 6:case 7:case 10:a=t.createBinary(p.BinaryOp.SubI32,i,t.createI32(1));break;case 9:if(this.currentType.is(256)){var u,h;if(u=this.currentType.classReference)if(h=u.lookupOverload(_.OperatorKind.POSTFIX_DEC)){a=this.compileUnaryOverload(h,e.operand,i,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),t.createUnreachable()}case 4:c=this.options;a=t.createBinary(c.isWasm64?p.BinaryOp.SubI64:p.BinaryOp.SubI32,i,s.toNativeOne(t));break;case 3:case 8:a=t.createBinary(p.BinaryOp.SubI64,i,t.createI64(1));break;case 11:a=t.createBinary(p.BinaryOp.SubF32,i,t.createF32(1));break;case 12:a=t.createBinary(p.BinaryOp.SubF64,i,t.createF64(1));break;default:return assert(!1),t.createUnreachable()}break;default:return assert(!1),t.createUnreachable()}if(!o)return this.currentType=m.Type.void,this.compileAssignmentWithValue(e.operand,a,!1);var d=this.compileAssignmentWithValue(e.operand,a,!1);this.currentType=o.type,n.freeTempLocal(o);var g=o.type.toNativeType();return t.createBlock(null,[d,t.createGetLocal(o.index,g)],g)},r.prototype.compileUnaryPrefixExpression=function(e,r){var t,n=this.module,i=!1;switch(e.operator){case y.Token.PLUS:if(t=this.compileExpression(e.operand,r==m.Type.void?m.Type.i32:r,0,0),this.currentType.is(256)){if(a=this.currentType.classReference)if(s=a.lookupOverload(_.OperatorKind.PLUS)){t=this.compileUnaryOverload(s,e.operand,t,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),n.createUnreachable()}break;case y.Token.MINUS:if(e.operand.kind==g.NodeKind.LITERAL&&(e.operand.literalKind==g.LiteralKind.INTEGER||e.operand.literalKind==g.LiteralKind.FLOAT)){t=this.compileLiteralExpression(e.operand,r,!0),this.options.sourceMap&&this.addDebugLocation(t,e.range);break}if(t=this.compileExpression(e.operand,r==m.Type.void?m.Type.i32:r,0,0),this.currentType.is(256)){if(a=this.currentType.classReference)if(s=a.lookupOverload(_.OperatorKind.MINUS)){t=this.compileUnaryOverload(s,e.operand,t,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),n.createUnreachable()}switch(this.currentType.kind){case 0:case 1:case 2:case 5:case 6:case 7:case 10:t=n.createBinary(p.BinaryOp.SubI32,n.createI32(0),t);break;case 9:case 4:t=n.createBinary(this.options.isWasm64?p.BinaryOp.SubI64:p.BinaryOp.SubI32,this.currentType.toNativeZero(n),t);break;case 3:case 8:t=n.createBinary(p.BinaryOp.SubI64,n.createI64(0),t);break;case 11:t=n.createUnary(p.UnaryOp.NegF32,t);break;case 12:t=n.createUnary(p.UnaryOp.NegF64,t);break;default:assert(!1),t=n.createUnreachable()}break;case y.Token.PLUS_PLUS:if(i=!0,t=this.compileExpression(e.operand,r==m.Type.void?m.Type.i32:r,0,0),this.currentType.is(256)){if(a=this.currentType.classReference)if(s=a.lookupOverload(_.OperatorKind.PREFIX_INC)){t=this.compileUnaryOverload(s,e.operand,t,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),n.createUnreachable()}switch(this.currentType.kind){case 0:case 1:case 2:case 5:case 6:case 7:case 10:t=n.createBinary(p.BinaryOp.AddI32,t,this.module.createI32(1));break;case 9:case 4:t=n.createBinary(this.options.isWasm64?p.BinaryOp.AddI64:p.BinaryOp.AddI32,t,this.currentType.toNativeOne(n));break;case 3:case 8:t=n.createBinary(p.BinaryOp.AddI64,t,n.createI64(1));break;case 11:t=n.createBinary(p.BinaryOp.AddF32,t,n.createF32(1));break;case 12:t=n.createBinary(p.BinaryOp.AddF64,t,n.createF64(1));break;default:assert(!1),t=n.createUnreachable()}break;case y.Token.MINUS_MINUS:if(i=!0,t=this.compileExpression(e.operand,r==m.Type.void?m.Type.i32:r,0,0),this.currentType.is(256)){if(a=this.currentType.classReference)if(s=a.lookupOverload(_.OperatorKind.PREFIX_DEC)){t=this.compileUnaryOverload(s,e.operand,t,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),n.createUnreachable()}switch(this.currentType.kind){case 0:case 1:case 2:case 5:case 6:case 7:case 10:t=n.createBinary(p.BinaryOp.SubI32,t,n.createI32(1));break;case 9:case 4:t=n.createBinary(this.options.isWasm64?p.BinaryOp.SubI64:p.BinaryOp.SubI32,t,this.currentType.toNativeOne(n));break;case 3:case 8:t=n.createBinary(p.BinaryOp.SubI64,t,n.createI64(1));break;case 11:t=n.createBinary(p.BinaryOp.SubF32,t,n.createF32(1));break;case 12:t=n.createBinary(p.BinaryOp.SubF64,t,n.createF64(1));break;default:assert(!1),t=n.createUnreachable()}break;case y.Token.EXCLAMATION:if(t=this.compileExpression(e.operand,r==m.Type.void?m.Type.i32:r,0,0),this.currentType.is(256))if(a=this.currentType.classReference)if(s=a.lookupOverload(_.OperatorKind.NOT)){t=this.compileUnaryOverload(s,e.operand,t,e);break}t=this.makeIsFalseish(t,this.currentType),this.currentType=m.Type.bool;break;case y.Token.TILDE:if(t=this.compileExpression(e.operand,r==m.Type.void?m.Type.i32:r.is(8)?m.Type.i64:r,0,0),this.currentType.is(256)){var a,s;if(a=this.currentType.classReference)if(s=a.lookupOverload(_.OperatorKind.BITWISE_NOT)){t=this.compileUnaryOverload(s,e.operand,t,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),n.createUnreachable()}switch(t=this.convertExpression(t,this.currentType,this.currentType.intType,1,0,e.operand),this.currentType.kind){case 0:case 1:case 2:case 5:case 6:case 7:case 10:t=n.createBinary(p.BinaryOp.XorI32,t,n.createI32(-1));break;case 9:case 4:t=n.createBinary(this.options.isWasm64?p.BinaryOp.XorI64:p.BinaryOp.XorI32,t,this.currentType.toNativeNegOne(n));break;case 3:case 8:t=n.createBinary(p.BinaryOp.XorI64,t,n.createI64(-1,-1));break;default:assert(!1),t=n.createUnreachable()}break;case y.Token.TYPEOF:return this.error(l.DiagnosticCode.Operation_not_supported,e.range),n.createUnreachable();default:return assert(!1),n.createUnreachable()}return i?this.compileAssignmentWithValue(e.operand,t,r!=m.Type.void):t},r.prototype.ensureSmallIntegerWrap=function(e,r){var t=this.module,n=this.currentFlow;switch(r.kind){case 0:n.canOverflow(e,r)&&(e=this.options.hasFeature(1)?t.createUnary(p.UnaryOp.ExtendI8ToI32,e):t.createBinary(p.BinaryOp.ShrI32,t.createBinary(p.BinaryOp.ShlI32,e,t.createI32(24)),t.createI32(24)));break;case 1:n.canOverflow(e,r)&&(e=this.options.hasFeature(1)?t.createUnary(p.UnaryOp.ExtendI16ToI32,e):t.createBinary(p.BinaryOp.ShrI32,t.createBinary(p.BinaryOp.ShlI32,e,t.createI32(16)),t.createI32(16)));break;case 5:n.canOverflow(e,r)&&(e=t.createBinary(p.BinaryOp.AndI32,e,t.createI32(255)));break;case 6:n.canOverflow(e,r)&&(e=t.createBinary(p.BinaryOp.AndI32,e,t.createI32(65535)));break;case 10:n.canOverflow(e,r)&&(e=t.createBinary(p.BinaryOp.NeI32,e,t.createI32(0)))}return e},r.prototype.makeIsFalseish=function(e,r){var t=this.module;switch(r.kind){case 0:case 1:case 5:case 6:case 10:e=this.ensureSmallIntegerWrap(e,r);case 2:case 7:return t.createUnary(p.UnaryOp.EqzI32,e);case 3:case 8:return t.createUnary(p.UnaryOp.EqzI64,e);case 9:case 4:return t.createUnary(64==r.size?p.UnaryOp.EqzI64:p.UnaryOp.EqzI32,e);case 11:return t.createBinary(p.BinaryOp.EqF32,e,t.createF32(0));case 12:return t.createBinary(p.BinaryOp.EqF64,e,t.createF64(0));default:return assert(!1),t.createI32(1)}},r.prototype.makeIsTrueish=function(e,r){var t=this.module;switch(r.kind){case 0:case 1:case 5:case 6:case 10:e=this.ensureSmallIntegerWrap(e,r);case 2:case 7:return e;case 3:case 8:return t.createBinary(p.BinaryOp.NeI64,e,t.createI64(0));case 9:case 4:return 64==r.size?t.createBinary(p.BinaryOp.NeI64,e,t.createI64(0)):e;case 11:return t.createBinary(p.BinaryOp.NeF32,e,t.createF32(0));case 12:return t.createBinary(p.BinaryOp.NeF64,e,t.createF64(0));default:return assert(!1),t.createI32(0)}},r.prototype.makeAllocation=function(e){var r=this.program;assert(e.program==r);var t=this.module,n=this.options;if(r.hasGC&&e.type.isManaged(r)){var i=assert(r.gcAllocateInstance);return this.compileFunction(i)?(this.currentType=e.type,t.createCall(i.internalName,[n.isWasm64?t.createI64(e.currentMemoryOffset):t.createI32(e.currentMemoryOffset),t.createI32(c.ensureGCHook(this,e))],n.nativeSizeType)):t.createUnreachable()}return(i=r.memoryAllocateInstance)&&this.compileFunction(i)?(this.currentType=e.type,t.createCall(i.internalName,[n.isWasm64?t.createI64(e.currentMemoryOffset):t.createI32(e.currentMemoryOffset)],n.nativeSizeType)):t.createUnreachable()},r.prototype.makeFieldInitialization=function(e,r){var t,n;void 0===r&&(r=[]);var i=e.members;if(!i)return[];var s=this.module,o=this.currentFlow,c=o.is(4096),l=c?assert(o.lookupLocal(u.CommonSymbols.this_)).index:0,p=this.options.nativeSizeType;try{for(var h=a(i.values()),d=h.next();!d.done;d=h.next()){var y=d.value;if(y.kind==_.ElementKind.FIELD&&y.parent==e){var g=y;assert(!g.isAny(u.CommonFlags.CONST));var m=g.type,T=m.toNativeType(),f=g.prototype.initializerNode;if(f)r.push(s.createStore(m.byteSize,s.createGetLocal(l,p),this.compileExpression(f,m,1,0),T,g.memoryOffset));else{var E=g.prototype.parameterIndex;r.push(s.createStore(m.byteSize,s.createGetLocal(l,p),E>=0?s.createGetLocal(c?assert(o.lookupLocal(g.name)).index:1+E,T):m.toNativeZero(s),T,g.memoryOffset))}}}}catch(e){t={error:e}}finally{try{d&&!d.done&&(n=h.return)&&n.call(h)}finally{if(t)throw t.error}}return r},r.prototype.addDebugLocation=function(e,r){var t=this.currentFlow.parentFunction,n=r.source;n.debugInfoIndex<0&&(n.debugInfoIndex=this.module.addDebugInfoFile(n.normalizedPath)),r.debugInfoRef=e,t.debugLocations.push(r)},r}(l.DiagnosticEmitter);function x(e,r){if(E=r.range.source.simplePath,b=_.mangleInternalName(e.name,e.parent,e.is(u.CommonFlags.INSTANCE),!0),e.hasDecorator(_.DecoratorFlags.EXTERNAL)){var t=e.program,n=assert(g.findDecorator(g.DecoratorKind.EXTERNAL,r.decorators)),i=n.arguments;if(i&&i.length){var a=i[0];a.kind==g.NodeKind.LITERAL&&a.literalKind==g.LiteralKind.STRING?(b=a.value,i.length>=2&&((a=i[1]).kind==g.NodeKind.LITERAL&&a.literalKind==g.LiteralKind.STRING?(E=b,b=a.value,i.length>2&&t.error(l.DiagnosticCode.Expected_0_arguments_but_got_1,n.range,"2",i.length.toString())):t.error(l.DiagnosticCode.String_literal_expected,a.range))):t.error(l.DiagnosticCode.String_literal_expected,a.range)}else t.error(l.DiagnosticCode.Expected_at_least_0_arguments_but_got_1,n.range,"1","0")}}r.Compiler=I,function(e){e.started="~lib/started",e.argc="~lib/argc",e.setargc="~lib/setargc"}(v||(v={}))},function(e,r,t){"use strict";Object.defineProperty(r,"__esModule",{value:!0}),function(e){e[e.Operation_not_supported=100]="Operation_not_supported",e[e.Operation_is_unsafe=101]="Operation_is_unsafe",e[e.User_defined_0=102]="User_defined_0",e[e.Conversion_from_type_0_to_1_requires_an_explicit_cast=200]="Conversion_from_type_0_to_1_requires_an_explicit_cast",e[e.Conversion_from_type_0_to_1_will_require_an_explicit_cast_when_switching_between_32_64_bit=201]="Conversion_from_type_0_to_1_will_require_an_explicit_cast_when_switching_between_32_64_bit",e[e.Type_0_cannot_be_changed_to_type_1=202]="Type_0_cannot_be_changed_to_type_1",e[e.Type_0_cannot_be_reinterpreted_as_type_1=203]="Type_0_cannot_be_reinterpreted_as_type_1",e[e.Basic_type_0_cannot_be_nullable=204]="Basic_type_0_cannot_be_nullable",e[e.Cannot_export_a_mutable_global=205]="Cannot_export_a_mutable_global",e[e.Compiling_constant_with_non_constant_initializer_as_mutable=206]="Compiling_constant_with_non_constant_initializer_as_mutable",e[e.Unmanaged_classes_cannot_extend_managed_classes_and_vice_versa=207]="Unmanaged_classes_cannot_extend_managed_classes_and_vice_versa",e[e.Unmanaged_classes_cannot_implement_interfaces=208]="Unmanaged_classes_cannot_implement_interfaces",e[e.Invalid_regular_expression_flags=209]="Invalid_regular_expression_flags",e[e.Implementation_0_must_match_the_signature_1=210]="Implementation_0_must_match_the_signature_1",e[e.Class_0_is_sealed_and_cannot_be_extended=211]="Class_0_is_sealed_and_cannot_be_extended",e[e.Decorator_0_is_not_valid_here=212]="Decorator_0_is_not_valid_here",e[e.Duplicate_decorator=213]="Duplicate_decorator",e[e.An_allocator_must_be_declared_to_allocate_memory_Try_importing_allocator_arena_or_allocator_tlsf=214]="An_allocator_must_be_declared_to_allocate_memory_Try_importing_allocator_arena_or_allocator_tlsf",e[e.Optional_parameter_must_have_an_initializer=215]="Optional_parameter_must_have_an_initializer",e[e.Constructor_of_class_0_must_not_require_any_arguments=216]="Constructor_of_class_0_must_not_require_any_arguments",e[e.Function_0_cannot_be_inlined_into_itself=217]="Function_0_cannot_be_inlined_into_itself",e[e.Cannot_access_method_0_without_calling_it_as_it_requires_this_to_be_set=218]="Cannot_access_method_0_without_calling_it_as_it_requires_this_to_be_set",e[e.Optional_properties_are_not_supported=219]="Optional_properties_are_not_supported",e[e.Expression_must_be_a_compile_time_constant=220]="Expression_must_be_a_compile_time_constant",e[e.Module_cannot_have_multiple_start_functions=221]="Module_cannot_have_multiple_start_functions",e[e._0_must_be_a_value_between_1_and_2_inclusive=222]="_0_must_be_a_value_between_1_and_2_inclusive",e[e._0_must_be_a_power_of_two=223]="_0_must_be_a_power_of_two",e[e.Unterminated_string_literal=1002]="Unterminated_string_literal",e[e.Identifier_expected=1003]="Identifier_expected",e[e._0_expected=1005]="_0_expected",e[e.A_file_cannot_have_a_reference_to_itself=1006]="A_file_cannot_have_a_reference_to_itself",e[e.Trailing_comma_not_allowed=1009]="Trailing_comma_not_allowed",e[e.Unexpected_token=1012]="Unexpected_token",e[e.A_rest_parameter_must_be_last_in_a_parameter_list=1014]="A_rest_parameter_must_be_last_in_a_parameter_list",e[e.Parameter_cannot_have_question_mark_and_initializer=1015]="Parameter_cannot_have_question_mark_and_initializer",e[e.A_required_parameter_cannot_follow_an_optional_parameter=1016]="A_required_parameter_cannot_follow_an_optional_parameter",e[e.Statements_are_not_allowed_in_ambient_contexts=1036]="Statements_are_not_allowed_in_ambient_contexts",e[e.Initializers_are_not_allowed_in_ambient_contexts=1039]="Initializers_are_not_allowed_in_ambient_contexts",e[e._0_modifier_cannot_be_used_here=1042]="_0_modifier_cannot_be_used_here",e[e.A_rest_parameter_cannot_be_optional=1047]="A_rest_parameter_cannot_be_optional",e[e.A_rest_parameter_cannot_have_an_initializer=1048]="A_rest_parameter_cannot_have_an_initializer",e[e.A_set_accessor_must_have_exactly_one_parameter=1049]="A_set_accessor_must_have_exactly_one_parameter",e[e.A_set_accessor_parameter_cannot_have_an_initializer=1052]="A_set_accessor_parameter_cannot_have_an_initializer",e[e.A_get_accessor_cannot_have_parameters=1054]="A_get_accessor_cannot_have_parameters",e[e.Enum_member_must_have_initializer=1061]="Enum_member_must_have_initializer",e[e.Type_parameters_cannot_appear_on_a_constructor_declaration=1092]="Type_parameters_cannot_appear_on_a_constructor_declaration",e[e.Type_annotation_cannot_appear_on_a_constructor_declaration=1093]="Type_annotation_cannot_appear_on_a_constructor_declaration",e[e.An_accessor_cannot_have_type_parameters=1094]="An_accessor_cannot_have_type_parameters",e[e.A_set_accessor_cannot_have_a_return_type_annotation=1095]="A_set_accessor_cannot_have_a_return_type_annotation",e[e.Type_parameter_list_cannot_be_empty=1098]="Type_parameter_list_cannot_be_empty",e[e.A_continue_statement_can_only_be_used_within_an_enclosing_iteration_statement=1104]="A_continue_statement_can_only_be_used_within_an_enclosing_iteration_statement",e[e.A_break_statement_can_only_be_used_within_an_enclosing_iteration_or_switch_statement=1105]="A_break_statement_can_only_be_used_within_an_enclosing_iteration_or_switch_statement",e[e.A_return_statement_can_only_be_used_within_a_function_body=1108]="A_return_statement_can_only_be_used_within_a_function_body",e[e.Expression_expected=1109]="Expression_expected",e[e.Type_expected=1110]="Type_expected",e[e.A_default_clause_cannot_appear_more_than_once_in_a_switch_statement=1113]="A_default_clause_cannot_appear_more_than_once_in_a_switch_statement",e[e.Duplicate_label_0=1114]="Duplicate_label_0",e[e.Octal_literals_are_not_allowed_in_strict_mode=1121]="Octal_literals_are_not_allowed_in_strict_mode",e[e.Digit_expected=1124]="Digit_expected",e[e.Hexadecimal_digit_expected=1125]="Hexadecimal_digit_expected",e[e.Unexpected_end_of_text=1126]="Unexpected_end_of_text",e[e.Invalid_character=1127]="Invalid_character",e[e._case_or_default_expected=1130]="_case_or_default_expected",e[e._super_must_be_followed_by_an_argument_list_or_member_access=1034]="_super_must_be_followed_by_an_argument_list_or_member_access",e[e.A_declare_modifier_cannot_be_used_in_an_already_ambient_context=1038]="A_declare_modifier_cannot_be_used_in_an_already_ambient_context",e[e.Type_argument_expected=1140]="Type_argument_expected",e[e.String_literal_expected=1141]="String_literal_expected",e[e.Line_break_not_permitted_here=1142]="Line_break_not_permitted_here",e[e.Declaration_expected=1146]="Declaration_expected",e[e._const_declarations_must_be_initialized=1155]="_const_declarations_must_be_initialized",e[e.Unterminated_regular_expression_literal=1161]="Unterminated_regular_expression_literal",e[e.Interface_declaration_cannot_have_implements_clause=1176]="Interface_declaration_cannot_have_implements_clause",e[e.Binary_digit_expected=1177]="Binary_digit_expected",e[e.Octal_digit_expected=1178]="Octal_digit_expected",e[e.An_implementation_cannot_be_declared_in_ambient_contexts=1183]="An_implementation_cannot_be_declared_in_ambient_contexts",e[e.An_extended_Unicode_escape_value_must_be_between_0x0_and_0x10FFFF_inclusive=1198]="An_extended_Unicode_escape_value_must_be_between_0x0_and_0x10FFFF_inclusive",e[e.Unterminated_Unicode_escape_sequence=1199]="Unterminated_Unicode_escape_sequence",e[e.Decorators_are_not_valid_here=1206]="Decorators_are_not_valid_here",e[e._abstract_modifier_can_only_appear_on_a_class_method_or_property_declaration=1242]="_abstract_modifier_can_only_appear_on_a_class_method_or_property_declaration",e[e.Method_0_cannot_have_an_implementation_because_it_is_marked_abstract=1245]="Method_0_cannot_have_an_implementation_because_it_is_marked_abstract",e[e.A_definite_assignment_assertion_is_not_permitted_in_this_context=1255]="A_definite_assignment_assertion_is_not_permitted_in_this_context",e[e.A_class_may_only_extend_another_class=1311]="A_class_may_only_extend_another_class",e[e.A_parameter_property_cannot_be_declared_using_a_rest_parameter=1317]="A_parameter_property_cannot_be_declared_using_a_rest_parameter",e[e.Duplicate_identifier_0=2300]="Duplicate_identifier_0",e[e.Cannot_find_name_0=2304]="Cannot_find_name_0",e[e.Module_0_has_no_exported_member_1=2305]="Module_0_has_no_exported_member_1",e[e.Generic_type_0_requires_1_type_argument_s=2314]="Generic_type_0_requires_1_type_argument_s",e[e.Type_0_is_not_generic=2315]="Type_0_is_not_generic",e[e.Type_0_is_not_assignable_to_type_1=2322]="Type_0_is_not_assignable_to_type_1",e[e.Index_signature_is_missing_in_type_0=2329]="Index_signature_is_missing_in_type_0",e[e._this_cannot_be_referenced_in_current_location=2332]="_this_cannot_be_referenced_in_current_location",e[e._super_can_only_be_referenced_in_a_derived_class=2335]="_super_can_only_be_referenced_in_a_derived_class",e[e.Super_calls_are_not_permitted_outside_constructors_or_in_nested_functions_inside_constructors=2337]="Super_calls_are_not_permitted_outside_constructors_or_in_nested_functions_inside_constructors",e[e.Property_0_does_not_exist_on_type_1=2339]="Property_0_does_not_exist_on_type_1",e[e.Cannot_invoke_an_expression_whose_type_lacks_a_call_signature_Type_0_has_no_compatible_call_signatures=2349]="Cannot_invoke_an_expression_whose_type_lacks_a_call_signature_Type_0_has_no_compatible_call_signatures",e[e.Cannot_use_new_with_an_expression_whose_type_lacks_a_construct_signature=2351]="Cannot_use_new_with_an_expression_whose_type_lacks_a_construct_signature",e[e.A_function_whose_declared_type_is_not_void_must_return_a_value=2355]="A_function_whose_declared_type_is_not_void_must_return_a_value",e[e.The_operand_of_an_increment_or_decrement_operator_must_be_a_variable_or_a_property_access=2357]="The_operand_of_an_increment_or_decrement_operator_must_be_a_variable_or_a_property_access",e[e.The_left_hand_side_of_an_assignment_expression_must_be_a_variable_or_a_property_access=2364]="The_left_hand_side_of_an_assignment_expression_must_be_a_variable_or_a_property_access",e[e.Operator_0_cannot_be_applied_to_types_1_and_2=2365]="Operator_0_cannot_be_applied_to_types_1_and_2",e[e.A_super_call_must_be_the_first_statement_in_the_constructor=2376]="A_super_call_must_be_the_first_statement_in_the_constructor",e[e.Constructors_for_derived_classes_must_contain_a_super_call=2377]="Constructors_for_derived_classes_must_contain_a_super_call",e[e._get_and_set_accessor_must_have_the_same_type=2380]="_get_and_set_accessor_must_have_the_same_type",e[e.Constructor_implementation_is_missing=2390]="Constructor_implementation_is_missing",e[e.Function_implementation_is_missing_or_not_immediately_following_the_declaration=2391]="Function_implementation_is_missing_or_not_immediately_following_the_declaration",e[e.Multiple_constructor_implementations_are_not_allowed=2392]="Multiple_constructor_implementations_are_not_allowed",e[e.Duplicate_function_implementation=2393]="Duplicate_function_implementation",e[e.Individual_declarations_in_merged_declaration_0_must_be_all_exported_or_all_local=2395]="Individual_declarations_in_merged_declaration_0_must_be_all_exported_or_all_local",e[e.A_namespace_declaration_cannot_be_located_prior_to_a_class_or_function_with_which_it_is_merged=2434]="A_namespace_declaration_cannot_be_located_prior_to_a_class_or_function_with_which_it_is_merged",e[e.Type_0_has_no_property_1=2460]="Type_0_has_no_property_1",e[e.The_0_operator_cannot_be_applied_to_type_1=2469]="The_0_operator_cannot_be_applied_to_type_1",e[e.In_const_enum_declarations_member_initializer_must_be_constant_expression=2474]="In_const_enum_declarations_member_initializer_must_be_constant_expression",e[e.Export_declaration_conflicts_with_exported_declaration_of_0=2484]="Export_declaration_conflicts_with_exported_declaration_of_0",e[e.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property=2540]="Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property",e[e.The_target_of_an_assignment_must_be_a_variable_or_a_property_access=2541]="The_target_of_an_assignment_must_be_a_variable_or_a_property_access",e[e.Index_signature_in_type_0_only_permits_reading=2542]="Index_signature_in_type_0_only_permits_reading",e[e.Expected_0_arguments_but_got_1=2554]="Expected_0_arguments_but_got_1",e[e.Expected_at_least_0_arguments_but_got_1=2555]="Expected_at_least_0_arguments_but_got_1",e[e.Expected_0_type_arguments_but_got_1=2558]="Expected_0_type_arguments_but_got_1",e[e.A_member_initializer_in_a_enum_declaration_cannot_reference_members_declared_after_it_including_members_defined_in_other_enums=2651]="A_member_initializer_in_a_enum_declaration_cannot_reference_members_declared_after_it_including_members_defined_in_other_enums",e[e.Constructor_of_class_0_is_private_and_only_accessible_within_the_class_declaration=2673]="Constructor_of_class_0_is_private_and_only_accessible_within_the_class_declaration",e[e.Constructor_of_class_0_is_protected_and_only_accessible_within_the_class_declaration=2674]="Constructor_of_class_0_is_protected_and_only_accessible_within_the_class_declaration",e[e.Namespace_0_has_no_exported_member_1=2694]="Namespace_0_has_no_exported_member_1",e[e.Required_type_parameters_may_not_follow_optional_type_parameters=2706]="Required_type_parameters_may_not_follow_optional_type_parameters",e[e.Duplicate_property_0=2718]="Duplicate_property_0",e[e.File_0_not_found=6054]="File_0_not_found",e[e.Numeric_separators_are_not_allowed_here=6188]="Numeric_separators_are_not_allowed_here",e[e.Multiple_consecutive_numeric_separators_are_not_permitted=6189]="Multiple_consecutive_numeric_separators_are_not_permitted",e[e._super_must_be_called_before_accessing_this_in_the_constructor_of_a_derived_class=17009]="_super_must_be_called_before_accessing_this_in_the_constructor_of_a_derived_class",e[e._super_must_be_called_before_accessing_a_property_of_super_in_the_constructor_of_a_derived_class=17011]="_super_must_be_called_before_accessing_a_property_of_super_in_the_constructor_of_a_derived_class"}(r.DiagnosticCode||(r.DiagnosticCode={})),r.diagnosticCodeToString=function(e){switch(e){case 100:return"Operation not supported.";case 101:return"Operation is unsafe.";case 102:return"User-defined: {0}";case 200:return"Conversion from type '{0}' to '{1}' requires an explicit cast.";case 201:return"Conversion from type '{0}' to '{1}' will require an explicit cast when switching between 32/64-bit.";case 202:return"Type '{0}' cannot be changed to type '{1}'.";case 203:return"Type '{0}' cannot be reinterpreted as type '{1}'.";case 204:return"Basic type '{0}' cannot be nullable.";case 205:return"Cannot export a mutable global.";case 206:return"Compiling constant with non-constant initializer as mutable.";case 207:return"Unmanaged classes cannot extend managed classes and vice-versa.";case 208:return"Unmanaged classes cannot implement interfaces.";case 209:return"Invalid regular expression flags.";case 210:return"Implementation '{0}' must match the signature '{1}'.";case 211:return"Class '{0}' is sealed and cannot be extended.";case 212:return"Decorator '{0}' is not valid here.";case 213:return"Duplicate decorator.";case 214:return"An allocator must be declared to allocate memory. Try importing allocator/arena or allocator/tlsf.";case 215:return"Optional parameter must have an initializer.";case 216:return"Constructor of class '{0}' must not require any arguments.";case 217:return"Function '{0}' cannot be inlined into itself.";case 218:return"Cannot access method '{0}' without calling it as it requires 'this' to be set.";case 219:return"Optional properties are not supported.";case 220:return"Expression must be a compile-time constant.";case 221:return"Module cannot have multiple start functions.";case 222:return"'{0}' must be a value between '{1}' and '{2}' inclusive.";case 223:return"'{0}' must be a power of two.";case 1002:return"Unterminated string literal.";case 1003:return"Identifier expected.";case 1005:return"'{0}' expected.";case 1006:return"A file cannot have a reference to itself.";case 1009:return"Trailing comma not allowed.";case 1012:return"Unexpected token.";case 1014:return"A rest parameter must be last in a parameter list.";case 1015:return"Parameter cannot have question mark and initializer.";case 1016:return"A required parameter cannot follow an optional parameter.";case 1036:return"Statements are not allowed in ambient contexts.";case 1039:return"Initializers are not allowed in ambient contexts.";case 1042:return"'{0}' modifier cannot be used here.";case 1047:return"A rest parameter cannot be optional.";case 1048:return"A rest parameter cannot have an initializer.";case 1049:return"A 'set' accessor must have exactly one parameter.";case 1052:return"A 'set' accessor parameter cannot have an initializer.";case 1054:return"A 'get' accessor cannot have parameters.";case 1061:return"Enum member must have initializer.";case 1092:return"Type parameters cannot appear on a constructor declaration.";case 1093:return"Type annotation cannot appear on a constructor declaration.";case 1094:return"An accessor cannot have type parameters.";case 1095:return"A 'set' accessor cannot have a return type annotation.";case 1098:return"Type parameter list cannot be empty.";case 1104:return"A 'continue' statement can only be used within an enclosing iteration statement.";case 1105:return"A 'break' statement can only be used within an enclosing iteration or switch statement.";case 1108:return"A 'return' statement can only be used within a function body.";case 1109:return"Expression expected.";case 1110:return"Type expected.";case 1113:return"A 'default' clause cannot appear more than once in a 'switch' statement.";case 1114:return"Duplicate label '{0}'.";case 1121:return"Octal literals are not allowed in strict mode.";case 1124:return"Digit expected.";case 1125:return"Hexadecimal digit expected.";case 1126:return"Unexpected end of text.";case 1127:return"Invalid character.";case 1130:return"'case' or 'default' expected.";case 1034:return"'super' must be followed by an argument list or member access.";case 1038:return"A 'declare' modifier cannot be used in an already ambient context.";case 1140:return"Type argument expected.";case 1141:return"String literal expected.";case 1142:return"Line break not permitted here.";case 1146:return"Declaration expected.";case 1155:return"'const' declarations must be initialized.";case 1161:return"Unterminated regular expression literal.";case 1176:return"Interface declaration cannot have 'implements' clause.";case 1177:return"Binary digit expected.";case 1178:return"Octal digit expected.";case 1183:return"An implementation cannot be declared in ambient contexts.";case 1198:return"An extended Unicode escape value must be between 0x0 and 0x10FFFF inclusive.";case 1199:return"Unterminated Unicode escape sequence.";case 1206:return"Decorators are not valid here.";case 1242:return"'abstract' modifier can only appear on a class, method, or property declaration.";case 1245:return"Method '{0}' cannot have an implementation because it is marked abstract.";case 1255:return"A definite assignment assertion '!' is not permitted in this context.";case 1311:return"A class may only extend another class.";case 1317:return"A parameter property cannot be declared using a rest parameter.";case 2300:return"Duplicate identifier '{0}'.";case 2304:return"Cannot find name '{0}'.";case 2305:return"Module '{0}' has no exported member '{1}'.";case 2314:return"Generic type '{0}' requires {1} type argument(s).";case 2315:return"Type '{0}' is not generic.";case 2322:return"Type '{0}' is not assignable to type '{1}'.";case 2329:return"Index signature is missing in type '{0}'.";case 2332:return"'this' cannot be referenced in current location.";case 2335:return"'super' can only be referenced in a derived class.";case 2337:return"Super calls are not permitted outside constructors or in nested functions inside constructors.";case 2339:return"Property '{0}' does not exist on type '{1}'.";case 2349:return"Cannot invoke an expression whose type lacks a call signature. Type '{0}' has no compatible call signatures.";case 2351:return"Cannot use 'new' with an expression whose type lacks a construct signature.";case 2355:return"A function whose declared type is not 'void' must return a value.";case 2357:return"The operand of an increment or decrement operator must be a variable or a property access.";case 2364:return"The left-hand side of an assignment expression must be a variable or a property access.";case 2365:return"Operator '{0}' cannot be applied to types '{1}' and '{2}'.";case 2376:return"A 'super' call must be the first statement in the constructor.";case 2377:return"Constructors for derived classes must contain a 'super' call.";case 2380:return"'get' and 'set' accessor must have the same type.";case 2390:return"Constructor implementation is missing.";case 2391:return"Function implementation is missing or not immediately following the declaration.";case 2392:return"Multiple constructor implementations are not allowed.";case 2393:return"Duplicate function implementation.";case 2395:return"Individual declarations in merged declaration '{0}' must be all exported or all local.";case 2434:return"A namespace declaration cannot be located prior to a class or function with which it is merged.";case 2460:return"Type '{0}' has no property '{1}'.";case 2469:return"The '{0}' operator cannot be applied to type '{1}'.";case 2474:return"In 'const' enum declarations member initializer must be constant expression.";case 2484:return"Export declaration conflicts with exported declaration of '{0}'.";case 2540:return"Cannot assign to '{0}' because it is a constant or a read-only property.";case 2541:return"The target of an assignment must be a variable or a property access.";case 2542:return"Index signature in type '{0}' only permits reading.";case 2554:return"Expected {0} arguments, but got {1}.";case 2555:return"Expected at least {0} arguments, but got {1}.";case 2558:return"Expected {0} type arguments, but got {1}.";case 2651:return"A member initializer in a enum declaration cannot reference members declared after it, including members defined in other enums.";case 2673:return"Constructor of class '{0}' is private and only accessible within the class declaration.";case 2674:return"Constructor of class '{0}' is protected and only accessible within the class declaration.";case 2694:return"Namespace '{0}' has no exported member '{1}'.";case 2706:return"Required type parameters may not follow optional type parameters.";case 2718:return"Duplicate property '{0}'.";case 6054:return"File '{0}' not found.";case 6188:return"Numeric separators are not allowed here.";case 6189:return"Multiple consecutive numeric separators are not permitted.";case 17009:return"'super' must be called before accessing 'this' in the constructor of a derived class.";case 17011:return"'super' must be called before accessing a property of 'super' in the constructor of a derived class.";default:return""}}},function(e,r,t){"use strict";var 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this.push("sqrt("),this.decompileExpression(n.getUnaryValue(e)),void this.push(")");case n.UnaryOp.ExtendI32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.ExtendU32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.WrapI64:case n.UnaryOp.TruncF32ToI32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.TruncF32ToI64:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.TruncF32ToU32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.TruncF32ToU64:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.TruncF64ToI32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.TruncF64ToI64:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.TruncF64ToU32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.TruncF64ToU64:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.ReinterpretF32:return this.push("reinterpret("),this.decompileExpression(n.getUnaryValue(e)),void this.push(")");case n.UnaryOp.ReinterpretF64:return this.push("reinterpret("),this.decompileExpression(n.getUnaryValue(e)),void this.push(")");case n.UnaryOp.ConvertI32ToF32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.ConvertI32ToF64:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.ConvertU32ToF32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.ConvertU32ToF64:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.ConvertI64ToF32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.ConvertI64ToF64:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.ConvertU64ToF32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.ConvertU64ToF64:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.PromoteF32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.DemoteF64:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.ReinterpretI32:return this.push("reinterpret("),this.decompileExpression(n.getUnaryValue(e)),void this.push(")");case n.UnaryOp.ReinterpretI64:return this.push("reinterpret("),this.decompileExpression(n.getUnaryValue(e)),void this.push(")")}break;case n.ExpressionId.Binary:switch(n.getBinaryOp(e)){case n.BinaryOp.AddI32:case n.BinaryOp.AddI64:case n.BinaryOp.AddF32:case n.BinaryOp.AddF64:return this.decompileExpression(n.getBinaryLeft(e)),this.push(" + "),void this.decompileExpression(n.getBinaryRight(e));case n.BinaryOp.SubI32:case n.BinaryOp.SubI64:case n.BinaryOp.SubF32:case n.BinaryOp.SubF64:return this.decompileExpression(n.getBinaryLeft(e)),this.push(" - "),void this.decompileExpression(n.getBinaryRight(e));case n.BinaryOp.MulI32:case n.BinaryOp.MulI64:case n.BinaryOp.MulF32:case n.BinaryOp.MulF64:return this.decompileExpression(n.getBinaryLeft(e)),this.push(" * "),void this.decompileExpression(n.getBinaryRight(e));case n.BinaryOp.DivI32:case n.BinaryOp.DivI64:case n.BinaryOp.DivF32:case n.BinaryOp.DivF64:return this.decompileExpression(n.getBinaryLeft(e)),this.push(" / "),void this.decompileExpression(n.getBinaryRight(e));case n.BinaryOp.DivU32:return this.push("("),this.decompileExpression(n.getBinaryLeft(e)),this.push(" / "),this.decompileExpression(n.getBinaryRight(e)),void this.push(")");case n.BinaryOp.RemI32:case n.BinaryOp.RemI64:return this.decompileExpression(n.getBinaryLeft(e)),this.push(" % "),void this.decompileExpression(n.getBinaryRight(e));case n.BinaryOp.RemU32:return this.push("("),this.decompileExpression(n.getBinaryLeft(e)),this.push(" / "),this.decompileExpression(n.getBinaryRight(e)),void this.push(")");case n.BinaryOp.AndI32:case n.BinaryOp.AndI64:return this.decompileExpression(n.getBinaryLeft(e)),this.push(" & "),void this.decompileExpression(n.getBinaryRight(e));case n.BinaryOp.OrI32:case n.BinaryOp.OrI64:return this.decompileExpression(n.getBinaryLeft(e)),this.push(" | "),void this.decompileExpression(n.getBinaryRight(e));case n.BinaryOp.XorI32:case n.BinaryOp.XorI64:return this.decompileExpression(n.getBinaryLeft(e)),this.push(" ^ "),void this.decompileExpression(n.getBinaryRight(e));case n.BinaryOp.ShlI32:case n.BinaryOp.ShlI64:return this.decompileExpression(n.getBinaryLeft(e)),this.push(" << "),void this.decompileExpression(n.getBinaryRight(e));case n.BinaryOp.ShrU32:case n.BinaryOp.ShrU64:return this.decompileExpression(n.getBinaryLeft(e)),this.push(" >>> "),void this.decompileExpression(n.getBinaryRight(e));case 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s=null;e.skip(o.Token.COLON)&&(s=this.parseType(e));var l=null;if(e.skip(o.Token.EQUALS)){if(i&a.CommonFlags.AMBIENT&&this.error(c.DiagnosticCode.Initializers_are_not_allowed_in_ambient_contexts,e.range()),!(l=this.parseExpression(e,2)))return null}else i&a.CommonFlags.CONST?i&a.CommonFlags.AMBIENT||this.error(c.DiagnosticCode._const_declarations_must_be_initialized,n.range):s||this.error(c.DiagnosticCode.Type_expected,e.range(e.pos));var u=o.Range.join(n.range,e.range());return i&a.CommonFlags.DEFINITE_ASSIGNMENT&&l&&this.error(c.DiagnosticCode.A_definite_assignment_assertion_is_not_permitted_in_this_context,u),p.Node.createVariableDeclaration(n,s,l,t,i,u)},r.prototype.parseEnum=function(e,r,t,n){if(e.next()!=o.Token.IDENTIFIER)return this.error(c.DiagnosticCode.Identifier_expected,e.range()),null;var i=p.Node.createIdentifierExpression(e.readIdentifier(),e.range());if(e.next()!=o.Token.OPENBRACE)return this.error(c.DiagnosticCode._0_expected,e.range(),"{"),null;for(var s=new 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l=e.mark();e.next(),e.peek()!=o.Token.COLON?(e.discard(l),i||(i=e.range()),s|=a.CommonFlags.READONLY):e.reset(l)}if(e.skip(o.Token.DOT_DOT_DOT)&&(s?this.error(c.DiagnosticCode.A_parameter_property_cannot_be_declared_using_a_rest_parameter,e.range()):i=e.range(),t=!0),e.skipIdentifier()){t||(i=e.range());var u=p.Node.createIdentifierExpression(e.readIdentifier(),e.range()),_=null;if((n=e.skip(o.Token.QUESTION))&&t&&this.error(c.DiagnosticCode.A_rest_parameter_cannot_be_optional,u.range),e.skip(o.Token.COLON)){if(!(_=this.parseType(e)))return null}else _=p.Node.createOmittedType(e.range(e.pos));var h=null;if(e.skip(o.Token.EQUALS)&&(t&&this.error(c.DiagnosticCode.A_rest_parameter_cannot_have_an_initializer,u.range),n?this.error(c.DiagnosticCode.Parameter_cannot_have_question_mark_and_initializer,u.range):n=!0,!(h=this.parseExpression(e,2))))return null;var d=p.Node.createParameter(u,_,h,t?p.ParameterKind.REST:n?p.ParameterKind.OPTIONAL:p.ParameterKind.DEFAULT,o.Range.join(i,e.range()));return d.flags|=s,d}return this.error(c.DiagnosticCode.Identifier_expected,e.range()),null},r.prototype.parseFunction=function(e,r,t,n){if(!e.skipIdentifier())return this.error(c.DiagnosticCode.Identifier_expected,e.range(e.pos)),null;var i=p.Node.createIdentifierExpression(e.readIdentifier(),e.range()),s=-1,l=null;if(e.skip(o.Token.LESSTHAN)){if(s=e.tokenPos,!(l=this.parseTypeParameters(e)))return null;r|=a.CommonFlags.GENERIC}if(!e.skip(o.Token.OPENPAREN))return this.error(c.DiagnosticCode._0_expected,e.range(e.pos),"("),null;s<0&&(s=e.tokenPos);var u=this.parseParameters(e);if(!u)return null;var _=this.parseParametersThis,h=0!=(r&a.CommonFlags.SET);h&&(1!=u.length&&this.error(c.DiagnosticCode.A_set_accessor_must_have_exactly_one_parameter,i.range),u.length&&u[0].initializer&&this.error(c.DiagnosticCode.A_set_accessor_parameter_cannot_have_an_initializer,i.range)),r&a.CommonFlags.GET&&u.length&&this.error(c.DiagnosticCode.A_get_accessor_cannot_have_parameters,i.range);var d=null;if(e.skip(o.Token.COLON)&&!(d=this.parseType(e,!0,h)))return null;d||(d=p.Node.createOmittedType(e.range(e.pos)),h||this.error(c.DiagnosticCode.Type_expected,d.range));var y=p.Node.createSignature(u,d,_,!1,e.range(s,e.pos)),g=null;if(e.skip(o.Token.OPENBRACE)){if(r&a.CommonFlags.AMBIENT&&this.error(c.DiagnosticCode.An_implementation_cannot_be_declared_in_ambient_contexts,e.range()),!(g=this.parseBlockStatement(e,!1)))return null}else r&a.CommonFlags.AMBIENT||this.error(c.DiagnosticCode.Function_implementation_is_missing_or_not_immediately_following_the_declaration,e.range(e.pos));var m=p.Node.createFunctionDeclaration(i,l,y,g,t,r,0,e.range(n,e.pos));return e.skip(o.Token.SEMICOLON),m},r.prototype.parseFunctionExpression=function(e){var r,t=e.tokenPos,n=0;if(e.token==o.Token.FUNCTION){if(r=e.skipIdentifier()?p.Node.createIdentifierExpression(e.readIdentifier(),e.range()):p.Node.createEmptyIdentifierExpression(e.range(e.pos)),!e.skip(o.Token.OPENPAREN))return this.error(c.DiagnosticCode._0_expected,e.range(e.pos),"("),null}else n=1,assert(e.token==o.Token.OPENPAREN),r=p.Node.createEmptyIdentifierExpression(e.range(e.tokenPos));var i=e.pos,a=this.parseParameters(e);return a?this.parseFunctionExpressionCommon(e,r,a,n,t,i):null},r.prototype.parseFunctionExpressionCommon=function(e,r,t,n,i,s){void 0===i&&(i=-1),void 0===s&&(s=-1),i<0&&(i=r.range.start),s<0&&(s=i);var l=null;if(2!=n&&e.skip(o.Token.COLON)){if(!(l=this.parseType(e)))return null}else l=p.Node.createOmittedType(e.range(e.pos));if(n&&!e.skip(o.Token.EQUALS_GREATERTHAN))return this.error(c.DiagnosticCode._0_expected,e.range(e.pos),"=>"),null;var u,_=p.Node.createSignature(t,l,null,!1,e.range(s,e.pos));if(n)u=this.parseStatement(e,!1);else{if(!e.skip(o.Token.OPENBRACE))return this.error(c.DiagnosticCode._0_expected,e.range(e.pos),"{"),null;u=this.parseBlockStatement(e,!1)}if(!u)return null;var h=p.Node.createFunctionDeclaration(r,null,_,u,null,a.CommonFlags.NONE,n,e.range(i,e.pos));return p.Node.createFunctionExpression(h)},r.prototype.parseClassOrInterface=function(e,r,t,n){var i=e.token==o.Token.INTERFACE;if(!e.skipIdentifier())return this.error(c.DiagnosticCode.Identifier_expected,e.range()),null;var s=p.Node.createIdentifierExpression(e.readIdentifier(),e.range()),l=null;if(e.skip(o.Token.LESSTHAN)){if(!(l=this.parseTypeParameters(e)))return null;r|=a.CommonFlags.GENERIC}var u=null;if(e.skip(o.Token.EXTENDS)){var _=this.parseType(e);if(!_)return null;if(_.kind!=p.NodeKind.TYPE)return this.error(c.DiagnosticCode.Operation_not_supported,_.range),null;u=_}var h=null;if(e.skip(o.Token.IMPLEMENTS)){i&&this.error(c.DiagnosticCode.Interface_declaration_cannot_have_implements_clause,e.range());do{var d=this.parseType(e);if(!d)return null;i||(h||(h=[]),h.push(d))}while(e.skip(o.Token.COMMA))}if(!e.skip(o.Token.OPENBRACE))return this.error(c.DiagnosticCode._0_expected,e.range(),"{"),null;var y,g=new Array;if(i?(assert(!h),y=p.Node.createInterfaceDeclaration(s,l,u,g,t,r,e.range(n,e.pos))):y=p.Node.createClassDeclaration(s,l,u,h,g,t,r,e.range(n,e.pos)),!e.skip(o.Token.CLOSEBRACE))do{var m=this.parseClassMember(e,y);m&&g.push(m)}while(!e.skip(o.Token.CLOSEBRACE));return y},r.prototype.parseClassExpression=function(e){var r,t=e.tokenPos;if(r=e.skipIdentifier()?p.Node.createIdentifierExpression(e.readIdentifier(),e.range()):p.Node.createEmptyIdentifierExpression(e.range(e.pos)),!e.skip(o.Token.OPENBRACE))return this.error(c.DiagnosticCode._0_expected,e.range(e.pos),"{"),null;var n=new Array,i=p.Node.createClassDeclaration(r,[],null,null,n,null,a.CommonFlags.NONE,e.range(t,e.pos));if(!e.skip(o.Token.CLOSEBRACE))do{var s=this.parseClassMember(e,i);s&&n.push(s)}while(!e.skip(o.Token.CLOSEBRACE));return p.Node.createClassExpression(i)},r.prototype.parseClassMember=function(e,r){var t=e.pos,n=r.kind==p.NodeKind.INTERFACEDECLARATION,i=new Array;if(e.skip(o.Token.AT)){do{var s=this.parseDecorator(e);if(!s)break;i.push(s)}while(e.skip(o.Token.AT));n&&this.error(c.DiagnosticCode.Decorators_are_not_valid_here,o.Range.join(i[0].range,i[i.length-1].range))}var l=r.flags&a.CommonFlags.AMBIENT;n&&(l|=a.CommonFlags.VIRTUAL);var u=0,_=0;e.skip(o.Token.PUBLIC)?(n&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(),"public"),l|=a.CommonFlags.PUBLIC,u=e.tokenPos,_=e.pos):e.skip(o.Token.PRIVATE)?(n&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(),"private"),l|=a.CommonFlags.PRIVATE,u=e.tokenPos,_=e.pos):e.skip(o.Token.PROTECTED)&&(n&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(),"protected"),l|=a.CommonFlags.PROTECTED,u=e.tokenPos,_=e.pos);var h=0,d=0,y=0,g=0;e.skip(o.Token.STATIC)?(n&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(),"static"),l|=a.CommonFlags.STATIC,h=e.tokenPos,d=e.pos):(l|=a.CommonFlags.INSTANCE,e.skip(o.Token.ABSTRACT)&&(n&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(),"abstract"),l|=a.CommonFlags.ABSTRACT,y=e.tokenPos,g=e.pos),r.flags&a.CommonFlags.GENERIC&&(l|=a.CommonFlags.GENERIC_CONTEXT));var m=0,T=0;e.skip(o.Token.READONLY)&&(l|=a.CommonFlags.READONLY,m=e.tokenPos,T=e.pos);var f,E=e.mark(),b=!1,v=!1,I=!1,x=0,S=0;if(n||(e.skip(o.Token.GET)?e.peek(!0,o.IdentifierHandling.PREFER)!=o.Token.IDENTIFIER||e.nextTokenOnNewLine?e.reset(E):(l|=a.CommonFlags.GET,v=!0,x=e.tokenPos,S=e.pos,l&a.CommonFlags.READONLY&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(m,T),"readonly")):e.skip(o.Token.SET)?e.peek(!0,o.IdentifierHandling.PREFER)!=o.Token.IDENTIFIER||e.nextTokenOnNewLine?e.reset(E):(l|=a.CommonFlags.SET,I=!0,x=e.tokenPos,S=e.pos,l&a.CommonFlags.READONLY&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(m,T),"readonly")):e.skip(o.Token.CONSTRUCTOR)&&(b=!0,(l|=a.CommonFlags.CONSTRUCTOR)&a.CommonFlags.STATIC&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(h,d),"static"),l&a.CommonFlags.ABSTRACT&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(y,g),"abstract"),l&a.CommonFlags.READONLY&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(m,T),"readonly"))),b)f=p.Node.createConstructorExpression(e.range());else{if(!v&&!I&&e.skip(o.Token.OPENBRACKET)){l&a.CommonFlags.PUBLIC?this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(u,_),"public"):l&a.CommonFlags.PROTECTED?this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(u,_),"protected"):l&a.CommonFlags.PRIVATE&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(u,_),"protected"),l&a.CommonFlags.STATIC&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(h,d),"static"),l&a.CommonFlags.ABSTRACT&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(y,g),"abstract"),l&a.CommonFlags.READONLY&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(m,T),"readonly");var C=this.parseIndexSignatureDeclaration(e,i);return C?(e.skip(o.Token.SEMICOLON),C):null}if(!e.skipIdentifier())return this.error(c.DiagnosticCode.Identifier_expected,e.range()),null;f=p.Node.createIdentifierExpression(e.readIdentifier(),e.range())}var A=null;if(e.skip(o.Token.LESSTHAN)){var N=e.tokenPos;if(!(A=this.parseTypeParameters(e)))return null;b?this.error(c.DiagnosticCode.Type_parameters_cannot_appear_on_a_constructor_declaration,e.range(N,e.pos)):v||I?this.error(c.DiagnosticCode.An_accessor_cannot_have_type_parameters,e.range(N,e.pos)):l|=a.CommonFlags.GENERIC}if(e.skip(o.Token.OPENPAREN)){var O=e.tokenPos,k=this.parseParameters(e,b);if(!k)return null;var L=this.parseParametersThis;if(b)for(var R=0,F=k.length;R"),null):null;case o.Token.IDENTIFIER:var T=p.Node.createIdentifierExpression(e.readIdentifier(),e.range(t,e.pos));return e.peek(!0)!=o.Token.EQUALS_GREATERTHAN||e.nextTokenOnNewLine?T:this.parseFunctionExpressionCommon(e,p.Node.createEmptyIdentifierExpression(e.range(t)),[p.Node.createParameter(T,p.Node.createOmittedType(T.range.atEnd),null,p.ParameterKind.DEFAULT,T.range)],2,t);case o.Token.THIS:return p.Node.createThisExpression(e.range(t,e.pos));case o.Token.CONSTRUCTOR:return p.Node.createConstructorExpression(e.range(t,e.pos));case o.Token.SUPER:return e.peek()!=o.Token.DOT&&e.nextToken!=o.Token.OPENPAREN&&this.error(c.DiagnosticCode._super_must_be_followed_by_an_argument_list_or_member_access,e.range()),p.Node.createSuperExpression(e.range(t,e.pos));case o.Token.STRINGLITERAL:return p.Node.createStringLiteralExpression(e.readString(),e.range(t,e.pos));case o.Token.INTEGERLITERAL:return p.Node.createIntegerLiteralExpression(e.readInteger(),e.range(t,e.pos));case o.Token.FLOATLITERAL:return p.Node.createFloatLiteralExpression(e.readFloat(),e.range(t,e.pos));case o.Token.SLASH:var f=e.readRegexpPattern();return e.skip(o.Token.SLASH)?p.Node.createRegexpLiteralExpression(f,e.readRegexpFlags(),e.range(t,e.pos)):(this.error(c.DiagnosticCode._0_expected,e.range(),"/"),null);case o.Token.FUNCTION:return this.parseFunctionExpression(e);case o.Token.CLASS:return this.parseClassExpression(e);default:return r==o.Token.ENDOFFILE?this.error(c.DiagnosticCode.Unexpected_end_of_text,e.range(t)):this.error(c.DiagnosticCode.Expression_expected,e.range()),null}},r.prototype.tryParseTypeArgumentsBeforeArguments=function(e){var r=e.mark();if(!e.skip(o.Token.LESSTHAN))return null;var t=new Array;do{if(e.peek()===o.Token.GREATERTHAN)break;var n=this.parseType(e,!0,!0);if(!n)return e.reset(r),null;t.push(n)}while(e.skip(o.Token.COMMA));return e.skip(o.Token.GREATERTHAN)&&e.skip(o.Token.OPENPAREN)?t:(e.reset(r),null)},r.prototype.parseArguments=function(e){for(var r=new Array;!e.skip(o.Token.CLOSEPAREN);){var t=this.parseExpression(e,2);if(!t)return null;if(r.push(t),!e.skip(o.Token.COMMA)){if(e.skip(o.Token.CLOSEPAREN))break;return this.error(c.DiagnosticCode._0_expected,e.range(),")"),null}}return r},r.prototype.parseExpression=function(e,r){void 0===r&&(r=1),assert(0!=r);var t=this.parseExpressionStart(e);if(!t)return null;for(var n,i,a=(t=this.maybeParseCallExpression(e,t)).range.start,s=null;(i=_(n=e.peek()))>=r;){switch(e.next(),n){case o.Token.AS:var l=this.parseType(e);if(!l)return null;t=p.Node.createAssertionExpression(p.AssertionKind.AS,t,l,e.range(a,e.pos));break;case o.Token.EXCLAMATION:t=p.Node.createAssertionExpression(p.AssertionKind.NONNULL,t,null,e.range(a,e.pos));break;case o.Token.INSTANCEOF:var u=this.parseType(e);if(!u)return null;t=p.Node.createInstanceOfExpression(t,u,e.range(a,e.pos));break;case o.Token.OPENBRACKET:if(!(s=this.parseExpression(e)))return null;if(!e.skip(o.Token.CLOSEBRACKET))return this.error(c.DiagnosticCode._0_expected,e.range(),"]"),null;t=p.Node.createElementAccessExpression(t,s,e.range(a,e.pos));break;case o.Token.PLUS_PLUS:case o.Token.MINUS_MINUS:t.kind!=p.NodeKind.IDENTIFIER&&t.kind!=p.NodeKind.ELEMENTACCESS&&t.kind!=p.NodeKind.PROPERTYACCESS&&this.error(c.DiagnosticCode.The_operand_of_an_increment_or_decrement_operator_must_be_a_variable_or_a_property_access,t.range),t=p.Node.createUnaryPostfixExpression(n,t,e.range(a,e.pos));break;case o.Token.QUESTION:var d=this.parseExpression(e);if(!d)return null;if(!e.skip(o.Token.COLON))return this.error(c.DiagnosticCode._0_expected,e.range(),":"),null;var y=this.parseExpression(e,r>1?2:1);if(!y)return null;t=p.Node.createTernaryExpression(t,d,y,e.range(a,e.pos));break;case o.Token.COMMA:var g=[t];do{if(!(t=this.parseExpression(e,2)))return null;g.push(t)}while(e.skip(o.Token.COMMA));t=p.Node.createCommaExpression(g,e.range(a,e.pos));break;default:if(n==o.Token.DOT){if(e.skipIdentifier())s=p.Node.createIdentifierExpression(e.readIdentifier(),e.range());else if(!(s=this.parseExpression(e,h(n)?i:i+1)))return null;if(s.kind==p.NodeKind.IDENTIFIER)t=p.Node.createPropertyAccessExpression(t,s,e.range(a,e.pos));else{if(s.kind!=p.NodeKind.CALL)return this.error(c.DiagnosticCode.Identifier_expected,s.range),null;if(!(t=this.joinPropertyCall(e,a,t,s)))return null}}else{if(!(s=this.parseExpression(e,h(n)?i:i+1)))return null;t=p.Node.createBinaryExpression(n,t,s,e.range(a,e.pos))}}t=this.maybeParseCallExpression(e,t)}return t},r.prototype.joinPropertyCall=function(e,r,t,n){var i=n.expression;switch(i.kind){case p.NodeKind.IDENTIFIER:n.expression=p.Node.createPropertyAccessExpression(t,i,e.range(r,e.pos));break;case p.NodeKind.CALL:var a=this.joinPropertyCall(e,r,t,i);if(!a)return null;n.expression=a,n.range=e.range(r,e.pos);break;default:return this.error(c.DiagnosticCode.Identifier_expected,n.range),null}return n},r.prototype.maybeParseCallExpression=function(e,r){if(p.nodeIsCallable(r.kind))for(var t=null;e.skip(o.Token.OPENPAREN)||p.nodeIsGenericCallable(r.kind)&&null!==(t=this.tryParseTypeArgumentsBeforeArguments(e));){var n=this.parseArguments(e);if(!n)break;r=p.Node.createCallExpression(r,t,n,e.range(r.range.start,e.pos))}return r},r.prototype.skipStatement=function(e){for(e.peek(!0),e.nextTokenOnNewLine&&e.next();;){var r=e.peek(!0);if(r==o.Token.ENDOFFILE||r==o.Token.SEMICOLON){e.next();break}if(e.nextTokenOnNewLine)break;switch(e.next()){case o.Token.IDENTIFIER:e.readIdentifier();break;case o.Token.STRINGLITERAL:e.readString();break;case o.Token.INTEGERLITERAL:e.readInteger();break;case o.Token.FLOATLITERAL:e.readFloat()}}},r.prototype.skipBlock=function(e){var r=1,t=!0;do{switch(e.next()){case o.Token.ENDOFFILE:this.error(c.DiagnosticCode._0_expected,e.range(),"}"),t=!1;break;case o.Token.OPENBRACE:++r;break;case o.Token.CLOSEBRACE:--r||(t=!1);break;case o.Token.IDENTIFIER:e.readIdentifier();break;case o.Token.STRINGLITERAL:e.readString();break;case o.Token.INTEGERLITERAL:e.readInteger();break;case o.Token.FLOATLITERAL:e.readFloat()}}while(t)},r}(c.DiagnosticEmitter);function _(e){switch(e){case o.Token.COMMA:return 1;case o.Token.EQUALS:case o.Token.PLUS_EQUALS:case o.Token.MINUS_EQUALS:case o.Token.ASTERISK_ASTERISK_EQUALS:case o.Token.ASTERISK_EQUALS:case o.Token.SLASH_EQUALS:case o.Token.PERCENT_EQUALS:case o.Token.LESSTHAN_LESSTHAN_EQUALS:case o.Token.GREATERTHAN_GREATERTHAN_EQUALS:case o.Token.GREATERTHAN_GREATERTHAN_GREATERTHAN_EQUALS:case o.Token.AMPERSAND_EQUALS:case o.Token.CARET_EQUALS:case o.Token.BAR_EQUALS:return 4;case o.Token.QUESTION:return 5;case o.Token.BAR_BAR:return 6;case o.Token.AMPERSAND_AMPERSAND:return 7;case o.Token.BAR:return 8;case o.Token.CARET:return 9;case o.Token.AMPERSAND:return 10;case o.Token.EQUALS_EQUALS:case o.Token.EXCLAMATION_EQUALS:case o.Token.EQUALS_EQUALS_EQUALS:case o.Token.EXCLAMATION_EQUALS_EQUALS:return 11;case o.Token.AS:case o.Token.IN:case o.Token.INSTANCEOF:case o.Token.LESSTHAN:case o.Token.GREATERTHAN:case o.Token.LESSTHAN_EQUALS:case o.Token.GREATERTHAN_EQUALS:return 12;case o.Token.LESSTHAN_LESSTHAN:case o.Token.GREATERTHAN_GREATERTHAN:case o.Token.GREATERTHAN_GREATERTHAN_GREATERTHAN:return 13;case o.Token.PLUS:case o.Token.MINUS:return 14;case o.Token.ASTERISK:case o.Token.SLASH:case o.Token.PERCENT:return 15;case o.Token.ASTERISK_ASTERISK:return 16;case o.Token.PLUS_PLUS:case o.Token.MINUS_MINUS:return 18;case o.Token.DOT:case o.Token.NEW:case o.Token.OPENBRACKET:case o.Token.EXCLAMATION:return 20}return 0}function h(e){switch(e){case o.Token.EQUALS:case o.Token.PLUS_EQUALS:case o.Token.MINUS_EQUALS:case o.Token.ASTERISK_ASTERISK_EQUALS:case o.Token.ASTERISK_EQUALS:case o.Token.SLASH_EQUALS:case o.Token.PERCENT_EQUALS:case o.Token.LESSTHAN_LESSTHAN_EQUALS:case o.Token.GREATERTHAN_GREATERTHAN_EQUALS:case o.Token.GREATERTHAN_GREATERTHAN_GREATERTHAN_EQUALS:case o.Token.AMPERSAND_EQUALS:case o.Token.CARET_EQUALS:case o.Token.BAR_EQUALS:case o.Token.QUESTION:case 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Symbol&&e[Symbol.iterator],t=0;return r?r.call(e):{next:function(){return e&&t>=e.length&&(e=void 0),{value:e&&e[t++],done:!e}}}};Object.defineProperty(r,"__esModule",{value:!0});var i,a=t(2),s=t(5),o=t(6),c=t(4),l=t(3),p=t(9),u=t(0),_=t(1);function h(e,r,t,n,u,h){var T,f,E,b,v=e.module;switch(r.internalName){case i.isInteger:var I=y(e,t,n,h);return e.currentType=o.Type.bool,I?I.is(4)&&!I.is(256)?v.createI32(1):v.createI32(0):v.createUnreachable();case i.isFloat:I=y(e,t,n,h);return e.currentType=o.Type.bool,I?I.is(8)?v.createI32(1):v.createI32(0):v.createUnreachable();case i.isSigned:I=y(e,t,n,h);return e.currentType=o.Type.bool,I?I.is(1)?v.createI32(1):v.createI32(0):v.createUnreachable();case i.isReference:I=y(e,t,n,h);return e.currentType=o.Type.bool,I?I.is(256)?v.createI32(1):v.createI32(0):v.createUnreachable();case i.isString:I=y(e,t,n,h);if(e.currentType=o.Type.bool,!I)return v.createUnreachable();if(K=I.classReference){var x=e.program.stringInstance;if(x&&K.isAssignableTo(x))return v.createI32(1)}return v.createI32(0);case i.isArray:I=y(e,t,n,h);if(e.currentType=o.Type.bool,!I)return v.createUnreachable();if(!(C=I.classReference))return v.createI32(0);var S=C.prototype;return v.createI32(S.extends(e.program.arrayPrototype)?1:0);case i.isArrayLike:var C;I=y(e,t,n,h);return e.currentType=o.Type.bool,I?(C=I.classReference)?v.createI32(C.lookupInSelf("length")&&(C.lookupOverload(l.OperatorKind.INDEXED_GET)||C.lookupOverload(l.OperatorKind.UNCHECKED_INDEXED_GET))?1:0):v.createI32(0):v.createUnreachable();case i.isFunction:I=y(e,t,n,h);return e.currentType=o.Type.bool,I?v.createI32(I.signatureReference?1:0):v.createUnreachable();case i.isNullable:I=y(e,t,n,h);return e.currentType=o.Type.bool,I?v.createI32(I.is(512)?1:0):v.createUnreachable();case i.isDefined:if(e.currentType=o.Type.bool,t&&e.error(a.DiagnosticCode.Type_0_is_not_generic,h.range,r.internalName),1!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();var A=e.resolver.resolveExpression(n[0],e.currentFlow,o.Type.void,p.ReportMode.SWALLOW);return v.createI32(A?1:0);case i.isConstant:if(e.currentType=o.Type.bool,t&&e.error(a.DiagnosticCode.Type_0_is_not_generic,h.range,r.internalName),1!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();var N=e.compileExpressionRetainType(n[0],o.Type.i32,0);return e.currentType=o.Type.bool,v.createI32(c.getExpressionId(N)==c.ExpressionId.Const?1:0);case i.isManaged:if(!e.program.hasGC)return e.currentType=o.Type.bool,v.createI32(0);I=y(e,t,n,h);return e.currentType=o.Type.bool,I?null===(K=I.classReference)||K.hasDecorator(l.DecoratorFlags.UNMANAGED)?v.createI32(0):v.createI32(1):v.createUnreachable();case i.clz:if(1!=n.length)return t&&(t.length&&(e.currentType=t[0]),1!=t.length&&e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10))),e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();if(t){if(1!=t.length)return t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10)),v.createUnreachable();T=e.compileExpression(n[0],t[0],1,1)}else T=e.compileExpression(n[0],o.Type.i32,0,1);switch(e.currentType.kind){case 10:case 0:case 5:case 1:case 6:case 2:case 7:b=v.createUnary(c.UnaryOp.ClzI32,T);break;case 9:if(e.currentType.is(256)){e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable();break}case 4:b=v.createUnary(e.options.isWasm64?c.UnaryOp.ClzI64:c.UnaryOp.ClzI32,T);break;case 3:case 8:b=v.createUnary(c.UnaryOp.ClzI64,T);break;default:e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable()}return b;case i.ctz:if(1!=n.length)return t&&(t.length&&(e.currentType=t[0]),1!=t.length&&e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10))),e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();if(t){if(1!=t.length)return t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10)),v.createUnreachable();T=e.compileExpression(n[0],t[0],0,1)}else T=e.compileExpression(n[0],o.Type.i32,0,1);switch(e.currentType.kind){case 10:case 0:case 5:case 1:case 6:case 2:case 7:b=v.createUnary(c.UnaryOp.CtzI32,T);break;case 9:if(e.currentType.is(256)){e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable();break}case 4:b=v.createUnary(e.options.isWasm64?c.UnaryOp.CtzI64:c.UnaryOp.CtzI32,T);break;case 3:case 8:b=v.createUnary(c.UnaryOp.CtzI64,T);break;default:e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable()}return b;case i.popcnt:if(1!=n.length)return t&&(t.length&&(e.currentType=t[0]),1!=t.length&&e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10))),e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();if(t){if(1!=t.length)return t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10)),v.createUnreachable();T=e.compileExpression(n[0],t[0],1,1)}else T=e.compileExpression(n[0],o.Type.i32,0,1);switch(e.currentType.kind){case 10:case 0:case 5:case 1:case 6:case 2:case 7:b=v.createUnary(c.UnaryOp.PopcntI32,T);break;case 9:if(e.currentType.is(256)){e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable();break}case 4:b=v.createUnary(e.options.isWasm64?c.UnaryOp.PopcntI64:c.UnaryOp.PopcntI32,T);break;case 3:case 8:b=v.createUnary(c.UnaryOp.PopcntI64,T);break;default:e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable()}return b;case i.rotl:if(2!=n.length)return t&&(t.length&&(e.currentType=t[0]),1!=t.length&&e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10))),e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(t){if(1!=t.length)return t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10)),v.createUnreachable();T=e.compileExpression(n[0],t[0],1,1)}else T=e.compileExpression(n[0],o.Type.i32,0,1);switch(f=e.compileExpression(n[1],e.currentType,1,0),e.currentType.kind){case 0:case 1:case 5:case 6:case 10:b=e.ensureSmallIntegerWrap(v.createBinary(c.BinaryOp.RotlI32,T,f),e.currentType);case 2:case 7:b=v.createBinary(c.BinaryOp.RotlI32,T,f);break;case 9:if(e.currentType.is(256)){e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable();break}case 4:b=v.createBinary(e.options.isWasm64?c.BinaryOp.RotlI64:c.BinaryOp.RotlI32,T,f);break;case 3:case 8:b=v.createBinary(c.BinaryOp.RotlI64,T,f);break;default:e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable()}return b;case i.rotr:if(2!=n.length)return t&&(t.length&&(e.currentType=t[0]),1!=t.length&&e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10))),e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(t){if(1!=t.length)return t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10)),v.createUnreachable();T=e.compileExpression(n[0],t[0],1,1)}else T=e.compileExpression(n[0],o.Type.i32,0,1);switch(f=e.compileExpression(n[1],e.currentType,1,0),e.currentType.kind){case 0:case 1:case 5:case 6:case 10:b=e.ensureSmallIntegerWrap(v.createBinary(c.BinaryOp.RotrI32,T,f),e.currentType);break;case 2:case 7:b=v.createBinary(c.BinaryOp.RotrI32,T,f);break;case 9:if(e.currentType.is(256)){e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable();break}case 4:b=v.createBinary(e.options.isWasm64?c.BinaryOp.RotrI64:c.BinaryOp.RotrI32,T,f);break;case 3:case 8:b=v.createBinary(c.BinaryOp.RotrI64,T,f);break;default:e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable()}return b;case i.abs:if(1!=n.length)return t&&(t.length&&(e.currentType=t[0]),1!=t.length&&e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10))),e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();if(t){if(1!=t.length)return t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10)),v.createUnreachable();T=e.compileExpression(n[0],t[0],1,1)}else T=e.compileExpression(n[0],o.Type.f64,0,1);switch(e.currentType.kind){case 0:case 1:case 2:var O=(F=e.currentFlow).getTempLocal(o.Type.i32,!1),k=F.getAndFreeTempLocal(o.Type.i32,!1).index,L=O.index;b=v.createBinary(c.BinaryOp.XorI32,v.createBinary(c.BinaryOp.AddI32,v.createTeeLocal(k,v.createBinary(c.BinaryOp.ShrI32,v.createTeeLocal(L,T),v.createI32(31))),v.createGetLocal(L,c.NativeType.I32)),v.createGetLocal(k,c.NativeType.I32)),F.freeTempLocal(O);break;case 4:var R=e.options,F=e.currentFlow,U=R.isWasm64;O=F.getTempLocal(R.usizeType,!1),k=F.getAndFreeTempLocal(R.usizeType,!1).index,L=O.index;b=v.createBinary(U?c.BinaryOp.XorI64:c.BinaryOp.XorI32,v.createBinary(U?c.BinaryOp.AddI64:c.BinaryOp.AddI32,v.createTeeLocal(k,v.createBinary(U?c.BinaryOp.ShrI64:c.BinaryOp.ShrI32,v.createTeeLocal(L,T),U?v.createI64(63):v.createI32(31))),v.createGetLocal(L,R.nativeSizeType)),v.createGetLocal(k,R.nativeSizeType)),F.freeTempLocal(O);break;case 3:O=(F=e.currentFlow).getTempLocal(o.Type.i64,!1),k=F.getAndFreeTempLocal(o.Type.i64,!1).index,L=O.index;b=v.createBinary(c.BinaryOp.XorI64,v.createBinary(c.BinaryOp.AddI64,v.createTeeLocal(k,v.createBinary(c.BinaryOp.ShrI64,v.createTeeLocal(L,T),v.createI64(63))),v.createGetLocal(L,c.NativeType.I64)),v.createGetLocal(k,c.NativeType.I64)),F.freeTempLocal(O);break;case 9:if(e.currentType.is(256)){e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable();break}case 5:case 6:case 7:case 8:case 10:b=T;break;case 11:b=v.createUnary(c.UnaryOp.AbsF32,T);break;case 12:b=v.createUnary(c.UnaryOp.AbsF64,T);break;case 14:b=v.createUnreachable();break;default:e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable()}return b;case i.max:if(2!=n.length)return t&&(t.length&&(e.currentType=t[0]),1!=t.length&&e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10))),e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(t){if(1!=t.length)return t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10)),v.createUnreachable();T=e.compileExpression(n[0],t[0],1,1)}else T=e.compileExpression(n[0],o.Type.f64,0,1);switch(f=e.compileExpression(n[1],e.currentType,1,1),e.currentType.kind){case 0:case 1:case 2:var D=(F=e.currentFlow).getTempLocal(e.currentType,!F.canOverflow(T,e.currentType));O=F.getAndFreeTempLocal(e.currentType,!F.canOverflow(f,e.currentType));F.freeTempLocal(D),b=v.createSelect(v.createTeeLocal(D.index,T),v.createTeeLocal(O.index,f),v.createBinary(c.BinaryOp.GtI32,v.createGetLocal(D.index,c.NativeType.I32),v.createGetLocal(O.index,c.NativeType.I32)));break;case 5:case 6:case 7:case 10:D=(F=e.currentFlow).getTempLocal(e.currentType,!F.canOverflow(T,e.currentType)),O=F.getAndFreeTempLocal(e.currentType,!F.canOverflow(f,e.currentType));F.freeTempLocal(D),b=v.createSelect(v.createTeeLocal(D.index,T),v.createTeeLocal(O.index,f),v.createBinary(c.BinaryOp.GtU32,v.createGetLocal(D.index,c.NativeType.I32),v.createGetLocal(O.index,c.NativeType.I32)));break;case 3:D=(F=e.currentFlow).getTempLocal(o.Type.i64,!1),O=F.getAndFreeTempLocal(o.Type.i64,!1);F.freeTempLocal(D),b=v.createSelect(v.createTeeLocal(D.index,T),v.createTeeLocal(O.index,f),v.createBinary(c.BinaryOp.GtI64,v.createGetLocal(D.index,c.NativeType.I64),v.createGetLocal(O.index,c.NativeType.I64)));break;case 8:D=(F=e.currentFlow).getTempLocal(o.Type.i64,!1),O=F.getAndFreeTempLocal(o.Type.i64,!1);F.freeTempLocal(D),b=v.createSelect(v.createTeeLocal(D.index,T),v.createTeeLocal(O.index,f),v.createBinary(c.BinaryOp.GtU64,v.createGetLocal(D.index,c.NativeType.I64),v.createGetLocal(O.index,c.NativeType.I64)));break;case 4:D=(F=e.currentFlow).getTempLocal(e.options.usizeType,!1),O=F.getAndFreeTempLocal(e.options.usizeType,!1);F.freeTempLocal(D),b=v.createSelect(v.createTeeLocal(D.index,T),v.createTeeLocal(O.index,f),v.createBinary(e.options.isWasm64?c.BinaryOp.GtI64:c.BinaryOp.GtI32,v.createGetLocal(D.index,e.options.nativeSizeType),v.createGetLocal(O.index,e.options.nativeSizeType)));break;case 9:if(e.currentType.is(256)){e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable();break}D=(F=e.currentFlow).getTempLocal(e.options.usizeType,!1),O=F.getAndFreeTempLocal(e.options.usizeType,!1);F.freeTempLocal(D),b=v.createSelect(v.createTeeLocal(D.index,T),v.createTeeLocal(O.index,f),v.createBinary(e.options.isWasm64?c.BinaryOp.GtU64:c.BinaryOp.GtU32,v.createGetLocal(D.index,e.options.nativeSizeType),v.createGetLocal(O.index,e.options.nativeSizeType)));break;case 11:b=v.createBinary(c.BinaryOp.MaxF32,T,f);break;case 12:b=v.createBinary(c.BinaryOp.MaxF64,T,f);break;default:e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable()}return b;case i.min:if(2!=n.length)return t&&(t.length&&(e.currentType=t[0]),1!=t.length&&e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10))),e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(t){if(1!=t.length)return t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10)),v.createUnreachable();T=e.compileExpression(n[0],t[0],1,1)}else T=e.compileExpression(n[0],o.Type.f64,0,1);switch(f=e.compileExpression(n[1],e.currentType,1,1),e.currentType.kind){case 0:case 1:case 2:D=(F=e.currentFlow).getTempLocal(e.currentType,!F.canOverflow(T,e.currentType)),O=F.getAndFreeTempLocal(e.currentType,!F.canOverflow(f,e.currentType));F.freeTempLocal(D),b=v.createSelect(v.createTeeLocal(D.index,T),v.createTeeLocal(O.index,f),v.createBinary(c.BinaryOp.LtI32,v.createGetLocal(D.index,c.NativeType.I32),v.createGetLocal(O.index,c.NativeType.I32)));break;case 5:case 6:case 7:case 10:D=(F=e.currentFlow).getTempLocal(e.currentType,!F.canOverflow(T,e.currentType)),O=F.getAndFreeTempLocal(e.currentType,!F.canOverflow(f,e.currentType));F.freeTempLocal(D),b=v.createSelect(v.createTeeLocal(D.index,T),v.createTeeLocal(O.index,f),v.createBinary(c.BinaryOp.LtU32,v.createGetLocal(D.index,c.NativeType.I32),v.createGetLocal(O.index,c.NativeType.I32)));break;case 3:D=(F=e.currentFlow).getTempLocal(o.Type.i64,!1),O=F.getAndFreeTempLocal(o.Type.i64,!1);F.freeTempLocal(D),b=v.createSelect(v.createTeeLocal(D.index,T),v.createTeeLocal(O.index,f),v.createBinary(c.BinaryOp.LtI64,v.createGetLocal(D.index,c.NativeType.I64),v.createGetLocal(O.index,c.NativeType.I64)));break;case 8:D=(F=e.currentFlow).getTempLocal(o.Type.i64,!1),O=F.getAndFreeTempLocal(o.Type.i64,!1);F.freeTempLocal(D),b=v.createSelect(v.createTeeLocal(D.index,T),v.createTeeLocal(O.index,f),v.createBinary(c.BinaryOp.LtU64,v.createGetLocal(D.index,c.NativeType.I64),v.createGetLocal(O.index,c.NativeType.I64)));break;case 4:D=(F=e.currentFlow).getTempLocal(e.options.usizeType,!1),O=F.getAndFreeTempLocal(e.options.usizeType,!1);F.freeTempLocal(D),b=v.createSelect(v.createTeeLocal(D.index,T),v.createTeeLocal(O.index,f),v.createBinary(e.options.isWasm64?c.BinaryOp.LtI64:c.BinaryOp.LtI32,v.createGetLocal(D.index,e.options.nativeSizeType),v.createGetLocal(O.index,e.options.nativeSizeType)));break;case 9:if(e.currentType.is(256)){e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable();break}D=(F=e.currentFlow).getTempLocal(e.options.usizeType,!1),O=F.getAndFreeTempLocal(e.options.usizeType,!1);F.freeTempLocal(D),b=v.createSelect(v.createTeeLocal(D.index,T),v.createTeeLocal(O.index,f),v.createBinary(e.options.isWasm64?c.BinaryOp.LtU64:c.BinaryOp.LtU32,v.createGetLocal(D.index,e.options.nativeSizeType),v.createGetLocal(O.index,e.options.nativeSizeType)));break;case 11:b=v.createBinary(c.BinaryOp.MinF32,T,f);break;case 12:b=v.createBinary(c.BinaryOp.MinF64,T,f);break;default:e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable()}return b;case i.ceil:if(1!=n.length)return t&&(t.length&&(e.currentType=t[0]),1!=t.length&&e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10))),e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();if(t){if(1!=t.length)return t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10)),v.createUnreachable();T=e.compileExpression(n[0],t[0],1,0)}else T=e.compileExpression(n[0],o.Type.f64,0,0);switch(e.currentType.kind){case 9:if(e.currentType.is(256)){e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable();break}default:b=T;break;case 11:b=v.createUnary(c.UnaryOp.CeilF32,T);break;case 12:b=v.createUnary(c.UnaryOp.CeilF64,T);break;case 14:e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable()}return b;case i.floor:if(1!=n.length)return t&&(t.length&&(e.currentType=t[0]),1!=t.length&&e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10))),e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();if(t){if(1!=t.length)return t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10)),v.createUnreachable();T=e.compileExpression(n[0],t[0],1,0)}else T=e.compileExpression(n[0],o.Type.f64,0,0);switch(e.currentType.kind){case 9:if(e.currentType.is(256)){e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable();break}default:b=T;break;case 11:b=v.createUnary(c.UnaryOp.FloorF32,T);break;case 12:b=v.createUnary(c.UnaryOp.FloorF64,T);break;case 14:e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable()}return b;case i.copysign:if(2!=n.length)return t&&(t.length&&(e.currentType=t[0]),1!=t.length&&e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10))),e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(t){if(1!=t.length)return t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10)),v.createUnreachable();T=e.compileExpression(n[0],t[0],1,0)}else T=e.compileExpression(n[0],o.Type.f64,0,0);switch(f=e.compileExpression(n[1],e.currentType,1,0),e.currentType.kind){case 11:b=v.createBinary(c.BinaryOp.CopysignF32,T,f);break;case 12:b=v.createBinary(c.BinaryOp.CopysignF64,T,f);break;default:e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable()}return b;case i.nearest:if(1!=n.length)return t&&(t.length&&(e.currentType=t[0]),1!=t.length&&e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10))),e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();if(t){if(1!=t.length)return t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10)),v.createUnreachable();T=e.compileExpression(n[0],t[0],1,0)}else T=e.compileExpression(n[0],o.Type.f64,0,0);switch(e.currentType.kind){case 9:if(e.currentType.is(256)){e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable();break}default:b=T;break;case 11:b=v.createUnary(c.UnaryOp.NearestF32,T);break;case 12:b=v.createUnary(c.UnaryOp.NearestF64,T);break;case 14:e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable()}return b;case i.reinterpret:if(1!=n.length)return t&&1==t.length||(t&&t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString(10):"0")),e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();if(!t||1!=t.length)return t&&t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString(10):"0"),v.createUnreachable();switch(t[0].kind){case 2:case 7:T=e.compileExpression(n[0],o.Type.f32,1,0),b=v.createUnary(c.UnaryOp.ReinterpretF32,T);break;case 3:case 8:T=e.compileExpression(n[0],o.Type.f64,1,0),b=v.createUnary(c.UnaryOp.ReinterpretF64,T);break;case 9:if(t[0].is(256))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),e.currentType=t[0],v.createUnreachable();case 4:T=e.compileExpression(n[0],e.options.isWasm64?o.Type.f64:o.Type.f32,1,0),b=v.createUnary(e.options.isWasm64?c.UnaryOp.ReinterpretF64:c.UnaryOp.ReinterpretF32,T);break;case 11:T=e.compileExpression(n[0],o.Type.i32,1,0),b=v.createUnary(c.UnaryOp.ReinterpretI32,T);break;case 12:T=e.compileExpression(n[0],o.Type.i64,1,0),b=v.createUnary(c.UnaryOp.ReinterpretI64,T);break;default:e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable()}return e.currentType=t[0],b;case i.sqrt:if(1!=n.length)return t&&(t.length&&(e.currentType=t[0]),1!=t.length&&e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10))),e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();if(t){if(1!=t.length)return t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10)),v.createUnreachable();T=e.compileExpression(n[0],t[0],1,0)}else T=e.compileExpression(n[0],o.Type.f64,0,0);switch(e.currentType.kind){case 11:b=v.createUnary(c.UnaryOp.SqrtF32,T);break;case 12:b=v.createUnary(c.UnaryOp.SqrtF64,T);break;default:e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable()}return b;case i.trunc:if(1!=n.length)return t&&(t.length&&(e.currentType=t[0]),1!=t.length&&e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10))),e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();if(t&&t.length){if(e.currentType=t[0],1!=t.length)return t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10)),v.createUnreachable();T=e.compileExpression(n[0],t[0],1,0)}else T=e.compileExpression(n[0],o.Type.f64,0,0);switch(e.currentType.kind){case 9:if(e.currentType.is(256)){e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable();break}default:b=T;break;case 11:b=v.createUnary(c.UnaryOp.TruncF32,T);break;case 12:b=v.createUnary(c.UnaryOp.TruncF64,T);break;case 14:e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable()}return b;case i.load:if(n.length<1||n.length>3)return t&&1==t.length||e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString(10):"0"),n.length<1?e.error(a.DiagnosticCode.Expected_at_least_0_arguments_but_got_1,h.range,"1",n.length.toString(10)):e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"3",n.length.toString(10)),v.createUnreachable();if(!t||1!=t.length)return t&&t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString(10):"0"),v.createUnreachable();if(T=e.compileExpression(n[0],e.options.usizeType,1,0),(z=n.length>=2?g(e,n[1]):0)<0)return v.createUnreachable();var B=void 0,w=t[0].byteSize;if(3==n.length){if((B=g(e,n[2]))<0)return v.createUnreachable();if(B>w)return e.error(a.DiagnosticCode._0_must_be_a_value_between_1_and_2_inclusive,n[2].range,"Alignment","0",w.toString()),v.createUnreachable();if(!_.isPowerOf2(B))return e.error(a.DiagnosticCode._0_must_be_a_power_of_two,n[2].range,"Alignment"),v.createUnreachable()}else B=w;return e.currentType=t[0],v.createLoad(t[0].byteSize,t[0].is(5),T,t[0].is(4)&&u.is(4)&&u.size>t[0].size?(e.currentType=u).toNativeType():(e.currentType=t[0]).toNativeType(),z,B);case i.store:if(e.currentType=o.Type.void,n.length<2||n.length>4)return t&&1==t.length||e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString(10):"0"),n.length<2?e.error(a.DiagnosticCode.Expected_at_least_0_arguments_but_got_1,h.range,"2",n.length.toString(10)):e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"4",n.length.toString(10)),v.createUnreachable();if(!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString(10):"0"),v.createUnreachable();T=e.compileExpression(n[0],e.options.usizeType,1,0),f=e.compileExpression(n[1],t[0],t[0].is(4)?0:1,0);I=void 0;if(t[0].is(4)&&(!e.currentType.is(4)||e.currentType.size=3?g(e,n[2]):0)<0)return v.createUnreachable();B=void 0,w=t[0].byteSize;if(4==n.length){if((B=g(e,n[3]))<0)return v.createUnreachable();if(B>w)return e.error(a.DiagnosticCode._0_must_be_a_value_between_1_and_2_inclusive,n[3].range,"Alignment","0",w.toString()),v.createUnreachable();if(!_.isPowerOf2(B))return e.error(a.DiagnosticCode._0_must_be_a_power_of_two,n[3].range,"Alignment"),v.createUnreachable()}else B=w;return e.currentType=o.Type.void,v.createStore(t[0].byteSize,T,f,I.toNativeType(),z,B);case i.atomic_load:if(!e.options.hasFeature(16))break;return n.length<1||n.length>2?(t&&1==t.length||e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString(10):"0"),n.length<1?e.error(a.DiagnosticCode.Expected_at_least_0_arguments_but_got_1,h.range,"1",n.length.toString(10)):e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable()):t&&1==t.length?(T=e.compileExpression(n[0],e.options.usizeType,1,0),(z=2==n.length?g(e,n[1]):0)<0?v.createUnreachable():(e.currentType=t[0],v.createAtomicLoad(t[0].byteSize,T,t[0].is(4)&&u.is(4)&&u.size>t[0].size?(e.currentType=u).toNativeType():(e.currentType=t[0]).toNativeType(),z))):(t&&t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString(10):"0"),v.createUnreachable());case i.atomic_store:if(!e.options.hasFeature(16))break;if(e.currentType=o.Type.void,n.length<2||n.length>3)return t&&1==t.length||e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString(10):"0"),n.length<2?e.error(a.DiagnosticCode.Expected_at_least_0_arguments_but_got_1,h.range,"2",n.length.toString(10)):e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"3",n.length.toString(10)),v.createUnreachable();if(!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString(10):"0"),v.createUnreachable();T=e.compileExpression(n[0],e.options.usizeType,1,0),f=e.compileExpression(n[1],t[0],t[0].is(4)?0:1,0);I=void 0;return t[0].is(4)&&(!e.currentType.is(4)||e.currentType.size3)return t&&1==t.length||e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString(10):"0"),n.length<2?e.error(a.DiagnosticCode.Expected_at_least_0_arguments_but_got_1,h.range,"2",n.length.toString(10)):e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"3",n.length.toString(10)),v.createUnreachable();if(!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString(10):"0"),v.createUnreachable();T=e.compileExpression(n[0],e.options.usizeType,1,0),f=e.compileExpression(n[1],t[0],t[0].is(4)?0:1,0);I=void 0;if(t[0].is(4)&&(!e.currentType.is(4)||e.currentType.size4)return t&&1==t.length||e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString(10):"0"),n.length<3?e.error(a.DiagnosticCode.Expected_at_least_0_arguments_but_got_1,h.range,"2",n.length.toString(10)):e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"3",n.length.toString(10)),v.createUnreachable();if(!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString(10):"0"),v.createUnreachable();T=e.compileExpression(n[0],e.options.usizeType,1,0),f=e.compileExpression(n[1],t[0],t[0].is(4)?0:1,0),E=e.compileExpression(n[2],t[0],t[0].is(4)?0:1,0);I=void 0;return t[0].is(4)&&(!e.currentType.is(4)||e.currentType.size1)return t&&1==t.length||e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString(10):"0"),e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();if(!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString(10):"0"),v.createUnreachable();var K;if(!(K=t[0].classReference))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();var z=void 0;if(n.length){if(n[0].kind!=s.NodeKind.LITERAL||n[0].literalKind!=s.LiteralKind.STRING)return e.error(a.DiagnosticCode.String_literal_expected,n[0].range),v.createUnreachable();var H=n[0].value,Y=K.members?K.members.get(H):null;if(!Y||Y.kind!=l.ElementKind.FIELD)return e.error(a.DiagnosticCode.Type_0_has_no_property_1,n[0].range,K.internalName,H),v.createUnreachable();z=Y.memoryOffset}else z=K.currentMemoryOffset;return e.options.isWasm64?u.is(4)&&u.size<=32?(e.currentType=o.Type.u32,v.createI32(z)):v.createI64(z):u.is(4)&&64==u.size?(e.currentType=o.Type.u64,v.createI64(z)):v.createI32(z);case i.select:if(3!=n.length)return t&&(t.length&&(e.currentType=t[0]),1!=t.length&&e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10))),e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"3",n.length.toString(10)),v.createUnreachable();if(t){if(1!=t.length)return t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10)),v.createUnreachable();T=e.compileExpression(n[0],t[0],1,0)}else T=e.compileExpressionRetainType(n[0],o.Type.i32,0);I=e.currentType;switch(f=e.compileExpression(n[1],I,1,0),E=e.makeIsTrueish(e.compileExpressionRetainType(n[2],o.Type.bool,0),e.currentType),e.currentType=I,e.currentType.kind){case 0:case 1:case 5:case 6:case 10:default:b=v.createSelect(T,f,E);break;case 14:e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=v.createUnreachable()}return b;case i.unreachable:return 0!=n.length&&e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"0",n.length.toString(10)),t&&e.error(a.DiagnosticCode.Type_0_is_not_generic,h.range,r.internalName),v.createUnreachable();case i.memory_size:return e.currentType=o.Type.i32,0!=n.length&&e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"0",n.length.toString(10)),t&&e.error(a.DiagnosticCode.Type_0_is_not_generic,h.range,r.internalName),v.createHost(c.HostOp.CurrentMemory);case i.memory_grow:return e.currentType=o.Type.i32,1!=n.length?(e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"0",n.length.toString(10)),T=v.createUnreachable()):T=e.compileExpression(n[0],o.Type.i32,1,0),t&&e.error(a.DiagnosticCode.Type_0_is_not_generic,h.range,r.internalName),v.createHost(c.HostOp.GrowMemory,null,[T]);case i.memory_copy:if(!e.options.hasFeature(4)){var W=e.resolver.resolveFunction(r,null);return e.currentType=o.Type.void,W?e.compileCallDirect(W,n,h):v.createUnreachable()}if(t&&e.error(a.DiagnosticCode.Type_0_is_not_generic,h.range,r.internalName),3!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"3",n.length.toString(10)),e.currentType=o.Type.void,v.createUnreachable();var X=e.options.usizeType;return T=e.compileExpression(n[0],X,1,0),f=e.compileExpression(n[1],X,1,0),E=e.compileExpression(n[2],X,1,0),e.currentType=o.Type.void,v.createMemoryCopy(T,f,E);case i.memory_fill:if(!e.options.hasFeature(4)){W=e.resolver.resolveFunction(r,null);return e.currentType=o.Type.void,W?e.compileCallDirect(W,n,h):v.createUnreachable()}if(t&&e.error(a.DiagnosticCode.Type_0_is_not_generic,h.range,r.internalName),3!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"3",n.length.toString(10)),e.currentType=o.Type.void,v.createUnreachable();X=e.options.usizeType;return T=e.compileExpression(n[0],X,1,0),f=e.compileExpression(n[1],o.Type.u32,1,0),E=e.compileExpression(n[2],X,1,0),e.currentType=o.Type.void,v.createMemoryFill(T,f,E);case i.changetype:return t&&1==t.length?1!=n.length?(e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),e.currentType=t[0],v.createUnreachable()):(T=e.compileExpressionRetainType(n[0],t[0],0),e.currentType=t[0],e.currentType.size!=t[0].size?(e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()):T):(t&&t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString(10):"0"),v.createUnreachable());case i.assert:if(n.length<1||n.length>2)return t&&(t.length&&(e.currentType=t[0].nonNullableType),1!=t.length&&e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10))),n.length<1?e.error(a.DiagnosticCode.Expected_at_least_0_arguments_but_got_1,h.range,"1",n.length.toString(10)):n.length>2&&e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(t){if(t.length&&(e.currentType=t[0].nonNullableType),1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10)),v.createUnreachable();T=e.compileExpression(n[0],t[0],1,1)}else T=e.compileExpressionRetainType(n[0],o.Type.bool,1);I=e.currentType;if(e.currentType=I.nonNullableType,e.options.noAssert)return u==o.Type.void?(e.currentType=o.Type.void,v.createNop()):T;var q=m(e,2==n.length?n[1]:null,h);if(e.currentType=I.nonNullableType,u==o.Type.void){switch(e.currentType.kind){default:b=v.createIf(v.createUnary(c.UnaryOp.EqzI32,T),q);break;case 3:case 8:b=v.createIf(v.createUnary(c.UnaryOp.EqzI64,T),q);break;case 4:case 9:b=v.createIf(v.createUnary(e.options.isWasm64?c.UnaryOp.EqzI64:c.UnaryOp.EqzI32,T),q);break;case 11:b=v.createIf(v.createBinary(c.BinaryOp.EqF32,T,v.createF32(0)),q);break;case 12:b=v.createIf(v.createBinary(c.BinaryOp.EqF64,T,v.createF64(0)),q);break;case 14:e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=q}e.currentType=o.Type.void}else switch(e.currentType.kind){case 0:case 1:case 5:case 6:case 10:var Q=(F=e.currentFlow).getAndFreeTempLocal(e.currentType,!F.canOverflow(T,e.currentType));b=v.createIf(v.createTeeLocal(Q.index,T),v.createGetLocal(Q.index,c.NativeType.I32),q);break;case 2:case 7:default:Q=e.currentFlow.getAndFreeTempLocal(o.Type.i32,!1);b=v.createIf(v.createTeeLocal(Q.index,T),v.createGetLocal(Q.index,c.NativeType.I32),q);break;case 3:case 8:Q=e.currentFlow.getAndFreeTempLocal(o.Type.i64,!1);b=v.createIf(v.createUnary(c.UnaryOp.EqzI64,v.createTeeLocal(Q.index,T)),q,v.createGetLocal(Q.index,c.NativeType.I64));break;case 4:case 9:Q=e.currentFlow.getAndFreeTempLocal(e.options.usizeType,!1);b=v.createIf(v.createUnary(e.options.isWasm64?c.UnaryOp.EqzI64:c.UnaryOp.EqzI32,v.createTeeLocal(Q.index,T)),q,v.createGetLocal(Q.index,e.options.nativeSizeType));break;case 11:Q=e.currentFlow.getAndFreeTempLocal(o.Type.f32,!1);b=v.createIf(v.createBinary(c.BinaryOp.EqF32,v.createTeeLocal(Q.index,T),v.createF32(0)),q,v.createGetLocal(Q.index,c.NativeType.F32));break;case 12:Q=e.currentFlow.getAndFreeTempLocal(o.Type.f64,!1);b=v.createIf(v.createBinary(c.BinaryOp.EqF64,v.createTeeLocal(Q.index,T),v.createF64(0)),q,v.createGetLocal(Q.index,c.NativeType.F64));break;case 14:e.error(a.DiagnosticCode.Operation_not_supported,h.range),b=q}return b;case i.unchecked:if(t&&e.error(a.DiagnosticCode.Type_0_is_not_generic,h.range,r.internalName),1!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();var j=(F=e.currentFlow).is(8192);return F.set(8192),b=e.compileExpressionRetainType(n[0],u,0),j||F.unset(8192),b;case i.call_indirect:if(n.length<1)return t&&(t.length&&(e.currentType=t[0]),1!=t.length&&e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10))),e.error(a.DiagnosticCode.Expected_at_least_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();var Z=void 0;if(t){if(1!=t.length)return t.length&&(e.currentType=t[0]),e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t.length.toString(10)),v.createUnreachable();Z=t[0]}else Z=u;if(T=e.compileExpressionRetainType(n[0],o.Type.u32,0),7!=e.currentType.kind)return e.error(a.DiagnosticCode.Operation_not_supported,n[0].range),v.createUnreachable();for(var J=n.length-1,$=new Array(J),ee=new Array(J+1),re=Z.toNativeType(),te=new Array(J),ne=0;neTe?(e.error(a.DiagnosticCode._0_must_be_a_value_between_1_and_2_inclusive,n[1].range,"Lane index","0",Te.toString()),v.createUnreachable()):v.createSIMDExtract(me,T,ve);case i.v128_replace_lane:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(3!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"3",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 0:case 5:me=c.SIMDReplaceOp.ReplaceLaneVecI8x16;break;case 1:case 6:me=c.SIMDReplaceOp.ReplaceLaneVecI16x8;break;case 2:case 7:me=c.SIMDReplaceOp.ReplaceLaneVecI32x4;break;case 3:case 8:me=c.SIMDReplaceOp.ReplaceLaneVecI64x2;break;case 4:case 9:me=e.options.isWasm64?c.SIMDReplaceOp.ReplaceLaneVecI64x2:c.SIMDReplaceOp.ReplaceLaneVecI32x4;break;case 11:me=c.SIMDReplaceOp.ReplaceLaneVecF32x4;break;case 12:me=c.SIMDReplaceOp.ReplaceLaneVecF64x2;break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}if(T=e.compileExpression(n[0],o.Type.v128,1,0),f=v.precomputeExpression(e.compileExpression(n[1],o.Type.u8,1,0)),c.getExpressionId(f)!=c.ExpressionId.Const)return e.error(a.DiagnosticCode.Expression_must_be_a_compile_time_constant,n[1].range),e.currentType=o.Type.v128,v.createUnreachable();assert(c.getExpressionType(f)==c.NativeType.I32);Te=16/I.byteSize-1;return(ve=c.getConstValueI32(f))<0||ve>Te?(e.error(a.DiagnosticCode._0_must_be_a_value_between_1_and_2_inclusive,n[1].range,"Lane index","0",Te.toString()),v.createUnreachable()):(E=e.compileExpression(n[2],I,1,0),e.currentType=o.Type.v128,v.createSIMDReplace(me,T,ve,E));case i.v128_shuffle:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),e.currentType=I,v.createUnreachable();switch(I.kind){case 0:case 5:case 1:case 6:case 2:case 7:case 3:case 8:case 4:case 9:case 11:case 12:break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),e.currentType=I,v.createUnreachable()}var fe=I.byteSize,Ee=16/fe;if(n.length!=2+Ee)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,(2+Ee).toString(),n.length.toString(10)),e.currentType=o.Type.v128,v.createUnreachable();T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.v128,1,0);var be=new Uint8Array(16);for(Te=(Ee<<1)-1,ne=0;neTe)return e.error(a.DiagnosticCode._0_must_be_a_value_between_1_and_2_inclusive,Ie.range,"Lane index","0",Te.toString()),e.currentType=o.Type.v128,v.createUnreachable();switch(fe){case 1:_.writeI8(ve,be,ne);break;case 2:var xe=ne<<1,Se=ve<<1;_.writeI8(Se,be,xe),_.writeI8(Se+1,be,xe+1);break;case 4:xe=ne<<2,Se=ve<<2;_.writeI8(Se,be,xe),_.writeI8(Se+1,be,xe+1),_.writeI8(Se+2,be,xe+2),_.writeI8(Se+3,be,xe+3);break;case 8:xe=ne<<3,Se=ve<<3;_.writeI8(Se,be,xe),_.writeI8(Se+1,be,xe+1),_.writeI8(Se+2,be,xe+2),_.writeI8(Se+3,be,xe+3),_.writeI8(Se+4,be,xe+4),_.writeI8(Se+5,be,xe+5),_.writeI8(Se+6,be,xe+6),_.writeI8(Se+7,be,xe+7);break;default:assert(!1)}}return e.currentType=o.Type.v128,v.createSIMDShuffle(T,f,be);case i.v128_add:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(2!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 0:case 5:me=c.BinaryOp.AddVecI8x16;break;case 1:case 6:me=c.BinaryOp.AddVecI16x8;break;case 2:case 7:me=c.BinaryOp.AddVecI32x4;break;case 3:case 8:me=c.BinaryOp.AddVecI64x2;break;case 4:case 9:me=e.options.isWasm64?c.BinaryOp.AddVecI64x2:c.BinaryOp.AddVecI32x4;break;case 11:me=c.BinaryOp.AddVecF32x4;break;case 12:me=c.BinaryOp.AddVecF64x2;break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createBinary(me,T,f);case i.v128_sub:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(2!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 0:case 5:me=c.BinaryOp.SubVecI8x16;break;case 1:case 6:me=c.BinaryOp.SubVecI16x8;break;case 2:case 7:me=c.BinaryOp.SubVecI32x4;break;case 3:case 8:me=c.BinaryOp.SubVecI64x2;break;case 4:case 9:me=e.options.isWasm64?c.BinaryOp.SubVecI64x2:c.BinaryOp.SubVecI32x4;break;case 11:me=c.BinaryOp.SubVecF32x4;break;case 12:me=c.BinaryOp.SubVecF64x2;break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createBinary(me,T,f);case i.v128_mul:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(2!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 0:case 5:me=c.BinaryOp.MulVecI8x16;break;case 1:case 6:me=c.BinaryOp.MulVecI16x8;break;case 2:case 7:me=c.BinaryOp.MulVecI32x4;break;case 11:me=c.BinaryOp.MulVecF32x4;break;case 12:me=c.BinaryOp.MulVecF64x2;break;case 4:case 9:if(!e.options.isWasm64){me=c.BinaryOp.MulVecI32x4;break}default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createBinary(me,T,f);case i.v128_div:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(2!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 11:me=c.BinaryOp.DivVecF32x4;break;case 12:me=c.BinaryOp.DivVecF64x2;break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createBinary(me,T,f);case i.v128_neg:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(1!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 0:case 5:me=c.UnaryOp.NegVecI8x16;break;case 1:case 6:me=c.UnaryOp.NegVecI16x8;break;case 2:case 7:me=c.UnaryOp.NegVecI32x4;break;case 3:case 8:me=c.UnaryOp.NegVecI64x2;break;case 4:case 9:me=e.options.isWasm64?c.UnaryOp.NegVecI64x2:c.UnaryOp.NegVecI32x4;break;case 11:me=c.UnaryOp.NegVecF32x4;break;case 12:me=c.UnaryOp.NegVecF64x2;break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createUnary(me,T);case i.v128_add_saturate:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(2!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 0:me=c.BinaryOp.AddSatSVecI8x16;break;case 5:me=c.BinaryOp.AddSatUVecI8x16;break;case 1:me=c.BinaryOp.AddSatSVecI16x8;break;case 6:me=c.BinaryOp.AddSatUVecI16x8;break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createBinary(me,T,f);case i.v128_sub_saturate:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(2!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 0:me=c.BinaryOp.SubSatSVecI8x16;break;case 5:me=c.BinaryOp.SubSatUVecI8x16;break;case 1:me=c.BinaryOp.SubSatSVecI16x8;break;case 6:me=c.BinaryOp.SubSatUVecI16x8;break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createBinary(me,T,f);case i.v128_shl:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(2!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 0:case 5:me=c.SIMDShiftOp.ShlVecI8x16;break;case 1:case 6:me=c.SIMDShiftOp.ShlVecI16x8;break;case 2:case 7:me=c.SIMDShiftOp.ShlVecI32x4;break;case 3:case 8:me=c.SIMDShiftOp.ShlVecI64x2;break;case 4:case 9:me=e.options.isWasm64?c.SIMDShiftOp.ShlVecI64x2:c.SIMDShiftOp.ShlVecI32x4;break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.i32,1,0),e.currentType=o.Type.v128,v.createSIMDShift(me,T,f);case i.v128_shr:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(2!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 0:me=c.SIMDShiftOp.ShrSVecI8x16;break;case 5:me=c.SIMDShiftOp.ShrUVecI8x16;break;case 1:me=c.SIMDShiftOp.ShrSVecI16x8;break;case 6:me=c.SIMDShiftOp.ShrUVecI16x8;break;case 2:me=c.SIMDShiftOp.ShrSVecI32x4;break;case 7:me=c.SIMDShiftOp.ShrUVecI32x4;break;case 3:me=c.SIMDShiftOp.ShrSVecI64x2;break;case 8:me=c.SIMDShiftOp.ShrUVecI64x2;break;case 4:me=e.options.isWasm64?c.SIMDShiftOp.ShrSVecI64x2:c.SIMDShiftOp.ShrSVecI32x4;break;case 9:me=e.options.isWasm64?c.SIMDShiftOp.ShrUVecI64x2:c.SIMDShiftOp.ShrUVecI32x4;break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.i32,1,0),e.currentType=o.Type.v128,v.createSIMDShift(me,T,f);case i.v128_and:if(!e.options.hasFeature(8))break;return e.currentType=o.Type.v128,t&&e.error(a.DiagnosticCode.Type_0_is_not_generic,h.range,r.internalName),2!=n.length?(e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable()):(T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createBinary(c.BinaryOp.AndVec128,T,f));case i.v128_or:if(!e.options.hasFeature(8))break;return e.currentType=o.Type.v128,t&&e.error(a.DiagnosticCode.Type_0_is_not_generic,h.range,r.internalName),2!=n.length?(e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable()):(T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createBinary(c.BinaryOp.OrVec128,T,f));case i.v128_xor:if(!e.options.hasFeature(8))break;return e.currentType=o.Type.v128,t&&e.error(a.DiagnosticCode.Type_0_is_not_generic,h.range,r.internalName),2!=n.length?(e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable()):(T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createBinary(c.BinaryOp.XorVec128,T,f));case i.v128_not:if(!e.options.hasFeature(8))break;return e.currentType=o.Type.v128,t&&e.error(a.DiagnosticCode.Type_0_is_not_generic,h.range,r.internalName),1!=n.length?(e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable()):(T=e.compileExpression(n[0],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createUnary(c.UnaryOp.NotVec128,T));case i.v128_bitselect:if(!e.options.hasFeature(8))break;return e.currentType=o.Type.v128,t&&e.error(a.DiagnosticCode.Type_0_is_not_generic,h.range,r.internalName),3!=n.length?(e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"3",n.length.toString(10)),v.createUnreachable()):(T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.v128,1,0),E=e.compileExpression(n[2],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createSIMDBitselect(T,f,E));case i.v128_any_true:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.bool,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(1!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 0:case 5:me=c.UnaryOp.AnyTrueVecI8x16;break;case 1:case 6:me=c.UnaryOp.AnyTrueVecI16x8;break;case 2:case 7:me=c.UnaryOp.AnyTrueVecI32x4;break;case 3:case 8:me=c.UnaryOp.AnyTrueVecI64x2;break;case 4:case 9:me=e.options.isWasm64?c.UnaryOp.AnyTrueVecI64x2:c.UnaryOp.AnyTrueVecI32x4;break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),e.currentType=o.Type.bool,v.createUnary(me,T);case i.v128_all_true:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.bool,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(1!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 0:case 5:me=c.UnaryOp.AllTrueVecI8x16;break;case 1:case 6:me=c.UnaryOp.AllTrueVecI16x8;break;case 2:case 7:me=c.UnaryOp.AllTrueVecI32x4;break;case 3:case 8:me=c.UnaryOp.AllTrueVecI64x2;break;case 4:case 9:me=e.options.isWasm64?c.UnaryOp.AllTrueVecI64x2:c.UnaryOp.AllTrueVecI32x4;break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),e.currentType=o.Type.bool,v.createUnary(me,T);case i.v128_min:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(2!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 11:me=c.BinaryOp.MinVecF32x4;break;case 12:me=c.BinaryOp.MinVecF64x2;break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createBinary(me,T,f);case i.v128_max:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(2!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 11:me=c.BinaryOp.MaxVecF32x4;break;case 12:me=c.BinaryOp.MaxVecF64x2;break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createBinary(me,T,f);case i.v128_abs:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(1!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 11:me=c.UnaryOp.AbsVecF32x4;break;case 12:me=c.UnaryOp.AbsVecF64x2;break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createUnary(me,T);case i.v128_sqrt:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(1!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 11:me=c.UnaryOp.SqrtVecF32x4;break;case 12:me=c.UnaryOp.SqrtVecF64x2;break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createUnary(me,T);case i.v128_eq:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(2!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 0:case 5:me=c.BinaryOp.EqVecI8x16;break;case 1:case 6:me=c.BinaryOp.EqVecI16x8;break;case 2:case 7:me=c.BinaryOp.EqVecI32x4;break;case 11:me=c.BinaryOp.EqVecF32x4;break;case 12:me=c.BinaryOp.EqVecF64x2;break;case 4:case 9:if(!e.options.isWasm64){me=c.BinaryOp.EqVecI32x4;break}default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createBinary(me,T,f);case i.v128_ne:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(2!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 0:case 5:me=c.BinaryOp.NeVecI8x16;break;case 1:case 6:me=c.BinaryOp.NeVecI16x8;break;case 2:case 7:me=c.BinaryOp.NeVecI32x4;break;case 11:me=c.BinaryOp.NeVecF32x4;break;case 12:me=c.BinaryOp.NeVecF64x2;break;case 4:case 9:if(!e.options.isWasm64){me=c.BinaryOp.NeVecI32x4;break}default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createBinary(me,T,f);case i.v128_lt:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(2!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 0:me=c.BinaryOp.LtSVecI8x16;break;case 5:me=c.BinaryOp.LtUVecI8x16;break;case 1:me=c.BinaryOp.LtSVecI16x8;break;case 6:me=c.BinaryOp.LtUVecI16x8;break;case 2:me=c.BinaryOp.LtSVecI32x4;break;case 7:me=c.BinaryOp.LtUVecI32x4;break;case 11:me=c.BinaryOp.LtVecF32x4;break;case 12:me=c.BinaryOp.LtVecF64x2;break;case 4:case 9:if(!e.options.isWasm64){me=4==I.kind?c.BinaryOp.LtSVecI32x4:c.BinaryOp.LtUVecI32x4;break}default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createBinary(me,T,f);case i.v128_le:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(2!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 0:me=c.BinaryOp.LeSVecI8x16;break;case 5:me=c.BinaryOp.LeUVecI8x16;break;case 1:me=c.BinaryOp.LeSVecI16x8;break;case 6:me=c.BinaryOp.LeUVecI16x8;break;case 2:me=c.BinaryOp.LeSVecI32x4;break;case 7:me=c.BinaryOp.LeUVecI32x4;break;case 11:me=c.BinaryOp.LeVecF32x4;break;case 12:me=c.BinaryOp.LeVecF64x2;break;case 4:case 9:if(!e.options.isWasm64){me=4==I.kind?c.BinaryOp.LeSVecI32x4:c.BinaryOp.LeUVecI32x4;break}default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createBinary(me,T,f);case i.v128_gt:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(2!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 0:me=c.BinaryOp.GtSVecI8x16;break;case 5:me=c.BinaryOp.GtUVecI8x16;break;case 1:me=c.BinaryOp.GtSVecI16x8;break;case 6:me=c.BinaryOp.GtUVecI16x8;break;case 2:me=c.BinaryOp.GtSVecI32x4;break;case 7:me=c.BinaryOp.GtUVecI32x4;break;case 11:me=c.BinaryOp.GtVecF32x4;break;case 12:me=c.BinaryOp.GtVecF64x2;break;case 4:case 9:if(!e.options.isWasm64){me=4==I.kind?c.BinaryOp.GtSVecI32x4:c.BinaryOp.GtUVecI32x4;break}default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createBinary(me,T,f);case i.v128_ge:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(2!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"2",n.length.toString(10)),v.createUnreachable();if(!(I=t[0]).is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(I.kind){case 0:me=c.BinaryOp.GeSVecI8x16;break;case 5:me=c.BinaryOp.GeUVecI8x16;break;case 1:me=c.BinaryOp.GeSVecI16x8;break;case 6:me=c.BinaryOp.GeUVecI16x8;break;case 2:me=c.BinaryOp.GeSVecI32x4;break;case 7:me=c.BinaryOp.GeUVecI32x4;break;case 11:me=c.BinaryOp.GeVecF32x4;break;case 12:me=c.BinaryOp.GeVecF64x2;break;case 4:case 9:if(!e.options.isWasm64){me=4==I.kind?c.BinaryOp.GeSVecI32x4:c.BinaryOp.GeUVecI32x4;break}default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),f=e.compileExpression(n[1],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createBinary(me,T,f);case i.v128_convert:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(1!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();var Ce=t[0];if(!Ce.is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(Ce.kind){case 2:me=c.UnaryOp.ConvertSVecI32x4ToVecF32x4;break;case 7:me=c.UnaryOp.ConvertUVecI32x4ToVecF32x4;break;case 3:me=c.UnaryOp.ConvertSVecI64x2ToVecF64x2;break;case 8:me=c.UnaryOp.ConvertUVecI64x2ToVecF64x2;break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createUnary(me,T);case i.v128_trunc:if(!e.options.hasFeature(8))break;if(e.currentType=o.Type.v128,!t||1!=t.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,h.range,"1",t?t.length.toString():"0"),v.createUnreachable();if(1!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),v.createUnreachable();var Ae=t[0];if(!Ae.is(128))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable();me=void 0;switch(Ae.kind){case 2:me=c.UnaryOp.TruncSatSVecF32x4ToVecI32x4;break;case 7:me=c.UnaryOp.TruncSatUVecF32x4ToVecI32x4;break;case 3:me=c.UnaryOp.TruncSatSVecF64x2ToVecI64x2;break;case 8:me=c.UnaryOp.TruncSatUVecF64x2ToVecI64x2;break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.range),v.createUnreachable()}return T=e.compileExpression(n[0],o.Type.v128,1,0),e.currentType=o.Type.v128,v.createUnary(me,T);case i.iterateRoots:if(t&&e.error(a.DiagnosticCode.Type_0_is_not_generic,h.range,r.internalName),1!=n.length)return e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,h.range,"1",n.length.toString(10)),e.currentType=o.Type.void,v.createUnreachable();var Ne=e.compileExpressionRetainType(n[0],o.Type.u32,0),Oe=(I=e.currentType).signatureReference;return e.currentType=o.Type.void,I.is(256)&&Oe&&1==Oe.parameterTypes.length&&Oe.parameterTypes[0]==e.options.usizeType?(e.currentType=o.Type.void,e.needsIterateRoots=!0,v.createCall("~iterateRoots",[Ne],c.NativeType.None)):(e.error(a.DiagnosticCode.Type_0_is_not_assignable_to_type_1,h.range,I.toString(),"(ref: usize) => void"),v.createUnreachable())}var ke=function(e,r,t,n){switch(r.internalName){case i.i32_clz:return d(i.clz,e,o.Type.i32,t,o.Type.i32,n);case i.i64_clz:return d(i.clz,e,o.Type.i64,t,o.Type.i64,n);case i.i32_ctz:return d(i.ctz,e,o.Type.i32,t,o.Type.i32,n);case i.i64_ctz:return d(i.ctz,e,o.Type.i64,t,o.Type.i64,n);case i.i32_popcnt:return d(i.popcnt,e,o.Type.i32,t,o.Type.i32,n);case i.i64_popcnt:return d(i.popcnt,e,o.Type.i64,t,o.Type.i64,n);case i.i32_rotl:return d(i.rotl,e,o.Type.i32,t,o.Type.i32,n);case i.i64_rotl:return d(i.rotl,e,o.Type.i64,t,o.Type.i64,n);case i.i32_rotr:return d(i.rotr,e,o.Type.i32,t,o.Type.i32,n);case i.i64_rotr:return d(i.rotr,e,o.Type.i64,t,o.Type.i64,n);case i.f32_abs:return d(i.abs,e,o.Type.f32,t,o.Type.f32,n);case i.f64_abs:return d(i.abs,e,o.Type.f64,t,o.Type.f64,n);case i.f32_max:return d(i.max,e,o.Type.f32,t,o.Type.f32,n);case i.f64_max:return d(i.max,e,o.Type.f64,t,o.Type.f64,n);case i.f32_min:return d(i.min,e,o.Type.f32,t,o.Type.f32,n);case i.f64_min:return d(i.min,e,o.Type.f64,t,o.Type.f64,n);case i.f32_ceil:return d(i.ceil,e,o.Type.f32,t,o.Type.f32,n);case i.f64_ceil:return d(i.ceil,e,o.Type.f64,t,o.Type.f64,n);case i.f32_floor:return d(i.floor,e,o.Type.f32,t,o.Type.f32,n);case i.f64_floor:return d(i.floor,e,o.Type.f64,t,o.Type.f64,n);case i.f32_copysign:return d(i.copysign,e,o.Type.f32,t,o.Type.f32,n);case i.f64_copysign:return d(i.copysign,e,o.Type.f64,t,o.Type.f64,n);case i.f32_nearest:return d(i.nearest,e,o.Type.f32,t,o.Type.f32,n);case i.f64_nearest:return d(i.nearest,e,o.Type.f64,t,o.Type.f64,n);case i.i32_reinterpret_f32:return d(i.reinterpret,e,o.Type.i32,t,o.Type.f32,n);case i.i64_reinterpret_f64:return d(i.reinterpret,e,o.Type.i64,t,o.Type.f64,n);case i.f32_reinterpret_i32:return d(i.reinterpret,e,o.Type.f32,t,o.Type.i32,n);case i.f64_reinterpret_i64:return d(i.reinterpret,e,o.Type.f64,t,o.Type.i64,n);case i.f32_sqrt:return d(i.sqrt,e,o.Type.f32,t,o.Type.f32,n);case i.f64_sqrt:return d(i.sqrt,e,o.Type.f64,t,o.Type.f64,n);case i.f32_trunc:return d(i.trunc,e,o.Type.f32,t,o.Type.f32,n);case i.f64_trunc:return d(i.trunc,e,o.Type.f64,t,o.Type.f64,n);case i.i32_load8_s:return d(i.load,e,o.Type.i8,t,o.Type.i32,n);case i.i32_load8_u:return d(i.load,e,o.Type.u8,t,o.Type.u32,n);case i.i32_load16_s:return d(i.load,e,o.Type.i16,t,o.Type.i32,n);case i.i32_load16_u:return d(i.load,e,o.Type.u16,t,o.Type.u32,n);case i.i32_load:return d(i.load,e,o.Type.i32,t,o.Type.i32,n);case i.i64_load8_s:return d(i.load,e,o.Type.i8,t,o.Type.i64,n);case i.i64_load8_u:return d(i.load,e,o.Type.u8,t,o.Type.u64,n);case i.i64_load16_s:return d(i.load,e,o.Type.i16,t,o.Type.i64,n);case i.i64_load16_u:return d(i.load,e,o.Type.u16,t,o.Type.u64,n);case i.i64_load32_s:return d(i.load,e,o.Type.i32,t,o.Type.i64,n);case i.i64_load32_u:return d(i.load,e,o.Type.u32,t,o.Type.u64,n);case i.i64_load:return d(i.load,e,o.Type.i64,t,o.Type.i64,n);case i.f32_load:return d(i.load,e,o.Type.f32,t,o.Type.f32,n);case i.f64_load:return d(i.load,e,o.Type.f64,t,o.Type.f64,n);case i.i32_store8:return d(i.store,e,o.Type.i8,t,o.Type.i32,n);case i.i32_store16:return d(i.store,e,o.Type.i16,t,o.Type.i32,n);case i.i32_store:return d(i.store,e,o.Type.i32,t,o.Type.i32,n);case i.i64_store8:return d(i.store,e,o.Type.i8,t,o.Type.i64,n);case i.i64_store16:return d(i.store,e,o.Type.i16,t,o.Type.i64,n);case i.i64_store32:return d(i.store,e,o.Type.i32,t,o.Type.i64,n);case i.i64_store:return d(i.store,e,o.Type.i64,t,o.Type.i64,n);case i.f32_store:return d(i.store,e,o.Type.f32,t,o.Type.f32,n);case i.f64_store:return d(i.store,e,o.Type.f64,t,o.Type.f64,n)}if(e.options.hasFeature(16))switch(r.internalName){case i.i32_atomic_load8_u:return d(i.atomic_load,e,o.Type.u8,t,o.Type.u32,n);case i.i32_atomic_load16_u:return d(i.atomic_load,e,o.Type.u16,t,o.Type.u32,n);case i.i32_atomic_load:return d(i.atomic_load,e,o.Type.i32,t,o.Type.i32,n);case i.i64_atomic_load8_u:return d(i.atomic_load,e,o.Type.u8,t,o.Type.u64,n);case i.i64_atomic_load16_u:return d(i.atomic_load,e,o.Type.u16,t,o.Type.u64,n);case i.i64_atomic_load32_u:return d(i.atomic_load,e,o.Type.u32,t,o.Type.u64,n);case i.i64_atomic_load:return d(i.atomic_load,e,o.Type.i64,t,o.Type.i64,n);case i.i32_atomic_store8:return d(i.atomic_store,e,o.Type.i8,t,o.Type.i32,n);case i.i32_atomic_store16:return d(i.atomic_store,e,o.Type.i16,t,o.Type.i32,n);case i.i32_atomic_store:return d(i.atomic_store,e,o.Type.i32,t,o.Type.i32,n);case i.i64_atomic_store8:return d(i.atomic_store,e,o.Type.i8,t,o.Type.i64,n);case i.i64_atomic_store16:return d(i.atomic_store,e,o.Type.i16,t,o.Type.i64,n);case i.i64_atomic_store32:return d(i.atomic_store,e,o.Type.i32,t,o.Type.i64,n);case i.i64_atomic_store:return d(i.atomic_store,e,o.Type.i64,t,o.Type.i64,n);case i.i32_atomic_rmw8_u_add:return d(i.atomic_add,e,o.Type.u8,t,o.Type.u32,n);case i.i32_atomic_rmw16_u_add:return d(i.atomic_add,e,o.Type.u16,t,o.Type.u32,n);case i.i32_atomic_rmw_add:return d(i.atomic_add,e,o.Type.u32,t,o.Type.u32,n);case i.i64_atomic_rmw8_u_add:return d(i.atomic_add,e,o.Type.u8,t,o.Type.u64,n);case i.i64_atomic_rmw16_u_add:return d(i.atomic_add,e,o.Type.u16,t,o.Type.u64,n);case i.i64_atomic_rmw32_u_add:return d(i.atomic_add,e,o.Type.u32,t,o.Type.u64,n);case i.i64_atomic_rmw_add:return d(i.atomic_add,e,o.Type.u64,t,o.Type.u64,n);case i.i32_atomic_rmw8_u_sub:return d(i.atomic_sub,e,o.Type.u8,t,o.Type.u32,n);case i.i32_atomic_rmw16_u_sub:return d(i.atomic_sub,e,o.Type.u16,t,o.Type.u32,n);case i.i32_atomic_rmw_sub:return d(i.atomic_sub,e,o.Type.u32,t,o.Type.u32,n);case i.i64_atomic_rmw8_u_sub:return d(i.atomic_sub,e,o.Type.u8,t,o.Type.u64,n);case i.i64_atomic_rmw16_u_sub:return d(i.atomic_sub,e,o.Type.u16,t,o.Type.u64,n);case i.i64_atomic_rmw32_u_sub:return d(i.atomic_sub,e,o.Type.u32,t,o.Type.u64,n);case i.i64_atomic_rmw_sub:return d(i.atomic_sub,e,o.Type.u64,t,o.Type.u64,n);case i.i32_atomic_rmw8_u_and:return d(i.atomic_and,e,o.Type.u8,t,o.Type.u32,n);case i.i32_atomic_rmw16_u_and:return d(i.atomic_and,e,o.Type.u16,t,o.Type.u32,n);case i.i32_atomic_rmw_and:return d(i.atomic_and,e,o.Type.u32,t,o.Type.u32,n);case i.i64_atomic_rmw8_u_and:return d(i.atomic_and,e,o.Type.u8,t,o.Type.u64,n);case i.i64_atomic_rmw16_u_and:return d(i.atomic_and,e,o.Type.u16,t,o.Type.u64,n);case i.i64_atomic_rmw32_u_and:return d(i.atomic_and,e,o.Type.u32,t,o.Type.u64,n);case i.i64_atomic_rmw_and:return d(i.atomic_and,e,o.Type.u64,t,o.Type.u64,n);case i.i32_atomic_rmw8_u_or:return d(i.atomic_or,e,o.Type.u8,t,o.Type.u32,n);case i.i32_atomic_rmw16_u_or:return d(i.atomic_or,e,o.Type.u16,t,o.Type.u32,n);case i.i32_atomic_rmw_or:return d(i.atomic_or,e,o.Type.u32,t,o.Type.u32,n);case i.i64_atomic_rmw8_u_or:return d(i.atomic_or,e,o.Type.u8,t,o.Type.u64,n);case i.i64_atomic_rmw16_u_or:return d(i.atomic_or,e,o.Type.u16,t,o.Type.u64,n);case i.i64_atomic_rmw32_u_or:return d(i.atomic_or,e,o.Type.u32,t,o.Type.u64,n);case i.i64_atomic_rmw_or:return d(i.atomic_or,e,o.Type.u64,t,o.Type.u64,n);case i.i32_atomic_rmw8_u_xor:case i.i32_atomic_rmw16_u_xor:case i.i32_atomic_rmw_xor:return d(i.atomic_xor,e,o.Type.u8,t,o.Type.u32,n);case i.i64_atomic_rmw8_u_xor:return d(i.atomic_xor,e,o.Type.u8,t,o.Type.u64,n);case i.i64_atomic_rmw16_u_xor:return d(i.atomic_xor,e,o.Type.u16,t,o.Type.u64,n);case i.i64_atomic_rmw32_u_xor:return d(i.atomic_xor,e,o.Type.u32,t,o.Type.u64,n);case i.i64_atomic_rmw_xor:return d(i.atomic_xor,e,o.Type.u64,t,o.Type.u64,n);case i.i32_atomic_rmw8_u_xchg:case i.i32_atomic_rmw16_u_xchg:case i.i32_atomic_rmw_xchg:return d(i.atomic_xchg,e,o.Type.u8,t,o.Type.u32,n);case i.i64_atomic_rmw8_u_xchg:return d(i.atomic_xchg,e,o.Type.u8,t,o.Type.u64,n);case i.i64_atomic_rmw16_u_xchg:return d(i.atomic_xchg,e,o.Type.u16,t,o.Type.u64,n);case i.i64_atomic_rmw32_u_xchg:return d(i.atomic_xchg,e,o.Type.u32,t,o.Type.u64,n);case i.i64_atomic_rmw_xchg:return d(i.atomic_xchg,e,o.Type.u64,t,o.Type.u64,n);case i.i32_atomic_rmw8_u_cmpxchg:case i.i32_atomic_rmw16_u_cmpxchg:case i.i32_atomic_rmw_cmpxchg:return d(i.atomic_cmpxchg,e,o.Type.u8,t,o.Type.u32,n);case i.i64_atomic_rmw8_u_cmpxchg:return d(i.atomic_cmpxchg,e,o.Type.u8,t,o.Type.u64,n);case i.i64_atomic_rmw16_u_cmpxchg:return d(i.atomic_cmpxchg,e,o.Type.u16,t,o.Type.u64,n);case i.i64_atomic_rmw32_u_cmpxchg:return d(i.atomic_cmpxchg,e,o.Type.u32,t,o.Type.u64,n);case i.i64_atomic_rmw_cmpxchg:return d(i.atomic_cmpxchg,e,o.Type.u64,t,o.Type.u64,n);case i.i32_wait:return d(i.atomic_wait,e,o.Type.i32,t,o.Type.u32,n);case i.i64_wait:return d(i.atomic_wait,e,o.Type.i64,t,o.Type.i64,n);case i.i32_notify:return d(i.atomic_notify,e,o.Type.i32,t,o.Type.u32,n);case i.i64_notify:return d(i.atomic_notify,e,o.Type.i64,t,o.Type.i64,n)}if(e.options.hasFeature(8))switch(r.internalName){case i.v128_load:return d(i.load,e,o.Type.v128,t,o.Type.v128,n);case i.v128_store:return d(i.store,e,o.Type.v128,t,o.Type.void,n);case i.i8x16_splat:return d(i.v128_splat,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_extract_lane_s:return d(i.v128_extract_lane,e,o.Type.i8,t,o.Type.i8,n);case i.i8x16_extract_lane_u:return d(i.v128_extract_lane,e,o.Type.u8,t,o.Type.u8,n);case i.i8x16_replace_lane:return d(i.v128_replace_lane,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_add:return d(i.v128_add,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_sub:return d(i.v128_sub,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_mul:return d(i.v128_mul,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_neg:return d(i.v128_neg,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_add_saturate_s:return d(i.v128_add_saturate,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_add_saturate_u:return d(i.v128_add_saturate,e,o.Type.u8,t,o.Type.v128,n);case i.i8x16_sub_saturate_s:return d(i.v128_sub_saturate,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_sub_saturate_u:return d(i.v128_sub_saturate,e,o.Type.u8,t,o.Type.v128,n);case i.i8x16_shl:return d(i.v128_shl,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_shr_s:return d(i.v128_shr,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_shr_u:return d(i.v128_shr,e,o.Type.u8,t,o.Type.v128,n);case i.i8x16_any_true:return d(i.v128_any_true,e,o.Type.i8,t,o.Type.i32,n);case i.i8x16_all_true:return d(i.v128_all_true,e,o.Type.i8,t,o.Type.i32,n);case i.i8x16_eq:return d(i.v128_eq,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_ne:return d(i.v128_ne,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_lt_s:return d(i.v128_lt,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_lt_u:return d(i.v128_lt,e,o.Type.u8,t,o.Type.v128,n);case i.i8x16_le_s:return d(i.v128_le,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_le_u:return d(i.v128_le,e,o.Type.u8,t,o.Type.v128,n);case i.i8x16_gt_s:return d(i.v128_gt,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_gt_u:return d(i.v128_gt,e,o.Type.u8,t,o.Type.v128,n);case i.i8x16_ge_s:return d(i.v128_ge,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_ge_u:return d(i.v128_ge,e,o.Type.u8,t,o.Type.v128,n);case i.i16x8_splat:return d(i.v128_splat,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_extract_lane_s:return d(i.v128_extract_lane,e,o.Type.i16,t,o.Type.i16,n);case i.i16x8_extract_lane_u:return d(i.v128_extract_lane,e,o.Type.u16,t,o.Type.u16,n);case i.i16x8_replace_lane:return d(i.v128_replace_lane,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_add:return d(i.v128_add,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_sub:return d(i.v128_sub,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_mul:return d(i.v128_mul,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_neg:return d(i.v128_neg,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_add_saturate_s:return d(i.v128_add_saturate,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_add_saturate_u:return d(i.v128_add_saturate,e,o.Type.u16,t,o.Type.v128,n);case i.i16x8_sub_saturate_s:return d(i.v128_sub_saturate,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_sub_saturate_u:return d(i.v128_sub_saturate,e,o.Type.u16,t,o.Type.v128,n);case i.i16x8_shl:return d(i.v128_shl,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_shr_s:return d(i.v128_shr,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_shr_u:return d(i.v128_shr,e,o.Type.u16,t,o.Type.v128,n);case i.i16x8_any_true:return d(i.v128_any_true,e,o.Type.i16,t,o.Type.i32,n);case i.i16x8_all_true:return d(i.v128_all_true,e,o.Type.i16,t,o.Type.i32,n);case i.i16x8_eq:return d(i.v128_eq,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_ne:return d(i.v128_ne,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_lt_s:return d(i.v128_lt,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_lt_u:return d(i.v128_lt,e,o.Type.u16,t,o.Type.v128,n);case i.i16x8_le_s:return d(i.v128_le,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_le_u:return d(i.v128_le,e,o.Type.u16,t,o.Type.v128,n);case i.i16x8_gt_s:return d(i.v128_gt,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_gt_u:return d(i.v128_gt,e,o.Type.u16,t,o.Type.v128,n);case i.i16x8_ge_s:return d(i.v128_ge,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_ge_u:return d(i.v128_ge,e,o.Type.u16,t,o.Type.v128,n);case i.i32x4_splat:return d(i.v128_splat,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_extract_lane:return d(i.v128_extract_lane,e,o.Type.i32,t,o.Type.i32,n);case i.i32x4_replace_lane:return d(i.v128_replace_lane,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_add:return d(i.v128_add,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_sub:return d(i.v128_sub,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_mul:return d(i.v128_mul,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_neg:return d(i.v128_neg,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_shl:return d(i.v128_shl,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_shr_s:return d(i.v128_shr,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_shr_u:return d(i.v128_shr,e,o.Type.u32,t,o.Type.v128,n);case i.i32x4_any_true:return d(i.v128_any_true,e,o.Type.i32,t,o.Type.i32,n);case i.i32x4_all_true:return d(i.v128_all_true,e,o.Type.i32,t,o.Type.i32,n);case i.i32x4_eq:return d(i.v128_eq,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_ne:return d(i.v128_ne,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_lt_s:return d(i.v128_lt,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_lt_u:return d(i.v128_lt,e,o.Type.u32,t,o.Type.v128,n);case i.i32x4_le_s:return d(i.v128_le,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_le_u:return d(i.v128_le,e,o.Type.u32,t,o.Type.v128,n);case i.i32x4_gt_s:return d(i.v128_gt,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_gt_u:return d(i.v128_gt,e,o.Type.u32,t,o.Type.v128,n);case i.i32x4_ge_s:return d(i.v128_ge,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_ge_u:return d(i.v128_ge,e,o.Type.u32,t,o.Type.v128,n);case i.i32x4_trunc_s_f32x4_sat:return d(i.v128_trunc,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_trunc_u_f32x4_sat:return d(i.v128_trunc,e,o.Type.u32,t,o.Type.v128,n);case i.i64x2_splat:return d(i.v128_splat,e,o.Type.i64,t,o.Type.v128,n);case i.i64x2_extract_lane:return d(i.v128_extract_lane,e,o.Type.i64,t,o.Type.i64,n);case i.i64x2_replace_lane:return d(i.v128_replace_lane,e,o.Type.i64,t,o.Type.v128,n);case i.i64x2_add:return d(i.v128_add,e,o.Type.i64,t,o.Type.v128,n);case i.i64x2_sub:return d(i.v128_sub,e,o.Type.i64,t,o.Type.v128,n);case i.i64x2_neg:return d(i.v128_neg,e,o.Type.i64,t,o.Type.v128,n);case i.i64x2_shl:return d(i.v128_shl,e,o.Type.i64,t,o.Type.v128,n);case i.i64x2_shr_s:return d(i.v128_shr,e,o.Type.i64,t,o.Type.v128,n);case i.i64x2_shr_u:return d(i.v128_shr,e,o.Type.u64,t,o.Type.v128,n);case i.i64x2_any_true:return d(i.v128_any_true,e,o.Type.i64,t,o.Type.i32,n);case i.i64x2_all_true:return d(i.v128_all_true,e,o.Type.i64,t,o.Type.i32,n);case i.i64x2_trunc_s_f64x2_sat:return d(i.v128_trunc,e,o.Type.i64,t,o.Type.v128,n);case i.i64x2_trunc_u_f64x2_sat:return d(i.v128_trunc,e,o.Type.u64,t,o.Type.v128,n);case i.f32x4_splat:return d(i.v128_splat,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_extract_lane:return d(i.v128_extract_lane,e,o.Type.f32,t,o.Type.f32,n);case i.f32x4_replace_lane:return d(i.v128_replace_lane,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_add:return d(i.v128_add,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_sub:return d(i.v128_sub,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_mul:return d(i.v128_mul,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_div:return d(i.v128_div,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_neg:return d(i.v128_neg,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_min:return d(i.v128_min,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_max:return d(i.v128_max,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_abs:return d(i.v128_abs,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_sqrt:return d(i.v128_sqrt,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_eq:return d(i.v128_eq,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_ne:return d(i.v128_ne,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_lt:return d(i.v128_lt,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_le:return d(i.v128_le,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_gt:return d(i.v128_gt,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_ge:return d(i.v128_ge,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_convert_s_i32x4:return d(i.v128_convert,e,o.Type.i32,t,o.Type.v128,n);case i.f32x4_convert_u_i32x4:return d(i.v128_convert,e,o.Type.u32,t,o.Type.v128,n);case i.f64x2_splat:return d(i.v128_splat,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_extract_lane:return d(i.v128_extract_lane,e,o.Type.f64,t,o.Type.f64,n);case i.f64x2_replace_lane:return d(i.v128_replace_lane,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_add:return d(i.v128_add,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_sub:return d(i.v128_sub,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_mul:return d(i.v128_mul,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_div:return d(i.v128_div,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_neg:return d(i.v128_neg,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_min:return d(i.v128_min,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_max:return d(i.v128_max,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_abs:return d(i.v128_abs,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_sqrt:return d(i.v128_sqrt,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_eq:return d(i.v128_eq,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_ne:return d(i.v128_ne,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_lt:return d(i.v128_lt,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_le:return d(i.v128_le,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_gt:return d(i.v128_gt,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_ge:return d(i.v128_ge,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_convert_s_i64x2:return d(i.v128_convert,e,o.Type.i64,t,o.Type.v128,n);case i.f64x2_convert_u_i64x2:return d(i.v128_convert,e,o.Type.u64,t,o.Type.v128,n);case i.v8x16_shuffle:return d(i.v128_shuffle,e,o.Type.i8,t,o.Type.v128,n)}return 0}(e,r,n,h);return ke?(t&&e.error(a.DiagnosticCode.Type_0_is_not_generic,h.range,r.internalName),ke):(e.error(a.DiagnosticCode.Cannot_find_name_0,h.expression.range,r.internalName),v.createUnreachable())}function d(e,r,t,n,i,a){assert(r.program.elementsByName.has(e));var s=r.program.elementsByName.get(e);return assert(s.kind==l.ElementKind.FUNCTION_PROTOTYPE),h(r,s,[t],n,i,a)}function y(e,r,t,n){if(0==t.length)return r&&1==r.length?r[0]:(e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,n.range,"1",r?r.length.toString(10):"0"),null);if(1==t.length){if(r)if(1==r.length)e.compileExpression(t[0],r[0],1,0);else{if(r.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,n.range,"1",r.length.toString(10)),null;e.compileExpressionRetainType(t[0],o.Type.i32,0)}else e.compileExpressionRetainType(t[0],o.Type.i32,0);return e.currentType}return r&&r.length>1&&e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,n.range,"1",r.length.toString(10)),e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,n.range,"1",t.length.toString(10)),null}function g(e,r){var t,n;return e.options.isWasm64?(t=e.precomputeExpression(r,o.Type.usize64,1,0),(c.getExpressionId(t)!=c.ExpressionId.Const||c.getExpressionType(t)!=c.NativeType.I64||0!=c.getConstValueI64High(t)||(n=c.getConstValueI64Low(t))<0)&&(e.error(a.DiagnosticCode.Expression_must_be_a_compile_time_constant,r.range),n=-1)):(t=e.precomputeExpression(r,o.Type.usize32,1,0),(c.getExpressionId(t)!=c.ExpressionId.Const||c.getExpressionType(t)!=c.NativeType.I32||(n=c.getConstValueI32(t))<0)&&(e.error(a.DiagnosticCode.Expression_must_be_a_compile_time_constant,r.range),n=-1)),n}function m(e,r,t){var n=e.program,i=e.module,a=e.program.stringInstance;if(!a)return i.createUnreachable();var s=n.abortInstance;if(!s||!e.compileFunction(s))return i.createUnreachable();var l=null!=r?e.compileExpression(r,a.type,1,0):a.type.toNativeZero(i),p=e.ensureStaticString(t.range.source.normalizedPath);return e.currentType=o.Type.void,i.createBlock(null,[i.createCall(s.internalName,[l,p,i.createI32(t.range.line),i.createI32(t.range.column)],c.NativeType.None),i.createUnreachable()])}!function(e){e.isInteger="~lib/builtins/isInteger",e.isFloat="~lib/builtins/isFloat",e.isSigned="~lib/builtins/isSigned",e.isReference="~lib/builtins/isReference",e.isString="~lib/builtins/isString",e.isArray="~lib/builtins/isArray",e.isArrayLike="~lib/builtins/isArrayLike",e.isFunction="~lib/builtins/isFunction",e.isNullable="~lib/builtins/isNullable",e.isDefined="~lib/builtins/isDefined",e.isConstant="~lib/builtins/isConstant",e.isManaged="~lib/builtins/isManaged",e.clz="~lib/builtins/clz",e.ctz="~lib/builtins/ctz",e.popcnt="~lib/builtins/popcnt",e.rotl="~lib/builtins/rotl",e.rotr="~lib/builtins/rotr",e.abs="~lib/builtins/abs",e.max="~lib/builtins/max",e.min="~lib/builtins/min",e.ceil="~lib/builtins/ceil",e.floor="~lib/builtins/floor",e.copysign="~lib/builtins/copysign",e.nearest="~lib/builtins/nearest",e.reinterpret="~lib/builtins/reinterpret",e.sqrt="~lib/builtins/sqrt",e.trunc="~lib/builtins/trunc",e.load="~lib/builtins/load",e.store="~lib/builtins/store",e.atomic_load="~lib/builtins/atomic.load",e.atomic_store="~lib/builtins/atomic.store",e.atomic_add="~lib/builtins/atomic.add",e.atomic_sub="~lib/builtins/atomic.sub",e.atomic_and="~lib/builtins/atomic.and",e.atomic_or="~lib/builtins/atomic.or",e.atomic_xor="~lib/builtins/atomic.xor",e.atomic_xchg="~lib/builtins/atomic.xchg",e.atomic_cmpxchg="~lib/builtins/atomic.cmpxchg",e.atomic_wait="~lib/builtins/atomic.wait",e.atomic_notify="~lib/builtins/atomic.notify",e.sizeof="~lib/builtins/sizeof",e.alignof="~lib/builtins/alignof",e.offsetof="~lib/builtins/offsetof",e.select="~lib/builtins/select",e.unreachable="~lib/builtins/unreachable",e.changetype="~lib/builtins/changetype",e.assert="~lib/builtins/assert",e.unchecked="~lib/builtins/unchecked",e.call_indirect="~lib/builtins/call_indirect",e.instantiate="~lib/builtins/instantiate",e.i8="~lib/builtins/i8",e.i16="~lib/builtins/i16",e.i32="~lib/builtins/i32",e.i64="~lib/builtins/i64",e.isize="~lib/builtins/isize",e.u8="~lib/builtins/u8",e.u16="~lib/builtins/u16",e.u32="~lib/builtins/u32",e.u64="~lib/builtins/u64",e.usize="~lib/builtins/usize",e.bool="~lib/builtins/bool",e.f32="~lib/builtins/f32",e.f64="~lib/builtins/f64",e.v128="~lib/builtins/v128",e.void_="~lib/builtins/void",e.i32_clz="~lib/builtins/i32.clz",e.i64_clz="~lib/builtins/i64.clz",e.i32_ctz="~lib/builtins/i32.ctz",e.i64_ctz="~lib/builtins/i64.ctz",e.i32_popcnt="~lib/builtins/i32.popcnt",e.i64_popcnt="~lib/builtins/i64.popcnt",e.i32_rotl="~lib/builtins/i32.rotl",e.i64_rotl="~lib/builtins/i64.rotl",e.i32_rotr="~lib/builtins/i32.rotr",e.i64_rotr="~lib/builtins/i64.rotr",e.f32_abs="~lib/builtins/f32.abs",e.f64_abs="~lib/builtins/f64.abs",e.f32_max="~lib/builtins/f32.max",e.f64_max="~lib/builtins/f64.max",e.f32_min="~lib/builtins/f32.min",e.f64_min="~lib/builtins/f64.min",e.f32_ceil="~lib/builtins/f32.ceil",e.f64_ceil="~lib/builtins/f64.ceil",e.f32_floor="~lib/builtins/f32.floor",e.f64_floor="~lib/builtins/f64.floor",e.f32_copysign="~lib/builtins/f32.copysign",e.f64_copysign="~lib/builtins/f64.copysign",e.f32_nearest="~lib/builtins/f32.nearest",e.f64_nearest="~lib/builtins/f64.nearest",e.i32_reinterpret_f32="~lib/builtins/i32.reinterpret_f32",e.i64_reinterpret_f64="~lib/builtins/i64.reinterpret_f64",e.f32_reinterpret_i32="~lib/builtins/f32.reinterpret_i32",e.f64_reinterpret_i64="~lib/builtins/f64.reinterpret_i64",e.f32_sqrt="~lib/builtins/f32.sqrt",e.f64_sqrt="~lib/builtins/f64.sqrt",e.f32_trunc="~lib/builtins/f32.trunc",e.f64_trunc="~lib/builtins/f64.trunc",e.i32_load8_s="~lib/builtins/i32.load8_s",e.i32_load8_u="~lib/builtins/i32.load8_u",e.i32_load16_s="~lib/builtins/i32.load16_s",e.i32_load16_u="~lib/builtins/i32.load16_u",e.i32_load="~lib/builtins/i32.load",e.i64_load8_s="~lib/builtins/i64.load8_s",e.i64_load8_u="~lib/builtins/i64.load8_u",e.i64_load16_s="~lib/builtins/i64.load16_s",e.i64_load16_u="~lib/builtins/i64.load16_u",e.i64_load32_s="~lib/builtins/i64.load32_s",e.i64_load32_u="~lib/builtins/i64.load32_u",e.i64_load="~lib/builtins/i64.load",e.f32_load="~lib/builtins/f32.load",e.f64_load="~lib/builtins/f64.load",e.i32_store8="~lib/builtins/i32.store8",e.i32_store16="~lib/builtins/i32.store16",e.i32_store="~lib/builtins/i32.store",e.i64_store8="~lib/builtins/i64.store8",e.i64_store16="~lib/builtins/i64.store16",e.i64_store32="~lib/builtins/i64.store32",e.i64_store="~lib/builtins/i64.store",e.f32_store="~lib/builtins/f32.store",e.f64_store="~lib/builtins/f64.store",e.i32_atomic_load8_u="~lib/builtins/i32.atomic.load8_u",e.i32_atomic_load16_u="~lib/builtins/i32.atomic.load16_u",e.i32_atomic_load="~lib/builtins/i32.atomic.load",e.i64_atomic_load8_u="~lib/builtins/i64.atomic.load8_u",e.i64_atomic_load16_u="~lib/builtins/i64.atomic.load16_u",e.i64_atomic_load32_u="~lib/builtins/i64.atomic.load32_u",e.i64_atomic_load="~lib/builtins/i64.atomic.load",e.i32_atomic_store8="~lib/builtins/i32.atomic.store8",e.i32_atomic_store16="~lib/builtins/i32.atomic.store16",e.i32_atomic_store="~lib/builtins/i32.atomic.store",e.i64_atomic_store8="~lib/builtins/i64.atomic.store8",e.i64_atomic_store16="~lib/builtins/i64.atomic.store16",e.i64_atomic_store32="~lib/builtins/i64.atomic.store32",e.i64_atomic_store="~lib/builtins/i64.atomic.store",e.i32_atomic_rmw8_u_add="~lib/builtins/i32.atomic.rmw8_u.add",e.i32_atomic_rmw16_u_add="~lib/builtins/i32.atomic.rmw16_u.add",e.i32_atomic_rmw_add="~lib/builtins/i32.atomic.rmw.add",e.i64_atomic_rmw8_u_add="~lib/builtins/i64.atomic.rmw8_u.add",e.i64_atomic_rmw16_u_add="~lib/builtins/i64.atomic.rmw16_u.add",e.i64_atomic_rmw32_u_add="~lib/builtins/i64.atomic.rmw32_u.add",e.i64_atomic_rmw_add="~lib/builtins/i64.atomic.rmw.add",e.i32_atomic_rmw8_u_sub="~lib/builtins/i32.atomic.rmw8_u.sub",e.i32_atomic_rmw16_u_sub="~lib/builtins/i32.atomic.rmw16_u.sub",e.i32_atomic_rmw_sub="~lib/builtins/i32.atomic.rmw.sub",e.i64_atomic_rmw8_u_sub="~lib/builtins/i64.atomic.rmw8_u.sub",e.i64_atomic_rmw16_u_sub="~lib/builtins/i64.atomic.rmw16_u.sub",e.i64_atomic_rmw32_u_sub="~lib/builtins/i64.atomic.rmw32_u.sub",e.i64_atomic_rmw_sub="~lib/builtins/i64.atomic.rmw.sub",e.i32_atomic_rmw8_u_and="~lib/builtins/i32.atomic.rmw8_u.and",e.i32_atomic_rmw16_u_and="~lib/builtins/i32.atomic.rmw16_u.and",e.i32_atomic_rmw_and="~lib/builtins/i32.atomic.rmw.and",e.i64_atomic_rmw8_u_and="~lib/builtins/i64.atomic.rmw8_u.and",e.i64_atomic_rmw16_u_and="~lib/builtins/i64.atomic.rmw16_u.and",e.i64_atomic_rmw32_u_and="~lib/builtins/i64.atomic.rmw32_u.and",e.i64_atomic_rmw_and="~lib/builtins/i64.atomic.rmw.and",e.i32_atomic_rmw8_u_or="~lib/builtins/i32.atomic.rmw8_u.or",e.i32_atomic_rmw16_u_or="~lib/builtins/i32.atomic.rmw16_u.or",e.i32_atomic_rmw_or="~lib/builtins/i32.atomic.rmw.or",e.i64_atomic_rmw8_u_or="~lib/builtins/i64.atomic.rmw8_u.or",e.i64_atomic_rmw16_u_or="~lib/builtins/i64.atomic.rmw16_u.or",e.i64_atomic_rmw32_u_or="~lib/builtins/i64.atomic.rmw32_u.or",e.i64_atomic_rmw_or="~lib/builtins/i64.atomic.rmw.or",e.i32_atomic_rmw8_u_xor="~lib/builtins/i32.atomic.rmw8_u.xor",e.i32_atomic_rmw16_u_xor="~lib/builtins/i32.atomic.rmw16_u.xor",e.i32_atomic_rmw_xor="~lib/builtins/i32.atomic.rmw.xor",e.i64_atomic_rmw8_u_xor="~lib/builtins/i64.atomic.rmw8_u.xor",e.i64_atomic_rmw16_u_xor="~lib/builtins/i64.atomic.rmw16_u.xor",e.i64_atomic_rmw32_u_xor="~lib/builtins/i64.atomic.rmw32_u.xor",e.i64_atomic_rmw_xor="~lib/builtins/i64.atomic.rmw.xor",e.i32_atomic_rmw8_u_xchg="~lib/builtins/i32.atomic.rmw8_u.xchg",e.i32_atomic_rmw16_u_xchg="~lib/builtins/i32.atomic.rmw16_u.xchg",e.i32_atomic_rmw_xchg="~lib/builtins/i32.atomic.rmw.xchg",e.i64_atomic_rmw8_u_xchg="~lib/builtins/i64.atomic.rmw8_u.xchg",e.i64_atomic_rmw16_u_xchg="~lib/builtins/i64.atomic.rmw16_u.xchg",e.i64_atomic_rmw32_u_xchg="~lib/builtins/i64.atomic.rmw32_u.xchg",e.i64_atomic_rmw_xchg="~lib/builtins/i64.atomic.rmw.xchg",e.i32_atomic_rmw8_u_cmpxchg="~lib/builtins/i32.atomic.rmw8_u.cmpxchg",e.i32_atomic_rmw16_u_cmpxchg="~lib/builtins/i32.atomic.rmw16_u.cmpxchg",e.i32_atomic_rmw_cmpxchg="~lib/builtins/i32.atomic.rmw.cmpxchg",e.i64_atomic_rmw8_u_cmpxchg="~lib/builtins/i64.atomic.rmw8_u.cmpxchg",e.i64_atomic_rmw16_u_cmpxchg="~lib/builtins/i64.atomic.rmw16_u.cmpxchg",e.i64_atomic_rmw32_u_cmpxchg="~lib/builtins/i64.atomic.rmw32_u.cmpxchg",e.i64_atomic_rmw_cmpxchg="~lib/builtins/i64.atomic.rmw.cmpxchg",e.i32_wait="~lib/builtins/i32.wait",e.i64_wait="~lib/builtins/i64.wait",e.i32_notify="~lib/builtins/i32.notify",e.i64_notify="~lib/builtins/i64.notify",e.v128_splat="~lib/builtins/v128.splat",e.v128_extract_lane="~lib/builtins/v128.extract_lane",e.v128_replace_lane="~lib/builtins/v128.replace_lane",e.v128_shuffle="~lib/builtins/v128.shuffle",e.v128_load="~lib/builtins/v128.load",e.v128_store="~lib/builtins/v128.store",e.v128_add="~lib/builtins/v128.add",e.v128_sub="~lib/builtins/v128.sub",e.v128_mul="~lib/builtins/v128.mul",e.v128_div="~lib/builtins/v128.div",e.v128_neg="~lib/builtins/v128.neg",e.v128_add_saturate="~lib/builtins/v128.add_saturate",e.v128_sub_saturate="~lib/builtins/v128.sub_saturate",e.v128_shl="~lib/builtins/v128.shl",e.v128_shr="~lib/builtins/v128.shr",e.v128_and="~lib/builtins/v128.and",e.v128_or="~lib/builtins/v128.or",e.v128_xor="~lib/builtins/v128.xor",e.v128_not="~lib/builtins/v128.not",e.v128_bitselect="~lib/builtins/v128.bitselect",e.v128_any_true="~lib/builtins/v128.any_true",e.v128_all_true="~lib/builtins/v128.all_true",e.v128_min="~lib/builtins/v128.min",e.v128_max="~lib/builtins/v128.max",e.v128_abs="~lib/builtins/v128.abs",e.v128_sqrt="~lib/builtins/v128.sqrt",e.v128_eq="~lib/builtins/v128.eq",e.v128_ne="~lib/builtins/v128.ne",e.v128_lt="~lib/builtins/v128.lt",e.v128_le="~lib/builtins/v128.le",e.v128_gt="~lib/builtins/v128.gt",e.v128_ge="~lib/builtins/v128.ge",e.v128_convert="~lib/builtins/v128.convert",e.v128_trunc="~lib/builtins/v128.trunc",e.i8x16="~lib/builtins/i8x16",e.i16x8="~lib/builtins/i16x8",e.i32x4="~lib/builtins/i32x4",e.i64x2="~lib/builtins/i64x2",e.f32x4="~lib/builtins/f32x4",e.f64x2="~lib/builtins/f64x2",e.i8x16_splat="~lib/builtins/i8x16.splat",e.i8x16_extract_lane_s="~lib/builtins/i8x16.extract_lane_s",e.i8x16_extract_lane_u="~lib/builtins/i8x16.extract_lane_u",e.i8x16_replace_lane="~lib/builtins/i8x16.replace_lane",e.i8x16_add="~lib/builtins/i8x16.add",e.i8x16_sub="~lib/builtins/i8x16.sub",e.i8x16_mul="~lib/builtins/i8x16.mul",e.i8x16_neg="~lib/builtins/i8x16.neg",e.i8x16_add_saturate_s="~lib/builtins/i8x16.add_saturate_s",e.i8x16_add_saturate_u="~lib/builtins/i8x16.add_saturate_u",e.i8x16_sub_saturate_s="~lib/builtins/i8x16.sub_saturate_s",e.i8x16_sub_saturate_u="~lib/builtins/i8x16.sub_saturate_u",e.i8x16_shl="~lib/builtins/i8x16.shl",e.i8x16_shr_s="~lib/builtins/i8x16.shr_s",e.i8x16_shr_u="~lib/builtins/i8x16.shr_u",e.i8x16_any_true="~lib/builtins/i8x16.any_true",e.i8x16_all_true="~lib/builtins/i8x16.all_true",e.i8x16_eq="~lib/builtins/i8x16.eq",e.i8x16_ne="~lib/builtins/i8x16.ne",e.i8x16_lt_s="~lib/builtins/i8x16.lt_s",e.i8x16_lt_u="~lib/builtins/i8x16.lt_u",e.i8x16_le_s="~lib/builtins/i8x16.le_s",e.i8x16_le_u="~lib/builtins/i8x16.le_u",e.i8x16_gt_s="~lib/builtins/i8x16.gt_s",e.i8x16_gt_u="~lib/builtins/i8x16.gt_u",e.i8x16_ge_s="~lib/builtins/i8x16.ge_s",e.i8x16_ge_u="~lib/builtins/i8x16.ge_u",e.i16x8_splat="~lib/builtins/i16x8.splat",e.i16x8_extract_lane_s="~lib/builtins/i16x8.extract_lane_s",e.i16x8_extract_lane_u="~lib/builtins/i16x8.extract_lane_u",e.i16x8_replace_lane="~lib/builtins/i16x8.replace_lane",e.i16x8_add="~lib/builtins/i16x8.add",e.i16x8_sub="~lib/builtins/i16x8.sub",e.i16x8_mul="~lib/builtins/i16x8.mul",e.i16x8_neg="~lib/builtins/i16x8.neg",e.i16x8_add_saturate_s="~lib/builtins/i16x8.add_saturate_s",e.i16x8_add_saturate_u="~lib/builtins/i16x8.add_saturate_u",e.i16x8_sub_saturate_s="~lib/builtins/i16x8.sub_saturate_s",e.i16x8_sub_saturate_u="~lib/builtins/i16x8.sub_saturate_u",e.i16x8_shl="~lib/builtins/i16x8.shl",e.i16x8_shr_s="~lib/builtins/i16x8.shr_s",e.i16x8_shr_u="~lib/builtins/i16x8.shr_u",e.i16x8_any_true="~lib/builtins/i16x8.any_true",e.i16x8_all_true="~lib/builtins/i16x8.all_true",e.i16x8_eq="~lib/builtins/i16x8.eq",e.i16x8_ne="~lib/builtins/i16x8.ne",e.i16x8_lt_s="~lib/builtins/i16x8.lt_s",e.i16x8_lt_u="~lib/builtins/i16x8.lt_u",e.i16x8_le_s="~lib/builtins/i16x8.le_s",e.i16x8_le_u="~lib/builtins/i16x8.le_u",e.i16x8_gt_s="~lib/builtins/i16x8.gt_s",e.i16x8_gt_u="~lib/builtins/i16x8.gt_u",e.i16x8_ge_s="~lib/builtins/i16x8.ge_s",e.i16x8_ge_u="~lib/builtins/i16x8.ge_u",e.i32x4_splat="~lib/builtins/i32x4.splat",e.i32x4_extract_lane="~lib/builtins/i32x4.extract_lane",e.i32x4_replace_lane="~lib/builtins/i32x4.replace_lane",e.i32x4_add="~lib/builtins/i32x4.add",e.i32x4_sub="~lib/builtins/i32x4.sub",e.i32x4_mul="~lib/builtins/i32x4.mul",e.i32x4_neg="~lib/builtins/i32x4.neg",e.i32x4_shl="~lib/builtins/i32x4.shl",e.i32x4_shr_s="~lib/builtins/i32x4.shr_s",e.i32x4_shr_u="~lib/builtins/i32x4.shr_u",e.i32x4_any_true="~lib/builtins/i32x4.any_true",e.i32x4_all_true="~lib/builtins/i32x4.all_true",e.i32x4_eq="~lib/builtins/i32x4.eq",e.i32x4_ne="~lib/builtins/i32x4.ne",e.i32x4_lt_s="~lib/builtins/i32x4.lt_s",e.i32x4_lt_u="~lib/builtins/i32x4.lt_u",e.i32x4_le_s="~lib/builtins/i32x4.le_s",e.i32x4_le_u="~lib/builtins/i32x4.le_u",e.i32x4_gt_s="~lib/builtins/i32x4.gt_s",e.i32x4_gt_u="~lib/builtins/i32x4.gt_u",e.i32x4_ge_s="~lib/builtins/i32x4.ge_s",e.i32x4_ge_u="~lib/builtins/i32x4.ge_u",e.i32x4_trunc_s_f32x4_sat="~lib/builtins/i32x4.trunc_s_f32x4_sat",e.i32x4_trunc_u_f32x4_sat="~lib/builtins/i32x4.trunc_u_f32x4_sat",e.i64x2_splat="~lib/builtins/i64x2.splat",e.i64x2_extract_lane="~lib/builtins/i64x2.extract_lane",e.i64x2_replace_lane="~lib/builtins/i64x2.replace_lane",e.i64x2_add="~lib/builtins/i64x2.add",e.i64x2_sub="~lib/builtins/i64x2.sub",e.i64x2_neg="~lib/builtins/i64x2.neg",e.i64x2_shl="~lib/builtins/i64x2.shl",e.i64x2_shr_s="~lib/builtins/i64x2.shr_s",e.i64x2_shr_u="~lib/builtins/i64x2.shr_u",e.i64x2_any_true="~lib/builtins/i64x2.any_true",e.i64x2_all_true="~lib/builtins/i64x2.all_true",e.i64x2_trunc_s_f64x2_sat="~lib/builtins/i64x2.trunc_s_f64x2_sat",e.i64x2_trunc_u_f64x2_sat="~lib/builtins/i64x2.trunc_u_f64x2_sat",e.f32x4_splat="~lib/builtins/f32x4.splat",e.f32x4_extract_lane="~lib/builtins/f32x4.extract_lane",e.f32x4_replace_lane="~lib/builtins/f32x4.replace_lane",e.f32x4_add="~lib/builtins/f32x4.add",e.f32x4_sub="~lib/builtins/f32x4.sub",e.f32x4_mul="~lib/builtins/f32x4.mul",e.f32x4_div="~lib/builtins/f32x4.div",e.f32x4_neg="~lib/builtins/f32x4.neg",e.f32x4_min="~lib/builtins/f32x4.min",e.f32x4_max="~lib/builtins/f32x4.max",e.f32x4_abs="~lib/builtins/f32x4.abs",e.f32x4_sqrt="~lib/builtins/f32x4.sqrt",e.f32x4_eq="~lib/builtins/f32x4.eq",e.f32x4_ne="~lib/builtins/f32x4.ne",e.f32x4_lt="~lib/builtins/f32x4.lt",e.f32x4_le="~lib/builtins/f32x4.le",e.f32x4_gt="~lib/builtins/f32x4.gt",e.f32x4_ge="~lib/builtins/f32x4.ge",e.f32x4_convert_s_i32x4="~lib/builtins/f32x4.convert_s_i32x4",e.f32x4_convert_u_i32x4="~lib/builtins/f32x4.convert_u_i32x4",e.f64x2_splat="~lib/builtins/f64x2.splat",e.f64x2_extract_lane="~lib/builtins/f64x2.extract_lane",e.f64x2_replace_lane="~lib/builtins/f64x2.replace_lane",e.f64x2_add="~lib/builtins/f64x2.add",e.f64x2_sub="~lib/builtins/f64x2.sub",e.f64x2_mul="~lib/builtins/f64x2.mul",e.f64x2_div="~lib/builtins/f64x2.div",e.f64x2_neg="~lib/builtins/f64x2.neg",e.f64x2_min="~lib/builtins/f64x2.min",e.f64x2_max="~lib/builtins/f64x2.max",e.f64x2_abs="~lib/builtins/f64x2.abs",e.f64x2_sqrt="~lib/builtins/f64x2.sqrt",e.f64x2_eq="~lib/builtins/f64x2.eq",e.f64x2_ne="~lib/builtins/f64x2.ne",e.f64x2_lt="~lib/builtins/f64x2.lt",e.f64x2_le="~lib/builtins/f64x2.le",e.f64x2_gt="~lib/builtins/f64x2.gt",e.f64x2_ge="~lib/builtins/f64x2.ge",e.f64x2_convert_s_i64x2="~lib/builtins/f64x2.convert_s_i64x2",e.f64x2_convert_u_i64x2="~lib/builtins/f64x2.convert_u_i64x2",e.v8x16_shuffle="~lib/builtins/v8x16.shuffle",e.ERROR="~lib/diagnostics/ERROR",e.WARNING="~lib/diagnostics/WARNING",e.INFO="~lib/diagnostics/INFO",e.HEAP_BASE="~lib/memory/HEAP_BASE",e.memory_size="~lib/memory/memory.size",e.memory_grow="~lib/memory/memory.grow",e.memory_copy="~lib/memory/memory.copy",e.memory_fill="~lib/memory/memory.fill",e.iterateRoots="~lib/gc/iterateRoots"}(i=r.BuiltinSymbols||(r.BuiltinSymbols={})),r.compileCall=h,r.compileAbort=m,r.compileIterateRoots=function(e){var r,t,i=e.module,a=new Array;try{for(var s=n(e.program.elementsByName.values()),p=s.next();!p.done;p=s.next()){var _=p.value;if(_.kind==l.ElementKind.GLOBAL){var h=_,d=h.type.classReference;if(h.is(u.CommonFlags.COMPILED)&&null!==d&&!d.hasDecorator(l.DecoratorFlags.UNMANAGED))if(h.is(u.CommonFlags.INLINED)){var y=h.constantIntegerValue;a.push(i.createCallIndirect(i.createGetLocal(0,c.NativeType.I32),[e.options.isWasm64?i.createI64(i64_low(y),i64_high(y)):i.createI32(i64_low(y))],"i_"))}else a.push(i.createCallIndirect(i.createGetLocal(0,c.NativeType.I32),[i.createGetGlobal(h.internalName,e.options.nativeSizeType)],"i_"))}}}catch(e){r={error:e}}finally{try{p&&!p.done&&(t=s.return)&&t.call(s)}finally{if(r)throw r.error}}var g=e.ensureFunctionType([o.Type.i32],o.Type.void);i.addFunction("~iterateRoots",g,[],a.length?i.createBlock(null,a):i.createNop())},r.ensureGCHook=function e(r,t){var i,a,s=r.program;assert(t.type.isManaged(s));var p=t.gcHookIndex;if(-1!=p)return p;var _=t.members;if(t.isDeclaredInLibrary&&null!==_&&_.has("__gc")){var h=assert(_.get("__gc"));assert(h.kind==l.ElementKind.FUNCTION_PROTOTYPE);var d=assert(s.resolver.resolveFunction(h,null));assert(d.is(u.CommonFlags.PRIVATE|u.CommonFlags.INSTANCE)),assert(!d.isAny(u.CommonFlags.AMBIENT|u.CommonFlags.VIRTUAL)),assert(0==d.signature.parameterTypes.length),assert(d.signature.returnType==o.Type.void),d.internalName=t.internalName+"~gc",assert(r.compileFunction(d));var y=r.ensureFunctionTableEntry(d);return t.gcHookIndex=y,y}var g=r.module,m=r.options,T=m.nativeSizeType,f=m.usizeType.byteSize,E=new Array;E.push(g.createIf(g.createUnary(m.isWasm64?c.UnaryOp.EqzI64:c.UnaryOp.EqzI32,g.createGetLocal(0,T)),g.createReturn()));var b=r.functionTable,v=b.length;b.push(""),t.gcHookIndex=v;var 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=_BinaryenExtendS32Int64()]="ExtendI32ToI64",e[e.SplatVecI8x16=_BinaryenSplatVecI8x16()]="SplatVecI8x16",e[e.SplatVecI16x8=_BinaryenSplatVecI16x8()]="SplatVecI16x8",e[e.SplatVecI32x4=_BinaryenSplatVecI32x4()]="SplatVecI32x4",e[e.SplatVecI64x2=_BinaryenSplatVecI64x2()]="SplatVecI64x2",e[e.SplatVecF32x4=_BinaryenSplatVecF32x4()]="SplatVecF32x4",e[e.SplatVecF64x2=_BinaryenSplatVecF64x2()]="SplatVecF64x2",e[e.NotVec128=_BinaryenNotVec128()]="NotVec128",e[e.NegVecI8x16=_BinaryenNegVecI8x16()]="NegVecI8x16",e[e.AnyTrueVecI8x16=_BinaryenAnyTrueVecI8x16()]="AnyTrueVecI8x16",e[e.AllTrueVecI8x16=_BinaryenAllTrueVecI8x16()]="AllTrueVecI8x16",e[e.NegVecI16x8=_BinaryenNegVecI16x8()]="NegVecI16x8",e[e.AnyTrueVecI16x8=_BinaryenAnyTrueVecI16x8()]="AnyTrueVecI16x8",e[e.AllTrueVecI16x8=_BinaryenAllTrueVecI16x8()]="AllTrueVecI16x8",e[e.NegVecI32x4=_BinaryenNegVecI32x4()]="NegVecI32x4",e[e.AnyTrueVecI32x4=_BinaryenAnyTrueVecI32x4()]="AnyTrueVecI32x4",e[e.AllTrueVecI32x4=_BinaryenAllTrueVecI32x4()]="AllTrueVecI32x4",e[e.NegVecI64x2=_BinaryenNegVecI64x2()]="NegVecI64x2",e[e.AnyTrueVecI64x2=_BinaryenAnyTrueVecI64x2()]="AnyTrueVecI64x2",e[e.AllTrueVecI64x2=_BinaryenAllTrueVecI64x2()]="AllTrueVecI64x2",e[e.AbsVecF32x4=_BinaryenAbsVecF32x4()]="AbsVecF32x4",e[e.NegVecF32x4=_BinaryenNegVecF32x4()]="NegVecF32x4",e[e.SqrtVecF32x4=_BinaryenSqrtVecF32x4()]="SqrtVecF32x4",e[e.AbsVecF64x2=_BinaryenAbsVecF64x2()]="AbsVecF64x2",e[e.NegVecF64x2=_BinaryenNegVecF64x2()]="NegVecF64x2",e[e.SqrtVecF64x2=_BinaryenSqrtVecF64x2()]="SqrtVecF64x2",e[e.TruncSatSVecF32x4ToVecI32x4=_BinaryenTruncSatSVecF32x4ToVecI32x4()]="TruncSatSVecF32x4ToVecI32x4",e[e.TruncSatUVecF32x4ToVecI32x4=_BinaryenTruncSatUVecF32x4ToVecI32x4()]="TruncSatUVecF32x4ToVecI32x4",e[e.TruncSatSVecF64x2ToVecI64x2=_BinaryenTruncSatSVecF64x2ToVecI64x2()]="TruncSatSVecF64x2ToVecI64x2",e[e.TruncSatUVecF64x2ToVecI64x2=_BinaryenTruncSatUVecF64x2ToVecI64x2()]="TruncSatUVecF64x2ToVecI64x2",e[e.ConvertSVecI32x4ToVecF32x4=_BinaryenConvertSVecI32x4ToVecF32x4()]="ConvertSVecI32x4ToVecF32x4",e[e.ConvertUVecI32x4ToVecF32x4=_BinaryenConvertUVecI32x4ToVecF32x4()]="ConvertUVecI32x4ToVecF32x4",e[e.ConvertSVecI64x2ToVecF64x2=_BinaryenConvertSVecI64x2ToVecF64x2()]="ConvertSVecI64x2ToVecF64x2",e[e.ConvertUVecI64x2ToVecF64x2=_BinaryenConvertUVecI64x2ToVecF64x2()]="ConvertUVecI64x2ToVecF64x2"}(r.UnaryOp||(r.UnaryOp={})),function(e){e[e.AddI32=_BinaryenAddInt32()]="AddI32",e[e.SubI32=_BinaryenSubInt32()]="SubI32",e[e.MulI32=_BinaryenMulInt32()]="MulI32",e[e.DivI32=_BinaryenDivSInt32()]="DivI32",e[e.DivU32=_BinaryenDivUInt32()]="DivU32",e[e.RemI32=_BinaryenRemSInt32()]="RemI32",e[e.RemU32=_BinaryenRemUInt32()]="RemU32",e[e.AndI32=_BinaryenAndInt32()]="AndI32",e[e.OrI32=_BinaryenOrInt32()]="OrI32",e[e.XorI32=_BinaryenXorInt32()]="XorI32",e[e.ShlI32=_BinaryenShlInt32()]="ShlI32",e[e.ShrU32=_BinaryenShrUInt32()]="ShrU32",e[e.ShrI32=_BinaryenShrSInt32()]="ShrI32",e[e.RotlI32=_BinaryenRotLInt32()]="RotlI32",e[e.RotrI32=_BinaryenRotRInt32()]="RotrI32",e[e.EqI32=_BinaryenEqInt32()]="EqI32",e[e.NeI32=_BinaryenNeInt32()]="NeI32",e[e.LtI32=_BinaryenLtSInt32()]="LtI32",e[e.LtU32=_BinaryenLtUInt32()]="LtU32",e[e.LeI32=_BinaryenLeSInt32()]="LeI32",e[e.LeU32=_BinaryenLeUInt32()]="LeU32",e[e.GtI32=_BinaryenGtSInt32()]="GtI32",e[e.GtU32=_BinaryenGtUInt32()]="GtU32",e[e.GeI32=_BinaryenGeSInt32()]="GeI32",e[e.GeU32=_BinaryenGeUInt32()]="GeU32",e[e.AddI64=_BinaryenAddInt64()]="AddI64",e[e.SubI64=_BinaryenSubInt64()]="SubI64",e[e.MulI64=_BinaryenMulInt64()]="MulI64",e[e.DivI64=_BinaryenDivSInt64()]="DivI64",e[e.DivU64=_BinaryenDivUInt64()]="DivU64",e[e.RemI64=_BinaryenRemSInt64()]="RemI64",e[e.RemU64=_BinaryenRemUInt64()]="RemU64",e[e.AndI64=_BinaryenAndInt64()]="AndI64",e[e.OrI64=_BinaryenOrInt64()]="OrI64",e[e.XorI64=_BinaryenXorInt64()]="XorI64",e[e.ShlI64=_BinaryenShlInt64()]="ShlI64",e[e.ShrU64=_BinaryenShrUInt64()]="ShrU64",e[e.ShrI64=_BinaryenShrSInt64()]="ShrI64",e[e.RotlI64=_BinaryenRotLInt64()]="RotlI64",e[e.RotrI64=_BinaryenRotRInt64()]="RotrI64",e[e.EqI64=_BinaryenEqInt64()]="EqI64",e[e.NeI64=_BinaryenNeInt64()]="NeI64",e[e.LtI64=_BinaryenLtSInt64()]="LtI64",e[e.LtU64=_BinaryenLtUInt64()]="LtU64",e[e.LeI64=_BinaryenLeSInt64()]="LeI64",e[e.LeU64=_BinaryenLeUInt64()]="LeU64",e[e.GtI64=_BinaryenGtSInt64()]="GtI64",e[e.GtU64=_BinaryenGtUInt64()]="GtU64",e[e.GeI64=_BinaryenGeSInt64()]="GeI64",e[e.GeU64=_BinaryenGeUInt64()]="GeU64",e[e.AddF32=_BinaryenAddFloat32()]="AddF32",e[e.SubF32=_BinaryenSubFloat32()]="SubF32",e[e.MulF32=_BinaryenMulFloat32()]="MulF32",e[e.DivF32=_BinaryenDivFloat32()]="DivF32",e[e.CopysignF32=_BinaryenCopySignFloat32()]="CopysignF32",e[e.MinF32=_BinaryenMinFloat32()]="MinF32",e[e.MaxF32=_BinaryenMaxFloat32()]="MaxF32",e[e.EqF32=_BinaryenEqFloat32()]="EqF32",e[e.NeF32=_BinaryenNeFloat32()]="NeF32",e[e.LtF32=_BinaryenLtFloat32()]="LtF32",e[e.LeF32=_BinaryenLeFloat32()]="LeF32",e[e.GtF32=_BinaryenGtFloat32()]="GtF32",e[e.GeF32=_BinaryenGeFloat32()]="GeF32",e[e.AddF64=_BinaryenAddFloat64()]="AddF64",e[e.SubF64=_BinaryenSubFloat64()]="SubF64",e[e.MulF64=_BinaryenMulFloat64()]="MulF64",e[e.DivF64=_BinaryenDivFloat64()]="DivF64",e[e.CopysignF64=_BinaryenCopySignFloat64()]="CopysignF64",e[e.MinF64=_BinaryenMinFloat64()]="MinF64",e[e.MaxF64=_BinaryenMaxFloat64()]="MaxF64",e[e.EqF64=_BinaryenEqFloat64()]="EqF64",e[e.NeF64=_BinaryenNeFloat64()]="NeF64",e[e.LtF64=_BinaryenLtFloat64()]="LtF64",e[e.LeF64=_BinaryenLeFloat64()]="LeF64",e[e.GtF64=_BinaryenGtFloat64()]="GtF64",e[e.GeF64=_BinaryenGeFloat64()]="GeF64",e[e.EqVecI8x16=_BinaryenEqVecI8x16()]="EqVecI8x16",e[e.NeVecI8x16=_BinaryenNeVecI8x16()]="NeVecI8x16",e[e.LtSVecI8x16=_BinaryenLtSVecI8x16()]="LtSVecI8x16",e[e.LtUVecI8x16=_BinaryenLtUVecI8x16()]="LtUVecI8x16",e[e.LeSVecI8x16=_BinaryenLeSVecI8x16()]="LeSVecI8x16",e[e.LeUVecI8x16=_BinaryenLeUVecI8x16()]="LeUVecI8x16",e[e.GtSVecI8x16=_BinaryenGtSVecI8x16()]="GtSVecI8x16",e[e.GtUVecI8x16=_BinaryenGtUVecI8x16()]="GtUVecI8x16",e[e.GeSVecI8x16=_BinaryenGeSVecI8x16()]="GeSVecI8x16",e[e.GeUVecI8x16=_BinaryenGeUVecI8x16()]="GeUVecI8x16",e[e.EqVecI16x8=_BinaryenEqVecI16x8()]="EqVecI16x8",e[e.NeVecI16x8=_BinaryenNeVecI16x8()]="NeVecI16x8",e[e.LtSVecI16x8=_BinaryenLtSVecI16x8()]="LtSVecI16x8",e[e.LtUVecI16x8=_BinaryenLtUVecI16x8()]="LtUVecI16x8",e[e.LeSVecI16x8=_BinaryenLeSVecI16x8()]="LeSVecI16x8",e[e.LeUVecI16x8=_BinaryenLeUVecI16x8()]="LeUVecI16x8",e[e.GtSVecI16x8=_BinaryenGtSVecI16x8()]="GtSVecI16x8",e[e.GtUVecI16x8=_BinaryenGtUVecI16x8()]="GtUVecI16x8",e[e.GeSVecI16x8=_BinaryenGeSVecI16x8()]="GeSVecI16x8",e[e.GeUVecI16x8=_BinaryenGeUVecI16x8()]="GeUVecI16x8",e[e.EqVecI32x4=_BinaryenEqVecI32x4()]="EqVecI32x4",e[e.NeVecI32x4=_BinaryenNeVecI32x4()]="NeVecI32x4",e[e.LtSVecI32x4=_BinaryenLtSVecI32x4()]="LtSVecI32x4",e[e.LtUVecI32x4=_BinaryenLtUVecI32x4()]="LtUVecI32x4",e[e.LeSVecI32x4=_BinaryenLeSVecI32x4()]="LeSVecI32x4",e[e.LeUVecI32x4=_BinaryenLeUVecI32x4()]="LeUVecI32x4",e[e.GtSVecI32x4=_BinaryenGtSVecI32x4()]="GtSVecI32x4",e[e.GtUVecI32x4=_BinaryenGtUVecI32x4()]="GtUVecI32x4",e[e.GeSVecI32x4=_BinaryenGeSVecI32x4()]="GeSVecI32x4",e[e.GeUVecI32x4=_BinaryenGeUVecI32x4()]="GeUVecI32x4",e[e.EqVecF32x4=_BinaryenEqVecF32x4()]="EqVecF32x4",e[e.NeVecF32x4=_BinaryenNeVecF32x4()]="NeVecF32x4",e[e.LtVecF32x4=_BinaryenLtVecF32x4()]="LtVecF32x4",e[e.LeVecF32x4=_BinaryenLeVecF32x4()]="LeVecF32x4",e[e.GtVecF32x4=_BinaryenGtVecF32x4()]="GtVecF32x4",e[e.GeVecF32x4=_BinaryenGeVecF32x4()]="GeVecF32x4",e[e.EqVecF64x2=_BinaryenEqVecF64x2()]="EqVecF64x2",e[e.NeVecF64x2=_BinaryenNeVecF64x2()]="NeVecF64x2",e[e.LtVecF64x2=_BinaryenLtVecF64x2()]="LtVecF64x2",e[e.LeVecF64x2=_BinaryenLeVecF64x2()]="LeVecF64x2",e[e.GtVecF64x2=_BinaryenGtVecF64x2()]="GtVecF64x2",e[e.GeVecF64x2=_BinaryenGeVecF64x2()]="GeVecF64x2",e[e.AndVec128=_BinaryenAndVec128()]="AndVec128",e[e.OrVec128=_BinaryenOrVec128()]="OrVec128",e[e.XorVec128=_BinaryenXorVec128()]="XorVec128",e[e.AddVecI8x16=_BinaryenAddVecI8x16()]="AddVecI8x16",e[e.AddSatSVecI8x16=_BinaryenAddSatSVecI8x16()]="AddSatSVecI8x16",e[e.AddSatUVecI8x16=_BinaryenAddSatUVecI8x16()]="AddSatUVecI8x16",e[e.SubVecI8x16=_BinaryenSubVecI8x16()]="SubVecI8x16",e[e.SubSatSVecI8x16=_BinaryenSubSatSVecI8x16()]="SubSatSVecI8x16",e[e.SubSatUVecI8x16=_BinaryenSubSatUVecI8x16()]="SubSatUVecI8x16",e[e.MulVecI8x16=_BinaryenMulVecI8x16()]="MulVecI8x16",e[e.AddVecI16x8=_BinaryenAddVecI16x8()]="AddVecI16x8",e[e.AddSatSVecI16x8=_BinaryenAddSatSVecI16x8()]="AddSatSVecI16x8",e[e.AddSatUVecI16x8=_BinaryenAddSatUVecI16x8()]="AddSatUVecI16x8",e[e.SubVecI16x8=_BinaryenSubVecI16x8()]="SubVecI16x8",e[e.SubSatSVecI16x8=_BinaryenSubSatSVecI16x8()]="SubSatSVecI16x8",e[e.SubSatUVecI16x8=_BinaryenSubSatUVecI16x8()]="SubSatUVecI16x8",e[e.MulVecI16x8=_BinaryenMulVecI16x8()]="MulVecI16x8",e[e.AddVecI32x4=_BinaryenAddVecI32x4()]="AddVecI32x4",e[e.SubVecI32x4=_BinaryenSubVecI32x4()]="SubVecI32x4",e[e.MulVecI32x4=_BinaryenMulVecI32x4()]="MulVecI32x4",e[e.AddVecI64x2=_BinaryenAddVecI64x2()]="AddVecI64x2",e[e.SubVecI64x2=_BinaryenSubVecI64x2()]="SubVecI64x2",e[e.AddVecF32x4=_BinaryenAddVecF32x4()]="AddVecF32x4",e[e.SubVecF32x4=_BinaryenSubVecF32x4()]="SubVecF32x4",e[e.MulVecF32x4=_BinaryenMulVecF32x4()]="MulVecF32x4",e[e.DivVecF32x4=_BinaryenDivVecF32x4()]="DivVecF32x4",e[e.MinVecF32x4=_BinaryenMinVecF32x4()]="MinVecF32x4",e[e.MaxVecF32x4=_BinaryenMaxVecF32x4()]="MaxVecF32x4",e[e.AddVecF64x2=_BinaryenAddVecF64x2()]="AddVecF64x2",e[e.SubVecF64x2=_BinaryenSubVecF64x2()]="SubVecF64x2",e[e.MulVecF64x2=_BinaryenMulVecF64x2()]="MulVecF64x2",e[e.DivVecF64x2=_BinaryenDivVecF64x2()]="DivVecF64x2",e[e.MinVecF64x2=_BinaryenMinVecF64x2()]="MinVecF64x2",e[e.MaxVecF64x2=_BinaryenMaxVecF64x2()]="MaxVecF64x2"}(r.BinaryOp||(r.BinaryOp={})),function(e){e[e.CurrentMemory=_BinaryenCurrentMemory()]="CurrentMemory",e[e.GrowMemory=_BinaryenGrowMemory()]="GrowMemory"}(r.HostOp||(r.HostOp={})),function(e){e[e.Add=_BinaryenAtomicRMWAdd()]="Add",e[e.Sub=_BinaryenAtomicRMWSub()]="Sub",e[e.And=_BinaryenAtomicRMWAnd()]="And",e[e.Or=_BinaryenAtomicRMWOr()]="Or",e[e.Xor=_BinaryenAtomicRMWXor()]="Xor",e[e.Xchg=_BinaryenAtomicRMWXchg()]="Xchg"}(r.AtomicRMWOp||(r.AtomicRMWOp={})),function(e){e[e.ExtractLaneSVecI8x16=_BinaryenExtractLaneSVecI8x16()]="ExtractLaneSVecI8x16",e[e.ExtractLaneUVecI8x16=_BinaryenExtractLaneUVecI8x16()]="ExtractLaneUVecI8x16",e[e.ExtractLaneSVecI16x8=_BinaryenExtractLaneSVecI16x8()]="ExtractLaneSVecI16x8",e[e.ExtractLaneUVecI16x8=_BinaryenExtractLaneUVecI16x8()]="ExtractLaneUVecI16x8",e[e.ExtractLaneVecI32x4=_BinaryenExtractLaneVecI32x4()]="ExtractLaneVecI32x4",e[e.ExtractLaneVecI64x2=_BinaryenExtractLaneVecI64x2()]="ExtractLaneVecI64x2",e[e.ExtractLaneVecF32x4=_BinaryenExtractLaneVecF32x4()]="ExtractLaneVecF32x4",e[e.ExtractLaneVecF64x2=_BinaryenExtractLaneVecF64x2()]="ExtractLaneVecF64x2"}(r.SIMDExtractOp||(r.SIMDExtractOp={})),function(e){e[e.ReplaceLaneVecI8x16=_BinaryenReplaceLaneVecI8x16()]="ReplaceLaneVecI8x16",e[e.ReplaceLaneVecI16x8=_BinaryenReplaceLaneVecI16x8()]="ReplaceLaneVecI16x8",e[e.ReplaceLaneVecI32x4=_BinaryenReplaceLaneVecI32x4()]="ReplaceLaneVecI32x4",e[e.ReplaceLaneVecI64x2=_BinaryenReplaceLaneVecI64x2()]="ReplaceLaneVecI64x2",e[e.ReplaceLaneVecF32x4=_BinaryenReplaceLaneVecF32x4()]="ReplaceLaneVecF32x4",e[e.ReplaceLaneVecF64x2=_BinaryenReplaceLaneVecF64x2()]="ReplaceLaneVecF64x2"}(r.SIMDReplaceOp||(r.SIMDReplaceOp={})),function(e){e[e.ShlVecI8x16=_BinaryenShlVecI8x16()]="ShlVecI8x16",e[e.ShrSVecI8x16=_BinaryenShrSVecI8x16()]="ShrSVecI8x16",e[e.ShrUVecI8x16=_BinaryenShrUVecI8x16()]="ShrUVecI8x16",e[e.ShlVecI16x8=_BinaryenShlVecI16x8()]="ShlVecI16x8",e[e.ShrSVecI16x8=_BinaryenShrSVecI16x8()]="ShrSVecI16x8",e[e.ShrUVecI16x8=_BinaryenShrUVecI16x8()]="ShrUVecI16x8",e[e.ShlVecI32x4=_BinaryenShlVecI32x4()]="ShlVecI32x4",e[e.ShrSVecI32x4=_BinaryenShrSVecI32x4()]="ShrSVecI32x4",e[e.ShrUVecI32x4=_BinaryenShrUVecI32x4()]="ShrUVecI32x4",e[e.ShlVecI64x2=_BinaryenShlVecI64x2()]="ShlVecI64x2",e[e.ShrSVecI64x2=_BinaryenShrSVecI64x2()]="ShrSVecI64x2",e[e.ShrUVecI64x2=_BinaryenShrUVecI64x2()]="ShrUVecI64x2"}(r.SIMDShiftOp||(r.SIMDShiftOp={}));var o=function(){function e(){}return e.create=function(r,t){var n=new e;return n.buffer=r,n.offset=t,n},e}();r.MemorySegment=o;var c=function(){function e(){this.hasTemporaryFunction=!1,this.cachedPrecomputeNames=0,this.cachedStrings=new Map}return e.create=function(){var r=new e;return r.ref=_BinaryenModuleCreate(),r.lit=memory.allocate(_BinaryenSizeofLiteral()),r},e.createFrom=function(r){var t=p(r);try{var n=new e;return n.ref=_BinaryenModuleRead(t,r.length),n.lit=memory.allocate(_BinaryenSizeofLiteral()),n}finally{memory.free(changetype(t))}},e.prototype.addFunctionType=function(e,r,t){var n=this.allocStringCached(e),i=u(t);try{return _BinaryenAddFunctionType(this.ref,n,r,i,t?t.length:0)}finally{memory.free(i)}},e.prototype.getFunctionTypeBySignature=function(e,r){var t=u(r);try{return _BinaryenGetFunctionTypeBySignature(this.ref,e,t,r?r.length:0)}finally{memory.free(t)}},e.prototype.removeFunctionType=function(e){var 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m=l.signature,f=s.addFunction(l.internalName,this.ensureFunctionType(m.parameterTypes,m.returnType,m.thisType),T.typesToNativeTypes(l.additionalLocals),s.createBlock(null,u));l.finalize(s,f),y||s.setStart(f)}var E=this.memoryOffset;E=i64_align(E,i.usizeType.byteSize),this.memoryOffset=E,s.removeGlobal(c.BuiltinSymbols.HEAP_BASE),i.isWasm64?s.addGlobal(c.BuiltinSymbols.HEAP_BASE,p.NativeType.I64,!1,s.createI64(i64_low(E),i64_high(E))):s.addGlobal(c.BuiltinSymbols.HEAP_BASE,p.NativeType.I32,!1,s.createI32(i64_low(E)));var g=i.hasFeature(16)&&i.sharedMemory>0;s.setMemory(this.options.memoryBase||this.memorySegments.length?i64_low(i64_shr_u(i64_align(E,65536),i64_new(16,0))):0,g?i.sharedMemory:p.Module.UNLIMITED_MEMORY,this.memorySegments,i.target,"memory",g),i.importMemory&&s.addMemoryImport("0","env","memory",g);var v=this.functionTable;s.setFunctionTable(v.length,4294967295,v),s.addTableExport("0","table"),s.addFunction("null",this.ensureFunctionType(null,T.Type.void),null,s.createBlock(null,[])),i.importTable&&s.addTableImport("0","env","table");try{for(var I=a(this.program.filesByName.values()),b=I.next();!b.done;b=I.next()){var x;(x=b.value).source.isEntry&&this.makeModuleExports(x)}}catch(e){t={error:e}}finally{try{b&&!b.done&&(n=I.return)&&n.call(I)}finally{if(t)throw t.error}}return this.needsIterateRoots&&c.compileIterateRoots(this),s},r.prototype.makeModuleExports=function(e){var r,t,n=e.exports;if(n)try{for(var i=a(n),o=i.next();!o.done;o=i.next()){var c=s(o.value,2),l=c[0],p=c[1];this.makeModuleExport(l,p)}}catch(e){r={error:e}}finally{try{o&&!o.done&&(t=i.return)&&t.call(i)}finally{if(r)throw r.error}}var u=e.exportsStar;if(u)for(var _=0,h=u.length;_1?c.createBlock(null,n):n[0]),t.push(c.createCall(r.internalName,null,p.NativeType.None))}}},r.prototype.compileGlobal=function(e){if(e.is(u.CommonFlags.COMPILED))return!0;e.set(u.CommonFlags.COMPILED);var r=this.module,t=0,n=e.typeNode,i=e.initializerNode;if(!e.is(u.CommonFlags.RESOLVED))if(n){var a=this.resolver.resolveType(n,e.parent);if(!a)return!1;if(a==T.Type.void)return this.error(l.DiagnosticCode.Type_expected,n.range),!1;e.setType(a)}else{if(!i)return this.error(l.DiagnosticCode.Type_expected,e.identifierNode.range.atEnd),!1;var s=this.currentFlow;if(e.hasDecorator(_.DecoratorFlags.LAZY)&&(this.currentFlow=e.file.startFunction.flow),t=this.compileExpressionRetainType(i,T.Type.void,1),this.currentFlow=s,this.currentType==T.Type.void)return this.error(l.DiagnosticCode.Type_0_is_not_assignable_to_type_1,i.range,this.currentType.toString(),""),!1;e.setType(this.currentType)}if(e.is(u.CommonFlags.AMBIENT)&&e.hasDecorator(_.DecoratorFlags.BUILTIN))return!0;var o=e.type.toNativeType(),c=e.is(u.CommonFlags.CONST)||e.is(u.CommonFlags.STATIC|u.CommonFlags.READONLY);if(e.is(u.CommonFlags.AMBIENT))return c||this.options.hasFeature(2)?(e.set(u.CommonFlags.MODULE_IMPORT),x(e,e.declaration),r.addGlobalImport(e.internalName,g,v,o),e.set(u.CommonFlags.COMPILED),!0):(this.error(l.DiagnosticCode.Operation_not_supported,e.declaration.range),!1);var h=!1;if(i){if(!t){s=this.currentFlow;e.hasDecorator(_.DecoratorFlags.LAZY)&&(this.currentFlow=e.file.startFunction.flow),t=this.compileExpression(i,e.type,1,1),this.currentFlow=s}if(p.getExpressionId(t)!=p.ExpressionId.Const&&(c?(t=r.precomputeExpression(t),p.getExpressionId(t)!=p.ExpressionId.Const&&(this.warning(l.DiagnosticCode.Compiling_constant_with_non_constant_initializer_as_mutable,i.range),h=!0)):h=!0),e.hasDecorator(_.DecoratorFlags.INLINE)&&!h){switch(assert(p.getExpressionId(t)==p.ExpressionId.Const),p.getExpressionType(t)){case p.NativeType.I32:e.constantValueKind=1,e.constantIntegerValue=i64_new(p.getConstValueI32(t),0);break;case p.NativeType.I64:e.constantValueKind=1,e.constantIntegerValue=i64_new(p.getConstValueI64Low(t),p.getConstValueI64High(t));break;case p.NativeType.F32:e.constantValueKind=2,e.constantFloatValue=p.getConstValueF32(t);break;case p.NativeType.F64:e.constantValueKind=2,e.constantFloatValue=p.getConstValueF64(t);break;default:return assert(!1),!1}e.set(u.CommonFlags.INLINED)}}else t=e.type.toNativeZero(r);var d=e.internalName;return h?(e.hasDecorator(_.DecoratorFlags.INLINE)&&this.error(l.DiagnosticCode.Decorator_0_is_not_valid_here,e.identifierNode.range,"inline"),r.addGlobal(d,o,!0,e.type.toNativeZero(r)),this.currentBody.push(r.createSetGlobal(d,t))):e.hasDecorator(_.DecoratorFlags.INLINE)||r.addGlobal(d,o,!c,t),!0},r.prototype.compileEnum=function(e){var r,t;if(e.is(u.CommonFlags.COMPILED))return!0;e.set(u.CommonFlags.COMPILED);var n=this.module;this.currentEnum=e;var i=null,s=!1,o=e.is(u.CommonFlags.CONST)||e.hasDecorator(_.DecoratorFlags.INLINE);if(e.members)try{for(var c=a(e.members.values()),h=c.next();!h.done;h=c.next()){var d=h.value;if(d.kind==_.ElementKind.ENUMVALUE){var y=!1,m=d,f=m.valueNode;m.set(u.CommonFlags.COMPILED);var E=this.currentFlow;e.hasDecorator(_.DecoratorFlags.LAZY)&&(this.currentFlow=e.file.startFunction.flow);var g=void 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r.set(4),r.set(1),c.compileAbort(this,null,e)},r.prototype.compileTryStatement=function(e){return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()},r.prototype.compileVariableStatement=function(e){for(var r=e.declarations,t=r.length,n=this.currentFlow,i=new Array,a=this.resolver,s=0;s");continue}h=this.currentType}var y=!1;if(o.is(u.CommonFlags.CONST))if(d)if(d=this.module.precomputeExpression(d),p.getExpressionId(d)==p.ExpressionId.Const){var m=new _.Local(c,-1,h,n.parentFunction);switch(p.getExpressionType(d)){case p.NativeType.I32:m.setConstantIntegerValue(i64_new(p.getConstValueI32(d),0),h);break;case p.NativeType.I64:m.setConstantIntegerValue(i64_new(p.getConstValueI64Low(d),p.getConstValueI64High(d)),h);break;case p.NativeType.F32:m.setConstantFloatValue(p.getConstValueF32(d),h);break;case p.NativeType.F64:m.setConstantFloatValue(p.getConstValueF64(d),h);break;default:return assert(!1),this.module.createUnreachable()}var f=n.scopedLocals;if(f){if(f.has(c))return this.error(l.DiagnosticCode.Duplicate_identifier_0,o.name.range,c),this.module.createUnreachable()}else n.scopedLocals=f=new Map;f.set(c,m),y=!0}else this.warning(l.DiagnosticCode.Compiling_constant_with_non_constant_initializer_as_mutable,o.range);else this.error(l.DiagnosticCode._const_declarations_must_be_initialized,o.range);if(!y){m=void 0;if(o.isAny(u.CommonFlags.LET|u.CommonFlags.CONST)||n.is(4096))m=n.addScopedLocal(c,h,!1,o.name);else{if(n.lookupLocal(c)){this.error(l.DiagnosticCode.Duplicate_identifier_0,o.name.range,c);continue}m=n.parentFunction.addLocal(h,c,o)}d?(i.push(this.compileAssignmentWithValue(o.name,d)),m.type.is(36)&&n.setLocalWrapped(m.index,!n.canOverflow(d,h))):m.type.is(36)&&n.setLocalWrapped(m.index,!0)}}return i.length?1==i.length?i[0]:this.module.createBlock(null,i,p.NativeType.None):0},r.prototype.compileVoidStatement=function(e){return this.compileExpression(e.expression,T.Type.void,2,0)},r.prototype.compileWhileStatement=function(e){var r=this.module,t=this.currentFlow,n=this.makeIsTrueish(this.compileExpressionRetainType(e.condition,T.Type.bool,0),this.currentType),i=r.precomputeExpression(n);if(p.getExpressionId(i)==p.ExpressionId.Const&&p.getExpressionType(i)==p.NativeType.I32){if(!p.getConstValueI32(i))return r.createNop()}else n=this.makeIsTrueish(this.compileExpressionRetainType(e.condition,T.Type.bool,0),this.currentType);var a=t.pushBreakLabel(),s=t.fork();this.currentFlow=s;var o="break|"+a;s.breakLabel=o;var c="continue|"+a;s.continueLabel=c;var l=this.compileStatement(e.statement),u=s.isAny(29);return s.freeScopedLocals(),t.popBreakLabel(),this.currentFlow=t,s.unset(1560),t.inheritConditional(s),r.createBlock(o,[r.createLoop(c,r.createIf(n,u?l:r.createBlock(null,[l,r.createBreak(c)],p.NativeType.None)))])},r.prototype.compileInlineConstant=function(e,r,t){assert(e.is(u.CommonFlags.INLINED));var n=e.type;switch(!t&&n.is(4)&&r.is(4)&&n.size>i:0);case 5:case 6:case 10:var a=e.type.computeSmallIntegerMask(T.Type.i32);return this.module.createI32(1==e.constantValueKind?i64_low(e.constantIntegerValue)&a:0);case 2:case 7:return this.module.createI32(1==e.constantValueKind?i64_low(e.constantIntegerValue):0);case 4:case 9:if(!e.program.options.isWasm64)return this.module.createI32(1==e.constantValueKind?i64_low(e.constantIntegerValue):0);case 3:case 8:return 1==e.constantValueKind?this.module.createI64(i64_low(e.constantIntegerValue),i64_high(e.constantIntegerValue)):this.module.createI64(0);case 12:if(!e.hasDecorator(_.DecoratorFlags.BUILTIN)||r!=T.Type.f32)return this.module.createF64(e.constantFloatValue);this.currentType=T.Type.f32;case 11:return this.module.createF32(e.constantFloatValue);default:return assert(!1),this.module.createUnreachable()}},r.prototype.compileExpression=function(e,r,t,n){var i;switch(this.currentType=r,e.kind){case m.NodeKind.ASSERTION:i=this.compileAssertionExpression(e,r);break;case m.NodeKind.BINARY:i=this.compileBinaryExpression(e,r);break;case m.NodeKind.CALL:i=this.compileCallExpression(e,r);break;case m.NodeKind.COMMA:i=this.compileCommaExpression(e,r);break;case m.NodeKind.ELEMENTACCESS:i=this.compileElementAccessExpression(e,r);break;case m.NodeKind.FUNCTION:i=this.compileFunctionExpression(e,r.signatureReference);break;case m.NodeKind.IDENTIFIER:case m.NodeKind.FALSE:case m.NodeKind.NULL:case m.NodeKind.THIS:case m.NodeKind.SUPER:case m.NodeKind.TRUE:i=this.compileIdentifierExpression(e,r,0==t);break;case m.NodeKind.INSTANCEOF:i=this.compileInstanceOfExpression(e,r);break;case m.NodeKind.LITERAL:i=this.compileLiteralExpression(e,r);break;case m.NodeKind.NEW:i=this.compileNewExpression(e,r);break;case m.NodeKind.PARENTHESIZED:i=this.compileParenthesizedExpression(e,r);break;case m.NodeKind.PROPERTYACCESS:i=this.compilePropertyAccessExpression(e,r,0==t);break;case m.NodeKind.TERNARY:i=this.compileTernaryExpression(e,r);break;case m.NodeKind.UNARYPOSTFIX:i=this.compileUnaryPostfixExpression(e,r);break;case m.NodeKind.UNARYPREFIX:i=this.compileUnaryPrefixExpression(e,r);break;default:this.error(l.DiagnosticCode.Operation_not_supported,e.range),i=this.module.createUnreachable()}var a=this.currentType;return 0!=t&&a!=r?(i=this.convertExpression(i,a,r,t,n,e),this.currentType=r):1==n&&(i=this.ensureSmallIntegerWrap(i,a)),this.options.sourceMap&&this.addDebugLocation(i,e.range),i},r.prototype.compileExpressionRetainType=function(e,r,t){return this.compileExpression(e,r==T.Type.void?T.Type.i32:r,0,t)},r.prototype.precomputeExpression=function(e,r,t,n){return this.module.precomputeExpression(this.compileExpression(e,r,t,n))},r.prototype.convertExpression=function(e,r,t,n,i,a){assert(0!=n);var s=this.module;return 14==r.kind?(assert(14!=t.kind),this.error(l.DiagnosticCode.Type_0_is_not_assignable_to_type_1,a.range,r.toString(),t.toString()),s.createUnreachable()):14==t.kind?s.createDrop(e):(r.isAssignableTo(t)||1==n&&this.error(l.DiagnosticCode.Conversion_from_type_0_to_1_requires_an_explicit_cast,a.range,r.toString(),t.toString()),r.is(8)?t.is(8)?11==r.kind?12==t.kind&&(e=s.createUnary(p.UnaryOp.PromoteF32,e)):11==t.kind&&(e=s.createUnary(p.UnaryOp.DemoteF64,e)):t.is(4)?11==r.kind?t==T.Type.bool?(e=s.createBinary(p.BinaryOp.NeF32,e,s.createF32(0)),i=0):e=t.is(1)?t.is(64)?s.createUnary(p.UnaryOp.TruncF32ToI64,e):s.createUnary(p.UnaryOp.TruncF32ToI32,e):t.is(64)?s.createUnary(p.UnaryOp.TruncF32ToU64,e):s.createUnary(p.UnaryOp.TruncF32ToU32,e):t==T.Type.bool?(e=s.createBinary(p.BinaryOp.NeF64,e,s.createF64(0)),i=0):e=t.is(1)?t.is(64)?s.createUnary(p.UnaryOp.TruncF64ToI64,e):s.createUnary(p.UnaryOp.TruncF64ToI32,e):t.is(64)?s.createUnary(p.UnaryOp.TruncF64ToU64,e):s.createUnary(p.UnaryOp.TruncF64ToU32,e):(assert(0==t.flags,"void type expected"),e=s.createDrop(e)):r.is(4)&&t.is(8)?e=11==t.kind?r.is(64)?s.createUnary(r.is(1)?p.UnaryOp.ConvertI64ToF32:p.UnaryOp.ConvertU64ToF32,e):s.createUnary(r.is(1)?p.UnaryOp.ConvertI32ToF32:p.UnaryOp.ConvertU32ToF32,e):r.is(64)?s.createUnary(r.is(1)?p.UnaryOp.ConvertI64ToF64:p.UnaryOp.ConvertU64ToF64,e):s.createUnary(r.is(1)?p.UnaryOp.ConvertI32ToF64:p.UnaryOp.ConvertU32ToF64,e):r.is(64)?t==T.Type.bool?(e=s.createBinary(p.BinaryOp.NeI64,e,s.createI64(0)),i=0):t.is(64)||(e=s.createUnary(p.UnaryOp.WrapI64,e)):t.is(64)?(e=s.createUnary(r.is(1)?p.UnaryOp.ExtendI32:p.UnaryOp.ExtendU32,this.ensureSmallIntegerWrap(e,r)),i=0):r.is(32)&&r.size",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();switch(t=this.convertExpression(t,n,n=s,1,1,h),i=this.convertExpression(i,a,a=s,1,1,d),s.kind){case 0:case 1:case 2:o=c.createBinary(p.BinaryOp.GtI32,t,i);break;case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.GtI64:p.BinaryOp.GtI32,t,i);break;case 3:o=c.createBinary(p.BinaryOp.GtI64,t,i);break;case 5:case 6:case 7:case 10:o=c.createBinary(p.BinaryOp.GtU32,t,i);break;case 9:o=c.createBinary(this.options.isWasm64?p.BinaryOp.GtU64:p.BinaryOp.GtU32,t,i);break;case 8:o=c.createBinary(p.BinaryOp.GtU64,t,i);break;case 11:o=c.createBinary(p.BinaryOp.GtF32,t,i);break;case 12:o=c.createBinary(p.BinaryOp.GtF64,t,i);break;default:assert(!1),o=c.createUnreachable()}this.currentType=T.Type.bool;break;case y.Token.LESSTHAN_EQUALS:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,this.currentType.is(256)){if(I=n.classReference)if(b=I.lookupOverload(_.OperatorKind.LE)){o=this.compileBinaryOverload(b,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=T.Type.commonDenominator(n,a,!0)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,"<=",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();switch(t=this.convertExpression(t,n,n=s,1,1,h),i=this.convertExpression(i,a,a=s,1,1,d),s.kind){case 0:case 1:case 2:o=c.createBinary(p.BinaryOp.LeI32,t,i);break;case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.LeI64:p.BinaryOp.LeI32,t,i);break;case 3:o=c.createBinary(p.BinaryOp.LeI64,t,i);break;case 5:case 6:case 7:case 10:o=c.createBinary(p.BinaryOp.LeU32,t,i);break;case 9:o=c.createBinary(this.options.isWasm64?p.BinaryOp.LeU64:p.BinaryOp.LeU32,t,i);break;case 8:o=c.createBinary(p.BinaryOp.LeU64,t,i);break;case 11:o=c.createBinary(p.BinaryOp.LeF32,t,i);break;case 12:o=c.createBinary(p.BinaryOp.LeF64,t,i);break;default:assert(!1),o=c.createUnreachable()}this.currentType=T.Type.bool;break;case y.Token.GREATERTHAN_EQUALS:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,this.currentType.is(256)){if(I=n.classReference)if(b=I.lookupOverload(_.OperatorKind.GE)){o=this.compileBinaryOverload(b,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=T.Type.commonDenominator(n,a,!0)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,">=",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();switch(t=this.convertExpression(t,n,n=s,1,1,h),i=this.convertExpression(i,a,a=s,1,1,d),s.kind){case 0:case 1:case 2:o=c.createBinary(p.BinaryOp.GeI32,t,i);break;case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.GeI64:p.BinaryOp.GeI32,t,i);break;case 3:o=c.createBinary(p.BinaryOp.GeI64,t,i);break;case 5:case 6:case 7:case 10:o=c.createBinary(p.BinaryOp.GeU32,t,i);break;case 9:o=c.createBinary(this.options.isWasm64?p.BinaryOp.GeU64:p.BinaryOp.GeU32,t,i);break;case 8:o=c.createBinary(p.BinaryOp.GeU64,t,i);break;case 11:o=c.createBinary(p.BinaryOp.GeF32,t,i);break;case 12:o=c.createBinary(p.BinaryOp.GeF64,t,i);break;default:assert(!1),o=c.createUnreachable()}this.currentType=T.Type.bool;break;case y.Token.EQUALS_EQUALS_EQUALS:case y.Token.EQUALS_EQUALS:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,f==y.Token.EQUALS_EQUALS&&this.currentType.is(256))if(I=n.classReference)if(b=I.lookupOverload(_.OperatorKind.EQ)){o=this.compileBinaryOverload(b,h,t,d,e);break}if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=T.Type.commonDenominator(n,a,!1)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,y.operatorTokenToString(e.operator),n.toString(),a.toString()),this.currentType=r,c.createUnreachable();switch(t=this.convertExpression(t,n,n=s,1,1,h),i=this.convertExpression(i,a,a=s,1,1,d),s.kind){case 0:case 1:case 2:case 5:case 6:case 7:case 10:o=c.createBinary(p.BinaryOp.EqI32,t,i);break;case 9:case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.EqI64:p.BinaryOp.EqI32,t,i);break;case 3:case 8:o=c.createBinary(p.BinaryOp.EqI64,t,i);break;case 11:o=c.createBinary(p.BinaryOp.EqF32,t,i);break;case 12:o=c.createBinary(p.BinaryOp.EqF64,t,i);break;case 13:o=c.createUnary(p.UnaryOp.AllTrueVecI8x16,c.createBinary(p.BinaryOp.EqVecI8x16,t,i));break;default:assert(!1),o=c.createUnreachable()}this.currentType=T.Type.bool;break;case y.Token.EXCLAMATION_EQUALS_EQUALS:case y.Token.EXCLAMATION_EQUALS:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,f==y.Token.EXCLAMATION_EQUALS&&this.currentType.is(256))if(I=n.classReference)if(b=I.lookupOverload(_.OperatorKind.NE)){o=this.compileBinaryOverload(b,h,t,d,e);break}if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=T.Type.commonDenominator(n,a,!1)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,y.operatorTokenToString(e.operator),n.toString(),a.toString()),this.currentType=r,c.createUnreachable();switch(t=this.convertExpression(t,n,n=s,1,1,h),i=this.convertExpression(i,a,a=s,1,1,d),s.kind){case 0:case 1:case 2:case 5:case 6:case 7:case 10:o=c.createBinary(p.BinaryOp.NeI32,t,i);break;case 9:case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.NeI64:p.BinaryOp.NeI32,t,i);break;case 3:case 8:o=c.createBinary(p.BinaryOp.NeI64,t,i);break;case 11:o=c.createBinary(p.BinaryOp.NeF32,t,i);break;case 12:o=c.createBinary(p.BinaryOp.NeF64,t,i);break;case 13:o=c.createUnary(p.UnaryOp.AnyTrueVecI8x16,c.createBinary(p.BinaryOp.NeVecI8x16,t,i));break;default:assert(!1),o=c.createUnreachable()}this.currentType=T.Type.bool;break;case y.Token.EQUALS:return this.compileAssignment(h,d,r);case y.Token.PLUS_EQUALS:m=!0;case y.Token.PLUS:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,this.currentType.is(256)){if(I=n.classReference)if(b=I.lookupOverload(_.OperatorKind.ADD)){o=this.compileBinaryOverload(b,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}if(m)i=this.compileExpression(d,n,1,0);else{if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=T.Type.commonDenominator(n,a,!1)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,"+",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();t=this.convertExpression(t,n,n=s,1,0,h),i=this.convertExpression(i,a,a=s,1,0,d)}switch(this.currentType.kind){case 0:case 1:case 5:case 6:case 10:case 2:case 7:o=c.createBinary(p.BinaryOp.AddI32,t,i);break;case 9:case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.AddI64:p.BinaryOp.AddI32,t,i);break;case 3:case 8:o=c.createBinary(p.BinaryOp.AddI64,t,i);break;case 11:o=c.createBinary(p.BinaryOp.AddF32,t,i);break;case 12:o=c.createBinary(p.BinaryOp.AddF64,t,i);break;default:assert(!1),o=c.createUnreachable()}break;case y.Token.MINUS_EQUALS:m=!0;case y.Token.MINUS:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,this.currentType.is(256)){if(I=n.classReference)if(b=I.lookupOverload(_.OperatorKind.SUB)){o=this.compileBinaryOverload(b,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}if(m)i=this.compileExpression(d,n,1,0),a=this.currentType;else{if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=T.Type.commonDenominator(n,a,!1)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,"-",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();t=this.convertExpression(t,n,n=s,1,0,h),i=this.convertExpression(i,a,a=s,1,0,d)}switch(this.currentType.kind){case 0:case 1:case 5:case 6:case 10:case 2:case 7:o=c.createBinary(p.BinaryOp.SubI32,t,i);break;case 9:case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.SubI64:p.BinaryOp.SubI32,t,i);break;case 3:case 8:o=c.createBinary(p.BinaryOp.SubI64,t,i);break;case 11:o=c.createBinary(p.BinaryOp.SubF32,t,i);break;case 12:o=c.createBinary(p.BinaryOp.SubF64,t,i);break;default:assert(!1),o=c.createUnreachable()}break;case y.Token.ASTERISK_EQUALS:m=!0;case y.Token.ASTERISK:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,this.currentType.is(256)){if(I=n.classReference)if(b=I.lookupOverload(_.OperatorKind.MUL)){o=this.compileBinaryOverload(b,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}if(m)t=this.ensureSmallIntegerWrap(t,n),i=this.compileExpression(d,n,1,1);else{if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=T.Type.commonDenominator(n,a,!1)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,"*",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();t=this.convertExpression(t,n,n=s,1,0,h),i=this.convertExpression(i,a,a=s,1,0,d)}switch(this.currentType.kind){case 0:case 1:case 5:case 6:case 10:case 2:case 7:o=c.createBinary(p.BinaryOp.MulI32,t,i);break;case 9:case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.MulI64:p.BinaryOp.MulI32,t,i);break;case 3:case 8:o=c.createBinary(p.BinaryOp.MulI64,t,i);break;case 11:o=c.createBinary(p.BinaryOp.MulF32,t,i);break;case 12:o=c.createBinary(p.BinaryOp.MulF64,t,i);break;default:assert(!1),o=c.createUnreachable()}break;case y.Token.ASTERISK_ASTERISK_EQUALS:m=!0;case y.Token.ASTERISK_ASTERISK:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,this.currentType.is(256)){if(I=n.classReference)if(b=I.lookupOverload(_.OperatorKind.POW)){o=this.compileBinaryOverload(b,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}var E=void 0;if(11==this.currentType.kind){if(i=this.compileExpression(d,T.Type.f32,1,0),a=this.currentType,!(E=this.f32PowInstance)){if(!(g=this.program.lookupGlobal(u.LibrarySymbols.Mathf))){this.error(l.DiagnosticCode.Cannot_find_name_0,e.range,"Mathf"),o=c.createUnreachable();break}if(!(v=g.members?g.members.get(u.LibrarySymbols.pow):null)){this.error(l.DiagnosticCode.Cannot_find_name_0,e.range,"Mathf.pow"),o=c.createUnreachable();break}assert(v.kind==_.ElementKind.FUNCTION_PROTOTYPE),this.f32PowInstance=E=this.resolver.resolveFunction(v,null)}}else if(t=this.convertExpression(t,this.currentType,T.Type.f64,1,0,h),n=this.currentType,i=this.compileExpression(d,T.Type.f64,1,0),a=this.currentType,!(E=this.f64PowInstance)){if(!(g=this.program.lookupGlobal(u.LibrarySymbols.Math))){this.error(l.DiagnosticCode.Cannot_find_name_0,e.range,"Math"),o=c.createUnreachable();break}if(!(v=g.members?g.members.get(u.LibrarySymbols.pow):null)){this.error(l.DiagnosticCode.Cannot_find_name_0,e.range,"Math.pow"),o=c.createUnreachable();break}assert(v.kind==_.ElementKind.FUNCTION_PROTOTYPE),this.f64PowInstance=E=this.resolver.resolveFunction(v,null)}o=E&&this.compileFunction(E)?this.makeCallDirect(E,[t,i]):c.createUnreachable();break;case y.Token.SLASH_EQUALS:m=!0;case y.Token.SLASH:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,this.currentType.is(256)){if(I=n.classReference)if(b=I.lookupOverload(_.OperatorKind.DIV)){o=this.compileBinaryOverload(b,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}if(m)t=this.ensureSmallIntegerWrap(t,n),i=this.compileExpression(d,n,1,1),a=this.currentType;else{if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=T.Type.commonDenominator(n,a,!1)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,"/",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();t=this.convertExpression(t,n,n=s,1,1,h),i=this.convertExpression(i,a,a=s,1,1,d)}switch(this.currentType.kind){case 0:case 1:case 2:o=c.createBinary(p.BinaryOp.DivI32,t,i);break;case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.DivI64:p.BinaryOp.DivI32,t,i);break;case 3:o=c.createBinary(p.BinaryOp.DivI64,t,i);break;case 5:case 6:case 10:case 7:o=c.createBinary(p.BinaryOp.DivU32,t,i);break;case 9:o=c.createBinary(this.options.isWasm64?p.BinaryOp.DivU64:p.BinaryOp.DivU32,t,i);break;case 8:o=c.createBinary(p.BinaryOp.DivU64,t,i);break;case 11:o=c.createBinary(p.BinaryOp.DivF32,t,i);break;case 12:o=c.createBinary(p.BinaryOp.DivF64,t,i);break;default:assert(!1),o=c.createUnreachable()}break;case y.Token.PERCENT_EQUALS:m=!0;case y.Token.PERCENT:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,this.currentType.is(256)){if(I=n.classReference)if(b=I.lookupOverload(_.OperatorKind.REM)){o=this.compileBinaryOverload(b,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}if(m)t=this.ensureSmallIntegerWrap(t,n),i=this.compileExpression(d,n,1,1),a=this.currentType;else{if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=T.Type.commonDenominator(n,a,!1)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,"%",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();t=this.convertExpression(t,n,n=s,1,1,h),i=this.convertExpression(i,a,a=s,1,1,d)}switch(this.currentType.kind){case 0:case 1:case 2:o=c.createBinary(p.BinaryOp.RemI32,t,i);break;case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.RemI64:p.BinaryOp.RemI32,t,i);break;case 3:o=c.createBinary(p.BinaryOp.RemI64,t,i);break;case 5:case 6:case 10:case 7:o=c.createBinary(p.BinaryOp.RemU32,t,i);break;case 9:o=c.createBinary(this.options.isWasm64?p.BinaryOp.RemU64:p.BinaryOp.RemU32,t,i);break;case 8:o=c.createBinary(p.BinaryOp.RemU64,t,i);break;case 11:if(!(E=this.f32ModInstance)){if(!(g=this.program.lookupGlobal(u.LibrarySymbols.Mathf))){this.error(l.DiagnosticCode.Cannot_find_name_0,e.range,"Mathf"),o=c.createUnreachable();break}if(!(v=g.members?g.members.get(u.LibrarySymbols.mod):null)){this.error(l.DiagnosticCode.Cannot_find_name_0,e.range,"Mathf.mod"),o=c.createUnreachable();break}assert(v.kind==_.ElementKind.FUNCTION_PROTOTYPE),this.f32ModInstance=E=this.resolver.resolveFunction(v,null)}o=E&&this.compileFunction(E)?this.makeCallDirect(E,[t,i]):c.createUnreachable();break;case 12:if(!(E=this.f64ModInstance)){var g,v;if(!(g=this.program.lookupGlobal(u.LibrarySymbols.Math))){this.error(l.DiagnosticCode.Cannot_find_name_0,e.range,"Math"),o=c.createUnreachable();break}if(!(v=g.members?g.members.get(u.LibrarySymbols.mod):null)){this.error(l.DiagnosticCode.Cannot_find_name_0,e.range,"Math.mod"),o=c.createUnreachable();break}assert(v.kind==_.ElementKind.FUNCTION_PROTOTYPE),this.f64ModInstance=E=this.resolver.resolveFunction(v,null)}o=E&&this.compileFunction(E)?this.makeCallDirect(E,[t,i]):c.createUnreachable();break;default:assert(!1),o=c.createUnreachable()}break;case y.Token.LESSTHAN_LESSTHAN_EQUALS:m=!0;case y.Token.LESSTHAN_LESSTHAN:if(t=this.compileExpressionRetainType(h,r.intType,0),n=this.currentType,this.currentType.is(256)){if(I=n.classReference)if(b=I.lookupOverload(_.OperatorKind.BITWISE_SHL)){o=this.compileBinaryOverload(b,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}switch(i=this.compileExpression(d,n,1,0),a=this.currentType,this.currentType.kind){case 0:case 1:case 5:case 6:case 10:case 2:case 7:o=c.createBinary(p.BinaryOp.ShlI32,t,i);break;case 3:case 8:o=c.createBinary(p.BinaryOp.ShlI64,t,i);break;case 9:case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.ShlI64:p.BinaryOp.ShlI32,t,i);break;case 11:case 12:return this.error(l.DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,e.range,y.operatorTokenToString(e.operator),this.currentType.toString()),c.createUnreachable();default:assert(!1),o=c.createUnreachable()}break;case y.Token.GREATERTHAN_GREATERTHAN_EQUALS:m=!0;case y.Token.GREATERTHAN_GREATERTHAN:if(t=this.compileExpressionRetainType(h,r.intType,0),n=this.currentType,this.currentType.is(256)){if(I=n.classReference)if(b=I.lookupOverload(_.OperatorKind.BITWISE_SHR)){o=this.compileBinaryOverload(b,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}switch(t=this.ensureSmallIntegerWrap(t,n),i=this.compileExpression(d,n,1,1),a=this.currentType,this.currentType.kind){case 0:case 1:case 2:o=c.createBinary(p.BinaryOp.ShrI32,t,i);break;case 3:o=c.createBinary(p.BinaryOp.ShrI64,t,i);break;case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.ShrI64:p.BinaryOp.ShrI32,t,i);break;case 5:case 6:case 10:case 7:o=c.createBinary(p.BinaryOp.ShrU32,t,i);break;case 8:o=c.createBinary(p.BinaryOp.ShrU64,t,i);break;case 9:o=c.createBinary(this.options.isWasm64?p.BinaryOp.ShrU64:p.BinaryOp.ShrU32,t,i);break;case 11:case 12:return this.error(l.DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,e.range,y.operatorTokenToString(e.operator),this.currentType.toString()),c.createUnreachable();default:assert(!1),o=c.createUnreachable()}break;case y.Token.GREATERTHAN_GREATERTHAN_GREATERTHAN_EQUALS:m=!0;case y.Token.GREATERTHAN_GREATERTHAN_GREATERTHAN:if(t=this.compileExpressionRetainType(h,r.intType,0),n=this.currentType,this.currentType.is(256)){if(I=n.classReference)if(b=I.lookupOverload(_.OperatorKind.BITWISE_SHR_U)){o=this.compileBinaryOverload(b,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}switch(t=this.ensureSmallIntegerWrap(t,n),i=this.compileExpression(d,n,1,0),a=this.currentType,this.currentType.kind){case 5:case 6:case 10:o=c.createBinary(p.BinaryOp.ShrU32,t,i);case 0:case 1:case 2:case 7:o=c.createBinary(p.BinaryOp.ShrU32,t,i);break;case 3:case 8:o=c.createBinary(p.BinaryOp.ShrU64,t,i);break;case 9:case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.ShrU64:p.BinaryOp.ShrU32,t,i);break;case 11:case 12:return this.error(l.DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,e.range,y.operatorTokenToString(e.operator),this.currentType.toString()),c.createUnreachable();default:assert(!1),o=c.createUnreachable()}break;case y.Token.AMPERSAND_EQUALS:m=!0;case y.Token.AMPERSAND:if(t=this.compileExpressionRetainType(h,r.intType,0),n=this.currentType,this.currentType.is(256)){if(I=n.classReference)if(b=I.lookupOverload(_.OperatorKind.BITWISE_AND)){o=this.compileBinaryOverload(b,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}if(m)i=this.compileExpression(d,n,1,0),a=this.currentType;else{if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=T.Type.commonDenominator(n,a,!1)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,"&",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();t=this.convertExpression(t,n,n=s,1,0,h),i=this.convertExpression(i,a,a=s,1,0,d)}switch(this.currentType.kind){case 0:case 1:case 2:case 5:case 6:case 10:case 7:o=c.createBinary(p.BinaryOp.AndI32,t,i);break;case 3:case 8:o=c.createBinary(p.BinaryOp.AndI64,t,i);break;case 9:case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.AndI64:p.BinaryOp.AndI32,t,i);break;case 11:case 12:return this.error(l.DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,e.range,y.operatorTokenToString(e.operator),this.currentType.toString()),c.createUnreachable();default:assert(!1),o=c.createUnreachable()}break;case y.Token.BAR_EQUALS:m=!0;case y.Token.BAR:if(t=this.compileExpressionRetainType(h,r.intType,0),n=this.currentType,this.currentType.is(256)){if(I=n.classReference)if(b=I.lookupOverload(_.OperatorKind.BITWISE_OR)){o=this.compileBinaryOverload(b,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}if(m)i=this.compileExpression(d,n,1,0),a=this.currentType;else{if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=T.Type.commonDenominator(n,a,!1)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,"|",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();t=this.convertExpression(t,n,n=s,1,0,h),i=this.convertExpression(i,a,a=s,1,0,d)}switch(this.currentType.kind){case 0:case 1:case 5:case 6:case 10:o=c.createBinary(p.BinaryOp.OrI32,t,i);break;case 2:case 7:o=c.createBinary(p.BinaryOp.OrI32,t,i);break;case 3:case 8:o=c.createBinary(p.BinaryOp.OrI64,t,i);break;case 9:case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.OrI64:p.BinaryOp.OrI32,t,i);break;case 11:case 12:return this.error(l.DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,e.range,y.operatorTokenToString(e.operator),this.currentType.toString()),c.createUnreachable();default:assert(!1),o=c.createUnreachable()}break;case y.Token.CARET_EQUALS:m=!0;case y.Token.CARET:if(t=this.compileExpressionRetainType(h,r.intType,0),n=this.currentType,this.currentType.is(256)){var I,b;if(I=n.classReference)if(b=I.lookupOverload(_.OperatorKind.BITWISE_XOR)){o=this.compileBinaryOverload(b,h,t,d,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}if(m)i=this.compileExpression(d,n,1,0),a=this.currentType;else{if(i=this.compileExpressionRetainType(d,n,0),a=this.currentType,!(s=T.Type.commonDenominator(n,a,!1)))return this.error(l.DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,e.range,"^",n.toString(),a.toString()),this.currentType=r,c.createUnreachable();t=this.convertExpression(t,n,n=s,1,0,h),i=this.convertExpression(i,a,a=s,1,0,d)}switch(this.currentType.kind){case 0:case 1:case 5:case 6:case 10:o=c.createBinary(p.BinaryOp.XorI32,t,i);break;case 2:case 7:o=c.createBinary(p.BinaryOp.XorI32,t,i);break;case 3:case 8:o=c.createBinary(p.BinaryOp.XorI64,t,i);break;case 9:case 4:o=c.createBinary(this.options.isWasm64?p.BinaryOp.XorI64:p.BinaryOp.XorI32,t,i);break;case 11:case 12:return this.error(l.DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,e.range,y.operatorTokenToString(e.operator),this.currentType.toString()),c.createUnreachable();default:assert(!1),o=c.createUnreachable()}break;case y.Token.AMPERSAND_AMPERSAND:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,i=this.compileExpression(d,n,1,0),a=this.currentType,o=c.cloneExpression(t,!0,0))o=c.createIf(this.makeIsTrueish(t,this.currentType),i,o);else{var x=(S=this.currentFlow).getAndFreeTempLocal(this.currentType,!S.canOverflow(t,this.currentType));o=c.createIf(this.makeIsTrueish(c.createTeeLocal(x.index,t),this.currentType),i,c.createGetLocal(assert(x).index,this.currentType.toNativeType()))}break;case y.Token.BAR_BAR:if(t=this.compileExpressionRetainType(h,r,0),n=this.currentType,i=this.compileExpression(d,n,1,0),a=this.currentType,o=this.module.cloneExpression(t,!0,0))o=this.module.createIf(this.makeIsTrueish(t,this.currentType),o,i);else{var S;x=(S=this.currentFlow).getAndFreeTempLocal(this.currentType,!S.canOverflow(t,this.currentType));o=c.createIf(this.makeIsTrueish(c.createTeeLocal(x.index,t),this.currentType),c.createGetLocal(assert(x).index,this.currentType.toNativeType()),i)}break;default:assert(!1),o=this.module.createUnreachable()}return m?this.compileAssignmentWithValue(h,o,r!=T.Type.void):o},r.prototype.compileUnaryOverload=function(e,r,t,n){var i,a=0;return e.is(u.CommonFlags.INSTANCE)?(a=t,i=[]):i=[r],this.compileCallDirect(e,i,n,a)},r.prototype.compileBinaryOverload=function(e,r,t,n,i){var a,s=0;if(e.is(u.CommonFlags.INSTANCE)){var o=assert(e.parent);assert(o.kind==_.ElementKind.CLASS),s=t,a=[n]}else a=[r,n];return this.compileCallDirect(e,a,i,s)},r.prototype.compileAssignment=function(e,r,t){var n,i=this.program.resolver,a=this.currentFlow,s=i.resolveExpression(e,a);if(!s)return this.module.createUnreachable();switch(s.kind){case _.ElementKind.GLOBAL:if(!this.compileGlobal(s))return this.module.createUnreachable();assert(s.type!=T.Type.void);case _.ElementKind.LOCAL:case _.ElementKind.FIELD:n=s.type;break;case _.ElementKind.PROPERTY_PROTOTYPE:var o=s.setterPrototype;if(!o)return this.error(l.DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,e.range,s.internalName),this.module.createUnreachable();if(!(c=this.resolver.resolveFunction(o,null,f.makeMap(),d.ReportMode.REPORT)))return this.module.createUnreachable();assert(1==c.signature.parameterTypes.length),n=c.signature.parameterTypes[0];break;case _.ElementKind.PROPERTY:var c;if(!(c=s.setterInstance))return this.error(l.DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,e.range,s.internalName),this.module.createUnreachable();assert(1==c.signature.parameterTypes.length),n=c.signature.parameterTypes[0];break;case _.ElementKind.CLASS:if(i.currentElementExpression){var p=a.is(8192),u=s.lookupOverload(_.OperatorKind.INDEXED_SET,p);if(!u)return s.lookupOverload(_.OperatorKind.INDEXED_GET,p)?this.error(l.DiagnosticCode.Index_signature_in_type_0_only_permits_reading,e.range,s.internalName):this.error(l.DiagnosticCode.Index_signature_is_missing_in_type_0,e.range,s.internalName),this.module.createUnreachable();assert(2==u.signature.parameterTypes.length),n=u.signature.parameterTypes[1];break}default:return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()}assert(n!=T.Type.void);var h=this.compileExpression(r,n,1,0);return this.compileAssignmentWithValue(e,h,t!=T.Type.void)},r.prototype.compileAssignmentWithValue=function(e,r,t){void 0===t&&(t=!1);var n=this.module,i=this.currentFlow,a=this.resolver.resolveExpression(e,i);if(!a)return n.createUnreachable();switch(a.kind){case _.ElementKind.LOCAL:var s=a.type;return assert(s!=T.Type.void),this.currentType=t?s:T.Type.void,a.is(u.CommonFlags.CONST)?(this.error(l.DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,e.range,a.internalName),n.createUnreachable()):(s.is(36)&&i.setLocalWrapped(a.index,!i.canOverflow(r,s)),t?n.createTeeLocal(a.index,r):n.createSetLocal(a.index,r));case _.ElementKind.GLOBAL:if(!this.compileGlobal(a))return n.createUnreachable();s=a.type;if(assert(s!=T.Type.void),this.currentType=t?s:T.Type.void,a.is(u.CommonFlags.CONST))return this.error(l.DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,e.range,a.internalName),n.createUnreachable();if(r=this.ensureSmallIntegerWrap(r,s),t){var o=s.toNativeType(),c=a.internalName;return n.createBlock(null,[n.createSetGlobal(c,r),n.createGetGlobal(c,o)],o)}return n.createSetGlobal(a.internalName,r);case _.ElementKind.FIELD:var p=a.initializerNode;if(a.is(u.CommonFlags.READONLY)&&!i.actualFunction.is(u.CommonFlags.CONSTRUCTOR)&&!p)return this.error(l.DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,e.range,a.internalName),n.createUnreachable();var h=assert(this.resolver.currentThisExpression),y=this.compileExpressionRetainType(h,this.options.usizeType,0);s=a.type;this.currentType=t?s:T.Type.void;o=s.toNativeType();if(10==s.kind&&(r=this.ensureSmallIntegerWrap(r,s)),t){var m=this.currentFlow,E=m.getAndFreeTempLocal(s,!m.canOverflow(r,s)).index;return n.createBlock(null,[n.createSetLocal(E,r),n.createStore(s.byteSize,y,n.createGetLocal(E,o),o,a.memoryOffset),n.createGetLocal(E,o)],o)}return n.createStore(s.byteSize,y,r,o,a.memoryOffset);case _.ElementKind.PROPERTY_PROTOTYPE:var g=a.setterPrototype;if(!g)return this.error(l.DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,e.range,a.internalName),n.createUnreachable();if(!(b=this.resolver.resolveFunction(g,null,f.makeMap(),d.ReportMode.REPORT)))return n.createUnreachable();if(!t)return this.makeCallDirect(b,[r]);var v=assert(a.getterPrototype);if(!(S=this.resolver.resolveFunction(v,null,f.makeMap(),d.ReportMode.REPORT)))return n.createUnreachable();var I=(B=S.signature.returnType).toNativeType();return n.createBlock(null,[this.makeCallDirect(b,[r]),this.makeCallDirect(S)],I);case _.ElementKind.PROPERTY:var b;if(!(b=a.setterInstance))return this.error(l.DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,e.range,a.internalName),n.createUnreachable();if(!t){var x=this.compileExpressionRetainType(assert(this.resolver.currentThisExpression),this.options.usizeType,0);return this.makeCallDirect(b,[x,r])}var S;I=(B=(S=assert(a.getterInstance)).signature.returnType).toNativeType(),y=this.compileExpressionRetainType(assert(this.resolver.currentThisExpression),this.options.usizeType,0),E=i.getAndFreeTempLocal(B,!1).index;return n.createBlock(null,[this.makeCallDirect(b,[n.createTeeLocal(E,y),r]),this.makeCallDirect(S,[n.createGetLocal(E,I)])],I);case _.ElementKind.CLASS:var A=this.resolver.currentElementExpression;if(A){var N=i.is(8192),O=a.lookupOverload(_.OperatorKind.INDEXED_GET,N);if(!O)return this.error(l.DiagnosticCode.Index_signature_is_missing_in_type_0,e.range,a.internalName),n.createUnreachable();var C=a.lookupOverload(_.OperatorKind.INDEXED_SET,N);if(!C)return this.error(l.DiagnosticCode.Index_signature_in_type_0_only_permits_reading,e.range,a.internalName),this.currentType=t?O.signature.returnType:T.Type.void,n.createUnreachable();var k=a.type,R=(h=assert(this.resolver.currentThisExpression),y=this.compileExpressionRetainType(h,this.options.usizeType,0),this.compileExpression(A,T.Type.i32,1,0));if(t){var L=i.getTempLocal(k,!1),F=i.getAndFreeTempLocal(this.currentType,!1),B=O.signature.returnType;return i.freeTempLocal(L),n.createBlock(null,[this.makeCallDirect(C,[n.createTeeLocal(L.index,y),n.createTeeLocal(F.index,R),r]),this.makeCallDirect(O,[n.createGetLocal(L.index,L.type.toNativeType()),n.createGetLocal(F.index,F.type.toNativeType())])],B.toNativeType())}return this.makeCallDirect(C,[y,R,r])}}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),n.createUnreachable()},r.prototype.compileCallExpression=function(e,r){var t=this.module,n=this.currentFlow;if(e.expression.kind==m.NodeKind.SUPER){var i=this.currentFlow,a=i.actualFunction;if(!a.is(u.CommonFlags.CONSTRUCTOR))return this.error(l.DiagnosticCode.Super_calls_are_not_permitted_outside_constructors_or_in_nested_functions_inside_constructors,e.range),t.createUnreachable();var s=assert(a.parent);assert(s.kind==_.ElementKind.CLASS);var o=assert(s.base),c=assert(i.lookupLocal(u.CommonSymbols.this_)),h=this.options.nativeSizeType,d=[t.createSetLocal(c.index,this.compileCallDirect(this.ensureConstructor(o,e),e.arguments,e,t.createIf(t.createGetLocal(c.index,h),t.createGetLocal(c.index,h),this.makeAllocation(s))))];return this.makeFieldInitialization(s,d),i.isAny(2080)?(this.error(l.DiagnosticCode._super_must_be_called_before_accessing_this_in_the_constructor_of_a_derived_class,e.range),t.createUnreachable()):(i.set(96),this.currentType=T.Type.void,t.createBlock(null,d))}var y,E,g=this.resolver.resolveExpression(e.expression,n);if(!g)return t.createUnreachable();switch(g.kind){case _.ElementKind.FUNCTION_PROTOTYPE:var v=g,I=e.typeArguments;if(v.hasDecorator(_.DecoratorFlags.BUILTIN))return this.compileCallExpressionBuiltin(v,e,r);var b=null;if(I){if(!v.is(u.CommonFlags.GENERIC))return this.error(l.DiagnosticCode.Type_0_is_not_generic,e.expression.range,v.internalName),t.createUnreachable();b=this.resolver.resolveFunctionInclTypeArguments(v,I,n.actualFunction.parent,f.makeMap(n.contextualTypeArguments),e)}else{if(v.is(u.CommonFlags.GENERIC)){for(var x=new Map,S=assert(v.typeParameterNodes),A=S.length,N=0;Ns&&!i)||(this.error(l.DiagnosticCode.Expected_0_arguments_but_got_1,n.range,s.toString(),r.toString()),!1)},r.prototype.compileCallDirect=function(e,r,t,n){void 0===n&&(n=0);var i=r.length,a=e.signature;if(!this.checkCallSignature(a,i,0!=n,t))return this.module.createUnreachable();if(e.hasDecorator(_.DecoratorFlags.INLINE)){if(assert(!e.is(u.CommonFlags.TRAMPOLINE)),!this.currentInlineFunctions.includes(e)){this.currentInlineFunctions.push(e);var s=this.compileCallInlinePrechecked(e,r,n);return this.currentInlineFunctions.pop(),s}this.warning(l.DiagnosticCode.Function_0_cannot_be_inlined_into_itself,t.range,e.internalName)}var o=n?i+1:i,c=new Array(o),p=0;n&&(c[0]=n,p=1);for(var h=a.parameterTypes,d=0;d=i);var o=this.module;if(!this.compileFunction(e))return o.createUnreachable();var c=e.signature.returnType,l=e.is(u.CommonFlags.MODULE_IMPORT);if(t=a),this.ensureFunctionType(e.parameterTypes,e.returnType,e.thisType);var c=this.module;if(nd)return this.error(l.DiagnosticCode.Expected_0_arguments_but_got_1,e.range,d.toString(),u.toString()),this.module.createUnreachable();for(var y=new Array(u),E=0;E=0),this.currentType=A,this.module.createGetLocal(N,A.toNativeType());case _.ElementKind.GLOBAL:if(!this.compileGlobal(S))return this.module.createUnreachable();var O=S.type;return assert(O!=T.Type.void),S.is(u.CommonFlags.INLINED)?this.compileInlineConstant(S,r,t):(this.currentType=O,this.module.createGetGlobal(S.internalName,O.toNativeType()));case _.ElementKind.ENUMVALUE:return S.is(u.CommonFlags.COMPILED)?(this.currentType=T.Type.i32,S.is(u.CommonFlags.INLINED)?(assert(1==S.constantValueKind),this.module.createI32(i64_low(S.constantIntegerValue))):this.module.createGetGlobal(S.internalName,p.NativeType.I32)):(this.error(l.DiagnosticCode.A_member_initializer_in_a_enum_declaration_cannot_reference_members_declared_after_it_including_members_defined_in_other_enums,e.range),this.currentType=T.Type.i32,this.module.createUnreachable());case _.ElementKind.FUNCTION_PROTOTYPE:var C=this.resolver.resolveFunction(S,null,f.makeMap(i.contextualTypeArguments));if(!C||!this.compileFunction(C))return n.createUnreachable();var k=this.ensureFunctionTableEntry(C);return this.currentType=C.signature.type,this.module.createI32(k)}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.module.createUnreachable()},r.prototype.compileInstanceOfExpression=function(e,r){var t=this.module,n=this.compileExpressionRetainType(e.expression,this.options.usizeType,0),i=this.currentType,a=this.resolver.resolveType(e.isType,this.currentFlow.actualFunction);return this.currentType=T.Type.bool,a?a.is(256)?i.is(512)&&!a.is(512)&&i.nonNullableType.isAssignableTo(a)?t.createBinary(i.is(64)?p.BinaryOp.NeI64:p.BinaryOp.NeI32,n,i.toNativeZero(t)):t.createI32(i.isAssignableTo(a)?1:0):t.createI32(i==a?1:0):t.createUnreachable()},r.prototype.compileLiteralExpression=function(e,r,t){void 0===t&&(t=!1);var n=this.module;switch(e.literalKind){case m.LiteralKind.ARRAY:assert(!t);var i=r.classReference;return i&&i.prototype==this.program.arrayPrototype?this.compileArrayLiteral(assert(i.typeArguments)[0],e.elementExpressions,!1,e):(this.error(l.DiagnosticCode.Operation_not_supported,e.range),n.createUnreachable());case m.LiteralKind.FLOAT:var a=e.value;return t&&(a=-a),r==T.Type.f32?n.createF32(a):(this.currentType=T.Type.f64,n.createF64(a));case m.LiteralKind.INTEGER:var s=e.value;t&&(s=i64_sub(i64_new(0),s));var o=this.resolver.determineIntegerLiteralType(s,r);switch(this.currentType=o,o.kind){case 4:if(!this.options.isWasm64)return n.createI32(i64_low(s));case 3:return n.createI64(i64_low(s),i64_high(s));case 9:if(!this.options.isWasm64)return n.createI32(i64_low(s));case 8:return n.createI64(i64_low(s),i64_high(s));case 11:return n.createF32(i64_to_f32(s));case 12:return n.createF64(i64_to_f64(s));default:return n.createI32(i64_low(s))}case m.LiteralKind.STRING:return assert(!t),this.compileStringLiteral(e);case m.LiteralKind.OBJECT:return assert(!t),this.compileObjectLiteral(e,r)}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),this.currentType=r,n.createUnreachable()},r.prototype.ensureStaticString=function(e){var r,t=this.program,n=t.hasGC,i=t.gcHeaderSize,a=assert(t.stringInstance),s=this.stringSegments;if(s.has(e))r=s.get(e);else{var o=e.length,l=a.currentMemoryOffset+1&-2,p=l+2*o,_=void 0,h=void 0;n?(_=new Uint8Array(i+p),h=i,f.writeI32(c.ensureGCHook(this,a),_,t.gcHookOffset)):(_=new Uint8Array(p),h=0),f.writeI32(o,_,h+a.offsetof(u.LibrarySymbols.length)),h+=l;for(var d=0;d",r.toString()),t.createUnreachable();var i=n.constructorInstance;if(i){if(i.signature.requiredParameters)return this.error(l.DiagnosticCode.Constructor_of_class_0_must_not_require_any_arguments,e.range,n.toString()),t.createUnreachable();if(i.is(u.CommonFlags.PRIVATE))return this.error(l.DiagnosticCode.Constructor_of_class_0_is_private_and_only_accessible_within_the_class_declaration,e.range,n.toString()),t.createUnreachable();if(i.is(u.CommonFlags.PROTECTED))return this.error(l.DiagnosticCode.Constructor_of_class_0_is_protected_and_only_accessible_within_the_class_declaration,e.range,n.toString()),t.createUnreachable()}var a=e.names,s=a.length,o=e.values,c=n.members,p=!1,h=new Array(s+2),d=this.currentFlow.getTempLocal(this.options.usizeType);assert(s==o.length);for(var y=0,m=s;yv)for(m=v;m=0);var c=this.compileExpressionRetainType(assert(this.resolver.currentThisExpression),this.options.usizeType,0);return this.currentType=a.type,n.createLoad(a.type.byteSize,a.type.is(5),c,a.type.toNativeType(),a.memoryOffset);case _.ElementKind.PROPERTY_PROTOTYPE:var h=a.getterPrototype;if(h){var d=this.resolver.resolveFunction(h,null);if(d)return this.compileCallDirect(d,[],e,0)}return n.createUnreachable();case _.ElementKind.PROPERTY:var y=assert(a.getterInstance);return this.compileCallDirect(y,[],e,this.compileExpressionRetainType(assert(this.resolver.currentThisExpression),this.options.usizeType,0));case _.ElementKind.FUNCTION_PROTOTYPE:return this.error(l.DiagnosticCode.Cannot_access_method_0_without_calling_it_as_it_requires_this_to_be_set,e.range,a.name),n.createUnreachable()}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),n.createUnreachable()},r.prototype.compileGetter=function(e,r){var t=e.getterPrototype;if(t){var n=this.resolver.resolveFunction(t,null);if(!n)return this.module.createUnreachable();var i=n.signature;if(!this.checkCallSignature(i,0,n.is(u.CommonFlags.INSTANCE),r))return this.module.createUnreachable();if(n.is(u.CommonFlags.INSTANCE)){var a=assert(n.parent);assert(a.kind==_.ElementKind.CLASS);var s=assert(this.resolver.currentThisExpression),o=this.compileExpressionRetainType(s,this.options.usizeType,0);//!!! +return this.currentType=i.returnType,this.compileCallDirect(n,[],r,o)}return this.currentType=i.returnType,this.compileCallDirect(n,[],r,0)}return this.error(l.DiagnosticCode.Property_0_does_not_exist_on_type_1,r.range,e.name,e.parent.toString()),this.module.createUnreachable()},r.prototype.compileTernaryExpression=function(e,r){var t=e.ifThen,n=e.ifElse,i=this.currentFlow,a=this.makeIsTrueish(this.compileExpressionRetainType(e.condition,T.Type.bool,0),this.currentType),s=this.module.precomputeExpression(a);if(p.getExpressionId(s)==p.ExpressionId.Const&&p.getExpressionType(s)==p.NativeType.I32)return p.getConstValueI32(s)?this.compileExpressionRetainType(t,r,0):this.compileExpressionRetainType(n,r,0);a=this.makeIsTrueish(this.compileExpressionRetainType(e.condition,T.Type.bool,0),this.currentType);var o=i.fork();this.currentFlow=o;var c=this.compileExpressionRetainType(t,r,0),u=this.currentType;o.freeScopedLocals();var _=i.fork();this.currentFlow=_;var h=this.compileExpressionRetainType(n,r,0),d=this.currentType;_.freeScopedLocals(),this.currentFlow=i,i.inheritMutual(o,_);var y=T.Type.commonDenominator(u,d,!1);return y?(c=this.convertExpression(c,u,y,1,0,t),h=this.convertExpression(h,d,y,1,0,n),this.currentType=y,this.module.createIf(a,c,h)):(this.error(l.DiagnosticCode.Type_0_is_not_assignable_to_type_1,e.range,u.toString(),d.toString()),this.currentType=r,this.module.createUnreachable())},r.prototype.compileUnaryPostfixExpression=function(e,r){var t=this.module,n=this.currentFlow,i=this.compileExpression(e.operand,r==T.Type.void?T.Type.i32:r,0,0);if(p.getExpressionId(i)==p.ExpressionId.Unreachable)return i;var a,s=this.currentType,o=null;switch(r!=T.Type.void&&(o=n.getTempLocal(s,!1),i=t.createTeeLocal(o.index,i)),e.operator){case y.Token.PLUS_PLUS:switch(s.kind){case 0:case 1:case 2:case 5:case 6:case 7:case 10:a=t.createBinary(p.BinaryOp.AddI32,i,t.createI32(1));break;case 9:if(this.currentType.is(256)){if(u=this.currentType.classReference)if(h=u.lookupOverload(_.OperatorKind.POSTFIX_INC)){a=this.compileUnaryOverload(h,e.operand,i,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),t.createUnreachable()}case 4:var c=this.options;a=t.createBinary(c.isWasm64?p.BinaryOp.AddI64:p.BinaryOp.AddI32,i,s.toNativeOne(t));break;case 3:case 8:a=t.createBinary(p.BinaryOp.AddI64,i,t.createI64(1));break;case 11:a=t.createBinary(p.BinaryOp.AddF32,i,t.createF32(1));break;case 12:a=t.createBinary(p.BinaryOp.AddF64,i,t.createF64(1));break;default:return assert(!1),t.createUnreachable()}break;case y.Token.MINUS_MINUS:switch(s.kind){case 0:case 1:case 2:case 5:case 6:case 7:case 10:a=t.createBinary(p.BinaryOp.SubI32,i,t.createI32(1));break;case 9:if(this.currentType.is(256)){var u,h;if(u=this.currentType.classReference)if(h=u.lookupOverload(_.OperatorKind.POSTFIX_DEC)){a=this.compileUnaryOverload(h,e.operand,i,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),t.createUnreachable()}case 4:c=this.options;a=t.createBinary(c.isWasm64?p.BinaryOp.SubI64:p.BinaryOp.SubI32,i,s.toNativeOne(t));break;case 3:case 8:a=t.createBinary(p.BinaryOp.SubI64,i,t.createI64(1));break;case 11:a=t.createBinary(p.BinaryOp.SubF32,i,t.createF32(1));break;case 12:a=t.createBinary(p.BinaryOp.SubF64,i,t.createF64(1));break;default:return assert(!1),t.createUnreachable()}break;default:return assert(!1),t.createUnreachable()}if(!o)return this.currentType=T.Type.void,this.compileAssignmentWithValue(e.operand,a,!1);var d=this.compileAssignmentWithValue(e.operand,a,!1);this.currentType=o.type,n.freeTempLocal(o);var m=o.type.toNativeType();return t.createBlock(null,[d,t.createGetLocal(o.index,m)],m)},r.prototype.compileUnaryPrefixExpression=function(e,r){var t,n=this.module,i=!1;switch(e.operator){case y.Token.PLUS:if(t=this.compileExpression(e.operand,r==T.Type.void?T.Type.i32:r,0,0),this.currentType.is(256)){if(a=this.currentType.classReference)if(s=a.lookupOverload(_.OperatorKind.PLUS)){t=this.compileUnaryOverload(s,e.operand,t,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),n.createUnreachable()}break;case y.Token.MINUS:if(e.operand.kind==m.NodeKind.LITERAL&&(e.operand.literalKind==m.LiteralKind.INTEGER||e.operand.literalKind==m.LiteralKind.FLOAT)){t=this.compileLiteralExpression(e.operand,r,!0),this.options.sourceMap&&this.addDebugLocation(t,e.range);break}if(t=this.compileExpression(e.operand,r==T.Type.void?T.Type.i32:r,0,0),this.currentType.is(256)){if(a=this.currentType.classReference)if(s=a.lookupOverload(_.OperatorKind.MINUS)){t=this.compileUnaryOverload(s,e.operand,t,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),n.createUnreachable()}switch(this.currentType.kind){case 0:case 1:case 2:case 5:case 6:case 7:case 10:t=n.createBinary(p.BinaryOp.SubI32,n.createI32(0),t);break;case 9:case 4:t=n.createBinary(this.options.isWasm64?p.BinaryOp.SubI64:p.BinaryOp.SubI32,this.currentType.toNativeZero(n),t);break;case 3:case 8:t=n.createBinary(p.BinaryOp.SubI64,n.createI64(0),t);break;case 11:t=n.createUnary(p.UnaryOp.NegF32,t);break;case 12:t=n.createUnary(p.UnaryOp.NegF64,t);break;default:assert(!1),t=n.createUnreachable()}break;case y.Token.PLUS_PLUS:if(i=!0,t=this.compileExpression(e.operand,r==T.Type.void?T.Type.i32:r,0,0),this.currentType.is(256)){if(a=this.currentType.classReference)if(s=a.lookupOverload(_.OperatorKind.PREFIX_INC)){t=this.compileUnaryOverload(s,e.operand,t,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),n.createUnreachable()}switch(this.currentType.kind){case 0:case 1:case 2:case 5:case 6:case 7:case 10:t=n.createBinary(p.BinaryOp.AddI32,t,this.module.createI32(1));break;case 9:case 4:t=n.createBinary(this.options.isWasm64?p.BinaryOp.AddI64:p.BinaryOp.AddI32,t,this.currentType.toNativeOne(n));break;case 3:case 8:t=n.createBinary(p.BinaryOp.AddI64,t,n.createI64(1));break;case 11:t=n.createBinary(p.BinaryOp.AddF32,t,n.createF32(1));break;case 12:t=n.createBinary(p.BinaryOp.AddF64,t,n.createF64(1));break;default:assert(!1),t=n.createUnreachable()}break;case y.Token.MINUS_MINUS:if(i=!0,t=this.compileExpression(e.operand,r==T.Type.void?T.Type.i32:r,0,0),this.currentType.is(256)){if(a=this.currentType.classReference)if(s=a.lookupOverload(_.OperatorKind.PREFIX_DEC)){t=this.compileUnaryOverload(s,e.operand,t,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),n.createUnreachable()}switch(this.currentType.kind){case 0:case 1:case 2:case 5:case 6:case 7:case 10:t=n.createBinary(p.BinaryOp.SubI32,t,n.createI32(1));break;case 9:case 4:t=n.createBinary(this.options.isWasm64?p.BinaryOp.SubI64:p.BinaryOp.SubI32,t,this.currentType.toNativeOne(n));break;case 3:case 8:t=n.createBinary(p.BinaryOp.SubI64,t,n.createI64(1));break;case 11:t=n.createBinary(p.BinaryOp.SubF32,t,n.createF32(1));break;case 12:t=n.createBinary(p.BinaryOp.SubF64,t,n.createF64(1));break;default:assert(!1),t=n.createUnreachable()}break;case y.Token.EXCLAMATION:if(t=this.compileExpression(e.operand,r==T.Type.void?T.Type.i32:r,0,0),this.currentType.is(256))if(a=this.currentType.classReference)if(s=a.lookupOverload(_.OperatorKind.NOT)){t=this.compileUnaryOverload(s,e.operand,t,e);break}t=this.makeIsFalseish(t,this.currentType),this.currentType=T.Type.bool;break;case y.Token.TILDE:if(t=this.compileExpression(e.operand,r==T.Type.void?T.Type.i32:r.is(8)?T.Type.i64:r,0,0),this.currentType.is(256)){var a,s;if(a=this.currentType.classReference)if(s=a.lookupOverload(_.OperatorKind.BITWISE_NOT)){t=this.compileUnaryOverload(s,e.operand,t,e);break}return this.error(l.DiagnosticCode.Operation_not_supported,e.range),n.createUnreachable()}switch(t=this.convertExpression(t,this.currentType,this.currentType.intType,1,0,e.operand),this.currentType.kind){case 0:case 1:case 2:case 5:case 6:case 7:case 10:t=n.createBinary(p.BinaryOp.XorI32,t,n.createI32(-1));break;case 9:case 4:t=n.createBinary(this.options.isWasm64?p.BinaryOp.XorI64:p.BinaryOp.XorI32,t,this.currentType.toNativeNegOne(n));break;case 3:case 8:t=n.createBinary(p.BinaryOp.XorI64,t,n.createI64(-1,-1));break;default:assert(!1),t=n.createUnreachable()}break;case y.Token.TYPEOF:return this.error(l.DiagnosticCode.Operation_not_supported,e.range),n.createUnreachable();default:return assert(!1),n.createUnreachable()}return i?this.compileAssignmentWithValue(e.operand,t,r!=T.Type.void):t},r.prototype.ensureSmallIntegerWrap=function(e,r){var t=this.module,n=this.currentFlow;switch(r.kind){case 0:n.canOverflow(e,r)&&(e=this.options.hasFeature(1)?t.createUnary(p.UnaryOp.ExtendI8ToI32,e):t.createBinary(p.BinaryOp.ShrI32,t.createBinary(p.BinaryOp.ShlI32,e,t.createI32(24)),t.createI32(24)));break;case 1:n.canOverflow(e,r)&&(e=this.options.hasFeature(1)?t.createUnary(p.UnaryOp.ExtendI16ToI32,e):t.createBinary(p.BinaryOp.ShrI32,t.createBinary(p.BinaryOp.ShlI32,e,t.createI32(16)),t.createI32(16)));break;case 5:n.canOverflow(e,r)&&(e=t.createBinary(p.BinaryOp.AndI32,e,t.createI32(255)));break;case 6:n.canOverflow(e,r)&&(e=t.createBinary(p.BinaryOp.AndI32,e,t.createI32(65535)));break;case 10:n.canOverflow(e,r)&&(e=t.createBinary(p.BinaryOp.NeI32,e,t.createI32(0)))}return e},r.prototype.makeIsFalseish=function(e,r){var t=this.module;switch(r.kind){case 0:case 1:case 5:case 6:case 10:e=this.ensureSmallIntegerWrap(e,r);case 2:case 7:return t.createUnary(p.UnaryOp.EqzI32,e);case 3:case 8:return t.createUnary(p.UnaryOp.EqzI64,e);case 9:case 4:return t.createUnary(64==r.size?p.UnaryOp.EqzI64:p.UnaryOp.EqzI32,e);case 11:return t.createBinary(p.BinaryOp.EqF32,e,t.createF32(0));case 12:return t.createBinary(p.BinaryOp.EqF64,e,t.createF64(0));default:return assert(!1),t.createI32(1)}},r.prototype.makeIsTrueish=function(e,r){var t=this.module;switch(r.kind){case 0:case 1:case 5:case 6:case 10:e=this.ensureSmallIntegerWrap(e,r);case 2:case 7:return e;case 3:case 8:return t.createBinary(p.BinaryOp.NeI64,e,t.createI64(0));case 9:case 4:return 64==r.size?t.createBinary(p.BinaryOp.NeI64,e,t.createI64(0)):e;case 11:return t.createBinary(p.BinaryOp.NeF32,e,t.createF32(0));case 12:return t.createBinary(p.BinaryOp.NeF64,e,t.createF64(0));default:return assert(!1),t.createI32(0)}},r.prototype.makeAllocation=function(e){var r=this.program;assert(e.program==r);var t=this.module,n=this.options;if(r.hasGC&&e.type.isManaged(r)){var i=assert(r.gcAllocateInstance);return this.compileFunction(i)?(this.currentType=e.type,t.createCall(i.internalName,[n.isWasm64?t.createI64(e.currentMemoryOffset):t.createI32(e.currentMemoryOffset),t.createI32(c.ensureGCHook(this,e))],n.nativeSizeType)):t.createUnreachable()}return(i=r.memoryAllocateInstance)&&this.compileFunction(i)?(this.currentType=e.type,t.createCall(i.internalName,[n.isWasm64?t.createI64(e.currentMemoryOffset):t.createI32(e.currentMemoryOffset)],n.nativeSizeType)):t.createUnreachable()},r.prototype.makeFieldInitialization=function(e,r){var t,n;void 0===r&&(r=[]);var i=e.members;if(!i)return[];var s=this.module,o=this.currentFlow,c=o.is(4096),l=c?assert(o.lookupLocal(u.CommonSymbols.this_)).index:0,p=this.options.nativeSizeType;try{for(var h=a(i.values()),d=h.next();!d.done;d=h.next()){var y=d.value;if(y.kind==_.ElementKind.FIELD&&y.parent==e){var m=y;assert(!m.isAny(u.CommonFlags.CONST));var T=m.type,f=T.toNativeType(),E=m.prototype.initializerNode;if(E)r.push(s.createStore(T.byteSize,s.createGetLocal(l,p),this.compileExpression(E,T,1,0),f,m.memoryOffset));else{var g=m.prototype.parameterIndex;r.push(s.createStore(T.byteSize,s.createGetLocal(l,p),g>=0?s.createGetLocal(c?assert(o.lookupLocal(m.name)).index:1+g,f):T.toNativeZero(s),f,m.memoryOffset))}}}}catch(e){t={error:e}}finally{try{d&&!d.done&&(n=h.return)&&n.call(h)}finally{if(t)throw t.error}}return r},r.prototype.addDebugLocation=function(e,r){var t=this.currentFlow.parentFunction,n=r.source;n.debugInfoIndex<0&&(n.debugInfoIndex=this.module.addDebugInfoFile(n.normalizedPath)),r.debugInfoRef=e,t.debugLocations.push(r)},r}(l.DiagnosticEmitter);function x(e,r){if(g=r.range.source.simplePath,v=_.mangleInternalName(e.name,e.parent,e.is(u.CommonFlags.INSTANCE),!0),e.hasDecorator(_.DecoratorFlags.EXTERNAL)){var t=e.program,n=assert(m.findDecorator(m.DecoratorKind.EXTERNAL,r.decorators)),i=n.arguments;if(i&&i.length){var a=i[0];a.kind==m.NodeKind.LITERAL&&a.literalKind==m.LiteralKind.STRING?(v=a.value,i.length>=2&&((a=i[1]).kind==m.NodeKind.LITERAL&&a.literalKind==m.LiteralKind.STRING?(g=v,v=a.value,i.length>2&&t.error(l.DiagnosticCode.Expected_0_arguments_but_got_1,n.range,"2",i.length.toString())):t.error(l.DiagnosticCode.String_literal_expected,a.range))):t.error(l.DiagnosticCode.String_literal_expected,a.range)}else t.error(l.DiagnosticCode.Expected_at_least_0_arguments_but_got_1,n.range,"1","0")}}r.Compiler=b,function(e){e.started="~lib/started",e.argc="~lib/argc",e.setargc="~lib/setargc"}(I||(I={}))},function(e,r,t){"use strict";Object.defineProperty(r,"__esModule",{value:!0}),function(e){e[e.Operation_not_supported=100]="Operation_not_supported",e[e.Operation_is_unsafe=101]="Operation_is_unsafe",e[e.User_defined_0=102]="User_defined_0",e[e.Conversion_from_type_0_to_1_requires_an_explicit_cast=200]="Conversion_from_type_0_to_1_requires_an_explicit_cast",e[e.Conversion_from_type_0_to_1_will_require_an_explicit_cast_when_switching_between_32_64_bit=201]="Conversion_from_type_0_to_1_will_require_an_explicit_cast_when_switching_between_32_64_bit",e[e.Type_0_cannot_be_changed_to_type_1=202]="Type_0_cannot_be_changed_to_type_1",e[e.Type_0_cannot_be_reinterpreted_as_type_1=203]="Type_0_cannot_be_reinterpreted_as_type_1",e[e.Basic_type_0_cannot_be_nullable=204]="Basic_type_0_cannot_be_nullable",e[e.Cannot_export_a_mutable_global=205]="Cannot_export_a_mutable_global",e[e.Compiling_constant_with_non_constant_initializer_as_mutable=206]="Compiling_constant_with_non_constant_initializer_as_mutable",e[e.Unmanaged_classes_cannot_extend_managed_classes_and_vice_versa=207]="Unmanaged_classes_cannot_extend_managed_classes_and_vice_versa",e[e.Unmanaged_classes_cannot_implement_interfaces=208]="Unmanaged_classes_cannot_implement_interfaces",e[e.Invalid_regular_expression_flags=209]="Invalid_regular_expression_flags",e[e.Implementation_0_must_match_the_signature_1=210]="Implementation_0_must_match_the_signature_1",e[e.Class_0_is_sealed_and_cannot_be_extended=211]="Class_0_is_sealed_and_cannot_be_extended",e[e.Decorator_0_is_not_valid_here=212]="Decorator_0_is_not_valid_here",e[e.Duplicate_decorator=213]="Duplicate_decorator",e[e.An_allocator_must_be_declared_to_allocate_memory_Try_importing_allocator_arena_or_allocator_tlsf=214]="An_allocator_must_be_declared_to_allocate_memory_Try_importing_allocator_arena_or_allocator_tlsf",e[e.Optional_parameter_must_have_an_initializer=215]="Optional_parameter_must_have_an_initializer",e[e.Constructor_of_class_0_must_not_require_any_arguments=216]="Constructor_of_class_0_must_not_require_any_arguments",e[e.Function_0_cannot_be_inlined_into_itself=217]="Function_0_cannot_be_inlined_into_itself",e[e.Cannot_access_method_0_without_calling_it_as_it_requires_this_to_be_set=218]="Cannot_access_method_0_without_calling_it_as_it_requires_this_to_be_set",e[e.Optional_properties_are_not_supported=219]="Optional_properties_are_not_supported",e[e.Expression_must_be_a_compile_time_constant=220]="Expression_must_be_a_compile_time_constant",e[e.Module_cannot_have_multiple_start_functions=221]="Module_cannot_have_multiple_start_functions",e[e._0_must_be_a_value_between_1_and_2_inclusive=222]="_0_must_be_a_value_between_1_and_2_inclusive",e[e._0_must_be_a_power_of_two=223]="_0_must_be_a_power_of_two",e[e.Unterminated_string_literal=1002]="Unterminated_string_literal",e[e.Identifier_expected=1003]="Identifier_expected",e[e._0_expected=1005]="_0_expected",e[e.A_file_cannot_have_a_reference_to_itself=1006]="A_file_cannot_have_a_reference_to_itself",e[e.Trailing_comma_not_allowed=1009]="Trailing_comma_not_allowed",e[e.Unexpected_token=1012]="Unexpected_token",e[e.A_rest_parameter_must_be_last_in_a_parameter_list=1014]="A_rest_parameter_must_be_last_in_a_parameter_list",e[e.Parameter_cannot_have_question_mark_and_initializer=1015]="Parameter_cannot_have_question_mark_and_initializer",e[e.A_required_parameter_cannot_follow_an_optional_parameter=1016]="A_required_parameter_cannot_follow_an_optional_parameter",e[e.Statements_are_not_allowed_in_ambient_contexts=1036]="Statements_are_not_allowed_in_ambient_contexts",e[e.Initializers_are_not_allowed_in_ambient_contexts=1039]="Initializers_are_not_allowed_in_ambient_contexts",e[e._0_modifier_cannot_be_used_here=1042]="_0_modifier_cannot_be_used_here",e[e.A_rest_parameter_cannot_be_optional=1047]="A_rest_parameter_cannot_be_optional",e[e.A_rest_parameter_cannot_have_an_initializer=1048]="A_rest_parameter_cannot_have_an_initializer",e[e.A_set_accessor_must_have_exactly_one_parameter=1049]="A_set_accessor_must_have_exactly_one_parameter",e[e.A_set_accessor_parameter_cannot_have_an_initializer=1052]="A_set_accessor_parameter_cannot_have_an_initializer",e[e.A_get_accessor_cannot_have_parameters=1054]="A_get_accessor_cannot_have_parameters",e[e.Enum_member_must_have_initializer=1061]="Enum_member_must_have_initializer",e[e.Type_parameters_cannot_appear_on_a_constructor_declaration=1092]="Type_parameters_cannot_appear_on_a_constructor_declaration",e[e.Type_annotation_cannot_appear_on_a_constructor_declaration=1093]="Type_annotation_cannot_appear_on_a_constructor_declaration",e[e.An_accessor_cannot_have_type_parameters=1094]="An_accessor_cannot_have_type_parameters",e[e.A_set_accessor_cannot_have_a_return_type_annotation=1095]="A_set_accessor_cannot_have_a_return_type_annotation",e[e.Type_parameter_list_cannot_be_empty=1098]="Type_parameter_list_cannot_be_empty",e[e.A_continue_statement_can_only_be_used_within_an_enclosing_iteration_statement=1104]="A_continue_statement_can_only_be_used_within_an_enclosing_iteration_statement",e[e.A_break_statement_can_only_be_used_within_an_enclosing_iteration_or_switch_statement=1105]="A_break_statement_can_only_be_used_within_an_enclosing_iteration_or_switch_statement",e[e.A_return_statement_can_only_be_used_within_a_function_body=1108]="A_return_statement_can_only_be_used_within_a_function_body",e[e.Expression_expected=1109]="Expression_expected",e[e.Type_expected=1110]="Type_expected",e[e.A_default_clause_cannot_appear_more_than_once_in_a_switch_statement=1113]="A_default_clause_cannot_appear_more_than_once_in_a_switch_statement",e[e.Duplicate_label_0=1114]="Duplicate_label_0",e[e.Octal_literals_are_not_allowed_in_strict_mode=1121]="Octal_literals_are_not_allowed_in_strict_mode",e[e.Digit_expected=1124]="Digit_expected",e[e.Hexadecimal_digit_expected=1125]="Hexadecimal_digit_expected",e[e.Unexpected_end_of_text=1126]="Unexpected_end_of_text",e[e.Invalid_character=1127]="Invalid_character",e[e._case_or_default_expected=1130]="_case_or_default_expected",e[e._super_must_be_followed_by_an_argument_list_or_member_access=1034]="_super_must_be_followed_by_an_argument_list_or_member_access",e[e.A_declare_modifier_cannot_be_used_in_an_already_ambient_context=1038]="A_declare_modifier_cannot_be_used_in_an_already_ambient_context",e[e.Type_argument_expected=1140]="Type_argument_expected",e[e.String_literal_expected=1141]="String_literal_expected",e[e.Line_break_not_permitted_here=1142]="Line_break_not_permitted_here",e[e.Declaration_expected=1146]="Declaration_expected",e[e._const_declarations_must_be_initialized=1155]="_const_declarations_must_be_initialized",e[e.Unterminated_regular_expression_literal=1161]="Unterminated_regular_expression_literal",e[e.Interface_declaration_cannot_have_implements_clause=1176]="Interface_declaration_cannot_have_implements_clause",e[e.Binary_digit_expected=1177]="Binary_digit_expected",e[e.Octal_digit_expected=1178]="Octal_digit_expected",e[e.An_implementation_cannot_be_declared_in_ambient_contexts=1183]="An_implementation_cannot_be_declared_in_ambient_contexts",e[e.An_extended_Unicode_escape_value_must_be_between_0x0_and_0x10FFFF_inclusive=1198]="An_extended_Unicode_escape_value_must_be_between_0x0_and_0x10FFFF_inclusive",e[e.Unterminated_Unicode_escape_sequence=1199]="Unterminated_Unicode_escape_sequence",e[e.Decorators_are_not_valid_here=1206]="Decorators_are_not_valid_here",e[e._abstract_modifier_can_only_appear_on_a_class_method_or_property_declaration=1242]="_abstract_modifier_can_only_appear_on_a_class_method_or_property_declaration",e[e.Method_0_cannot_have_an_implementation_because_it_is_marked_abstract=1245]="Method_0_cannot_have_an_implementation_because_it_is_marked_abstract",e[e.A_definite_assignment_assertion_is_not_permitted_in_this_context=1255]="A_definite_assignment_assertion_is_not_permitted_in_this_context",e[e.A_class_may_only_extend_another_class=1311]="A_class_may_only_extend_another_class",e[e.A_parameter_property_cannot_be_declared_using_a_rest_parameter=1317]="A_parameter_property_cannot_be_declared_using_a_rest_parameter",e[e.Duplicate_identifier_0=2300]="Duplicate_identifier_0",e[e.Cannot_find_name_0=2304]="Cannot_find_name_0",e[e.Module_0_has_no_exported_member_1=2305]="Module_0_has_no_exported_member_1",e[e.Generic_type_0_requires_1_type_argument_s=2314]="Generic_type_0_requires_1_type_argument_s",e[e.Type_0_is_not_generic=2315]="Type_0_is_not_generic",e[e.Type_0_is_not_assignable_to_type_1=2322]="Type_0_is_not_assignable_to_type_1",e[e.Index_signature_is_missing_in_type_0=2329]="Index_signature_is_missing_in_type_0",e[e._this_cannot_be_referenced_in_current_location=2332]="_this_cannot_be_referenced_in_current_location",e[e._super_can_only_be_referenced_in_a_derived_class=2335]="_super_can_only_be_referenced_in_a_derived_class",e[e.Super_calls_are_not_permitted_outside_constructors_or_in_nested_functions_inside_constructors=2337]="Super_calls_are_not_permitted_outside_constructors_or_in_nested_functions_inside_constructors",e[e.Property_0_does_not_exist_on_type_1=2339]="Property_0_does_not_exist_on_type_1",e[e.Cannot_invoke_an_expression_whose_type_lacks_a_call_signature_Type_0_has_no_compatible_call_signatures=2349]="Cannot_invoke_an_expression_whose_type_lacks_a_call_signature_Type_0_has_no_compatible_call_signatures",e[e.Cannot_use_new_with_an_expression_whose_type_lacks_a_construct_signature=2351]="Cannot_use_new_with_an_expression_whose_type_lacks_a_construct_signature",e[e.A_function_whose_declared_type_is_not_void_must_return_a_value=2355]="A_function_whose_declared_type_is_not_void_must_return_a_value",e[e.The_operand_of_an_increment_or_decrement_operator_must_be_a_variable_or_a_property_access=2357]="The_operand_of_an_increment_or_decrement_operator_must_be_a_variable_or_a_property_access",e[e.The_left_hand_side_of_an_assignment_expression_must_be_a_variable_or_a_property_access=2364]="The_left_hand_side_of_an_assignment_expression_must_be_a_variable_or_a_property_access",e[e.Operator_0_cannot_be_applied_to_types_1_and_2=2365]="Operator_0_cannot_be_applied_to_types_1_and_2",e[e.A_super_call_must_be_the_first_statement_in_the_constructor=2376]="A_super_call_must_be_the_first_statement_in_the_constructor",e[e.Constructors_for_derived_classes_must_contain_a_super_call=2377]="Constructors_for_derived_classes_must_contain_a_super_call",e[e._get_and_set_accessor_must_have_the_same_type=2380]="_get_and_set_accessor_must_have_the_same_type",e[e.Constructor_implementation_is_missing=2390]="Constructor_implementation_is_missing",e[e.Function_implementation_is_missing_or_not_immediately_following_the_declaration=2391]="Function_implementation_is_missing_or_not_immediately_following_the_declaration",e[e.Multiple_constructor_implementations_are_not_allowed=2392]="Multiple_constructor_implementations_are_not_allowed",e[e.Duplicate_function_implementation=2393]="Duplicate_function_implementation",e[e.Individual_declarations_in_merged_declaration_0_must_be_all_exported_or_all_local=2395]="Individual_declarations_in_merged_declaration_0_must_be_all_exported_or_all_local",e[e.A_namespace_declaration_cannot_be_located_prior_to_a_class_or_function_with_which_it_is_merged=2434]="A_namespace_declaration_cannot_be_located_prior_to_a_class_or_function_with_which_it_is_merged",e[e.Type_0_has_no_property_1=2460]="Type_0_has_no_property_1",e[e.The_0_operator_cannot_be_applied_to_type_1=2469]="The_0_operator_cannot_be_applied_to_type_1",e[e.In_const_enum_declarations_member_initializer_must_be_constant_expression=2474]="In_const_enum_declarations_member_initializer_must_be_constant_expression",e[e.Export_declaration_conflicts_with_exported_declaration_of_0=2484]="Export_declaration_conflicts_with_exported_declaration_of_0",e[e.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property=2540]="Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property",e[e.The_target_of_an_assignment_must_be_a_variable_or_a_property_access=2541]="The_target_of_an_assignment_must_be_a_variable_or_a_property_access",e[e.Index_signature_in_type_0_only_permits_reading=2542]="Index_signature_in_type_0_only_permits_reading",e[e.Expected_0_arguments_but_got_1=2554]="Expected_0_arguments_but_got_1",e[e.Expected_at_least_0_arguments_but_got_1=2555]="Expected_at_least_0_arguments_but_got_1",e[e.Expected_0_type_arguments_but_got_1=2558]="Expected_0_type_arguments_but_got_1",e[e.A_member_initializer_in_a_enum_declaration_cannot_reference_members_declared_after_it_including_members_defined_in_other_enums=2651]="A_member_initializer_in_a_enum_declaration_cannot_reference_members_declared_after_it_including_members_defined_in_other_enums",e[e.Constructor_of_class_0_is_private_and_only_accessible_within_the_class_declaration=2673]="Constructor_of_class_0_is_private_and_only_accessible_within_the_class_declaration",e[e.Constructor_of_class_0_is_protected_and_only_accessible_within_the_class_declaration=2674]="Constructor_of_class_0_is_protected_and_only_accessible_within_the_class_declaration",e[e.Namespace_0_has_no_exported_member_1=2694]="Namespace_0_has_no_exported_member_1",e[e.Required_type_parameters_may_not_follow_optional_type_parameters=2706]="Required_type_parameters_may_not_follow_optional_type_parameters",e[e.Duplicate_property_0=2718]="Duplicate_property_0",e[e.File_0_not_found=6054]="File_0_not_found",e[e.Numeric_separators_are_not_allowed_here=6188]="Numeric_separators_are_not_allowed_here",e[e.Multiple_consecutive_numeric_separators_are_not_permitted=6189]="Multiple_consecutive_numeric_separators_are_not_permitted",e[e._super_must_be_called_before_accessing_this_in_the_constructor_of_a_derived_class=17009]="_super_must_be_called_before_accessing_this_in_the_constructor_of_a_derived_class",e[e._super_must_be_called_before_accessing_a_property_of_super_in_the_constructor_of_a_derived_class=17011]="_super_must_be_called_before_accessing_a_property_of_super_in_the_constructor_of_a_derived_class"}(r.DiagnosticCode||(r.DiagnosticCode={})),r.diagnosticCodeToString=function(e){switch(e){case 100:return"Operation not supported.";case 101:return"Operation is unsafe.";case 102:return"User-defined: {0}";case 200:return"Conversion from type '{0}' to '{1}' requires an explicit cast.";case 201:return"Conversion from type '{0}' to '{1}' will require an explicit cast when switching between 32/64-bit.";case 202:return"Type '{0}' cannot be changed to type '{1}'.";case 203:return"Type '{0}' cannot be reinterpreted as type '{1}'.";case 204:return"Basic type '{0}' cannot be nullable.";case 205:return"Cannot export a mutable global.";case 206:return"Compiling constant with non-constant initializer as mutable.";case 207:return"Unmanaged classes cannot extend managed classes and vice-versa.";case 208:return"Unmanaged classes cannot implement interfaces.";case 209:return"Invalid regular expression flags.";case 210:return"Implementation '{0}' must match the signature '{1}'.";case 211:return"Class '{0}' is sealed and cannot be extended.";case 212:return"Decorator '{0}' is not valid here.";case 213:return"Duplicate decorator.";case 214:return"An allocator must be declared to allocate memory. Try importing allocator/arena or allocator/tlsf.";case 215:return"Optional parameter must have an initializer.";case 216:return"Constructor of class '{0}' must not require any arguments.";case 217:return"Function '{0}' cannot be inlined into itself.";case 218:return"Cannot access method '{0}' without calling it as it requires 'this' to be set.";case 219:return"Optional properties are not supported.";case 220:return"Expression must be a compile-time constant.";case 221:return"Module cannot have multiple start functions.";case 222:return"'{0}' must be a value between '{1}' and '{2}' inclusive.";case 223:return"'{0}' must be a power of two.";case 1002:return"Unterminated string literal.";case 1003:return"Identifier expected.";case 1005:return"'{0}' expected.";case 1006:return"A file cannot have a reference to itself.";case 1009:return"Trailing comma not allowed.";case 1012:return"Unexpected token.";case 1014:return"A rest parameter must be last in a parameter list.";case 1015:return"Parameter cannot have question mark and initializer.";case 1016:return"A required parameter cannot follow an optional parameter.";case 1036:return"Statements are not allowed in ambient contexts.";case 1039:return"Initializers are not allowed in ambient contexts.";case 1042:return"'{0}' modifier cannot be used here.";case 1047:return"A rest parameter cannot be optional.";case 1048:return"A rest parameter cannot have an initializer.";case 1049:return"A 'set' accessor must have exactly one parameter.";case 1052:return"A 'set' accessor parameter cannot have an initializer.";case 1054:return"A 'get' accessor cannot have parameters.";case 1061:return"Enum member must have initializer.";case 1092:return"Type parameters cannot appear on a constructor declaration.";case 1093:return"Type annotation cannot appear on a constructor declaration.";case 1094:return"An accessor cannot have type parameters.";case 1095:return"A 'set' accessor cannot have a return type annotation.";case 1098:return"Type parameter list cannot be empty.";case 1104:return"A 'continue' statement can only be used within an enclosing iteration statement.";case 1105:return"A 'break' statement can only be used within an enclosing iteration or switch statement.";case 1108:return"A 'return' statement can only be used within a function body.";case 1109:return"Expression expected.";case 1110:return"Type expected.";case 1113:return"A 'default' clause cannot appear more than once in a 'switch' statement.";case 1114:return"Duplicate label '{0}'.";case 1121:return"Octal literals are not allowed in strict mode.";case 1124:return"Digit expected.";case 1125:return"Hexadecimal digit expected.";case 1126:return"Unexpected end of text.";case 1127:return"Invalid character.";case 1130:return"'case' or 'default' expected.";case 1034:return"'super' must be followed by an argument list or member access.";case 1038:return"A 'declare' modifier cannot be used in an already ambient context.";case 1140:return"Type argument expected.";case 1141:return"String literal expected.";case 1142:return"Line break not permitted here.";case 1146:return"Declaration expected.";case 1155:return"'const' declarations must be initialized.";case 1161:return"Unterminated regular expression literal.";case 1176:return"Interface declaration cannot have 'implements' clause.";case 1177:return"Binary digit expected.";case 1178:return"Octal digit expected.";case 1183:return"An implementation cannot be declared in ambient contexts.";case 1198:return"An extended Unicode escape value must be between 0x0 and 0x10FFFF inclusive.";case 1199:return"Unterminated Unicode escape sequence.";case 1206:return"Decorators are not valid here.";case 1242:return"'abstract' modifier can only appear on a class, method, or property declaration.";case 1245:return"Method '{0}' cannot have an implementation because it is marked abstract.";case 1255:return"A definite assignment assertion '!' is not permitted in this context.";case 1311:return"A class may only extend another class.";case 1317:return"A parameter property cannot be declared using a rest parameter.";case 2300:return"Duplicate identifier '{0}'.";case 2304:return"Cannot find name '{0}'.";case 2305:return"Module '{0}' has no exported member '{1}'.";case 2314:return"Generic type '{0}' requires {1} type argument(s).";case 2315:return"Type '{0}' is not generic.";case 2322:return"Type '{0}' is not assignable to type '{1}'.";case 2329:return"Index signature is missing in type '{0}'.";case 2332:return"'this' cannot be referenced in current location.";case 2335:return"'super' can only be referenced in a derived class.";case 2337:return"Super calls are not permitted outside constructors or in nested functions inside constructors.";case 2339:return"Property '{0}' does not exist on type '{1}'.";case 2349:return"Cannot invoke an expression whose type lacks a call signature. Type '{0}' has no compatible call signatures.";case 2351:return"Cannot use 'new' with an expression whose type lacks a construct signature.";case 2355:return"A function whose declared type is not 'void' must return a value.";case 2357:return"The operand of an increment or decrement operator must be a variable or a property access.";case 2364:return"The left-hand side of an assignment expression must be a variable or a property access.";case 2365:return"Operator '{0}' cannot be applied to types '{1}' and '{2}'.";case 2376:return"A 'super' call must be the first statement in the constructor.";case 2377:return"Constructors for derived classes must contain a 'super' call.";case 2380:return"'get' and 'set' accessor must have the same type.";case 2390:return"Constructor implementation is missing.";case 2391:return"Function implementation is missing or not immediately following the declaration.";case 2392:return"Multiple constructor implementations are not allowed.";case 2393:return"Duplicate function implementation.";case 2395:return"Individual declarations in merged declaration '{0}' must be all exported or all local.";case 2434:return"A namespace declaration cannot be located prior to a class or function with which it is merged.";case 2460:return"Type '{0}' has no property '{1}'.";case 2469:return"The '{0}' operator cannot be applied to type '{1}'.";case 2474:return"In 'const' enum declarations member initializer must be constant expression.";case 2484:return"Export declaration conflicts with exported declaration of '{0}'.";case 2540:return"Cannot assign to '{0}' because it is a constant or a read-only property.";case 2541:return"The target of an assignment must be a variable or a property access.";case 2542:return"Index signature in type '{0}' only permits reading.";case 2554:return"Expected {0} arguments, but got {1}.";case 2555:return"Expected at least {0} arguments, but got {1}.";case 2558:return"Expected {0} type arguments, but got {1}.";case 2651:return"A member initializer in a enum declaration cannot reference members declared after it, including members defined in other enums.";case 2673:return"Constructor of class '{0}' is private and only accessible within the class declaration.";case 2674:return"Constructor of class '{0}' is protected and only accessible within the class declaration.";case 2694:return"Namespace '{0}' has no exported member '{1}'.";case 2706:return"Required type parameters may not follow optional type parameters.";case 2718:return"Duplicate property '{0}'.";case 6054:return"File '{0}' not found.";case 6188:return"Numeric separators are not allowed here.";case 6189:return"Multiple consecutive numeric separators are not permitted.";case 17009:return"'super' must be called before accessing 'this' in the constructor of a derived class.";case 17011:return"'super' must be called before accessing a property of 'super' in the constructor of a derived class.";default:return""}}},function(e,r,t){"use strict";var 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this.push("sqrt("),this.decompileExpression(n.getUnaryValue(e)),void this.push(")");case n.UnaryOp.ExtendI32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.ExtendU32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.WrapI64:case n.UnaryOp.TruncF32ToI32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.TruncF32ToI64:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.TruncF32ToU32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.TruncF32ToU64:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.TruncF64ToI32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.TruncF64ToI64:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.TruncF64ToU32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.TruncF64ToU64:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.ReinterpretF32:return this.push("reinterpret("),this.decompileExpression(n.getUnaryValue(e)),void this.push(")");case n.UnaryOp.ReinterpretF64:return this.push("reinterpret("),this.decompileExpression(n.getUnaryValue(e)),void this.push(")");case n.UnaryOp.ConvertI32ToF32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.ConvertI32ToF64:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.ConvertU32ToF32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.ConvertU32ToF64:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.ConvertI64ToF32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.ConvertI64ToF64:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.ConvertU64ToF32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.ConvertU64ToF64:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.PromoteF32:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.DemoteF64:return this.push(""),void this.decompileExpression(n.getUnaryValue(e));case n.UnaryOp.ReinterpretI32:return this.push("reinterpret("),this.decompileExpression(n.getUnaryValue(e)),void this.push(")");case n.UnaryOp.ReinterpretI64:return this.push("reinterpret("),this.decompileExpression(n.getUnaryValue(e)),void this.push(")")}break;case n.ExpressionId.Binary:switch(n.getBinaryOp(e)){case n.BinaryOp.AddI32:case n.BinaryOp.AddI64:case n.BinaryOp.AddF32:case n.BinaryOp.AddF64:return this.decompileExpression(n.getBinaryLeft(e)),this.push(" + "),void this.decompileExpression(n.getBinaryRight(e));case n.BinaryOp.SubI32:case n.BinaryOp.SubI64:case n.BinaryOp.SubF32:case n.BinaryOp.SubF64:return this.decompileExpression(n.getBinaryLeft(e)),this.push(" - "),void this.decompileExpression(n.getBinaryRight(e));case n.BinaryOp.MulI32:case n.BinaryOp.MulI64:case n.BinaryOp.MulF32:case n.BinaryOp.MulF64:return this.decompileExpression(n.getBinaryLeft(e)),this.push(" * "),void this.decompileExpression(n.getBinaryRight(e));case n.BinaryOp.DivI32:case n.BinaryOp.DivI64:case n.BinaryOp.DivF32:case n.BinaryOp.DivF64:return this.decompileExpression(n.getBinaryLeft(e)),this.push(" / "),void this.decompileExpression(n.getBinaryRight(e));case n.BinaryOp.DivU32:return this.push("("),this.decompileExpression(n.getBinaryLeft(e)),this.push(" / "),this.decompileExpression(n.getBinaryRight(e)),void this.push(")");case n.BinaryOp.RemI32:case n.BinaryOp.RemI64:return this.decompileExpression(n.getBinaryLeft(e)),this.push(" % "),void this.decompileExpression(n.getBinaryRight(e));case n.BinaryOp.RemU32:return this.push("("),this.decompileExpression(n.getBinaryLeft(e)),this.push(" / "),this.decompileExpression(n.getBinaryRight(e)),void this.push(")");case n.BinaryOp.AndI32:case n.BinaryOp.AndI64:return this.decompileExpression(n.getBinaryLeft(e)),this.push(" & "),void this.decompileExpression(n.getBinaryRight(e));case n.BinaryOp.OrI32:case n.BinaryOp.OrI64:return this.decompileExpression(n.getBinaryLeft(e)),this.push(" | "),void this.decompileExpression(n.getBinaryRight(e));case n.BinaryOp.XorI32:case n.BinaryOp.XorI64:return this.decompileExpression(n.getBinaryLeft(e)),this.push(" ^ "),void this.decompileExpression(n.getBinaryRight(e));case n.BinaryOp.ShlI32:case n.BinaryOp.ShlI64:return this.decompileExpression(n.getBinaryLeft(e)),this.push(" << "),void this.decompileExpression(n.getBinaryRight(e));case n.BinaryOp.ShrU32:case n.BinaryOp.ShrU64:return this.decompileExpression(n.getBinaryLeft(e)),this.push(" >>> "),void this.decompileExpression(n.getBinaryRight(e));case 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s=null;e.skip(o.Token.COLON)&&(s=this.parseType(e));var l=null;if(e.skip(o.Token.EQUALS)){if(i&a.CommonFlags.AMBIENT&&this.error(c.DiagnosticCode.Initializers_are_not_allowed_in_ambient_contexts,e.range()),!(l=this.parseExpression(e,2)))return null}else i&a.CommonFlags.CONST?i&a.CommonFlags.AMBIENT||this.error(c.DiagnosticCode._const_declarations_must_be_initialized,n.range):s||this.error(c.DiagnosticCode.Type_expected,e.range(e.pos));var u=o.Range.join(n.range,e.range());return i&a.CommonFlags.DEFINITE_ASSIGNMENT&&l&&this.error(c.DiagnosticCode.A_definite_assignment_assertion_is_not_permitted_in_this_context,u),p.Node.createVariableDeclaration(n,s,l,t,i,u)},r.prototype.parseEnum=function(e,r,t,n){if(e.next()!=o.Token.IDENTIFIER)return this.error(c.DiagnosticCode.Identifier_expected,e.range()),null;var i=p.Node.createIdentifierExpression(e.readIdentifier(),e.range());if(e.next()!=o.Token.OPENBRACE)return this.error(c.DiagnosticCode._0_expected,e.range(),"{"),null;for(var s=new 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l=e.mark();e.next(),e.peek()!=o.Token.COLON?(e.discard(l),i||(i=e.range()),s|=a.CommonFlags.READONLY):e.reset(l)}if(e.skip(o.Token.DOT_DOT_DOT)&&(s?this.error(c.DiagnosticCode.A_parameter_property_cannot_be_declared_using_a_rest_parameter,e.range()):i=e.range(),t=!0),e.skipIdentifier()){t||(i=e.range());var u=p.Node.createIdentifierExpression(e.readIdentifier(),e.range()),_=null;if((n=e.skip(o.Token.QUESTION))&&t&&this.error(c.DiagnosticCode.A_rest_parameter_cannot_be_optional,u.range),e.skip(o.Token.COLON)){if(!(_=this.parseType(e)))return null}else _=p.Node.createOmittedType(e.range(e.pos));var h=null;if(e.skip(o.Token.EQUALS)&&(t&&this.error(c.DiagnosticCode.A_rest_parameter_cannot_have_an_initializer,u.range),n?this.error(c.DiagnosticCode.Parameter_cannot_have_question_mark_and_initializer,u.range):n=!0,!(h=this.parseExpression(e,2))))return null;var d=p.Node.createParameter(u,_,h,t?p.ParameterKind.REST:n?p.ParameterKind.OPTIONAL:p.ParameterKind.DEFAULT,o.Range.join(i,e.range()));return d.flags|=s,d}return this.error(c.DiagnosticCode.Identifier_expected,e.range()),null},r.prototype.parseFunction=function(e,r,t,n){if(!e.skipIdentifier())return this.error(c.DiagnosticCode.Identifier_expected,e.range(e.pos)),null;var i=p.Node.createIdentifierExpression(e.readIdentifier(),e.range()),s=-1,l=null;if(e.skip(o.Token.LESSTHAN)){if(s=e.tokenPos,!(l=this.parseTypeParameters(e)))return null;r|=a.CommonFlags.GENERIC}if(!e.skip(o.Token.OPENPAREN))return this.error(c.DiagnosticCode._0_expected,e.range(e.pos),"("),null;s<0&&(s=e.tokenPos);var u=this.parseParameters(e);if(!u)return null;var _=this.parseParametersThis,h=0!=(r&a.CommonFlags.SET);h&&(1!=u.length&&this.error(c.DiagnosticCode.A_set_accessor_must_have_exactly_one_parameter,i.range),u.length&&u[0].initializer&&this.error(c.DiagnosticCode.A_set_accessor_parameter_cannot_have_an_initializer,i.range)),r&a.CommonFlags.GET&&u.length&&this.error(c.DiagnosticCode.A_get_accessor_cannot_have_parameters,i.range);var d=null;if(e.skip(o.Token.COLON)&&!(d=this.parseType(e,!0,h)))return null;d||(d=p.Node.createOmittedType(e.range(e.pos)),h||this.error(c.DiagnosticCode.Type_expected,d.range));var y=p.Node.createSignature(u,d,_,!1,e.range(s,e.pos)),m=null;if(e.skip(o.Token.OPENBRACE)){if(r&a.CommonFlags.AMBIENT&&this.error(c.DiagnosticCode.An_implementation_cannot_be_declared_in_ambient_contexts,e.range()),!(m=this.parseBlockStatement(e,!1)))return null}else r&a.CommonFlags.AMBIENT||this.error(c.DiagnosticCode.Function_implementation_is_missing_or_not_immediately_following_the_declaration,e.range(e.pos));var T=p.Node.createFunctionDeclaration(i,l,y,m,t,r,0,e.range(n,e.pos));return e.skip(o.Token.SEMICOLON),T},r.prototype.parseFunctionExpression=function(e){var r,t=e.tokenPos,n=0;if(e.token==o.Token.FUNCTION){if(r=e.skipIdentifier()?p.Node.createIdentifierExpression(e.readIdentifier(),e.range()):p.Node.createEmptyIdentifierExpression(e.range(e.pos)),!e.skip(o.Token.OPENPAREN))return this.error(c.DiagnosticCode._0_expected,e.range(e.pos),"("),null}else n=1,assert(e.token==o.Token.OPENPAREN),r=p.Node.createEmptyIdentifierExpression(e.range(e.tokenPos));var i=e.pos,a=this.parseParameters(e);return a?this.parseFunctionExpressionCommon(e,r,a,n,t,i):null},r.prototype.parseFunctionExpressionCommon=function(e,r,t,n,i,s){void 0===i&&(i=-1),void 0===s&&(s=-1),i<0&&(i=r.range.start),s<0&&(s=i);var l=null;if(2!=n&&e.skip(o.Token.COLON)){if(!(l=this.parseType(e)))return null}else l=p.Node.createOmittedType(e.range(e.pos));if(n&&!e.skip(o.Token.EQUALS_GREATERTHAN))return this.error(c.DiagnosticCode._0_expected,e.range(e.pos),"=>"),null;var u,_=p.Node.createSignature(t,l,null,!1,e.range(s,e.pos));if(n)u=this.parseStatement(e,!1);else{if(!e.skip(o.Token.OPENBRACE))return this.error(c.DiagnosticCode._0_expected,e.range(e.pos),"{"),null;u=this.parseBlockStatement(e,!1)}if(!u)return null;var h=p.Node.createFunctionDeclaration(r,null,_,u,null,a.CommonFlags.NONE,n,e.range(i,e.pos));return p.Node.createFunctionExpression(h)},r.prototype.parseClassOrInterface=function(e,r,t,n){var i=e.token==o.Token.INTERFACE;if(!e.skipIdentifier())return this.error(c.DiagnosticCode.Identifier_expected,e.range()),null;var s=p.Node.createIdentifierExpression(e.readIdentifier(),e.range()),l=null;if(e.skip(o.Token.LESSTHAN)){if(!(l=this.parseTypeParameters(e)))return null;r|=a.CommonFlags.GENERIC}var u=null;if(e.skip(o.Token.EXTENDS)){var _=this.parseType(e);if(!_)return null;if(_.kind!=p.NodeKind.TYPE)return this.error(c.DiagnosticCode.Operation_not_supported,_.range),null;u=_}var h=null;if(e.skip(o.Token.IMPLEMENTS)){i&&this.error(c.DiagnosticCode.Interface_declaration_cannot_have_implements_clause,e.range());do{var d=this.parseType(e);if(!d)return null;i||(h||(h=[]),h.push(d))}while(e.skip(o.Token.COMMA))}if(!e.skip(o.Token.OPENBRACE))return this.error(c.DiagnosticCode._0_expected,e.range(),"{"),null;var y,m=new Array;if(i?(assert(!h),y=p.Node.createInterfaceDeclaration(s,l,u,m,t,r,e.range(n,e.pos))):y=p.Node.createClassDeclaration(s,l,u,h,m,t,r,e.range(n,e.pos)),!e.skip(o.Token.CLOSEBRACE))do{var T=this.parseClassMember(e,y);T&&m.push(T)}while(!e.skip(o.Token.CLOSEBRACE));return y},r.prototype.parseClassExpression=function(e){var r,t=e.tokenPos;if(r=e.skipIdentifier()?p.Node.createIdentifierExpression(e.readIdentifier(),e.range()):p.Node.createEmptyIdentifierExpression(e.range(e.pos)),!e.skip(o.Token.OPENBRACE))return this.error(c.DiagnosticCode._0_expected,e.range(e.pos),"{"),null;var n=new Array,i=p.Node.createClassDeclaration(r,[],null,null,n,null,a.CommonFlags.NONE,e.range(t,e.pos));if(!e.skip(o.Token.CLOSEBRACE))do{var s=this.parseClassMember(e,i);s&&n.push(s)}while(!e.skip(o.Token.CLOSEBRACE));return p.Node.createClassExpression(i)},r.prototype.parseClassMember=function(e,r){var t=e.pos,n=r.kind==p.NodeKind.INTERFACEDECLARATION,i=new Array;if(e.skip(o.Token.AT)){do{var s=this.parseDecorator(e);if(!s)break;i.push(s)}while(e.skip(o.Token.AT));n&&this.error(c.DiagnosticCode.Decorators_are_not_valid_here,o.Range.join(i[0].range,i[i.length-1].range))}var l=r.flags&a.CommonFlags.AMBIENT;n&&(l|=a.CommonFlags.VIRTUAL);var u=0,_=0;e.skip(o.Token.PUBLIC)?(n&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(),"public"),l|=a.CommonFlags.PUBLIC,u=e.tokenPos,_=e.pos):e.skip(o.Token.PRIVATE)?(n&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(),"private"),l|=a.CommonFlags.PRIVATE,u=e.tokenPos,_=e.pos):e.skip(o.Token.PROTECTED)&&(n&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(),"protected"),l|=a.CommonFlags.PROTECTED,u=e.tokenPos,_=e.pos);var h=0,d=0,y=0,m=0;e.skip(o.Token.STATIC)?(n&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(),"static"),l|=a.CommonFlags.STATIC,h=e.tokenPos,d=e.pos):(l|=a.CommonFlags.INSTANCE,e.skip(o.Token.ABSTRACT)&&(n&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(),"abstract"),l|=a.CommonFlags.ABSTRACT,y=e.tokenPos,m=e.pos),r.flags&a.CommonFlags.GENERIC&&(l|=a.CommonFlags.GENERIC_CONTEXT));var T=0,f=0;e.skip(o.Token.READONLY)&&(l|=a.CommonFlags.READONLY,T=e.tokenPos,f=e.pos);var E,g=e.mark(),v=!1,I=!1,b=!1,x=0,S=0;if(n||(e.skip(o.Token.GET)?e.peek(!0,o.IdentifierHandling.PREFER)!=o.Token.IDENTIFIER||e.nextTokenOnNewLine?e.reset(g):(l|=a.CommonFlags.GET,I=!0,x=e.tokenPos,S=e.pos,l&a.CommonFlags.READONLY&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(T,f),"readonly")):e.skip(o.Token.SET)?e.peek(!0,o.IdentifierHandling.PREFER)!=o.Token.IDENTIFIER||e.nextTokenOnNewLine?e.reset(g):(l|=a.CommonFlags.SET,b=!0,x=e.tokenPos,S=e.pos,l&a.CommonFlags.READONLY&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(T,f),"readonly")):e.skip(o.Token.CONSTRUCTOR)&&(v=!0,(l|=a.CommonFlags.CONSTRUCTOR)&a.CommonFlags.STATIC&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(h,d),"static"),l&a.CommonFlags.ABSTRACT&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(y,m),"abstract"),l&a.CommonFlags.READONLY&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(T,f),"readonly"))),v)E=p.Node.createConstructorExpression(e.range());else{if(!I&&!b&&e.skip(o.Token.OPENBRACKET)){l&a.CommonFlags.PUBLIC?this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(u,_),"public"):l&a.CommonFlags.PROTECTED?this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(u,_),"protected"):l&a.CommonFlags.PRIVATE&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(u,_),"protected"),l&a.CommonFlags.STATIC&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(h,d),"static"),l&a.CommonFlags.ABSTRACT&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(y,m),"abstract"),l&a.CommonFlags.READONLY&&this.error(c.DiagnosticCode._0_modifier_cannot_be_used_here,e.range(T,f),"readonly");var A=this.parseIndexSignatureDeclaration(e,i);return A?(e.skip(o.Token.SEMICOLON),A):null}if(!e.skipIdentifier())return this.error(c.DiagnosticCode.Identifier_expected,e.range()),null;E=p.Node.createIdentifierExpression(e.readIdentifier(),e.range())}var N=null;if(e.skip(o.Token.LESSTHAN)){var O=e.tokenPos;if(!(N=this.parseTypeParameters(e)))return null;v?this.error(c.DiagnosticCode.Type_parameters_cannot_appear_on_a_constructor_declaration,e.range(O,e.pos)):I||b?this.error(c.DiagnosticCode.An_accessor_cannot_have_type_parameters,e.range(O,e.pos)):l|=a.CommonFlags.GENERIC}if(e.skip(o.Token.OPENPAREN)){var C=e.tokenPos,k=this.parseParameters(e,v);if(!k)return null;var R=this.parseParametersThis;if(v)for(var L=0,F=k.length;L"),null):null;case o.Token.IDENTIFIER:var f=p.Node.createIdentifierExpression(e.readIdentifier(),e.range(t,e.pos));return e.peek(!0)!=o.Token.EQUALS_GREATERTHAN||e.nextTokenOnNewLine?f:this.parseFunctionExpressionCommon(e,p.Node.createEmptyIdentifierExpression(e.range(t)),[p.Node.createParameter(f,p.Node.createOmittedType(f.range.atEnd),null,p.ParameterKind.DEFAULT,f.range)],2,t);case o.Token.THIS:return p.Node.createThisExpression(e.range(t,e.pos));case o.Token.CONSTRUCTOR:return p.Node.createConstructorExpression(e.range(t,e.pos));case o.Token.SUPER:return e.peek()!=o.Token.DOT&&e.nextToken!=o.Token.OPENPAREN&&this.error(c.DiagnosticCode._super_must_be_followed_by_an_argument_list_or_member_access,e.range()),p.Node.createSuperExpression(e.range(t,e.pos));case o.Token.STRINGLITERAL:return p.Node.createStringLiteralExpression(e.readString(),e.range(t,e.pos));case o.Token.INTEGERLITERAL:return p.Node.createIntegerLiteralExpression(e.readInteger(),e.range(t,e.pos));case o.Token.FLOATLITERAL:return p.Node.createFloatLiteralExpression(e.readFloat(),e.range(t,e.pos));case o.Token.SLASH:var E=e.readRegexpPattern();return e.skip(o.Token.SLASH)?p.Node.createRegexpLiteralExpression(E,e.readRegexpFlags(),e.range(t,e.pos)):(this.error(c.DiagnosticCode._0_expected,e.range(),"/"),null);case o.Token.FUNCTION:return this.parseFunctionExpression(e);case o.Token.CLASS:return this.parseClassExpression(e);default:return r==o.Token.ENDOFFILE?this.error(c.DiagnosticCode.Unexpected_end_of_text,e.range(t)):this.error(c.DiagnosticCode.Expression_expected,e.range()),null}},r.prototype.tryParseTypeArgumentsBeforeArguments=function(e){var r=e.mark();if(!e.skip(o.Token.LESSTHAN))return null;var t=new Array;do{if(e.peek()===o.Token.GREATERTHAN)break;var n=this.parseType(e,!0,!0);if(!n)return e.reset(r),null;t.push(n)}while(e.skip(o.Token.COMMA));return e.skip(o.Token.GREATERTHAN)&&e.skip(o.Token.OPENPAREN)?t:(e.reset(r),null)},r.prototype.parseArguments=function(e){for(var r=new Array;!e.skip(o.Token.CLOSEPAREN);){var t=this.parseExpression(e,2);if(!t)return null;if(r.push(t),!e.skip(o.Token.COMMA)){if(e.skip(o.Token.CLOSEPAREN))break;return this.error(c.DiagnosticCode._0_expected,e.range(),")"),null}}return r},r.prototype.parseExpression=function(e,r){void 0===r&&(r=1),assert(0!=r);var t=this.parseExpressionStart(e);if(!t)return null;for(var n,i,a=(t=this.maybeParseCallExpression(e,t)).range.start,s=null;(i=_(n=e.peek()))>=r;){switch(e.next(),n){case o.Token.AS:var l=this.parseType(e);if(!l)return null;t=p.Node.createAssertionExpression(p.AssertionKind.AS,t,l,e.range(a,e.pos));break;case o.Token.EXCLAMATION:t=p.Node.createAssertionExpression(p.AssertionKind.NONNULL,t,null,e.range(a,e.pos));break;case o.Token.INSTANCEOF:var u=this.parseType(e);if(!u)return null;t=p.Node.createInstanceOfExpression(t,u,e.range(a,e.pos));break;case o.Token.OPENBRACKET:if(!(s=this.parseExpression(e)))return null;if(!e.skip(o.Token.CLOSEBRACKET))return this.error(c.DiagnosticCode._0_expected,e.range(),"]"),null;t=p.Node.createElementAccessExpression(t,s,e.range(a,e.pos));break;case o.Token.PLUS_PLUS:case o.Token.MINUS_MINUS:t.kind!=p.NodeKind.IDENTIFIER&&t.kind!=p.NodeKind.ELEMENTACCESS&&t.kind!=p.NodeKind.PROPERTYACCESS&&this.error(c.DiagnosticCode.The_operand_of_an_increment_or_decrement_operator_must_be_a_variable_or_a_property_access,t.range),t=p.Node.createUnaryPostfixExpression(n,t,e.range(a,e.pos));break;case o.Token.QUESTION:var d=this.parseExpression(e);if(!d)return null;if(!e.skip(o.Token.COLON))return this.error(c.DiagnosticCode._0_expected,e.range(),":"),null;var y=this.parseExpression(e,r>1?2:1);if(!y)return null;t=p.Node.createTernaryExpression(t,d,y,e.range(a,e.pos));break;case o.Token.COMMA:var m=[t];do{if(!(t=this.parseExpression(e,2)))return null;m.push(t)}while(e.skip(o.Token.COMMA));t=p.Node.createCommaExpression(m,e.range(a,e.pos));break;default:if(n==o.Token.DOT){if(e.skipIdentifier())s=p.Node.createIdentifierExpression(e.readIdentifier(),e.range());else if(!(s=this.parseExpression(e,h(n)?i:i+1)))return null;if(s.kind==p.NodeKind.IDENTIFIER)t=p.Node.createPropertyAccessExpression(t,s,e.range(a,e.pos));else{if(s.kind!=p.NodeKind.CALL)return this.error(c.DiagnosticCode.Identifier_expected,s.range),null;if(!(t=this.joinPropertyCall(e,a,t,s)))return null}}else{if(!(s=this.parseExpression(e,h(n)?i:i+1)))return null;t=p.Node.createBinaryExpression(n,t,s,e.range(a,e.pos))}}t=this.maybeParseCallExpression(e,t)}return t},r.prototype.joinPropertyCall=function(e,r,t,n){var i=n.expression;switch(i.kind){case p.NodeKind.IDENTIFIER:n.expression=p.Node.createPropertyAccessExpression(t,i,e.range(r,e.pos));break;case p.NodeKind.CALL:var a=this.joinPropertyCall(e,r,t,i);if(!a)return null;n.expression=a,n.range=e.range(r,e.pos);break;default:return this.error(c.DiagnosticCode.Identifier_expected,n.range),null}return n},r.prototype.maybeParseCallExpression=function(e,r){if(p.nodeIsCallable(r.kind))for(var t=null;e.skip(o.Token.OPENPAREN)||p.nodeIsGenericCallable(r.kind)&&null!==(t=this.tryParseTypeArgumentsBeforeArguments(e));){var n=this.parseArguments(e);if(!n)break;r=p.Node.createCallExpression(r,t,n,e.range(r.range.start,e.pos))}return r},r.prototype.skipStatement=function(e){for(e.peek(!0),e.nextTokenOnNewLine&&e.next();;){var r=e.peek(!0);if(r==o.Token.ENDOFFILE||r==o.Token.SEMICOLON){e.next();break}if(e.nextTokenOnNewLine)break;switch(e.next()){case o.Token.IDENTIFIER:e.readIdentifier();break;case o.Token.STRINGLITERAL:e.readString();break;case o.Token.INTEGERLITERAL:e.readInteger();break;case o.Token.FLOATLITERAL:e.readFloat()}}},r.prototype.skipBlock=function(e){var r=1,t=!0;do{switch(e.next()){case o.Token.ENDOFFILE:this.error(c.DiagnosticCode._0_expected,e.range(),"}"),t=!1;break;case o.Token.OPENBRACE:++r;break;case o.Token.CLOSEBRACE:--r||(t=!1);break;case o.Token.IDENTIFIER:e.readIdentifier();break;case o.Token.STRINGLITERAL:e.readString();break;case o.Token.INTEGERLITERAL:e.readInteger();break;case o.Token.FLOATLITERAL:e.readFloat()}}while(t)},r}(c.DiagnosticEmitter);function _(e){switch(e){case o.Token.COMMA:return 1;case o.Token.EQUALS:case o.Token.PLUS_EQUALS:case o.Token.MINUS_EQUALS:case o.Token.ASTERISK_ASTERISK_EQUALS:case o.Token.ASTERISK_EQUALS:case o.Token.SLASH_EQUALS:case o.Token.PERCENT_EQUALS:case o.Token.LESSTHAN_LESSTHAN_EQUALS:case o.Token.GREATERTHAN_GREATERTHAN_EQUALS:case o.Token.GREATERTHAN_GREATERTHAN_GREATERTHAN_EQUALS:case o.Token.AMPERSAND_EQUALS:case o.Token.CARET_EQUALS:case o.Token.BAR_EQUALS:return 4;case o.Token.QUESTION:return 5;case o.Token.BAR_BAR:return 6;case o.Token.AMPERSAND_AMPERSAND:return 7;case o.Token.BAR:return 8;case o.Token.CARET:return 9;case o.Token.AMPERSAND:return 10;case o.Token.EQUALS_EQUALS:case o.Token.EXCLAMATION_EQUALS:case o.Token.EQUALS_EQUALS_EQUALS:case o.Token.EXCLAMATION_EQUALS_EQUALS:return 11;case o.Token.AS:case o.Token.IN:case o.Token.INSTANCEOF:case o.Token.LESSTHAN:case o.Token.GREATERTHAN:case o.Token.LESSTHAN_EQUALS:case o.Token.GREATERTHAN_EQUALS:return 12;case o.Token.LESSTHAN_LESSTHAN:case o.Token.GREATERTHAN_GREATERTHAN:case o.Token.GREATERTHAN_GREATERTHAN_GREATERTHAN:return 13;case o.Token.PLUS:case o.Token.MINUS:return 14;case o.Token.ASTERISK:case o.Token.SLASH:case o.Token.PERCENT:return 15;case o.Token.ASTERISK_ASTERISK:return 16;case o.Token.PLUS_PLUS:case o.Token.MINUS_MINUS:return 18;case o.Token.DOT:case o.Token.NEW:case o.Token.OPENBRACKET:case o.Token.EXCLAMATION:return 20}return 0}function h(e){switch(e){case o.Token.EQUALS:case o.Token.PLUS_EQUALS:case o.Token.MINUS_EQUALS:case o.Token.ASTERISK_ASTERISK_EQUALS:case o.Token.ASTERISK_EQUALS:case o.Token.SLASH_EQUALS:case o.Token.PERCENT_EQUALS:case o.Token.LESSTHAN_LESSTHAN_EQUALS:case o.Token.GREATERTHAN_GREATERTHAN_EQUALS:case o.Token.GREATERTHAN_GREATERTHAN_GREATERTHAN_EQUALS:case o.Token.AMPERSAND_EQUALS:case o.Token.CARET_EQUALS:case o.Token.BAR_EQUALS:case o.Token.QUESTION:case 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Symbol&&e[Symbol.iterator],t=0;return r?r.call(e):{next:function(){return e&&t>=e.length&&(e=void 0),{value:e&&e[t++],done:!e}}}};Object.defineProperty(r,"__esModule",{value:!0});var i,a=t(2),s=t(5),o=t(6),c=t(4),l=t(3),p=t(9),u=t(0),_=t(1);function h(e,r,t,n,u,h,b){void 0===b&&(b=!1);var x=e.module;switch(r.internalName){case i.isInteger:var S=m(e,t,n,h);return e.currentType=o.Type.bool,S?S.is(4)&&!S.is(256)?x.createI32(1):x.createI32(0):x.createUnreachable();case i.isFloat:S=m(e,t,n,h);return e.currentType=o.Type.bool,S?S.is(8)?x.createI32(1):x.createI32(0):x.createUnreachable();case i.isSigned:S=m(e,t,n,h);return e.currentType=o.Type.bool,S?S.is(1)?x.createI32(1):x.createI32(0):x.createUnreachable();case i.isReference:S=m(e,t,n,h);return e.currentType=o.Type.bool,S?S.is(256)?x.createI32(1):x.createI32(0):x.createUnreachable();case i.isString:S=m(e,t,n,h);if(e.currentType=o.Type.bool,!S)return x.createUnreachable();if(F=S.classReference){var A=e.program.stringInstance;if(A&&F.isAssignableTo(A))return x.createI32(1)}return x.createI32(0);case i.isArray:S=m(e,t,n,h);if(e.currentType=o.Type.bool,!S)return x.createUnreachable();if(!(O=S.classReference))return x.createI32(0);var N=O.prototype;return x.createI32(N.extends(e.program.arrayPrototype)?1:0);case i.isArrayLike:var O;S=m(e,t,n,h);return e.currentType=o.Type.bool,S?(O=S.classReference)?x.createI32(O.lookupInSelf("length")&&(O.lookupOverload(l.OperatorKind.INDEXED_GET)||O.lookupOverload(l.OperatorKind.UNCHECKED_INDEXED_GET))?1:0):x.createI32(0):x.createUnreachable();case i.isFunction:S=m(e,t,n,h);return e.currentType=o.Type.bool,S?x.createI32(S.signatureReference?1:0):x.createUnreachable();case i.isNullable:S=m(e,t,n,h);return e.currentType=o.Type.bool,S?x.createI32(S.is(512)?1:0):x.createUnreachable();case i.isDefined:if(e.currentType=o.Type.bool,g(t,h,r)|v(n,1,h,e))return x.createUnreachable();var C=e.resolver.resolveExpression(n[0],e.currentFlow,o.Type.void,p.ReportMode.SWALLOW);return x.createI32(C?1:0);case i.isConstant:if(e.currentType=o.Type.bool,g(t,h,r)|v(n,1,h,e))return x.createUnreachable();var k=e.compileExpressionRetainType(n[0],o.Type.i32,0);return e.currentType=o.Type.bool,x.createI32(c.getExpressionId(k)==c.ExpressionId.Const?1:0);case i.isManaged:if(!e.program.hasGC)return e.currentType=o.Type.bool,x.createI32(0);S=m(e,t,n,h);return e.currentType=o.Type.bool,S?null===(F=S.classReference)||F.hasDecorator(l.DecoratorFlags.UNMANAGED)?x.createI32(0):x.createI32(1):x.createUnreachable();case i.sizeof:if(e.currentType=e.options.usizeType,f(t,h,e)|v(n,0,h,e))return x.createUnreachable();var R=t[0].byteSize,k=void 0;return e.options.isWasm64?u.is(4)&&u.size<=32?(e.currentType=o.Type.u32,k=x.createI32(R)):k=x.createI64(R,0):u.is(4)&&64==u.size?(e.currentType=o.Type.u64,k=x.createI64(R,0)):k=x.createI32(R),k;case i.alignof:if(e.currentType=e.options.usizeType,f(t,h,e)|v(n,0,h,e))return x.createUnreachable();R=t[0].byteSize;assert(_.isPowerOf2(R));var L=ctz(R);k=void 0;return e.options.isWasm64?u.is(4)&&u.size<=32?(e.currentType=o.Type.u32,k=x.createI32(L)):k=x.createI64(L,0):u.is(4)&&64==u.size?(e.currentType=o.Type.u64,k=x.createI64(L,0)):k=x.createI32(L),k;case i.offsetof:if(e.currentType=e.options.usizeType,f(t,h,e)|I(n,0,1,h,e))return x.createUnreachable();var F;if(!(F=t[0].classReference))return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),x.createUnreachable();var B=void 0;if(n.length){if(n[0].kind!=s.NodeKind.LITERAL||n[0].literalKind!=s.LiteralKind.STRING)return e.error(a.DiagnosticCode.String_literal_expected,n[0].range),x.createUnreachable();var U=n[0].value,D=F.members?F.members.get(U):null;if(!D||D.kind!=l.ElementKind.FIELD)return e.error(a.DiagnosticCode.Type_0_has_no_property_1,n[0].range,F.internalName,U),x.createUnreachable();B=D.memoryOffset}else B=F.currentMemoryOffset;return e.options.isWasm64?u.is(4)&&u.size<=32?(e.currentType=o.Type.u32,x.createI32(B)):x.createI64(B):u.is(4)&&64==u.size?(e.currentType=o.Type.u64,x.createI64(B)):x.createI32(B);case i.clz:case i.ctz:case i.popcnt:if(E(t,h,e,!0)|v(n,1,h,e))return x.createUnreachable();var w=t?e.compileExpression(n[0],t[0],1,1):e.compileExpression(n[0],o.Type.i32,0,1);if((S=e.currentType).is(256))return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),x.createUnreachable();var P=-1;switch(r.internalName){case i.clz:switch(S.kind){case 10:case 0:case 5:case 1:case 6:case 2:case 7:P=c.UnaryOp.ClzI32;break;case 9:case 4:P=e.options.isWasm64?c.UnaryOp.ClzI64:c.UnaryOp.ClzI32;break;case 3:case 8:P=c.UnaryOp.ClzI64}break;case i.ctz:switch(S.kind){case 10:case 0:case 5:case 1:case 6:case 2:case 7:P=c.UnaryOp.CtzI32;break;case 9:case 4:P=e.options.isWasm64?c.UnaryOp.CtzI64:c.UnaryOp.CtzI32;break;case 3:case 8:P=c.UnaryOp.CtzI64}break;case i.popcnt:switch(e.currentType.kind){case 10:case 0:case 5:case 1:case 6:case 2:case 7:P=c.UnaryOp.PopcntI32;break;case 9:case 4:P=e.options.isWasm64?c.UnaryOp.PopcntI64:c.UnaryOp.PopcntI32;break;case 3:case 8:P=c.UnaryOp.PopcntI64}}return-1==P?(e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),x.createUnreachable()):x.createUnary(P,w);case i.rotl:if(E(t,h,e,!0)|v(n,2,h,e))return x.createUnreachable();w=t?e.compileExpression(n[0],t[0],1,1):e.compileExpression(n[0],o.Type.i32,0,1);if((S=e.currentType).is(256))return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),x.createUnreachable();var M=e.compileExpression(n[1],S,1,0);k=void 0;switch(S.kind){case 0:case 1:case 5:case 6:case 10:k=e.ensureSmallIntegerWrap(x.createBinary(c.BinaryOp.RotlI32,w,M),S);case 2:case 7:k=x.createBinary(c.BinaryOp.RotlI32,w,M);break;case 9:case 4:k=x.createBinary(e.options.isWasm64?c.BinaryOp.RotlI64:c.BinaryOp.RotlI32,w,M);break;case 3:case 8:k=x.createBinary(c.BinaryOp.RotlI64,w,M);break;default:e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),k=x.createUnreachable()}return k;case i.rotr:if(E(t,h,e,!0)|v(n,2,h,e))return x.createUnreachable();w=t?e.compileExpression(n[0],t[0],1,1):e.compileExpression(n[0],o.Type.i32,0,1);if((S=e.currentType).is(256))return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),x.createUnreachable();M=e.compileExpression(n[1],S,1,0),k=void 0;switch(S.kind){case 0:case 1:case 5:case 6:case 10:k=e.ensureSmallIntegerWrap(x.createBinary(c.BinaryOp.RotrI32,w,M),S);break;case 2:case 7:k=x.createBinary(c.BinaryOp.RotrI32,w,M);break;case 9:case 4:k=x.createBinary(e.options.isWasm64?c.BinaryOp.RotrI64:c.BinaryOp.RotrI32,w,M);break;case 3:case 8:k=x.createBinary(c.BinaryOp.RotrI64,w,M);break;default:e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),k=x.createUnreachable()}return k;case i.abs:if(E(t,h,e,!0)|v(n,1,h,e))return x.createUnreachable();w=t?e.compileExpression(n[0],t[0],1,1):e.compileExpression(n[0],o.Type.f64,0,1);if((S=e.currentType).is(256))return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),x.createUnreachable();k=void 0;switch(S.kind){case 0:case 1:case 2:var V=(H=e.currentFlow).getTempLocal(o.Type.i32,!1),G=H.getAndFreeTempLocal(o.Type.i32,!1).index,K=V.index;k=x.createBinary(c.BinaryOp.XorI32,x.createBinary(c.BinaryOp.AddI32,x.createTeeLocal(G,x.createBinary(c.BinaryOp.ShrI32,x.createTeeLocal(K,w),x.createI32(31))),x.createGetLocal(K,c.NativeType.I32)),x.createGetLocal(G,c.NativeType.I32)),H.freeTempLocal(V);break;case 4:var z=e.options,H=e.currentFlow,Y=z.isWasm64;V=H.getTempLocal(z.usizeType,!1),G=H.getAndFreeTempLocal(z.usizeType,!1).index,K=V.index;k=x.createBinary(Y?c.BinaryOp.XorI64:c.BinaryOp.XorI32,x.createBinary(Y?c.BinaryOp.AddI64:c.BinaryOp.AddI32,x.createTeeLocal(G,x.createBinary(Y?c.BinaryOp.ShrI64:c.BinaryOp.ShrI32,x.createTeeLocal(K,w),Y?x.createI64(63):x.createI32(31))),x.createGetLocal(K,z.nativeSizeType)),x.createGetLocal(G,z.nativeSizeType)),H.freeTempLocal(V);break;case 3:V=(H=e.currentFlow).getTempLocal(o.Type.i64,!1),G=H.getAndFreeTempLocal(o.Type.i64,!1).index,K=V.index;k=x.createBinary(c.BinaryOp.XorI64,x.createBinary(c.BinaryOp.AddI64,x.createTeeLocal(G,x.createBinary(c.BinaryOp.ShrI64,x.createTeeLocal(K,w),x.createI64(63))),x.createGetLocal(K,c.NativeType.I64)),x.createGetLocal(G,c.NativeType.I64)),H.freeTempLocal(V);break;case 9:case 5:case 6:case 7:case 8:case 10:k=w;break;case 11:k=x.createUnary(c.UnaryOp.AbsF32,w);break;case 12:k=x.createUnary(c.UnaryOp.AbsF64,w);break;default:e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),k=x.createUnreachable()}return k;case i.max:if(E(t,h,e,!0)|v(n,2,h,e))return x.createUnreachable();w=t?e.compileExpression(n[0],t[0],1,1):e.compileExpression(n[0],o.Type.f64,0,1);if((S=e.currentType).is(256))return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),x.createUnreachable();M=e.compileExpression(n[1],S,1,1),P=void 0;switch(S.kind){case 0:case 1:case 2:P=c.BinaryOp.GtI32;break;case 5:case 6:case 7:case 10:P=c.BinaryOp.GtU32;break;case 3:P=c.BinaryOp.GtI64;break;case 8:P=c.BinaryOp.GtU64;break;case 4:P=e.options.isWasm64?c.BinaryOp.GtI64:c.BinaryOp.GtI32;break;case 9:P=e.options.isWasm64?c.BinaryOp.GtU64:c.BinaryOp.GtU32;break;case 11:return x.createBinary(c.BinaryOp.MaxF32,w,M);case 12:return x.createBinary(c.BinaryOp.MaxF64,w,M);default:return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),x.createUnreachable()}H=e.currentFlow;var W=S.toNativeType(),X=H.getTempLocal(S,!0);V=H.getAndFreeTempLocal(S,!0);return H.freeTempLocal(X),x.createSelect(x.createTeeLocal(X.index,w),x.createTeeLocal(V.index,M),x.createBinary(P,x.createGetLocal(X.index,W),x.createGetLocal(V.index,W)));case i.min:if(E(t,h,e,!0)|v(n,2,h,e))return x.createUnreachable();w=t?e.compileExpression(n[0],t[0],1,1):e.compileExpression(n[0],o.Type.f64,0,1);if((S=e.currentType).is(256))return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),x.createUnreachable();M=e.compileExpression(n[1],S,1,1),P=void 0;switch(S.kind){case 0:case 1:case 2:P=c.BinaryOp.LtI32;break;case 5:case 6:case 7:case 10:P=c.BinaryOp.LtU32;break;case 3:P=c.BinaryOp.LtI64;break;case 8:P=c.BinaryOp.LtU64;break;case 4:P=e.options.isWasm64?c.BinaryOp.LtI64:c.BinaryOp.LtI32;break;case 9:P=e.options.isWasm64?c.BinaryOp.LtU64:c.BinaryOp.LtU32;break;case 11:return x.createBinary(c.BinaryOp.MinF32,w,M);case 12:return x.createBinary(c.BinaryOp.MinF64,w,M);default:return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),x.createUnreachable()}H=e.currentFlow,W=S.toNativeType(),X=H.getTempLocal(S,!0),V=H.getAndFreeTempLocal(S,!0);return H.freeTempLocal(X),x.createSelect(x.createTeeLocal(X.index,w),x.createTeeLocal(V.index,M),x.createBinary(P,x.createGetLocal(X.index,W),x.createGetLocal(V.index,W)));case i.ceil:case i.floor:if(E(t,h,e,!0)|v(n,1,h,e))return x.createUnreachable();w=t?e.compileExpression(n[0],t[0],1,0):e.compileExpression(n[0],o.Type.f64,0,0);if((S=e.currentType).is(256))return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),x.createUnreachable();P=void 0;switch(S.kind){case 0:case 1:case 2:case 3:case 4:case 5:case 6:case 7:case 8:case 9:case 10:return w;case 11:P=r.internalName==i.ceil?c.UnaryOp.CeilF32:c.UnaryOp.FloorF32;break;case 12:P=r.internalName==i.ceil?c.UnaryOp.CeilF64:c.UnaryOp.FloorF64;break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),x.createUnreachable()}return x.createUnary(P,w);case i.copysign:if(E(t,h,e,!0)|v(n,2,h,e))return x.createUnreachable();w=t?e.compileExpression(n[0],t[0],1,0):e.compileExpression(n[0],o.Type.f64,0,0);if((S=e.currentType).is(256))return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),x.createUnreachable();M=e.compileExpression(n[1],S,1,0),P=void 0;switch(S.kind){case 11:P=c.BinaryOp.CopysignF32;break;case 12:P=c.BinaryOp.CopysignF64;break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),x.createUnreachable()}return x.createBinary(P,w,M);case i.nearest:if(E(t,h,e,!0)|v(n,1,h,e))return x.createUnreachable();w=t?e.compileExpression(n[0],t[0],1,0):e.compileExpression(n[0],o.Type.f64,0,0);if((S=e.currentType).is(256))return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),x.createUnreachable();k=void 0;switch(S.kind){case 0:case 1:case 2:case 3:case 4:case 5:case 6:case 7:case 8:case 9:case 10:k=w;break;case 11:k=x.createUnary(c.UnaryOp.NearestF32,w);break;case 12:k=x.createUnary(c.UnaryOp.NearestF64,w);break;default:e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),k=x.createUnreachable()}return k;case i.reinterpret:if(f(t,h,e,!0)|v(n,1,h,e))return x.createUnreachable();if((S=t[0]).is(256))return e.currentType=S,e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),x.createUnreachable();k=void 0;switch(S.kind){case 2:case 7:w=e.compileExpression(n[0],o.Type.f32,1,0);k=x.createUnary(c.UnaryOp.ReinterpretF32,w);break;case 3:case 8:w=e.compileExpression(n[0],o.Type.f64,1,0);k=x.createUnary(c.UnaryOp.ReinterpretF64,w);break;case 4:case 9:w=e.compileExpression(n[0],e.options.isWasm64?o.Type.f64:o.Type.f32,1,0);k=x.createUnary(e.options.isWasm64?c.UnaryOp.ReinterpretF64:c.UnaryOp.ReinterpretF32,w);break;case 11:w=e.compileExpression(n[0],o.Type.i32,1,0);k=x.createUnary(c.UnaryOp.ReinterpretI32,w);break;case 12:w=e.compileExpression(n[0],o.Type.i64,1,0);k=x.createUnary(c.UnaryOp.ReinterpretI64,w);break;default:e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),k=x.createUnreachable()}return e.currentType=S,k;case i.sqrt:if(E(t,h,e,!0)|v(n,1,h,e))return x.createUnreachable();w=t?e.compileExpression(n[0],t[0],1,0):e.compileExpression(n[0],o.Type.f64,0,0);if((S=e.currentType).is(256))return e.currentType=S,e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),x.createUnreachable();k=void 0;switch(S.kind){case 11:k=x.createUnary(c.UnaryOp.SqrtF32,w);break;case 12:k=x.createUnary(c.UnaryOp.SqrtF64,w);break;default:e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),k=x.createUnreachable()}return k;case i.trunc:if(E(t,h,e,!0)|v(n,1,h,e))return x.createUnreachable();w=t?e.compileExpression(n[0],t[0],1,0):e.compileExpression(n[0],o.Type.f64,0,0);if((S=e.currentType).is(256))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),x.createUnreachable();k=void 0;switch(S.kind){case 0:case 1:case 2:case 3:case 4:case 5:case 6:case 7:case 8:case 9:case 10:k=w;break;case 11:k=x.createUnary(c.UnaryOp.TruncF32,w);break;case 12:k=x.createUnary(c.UnaryOp.TruncF64,w);break;default:e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),k=x.createUnreachable()}return k;case i.load:if(f(t,h,e,!0)|I(n,1,3,h,e))return x.createUnreachable();var q=(S=t[0]).is(4)&&u.is(4)&&u.size>S.size?u:S;w=e.compileExpression(n[0],e.options.usizeType,1,0);if((J=(le=n.length)>=2?T(n[1],e):0)<0)return e.currentType=q,x.createUnreachable();var Q=void 0,j=S.byteSize;if(3==le){if((Q=T(n[2],e))<0)return e.currentType=q,x.createUnreachable();if(Q>j)return e.error(a.DiagnosticCode._0_must_be_a_value_between_1_and_2_inclusive,n[2].range,"Alignment","0",j.toString()),e.currentType=q,x.createUnreachable();if(!_.isPowerOf2(Q))return e.error(a.DiagnosticCode._0_must_be_a_power_of_two,n[2].range,"Alignment"),e.currentType=q,x.createUnreachable()}else Q=j;return e.currentType=q,x.createLoad(S.byteSize,S.is(5),w,q.toNativeType(),J,Q);case i.store:if(e.currentType=o.Type.void,f(t,h,e)|I(n,2,4,h,e))return x.createUnreachable();S=t[0],w=e.compileExpression(n[0],e.options.usizeType,1,0),M=b?e.compileExpression(n[1],u,1,0):e.compileExpression(n[1],S,S.is(4)?0:1,0);var Z=e.currentType;if(S.is(4)&&(!Z.is(4)||Z.size=3?T(n[2],e):0)<0)return e.currentType=o.Type.void,x.createUnreachable();Q=void 0,j=S.byteSize;if(4==n.length){if((Q=T(n[3],e))<0)return e.currentType=o.Type.void,x.createUnreachable();if(Q>j)return e.error(a.DiagnosticCode._0_must_be_a_value_between_1_and_2_inclusive,n[3].range,"Alignment","0",j.toString()),e.currentType=o.Type.void,x.createUnreachable();if(!_.isPowerOf2(Q))return e.error(a.DiagnosticCode._0_must_be_a_power_of_two,n[3].range,"Alignment"),e.currentType=o.Type.void,x.createUnreachable()}else Q=j;return e.currentType=o.Type.void,x.createStore(S.byteSize,w,M,Z.toNativeType(),J,Q);case i.atomic_load:if(!e.options.hasFeature(16))break;if(f(t,h,e,!0)|I(n,1,2,h,e))return x.createUnreachable();q=(S=t[0]).is(4)&&u.is(4)&&u.size>S.size?u:S;if(!S.is(4))return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),e.currentType=q,x.createUnreachable();w=e.compileExpression(n[0],e.options.usizeType,1,0);return(J=2==n.length?T(n[1],e):0)<0?(e.currentType=q,x.createUnreachable()):(e.currentType=q,x.createAtomicLoad(S.byteSize,w,q.toNativeType(),J));case i.atomic_store:if(!e.options.hasFeature(16))break;if(e.currentType=o.Type.void,f(t,h,e)|I(n,2,3,h,e))return x.createUnreachable();if(!(S=t[0]).is(4)||S.size<8)return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),x.createUnreachable();w=e.compileExpression(n[0],e.options.usizeType,1,0),M=b?e.compileExpression(n[1],u,1,0):e.compileExpression(n[1],S,S.is(4)?0:1,0),Z=e.currentType;return S.is(4)&&(!Z.is(4)||Z.sizebe?(e.error(a.DiagnosticCode._0_must_be_a_value_between_1_and_2_inclusive,n[1].range,"Lane index","0",be.toString()),x.createUnreachable()):x.createSIMDExtract(P,w,Ne);case i.v128_replace_lane:if(!e.options.hasFeature(8))break;if(f(t,h,e)|v(n,3,h,e))return e.currentType=o.Type.v128,x.createUnreachable();if((S=t[0]).is(256))return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),e.currentType=o.Type.v128,x.createUnreachable();P=void 0;switch(S.kind){case 0:case 5:P=c.SIMDReplaceOp.ReplaceLaneVecI8x16;break;case 1:case 6:P=c.SIMDReplaceOp.ReplaceLaneVecI16x8;break;case 2:case 7:P=c.SIMDReplaceOp.ReplaceLaneVecI32x4;break;case 3:case 8:P=c.SIMDReplaceOp.ReplaceLaneVecI64x2;break;case 4:case 9:P=e.options.isWasm64?c.SIMDReplaceOp.ReplaceLaneVecI64x2:c.SIMDReplaceOp.ReplaceLaneVecI32x4;break;case 11:P=c.SIMDReplaceOp.ReplaceLaneVecF32x4;break;case 12:P=c.SIMDReplaceOp.ReplaceLaneVecF64x2;break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),e.currentType=o.Type.v128,x.createUnreachable()}w=e.compileExpression(n[0],o.Type.v128,1,0),M=x.precomputeExpression(e.compileExpression(n[1],o.Type.u8,1,0));if(c.getExpressionId(M)!=c.ExpressionId.Const)return e.error(a.DiagnosticCode.Expression_must_be_a_compile_time_constant,n[1].range),e.currentType=o.Type.v128,x.createUnreachable();assert(c.getExpressionType(M)==c.NativeType.I32);be=16/S.byteSize-1;if((Ne=c.getConstValueI32(M))<0||Ne>be)return e.error(a.DiagnosticCode._0_must_be_a_value_between_1_and_2_inclusive,n[1].range,"Lane index","0",be.toString()),x.createUnreachable();$=e.compileExpression(n[2],S,1,0);return e.currentType=o.Type.v128,x.createSIMDReplace(P,w,Ne,$);case i.v128_shuffle:if(!e.options.hasFeature(8))break;if(f(t,h,e))return e.currentType=o.Type.v128,x.createUnreachable();if((S=t[0]).is(256))return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),e.currentType=o.Type.v128,x.createUnreachable();var xe=S.byteSize,Se=16/xe;if(assert(isInteger(Se)&&_.isPowerOf2(Se)),v(n,2+Se,h,e))return e.currentType=o.Type.v128,x.createUnreachable();switch(S.kind){case 0:case 1:case 2:case 3:case 4:case 5:case 6:case 7:case 8:case 9:case 11:case 12:break;default:return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),e.currentType=o.Type.v128,x.createUnreachable()}w=e.compileExpression(n[0],o.Type.v128,1,0),M=e.compileExpression(n[1],o.Type.v128,1,0);var Ae=new Uint8Array(16);for(be=(Se<<1)-1,de=0;debe)return e.error(a.DiagnosticCode._0_must_be_a_value_between_1_and_2_inclusive,Oe.range,"Lane index","0",be.toString()),e.currentType=o.Type.v128,x.createUnreachable();switch(xe){case 1:_.writeI8(Ne,Ae,de);break;case 2:var ke=de<<1,Re=Ne<<1;_.writeI8(Re,Ae,ke),_.writeI8(Re+1,Ae,ke+1);break;case 4:ke=de<<2,Re=Ne<<2;_.writeI8(Re,Ae,ke),_.writeI8(Re+1,Ae,ke+1),_.writeI8(Re+2,Ae,ke+2),_.writeI8(Re+3,Ae,ke+3);break;case 8:ke=de<<3,Re=Ne<<3;_.writeI8(Re,Ae,ke),_.writeI8(Re+1,Ae,ke+1),_.writeI8(Re+2,Ae,ke+2),_.writeI8(Re+3,Ae,ke+3),_.writeI8(Re+4,Ae,ke+4),_.writeI8(Re+5,Ae,ke+5),_.writeI8(Re+6,Ae,ke+6),_.writeI8(Re+7,Ae,ke+7);break;default:assert(!1)}}return e.currentType=o.Type.v128,x.createSIMDShuffle(w,M,Ae);case i.v128_add:case i.v128_sub:case i.v128_mul:case i.v128_div:case i.v128_add_saturate:case i.v128_sub_saturate:case i.v128_min:case i.v128_max:case i.v128_eq:case i.v128_ne:case i.v128_lt:case i.v128_le:case i.v128_gt:case i.v128_ge:if(!e.options.hasFeature(8))break;if(f(t,h,e)|v(n,2,h,e))return e.currentType=o.Type.v128,x.createUnreachable();if((S=t[0]).is(256))return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),e.currentType=o.Type.v128,x.createUnreachable();P=-1;switch(r.internalName){case i.v128_add:switch(S.kind){case 0:case 5:P=c.BinaryOp.AddVecI8x16;break;case 1:case 6:P=c.BinaryOp.AddVecI16x8;break;case 2:case 7:P=c.BinaryOp.AddVecI32x4;break;case 3:case 8:P=c.BinaryOp.AddVecI64x2;break;case 4:case 9:P=e.options.isWasm64?c.BinaryOp.AddVecI64x2:c.BinaryOp.AddVecI32x4;break;case 11:P=c.BinaryOp.AddVecF32x4;break;case 12:P=c.BinaryOp.AddVecF64x2}break;case i.v128_sub:switch(S.kind){case 0:case 5:P=c.BinaryOp.SubVecI8x16;break;case 1:case 6:P=c.BinaryOp.SubVecI16x8;break;case 2:case 7:P=c.BinaryOp.SubVecI32x4;break;case 3:case 8:P=c.BinaryOp.SubVecI64x2;break;case 4:case 9:P=e.options.isWasm64?c.BinaryOp.SubVecI64x2:c.BinaryOp.SubVecI32x4;break;case 11:P=c.BinaryOp.SubVecF32x4;break;case 12:P=c.BinaryOp.SubVecF64x2}break;case i.v128_mul:switch(S.kind){case 0:case 5:P=c.BinaryOp.MulVecI8x16;break;case 1:case 6:P=c.BinaryOp.MulVecI16x8;break;case 2:case 7:P=c.BinaryOp.MulVecI32x4;break;case 11:P=c.BinaryOp.MulVecF32x4;break;case 12:P=c.BinaryOp.MulVecF64x2;break;case 4:case 9:e.options.isWasm64||(P=c.BinaryOp.MulVecI32x4)}break;case i.v128_div:switch(S.kind){case 11:P=c.BinaryOp.DivVecF32x4;break;case 12:P=c.BinaryOp.DivVecF64x2}break;case i.v128_add_saturate:switch(S.kind){case 0:P=c.BinaryOp.AddSatSVecI8x16;break;case 5:P=c.BinaryOp.AddSatUVecI8x16;break;case 1:P=c.BinaryOp.AddSatSVecI16x8;break;case 6:P=c.BinaryOp.AddSatUVecI16x8}break;case i.v128_sub_saturate:switch(S.kind){case 0:P=c.BinaryOp.SubSatSVecI8x16;break;case 5:P=c.BinaryOp.SubSatUVecI8x16;break;case 1:P=c.BinaryOp.SubSatSVecI16x8;break;case 6:P=c.BinaryOp.SubSatUVecI16x8}break;case i.v128_min:switch(S.kind){case 11:P=c.BinaryOp.MinVecF32x4;break;case 12:P=c.BinaryOp.MinVecF64x2}break;case i.v128_max:switch(S.kind){case 11:P=c.BinaryOp.MaxVecF32x4;break;case 12:P=c.BinaryOp.MaxVecF64x2}break;case i.v128_eq:switch(S.kind){case 0:case 5:P=c.BinaryOp.EqVecI8x16;break;case 1:case 6:P=c.BinaryOp.EqVecI16x8;break;case 2:case 7:P=c.BinaryOp.EqVecI32x4;break;case 11:P=c.BinaryOp.EqVecF32x4;break;case 12:P=c.BinaryOp.EqVecF64x2;break;case 4:case 9:e.options.isWasm64||(P=c.BinaryOp.EqVecI32x4)}break;case i.v128_ne:switch(S.kind){case 0:case 5:P=c.BinaryOp.NeVecI8x16;break;case 1:case 6:P=c.BinaryOp.NeVecI16x8;break;case 2:case 7:P=c.BinaryOp.NeVecI32x4;break;case 11:P=c.BinaryOp.NeVecF32x4;break;case 12:P=c.BinaryOp.NeVecF64x2;break;case 4:case 9:e.options.isWasm64||(P=c.BinaryOp.NeVecI32x4)}break;case i.v128_lt:switch(S.kind){case 0:P=c.BinaryOp.LtSVecI8x16;break;case 5:P=c.BinaryOp.LtUVecI8x16;break;case 1:P=c.BinaryOp.LtSVecI16x8;break;case 6:P=c.BinaryOp.LtUVecI16x8;break;case 2:P=c.BinaryOp.LtSVecI32x4;break;case 7:P=c.BinaryOp.LtUVecI32x4;break;case 11:P=c.BinaryOp.LtVecF32x4;break;case 12:P=c.BinaryOp.LtVecF64x2;break;case 4:case 9:e.options.isWasm64||(P=4==S.kind?c.BinaryOp.LtSVecI32x4:c.BinaryOp.LtUVecI32x4)}break;case i.v128_le:switch(S.kind){case 0:P=c.BinaryOp.LeSVecI8x16;break;case 5:P=c.BinaryOp.LeUVecI8x16;break;case 1:P=c.BinaryOp.LeSVecI16x8;break;case 6:P=c.BinaryOp.LeUVecI16x8;break;case 2:P=c.BinaryOp.LeSVecI32x4;break;case 7:P=c.BinaryOp.LeUVecI32x4;break;case 11:P=c.BinaryOp.LeVecF32x4;break;case 12:P=c.BinaryOp.LeVecF64x2;break;case 4:case 9:e.options.isWasm64||(P=4==S.kind?c.BinaryOp.LeSVecI32x4:c.BinaryOp.LeUVecI32x4)}break;case i.v128_gt:switch(S.kind){case 0:P=c.BinaryOp.GtSVecI8x16;break;case 5:P=c.BinaryOp.GtUVecI8x16;break;case 1:P=c.BinaryOp.GtSVecI16x8;break;case 6:P=c.BinaryOp.GtUVecI16x8;break;case 2:P=c.BinaryOp.GtSVecI32x4;break;case 7:P=c.BinaryOp.GtUVecI32x4;break;case 11:P=c.BinaryOp.GtVecF32x4;break;case 12:P=c.BinaryOp.GtVecF64x2;break;case 4:case 9:e.options.isWasm64||(P=4==S.kind?c.BinaryOp.GtSVecI32x4:c.BinaryOp.GtUVecI32x4)}break;case i.v128_ge:switch(S.kind){case 0:P=c.BinaryOp.GeSVecI8x16;break;case 5:P=c.BinaryOp.GeUVecI8x16;break;case 1:P=c.BinaryOp.GeSVecI16x8;break;case 6:P=c.BinaryOp.GeUVecI16x8;break;case 2:P=c.BinaryOp.GeSVecI32x4;break;case 7:P=c.BinaryOp.GeUVecI32x4;break;case 11:P=c.BinaryOp.GeVecF32x4;break;case 12:P=c.BinaryOp.GeVecF64x2;break;case 4:case 9:e.options.isWasm64||(P=4==S.kind?c.BinaryOp.GeSVecI32x4:c.BinaryOp.GeUVecI32x4)}}if(-1==P)return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),e.currentType=o.Type.v128,x.createUnreachable();w=e.compileExpression(n[0],o.Type.v128,1,0),M=e.compileExpression(n[1],o.Type.v128,1,0);return e.currentType=o.Type.v128,x.createBinary(P,w,M);case i.v128_neg:case i.v128_abs:case i.v128_sqrt:case i.v128_convert:case i.v128_trunc:if(!e.options.hasFeature(8))break;if(f(t,h,e)|v(n,1,h,e))return e.currentType=o.Type.v128,x.createUnreachable();if((S=t[0]).is(256))return e.error(a.DiagnosticCode.Operation_not_supported,h.range),e.currentType=o.Type.v128,x.createUnreachable();P=-1;switch(r.internalName){case i.v128_neg:switch(S.kind){case 0:case 5:P=c.UnaryOp.NegVecI8x16;break;case 1:case 6:P=c.UnaryOp.NegVecI16x8;break;case 2:case 7:P=c.UnaryOp.NegVecI32x4;break;case 3:case 8:P=c.UnaryOp.NegVecI64x2;break;case 4:case 9:P=e.options.isWasm64?c.UnaryOp.NegVecI64x2:c.UnaryOp.NegVecI32x4;break;case 11:P=c.UnaryOp.NegVecF32x4;break;case 12:P=c.UnaryOp.NegVecF64x2}break;case i.v128_abs:switch(S.kind){case 11:P=c.UnaryOp.AbsVecF32x4;break;case 12:P=c.UnaryOp.AbsVecF64x2}break;case i.v128_sqrt:switch(S.kind){case 11:P=c.UnaryOp.SqrtVecF32x4;break;case 12:P=c.UnaryOp.SqrtVecF64x2}break;case i.v128_convert:switch(S.kind){case 2:P=c.UnaryOp.ConvertSVecI32x4ToVecF32x4;break;case 7:P=c.UnaryOp.ConvertUVecI32x4ToVecF32x4;break;case 3:P=c.UnaryOp.ConvertSVecI64x2ToVecF64x2;break;case 8:P=c.UnaryOp.ConvertUVecI64x2ToVecF64x2}break;case i.v128_trunc:switch(S.kind){case 2:P=c.UnaryOp.TruncSatSVecF32x4ToVecI32x4;break;case 7:P=c.UnaryOp.TruncSatUVecF32x4ToVecI32x4;break;case 3:P=c.UnaryOp.TruncSatSVecF64x2ToVecI64x2;break;case 8:P=c.UnaryOp.TruncSatUVecF64x2ToVecI64x2}}if(-1==P)return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),e.currentType=o.Type.v128,x.createUnreachable();w=e.compileExpression(n[0],o.Type.v128,1,0);return e.currentType=o.Type.v128,x.createUnary(P,w);case i.v128_shl:case i.v128_shr:if(!e.options.hasFeature(8))break;if(f(t,h,e)|v(n,2,h,e))return e.currentType=o.Type.v128,x.createUnreachable();if((S=t[0]).is(256))return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),e.currentType=o.Type.v128,x.createUnreachable();P=-1;switch(r.internalName){case i.v128_shl:switch(S.kind){case 0:case 5:P=c.SIMDShiftOp.ShlVecI8x16;break;case 1:case 6:P=c.SIMDShiftOp.ShlVecI16x8;break;case 2:case 7:P=c.SIMDShiftOp.ShlVecI32x4;break;case 3:case 8:P=c.SIMDShiftOp.ShlVecI64x2;break;case 4:case 9:P=e.options.isWasm64?c.SIMDShiftOp.ShlVecI64x2:c.SIMDShiftOp.ShlVecI32x4}break;case i.v128_shr:switch(S.kind){case 0:P=c.SIMDShiftOp.ShrSVecI8x16;break;case 5:P=c.SIMDShiftOp.ShrUVecI8x16;break;case 1:P=c.SIMDShiftOp.ShrSVecI16x8;break;case 6:P=c.SIMDShiftOp.ShrUVecI16x8;break;case 2:P=c.SIMDShiftOp.ShrSVecI32x4;break;case 7:P=c.SIMDShiftOp.ShrUVecI32x4;break;case 3:P=c.SIMDShiftOp.ShrSVecI64x2;break;case 8:P=c.SIMDShiftOp.ShrUVecI64x2;break;case 4:P=e.options.isWasm64?c.SIMDShiftOp.ShrSVecI64x2:c.SIMDShiftOp.ShrSVecI32x4;break;case 9:P=e.options.isWasm64?c.SIMDShiftOp.ShrUVecI64x2:c.SIMDShiftOp.ShrUVecI32x4}}if(-1==P)return e.error(a.DiagnosticCode.Operation_not_supported,h.range),e.currentType=o.Type.v128,x.createUnreachable();w=e.compileExpression(n[0],o.Type.v128,1,0),M=e.compileExpression(n[1],o.Type.i32,1,0);return e.currentType=o.Type.v128,x.createSIMDShift(P,w,M);case i.v128_and:case i.v128_or:case i.v128_xor:if(!e.options.hasFeature(8))break;if(g(t,h,r)|v(n,2,h,e))return e.currentType=o.Type.v128,x.createUnreachable();P=-1;switch(r.internalName){default:assert(!1);case i.v128_and:P=c.BinaryOp.AndVec128;break;case i.v128_or:P=c.BinaryOp.OrVec128;break;case i.v128_xor:P=c.BinaryOp.XorVec128}w=e.compileExpression(n[0],o.Type.v128,1,0),M=e.compileExpression(n[1],o.Type.v128,1,0);return x.createBinary(P,w,M);case i.v128_not:if(!e.options.hasFeature(8))break;if(g(t,h,r)|v(n,1,h,e))return e.currentType=o.Type.v128,x.createUnreachable();w=e.compileExpression(n[0],o.Type.v128,1,0);return x.createUnary(c.UnaryOp.NotVec128,w);case i.v128_bitselect:if(!e.options.hasFeature(8))break;if(g(t,h,r)|v(n,3,h,e))return e.currentType=o.Type.v128,x.createUnreachable();w=e.compileExpression(n[0],o.Type.v128,1,0),M=e.compileExpression(n[1],o.Type.v128,1,0),$=e.compileExpression(n[2],o.Type.v128,1,0);return x.createSIMDBitselect(w,M,$);case i.v128_any_true:case i.v128_all_true:if(!e.options.hasFeature(8))break;if(f(t,h,e)|v(n,1,h,e))return e.currentType=o.Type.bool,x.createUnreachable();if((S=t[0]).is(256))return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),x.createUnreachable();P=-1;switch(r.internalName){default:assert(!1);case i.v128_any_true:switch(S.kind){case 0:case 5:P=c.UnaryOp.AnyTrueVecI8x16;break;case 1:case 6:P=c.UnaryOp.AnyTrueVecI16x8;break;case 2:case 7:P=c.UnaryOp.AnyTrueVecI32x4;break;case 3:case 8:P=c.UnaryOp.AnyTrueVecI64x2;break;case 4:case 9:P=e.options.isWasm64?c.UnaryOp.AnyTrueVecI64x2:c.UnaryOp.AnyTrueVecI32x4}break;case i.v128_all_true:switch(S.kind){case 0:case 5:P=c.UnaryOp.AllTrueVecI8x16;break;case 1:case 6:P=c.UnaryOp.AllTrueVecI16x8;break;case 2:case 7:P=c.UnaryOp.AllTrueVecI32x4;break;case 3:case 8:P=c.UnaryOp.AllTrueVecI64x2;break;case 4:case 9:P=e.options.isWasm64?c.UnaryOp.AllTrueVecI64x2:c.UnaryOp.AllTrueVecI32x4}}if(-1==P)return e.error(a.DiagnosticCode.Operation_not_supported,h.typeArgumentsRange),e.currentType=o.Type.bool,x.createUnreachable();w=e.compileExpression(n[0],o.Type.v128,1,0);return e.currentType=o.Type.bool,x.createUnary(P,w);case i.iterateRoots:if(g(t,h,r)|v(n,1,h,e))return e.currentType=o.Type.void,x.createUnreachable();k=e.compileExpressionRetainType(n[0],o.Type.u32,0);var Le=(S=e.currentType).signatureReference;return S.is(256)&&Le&&1==Le.parameterTypes.length&&Le.parameterTypes[0]==e.options.usizeType?(e.needsIterateRoots=!0,e.currentType=o.Type.void,x.createCall("~iterateRoots",[k],c.NativeType.None)):(e.error(a.DiagnosticCode.Type_0_is_not_assignable_to_type_1,h.range,S.toString(),"(ref: usize) => void"),e.currentType=o.Type.void,x.createUnreachable())}return(k=function(e,r,t,n){switch(r.internalName){case i.i32_clz:return d(i.clz,e,o.Type.i32,t,o.Type.i32,n);case i.i64_clz:return d(i.clz,e,o.Type.i64,t,o.Type.i64,n);case i.i32_ctz:return d(i.ctz,e,o.Type.i32,t,o.Type.i32,n);case i.i64_ctz:return d(i.ctz,e,o.Type.i64,t,o.Type.i64,n);case i.i32_popcnt:return d(i.popcnt,e,o.Type.i32,t,o.Type.i32,n);case i.i64_popcnt:return d(i.popcnt,e,o.Type.i64,t,o.Type.i64,n);case i.i32_rotl:return d(i.rotl,e,o.Type.i32,t,o.Type.i32,n);case i.i64_rotl:return d(i.rotl,e,o.Type.i64,t,o.Type.i64,n);case i.i32_rotr:return d(i.rotr,e,o.Type.i32,t,o.Type.i32,n);case i.i64_rotr:return d(i.rotr,e,o.Type.i64,t,o.Type.i64,n);case i.f32_abs:return d(i.abs,e,o.Type.f32,t,o.Type.f32,n);case i.f64_abs:return d(i.abs,e,o.Type.f64,t,o.Type.f64,n);case i.f32_max:return d(i.max,e,o.Type.f32,t,o.Type.f32,n);case i.f64_max:return d(i.max,e,o.Type.f64,t,o.Type.f64,n);case i.f32_min:return d(i.min,e,o.Type.f32,t,o.Type.f32,n);case i.f64_min:return d(i.min,e,o.Type.f64,t,o.Type.f64,n);case i.f32_ceil:return d(i.ceil,e,o.Type.f32,t,o.Type.f32,n);case i.f64_ceil:return d(i.ceil,e,o.Type.f64,t,o.Type.f64,n);case i.f32_floor:return d(i.floor,e,o.Type.f32,t,o.Type.f32,n);case i.f64_floor:return d(i.floor,e,o.Type.f64,t,o.Type.f64,n);case i.f32_copysign:return d(i.copysign,e,o.Type.f32,t,o.Type.f32,n);case i.f64_copysign:return d(i.copysign,e,o.Type.f64,t,o.Type.f64,n);case i.f32_nearest:return d(i.nearest,e,o.Type.f32,t,o.Type.f32,n);case i.f64_nearest:return d(i.nearest,e,o.Type.f64,t,o.Type.f64,n);case i.i32_reinterpret_f32:return d(i.reinterpret,e,o.Type.i32,t,o.Type.f32,n);case i.i64_reinterpret_f64:return d(i.reinterpret,e,o.Type.i64,t,o.Type.f64,n);case i.f32_reinterpret_i32:return d(i.reinterpret,e,o.Type.f32,t,o.Type.i32,n);case i.f64_reinterpret_i64:return d(i.reinterpret,e,o.Type.f64,t,o.Type.i64,n);case i.f32_sqrt:return d(i.sqrt,e,o.Type.f32,t,o.Type.f32,n);case i.f64_sqrt:return d(i.sqrt,e,o.Type.f64,t,o.Type.f64,n);case i.f32_trunc:return d(i.trunc,e,o.Type.f32,t,o.Type.f32,n);case i.f64_trunc:return d(i.trunc,e,o.Type.f64,t,o.Type.f64,n);case i.i32_load8_s:return d(i.load,e,o.Type.i8,t,o.Type.i32,n);case i.i32_load8_u:return d(i.load,e,o.Type.u8,t,o.Type.i32,n);case i.i32_load16_s:return d(i.load,e,o.Type.i16,t,o.Type.i32,n);case i.i32_load16_u:return d(i.load,e,o.Type.u16,t,o.Type.i32,n);case i.i32_load:return d(i.load,e,o.Type.i32,t,o.Type.i32,n);case i.i64_load8_s:return d(i.load,e,o.Type.i8,t,o.Type.i64,n);case i.i64_load8_u:return d(i.load,e,o.Type.u8,t,o.Type.i64,n);case i.i64_load16_s:return d(i.load,e,o.Type.i16,t,o.Type.i64,n);case i.i64_load16_u:return d(i.load,e,o.Type.u16,t,o.Type.i64,n);case i.i64_load32_s:return d(i.load,e,o.Type.i32,t,o.Type.i64,n);case i.i64_load32_u:return d(i.load,e,o.Type.u32,t,o.Type.i64,n);case i.i64_load:return d(i.load,e,o.Type.i64,t,o.Type.i64,n);case i.f32_load:return d(i.load,e,o.Type.f32,t,o.Type.f32,n);case i.f64_load:return d(i.load,e,o.Type.f64,t,o.Type.f64,n);case i.i32_store8:return d(i.store,e,o.Type.i8,t,o.Type.i32,n);case i.i32_store16:return d(i.store,e,o.Type.i16,t,o.Type.i32,n);case i.i32_store:return d(i.store,e,o.Type.i32,t,o.Type.i32,n);case i.i64_store8:return d(i.store,e,o.Type.i8,t,o.Type.i64,n);case i.i64_store16:return d(i.store,e,o.Type.i16,t,o.Type.i64,n);case i.i64_store32:return d(i.store,e,o.Type.i32,t,o.Type.i64,n);case i.i64_store:return d(i.store,e,o.Type.i64,t,o.Type.i64,n);case i.f32_store:return d(i.store,e,o.Type.f32,t,o.Type.f32,n);case i.f64_store:return d(i.store,e,o.Type.f64,t,o.Type.f64,n)}if(e.options.hasFeature(16))switch(r.internalName){case i.i32_atomic_load8_u:return d(i.atomic_load,e,o.Type.u8,t,o.Type.i32,n);case i.i32_atomic_load16_u:return d(i.atomic_load,e,o.Type.u16,t,o.Type.i32,n);case i.i32_atomic_load:return d(i.atomic_load,e,o.Type.i32,t,o.Type.i32,n);case i.i64_atomic_load8_u:return d(i.atomic_load,e,o.Type.u8,t,o.Type.i64,n);case i.i64_atomic_load16_u:return d(i.atomic_load,e,o.Type.u16,t,o.Type.i64,n);case i.i64_atomic_load32_u:return d(i.atomic_load,e,o.Type.u32,t,o.Type.i64,n);case i.i64_atomic_load:return d(i.atomic_load,e,o.Type.i64,t,o.Type.i64,n);case i.i32_atomic_store8:return d(i.atomic_store,e,o.Type.u8,t,o.Type.i32,n);case i.i32_atomic_store16:return d(i.atomic_store,e,o.Type.u16,t,o.Type.i32,n);case i.i32_atomic_store:return d(i.atomic_store,e,o.Type.i32,t,o.Type.i32,n);case i.i64_atomic_store8:return d(i.atomic_store,e,o.Type.u8,t,o.Type.i64,n);case i.i64_atomic_store16:return d(i.atomic_store,e,o.Type.u16,t,o.Type.i64,n);case i.i64_atomic_store32:return d(i.atomic_store,e,o.Type.u32,t,o.Type.i64,n);case i.i64_atomic_store:return d(i.atomic_store,e,o.Type.i64,t,o.Type.i64,n);case i.i32_atomic_rmw8_add_u:return d(i.atomic_add,e,o.Type.u8,t,o.Type.i32,n);case i.i32_atomic_rmw16_add_u:return d(i.atomic_add,e,o.Type.u16,t,o.Type.i32,n);case i.i32_atomic_rmw_add:return d(i.atomic_add,e,o.Type.i32,t,o.Type.i32,n);case i.i64_atomic_rmw8_add_u:return d(i.atomic_add,e,o.Type.u8,t,o.Type.i64,n);case i.i64_atomic_rmw16_add_u:return d(i.atomic_add,e,o.Type.u16,t,o.Type.i64,n);case i.i64_atomic_rmw32_add_u:return d(i.atomic_add,e,o.Type.u32,t,o.Type.i64,n);case i.i64_atomic_rmw_add:return d(i.atomic_add,e,o.Type.i64,t,o.Type.i64,n);case i.i32_atomic_rmw8_sub_u:return d(i.atomic_sub,e,o.Type.u8,t,o.Type.i32,n);case i.i32_atomic_rmw16_sub_u:return d(i.atomic_sub,e,o.Type.u16,t,o.Type.i32,n);case i.i32_atomic_rmw_sub:return d(i.atomic_sub,e,o.Type.i32,t,o.Type.i32,n);case i.i64_atomic_rmw8_sub_u:return d(i.atomic_sub,e,o.Type.u8,t,o.Type.i64,n);case i.i64_atomic_rmw16_sub_u:return d(i.atomic_sub,e,o.Type.u16,t,o.Type.i64,n);case i.i64_atomic_rmw32_sub_u:return d(i.atomic_sub,e,o.Type.u32,t,o.Type.i64,n);case i.i64_atomic_rmw_sub:return d(i.atomic_sub,e,o.Type.i64,t,o.Type.i64,n);case i.i32_atomic_rmw8_and_u:return d(i.atomic_and,e,o.Type.u8,t,o.Type.i32,n);case i.i32_atomic_rmw16_and_u:return d(i.atomic_and,e,o.Type.u16,t,o.Type.i32,n);case i.i32_atomic_rmw_and:return d(i.atomic_and,e,o.Type.i32,t,o.Type.i32,n);case i.i64_atomic_rmw8_and_u:return d(i.atomic_and,e,o.Type.u8,t,o.Type.i64,n);case i.i64_atomic_rmw16_and_u:return d(i.atomic_and,e,o.Type.u16,t,o.Type.i64,n);case i.i64_atomic_rmw32_and_u:return d(i.atomic_and,e,o.Type.u32,t,o.Type.i64,n);case i.i64_atomic_rmw_and:return d(i.atomic_and,e,o.Type.i64,t,o.Type.i64,n);case i.i32_atomic_rmw8_or_u:return d(i.atomic_or,e,o.Type.u8,t,o.Type.i32,n);case i.i32_atomic_rmw16_or_u:return d(i.atomic_or,e,o.Type.u16,t,o.Type.i32,n);case i.i32_atomic_rmw_or:return d(i.atomic_or,e,o.Type.i32,t,o.Type.i32,n);case i.i64_atomic_rmw8_or_u:return d(i.atomic_or,e,o.Type.u8,t,o.Type.i64,n);case i.i64_atomic_rmw16_or_u:return d(i.atomic_or,e,o.Type.u16,t,o.Type.i64,n);case i.i64_atomic_rmw32_or_u:return d(i.atomic_or,e,o.Type.u32,t,o.Type.i64,n);case i.i64_atomic_rmw_or:return d(i.atomic_or,e,o.Type.i64,t,o.Type.i64,n);case i.i32_atomic_rmw8_u_xor:return d(i.atomic_xor,e,o.Type.u8,t,o.Type.i32,n);case i.i32_atomic_rmw16_u_xor:return d(i.atomic_xor,e,o.Type.u16,t,o.Type.i32,n);case i.i32_atomic_rmw_xor:return d(i.atomic_xor,e,o.Type.i32,t,o.Type.i32,n);case i.i64_atomic_rmw8_xor_u:return d(i.atomic_xor,e,o.Type.u8,t,o.Type.i64,n);case i.i64_atomic_rmw16_xor_u:return d(i.atomic_xor,e,o.Type.u16,t,o.Type.i64,n);case i.i64_atomic_rmw32_xor_u:return d(i.atomic_xor,e,o.Type.u32,t,o.Type.i64,n);case i.i64_atomic_rmw_xor:return d(i.atomic_xor,e,o.Type.i64,t,o.Type.i64,n);case i.i32_atomic_rmw8_xchg_u:return d(i.atomic_xchg,e,o.Type.u8,t,o.Type.i32,n);case i.i32_atomic_rmw16_xchg_u:return d(i.atomic_xchg,e,o.Type.u16,t,o.Type.i32,n);case i.i32_atomic_rmw_xchg:return d(i.atomic_xchg,e,o.Type.i32,t,o.Type.i32,n);case i.i64_atomic_rmw8_xchg_u:return d(i.atomic_xchg,e,o.Type.u8,t,o.Type.i64,n);case i.i64_atomic_rmw16_xchg_u:return d(i.atomic_xchg,e,o.Type.u16,t,o.Type.i64,n);case i.i64_atomic_rmw32_xchg_u:return d(i.atomic_xchg,e,o.Type.u32,t,o.Type.i64,n);case i.i64_atomic_rmw_xchg:return d(i.atomic_xchg,e,o.Type.i64,t,o.Type.i64,n);case i.i32_atomic_rmw8_cmpxchg_u:return d(i.atomic_cmpxchg,e,o.Type.u8,t,o.Type.i32,n);case i.i32_atomic_rmw16_cmpxchg_u:return d(i.atomic_cmpxchg,e,o.Type.u16,t,o.Type.i32,n);case i.i32_atomic_rmw_cmpxchg:return d(i.atomic_cmpxchg,e,o.Type.i32,t,o.Type.i32,n);case i.i64_atomic_rmw8_cmpxchg_u:return d(i.atomic_cmpxchg,e,o.Type.u8,t,o.Type.i64,n);case i.i64_atomic_rmw16_cmpxchg_u:return d(i.atomic_cmpxchg,e,o.Type.u16,t,o.Type.i64,n);case i.i64_atomic_rmw32_cmpxchg_u:return d(i.atomic_cmpxchg,e,o.Type.u32,t,o.Type.i64,n);case i.i64_atomic_rmw_cmpxchg:return d(i.atomic_cmpxchg,e,o.Type.i64,t,o.Type.i64,n);case i.i32_wait:return d(i.atomic_wait,e,o.Type.i32,t,o.Type.i32,n);case i.i64_wait:return d(i.atomic_wait,e,o.Type.i64,t,o.Type.i32,n);case i.i32_notify:return d(i.atomic_notify,e,o.Type.i32,t,o.Type.i32,n);case i.i64_notify:return d(i.atomic_notify,e,o.Type.i64,t,o.Type.i32,n)}if(e.options.hasFeature(8))switch(r.internalName){case i.v128_load:return d(i.load,e,o.Type.v128,t,o.Type.v128,n);case i.v128_store:return d(i.store,e,o.Type.v128,t,o.Type.void,n);case i.i8x16_splat:return d(i.v128_splat,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_extract_lane_s:return d(i.v128_extract_lane,e,o.Type.i8,t,o.Type.i8,n);case i.i8x16_extract_lane_u:return d(i.v128_extract_lane,e,o.Type.u8,t,o.Type.u8,n);case i.i8x16_replace_lane:return d(i.v128_replace_lane,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_add:return d(i.v128_add,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_sub:return d(i.v128_sub,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_mul:return d(i.v128_mul,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_neg:return d(i.v128_neg,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_add_saturate_s:return d(i.v128_add_saturate,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_add_saturate_u:return d(i.v128_add_saturate,e,o.Type.u8,t,o.Type.v128,n);case i.i8x16_sub_saturate_s:return d(i.v128_sub_saturate,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_sub_saturate_u:return d(i.v128_sub_saturate,e,o.Type.u8,t,o.Type.v128,n);case i.i8x16_shl:return d(i.v128_shl,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_shr_s:return d(i.v128_shr,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_shr_u:return d(i.v128_shr,e,o.Type.u8,t,o.Type.v128,n);case i.i8x16_any_true:return d(i.v128_any_true,e,o.Type.i8,t,o.Type.i32,n);case i.i8x16_all_true:return d(i.v128_all_true,e,o.Type.i8,t,o.Type.i32,n);case i.i8x16_eq:return d(i.v128_eq,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_ne:return d(i.v128_ne,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_lt_s:return d(i.v128_lt,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_lt_u:return d(i.v128_lt,e,o.Type.u8,t,o.Type.v128,n);case i.i8x16_le_s:return d(i.v128_le,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_le_u:return d(i.v128_le,e,o.Type.u8,t,o.Type.v128,n);case i.i8x16_gt_s:return d(i.v128_gt,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_gt_u:return d(i.v128_gt,e,o.Type.u8,t,o.Type.v128,n);case i.i8x16_ge_s:return d(i.v128_ge,e,o.Type.i8,t,o.Type.v128,n);case i.i8x16_ge_u:return d(i.v128_ge,e,o.Type.u8,t,o.Type.v128,n);case i.i16x8_splat:return d(i.v128_splat,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_extract_lane_s:return d(i.v128_extract_lane,e,o.Type.i16,t,o.Type.i16,n);case i.i16x8_extract_lane_u:return d(i.v128_extract_lane,e,o.Type.u16,t,o.Type.u16,n);case i.i16x8_replace_lane:return d(i.v128_replace_lane,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_add:return d(i.v128_add,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_sub:return d(i.v128_sub,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_mul:return d(i.v128_mul,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_neg:return d(i.v128_neg,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_add_saturate_s:return d(i.v128_add_saturate,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_add_saturate_u:return d(i.v128_add_saturate,e,o.Type.u16,t,o.Type.v128,n);case i.i16x8_sub_saturate_s:return d(i.v128_sub_saturate,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_sub_saturate_u:return d(i.v128_sub_saturate,e,o.Type.u16,t,o.Type.v128,n);case i.i16x8_shl:return d(i.v128_shl,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_shr_s:return d(i.v128_shr,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_shr_u:return d(i.v128_shr,e,o.Type.u16,t,o.Type.v128,n);case i.i16x8_any_true:return d(i.v128_any_true,e,o.Type.i16,t,o.Type.i32,n);case i.i16x8_all_true:return d(i.v128_all_true,e,o.Type.i16,t,o.Type.i32,n);case i.i16x8_eq:return d(i.v128_eq,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_ne:return d(i.v128_ne,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_lt_s:return d(i.v128_lt,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_lt_u:return d(i.v128_lt,e,o.Type.u16,t,o.Type.v128,n);case i.i16x8_le_s:return d(i.v128_le,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_le_u:return d(i.v128_le,e,o.Type.u16,t,o.Type.v128,n);case i.i16x8_gt_s:return d(i.v128_gt,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_gt_u:return d(i.v128_gt,e,o.Type.u16,t,o.Type.v128,n);case i.i16x8_ge_s:return d(i.v128_ge,e,o.Type.i16,t,o.Type.v128,n);case i.i16x8_ge_u:return d(i.v128_ge,e,o.Type.u16,t,o.Type.v128,n);case i.i32x4_splat:return d(i.v128_splat,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_extract_lane:return d(i.v128_extract_lane,e,o.Type.i32,t,o.Type.i32,n);case i.i32x4_replace_lane:return d(i.v128_replace_lane,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_add:return d(i.v128_add,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_sub:return d(i.v128_sub,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_mul:return d(i.v128_mul,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_neg:return d(i.v128_neg,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_shl:return d(i.v128_shl,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_shr_s:return d(i.v128_shr,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_shr_u:return d(i.v128_shr,e,o.Type.u32,t,o.Type.v128,n);case i.i32x4_any_true:return d(i.v128_any_true,e,o.Type.i32,t,o.Type.i32,n);case i.i32x4_all_true:return d(i.v128_all_true,e,o.Type.i32,t,o.Type.i32,n);case i.i32x4_eq:return d(i.v128_eq,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_ne:return d(i.v128_ne,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_lt_s:return d(i.v128_lt,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_lt_u:return d(i.v128_lt,e,o.Type.u32,t,o.Type.v128,n);case i.i32x4_le_s:return d(i.v128_le,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_le_u:return d(i.v128_le,e,o.Type.u32,t,o.Type.v128,n);case i.i32x4_gt_s:return d(i.v128_gt,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_gt_u:return d(i.v128_gt,e,o.Type.u32,t,o.Type.v128,n);case i.i32x4_ge_s:return d(i.v128_ge,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_ge_u:return d(i.v128_ge,e,o.Type.u32,t,o.Type.v128,n);case i.i32x4_trunc_s_f32x4_sat:return d(i.v128_trunc,e,o.Type.i32,t,o.Type.v128,n);case i.i32x4_trunc_u_f32x4_sat:return d(i.v128_trunc,e,o.Type.u32,t,o.Type.v128,n);case i.i64x2_splat:return d(i.v128_splat,e,o.Type.i64,t,o.Type.v128,n);case i.i64x2_extract_lane:return d(i.v128_extract_lane,e,o.Type.i64,t,o.Type.i64,n);case i.i64x2_replace_lane:return d(i.v128_replace_lane,e,o.Type.i64,t,o.Type.v128,n);case i.i64x2_add:return d(i.v128_add,e,o.Type.i64,t,o.Type.v128,n);case i.i64x2_sub:return d(i.v128_sub,e,o.Type.i64,t,o.Type.v128,n);case i.i64x2_neg:return d(i.v128_neg,e,o.Type.i64,t,o.Type.v128,n);case i.i64x2_shl:return d(i.v128_shl,e,o.Type.i64,t,o.Type.v128,n);case i.i64x2_shr_s:return d(i.v128_shr,e,o.Type.i64,t,o.Type.v128,n);case i.i64x2_shr_u:return d(i.v128_shr,e,o.Type.u64,t,o.Type.v128,n);case i.i64x2_any_true:return d(i.v128_any_true,e,o.Type.i64,t,o.Type.i32,n);case i.i64x2_all_true:return d(i.v128_all_true,e,o.Type.i64,t,o.Type.i32,n);case i.i64x2_trunc_s_f64x2_sat:return d(i.v128_trunc,e,o.Type.i64,t,o.Type.v128,n);case i.i64x2_trunc_u_f64x2_sat:return d(i.v128_trunc,e,o.Type.u64,t,o.Type.v128,n);case i.f32x4_splat:return d(i.v128_splat,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_extract_lane:return d(i.v128_extract_lane,e,o.Type.f32,t,o.Type.f32,n);case i.f32x4_replace_lane:return d(i.v128_replace_lane,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_add:return d(i.v128_add,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_sub:return d(i.v128_sub,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_mul:return d(i.v128_mul,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_div:return d(i.v128_div,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_neg:return d(i.v128_neg,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_min:return d(i.v128_min,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_max:return d(i.v128_max,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_abs:return d(i.v128_abs,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_sqrt:return d(i.v128_sqrt,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_eq:return d(i.v128_eq,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_ne:return d(i.v128_ne,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_lt:return d(i.v128_lt,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_le:return d(i.v128_le,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_gt:return d(i.v128_gt,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_ge:return d(i.v128_ge,e,o.Type.f32,t,o.Type.v128,n);case i.f32x4_convert_s_i32x4:return d(i.v128_convert,e,o.Type.i32,t,o.Type.v128,n);case i.f32x4_convert_u_i32x4:return d(i.v128_convert,e,o.Type.u32,t,o.Type.v128,n);case i.f64x2_splat:return d(i.v128_splat,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_extract_lane:return d(i.v128_extract_lane,e,o.Type.f64,t,o.Type.f64,n);case i.f64x2_replace_lane:return d(i.v128_replace_lane,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_add:return d(i.v128_add,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_sub:return d(i.v128_sub,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_mul:return d(i.v128_mul,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_div:return d(i.v128_div,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_neg:return d(i.v128_neg,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_min:return d(i.v128_min,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_max:return d(i.v128_max,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_abs:return d(i.v128_abs,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_sqrt:return d(i.v128_sqrt,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_eq:return d(i.v128_eq,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_ne:return d(i.v128_ne,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_lt:return d(i.v128_lt,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_le:return d(i.v128_le,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_gt:return d(i.v128_gt,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_ge:return d(i.v128_ge,e,o.Type.f64,t,o.Type.v128,n);case i.f64x2_convert_s_i64x2:return d(i.v128_convert,e,o.Type.i64,t,o.Type.v128,n);case i.f64x2_convert_u_i64x2:return d(i.v128_convert,e,o.Type.u64,t,o.Type.v128,n);case i.v8x16_shuffle:return d(i.v128_shuffle,e,o.Type.i8,t,o.Type.v128,n)}return 0}(e,r,n,h))?(t&&e.error(a.DiagnosticCode.Type_0_is_not_generic,h.typeArgumentsRange,r.internalName),k):(e.error(a.DiagnosticCode.Cannot_find_name_0,h.expression.range,r.internalName),x.createUnreachable())}function d(e,r,t,n,i,a){assert(r.program.elementsByName.has(e));var s=r.program.elementsByName.get(e);return assert(s.kind==l.ElementKind.FUNCTION_PROTOTYPE),h(r,s,[t],n,i,a,!0)}function y(e,r,t){var n=e.program,i=e.module,a=e.program.stringInstance;if(!a)return i.createUnreachable();var s=n.abortInstance;if(!s||!e.compileFunction(s))return i.createUnreachable();var l=null!=r?e.compileExpression(r,a.type,1,0):a.type.toNativeZero(i),p=e.ensureStaticString(t.range.source.normalizedPath);return e.currentType=o.Type.void,i.createBlock(null,[i.createCall(s.internalName,[l,p,i.createI32(t.range.line),i.createI32(t.range.column)],c.NativeType.None),i.createUnreachable()])}function m(e,r,t,n){if(0==t.length)return r&&1==r.length?r[0]:(e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,n.typeArgumentsRange,"1",r?r.length.toString(10):"0"),null);if(1==t.length){if(r)if(1==r.length)e.compileExpression(t[0],r[0],1,0);else{if(r.length)return e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,n.typeArgumentsRange,"1",r.length.toString(10)),null;e.compileExpressionRetainType(t[0],o.Type.i32,0)}else e.compileExpressionRetainType(t[0],o.Type.i32,0);return e.currentType}return r&&r.length>1&&e.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,n.typeArgumentsRange,"1",r.length.toString(10)),e.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,n.argumentsRange,"1",t.length.toString(10)),null}function T(e,r){var t,n;return r.options.isWasm64?(t=r.precomputeExpression(e,o.Type.usize64,1,0),(c.getExpressionId(t)!=c.ExpressionId.Const||c.getExpressionType(t)!=c.NativeType.I64||0!=c.getConstValueI64High(t)||(n=c.getConstValueI64Low(t))<0)&&(r.error(a.DiagnosticCode.Expression_must_be_a_compile_time_constant,e.range),n=-1)):(t=r.precomputeExpression(e,o.Type.usize32,1,0),(c.getExpressionId(t)!=c.ExpressionId.Const||c.getExpressionType(t)!=c.NativeType.I32||(n=c.getConstValueI32(t))<0)&&(r.error(a.DiagnosticCode.Expression_must_be_a_compile_time_constant,e.range),n=-1)),n}function f(e,r,t,n){if(void 0===n&&(n=!1),e){var i=e.length;if(1==i)return 0;assert(i),n&&(t.currentType=e[0]),t.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,r.typeArgumentsRange,"1",i.toString())}else t.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,r.range,"1","0");return 1}function E(e,r,t,n){if(void 0===n&&(n=!1),e){var i=e.length;return 1==i?0:(assert(i),n&&(t.currentType=e[0]),t.error(a.DiagnosticCode.Expected_0_type_arguments_but_got_1,r.typeArgumentsRange,"1",i.toString()),1)}return 0}function g(e,r,t){return e?(t.program.error(a.DiagnosticCode.Type_0_is_not_generic,r.typeArgumentsRange,t.internalName),1):0}function v(e,r,t,n){return e.length!=r?(n.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,t.range,r.toString(),e.length.toString()),1):0}function I(e,r,t,n,i){var s=e.length;return st?(i.error(a.DiagnosticCode.Expected_0_arguments_but_got_1,n.range,t.toString(),s.toString()),1):0}!function(e){e.isInteger="~lib/builtins/isInteger",e.isFloat="~lib/builtins/isFloat",e.isSigned="~lib/builtins/isSigned",e.isReference="~lib/builtins/isReference",e.isString="~lib/builtins/isString",e.isArray="~lib/builtins/isArray",e.isArrayLike="~lib/builtins/isArrayLike",e.isFunction="~lib/builtins/isFunction",e.isNullable="~lib/builtins/isNullable",e.isDefined="~lib/builtins/isDefined",e.isConstant="~lib/builtins/isConstant",e.isManaged="~lib/builtins/isManaged",e.clz="~lib/builtins/clz",e.ctz="~lib/builtins/ctz",e.popcnt="~lib/builtins/popcnt",e.rotl="~lib/builtins/rotl",e.rotr="~lib/builtins/rotr",e.abs="~lib/builtins/abs",e.max="~lib/builtins/max",e.min="~lib/builtins/min",e.ceil="~lib/builtins/ceil",e.floor="~lib/builtins/floor",e.copysign="~lib/builtins/copysign",e.nearest="~lib/builtins/nearest",e.reinterpret="~lib/builtins/reinterpret",e.sqrt="~lib/builtins/sqrt",e.trunc="~lib/builtins/trunc",e.load="~lib/builtins/load",e.store="~lib/builtins/store",e.atomic_load="~lib/builtins/atomic.load",e.atomic_store="~lib/builtins/atomic.store",e.atomic_add="~lib/builtins/atomic.add",e.atomic_sub="~lib/builtins/atomic.sub",e.atomic_and="~lib/builtins/atomic.and",e.atomic_or="~lib/builtins/atomic.or",e.atomic_xor="~lib/builtins/atomic.xor",e.atomic_xchg="~lib/builtins/atomic.xchg",e.atomic_cmpxchg="~lib/builtins/atomic.cmpxchg",e.atomic_wait="~lib/builtins/atomic.wait",e.atomic_notify="~lib/builtins/atomic.notify",e.sizeof="~lib/builtins/sizeof",e.alignof="~lib/builtins/alignof",e.offsetof="~lib/builtins/offsetof",e.select="~lib/builtins/select",e.unreachable="~lib/builtins/unreachable",e.changetype="~lib/builtins/changetype",e.assert="~lib/builtins/assert",e.unchecked="~lib/builtins/unchecked",e.call_indirect="~lib/builtins/call_indirect",e.instantiate="~lib/builtins/instantiate",e.i8="~lib/builtins/i8",e.i16="~lib/builtins/i16",e.i32="~lib/builtins/i32",e.i64="~lib/builtins/i64",e.isize="~lib/builtins/isize",e.u8="~lib/builtins/u8",e.u16="~lib/builtins/u16",e.u32="~lib/builtins/u32",e.u64="~lib/builtins/u64",e.usize="~lib/builtins/usize",e.bool="~lib/builtins/bool",e.f32="~lib/builtins/f32",e.f64="~lib/builtins/f64",e.v128="~lib/builtins/v128",e.void_="~lib/builtins/void",e.i32_clz="~lib/builtins/i32.clz",e.i64_clz="~lib/builtins/i64.clz",e.i32_ctz="~lib/builtins/i32.ctz",e.i64_ctz="~lib/builtins/i64.ctz",e.i32_popcnt="~lib/builtins/i32.popcnt",e.i64_popcnt="~lib/builtins/i64.popcnt",e.i32_rotl="~lib/builtins/i32.rotl",e.i64_rotl="~lib/builtins/i64.rotl",e.i32_rotr="~lib/builtins/i32.rotr",e.i64_rotr="~lib/builtins/i64.rotr",e.f32_abs="~lib/builtins/f32.abs",e.f64_abs="~lib/builtins/f64.abs",e.f32_max="~lib/builtins/f32.max",e.f64_max="~lib/builtins/f64.max",e.f32_min="~lib/builtins/f32.min",e.f64_min="~lib/builtins/f64.min",e.f32_ceil="~lib/builtins/f32.ceil",e.f64_ceil="~lib/builtins/f64.ceil",e.f32_floor="~lib/builtins/f32.floor",e.f64_floor="~lib/builtins/f64.floor",e.f32_copysign="~lib/builtins/f32.copysign",e.f64_copysign="~lib/builtins/f64.copysign",e.f32_nearest="~lib/builtins/f32.nearest",e.f64_nearest="~lib/builtins/f64.nearest",e.i32_reinterpret_f32="~lib/builtins/i32.reinterpret_f32",e.i64_reinterpret_f64="~lib/builtins/i64.reinterpret_f64",e.f32_reinterpret_i32="~lib/builtins/f32.reinterpret_i32",e.f64_reinterpret_i64="~lib/builtins/f64.reinterpret_i64",e.f32_sqrt="~lib/builtins/f32.sqrt",e.f64_sqrt="~lib/builtins/f64.sqrt",e.f32_trunc="~lib/builtins/f32.trunc",e.f64_trunc="~lib/builtins/f64.trunc",e.i32_load8_s="~lib/builtins/i32.load8_s",e.i32_load8_u="~lib/builtins/i32.load8_u",e.i32_load16_s="~lib/builtins/i32.load16_s",e.i32_load16_u="~lib/builtins/i32.load16_u",e.i32_load="~lib/builtins/i32.load",e.i64_load8_s="~lib/builtins/i64.load8_s",e.i64_load8_u="~lib/builtins/i64.load8_u",e.i64_load16_s="~lib/builtins/i64.load16_s",e.i64_load16_u="~lib/builtins/i64.load16_u",e.i64_load32_s="~lib/builtins/i64.load32_s",e.i64_load32_u="~lib/builtins/i64.load32_u",e.i64_load="~lib/builtins/i64.load",e.f32_load="~lib/builtins/f32.load",e.f64_load="~lib/builtins/f64.load",e.i32_store8="~lib/builtins/i32.store8",e.i32_store16="~lib/builtins/i32.store16",e.i32_store="~lib/builtins/i32.store",e.i64_store8="~lib/builtins/i64.store8",e.i64_store16="~lib/builtins/i64.store16",e.i64_store32="~lib/builtins/i64.store32",e.i64_store="~lib/builtins/i64.store",e.f32_store="~lib/builtins/f32.store",e.f64_store="~lib/builtins/f64.store",e.i32_atomic_load8_u="~lib/builtins/i32.atomic.load8_u",e.i32_atomic_load16_u="~lib/builtins/i32.atomic.load16_u",e.i32_atomic_load="~lib/builtins/i32.atomic.load",e.i64_atomic_load8_u="~lib/builtins/i64.atomic.load8_u",e.i64_atomic_load16_u="~lib/builtins/i64.atomic.load16_u",e.i64_atomic_load32_u="~lib/builtins/i64.atomic.load32_u",e.i64_atomic_load="~lib/builtins/i64.atomic.load",e.i32_atomic_store8="~lib/builtins/i32.atomic.store8",e.i32_atomic_store16="~lib/builtins/i32.atomic.store16",e.i32_atomic_store="~lib/builtins/i32.atomic.store",e.i64_atomic_store8="~lib/builtins/i64.atomic.store8",e.i64_atomic_store16="~lib/builtins/i64.atomic.store16",e.i64_atomic_store32="~lib/builtins/i64.atomic.store32",e.i64_atomic_store="~lib/builtins/i64.atomic.store",e.i32_atomic_rmw8_add_u="~lib/builtins/i32.atomic.rmw8.add_u",e.i32_atomic_rmw16_add_u="~lib/builtins/i32.atomic.rmw16.add_u",e.i32_atomic_rmw_add="~lib/builtins/i32.atomic.rmw.add",e.i64_atomic_rmw8_add_u="~lib/builtins/i64.atomic.rmw8.add_u",e.i64_atomic_rmw16_add_u="~lib/builtins/i64.atomic.rmw16.add_u",e.i64_atomic_rmw32_add_u="~lib/builtins/i64.atomic.rmw32.add_u",e.i64_atomic_rmw_add="~lib/builtins/i64.atomic.rmw.add",e.i32_atomic_rmw8_sub_u="~lib/builtins/i32.atomic.rmw8.sub_u",e.i32_atomic_rmw16_sub_u="~lib/builtins/i32.atomic.rmw16.sub_u",e.i32_atomic_rmw_sub="~lib/builtins/i32.atomic.rmw.sub",e.i64_atomic_rmw8_sub_u="~lib/builtins/i64.atomic.rmw8.sub_u",e.i64_atomic_rmw16_sub_u="~lib/builtins/i64.atomic.rmw16.sub_u",e.i64_atomic_rmw32_sub_u="~lib/builtins/i64.atomic.rmw32.sub_u",e.i64_atomic_rmw_sub="~lib/builtins/i64.atomic.rmw.sub",e.i32_atomic_rmw8_and_u="~lib/builtins/i32.atomic.rmw8.and_u",e.i32_atomic_rmw16_and_u="~lib/builtins/i32.atomic.rmw16.and_u",e.i32_atomic_rmw_and="~lib/builtins/i32.atomic.rmw.and",e.i64_atomic_rmw8_and_u="~lib/builtins/i64.atomic.rmw8.and_u",e.i64_atomic_rmw16_and_u="~lib/builtins/i64.atomic.rmw16.and_u",e.i64_atomic_rmw32_and_u="~lib/builtins/i64.atomic.rmw32.and_u",e.i64_atomic_rmw_and="~lib/builtins/i64.atomic.rmw.and",e.i32_atomic_rmw8_or_u="~lib/builtins/i32.atomic.rmw8.or_u",e.i32_atomic_rmw16_or_u="~lib/builtins/i32.atomic.rmw16.or_u",e.i32_atomic_rmw_or="~lib/builtins/i32.atomic.rmw.or",e.i64_atomic_rmw8_or_u="~lib/builtins/i64.atomic.rmw8.or_u",e.i64_atomic_rmw16_or_u="~lib/builtins/i64.atomic.rmw16.or_u",e.i64_atomic_rmw32_or_u="~lib/builtins/i64.atomic.rmw32.or_u",e.i64_atomic_rmw_or="~lib/builtins/i64.atomic.rmw.or",e.i32_atomic_rmw8_u_xor="~lib/builtins/i32.atomic.rmw8.xor_u",e.i32_atomic_rmw16_u_xor="~lib/builtins/i32.atomic.rmw16.xor_u",e.i32_atomic_rmw_xor="~lib/builtins/i32.atomic.rmw.xor",e.i64_atomic_rmw8_xor_u="~lib/builtins/i64.atomic.rmw8.xor_u",e.i64_atomic_rmw16_xor_u="~lib/builtins/i64.atomic.rmw16.xor_u",e.i64_atomic_rmw32_xor_u="~lib/builtins/i64.atomic.rmw32.xor_u",e.i64_atomic_rmw_xor="~lib/builtins/i64.atomic.rmw.xor",e.i32_atomic_rmw8_xchg_u="~lib/builtins/i32.atomic.rmw8.xchg_u",e.i32_atomic_rmw16_xchg_u="~lib/builtins/i32.atomic.rmw16.xchg_u",e.i32_atomic_rmw_xchg="~lib/builtins/i32.atomic.rmw.xchg",e.i64_atomic_rmw8_xchg_u="~lib/builtins/i64.atomic.rmw8.xchg_u",e.i64_atomic_rmw16_xchg_u="~lib/builtins/i64.atomic.rmw16.xchg_u",e.i64_atomic_rmw32_xchg_u="~lib/builtins/i64.atomic.rmw32.xchg_u",e.i64_atomic_rmw_xchg="~lib/builtins/i64.atomic.rmw.xchg",e.i32_atomic_rmw8_cmpxchg_u="~lib/builtins/i32.atomic.rmw8.cmpxchg_u",e.i32_atomic_rmw16_cmpxchg_u="~lib/builtins/i32.atomic.rmw16.cmpxchg_u",e.i32_atomic_rmw_cmpxchg="~lib/builtins/i32.atomic.rmw.cmpxchg",e.i64_atomic_rmw8_cmpxchg_u="~lib/builtins/i64.atomic.rmw8.cmpxchg_u",e.i64_atomic_rmw16_cmpxchg_u="~lib/builtins/i64.atomic.rmw16.cmpxchg_u",e.i64_atomic_rmw32_cmpxchg_u="~lib/builtins/i64.atomic.rmw32.cmpxchg_u",e.i64_atomic_rmw_cmpxchg="~lib/builtins/i64.atomic.rmw.cmpxchg",e.i32_wait="~lib/builtins/i32.wait",e.i64_wait="~lib/builtins/i64.wait",e.i32_notify="~lib/builtins/i32.notify",e.i64_notify="~lib/builtins/i64.notify",e.v128_splat="~lib/builtins/v128.splat",e.v128_extract_lane="~lib/builtins/v128.extract_lane",e.v128_replace_lane="~lib/builtins/v128.replace_lane",e.v128_shuffle="~lib/builtins/v128.shuffle",e.v128_load="~lib/builtins/v128.load",e.v128_store="~lib/builtins/v128.store",e.v128_add="~lib/builtins/v128.add",e.v128_sub="~lib/builtins/v128.sub",e.v128_mul="~lib/builtins/v128.mul",e.v128_div="~lib/builtins/v128.div",e.v128_neg="~lib/builtins/v128.neg",e.v128_add_saturate="~lib/builtins/v128.add_saturate",e.v128_sub_saturate="~lib/builtins/v128.sub_saturate",e.v128_shl="~lib/builtins/v128.shl",e.v128_shr="~lib/builtins/v128.shr",e.v128_and="~lib/builtins/v128.and",e.v128_or="~lib/builtins/v128.or",e.v128_xor="~lib/builtins/v128.xor",e.v128_not="~lib/builtins/v128.not",e.v128_bitselect="~lib/builtins/v128.bitselect",e.v128_any_true="~lib/builtins/v128.any_true",e.v128_all_true="~lib/builtins/v128.all_true",e.v128_min="~lib/builtins/v128.min",e.v128_max="~lib/builtins/v128.max",e.v128_abs="~lib/builtins/v128.abs",e.v128_sqrt="~lib/builtins/v128.sqrt",e.v128_eq="~lib/builtins/v128.eq",e.v128_ne="~lib/builtins/v128.ne",e.v128_lt="~lib/builtins/v128.lt",e.v128_le="~lib/builtins/v128.le",e.v128_gt="~lib/builtins/v128.gt",e.v128_ge="~lib/builtins/v128.ge",e.v128_convert="~lib/builtins/v128.convert",e.v128_trunc="~lib/builtins/v128.trunc",e.i8x16="~lib/builtins/i8x16",e.i16x8="~lib/builtins/i16x8",e.i32x4="~lib/builtins/i32x4",e.i64x2="~lib/builtins/i64x2",e.f32x4="~lib/builtins/f32x4",e.f64x2="~lib/builtins/f64x2",e.i8x16_splat="~lib/builtins/i8x16.splat",e.i8x16_extract_lane_s="~lib/builtins/i8x16.extract_lane_s",e.i8x16_extract_lane_u="~lib/builtins/i8x16.extract_lane_u",e.i8x16_replace_lane="~lib/builtins/i8x16.replace_lane",e.i8x16_add="~lib/builtins/i8x16.add",e.i8x16_sub="~lib/builtins/i8x16.sub",e.i8x16_mul="~lib/builtins/i8x16.mul",e.i8x16_neg="~lib/builtins/i8x16.neg",e.i8x16_add_saturate_s="~lib/builtins/i8x16.add_saturate_s",e.i8x16_add_saturate_u="~lib/builtins/i8x16.add_saturate_u",e.i8x16_sub_saturate_s="~lib/builtins/i8x16.sub_saturate_s",e.i8x16_sub_saturate_u="~lib/builtins/i8x16.sub_saturate_u",e.i8x16_shl="~lib/builtins/i8x16.shl",e.i8x16_shr_s="~lib/builtins/i8x16.shr_s",e.i8x16_shr_u="~lib/builtins/i8x16.shr_u",e.i8x16_any_true="~lib/builtins/i8x16.any_true",e.i8x16_all_true="~lib/builtins/i8x16.all_true",e.i8x16_eq="~lib/builtins/i8x16.eq",e.i8x16_ne="~lib/builtins/i8x16.ne",e.i8x16_lt_s="~lib/builtins/i8x16.lt_s",e.i8x16_lt_u="~lib/builtins/i8x16.lt_u",e.i8x16_le_s="~lib/builtins/i8x16.le_s",e.i8x16_le_u="~lib/builtins/i8x16.le_u",e.i8x16_gt_s="~lib/builtins/i8x16.gt_s",e.i8x16_gt_u="~lib/builtins/i8x16.gt_u",e.i8x16_ge_s="~lib/builtins/i8x16.ge_s",e.i8x16_ge_u="~lib/builtins/i8x16.ge_u",e.i16x8_splat="~lib/builtins/i16x8.splat",e.i16x8_extract_lane_s="~lib/builtins/i16x8.extract_lane_s",e.i16x8_extract_lane_u="~lib/builtins/i16x8.extract_lane_u",e.i16x8_replace_lane="~lib/builtins/i16x8.replace_lane",e.i16x8_add="~lib/builtins/i16x8.add",e.i16x8_sub="~lib/builtins/i16x8.sub",e.i16x8_mul="~lib/builtins/i16x8.mul",e.i16x8_neg="~lib/builtins/i16x8.neg",e.i16x8_add_saturate_s="~lib/builtins/i16x8.add_saturate_s",e.i16x8_add_saturate_u="~lib/builtins/i16x8.add_saturate_u",e.i16x8_sub_saturate_s="~lib/builtins/i16x8.sub_saturate_s",e.i16x8_sub_saturate_u="~lib/builtins/i16x8.sub_saturate_u",e.i16x8_shl="~lib/builtins/i16x8.shl",e.i16x8_shr_s="~lib/builtins/i16x8.shr_s",e.i16x8_shr_u="~lib/builtins/i16x8.shr_u",e.i16x8_any_true="~lib/builtins/i16x8.any_true",e.i16x8_all_true="~lib/builtins/i16x8.all_true",e.i16x8_eq="~lib/builtins/i16x8.eq",e.i16x8_ne="~lib/builtins/i16x8.ne",e.i16x8_lt_s="~lib/builtins/i16x8.lt_s",e.i16x8_lt_u="~lib/builtins/i16x8.lt_u",e.i16x8_le_s="~lib/builtins/i16x8.le_s",e.i16x8_le_u="~lib/builtins/i16x8.le_u",e.i16x8_gt_s="~lib/builtins/i16x8.gt_s",e.i16x8_gt_u="~lib/builtins/i16x8.gt_u",e.i16x8_ge_s="~lib/builtins/i16x8.ge_s",e.i16x8_ge_u="~lib/builtins/i16x8.ge_u",e.i32x4_splat="~lib/builtins/i32x4.splat",e.i32x4_extract_lane="~lib/builtins/i32x4.extract_lane",e.i32x4_replace_lane="~lib/builtins/i32x4.replace_lane",e.i32x4_add="~lib/builtins/i32x4.add",e.i32x4_sub="~lib/builtins/i32x4.sub",e.i32x4_mul="~lib/builtins/i32x4.mul",e.i32x4_neg="~lib/builtins/i32x4.neg",e.i32x4_shl="~lib/builtins/i32x4.shl",e.i32x4_shr_s="~lib/builtins/i32x4.shr_s",e.i32x4_shr_u="~lib/builtins/i32x4.shr_u",e.i32x4_any_true="~lib/builtins/i32x4.any_true",e.i32x4_all_true="~lib/builtins/i32x4.all_true",e.i32x4_eq="~lib/builtins/i32x4.eq",e.i32x4_ne="~lib/builtins/i32x4.ne",e.i32x4_lt_s="~lib/builtins/i32x4.lt_s",e.i32x4_lt_u="~lib/builtins/i32x4.lt_u",e.i32x4_le_s="~lib/builtins/i32x4.le_s",e.i32x4_le_u="~lib/builtins/i32x4.le_u",e.i32x4_gt_s="~lib/builtins/i32x4.gt_s",e.i32x4_gt_u="~lib/builtins/i32x4.gt_u",e.i32x4_ge_s="~lib/builtins/i32x4.ge_s",e.i32x4_ge_u="~lib/builtins/i32x4.ge_u",e.i32x4_trunc_s_f32x4_sat="~lib/builtins/i32x4.trunc_s_f32x4_sat",e.i32x4_trunc_u_f32x4_sat="~lib/builtins/i32x4.trunc_u_f32x4_sat",e.i64x2_splat="~lib/builtins/i64x2.splat",e.i64x2_extract_lane="~lib/builtins/i64x2.extract_lane",e.i64x2_replace_lane="~lib/builtins/i64x2.replace_lane",e.i64x2_add="~lib/builtins/i64x2.add",e.i64x2_sub="~lib/builtins/i64x2.sub",e.i64x2_neg="~lib/builtins/i64x2.neg",e.i64x2_shl="~lib/builtins/i64x2.shl",e.i64x2_shr_s="~lib/builtins/i64x2.shr_s",e.i64x2_shr_u="~lib/builtins/i64x2.shr_u",e.i64x2_any_true="~lib/builtins/i64x2.any_true",e.i64x2_all_true="~lib/builtins/i64x2.all_true",e.i64x2_trunc_s_f64x2_sat="~lib/builtins/i64x2.trunc_s_f64x2_sat",e.i64x2_trunc_u_f64x2_sat="~lib/builtins/i64x2.trunc_u_f64x2_sat",e.f32x4_splat="~lib/builtins/f32x4.splat",e.f32x4_extract_lane="~lib/builtins/f32x4.extract_lane",e.f32x4_replace_lane="~lib/builtins/f32x4.replace_lane",e.f32x4_add="~lib/builtins/f32x4.add",e.f32x4_sub="~lib/builtins/f32x4.sub",e.f32x4_mul="~lib/builtins/f32x4.mul",e.f32x4_div="~lib/builtins/f32x4.div",e.f32x4_neg="~lib/builtins/f32x4.neg",e.f32x4_min="~lib/builtins/f32x4.min",e.f32x4_max="~lib/builtins/f32x4.max",e.f32x4_abs="~lib/builtins/f32x4.abs",e.f32x4_sqrt="~lib/builtins/f32x4.sqrt",e.f32x4_eq="~lib/builtins/f32x4.eq",e.f32x4_ne="~lib/builtins/f32x4.ne",e.f32x4_lt="~lib/builtins/f32x4.lt",e.f32x4_le="~lib/builtins/f32x4.le",e.f32x4_gt="~lib/builtins/f32x4.gt",e.f32x4_ge="~lib/builtins/f32x4.ge",e.f32x4_convert_s_i32x4="~lib/builtins/f32x4.convert_s_i32x4",e.f32x4_convert_u_i32x4="~lib/builtins/f32x4.convert_u_i32x4",e.f64x2_splat="~lib/builtins/f64x2.splat",e.f64x2_extract_lane="~lib/builtins/f64x2.extract_lane",e.f64x2_replace_lane="~lib/builtins/f64x2.replace_lane",e.f64x2_add="~lib/builtins/f64x2.add",e.f64x2_sub="~lib/builtins/f64x2.sub",e.f64x2_mul="~lib/builtins/f64x2.mul",e.f64x2_div="~lib/builtins/f64x2.div",e.f64x2_neg="~lib/builtins/f64x2.neg",e.f64x2_min="~lib/builtins/f64x2.min",e.f64x2_max="~lib/builtins/f64x2.max",e.f64x2_abs="~lib/builtins/f64x2.abs",e.f64x2_sqrt="~lib/builtins/f64x2.sqrt",e.f64x2_eq="~lib/builtins/f64x2.eq",e.f64x2_ne="~lib/builtins/f64x2.ne",e.f64x2_lt="~lib/builtins/f64x2.lt",e.f64x2_le="~lib/builtins/f64x2.le",e.f64x2_gt="~lib/builtins/f64x2.gt",e.f64x2_ge="~lib/builtins/f64x2.ge",e.f64x2_convert_s_i64x2="~lib/builtins/f64x2.convert_s_i64x2",e.f64x2_convert_u_i64x2="~lib/builtins/f64x2.convert_u_i64x2",e.v8x16_shuffle="~lib/builtins/v8x16.shuffle",e.ERROR="~lib/diagnostics/ERROR",e.WARNING="~lib/diagnostics/WARNING",e.INFO="~lib/diagnostics/INFO",e.HEAP_BASE="~lib/memory/HEAP_BASE",e.memory_size="~lib/memory/memory.size",e.memory_grow="~lib/memory/memory.grow",e.memory_copy="~lib/memory/memory.copy",e.memory_fill="~lib/memory/memory.fill",e.iterateRoots="~lib/gc/iterateRoots"}(i=r.BuiltinSymbols||(r.BuiltinSymbols={})),r.compileCall=h,r.compileAbort=y,r.compileIterateRoots=function(e){var r,t,i=e.module,a=new Array,s=o.Signature.makeSignatureString([o.Type.i32],o.Type.void),p=e.ensureFunctionType([o.Type.i32],o.Type.void);try{for(var _=n(e.program.elementsByName.values()),h=_.next();!h.done;h=_.next()){var d=h.value;if(d.kind==l.ElementKind.GLOBAL){var y=d,m=y.type.classReference;if(y.is(u.CommonFlags.COMPILED)&&null!==m&&!m.hasDecorator(l.DecoratorFlags.UNMANAGED))if(y.is(u.CommonFlags.INLINED)){var T=y.constantIntegerValue;a.push(i.createCallIndirect(i.createGetLocal(0,c.NativeType.I32),[e.options.isWasm64?i.createI64(i64_low(T),i64_high(T)):i.createI32(i64_low(T))],s))}else a.push(i.createCallIndirect(i.createGetLocal(0,c.NativeType.I32),[i.createGetGlobal(y.internalName,e.options.nativeSizeType)],s))}}}catch(e){r={error:e}}finally{try{h&&!h.done&&(t=_.return)&&t.call(_)}finally{if(r)throw r.error}}i.addFunction("~iterateRoots",p,[],a.length?i.createBlock(null,a):i.createNop())},r.ensureGCHook=function e(r,t){var i,a,s=r.program;assert(t.type.isManaged(s));var p=t.gcHookIndex;if(-1!=p)return p;var _=t.members;if(t.isDeclaredInLibrary&&null!==_&&_.has("__gc")){var h=assert(_.get("__gc"));assert(h.kind==l.ElementKind.FUNCTION_PROTOTYPE);var d=assert(s.resolver.resolveFunction(h,null));assert(d.is(u.CommonFlags.PRIVATE|u.CommonFlags.INSTANCE)),assert(!d.isAny(u.CommonFlags.AMBIENT|u.CommonFlags.VIRTUAL)),assert(0==d.signature.parameterTypes.length),assert(d.signature.returnType==o.Type.void),d.internalName=t.internalName+"~gc",assert(r.compileFunction(d));var y=r.ensureFunctionTableEntry(d);return t.gcHookIndex=y,y}var m=r.module,T=r.options,f=T.nativeSizeType,E=T.usizeType.byteSize,g=new Array;g.push(m.createIf(m.createUnary(T.isWasm64?c.UnaryOp.EqzI64:c.UnaryOp.EqzI32,m.createGetLocal(0,f)),m.createReturn()));var v=r.functionTable,I=v.length;v.push(""),t.gcHookIndex=I;var 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range.end) sb.push(\"~\");\r\n }\r\n if (useColors) sb.push(COLOR_RESET);\r\n return sb.join(\"\");\r\n}\r\n\r\n/** Base class of all diagnostic emitters. */\r\nexport abstract class DiagnosticEmitter {\r\n\r\n /** Diagnostic messages emitted so far. */\r\n diagnostics: DiagnosticMessage[];\r\n\r\n /** Initializes this diagnostic emitter. */\r\n protected constructor(diagnostics: DiagnosticMessage[] | null = null) {\r\n this.diagnostics = diagnostics ? diagnostics : new Array();\r\n }\r\n\r\n /** Emits a diagnostic message of the specified category. */\r\n emitDiagnostic(\r\n code: DiagnosticCode,\r\n category: DiagnosticCategory,\r\n range: Range,\r\n relatedRange: Range | null,\r\n arg0: string | null = null,\r\n arg1: string | null = null,\r\n arg2: string | null = null\r\n ): void {\r\n var message = DiagnosticMessage.create(code, category, arg0, arg1, arg2).withRange(range);\r\n if (relatedRange) message.relatedRange = relatedRange;\r\n this.diagnostics.push(message);\r\n // console.log(formatDiagnosticMessage(message, true, true) + \"\\n\"); // temporary\r\n // console.log(new Error(\"stack\").stack);\r\n }\r\n\r\n /** Emits an informatory diagnostic message. */\r\n info(\r\n code: DiagnosticCode,\r\n range: Range,\r\n arg0: string | null = null,\r\n arg1: string | null = null,\r\n arg2: string | null = null\r\n ): void {\r\n this.emitDiagnostic(code, DiagnosticCategory.INFO, range, null, arg0, arg1, arg2);\r\n }\r\n\r\n /** Emits an informatory diagnostic message with a related range. */\r\n infoRelated(\r\n code: DiagnosticCode,\r\n range: Range,\r\n relatedRange: Range,\r\n arg0: string | null = null,\r\n arg1: string | null = null,\r\n arg2: string | null = null\r\n ): void {\r\n this.emitDiagnostic(code, DiagnosticCategory.INFO, range, relatedRange, arg0, arg1, arg2);\r\n }\r\n\r\n /** Emits a warning diagnostic message. */\r\n warning(\r\n code: DiagnosticCode,\r\n range: Range,\r\n arg0: string | null = null,\r\n arg1: string | null = null,\r\n arg2: string | null = null\r\n ): void {\r\n this.emitDiagnostic(code, DiagnosticCategory.WARNING, range, null, arg0, arg1, arg2);\r\n }\r\n\r\n /** Emits a warning diagnostic message with a related range. */\r\n warningRelated(\r\n code: DiagnosticCode,\r\n range: Range,\r\n relatedRange: Range,\r\n arg0: string | null = null,\r\n arg1: string | null = null,\r\n arg2: string | null = null\r\n ): void {\r\n this.emitDiagnostic(code, DiagnosticCategory.WARNING, range, relatedRange, arg0, arg1, arg2);\r\n }\r\n\r\n /** Emits an error diagnostic message. */\r\n error(\r\n code: DiagnosticCode,\r\n range: Range,\r\n arg0: string | null = null,\r\n arg1: string | null = null,\r\n arg2: string | null = null\r\n ): void {\r\n this.emitDiagnostic(code, DiagnosticCategory.ERROR, range, null, arg0, arg1, arg2);\r\n }\r\n\r\n /** Emits an error diagnostic message with a related range. */\r\n errorRelated(\r\n code: DiagnosticCode,\r\n range: Range,\r\n relatedRange: Range,\r\n arg0: string | null = null,\r\n arg1: string | null = null,\r\n arg2: string | null = null\r\n ): void {\r\n this.emitDiagnostic(code, DiagnosticCategory.ERROR, range, relatedRange, arg0, arg1, arg2);\r\n }\r\n}\r\n","/**\r\n * AssemblyScript's intermediate representation describing a program's elements.\r\n * @module program\r\n *//***/\r\n\r\nimport {\r\n CommonFlags,\r\n PATH_DELIMITER,\r\n STATIC_DELIMITER,\r\n INSTANCE_DELIMITER,\r\n GETTER_PREFIX,\r\n SETTER_PREFIX,\r\n INNER_DELIMITER,\r\n LIBRARY_SUBST,\r\n INDEX_SUFFIX,\r\n CommonSymbols,\r\n LibrarySymbols\r\n} from \"./common\";\r\n\r\nimport {\r\n Options,\r\n Feature\r\n} from \"./compiler\";\r\n\r\nimport {\r\n DiagnosticCode,\r\n DiagnosticMessage,\r\n DiagnosticEmitter\r\n} from \"./diagnostics\";\r\n\r\nimport {\r\n Type,\r\n TypeKind,\r\n TypeFlags,\r\n Signature\r\n} from \"./types\";\r\n\r\nimport {\r\n Node,\r\n NodeKind,\r\n Source,\r\n SourceKind,\r\n Range,\r\n DecoratorNode,\r\n DecoratorKind,\r\n SignatureNode,\r\n TypeParameterNode,\r\n CommonTypeNode,\r\n TypeNode,\r\n ArrowKind,\r\n\r\n Expression,\r\n IdentifierExpression,\r\n LiteralExpression,\r\n LiteralKind,\r\n StringLiteralExpression,\r\n\r\n Statement,\r\n ClassDeclaration,\r\n DeclarationStatement,\r\n EnumDeclaration,\r\n EnumValueDeclaration,\r\n ExportMember,\r\n ExportStatement,\r\n FieldDeclaration,\r\n FunctionDeclaration,\r\n ImportDeclaration,\r\n ImportStatement,\r\n InterfaceDeclaration,\r\n MethodDeclaration,\r\n NamespaceDeclaration,\r\n TypeDeclaration,\r\n VariableDeclaration,\r\n VariableLikeDeclarationStatement,\r\n VariableStatement,\r\n\r\n decoratorNameToKind,\r\n findDecorator\r\n} from \"./ast\";\r\n\r\nimport {\r\n Module,\r\n FunctionRef\r\n} from \"./module\";\r\n\r\nimport {\r\n CharCode\r\n} from \"./util\";\r\n\r\nimport {\r\n Resolver\r\n} from \"./resolver\";\r\n\r\nimport {\r\n Flow\r\n} from \"./flow\";\r\n\r\n/** Represents a yet unresolved `import`. */\r\nclass QueuedImport {\r\n constructor(\r\n /** File being imported into. */\r\n public localFile: File,\r\n /** Identifier within the local file. */\r\n public localIdentifier: IdentifierExpression,\r\n /** Identifier within the other file. Is an `import *` if not set. */\r\n public foreignIdentifier: IdentifierExpression | null,\r\n /** Path to the other file. */\r\n public foreignPath: string,\r\n /** Alternative path to the other file. */\r\n public foreignPathAlt: string\r\n ) {}\r\n}\r\n\r\n/** Represents a yet unresolved `export`. */\r\nclass QueuedExport {\r\n constructor(\r\n /** Identifier within the local file. */\r\n public localIdentifier: IdentifierExpression,\r\n /** Identifier within the other file. */\r\n public foreignIdentifier: IdentifierExpression,\r\n /** Path to the other file if a re-export. */\r\n public foreignPath: string | null,\r\n /** Alternative path to the other file if a re-export. */\r\n public foreignPathAlt: string | null\r\n ) {}\r\n}\r\n\r\n/** Represents a yet unresolved `export *`. */\r\nclass QueuedExportStar {\r\n // stored in a map with localFile as the key\r\n constructor(\r\n /** Path to the other file. */\r\n public foreignPath: string,\r\n /** Alternative path to the other file. */\r\n public foreignPathAlt: string,\r\n /** Reference to the path literal for reporting. */\r\n public pathLiteral: StringLiteralExpression\r\n ) {}\r\n}\r\n\r\n/** Represents the kind of an operator overload. */\r\nexport enum OperatorKind {\r\n INVALID,\r\n\r\n // indexed access\r\n INDEXED_GET, // a[]\r\n INDEXED_SET, // a[]=b\r\n UNCHECKED_INDEXED_GET, // unchecked(a[])\r\n UNCHECKED_INDEXED_SET, // unchecked(a[]=b)\r\n\r\n // binary\r\n ADD, // a + b\r\n SUB, // a - b\r\n MUL, // a * b\r\n DIV, // a / b\r\n REM, // a % b\r\n POW, // a ** b\r\n BITWISE_AND, // a & b\r\n BITWISE_OR, // a | b\r\n BITWISE_XOR, // a ^ b\r\n BITWISE_SHL, // a << b\r\n BITWISE_SHR, // a >> b\r\n BITWISE_SHR_U, // a >>> b\r\n EQ, // a == b\r\n NE, // a != b\r\n GT, // a > b\r\n GE, // a >= b\r\n LT, // a < b\r\n LE, // a <= b\r\n\r\n // unary prefix\r\n PLUS, // +a\r\n MINUS, // -a\r\n NOT, // !a\r\n BITWISE_NOT, // ~a\r\n PREFIX_INC, // ++a\r\n PREFIX_DEC, // --a\r\n\r\n // unary postfix\r\n POSTFIX_INC, // a++\r\n POSTFIX_DEC // a--\r\n\r\n // not overridable:\r\n // IDENTITY // a === b\r\n // LOGICAL_AND // a && b\r\n // LOGICAL_OR // a || b\r\n}\r\n\r\n/** Returns the operator kind represented by the specified decorator and string argument. */\r\nfunction operatorKindFromDecorator(decoratorKind: DecoratorKind, arg: string): OperatorKind {\r\n assert(arg.length);\r\n switch (decoratorKind) {\r\n case DecoratorKind.OPERATOR:\r\n case DecoratorKind.OPERATOR_BINARY: {\r\n switch (arg.charCodeAt(0)) {\r\n case CharCode.OPENBRACKET: {\r\n if (arg == \"[]\") return OperatorKind.INDEXED_GET;\r\n if (arg == \"[]=\") return OperatorKind.INDEXED_SET;\r\n break;\r\n }\r\n case CharCode.OPENBRACE: {\r\n if (arg == \"{}\") return OperatorKind.UNCHECKED_INDEXED_GET;\r\n if (arg == \"{}=\") return OperatorKind.UNCHECKED_INDEXED_SET;\r\n break;\r\n }\r\n case CharCode.PLUS: {\r\n if (arg == \"+\") return OperatorKind.ADD;\r\n break;\r\n }\r\n case CharCode.MINUS: {\r\n if (arg == \"-\") return OperatorKind.SUB;\r\n break;\r\n }\r\n case CharCode.ASTERISK: {\r\n if (arg == \"*\") return OperatorKind.MUL;\r\n if (arg == \"**\") return OperatorKind.POW;\r\n break;\r\n }\r\n case CharCode.SLASH: {\r\n if (arg == \"/\") return OperatorKind.DIV;\r\n break;\r\n }\r\n case CharCode.PERCENT: {\r\n if (arg == \"%\") return OperatorKind.REM;\r\n break;\r\n }\r\n case CharCode.AMPERSAND: {\r\n if (arg == \"&\") return OperatorKind.BITWISE_AND;\r\n break;\r\n }\r\n case CharCode.BAR: {\r\n if (arg == \"|\") return OperatorKind.BITWISE_OR;\r\n break;\r\n }\r\n case CharCode.CARET: {\r\n if (arg == \"^\") return OperatorKind.BITWISE_XOR;\r\n break;\r\n }\r\n case CharCode.EQUALS: {\r\n if (arg == \"==\") return OperatorKind.EQ;\r\n break;\r\n }\r\n case CharCode.EXCLAMATION: {\r\n if (arg == \"!=\") return OperatorKind.NE;\r\n break;\r\n }\r\n case CharCode.GREATERTHAN: {\r\n if (arg == \">\") return OperatorKind.GT;\r\n if (arg == \">=\") return OperatorKind.GE;\r\n if (arg == \">>\") return OperatorKind.BITWISE_SHR;\r\n if (arg == \">>>\") return OperatorKind.BITWISE_SHR_U;\r\n break;\r\n }\r\n case CharCode.LESSTHAN: {\r\n if (arg == \"<\") return OperatorKind.LT;\r\n if (arg == \"<=\") return OperatorKind.LE;\r\n if (arg == \"<<\") return OperatorKind.BITWISE_SHL;\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n case DecoratorKind.OPERATOR_PREFIX: {\r\n switch (arg.charCodeAt(0)) {\r\n case CharCode.PLUS: {\r\n if (arg == \"+\") return OperatorKind.PLUS;\r\n if (arg == \"++\") return OperatorKind.PREFIX_INC;\r\n break;\r\n }\r\n case CharCode.MINUS: {\r\n if (arg == \"-\") return OperatorKind.MINUS;\r\n if (arg == \"--\") return OperatorKind.PREFIX_DEC;\r\n break;\r\n }\r\n case CharCode.EXCLAMATION: {\r\n if (arg == \"!\") return OperatorKind.NOT;\r\n break;\r\n }\r\n case CharCode.TILDE: {\r\n if (arg == \"~\") return OperatorKind.BITWISE_NOT;\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n case DecoratorKind.OPERATOR_POSTFIX: {\r\n switch (arg.charCodeAt(0)) {\r\n case CharCode.PLUS: {\r\n if (arg == \"++\") return OperatorKind.POSTFIX_INC;\r\n break;\r\n }\r\n case CharCode.MINUS: {\r\n if (arg == \"--\") return OperatorKind.POSTFIX_DEC;\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n }\r\n return OperatorKind.INVALID;\r\n}\r\n\r\n/** Represents an AssemblyScript program. */\r\nexport class Program extends DiagnosticEmitter {\r\n\r\n /** Resolver instance. */\r\n resolver: Resolver;\r\n /** Array of sources. */\r\n sources: Source[] = [];\r\n /** Diagnostic offset used where successively obtaining the next diagnostic. */\r\n diagnosticsOffset: i32 = 0;\r\n /** Compiler options. */\r\n options: Options;\r\n /** Special native code source. */\r\n nativeSource: Source;\r\n /** Special native code file. */\r\n nativeFile: File;\r\n /** Explicitly annotated start function. */\r\n explicitStartFunction: FunctionPrototype | null = null;\r\n\r\n // lookup maps\r\n\r\n /** Files by unique internal name. */\r\n filesByName: Map = new Map();\r\n /** Elements by unique internal name in element space. */\r\n elementsByName: Map = new Map();\r\n /** Elements by declaration. */\r\n elementsByDeclaration: Map = new Map();\r\n /** Element instances by unique internal name. */\r\n instancesByName: Map = new Map();\r\n /** Classes backing basic types like `i32`. */\r\n typeClasses: Map = new Map();\r\n\r\n // runtime references\r\n\r\n /** ArrayBuffer instance reference. */\r\n arrayBufferInstance: Class | null = null;\r\n /** Array prototype reference. */\r\n arrayPrototype: ClassPrototype | null = null;\r\n /** String instance reference. */\r\n stringInstance: Class | null = null;\r\n /** Abort function reference, if present. */\r\n abortInstance: Function | null = null;\r\n /** Memory allocation function. */\r\n memoryAllocateInstance: Function | null = null;\r\n\r\n // gc integration\r\n\r\n /** Whether a garbage collector is present or not. */\r\n hasGC: bool = false;\r\n /** Garbage collector allocation function. */\r\n gcAllocateInstance: Function | null = null;\r\n /** Garbage collector link function called when a managed object is referenced from a parent. */\r\n gcLinkInstance: Function | null = null;\r\n /** Garbage collector mark function called to on reachable managed objects. */\r\n gcMarkInstance: Function | null = null;\r\n /** Size of a managed object header. */\r\n gcHeaderSize: u32 = 0;\r\n /** Offset of the GC hook. */\r\n gcHookOffset: u32 = 0;\r\n\r\n /** Constructs a new program, optionally inheriting parser diagnostics. */\r\n constructor(\r\n /** Shared array of diagnostic messages (emitted so far). */\r\n diagnostics: DiagnosticMessage[] | null = null\r\n ) {\r\n super(diagnostics);\r\n var nativeSource = new Source(LIBRARY_SUBST, \"[native code]\", SourceKind.LIBRARY);\r\n this.nativeSource = nativeSource;\r\n var nativeFile = new File(this, nativeSource);\r\n this.nativeFile = nativeFile;\r\n this.filesByName.set(nativeFile.internalName, nativeFile);\r\n this.resolver = new Resolver(this);\r\n }\r\n\r\n /** Creates a native variable declaration. */\r\n makeNativeVariableDeclaration(\r\n /** The simple name of the variable */\r\n name: string,\r\n /** Flags indicating specific traits, e.g. `CONST`. */\r\n flags: CommonFlags = CommonFlags.NONE\r\n ): VariableDeclaration {\r\n var range = this.nativeSource.range;\r\n return Node.createVariableDeclaration(\r\n Node.createIdentifierExpression(name, range),\r\n null, null, null, flags, range\r\n );\r\n }\r\n\r\n /** Creates a native type declaration. */\r\n makeNativeTypeDeclaration(\r\n /** The simple name of the type. */\r\n name: string,\r\n /** Flags indicating specific traits, e.g. `GENERIC`. */\r\n flags: CommonFlags = CommonFlags.NONE\r\n ): TypeDeclaration {\r\n var range = this.nativeSource.range;\r\n var identifier = Node.createIdentifierExpression(name, range);\r\n return Node.createTypeDeclaration(\r\n identifier,\r\n null,\r\n Node.createOmittedType(range),\r\n null, flags, range\r\n );\r\n }\r\n\r\n // a dummy signature for programmatically generated native functions\r\n private nativeDummySignature: SignatureNode | null = null;\r\n\r\n /** Creates a native function declaration. */\r\n makeNativeFunctionDeclaration(\r\n /** The simple name of the function. */\r\n name: string,\r\n /** Flags indicating specific traits, e.g. `DECLARE`. */\r\n flags: CommonFlags = CommonFlags.NONE\r\n ): FunctionDeclaration {\r\n var range = this.nativeSource.range;\r\n return Node.createFunctionDeclaration(\r\n Node.createIdentifierExpression(name, range),\r\n null,\r\n this.nativeDummySignature || (this.nativeDummySignature = Node.createSignature([],\r\n Node.createType( // ^ AST signature doesn't really matter, is overridden anyway\r\n Node.createSimpleTypeName(CommonSymbols.void_, range),\r\n null, false, range\r\n ),\r\n null, false, range)\r\n ),\r\n null, null, flags, ArrowKind.NONE, range\r\n );\r\n }\r\n\r\n /** Creates a native namespace declaration. */\r\n makeNativeNamespaceDeclaration(\r\n /** The simple name of the namespace. */\r\n name: string,\r\n /** Flags indicating specific traits, e.g. `EXPORT`. */\r\n flags: CommonFlags = CommonFlags.NONE\r\n ): NamespaceDeclaration {\r\n var range = this.nativeSource.range;\r\n return Node.createNamespaceDeclaration(\r\n Node.createIdentifierExpression(name, range),\r\n [], null, flags, range\r\n );\r\n }\r\n\r\n /** Creates a native function. */\r\n makeNativeFunction(\r\n /** The simple name of the function. */\r\n name: string,\r\n /** Concrete function signature. */\r\n signature: Signature,\r\n /** Parent element, usually a file, class or namespace. */\r\n parent: Element = this.nativeFile,\r\n /** Flags indicating specific traits, e.g. `GENERIC`. */\r\n flags: CommonFlags = CommonFlags.NONE,\r\n /** Decorator flags representing built-in decorators. */\r\n decoratorFlags: DecoratorFlags = DecoratorFlags.NONE\r\n ): Function {\r\n return new Function(\r\n name,\r\n new FunctionPrototype(\r\n name,\r\n parent,\r\n this.makeNativeFunctionDeclaration(name, flags),\r\n decoratorFlags\r\n ),\r\n signature\r\n );\r\n }\r\n\r\n /** Gets the (possibly merged) program element linked to the specified declaration. */\r\n getElementByDeclaration(declaration: DeclarationStatement): DeclaredElement {\r\n var elementsByDeclaration = this.elementsByDeclaration;\r\n assert(elementsByDeclaration.has(declaration));\r\n return elementsByDeclaration.get(declaration)!;\r\n }\r\n\r\n /** Initializes the program and its elements prior to compilation. */\r\n initialize(options: Options): void {\r\n this.options = options;\r\n\r\n // register native types\r\n this.registerNativeType(CommonSymbols.i8, Type.i8);\r\n this.registerNativeType(CommonSymbols.i16, Type.i16);\r\n this.registerNativeType(CommonSymbols.i32, Type.i32);\r\n this.registerNativeType(CommonSymbols.i64, Type.i64);\r\n this.registerNativeType(CommonSymbols.isize, options.isizeType);\r\n this.registerNativeType(CommonSymbols.u8, Type.u8);\r\n this.registerNativeType(CommonSymbols.u16, Type.u16);\r\n this.registerNativeType(CommonSymbols.u32, Type.u32);\r\n this.registerNativeType(CommonSymbols.u64, Type.u64);\r\n this.registerNativeType(CommonSymbols.usize, options.usizeType);\r\n this.registerNativeType(CommonSymbols.bool, Type.bool);\r\n this.registerNativeType(CommonSymbols.f32, Type.f32);\r\n this.registerNativeType(CommonSymbols.f64, Type.f64);\r\n this.registerNativeType(CommonSymbols.void_, Type.void);\r\n this.registerNativeType(CommonSymbols.number, Type.f64); // alias\r\n this.registerNativeType(CommonSymbols.boolean, Type.bool); // alias\r\n this.nativeFile.add(CommonSymbols.native, new TypeDefinition(\r\n CommonSymbols.native,\r\n this.nativeFile,\r\n this.makeNativeTypeDeclaration(CommonSymbols.native, CommonFlags.EXPORT | CommonFlags.GENERIC),\r\n DecoratorFlags.BUILTIN\r\n ));\r\n if (options.hasFeature(Feature.SIMD)) this.registerNativeType(CommonSymbols.v128, Type.v128);\r\n\r\n // register compiler hints\r\n this.registerConstantInteger(LibrarySymbols.ASC_TARGET, Type.i32,\r\n i64_new(options.isWasm64 ? 2 : 1));\r\n this.registerConstantInteger(LibrarySymbols.ASC_NO_ASSERT, Type.bool,\r\n i64_new(options.noAssert ? 1 : 0, 0));\r\n this.registerConstantInteger(LibrarySymbols.ASC_MEMORY_BASE, Type.i32,\r\n i64_new(options.memoryBase, 0));\r\n this.registerConstantInteger(LibrarySymbols.ASC_OPTIMIZE_LEVEL, Type.i32,\r\n i64_new(options.optimizeLevelHint, 0));\r\n this.registerConstantInteger(LibrarySymbols.ASC_SHRINK_LEVEL, Type.i32,\r\n i64_new(options.shrinkLevelHint, 0));\r\n this.registerConstantInteger(LibrarySymbols.ASC_FEATURE_MUTABLE_GLOBAL, Type.bool,\r\n i64_new(options.hasFeature(Feature.MUTABLE_GLOBAL) ? 1 : 0, 0));\r\n this.registerConstantInteger(LibrarySymbols.ASC_FEATURE_SIGN_EXTENSION, Type.bool,\r\n i64_new(options.hasFeature(Feature.SIGN_EXTENSION) ? 1 : 0, 0));\r\n this.registerConstantInteger(LibrarySymbols.ASC_FEATURE_BULK_MEMORY, Type.bool,\r\n i64_new(options.hasFeature(Feature.BULK_MEMORY) ? 1 : 0, 0));\r\n this.registerConstantInteger(LibrarySymbols.ASC_FEATURE_SIMD, Type.bool,\r\n i64_new(options.hasFeature(Feature.SIMD) ? 1 : 0, 0));\r\n this.registerConstantInteger(LibrarySymbols.ASC_FEATURE_THREADS, Type.bool,\r\n i64_new(options.hasFeature(Feature.THREADS) ? 1 : 0, 0));\r\n\r\n // remember deferred elements\r\n var queuedImports = new Array();\r\n var queuedExports = new Map>();\r\n var queuedExportsStar = new Map();\r\n var queuedExtends = new Array();\r\n var queuedImplements = new Array();\r\n\r\n // initialize relevant declaration-like statements of the entire program\r\n for (let i = 0, k = this.sources.length; i < k; ++i) {\r\n let source = this.sources[i];\r\n let file = new File(this, source);\r\n this.filesByName.set(file.internalName, file);\r\n let statements = source.statements;\r\n for (let j = 0, l = statements.length; j < l; ++j) {\r\n let statement = statements[j];\r\n switch (statement.kind) {\r\n case NodeKind.EXPORT: {\r\n this.initializeExports(statement, file, queuedExports, queuedExportsStar);\r\n break;\r\n }\r\n case NodeKind.IMPORT: {\r\n this.initializeImports(statement, file, queuedImports, queuedExports);\r\n break;\r\n }\r\n case NodeKind.VARIABLE: {\r\n this.initializeVariables(statement, file);\r\n break;\r\n }\r\n case NodeKind.CLASSDECLARATION: {\r\n this.initializeClass(statement, file, queuedExtends, queuedImplements);\r\n break;\r\n }\r\n case NodeKind.ENUMDECLARATION: {\r\n this.initializeEnum(statement, file);\r\n break;\r\n }\r\n case NodeKind.FUNCTIONDECLARATION: {\r\n this.initializeFunction(statement, file);\r\n break;\r\n }\r\n case NodeKind.INTERFACEDECLARATION: {\r\n this.initializeInterface(statement, file);\r\n break;\r\n }\r\n case NodeKind.NAMESPACEDECLARATION: {\r\n this.initializeNamespace(statement, file, queuedExtends, queuedImplements);\r\n break;\r\n }\r\n case NodeKind.TYPEDECLARATION: {\r\n this.initializeTypeDefinition(statement, file);\r\n break;\r\n }\r\n }\r\n }\r\n }\r\n\r\n // queued exports * should be linkable now that all files have been processed\r\n for (let [file, exportsStar] of queuedExportsStar) {\r\n for (let i = 0, k = exportsStar.length; i < k; ++i) {\r\n let exportStar = exportsStar[i];\r\n let foreignFile = this.lookupForeignFile(exportStar.foreignPath, exportStar.foreignPathAlt);\r\n if (!foreignFile) {\r\n this.error(\r\n DiagnosticCode.File_0_not_found,\r\n exportStar.pathLiteral.range, exportStar.pathLiteral.value\r\n );\r\n continue;\r\n }\r\n file.ensureExportStar(foreignFile);\r\n }\r\n }\r\n\r\n // queued imports should be resolvable now through traversing exports and queued exports\r\n for (let i = 0, k = queuedImports.length; i < k; ++i) {\r\n let queuedImport = queuedImports[i];\r\n let foreignIdentifier = queuedImport.foreignIdentifier;\r\n if (foreignIdentifier) { // i.e. import { foo [as bar] } from \"./baz\"\r\n let element = this.lookupForeign(\r\n foreignIdentifier.text,\r\n queuedImport.foreignPath,\r\n queuedImport.foreignPathAlt,\r\n queuedExports\r\n );\r\n if (element) {\r\n queuedImport.localFile.add(\r\n queuedImport.localIdentifier.text,\r\n element,\r\n true // isImport\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Module_0_has_no_exported_member_1,\r\n foreignIdentifier.range,\r\n queuedImport.foreignPath,\r\n foreignIdentifier.text\r\n );\r\n }\r\n } else { // i.e. import * as bar from \"./bar\"\r\n let foreignFile = this.lookupForeignFile(queuedImport.foreignPath, queuedImport.foreignPathAlt);\r\n if (foreignFile) {\r\n let localFile = queuedImport.localFile;\r\n let localName = queuedImport.localIdentifier.text;\r\n localFile.add(\r\n localName,\r\n foreignFile.asImportedNamespace(\r\n localName,\r\n localFile\r\n ),\r\n true // isImport\r\n );\r\n } else {\r\n assert(false); // already reported by the parser not finding the file\r\n }\r\n }\r\n }\r\n\r\n // queued exports should be resolvable now that imports are finalized\r\n for (let [file, exports] of queuedExports) {\r\n for (let [exportName, queuedExport] of exports) {\r\n let localName = queuedExport.localIdentifier.text;\r\n let foreignPath = queuedExport.foreignPath;\r\n if (foreignPath) { // i.e. export { foo [as bar] } from \"./baz\"\r\n let element = this.lookupForeign(\r\n localName,\r\n foreignPath,\r\n assert(queuedExport.foreignPathAlt), // must be set if foreignPath is\r\n queuedExports\r\n );\r\n if (element) {\r\n file.ensureExport(exportName, element);\r\n } else {\r\n this.error(\r\n DiagnosticCode.Module_0_has_no_exported_member_1,\r\n queuedExport.localIdentifier.range,\r\n foreignPath, localName\r\n );\r\n }\r\n } else { // i.e. export { foo [as bar] }\r\n let element = file.lookupInSelf(localName);\r\n if (element) {\r\n file.ensureExport(exportName, element);\r\n } else {\r\n let globalElement = this.lookupGlobal(localName);\r\n if (globalElement && globalElement instanceof DeclaredElement) { // export { memory }\r\n file.ensureExport(exportName, globalElement);\r\n } else {\r\n this.error(\r\n DiagnosticCode.Module_0_has_no_exported_member_1,\r\n queuedExport.foreignIdentifier.range,\r\n file.internalName, queuedExport.foreignIdentifier.text\r\n );\r\n }\r\n }\r\n }\r\n }\r\n }\r\n\r\n // register classes backing basic types\r\n this.registerNativeTypeClass(TypeKind.I8, LibrarySymbols.I8);\r\n this.registerNativeTypeClass(TypeKind.I16, LibrarySymbols.I16);\r\n this.registerNativeTypeClass(TypeKind.I32, LibrarySymbols.I32);\r\n this.registerNativeTypeClass(TypeKind.I64, LibrarySymbols.I64);\r\n this.registerNativeTypeClass(TypeKind.ISIZE, LibrarySymbols.Isize);\r\n this.registerNativeTypeClass(TypeKind.U8, LibrarySymbols.U8);\r\n this.registerNativeTypeClass(TypeKind.U16, LibrarySymbols.U16);\r\n this.registerNativeTypeClass(TypeKind.U32, LibrarySymbols.U32);\r\n this.registerNativeTypeClass(TypeKind.U64, LibrarySymbols.U64);\r\n this.registerNativeTypeClass(TypeKind.USIZE, LibrarySymbols.Usize);\r\n this.registerNativeTypeClass(TypeKind.BOOL, LibrarySymbols.Bool);\r\n this.registerNativeTypeClass(TypeKind.F32, LibrarySymbols.F32);\r\n this.registerNativeTypeClass(TypeKind.F64, LibrarySymbols.F64);\r\n if (options.hasFeature(Feature.SIMD)) this.registerNativeTypeClass(TypeKind.V128, LibrarySymbols.V128);\r\n\r\n // resolve base prototypes of derived classes\r\n var resolver = this.resolver;\r\n for (let i = 0, k = queuedExtends.length; i < k; ++i) {\r\n let thisPrototype = queuedExtends[i];\r\n let extendsNode = assert(thisPrototype.extendsNode); // must be present if in queuedExtends\r\n let baseElement = resolver.resolveTypeName(extendsNode.name, thisPrototype.parent); // reports\r\n if (!baseElement) continue;\r\n if (baseElement.kind == ElementKind.CLASS_PROTOTYPE) {\r\n let basePrototype = baseElement;\r\n if (basePrototype.hasDecorator(DecoratorFlags.SEALED)) {\r\n this.error(\r\n DiagnosticCode.Class_0_is_sealed_and_cannot_be_extended,\r\n extendsNode.range, (baseElement).identifierNode.text\r\n );\r\n }\r\n if (\r\n basePrototype.hasDecorator(DecoratorFlags.UNMANAGED) !=\r\n thisPrototype.hasDecorator(DecoratorFlags.UNMANAGED)\r\n ) {\r\n this.error(\r\n DiagnosticCode.Unmanaged_classes_cannot_extend_managed_classes_and_vice_versa,\r\n Range.join(thisPrototype.identifierNode.range, extendsNode.range)\r\n );\r\n }\r\n thisPrototype.basePrototype = basePrototype;\r\n } else {\r\n this.error(\r\n DiagnosticCode.A_class_may_only_extend_another_class,\r\n extendsNode.range\r\n );\r\n }\r\n }\r\n\r\n // set up global aliases\r\n {\r\n let globalAliases = options.globalAliases;\r\n if (globalAliases) {\r\n for (let [alias, name] of globalAliases) {\r\n if (!name.length) continue; // explicitly disabled\r\n let elementsByName = this.elementsByName;\r\n let element = elementsByName.get(name);\r\n if (element) {\r\n if (elementsByName.has(alias)) throw new Error(\"duplicate global element: \" + name);\r\n elementsByName.set(alias, element);\r\n }\r\n else throw new Error(\"no such global element: \" + name);\r\n }\r\n }\r\n }\r\n\r\n // register global library elements\r\n {\r\n let element: Element | null;\r\n if (element = this.lookupGlobal(LibrarySymbols.String)) {\r\n assert(element.kind == ElementKind.CLASS_PROTOTYPE);\r\n this.stringInstance = resolver.resolveClass(element, null);\r\n }\r\n if (element = this.lookupGlobal(LibrarySymbols.ArrayBuffer)) {\r\n assert(element.kind == ElementKind.CLASS_PROTOTYPE);\r\n this.arrayBufferInstance = resolver.resolveClass(element, null);\r\n }\r\n if (element = this.lookupGlobal(LibrarySymbols.Array)) {\r\n assert(element.kind == ElementKind.CLASS_PROTOTYPE);\r\n this.arrayPrototype = element;\r\n }\r\n if (element = this.lookupGlobal(LibrarySymbols.abort)) {\r\n assert(element.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n this.abortInstance = this.resolver.resolveFunction(element, null);\r\n }\r\n if (element = this.lookupGlobal(LibrarySymbols.memory)) {\r\n if (element = element.lookupInSelf(LibrarySymbols.allocate)) {\r\n assert(element.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n this.memoryAllocateInstance = this.resolver.resolveFunction(element, null);\r\n }\r\n }\r\n }\r\n\r\n // register GC hooks if present\r\n // FIXME: think about a better way than globals to model this, maybe a GC namespace that can be\r\n // dynamically extended by a concrete implementation but then has `@unsafe` methods that normal\r\n // code cannot call without explicitly enabling it with a flag.\r\n if (\r\n this.elementsByName.has(\"__gc_allocate\") &&\r\n this.elementsByName.has(\"__gc_link\") &&\r\n this.elementsByName.has(\"__gc_mark\")\r\n ) {\r\n // __gc_allocate(usize, (ref: usize) => void): usize\r\n let element = this.elementsByName.get(\"__gc_allocate\");\r\n assert(element.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n let gcAllocateInstance = assert(this.resolver.resolveFunction(element, null));\r\n let signature = gcAllocateInstance.signature;\r\n assert(signature.parameterTypes.length == 2);\r\n assert(signature.parameterTypes[0] == this.options.usizeType);\r\n assert(signature.parameterTypes[1].signatureReference);\r\n assert(signature.returnType == this.options.usizeType);\r\n\r\n // __gc_link(usize, usize): void\r\n element = this.elementsByName.get(\"__gc_link\");\r\n assert(element.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n let gcLinkInstance = assert(this.resolver.resolveFunction(element, null));\r\n signature = gcLinkInstance.signature;\r\n assert(signature.parameterTypes.length == 2);\r\n assert(signature.parameterTypes[0] == this.options.usizeType);\r\n assert(signature.parameterTypes[1] == this.options.usizeType);\r\n assert(signature.returnType == Type.void);\r\n\r\n // __gc_mark(usize): void\r\n element = this.elementsByName.get(\"__gc_mark\");\r\n assert(element.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n let gcMarkInstance = assert(this.resolver.resolveFunction(element, null));\r\n signature = gcMarkInstance.signature;\r\n assert(signature.parameterTypes.length == 1);\r\n assert(signature.parameterTypes[0] == this.options.usizeType);\r\n assert(signature.returnType == Type.void);\r\n\r\n this.gcAllocateInstance = gcAllocateInstance;\r\n this.gcLinkInstance = gcLinkInstance;\r\n this.gcMarkInstance = gcMarkInstance;\r\n let gcHookOffset = 2 * options.usizeType.byteSize; // .next + .prev\r\n this.gcHookOffset = gcHookOffset;\r\n this.gcHeaderSize = (gcHookOffset + 4 + 7) & ~7; // + .hook index + alignment\r\n this.hasGC = true;\r\n }\r\n\r\n // mark module exports, i.e. to apply proper wrapping behavior on the boundaries\r\n for (let file of this.filesByName.values()) {\r\n let exports = file.exports;\r\n if (!(file.source.isEntry && exports)) continue;\r\n for (let element of exports.values()) this.markModuleExport(element);\r\n }\r\n }\r\n\r\n /** Marks an element and its children as a module export. */\r\n private markModuleExport(element: Element): void {\r\n element.set(CommonFlags.MODULE_EXPORT);\r\n switch (element.kind) {\r\n case ElementKind.CLASS_PROTOTYPE: {\r\n let instanceMembers = (element).instanceMembers;\r\n if (instanceMembers) for (let member of instanceMembers.values()) this.markModuleExport(member);\r\n break;\r\n }\r\n case ElementKind.PROPERTY_PROTOTYPE: {\r\n let getterPrototype = (element).getterPrototype;\r\n if (getterPrototype) this.markModuleExport(getterPrototype);\r\n let setterPrototype = (element).setterPrototype;\r\n if (setterPrototype) this.markModuleExport(setterPrototype);\r\n break;\r\n }\r\n case ElementKind.PROPERTY:\r\n case ElementKind.FUNCTION:\r\n case ElementKind.FIELD:\r\n case ElementKind.CLASS: assert(false); // assumes that there are no instances yet\r\n }\r\n {\r\n let members = element.members;\r\n if (members) for (let member of members.values()) this.markModuleExport(member);\r\n }\r\n }\r\n\r\n /** Registers a native type with the program. */\r\n private registerNativeType(name: string, type: Type): void {\r\n var element = new TypeDefinition(\r\n name,\r\n this.nativeFile,\r\n this.makeNativeTypeDeclaration(name, CommonFlags.EXPORT),\r\n DecoratorFlags.BUILTIN\r\n );\r\n element.setType(type);\r\n this.nativeFile.add(name, element);\r\n }\r\n\r\n /** Registers the backing class of a native type. */\r\n private registerNativeTypeClass(typeKind: TypeKind, className: string): void {\r\n assert(!this.typeClasses.has(typeKind));\r\n var element = this.lookupGlobal(className);\r\n if (element) {\r\n assert(element.kind == ElementKind.CLASS_PROTOTYPE);\r\n let classElement = this.resolver.resolveClass(element, null);\r\n if (classElement) this.typeClasses.set(typeKind, classElement);\r\n }\r\n }\r\n\r\n /** Registers a constant integer value within the global scope. */\r\n private registerConstantInteger(name: string, type: Type, value: I64): void {\r\n assert(type.is(TypeFlags.INTEGER)); // must be an integer type\r\n var global = new Global(\r\n name,\r\n this.nativeFile,\r\n DecoratorFlags.NONE,\r\n this.makeNativeVariableDeclaration(name, CommonFlags.CONST | CommonFlags.EXPORT)\r\n );\r\n global.setConstantIntegerValue(value, type);\r\n this.nativeFile.add(name, global);\r\n }\r\n\r\n /** Registers a constant float value within the global scope. */\r\n private registerConstantFloat(name: string, type: Type, value: f64): void {\r\n assert(type.is(TypeFlags.FLOAT)); // must be a float type\r\n var global = new Global(\r\n name,\r\n this.nativeFile,\r\n DecoratorFlags.NONE,\r\n this.makeNativeVariableDeclaration(name, CommonFlags.CONST | CommonFlags.EXPORT)\r\n );\r\n global.setConstantFloatValue(value, type);\r\n this.nativeFile.add(name, global);\r\n }\r\n\r\n /** Ensures that the given global element exists. Attempts to merge duplicates. */\r\n ensureGlobal(name: string, element: DeclaredElement): void {\r\n var elementsByName = this.elementsByName;\r\n if (elementsByName.has(name)) {\r\n let actual = elementsByName.get(name);\r\n // NOTE: this is effectively only performed when merging native types with\r\n // their respective namespaces in std/builtins, but can also trigger when a\r\n // user has multiple global elements of the same name in different files,\r\n // which might result in unexpected shared symbols accross files. considering\r\n // this a wonky feature for now that we might want to revisit later.\r\n if (actual !== element) {\r\n let merged = tryMerge(elementsByName.get(name)!, element);\r\n if (!merged) {\r\n this.error(\r\n DiagnosticCode.Duplicate_identifier_0,\r\n element.identifierNode.range, name\r\n );\r\n return;\r\n }\r\n element = merged;\r\n }\r\n }\r\n elementsByName.set(name, element);\r\n }\r\n\r\n /** Looks up the element of the specified name in the global scope. */\r\n lookupGlobal(name: string): Element | null {\r\n var elements = this.elementsByName;\r\n if (elements.has(name)) return elements.get(name);\r\n return null;\r\n }\r\n\r\n /** Tries to locate a foreign file given its normalized path. */\r\n private lookupForeignFile(\r\n /** Normalized path to the other file. */\r\n foreignPath: string,\r\n /** Alternative normalized path to the other file. */\r\n foreignPathAlt: string\r\n ): File | null {\r\n var filesByName = this.filesByName;\r\n return filesByName.has(foreignPath)\r\n ? filesByName.get(foreignPath)!\r\n : filesByName.has(foreignPathAlt)\r\n ? filesByName.get(foreignPathAlt)!\r\n : null;\r\n }\r\n\r\n /** Tries to locate a foreign element by traversing exports and queued exports. */\r\n private lookupForeign(\r\n /** Identifier within the other file. */\r\n foreignName: string,\r\n /** Normalized path to the other file. */\r\n foreignPath: string,\r\n /** Alternative normalized path to the other file. */\r\n foreignPathAlt: string,\r\n /** So far queued exports. */\r\n queuedExports: Map>\r\n ): DeclaredElement | null {\r\n do {\r\n let foreignFile = this.lookupForeignFile(foreignPath, foreignPathAlt);\r\n if (!foreignFile) return null; // no such file\r\n\r\n // search already resolved exports\r\n let element = foreignFile.lookupExport(foreignName);\r\n if (element) return element;\r\n\r\n // otherwise traverse queued exports\r\n if (queuedExports.has(foreignFile)) {\r\n let fileQueuedExports = queuedExports.get(foreignFile)!;\r\n if (fileQueuedExports.has(foreignName)) {\r\n let queuedExport = fileQueuedExports.get(foreignName)!;\r\n if (queuedExport.foreignPath) { // imported from another file\r\n foreignName = queuedExport.localIdentifier.text;\r\n foreignPath = queuedExport.foreignPath;\r\n foreignPathAlt = assert(queuedExport.foreignPathAlt);\r\n continue;\r\n } else { // local element of this file\r\n element = foreignFile.lookupInSelf(queuedExport.localIdentifier.text);\r\n if (element) return element;\r\n }\r\n }\r\n }\r\n break;\r\n } while (true);\r\n return null;\r\n }\r\n\r\n /** Validates that only supported decorators are present. */\r\n private checkDecorators(\r\n /** Decorators present on an element. */\r\n decorators: DecoratorNode[] | null,\r\n /** Accepted decorator flags. Emits diagnostics if any other decorators are present. */\r\n acceptedFlags: DecoratorFlags\r\n ): DecoratorFlags {\r\n var flags = DecoratorFlags.NONE;\r\n if (decorators) {\r\n for (let i = 0, k = decorators.length; i < k; ++i) {\r\n let decorator = decorators[i];\r\n let kind = decoratorNameToKind(decorator.name);\r\n let flag = decoratorKindToFlag(kind);\r\n if (flag) {\r\n if (flag == DecoratorFlags.BUILTIN) {\r\n if (decorator.range.source.isLibrary) {\r\n flags |= flag;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Decorator_0_is_not_valid_here,\r\n decorator.range, decorator.name.range.toString()\r\n );\r\n }\r\n } else if (!(acceptedFlags & flag)) {\r\n this.error(\r\n DiagnosticCode.Decorator_0_is_not_valid_here,\r\n decorator.range, decorator.name.range.toString()\r\n );\r\n } else if (flags & flag) {\r\n this.error(\r\n DiagnosticCode.Duplicate_decorator,\r\n decorator.range, decorator.name.range.toString()\r\n );\r\n } else {\r\n flags |= flag;\r\n }\r\n }\r\n }\r\n }\r\n return flags;\r\n }\r\n\r\n /** Initializes a class declaration. */\r\n private initializeClass(\r\n /** The declaration to initialize. */\r\n declaration: ClassDeclaration,\r\n /** Parent element, usually a file or namespace. */\r\n parent: Element,\r\n /** So far queued `extends` clauses. */\r\n queuedExtends: ClassPrototype[],\r\n /** So far queued `implements` clauses. */\r\n queuedImplements: ClassPrototype[]\r\n ): void {\r\n var name = declaration.name.text;\r\n var element = new ClassPrototype(\r\n name,\r\n parent,\r\n declaration,\r\n this.checkDecorators(declaration.decorators,\r\n DecoratorFlags.GLOBAL |\r\n DecoratorFlags.SEALED |\r\n DecoratorFlags.UNMANAGED\r\n )\r\n );\r\n if (!parent.add(name, element)) return;\r\n\r\n var implementsTypes = declaration.implementsTypes;\r\n if (implementsTypes) {\r\n let numImplementsTypes = implementsTypes.length;\r\n // cannot implement interfaces when unmanaged\r\n if (element.hasDecorator(DecoratorFlags.UNMANAGED)) {\r\n if (numImplementsTypes) {\r\n this.error(\r\n DiagnosticCode.Unmanaged_classes_cannot_implement_interfaces,\r\n Range.join(\r\n declaration.name.range,\r\n implementsTypes[numImplementsTypes - 1].range\r\n )\r\n );\r\n }\r\n } else if (numImplementsTypes) {\r\n // remember classes that implement interfaces\r\n for (let i = 0; i < numImplementsTypes; ++i) {\r\n this.warning( // TODO: not yet supported\r\n DiagnosticCode.Operation_not_supported,\r\n implementsTypes[i].range\r\n );\r\n }\r\n queuedImplements.push(element);\r\n }\r\n }\r\n // remember classes that extend another class\r\n if (declaration.extendsType) queuedExtends.push(element);\r\n\r\n // initialize members\r\n var memberDeclarations = declaration.members;\r\n for (let i = 0, k = memberDeclarations.length; i < k; ++i) {\r\n let memberDeclaration = memberDeclarations[i];\r\n switch (memberDeclaration.kind) {\r\n case NodeKind.FIELDDECLARATION: {\r\n this.initializeField(memberDeclaration, element);\r\n break;\r\n }\r\n case NodeKind.METHODDECLARATION: {\r\n if (memberDeclaration.isAny(CommonFlags.GET | CommonFlags.SET)) {\r\n this.initializeProperty(memberDeclaration, element);\r\n } else {\r\n this.initializeMethod(memberDeclaration, element);\r\n }\r\n break;\r\n }\r\n case NodeKind.INDEXSIGNATUREDECLARATION: break; // ignored for now\r\n default: assert(false); // class member expected\r\n }\r\n }\r\n }\r\n\r\n /** Initializes a field of a class or interface. */\r\n private initializeField(\r\n /** The declaration to initialize. */\r\n declaration: FieldDeclaration,\r\n /** Parent class. */\r\n parent: ClassPrototype\r\n ): void {\r\n var name = declaration.name.text;\r\n var decorators = declaration.decorators;\r\n var element: DeclaredElement;\r\n if (declaration.is(CommonFlags.STATIC)) { // global variable\r\n assert(parent.kind != ElementKind.INTERFACE_PROTOTYPE);\r\n element = new Global(\r\n name,\r\n parent,\r\n this.checkDecorators(decorators,\r\n (declaration.is(CommonFlags.READONLY)\r\n ? DecoratorFlags.INLINE\r\n : DecoratorFlags.NONE\r\n ) | DecoratorFlags.LAZY\r\n ),\r\n declaration\r\n );\r\n if (!parent.add(name, element)) return;\r\n } else { // actual instance field\r\n assert(!declaration.isAny(CommonFlags.ABSTRACT | CommonFlags.GET | CommonFlags.SET));\r\n element = new FieldPrototype(\r\n name,\r\n parent,\r\n declaration,\r\n this.checkDecorators(decorators, DecoratorFlags.NONE)\r\n );\r\n if (!parent.addInstance(name, element)) return;\r\n }\r\n }\r\n\r\n /** Initializes a method of a class or interface. */\r\n private initializeMethod(\r\n /** The declaration to initialize. */\r\n declaration: MethodDeclaration,\r\n /** Parent class. */\r\n parent: ClassPrototype\r\n ): void {\r\n var name = declaration.name.text;\r\n var isStatic = declaration.is(CommonFlags.STATIC);\r\n var acceptedFlags = DecoratorFlags.INLINE;\r\n if (!declaration.is(CommonFlags.GENERIC)) {\r\n acceptedFlags |= DecoratorFlags.OPERATOR_BINARY\r\n | DecoratorFlags.OPERATOR_PREFIX\r\n | DecoratorFlags.OPERATOR_POSTFIX;\r\n }\r\n var element = new FunctionPrototype(\r\n name,\r\n parent,\r\n declaration,\r\n this.checkDecorators(declaration.decorators, acceptedFlags)\r\n );\r\n if (isStatic) { // global function\r\n assert(declaration.name.kind != NodeKind.CONSTRUCTOR);\r\n if (!parent.add(name, element)) return;\r\n } else { // actual instance method\r\n if (!parent.addInstance(name, element)) return;\r\n }\r\n this.checkOperatorOverloads(declaration.decorators, element, parent);\r\n }\r\n\r\n /** Checks that operator overloads are generally valid, if present. */\r\n private checkOperatorOverloads(\r\n /** Decorators to check. */\r\n decorators: DecoratorNode[] | null,\r\n /** Decorated method. */\r\n prototype: FunctionPrototype,\r\n /** Parent class. */\r\n classPrototype: ClassPrototype\r\n ): void {\r\n if (decorators) {\r\n for (let i = 0, k = decorators.length; i < k; ++i) {\r\n let decorator = decorators[i];\r\n switch (decorator.decoratorKind) {\r\n case DecoratorKind.OPERATOR:\r\n case DecoratorKind.OPERATOR_BINARY:\r\n case DecoratorKind.OPERATOR_PREFIX:\r\n case DecoratorKind.OPERATOR_POSTFIX: {\r\n let numArgs = decorator.arguments && decorator.arguments.length || 0;\r\n if (numArgs == 1) {\r\n let firstArg = (decorator.arguments)[0];\r\n if (\r\n firstArg.kind == NodeKind.LITERAL &&\r\n (firstArg).literalKind == LiteralKind.STRING\r\n ) {\r\n let kind = operatorKindFromDecorator(\r\n decorator.decoratorKind,\r\n (firstArg).value\r\n );\r\n if (kind == OperatorKind.INVALID) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n firstArg.range\r\n );\r\n } else {\r\n let overloads = classPrototype.overloadPrototypes;\r\n if (overloads.has(kind)) {\r\n this.error(\r\n DiagnosticCode.Duplicate_function_implementation,\r\n firstArg.range\r\n );\r\n } else {\r\n prototype.operatorKind = kind;\r\n overloads.set(kind, prototype);\r\n }\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode.String_literal_expected,\r\n firstArg.range\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n decorator.range, \"1\", numArgs.toString(10)\r\n );\r\n }\r\n }\r\n }\r\n }\r\n }\r\n }\r\n\r\n /** Ensures that the property introduced by the specified getter or setter exists.*/\r\n private ensureProperty(\r\n /** The declaration of the getter or setter introducing the property. */\r\n declaration: MethodDeclaration,\r\n /** Parent class. */\r\n parent: ClassPrototype\r\n ): PropertyPrototype | null {\r\n var name = declaration.name.text;\r\n if (declaration.is(CommonFlags.STATIC)) {\r\n let parentMembers = parent.members;\r\n if (parentMembers && parentMembers.has(name)) {\r\n let element = parentMembers.get(name)!;\r\n if (element.kind == ElementKind.PROPERTY_PROTOTYPE) return element;\r\n } else {\r\n let element = new PropertyPrototype(name, parent, declaration);\r\n if (!parent.add(name, element)) return null;\r\n return element;\r\n }\r\n } else {\r\n let parentMembers = parent.instanceMembers;\r\n if (parentMembers && parentMembers.has(name)) {\r\n let element = parentMembers.get(name);\r\n if (element.kind == ElementKind.PROPERTY_PROTOTYPE) return element;\r\n } else {\r\n let element = new PropertyPrototype(name, parent, declaration);\r\n if (!parent.addInstance(name, element)) return null;\r\n return element;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Duplicate_property_0,\r\n declaration.name.range, name\r\n );\r\n return null;\r\n }\r\n\r\n /** Initializes a property of a class. */\r\n private initializeProperty(\r\n /** The declaration of the getter or setter. */\r\n declaration: MethodDeclaration,\r\n /** Parent class. */\r\n parent: ClassPrototype\r\n ): void {\r\n var property = this.ensureProperty(declaration, parent);\r\n if (!property) return;\r\n var name = declaration.name.text;\r\n var isGetter = declaration.is(CommonFlags.GET);\r\n if (isGetter) {\r\n if (property.getterPrototype) {\r\n this.error(\r\n DiagnosticCode.Duplicate_property_0,\r\n declaration.name.range, name\r\n );\r\n return;\r\n }\r\n } else {\r\n if (property.setterPrototype) {\r\n this.error(\r\n DiagnosticCode.Duplicate_property_0,\r\n declaration.name.range, name\r\n );\r\n return;\r\n }\r\n }\r\n var element = new FunctionPrototype(\r\n (isGetter ? GETTER_PREFIX : SETTER_PREFIX) + name,\r\n property,\r\n declaration,\r\n this.checkDecorators(declaration.decorators,\r\n DecoratorFlags.INLINE\r\n )\r\n );\r\n if (isGetter) {\r\n property.getterPrototype = element;\r\n } else {\r\n property.setterPrototype = element;\r\n }\r\n }\r\n\r\n /** Initializes an enum. */\r\n private initializeEnum(\r\n /** The declaration to initialize. */\r\n declaration: EnumDeclaration,\r\n /** Parent element, usually a file or namespace. */\r\n parent: Element\r\n ): void {\r\n var name = declaration.name.text;\r\n var element = new Enum(\r\n name,\r\n parent,\r\n declaration,\r\n this.checkDecorators(declaration.decorators,\r\n DecoratorFlags.GLOBAL |\r\n DecoratorFlags.INLINE |\r\n DecoratorFlags.LAZY\r\n )\r\n );\r\n if (!parent.add(name, element)) return;\r\n var values = declaration.values;\r\n for (let i = 0, k = values.length; i < k; ++i) {\r\n this.initializeEnumValue(values[i], element);\r\n }\r\n }\r\n\r\n /** Initializes an enum value. */\r\n private initializeEnumValue(\r\n /** The declaration to initialize. */\r\n declaration: EnumValueDeclaration,\r\n /** Parent enum. */\r\n parent: Enum\r\n ): void {\r\n var name = declaration.name.text;\r\n var element = new EnumValue(\r\n name,\r\n parent,\r\n declaration,\r\n this.checkDecorators(declaration.decorators,\r\n DecoratorFlags.NONE\r\n )\r\n );\r\n if (!parent.add(name, element)) return;\r\n }\r\n\r\n /** Initializes an `export` statement. */\r\n private initializeExports(\r\n /** The statement to initialize. */\r\n statement: ExportStatement,\r\n /** Parent file. */\r\n parent: File,\r\n /** So far queued `export`s. */\r\n queuedExports: Map>,\r\n /** So far queued `export *`s. */\r\n queuedExportsStar: Map\r\n ): void {\r\n var members = statement.members;\r\n if (members) { // export { foo, bar } [from \"./baz\"]\r\n for (let i = 0, k = members.length; i < k; ++i) {\r\n this.initializeExport(members[i], parent, statement.internalPath, queuedExports);\r\n }\r\n } else { // export * from \"./baz\"\r\n let queued: QueuedExportStar[];\r\n if (queuedExportsStar.has(parent)) queued = queuedExportsStar.get(parent)!;\r\n else queuedExportsStar.set(parent, queued = []);\r\n let foreignPath = assert(statement.internalPath); // must be set for export *\r\n queued.push(new QueuedExportStar(\r\n foreignPath,\r\n foreignPath.endsWith(INDEX_SUFFIX) // strip or add index depending on what's already present\r\n ? foreignPath.substring(0, foreignPath.length - INDEX_SUFFIX.length)\r\n : foreignPath + INDEX_SUFFIX,\r\n assert(statement.path)\r\n ));\r\n }\r\n }\r\n\r\n /** Initializes a single `export` member. Does not handle `export *`. */\r\n private initializeExport(\r\n /** The member to initialize. */\r\n member: ExportMember,\r\n /** Local file. */\r\n localFile: File,\r\n /** Path to the other file, if present. */\r\n foreignPath: string | null,\r\n /** So far queued `export`s. */\r\n queuedExports: Map>\r\n ): void {\r\n var localName = member.localName.text;\r\n var foreignName = member.exportedName.text;\r\n\r\n // check for duplicates\r\n var element = localFile.lookupExport(foreignName);\r\n if (element) {\r\n this.error(\r\n DiagnosticCode.Export_declaration_conflicts_with_exported_declaration_of_0,\r\n member.exportedName.range, foreignName\r\n );\r\n return;\r\n }\r\n // local element, i.e. export { foo [as bar] }\r\n if (foreignPath === null) {\r\n\r\n // resolve right away if the local element already exists\r\n if (element = localFile.lookupInSelf(localName)) {\r\n localFile.ensureExport(foreignName, element);\r\n\r\n // otherwise queue it\r\n } else {\r\n let queued: Map;\r\n if (queuedExports.has(localFile)) queued = queuedExports.get(localFile)!;\r\n else queuedExports.set(localFile, queued = new Map());\r\n queued.set(foreignName, new QueuedExport(\r\n member.localName,\r\n member.exportedName,\r\n null, null\r\n ));\r\n }\r\n\r\n // foreign element, i.e. export { foo } from \"./bar\"\r\n } else {\r\n let queued: Map;\r\n if (queuedExports.has(localFile)) queued = queuedExports.get(localFile)!;\r\n else queuedExports.set(localFile, queued = new Map());\r\n queued.set(foreignName, new QueuedExport(\r\n member.localName,\r\n member.exportedName,\r\n foreignPath,\r\n foreignPath.endsWith(INDEX_SUFFIX) // strip or add index depending on what's already present\r\n ? foreignPath.substring(0, foreignPath.length - INDEX_SUFFIX.length)\r\n : foreignPath + INDEX_SUFFIX\r\n ));\r\n }\r\n }\r\n\r\n /** Initializes an `import` statement. */\r\n private initializeImports(\r\n /** The statement to initialize. */\r\n statement: ImportStatement,\r\n /** Parent file. */\r\n parent: File,\r\n /** So far queued `import`s. */\r\n queuedImports: QueuedImport[],\r\n /** SO far queued `export`s. */\r\n queuedExports: Map>\r\n ): void {\r\n var declarations = statement.declarations;\r\n if (declarations) { // import { foo [as bar] } from \"./baz\"\r\n for (let i = 0, k = declarations.length; i < k; ++i) {\r\n this.initializeImport(\r\n declarations[i],\r\n parent,\r\n statement.internalPath,\r\n queuedImports,\r\n queuedExports\r\n );\r\n }\r\n } else if (statement.namespaceName) { // import * as foo from \"./bar\"\r\n queuedImports.push(new QueuedImport(\r\n parent,\r\n statement.namespaceName,\r\n null, // indicates import *\r\n statement.internalPath,\r\n statement.internalPath + INDEX_SUFFIX\r\n ));\r\n } else {\r\n // import \"./foo\"\r\n }\r\n }\r\n\r\n /** Initializes a single `import` declaration. Does not handle `import *`. */\r\n private initializeImport( // { foo [as bar] }\r\n /** The declaration to initialize. */\r\n declaration: ImportDeclaration,\r\n /** Parent file. */\r\n parent: File,\r\n /** Path to the other file. */\r\n foreignPath: string,\r\n /** So far queued `import`s. */\r\n queuedImports: QueuedImport[],\r\n /** So far queued `export`s. */\r\n queuedExports: Map>\r\n ): void {\r\n var foreignPathAlt = foreignPath.endsWith(INDEX_SUFFIX) // strip or add index depending on what's already present\r\n ? foreignPath.substring(0, foreignPath.length - INDEX_SUFFIX.length)\r\n : foreignPath + INDEX_SUFFIX;\r\n\r\n // resolve right away if the element exists\r\n var element = this.lookupForeign(declaration.foreignName.text, foreignPath, foreignPathAlt, queuedExports);\r\n if (element) {\r\n parent.add(declaration.name.text, element, true);\r\n return;\r\n }\r\n\r\n // otherwise queue it\r\n queuedImports.push(new QueuedImport(\r\n parent,\r\n declaration.name,\r\n declaration.foreignName,\r\n foreignPath,\r\n foreignPathAlt\r\n ));\r\n }\r\n\r\n /** Initializes a function. Does not handle methods. */\r\n private initializeFunction(\r\n /** The declaration to initialize. */\r\n declaration: FunctionDeclaration,\r\n /** Parent element, usually a file or namespace. */\r\n parent: Element\r\n ): void {\r\n var name = declaration.name.text;\r\n var validDecorators = DecoratorFlags.NONE;\r\n if (declaration.is(CommonFlags.AMBIENT)) {\r\n validDecorators |= DecoratorFlags.EXTERNAL;\r\n } else {\r\n validDecorators |= DecoratorFlags.INLINE;\r\n }\r\n if (!declaration.is(CommonFlags.INSTANCE)) {\r\n if (parent.kind != ElementKind.CLASS_PROTOTYPE) {\r\n validDecorators |= DecoratorFlags.GLOBAL;\r\n }\r\n }\r\n if (!declaration.is(CommonFlags.GENERIC)) {\r\n if (parent.kind == ElementKind.FILE && (parent).source.isEntry) {\r\n validDecorators |= DecoratorFlags.START;\r\n }\r\n }\r\n var element = new FunctionPrototype(\r\n name,\r\n parent,\r\n declaration,\r\n this.checkDecorators(declaration.decorators, validDecorators)\r\n );\r\n if (!parent.add(name, element)) return;\r\n if (element.hasDecorator(DecoratorFlags.START)) {\r\n if (this.explicitStartFunction) {\r\n this.error(\r\n DiagnosticCode.Module_cannot_have_multiple_start_functions,\r\n assert(findDecorator(DecoratorKind.START, declaration.decorators)).range\r\n );\r\n } else this.explicitStartFunction = element;\r\n }\r\n }\r\n\r\n /** Initializes an interface. */\r\n private initializeInterface(\r\n /** The declaration to initialize. */\r\n declaration: InterfaceDeclaration,\r\n /** Parent element, usually a file or namespace. */\r\n parent: Element\r\n ): void {\r\n var name = declaration.name.text;\r\n var element = new InterfacePrototype(\r\n name,\r\n parent,\r\n declaration,\r\n this.checkDecorators(declaration.decorators,\r\n DecoratorFlags.GLOBAL\r\n )\r\n );\r\n if (!parent.add(name, element)) return;\r\n var memberDeclarations = declaration.members;\r\n for (let i = 0, k = memberDeclarations.length; i < k; ++i) {\r\n let memberDeclaration = memberDeclarations[i];\r\n switch (memberDeclaration.kind) {\r\n case NodeKind.FIELDDECLARATION: {\r\n this.initializeField(memberDeclaration, element);\r\n break;\r\n }\r\n case NodeKind.METHODDECLARATION: {\r\n if (memberDeclaration.isAny(CommonFlags.GET | CommonFlags.SET)) {\r\n this.initializeProperty(memberDeclaration, element);\r\n } else {\r\n this.initializeMethod(memberDeclaration, element);\r\n }\r\n break;\r\n }\r\n default: assert(false); // interface member expected\r\n }\r\n }\r\n }\r\n\r\n /** Initializes a namespace. */\r\n private initializeNamespace(\r\n /** The declaration to initialize. */\r\n declaration: NamespaceDeclaration,\r\n /** Parent element, usually a file or another namespace. */\r\n parent: Element,\r\n /** So far queued `extends` clauses. */\r\n queuedExtends: ClassPrototype[],\r\n /** So far queued `implements` clauses. */\r\n queuedImplements: ClassPrototype[]\r\n ): void {\r\n var name = declaration.name.text;\r\n var element = new Namespace(name, parent, declaration);\r\n if (!parent.add(name, element)) return;\r\n element = assert(parent.lookupInSelf(name)); // possibly merged\r\n var members = declaration.members;\r\n for (let i = 0, k = members.length; i < k; ++i) {\r\n let member = members[i];\r\n switch (member.kind) {\r\n case NodeKind.CLASSDECLARATION: {\r\n this.initializeClass(member, element, queuedExtends, queuedImplements);\r\n break;\r\n }\r\n case NodeKind.ENUMDECLARATION: {\r\n this.initializeEnum(member, element);\r\n break;\r\n }\r\n case NodeKind.FUNCTIONDECLARATION: {\r\n this.initializeFunction(member, element);\r\n break;\r\n }\r\n case NodeKind.INTERFACEDECLARATION: {\r\n this.initializeInterface(member, element);\r\n break;\r\n }\r\n case NodeKind.NAMESPACEDECLARATION: {\r\n this.initializeNamespace(member, element, queuedExtends, queuedImplements);\r\n break;\r\n }\r\n case NodeKind.TYPEDECLARATION: {\r\n this.initializeTypeDefinition(member, element);\r\n break;\r\n }\r\n case NodeKind.VARIABLE: {\r\n this.initializeVariables(member, element);\r\n break;\r\n }\r\n default: assert(false); // namespace member expected\r\n }\r\n }\r\n }\r\n\r\n /** Initializes a `type` definition. */\r\n private initializeTypeDefinition(\r\n /** The declaration to initialize. */\r\n declaration: TypeDeclaration,\r\n /** Parent element, usually a file or namespace. */\r\n parent: Element\r\n ): void {\r\n var name = declaration.name.text;\r\n var element = new TypeDefinition(\r\n name,\r\n parent,\r\n declaration,\r\n this.checkDecorators(declaration.decorators, DecoratorFlags.NONE)\r\n );\r\n parent.add(name, element); // reports\r\n }\r\n\r\n /** Initializes a variable statement. */\r\n private initializeVariables(\r\n /** The statement to initialize. */\r\n statement: VariableStatement,\r\n /** Parent element, usually a file or namespace. */\r\n parent: Element\r\n ): void {\r\n var declarations = statement.declarations;\r\n for (let i = 0, k = declarations.length; i < k; ++i) {\r\n let declaration = declarations[i];\r\n let name = declaration.name.text;\r\n let acceptedFlags = DecoratorFlags.GLOBAL | DecoratorFlags.LAZY;\r\n if (declaration.is(CommonFlags.DECLARE)) {\r\n acceptedFlags |= DecoratorFlags.EXTERNAL;\r\n }\r\n if (declaration.is(CommonFlags.CONST)) {\r\n acceptedFlags |= DecoratorFlags.INLINE;\r\n }\r\n let element = new Global(\r\n name,\r\n parent,\r\n this.checkDecorators(declaration.decorators, acceptedFlags),\r\n declaration\r\n );\r\n if (!parent.add(name, element)) continue; // reports\r\n }\r\n }\r\n}\r\n\r\n/** Indicates the specific kind of an {@link Element}. */\r\nexport enum ElementKind {\r\n /** A {@link Global}. */\r\n GLOBAL,\r\n /** A {@link Local}. */\r\n LOCAL,\r\n /** An {@link Enum}. */\r\n ENUM,\r\n /** An {@link EnumValue}. */\r\n ENUMVALUE,\r\n /** A {@link FunctionPrototype}. */\r\n FUNCTION_PROTOTYPE,\r\n /** A {@link Function}. */\r\n FUNCTION,\r\n /** A {@link FunctionTarget}. */\r\n FUNCTION_TARGET,\r\n /** A {@link ClassPrototype}. */\r\n CLASS_PROTOTYPE,\r\n /** A {@link Class}. */\r\n CLASS,\r\n /** An {@link InterfacePrototype}. */\r\n INTERFACE_PROTOTYPE,\r\n /** An {@link Interface}. */\r\n INTERFACE,\r\n /** A {@link FieldPrototype}. */\r\n FIELD_PROTOTYPE,\r\n /** A {@link Field}. */\r\n FIELD,\r\n /** A {@link PropertyPrototype}. */\r\n PROPERTY_PROTOTYPE,\r\n /** A {@link Property}. */\r\n PROPERTY,\r\n /** A {@link Namespace}. */\r\n NAMESPACE,\r\n /** A {@link File}. */\r\n FILE,\r\n /** A {@link TypeDefinition}. */\r\n TYPEDEFINITION,\r\n}\r\n\r\n/** Indicates built-in decorators that are present. */\r\nexport enum DecoratorFlags {\r\n /** No flags set. */\r\n NONE = 0,\r\n /** Is a program global. */\r\n GLOBAL = 1 << 0,\r\n /** Is a binary operator overload. */\r\n OPERATOR_BINARY = 1 << 1,\r\n /** Is a unary prefix operator overload. */\r\n OPERATOR_PREFIX = 1 << 2,\r\n /** Is a unary postfix operator overload. */\r\n OPERATOR_POSTFIX = 1 << 3,\r\n /** Is an unmanaged class. */\r\n UNMANAGED = 1 << 4,\r\n /** Is a sealed class. */\r\n SEALED = 1 << 5,\r\n /** Is always inlined. */\r\n INLINE = 1 << 6,\r\n /** Is using a different external name. */\r\n EXTERNAL = 1 << 7,\r\n /** Is a builtin. */\r\n BUILTIN = 1 << 8,\r\n /** Is compiled lazily. */\r\n LAZY = 1 << 9,\r\n /** Is the explicit start function. */\r\n START = 1 << 10\r\n}\r\n\r\n/** Translates a decorator kind to the respective decorator flag. */\r\nexport function decoratorKindToFlag(kind: DecoratorKind): DecoratorFlags {\r\n switch (kind) {\r\n case DecoratorKind.GLOBAL: return DecoratorFlags.GLOBAL;\r\n case DecoratorKind.OPERATOR:\r\n case DecoratorKind.OPERATOR_BINARY: return DecoratorFlags.OPERATOR_BINARY;\r\n case DecoratorKind.OPERATOR_PREFIX: return DecoratorFlags.OPERATOR_PREFIX;\r\n case DecoratorKind.OPERATOR_POSTFIX: return DecoratorFlags.OPERATOR_POSTFIX;\r\n case DecoratorKind.UNMANAGED: return DecoratorFlags.UNMANAGED;\r\n case DecoratorKind.SEALED: return DecoratorFlags.SEALED;\r\n case DecoratorKind.INLINE: return DecoratorFlags.INLINE;\r\n case DecoratorKind.EXTERNAL: return DecoratorFlags.EXTERNAL;\r\n case DecoratorKind.BUILTIN: return DecoratorFlags.BUILTIN;\r\n case DecoratorKind.LAZY: return DecoratorFlags.LAZY;\r\n case DecoratorKind.START: return DecoratorFlags.START;\r\n default: return DecoratorFlags.NONE;\r\n }\r\n}\r\n\r\n/** Base class of all program elements. */\r\nexport abstract class Element {\r\n\r\n /** Parent element. */\r\n parent: Element;\r\n /** Common flags indicating specific traits. */\r\n flags: CommonFlags = CommonFlags.NONE;\r\n /** Decorator flags indicating annotated traits. */\r\n decoratorFlags: DecoratorFlags = DecoratorFlags.NONE;\r\n /** Member elements. */\r\n members: Map | null = null;\r\n /** Shadowing type in type space, if any. */\r\n shadowType: TypeDefinition | null = null;\r\n\r\n /** Constructs a new program element. */\r\n protected constructor(\r\n /** Specific element kind. */\r\n public kind: ElementKind,\r\n /** Simple name. */\r\n public name: string,\r\n /** Internal name referring to this element. */\r\n public internalName: string,\r\n /** Containing {@link Program}. */\r\n public program: Program,\r\n /** Parent element. */\r\n parent: Element | null\r\n ) {\r\n this.program = program;\r\n this.name = name;\r\n this.internalName = internalName;\r\n if (parent) {\r\n this.parent = parent;\r\n } else {\r\n assert(this.kind == ElementKind.FILE);\r\n this.parent = this; // special case to keep this.parent non-nullable\r\n }\r\n }\r\n\r\n /** Gets the enclosing file. */\r\n get file(): File {\r\n var current: Element = this;\r\n do if ((current = current.parent).kind == ElementKind.FILE) return current;\r\n while (true);\r\n }\r\n\r\n /** Tests if this element has a specific flag or flags. */\r\n is(flag: CommonFlags): bool { return (this.flags & flag) == flag; }\r\n /** Tests if this element has any of the specified flags. */\r\n isAny(flags: CommonFlags): bool { return (this.flags & flags) != 0; }\r\n /** Sets a specific flag or flags. */\r\n set(flag: CommonFlags): void { this.flags |= flag; }\r\n /** Tests if this element has a specific decorator flag or flags. */\r\n hasDecorator(flag: DecoratorFlags): bool { return (this.decoratorFlags & flag) == flag; }\r\n\r\n /** Looks up the element with the specified name within this element. */\r\n lookupInSelf(name: string): DeclaredElement | null {\r\n var members = this.members;\r\n if (members && members.has(name)) return members.get(name)!;\r\n return null;\r\n }\r\n\r\n /** Looks up the element with the specified name relative to this element, like in JS. */\r\n abstract lookup(name: string): Element | null;\r\n\r\n /** Adds an element as a member of this one. Reports and returns `false` if a duplicate. */\r\n add(name: string, element: DeclaredElement): bool {\r\n var originalDeclaration = element.declaration;\r\n var members = this.members;\r\n if (!members) this.members = members = new Map();\r\n else if (members.has(name)) {\r\n let actual = members.get(name)!;\r\n if (actual.parent !== this) {\r\n // override non-own element\r\n } else {\r\n let merged = tryMerge(actual, element);\r\n if (merged) {\r\n element = merged; // use merged element\r\n } else {\r\n this.program.error(\r\n DiagnosticCode.Duplicate_identifier_0,\r\n element.identifierNode.range, element.identifierNode.text\r\n );\r\n return false;\r\n }\r\n }\r\n }\r\n members.set(name, element);\r\n var program = this.program;\r\n if (element.kind != ElementKind.FUNCTION_PROTOTYPE || !(element).isBound) {\r\n // prefer unbound prototypes in global lookup maps\r\n program.elementsByName.set(element.internalName, element);\r\n program.elementsByDeclaration.set(originalDeclaration, element);\r\n }\r\n return true;\r\n }\r\n\r\n /** Returns a string representation of this element. */\r\n toString(): string {\r\n return ElementKind[this.kind] + \":\" + this.internalName;\r\n }\r\n}\r\n\r\n/** Base class of elements with an associated declaration statement. */\r\nexport abstract class DeclaredElement extends Element {\r\n\r\n /** Constructs a new declared program element. */\r\n protected constructor(\r\n /** Specific element kind. */\r\n kind: ElementKind,\r\n /** Simple name. */\r\n name: string,\r\n /** Internal name referring to this element. */\r\n internalName: string,\r\n /** Containing {@link Program}. */\r\n program: Program,\r\n /** Parent element. */\r\n parent: Element | null,\r\n /** Declaration reference. */\r\n public declaration: DeclarationStatement\r\n ) {\r\n super(kind, name, internalName, program, parent);\r\n // It is necessary to have access to identifiers of all members and exports\r\n // for reporting purposes and this is the lowest common denominator. Comes\r\n // at the expense of not having more specific type information in derived\r\n // classes, though. Instead, derived classes implement getters for other\r\n // important AST nodes directly through manual casting, allowing the resolver\r\n // etc. to not worry about actual declarations.\r\n this.declaration = declaration;\r\n this.flags = declaration.flags; // inherit\r\n }\r\n\r\n /** Tests if this element is a library element. */\r\n get isDeclaredInLibrary(): bool {\r\n return this.declaration.range.source.isLibrary;\r\n }\r\n\r\n /** Gets the associated identifier node. */\r\n get identifierNode(): IdentifierExpression {\r\n return this.declaration.name;\r\n }\r\n\r\n /** Gets the assiciated decorator nodes. */\r\n get decoratorNodes(): DecoratorNode[] | null {\r\n return this.declaration.decorators;\r\n }\r\n}\r\n\r\n/** Base class of elements that can be resolved to a concrete type. */\r\nexport abstract class TypedElement extends DeclaredElement {\r\n\r\n /** Resolved type. Set once `is(RESOLVED)`, otherwise void. */\r\n type: Type = Type.void;\r\n\r\n /** Sets the resolved type of this element. */\r\n setType(type: Type): void {\r\n assert(!this.is(CommonFlags.RESOLVED));\r\n this.type = type;\r\n this.set(CommonFlags.RESOLVED);\r\n }\r\n}\r\n\r\n/** A file representing the implicit top-level namespace of a source. */\r\nexport class File extends Element {\r\n\r\n /** File exports. */\r\n exports: Map | null = null;\r\n /** File re-exports. */\r\n exportsStar: File[] | null = null;\r\n /** Top-level start function of this file. */\r\n startFunction: Function;\r\n\r\n /** Constructs a new file. */\r\n constructor(\r\n /** Program this file belongs to. */\r\n program: Program,\r\n /** Source of this file. */\r\n public source: Source\r\n ) {\r\n super(\r\n ElementKind.FILE,\r\n source.normalizedPath,\r\n source.internalPath,\r\n program,\r\n null // special case for files\r\n );\r\n this.source = source;\r\n assert(!program.filesByName.has(this.internalName));\r\n program.filesByName.set(this.internalName, this);\r\n var startFunction = this.program.makeNativeFunction(\r\n \"start:\" + this.internalName,\r\n new Signature(null, Type.void),\r\n this\r\n );\r\n startFunction.internalName = startFunction.name;\r\n this.startFunction = startFunction;\r\n }\r\n\r\n /* @override */\r\n add(name: string, element: DeclaredElement, isImport: bool = false): bool {\r\n if (!super.add(name, element)) return false;\r\n element = assert(this.lookupInSelf(name)); // possibly merged\r\n if (element.is(CommonFlags.EXPORT) && !isImport) {\r\n this.ensureExport(\r\n element.name,\r\n element\r\n );\r\n }\r\n if (element.hasDecorator(DecoratorFlags.GLOBAL)) this.program.ensureGlobal(name, element);\r\n return true;\r\n }\r\n\r\n /* @override */\r\n lookupInSelf(name: string): DeclaredElement | null {\r\n var element = super.lookupInSelf(name);\r\n if (element) return element;\r\n var exportsStar = this.exportsStar;\r\n if (exportsStar) {\r\n for (let i = 0, k = exportsStar.length; i < k; ++i) {\r\n if (element = exportsStar[i].lookupInSelf(name)) return element;\r\n }\r\n }\r\n return null;\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n var element = this.lookupInSelf(name);\r\n if (element) return element;\r\n return this.program.lookupGlobal(name);\r\n }\r\n\r\n /** Ensures that an element is an export of this file. */\r\n ensureExport(name: string, element: DeclaredElement): void {\r\n var exports = this.exports;\r\n if (!exports) this.exports = exports = new Map();\r\n exports.set(name, element);\r\n if (this.source.isLibrary) this.program.ensureGlobal(name, element);\r\n }\r\n\r\n /** Ensures that another file is a re-export of this file. */\r\n ensureExportStar(file: File): void {\r\n var exportsStar = this.exportsStar;\r\n if (!exportsStar) this.exportsStar = exportsStar = [];\r\n else if (exportsStar.includes(file)) return;\r\n exportsStar.push(file);\r\n }\r\n\r\n /** Looks up the export of the specified name. */\r\n lookupExport(name: string): DeclaredElement | null {\r\n var exports = this.exports;\r\n if (exports && exports.has(name)) return exports.get(name)!;\r\n var exportsStar = this.exportsStar;\r\n if (exportsStar) {\r\n for (let i = 0, k = exportsStar.length; i < k; ++i) {\r\n let element = exportsStar[i].lookupExport(name);\r\n if (element) return element;\r\n }\r\n }\r\n return null;\r\n }\r\n\r\n /** Creates an imported namespace from this file. */\r\n asImportedNamespace(name: string, parent: Element): Namespace {\r\n var ns = new Namespace(\r\n name,\r\n parent,\r\n this.program.makeNativeNamespaceDeclaration(name)\r\n );\r\n var exports = this.exports;\r\n if (exports) {\r\n for (let [memberName, member] of exports) {\r\n ns.add(memberName, member);\r\n }\r\n }\r\n return ns;\r\n }\r\n}\r\n\r\n/** A type definition. */\r\nexport class TypeDefinition extends TypedElement {\r\n\r\n /** Constructs a new type definition. */\r\n constructor(\r\n /** Simple name. */\r\n name: string,\r\n /** Parent element, usually a file or namespace. */\r\n parent: Element,\r\n /** Declaration reference. */\r\n declaration: TypeDeclaration,\r\n /** Pre-checked flags indicating built-in decorators. */\r\n decoratorFlags: DecoratorFlags = DecoratorFlags.NONE\r\n ) {\r\n super(\r\n ElementKind.TYPEDEFINITION,\r\n name,\r\n mangleInternalName(name, parent, false),\r\n parent.program,\r\n parent,\r\n declaration\r\n );\r\n this.decoratorFlags = decoratorFlags;\r\n }\r\n\r\n /** Gets the associated type parameter nodes. */\r\n get typeParameterNodes(): TypeParameterNode[] | null {\r\n return (this.declaration).typeParameters;\r\n }\r\n\r\n /** Gets the associated type node. */\r\n get typeNode(): CommonTypeNode {\r\n return (this.declaration).type;\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return this.parent.lookup(name);\r\n }\r\n}\r\n\r\n/** A namespace that differs from a file in being user-declared with a name. */\r\nexport class Namespace extends DeclaredElement {\r\n\r\n /** Constructs a new namespace. */\r\n constructor(\r\n /** Simple name. */\r\n name: string,\r\n /** Parent element, usually a file or another namespace. */\r\n parent: Element,\r\n /** Declaration reference. */\r\n declaration: NamespaceDeclaration\r\n ) {\r\n super(\r\n ElementKind.NAMESPACE,\r\n name,\r\n mangleInternalName(name, parent, false),\r\n parent.program,\r\n parent,\r\n declaration\r\n );\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return this.lookupInSelf(name)\r\n || this.parent.lookup(name);\r\n }\r\n}\r\n\r\n/** An enum. */\r\nexport class Enum extends TypedElement {\r\n\r\n /** Constructs a new enum. */\r\n constructor(\r\n /** Simple name. */\r\n name: string,\r\n /** Parent element, usually a file or namespace. */\r\n parent: Element,\r\n /** Declaration reference. */\r\n declaration: EnumDeclaration,\r\n /** Pre-checked flags indicating built-in decorators. */\r\n decoratorFlags: DecoratorFlags = DecoratorFlags.NONE\r\n ) {\r\n super(\r\n ElementKind.ENUM,\r\n name,\r\n mangleInternalName(name, parent, false),\r\n parent.program,\r\n parent,\r\n declaration\r\n );\r\n this.decoratorFlags = decoratorFlags;\r\n this.setType(Type.i32);\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return this.lookupInSelf(name)\r\n || this.parent.lookup(name);\r\n }\r\n}\r\n\r\n/** Indicates the kind of an inlined constant value. */\r\nexport const enum ConstantValueKind {\r\n /** No constant value. */\r\n NONE,\r\n /** Constant integer value. */\r\n INTEGER,\r\n /** Constant float value. */\r\n FLOAT\r\n}\r\n\r\n/** Base class of all variable-like program elements. */\r\nexport abstract class VariableLikeElement extends TypedElement {\r\n\r\n /** Constant value kind. */\r\n constantValueKind: ConstantValueKind = ConstantValueKind.NONE;\r\n /** Constant integer value, if applicable. */\r\n constantIntegerValue: I64;\r\n /** Constant float value, if applicable. */\r\n constantFloatValue: f64;\r\n\r\n /** Constructs a new variable-like element. */\r\n protected constructor(\r\n /** Specific element kind. */\r\n kind: ElementKind,\r\n /** Simple name. */\r\n name: string,\r\n /** Parent element, usually a file, namespace or class. */\r\n parent: Element,\r\n /** Declaration reference. Creates a native declaration if omitted. */\r\n declaration: VariableLikeDeclarationStatement = parent.program.makeNativeVariableDeclaration(name)\r\n ) {\r\n super(\r\n kind,\r\n name,\r\n mangleInternalName(name, parent, false),\r\n parent.program,\r\n parent,\r\n declaration\r\n );\r\n this.flags = declaration.flags;\r\n }\r\n\r\n /** Gets the associated type node.s */\r\n get typeNode(): CommonTypeNode | null {\r\n return (this.declaration).type;\r\n }\r\n\r\n /** Gets the associated initializer node. */\r\n get initializerNode(): Expression | null {\r\n return (this.declaration).initializer;\r\n }\r\n\r\n /** Applies a constant integer value to this element. */\r\n setConstantIntegerValue(value: I64, type: Type): void {\r\n assert(type.is(TypeFlags.INTEGER));\r\n this.type = type;\r\n this.constantValueKind = ConstantValueKind.INTEGER;\r\n this.constantIntegerValue = value;\r\n this.set(CommonFlags.CONST | CommonFlags.INLINED | CommonFlags.RESOLVED);\r\n }\r\n\r\n /** Applies a constant float value to this element. */\r\n setConstantFloatValue(value: f64, type: Type): void {\r\n assert(type.is(TypeFlags.FLOAT));\r\n this.type = type;\r\n this.constantValueKind = ConstantValueKind.FLOAT;\r\n this.constantFloatValue = value;\r\n this.set(CommonFlags.CONST | CommonFlags.INLINED | CommonFlags.RESOLVED);\r\n }\r\n\r\n /** @override */\r\n lookup(name: string): Element | null {\r\n return this.parent.lookup(name);\r\n }\r\n}\r\n\r\n/** An enum value. */\r\nexport class EnumValue extends VariableLikeElement {\r\n\r\n /** Constructs a new enum value. */\r\n constructor(\r\n /** Simple name. */\r\n name: string,\r\n /** Parent enum. */\r\n parent: Enum,\r\n /** Declaration reference. */\r\n declaration: EnumValueDeclaration,\r\n /** Pre-checked flags indicating built-in decorators. */\r\n decoratorFlags: DecoratorFlags = DecoratorFlags.NONE\r\n ) {\r\n super(\r\n ElementKind.ENUMVALUE,\r\n name,\r\n parent,\r\n declaration\r\n );\r\n this.decoratorFlags = decoratorFlags;\r\n this.setType(Type.i32);\r\n }\r\n\r\n /** Gets the associated value node. */\r\n get valueNode(): Expression | null {\r\n return (this.declaration).value;\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return this.parent.lookup(name);\r\n }\r\n}\r\n\r\n/** A global variable. */\r\nexport class Global extends VariableLikeElement {\r\n\r\n /** Constructs a new global variable. */\r\n constructor(\r\n /** Simple name. */\r\n name: string,\r\n /** Parent element, usually a file, namespace or static class. */\r\n parent: Element,\r\n /** Pre-checked flags indicating built-in decorators. */\r\n decoratorFlags: DecoratorFlags,\r\n /** Declaration reference. Creates a native declaration if omitted. */\r\n declaration: VariableLikeDeclarationStatement = parent.program.makeNativeVariableDeclaration(name)\r\n ) {\r\n super(\r\n ElementKind.GLOBAL,\r\n name,\r\n parent,\r\n declaration\r\n );\r\n this.decoratorFlags = decoratorFlags;\r\n }\r\n}\r\n\r\n/** A function parameter. */\r\nexport class Parameter {\r\n /** Constructs a new function parameter. */\r\n constructor(\r\n /** Parameter name. */\r\n public name: string,\r\n /** Parameter type. */\r\n public type: Type,\r\n /** Parameter initializer, if present. */\r\n public initializer: Expression | null = null\r\n ) {}\r\n}\r\n\r\n/** A local variable. */\r\nexport class Local extends VariableLikeElement {\r\n\r\n /** Constructs a new local variable. */\r\n constructor(\r\n /** Simple name. */\r\n name: string,\r\n /** Zero-based index within the enclosing function. `-1` indicates a virtual local. */\r\n public index: i32,\r\n /** Resolved type. */\r\n type: Type,\r\n /** Parent function. */\r\n parent: Function,\r\n /** Declaration reference. */\r\n declaration: VariableLikeDeclarationStatement = parent.program.makeNativeVariableDeclaration(name)\r\n ) {\r\n super(\r\n ElementKind.LOCAL,\r\n name,\r\n parent,\r\n declaration\r\n );\r\n this.index = index;\r\n assert(type != Type.void);\r\n this.setType(type);\r\n }\r\n}\r\n\r\n/** A yet unresolved function prototype. */\r\nexport class FunctionPrototype extends DeclaredElement {\r\n\r\n /** Operator kind, if an overload. */\r\n operatorKind: OperatorKind = OperatorKind.INVALID;\r\n /** Already resolved instances. */\r\n instances: Map | null = null;\r\n\r\n /** Clones of this prototype that are bounds to specific classes. */\r\n private boundPrototypes: Map | null = null;\r\n\r\n /** Constructs a new function prototype. */\r\n constructor(\r\n /** Simple na,e */\r\n name: string,\r\n /** Parent element, usually a file, namespace or class (if a method). */\r\n parent: Element,\r\n /** Declaration reference. */\r\n declaration: FunctionDeclaration,\r\n /** Pre-checked flags indicating built-in decorators. */\r\n decoratorFlags: DecoratorFlags = DecoratorFlags.NONE\r\n ) {\r\n super(\r\n ElementKind.FUNCTION_PROTOTYPE,\r\n name,\r\n mangleInternalName(name, parent, declaration.is(CommonFlags.INSTANCE)),\r\n parent.program,\r\n parent,\r\n declaration\r\n );\r\n this.decoratorFlags = decoratorFlags;\r\n }\r\n\r\n /** Gets the associated type parameter nodes. */\r\n get typeParameterNodes(): TypeParameterNode[] | null {\r\n return (this.declaration).typeParameters;\r\n }\r\n\r\n /** Gets the associated signature node. */\r\n get signatureNode(): SignatureNode {\r\n return (this.declaration).signature;\r\n }\r\n\r\n /** Gets the associated body node. */\r\n get bodyNode(): Statement | null {\r\n return (this.declaration).body;\r\n }\r\n\r\n /** Gets the arrow function kind. */\r\n get arrowKind(): ArrowKind {\r\n return (this.declaration).arrowKind;\r\n }\r\n\r\n /** Tests if this prototype is bound to a class. */\r\n get isBound(): bool {\r\n var parent = this.parent;\r\n return parent.kind == ElementKind.CLASS\r\n || parent.kind == ElementKind.PROPERTY_PROTOTYPE && parent.parent.kind == ElementKind.CLASS;\r\n }\r\n\r\n /** Creates a clone of this prototype that is bound to a concrete class instead. */\r\n toBound(classInstance: Class): FunctionPrototype {\r\n assert(this.is(CommonFlags.INSTANCE));\r\n assert(!this.isBound);\r\n var boundPrototypes = this.boundPrototypes;\r\n if (!boundPrototypes) this.boundPrototypes = boundPrototypes = new Map();\r\n else if (boundPrototypes.has(classInstance)) return boundPrototypes.get(classInstance)!;\r\n var declaration = this.declaration; assert(declaration.kind == NodeKind.METHODDECLARATION);\r\n var bound = new FunctionPrototype(\r\n this.name,\r\n classInstance, // !\r\n declaration,\r\n this.decoratorFlags\r\n );\r\n bound.flags = this.flags;\r\n bound.operatorKind = this.operatorKind;\r\n // NOTE: this.instances holds instances per bound class / unbound\r\n boundPrototypes.set(classInstance, bound);\r\n return bound;\r\n }\r\n\r\n /** Gets the resolved instance for the specified instance key, if already resolved. */\r\n getResolvedInstance(instanceKey: string): Function | null {\r\n var instances = this.instances;\r\n if (instances && instances.has(instanceKey)) return instances.get(instanceKey);\r\n return null;\r\n }\r\n\r\n /** Sets the resolved instance for the specified instance key. */\r\n setResolvedInstance(instanceKey: string, instance: Function): void {\r\n var instances = this.instances;\r\n if (!instances) this.instances = instances = new Map();\r\n else assert(!instances.has(instanceKey));\r\n instances.set(instanceKey, instance);\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return this.parent.lookup(name);\r\n }\r\n}\r\n\r\n/** A resolved function. */\r\nexport class Function extends TypedElement {\r\n\r\n /** Function prototype. */\r\n prototype: FunctionPrototype;\r\n /** Function signature. */\r\n signature: Signature;\r\n /** Map of locals by name. */\r\n localsByName: Map = new Map();\r\n /** Array of locals by index. */\r\n localsByIndex: Local[] = [];\r\n /** List of additional non-parameter locals. */\r\n additionalLocals: Type[] = [];\r\n /** Contextual type arguments. */\r\n contextualTypeArguments: Map | null;\r\n /** Default control flow. */\r\n flow: Flow;\r\n /** Remembered debug locations. */\r\n debugLocations: Range[] = [];\r\n /** Function reference, if compiled. */\r\n ref: FunctionRef = 0;\r\n /** Function table index, if any. */\r\n functionTableIndex: i32 = -1;\r\n /** Trampoline function for calling with omitted arguments. */\r\n trampoline: Function | null = null;\r\n\r\n /** Counting id of inline operations involving this function. */\r\n nextInlineId: i32 = 0;\r\n /** Counting id of anonymous inner functions. */\r\n nextAnonymousId: i32 = 0;\r\n\r\n /** Constructs a new concrete function. */\r\n constructor(\r\n /** Name incl. type parameters, i.e. `foo`. */\r\n nameInclTypeParameters: string,\r\n /** Respective function prototype. */\r\n prototype: FunctionPrototype,\r\n /** Concrete signature. */\r\n signature: Signature, // pre-resolved\r\n /** Contextual type arguments inherited from its parent class, if any. */\r\n contextualTypeArguments: Map | null = null\r\n ) {\r\n super(\r\n ElementKind.FUNCTION,\r\n nameInclTypeParameters,\r\n mangleInternalName(nameInclTypeParameters, prototype.parent, prototype.is(CommonFlags.INSTANCE)),\r\n prototype.program,\r\n prototype.parent,\r\n prototype.declaration\r\n );\r\n this.prototype = prototype;\r\n this.signature = signature;\r\n this.flags = prototype.flags | CommonFlags.RESOLVED;\r\n this.decoratorFlags = prototype.decoratorFlags;\r\n this.contextualTypeArguments = contextualTypeArguments;\r\n this.type = Type.u32.asFunction(signature);\r\n if (!prototype.is(CommonFlags.AMBIENT)) {\r\n let localIndex = 0;\r\n if (this.is(CommonFlags.INSTANCE)) {\r\n let local = new Local(\r\n CommonSymbols.this_,\r\n localIndex++,\r\n assert(signature.thisType),\r\n this\r\n );\r\n this.localsByName.set(CommonSymbols.this_, local);\r\n this.localsByIndex[local.index] = local;\r\n }\r\n let parameterTypes = signature.parameterTypes;\r\n for (let i = 0, k = parameterTypes.length; i < k; ++i) {\r\n let parameterType = parameterTypes[i];\r\n let parameterName = signature.getParameterName(i);\r\n let local = new Local(\r\n parameterName,\r\n localIndex++,\r\n parameterType,\r\n this\r\n );\r\n this.localsByName.set(parameterName, local);\r\n this.localsByIndex[local.index] = local;\r\n }\r\n }\r\n this.flow = Flow.create(this);\r\n registerConcreteElement(this.program, this);\r\n }\r\n\r\n /** Adds a local of the specified type, with an optional name. */\r\n addLocal(type: Type, name: string | null = null, declaration: VariableDeclaration | null = null): Local {\r\n // if it has a name, check previously as this method will throw otherwise\r\n var localIndex = this.signature.parameterTypes.length + this.additionalLocals.length;\r\n if (this.is(CommonFlags.INSTANCE)) ++localIndex;\r\n var localName = name !== null\r\n ? name\r\n : \"var$\" + localIndex.toString();\r\n var local = new Local(\r\n localName,\r\n localIndex,\r\n type,\r\n this,\r\n declaration || this.program.makeNativeVariableDeclaration(localName)\r\n );\r\n if (name) {\r\n if (this.localsByName.has(name)) throw new Error(\"duplicate local name\");\r\n this.localsByName.set(name, local);\r\n }\r\n this.localsByIndex[local.index] = local;\r\n this.additionalLocals.push(type);\r\n return local;\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n var locals = this.localsByName;\r\n if (locals.has(name)) return locals.get(name);\r\n return this.parent.lookup(name);\r\n }\r\n\r\n // used by flows to keep track of temporary locals\r\n tempI32s: Local[] | null = null;\r\n tempI64s: Local[] | null = null;\r\n tempF32s: Local[] | null = null;\r\n tempF64s: Local[] | null = null;\r\n tempV128s: Local[] | null = null;\r\n\r\n // used by flows to keep track of break labels\r\n nextBreakId: i32 = 0;\r\n breakStack: i32[] | null = null;\r\n breakLabel: string | null = null;\r\n\r\n /** Finalizes the function once compiled, releasing no longer needed resources. */\r\n finalize(module: Module, ref: FunctionRef): void {\r\n this.ref = ref;\r\n assert(!this.breakStack || !this.breakStack.length); // internal error\r\n this.breakStack = null;\r\n this.breakLabel = null;\r\n this.tempI32s = this.tempI64s = this.tempF32s = this.tempF64s = null;\r\n if (this.program.options.sourceMap) {\r\n let debugLocations = this.debugLocations;\r\n for (let i = 0, k = debugLocations.length; i < k; ++i) {\r\n let debugLocation = debugLocations[i];\r\n module.setDebugLocation(\r\n ref,\r\n debugLocation.debugInfoRef,\r\n debugLocation.source.debugInfoIndex,\r\n debugLocation.line,\r\n debugLocation.column\r\n );\r\n }\r\n }\r\n }\r\n}\r\n\r\n/** A resolved function target, that is a function called indirectly by an index and signature. */\r\nexport class FunctionTarget extends Element {\r\n\r\n /** Underlying signature. */\r\n signature: Signature;\r\n /** Function type. */\r\n type: Type;\r\n\r\n /** Constructs a new function target. */\r\n constructor(\r\n /** Concrete signature. */\r\n signature: Signature,\r\n /** Program reference. */\r\n program: Program,\r\n __s: string = \"\" // FIXME: current TS limitation workaround, but a fix seems underway\r\n ) {\r\n super(\r\n ElementKind.FUNCTION_TARGET,\r\n __s = \"sig:\" + signature.toSignatureString(),\r\n __s,\r\n program,\r\n program.nativeFile\r\n );\r\n this.signature = signature;\r\n this.flags = CommonFlags.RESOLVED;\r\n this.type = Type.u32.asFunction(signature);\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return null;\r\n }\r\n}\r\n\r\n/** A yet unresolved instance field prototype. */\r\nexport class FieldPrototype extends DeclaredElement {\r\n\r\n /** Constructs a new field prototype. */\r\n constructor(\r\n /** Simple name. */\r\n name: string,\r\n /** Parent class. */\r\n parent: ClassPrototype,\r\n /** Declaration reference. */\r\n declaration: FieldDeclaration,\r\n /** Pre-checked flags indicating built-in decorators. */\r\n decoratorFlags: DecoratorFlags = DecoratorFlags.NONE\r\n ) {\r\n super(\r\n ElementKind.FIELD_PROTOTYPE,\r\n name,\r\n mangleInternalName(name, parent, assert(declaration.is(CommonFlags.INSTANCE))),\r\n parent.program,\r\n parent,\r\n declaration\r\n );\r\n this.decoratorFlags = decoratorFlags;\r\n }\r\n\r\n /** Gets the associated type node. */\r\n get typeNode(): CommonTypeNode | null {\r\n return (this.declaration).type;\r\n }\r\n\r\n /** Gets the associated initializer node. */\r\n get initializerNode(): Expression | null {\r\n return (this.declaration).initializer;\r\n }\r\n\r\n /** Gets the associated parameter index. Set if declared as a constructor parameter, otherwise `-1`. */\r\n get parameterIndex(): i32 {\r\n return (this.declaration).parameterIndex;\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return this.parent.lookup(name);\r\n }\r\n}\r\n\r\n/** A resolved instance field. */\r\nexport class Field extends VariableLikeElement {\r\n\r\n /** Field prototype reference. */\r\n prototype: FieldPrototype;\r\n /** Field memory offset, if an instance field. */\r\n memoryOffset: i32 = -1;\r\n\r\n /** Constructs a new field. */\r\n constructor(\r\n /** Respective field prototype. */\r\n prototype: FieldPrototype,\r\n /** Parent class. */\r\n parent: Class,\r\n /** Concrete type. */\r\n type: Type\r\n ) {\r\n super(\r\n ElementKind.FIELD,\r\n prototype.name,\r\n parent,\r\n prototype.declaration\r\n );\r\n this.prototype = prototype;\r\n this.flags = prototype.flags;\r\n assert(type != Type.void);\r\n this.setType(type);\r\n registerConcreteElement(this.program, this);\r\n }\r\n}\r\n\r\n/** A property comprised of a getter and a setter function. */\r\nexport class PropertyPrototype extends DeclaredElement {\r\n\r\n /** Getter prototype. */\r\n getterPrototype: FunctionPrototype | null = null;\r\n /** Setter prototype. */\r\n setterPrototype: FunctionPrototype | null = null;\r\n\r\n /** Constructs a new property prototype. */\r\n constructor(\r\n /** Simple name. */\r\n name: string,\r\n /** Parent class. */\r\n parent: ClassPrototype,\r\n /** Declaration of the getter or setter introducing the property. */\r\n firstDeclaration: FunctionDeclaration\r\n ) {\r\n super(\r\n ElementKind.PROPERTY_PROTOTYPE,\r\n name,\r\n mangleInternalName(name, parent, firstDeclaration.is(CommonFlags.INSTANCE)),\r\n parent.program,\r\n parent,\r\n firstDeclaration\r\n );\r\n this.flags &= ~(CommonFlags.GET | CommonFlags.SET);\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return this.parent.lookup(name);\r\n }\r\n}\r\n\r\n/** A resolved property. */\r\nexport class Property extends VariableLikeElement {\r\n\r\n /** Prototype reference. */\r\n prototype: PropertyPrototype;\r\n /** Getter instance. */\r\n getterInstance: Function | null = null;\r\n /** Setter instance. */\r\n setterInstance: Function | null = null;\r\n\r\n /** Constructs a new property prototype. */\r\n constructor(\r\n /** Respective property prototype. */\r\n prototype: PropertyPrototype,\r\n /** Parent element, usually a static class prototype or class instance. */\r\n parent: Element\r\n ) {\r\n super(\r\n ElementKind.PROPERTY,\r\n prototype.name,\r\n parent,\r\n prototype.program.makeNativeVariableDeclaration(\r\n prototype.name,\r\n prototype.is(CommonFlags.INSTANCE)\r\n ? CommonFlags.INSTANCE\r\n : CommonFlags.NONE\r\n )\r\n );\r\n this.prototype = prototype;\r\n registerConcreteElement(this.program, this);\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return this.parent.lookup(name);\r\n }\r\n}\r\n\r\n/** A yet unresolved class prototype. */\r\nexport class ClassPrototype extends DeclaredElement {\r\n\r\n /** Instance member prototypes. */\r\n instanceMembers: Map | null = null;\r\n /** Base class prototype, if applicable. */\r\n basePrototype: ClassPrototype | null = null; // set in Program#initialize\r\n /** Constructor prototype. */\r\n constructorPrototype: FunctionPrototype | null = null;\r\n /** Operator overload prototypes. */\r\n overloadPrototypes: Map = new Map();\r\n /** Already resolved instances. */\r\n instances: Map | null = null;\r\n\r\n constructor(\r\n /** Simple name. */\r\n name: string,\r\n /** Parent element, usually a file or namespace. */\r\n parent: Element,\r\n /** Declaration reference. */\r\n declaration: ClassDeclaration,\r\n /** Pre-checked flags indicating built-in decorators. */\r\n decoratorFlags: DecoratorFlags = DecoratorFlags.NONE,\r\n _isInterface: bool = false // FIXME\r\n ) {\r\n super(\r\n _isInterface ? ElementKind.INTERFACE_PROTOTYPE : ElementKind.CLASS_PROTOTYPE,\r\n name,\r\n mangleInternalName(name, parent, declaration.is(CommonFlags.INSTANCE)),\r\n parent.program,\r\n parent,\r\n declaration\r\n );\r\n this.decoratorFlags = decoratorFlags;\r\n }\r\n\r\n /** Gets the associated type parameter nodes. */\r\n get typeParameterNodes(): TypeParameterNode[] | null {\r\n return (this.declaration).typeParameters;\r\n }\r\n /** Gets the associated extends node. */\r\n get extendsNode(): TypeNode | null {\r\n return (this.declaration).extendsType;\r\n }\r\n /** Gets the associated implements nodes. */\r\n get implementsNodes(): TypeNode[] | null {\r\n return (this.declaration).implementsTypes;\r\n }\r\n\r\n /** Tests if this prototype extends the specified. */\r\n extends(basePtototype: ClassPrototype | null): bool {\r\n var current: ClassPrototype | null = this;\r\n do {\r\n if (current === basePtototype) return true;\r\n } while (current = current.basePrototype);\r\n return false;\r\n }\r\n\r\n /** Adds an element as an instance member of this one. Returns the previous element if a duplicate. */\r\n addInstance(name: string, element: DeclaredElement): bool {\r\n var originalDeclaration = element.declaration;\r\n var instanceMembers = this.instanceMembers;\r\n if (!instanceMembers) this.instanceMembers = instanceMembers = new Map();\r\n else if (instanceMembers.has(name)) {\r\n let merged = tryMerge(instanceMembers.get(name)!, element);\r\n if (!merged) {\r\n this.program.error(\r\n DiagnosticCode.Duplicate_identifier_0,\r\n element.identifierNode.range, element.identifierNode.text\r\n );\r\n return false;\r\n }\r\n element = merged;\r\n }\r\n instanceMembers.set(name, element);\r\n if (element.is(CommonFlags.EXPORT) && this.is(CommonFlags.MODULE_EXPORT)) {\r\n element.set(CommonFlags.MODULE_EXPORT); // propagate\r\n }\r\n this.program.elementsByDeclaration.set(originalDeclaration, element);\r\n return true;\r\n }\r\n\r\n /** Gets the resolved instance for the specified instance key, if already resolved. */\r\n getResolvedInstance(instanceKey: string): Class | null {\r\n var instances = this.instances;\r\n if (instances && instances.has(instanceKey)) return instances.get(instanceKey);\r\n return null;\r\n }\r\n\r\n /** Sets the resolved instance for the specified instance key. */\r\n setResolvedInstance(instanceKey: string, instance: Class): void {\r\n var instances = this.instances;\r\n if (!instances) this.instances = instances = new Map();\r\n else assert(!instances.has(instanceKey));\r\n instances.set(instanceKey, instance);\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return this.parent.lookup(name);\r\n }\r\n}\r\n\r\n/** A resolved class. */\r\nexport class Class extends TypedElement {\r\n\r\n /** Class prototype. */\r\n prototype: ClassPrototype;\r\n /** Resolved type arguments. */\r\n typeArguments: Type[] | null;\r\n /** Base class, if applicable. */\r\n base: Class | null;\r\n /** Contextual type arguments for fields and methods. */\r\n contextualTypeArguments: Map | null = null;\r\n /** Current member memory offset. */\r\n currentMemoryOffset: u32 = 0;\r\n /** Constructor instance. */\r\n constructorInstance: Function | null = null;\r\n /** Operator overloads. */\r\n overloads: Map | null = null;\r\n /** Function index of the GC hook. */\r\n gcHookIndex: u32 = -1;\r\n\r\n /** Constructs a new class. */\r\n constructor(\r\n /** Name incl. type parameters, i.e. `Foo`. */\r\n nameInclTypeParameters: string,\r\n /** The respective class prototype. */\r\n prototype: ClassPrototype,\r\n /** Concrete type arguments, if any. */\r\n typeArguments: Type[] | null = null,\r\n /** Base class, if derived. */\r\n base: Class | null = null,\r\n _isInterface: bool = false // FIXME\r\n ) {\r\n super(\r\n _isInterface ? ElementKind.INTERFACE : ElementKind.CLASS,\r\n nameInclTypeParameters,\r\n mangleInternalName(nameInclTypeParameters, prototype.parent, prototype.is(CommonFlags.INSTANCE)),\r\n prototype.program,\r\n prototype.parent,\r\n prototype.declaration\r\n );\r\n this.prototype = prototype;\r\n this.flags = prototype.flags;\r\n this.decoratorFlags = prototype.decoratorFlags;\r\n this.typeArguments = typeArguments;\r\n this.setType(this.program.options.usizeType.asClass(this));\r\n this.base = base;\r\n\r\n // inherit static members and contextual type arguments from base class\r\n if (base) {\r\n let inheritedTypeArguments = base.contextualTypeArguments;\r\n if (inheritedTypeArguments) {\r\n let contextualTypeArguments = this.contextualTypeArguments;\r\n for (let [baseName, baseType] of inheritedTypeArguments) {\r\n if (!contextualTypeArguments) this.contextualTypeArguments = contextualTypeArguments = new Map();\r\n contextualTypeArguments.set(baseName, baseType);\r\n }\r\n }\r\n }\r\n\r\n // apply pre-checked instance-specific contextual type arguments\r\n var typeParameters = prototype.typeParameterNodes;\r\n if (typeArguments) {\r\n let numTypeArguments = typeArguments.length;\r\n if (!typeParameters || numTypeArguments != typeParameters.length) {\r\n throw new Error(\"type argument count mismatch\");\r\n }\r\n if (numTypeArguments) {\r\n if (!this.contextualTypeArguments) this.contextualTypeArguments = new Map();\r\n for (let i = 0; i < numTypeArguments; ++i) {\r\n this.contextualTypeArguments.set(typeParameters[i].name.text, typeArguments[i]);\r\n }\r\n }\r\n } else if (typeParameters && typeParameters.length) {\r\n throw new Error(\"type argument count mismatch\");\r\n }\r\n registerConcreteElement(this.program, this);\r\n }\r\n\r\n /** Tests if a value of this class type is assignable to a target of the specified class type. */\r\n isAssignableTo(target: Class): bool {\r\n var current: Class | null = this;\r\n do if (current == target) return true;\r\n while (current = current.base);\r\n return false;\r\n }\r\n\r\n /** Looks up the operator overload of the specified kind. */\r\n lookupOverload(kind: OperatorKind, unchecked: bool = false): Function | null {\r\n if (unchecked) {\r\n switch (kind) {\r\n case OperatorKind.INDEXED_GET: {\r\n let uncheckedOverload = this.lookupOverload(OperatorKind.UNCHECKED_INDEXED_GET);\r\n if (uncheckedOverload) return uncheckedOverload;\r\n break;\r\n }\r\n case OperatorKind.INDEXED_SET: {\r\n let uncheckedOverload = this.lookupOverload(OperatorKind.UNCHECKED_INDEXED_SET);\r\n if (uncheckedOverload) return uncheckedOverload;\r\n break;\r\n }\r\n default: assert(false);\r\n }\r\n }\r\n var instance: Class | null = this;\r\n do {\r\n let overloads = instance.overloads;\r\n if (overloads) {\r\n let overload = overloads.get(kind);\r\n if (overload) return overload;\r\n }\r\n } while (instance = instance.base);\r\n return null;\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return this.parent.lookup(name);\r\n }\r\n\r\n /** Calculates the memory offset of the specified field. */\r\n offsetof(fieldName: string): u32 {\r\n var members = assert(this.members);\r\n assert(members.has(fieldName));\r\n var field = members.get(fieldName);\r\n assert(field.kind == ElementKind.FIELD);\r\n return (field).memoryOffset;\r\n }\r\n}\r\n\r\n/** A yet unresolved interface. */\r\nexport class InterfacePrototype extends ClassPrototype { // FIXME\r\n\r\n /** Constructs a new interface prototype. */\r\n constructor(\r\n name: string,\r\n parent: Element,\r\n declaration: InterfaceDeclaration,\r\n decoratorFlags: DecoratorFlags\r\n ) {\r\n super(\r\n name,\r\n parent,\r\n declaration,\r\n decoratorFlags,\r\n true\r\n );\r\n }\r\n}\r\n\r\n/** A resolved interface. */\r\nexport class Interface extends Class { // FIXME\r\n\r\n /** Constructs a new interface. */\r\n constructor(\r\n nameInclTypeParameters: string,\r\n prototype: InterfacePrototype,\r\n typeArguments: Type[] = [],\r\n base: Interface | null = null\r\n ) {\r\n super(\r\n nameInclTypeParameters,\r\n prototype,\r\n typeArguments,\r\n base,\r\n true\r\n );\r\n }\r\n}\r\n\r\n/** Registers a concrete element with a program. */\r\nfunction registerConcreteElement(program: Program, element: Element): void {\r\n assert(!program.instancesByName.has(element.internalName));\r\n program.instancesByName.set(element.internalName, element);\r\n}\r\n\r\n/** Attempts to merge two elements. Returns the merged element on success. */\r\nfunction tryMerge(older: Element, newer: Element): DeclaredElement | null {\r\n // NOTE: some of the following cases are not supported by TS, not sure why exactly.\r\n // suggesting to just merge what seems to be possible for now and revisit later.\r\n assert(older.program === newer.program);\r\n assert(!newer.members);\r\n var merged: DeclaredElement | null = null;\r\n switch (older.kind) {\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n switch (newer.kind) {\r\n case ElementKind.NAMESPACE: {\r\n copyMembers(newer, older);\r\n merged = older;\r\n break;\r\n }\r\n case ElementKind.TYPEDEFINITION: {\r\n if (!older.shadowType) {\r\n older.shadowType = newer;\r\n copyMembers(newer, older);\r\n merged = older;\r\n }\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n case ElementKind.CLASS_PROTOTYPE:\r\n case ElementKind.ENUM: {\r\n if (newer.kind == ElementKind.NAMESPACE) {\r\n copyMembers(newer, older);\r\n merged = older;\r\n break;\r\n }\r\n break;\r\n }\r\n case ElementKind.NAMESPACE: {\r\n switch (newer.kind) {\r\n case ElementKind.ENUM:\r\n case ElementKind.CLASS_PROTOTYPE: // TS2434\r\n case ElementKind.FUNCTION_PROTOTYPE: { // TS2434\r\n copyMembers(older, newer);\r\n merged = newer;\r\n break;\r\n }\r\n case ElementKind.NAMESPACE: {\r\n copyMembers(newer, older);\r\n merged = older;\r\n break;\r\n }\r\n case ElementKind.TYPEDEFINITION: {\r\n if (!older.shadowType) {\r\n older.shadowType = newer;\r\n copyMembers(newer, older);\r\n merged = older;\r\n }\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n case ElementKind.GLOBAL: {\r\n if (newer.kind == ElementKind.TYPEDEFINITION) {\r\n if (!older.shadowType) {\r\n older.shadowType = newer;\r\n copyMembers(newer, older);\r\n merged = older;\r\n }\r\n }\r\n break;\r\n }\r\n case ElementKind.TYPEDEFINITION: {\r\n switch (newer.kind) {\r\n case ElementKind.GLOBAL:\r\n case ElementKind.FUNCTION_PROTOTYPE:\r\n case ElementKind.NAMESPACE: {\r\n if (!newer.shadowType) {\r\n newer.shadowType = older;\r\n copyMembers(older, newer);\r\n merged = newer;\r\n }\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n }\r\n if (merged) {\r\n if (older.is(CommonFlags.EXPORT) != newer.is(CommonFlags.EXPORT)) {\r\n older.program.error(\r\n DiagnosticCode.Individual_declarations_in_merged_declaration_0_must_be_all_exported_or_all_local,\r\n merged.identifierNode.range, merged.identifierNode.text\r\n );\r\n }\r\n }\r\n return merged;\r\n}\r\n\r\n/** Copies the members of `src` to `dest`. */\r\nfunction copyMembers(src: Element, dest: Element): void {\r\n var srcMembers = src.members;\r\n if (srcMembers) {\r\n let destMembers = dest.members;\r\n if (!destMembers) dest.members = destMembers = new Map();\r\n for (let [memberName, member] of srcMembers) {\r\n destMembers.set(memberName, member);\r\n }\r\n }\r\n}\r\n\r\n/** Mangles the internal name of an element with the specified name that is a child of the given parent. */\r\nexport function mangleInternalName(name: string, parent: Element, isInstance: bool, asGlobal: bool = false): string {\r\n switch (parent.kind) {\r\n case ElementKind.FILE: {\r\n if (asGlobal) return name;\r\n return parent.internalName + PATH_DELIMITER + name;\r\n }\r\n case ElementKind.FUNCTION: {\r\n if (asGlobal) return name;\r\n assert(!isInstance);\r\n return parent.internalName + INNER_DELIMITER + name;\r\n }\r\n default: {\r\n return mangleInternalName(parent.name, parent.parent, parent.is(CommonFlags.INSTANCE), asGlobal)\r\n + (isInstance ? INSTANCE_DELIMITER : STATIC_DELIMITER) + name;\r\n }\r\n }\r\n}\r\n","/**\r\n * A thin wrapper around Binaryen's C-API.\r\n * @module module\r\n *//***/\r\n\r\nimport {\r\n Target\r\n} from \"./compiler\";\r\n\r\nexport type ModuleRef = usize;\r\nexport type FunctionTypeRef = usize;\r\nexport type FunctionRef = usize;\r\nexport type ExpressionRef = usize;\r\nexport type GlobalRef = usize;\r\nexport type ImportRef = usize;\r\nexport type ExportRef = usize;\r\nexport type RelooperRef = usize;\r\nexport type RelooperBlockRef = usize;\r\nexport type Index = u32;\r\n\r\nexport enum NativeType {\r\n None = _BinaryenTypeNone(),\r\n I32 = _BinaryenTypeInt32(),\r\n I64 = _BinaryenTypeInt64(),\r\n F32 = _BinaryenTypeFloat32(),\r\n F64 = _BinaryenTypeFloat64(),\r\n V128 = _BinaryenTypeVec128(),\r\n Unreachable = _BinaryenTypeUnreachable(),\r\n Auto = _BinaryenTypeAuto()\r\n}\r\n\r\nexport enum ExpressionId {\r\n Invalid = _BinaryenInvalidId(),\r\n Block = _BinaryenBlockId(),\r\n If = _BinaryenIfId(),\r\n Loop = _BinaryenLoopId(),\r\n Break = _BinaryenBreakId(),\r\n Switch = _BinaryenSwitchId(),\r\n Call = _BinaryenCallId(),\r\n CallIndirect = _BinaryenCallIndirectId(),\r\n GetLocal = _BinaryenGetLocalId(),\r\n SetLocal = _BinaryenSetLocalId(),\r\n GetGlobal = _BinaryenGetGlobalId(),\r\n SetGlobal = _BinaryenSetGlobalId(),\r\n Load = _BinaryenLoadId(),\r\n Store = _BinaryenStoreId(),\r\n Const = _BinaryenConstId(),\r\n Unary = _BinaryenUnaryId(),\r\n Binary = _BinaryenBinaryId(),\r\n Select = _BinaryenSelectId(),\r\n Drop = _BinaryenDropId(),\r\n Return = _BinaryenReturnId(),\r\n Host = _BinaryenHostId(),\r\n Nop = _BinaryenNopId(),\r\n Unreachable = _BinaryenUnreachableId(),\r\n AtomicCmpxchg = _BinaryenAtomicCmpxchgId(),\r\n AtomicRMW = _BinaryenAtomicRMWId(),\r\n AtomicWait = _BinaryenAtomicWaitId(),\r\n AtomicWake = _BinaryenAtomicWakeId(),\r\n SIMDExtract = _BinaryenSIMDExtractId(),\r\n SIMDReplace = _BinaryenSIMDReplaceId(),\r\n SIMDShuffle = _BinaryenSIMDShuffleId(),\r\n SIMDBitselect = _BinaryenSIMDBitselectId(),\r\n SIMDShift = _BinaryenSIMDShiftId(),\r\n MemoryInit = _BinaryenMemoryInitId(),\r\n DataDrop = _BinaryenDataDropId(),\r\n MemoryCopy = _BinaryenMemoryCopyId(),\r\n MemoryFill = _BinaryenMemoryFillId()\r\n}\r\n\r\nexport enum UnaryOp {\r\n ClzI32 = _BinaryenClzInt32(),\r\n CtzI32 = _BinaryenCtzInt32(),\r\n PopcntI32 = _BinaryenPopcntInt32(),\r\n NegF32 = _BinaryenNegFloat32(),\r\n AbsF32 = _BinaryenAbsFloat32(),\r\n CeilF32 = _BinaryenCeilFloat32(),\r\n FloorF32 = _BinaryenFloorFloat32(),\r\n TruncF32 = _BinaryenTruncFloat32(),\r\n NearestF32 = _BinaryenNearestFloat32(),\r\n SqrtF32 = _BinaryenSqrtFloat32(),\r\n EqzI32 = _BinaryenEqZInt32(),\r\n ClzI64 = _BinaryenClzInt64(),\r\n CtzI64 = _BinaryenCtzInt64(),\r\n PopcntI64 = _BinaryenPopcntInt64(),\r\n NegF64 = _BinaryenNegFloat64(),\r\n AbsF64 = _BinaryenAbsFloat64(),\r\n CeilF64 = _BinaryenCeilFloat64(),\r\n FloorF64 = _BinaryenFloorFloat64(),\r\n TruncF64 = _BinaryenTruncFloat64(),\r\n NearestF64 = _BinaryenNearestFloat64(),\r\n SqrtF64 = _BinaryenSqrtFloat64(),\r\n EqzI64 = _BinaryenEqZInt64(),\r\n ExtendI32 = _BinaryenExtendSInt32(),\r\n ExtendU32 = _BinaryenExtendUInt32(),\r\n WrapI64 = _BinaryenWrapInt64(),\r\n TruncF32ToI32 = _BinaryenTruncSFloat32ToInt32(),\r\n TruncF32ToI64 = _BinaryenTruncSFloat32ToInt64(),\r\n TruncF32ToU32 = _BinaryenTruncUFloat32ToInt32(),\r\n TruncF32ToU64 = _BinaryenTruncUFloat32ToInt64(),\r\n TruncF64ToI32 = _BinaryenTruncSFloat64ToInt32(),\r\n TruncF64ToI64 = _BinaryenTruncSFloat64ToInt64(),\r\n TruncF64ToU32 = _BinaryenTruncUFloat64ToInt32(),\r\n TruncF64ToU64 = _BinaryenTruncUFloat64ToInt64(),\r\n ReinterpretF32 = _BinaryenReinterpretFloat32(),\r\n ReinterpretF64 = _BinaryenReinterpretFloat64(),\r\n ConvertI32ToF32 = _BinaryenConvertSInt32ToFloat32(),\r\n ConvertI32ToF64 = _BinaryenConvertSInt32ToFloat64(),\r\n ConvertU32ToF32 = _BinaryenConvertUInt32ToFloat32(),\r\n ConvertU32ToF64 = _BinaryenConvertUInt32ToFloat64(),\r\n ConvertI64ToF32 = _BinaryenConvertSInt64ToFloat32(),\r\n ConvertI64ToF64 = _BinaryenConvertSInt64ToFloat64(),\r\n ConvertU64ToF32 = _BinaryenConvertUInt64ToFloat32(),\r\n ConvertU64ToF64 = _BinaryenConvertUInt64ToFloat64(),\r\n PromoteF32 = _BinaryenPromoteFloat32(),\r\n DemoteF64 = _BinaryenDemoteFloat64(),\r\n ReinterpretI32 = _BinaryenReinterpretInt32(),\r\n ReinterpretI64 = _BinaryenReinterpretInt64(),\r\n\r\n // see: https://github.com/WebAssembly/sign-extension-ops\r\n ExtendI8ToI32 = _BinaryenExtendS8Int32(),\r\n ExtendI16ToI32 = _BinaryenExtendS16Int32(),\r\n ExtendI8ToI64 = _BinaryenExtendS8Int64(),\r\n ExtendI16ToI64 = _BinaryenExtendS16Int64(),\r\n ExtendI32ToI64 = _BinaryenExtendS32Int64(),\r\n\r\n // see: https://github.com/WebAssembly/nontrapping-float-to-int-conversions\r\n // TruncF32ToI32Sat\r\n // TruncF32ToU32Sat\r\n // TruncF64ToI32Sat\r\n // TruncF64ToU32Sat\r\n // TruncF32ToI64Sat\r\n // TruncF32ToU64Sat\r\n // TruncF64ToI64Sat\r\n // TruncF64ToU64Sat\r\n\r\n // see: https://github.com/WebAssembly/simd\r\n SplatVecI8x16 = _BinaryenSplatVecI8x16(),\r\n SplatVecI16x8 = _BinaryenSplatVecI16x8(),\r\n SplatVecI32x4 = _BinaryenSplatVecI32x4(),\r\n SplatVecI64x2 = _BinaryenSplatVecI64x2(),\r\n SplatVecF32x4 = _BinaryenSplatVecF32x4(),\r\n SplatVecF64x2 = _BinaryenSplatVecF64x2(),\r\n NotVec128 = _BinaryenNotVec128(),\r\n NegVecI8x16 = _BinaryenNegVecI8x16(),\r\n AnyTrueVecI8x16 = _BinaryenAnyTrueVecI8x16(),\r\n AllTrueVecI8x16 = _BinaryenAllTrueVecI8x16(),\r\n NegVecI16x8 = _BinaryenNegVecI16x8(),\r\n AnyTrueVecI16x8 = _BinaryenAnyTrueVecI16x8(),\r\n AllTrueVecI16x8 = _BinaryenAllTrueVecI16x8(),\r\n NegVecI32x4 = _BinaryenNegVecI32x4(),\r\n AnyTrueVecI32x4 = _BinaryenAnyTrueVecI32x4(),\r\n AllTrueVecI32x4 = _BinaryenAllTrueVecI32x4(),\r\n NegVecI64x2 = _BinaryenNegVecI64x2(),\r\n AnyTrueVecI64x2 = _BinaryenAnyTrueVecI64x2(),\r\n AllTrueVecI64x2 = _BinaryenAllTrueVecI64x2(),\r\n AbsVecF32x4 = _BinaryenAbsVecF32x4(),\r\n NegVecF32x4 = _BinaryenNegVecF32x4(),\r\n SqrtVecF32x4 = _BinaryenSqrtVecF32x4(),\r\n AbsVecF64x2 = _BinaryenAbsVecF64x2(),\r\n NegVecF64x2 = _BinaryenNegVecF64x2(),\r\n SqrtVecF64x2 = _BinaryenSqrtVecF64x2(),\r\n TruncSatSVecF32x4ToVecI32x4 = _BinaryenTruncSatSVecF32x4ToVecI32x4(),\r\n TruncSatUVecF32x4ToVecI32x4 = _BinaryenTruncSatUVecF32x4ToVecI32x4(),\r\n TruncSatSVecF64x2ToVecI64x2 = _BinaryenTruncSatSVecF64x2ToVecI64x2(),\r\n TruncSatUVecF64x2ToVecI64x2 = _BinaryenTruncSatUVecF64x2ToVecI64x2(),\r\n ConvertSVecI32x4ToVecF32x4 = _BinaryenConvertSVecI32x4ToVecF32x4(),\r\n ConvertUVecI32x4ToVecF32x4 = _BinaryenConvertUVecI32x4ToVecF32x4(),\r\n ConvertSVecI64x2ToVecF64x2 = _BinaryenConvertSVecI64x2ToVecF64x2(),\r\n ConvertUVecI64x2ToVecF64x2 = _BinaryenConvertUVecI64x2ToVecF64x2()\r\n}\r\n\r\nexport enum BinaryOp {\r\n AddI32 = _BinaryenAddInt32(),\r\n SubI32 = _BinaryenSubInt32(),\r\n MulI32 = _BinaryenMulInt32(),\r\n DivI32 = _BinaryenDivSInt32(),\r\n DivU32 = _BinaryenDivUInt32(),\r\n RemI32 = _BinaryenRemSInt32(),\r\n RemU32 = _BinaryenRemUInt32(),\r\n AndI32 = _BinaryenAndInt32(),\r\n OrI32 = _BinaryenOrInt32(),\r\n XorI32 = _BinaryenXorInt32(),\r\n ShlI32 = _BinaryenShlInt32(),\r\n ShrU32 = _BinaryenShrUInt32(),\r\n ShrI32 = _BinaryenShrSInt32(),\r\n RotlI32 = _BinaryenRotLInt32(),\r\n RotrI32 = _BinaryenRotRInt32(),\r\n EqI32 = _BinaryenEqInt32(),\r\n NeI32 = _BinaryenNeInt32(),\r\n LtI32 = _BinaryenLtSInt32(),\r\n LtU32 = _BinaryenLtUInt32(),\r\n LeI32 = _BinaryenLeSInt32(),\r\n LeU32 = _BinaryenLeUInt32(),\r\n GtI32 = _BinaryenGtSInt32(),\r\n GtU32 = _BinaryenGtUInt32(),\r\n GeI32 = _BinaryenGeSInt32(),\r\n GeU32 = _BinaryenGeUInt32(),\r\n AddI64 = _BinaryenAddInt64(),\r\n SubI64 = _BinaryenSubInt64(),\r\n MulI64 = _BinaryenMulInt64(),\r\n DivI64 = _BinaryenDivSInt64(),\r\n DivU64 = _BinaryenDivUInt64(),\r\n RemI64 = _BinaryenRemSInt64(),\r\n RemU64 = _BinaryenRemUInt64(),\r\n AndI64 = _BinaryenAndInt64(),\r\n OrI64 = _BinaryenOrInt64(),\r\n XorI64 = _BinaryenXorInt64(),\r\n ShlI64 = _BinaryenShlInt64(),\r\n ShrU64 = _BinaryenShrUInt64(),\r\n ShrI64 = _BinaryenShrSInt64(),\r\n RotlI64 = _BinaryenRotLInt64(),\r\n RotrI64 = _BinaryenRotRInt64(),\r\n EqI64 = _BinaryenEqInt64(),\r\n NeI64 = _BinaryenNeInt64(),\r\n LtI64 = _BinaryenLtSInt64(),\r\n LtU64 = _BinaryenLtUInt64(),\r\n LeI64 = _BinaryenLeSInt64(),\r\n LeU64 = _BinaryenLeUInt64(),\r\n GtI64 = _BinaryenGtSInt64(),\r\n GtU64 = _BinaryenGtUInt64(),\r\n GeI64 = _BinaryenGeSInt64(),\r\n GeU64 = _BinaryenGeUInt64(),\r\n AddF32 = _BinaryenAddFloat32(),\r\n SubF32 = _BinaryenSubFloat32(),\r\n MulF32 = _BinaryenMulFloat32(),\r\n DivF32 = _BinaryenDivFloat32(),\r\n CopysignF32 = _BinaryenCopySignFloat32(),\r\n MinF32 = _BinaryenMinFloat32(),\r\n MaxF32 = _BinaryenMaxFloat32(),\r\n EqF32 = _BinaryenEqFloat32(),\r\n NeF32 = _BinaryenNeFloat32(),\r\n LtF32 = _BinaryenLtFloat32(),\r\n LeF32 = _BinaryenLeFloat32(),\r\n GtF32 = _BinaryenGtFloat32(),\r\n GeF32 = _BinaryenGeFloat32(),\r\n AddF64 = _BinaryenAddFloat64(),\r\n SubF64 = _BinaryenSubFloat64(),\r\n MulF64 = _BinaryenMulFloat64(),\r\n DivF64 = _BinaryenDivFloat64(),\r\n CopysignF64 = _BinaryenCopySignFloat64(),\r\n MinF64 = _BinaryenMinFloat64(),\r\n MaxF64 = _BinaryenMaxFloat64(),\r\n EqF64 = _BinaryenEqFloat64(),\r\n NeF64 = _BinaryenNeFloat64(),\r\n LtF64 = _BinaryenLtFloat64(),\r\n LeF64 = _BinaryenLeFloat64(),\r\n GtF64 = _BinaryenGtFloat64(),\r\n GeF64 = _BinaryenGeFloat64(),\r\n\r\n // see: https://github.com/WebAssembly/simd\r\n EqVecI8x16 = _BinaryenEqVecI8x16(),\r\n NeVecI8x16 = _BinaryenNeVecI8x16(),\r\n LtSVecI8x16 = _BinaryenLtSVecI8x16(),\r\n LtUVecI8x16 = _BinaryenLtUVecI8x16(),\r\n LeSVecI8x16 = _BinaryenLeSVecI8x16(),\r\n LeUVecI8x16 = _BinaryenLeUVecI8x16(),\r\n GtSVecI8x16 = _BinaryenGtSVecI8x16(),\r\n GtUVecI8x16 = _BinaryenGtUVecI8x16(),\r\n GeSVecI8x16 = _BinaryenGeSVecI8x16(),\r\n GeUVecI8x16 = _BinaryenGeUVecI8x16(),\r\n EqVecI16x8 = _BinaryenEqVecI16x8(),\r\n NeVecI16x8 = _BinaryenNeVecI16x8(),\r\n LtSVecI16x8 = _BinaryenLtSVecI16x8(),\r\n LtUVecI16x8 = _BinaryenLtUVecI16x8(),\r\n LeSVecI16x8 = _BinaryenLeSVecI16x8(),\r\n LeUVecI16x8 = _BinaryenLeUVecI16x8(),\r\n GtSVecI16x8 = _BinaryenGtSVecI16x8(),\r\n GtUVecI16x8 = _BinaryenGtUVecI16x8(),\r\n GeSVecI16x8 = _BinaryenGeSVecI16x8(),\r\n GeUVecI16x8 = _BinaryenGeUVecI16x8(),\r\n EqVecI32x4 = _BinaryenEqVecI32x4(),\r\n NeVecI32x4 = _BinaryenNeVecI32x4(),\r\n LtSVecI32x4 = _BinaryenLtSVecI32x4(),\r\n LtUVecI32x4 = _BinaryenLtUVecI32x4(),\r\n LeSVecI32x4 = _BinaryenLeSVecI32x4(),\r\n LeUVecI32x4 = _BinaryenLeUVecI32x4(),\r\n GtSVecI32x4 = _BinaryenGtSVecI32x4(),\r\n GtUVecI32x4 = _BinaryenGtUVecI32x4(),\r\n GeSVecI32x4 = _BinaryenGeSVecI32x4(),\r\n GeUVecI32x4 = _BinaryenGeUVecI32x4(),\r\n EqVecF32x4 = _BinaryenEqVecF32x4(),\r\n NeVecF32x4 = _BinaryenNeVecF32x4(),\r\n LtVecF32x4 = _BinaryenLtVecF32x4(),\r\n LeVecF32x4 = _BinaryenLeVecF32x4(),\r\n GtVecF32x4 = _BinaryenGtVecF32x4(),\r\n GeVecF32x4 = _BinaryenGeVecF32x4(),\r\n EqVecF64x2 = _BinaryenEqVecF64x2(),\r\n NeVecF64x2 = _BinaryenNeVecF64x2(),\r\n LtVecF64x2 = _BinaryenLtVecF64x2(),\r\n LeVecF64x2 = _BinaryenLeVecF64x2(),\r\n GtVecF64x2 = _BinaryenGtVecF64x2(),\r\n GeVecF64x2 = _BinaryenGeVecF64x2(),\r\n AndVec128 = _BinaryenAndVec128(),\r\n OrVec128 = _BinaryenOrVec128(),\r\n XorVec128 = _BinaryenXorVec128(),\r\n AddVecI8x16 = _BinaryenAddVecI8x16(),\r\n AddSatSVecI8x16 = _BinaryenAddSatSVecI8x16(),\r\n AddSatUVecI8x16 = _BinaryenAddSatUVecI8x16(),\r\n SubVecI8x16 = _BinaryenSubVecI8x16(),\r\n SubSatSVecI8x16 = _BinaryenSubSatSVecI8x16(),\r\n SubSatUVecI8x16 = _BinaryenSubSatUVecI8x16(),\r\n MulVecI8x16 = _BinaryenMulVecI8x16(),\r\n AddVecI16x8 = _BinaryenAddVecI16x8(),\r\n AddSatSVecI16x8 = _BinaryenAddSatSVecI16x8(),\r\n AddSatUVecI16x8 = _BinaryenAddSatUVecI16x8(),\r\n SubVecI16x8 = _BinaryenSubVecI16x8(),\r\n SubSatSVecI16x8 = _BinaryenSubSatSVecI16x8(),\r\n SubSatUVecI16x8 = _BinaryenSubSatUVecI16x8(),\r\n MulVecI16x8 = _BinaryenMulVecI16x8(),\r\n AddVecI32x4 = _BinaryenAddVecI32x4(),\r\n SubVecI32x4 = _BinaryenSubVecI32x4(),\r\n MulVecI32x4 = _BinaryenMulVecI32x4(),\r\n AddVecI64x2 = _BinaryenAddVecI64x2(),\r\n SubVecI64x2 = _BinaryenSubVecI64x2(),\r\n AddVecF32x4 = _BinaryenAddVecF32x4(),\r\n SubVecF32x4 = _BinaryenSubVecF32x4(),\r\n MulVecF32x4 = _BinaryenMulVecF32x4(),\r\n DivVecF32x4 = _BinaryenDivVecF32x4(),\r\n MinVecF32x4 = _BinaryenMinVecF32x4(),\r\n MaxVecF32x4 = _BinaryenMaxVecF32x4(),\r\n AddVecF64x2 = _BinaryenAddVecF64x2(),\r\n SubVecF64x2 = _BinaryenSubVecF64x2(),\r\n MulVecF64x2 = _BinaryenMulVecF64x2(),\r\n DivVecF64x2 = _BinaryenDivVecF64x2(),\r\n MinVecF64x2 = _BinaryenMinVecF64x2(),\r\n MaxVecF64x2 = _BinaryenMaxVecF64x2()\r\n}\r\n\r\nexport enum HostOp {\r\n CurrentMemory = _BinaryenCurrentMemory(),\r\n GrowMemory = _BinaryenGrowMemory(),\r\n\r\n // see: https://github.com/WebAssembly/bulk-memory-operations\r\n // MoveMemory\r\n // SetMemory\r\n}\r\n\r\nexport enum AtomicRMWOp {\r\n Add = _BinaryenAtomicRMWAdd(),\r\n Sub = _BinaryenAtomicRMWSub(),\r\n And = _BinaryenAtomicRMWAnd(),\r\n Or = _BinaryenAtomicRMWOr(),\r\n Xor = _BinaryenAtomicRMWXor(),\r\n Xchg = _BinaryenAtomicRMWXchg()\r\n}\r\n\r\nexport enum SIMDExtractOp {\r\n ExtractLaneSVecI8x16 = _BinaryenExtractLaneSVecI8x16(),\r\n ExtractLaneUVecI8x16 = _BinaryenExtractLaneUVecI8x16(),\r\n ExtractLaneSVecI16x8 = _BinaryenExtractLaneSVecI16x8(),\r\n ExtractLaneUVecI16x8 = _BinaryenExtractLaneUVecI16x8(),\r\n ExtractLaneVecI32x4 = _BinaryenExtractLaneVecI32x4(),\r\n ExtractLaneVecI64x2 = _BinaryenExtractLaneVecI64x2(),\r\n ExtractLaneVecF32x4 = _BinaryenExtractLaneVecF32x4(),\r\n ExtractLaneVecF64x2 = _BinaryenExtractLaneVecF64x2(),\r\n}\r\n\r\nexport enum SIMDReplaceOp {\r\n ReplaceLaneVecI8x16 = _BinaryenReplaceLaneVecI8x16(),\r\n ReplaceLaneVecI16x8 = _BinaryenReplaceLaneVecI16x8(),\r\n ReplaceLaneVecI32x4 = _BinaryenReplaceLaneVecI32x4(),\r\n ReplaceLaneVecI64x2 = _BinaryenReplaceLaneVecI64x2(),\r\n ReplaceLaneVecF32x4 = _BinaryenReplaceLaneVecF32x4(),\r\n ReplaceLaneVecF64x2 = _BinaryenReplaceLaneVecF64x2()\r\n}\r\n\r\nexport enum SIMDShiftOp { // FIXME: seems to be missing in binaryen-c.h\r\n ShlVecI8x16,\r\n ShrSVecI8x16,\r\n ShrUVecI8x16,\r\n ShlVecI16x8,\r\n ShrSVecI16x8,\r\n ShrUVecI16x8,\r\n ShlVecI32x4,\r\n ShrSVecI32x4,\r\n ShrUVecI32x4,\r\n ShlVecI64x2,\r\n ShrSVecI64x2,\r\n ShrUVecI64x2\r\n}\r\n\r\nexport class MemorySegment {\r\n\r\n buffer: Uint8Array;\r\n offset: I64;\r\n\r\n static create(buffer: Uint8Array, offset: I64): MemorySegment {\r\n var segment = new MemorySegment();\r\n segment.buffer = buffer;\r\n segment.offset = offset;\r\n return segment;\r\n }\r\n}\r\n\r\nexport class Module {\r\n\r\n ref: ModuleRef;\r\n\r\n private lit: usize;\r\n\r\n static create(): Module {\r\n var module = new Module();\r\n module.ref = _BinaryenModuleCreate();\r\n module.lit = memory.allocate(_BinaryenSizeofLiteral());\r\n return module;\r\n }\r\n\r\n static createFrom(buffer: Uint8Array): Module {\r\n var cArr = allocU8Array(buffer);\r\n try {\r\n let module = new Module();\r\n module.ref = _BinaryenModuleRead(cArr, buffer.length);\r\n module.lit = memory.allocate(_BinaryenSizeofLiteral());\r\n return module;\r\n } finally {\r\n memory.free(changetype(cArr));\r\n }\r\n }\r\n\r\n private constructor() { }\r\n\r\n // types\r\n\r\n addFunctionType(\r\n name: string,\r\n result: NativeType,\r\n paramTypes: NativeType[] | null\r\n ): FunctionRef {\r\n var cStr = this.allocStringCached(name);\r\n var cArr = allocI32Array(paramTypes);\r\n try {\r\n return _BinaryenAddFunctionType(this.ref, cStr, result, cArr, paramTypes ? paramTypes.length : 0);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n getFunctionTypeBySignature(\r\n result: NativeType,\r\n paramTypes: NativeType[] | null\r\n ): FunctionTypeRef {\r\n var cArr = allocI32Array(paramTypes);\r\n try {\r\n return _BinaryenGetFunctionTypeBySignature(this.ref, result, cArr, paramTypes ? paramTypes.length : 0);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n removeFunctionType(name: string): void {\r\n var cStr = this.allocStringCached(name);\r\n _BinaryenRemoveFunctionType(this.ref, cStr);\r\n }\r\n\r\n // constants\r\n\r\n createI32(value: i32): ExpressionRef {\r\n var out = this.lit;\r\n _BinaryenLiteralInt32(out, value);\r\n return _BinaryenConst(this.ref, out);\r\n }\r\n\r\n createI64(valueLow: i32, valueHigh: i32 = 0): ExpressionRef {\r\n var out = this.lit;\r\n _BinaryenLiteralInt64(out, valueLow, valueHigh);\r\n return _BinaryenConst(this.ref, out);\r\n }\r\n\r\n createF32(value: f32): ExpressionRef {\r\n var out = this.lit;\r\n _BinaryenLiteralFloat32(out, value);\r\n return _BinaryenConst(this.ref, out);\r\n }\r\n\r\n createF64(value: f64): ExpressionRef {\r\n var out = this.lit;\r\n _BinaryenLiteralFloat64(out, value);\r\n return _BinaryenConst(this.ref, out);\r\n }\r\n\r\n createV128(bytes: Uint8Array): ExpressionRef {\r\n assert(bytes.length == 16);\r\n var out = this.lit;\r\n // FIXME: does this work or do we need to malloc?\r\n for (let i = 0; i < 16; ++i) store(out + i, bytes[i]);\r\n _BinaryenLiteralVec128(out, out);\r\n return _BinaryenConst(this.ref, out);\r\n }\r\n\r\n // expressions\r\n\r\n createUnary(\r\n op: UnaryOp,\r\n expr: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenUnary(this.ref, op, expr);\r\n }\r\n\r\n createBinary(\r\n op: BinaryOp,\r\n left: ExpressionRef,\r\n right: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenBinary(this.ref, op, left, right);\r\n }\r\n\r\n createHost(\r\n op: HostOp,\r\n name: string | null = null,\r\n operands: ExpressionRef[] | null = null\r\n ): ExpressionRef {\r\n var cStr = this.allocStringCached(name);\r\n var cArr = allocPtrArray(operands);\r\n try {\r\n return _BinaryenHost(this.ref, op, cStr, cArr, operands ? (operands).length : 0);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n createGetLocal(\r\n index: i32,\r\n type: NativeType\r\n ): ExpressionRef {\r\n return _BinaryenGetLocal(this.ref, index, type);\r\n }\r\n\r\n createTeeLocal(\r\n index: i32,\r\n value: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenTeeLocal(this.ref, index, value);\r\n }\r\n\r\n createGetGlobal(\r\n name: string,\r\n type: NativeType\r\n ): ExpressionRef {\r\n var cStr = this.allocStringCached(name);\r\n return _BinaryenGetGlobal(this.ref, cStr, type);\r\n }\r\n\r\n createLoad(\r\n bytes: Index,\r\n signed: bool,\r\n ptr: ExpressionRef,\r\n type: NativeType,\r\n offset: Index = 0,\r\n align: Index = bytes // naturally aligned by default\r\n ): ExpressionRef {\r\n return _BinaryenLoad(this.ref, bytes, signed ? 1 : 0, offset, align, type, ptr);\r\n }\r\n\r\n createStore(\r\n bytes: Index,\r\n ptr: ExpressionRef,\r\n value: ExpressionRef,\r\n type: NativeType,\r\n offset: Index = 0,\r\n align: Index = bytes // naturally aligned by default\r\n ): ExpressionRef {\r\n return _BinaryenStore(this.ref, bytes, offset, align, ptr, value, type);\r\n }\r\n\r\n createAtomicLoad(\r\n bytes: Index,\r\n ptr: ExpressionRef,\r\n type: NativeType,\r\n offset: Index = 0\r\n ): ExpressionRef {\r\n return _BinaryenAtomicLoad(this.ref, bytes, offset, type, ptr);\r\n }\r\n\r\n createAtomicStore(\r\n bytes: Index,\r\n ptr: ExpressionRef,\r\n value: ExpressionRef,\r\n type: NativeType,\r\n offset: Index = 0\r\n ): ExpressionRef {\r\n return _BinaryenAtomicStore(this.ref, bytes, offset, ptr, value, type);\r\n }\r\n\r\n createAtomicRMW(\r\n op: AtomicRMWOp,\r\n bytes: Index,\r\n offset: Index,\r\n ptr: ExpressionRef,\r\n value: ExpressionRef,\r\n type: NativeType\r\n ): ExpressionRef {\r\n return _BinaryenAtomicRMW(this.ref, op, bytes, offset, ptr, value, type);\r\n }\r\n\r\n createAtomicCmpxchg(\r\n bytes: Index,\r\n offset: Index,\r\n ptr: ExpressionRef,\r\n expected: ExpressionRef,\r\n replacement: ExpressionRef,\r\n type: NativeType\r\n ): ExpressionRef {\r\n return _BinaryenAtomicCmpxchg(this.ref, bytes, offset, ptr, expected, replacement, type);\r\n }\r\n\r\n createAtomicWait(\r\n ptr: ExpressionRef,\r\n expected: ExpressionRef,\r\n timeout: ExpressionRef,\r\n expectedType: NativeType\r\n ): ExpressionRef {\r\n return _BinaryenAtomicWait(this.ref, ptr, expected, timeout, expectedType);\r\n }\r\n\r\n createAtomicWake(\r\n ptr: ExpressionRef,\r\n wakeCount: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenAtomicWake(this.ref, ptr, wakeCount);\r\n }\r\n\r\n // statements\r\n\r\n createSetLocal(\r\n index: Index,\r\n value: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenSetLocal(this.ref, index, value);\r\n }\r\n\r\n createSetGlobal(\r\n name: string,\r\n value: ExpressionRef\r\n ): ExpressionRef {\r\n var cStr = this.allocStringCached(name);\r\n return _BinaryenSetGlobal(this.ref, cStr, value);\r\n }\r\n\r\n createBlock(\r\n label: string | null,\r\n children: ExpressionRef[],\r\n type: NativeType = NativeType.None\r\n ): ExpressionRef {\r\n var cStr = this.allocStringCached(label);\r\n var cArr = allocPtrArray(children);\r\n try {\r\n return _BinaryenBlock(this.ref, cStr, cArr, children.length, type);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n createBreak(\r\n label: string | null,\r\n condition: ExpressionRef = 0,\r\n value: ExpressionRef = 0\r\n ): ExpressionRef {\r\n var cStr = this.allocStringCached(label);\r\n return _BinaryenBreak(this.ref, cStr, condition, value);\r\n }\r\n\r\n createDrop(\r\n expression: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenDrop(this.ref, expression);\r\n }\r\n\r\n createLoop(\r\n label: string | null,\r\n body: ExpressionRef\r\n ): ExpressionRef {\r\n var cStr = this.allocStringCached(label);\r\n return _BinaryenLoop(this.ref, cStr, body);\r\n }\r\n\r\n createIf(\r\n condition: ExpressionRef,\r\n ifTrue: ExpressionRef,\r\n ifFalse: ExpressionRef = 0\r\n ): ExpressionRef {\r\n return _BinaryenIf(this.ref, condition, ifTrue, ifFalse);\r\n }\r\n\r\n createNop(): ExpressionRef {\r\n return _BinaryenNop(this.ref);\r\n }\r\n\r\n createReturn(\r\n expression: ExpressionRef = 0\r\n ): ExpressionRef {\r\n return _BinaryenReturn(this.ref, expression);\r\n }\r\n\r\n createSelect(\r\n ifTrue: ExpressionRef,\r\n ifFalse: ExpressionRef,\r\n condition: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenSelect(this.ref, condition, ifTrue, ifFalse);\r\n }\r\n\r\n createSwitch(\r\n names: string[],\r\n defaultName: string | null,\r\n condition: ExpressionRef,\r\n value: ExpressionRef = 0\r\n ): ExpressionRef {\r\n var numNames = names.length;\r\n var strs = new Array(numNames);\r\n for (let i = 0; i < numNames; ++i) {\r\n strs[i] = this.allocStringCached(names[i]);\r\n }\r\n var cArr = allocI32Array(strs);\r\n var cStr = this.allocStringCached(defaultName);\r\n try {\r\n return _BinaryenSwitch(this.ref, cArr, numNames, cStr, condition, value);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n createCall(\r\n target: string,\r\n operands: ExpressionRef[] | null,\r\n returnType: NativeType\r\n ): ExpressionRef {\r\n var cStr = this.allocStringCached(target);\r\n var cArr = allocPtrArray(operands);\r\n try {\r\n return _BinaryenCall(this.ref, cStr, cArr, operands && operands.length || 0, returnType);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n createCallIndirect(\r\n index: ExpressionRef,\r\n operands: ExpressionRef[] | null,\r\n typeName: string\r\n ): ExpressionRef {\r\n var cStr = this.allocStringCached(typeName);\r\n var cArr = allocPtrArray(operands);\r\n try {\r\n return _BinaryenCallIndirect(this.ref, index, cArr, operands && operands.length || 0, cStr);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n createUnreachable(): ExpressionRef {\r\n return _BinaryenUnreachable(this.ref);\r\n }\r\n\r\n // bulk memory\r\n\r\n createMemoryCopy(\r\n dest: ExpressionRef,\r\n source: ExpressionRef,\r\n size: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenMemoryCopy(this.ref, dest, source, size);\r\n }\r\n\r\n createMemoryFill(\r\n dest: ExpressionRef,\r\n value: ExpressionRef,\r\n size: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenMemoryFill(this.ref, dest, value, size);\r\n }\r\n\r\n // simd\r\n\r\n createSIMDExtract(\r\n op: SIMDExtractOp,\r\n vec: ExpressionRef,\r\n idx: u8\r\n ): ExpressionRef {\r\n return _BinaryenSIMDExtract(this.ref, op, vec, idx);\r\n }\r\n\r\n createSIMDReplace(\r\n op: SIMDReplaceOp,\r\n vec: ExpressionRef,\r\n idx: u8,\r\n value: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenSIMDReplace(this.ref, op, vec, idx, value);\r\n }\r\n\r\n createSIMDShuffle(\r\n vec1: ExpressionRef,\r\n vec2: ExpressionRef,\r\n mask: Uint8Array\r\n ): ExpressionRef {\r\n assert(mask.length == 16);\r\n var cArr = allocU8Array(mask);\r\n try {\r\n return _BinaryenSIMDShuffle(this.ref, vec1, vec2, cArr);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n createSIMDBitselect(\r\n vec1: ExpressionRef,\r\n vec2: ExpressionRef,\r\n cond: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenSIMDBitselect(this.ref, vec1, vec2, cond);\r\n }\r\n\r\n createSIMDShift(\r\n op: SIMDShiftOp,\r\n vec: ExpressionRef,\r\n shift: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenSIMDShift(this.ref, op, vec, shift);\r\n }\r\n\r\n // meta\r\n\r\n addGlobal(\r\n name: string,\r\n type: NativeType,\r\n mutable: bool,\r\n initializer: ExpressionRef\r\n ): GlobalRef {\r\n var cStr = this.allocStringCached(name);\r\n return _BinaryenAddGlobal(this.ref, cStr, type, mutable ? 1 : 0, initializer);\r\n }\r\n\r\n removeGlobal(\r\n name: string\r\n ): void {\r\n var cStr = this.allocStringCached(name);\r\n _BinaryenRemoveGlobal(this.ref, cStr);\r\n }\r\n\r\n addFunction(\r\n name: string,\r\n type: FunctionTypeRef,\r\n varTypes: NativeType[] | null,\r\n body: ExpressionRef\r\n ): FunctionRef {\r\n var cStr = this.allocStringCached(name);\r\n var cArr = allocI32Array(varTypes);\r\n try {\r\n return _BinaryenAddFunction(this.ref, cStr, type, cArr, varTypes ? varTypes.length : 0, body);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n removeFunction(name: string): void {\r\n var cStr = this.allocStringCached(name);\r\n _BinaryenRemoveFunction(this.ref, cStr);\r\n }\r\n\r\n private hasTemporaryFunction: bool = false;\r\n\r\n addTemporaryFunction(result: NativeType, paramTypes: NativeType[] | null, body: ExpressionRef): FunctionRef {\r\n this.hasTemporaryFunction = assert(!this.hasTemporaryFunction);\r\n var tempName = this.allocStringCached(\"\");\r\n var cArr = allocI32Array(paramTypes);\r\n try {\r\n let typeRef = _BinaryenAddFunctionType(this.ref, tempName, result, cArr, paramTypes ? paramTypes.length : 0);\r\n return _BinaryenAddFunction(this.ref, tempName, typeRef, 0, 0, body);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n removeTemporaryFunction(): void {\r\n this.hasTemporaryFunction = !assert(this.hasTemporaryFunction);\r\n var tempName = this.allocStringCached(\"\");\r\n _BinaryenRemoveFunction(this.ref, tempName);\r\n _BinaryenRemoveFunctionType(this.ref, tempName);\r\n }\r\n\r\n addFunctionExport(\r\n internalName: string,\r\n externalName: string\r\n ): ExportRef {\r\n var cStr1 = this.allocStringCached(internalName);\r\n var cStr2 = this.allocStringCached(externalName);\r\n return _BinaryenAddFunctionExport(this.ref, cStr1, cStr2);\r\n }\r\n\r\n addTableExport(\r\n internalName: string,\r\n externalName: string\r\n ): ExportRef {\r\n var cStr1 = this.allocStringCached(internalName);\r\n var cStr2 = this.allocStringCached(externalName);\r\n return _BinaryenAddTableExport(this.ref, cStr1, cStr2);\r\n }\r\n\r\n addMemoryExport(\r\n internalName: string,\r\n externalName: string\r\n ): ExportRef {\r\n var cStr1 = this.allocStringCached(internalName);\r\n var cStr2 = this.allocStringCached(externalName);\r\n return _BinaryenAddMemoryExport(this.ref, cStr1, cStr2);\r\n }\r\n\r\n addGlobalExport(\r\n internalName: string,\r\n externalName: string\r\n ): ExportRef {\r\n var cStr1 = this.allocStringCached(internalName);\r\n var cStr2 = this.allocStringCached(externalName);\r\n return _BinaryenAddGlobalExport(this.ref, cStr1, cStr2);\r\n }\r\n\r\n removeExport(externalName: string): void {\r\n var cStr = this.allocStringCached(externalName);\r\n _BinaryenRemoveExport(this.ref, cStr);\r\n }\r\n\r\n addFunctionImport(\r\n internalName: string,\r\n externalModuleName: string,\r\n externalBaseName: string,\r\n functionType: FunctionTypeRef\r\n ): ImportRef {\r\n var cStr1 = this.allocStringCached(internalName);\r\n var cStr2 = this.allocStringCached(externalModuleName);\r\n var cStr3 = this.allocStringCached(externalBaseName);\r\n return _BinaryenAddFunctionImport(this.ref, cStr1, cStr2, cStr3, functionType);\r\n }\r\n\r\n addTableImport(\r\n internalName: string,\r\n externalModuleName: string,\r\n externalBaseName: string\r\n ): ImportRef {\r\n var cStr1 = this.allocStringCached(internalName);\r\n var cStr2 = this.allocStringCached(externalModuleName);\r\n var cStr3 = this.allocStringCached(externalBaseName);\r\n return _BinaryenAddTableImport(this.ref, cStr1, cStr2, cStr3);\r\n }\r\n\r\n addMemoryImport(\r\n internalName: string,\r\n externalModuleName: string,\r\n externalBaseName: string,\r\n shared: bool = false,\r\n ): ImportRef {\r\n var cStr1 = this.allocStringCached(internalName);\r\n var cStr2 = this.allocStringCached(externalModuleName);\r\n var cStr3 = this.allocStringCached(externalBaseName);\r\n return _BinaryenAddMemoryImport(this.ref, cStr1, cStr2, cStr3, shared);\r\n }\r\n\r\n addGlobalImport(\r\n internalName: string,\r\n externalModuleName: string,\r\n externalBaseName: string,\r\n globalType: NativeType\r\n ): ImportRef {\r\n var cStr1 = this.allocStringCached(internalName);\r\n var cStr2 = this.allocStringCached(externalModuleName);\r\n var cStr3 = this.allocStringCached(externalBaseName);\r\n return _BinaryenAddGlobalImport(this.ref, cStr1, cStr2, cStr3, globalType);\r\n }\r\n\r\n /** Unlimited memory constant. */\r\n static readonly UNLIMITED_MEMORY: Index = -1;\r\n\r\n setMemory(\r\n initial: Index,\r\n maximum: Index,\r\n segments: MemorySegment[],\r\n target: Target,\r\n exportName: string | null = null,\r\n shared: bool = false\r\n ): void {\r\n var cStr = this.allocStringCached(exportName);\r\n var k = segments.length;\r\n var segs = new Array(k);\r\n var offs = new Array(k);\r\n var sizs = new Array(k);\r\n for (let i = 0; i < k; ++i) {\r\n let buffer = segments[i].buffer;\r\n let offset = segments[i].offset;\r\n segs[i] = allocU8Array(buffer);\r\n offs[i] = target == Target.WASM64\r\n ? this.createI64(i64_low(offset), i64_high(offset))\r\n : this.createI32(i64_low(offset));\r\n sizs[i] = buffer.length;\r\n }\r\n var cArr1 = allocI32Array(segs);\r\n var cArr2 = allocI32Array(offs);\r\n var cArr3 = allocI32Array(sizs);\r\n try {\r\n _BinaryenSetMemory(this.ref, initial, maximum, cStr, cArr1, cArr2, cArr3, k, shared);\r\n } finally {\r\n memory.free(cArr3);\r\n memory.free(cArr2);\r\n memory.free(cArr1);\r\n for (let i = k - 1; i >= 0; --i) memory.free(segs[i]);\r\n }\r\n }\r\n\r\n setFunctionTable(\r\n initial: Index,\r\n maximum: Index,\r\n funcs: string[]\r\n ): void {\r\n var numNames = funcs.length;\r\n var names = new Array(numNames);\r\n for (let i = 0; i < numNames; ++i) {\r\n names[i] = this.allocStringCached(funcs[i]);\r\n }\r\n var cArr = allocI32Array(names);\r\n try {\r\n _BinaryenSetFunctionTable(this.ref, initial, maximum, cArr, numNames);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n setStart(func: FunctionRef): void {\r\n _BinaryenSetStart(this.ref, func);\r\n }\r\n\r\n getOptimizeLevel(): i32 {\r\n return _BinaryenGetOptimizeLevel();\r\n }\r\n\r\n setOptimizeLevel(level: i32 = 2): void {\r\n _BinaryenSetOptimizeLevel(level);\r\n }\r\n\r\n getShrinkLevel(): i32 {\r\n return _BinaryenGetShrinkLevel();\r\n }\r\n\r\n setShrinkLevel(level: i32 = 1): void {\r\n _BinaryenSetShrinkLevel(level);\r\n }\r\n\r\n setDebugInfo(on: bool = false): void {\r\n _BinaryenSetDebugInfo(on);\r\n }\r\n\r\n optimize(func: FunctionRef = 0): void {\r\n if (func) {\r\n _BinaryenFunctionOptimize(func, this.ref);\r\n } else {\r\n _BinaryenModuleOptimize(this.ref);\r\n }\r\n }\r\n\r\n runPasses(passes: string[], func: FunctionRef = 0): void {\r\n var numNames = passes.length;\r\n var names = new Array(numNames);\r\n for (let i = 0; i < numNames; ++i) {\r\n names[i] = allocString(passes[i]);\r\n }\r\n var cArr = allocI32Array(names);\r\n try {\r\n if (func) {\r\n _BinaryenFunctionRunPasses(func, this.ref, cArr, numNames);\r\n } else {\r\n _BinaryenModuleRunPasses(this.ref, cArr, numNames);\r\n }\r\n } finally {\r\n memory.free(cArr);\r\n for (let i = numNames; i >= 0; --i) memory.free(names[i]);\r\n }\r\n }\r\n\r\n private cachedPrecomputeNames: usize = 0;\r\n\r\n precomputeExpression(expr: ExpressionRef): ExpressionRef {\r\n // remember the previous optimize levels and set to max instead, to be sure\r\n var previousOptimizeLevel = _BinaryenGetOptimizeLevel();\r\n var previousShrinkLevel = _BinaryenGetShrinkLevel();\r\n var previousDebugInfo = _BinaryenGetDebugInfo();\r\n _BinaryenSetOptimizeLevel(4);\r\n _BinaryenSetShrinkLevel(0);\r\n _BinaryenSetDebugInfo(false);\r\n\r\n // wrap the expression in a temp. function and run the precompute pass on it\r\n var type = _BinaryenExpressionGetType(expr);\r\n var func = this.addTemporaryFunction(type, null, expr);\r\n var names = this.cachedPrecomputeNames;\r\n if (!names) {\r\n this.cachedPrecomputeNames = names = allocI32Array([ this.allocStringCached(\"precompute\") ]);\r\n }\r\n _BinaryenFunctionRunPasses(func, this.ref, names, 1);\r\n expr = _BinaryenFunctionGetBody(func);\r\n this.removeTemporaryFunction();\r\n\r\n // reset optimize levels to previous\r\n _BinaryenSetOptimizeLevel(previousOptimizeLevel);\r\n _BinaryenSetShrinkLevel(previousShrinkLevel);\r\n _BinaryenSetDebugInfo(previousDebugInfo);\r\n return expr;\r\n }\r\n\r\n validate(): bool {\r\n return _BinaryenModuleValidate(this.ref) == 1;\r\n }\r\n\r\n interpret(): void {\r\n _BinaryenModuleInterpret(this.ref);\r\n }\r\n\r\n toBinary(sourceMapUrl: string | null): BinaryModule {\r\n var out = this.lit; // safe to reuse as long as..\r\n assert(_BinaryenSizeofLiteral() >= 12);\r\n var cStr = allocString(sourceMapUrl);\r\n var binaryPtr: usize = 0;\r\n var sourceMapPtr: usize = 0;\r\n try {\r\n _BinaryenModuleAllocateAndWrite(out, this.ref, cStr);\r\n binaryPtr = readInt(out);\r\n let binaryBytes = readInt(out + 4);\r\n sourceMapPtr = readInt(out + 4 * 2);\r\n let ret = new BinaryModule();\r\n ret.output = readBuffer(binaryPtr, binaryBytes);\r\n ret.sourceMap = readString(sourceMapPtr);\r\n return ret;\r\n } finally {\r\n if (cStr) memory.free(cStr);\r\n if (binaryPtr) memory.free(binaryPtr);\r\n if (sourceMapPtr) memory.free(sourceMapPtr);\r\n }\r\n }\r\n\r\n toText(): string {\r\n throw new Error(\"not implemented\"); // JS glue overrides this\r\n }\r\n\r\n toAsmjs(): string {\r\n throw new Error(\"not implemented\"); // JS glue overrides this\r\n }\r\n\r\n private cachedStrings: Map = new Map();\r\n\r\n private allocStringCached(str: string | null): usize {\r\n if (str == null) return 0;\r\n var cachedStrings = this.cachedStrings;\r\n if (cachedStrings.has(str)) return cachedStrings.get(str);\r\n var ptr = allocString(str);\r\n cachedStrings.set(str, ptr);\r\n return ptr;\r\n }\r\n\r\n dispose(): void {\r\n assert(this.ref);\r\n for (let ptr of this.cachedStrings.values()) memory.free(ptr);\r\n this.cachedStrings = new Map();\r\n memory.free(this.lit);\r\n memory.free(this.cachedPrecomputeNames);\r\n this.cachedPrecomputeNames = 0;\r\n _BinaryenModuleDispose(this.ref);\r\n this.ref = 0;\r\n }\r\n\r\n createRelooper(): Relooper {\r\n return Relooper.create(this);\r\n }\r\n\r\n cloneExpression(\r\n expr: ExpressionRef,\r\n noSideEffects: bool = false,\r\n maxDepth: i32 = i32.MAX_VALUE\r\n ): ExpressionRef { // currently supports side effect free expressions only\r\n if (maxDepth < 0) return 0;\r\n maxDepth -= 1;\r\n\r\n var nested1: ExpressionRef,\r\n nested2: ExpressionRef;\r\n\r\n switch (_BinaryenExpressionGetId(expr)) {\r\n case ExpressionId.Const: {\r\n switch (_BinaryenExpressionGetType(expr)) {\r\n case NativeType.I32: {\r\n return this.createI32(_BinaryenConstGetValueI32(expr));\r\n }\r\n case NativeType.I64: {\r\n return this.createI64(\r\n _BinaryenConstGetValueI64Low(expr),\r\n _BinaryenConstGetValueI64High(expr)\r\n );\r\n }\r\n case NativeType.F32: {\r\n return this.createF32(_BinaryenConstGetValueF32(expr));\r\n }\r\n case NativeType.F64: {\r\n return this.createF64(_BinaryenConstGetValueF64(expr));\r\n }\r\n default: {\r\n throw new Error(\"concrete type expected\");\r\n }\r\n }\r\n }\r\n case ExpressionId.GetLocal: {\r\n return _BinaryenGetLocal(this.ref,\r\n _BinaryenGetLocalGetIndex(expr),\r\n _BinaryenExpressionGetType(expr)\r\n );\r\n }\r\n case ExpressionId.GetGlobal: {\r\n let globalName = _BinaryenGetGlobalGetName(expr);\r\n if (!globalName) break;\r\n return _BinaryenGetGlobal(this.ref, globalName, _BinaryenExpressionGetType(expr));\r\n }\r\n case ExpressionId.Load: {\r\n if (!(nested1 = this.cloneExpression(_BinaryenLoadGetPtr(expr), noSideEffects, maxDepth))) {\r\n break;\r\n }\r\n return (\r\n _BinaryenLoadIsAtomic(expr)\r\n ? _BinaryenAtomicLoad(this.ref,\r\n _BinaryenLoadGetBytes(expr),\r\n _BinaryenLoadGetOffset(expr),\r\n _BinaryenExpressionGetType(expr),\r\n nested1\r\n )\r\n : _BinaryenLoad(this.ref,\r\n _BinaryenLoadGetBytes(expr),\r\n _BinaryenLoadIsSigned(expr) ? 1 : 0,\r\n _BinaryenLoadGetOffset(expr),\r\n _BinaryenLoadGetAlign(expr),\r\n _BinaryenExpressionGetType(expr),\r\n nested1\r\n )\r\n );\r\n }\r\n case ExpressionId.Unary: {\r\n if (!(nested1 = this.cloneExpression(_BinaryenUnaryGetValue(expr), noSideEffects, maxDepth))) {\r\n break;\r\n }\r\n return _BinaryenUnary(this.ref, _BinaryenUnaryGetOp(expr), nested1);\r\n }\r\n case ExpressionId.Binary: {\r\n if (!(nested1 = this.cloneExpression(_BinaryenBinaryGetLeft(expr), noSideEffects, maxDepth))) {\r\n break;\r\n }\r\n if (!(nested2 = this.cloneExpression(_BinaryenBinaryGetRight(expr), noSideEffects, maxDepth))) {\r\n break;\r\n }\r\n return _BinaryenBinary(this.ref, _BinaryenBinaryGetOp(expr), nested1, nested2);\r\n }\r\n }\r\n return 0;\r\n }\r\n\r\n // source map generation\r\n\r\n addDebugInfoFile(name: string): Index {\r\n var cStr = allocString(name);\r\n try {\r\n return _BinaryenModuleAddDebugInfoFileName(this.ref, cStr);\r\n } finally {\r\n memory.free(cStr);\r\n }\r\n }\r\n\r\n getDebugInfoFile(index: Index): string | null {\r\n return readString(_BinaryenModuleGetDebugInfoFileName(this.ref, index));\r\n }\r\n\r\n setDebugLocation(\r\n func: FunctionRef,\r\n expr: ExpressionRef,\r\n fileIndex: Index,\r\n lineNumber: Index,\r\n columnNumber: Index\r\n ): void {\r\n _BinaryenFunctionSetDebugLocation(func, expr, fileIndex, lineNumber, columnNumber);\r\n }\r\n}\r\n\r\n// expressions\r\n\r\nexport function getExpressionId(expr: ExpressionRef): ExpressionId {\r\n return _BinaryenExpressionGetId(expr);\r\n}\r\n\r\nexport function getExpressionType(expr: ExpressionRef): NativeType {\r\n return _BinaryenExpressionGetType(expr);\r\n}\r\n\r\nexport function getConstValueI32(expr: ExpressionRef): i32 {\r\n return _BinaryenConstGetValueI32(expr);\r\n}\r\n\r\nexport function getConstValueI64Low(expr: ExpressionRef): i32 {\r\n return _BinaryenConstGetValueI64Low(expr);\r\n}\r\n\r\nexport function getConstValueI64High(expr: ExpressionRef): i32 {\r\n return _BinaryenConstGetValueI64High(expr);\r\n}\r\n\r\nexport function getConstValueF32(expr: ExpressionRef): f32 {\r\n return _BinaryenConstGetValueF32(expr);\r\n}\r\n\r\nexport function getConstValueF64(expr: ExpressionRef): f32 {\r\n return _BinaryenConstGetValueF64(expr);\r\n}\r\n\r\nexport function getGetLocalIndex(expr: ExpressionRef): Index {\r\n return _BinaryenGetLocalGetIndex(expr);\r\n}\r\n\r\nexport function getSetLocalIndex(expr: ExpressionRef): Index {\r\n return _BinaryenSetLocalGetIndex(expr);\r\n}\r\n\r\nexport function getSetLocalValue(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenSetLocalGetValue(expr);\r\n}\r\n\r\nexport function isTeeLocal(expr: ExpressionRef): bool {\r\n return _BinaryenSetLocalIsTee(expr);\r\n}\r\n\r\nexport function getGetGlobalName(expr: ExpressionRef): string | null {\r\n return readString(_BinaryenGetGlobalGetName(expr));\r\n}\r\n\r\nexport function getBinaryOp(expr: ExpressionRef): BinaryOp {\r\n return _BinaryenBinaryGetOp(expr);\r\n}\r\n\r\nexport function getBinaryLeft(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenBinaryGetLeft(expr);\r\n}\r\n\r\nexport function getBinaryRight(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenBinaryGetRight(expr);\r\n}\r\n\r\nexport function getUnaryOp(expr: ExpressionRef): UnaryOp {\r\n return _BinaryenUnaryGetOp(expr);\r\n}\r\n\r\nexport function getUnaryValue(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenUnaryGetValue(expr);\r\n}\r\n\r\nexport function getLoadBytes(expr: ExpressionRef): u32 {\r\n return _BinaryenLoadGetBytes(expr);\r\n}\r\n\r\nexport function getLoadOffset(expr: ExpressionRef): u32 {\r\n return _BinaryenLoadGetOffset(expr);\r\n}\r\n\r\nexport function getLoadPtr(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenLoadGetPtr(expr);\r\n}\r\n\r\nexport function isLoadSigned(expr: ExpressionRef): bool {\r\n return _BinaryenLoadIsSigned(expr);\r\n}\r\n\r\nexport function getStoreBytes(expr: ExpressionRef): u32 {\r\n return _BinaryenStoreGetBytes(expr);\r\n}\r\n\r\nexport function getStoreOffset(expr: ExpressionRef): u32 {\r\n return _BinaryenStoreGetOffset(expr);\r\n}\r\n\r\nexport function getStorePtr(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenStoreGetPtr(expr);\r\n}\r\n\r\nexport function getStoreValue(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenStoreGetValue(expr);\r\n}\r\n\r\nexport function getBlockName(expr: ExpressionRef): string | null {\r\n return readString(_BinaryenBlockGetName(expr));\r\n}\r\n\r\nexport function getBlockChildCount(expr: ExpressionRef): Index {\r\n return _BinaryenBlockGetNumChildren(expr);\r\n}\r\n\r\nexport function getBlockChild(expr: ExpressionRef, index: Index): ExpressionRef {\r\n return _BinaryenBlockGetChild(expr, index);\r\n}\r\n\r\nexport function getIfCondition(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenIfGetCondition(expr);\r\n}\r\n\r\nexport function getIfTrue(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenIfGetIfTrue(expr);\r\n}\r\n\r\nexport function getIfFalse(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenIfGetIfFalse(expr);\r\n}\r\n\r\nexport function getLoopName(expr: ExpressionRef): string | null {\r\n return readString(_BinaryenLoopGetName(expr));\r\n}\r\n\r\nexport function getLoopBody(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenLoopGetBody(expr);\r\n}\r\n\r\nexport function getBreakName(expr: ExpressionRef): string | null {\r\n return readString(_BinaryenBreakGetName(expr));\r\n}\r\n\r\nexport function getBreakCondition(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenBreakGetCondition(expr);\r\n}\r\n\r\nexport function getSelectThen(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenSelectGetIfTrue(expr);\r\n}\r\n\r\nexport function getSelectElse(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenSelectGetIfFalse(expr);\r\n}\r\n\r\nexport function getSelectCondition(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenSelectGetCondition(expr);\r\n}\r\n\r\nexport function getDropValue(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenDropGetValue(expr);\r\n}\r\n\r\nexport function getReturnValue(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenReturnGetValue(expr);\r\n}\r\n\r\nexport function getCallTarget(expr: ExpressionRef): string | null {\r\n return readString(_BinaryenCallGetTarget(expr));\r\n}\r\n\r\nexport function getHostOp(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenHostGetOp(expr);\r\n}\r\n\r\nexport function getHostOperandCount(expr: ExpressionRef): Index {\r\n return _BinaryenHostGetNumOperands(expr);\r\n}\r\n\r\nexport function getHostOperand(expr: ExpressionRef, index: Index): ExpressionRef {\r\n return _BinaryenHostGetOperand(expr, index);\r\n}\r\n\r\nexport function getHostName(expr: ExpressionRef): string | null {\r\n return readString(_BinaryenHostGetNameOperand(expr));\r\n}\r\n\r\n// functions\r\n\r\nexport function getFunctionBody(func: FunctionRef): ExpressionRef {\r\n return _BinaryenFunctionGetBody(func);\r\n}\r\n\r\nexport function getFunctionName(func: FunctionRef): string | null {\r\n return readString(_BinaryenFunctionGetName(func));\r\n}\r\n\r\nexport function getFunctionParamCount(func: FunctionRef): Index {\r\n return _BinaryenFunctionGetNumParams(func);\r\n}\r\n\r\nexport function getFunctionParamType(func: FunctionRef, index: Index): NativeType {\r\n return _BinaryenFunctionGetParam(func, index);\r\n}\r\n\r\nexport function getFunctionResultType(func: FunctionRef): NativeType {\r\n return _BinaryenFunctionGetResult(func);\r\n}\r\n\r\nexport class Relooper {\r\n\r\n module: Module;\r\n ref: RelooperRef;\r\n\r\n static create(module: Module): Relooper {\r\n var relooper = new Relooper();\r\n relooper.module = module;\r\n relooper.ref = _RelooperCreate(module.ref);\r\n return relooper;\r\n }\r\n\r\n private constructor() {}\r\n\r\n addBlock(code: ExpressionRef): RelooperBlockRef {\r\n return _RelooperAddBlock(this.ref, code);\r\n }\r\n\r\n addBranch(\r\n from: RelooperBlockRef,\r\n to: RelooperBlockRef,\r\n condition: ExpressionRef = 0,\r\n code: ExpressionRef = 0\r\n ): void {\r\n _RelooperAddBranch(from, to, condition, code);\r\n }\r\n\r\n addBlockWithSwitch(code: ExpressionRef, condition: ExpressionRef): RelooperBlockRef {\r\n return _RelooperAddBlockWithSwitch(this.ref, code, condition);\r\n }\r\n\r\n addBranchForSwitch(\r\n from: RelooperBlockRef,\r\n to: RelooperBlockRef,\r\n indexes: i32[],\r\n code: ExpressionRef = 0\r\n ): void {\r\n var cArr = allocI32Array(indexes);\r\n try {\r\n _RelooperAddBranchForSwitch(from, to, cArr, indexes.length, code);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n renderAndDispose(entry: RelooperBlockRef, labelHelper: Index): ExpressionRef {\r\n return _RelooperRenderAndDispose(this.ref, entry, labelHelper);\r\n }\r\n}\r\n\r\n// export function hasSideEffects(expr: ExpressionRef): bool {\r\n// switch (_BinaryenExpressionGetId(expr = getPtr(expr))) {\r\n// case ExpressionId.GetLocal:\r\n// case ExpressionId.GetGlobal:\r\n// case ExpressionId.Const:\r\n// case ExpressionId.Nop:\r\n// case ExpressionId.Unreachable: {\r\n// return false;\r\n// }\r\n// case ExpressionId.Block: {\r\n// for (let i = 0, k = _BinaryenBlockGetNumChildren(expr); i < k; ++i) {\r\n// if (hasSideEffects(_BinaryenBlockGetChild(expr, i))) return true;\r\n// }\r\n// return false;\r\n// }\r\n// case ExpressionId.If: {\r\n// return hasSideEffects(_BinaryenIfGetCondition(expr))\r\n// || hasSideEffects(_BinaryenIfGetIfTrue(expr))\r\n// || hasSideEffects(_BinaryenIfGetIfFalse(expr));\r\n// }\r\n// case ExpressionId.Unary: {\r\n// return hasSideEffects(_BinaryenUnaryGetValue(expr));\r\n// }\r\n// case ExpressionId.Binary: {\r\n// return hasSideEffects(_BinaryenBinaryGetLeft(expr))\r\n// || hasSideEffects(_BinaryenBinaryGetRight(expr));\r\n// }\r\n// case ExpressionId.Drop: {\r\n// return hasSideEffects(_BinaryenDropGetValue(expr));\r\n// }\r\n// case ExpressionId.Select: {\r\n// return hasSideEffects(_BinaryenSelectGetIfTrue(expr))\r\n// || hasSideEffects(_BinaryenSelectGetIfFalse(expr))\r\n// || hasSideEffects(_BinaryenSelectGetCondition(expr));\r\n// }\r\n// }\r\n// return true;\r\n// }\r\n\r\n// helpers\r\n// can't do stack allocation here: STACKTOP is a global in WASM but a hidden variable in asm.js\r\n\r\nfunction allocU8Array(u8s: Uint8Array | null): usize {\r\n if (!u8s) return 0;\r\n var numValues = u8s.length;\r\n var ptr = memory.allocate(numValues);\r\n var idx = ptr;\r\n for (let i = 0; i < numValues; ++i) {\r\n store(idx++, u8s[i]);\r\n }\r\n return ptr;\r\n}\r\n\r\nfunction allocI32Array(i32s: i32[] | null): usize {\r\n if (!i32s) return 0;\r\n var ptr = memory.allocate(i32s.length << 2);\r\n var idx = ptr;\r\n for (let i = 0, k = i32s.length; i < k; ++i) {\r\n let val = i32s[i];\r\n // store(idx, val) is not portable\r\n store(idx , ( val & 0xff) as u8);\r\n store(idx + 1, ((val >> 8) & 0xff) as u8);\r\n store(idx + 2, ((val >> 16) & 0xff) as u8);\r\n store(idx + 3, ( val >>> 24 ) as u8);\r\n idx += 4;\r\n }\r\n return ptr;\r\n}\r\n\r\nfunction allocPtrArray(ptrs: usize[] | null): usize {\r\n return allocI32Array(ptrs); // TODO: WASM64 one day\r\n}\r\n\r\nfunction stringLengthUTF8(str: string): usize {\r\n var len = 0;\r\n for (let i = 0, k = str.length; i < k; ++i) {\r\n let u = str.charCodeAt(i);\r\n if (u >= 0xD800 && u <= 0xDFFF && i + 1 < k) {\r\n u = 0x10000 + ((u & 0x3FF) << 10) | (str.charCodeAt(++i) & 0x3FF);\r\n }\r\n if (u <= 0x7F) {\r\n ++len;\r\n } else if (u <= 0x7FF) {\r\n len += 2;\r\n } else if (u <= 0xFFFF) {\r\n len += 3;\r\n } else if (u <= 0x1FFFFF) {\r\n len += 4;\r\n } else if (u <= 0x3FFFFFF) {\r\n len += 5;\r\n } else {\r\n len += 6;\r\n }\r\n }\r\n return len;\r\n}\r\n\r\nfunction allocString(str: string | null): usize {\r\n if (str == null) return 0;\r\n var ptr = memory.allocate(stringLengthUTF8(str) + 1);\r\n // the following is based on Emscripten's stringToUTF8Array\r\n var idx = ptr;\r\n for (let i = 0, k = str.length; i < k; ++i) {\r\n let u = str.charCodeAt(i);\r\n if (u >= 0xD800 && u <= 0xDFFF && i + 1 < k) {\r\n u = 0x10000 + ((u & 0x3FF) << 10) | (str.charCodeAt(++i) & 0x3FF);\r\n }\r\n if (u <= 0x7F) {\r\n store(idx++, u as u8);\r\n } else if (u <= 0x7FF) {\r\n store(idx++, (0xC0 | (u >>> 6) ) as u8);\r\n store(idx++, (0x80 | ( u & 63)) as u8);\r\n } else if (u <= 0xFFFF) {\r\n store(idx++, (0xE0 | (u >>> 12) ) as u8);\r\n store(idx++, (0x80 | ((u >>> 6) & 63)) as u8);\r\n store(idx++, (0x80 | ( u & 63)) as u8);\r\n } else if (u <= 0x1FFFFF) {\r\n store(idx++, (0xF0 | (u >>> 18) ) as u8);\r\n store(idx++, (0x80 | ((u >>> 12) & 63)) as u8);\r\n store(idx++, (0x80 | ((u >>> 6) & 63)) as u8);\r\n store(idx++, (0x80 | ( u & 63)) as u8);\r\n } else if (u <= 0x3FFFFFF) {\r\n store(idx++, (0xF8 | (u >>> 24) ) as u8);\r\n store(idx++, (0x80 | ((u >>> 18) & 63)) as u8);\r\n store(idx++, (0x80 | ((u >>> 12) & 63)) as u8);\r\n store(idx++, (0x80 | ((u >>> 6) & 63)) as u8);\r\n store(idx++, (0x80 | ( u & 63)) as u8);\r\n } else {\r\n store(idx++, (0xFC | (u >>> 30) ) as u8);\r\n store(idx++, (0x80 | ((u >>> 24) & 63)) as u8);\r\n store(idx++, (0x80 | ((u >>> 18) & 63)) as u8);\r\n store(idx++, (0x80 | ((u >>> 12) & 63)) as u8);\r\n store(idx++, (0x80 | ((u >>> 6) & 63)) as u8);\r\n store(idx++, (0x80 | ( u & 63)) as u8);\r\n }\r\n }\r\n store(idx, 0);\r\n return ptr;\r\n}\r\n\r\nfunction readInt(ptr: usize): i32 {\r\n return (\r\n load(ptr ) |\r\n (load(ptr + 1) << 8) |\r\n (load(ptr + 2) << 16) |\r\n (load(ptr + 3) << 24)\r\n );\r\n}\r\n\r\nfunction readBuffer(ptr: usize, length: usize): Uint8Array {\r\n var ret = new Uint8Array(length);\r\n for (let i: usize = 0; i < length; ++i) {\r\n ret[i] = load(ptr + i);\r\n }\r\n return ret;\r\n}\r\n\r\nexport function readString(ptr: usize): string | null {\r\n if (!ptr) return null;\r\n var arr = new Array();\r\n // the following is based on Emscripten's UTF8ArrayToString\r\n var cp: u32;\r\n var u1: u32, u2: u32, u3: u32, u4: u32, u5: u32;\r\n while (cp = load(ptr++)) {\r\n if (!(cp & 0x80)) {\r\n arr.push(cp);\r\n continue;\r\n }\r\n u1 = load(ptr++) & 63;\r\n if ((cp & 0xE0) == 0xC0) {\r\n arr.push(((cp & 31) << 6) | u1);\r\n continue;\r\n }\r\n u2 = load(ptr++) & 63;\r\n if ((cp & 0xF0) == 0xE0) {\r\n cp = ((cp & 15) << 12) | (u1 << 6) | u2;\r\n } else {\r\n u3 = load(ptr++) & 63;\r\n if ((cp & 0xF8) == 0xF0) {\r\n cp = ((cp & 7) << 18) | (u1 << 12) | (u2 << 6) | u3;\r\n } else {\r\n u4 = load(ptr++) & 63;\r\n if ((cp & 0xFC) == 0xF8) {\r\n cp = ((cp & 3) << 24) | (u1 << 18) | (u2 << 12) | (u3 << 6) | u4;\r\n } else {\r\n u5 = load(ptr++) & 63;\r\n cp = ((cp & 1) << 30) | (u1 << 24) | (u2 << 18) | (u3 << 12) | (u4 << 6) | u5;\r\n }\r\n }\r\n }\r\n arr.push(cp);\r\n // if (cp < 0x10000) {\r\n // arr.push(cp);\r\n // } else {\r\n // var ch = cp - 0x10000;\r\n // arr.push(0xD800 | (ch >> 10));\r\n // arr.push(0xDC00 | (ch & 0x3FF));\r\n // }\r\n }\r\n // return String.fromCharCodes(arr);\r\n return String.fromCodePoints(arr);\r\n}\r\n\r\n/** Result structure of {@link Module#toBinary}. */\r\nexport class BinaryModule {\r\n /** WebAssembly binary. */\r\n output: Uint8Array;\r\n /** Source map, if generated. */\r\n sourceMap: string | null;\r\n}\r\n\r\n/** Tests if an expression needs an explicit 'unreachable' when it is the terminating statement. */\r\nexport function needsExplicitUnreachable(expr: ExpressionRef): bool {\r\n // not applicable if pushing a value to the stack\r\n switch (_BinaryenExpressionGetType(expr)) {\r\n case NativeType.I32:\r\n case NativeType.I64:\r\n case NativeType.F32:\r\n case NativeType.F64: return false;\r\n }\r\n switch (_BinaryenExpressionGetId(expr)) {\r\n case ExpressionId.Unreachable:\r\n case ExpressionId.Return: return false;\r\n case ExpressionId.Break: return _BinaryenBreakGetCondition(expr) != 0;\r\n case ExpressionId.Block: {\r\n if (!_BinaryenBlockGetName(expr)) { // can't break out of it\r\n let numChildren = _BinaryenBlockGetNumChildren(expr); // last child needs unreachable\r\n return numChildren > 0 && needsExplicitUnreachable(_BinaryenBlockGetChild(expr, numChildren - 1));\r\n }\r\n }\r\n }\r\n return true;\r\n}\r\n","/**\r\n * Abstract syntax tree representing a source file once parsed.\r\n * @module ast\r\n *//***/\r\n\r\nimport {\r\n CommonFlags,\r\n CommonSymbols,\r\n PATH_DELIMITER,\r\n LIBRARY_PREFIX\r\n} from \"./common\";\r\n\r\nimport {\r\n Token,\r\n Tokenizer,\r\n Range\r\n} from \"./tokenizer\";\r\n\r\nimport {\r\n normalizePath,\r\n resolvePath,\r\n CharCode\r\n} from \"./util\";\r\n\r\nexport { Token, Range };\r\n\r\n/** Indicates the kind of a node. */\r\nexport enum NodeKind {\r\n\r\n SOURCE,\r\n\r\n // types\r\n TYPE,\r\n TYPENAME,\r\n TYPEPARAMETER,\r\n PARAMETER,\r\n SIGNATURE,\r\n\r\n // expressions\r\n IDENTIFIER,\r\n ASSERTION,\r\n BINARY,\r\n CALL,\r\n CLASS,\r\n COMMA,\r\n ELEMENTACCESS,\r\n FALSE,\r\n FUNCTION,\r\n INSTANCEOF,\r\n LITERAL,\r\n NEW,\r\n NULL,\r\n PARENTHESIZED,\r\n PROPERTYACCESS,\r\n TERNARY,\r\n SUPER,\r\n THIS,\r\n TRUE,\r\n CONSTRUCTOR,\r\n UNARYPOSTFIX,\r\n UNARYPREFIX,\r\n\r\n // statements\r\n BLOCK,\r\n BREAK,\r\n CONTINUE,\r\n DO,\r\n EMPTY,\r\n EXPORT,\r\n EXPORTIMPORT,\r\n EXPRESSION,\r\n FOR,\r\n IF,\r\n IMPORT,\r\n RETURN,\r\n SWITCH,\r\n THROW,\r\n TRY,\r\n VARIABLE,\r\n VOID,\r\n WHILE,\r\n\r\n // declaration statements\r\n CLASSDECLARATION,\r\n ENUMDECLARATION,\r\n ENUMVALUEDECLARATION,\r\n FIELDDECLARATION,\r\n FUNCTIONDECLARATION,\r\n IMPORTDECLARATION,\r\n INDEXSIGNATUREDECLARATION,\r\n INTERFACEDECLARATION,\r\n METHODDECLARATION,\r\n NAMESPACEDECLARATION,\r\n TYPEDECLARATION,\r\n VARIABLEDECLARATION,\r\n\r\n // special\r\n DECORATOR,\r\n EXPORTMEMBER,\r\n SWITCHCASE,\r\n COMMENT\r\n}\r\n\r\n/** Checks if a node represents a constant value. */\r\nexport function nodeIsConstantValue(kind: NodeKind): bool {\r\n switch (kind) {\r\n case NodeKind.LITERAL:\r\n case NodeKind.NULL:\r\n case NodeKind.TRUE:\r\n case NodeKind.FALSE: return true;\r\n }\r\n return false;\r\n}\r\n\r\n/** Checks if a node might be callable. */\r\nexport function nodeIsCallable(kind: NodeKind): bool {\r\n switch (kind) {\r\n case NodeKind.IDENTIFIER:\r\n case NodeKind.ASSERTION: // if kind=NONNULL\r\n case NodeKind.CALL:\r\n case NodeKind.ELEMENTACCESS:\r\n case NodeKind.PARENTHESIZED:\r\n case NodeKind.PROPERTYACCESS:\r\n case NodeKind.SUPER: return true;\r\n }\r\n return false;\r\n}\r\n\r\n/** Checks if a node might be callable with generic arguments. */\r\nexport function nodeIsGenericCallable(kind: NodeKind): bool {\r\n switch (kind) {\r\n case NodeKind.IDENTIFIER:\r\n case NodeKind.PROPERTYACCESS: return true;\r\n }\r\n return false;\r\n}\r\n\r\n/** Base class of all nodes. */\r\nexport abstract class Node {\r\n\r\n /** Node kind indicator. */\r\n kind: NodeKind;\r\n /** Source range. */\r\n range: Range;\r\n\r\n // types\r\n\r\n static createTypeName(\r\n name: IdentifierExpression,\r\n range: Range\r\n ): TypeName {\r\n var typeName = new TypeName();\r\n typeName.range = range;\r\n typeName.identifier = name;\r\n typeName.next = null;\r\n return typeName;\r\n }\r\n\r\n static createSimpleTypeName(\r\n name: string,\r\n range: Range\r\n ): TypeName {\r\n return Node.createTypeName(Node.createIdentifierExpression(name, range), range);\r\n }\r\n\r\n static createType(\r\n name: TypeName,\r\n typeArguments: CommonTypeNode[] | null,\r\n isNullable: bool,\r\n range: Range\r\n ): TypeNode {\r\n var type = new TypeNode();\r\n type.range = range;\r\n type.name = name;\r\n type.typeArguments = typeArguments;\r\n type.isNullable = isNullable;\r\n return type;\r\n }\r\n\r\n static createOmittedType(\r\n range: Range\r\n ): TypeNode {\r\n return Node.createType(\r\n Node.createSimpleTypeName(\"\", range),\r\n null,\r\n false,\r\n range\r\n );\r\n }\r\n\r\n static createTypeParameter(\r\n name: IdentifierExpression,\r\n extendsType: TypeNode | null,\r\n defaultType: TypeNode | null,\r\n range: Range\r\n ): TypeParameterNode {\r\n var elem = new TypeParameterNode();\r\n elem.range = range;\r\n elem.name = name;\r\n elem.extendsType = extendsType;\r\n elem.defaultType = defaultType;\r\n return elem;\r\n }\r\n\r\n static createParameter(\r\n name: IdentifierExpression,\r\n type: CommonTypeNode,\r\n initializer: Expression | null,\r\n kind: ParameterKind,\r\n range: Range\r\n ): ParameterNode {\r\n var elem = new ParameterNode();\r\n elem.range = range;\r\n elem.name = name;\r\n elem.type = type;\r\n elem.initializer = initializer;\r\n elem.parameterKind = kind;\r\n return elem;\r\n }\r\n\r\n static createSignature(\r\n parameters: ParameterNode[],\r\n returnType: CommonTypeNode,\r\n explicitThisType: TypeNode | null,\r\n isNullable: bool,\r\n range: Range\r\n ): SignatureNode {\r\n var sig = new SignatureNode();\r\n sig.range = range;\r\n sig.parameters = parameters;\r\n sig.returnType = returnType;\r\n sig.explicitThisType = explicitThisType;\r\n sig.isNullable = isNullable;\r\n return sig;\r\n }\r\n\r\n // special\r\n\r\n static createDecorator(\r\n name: Expression,\r\n args: Expression[] | null,\r\n range: Range\r\n ): DecoratorNode {\r\n var stmt = new DecoratorNode();\r\n stmt.range = range;\r\n stmt.name = name;\r\n stmt.arguments = args;\r\n stmt.decoratorKind = decoratorNameToKind(name);\r\n return stmt;\r\n }\r\n\r\n static createComment(\r\n text: string,\r\n kind: CommentKind,\r\n range: Range\r\n ): CommentNode {\r\n var node = new CommentNode();\r\n node.range = range;\r\n node.commentKind = kind;\r\n node.text = text;\r\n return node;\r\n }\r\n\r\n // expressions\r\n\r\n static createIdentifierExpression(\r\n name: string,\r\n range: Range,\r\n isQuoted: bool = false\r\n ): IdentifierExpression {\r\n var expr = new IdentifierExpression();\r\n expr.range = range;\r\n expr.text = name; // TODO: extract from range\r\n expr.symbol = name; // TODO: Symbol.for(name)\r\n expr.isQuoted = isQuoted;\r\n return expr;\r\n }\r\n\r\n static createEmptyIdentifierExpression(\r\n range: Range\r\n ): IdentifierExpression {\r\n var expr = new IdentifierExpression();\r\n expr.range = range;\r\n expr.text = \"\";\r\n return expr;\r\n }\r\n\r\n static createArrayLiteralExpression(\r\n elements: (Expression | null)[],\r\n range: Range\r\n ): ArrayLiteralExpression {\r\n var expr = new ArrayLiteralExpression();\r\n expr.range = range;\r\n expr.elementExpressions = elements;\r\n return expr;\r\n }\r\n\r\n static createAssertionExpression(\r\n assertionKind: AssertionKind,\r\n expression: Expression,\r\n toType: CommonTypeNode | null,\r\n range: Range\r\n ): AssertionExpression {\r\n var expr = new AssertionExpression();\r\n expr.range = range;\r\n expr.assertionKind = assertionKind;\r\n expr.expression = expression;\r\n expr.toType = toType;\r\n return expr;\r\n }\r\n\r\n static createBinaryExpression(\r\n operator: Token,\r\n left: Expression,\r\n right: Expression,\r\n range: Range\r\n ): BinaryExpression {\r\n var expr = new BinaryExpression();\r\n expr.range = range;\r\n expr.operator = operator;\r\n expr.left = left;\r\n expr.right = right;\r\n return expr;\r\n }\r\n\r\n static createCallExpression(\r\n expression: Expression,\r\n typeArgs: CommonTypeNode[] | null,\r\n args: Expression[],\r\n range: Range\r\n ): CallExpression {\r\n var expr = new CallExpression();\r\n expr.range = range;\r\n expr.expression = expression;\r\n expr.typeArguments = typeArgs;\r\n expr.arguments = args;\r\n return expr;\r\n }\r\n\r\n static createClassExpression(\r\n declaration: ClassDeclaration\r\n ): ClassExpression {\r\n var expr = new ClassExpression();\r\n expr.range = declaration.range;\r\n expr.declaration = declaration;\r\n return expr;\r\n }\r\n\r\n static createCommaExpression(\r\n expressions: Expression[],\r\n range: Range\r\n ): CommaExpression {\r\n var expr = new CommaExpression();\r\n expr.range = range;\r\n expr.expressions = expressions;\r\n return expr;\r\n }\r\n\r\n static createConstructorExpression(\r\n range: Range\r\n ): ConstructorExpression {\r\n var expr = new ConstructorExpression();\r\n expr.range = range;\r\n return expr;\r\n }\r\n\r\n static createElementAccessExpression(\r\n expression: Expression,\r\n element: Expression,\r\n range: Range\r\n ): ElementAccessExpression {\r\n var expr = new ElementAccessExpression();\r\n expr.range = range;\r\n expr.expression = expression;\r\n expr.elementExpression = element;\r\n return expr;\r\n }\r\n\r\n static createFalseExpression(\r\n range: Range\r\n ): FalseExpression {\r\n var expr = new FalseExpression();\r\n expr.range = range;\r\n return expr;\r\n }\r\n\r\n static createFloatLiteralExpression(\r\n value: f64,\r\n range: Range\r\n ): FloatLiteralExpression {\r\n var expr = new FloatLiteralExpression();\r\n expr.range = range;\r\n expr.value = value;\r\n return expr;\r\n }\r\n\r\n static createFunctionExpression(\r\n declaration: FunctionDeclaration\r\n ): FunctionExpression {\r\n var expr = new FunctionExpression();\r\n expr.range = declaration.range;\r\n expr.declaration = declaration;\r\n return expr;\r\n }\r\n\r\n static createInstanceOfExpression(\r\n expression: Expression,\r\n isType: CommonTypeNode,\r\n range: Range\r\n ): InstanceOfExpression {\r\n var expr = new InstanceOfExpression();\r\n expr.range = range;\r\n expr.expression = expression;\r\n expr.isType = isType;\r\n return expr;\r\n }\r\n\r\n static createIntegerLiteralExpression(\r\n value: I64,\r\n range: Range\r\n ): IntegerLiteralExpression {\r\n var expr = new IntegerLiteralExpression();\r\n expr.range = range;\r\n expr.value = value;\r\n return expr;\r\n }\r\n\r\n static createNewExpression(\r\n expression: Expression,\r\n typeArgs: CommonTypeNode[] | null,\r\n args: Expression[],\r\n range: Range\r\n ): NewExpression {\r\n var expr = new NewExpression();\r\n expr.range = range;\r\n expr.expression = expression;\r\n expr.typeArguments = typeArgs;\r\n expr.arguments = args;\r\n return expr;\r\n }\r\n\r\n static createNullExpression(\r\n range: Range\r\n ): NullExpression {\r\n var expr = new NullExpression();\r\n expr.range = range;\r\n return expr;\r\n }\r\n\r\n static createObjectLiteralExpression(\r\n names: IdentifierExpression[],\r\n values: Expression[],\r\n range: Range\r\n ): ObjectLiteralExpression {\r\n var expr = new ObjectLiteralExpression();\r\n expr.range = range;\r\n expr.names = names;\r\n expr.values = values;\r\n return expr;\r\n }\r\n\r\n static createParenthesizedExpression(\r\n expression: Expression,\r\n range: Range\r\n ): ParenthesizedExpression {\r\n var expr = new ParenthesizedExpression();\r\n expr.range = range;\r\n expr.expression = expression;\r\n return expr;\r\n }\r\n\r\n static createPropertyAccessExpression(\r\n expression: Expression,\r\n property: IdentifierExpression,\r\n range: Range\r\n ): PropertyAccessExpression {\r\n var expr = new PropertyAccessExpression();\r\n expr.range = range;\r\n expr.expression = expression;\r\n expr.property = property;\r\n return expr;\r\n }\r\n\r\n static createRegexpLiteralExpression(\r\n pattern: string,\r\n flags: string,\r\n range: Range\r\n ): RegexpLiteralExpression {\r\n var expr = new RegexpLiteralExpression();\r\n expr.range = range;\r\n expr.pattern = pattern;\r\n expr.patternFlags = flags;\r\n return expr;\r\n }\r\n\r\n static createTernaryExpression(\r\n condition: Expression,\r\n ifThen: Expression,\r\n ifElse: Expression,\r\n range: Range\r\n ): TernaryExpression {\r\n var expr = new TernaryExpression();\r\n expr.range = range;\r\n expr.condition = condition;\r\n expr.ifThen = ifThen;\r\n expr.ifElse = ifElse;\r\n return expr;\r\n }\r\n\r\n static createStringLiteralExpression(\r\n value: string,\r\n range: Range\r\n ): StringLiteralExpression {\r\n var expr = new StringLiteralExpression();\r\n expr.range = range;\r\n expr.value = value;\r\n return expr;\r\n }\r\n\r\n static createSuperExpression(\r\n range: Range\r\n ): SuperExpression {\r\n var expr = new SuperExpression();\r\n expr.range = range;\r\n return expr;\r\n }\r\n\r\n static createThisExpression(\r\n range: Range\r\n ): ThisExpression {\r\n var expr = new ThisExpression();\r\n expr.range = range;\r\n return expr;\r\n }\r\n\r\n static createTrueExpression(\r\n range: Range\r\n ): TrueExpression {\r\n var expr = new TrueExpression();\r\n expr.range = range;\r\n return expr;\r\n }\r\n\r\n static createUnaryPostfixExpression(\r\n operator: Token,\r\n operand: Expression,\r\n range: Range\r\n ): UnaryPostfixExpression {\r\n var expr = new UnaryPostfixExpression();\r\n expr.range = range;\r\n expr.operator = operator;\r\n expr.operand = operand;\r\n return expr;\r\n }\r\n\r\n static createUnaryPrefixExpression(\r\n operator: Token,\r\n operand: Expression,\r\n range: Range\r\n ): UnaryPrefixExpression {\r\n var expr = new UnaryPrefixExpression();\r\n expr.range = range;\r\n expr.operator = operator;\r\n expr.operand = operand;\r\n return expr;\r\n }\r\n\r\n // statements\r\n\r\n static createBlockStatement(\r\n statements: Statement[],\r\n range: Range\r\n ): BlockStatement {\r\n var stmt = new BlockStatement();\r\n stmt.range = range;\r\n stmt.statements = statements;\r\n return stmt;\r\n }\r\n\r\n static createBreakStatement(\r\n label: IdentifierExpression | null,\r\n range: Range\r\n ): BreakStatement {\r\n var stmt = new BreakStatement();\r\n stmt.range = range;\r\n stmt.label = label;\r\n return stmt;\r\n }\r\n\r\n static createClassDeclaration(\r\n identifier: IdentifierExpression,\r\n typeParameters: TypeParameterNode[] | null,\r\n extendsType: TypeNode | null, // can't be a function\r\n implementsTypes: TypeNode[] | null, // can't be functions\r\n members: DeclarationStatement[],\r\n decorators: DecoratorNode[] | null,\r\n flags: CommonFlags,\r\n range: Range\r\n ): ClassDeclaration {\r\n var stmt = new ClassDeclaration();\r\n stmt.range = range;\r\n stmt.flags = flags;\r\n stmt.name = identifier;\r\n stmt.typeParameters = typeParameters;\r\n stmt.extendsType = extendsType;\r\n stmt.implementsTypes = implementsTypes;\r\n stmt.members = members;\r\n stmt.decorators = decorators;\r\n return stmt;\r\n }\r\n\r\n static createContinueStatement(\r\n label: IdentifierExpression | null,\r\n range: Range\r\n ): ContinueStatement {\r\n var stmt = new ContinueStatement();\r\n stmt.range = range;\r\n stmt.label = label;\r\n return stmt;\r\n }\r\n\r\n static createDoStatement(\r\n statement: Statement,\r\n condition: Expression,\r\n range: Range\r\n ): DoStatement {\r\n var stmt = new DoStatement();\r\n stmt.range = range;\r\n stmt.statement = statement;\r\n stmt.condition = condition;\r\n return stmt;\r\n }\r\n\r\n static createEmptyStatement(\r\n range: Range\r\n ): EmptyStatement {\r\n var stmt = new EmptyStatement();\r\n stmt.range = range;\r\n return stmt;\r\n }\r\n\r\n static createEnumDeclaration(\r\n name: IdentifierExpression,\r\n members: EnumValueDeclaration[],\r\n decorators: DecoratorNode[] | null,\r\n flags: CommonFlags,\r\n range: Range\r\n ): EnumDeclaration {\r\n var stmt = new EnumDeclaration();\r\n stmt.range = range;\r\n stmt.flags = flags;\r\n stmt.name = name;\r\n stmt.values = members;\r\n stmt.decorators = decorators;\r\n return stmt;\r\n }\r\n\r\n static createEnumValueDeclaration(\r\n name: IdentifierExpression,\r\n value: Expression | null,\r\n flags: CommonFlags,\r\n range: Range\r\n ): EnumValueDeclaration {\r\n var stmt = new EnumValueDeclaration();\r\n stmt.range = range;\r\n stmt.flags = flags;\r\n stmt.name = name;\r\n stmt.value = value;\r\n return stmt;\r\n }\r\n\r\n static createExportStatement(\r\n members: ExportMember[] | null,\r\n path: StringLiteralExpression | null,\r\n isDeclare: bool,\r\n range: Range\r\n ): ExportStatement {\r\n var stmt = new ExportStatement();\r\n stmt.range = range;\r\n stmt.members = members;\r\n stmt.path = path;\r\n if (path) {\r\n let normalizedPath = normalizePath(path.value);\r\n if (path.value.startsWith(\".\")) { // relative\r\n stmt.normalizedPath = resolvePath(\r\n normalizedPath,\r\n range.source.normalizedPath\r\n );\r\n } else { // absolute\r\n stmt.normalizedPath = normalizedPath;\r\n }\r\n stmt.internalPath = mangleInternalPath(stmt.normalizedPath);\r\n } else {\r\n stmt.normalizedPath = null;\r\n stmt.internalPath = null;\r\n }\r\n stmt.isDeclare = isDeclare;\r\n return stmt;\r\n }\r\n\r\n static createExportImportStatement(\r\n name: IdentifierExpression,\r\n externalName: IdentifierExpression,\r\n range: Range\r\n ): ExportImportStatement {\r\n var stmt = new ExportImportStatement();\r\n stmt.range = range;\r\n stmt.name = name;\r\n stmt.externalName = externalName;\r\n return stmt;\r\n }\r\n\r\n static createExportMember(\r\n name: IdentifierExpression,\r\n externalName: IdentifierExpression | null,\r\n range: Range\r\n ): ExportMember {\r\n var elem = new ExportMember();\r\n elem.range = range;\r\n elem.localName = name;\r\n if (!externalName) externalName = name;\r\n elem.exportedName = externalName;\r\n return elem;\r\n }\r\n\r\n static createExpressionStatement(\r\n expression: Expression\r\n ): ExpressionStatement {\r\n var stmt = new ExpressionStatement();\r\n stmt.range = expression.range;\r\n stmt.expression = expression;\r\n return stmt;\r\n }\r\n\r\n static createIfStatement(\r\n condition: Expression,\r\n ifTrue: Statement,\r\n ifFalse: Statement | null,\r\n range: Range\r\n ): IfStatement {\r\n var stmt = new IfStatement();\r\n stmt.range = range;\r\n stmt.condition = condition;\r\n stmt.ifTrue = ifTrue;\r\n stmt.ifFalse = ifFalse;\r\n return stmt;\r\n }\r\n\r\n static createImportStatement(\r\n decls: ImportDeclaration[] | null,\r\n path: StringLiteralExpression,\r\n range: Range\r\n ): ImportStatement {\r\n var stmt = new ImportStatement();\r\n stmt.range = range;\r\n stmt.declarations = decls;\r\n stmt.namespaceName = null;\r\n stmt.path = path;\r\n var normalizedPath = normalizePath(path.value);\r\n if (path.value.startsWith(\".\")) { // relative in project\r\n stmt.normalizedPath = resolvePath(\r\n normalizedPath,\r\n range.source.normalizedPath\r\n );\r\n } else { // absolute in library\r\n if (!normalizedPath.startsWith(LIBRARY_PREFIX)) {\r\n normalizedPath = LIBRARY_PREFIX + normalizedPath;\r\n }\r\n stmt.normalizedPath = normalizedPath;\r\n }\r\n stmt.internalPath = mangleInternalPath(stmt.normalizedPath);\r\n return stmt;\r\n }\r\n\r\n static createImportStatementWithWildcard(\r\n identifier: IdentifierExpression,\r\n path: StringLiteralExpression,\r\n range: Range\r\n ): ImportStatement {\r\n var stmt = new ImportStatement();\r\n stmt.range = range;\r\n stmt.declarations = null;\r\n stmt.namespaceName = identifier;\r\n stmt.path = path;\r\n stmt.normalizedPath = resolvePath(\r\n normalizePath(path.value),\r\n range.source.normalizedPath\r\n );\r\n stmt.internalPath = mangleInternalPath(stmt.normalizedPath);\r\n return stmt;\r\n }\r\n\r\n static createImportDeclaration(\r\n foreignName: IdentifierExpression,\r\n name: IdentifierExpression | null,\r\n range: Range\r\n ): ImportDeclaration {\r\n var elem = new ImportDeclaration();\r\n elem.range = range;\r\n elem.foreignName = foreignName;\r\n if (!name) name = foreignName;\r\n elem.name = name;\r\n return elem;\r\n }\r\n\r\n static createInterfaceDeclaration(\r\n name: IdentifierExpression,\r\n typeParameters: TypeParameterNode[] | null,\r\n extendsType: TypeNode | null, // can't be a function\r\n members: DeclarationStatement[],\r\n decorators: DecoratorNode[] | null,\r\n flags: CommonFlags,\r\n range: Range\r\n ): InterfaceDeclaration {\r\n var stmt = new InterfaceDeclaration();\r\n stmt.range = range;\r\n stmt.flags = flags;\r\n stmt.name = name;\r\n stmt.typeParameters = typeParameters;\r\n stmt.extendsType = extendsType;\r\n stmt.members = members;\r\n stmt.decorators = decorators;\r\n return stmt;\r\n }\r\n\r\n static createFieldDeclaration(\r\n name: IdentifierExpression,\r\n type: CommonTypeNode | null,\r\n initializer: Expression | null,\r\n decorators: DecoratorNode[] | null,\r\n flags: CommonFlags,\r\n range: Range\r\n ): FieldDeclaration {\r\n var stmt = new FieldDeclaration();\r\n stmt.range = range;\r\n stmt.flags = flags;\r\n stmt.name = name;\r\n stmt.type = type;\r\n stmt.initializer = initializer;\r\n stmt.decorators = decorators;\r\n return stmt;\r\n }\r\n\r\n static createForStatement(\r\n initializer: Statement | null,\r\n condition: Expression | null,\r\n incrementor: Expression | null,\r\n statement: Statement,\r\n range: Range\r\n ): ForStatement {\r\n var stmt = new ForStatement();\r\n stmt.range = range;\r\n stmt.initializer = initializer;\r\n stmt.condition = condition;\r\n stmt.incrementor = incrementor;\r\n stmt.statement = statement;\r\n return stmt;\r\n }\r\n\r\n static createFunctionDeclaration(\r\n name: IdentifierExpression,\r\n typeParameters: TypeParameterNode[] | null,\r\n signature: SignatureNode,\r\n body: Statement | null,\r\n decorators: DecoratorNode[] | null,\r\n flags: CommonFlags,\r\n arrowKind: ArrowKind,\r\n range: Range\r\n ): FunctionDeclaration {\r\n var stmt = new FunctionDeclaration();\r\n stmt.range = range;\r\n stmt.flags = flags;\r\n stmt.name = name;\r\n stmt.typeParameters = typeParameters;\r\n stmt.signature = signature;\r\n stmt.body = body;\r\n stmt.decorators = decorators;\r\n stmt.arrowKind = arrowKind;\r\n return stmt;\r\n }\r\n\r\n static createIndexSignatureDeclaration(\r\n keyType: TypeNode,\r\n valueType: CommonTypeNode,\r\n range: Range\r\n ): IndexSignatureDeclaration {\r\n var elem = new IndexSignatureDeclaration();\r\n elem.range = range;\r\n elem.keyType = keyType;\r\n elem.valueType = valueType;\r\n return elem;\r\n }\r\n\r\n static createMethodDeclaration(\r\n name: IdentifierExpression,\r\n typeParameters: TypeParameterNode[] | null,\r\n signature: SignatureNode,\r\n body: Statement | null,\r\n decorators: DecoratorNode[] | null,\r\n flags: CommonFlags,\r\n range: Range\r\n ): MethodDeclaration {\r\n var stmt = new MethodDeclaration();\r\n stmt.range = range;\r\n stmt.flags = flags;\r\n stmt.name = name;\r\n stmt.typeParameters = typeParameters;\r\n stmt.signature = signature;\r\n stmt.body = body;\r\n stmt.decorators = decorators;\r\n return stmt;\r\n }\r\n\r\n static createNamespaceDeclaration(\r\n name: IdentifierExpression,\r\n members: Statement[],\r\n decorators: DecoratorNode[] | null,\r\n flags: CommonFlags,\r\n range: Range\r\n ): NamespaceDeclaration {\r\n var stmt = new NamespaceDeclaration();\r\n stmt.range = range;\r\n stmt.flags = flags;\r\n stmt.name = name;\r\n stmt.members = members;\r\n stmt.decorators = decorators;\r\n return stmt;\r\n }\r\n\r\n static createReturnStatement(\r\n value: Expression | null,\r\n range: Range\r\n ): ReturnStatement {\r\n var stmt = new ReturnStatement();\r\n stmt.range = range;\r\n stmt.value = value;\r\n return stmt;\r\n }\r\n\r\n static createSwitchStatement(\r\n condition: Expression,\r\n cases: SwitchCase[],\r\n range: Range\r\n ): SwitchStatement {\r\n var stmt = new SwitchStatement();\r\n stmt.range = range;\r\n stmt.condition = condition;\r\n stmt.cases = cases;\r\n return stmt;\r\n }\r\n\r\n static createSwitchCase(\r\n label: Expression | null,\r\n statements: Statement[],\r\n range: Range\r\n ): SwitchCase {\r\n var elem = new SwitchCase();\r\n elem.range = range;\r\n elem.label = label;\r\n elem.statements = statements;\r\n return elem;\r\n }\r\n\r\n static createThrowStatement(\r\n value: Expression,\r\n range: Range\r\n ): ThrowStatement {\r\n var stmt = new ThrowStatement();\r\n stmt.range = range;\r\n stmt.value = value;\r\n return stmt;\r\n }\r\n\r\n static createTryStatement(\r\n statements: Statement[],\r\n catchVariable: IdentifierExpression | null,\r\n catchStatements: Statement[] | null,\r\n finallyStatements: Statement[] | null,\r\n range: Range\r\n ): TryStatement {\r\n var stmt = new TryStatement();\r\n stmt.range = range;\r\n stmt.statements = statements;\r\n stmt.catchVariable = catchVariable;\r\n stmt.catchStatements = catchStatements;\r\n stmt.finallyStatements = finallyStatements;\r\n return stmt;\r\n }\r\n\r\n static createTypeDeclaration(\r\n name: IdentifierExpression,\r\n typeParameters: TypeParameterNode[] | null,\r\n alias: CommonTypeNode,\r\n decorators: DecoratorNode[] | null,\r\n flags: CommonFlags,\r\n range: Range\r\n ): TypeDeclaration {\r\n var stmt = new TypeDeclaration();\r\n stmt.range = range;\r\n stmt.flags = flags;\r\n stmt.name = name;\r\n stmt.typeParameters = typeParameters;\r\n stmt.type = alias;\r\n stmt.decorators = decorators;\r\n return stmt;\r\n }\r\n\r\n static createVariableStatement(\r\n declarations: VariableDeclaration[],\r\n decorators: DecoratorNode[] | null,\r\n range: Range\r\n ): VariableStatement {\r\n var stmt = new VariableStatement();\r\n stmt.range = range;\r\n stmt.declarations = declarations;\r\n stmt.decorators = decorators;\r\n return stmt;\r\n }\r\n\r\n static createVariableDeclaration(\r\n name: IdentifierExpression,\r\n type: CommonTypeNode | null,\r\n initializer: Expression | null,\r\n decorators: DecoratorNode[] | null,\r\n flags: CommonFlags,\r\n range: Range\r\n ): VariableDeclaration {\r\n var elem = new VariableDeclaration();\r\n elem.range = range;\r\n elem.flags = flags;\r\n elem.name = name;\r\n elem.type = type;\r\n elem.initializer = initializer;\r\n elem.decorators = decorators; // inherited\r\n return elem;\r\n }\r\n\r\n static createVoidStatement(\r\n expression: Expression,\r\n range: Range\r\n ): VoidStatement {\r\n var stmt = new VoidStatement();\r\n stmt.range = range;\r\n stmt.expression = expression;\r\n return stmt;\r\n }\r\n\r\n static createWhileStatement(\r\n condition: Expression,\r\n statement: Statement,\r\n range: Range\r\n ): WhileStatement {\r\n var stmt = new WhileStatement();\r\n stmt.range = range;\r\n stmt.condition = condition;\r\n stmt.statement = statement;\r\n return stmt;\r\n }\r\n}\r\n\r\n// types\r\n\r\nexport abstract class CommonTypeNode extends Node {\r\n // kind varies\r\n\r\n /** Whether nullable or not. */\r\n isNullable: bool;\r\n}\r\n\r\n/** Represents a type name. */\r\nexport class TypeName extends Node {\r\n kind = NodeKind.TYPENAME;\r\n\r\n /** Identifier of this part. */\r\n identifier: IdentifierExpression;\r\n /** Next part of the type name or `null` if this is the last part. */\r\n next: TypeName | null;\r\n}\r\n\r\n/** Represents a type annotation. */\r\nexport class TypeNode extends CommonTypeNode {\r\n kind = NodeKind.TYPE;\r\n\r\n /** Type name. */\r\n name: TypeName;\r\n /** Type argument references. */\r\n typeArguments: CommonTypeNode[] | null;\r\n}\r\n\r\n/** Represents a type parameter. */\r\nexport class TypeParameterNode extends Node {\r\n kind = NodeKind.TYPEPARAMETER;\r\n\r\n /** Identifier reference. */\r\n name: IdentifierExpression;\r\n /** Extended type reference, if any. */\r\n extendsType: TypeNode | null; // can't be a function\r\n /** Default type if omitted, if any. */\r\n defaultType: TypeNode | null; // can't be a function\r\n}\r\n\r\n/** Represents the kind of a parameter. */\r\nexport enum ParameterKind {\r\n /** No specific flags. */\r\n DEFAULT,\r\n /** Is an optional parameter. */\r\n OPTIONAL,\r\n /** Is a rest parameter. */\r\n REST\r\n}\r\n\r\n/** Represents a function parameter. */\r\nexport class ParameterNode extends Node {\r\n kind = NodeKind.PARAMETER;\r\n\r\n /** Parameter kind. */\r\n parameterKind: ParameterKind;\r\n /** Parameter name. */\r\n name: IdentifierExpression;\r\n /** Parameter type. */\r\n type: CommonTypeNode;\r\n /** Initializer expression, if present. */\r\n initializer: Expression | null;\r\n /** Implicit field declaration, if applicable. */\r\n implicitFieldDeclaration: FieldDeclaration | null = null;\r\n /** Common flags indicating specific traits. */\r\n flags: CommonFlags = CommonFlags.NONE;\r\n\r\n /** Tests if this node has the specified flag or flags. */\r\n is(flag: CommonFlags): bool { return (this.flags & flag) == flag; }\r\n /** Tests if this node has one of the specified flags. */\r\n isAny(flag: CommonFlags): bool { return (this.flags & flag) != 0; }\r\n /** Sets a specific flag or flags. */\r\n set(flag: CommonFlags): void { this.flags |= flag; }\r\n}\r\n\r\n/** Represents a function signature. */\r\nexport class SignatureNode extends CommonTypeNode {\r\n kind = NodeKind.SIGNATURE;\r\n\r\n /** Accepted parameters. */\r\n parameters: ParameterNode[];\r\n /** Return type. */\r\n returnType: CommonTypeNode;\r\n /** Explicitly provided this type, if any. */\r\n explicitThisType: TypeNode | null; // can't be a function\r\n}\r\n\r\n// special\r\n\r\n/** Built-in decorator kinds. */\r\nexport enum DecoratorKind {\r\n CUSTOM,\r\n GLOBAL,\r\n OPERATOR,\r\n OPERATOR_BINARY,\r\n OPERATOR_PREFIX,\r\n OPERATOR_POSTFIX,\r\n UNMANAGED,\r\n SEALED,\r\n INLINE,\r\n EXTERNAL,\r\n BUILTIN,\r\n LAZY,\r\n START\r\n}\r\n\r\n/** Returns the kind of the specified decorator. Defaults to {@link DecoratorKind.CUSTOM}. */\r\nexport function decoratorNameToKind(name: Expression): DecoratorKind {\r\n // @global, @inline, @operator, @sealed, @unmanaged\r\n if (name.kind == NodeKind.IDENTIFIER) {\r\n let nameStr = (name).text;\r\n assert(nameStr.length);\r\n switch (nameStr.charCodeAt(0)) {\r\n case CharCode.b: {\r\n if (nameStr == \"builtin\") return DecoratorKind.BUILTIN;\r\n break;\r\n }\r\n case CharCode.e: {\r\n if (nameStr == \"external\") return DecoratorKind.EXTERNAL;\r\n break;\r\n }\r\n case CharCode.g: {\r\n if (nameStr == \"global\") return DecoratorKind.GLOBAL;\r\n break;\r\n }\r\n case CharCode.i: {\r\n if (nameStr == \"inline\") return DecoratorKind.INLINE;\r\n break;\r\n }\r\n case CharCode.l: {\r\n if (nameStr == \"lazy\") return DecoratorKind.LAZY;\r\n break;\r\n }\r\n case CharCode.o: {\r\n if (nameStr == \"operator\") return DecoratorKind.OPERATOR;\r\n break;\r\n }\r\n case CharCode.s: {\r\n if (nameStr == \"sealed\") return DecoratorKind.SEALED;\r\n if (nameStr == \"start\") return DecoratorKind.START;\r\n break;\r\n }\r\n case CharCode.u: {\r\n if (nameStr == \"unmanaged\") return DecoratorKind.UNMANAGED;\r\n break;\r\n }\r\n }\r\n } else if (\r\n name.kind == NodeKind.PROPERTYACCESS &&\r\n (name).expression.kind == NodeKind.IDENTIFIER\r\n ) {\r\n let nameStr = ((name).expression).text;\r\n assert(nameStr.length);\r\n let propStr = (name).property.text;\r\n assert(propStr.length);\r\n // @operator.binary, @operator.prefix, @operator.postfix\r\n if (nameStr == \"operator\") {\r\n switch (propStr.charCodeAt(0)) {\r\n case CharCode.b: {\r\n if (propStr == \"binary\") return DecoratorKind.OPERATOR_BINARY;\r\n break;\r\n }\r\n case CharCode.p: {\r\n switch (propStr) {\r\n case \"prefix\": return DecoratorKind.OPERATOR_PREFIX;\r\n case \"postfix\": return DecoratorKind.OPERATOR_POSTFIX;\r\n }\r\n break;\r\n }\r\n }\r\n }\r\n }\r\n return DecoratorKind.CUSTOM;\r\n}\r\n\r\n/** Represents a decorator. */\r\nexport class DecoratorNode extends Node {\r\n kind = NodeKind.DECORATOR;\r\n\r\n /** Built-in kind, if applicable. */\r\n decoratorKind: DecoratorKind;\r\n /** Name expression. */\r\n name: Expression;\r\n /** Argument expressions. */\r\n arguments: Expression[] | null;\r\n}\r\n\r\n/** Comment kinds. */\r\nexport enum CommentKind {\r\n /** Line comment. */\r\n LINE,\r\n /** Triple-slash comment. */\r\n TRIPLE,\r\n /** Block comment. */\r\n BLOCK\r\n}\r\n\r\n/** Represents a comment. */\r\nexport class CommentNode extends Node {\r\n kind = NodeKind.COMMENT;\r\n\r\n /** Comment kind. */\r\n commentKind: CommentKind;\r\n /** Comment text. */\r\n text: string;\r\n}\r\n\r\n// expressions\r\n\r\n/** Base class of all expression nodes. */\r\nexport abstract class Expression extends Node { }\r\n\r\n/** Represents an identifier expression. */\r\nexport class IdentifierExpression extends Expression {\r\n kind = NodeKind.IDENTIFIER;\r\n\r\n /** Textual name. */\r\n text: string;\r\n /** Symbol. */\r\n symbol: string; // TODO: symbol\r\n /** Whether quoted or not. */\r\n isQuoted: bool;\r\n}\r\n\r\n/** Indicates the kind of a literal. */\r\nexport enum LiteralKind {\r\n FLOAT,\r\n INTEGER,\r\n STRING,\r\n REGEXP,\r\n ARRAY,\r\n OBJECT\r\n}\r\n\r\n/** Base class of all literal expressions. */\r\nexport abstract class LiteralExpression extends Expression {\r\n kind = NodeKind.LITERAL;\r\n\r\n /** Specific literal kind. */\r\n literalKind: LiteralKind;\r\n}\r\n\r\n/** Represents an `[]` literal expression. */\r\nexport class ArrayLiteralExpression extends LiteralExpression {\r\n literalKind = LiteralKind.ARRAY;\r\n\r\n /** Nested element expressions. */\r\n elementExpressions: (Expression | null)[];\r\n}\r\n\r\n/** Indicates the kind of an assertion. */\r\nexport enum AssertionKind {\r\n PREFIX,\r\n AS,\r\n NONNULL\r\n}\r\n\r\n/** Represents an assertion expression. */\r\nexport class AssertionExpression extends Expression {\r\n kind = NodeKind.ASSERTION;\r\n\r\n /** Specific kind of this assertion. */\r\n assertionKind: AssertionKind;\r\n /** Expression being asserted. */\r\n expression: Expression;\r\n /** Target type. */\r\n toType: CommonTypeNode | null;\r\n}\r\n\r\n/** Represents a binary expression. */\r\nexport class BinaryExpression extends Expression {\r\n kind = NodeKind.BINARY;\r\n\r\n /** Operator token. */\r\n operator: Token;\r\n /** Left-hand side expression */\r\n left: Expression;\r\n /** Right-hand side expression. */\r\n right: Expression;\r\n}\r\n\r\n/** Represents a call expression. */\r\nexport class CallExpression extends Expression {\r\n kind = NodeKind.CALL;\r\n\r\n /** Called expression. Usually an identifier or property access expression. */\r\n expression: Expression;\r\n /** Provided type arguments. */\r\n typeArguments: CommonTypeNode[] | null;\r\n /** Provided arguments. */\r\n arguments: Expression[];\r\n}\r\n\r\n/** Represents a class expression using the 'class' keyword. */\r\nexport class ClassExpression extends Expression {\r\n kind = NodeKind.CLASS;\r\n\r\n /** Inline class declaration. */\r\n declaration: ClassDeclaration;\r\n}\r\n\r\n/** Represents a comma expression composed of multiple expressions. */\r\nexport class CommaExpression extends Expression {\r\n kind = NodeKind.COMMA;\r\n\r\n /** Sequential expressions. */\r\n expressions: Expression[];\r\n}\r\n\r\n/** Represents a `constructor` expression. */\r\nexport class ConstructorExpression extends IdentifierExpression {\r\n kind = NodeKind.CONSTRUCTOR;\r\n text = \"constructor\";\r\n symbol = CommonSymbols.constructor;\r\n}\r\n\r\n/** Represents an element access expression, e.g., array access. */\r\nexport class ElementAccessExpression extends Expression {\r\n kind = NodeKind.ELEMENTACCESS;\r\n\r\n /** Expression being accessed. */\r\n expression: Expression;\r\n /** Element of the expression being accessed. */\r\n elementExpression: Expression;\r\n}\r\n\r\n/** Represents a float literal expression. */\r\nexport class FloatLiteralExpression extends LiteralExpression {\r\n literalKind = LiteralKind.FLOAT;\r\n\r\n /** Float value. */\r\n value: f64;\r\n}\r\n\r\n/** Represents a function expression using the 'function' keyword. */\r\nexport class FunctionExpression extends Expression {\r\n kind = NodeKind.FUNCTION;\r\n\r\n /** Inline function declaration. */\r\n declaration: FunctionDeclaration;\r\n}\r\n\r\n/** Represents an `instanceof` expression. */\r\nexport class InstanceOfExpression extends Expression {\r\n kind = NodeKind.INSTANCEOF;\r\n\r\n /** Expression being asserted. */\r\n expression: Expression;\r\n /** Type to test for. */\r\n isType: CommonTypeNode;\r\n}\r\n\r\n/** Represents an integer literal expression. */\r\nexport class IntegerLiteralExpression extends LiteralExpression {\r\n literalKind = LiteralKind.INTEGER;\r\n\r\n /** Integer value. */\r\n value: I64;\r\n}\r\n\r\n/** Represents a `new` expression. Like a call but with its own kind. */\r\nexport class NewExpression extends CallExpression {\r\n kind = NodeKind.NEW;\r\n}\r\n\r\n/** Represents a `null` expression. */\r\nexport class NullExpression extends IdentifierExpression {\r\n kind = NodeKind.NULL;\r\n text = \"null\";\r\n symbol = CommonSymbols.null_;\r\n}\r\n\r\n/** Represents an object literal expression. */\r\nexport class ObjectLiteralExpression extends LiteralExpression {\r\n literalKind = LiteralKind.OBJECT;\r\n\r\n /** Field names. */\r\n names: IdentifierExpression[];\r\n /** Field values. */\r\n values: Expression[];\r\n}\r\n\r\n/** Represents a parenthesized expression. */\r\nexport class ParenthesizedExpression extends Expression {\r\n kind = NodeKind.PARENTHESIZED;\r\n\r\n /** Expression in parenthesis. */\r\n expression: Expression;\r\n}\r\n\r\n/** Represents a property access expression. */\r\nexport class PropertyAccessExpression extends Expression {\r\n kind = NodeKind.PROPERTYACCESS;\r\n\r\n /** Expression being accessed. */\r\n expression: Expression;\r\n /** Property of the expression being accessed. */\r\n property: IdentifierExpression;\r\n}\r\n\r\n/** Represents a regular expression literal expression. */\r\nexport class RegexpLiteralExpression extends LiteralExpression {\r\n literalKind = LiteralKind.REGEXP;\r\n\r\n /** Regular expression pattern. */\r\n pattern: string;\r\n /** Regular expression flags. */\r\n patternFlags: string;\r\n}\r\n\r\n/** Represents a ternary expression, i.e., short if notation. */\r\nexport class TernaryExpression extends Expression {\r\n kind = NodeKind.TERNARY;\r\n\r\n /** Condition expression. */\r\n condition: Expression;\r\n /** Expression executed when condition is `true`. */\r\n ifThen: Expression;\r\n /** Expression executed when condition is `false`. */\r\n ifElse: Expression;\r\n}\r\n\r\n/** Represents a string literal expression. */\r\nexport class StringLiteralExpression extends LiteralExpression {\r\n literalKind = LiteralKind.STRING;\r\n\r\n /** String value without quotes. */\r\n value: string;\r\n}\r\n\r\n/** Represents a `super` expression. */\r\nexport class SuperExpression extends IdentifierExpression {\r\n kind = NodeKind.SUPER;\r\n text = \"super\";\r\n symbol = CommonSymbols.super_;\r\n}\r\n\r\n/** Represents a `this` expression. */\r\nexport class ThisExpression extends IdentifierExpression {\r\n kind = NodeKind.THIS;\r\n text = \"this\";\r\n symbol = CommonSymbols.this_;\r\n}\r\n\r\n/** Represents a `true` expression. */\r\nexport class TrueExpression extends IdentifierExpression {\r\n kind = NodeKind.TRUE;\r\n text = \"true\";\r\n symbol = CommonSymbols.true_;\r\n}\r\n\r\n/** Represents a `false` expression. */\r\nexport class FalseExpression extends IdentifierExpression {\r\n kind = NodeKind.FALSE;\r\n text = \"false\";\r\n symbol = CommonSymbols.false_;\r\n}\r\n\r\n/** Base class of all unary expressions. */\r\nexport abstract class UnaryExpression extends Expression {\r\n\r\n /** Operator token. */\r\n operator: Token;\r\n /** Operand expression. */\r\n operand: Expression;\r\n}\r\n\r\n/** Represents a unary postfix expression, e.g. a postfix increment. */\r\nexport class UnaryPostfixExpression extends UnaryExpression {\r\n kind = NodeKind.UNARYPOSTFIX;\r\n}\r\n\r\n/** Represents a unary prefix expression, e.g. a negation. */\r\nexport class UnaryPrefixExpression extends UnaryExpression {\r\n kind = NodeKind.UNARYPREFIX;\r\n}\r\n\r\n// statements\r\n\r\n/** Base class of all statement nodes. */\r\nexport abstract class Statement extends Node { }\r\n\r\n/** Indicates the specific kind of a source. */\r\nexport enum SourceKind {\r\n /** Default source. Usually imported from an entry file. */\r\n DEFAULT,\r\n /** Entry file. */\r\n ENTRY,\r\n /** Library file. */\r\n LIBRARY\r\n}\r\n\r\n/** A top-level source node. */\r\nexport class Source extends Node {\r\n kind = NodeKind.SOURCE;\r\n parent = null;\r\n\r\n /** Source kind. */\r\n sourceKind: SourceKind;\r\n /** Normalized path. */\r\n normalizedPath: string;\r\n /** Path used internally. */\r\n internalPath: string;\r\n /** Simple path (last part without extension). */\r\n simplePath: string;\r\n /** Contained statements. */\r\n statements: Statement[];\r\n /** Full source text. */\r\n text: string;\r\n /** Tokenizer reference. */\r\n tokenizer: Tokenizer | null = null;\r\n /** Source map index. */\r\n debugInfoIndex: i32 = -1;\r\n /** Re-exported sources. */\r\n exportPaths: Set | null = null;\r\n\r\n /** Constructs a new source node. */\r\n constructor(normalizedPath: string, text: string, kind: SourceKind) {\r\n super();\r\n this.sourceKind = kind;\r\n this.normalizedPath = normalizedPath;\r\n var internalPath = mangleInternalPath(this.normalizedPath);\r\n this.internalPath = internalPath;\r\n var pos = internalPath.lastIndexOf(PATH_DELIMITER);\r\n this.simplePath = pos >= 0 ? internalPath.substring(pos + 1) : internalPath;\r\n this.statements = new Array();\r\n this.range = new Range(this, 0, text.length);\r\n this.text = text;\r\n }\r\n\r\n /** Tests if this source is an entry file. */\r\n get isEntry(): bool { return this.sourceKind == SourceKind.ENTRY; }\r\n /** Tests if this source is a stdlib file. */\r\n get isLibrary(): bool { return this.sourceKind == SourceKind.LIBRARY; }\r\n}\r\n\r\n/** Base class of all declaration statements. */\r\nexport abstract class DeclarationStatement extends Statement {\r\n /** Simple name being declared. */\r\n name: IdentifierExpression;\r\n /** Array of decorators. */\r\n decorators: DecoratorNode[] | null = null;\r\n /** Common flags indicating specific traits. */\r\n flags: CommonFlags = CommonFlags.NONE;\r\n\r\n /** Tests if this node has the specified flag or flags. */\r\n is(flag: CommonFlags): bool { return (this.flags & flag) == flag; }\r\n /** Tests if this node has one of the specified flags. */\r\n isAny(flag: CommonFlags): bool { return (this.flags & flag) != 0; }\r\n /** Sets a specific flag or flags. */\r\n set(flag: CommonFlags): void { this.flags |= flag; }\r\n}\r\n\r\n/** Represents an index signature declaration. */\r\nexport class IndexSignatureDeclaration extends DeclarationStatement {\r\n kind = NodeKind.INDEXSIGNATUREDECLARATION;\r\n\r\n /** Key type. */\r\n keyType: TypeNode;\r\n /** Value type. */\r\n valueType: CommonTypeNode;\r\n}\r\n\r\n/** Base class of all variable-like declaration statements. */\r\nexport abstract class VariableLikeDeclarationStatement extends DeclarationStatement {\r\n\r\n /** Variable type. */\r\n type: CommonTypeNode | null;\r\n /** Variable initializer. */\r\n initializer: Expression | null;\r\n}\r\n\r\n/** Represents a block statement. */\r\nexport class BlockStatement extends Statement {\r\n kind = NodeKind.BLOCK;\r\n\r\n /** Contained statements. */\r\n statements: Statement[];\r\n}\r\n\r\n/** Represents a `break` statement. */\r\nexport class BreakStatement extends Statement {\r\n kind = NodeKind.BREAK;\r\n\r\n /** Target label, if applicable. */\r\n label: IdentifierExpression | null;\r\n}\r\n\r\n/** Represents a `class` declaration. */\r\nexport class ClassDeclaration extends DeclarationStatement {\r\n kind = NodeKind.CLASSDECLARATION;\r\n\r\n /** Accepted type parameters. */\r\n typeParameters: TypeParameterNode[] | null;\r\n /** Base class type being extended, if any. */\r\n extendsType: TypeNode | null; // can't be a function\r\n /** Interface types being implemented, if any. */\r\n implementsTypes: TypeNode[] | null; // can't be functions\r\n /** Class member declarations. */\r\n members: DeclarationStatement[];\r\n\r\n get isGeneric(): bool {\r\n var typeParameters = this.typeParameters;\r\n return typeParameters != null && typeParameters.length > 0;\r\n }\r\n}\r\n\r\n/** Represents a `continue` statement. */\r\nexport class ContinueStatement extends Statement {\r\n kind = NodeKind.CONTINUE;\r\n\r\n /** Target label, if applicable. */\r\n label: IdentifierExpression | null;\r\n}\r\n\r\n/** Represents a `do` statement. */\r\nexport class DoStatement extends Statement {\r\n kind = NodeKind.DO;\r\n\r\n /** Statement being looped over. */\r\n statement: Statement;\r\n /** Condition when to repeat. */\r\n condition: Expression;\r\n}\r\n\r\n/** Represents an empty statement, i.e., a semicolon terminating nothing. */\r\nexport class EmptyStatement extends Statement {\r\n kind = NodeKind.EMPTY;\r\n}\r\n\r\n/** Represents an `enum` declaration. */\r\nexport class EnumDeclaration extends DeclarationStatement {\r\n kind = NodeKind.ENUMDECLARATION;\r\n\r\n /** Enum value declarations. */\r\n values: EnumValueDeclaration[];\r\n}\r\n\r\n/** Represents a value of an `enum` declaration. */\r\nexport class EnumValueDeclaration extends VariableLikeDeclarationStatement {\r\n kind = NodeKind.ENUMVALUEDECLARATION;\r\n // name is inherited\r\n\r\n /** Value expression. */\r\n value: Expression | null;\r\n}\r\n\r\n/** Represents an `export import` statement of an interface. */\r\nexport class ExportImportStatement extends Node {\r\n kind = NodeKind.EXPORTIMPORT;\r\n\r\n /** Identifier being imported. */\r\n name: IdentifierExpression;\r\n /** Identifier being exported. */\r\n externalName: IdentifierExpression;\r\n}\r\n\r\n/** Represents a member of an `export` statement. */\r\nexport class ExportMember extends Node {\r\n kind = NodeKind.EXPORTMEMBER;\r\n\r\n /** Local identifier. */\r\n localName: IdentifierExpression;\r\n /** Exported identifier. */\r\n exportedName: IdentifierExpression;\r\n}\r\n\r\n/** Represents an `export` statement. */\r\nexport class ExportStatement extends Statement {\r\n kind = NodeKind.EXPORT;\r\n\r\n /** Array of members if a set of named exports, or `null` if a file export. */\r\n members: ExportMember[] | null;\r\n /** Path being exported from, if applicable. */\r\n path: StringLiteralExpression | null;\r\n /** Normalized path, if `path` is set. */\r\n normalizedPath: string | null;\r\n /** Mangled internal path being referenced, if `path` is set. */\r\n internalPath: string | null;\r\n /** Whether this is a declared export. */\r\n isDeclare: bool;\r\n}\r\n\r\n/** Represents an expression that is used as a statement. */\r\nexport class ExpressionStatement extends Statement {\r\n kind = NodeKind.EXPRESSION;\r\n\r\n /** Expression being used as a statement.*/\r\n expression: Expression;\r\n}\r\n\r\n/** Represents a field declaration within a `class`. */\r\nexport class FieldDeclaration extends VariableLikeDeclarationStatement {\r\n kind = NodeKind.FIELDDECLARATION;\r\n\r\n /** Parameter index if declared as a constructor parameter, otherwise `-1`. */\r\n parameterIndex: i32 = -1;\r\n}\r\n\r\n/** Represents a `for` statement. */\r\nexport class ForStatement extends Statement {\r\n kind = NodeKind.FOR;\r\n\r\n /**\r\n * Initializer statement, if present.\r\n * Either a {@link VariableStatement} or {@link ExpressionStatement}.\r\n */\r\n initializer: Statement | null;\r\n /** Condition expression, if present. */\r\n condition: Expression | null;\r\n /** Incrementor expression, if present. */\r\n incrementor: Expression | null;\r\n /** Statement being looped over. */\r\n statement: Statement;\r\n}\r\n\r\n/** Indicates the kind of an array function. */\r\nexport const enum ArrowKind {\r\n /** Not an arrow function. */\r\n NONE,\r\n /** Parenthesized parameter list. */\r\n ARROW_PARENTHESIZED,\r\n /** Single parameter without parenthesis. */\r\n ARROW_SINGLE\r\n}\r\n\r\n/** Represents a `function` declaration. */\r\nexport class FunctionDeclaration extends DeclarationStatement {\r\n kind = NodeKind.FUNCTIONDECLARATION;\r\n\r\n /** Type parameters, if any. */\r\n typeParameters: TypeParameterNode[] | null;\r\n /** Function signature. */\r\n signature: SignatureNode;\r\n /** Body statement. Usually a block. */\r\n body: Statement | null;\r\n /** Arrow function kind, if applicable. */\r\n arrowKind: ArrowKind;\r\n\r\n get isGeneric(): bool {\r\n var typeParameters = this.typeParameters;\r\n return typeParameters != null && typeParameters.length > 0;\r\n }\r\n\r\n /** Clones this function declaration. */\r\n clone(): FunctionDeclaration {\r\n return Node.createFunctionDeclaration(\r\n this.name,\r\n this.typeParameters,\r\n this.signature,\r\n this.body,\r\n this.decorators,\r\n this.flags,\r\n this.arrowKind,\r\n this.range\r\n );\r\n }\r\n}\r\n\r\n/** Represents an `if` statement. */\r\nexport class IfStatement extends Statement {\r\n kind = NodeKind.IF;\r\n\r\n /** Condition. */\r\n condition: Expression;\r\n /** Statement executed when condition is `true`. */\r\n ifTrue: Statement;\r\n /** Statement executed when condition is `false`. */\r\n ifFalse: Statement | null;\r\n}\r\n\r\n/** Represents an `import` declaration part of an {@link ImportStatement}. */\r\nexport class ImportDeclaration extends DeclarationStatement {\r\n kind = NodeKind.IMPORTDECLARATION;\r\n\r\n /** Identifier being imported. */\r\n foreignName: IdentifierExpression;\r\n}\r\n\r\n/** Represents an `import` statement. */\r\nexport class ImportStatement extends Statement {\r\n kind = NodeKind.IMPORT;\r\n\r\n /** Array of member declarations or `null` if an asterisk import. */\r\n declarations: ImportDeclaration[] | null;\r\n /** Name of the local namespace, if an asterisk import. */\r\n namespaceName: IdentifierExpression | null;\r\n /** Path being imported from. */\r\n path: StringLiteralExpression;\r\n /** Normalized path. */\r\n normalizedPath: string;\r\n /** Mangled internal path being referenced. */\r\n internalPath: string;\r\n}\r\n\r\n/** Represents an `interfarce` declaration. */\r\nexport class InterfaceDeclaration extends ClassDeclaration {\r\n kind = NodeKind.INTERFACEDECLARATION;\r\n}\r\n\r\n/** Represents a method declaration within a `class`. */\r\nexport class MethodDeclaration extends FunctionDeclaration {\r\n kind = NodeKind.METHODDECLARATION;\r\n}\r\n\r\n/** Represents a `namespace` declaration. */\r\nexport class NamespaceDeclaration extends DeclarationStatement {\r\n kind = NodeKind.NAMESPACEDECLARATION;\r\n\r\n /** Array of namespace members. */\r\n members: Statement[];\r\n}\r\n\r\n/** Represents a `return` statement. */\r\nexport class ReturnStatement extends Statement {\r\n kind = NodeKind.RETURN;\r\n\r\n /** Value expression being returned, if present. */\r\n value: Expression | null;\r\n}\r\n\r\n/** Represents a single `case` within a `switch` statement. */\r\nexport class SwitchCase extends Node {\r\n kind = NodeKind.SWITCHCASE;\r\n\r\n /** Label expression. `null` indicates the default case. */\r\n label: Expression | null;\r\n /** Contained statements. */\r\n statements: Statement[];\r\n}\r\n\r\n/** Represents a `switch` statement. */\r\nexport class SwitchStatement extends Statement {\r\n kind = NodeKind.SWITCH;\r\n\r\n /** Condition expression. */\r\n condition: Expression;\r\n /** Contained cases. */\r\n cases: SwitchCase[];\r\n}\r\n\r\n/** Represents a `throw` statement. */\r\nexport class ThrowStatement extends Statement {\r\n kind = NodeKind.THROW;\r\n\r\n /** Value expression being thrown. */\r\n value: Expression;\r\n}\r\n\r\n/** Represents a `try` statement. */\r\nexport class TryStatement extends Statement {\r\n kind = NodeKind.TRY;\r\n\r\n /** Contained statements. */\r\n statements: Statement[];\r\n /** Exception variable name, if a `catch` clause is present. */\r\n catchVariable: IdentifierExpression | null;\r\n /** Statements being executed on catch, if a `catch` clause is present. */\r\n catchStatements: Statement[] | null;\r\n /** Statements being executed afterwards, if a `finally` clause is present. */\r\n finallyStatements: Statement[] | null;\r\n}\r\n\r\n/** Represents a `type` declaration. */\r\nexport class TypeDeclaration extends DeclarationStatement {\r\n kind = NodeKind.TYPEDECLARATION;\r\n\r\n /** Type parameters, if any. */\r\n typeParameters: TypeParameterNode[] | null;\r\n /** Type being aliased. */\r\n type: CommonTypeNode;\r\n}\r\n\r\n/** Represents a variable declaration part of a {@link VariableStatement}. */\r\nexport class VariableDeclaration extends VariableLikeDeclarationStatement {\r\n kind = NodeKind.VARIABLEDECLARATION;\r\n}\r\n\r\n/** Represents a variable statement wrapping {@link VariableDeclaration}s. */\r\nexport class VariableStatement extends Statement {\r\n kind = NodeKind.VARIABLE;\r\n\r\n /** Array of decorators. */\r\n decorators: DecoratorNode[] | null;\r\n /** Array of member declarations. */\r\n declarations: VariableDeclaration[];\r\n}\r\n\r\n/** Represents a void statement dropping an expression's value. */\r\nexport class VoidStatement extends Statement {\r\n kind = NodeKind.VOID;\r\n\r\n /** Expression being dropped. */\r\n expression: Expression;\r\n}\r\n\r\n/** Represents a `while` statement. */\r\nexport class WhileStatement extends Statement {\r\n kind = NodeKind.WHILE;\r\n\r\n /** Condition expression. */\r\n condition: Expression;\r\n /** Statement being looped over. */\r\n statement: Statement;\r\n}\r\n\r\n/** Finds the first decorator matching the specified kind. */\r\nexport function findDecorator(kind: DecoratorKind, decorators: DecoratorNode[] | null): DecoratorNode | null {\r\n if (decorators) {\r\n for (let i = 0, k = decorators.length; i < k; ++i) {\r\n let decorator = decorators[i];\r\n if (decorator.decoratorKind == kind) return decorator;\r\n }\r\n }\r\n return null;\r\n}\r\n\r\n/** Mangles an external to an internal path. */\r\nexport function mangleInternalPath(path: string): string {\r\n if (path.endsWith(\".ts\")) path = path.substring(0, path.length - 3);\r\n return path;\r\n}\r\n\r\n/** Tests if the specified type node represents an omitted type. */\r\nexport function isTypeOmitted(type: CommonTypeNode): bool {\r\n if (type.kind == NodeKind.TYPE) {\r\n let name = (type).name;\r\n return !(name.next || name.identifier.text.length);\r\n }\r\n return false;\r\n}\r\n","/**\r\n * Mappings from AssemblyScript types to WebAssembly types.\r\n * @module types\r\n *//***/\r\n\r\nimport {\r\n Class,\r\n FunctionTarget,\r\n Program,\r\n DecoratorFlags\r\n} from \"./program\";\r\n\r\nimport {\r\n NativeType,\r\n ExpressionRef,\r\n Module\r\n} from \"./module\";\r\n\r\n/** Indicates the kind of a type. */\r\nexport const enum TypeKind {\r\n\r\n // signed integers\r\n\r\n /** An 8-bit signed integer. */\r\n I8,\r\n /** A 16-bit signed integer. */\r\n I16,\r\n /** A 32-bit signed integer. */\r\n I32,\r\n /** A 64-bit signed integer. */\r\n I64,\r\n /** A 32-bit/64-bit signed integer, depending on the target. */\r\n ISIZE,\r\n\r\n // unsigned integers\r\n\r\n /** An 8-bit unsigned integer. */\r\n U8,\r\n /** A 16-bit unsigned integer. */\r\n U16,\r\n /** A 32-bit unsigned integer. Also the base of function types. */\r\n U32,\r\n /** A 64-bit unsigned integer. */\r\n U64,\r\n /** A 32-bit/64-bit unsigned integer, depending on the target. Also the base of class types. */\r\n USIZE,\r\n /** A 1-bit unsigned integer. */\r\n BOOL, // sic\r\n\r\n // floats\r\n\r\n /** A 32-bit float. */\r\n F32,\r\n /** A 64-bit double. */\r\n F64,\r\n\r\n // vectors\r\n\r\n /** A 128-bit vector. */\r\n V128,\r\n\r\n // other\r\n\r\n /** No return type. */\r\n VOID\r\n}\r\n\r\n/** Indicates capabilities of a type. */\r\nexport const enum TypeFlags {\r\n NONE = 0,\r\n /** Is a signed type that can represent negative values. */\r\n SIGNED = 1 << 0,\r\n /** Is an unsigned type that cannot represent negative values. */\r\n UNSIGNED = 1 << 1,\r\n /** Is an integer type. */\r\n INTEGER = 1 << 2,\r\n /** Is a floating point type. */\r\n FLOAT = 1 << 3,\r\n /** Is a pointer type. */\r\n POINTER = 1 << 4,\r\n /** Is smaller than 32-bits. */\r\n SHORT = 1 << 5,\r\n /** Is larger than 32-bits. */\r\n LONG = 1 << 6,\r\n /** Is a value type. */\r\n VALUE = 1 << 7,\r\n /** Is a reference type. */\r\n REFERENCE = 1 << 8,\r\n /** Is a nullable type. */\r\n NULLABLE = 1 << 9,\r\n /** Is a vector type. */\r\n VECTOR = 1 << 10\r\n}\r\n\r\nconst v128_zero = new Uint8Array(16);\r\n\r\n/** Represents a resolved type. */\r\nexport class Type {\r\n\r\n /** Type kind. */\r\n kind: TypeKind;\r\n /** Type flags. */\r\n flags: TypeFlags;\r\n /** Size in bits. */\r\n size: u32;\r\n /** Size in bytes. */\r\n byteSize: i32;\r\n /** Underlying class reference, if a class type. */\r\n classReference: Class | null;\r\n /** Underlying signature reference, if a function type. */\r\n signatureReference: Signature | null;\r\n /** Respective non-nullable type, if nullable. */\r\n nonNullableType: Type;\r\n /** Cached nullable type, if non-nullable. */\r\n private cachedNullableType: Type | null = null;\r\n\r\n /** Constructs a new resolved type. */\r\n constructor(kind: TypeKind, flags: TypeFlags, size: u32) {\r\n this.kind = kind;\r\n this.flags = flags;\r\n this.size = size;\r\n this.byteSize = ceil(size / 8);\r\n this.classReference = null;\r\n this.signatureReference = null;\r\n this.nonNullableType = this;\r\n }\r\n\r\n /** Returns the closest int type representing this type. */\r\n get intType(): Type {\r\n switch (this.kind) {\r\n case TypeKind.I8: return Type.i8;\r\n case TypeKind.I16: return Type.i16;\r\n case TypeKind.F32:\r\n case TypeKind.I32: return Type.i32;\r\n case TypeKind.F64:\r\n case TypeKind.I64: return Type.i64;\r\n case TypeKind.ISIZE: return this.size == 64 ? Type.isize64 : Type.isize32;\r\n case TypeKind.U8: return Type.u8;\r\n case TypeKind.U16: return Type.u16;\r\n case TypeKind.U32: return Type.u32;\r\n case TypeKind.U64: return Type.u64;\r\n case TypeKind.USIZE: return this.size == 64 ? Type.usize64 : Type.usize32;\r\n case TypeKind.BOOL:\r\n default: return Type.i32;\r\n }\r\n }\r\n\r\n /** Tests if this is a managed type that needs GC hooks. */\r\n isManaged(program: Program): bool {\r\n if (program.hasGC) {\r\n let classReference = this.classReference;\r\n return classReference !== null && !classReference.hasDecorator(DecoratorFlags.UNMANAGED);\r\n }\r\n return false;\r\n }\r\n\r\n /** Computes the sign-extending shift in the target type. */\r\n computeSmallIntegerShift(targetType: Type): u32 {\r\n return targetType.size - this.size;\r\n }\r\n\r\n /** Computes the truncating mask in the target type. */\r\n computeSmallIntegerMask(targetType: Type): u32 {\r\n var size = this.is(TypeFlags.UNSIGNED) ? this.size : this.size - 1;\r\n return ~0 >>> (targetType.size - size);\r\n }\r\n\r\n /** Tests if this type has (all of) the specified flags. */\r\n is(flags: TypeFlags): bool { return (this.flags & flags) == flags; }\r\n /** Tests if this type has any of the specified flags. */\r\n isAny(flags: TypeFlags): bool { return (this.flags & flags) != 0; }\r\n\r\n /** Composes a class type from this type and a class. */\r\n asClass(classType: Class): Type {\r\n assert(this.kind == TypeKind.USIZE && !this.classReference);\r\n var ret = new Type(this.kind, this.flags & ~TypeFlags.VALUE | TypeFlags.REFERENCE, this.size);\r\n ret.classReference = classType;\r\n return ret;\r\n }\r\n\r\n /** Composes a function type from this type and a function. */\r\n asFunction(signature: Signature): Type {\r\n assert(this.kind == TypeKind.U32 && !this.signatureReference);\r\n var ret = new Type(this.kind, this.flags & ~TypeFlags.VALUE | TypeFlags.REFERENCE, this.size);\r\n ret.signatureReference = signature;\r\n return ret;\r\n }\r\n\r\n /** Composes the respective nullable type of this type. */\r\n asNullable(): Type {\r\n assert(this.is(TypeFlags.REFERENCE));\r\n if (!this.cachedNullableType) {\r\n assert(!this.is(TypeFlags.NULLABLE));\r\n this.cachedNullableType = new Type(this.kind, this.flags | TypeFlags.NULLABLE, this.size);\r\n this.cachedNullableType.nonNullableType = this;\r\n this.cachedNullableType.classReference = this.classReference; // either a class reference\r\n this.cachedNullableType.signatureReference = this.signatureReference; // or a function reference\r\n }\r\n return this.cachedNullableType;\r\n }\r\n\r\n /** Tests if a value of this type is assignable to the target type incl. implicit conversion. */\r\n isAssignableTo(target: Type, signednessIsRelevant: bool = false): bool {\r\n var currentClass: Class | null;\r\n var targetClass: Class | null;\r\n var currentFunction: Signature | null;\r\n var targetFunction: Signature | null;\r\n if (this.is(TypeFlags.REFERENCE)) {\r\n if (target.is(TypeFlags.REFERENCE)) {\r\n if (!this.is(TypeFlags.NULLABLE) || target.is(TypeFlags.NULLABLE)) {\r\n if (currentClass = this.classReference) {\r\n if (targetClass = target.classReference) {\r\n return currentClass.isAssignableTo(targetClass);\r\n }\r\n } else if (currentFunction = this.signatureReference) {\r\n if (targetFunction = target.signatureReference) {\r\n return currentFunction.isAssignableTo(targetFunction);\r\n }\r\n }\r\n }\r\n }\r\n } else if (!target.is(TypeFlags.REFERENCE)) {\r\n if (this.is(TypeFlags.INTEGER)) {\r\n if (target.is(TypeFlags.INTEGER)) {\r\n if (\r\n !signednessIsRelevant ||\r\n this == Type.bool || // a bool (0 or 1) can be safely assigned to all sorts of integers\r\n this.is(TypeFlags.SIGNED) == target.is(TypeFlags.SIGNED)\r\n ) {\r\n return this.size <= target.size;\r\n }\r\n } else if (target.kind == TypeKind.F32) {\r\n return this.size <= 23; // mantissa bits\r\n } else if (target.kind == TypeKind.F64) {\r\n return this.size <= 52; // ^\r\n }\r\n } else if (this.is(TypeFlags.FLOAT)) {\r\n if (target.is(TypeFlags.FLOAT)) {\r\n return this.size <= target.size;\r\n }\r\n } else if (this.is(TypeFlags.VECTOR)) {\r\n if (target.is(TypeFlags.VECTOR)) {\r\n return this.size == target.size;\r\n }\r\n }\r\n }\r\n return false;\r\n }\r\n\r\n /** Tests if a value of this type is assignable to the target type excl. implicit conversion. */\r\n isStrictlyAssignableTo(target: Type, signednessIsRelevant: bool = false): bool {\r\n if (this.is(TypeFlags.REFERENCE)) return this.isAssignableTo(target);\r\n else if (target.is(TypeFlags.REFERENCE)) return false;\r\n if (this.is(TypeFlags.INTEGER)) {\r\n return target.is(TypeFlags.INTEGER) && target.size == this.size && (\r\n !signednessIsRelevant || this.is(TypeFlags.SIGNED) == target.is(TypeFlags.SIGNED)\r\n );\r\n }\r\n return this.kind == target.kind;\r\n }\r\n\r\n /** Determines the common denominator type of two types, if there is any. */\r\n static commonDenominator(left: Type, right: Type, signednessIsImportant: bool): Type | null {\r\n if (right.isAssignableTo(left, signednessIsImportant)) return left;\r\n else if (left.isAssignableTo(right, signednessIsImportant)) return right;\r\n return null;\r\n }\r\n\r\n /** Converts this type to its TypeScript representation. */\r\n toString(kindOnly: bool = false): string {\r\n if (!kindOnly && this.is(TypeFlags.REFERENCE)) {\r\n let classReference = this.classReference;\r\n if (classReference) {\r\n return this.is(TypeFlags.NULLABLE)\r\n ? classReference.name + \" | null\"\r\n : classReference.name;\r\n }\r\n let signatureReference = this.signatureReference;\r\n if (signatureReference) {\r\n return this.is(TypeFlags.NULLABLE)\r\n ? \"(\" + signatureReference.toString(true) + \") | null\"\r\n : signatureReference.toString(true);\r\n }\r\n assert(false);\r\n }\r\n switch (this.kind) {\r\n case TypeKind.I8: return \"i8\";\r\n case TypeKind.I16: return \"i16\";\r\n case TypeKind.I32: return \"i32\";\r\n case TypeKind.I64: return \"i64\";\r\n case TypeKind.ISIZE: return \"isize\";\r\n case TypeKind.U8: return \"u8\";\r\n case TypeKind.U16: return \"u16\";\r\n case TypeKind.U32: return \"u32\";\r\n case TypeKind.U64: return \"u64\";\r\n case TypeKind.USIZE: return \"usize\";\r\n case TypeKind.BOOL: return \"bool\";\r\n case TypeKind.F32: return \"f32\";\r\n case TypeKind.F64: return \"f64\";\r\n case TypeKind.V128: return \"v128\";\r\n default: assert(false);\r\n case TypeKind.VOID: return \"void\";\r\n }\r\n }\r\n\r\n // Binaryen specific\r\n\r\n /** Converts this type to its respective native type. */\r\n toNativeType(): NativeType {\r\n switch (this.kind) {\r\n default: return NativeType.I32;\r\n case TypeKind.I64:\r\n case TypeKind.U64: return NativeType.I64;\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: return this.size == 64 ? NativeType.I64 : NativeType.I32;\r\n case TypeKind.F32: return NativeType.F32;\r\n case TypeKind.F64: return NativeType.F64;\r\n case TypeKind.V128: return NativeType.V128;\r\n case TypeKind.VOID: return NativeType.None;\r\n }\r\n }\r\n\r\n /** Converts this type to its native `0` value. */\r\n toNativeZero(module: Module): ExpressionRef {\r\n switch (this.kind) {\r\n case TypeKind.VOID: assert(false);\r\n default: return module.createI32(0);\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: if (this.size != 64) return module.createI32(0);\r\n case TypeKind.I64:\r\n case TypeKind.U64: return module.createI64(0);\r\n case TypeKind.F32: return module.createF32(0);\r\n case TypeKind.F64: return module.createF64(0);\r\n case TypeKind.V128: return module.createV128(v128_zero);\r\n }\r\n }\r\n\r\n /** Converts this type to its native `1` value. */\r\n toNativeOne(module: Module): ExpressionRef {\r\n switch (this.kind) {\r\n case TypeKind.V128:\r\n case TypeKind.VOID: assert(false);\r\n default: return module.createI32(1);\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: if (this.size != 64) return module.createI32(1);\r\n case TypeKind.I64:\r\n case TypeKind.U64: return module.createI64(1);\r\n case TypeKind.F32: return module.createF32(1);\r\n case TypeKind.F64: return module.createF64(1);\r\n }\r\n }\r\n\r\n /** Converts this type to its native `-1` value. */\r\n toNativeNegOne(module: Module): ExpressionRef {\r\n switch (this.kind) {\r\n case TypeKind.V128:\r\n case TypeKind.VOID: assert(false);\r\n default: return module.createI32(-1);\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: if (this.size != 64) return module.createI32(-1);\r\n case TypeKind.I64:\r\n case TypeKind.U64: return module.createI64(-1, -1);\r\n case TypeKind.F32: return module.createF32(-1);\r\n case TypeKind.F64: return module.createF64(-1);\r\n }\r\n }\r\n\r\n /** Converts this type to its signature string. */\r\n toSignatureString(): string {\r\n switch (this.kind) {\r\n default: return \"i\";\r\n case TypeKind.I64:\r\n case TypeKind.U64: return \"I\";\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: return this.size == 64 ? \"I\" : \"i\";\r\n case TypeKind.F32: return \"f\";\r\n case TypeKind.F64: return \"F\";\r\n case TypeKind.V128: return \"v\";\r\n case TypeKind.VOID: return \"_\";\r\n }\r\n }\r\n\r\n // Types\r\n\r\n /** An 8-bit signed integer. */\r\n static readonly i8: Type = new Type(TypeKind.I8,\r\n TypeFlags.SIGNED |\r\n TypeFlags.SHORT |\r\n TypeFlags.INTEGER |\r\n TypeFlags.VALUE, 8\r\n );\r\n\r\n /** A 16-bit signed integer. */\r\n static readonly i16: Type = new Type(TypeKind.I16,\r\n TypeFlags.SIGNED |\r\n TypeFlags.SHORT |\r\n TypeFlags.INTEGER |\r\n TypeFlags.VALUE, 16\r\n );\r\n\r\n /** A 32-bit signed integer. */\r\n static readonly i32: Type = new Type(TypeKind.I32,\r\n TypeFlags.SIGNED |\r\n TypeFlags.INTEGER |\r\n TypeFlags.VALUE, 32\r\n );\r\n\r\n /** A 64-bit signed integer. */\r\n static readonly i64: Type = new Type(TypeKind.I64,\r\n TypeFlags.SIGNED |\r\n TypeFlags.LONG |\r\n TypeFlags.INTEGER |\r\n TypeFlags.VALUE, 64\r\n );\r\n\r\n /** A 32-bit signed size. WASM32 only. */\r\n static readonly isize32: Type = new Type(TypeKind.ISIZE,\r\n TypeFlags.SIGNED |\r\n TypeFlags.INTEGER |\r\n TypeFlags.POINTER |\r\n TypeFlags.VALUE, 32\r\n );\r\n\r\n /** A 64-bit signed size. WASM64 only. */\r\n static readonly isize64: Type = new Type(TypeKind.ISIZE,\r\n TypeFlags.SIGNED |\r\n TypeFlags.LONG |\r\n TypeFlags.INTEGER |\r\n TypeFlags.POINTER |\r\n TypeFlags.VALUE, 64\r\n );\r\n\r\n /** An 8-bit unsigned integer. */\r\n static readonly u8: Type = new Type(TypeKind.U8,\r\n TypeFlags.UNSIGNED |\r\n TypeFlags.SHORT |\r\n TypeFlags.INTEGER |\r\n TypeFlags.VALUE, 8\r\n );\r\n\r\n /** A 16-bit unsigned integer. */\r\n static readonly u16: Type = new Type(TypeKind.U16,\r\n TypeFlags.UNSIGNED |\r\n TypeFlags.SHORT |\r\n TypeFlags.INTEGER |\r\n TypeFlags.VALUE, 16\r\n );\r\n\r\n /** A 32-bit unsigned integer. */\r\n static readonly u32: Type = new Type(TypeKind.U32,\r\n TypeFlags.UNSIGNED |\r\n TypeFlags.INTEGER |\r\n TypeFlags.VALUE, 32\r\n );\r\n\r\n /** A 64-bit unsigned integer. */\r\n static readonly u64: Type = new Type(TypeKind.U64,\r\n TypeFlags.UNSIGNED |\r\n TypeFlags.LONG |\r\n TypeFlags.INTEGER |\r\n TypeFlags.VALUE, 64\r\n );\r\n\r\n /** A 32-bit unsigned size. WASM32 only. */\r\n static readonly usize32: Type = new Type(TypeKind.USIZE,\r\n TypeFlags.UNSIGNED |\r\n TypeFlags.INTEGER |\r\n TypeFlags.POINTER |\r\n TypeFlags.VALUE, 32\r\n );\r\n\r\n /** A 64-bit unsigned size. WASM64 only. */\r\n static readonly usize64: Type = new Type(TypeKind.USIZE,\r\n TypeFlags.UNSIGNED |\r\n TypeFlags.LONG |\r\n TypeFlags.INTEGER |\r\n TypeFlags.POINTER |\r\n TypeFlags.VALUE, 64\r\n );\r\n\r\n /** A 1-bit unsigned integer. */\r\n static readonly bool: Type = new Type(TypeKind.BOOL,\r\n TypeFlags.UNSIGNED |\r\n TypeFlags.SHORT |\r\n TypeFlags.INTEGER |\r\n TypeFlags.VALUE, 1\r\n );\r\n\r\n /** A 32-bit float. */\r\n static readonly f32: Type = new Type(TypeKind.F32,\r\n TypeFlags.SIGNED |\r\n TypeFlags.FLOAT |\r\n TypeFlags.VALUE, 32\r\n );\r\n\r\n /** A 64-bit float. */\r\n static readonly f64: Type = new Type(TypeKind.F64,\r\n TypeFlags.SIGNED |\r\n TypeFlags.LONG |\r\n TypeFlags.FLOAT |\r\n TypeFlags.VALUE, 64\r\n );\r\n\r\n /** A 128-bit vector. */\r\n static readonly v128: Type = new Type(TypeKind.V128,\r\n TypeFlags.VECTOR |\r\n TypeFlags.VALUE, 128\r\n );\r\n\r\n /** No return type. */\r\n static readonly void: Type = new Type(TypeKind.VOID, TypeFlags.NONE, 0);\r\n}\r\n\r\n/** Converts an array of types to an array of native types. */\r\nexport function typesToNativeTypes(types: Type[]): NativeType[] {\r\n var numTypes = types.length;\r\n var ret = new Array(numTypes);\r\n for (let i = 0; i < numTypes; ++i) ret[i] = types[i].toNativeType();\r\n return ret;\r\n}\r\n\r\n/** Converts an array of types to its combined string representation. */\r\nexport function typesToString(types: Type[]): string {\r\n var numTypes = types.length;\r\n if (!numTypes) return \"\";\r\n var sb = new Array(numTypes);\r\n for (let i = 0; i < numTypes; ++i) sb[i] = types[i].toString();\r\n return sb.join(\",\");\r\n}\r\n\r\n/** Represents a fully resolved function signature. */\r\nexport class Signature {\r\n\r\n /** Parameter types, if any, excluding `this`. */\r\n parameterTypes: Type[];\r\n /** Parameter names, if known, excluding `this`. */\r\n parameterNames: string[] | null;\r\n /** Number of required parameters excluding `this`. Other parameters are considered optional. */\r\n requiredParameters: i32;\r\n /** Return type. */\r\n returnType: Type;\r\n /** This type, if an instance signature. */\r\n thisType: Type | null;\r\n /** Whether the last parameter is a rest parameter. */\r\n hasRest: bool;\r\n /** Cached {@link FunctionTarget}. */\r\n cachedFunctionTarget: FunctionTarget | null = null;\r\n /** Respective function type. */\r\n type: Type;\r\n\r\n /** Constructs a new signature. */\r\n constructor(\r\n parameterTypes: Type[] | null = null,\r\n returnType: Type | null = null,\r\n thisType: Type | null = null\r\n ) {\r\n this.parameterTypes = parameterTypes ? parameterTypes : [];\r\n this.parameterNames = null;\r\n this.requiredParameters = 0;\r\n this.returnType = returnType ? returnType : Type.void;\r\n this.thisType = thisType;\r\n this.hasRest = false;\r\n this.type = Type.u32.asFunction(this);\r\n }\r\n\r\n asFunctionTarget(program: Program): FunctionTarget {\r\n var target = this.cachedFunctionTarget;\r\n if (!target) this.cachedFunctionTarget = target = new FunctionTarget(this, program);\r\n else assert(target.program == program);\r\n return target;\r\n }\r\n\r\n /** Gets the known or, alternatively, generic parameter name at the specified index. */\r\n getParameterName(index: i32): string {\r\n var parameterNames = this.parameterNames;\r\n return parameterNames && parameterNames.length > index\r\n ? parameterNames[index]\r\n : getDefaultParameterName(index);\r\n }\r\n\r\n /** Tests if a value of this function type is assignable to a target of the specified function type. */\r\n isAssignableTo(target: Signature): bool {\r\n // TODO: maybe cache results?\r\n\r\n // check `this` type\r\n var thisThisType = this.thisType;\r\n var targetThisType = target.thisType;\r\n if (thisThisType) {\r\n if (!(targetThisType && thisThisType.isAssignableTo(targetThisType))) return false;\r\n } else if (targetThisType) {\r\n return false;\r\n }\r\n\r\n // check rest parameter\r\n if (this.hasRest != target.hasRest) return false; // TODO\r\n\r\n // check parameter types\r\n var thisParameterTypes = this.parameterTypes;\r\n var targetParameterTypes = target.parameterTypes;\r\n var numParameters = thisParameterTypes.length;\r\n if (numParameters != targetParameterTypes.length) return false;\r\n for (let i = 0; i < numParameters; ++i) {\r\n let thisParameterType = thisParameterTypes[i];\r\n let targetParameterType = targetParameterTypes[i];\r\n if (!thisParameterType.isAssignableTo(targetParameterType)) return false;\r\n }\r\n\r\n // check return type\r\n var thisReturnType = this.returnType;\r\n var targetReturnType = target.returnType;\r\n return thisReturnType == targetReturnType || thisReturnType.isAssignableTo(targetReturnType);\r\n }\r\n\r\n /** Converts a signature to a function type string. */\r\n static makeSignatureString(parameterTypes: Type[] | null, returnType: Type, thisType: Type | null = null): string {\r\n var sb = [];\r\n if (thisType) sb.push(thisType.toSignatureString());\r\n if (parameterTypes) {\r\n for (let i = 0, k = parameterTypes.length; i < k; ++i) sb.push(parameterTypes[i].toSignatureString());\r\n }\r\n sb.push(returnType.toSignatureString());\r\n return sb.join(\"\");\r\n }\r\n\r\n /** Converts this signature to a function type string. */\r\n toSignatureString(): string {\r\n return Signature.makeSignatureString(this.parameterTypes, this.returnType, this.thisType);\r\n }\r\n\r\n /** Converts this signature to a string. */\r\n toString(includeThis: bool = false): string {\r\n var sb = new Array();\r\n sb.push(\"(\");\r\n var index = 0;\r\n var thisType = this.thisType;\r\n if (thisType) {\r\n if (includeThis) {\r\n sb.push(\"this: \");\r\n sb.push(thisType.toString());\r\n index = 1;\r\n }\r\n }\r\n var parameters = this.parameterTypes;\r\n var numParameters = parameters.length;\r\n if (numParameters) {\r\n let names = this.parameterNames;\r\n let numNames = names ? names.length : 0;\r\n let optionalStart = this.requiredParameters;\r\n let restIndex = this.hasRest ? numParameters - 1 : -1;\r\n for (let i = 0; i < numParameters; ++i, ++index) {\r\n if (index) sb.push(\", \");\r\n if (i == restIndex) sb.push(\"...\");\r\n if (i < numNames) sb.push((names)[i]);\r\n else sb.push(getDefaultParameterName(i));\r\n if (i >= optionalStart && i != restIndex) sb.push(\"?: \");\r\n else sb.push(\": \");\r\n sb.push(parameters[i].toString());\r\n }\r\n }\r\n sb.push(\") => \");\r\n sb.push(this.returnType.toString());\r\n return sb.join(\"\");\r\n }\r\n}\r\n\r\n// helpers\r\n\r\n// Cached default parameter names used where names are unknown.\r\nvar cachedDefaultParameterNames: string[] | null = null;\r\n\r\n/** Gets the cached default parameter name for the specified index. */\r\nexport function getDefaultParameterName(index: i32): string {\r\n if (!cachedDefaultParameterNames) cachedDefaultParameterNames = [];\r\n for (let i = cachedDefaultParameterNames.length; i <= index; ++i) {\r\n cachedDefaultParameterNames.push(\"arg$\" + i.toString(10));\r\n }\r\n return cachedDefaultParameterNames[index - 1];\r\n}\r\n","/**\r\n * A TypeScript tokenizer modified for AssemblyScript.\r\n *\r\n * Skips over trivia and provides a general mark/reset mechanism for the parser to utilize on\r\n * ambiguous tokens.\r\n *\r\n * @module tokenizer\r\n *//***/\r\n\r\nimport {\r\n DiagnosticCode,\r\n DiagnosticMessage,\r\n DiagnosticEmitter\r\n} from \"./diagnostics\";\r\n\r\nimport {\r\n Source,\r\n CommentKind\r\n} from \"./ast\";\r\n\r\nimport {\r\n CharCode,\r\n isLineBreak,\r\n isWhiteSpace,\r\n isIdentifierStart,\r\n isIdentifierPart,\r\n isDecimalDigit,\r\n isOctalDigit,\r\n isKeywordCharacter\r\n} from \"./util\";\r\n\r\n/** Named token types. */\r\nexport enum Token {\r\n\r\n // keywords\r\n // discarded: ANY, BOOLEAN, NEVER, NUMBER, STRING, SYMBOL, UNDEFINED, LESSTHAN_SLASH\r\n\r\n ABSTRACT,\r\n AS,\r\n ASYNC,\r\n AWAIT, // ES2017\r\n BREAK, // ES2017\r\n CASE, // ES2017\r\n CATCH, // ES2017\r\n CLASS, // ES2017\r\n CONST, // ES2017\r\n CONTINUE, // ES2017\r\n CONSTRUCTOR,\r\n DEBUGGER, // ES2017\r\n DECLARE,\r\n DEFAULT, // ES2017\r\n DELETE, // ES2017\r\n DO, // ES2017\r\n ELSE, // ES2017\r\n ENUM, // ES2017 future\r\n EXPORT, // ES2017\r\n EXTENDS, // ES2017\r\n FALSE, // ES\r\n FINALLY, // ES2017\r\n FOR, // ES2017\r\n FROM, // AS possible identifier\r\n FUNCTION, // ES2017\r\n GET,\r\n IF, // ES2017\r\n IMPLEMENTS, // ES2017 non-lexical\r\n IMPORT, // ES2017\r\n IN, // ES2017\r\n INSTANCEOF, // ES2017\r\n INTERFACE, // ES2017 non-lexical\r\n IS,\r\n KEYOF,\r\n LET, // ES2017 non-lexical\r\n MODULE, // AS possible identifier\r\n NAMESPACE, // AS possible identifier\r\n NEW, // ES2017\r\n NULL, // ES\r\n OF,\r\n PACKAGE, // ES2017 non-lexical\r\n PRIVATE, // ES2017 non-lexical\r\n PROTECTED, // ES2017 non-lexical\r\n PUBLIC, // ES2017 non-lexical\r\n READONLY,\r\n RETURN, // ES2017\r\n SET,\r\n STATIC, // ES2017 non-lexical\r\n SUPER, // ES2017\r\n SWITCH, // ES2017\r\n THIS, // ES2017\r\n THROW, // ES2017\r\n TRUE, // ES\r\n TRY, // ES2017\r\n TYPE, // AS possible identifier\r\n TYPEOF, // ES2017\r\n VAR, // ES2017\r\n VOID, // ES2017\r\n WHILE, // ES2017\r\n WITH, // ES2017\r\n YIELD, // ES2017\r\n\r\n // punctuation\r\n\r\n OPENBRACE,\r\n CLOSEBRACE,\r\n OPENPAREN,\r\n CLOSEPAREN,\r\n OPENBRACKET,\r\n CLOSEBRACKET,\r\n DOT,\r\n DOT_DOT_DOT,\r\n SEMICOLON,\r\n COMMA,\r\n LESSTHAN,\r\n GREATERTHAN,\r\n LESSTHAN_EQUALS,\r\n GREATERTHAN_EQUALS,\r\n EQUALS_EQUALS,\r\n EXCLAMATION_EQUALS,\r\n EQUALS_EQUALS_EQUALS,\r\n EXCLAMATION_EQUALS_EQUALS,\r\n EQUALS_GREATERTHAN,\r\n PLUS,\r\n MINUS,\r\n ASTERISK_ASTERISK,\r\n ASTERISK,\r\n SLASH,\r\n PERCENT,\r\n PLUS_PLUS,\r\n MINUS_MINUS,\r\n LESSTHAN_LESSTHAN,\r\n GREATERTHAN_GREATERTHAN,\r\n GREATERTHAN_GREATERTHAN_GREATERTHAN,\r\n AMPERSAND,\r\n BAR,\r\n CARET,\r\n EXCLAMATION,\r\n TILDE,\r\n AMPERSAND_AMPERSAND,\r\n BAR_BAR,\r\n QUESTION,\r\n COLON,\r\n EQUALS,\r\n PLUS_EQUALS,\r\n MINUS_EQUALS,\r\n ASTERISK_EQUALS,\r\n ASTERISK_ASTERISK_EQUALS,\r\n SLASH_EQUALS,\r\n PERCENT_EQUALS,\r\n LESSTHAN_LESSTHAN_EQUALS,\r\n GREATERTHAN_GREATERTHAN_EQUALS,\r\n GREATERTHAN_GREATERTHAN_GREATERTHAN_EQUALS,\r\n AMPERSAND_EQUALS,\r\n BAR_EQUALS,\r\n CARET_EQUALS,\r\n AT,\r\n\r\n // literals\r\n\r\n IDENTIFIER,\r\n STRINGLITERAL,\r\n INTEGERLITERAL,\r\n FLOATLITERAL,\r\n\r\n // meta\r\n\r\n INVALID,\r\n ENDOFFILE\r\n}\r\n\r\nexport enum IdentifierHandling {\r\n DEFAULT,\r\n PREFER,\r\n ALWAYS\r\n}\r\n\r\nexport function tokenFromKeyword(text: string): Token {\r\n assert(text.length);\r\n switch (text.charCodeAt(0)) {\r\n case CharCode.a: {\r\n switch (text) {\r\n case \"abstract\": return Token.ABSTRACT;\r\n case \"as\": return Token.AS;\r\n case \"async\": return Token.ASYNC;\r\n case \"await\": return Token.AWAIT;\r\n }\r\n break;\r\n }\r\n case CharCode.b: {\r\n switch (text) {\r\n case \"break\": return Token.BREAK;\r\n }\r\n break;\r\n }\r\n case CharCode.c: {\r\n switch (text) {\r\n case \"case\": return Token.CASE;\r\n case \"catch\": return Token.CATCH;\r\n case \"class\": return Token.CLASS;\r\n case \"continue\": return Token.CONTINUE;\r\n case \"const\": return Token.CONST;\r\n case \"constructor\": return Token.CONSTRUCTOR;\r\n }\r\n break;\r\n }\r\n case CharCode.d: {\r\n switch (text) {\r\n case \"debugger\": return Token.DEBUGGER;\r\n case \"declare\": return Token.DECLARE;\r\n case \"default\": return Token.DEFAULT;\r\n case \"delete\": return Token.DELETE;\r\n case \"do\": return Token.DO;\r\n }\r\n break;\r\n }\r\n case CharCode.e: {\r\n switch (text) {\r\n case \"else\": return Token.ELSE;\r\n case \"enum\": return Token.ENUM;\r\n case \"export\": return Token.EXPORT;\r\n case \"extends\": return Token.EXTENDS;\r\n }\r\n break;\r\n }\r\n case CharCode.f: {\r\n switch (text) {\r\n case \"false\": return Token.FALSE;\r\n case \"finally\": return Token.FINALLY;\r\n case \"for\": return Token.FOR;\r\n case \"from\": return Token.FROM;\r\n case \"function\": return Token.FUNCTION;\r\n }\r\n break;\r\n }\r\n case CharCode.g: {\r\n switch (text) {\r\n case \"get\": return Token.GET;\r\n }\r\n break;\r\n }\r\n case CharCode.i: {\r\n switch (text) {\r\n case \"if\": return Token.IF;\r\n case \"implements\": return Token.IMPLEMENTS;\r\n case \"import\": return Token.IMPORT;\r\n case \"in\": return Token.IN;\r\n case \"instanceof\": return Token.INSTANCEOF;\r\n case \"interface\": return Token.INTERFACE;\r\n case \"is\": return Token.IS;\r\n }\r\n break;\r\n }\r\n case CharCode.k: {\r\n switch (text) {\r\n case \"keyof\": return Token.KEYOF;\r\n }\r\n break;\r\n }\r\n case CharCode.l: {\r\n switch (text) {\r\n case \"let\": return Token.LET;\r\n }\r\n break;\r\n }\r\n case CharCode.m: {\r\n switch (text) {\r\n case \"module\": return Token.MODULE;\r\n }\r\n break;\r\n }\r\n case CharCode.n: {\r\n switch (text) {\r\n case \"namespace\": return Token.NAMESPACE;\r\n case \"new\": return Token.NEW;\r\n case \"null\": return Token.NULL;\r\n }\r\n break;\r\n }\r\n case CharCode.o: {\r\n switch (text) {\r\n case \"of\": return Token.OF;\r\n }\r\n break;\r\n }\r\n case CharCode.p: {\r\n switch (text) {\r\n case \"package\": return Token.PACKAGE;\r\n case \"private\": return Token.PRIVATE;\r\n case \"protected\": return Token.PROTECTED;\r\n case \"public\": return Token.PUBLIC;\r\n }\r\n break;\r\n }\r\n case CharCode.r: {\r\n switch (text) {\r\n case \"readonly\": return Token.READONLY;\r\n case \"return\": return Token.RETURN;\r\n }\r\n break;\r\n }\r\n case CharCode.s: {\r\n switch (text) {\r\n case \"set\": return Token.SET;\r\n case \"static\": return Token.STATIC;\r\n case \"super\": return Token.SUPER;\r\n case \"switch\": return Token.SWITCH;\r\n }\r\n break;\r\n }\r\n case CharCode.t: {\r\n switch (text) {\r\n case \"this\": return Token.THIS;\r\n case \"throw\": return Token.THROW;\r\n case \"true\": return Token.TRUE;\r\n case \"try\": return Token.TRY;\r\n case \"type\": return Token.TYPE;\r\n case \"typeof\": return Token.TYPEOF;\r\n }\r\n break;\r\n }\r\n case CharCode.v: {\r\n switch (text) {\r\n case \"var\": return Token.VAR;\r\n case \"void\": return Token.VOID;\r\n }\r\n break;\r\n }\r\n case CharCode.w: {\r\n switch (text) {\r\n case \"while\": return Token.WHILE;\r\n case \"with\": return Token.WITH;\r\n }\r\n break;\r\n }\r\n case CharCode.y: {\r\n switch (text) {\r\n case \"yield\": return Token.YIELD;\r\n }\r\n break;\r\n }\r\n }\r\n return Token.INVALID;\r\n}\r\n\r\nexport function tokenIsAlsoIdentifier(token: Token): bool {\r\n switch (token) {\r\n case Token.ABSTRACT:\r\n case Token.AS:\r\n case Token.CONSTRUCTOR:\r\n case Token.DECLARE:\r\n case Token.DELETE:\r\n case Token.FROM:\r\n case Token.FOR:\r\n case Token.GET:\r\n case Token.IS:\r\n case Token.KEYOF:\r\n case Token.MODULE:\r\n case Token.NAMESPACE:\r\n case Token.READONLY:\r\n case Token.SET:\r\n case Token.TYPE:\r\n case Token.VOID: return true;\r\n default: return false;\r\n }\r\n}\r\n\r\nexport function operatorTokenToString(token: Token): string {\r\n switch (token) {\r\n case Token.DELETE: return \"delete\";\r\n case Token.IN: return \"in\";\r\n case Token.INSTANCEOF: return \"instanceof\";\r\n case Token.NEW: return \"new\";\r\n case Token.TYPEOF: return \"typeof\";\r\n case Token.VOID: return \"void\";\r\n case Token.YIELD: return \"yield\";\r\n case Token.DOT_DOT_DOT: return \"...\";\r\n case Token.COMMA: return \",\";\r\n case Token.LESSTHAN: return \"<\";\r\n case Token.GREATERTHAN: return \">\";\r\n case Token.LESSTHAN_EQUALS: return \"<=\";\r\n case Token.GREATERTHAN_EQUALS: return \">=\";\r\n case Token.EQUALS_EQUALS: return \"==\";\r\n case Token.EXCLAMATION_EQUALS: return \"!=\";\r\n case Token.EQUALS_EQUALS_EQUALS: return \"===\";\r\n case Token.EXCLAMATION_EQUALS_EQUALS: return \"!==\";\r\n case Token.PLUS: return \"+\";\r\n case Token.MINUS: return \"-\";\r\n case Token.ASTERISK_ASTERISK: return \"**\";\r\n case Token.ASTERISK: return \"*\";\r\n case Token.SLASH: return \"/\";\r\n case Token.PERCENT: return \"%\";\r\n case Token.PLUS_PLUS: return \"++\";\r\n case Token.MINUS_MINUS: return \"--\";\r\n case Token.LESSTHAN_LESSTHAN: return \"<<\";\r\n case Token.GREATERTHAN_GREATERTHAN: return \">>\";\r\n case Token.GREATERTHAN_GREATERTHAN_GREATERTHAN: return \">>>\";\r\n case Token.AMPERSAND: return \"&\";\r\n case Token.BAR: return \"|\";\r\n case Token.CARET: return \"^\";\r\n case Token.EXCLAMATION: return \"!\";\r\n case Token.TILDE: return \"~\";\r\n case Token.AMPERSAND_AMPERSAND: return \"&&\";\r\n case Token.BAR_BAR: return \"||\";\r\n case Token.EQUALS: return \"=\";\r\n case Token.PLUS_EQUALS: return \"+=\";\r\n case Token.MINUS_EQUALS: return \"-=\";\r\n case Token.ASTERISK_EQUALS: return \"*=\";\r\n case Token.ASTERISK_ASTERISK_EQUALS: return \"**=\";\r\n case Token.SLASH_EQUALS: return \"/=\";\r\n case Token.PERCENT_EQUALS: return \"%=\";\r\n case Token.LESSTHAN_LESSTHAN_EQUALS: return \"<<=\";\r\n case Token.GREATERTHAN_GREATERTHAN_EQUALS: return \">>=\";\r\n case Token.GREATERTHAN_GREATERTHAN_GREATERTHAN_EQUALS: return \">>>=\";\r\n case Token.AMPERSAND_EQUALS: return \"&=\";\r\n case Token.BAR_EQUALS: return \"|=\";\r\n case Token.CARET_EQUALS: return \"^=\";\r\n default: {\r\n assert(false);\r\n return \"\";\r\n }\r\n }\r\n}\r\n\r\nexport class Range {\r\n\r\n source: Source;\r\n start: i32;\r\n end: i32;\r\n\r\n // TODO: set these while tokenizing\r\n // line: i32;\r\n // column: i32;\r\n\r\n constructor(source: Source, start: i32, end: i32) {\r\n this.source = source;\r\n this.start = start;\r\n this.end = end;\r\n }\r\n\r\n static join(a: Range, b: Range): Range {\r\n if (a.source != b.source) throw new Error(\"source mismatch\");\r\n return new Range(a.source,\r\n a.start < b.start ? a.start : b.start,\r\n a.end > b.end ? a.end : b.end\r\n );\r\n }\r\n\r\n get atStart(): Range {\r\n return new Range(this.source, this.start, this.start);\r\n }\r\n get atEnd(): Range {\r\n return new Range(this.source, this.end, this.end);\r\n }\r\n\r\n get line(): i32 {\r\n var text = this.source.text;\r\n var line = 1;\r\n for (let pos = this.start; pos >= 0; --pos) {\r\n if (text.charCodeAt(pos) == CharCode.LINEFEED) line++;\r\n }\r\n return line;\r\n }\r\n\r\n get column(): i32 {\r\n var text = this.source.text;\r\n var column = 0;\r\n for (let pos = this.start - 1; pos >= 0; --pos) {\r\n if (text.charCodeAt(pos) == CharCode.LINEFEED) break;\r\n ++column;\r\n }\r\n return column;\r\n }\r\n\r\n toString(): string {\r\n return this.source.text.substring(this.start, this.end);\r\n }\r\n\r\n debugInfoRef: usize = 0;\r\n}\r\n\r\ndeclare function parseFloat(str: string): f64;\r\n\r\n/** Handler for intercepting comments while tokenizing. */\r\nexport type CommentHandler = (kind: CommentKind, text: string, range: Range) => void;\r\n\r\n/** Tokenizes a source to individual {@link Token}s. */\r\nexport class Tokenizer extends DiagnosticEmitter {\r\n\r\n source: Source;\r\n end: i32 = 0;\r\n\r\n pos: i32 = 0;\r\n token: Token = -1;\r\n tokenPos: i32 = 0;\r\n\r\n nextToken: Token = -1;\r\n nextTokenPos: i32 = 0;\r\n nextTokenOnNewLine: bool = false;\r\n\r\n onComment: CommentHandler | null = null;\r\n\r\n /** Constructs a new tokenizer. */\r\n constructor(source: Source, diagnostics: DiagnosticMessage[] | null = null) {\r\n super(diagnostics);\r\n\r\n this.source = source;\r\n this.pos = 0;\r\n this.end = source.text.length;\r\n this.diagnostics = diagnostics ? diagnostics : new Array();\r\n\r\n var text = source.text;\r\n\r\n // skip bom\r\n if (\r\n this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.BYTEORDERMARK\r\n ) {\r\n ++this.pos;\r\n }\r\n\r\n // skip shebang\r\n if (\r\n this.pos + 1 < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.HASH &&\r\n text.charCodeAt(this.pos + 1) == CharCode.EXCLAMATION\r\n ) {\r\n this.pos += 2;\r\n while (\r\n this.pos < this.end &&\r\n text.charCodeAt(this.pos) != CharCode.LINEFEED\r\n ) {\r\n ++this.pos;\r\n }\r\n // 'next' now starts at lf or eof\r\n }\r\n }\r\n\r\n next(identifierHandling: IdentifierHandling = IdentifierHandling.DEFAULT): Token {\r\n this.nextToken = -1;\r\n return this.token = this.unsafeNext(identifierHandling);\r\n }\r\n\r\n private unsafeNext(\r\n identifierHandling: IdentifierHandling = IdentifierHandling.DEFAULT,\r\n maxTokenLength: i32 = i32.MAX_VALUE\r\n ): Token {\r\n var text = this.source.text;\r\n while (this.pos < this.end) {\r\n this.tokenPos = this.pos;\r\n let c = text.charCodeAt(this.pos);\r\n switch (c) {\r\n case CharCode.CARRIAGERETURN: {\r\n if (!(\r\n ++this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.LINEFEED\r\n )) break;\r\n // otherwise fall-through\r\n }\r\n case CharCode.LINEFEED:\r\n case CharCode.TAB:\r\n case CharCode.VERTICALTAB:\r\n case CharCode.FORMFEED:\r\n case CharCode.SPACE: {\r\n ++this.pos;\r\n break;\r\n }\r\n case CharCode.EXCLAMATION: {\r\n ++this.pos;\r\n if (\r\n maxTokenLength > 1 && this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.EQUALS\r\n ) {\r\n ++this.pos;\r\n if (\r\n maxTokenLength > 2 && this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.EQUALS\r\n ) {\r\n ++this.pos;\r\n return Token.EXCLAMATION_EQUALS_EQUALS;\r\n }\r\n return Token.EXCLAMATION_EQUALS;\r\n }\r\n return Token.EXCLAMATION;\r\n }\r\n case CharCode.DOUBLEQUOTE:\r\n case CharCode.SINGLEQUOTE:\r\n case CharCode.BACKTICK: { // TODO\r\n return Token.STRINGLITERAL; // expects a call to readString\r\n }\r\n case CharCode.PERCENT: {\r\n ++this.pos;\r\n if (\r\n maxTokenLength > 1 && this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.EQUALS\r\n ) {\r\n ++this.pos;\r\n return Token.PERCENT_EQUALS;\r\n }\r\n return Token.PERCENT;\r\n }\r\n case CharCode.AMPERSAND: {\r\n ++this.pos;\r\n if (maxTokenLength > 1 && this.pos < this.end) {\r\n let chr = text.charCodeAt(this.pos);\r\n if (chr == CharCode.AMPERSAND) {\r\n ++this.pos;\r\n return Token.AMPERSAND_AMPERSAND;\r\n }\r\n if (chr == CharCode.EQUALS) {\r\n ++this.pos;\r\n return Token.AMPERSAND_EQUALS;\r\n }\r\n }\r\n return Token.AMPERSAND;\r\n }\r\n case CharCode.OPENPAREN: {\r\n ++this.pos;\r\n return Token.OPENPAREN;\r\n }\r\n case CharCode.CLOSEPAREN: {\r\n ++this.pos;\r\n return Token.CLOSEPAREN;\r\n }\r\n case CharCode.ASTERISK: {\r\n ++this.pos;\r\n if (maxTokenLength > 1 && this.pos < this.end) {\r\n let chr = text.charCodeAt(this.pos);\r\n if (chr == CharCode.EQUALS) {\r\n ++this.pos;\r\n return Token.ASTERISK_EQUALS;\r\n }\r\n if (chr == CharCode.ASTERISK) {\r\n ++this.pos;\r\n if (\r\n maxTokenLength > 2 && this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.EQUALS\r\n ) {\r\n ++this.pos;\r\n return Token.ASTERISK_ASTERISK_EQUALS;\r\n }\r\n return Token.ASTERISK_ASTERISK;\r\n }\r\n }\r\n return Token.ASTERISK;\r\n }\r\n case CharCode.PLUS: {\r\n ++this.pos;\r\n if (maxTokenLength > 1 && this.pos < this.end) {\r\n let chr = text.charCodeAt(this.pos);\r\n if (chr == CharCode.PLUS) {\r\n ++this.pos;\r\n return Token.PLUS_PLUS;\r\n }\r\n if (chr == CharCode.EQUALS) {\r\n ++this.pos;\r\n return Token.PLUS_EQUALS;\r\n }\r\n }\r\n return Token.PLUS;\r\n }\r\n case CharCode.COMMA: {\r\n ++this.pos;\r\n return Token.COMMA;\r\n }\r\n case CharCode.MINUS: {\r\n ++this.pos;\r\n if (maxTokenLength > 1 && this.pos < this.end) {\r\n let chr = text.charCodeAt(this.pos);\r\n if (chr == CharCode.MINUS) {\r\n ++this.pos;\r\n return Token.MINUS_MINUS;\r\n }\r\n if (chr == CharCode.EQUALS) {\r\n ++this.pos;\r\n return Token.MINUS_EQUALS;\r\n }\r\n }\r\n return Token.MINUS;\r\n }\r\n case CharCode.DOT: {\r\n ++this.pos;\r\n if (maxTokenLength > 1 && this.pos < this.end) {\r\n let chr = text.charCodeAt(this.pos);\r\n if (isDecimalDigit(chr)) {\r\n --this.pos;\r\n return Token.FLOATLITERAL; // expects a call to readFloat\r\n }\r\n if (\r\n maxTokenLength > 2 && this.pos + 1 < this.end &&\r\n chr == CharCode.DOT &&\r\n text.charCodeAt(this.pos + 1) == CharCode.DOT\r\n ) {\r\n this.pos += 2;\r\n return Token.DOT_DOT_DOT;\r\n }\r\n }\r\n return Token.DOT;\r\n }\r\n case CharCode.SLASH: {\r\n let commentStartPos = this.pos;\r\n ++this.pos;\r\n if (maxTokenLength > 1 && this.pos < this.end) {\r\n let chr = text.charCodeAt(this.pos);\r\n if (chr == CharCode.SLASH) { // single-line\r\n let commentKind = CommentKind.LINE;\r\n if (\r\n this.pos + 1 < this.end &&\r\n text.charCodeAt(this.pos + 1) == CharCode.SLASH\r\n ) {\r\n ++this.pos;\r\n commentKind = CommentKind.TRIPLE;\r\n }\r\n while (++this.pos < this.end) {\r\n if (text.charCodeAt(this.pos) == CharCode.LINEFEED) {\r\n ++this.pos;\r\n break;\r\n }\r\n }\r\n if (this.onComment) {\r\n this.onComment(\r\n commentKind,\r\n text.substring(commentStartPos, this.pos),\r\n this.range(commentStartPos, this.pos)\r\n );\r\n }\r\n break;\r\n }\r\n if (chr == CharCode.ASTERISK) { // multi-line\r\n let closed = false;\r\n while (++this.pos < this.end) {\r\n c = text.charCodeAt(this.pos);\r\n if (\r\n c == CharCode.ASTERISK &&\r\n this.pos + 1 < this.end &&\r\n text.charCodeAt(this.pos + 1) == CharCode.SLASH\r\n ) {\r\n this.pos += 2;\r\n closed = true;\r\n break;\r\n }\r\n }\r\n if (!closed) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n this.range(this.pos), \"*/\"\r\n );\r\n } else if (this.onComment) {\r\n this.onComment(\r\n CommentKind.BLOCK,\r\n text.substring(commentStartPos, this.pos),\r\n this.range(commentStartPos, this.pos)\r\n );\r\n }\r\n break;\r\n }\r\n if (chr == CharCode.EQUALS) {\r\n ++this.pos;\r\n return Token.SLASH_EQUALS;\r\n }\r\n }\r\n return Token.SLASH;\r\n }\r\n case CharCode._0:\r\n case CharCode._1:\r\n case CharCode._2:\r\n case CharCode._3:\r\n case CharCode._4:\r\n case CharCode._5:\r\n case CharCode._6:\r\n case CharCode._7:\r\n case CharCode._8:\r\n case CharCode._9: {\r\n return this.testInteger()\r\n ? Token.INTEGERLITERAL // expects a call to readInteger\r\n : Token.FLOATLITERAL; // expects a call to readFloat\r\n }\r\n case CharCode.COLON: {\r\n ++this.pos;\r\n return Token.COLON;\r\n }\r\n case CharCode.SEMICOLON: {\r\n ++this.pos;\r\n return Token.SEMICOLON;\r\n }\r\n case CharCode.LESSTHAN: {\r\n ++this.pos;\r\n if (maxTokenLength > 1 && this.pos < this.end) {\r\n let chr = text.charCodeAt(this.pos);\r\n if (chr == CharCode.LESSTHAN) {\r\n ++this.pos;\r\n if (\r\n maxTokenLength > 2 &&\r\n this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.EQUALS\r\n ) {\r\n ++this.pos;\r\n return Token.LESSTHAN_LESSTHAN_EQUALS;\r\n }\r\n return Token.LESSTHAN_LESSTHAN;\r\n }\r\n if (chr == CharCode.EQUALS) {\r\n ++this.pos;\r\n return Token.LESSTHAN_EQUALS;\r\n }\r\n }\r\n return Token.LESSTHAN;\r\n }\r\n case CharCode.EQUALS: {\r\n ++this.pos;\r\n if (maxTokenLength > 1 && this.pos < this.end) {\r\n let chr = text.charCodeAt(this.pos);\r\n if (chr == CharCode.EQUALS) {\r\n ++this.pos;\r\n if (\r\n maxTokenLength > 2 &&\r\n this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.EQUALS\r\n ) {\r\n ++this.pos;\r\n return Token.EQUALS_EQUALS_EQUALS;\r\n }\r\n return Token.EQUALS_EQUALS;\r\n }\r\n if (chr == CharCode.GREATERTHAN) {\r\n ++this.pos;\r\n return Token.EQUALS_GREATERTHAN;\r\n }\r\n }\r\n return Token.EQUALS;\r\n }\r\n case CharCode.GREATERTHAN: {\r\n ++this.pos;\r\n if (maxTokenLength > 1 && this.pos < this.end) {\r\n let chr = text.charCodeAt(this.pos);\r\n if (chr == CharCode.GREATERTHAN) {\r\n ++this.pos;\r\n if (maxTokenLength > 2 && this.pos < this.end) {\r\n chr = text.charCodeAt(this.pos);\r\n if (chr == CharCode.GREATERTHAN) {\r\n ++this.pos;\r\n if (\r\n maxTokenLength > 3 && this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.EQUALS\r\n ) {\r\n ++this.pos;\r\n return Token.GREATERTHAN_GREATERTHAN_GREATERTHAN_EQUALS;\r\n }\r\n return Token.GREATERTHAN_GREATERTHAN_GREATERTHAN;\r\n }\r\n if (chr == CharCode.EQUALS) {\r\n ++this.pos;\r\n return Token.GREATERTHAN_GREATERTHAN_EQUALS;\r\n }\r\n }\r\n return Token.GREATERTHAN_GREATERTHAN;\r\n }\r\n if (chr == CharCode.EQUALS) {\r\n ++this.pos;\r\n return Token.GREATERTHAN_EQUALS;\r\n }\r\n }\r\n return Token.GREATERTHAN;\r\n }\r\n case CharCode.QUESTION: {\r\n ++this.pos;\r\n return Token.QUESTION;\r\n }\r\n case CharCode.OPENBRACKET: {\r\n ++this.pos;\r\n return Token.OPENBRACKET;\r\n }\r\n case CharCode.CLOSEBRACKET: {\r\n ++this.pos;\r\n return Token.CLOSEBRACKET;\r\n }\r\n case CharCode.CARET: {\r\n ++this.pos;\r\n if (\r\n maxTokenLength > 1 && this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.EQUALS\r\n ) {\r\n ++this.pos;\r\n return Token.CARET_EQUALS;\r\n }\r\n return Token.CARET;\r\n }\r\n case CharCode.OPENBRACE: {\r\n ++this.pos;\r\n return Token.OPENBRACE;\r\n }\r\n case CharCode.BAR: {\r\n ++this.pos;\r\n if (maxTokenLength > 1 && this.pos < this.end) {\r\n let chr = text.charCodeAt(this.pos);\r\n if (chr == CharCode.BAR) {\r\n ++this.pos;\r\n return Token.BAR_BAR;\r\n }\r\n if (chr == CharCode.EQUALS) {\r\n ++this.pos;\r\n return Token.BAR_EQUALS;\r\n }\r\n }\r\n return Token.BAR;\r\n }\r\n case CharCode.CLOSEBRACE: {\r\n ++this.pos;\r\n return Token.CLOSEBRACE;\r\n }\r\n case CharCode.TILDE: {\r\n ++this.pos;\r\n return Token.TILDE;\r\n }\r\n case CharCode.AT: {\r\n ++this.pos;\r\n return Token.AT;\r\n }\r\n default: {\r\n if (isIdentifierStart(c)) {\r\n if (isKeywordCharacter(c)) {\r\n let posBefore = this.pos;\r\n while (\r\n ++this.pos < this.end &&\r\n isIdentifierPart(c = text.charCodeAt(this.pos))\r\n ) {\r\n if (!isKeywordCharacter(c)) {\r\n this.pos = posBefore;\r\n return Token.IDENTIFIER;\r\n }\r\n }\r\n let keywordText = text.substring(posBefore, this.pos);\r\n let keywordToken = tokenFromKeyword(keywordText);\r\n if (\r\n keywordToken !== Token.INVALID &&\r\n identifierHandling !== IdentifierHandling.ALWAYS &&\r\n !(\r\n identifierHandling === IdentifierHandling.PREFER &&\r\n tokenIsAlsoIdentifier(keywordToken)\r\n )\r\n ) {\r\n return keywordToken;\r\n }\r\n this.pos = posBefore;\r\n }\r\n return Token.IDENTIFIER; // expects a call to readIdentifier\r\n } else if (isWhiteSpace(c)) {\r\n ++this.pos;\r\n break;\r\n }\r\n this.error(\r\n DiagnosticCode.Invalid_character,\r\n this.range(this.pos, this.pos + 1)\r\n );\r\n ++this.pos;\r\n return Token.INVALID;\r\n }\r\n }\r\n }\r\n return Token.ENDOFFILE;\r\n }\r\n\r\n peek(\r\n checkOnNewLine: bool = false,\r\n identifierHandling: IdentifierHandling = IdentifierHandling.DEFAULT,\r\n maxCompoundLength: i32 = i32.MAX_VALUE\r\n ): Token {\r\n var text = this.source.text;\r\n if (this.nextToken < 0) {\r\n let posBefore = this.pos;\r\n let tokenBefore = this.token;\r\n let tokenPosBefore = this.tokenPos;\r\n this.nextToken = this.unsafeNext(identifierHandling, maxCompoundLength);\r\n this.nextTokenPos = this.tokenPos;\r\n if (checkOnNewLine) {\r\n this.nextTokenOnNewLine = false;\r\n for (let pos = posBefore, end = this.nextTokenPos; pos < end; ++pos) {\r\n if (isLineBreak(text.charCodeAt(pos))) {\r\n this.nextTokenOnNewLine = true;\r\n break;\r\n }\r\n }\r\n }\r\n this.pos = posBefore;\r\n this.token = tokenBefore;\r\n this.tokenPos = tokenPosBefore;\r\n }\r\n return this.nextToken;\r\n }\r\n\r\n skipIdentifier(identifierHandling: IdentifierHandling = IdentifierHandling.PREFER): bool {\r\n return this.skip(Token.IDENTIFIER, identifierHandling);\r\n }\r\n\r\n skip(token: Token, identifierHandling: IdentifierHandling = IdentifierHandling.DEFAULT): bool {\r\n var posBefore = this.pos;\r\n var tokenBefore = this.token;\r\n var tokenPosBefore = this.tokenPos;\r\n var maxCompoundLength = i32.MAX_VALUE;\r\n switch (token) {\r\n case Token.GREATERTHAN: { // where parsing type arguments\r\n maxCompoundLength = 1;\r\n break;\r\n }\r\n }\r\n this.token = this.unsafeNext(identifierHandling, maxCompoundLength);\r\n if (this.token == token) {\r\n this.nextToken = -1;\r\n return true;\r\n } else {\r\n this.pos = posBefore;\r\n this.token = tokenBefore;\r\n this.tokenPos = tokenPosBefore;\r\n return false;\r\n }\r\n }\r\n\r\n mark(): State {\r\n var state: State;\r\n if (reusableState) {\r\n state = reusableState;\r\n reusableState = null;\r\n } else {\r\n state = new State();\r\n }\r\n state.pos = this.pos;\r\n state.token = this.token;\r\n state.tokenPos = this.tokenPos;\r\n return state;\r\n }\r\n\r\n discard(state: State): void {\r\n reusableState = state;\r\n }\r\n\r\n reset(state: State): void {\r\n this.pos = state.pos;\r\n this.token = state.token;\r\n this.tokenPos = state.tokenPos;\r\n this.nextToken = -1;\r\n }\r\n\r\n range(start: i32 = -1, end: i32 = -1): Range {\r\n if (start < 0) {\r\n start = this.tokenPos;\r\n end = this.pos;\r\n } else if (end < 0) {\r\n end = start;\r\n }\r\n return new Range(this.source, start, end);\r\n }\r\n\r\n readIdentifier(): string {\r\n var text = this.source.text;\r\n var start = this.pos;\r\n while (\r\n ++this.pos < this.end &&\r\n isIdentifierPart(text.charCodeAt(this.pos))\r\n );\r\n return text.substring(start, this.pos);\r\n }\r\n\r\n readString(): string {\r\n var text = this.source.text;\r\n var quote = text.charCodeAt(this.pos++);\r\n var start = this.pos;\r\n var result = \"\";\r\n while (true) {\r\n if (this.pos >= this.end) {\r\n result += text.substring(start, this.pos);\r\n this.error(\r\n DiagnosticCode.Unterminated_string_literal,\r\n this.range(start - 1, this.end)\r\n );\r\n break;\r\n }\r\n let c = text.charCodeAt(this.pos);\r\n if (c == quote) {\r\n result += text.substring(start, this.pos++);\r\n break;\r\n }\r\n if (c == CharCode.BACKSLASH) {\r\n result += text.substring(start, this.pos);\r\n result += this.readEscapeSequence();\r\n start = this.pos;\r\n continue;\r\n }\r\n if (isLineBreak(c)) {\r\n result += text.substring(start, this.pos);\r\n this.error(\r\n DiagnosticCode.Unterminated_string_literal,\r\n this.range(start - 1, this.pos)\r\n );\r\n break;\r\n }\r\n ++this.pos;\r\n }\r\n return result;\r\n }\r\n\r\n readEscapeSequence(): string {\r\n if (++this.pos >= this.end) {\r\n this.error(\r\n DiagnosticCode.Unexpected_end_of_text,\r\n this.range(this.end)\r\n );\r\n return \"\";\r\n }\r\n\r\n var text = this.source.text;\r\n var c = text.charCodeAt(this.pos++);\r\n switch (c) {\r\n case CharCode._0: return \"\\0\";\r\n case CharCode.b: return \"\\b\";\r\n case CharCode.t: return \"\\t\";\r\n case CharCode.n: return \"\\n\";\r\n case CharCode.v: return \"\\v\";\r\n case CharCode.f: return \"\\f\";\r\n case CharCode.r: return \"\\r\";\r\n case CharCode.SINGLEQUOTE: return \"'\";\r\n case CharCode.DOUBLEQUOTE: return \"\\\"\";\r\n case CharCode.u: {\r\n if (\r\n this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.OPENBRACE\r\n ) {\r\n ++this.pos;\r\n return this.readExtendedUnicodeEscape(); // \\u{DDDDDDDD}\r\n }\r\n return this.readUnicodeEscape(); // \\uDDDD\r\n }\r\n case CharCode.CARRIAGERETURN: {\r\n if (\r\n this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.LINEFEED\r\n ) {\r\n ++this.pos;\r\n }\r\n // fall through\r\n }\r\n case CharCode.LINEFEED:\r\n case CharCode.LINESEPARATOR:\r\n case CharCode.PARAGRAPHSEPARATOR: return \"\";\r\n default: return String.fromCharCode(c);\r\n }\r\n }\r\n\r\n readRegexpPattern(): string {\r\n var text = this.source.text;\r\n var start = this.pos;\r\n var escaped = false;\r\n while (true) {\r\n if (this.pos >= this.end) {\r\n this.error(\r\n DiagnosticCode.Unterminated_regular_expression_literal,\r\n this.range(start, this.end)\r\n );\r\n break;\r\n }\r\n if (text.charCodeAt(this.pos) == CharCode.BACKSLASH) {\r\n ++this.pos;\r\n escaped = true;\r\n continue;\r\n }\r\n let c = text.charCodeAt(this.pos);\r\n if (!escaped && c == CharCode.SLASH) break;\r\n if (isLineBreak(c)) {\r\n this.error(\r\n DiagnosticCode.Unterminated_regular_expression_literal,\r\n this.range(start, this.pos)\r\n );\r\n break;\r\n }\r\n ++this.pos;\r\n escaped = false;\r\n }\r\n return text.substring(start, this.pos);\r\n }\r\n\r\n readRegexpFlags(): string {\r\n var text = this.source.text;\r\n var start = this.pos;\r\n var flags = 0;\r\n while (this.pos < this.end) {\r\n let c: i32 = text.charCodeAt(this.pos);\r\n if (!isIdentifierPart(c)) break;\r\n ++this.pos;\r\n\r\n // make sure each supported flag is unique\r\n switch (c) {\r\n case CharCode.g: {\r\n flags |= flags & 1 ? -1 : 1;\r\n break;\r\n }\r\n case CharCode.i: {\r\n flags |= flags & 2 ? -1 : 2;\r\n break;\r\n }\r\n case CharCode.m: {\r\n flags |= flags & 4 ? -1 : 4;\r\n break;\r\n }\r\n default: {\r\n flags = -1;\r\n break;\r\n }\r\n }\r\n }\r\n if (flags == -1) {\r\n this.error(\r\n DiagnosticCode.Invalid_regular_expression_flags,\r\n this.range(start, this.pos)\r\n );\r\n }\r\n return text.substring(start, this.pos);\r\n }\r\n\r\n testInteger(): bool {\r\n var text = this.source.text;\r\n if (this.pos + 1 < this.end && text.charCodeAt(this.pos) == CharCode._0) {\r\n switch (text.charCodeAt(this.pos + 2)) {\r\n case CharCode.x:\r\n case CharCode.X:\r\n case CharCode.b:\r\n case CharCode.B:\r\n case CharCode.o:\r\n case CharCode.O: return true;\r\n }\r\n }\r\n var pos = this.pos;\r\n while (pos < this.end) {\r\n let c = text.charCodeAt(pos);\r\n if (c == CharCode.DOT || c == CharCode.e || c == CharCode.E) {\r\n return false;\r\n }\r\n if ((c < CharCode._0 || c > CharCode._9) && c != CharCode._) break;\r\n // does not validate separator placement (this is done in readXYInteger)\r\n pos++;\r\n }\r\n return true;\r\n }\r\n\r\n readInteger(): I64 {\r\n var text = this.source.text;\r\n if (this.pos + 2 < this.end && text.charCodeAt(this.pos) == CharCode._0) {\r\n switch (text.charCodeAt(this.pos + 1)) {\r\n case CharCode.x:\r\n case CharCode.X: {\r\n this.pos += 2;\r\n return this.readHexInteger();\r\n }\r\n case CharCode.b:\r\n case CharCode.B: {\r\n this.pos += 2;\r\n return this.readBinaryInteger();\r\n }\r\n case CharCode.o:\r\n case CharCode.O: {\r\n this.pos += 2;\r\n return this.readOctalInteger();\r\n }\r\n }\r\n if (isOctalDigit(text.charCodeAt(this.pos + 1))) {\r\n let start = this.pos;\r\n ++this.pos;\r\n let value = this.readOctalInteger();\r\n this.error(\r\n DiagnosticCode.Octal_literals_are_not_allowed_in_strict_mode,\r\n this.range(start, this.pos)\r\n );\r\n return value;\r\n }\r\n }\r\n return this.readDecimalInteger();\r\n }\r\n\r\n readHexInteger(): I64 {\r\n var text = this.source.text;\r\n var start = this.pos;\r\n var value = i64_new(0);\r\n var i64_4 = i64_new(4);\r\n var sepEnd = start;\r\n while (this.pos < this.end) {\r\n let pos = this.pos;\r\n let c = text.charCodeAt(pos);\r\n if (c >= CharCode._0 && c <= CharCode._9) {\r\n // value = (value << 4) + c - CharCode._0;\r\n value = i64_add(\r\n i64_shl(value, i64_4),\r\n i64_new(c - CharCode._0)\r\n );\r\n } else if (c >= CharCode.A && c <= CharCode.F) {\r\n // value = (value << 4) + 10 + c - CharCode.A;\r\n value = i64_add(\r\n i64_shl(value, i64_4),\r\n i64_new(10 + c - CharCode.A)\r\n );\r\n } else if (c >= CharCode.a && c <= CharCode.f) {\r\n // value = (value << 4) + 10 + c - CharCode.a;\r\n value = i64_add(\r\n i64_shl(value, i64_4),\r\n i64_new(10 + c - CharCode.a)\r\n );\r\n } else if (c == CharCode._) {\r\n if (sepEnd == pos) {\r\n this.error(\r\n sepEnd == start\r\n ? DiagnosticCode.Numeric_separators_are_not_allowed_here\r\n : DiagnosticCode.Multiple_consecutive_numeric_separators_are_not_permitted,\r\n this.range(pos)\r\n );\r\n }\r\n sepEnd = pos + 1;\r\n } else {\r\n break;\r\n }\r\n this.pos = pos + 1;\r\n }\r\n if (this.pos == start) {\r\n this.error(\r\n DiagnosticCode.Hexadecimal_digit_expected,\r\n this.range(start)\r\n );\r\n } else if (sepEnd == this.pos) {\r\n this.error(\r\n DiagnosticCode.Numeric_separators_are_not_allowed_here,\r\n this.range(sepEnd - 1)\r\n );\r\n }\r\n return value;\r\n }\r\n\r\n readDecimalInteger(): I64 {\r\n var text = this.source.text;\r\n var start = this.pos;\r\n var value = i64_new(0);\r\n var i64_10 = i64_new(10);\r\n var sepEnd = start;\r\n while (this.pos < this.end) {\r\n let pos = this.pos;\r\n let c = text.charCodeAt(pos);\r\n if (c >= CharCode._0 && c <= CharCode._9) {\r\n // value = value * 10 + c - CharCode._0;\r\n value = i64_add(\r\n i64_mul(value, i64_10),\r\n i64_new(c - CharCode._0)\r\n );\r\n } else if (c == CharCode._) {\r\n if (sepEnd == pos) {\r\n this.error(\r\n sepEnd == start\r\n ? DiagnosticCode.Numeric_separators_are_not_allowed_here\r\n : DiagnosticCode.Multiple_consecutive_numeric_separators_are_not_permitted,\r\n this.range(pos)\r\n );\r\n }\r\n sepEnd = pos + 1;\r\n } else {\r\n break;\r\n }\r\n this.pos = pos + 1;\r\n }\r\n if (this.pos == start) {\r\n this.error(\r\n DiagnosticCode.Digit_expected,\r\n this.range(start)\r\n );\r\n } else if (sepEnd == this.pos) {\r\n this.error(\r\n DiagnosticCode.Numeric_separators_are_not_allowed_here,\r\n this.range(sepEnd - 1)\r\n );\r\n }\r\n return value;\r\n }\r\n\r\n readOctalInteger(): I64 {\r\n var text = this.source.text;\r\n var start = this.pos;\r\n var value = i64_new(0);\r\n var i64_3 = i64_new(3);\r\n var sepEnd = start;\r\n while (this.pos < this.end) {\r\n let pos = this.pos;\r\n let c = text.charCodeAt(pos);\r\n if (c >= CharCode._0 && c <= CharCode._7) {\r\n // value = (value << 3) + c - CharCode._0;\r\n value = i64_add(\r\n i64_shl(value, i64_3),\r\n i64_new(c - CharCode._0)\r\n );\r\n } else if (c == CharCode._) {\r\n if (sepEnd == pos) {\r\n this.error(\r\n sepEnd == start\r\n ? DiagnosticCode.Numeric_separators_are_not_allowed_here\r\n : DiagnosticCode.Multiple_consecutive_numeric_separators_are_not_permitted,\r\n this.range(pos)\r\n );\r\n }\r\n sepEnd = pos + 1;\r\n } else {\r\n break;\r\n }\r\n ++this.pos;\r\n }\r\n if (this.pos == start) {\r\n this.error(\r\n DiagnosticCode.Octal_digit_expected,\r\n this.range(start)\r\n );\r\n } else if (sepEnd == this.pos) {\r\n this.error(\r\n DiagnosticCode.Numeric_separators_are_not_allowed_here,\r\n this.range(sepEnd - 1)\r\n );\r\n }\r\n return value;\r\n }\r\n\r\n readBinaryInteger(): I64 {\r\n var text = this.source.text;\r\n var start = this.pos;\r\n var value = i64_new(0);\r\n var i64_1 = i64_new(1);\r\n var sepEnd = start;\r\n while (this.pos < this.end) {\r\n let pos = this.pos;\r\n let c = text.charCodeAt(pos);\r\n if (c == CharCode._0) {\r\n // value = (value << 1);\r\n value = i64_shl(value, i64_1);\r\n } else if (c == CharCode._1) {\r\n // value = (value << 1) + 1;\r\n value = i64_add(\r\n i64_shl(value, i64_1),\r\n i64_1\r\n );\r\n } else if (c == CharCode._) {\r\n if (sepEnd == pos) {\r\n this.error(\r\n sepEnd == start\r\n ? DiagnosticCode.Numeric_separators_are_not_allowed_here\r\n : DiagnosticCode.Multiple_consecutive_numeric_separators_are_not_permitted,\r\n this.range(pos)\r\n );\r\n }\r\n sepEnd = pos + 1;\r\n } else {\r\n break;\r\n }\r\n this.pos = pos + 1;\r\n }\r\n if (this.pos == start) {\r\n this.error(\r\n DiagnosticCode.Binary_digit_expected,\r\n this.range(start)\r\n );\r\n } else if (sepEnd == this.pos) {\r\n this.error(\r\n DiagnosticCode.Numeric_separators_are_not_allowed_here,\r\n this.range(sepEnd - 1)\r\n );\r\n }\r\n return value;\r\n }\r\n\r\n readFloat(): f64 {\r\n // var text = this.source.text;\r\n // if (text.charCodeAt(this.pos) == CharCode._0 && this.pos + 2 < this.end) {\r\n // switch (text.charCodeAt(this.pos + 1)) {\r\n // case CharCode.X:\r\n // case CharCode.x: {\r\n // this.pos += 2;\r\n // return this.readHexFloat();\r\n // }\r\n // }\r\n // }\r\n return this.readDecimalFloat();\r\n }\r\n\r\n readDecimalFloat(): f64 {\r\n // TODO: numeric separators (parseFloat can't handle these)\r\n var start = this.pos;\r\n var text = this.source.text;\r\n while (this.pos < this.end && isDecimalDigit(text.charCodeAt(this.pos))) {\r\n ++this.pos;\r\n }\r\n if (this.pos < this.end && text.charCodeAt(this.pos) == CharCode.DOT) {\r\n ++this.pos;\r\n while (this.pos < this.end && isDecimalDigit(text.charCodeAt(this.pos))) {\r\n ++this.pos;\r\n }\r\n }\r\n if (this.pos < this.end) {\r\n let c = text.charCodeAt(this.pos);\r\n if (c == CharCode.e || c == CharCode.E) {\r\n if (\r\n ++this.pos < this.end &&\r\n (c = text.charCodeAt(this.pos)) == CharCode.MINUS || c == CharCode.PLUS &&\r\n isDecimalDigit(text.charCodeAt(this.pos + 1))\r\n ) {\r\n ++this.pos;\r\n }\r\n while (this.pos < this.end && isDecimalDigit(text.charCodeAt(this.pos))) {\r\n ++this.pos;\r\n }\r\n }\r\n }\r\n return parseFloat(text.substring(start, this.pos));\r\n }\r\n\r\n readHexFloat(): f64 {\r\n throw new Error(\"not implemented\"); // TBD\r\n }\r\n\r\n readUnicodeEscape(): string {\r\n var remain = 4;\r\n var value = 0;\r\n var text = this.source.text;\r\n while (this.pos < this.end) {\r\n let c = text.charCodeAt(this.pos++);\r\n if (c >= CharCode._0 && c <= CharCode._9) {\r\n value = (value << 4) + c - CharCode._0;\r\n } else if (c >= CharCode.A && c <= CharCode.F) {\r\n value = (value << 4) + c + (10 - CharCode.A);\r\n } else if (c >= CharCode.a && c <= CharCode.f) {\r\n value = (value << 4) + c + (10 - CharCode.a);\r\n } else {\r\n this.error(\r\n DiagnosticCode.Hexadecimal_digit_expected,\r\n this.range(this.pos - 1, this.pos)\r\n );\r\n return \"\";\r\n }\r\n if (--remain == 0) break;\r\n }\r\n if (remain) {\r\n this.error(\r\n DiagnosticCode.Unexpected_end_of_text,\r\n this.range(this.pos)\r\n );\r\n return \"\";\r\n }\r\n return String.fromCharCode(value);\r\n }\r\n\r\n private readExtendedUnicodeEscape(): string {\r\n var start = this.pos;\r\n var value = this.readHexInteger();\r\n var value32 = i64_low(value);\r\n var invalid = false;\r\n\r\n assert(!i64_high(value));\r\n if (value32 > 0x10FFFF) {\r\n this.error(\r\n DiagnosticCode.An_extended_Unicode_escape_value_must_be_between_0x0_and_0x10FFFF_inclusive,\r\n this.range(start, this.pos)\r\n );\r\n invalid = true;\r\n }\r\n\r\n var text = this.source.text;\r\n if (this.pos >= this.end) {\r\n this.error(\r\n DiagnosticCode.Unexpected_end_of_text,\r\n this.range(start, this.end)\r\n );\r\n invalid = true;\r\n } else if (text.charCodeAt(this.pos) == CharCode.CLOSEBRACE) {\r\n ++this.pos;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Unterminated_Unicode_escape_sequence,\r\n this.range(start, this.pos)\r\n );\r\n invalid = true;\r\n }\r\n\r\n if (invalid) return \"\";\r\n return value32 < 65536\r\n ? String.fromCharCode(value32)\r\n : String.fromCharCode(\r\n ((value32 - 65536) >>> 10) + 0xD800,\r\n ((value32 - 65536) & 1023) + 0xDC00\r\n );\r\n }\r\n\r\n finish(): void {\r\n }\r\n}\r\n\r\n/** Tokenizer state as returned by {@link Tokenizer#mark} and consumed by {@link Tokenizer#reset}. */\r\nexport class State {\r\n /** Current position. */\r\n pos: i32;\r\n /** Current token. */\r\n token: Token;\r\n /** Current token's position. */\r\n tokenPos: i32;\r\n}\r\n\r\n// Reusable state object to reduce allocations\r\nvar reusableState: State | null = null;\r\n","var g;\n\n// This works in non-strict mode\ng = (function() {\n\treturn this;\n})();\n\ntry {\n\t// This works if eval is allowed (see CSP)\n\tg = g || new Function(\"return this\")();\n} catch (e) {\n\t// This works if the window reference is available\n\tif (typeof window === \"object\") g = window;\n}\n\n// g can still be undefined, but nothing to do about it...\n// We return undefined, instead of nothing here, so it's\n// easier to handle this case. if(!global) { ...}\n\nmodule.exports = g;\n","/**\r\n * Resolve infrastructure to obtain types and elements.\r\n * @module resolver\r\n *//***/\r\n\r\nimport {\r\n DiagnosticEmitter,\r\n DiagnosticCode\r\n} from \"./diagnostics\";\r\n\r\nimport {\r\n Program,\r\n ElementKind,\r\n OperatorKind,\r\n Element,\r\n Class,\r\n ClassPrototype,\r\n Function,\r\n FunctionPrototype,\r\n VariableLikeElement,\r\n Property,\r\n PropertyPrototype,\r\n Field,\r\n FieldPrototype,\r\n Global,\r\n TypeDefinition\r\n} from \"./program\";\r\n\r\nimport {\r\n FlowFlags,\r\n Flow\r\n} from \"./flow\";\r\n\r\nimport {\r\n SignatureNode,\r\n ParameterKind,\r\n CommonTypeNode,\r\n NodeKind,\r\n TypeNode,\r\n TypeName,\r\n TypeParameterNode,\r\n Node,\r\n Range,\r\n IdentifierExpression,\r\n CallExpression,\r\n ElementAccessExpression,\r\n PropertyAccessExpression,\r\n LiteralExpression,\r\n LiteralKind,\r\n ParenthesizedExpression,\r\n AssertionExpression,\r\n Expression,\r\n IntegerLiteralExpression,\r\n UnaryPrefixExpression,\r\n UnaryPostfixExpression,\r\n AssertionKind,\r\n BinaryExpression,\r\n ThisExpression,\r\n SuperExpression,\r\n isTypeOmitted\r\n} from \"./ast\";\r\n\r\nimport {\r\n Type,\r\n Signature,\r\n typesToString,\r\n TypeKind,\r\n TypeFlags\r\n} from \"./types\";\r\n\r\nimport {\r\n CommonFlags,\r\n CommonSymbols\r\n} from \"./common\";\r\n\r\nimport {\r\n makeMap,\r\n isPowerOf2\r\n} from \"./util\";\r\n\r\nimport {\r\n Token\r\n} from \"./tokenizer\";\r\n\r\n/** Indicates whether errors are reported or not. */\r\nexport enum ReportMode {\r\n /** Report errors. */\r\n REPORT,\r\n /** Swallow errors. */\r\n SWALLOW\r\n}\r\n\r\n/** Provides tools to resolve types and expressions. */\r\nexport class Resolver extends DiagnosticEmitter {\r\n\r\n /** The program this resolver belongs to. */\r\n program: Program;\r\n\r\n /** Target expression of the previously resolved property or element access. */\r\n currentThisExpression: Expression | null = null;\r\n /** Element expression of the previously resolved element access. */\r\n currentElementExpression : Expression | null = null;\r\n\r\n /** Constructs the resolver for the specified program. */\r\n constructor(\r\n /** The program to construct a resolver for. */\r\n program: Program\r\n ) {\r\n super(program.diagnostics);\r\n this.program = program;\r\n }\r\n\r\n /** Resolves a {@link CommonTypeNode} to a concrete {@link Type}. */\r\n resolveType(\r\n /** The type to resolve. */\r\n node: CommonTypeNode,\r\n /** Relative context. */\r\n context: Element,\r\n /** Type arguments inherited through context, i.e. `T`. */\r\n contextualTypeArguments: Map | null = null,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Type | null {\r\n\r\n // handle signature\r\n if (node.kind == NodeKind.SIGNATURE) {\r\n let explicitThisType = (node).explicitThisType;\r\n let thisType: Type | null = null;\r\n if (explicitThisType) {\r\n thisType = this.resolveType(\r\n explicitThisType,\r\n context,\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n if (!thisType) return null;\r\n }\r\n let parameterNodes = (node).parameters;\r\n let numParameters = parameterNodes.length;\r\n let parameterTypes = new Array(numParameters);\r\n let parameterNames = new Array(numParameters);\r\n let requiredParameters = 0;\r\n let hasRest = false;\r\n for (let i = 0; i < numParameters; ++i) {\r\n let parameterNode = parameterNodes[i];\r\n switch (parameterNode.parameterKind) {\r\n case ParameterKind.DEFAULT: {\r\n requiredParameters = i + 1;\r\n break;\r\n }\r\n case ParameterKind.REST: {\r\n assert(i == numParameters);\r\n hasRest = true;\r\n break;\r\n }\r\n }\r\n let parameterTypeNode = parameterNode.type;\r\n if (isTypeOmitted(parameterTypeNode)) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n parameterTypeNode.range\r\n );\r\n }\r\n return null;\r\n }\r\n let parameterType = this.resolveType(\r\n parameterTypeNode,\r\n context,\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n if (!parameterType) return null;\r\n parameterTypes[i] = parameterType;\r\n parameterNames[i] = parameterNode.name.text;\r\n }\r\n let returnTypeNode = (node).returnType;\r\n if (isTypeOmitted(returnTypeNode)) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n returnTypeNode.range\r\n );\r\n }\r\n return null;\r\n }\r\n let returnType: Type | null;\r\n if (returnTypeNode) {\r\n returnType = this.resolveType(\r\n returnTypeNode,\r\n context,\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n if (!returnType) return null;\r\n } else {\r\n returnType = Type.void;\r\n }\r\n let signature = new Signature(parameterTypes, returnType, thisType);\r\n signature.parameterNames = parameterNames;\r\n signature.requiredParameters = requiredParameters;\r\n signature.hasRest = hasRest;\r\n return node.isNullable ? signature.type.asNullable() : signature.type;\r\n }\r\n\r\n // now dealing with TypeNode\r\n assert(node.kind == NodeKind.TYPE);\r\n var typeNode = node;\r\n var typeName = typeNode.name;\r\n var typeArgumentNodes = typeNode.typeArguments;\r\n var possiblyPlaceholder = !typeName.next;\r\n\r\n // look up in contextual type arguments if possibly a placeholder\r\n if (possiblyPlaceholder) {\r\n if (contextualTypeArguments && contextualTypeArguments.has(typeName.identifier.text)) {\r\n let type = contextualTypeArguments.get(typeName.identifier.text)!;\r\n if (typeArgumentNodes !== null && typeArgumentNodes.length) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n node.range, type.toString()\r\n );\r\n }\r\n }\r\n if (node.isNullable) {\r\n if (!type.is(TypeFlags.REFERENCE)) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Basic_type_0_cannot_be_nullable,\r\n node.range, type.toString()\r\n );\r\n }\r\n }\r\n return type.asNullable();\r\n }\r\n return type;\r\n }\r\n }\r\n\r\n // look up in context\r\n var element = this.resolveTypeName(typeName, context, reportMode);\r\n if (!element) return null;\r\n\r\n // use shadow type if present (i.e. namespace sharing a type)\r\n if (element.shadowType) {\r\n element = element.shadowType;\r\n\r\n } else {\r\n // handle enums (become i32)\r\n if (element.kind == ElementKind.ENUM) {\r\n if (typeArgumentNodes !== null && typeArgumentNodes.length) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n node.range, element.internalName\r\n );\r\n }\r\n }\r\n if (node.isNullable) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Basic_type_0_cannot_be_nullable,\r\n node.range, element.name\r\n );\r\n }\r\n }\r\n return Type.i32;\r\n }\r\n\r\n // handle classes\r\n if (element.kind == ElementKind.CLASS_PROTOTYPE) {\r\n let instance = this.resolveClassInclTypeArguments(\r\n element,\r\n typeArgumentNodes,\r\n context,\r\n makeMap(contextualTypeArguments), // don't inherit\r\n node\r\n ); // reports\r\n if (!instance) return null;\r\n return node.isNullable ? instance.type.asNullable() : instance.type;\r\n }\r\n }\r\n\r\n // handle type definitions\r\n if (element.kind == ElementKind.TYPEDEFINITION) {\r\n\r\n // shortcut already resolved (mostly builtins)\r\n if (element.is(CommonFlags.RESOLVED)) {\r\n if (typeArgumentNodes !== null && typeArgumentNodes.length) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n node.range, element.internalName\r\n );\r\n }\r\n }\r\n let type = (element).type;\r\n if (node.isNullable) {\r\n if (!type.is(TypeFlags.REFERENCE)) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Basic_type_0_cannot_be_nullable,\r\n typeNode.name.range, typeName.identifier.text\r\n );\r\n }\r\n } else {\r\n return type.asNullable();\r\n }\r\n }\r\n return type;\r\n }\r\n\r\n // handle special native type\r\n if (possiblyPlaceholder && typeName.identifier.text == CommonSymbols.native) {\r\n if (!(typeArgumentNodes && typeArgumentNodes.length == 1)) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n typeNode.range, \"1\", (typeArgumentNodes ? typeArgumentNodes.length : 1).toString(10)\r\n );\r\n }\r\n return null;\r\n }\r\n let typeArgument = this.resolveType(\r\n typeArgumentNodes[0],\r\n context,\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n if (!typeArgument) return null;\r\n switch (typeArgument.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32: return Type.i32;\r\n case TypeKind.ISIZE: if (!this.program.options.isWasm64) return Type.i32;\r\n case TypeKind.I64: return Type.i64;\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: return Type.u32;\r\n case TypeKind.USIZE: if (!this.program.options.isWasm64) return Type.u32;\r\n case TypeKind.U64: return Type.u64;\r\n case TypeKind.F32: return Type.f32;\r\n case TypeKind.F64: return Type.f64;\r\n case TypeKind.V128: return Type.v128;\r\n case TypeKind.VOID: return Type.void;\r\n default: assert(false);\r\n }\r\n }\r\n\r\n // resolve normally\r\n let typeParameterNodes = (element).typeParameterNodes;\r\n let typeArguments: Type[] | null = null;\r\n if (typeParameterNodes) {\r\n typeArguments = this.resolveTypeArguments(\r\n typeParameterNodes,\r\n typeArgumentNodes,\r\n context,\r\n contextualTypeArguments = makeMap(contextualTypeArguments), // inherit\r\n node,\r\n reportMode\r\n );\r\n if (!typeArguments) return null;\r\n } else if (typeArgumentNodes && typeArgumentNodes.length) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n typeNode.range, typeName.identifier.text\r\n );\r\n // recoverable\r\n }\r\n return this.resolveType(\r\n (element).typeNode,\r\n element,\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n typeNode.name.range, typeName.identifier.text\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Resolves a type name to the program element it refers to. */\r\n resolveTypeName(\r\n /** The type name to resolve. */\r\n typeName: TypeName,\r\n /** Relative context. */\r\n context: Element,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode = ReportMode.REPORT\r\n ): Element | null {\r\n var element = context.lookup(typeName.identifier.text);\r\n if (!element) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n typeName.range, typeName.identifier.text\r\n );\r\n }\r\n return null;\r\n }\r\n var prev = typeName;\r\n var next = typeName.next;\r\n while (next) {\r\n if (!(element = element.lookupInSelf(next.identifier.text))) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Property_0_does_not_exist_on_type_1,\r\n next.range, next.identifier.text, prev.identifier.text\r\n );\r\n }\r\n return null;\r\n }\r\n prev = next;\r\n next = next.next;\r\n }\r\n return element;\r\n }\r\n\r\n /** Resolves an array of type arguments to concrete types. */\r\n resolveTypeArguments(\r\n /** Actual type parameter nodes. */\r\n typeParameters: TypeParameterNode[],\r\n /** Type arguments provided. */\r\n typeArgumentNodes: CommonTypeNode[] | null,\r\n /** Relative context. */\r\n context: Element,\r\n /** Type arguments inherited through context, i.e. `T`. */\r\n contextualTypeArguments: Map = makeMap(),\r\n /** Alternative report node in case of empty type arguments. */\r\n alternativeReportNode: Node | null = null,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Type[] | null {\r\n var minParameterCount = 0;\r\n var maxParameterCount = 0;\r\n for (let i = 0; i < typeParameters.length; ++i) {\r\n if (!typeParameters[i].defaultType) ++minParameterCount;\r\n ++maxParameterCount;\r\n }\r\n var argumentCount = typeArgumentNodes ? typeArgumentNodes.length : 0;\r\n if (argumentCount < minParameterCount || argumentCount > maxParameterCount) {\r\n this.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n argumentCount\r\n ? Range.join(\r\n (typeArgumentNodes)[0].range,\r\n (typeArgumentNodes)[argumentCount - 1].range\r\n )\r\n : assert(alternativeReportNode).range,\r\n (argumentCount < minParameterCount ? minParameterCount : maxParameterCount).toString(10),\r\n argumentCount.toString(10)\r\n );\r\n return null;\r\n }\r\n var typeArguments = new Array(maxParameterCount);\r\n for (let i = 0; i < maxParameterCount; ++i) {\r\n let type = i < argumentCount\r\n ? this.resolveType( // reports\r\n (typeArgumentNodes)[i],\r\n context,\r\n contextualTypeArguments,\r\n reportMode\r\n )\r\n : this.resolveType( // reports\r\n assert(typeParameters[i].defaultType),\r\n context,\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n if (!type) return null;\r\n // TODO: check extendsType\r\n contextualTypeArguments.set(typeParameters[i].name.text, type);\r\n typeArguments[i] = type;\r\n }\r\n return typeArguments;\r\n }\r\n\r\n /** Resolves an identifier to the program element it refers to. */\r\n resolveIdentifier(\r\n /** The expression to resolve. */\r\n identifier: IdentifierExpression,\r\n /** Optional flow to search for scoped locals. */\r\n flow: Flow | null,\r\n /** Optional context to search. */\r\n context: Element | null,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n var name = identifier.text;\r\n var element: Element | null;\r\n if (flow) {\r\n if (element = flow.lookup(name)) {\r\n this.currentThisExpression = null;\r\n this.currentElementExpression = null;\r\n return element;\r\n }\r\n }\r\n if (context) {\r\n if (element = context.lookup(name)) {\r\n this.currentThisExpression = null;\r\n this.currentElementExpression = null;\r\n return element;\r\n }\r\n }\r\n if (element = this.program.lookupGlobal(name)) {\r\n this.currentThisExpression = null;\r\n this.currentElementExpression = null;\r\n return element;\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n identifier.range, name\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Resolves a lazily compiled global, i.e. a static class field. */\r\n ensureResolvedLazyGlobal(global: Global, reportMode: ReportMode = ReportMode.REPORT): bool {\r\n if (global.is(CommonFlags.RESOLVED)) return true;\r\n var typeNode = global.typeNode;\r\n if (!typeNode) return false;\r\n var type = this.resolveType( // reports\r\n typeNode,\r\n global.parent,\r\n null,\r\n reportMode\r\n );\r\n if (!type) return false;\r\n global.setType(type);\r\n return true;\r\n }\r\n\r\n /** Resolves a property access expression to the program element it refers to. */\r\n resolvePropertyAccessExpression(\r\n /** The expression to resolve. */\r\n propertyAccess: PropertyAccessExpression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n var targetExpression = propertyAccess.expression;\r\n var target = this.resolveExpression(targetExpression, flow, contextualType, reportMode); // reports\r\n if (!target) return null;\r\n var propertyName = propertyAccess.property.text;\r\n\r\n // Resolve variable-likes to their class type first\r\n switch (target.kind) {\r\n case ElementKind.GLOBAL: if (!this.ensureResolvedLazyGlobal(target, reportMode)) return null;\r\n case ElementKind.LOCAL:\r\n case ElementKind.FIELD: {\r\n let type = (target).type; assert(type != Type.void);\r\n let classReference = type.classReference;\r\n if (!classReference) {\r\n let typeClasses = this.program.typeClasses;\r\n if (!type.is(TypeFlags.REFERENCE) && typeClasses.has(type.kind)) {\r\n classReference = typeClasses.get(type.kind)!;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Property_0_does_not_exist_on_type_1,\r\n propertyAccess.property.range, propertyName, (target).type.toString()\r\n );\r\n return null;\r\n }\r\n }\r\n target = classReference;\r\n break;\r\n }\r\n case ElementKind.PROPERTY_PROTOTYPE: { // static\r\n let getterInstance = this.resolveFunction( // reports\r\n assert((target).getterPrototype), // must have a getter\r\n null,\r\n makeMap(),\r\n reportMode\r\n );\r\n if (!getterInstance) return null;\r\n let classReference = getterInstance.signature.returnType.classReference;\r\n if (!classReference) {\r\n this.error(\r\n DiagnosticCode.Property_0_does_not_exist_on_type_1,\r\n propertyAccess.property.range, propertyName, getterInstance.signature.returnType.toString()\r\n );\r\n return null;\r\n }\r\n target = classReference;\r\n break;\r\n }\r\n case ElementKind.PROPERTY: { // instance\r\n let getterInstance = assert((target).getterInstance); // must have a getter\r\n let classReference = getterInstance.signature.returnType.classReference;\r\n if (!classReference) {\r\n this.error(\r\n DiagnosticCode.Property_0_does_not_exist_on_type_1,\r\n propertyAccess.property.range, propertyName, getterInstance.signature.returnType.toString()\r\n );\r\n return null;\r\n }\r\n target = classReference;\r\n break;\r\n }\r\n case ElementKind.CLASS: { // property access on element access?\r\n let elementExpression = this.currentElementExpression;\r\n if (elementExpression) {\r\n let indexedGet = (target).lookupOverload(OperatorKind.INDEXED_GET);\r\n if (!indexedGet) {\r\n this.error(\r\n DiagnosticCode.Index_signature_is_missing_in_type_0,\r\n elementExpression.range, (target).internalName\r\n );\r\n return null;\r\n }\r\n let returnType = indexedGet.signature.returnType;\r\n if (!(target = returnType.classReference)) {\r\n this.error(\r\n DiagnosticCode.Property_0_does_not_exist_on_type_1,\r\n propertyAccess.property.range, propertyName, returnType.toString()\r\n );\r\n return null;\r\n }\r\n }\r\n break;\r\n }\r\n }\r\n\r\n // Look up the member within\r\n switch (target.kind) {\r\n case ElementKind.CLASS_PROTOTYPE:\r\n case ElementKind.CLASS: {\r\n do {\r\n let members = target.members;\r\n if (members && members.has(propertyName)) {\r\n this.currentThisExpression = targetExpression;\r\n this.currentElementExpression = null;\r\n return members.get(propertyName)!; // instance FIELD, static GLOBAL, FUNCTION_PROTOTYPE...\r\n }\r\n // traverse inherited static members on the base prototype if target is a class prototype\r\n if (target.kind == ElementKind.CLASS_PROTOTYPE) {\r\n if ((target).basePrototype) {\r\n target = (target).basePrototype;\r\n } else {\r\n break;\r\n }\r\n // traverse inherited instance members on the base class if target is a class instance\r\n } else if (target.kind == ElementKind.CLASS) {\r\n if ((target).base) {\r\n target = (target).base;\r\n } else {\r\n break;\r\n }\r\n } else {\r\n break;\r\n }\r\n } while (true);\r\n break;\r\n }\r\n default: { // enums or other namespace-like elements\r\n let members = target.members;\r\n if (members && members.has(propertyName)) {\r\n this.currentThisExpression = targetExpression;\r\n this.currentElementExpression = null;\r\n return members.get(propertyName)!; // static ENUMVALUE, static GLOBAL, static FUNCTION_PROTOTYPE...\r\n }\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Property_0_does_not_exist_on_type_1,\r\n propertyAccess.property.range, propertyName, target.internalName\r\n );\r\n return null;\r\n }\r\n\r\n /** Resolves an element access expression to the program element it refers to. */\r\n resolveElementAccessExpression(\r\n /** The expression to resolve. */\r\n elementAccess: ElementAccessExpression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n var targetExpression = elementAccess.expression;\r\n var target = this.resolveExpression(targetExpression, flow, contextualType, reportMode); // reports\r\n if (!target) return null;\r\n switch (target.kind) {\r\n case ElementKind.GLOBAL: if (!this.ensureResolvedLazyGlobal(target, reportMode)) return null;\r\n case ElementKind.LOCAL:\r\n case ElementKind.FIELD: {\r\n let type = (target).type;\r\n if (target = type.classReference) {\r\n this.currentThisExpression = targetExpression;\r\n this.currentElementExpression = elementAccess.elementExpression;\r\n return target;\r\n }\r\n break;\r\n }\r\n case ElementKind.CLASS: {\r\n let indexedGet = (target).lookupOverload(OperatorKind.INDEXED_GET);\r\n if (!indexedGet) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Index_signature_is_missing_in_type_0,\r\n elementAccess.range, (target).internalName\r\n );\r\n }\r\n return null;\r\n }\r\n if (targetExpression.kind == NodeKind.ELEMENTACCESS) { // nested element access\r\n let returnType = indexedGet.signature.returnType;\r\n if (target = returnType.classReference) {\r\n this.currentThisExpression = targetExpression;\r\n this.currentElementExpression = elementAccess.elementExpression;\r\n return target;\r\n }\r\n return null;\r\n }\r\n this.currentThisExpression = targetExpression;\r\n this.currentElementExpression = elementAccess.elementExpression;\r\n return target;\r\n }\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n targetExpression.range\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Determines the final type of an integer literal given the specified contextual type. */\r\n determineIntegerLiteralType(\r\n /** Integer literal value. */\r\n intValue: I64,\r\n /** Current contextual type. */\r\n contextualType: Type\r\n ): Type {\r\n if (!contextualType.is(TypeFlags.REFERENCE)) {\r\n // compile to contextualType if matching\r\n switch (contextualType.kind) {\r\n case TypeKind.I8: {\r\n if (i64_is_i8(intValue)) return Type.i8;\r\n break;\r\n }\r\n case TypeKind.U8: {\r\n if (i64_is_u8(intValue)) return Type.u8;\r\n break;\r\n }\r\n case TypeKind.I16: {\r\n if (i64_is_i16(intValue)) return Type.i16;\r\n break;\r\n }\r\n case TypeKind.U16: {\r\n if (i64_is_u16(intValue)) return Type.u16;\r\n break;\r\n }\r\n case TypeKind.I32: {\r\n if (i64_is_i32(intValue)) return Type.i32;\r\n break;\r\n }\r\n case TypeKind.U32: {\r\n if (i64_is_u32(intValue)) return Type.u32;\r\n break;\r\n }\r\n case TypeKind.BOOL: {\r\n if (i64_is_bool(intValue)) return Type.bool;\r\n break;\r\n }\r\n case TypeKind.ISIZE: {\r\n if (!this.program.options.isWasm64) {\r\n if (i64_is_i32(intValue)) return Type.isize32;\r\n break;\r\n }\r\n return Type.isize64;\r\n }\r\n case TypeKind.USIZE: {\r\n if (!this.program.options.isWasm64) {\r\n if (i64_is_u32(intValue)) return Type.usize32;\r\n break;\r\n }\r\n return Type.usize64;\r\n }\r\n case TypeKind.I64: return Type.i64;\r\n case TypeKind.U64: return Type.u64;\r\n case TypeKind.F32: return Type.f32;\r\n case TypeKind.F64: return Type.f64;\r\n case TypeKind.VOID: break; // best fitting below\r\n default: assert(false);\r\n }\r\n }\r\n // otherwise compile to best fitting native type\r\n if (i64_is_i32(intValue)) return Type.i32;\r\n if (i64_is_u32(intValue)) return Type.u32;\r\n return Type.i64;\r\n }\r\n\r\n /** Resolves any expression to the program element it refers to. */\r\n resolveExpression(\r\n /** The expression to resolve. */\r\n expression: Expression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type = Type.void,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n while (expression.kind == NodeKind.PARENTHESIZED) { // simply skip\r\n expression = (expression).expression;\r\n }\r\n switch (expression.kind) {\r\n case NodeKind.ASSERTION: {\r\n return this.resolveAssertionExpression(\r\n expression,\r\n flow, contextualType, reportMode\r\n );\r\n }\r\n case NodeKind.UNARYPREFIX: {\r\n return this.resolveUnaryPrefixExpression(\r\n expression,\r\n flow, contextualType, reportMode\r\n );\r\n }\r\n case NodeKind.UNARYPOSTFIX: {\r\n return this.resolveUnaryPostfixExpression(\r\n expression,\r\n flow, contextualType, reportMode\r\n );\r\n }\r\n case NodeKind.BINARY: {\r\n return this.resolveBinaryExpression(\r\n expression,\r\n flow, contextualType, reportMode\r\n );\r\n }\r\n case NodeKind.THIS: {\r\n return this.resolveThisExpression(\r\n expression,\r\n flow, contextualType, reportMode\r\n );\r\n }\r\n case NodeKind.SUPER: {\r\n return this.resolveSuperExpression(\r\n expression,\r\n flow, contextualType, reportMode\r\n );\r\n }\r\n case NodeKind.IDENTIFIER: {\r\n return this.resolveIdentifier(\r\n expression,\r\n flow, flow.actualFunction, reportMode\r\n );\r\n }\r\n case NodeKind.LITERAL: {\r\n return this.resolveLiteralExpression(\r\n expression,\r\n flow, contextualType, reportMode\r\n );\r\n }\r\n case NodeKind.PROPERTYACCESS: {\r\n return this.resolvePropertyAccessExpression(\r\n expression,\r\n flow, contextualType, reportMode\r\n );\r\n }\r\n case NodeKind.ELEMENTACCESS: {\r\n return this.resolveElementAccessExpression(\r\n expression,\r\n flow, contextualType, reportMode\r\n );\r\n }\r\n case NodeKind.CALL: {\r\n return this.resolveCallExpression(\r\n expression,\r\n flow, contextualType, reportMode\r\n );\r\n }\r\n // TODO: everything else\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Resolves an assertion expression to the program element it refers to. */\r\n resolveAssertionExpression(\r\n /** The expression to resolve. */\r\n expression: AssertionExpression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type = Type.void,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n if (expression.assertionKind == AssertionKind.NONNULL) {\r\n return this.resolveExpression(\r\n expression.expression,\r\n flow,\r\n contextualType,\r\n reportMode\r\n );\r\n }\r\n var type = this.resolveType(\r\n assert(expression.toType), // must be set if not NONNULL\r\n flow.actualFunction,\r\n flow.contextualTypeArguments,\r\n reportMode\r\n );\r\n if (!type) return null;\r\n var element: Element | null = type.classReference;\r\n if (!element) {\r\n let signature = type.signatureReference;\r\n if (!signature) return null;\r\n element = signature.asFunctionTarget(this.program);\r\n }\r\n this.currentThisExpression = null;\r\n this.currentElementExpression = null;\r\n return element;\r\n }\r\n\r\n /** Resolves an unary prefix expression to the program element it refers to. */\r\n resolveUnaryPrefixExpression(\r\n /** The expression to resolve. */\r\n expression: UnaryPrefixExpression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type = Type.void,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n var operand = expression.operand;\r\n // TODO: operator overloads\r\n switch (expression.operator) {\r\n case Token.MINUS: {\r\n // implicitly negate if an integer literal to distinguish between i32/u32/i64\r\n if (operand.kind == NodeKind.LITERAL && (operand).literalKind == LiteralKind.INTEGER) {\r\n let type = this.determineIntegerLiteralType(\r\n i64_sub(i64_zero, (operand).value),\r\n contextualType\r\n );\r\n let typeClasses = this.program.typeClasses;\r\n return typeClasses.has(type.kind) ? typeClasses.get(type.kind)! : null;\r\n }\r\n return this.resolveExpression(\r\n operand,\r\n flow,\r\n contextualType,\r\n reportMode\r\n );\r\n }\r\n case Token.PLUS:\r\n case Token.PLUS_PLUS:\r\n case Token.MINUS_MINUS: {\r\n return this.resolveExpression(\r\n expression.operand,\r\n flow,\r\n contextualType,\r\n reportMode\r\n );\r\n }\r\n case Token.EXCLAMATION: {\r\n let typeClasses = this.program.typeClasses;\r\n return typeClasses.has(TypeKind.BOOL) ? typeClasses.get(TypeKind.BOOL)! : null;\r\n }\r\n case Token.TILDE: {\r\n let resolvedOperand = this.resolveExpression(\r\n expression.operand,\r\n flow,\r\n contextualType,\r\n reportMode\r\n );\r\n if (!resolvedOperand) return null;\r\n // TODO\r\n break;\r\n }\r\n default: assert(false);\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Resolves an unary postfix expression to the program element it refers to. */\r\n resolveUnaryPostfixExpression(\r\n /** The expression to resolve. */\r\n expression: UnaryPostfixExpression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type = Type.void,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n // TODO: operator overloads\r\n switch (expression.operator) {\r\n case Token.PLUS_PLUS:\r\n case Token.MINUS_MINUS: {\r\n return this.resolveExpression(\r\n expression.operand,\r\n flow,\r\n contextualType,\r\n reportMode\r\n );\r\n }\r\n default: assert(false);\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Resolves a binary expression to the program element it refers to. */\r\n resolveBinaryExpression(\r\n /** The expression to resolve. */\r\n expression: BinaryExpression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type = Type.void,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n // TODO\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Resolves a this expression to the program element it refers to. */\r\n resolveThisExpression(\r\n /** The expression to resolve. */\r\n expression: ThisExpression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type = Type.void,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n if (flow.is(FlowFlags.INLINE_CONTEXT)) {\r\n let thisLocal = flow.lookupLocal(CommonSymbols.this_);\r\n if (thisLocal) {\r\n this.currentThisExpression = null;\r\n this.currentElementExpression = null;\r\n return thisLocal;\r\n }\r\n }\r\n var parent = flow.actualFunction.parent;\r\n if (parent) {\r\n this.currentThisExpression = null;\r\n this.currentElementExpression = null;\r\n return parent;\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode._this_cannot_be_referenced_in_current_location,\r\n expression.range\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Resolves a super expression to the program element it refers to. */\r\n resolveSuperExpression(\r\n /** The expression to resolve. */\r\n expression: SuperExpression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type = Type.void,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n if (flow.is(FlowFlags.INLINE_CONTEXT)) {\r\n let superLocal = flow.lookupLocal(CommonSymbols.super_);\r\n if (superLocal) {\r\n this.currentThisExpression = null;\r\n this.currentElementExpression = null;\r\n return superLocal;\r\n }\r\n }\r\n var parent: Element | null = flow.actualFunction.parent;\r\n if (parent && parent.kind == ElementKind.CLASS && (parent = (parent).base)) {\r\n this.currentThisExpression = null;\r\n this.currentElementExpression = null;\r\n return parent;\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode._super_can_only_be_referenced_in_a_derived_class,\r\n expression.range\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Resolves a literal expression to the program element it refers to. */\r\n resolveLiteralExpression(\r\n /** The expression to resolve. */\r\n expression: LiteralExpression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type = Type.void,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n switch (expression.literalKind) {\r\n case LiteralKind.INTEGER: {\r\n this.currentThisExpression = expression;\r\n this.currentElementExpression = null;\r\n let literalType = this.determineIntegerLiteralType(\r\n (expression).value,\r\n contextualType\r\n );\r\n let typeClasses = this.program.typeClasses;\r\n return typeClasses.has(literalType.kind) ? typeClasses.get(literalType.kind)! : null;\r\n }\r\n case LiteralKind.FLOAT: {\r\n this.currentThisExpression = expression;\r\n this.currentElementExpression = null;\r\n let literalType = contextualType == Type.f32 ? Type.f32 : Type.f64;\r\n let typeClasses = this.program.typeClasses;\r\n return typeClasses.has(literalType.kind) ? typeClasses.get(literalType.kind)! : null;\r\n }\r\n case LiteralKind.STRING: {\r\n this.currentThisExpression = expression;\r\n this.currentElementExpression = null;\r\n return this.program.stringInstance;\r\n }\r\n // TODO\r\n // case LiteralKind.ARRAY:\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Resolves a call expression to the program element it refers to. */\r\n resolveCallExpression(\r\n /** The expression to resolve. */\r\n expression: CallExpression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type = Type.void,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n var targetExpression = expression.expression;\r\n var target = this.resolveExpression( // reports\r\n targetExpression,\r\n flow,\r\n contextualType,\r\n reportMode\r\n );\r\n if (!target) return null;\r\n if (target.kind == ElementKind.FUNCTION_PROTOTYPE) {\r\n let instance = this.resolveFunctionInclTypeArguments(\r\n target,\r\n expression.typeArguments,\r\n flow.actualFunction,\r\n makeMap(flow.contextualTypeArguments), // don't inherit\r\n expression,\r\n reportMode\r\n );\r\n if (!instance) return null;\r\n let returnType = instance.signature.returnType;\r\n let classType = returnType.classReference;\r\n if (classType) {\r\n // reuse resolvedThisExpression (might be property access)\r\n // reuse resolvedElementExpression (might be element access)\r\n return classType;\r\n } else {\r\n let signature = returnType.signatureReference;\r\n if (signature) {\r\n let functionTarget = signature.asFunctionTarget(this.program);\r\n // reuse resolvedThisExpression (might be property access)\r\n // reuse resolvedElementExpression (might be element access)\r\n return functionTarget;\r\n }\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Cannot_invoke_an_expression_whose_type_lacks_a_call_signature_Type_0_has_no_compatible_call_signatures,\r\n targetExpression.range, target.internalName\r\n );\r\n }\r\n return null;\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Resolves a function prototype using the specified concrete type arguments. */\r\n resolveFunction(\r\n /** The prototype of the function. */\r\n prototype: FunctionPrototype,\r\n /** Concrete type arguments. */\r\n typeArguments: Type[] | null,\r\n /** Type arguments inherited through context, i.e. `T`. */\r\n contextualTypeArguments: Map = makeMap(),\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Function | null {\r\n var actualParent = prototype.parent.kind == ElementKind.PROPERTY_PROTOTYPE\r\n ? prototype.parent.parent\r\n : prototype.parent;\r\n var classInstance: Class | null = null; // if an instance method\r\n var instanceKey = typeArguments ? typesToString(typeArguments) : \"\";\r\n\r\n // Instance method prototypes are pre-bound to their concrete class as their parent\r\n if (prototype.is(CommonFlags.INSTANCE)) {\r\n assert(actualParent.kind == ElementKind.CLASS);\r\n classInstance = actualParent;\r\n\r\n // check if this exact concrete class and function combination is known already\r\n let resolvedInstance = prototype.getResolvedInstance(instanceKey);\r\n if (resolvedInstance) return resolvedInstance;\r\n\r\n // inherit class specific type arguments\r\n let classTypeArguments = classInstance.typeArguments;\r\n if (classTypeArguments) {\r\n let classTypeParameters = assert(classInstance.prototype.typeParameterNodes);\r\n let numClassTypeArguments = classTypeParameters.length;\r\n assert(numClassTypeArguments == classTypeParameters.length);\r\n for (let i = 0; i < numClassTypeArguments; ++i) {\r\n let classTypeParameterName = classTypeParameters[i].name.text;\r\n if (!contextualTypeArguments.has(classTypeParameterName)) {\r\n contextualTypeArguments.set(\r\n classTypeParameterName,\r\n classTypeArguments[i]\r\n );\r\n }\r\n }\r\n }\r\n } else {\r\n assert(actualParent.kind != ElementKind.CLASS); // must not be pre-bound\r\n let resolvedInstance = prototype.getResolvedInstance(instanceKey);\r\n if (resolvedInstance) return resolvedInstance;\r\n }\r\n\r\n // override whatever is contextual with actual function type arguments\r\n var signatureNode = prototype.signatureNode;\r\n var typeParameterNodes = prototype.typeParameterNodes;\r\n var numFunctionTypeArguments: i32;\r\n if (typeArguments && (numFunctionTypeArguments = typeArguments.length)) {\r\n assert(typeParameterNodes && numFunctionTypeArguments == typeParameterNodes.length);\r\n for (let i = 0; i < numFunctionTypeArguments; ++i) {\r\n contextualTypeArguments.set(\r\n (typeParameterNodes)[i].name.text,\r\n typeArguments[i]\r\n );\r\n }\r\n } else {\r\n assert(!typeParameterNodes || typeParameterNodes.length == 0);\r\n }\r\n\r\n // resolve `this` type if applicable\r\n var thisType: Type | null = null;\r\n var explicitThisType = signatureNode.explicitThisType;\r\n if (explicitThisType) {\r\n thisType = this.resolveType(\r\n explicitThisType,\r\n prototype.parent, // relative to function\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n if (!thisType) return null;\r\n contextualTypeArguments.set(CommonSymbols.this_, thisType);\r\n } else if (classInstance) {\r\n thisType = classInstance.type;\r\n contextualTypeArguments.set(CommonSymbols.this_, thisType);\r\n }\r\n\r\n // resolve parameter types\r\n var signatureParameters = signatureNode.parameters;\r\n var numSignatureParameters = signatureParameters.length;\r\n var parameterTypes = new Array(numSignatureParameters);\r\n var parameterNames = new Array(numSignatureParameters);\r\n var requiredParameters = 0;\r\n for (let i = 0; i < numSignatureParameters; ++i) {\r\n let parameterDeclaration = signatureParameters[i];\r\n if (parameterDeclaration.parameterKind == ParameterKind.DEFAULT) {\r\n requiredParameters = i + 1;\r\n }\r\n let typeNode = parameterDeclaration.type;\r\n if (isTypeOmitted(typeNode)) {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n typeNode.range\r\n );\r\n return null;\r\n }\r\n let parameterType = this.resolveType(\r\n typeNode,\r\n prototype.parent, // relative to function\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n if (!parameterType) return null;\r\n parameterTypes[i] = parameterType;\r\n parameterNames[i] = parameterDeclaration.name.text;\r\n }\r\n\r\n // resolve return type\r\n var returnType: Type;\r\n if (prototype.is(CommonFlags.SET)) {\r\n returnType = Type.void; // not annotated\r\n } else if (prototype.is(CommonFlags.CONSTRUCTOR)) {\r\n returnType = assert(classInstance).type; // not annotated\r\n } else {\r\n let typeNode = signatureNode.returnType;\r\n if (isTypeOmitted(typeNode)) {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n typeNode.range\r\n );\r\n return null;\r\n }\r\n let type = this.resolveType(\r\n typeNode,\r\n prototype.parent, // relative to function\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n if (!type) return null;\r\n returnType = type;\r\n }\r\n\r\n var signature = new Signature(parameterTypes, returnType, thisType);\r\n signature.parameterNames = parameterNames;\r\n signature.requiredParameters = requiredParameters;\r\n\r\n var nameInclTypeParameters = prototype.name;\r\n if (instanceKey.length) nameInclTypeParameters += \"<\" + instanceKey + \">\";\r\n var instance = new Function(\r\n nameInclTypeParameters,\r\n prototype,\r\n signature,\r\n contextualTypeArguments\r\n );\r\n prototype.setResolvedInstance(instanceKey, instance);\r\n return instance;\r\n }\r\n\r\n /** Resolves a function prototypeby first resolving the specified type arguments. */\r\n resolveFunctionInclTypeArguments(\r\n /** The prototype of the function. */\r\n prototype: FunctionPrototype,\r\n /** Type arguments provided. */\r\n typeArgumentNodes: CommonTypeNode[] | null,\r\n /** Relative context. Type arguments are resolved from here. */\r\n context: Element,\r\n /** Type arguments inherited through context, i.e. `T`. */\r\n contextualTypeArguments: Map,\r\n /** The node to use when reporting intermediate errors. */\r\n reportNode: Node,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Function | null {\r\n var actualParent = prototype.parent.kind == ElementKind.PROPERTY_PROTOTYPE\r\n ? prototype.parent.parent\r\n : prototype.parent;\r\n var resolvedTypeArguments: Type[] | null = null;\r\n\r\n // Resolve type arguments if generic\r\n if (prototype.is(CommonFlags.GENERIC)) {\r\n\r\n // If this is an instance method, first apply the class's type arguments\r\n if (prototype.is(CommonFlags.INSTANCE)) {\r\n assert(actualParent.kind == ElementKind.CLASS);\r\n let classTypeArguments = (actualParent).typeArguments;\r\n if (classTypeArguments) {\r\n let typeParameterNodes = assert((actualParent).prototype.typeParameterNodes);\r\n let numClassTypeArguments = classTypeArguments.length;\r\n assert(numClassTypeArguments == typeParameterNodes.length);\r\n for (let i = 0; i < numClassTypeArguments; ++i) {\r\n contextualTypeArguments.set(\r\n typeParameterNodes[i].name.text,\r\n classTypeArguments[i]\r\n );\r\n }\r\n }\r\n }\r\n\r\n resolvedTypeArguments = this.resolveTypeArguments( // reports\r\n assert(prototype.typeParameterNodes),\r\n typeArgumentNodes,\r\n context,\r\n contextualTypeArguments,\r\n reportNode,\r\n reportMode\r\n );\r\n if (!resolvedTypeArguments) return null;\r\n\r\n // Otherwise make sure that no type arguments have been specified\r\n } else {\r\n if (typeArgumentNodes !== null && typeArgumentNodes.length) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n return null;\r\n }\r\n }\r\n\r\n // Continue with concrete types\r\n return this.resolveFunction(\r\n prototype,\r\n resolvedTypeArguments,\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n }\r\n\r\n /** Resolves a class prototype using the specified concrete type arguments. */\r\n resolveClass(\r\n /** The prototype of the class. */\r\n prototype: ClassPrototype,\r\n /** Concrete type arguments. */\r\n typeArguments: Type[] | null,\r\n /** Type arguments inherited through context, i.e. `T`. */\r\n contextualTypeArguments: Map = makeMap(),\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Class | null {\r\n var instanceKey = typeArguments ? typesToString(typeArguments) : \"\";\r\n\r\n // Check if this exact instance has already been resolved\r\n var instance = prototype.getResolvedInstance(instanceKey);\r\n if (instance) return instance;\r\n\r\n // Insert contextual type arguments for this operation. Internally, this method is always\r\n // called with matching type parameter / argument counts.\r\n if (typeArguments) {\r\n let typeParameterNodes = assert(prototype.typeParameterNodes);\r\n let numTypeParameters = typeParameterNodes.length;\r\n let numTypeArguments = typeArguments.length;\r\n assert(numTypeArguments == numTypeParameters);\r\n for (let i = 0; i < numTypeArguments; ++i) {\r\n contextualTypeArguments.set(typeParameterNodes[i].name.text, typeArguments[i]);\r\n }\r\n } else {\r\n let typeParameterNodes = prototype.typeParameterNodes;\r\n assert(!(typeParameterNodes && typeParameterNodes.length));\r\n }\r\n\r\n // Resolve base class if applicable\r\n var basePrototype = prototype.basePrototype;\r\n var baseClass: Class | null = null;\r\n if (basePrototype) {\r\n let extendsNode = assert(prototype.extendsNode); // must be present if it has a base prototype\r\n baseClass = this.resolveClassInclTypeArguments(\r\n basePrototype,\r\n extendsNode.typeArguments,\r\n prototype.parent, // relative to derived class\r\n makeMap(contextualTypeArguments), // don't inherit\r\n extendsNode,\r\n reportMode\r\n );\r\n if (!baseClass) return null;\r\n }\r\n\r\n // Construct the instance and remember that it has been resolved already\r\n var nameInclTypeParamters = prototype.name;\r\n if (instanceKey.length) nameInclTypeParamters += \"<\" + instanceKey + \">\";\r\n instance = new Class(nameInclTypeParamters, prototype, typeArguments, baseClass);\r\n instance.contextualTypeArguments = contextualTypeArguments;\r\n prototype.setResolvedInstance(instanceKey, instance);\r\n\r\n // Inherit base class members and set up the initial memory offset for own fields\r\n var memoryOffset: u32 = 0;\r\n if (baseClass) {\r\n let baseMembers = baseClass.members;\r\n if (baseMembers) {\r\n let instanceMembers = instance.members;\r\n if (!instanceMembers) instance.members = instanceMembers = new Map();\r\n for (let [baseMemberName, baseMember] of baseMembers) {\r\n instanceMembers.set(baseMemberName, baseMember);\r\n }\r\n }\r\n memoryOffset = baseClass.currentMemoryOffset;\r\n }\r\n\r\n // Resolve instance members\r\n var instanceMemberPrototypes = prototype.instanceMembers;\r\n if (instanceMemberPrototypes) {\r\n for (let member of instanceMemberPrototypes.values()) {\r\n switch (member.kind) {\r\n\r\n // Lay out fields in advance\r\n case ElementKind.FIELD_PROTOTYPE: {\r\n let instanceMembers = instance.members;\r\n if (!instanceMembers) instance.members = instanceMembers = new Map();\r\n else if (instanceMembers.has(member.name)) {\r\n this.error(\r\n DiagnosticCode.Duplicate_identifier_0,\r\n (member).identifierNode.range,\r\n member.name\r\n );\r\n break;\r\n }\r\n let fieldTypeNode = (member).typeNode;\r\n let fieldType: Type | null = null;\r\n // TODO: handle duplicate non-private fields specifically?\r\n if (!fieldTypeNode) {\r\n if (baseClass) {\r\n let baseMembers = baseClass.members;\r\n if (baseMembers && baseMembers.has((member).name)) {\r\n let baseField = baseMembers.get((member).name)!;\r\n if (!baseField.is(CommonFlags.PRIVATE)) {\r\n assert(baseField.kind == ElementKind.FIELD);\r\n fieldType = (baseField).type;\r\n }\r\n }\r\n }\r\n if (!fieldType) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n (member).identifierNode.range.atEnd\r\n );\r\n }\r\n }\r\n } else {\r\n fieldType = this.resolveType(\r\n fieldTypeNode,\r\n prototype.parent, // relative to class\r\n instance.contextualTypeArguments,\r\n reportMode\r\n );\r\n }\r\n if (!fieldType) break; // did report above\r\n let fieldInstance = new Field(member, instance, fieldType);\r\n assert(isPowerOf2(fieldType.byteSize));\r\n let mask = fieldType.byteSize - 1;\r\n if (memoryOffset & mask) memoryOffset = (memoryOffset | mask) + 1;\r\n fieldInstance.memoryOffset = memoryOffset;\r\n memoryOffset += fieldType.byteSize;\r\n instance.add(member.name, fieldInstance); // reports\r\n break;\r\n }\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n let boundPrototype = (member).toBound(instance);\r\n instance.add(boundPrototype.name, boundPrototype); // reports\r\n break;\r\n }\r\n case ElementKind.PROPERTY_PROTOTYPE: {\r\n let propertyInstance = new Property(member, instance);\r\n let getterPrototype = (member).getterPrototype;\r\n if (getterPrototype) {\r\n let getterInstance = this.resolveFunction(\r\n getterPrototype.toBound(instance),\r\n null,\r\n makeMap(instance.contextualTypeArguments),\r\n reportMode\r\n );\r\n if (getterInstance) {\r\n propertyInstance.getterInstance = getterInstance;\r\n propertyInstance.setType(getterInstance.signature.returnType);\r\n }\r\n }\r\n let setterPrototype = (member).setterPrototype;\r\n if (setterPrototype) {\r\n let setterInstance = this.resolveFunction(\r\n setterPrototype.toBound(instance),\r\n null,\r\n makeMap(instance.contextualTypeArguments),\r\n reportMode\r\n );\r\n if (setterInstance) {\r\n propertyInstance.setterInstance = setterInstance;\r\n if (!propertyInstance.is(CommonFlags.RESOLVED)) {\r\n assert(setterInstance.signature.parameterTypes.length == 1);\r\n propertyInstance.setType(setterInstance.signature.parameterTypes[0]);\r\n }\r\n }\r\n }\r\n instance.add(propertyInstance.name, propertyInstance); // reports\r\n break;\r\n }\r\n default: assert(false);\r\n }\r\n }\r\n }\r\n\r\n // Finalize memory offset\r\n instance.currentMemoryOffset = memoryOffset;\r\n\r\n // Link _own_ constructor if present\r\n {\r\n let ctorPrototype = instance.lookupInSelf(CommonSymbols.constructor);\r\n if (ctorPrototype && ctorPrototype.parent === instance) {\r\n assert(ctorPrototype.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n let ctorInstance = this.resolveFunction(\r\n ctorPrototype,\r\n null,\r\n instance.contextualTypeArguments,\r\n reportMode\r\n );\r\n if (ctorInstance) instance.constructorInstance = ctorInstance;\r\n }\r\n }\r\n\r\n // Fully resolve operator overloads (don't have type parameters on their own)\r\n for (let [kind, overloadPrototype] of prototype.overloadPrototypes) {\r\n assert(kind != OperatorKind.INVALID);\r\n let operatorInstance: Function | null;\r\n if (overloadPrototype.is(CommonFlags.INSTANCE)) {\r\n let boundPrototype = overloadPrototype.toBound(instance);\r\n operatorInstance = this.resolveFunction(\r\n boundPrototype,\r\n null,\r\n makeMap(),\r\n reportMode\r\n );\r\n } else {\r\n operatorInstance = this.resolveFunction(\r\n overloadPrototype,\r\n null,\r\n makeMap(),\r\n reportMode\r\n );\r\n }\r\n if (!operatorInstance) continue;\r\n let overloads = instance.overloads;\r\n if (!overloads) instance.overloads = overloads = new Map();\r\n overloads.set(kind, operatorInstance);\r\n }\r\n return instance;\r\n }\r\n\r\n /** Resolves a class prototype by first resolving the specified type arguments. */\r\n resolveClassInclTypeArguments(\r\n /** The prototype of the class. */\r\n prototype: ClassPrototype,\r\n /** Type argument nodes provided. */\r\n typeArgumentNodes: CommonTypeNode[] | null,\r\n /** Relative context. Type arguments are resolved from here. */\r\n context: Element,\r\n /** Type arguments inherited through context, i.e. `T`. */\r\n contextualTypeArguments: Map,\r\n /** The node to use when reporting intermediate errors. */\r\n reportNode: Node,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Class | null {\r\n var resolvedTypeArguments: Type[] | null = null;\r\n\r\n // Resolve type arguments if generic\r\n if (prototype.is(CommonFlags.GENERIC)) {\r\n resolvedTypeArguments = this.resolveTypeArguments( // reports\r\n assert(prototype.typeParameterNodes), // must be present if generic\r\n typeArgumentNodes,\r\n context,\r\n contextualTypeArguments,\r\n reportNode,\r\n reportMode\r\n );\r\n if (!resolvedTypeArguments) return null;\r\n\r\n // Otherwise make sure that no type arguments have been specified\r\n } else {\r\n if (typeArgumentNodes !== null && typeArgumentNodes.length) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n return null;\r\n }\r\n }\r\n\r\n // Continue with concrete types\r\n return this.resolveClass(\r\n prototype,\r\n resolvedTypeArguments,\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n }\r\n}\r\n","/**\r\n * The AssemblyScript compiler.\r\n * @module compiler\r\n *//***/\r\n\r\nimport {\r\n compileCall as compileBuiltinCall,\r\n compileAbort,\r\n compileIterateRoots,\r\n ensureGCHook,\r\n BuiltinSymbols\r\n} from \"./builtins\";\r\n\r\nimport {\r\n DiagnosticCode,\r\n DiagnosticEmitter\r\n} from \"./diagnostics\";\r\n\r\nimport {\r\n Module,\r\n MemorySegment,\r\n ExpressionRef,\r\n UnaryOp,\r\n BinaryOp,\r\n NativeType,\r\n FunctionRef,\r\n ExpressionId,\r\n FunctionTypeRef,\r\n GlobalRef,\r\n getExpressionId,\r\n getExpressionType,\r\n getConstValueI32,\r\n getConstValueI64Low,\r\n getConstValueI64High,\r\n getConstValueF32,\r\n getConstValueF64,\r\n getBlockChildCount,\r\n getBlockChild,\r\n getBlockName,\r\n needsExplicitUnreachable\r\n} from \"./module\";\r\n\r\nimport {\r\n CommonFlags,\r\n INSTANCE_DELIMITER,\r\n STATIC_DELIMITER,\r\n GETTER_PREFIX,\r\n SETTER_PREFIX,\r\n LibrarySymbols,\r\n CommonSymbols,\r\n INDEX_SUFFIX\r\n} from \"./common\";\r\n\r\nimport {\r\n Program,\r\n ClassPrototype,\r\n Class,\r\n Element,\r\n ElementKind,\r\n Enum,\r\n Field,\r\n FunctionPrototype,\r\n Function,\r\n FunctionTarget,\r\n Global,\r\n Local,\r\n EnumValue,\r\n Property,\r\n VariableLikeElement,\r\n ConstantValueKind,\r\n OperatorKind,\r\n DecoratorFlags,\r\n PropertyPrototype,\r\n File,\r\n mangleInternalName\r\n} from \"./program\";\r\n\r\nimport {\r\n FlowFlags,\r\n Flow\r\n} from \"./flow\";\r\n\r\nimport {\r\n Resolver, ReportMode\r\n} from \"./resolver\";\r\n\r\nimport {\r\n Token,\r\n operatorTokenToString\r\n} from \"./tokenizer\";\r\n\r\nimport {\r\n Node,\r\n NodeKind,\r\n TypeNode,\r\n Range,\r\n DecoratorKind,\r\n AssertionKind,\r\n\r\n Statement,\r\n BlockStatement,\r\n BreakStatement,\r\n ClassDeclaration,\r\n ContinueStatement,\r\n DeclarationStatement,\r\n DoStatement,\r\n EmptyStatement,\r\n EnumDeclaration,\r\n ExportStatement,\r\n ExpressionStatement,\r\n FieldDeclaration,\r\n ForStatement,\r\n FunctionDeclaration,\r\n IfStatement,\r\n ImportStatement,\r\n InstanceOfExpression,\r\n InterfaceDeclaration,\r\n NamespaceDeclaration,\r\n ReturnStatement,\r\n SwitchStatement,\r\n ThrowStatement,\r\n TryStatement,\r\n VariableStatement,\r\n VoidStatement,\r\n WhileStatement,\r\n\r\n Expression,\r\n AssertionExpression,\r\n BinaryExpression,\r\n CallExpression,\r\n CommaExpression,\r\n ElementAccessExpression,\r\n FloatLiteralExpression,\r\n FunctionExpression,\r\n IdentifierExpression,\r\n IntegerLiteralExpression,\r\n LiteralExpression,\r\n LiteralKind,\r\n NewExpression,\r\n ObjectLiteralExpression,\r\n ParenthesizedExpression,\r\n PropertyAccessExpression,\r\n TernaryExpression,\r\n ArrayLiteralExpression,\r\n StringLiteralExpression,\r\n UnaryPostfixExpression,\r\n UnaryPrefixExpression,\r\n\r\n nodeIsConstantValue,\r\n findDecorator,\r\n isTypeOmitted\r\n} from \"./ast\";\r\n\r\nimport {\r\n Type,\r\n TypeKind,\r\n TypeFlags,\r\n Signature,\r\n\r\n typesToNativeTypes\r\n} from \"./types\";\r\n\r\nimport {\r\n writeI8,\r\n writeI16,\r\n writeI32,\r\n writeI64,\r\n writeF32,\r\n writeF64,\r\n makeMap\r\n} from \"./util\";\r\n\r\n/** Compilation target. */\r\nexport enum Target {\r\n /** WebAssembly with 32-bit pointers. */\r\n WASM32,\r\n /** WebAssembly with 64-bit pointers. Experimental and not supported by any runtime yet. */\r\n WASM64\r\n}\r\n\r\n/** Compiler options. */\r\nexport class Options {\r\n\r\n /** WebAssembly target. Defaults to {@link Target.WASM32}. */\r\n target: Target = Target.WASM32;\r\n /** If true, replaces assertions with nops. */\r\n noAssert: bool = false;\r\n /** If true, imports the memory provided by the embedder. */\r\n importMemory: bool = false;\r\n /** If greater than zero, declare memory as shared by setting max memory to sharedMemory. */\r\n sharedMemory: i32 = 0;\r\n /** If true, imports the function table provided by the embedder. */\r\n importTable: bool = false;\r\n /** If true, generates information necessary for source maps. */\r\n sourceMap: bool = false;\r\n /** Static memory start offset. */\r\n memoryBase: i32 = 0;\r\n /** Global aliases. */\r\n globalAliases: Map | null = null;\r\n /** Additional features to activate. */\r\n features: Feature = Feature.NONE;\r\n\r\n /** Hinted optimize level. Not applied by the compiler itself. */\r\n optimizeLevelHint: i32 = 0;\r\n /** Hinted shrink level. Not applied by the compiler itself. */\r\n shrinkLevelHint: i32 = 0;\r\n\r\n /** Tests if the target is WASM64 or, otherwise, WASM32. */\r\n get isWasm64(): bool {\r\n return this.target == Target.WASM64;\r\n }\r\n\r\n /** Gets the unsigned size type matching the target. */\r\n get usizeType(): Type {\r\n return this.target == Target.WASM64 ? Type.usize64 : Type.usize32;\r\n }\r\n\r\n /** Gets the signed size type matching the target. */\r\n get isizeType(): Type {\r\n return this.target == Target.WASM64 ? Type.isize64 : Type.isize32;\r\n }\r\n\r\n /** Gets the native size type matching the target. */\r\n get nativeSizeType(): NativeType {\r\n return this.target == Target.WASM64 ? NativeType.I64 : NativeType.I32;\r\n }\r\n\r\n /** Tests if a specific feature is activated. */\r\n hasFeature(feature: Feature): bool {\r\n return (this.features & feature) != 0;\r\n }\r\n}\r\n\r\n/** Indicates specific features to activate. */\r\nexport const enum Feature {\r\n /** No additional features. */\r\n NONE = 0,\r\n /** Sign extension operations. */\r\n SIGN_EXTENSION = 1 << 0, // see: https://github.com/WebAssembly/sign-extension-ops\r\n /** Mutable global imports and exports. */\r\n MUTABLE_GLOBAL = 1 << 1, // see: https://github.com/WebAssembly/mutable-global\r\n /** Bulk memory operations. */\r\n BULK_MEMORY = 1 << 2, // see: https://github.com/WebAssembly/bulk-memory-operations\r\n /** SIMD types and operations. */\r\n SIMD = 1 << 3, // see: https://github.com/WebAssembly/simd\r\n /** Threading and atomic operations. */\r\n THREADS = 1 << 4 // see: https://github.com/WebAssembly/threads\r\n}\r\n\r\n/** Indicates the desired kind of a conversion. */\r\nexport const enum ConversionKind {\r\n /** No conversion. */\r\n NONE,\r\n /** Implicit conversion. */\r\n IMPLICIT,\r\n /** Explicit conversion. */\r\n EXPLICIT\r\n}\r\n\r\n/** Indicates the desired wrap mode of a conversion. */\r\nexport const enum WrapMode {\r\n /** No wrapping. */\r\n NONE,\r\n /** Wrap small integer values. */\r\n WRAP\r\n}\r\n\r\n/** Compiler interface. */\r\nexport class Compiler extends DiagnosticEmitter {\r\n\r\n /** Program reference. */\r\n program: Program;\r\n /** Resolver reference. */\r\n resolver: Resolver;\r\n /** Provided options. */\r\n options: Options;\r\n /** Module instance being compiled. */\r\n module: Module;\r\n /** Current control flow. */\r\n currentFlow: Flow;\r\n /** Current inline functions stack. */\r\n currentInlineFunctions: Function[] = [];\r\n /** Current enum in compilation. */\r\n currentEnum: Enum | null = null;\r\n /** Current type in compilation. */\r\n currentType: Type = Type.void;\r\n /** Start function statements. */\r\n currentBody: ExpressionRef[];\r\n /** Counting memory offset. */\r\n memoryOffset: I64;\r\n /** Memory segments being compiled. */\r\n memorySegments: MemorySegment[] = [];\r\n /** Map of already compiled static string segments. */\r\n stringSegments: Map = new Map();\r\n /** Function table being compiled. */\r\n functionTable: string[] = [ \"null\" ];\r\n /** Argument count helper global. */\r\n argcVar: GlobalRef = 0;\r\n /** Argument count helper setter. */\r\n argcSet: FunctionRef = 0;\r\n /** Indicates whether the iterateRoots function must be generated. */\r\n needsIterateRoots: bool = false;\r\n\r\n /** Compiles a {@link Program} to a {@link Module} using the specified options. */\r\n static compile(program: Program, options: Options | null = null): Module {\r\n return new Compiler(program, options).compile();\r\n }\r\n\r\n /** Constructs a new compiler for a {@link Program} using the specified options. */\r\n constructor(program: Program, options: Options | null = null) {\r\n super(program.diagnostics);\r\n this.program = program;\r\n this.resolver = program.resolver;\r\n if (!options) options = new Options();\r\n this.options = options;\r\n this.memoryOffset = i64_new(\r\n // leave space for `null`. also functions as a sentinel for erroneous stores at offset 0.\r\n // note that Binaryen's asm.js output utilizes the first 8 bytes for reinterpretations (#1547)\r\n max(options.memoryBase, 8)\r\n );\r\n this.module = Module.create();\r\n }\r\n\r\n /** Performs compilation of the underlying {@link Program} to a {@link Module}. */\r\n compile(): Module {\r\n var options = this.options;\r\n var module = this.module;\r\n var program = this.program;\r\n\r\n // initialize lookup maps, built-ins, imports, exports, etc.\r\n program.initialize(options);\r\n\r\n // set up the main start function\r\n var startFunctionInstance = program.makeNativeFunction(\"start\", new Signature([], Type.void));\r\n startFunctionInstance.internalName = \"start\";\r\n var startFunctionBody = new Array();\r\n this.currentFlow = startFunctionInstance.flow;\r\n this.currentBody = startFunctionBody;\r\n\r\n // add a mutable heap base dummy\r\n if (options.isWasm64) {\r\n module.addGlobal(\r\n BuiltinSymbols.HEAP_BASE,\r\n NativeType.I64,\r\n true,\r\n module.createI64(0, 0)\r\n );\r\n } else {\r\n module.addGlobal(\r\n BuiltinSymbols.HEAP_BASE,\r\n NativeType.I32,\r\n false,\r\n module.createI32(0)\r\n );\r\n }\r\n\r\n // compile entry file(s) while traversing reachable elements\r\n var files = program.filesByName;\r\n for (let file of files.values()) {\r\n if (file.source.isEntry) {\r\n this.compileFile(file);\r\n this.compileExports(file);\r\n }\r\n }\r\n\r\n // compile the start function if not empty or called by main\r\n var explicitStartFunction = program.explicitStartFunction;\r\n if (startFunctionBody.length || explicitStartFunction) {\r\n let signature = startFunctionInstance.signature;\r\n let funcRef = module.addFunction(\r\n startFunctionInstance.internalName,\r\n this.ensureFunctionType(\r\n signature.parameterTypes,\r\n signature.returnType,\r\n signature.thisType\r\n ),\r\n typesToNativeTypes(startFunctionInstance.additionalLocals),\r\n module.createBlock(null, startFunctionBody)\r\n );\r\n startFunctionInstance.finalize(module, funcRef);\r\n if (!explicitStartFunction) module.setStart(funcRef);\r\n }\r\n\r\n // update the heap base pointer\r\n var memoryOffset = this.memoryOffset;\r\n memoryOffset = i64_align(memoryOffset, options.usizeType.byteSize);\r\n this.memoryOffset = memoryOffset;\r\n module.removeGlobal(BuiltinSymbols.HEAP_BASE);\r\n if (options.isWasm64) {\r\n module.addGlobal(\r\n BuiltinSymbols.HEAP_BASE,\r\n NativeType.I64,\r\n false,\r\n module.createI64(i64_low(memoryOffset), i64_high(memoryOffset))\r\n );\r\n } else {\r\n module.addGlobal(\r\n BuiltinSymbols.HEAP_BASE,\r\n NativeType.I32,\r\n false,\r\n module.createI32(i64_low(memoryOffset))\r\n );\r\n }\r\n\r\n // set up memory\r\n var isSharedMemory = options.hasFeature(Feature.THREADS) && options.sharedMemory > 0;\r\n module.setMemory(\r\n this.options.memoryBase /* is specified */ || this.memorySegments.length\r\n ? i64_low(i64_shr_u(i64_align(memoryOffset, 0x10000), i64_new(16, 0)))\r\n : 0,\r\n isSharedMemory ? options.sharedMemory : Module.UNLIMITED_MEMORY,\r\n this.memorySegments,\r\n options.target,\r\n \"memory\"\r\n );\r\n\r\n // import memory if requested (default memory is named '0' by Binaryen)\r\n if (options.importMemory) module.addMemoryImport(\"0\", \"env\", \"memory\", isSharedMemory);\r\n\r\n // set up function table\r\n var functionTable = this.functionTable;\r\n module.setFunctionTable(functionTable.length, 0xffffffff, functionTable);\r\n module.addTableExport(\"0\", \"table\");\r\n module.addFunction(\"null\", this.ensureFunctionType(null, Type.void), null, module.createBlock(null, []));\r\n\r\n // import table if requested (default table is named '0' by Binaryen)\r\n if (options.importTable) module.addTableImport(\"0\", \"env\", \"table\");\r\n\r\n // set up module exports\r\n for (let file of this.program.filesByName.values()) {\r\n if (file.source.isEntry) this.makeModuleExports(file);\r\n }\r\n\r\n // set up gc\r\n if (this.needsIterateRoots) compileIterateRoots(this);\r\n\r\n return module;\r\n }\r\n\r\n /** Applies the respective module exports for the specified file. */\r\n private makeModuleExports(file: File): void {\r\n var members = file.exports;\r\n if (members) for (let [name, member] of members) this.makeModuleExport(name, member);\r\n var exportsStar = file.exportsStar;\r\n if (exportsStar) {\r\n for (let i = 0, k = exportsStar.length; i < k; ++i) this.makeModuleExports(exportsStar[i]);\r\n }\r\n }\r\n\r\n /** Applies the respective module export(s) for the specified element. */\r\n private makeModuleExport(name: string, element: Element, prefix: string = \"\"): void {\r\n switch (element.kind) {\r\n\r\n // traverse instances\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n let instances = (element).instances;\r\n if (instances) {\r\n for (let instance of instances.values()) {\r\n let instanceName = name;\r\n if (instance.is(CommonFlags.GENERIC)) {\r\n let fullName = instance.internalName;\r\n instanceName += fullName.substring(fullName.lastIndexOf(\"<\"));\r\n }\r\n this.makeModuleExport(instanceName, instance, prefix);\r\n }\r\n }\r\n break;\r\n }\r\n case ElementKind.CLASS_PROTOTYPE: {\r\n let instances = (element).instances;\r\n if (instances) {\r\n for (let instance of instances.values()) {\r\n let instanceName = name;\r\n if (instance.is(CommonFlags.GENERIC)) {\r\n let fullName = instance.internalName;\r\n instanceName += fullName.substring(fullName.lastIndexOf(\"<\"));\r\n }\r\n this.makeModuleExport(instanceName, instance, prefix);\r\n }\r\n }\r\n break;\r\n }\r\n case ElementKind.PROPERTY_PROTOTYPE: {\r\n let getter = (element).getterPrototype;\r\n let setter = (element).setterPrototype;\r\n if (getter) this.makeModuleExport(GETTER_PREFIX + name, getter, prefix);\r\n if (setter) this.makeModuleExport(SETTER_PREFIX + name, setter, prefix);\r\n break;\r\n }\r\n\r\n // export concrete elements\r\n case ElementKind.GLOBAL: {\r\n let isConst = element.is(CommonFlags.CONST) || element.is(CommonFlags.STATIC | CommonFlags.READONLY);\r\n if (!isConst && !this.options.hasFeature(Feature.MUTABLE_GLOBAL)) {\r\n this.error(\r\n DiagnosticCode.Cannot_export_a_mutable_global,\r\n (element).identifierNode.range\r\n );\r\n } else {\r\n this.module.addGlobalExport(element.internalName, prefix + name);\r\n }\r\n break;\r\n }\r\n case ElementKind.ENUMVALUE: {\r\n if (!assert(element.parent).is(CommonFlags.CONST) && !this.options.hasFeature(Feature.MUTABLE_GLOBAL)) {\r\n this.error(\r\n DiagnosticCode.Cannot_export_a_mutable_global,\r\n (element).identifierNode.range\r\n );\r\n } else {\r\n this.module.addGlobalExport(element.internalName, prefix + name);\r\n }\r\n break;\r\n }\r\n case ElementKind.FUNCTION: {\r\n let instance = element;\r\n let signature = instance.signature;\r\n if (signature.requiredParameters < signature.parameterTypes.length) {\r\n // utilize trampoline to fill in omitted arguments\r\n instance = this.ensureTrampoline(instance);\r\n this.ensureArgcSet();\r\n }\r\n if (instance.is(CommonFlags.COMPILED)) this.module.addFunctionExport(instance.internalName, prefix + name);\r\n break;\r\n }\r\n case ElementKind.PROPERTY: {\r\n let getter = (element).getterInstance;\r\n if (getter) this.makeModuleExport(GETTER_PREFIX + name, getter, prefix);\r\n let setter = (element).setterInstance;\r\n if (setter) this.makeModuleExport(SETTER_PREFIX + name, setter, prefix);\r\n break;\r\n }\r\n case ElementKind.FIELD: {\r\n let module = this.module;\r\n let type = (element).type;\r\n let nativeType = type.toNativeType();\r\n let offset = (element).memoryOffset;\r\n let usizeType = this.options.usizeType;\r\n let nativeSizeType = this.options.nativeSizeType;\r\n\r\n // make a getter\r\n let getterName = prefix + GETTER_PREFIX + name;\r\n module.addFunction(\r\n getterName,\r\n this.ensureFunctionType(null, type, usizeType),\r\n null,\r\n module.createLoad(\r\n type.byteSize,\r\n type.is(TypeFlags.SIGNED),\r\n module.createGetLocal(0, nativeSizeType),\r\n nativeType,\r\n offset\r\n )\r\n );\r\n module.addFunctionExport(getterName, getterName);\r\n\r\n // make a setter\r\n if (!element.is(CommonFlags.READONLY)) {\r\n let setterName = prefix + SETTER_PREFIX + name;\r\n module.addFunction(\r\n setterName,\r\n this.ensureFunctionType([ type ], Type.void, usizeType),\r\n null,\r\n module.createStore(\r\n type.byteSize,\r\n module.createGetLocal(0, nativeSizeType),\r\n module.createGetLocal(1, nativeType),\r\n nativeType,\r\n offset\r\n )\r\n );\r\n module.addFunctionExport(setterName, setterName);\r\n }\r\n break;\r\n }\r\n\r\n // just traverse members below\r\n case ElementKind.ENUM:\r\n case ElementKind.CLASS:\r\n case ElementKind.NAMESPACE:\r\n case ElementKind.FILE:\r\n case ElementKind.TYPEDEFINITION: break;\r\n\r\n default: assert(false); // unexpected module export\r\n }\r\n\r\n // traverse members\r\n var members = element.members;\r\n if (members) {\r\n let subPrefix = prefix + name + (element.kind == ElementKind.CLASS\r\n ? INSTANCE_DELIMITER\r\n : STATIC_DELIMITER\r\n );\r\n if (\r\n element.kind == ElementKind.NAMESPACE ||\r\n element.kind == ElementKind.FILE\r\n ) {\r\n for (let member of members.values()) {\r\n if (!member.is(CommonFlags.EXPORT)) continue;\r\n this.makeModuleExport(member.name, member, subPrefix);\r\n }\r\n } else {\r\n for (let member of members.values()) {\r\n if (member.is(CommonFlags.PRIVATE)) continue;\r\n this.makeModuleExport(member.name, member, subPrefix);\r\n }\r\n }\r\n }\r\n }\r\n\r\n // general\r\n\r\n /** Compiles any element. */\r\n compileElement(element: Element, compileMembers: bool = true): void {\r\n switch (element.kind) {\r\n case ElementKind.GLOBAL: {\r\n this.compileGlobal(element);\r\n break;\r\n }\r\n case ElementKind.ENUM: {\r\n this.compileEnum(element);\r\n break;\r\n }\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n if (!element.is(CommonFlags.GENERIC)) {\r\n this.compileFunctionUsingTypeArguments(element, []);\r\n }\r\n break;\r\n }\r\n case ElementKind.CLASS_PROTOTYPE: {\r\n if (!element.is(CommonFlags.GENERIC)) {\r\n this.compileClassUsingTypeArguments(element, []);\r\n }\r\n break;\r\n }\r\n case ElementKind.PROPERTY_PROTOTYPE: {\r\n let getterPrototype = (element).getterPrototype;\r\n if (getterPrototype) {\r\n this.compileFunctionUsingTypeArguments(getterPrototype, []);\r\n }\r\n let setterPrototype = (element).setterPrototype;\r\n if (setterPrototype) {\r\n this.compileFunctionUsingTypeArguments(setterPrototype, []);\r\n }\r\n break;\r\n }\r\n case ElementKind.NAMESPACE:\r\n case ElementKind.TYPEDEFINITION:\r\n case ElementKind.ENUMVALUE: break;\r\n default: assert(false, ElementKind[element.kind]);\r\n }\r\n if (compileMembers) this.compileMembers(element);\r\n }\r\n\r\n /** Compiles an element's members. */\r\n compileMembers(element: Element): void {\r\n var members = element.members;\r\n if (members) for (let element of members.values()) this.compileElement(element);\r\n }\r\n\r\n /** Compiles a file's exports. */\r\n compileExports(file: File): void {\r\n var exports = file.exports;\r\n if (exports) for (let element of exports.values()) this.compileElement(element);\r\n var exportsStar = file.exportsStar;\r\n if (exportsStar) for (let exportStar of exportsStar) this.compileFile(exportStar);\r\n }\r\n\r\n // files\r\n\r\n /** Compiles the file matching the specified path. */\r\n compileFileByPath(normalizedPathWithoutExtension: string, reportNode: Node): void {\r\n var file: File;\r\n var filesByName = this.program.filesByName;\r\n var pathWithIndex: string;\r\n if (filesByName.has(normalizedPathWithoutExtension)) {\r\n file = filesByName.get(normalizedPathWithoutExtension)!;\r\n } else if (filesByName.has(pathWithIndex = normalizedPathWithoutExtension + INDEX_SUFFIX)) {\r\n file = filesByName.get(pathWithIndex)!;\r\n } else {\r\n this.error(\r\n DiagnosticCode.File_0_not_found,\r\n reportNode.range, normalizedPathWithoutExtension\r\n );\r\n return;\r\n }\r\n this.compileFile(file);\r\n }\r\n\r\n /** Compiles the specified file. */\r\n compileFile(file: File): void {\r\n if (file.is(CommonFlags.COMPILED)) return;\r\n file.set(CommonFlags.COMPILED);\r\n\r\n // compile top-level statements within the file's start function\r\n var startFunction = file.startFunction;\r\n var previousBody = this.currentBody;\r\n var startFunctionBody = new Array();\r\n this.currentBody = startFunctionBody;\r\n\r\n // compile top-level statements\r\n var previousFlow = this.currentFlow;\r\n this.currentFlow = startFunction.flow;\r\n for (let statements = file.source.statements, i = 0, k = statements.length; i < k; ++i) {\r\n this.compileTopLevelStatement(statements[i], startFunctionBody);\r\n }\r\n this.currentFlow = previousFlow;\r\n this.currentBody = previousBody;\r\n\r\n // if top-level statements are present, make the per-file start function and call it in start\r\n if (startFunctionBody.length) {\r\n let module = this.module;\r\n let locals = startFunction.localsByIndex;\r\n let numLocals = locals.length;\r\n let varTypes = new Array(numLocals);\r\n for (let i = 0; i < numLocals; ++i) varTypes[i] = locals[i].type.toNativeType();\r\n module.addFunction(\r\n startFunction.internalName,\r\n this.ensureFunctionType(startFunction.signature.parameterTypes, startFunction.signature.returnType),\r\n varTypes,\r\n startFunctionBody.length > 1\r\n ? module.createBlock(null, startFunctionBody)\r\n : startFunctionBody[0]\r\n );\r\n previousBody.push(\r\n module.createCall(startFunction.internalName, null, NativeType.None)\r\n );\r\n }\r\n }\r\n\r\n // globals\r\n\r\n compileGlobal(global: Global): bool {\r\n if (global.is(CommonFlags.COMPILED)) return true;\r\n global.set(CommonFlags.COMPILED);\r\n\r\n var module = this.module;\r\n var initExpr: ExpressionRef = 0;\r\n var typeNode = global.typeNode;\r\n var initializerNode = global.initializerNode;\r\n\r\n if (!global.is(CommonFlags.RESOLVED)) {\r\n\r\n // resolve now if annotated\r\n if (typeNode) {\r\n let resolvedType = this.resolver.resolveType(typeNode, global.parent); // reports\r\n if (!resolvedType) return false;\r\n if (resolvedType == Type.void) {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n typeNode.range\r\n );\r\n return false;\r\n }\r\n global.setType(resolvedType);\r\n\r\n // infer from initializer if not annotated\r\n } else if (initializerNode) { // infer type using void/NONE for literal inference\r\n let previousFlow = this.currentFlow;\r\n if (global.hasDecorator(DecoratorFlags.LAZY)) {\r\n this.currentFlow = global.file.startFunction.flow;\r\n }\r\n initExpr = this.compileExpressionRetainType( // reports\r\n initializerNode,\r\n Type.void,\r\n WrapMode.WRAP\r\n );\r\n this.currentFlow = previousFlow;\r\n if (this.currentType == Type.void) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n initializerNode.range, this.currentType.toString(), \"\"\r\n );\r\n return false;\r\n }\r\n global.setType(this.currentType);\r\n\r\n // must either be annotated or have an initializer\r\n } else {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n global.identifierNode.range.atEnd\r\n );\r\n return false;\r\n }\r\n }\r\n\r\n // ambient builtins like 'HEAP_BASE' need to be resolved but are added explicitly\r\n if (global.is(CommonFlags.AMBIENT) && global.hasDecorator(DecoratorFlags.BUILTIN)) return true;\r\n\r\n var nativeType = global.type.toNativeType();\r\n var isDeclaredConstant = global.is(CommonFlags.CONST) || global.is(CommonFlags.STATIC | CommonFlags.READONLY);\r\n\r\n // handle imports\r\n if (global.is(CommonFlags.AMBIENT)) {\r\n\r\n // constant global\r\n if (isDeclaredConstant || this.options.hasFeature(Feature.MUTABLE_GLOBAL)) {\r\n global.set(CommonFlags.MODULE_IMPORT);\r\n mangleImportName(global, global.declaration);\r\n module.addGlobalImport(\r\n global.internalName,\r\n mangleImportName_moduleName,\r\n mangleImportName_elementName,\r\n nativeType\r\n );\r\n global.set(CommonFlags.COMPILED);\r\n return true;\r\n\r\n // importing mutable globals is not supported in the MVP\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n global.declaration.range\r\n );\r\n }\r\n return false;\r\n }\r\n\r\n // the MVP does not yet support initializer expressions other than constant values (and constant\r\n // get_globals), hence such initializations must be performed in the start function for now.\r\n var initializeInStart = false;\r\n\r\n // evaluate initializer if present\r\n if (initializerNode) {\r\n if (!initExpr) {\r\n let previousFlow = this.currentFlow;\r\n if (global.hasDecorator(DecoratorFlags.LAZY)) {\r\n this.currentFlow = global.file.startFunction.flow;\r\n }\r\n initExpr = this.compileExpression(\r\n initializerNode,\r\n global.type,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP\r\n );\r\n this.currentFlow = previousFlow;\r\n }\r\n\r\n if (getExpressionId(initExpr) != ExpressionId.Const) {\r\n if (isDeclaredConstant) {\r\n initExpr = module.precomputeExpression(initExpr);\r\n if (getExpressionId(initExpr) != ExpressionId.Const) {\r\n this.warning(\r\n DiagnosticCode.Compiling_constant_with_non_constant_initializer_as_mutable,\r\n initializerNode.range\r\n );\r\n initializeInStart = true;\r\n }\r\n } else {\r\n initializeInStart = true;\r\n }\r\n }\r\n\r\n // explicitly inline if annotated\r\n if (global.hasDecorator(DecoratorFlags.INLINE)) {\r\n if (!initializeInStart) { // reported above\r\n assert(getExpressionId(initExpr) == ExpressionId.Const);\r\n let exprType = getExpressionType(initExpr);\r\n switch (exprType) {\r\n case NativeType.I32: {\r\n global.constantValueKind = ConstantValueKind.INTEGER;\r\n global.constantIntegerValue = i64_new(getConstValueI32(initExpr), 0);\r\n break;\r\n }\r\n case NativeType.I64: {\r\n global.constantValueKind = ConstantValueKind.INTEGER;\r\n global.constantIntegerValue = i64_new(\r\n getConstValueI64Low(initExpr),\r\n getConstValueI64High(initExpr)\r\n );\r\n break;\r\n }\r\n case NativeType.F32: {\r\n global.constantValueKind = ConstantValueKind.FLOAT;\r\n global.constantFloatValue = getConstValueF32(initExpr);\r\n break;\r\n }\r\n case NativeType.F64: {\r\n global.constantValueKind = ConstantValueKind.FLOAT;\r\n global.constantFloatValue = getConstValueF64(initExpr);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n return false;\r\n }\r\n }\r\n global.set(CommonFlags.INLINED); // inline the value from now on\r\n }\r\n }\r\n\r\n // initialize to zero if there's no initializer\r\n } else {\r\n initExpr = global.type.toNativeZero(module);\r\n }\r\n\r\n var internalName = global.internalName;\r\n\r\n if (initializeInStart) { // initialize to mutable zero and set the actual value in start\r\n if (global.hasDecorator(DecoratorFlags.INLINE)) {\r\n this.error(\r\n DiagnosticCode.Decorator_0_is_not_valid_here,\r\n global.identifierNode.range, \"inline\"\r\n );\r\n }\r\n module.addGlobal(internalName, nativeType, true, global.type.toNativeZero(module));\r\n this.currentBody.push(module.createSetGlobal(internalName, initExpr));\r\n\r\n } else if (!global.hasDecorator(DecoratorFlags.INLINE)) { // compile normally\r\n module.addGlobal(internalName, nativeType, !isDeclaredConstant, initExpr);\r\n }\r\n return true;\r\n }\r\n\r\n // enums\r\n\r\n compileEnum(element: Enum): bool {\r\n if (element.is(CommonFlags.COMPILED)) return true;\r\n element.set(CommonFlags.COMPILED);\r\n\r\n var module = this.module;\r\n this.currentEnum = element;\r\n var previousValue: EnumValue | null = null;\r\n var previousValueIsMut = false;\r\n var isInline = element.is(CommonFlags.CONST) || element.hasDecorator(DecoratorFlags.INLINE);\r\n\r\n if (element.members) {\r\n for (let member of element.members.values()) {\r\n if (member.kind != ElementKind.ENUMVALUE) continue; // happens if an enum is also a namespace\r\n let initInStart = false;\r\n let val = member;\r\n let valueNode = val.valueNode;\r\n val.set(CommonFlags.COMPILED);\r\n let previousFlow = this.currentFlow;\r\n if (element.hasDecorator(DecoratorFlags.LAZY)) {\r\n this.currentFlow = element.file.startFunction.flow;\r\n }\r\n let initExpr: ExpressionRef;\r\n if (valueNode) {\r\n initExpr = this.compileExpression(\r\n valueNode,\r\n Type.i32,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n if (getExpressionId(initExpr) != ExpressionId.Const) {\r\n if (element.is(CommonFlags.CONST)) {\r\n initExpr = module.precomputeExpression(initExpr);\r\n if (getExpressionId(initExpr) != ExpressionId.Const) {\r\n this.error(\r\n DiagnosticCode.In_const_enum_declarations_member_initializer_must_be_constant_expression,\r\n valueNode.range\r\n );\r\n initInStart = true;\r\n }\r\n } else {\r\n initInStart = true;\r\n }\r\n }\r\n } else if (previousValue == null) {\r\n initExpr = module.createI32(0);\r\n } else {\r\n if (previousValueIsMut) {\r\n this.error(\r\n DiagnosticCode.Enum_member_must_have_initializer,\r\n (member).identifierNode.range.atEnd\r\n );\r\n }\r\n initExpr = module.createBinary(BinaryOp.AddI32,\r\n module.createGetGlobal(previousValue.internalName, NativeType.I32),\r\n module.createI32(1)\r\n );\r\n initExpr = module.precomputeExpression(initExpr);\r\n if (getExpressionId(initExpr) != ExpressionId.Const) {\r\n if (element.is(CommonFlags.CONST)) {\r\n this.error(\r\n DiagnosticCode.In_const_enum_declarations_member_initializer_must_be_constant_expression,\r\n member.declaration.range\r\n );\r\n }\r\n initInStart = true;\r\n }\r\n }\r\n this.currentFlow = previousFlow;\r\n if (initInStart) {\r\n module.addGlobal(val.internalName, NativeType.I32, true, module.createI32(0));\r\n this.currentBody.push(\r\n module.createSetGlobal(val.internalName, initExpr)\r\n );\r\n previousValueIsMut = true;\r\n } else {\r\n if (isInline) {\r\n val.setConstantIntegerValue(i64_new(getConstValueI32(initExpr)), Type.i32);\r\n if (val.is(CommonFlags.MODULE_EXPORT)) {\r\n module.addGlobal(val.internalName, NativeType.I32, false, initExpr);\r\n }\r\n } else {\r\n module.addGlobal(val.internalName, NativeType.I32, true, initExpr);\r\n }\r\n previousValueIsMut = false;\r\n }\r\n previousValue = val;\r\n }\r\n }\r\n this.currentEnum = null;\r\n return true;\r\n }\r\n\r\n // functions\r\n\r\n /** Resolves the specified type arguments prior to compiling the resulting function instance. */\r\n compileFunctionUsingTypeArguments(\r\n prototype: FunctionPrototype,\r\n typeArguments: TypeNode[],\r\n contextualTypeArguments: Map = makeMap(),\r\n alternativeReportNode: Node | null = null\r\n ): Function | null {\r\n if (prototype.hasDecorator(DecoratorFlags.BUILTIN)) return null;\r\n var instance = this.resolver.resolveFunctionInclTypeArguments(\r\n prototype,\r\n typeArguments,\r\n prototype.parent, // relative to itself\r\n contextualTypeArguments,\r\n alternativeReportNode || prototype.declaration\r\n );\r\n if (!instance) return null;\r\n if (!this.compileFunction(instance)) return null; // reports\r\n return instance;\r\n }\r\n\r\n /** Either reuses or creates the function type matching the specified signature. */\r\n ensureFunctionType(\r\n parameterTypes: Type[] | null,\r\n returnType: Type,\r\n thisType: Type | null = null\r\n ): FunctionTypeRef {\r\n var numParameters = parameterTypes ? parameterTypes.length : 0;\r\n var paramTypes: NativeType[];\r\n var index = 0;\r\n if (thisType) {\r\n paramTypes = new Array(1 + numParameters);\r\n paramTypes[0] = thisType.toNativeType();\r\n index = 1;\r\n } else {\r\n paramTypes = new Array(numParameters);\r\n }\r\n if (parameterTypes) {\r\n for (let i = 0; i < numParameters; ++i, ++index) {\r\n paramTypes[index] = parameterTypes[i].toNativeType();\r\n }\r\n }\r\n var resultType = returnType.toNativeType();\r\n var module = this.module;\r\n var typeRef = module.getFunctionTypeBySignature(resultType, paramTypes);\r\n if (!typeRef) {\r\n let name = Signature.makeSignatureString(parameterTypes, returnType, thisType);\r\n typeRef = module.addFunctionType(name, resultType, paramTypes);\r\n }\r\n return typeRef;\r\n }\r\n\r\n /** Compiles the body of a function within the specified flow. */\r\n private compileFunctionBody(instance: Function): ExpressionRef[] {\r\n var module = this.module;\r\n var bodyNode = assert(instance.prototype.bodyNode);\r\n var returnType = instance.signature.returnType;\r\n var flow = this.currentFlow;\r\n\r\n // compile statements\r\n var stmts: BinaryenExportRef[];\r\n if (bodyNode.kind == NodeKind.BLOCK) {\r\n stmts = this.compileStatements((bodyNode).statements, true);\r\n } else {\r\n // must be an expression statement if not a block\r\n assert(bodyNode.kind == NodeKind.EXPRESSION);\r\n\r\n // must be an arrow function\r\n assert(instance.prototype.arrowKind);\r\n\r\n // none of the following can be an arrow function\r\n assert(!instance.isAny(CommonFlags.CONSTRUCTOR | CommonFlags.GET | CommonFlags.SET | CommonFlags.MAIN));\r\n\r\n let stmt = this.compileExpression(\r\n (bodyNode).expression,\r\n returnType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n flow.set(FlowFlags.RETURNS);\r\n if (!flow.canOverflow(stmt, returnType)) flow.set(FlowFlags.RETURNS_WRAPPED);\r\n stmts = [ stmt ];\r\n }\r\n\r\n // make the main function call `start` implicitly, but only once\r\n if (instance.prototype == this.program.explicitStartFunction) {\r\n module.addGlobal(CompilerSymbols.started, NativeType.I32, true, module.createI32(0));\r\n stmts.unshift(\r\n module.createIf(\r\n module.createUnary(\r\n UnaryOp.EqzI32,\r\n module.createGetGlobal(CompilerSymbols.started, NativeType.I32)\r\n ),\r\n module.createBlock(null, [\r\n module.createCall(\"start\", null, NativeType.None),\r\n module.createSetGlobal(CompilerSymbols.started, module.createI32(1))\r\n ])\r\n )\r\n );\r\n }\r\n\r\n // make constructors return their instance pointer\r\n if (instance.is(CommonFlags.CONSTRUCTOR)) {\r\n let nativeSizeType = this.options.nativeSizeType;\r\n assert(instance.is(CommonFlags.INSTANCE));\r\n let classInstance = assert(instance.parent); assert(classInstance.kind == ElementKind.CLASS);\r\n\r\n if (!flow.isAny(FlowFlags.ANY_TERMINATING)) {\r\n let thisLocalIndex = flow.is(FlowFlags.INLINE_CONTEXT)\r\n ? assert(flow.lookupLocal(CommonSymbols.this_)).index\r\n : 0;\r\n\r\n // if `this` wasn't accessed before, allocate if necessary and initialize `this`\r\n if (!flow.is(FlowFlags.ALLOCATES)) {\r\n // {\r\n // if (!this) this = \r\n // this.a = X\r\n // this.b = Y\r\n // }\r\n stmts.push(\r\n module.createIf(\r\n module.createUnary(nativeSizeType == NativeType.I64 ? UnaryOp.EqzI64 : UnaryOp.EqzI32,\r\n module.createGetLocal(thisLocalIndex, nativeSizeType)\r\n ),\r\n module.createSetLocal(thisLocalIndex,\r\n this.makeAllocation(classInstance)\r\n )\r\n )\r\n );\r\n this.makeFieldInitialization(classInstance, stmts);\r\n }\r\n\r\n // implicitly return `this`\r\n stmts.push(\r\n module.createGetLocal(thisLocalIndex, nativeSizeType)\r\n );\r\n }\r\n\r\n // check that super has been called if this is a derived class\r\n if ((classInstance).base && !flow.is(FlowFlags.CALLS_SUPER)) {\r\n this.error(\r\n DiagnosticCode.Constructors_for_derived_classes_must_contain_a_super_call,\r\n instance.prototype.declaration.range\r\n );\r\n }\r\n\r\n // if this is a normal function, make sure that all branches return\r\n } else if (returnType != Type.void && !flow.is(FlowFlags.RETURNS)) {\r\n this.error(\r\n DiagnosticCode.A_function_whose_declared_type_is_not_void_must_return_a_value,\r\n instance.prototype.signatureNode.returnType.range\r\n );\r\n }\r\n\r\n return stmts;\r\n }\r\n\r\n /** Compiles a readily resolved function instance. */\r\n compileFunction(instance: Function): bool {\r\n if (instance.is(CommonFlags.COMPILED)) return true;\r\n assert(!(instance.is(CommonFlags.AMBIENT) && instance.hasDecorator(DecoratorFlags.BUILTIN)));\r\n instance.set(CommonFlags.COMPILED);\r\n\r\n var module = this.module;\r\n var signature = instance.signature;\r\n var bodyNode = instance.prototype.bodyNode;\r\n\r\n var typeRef = this.ensureFunctionType(signature.parameterTypes, signature.returnType, signature.thisType);\r\n var funcRef: FunctionRef;\r\n\r\n // concrete function\r\n if (bodyNode) {\r\n\r\n // must not be ambient\r\n if (instance.is(CommonFlags.AMBIENT)) {\r\n this.error(\r\n DiagnosticCode.An_implementation_cannot_be_declared_in_ambient_contexts,\r\n instance.identifierNode.range\r\n );\r\n }\r\n\r\n // cannot have an annotated external name\r\n if (instance.hasDecorator(DecoratorFlags.EXTERNAL)) {\r\n let decoratorNodes = instance.decoratorNodes;\r\n let decorator = assert(findDecorator(DecoratorKind.EXTERNAL, decoratorNodes));\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n decorator.range\r\n );\r\n }\r\n\r\n // compile body in this function's context\r\n let previousFlow = this.currentFlow;\r\n this.currentFlow = instance.flow;\r\n let stmts = this.compileFunctionBody(instance);\r\n this.currentFlow = previousFlow;\r\n\r\n // create the function\r\n funcRef = module.addFunction(\r\n instance.internalName,\r\n typeRef,\r\n typesToNativeTypes(instance.additionalLocals),\r\n stmts.length\r\n ? stmts.length == 1\r\n ? stmts[0]\r\n : module.createBlock(null, stmts, instance.signature.returnType.toNativeType())\r\n : module.createNop()\r\n );\r\n\r\n // imported function\r\n } else {\r\n if (!instance.is(CommonFlags.AMBIENT)) {\r\n this.error(\r\n DiagnosticCode.Function_implementation_is_missing_or_not_immediately_following_the_declaration,\r\n instance.identifierNode.range\r\n );\r\n }\r\n\r\n instance.set(CommonFlags.MODULE_IMPORT);\r\n mangleImportName(instance, instance.declaration); // TODO: check for duplicates\r\n\r\n // create the import\r\n funcRef = module.addFunctionImport(\r\n instance.internalName,\r\n mangleImportName_moduleName,\r\n mangleImportName_elementName,\r\n typeRef\r\n );\r\n }\r\n\r\n instance.finalize(module, funcRef);\r\n return true;\r\n }\r\n\r\n // classes\r\n\r\n compileClassUsingTypeArguments(\r\n prototype: ClassPrototype,\r\n typeArguments: TypeNode[],\r\n contextualTypeArguments: Map = makeMap(),\r\n alternativeReportNode: Node | null = null\r\n ): void {\r\n var instance = this.resolver.resolveClassInclTypeArguments(\r\n prototype,\r\n typeArguments,\r\n prototype.parent, // relative to itself\r\n contextualTypeArguments,\r\n alternativeReportNode || prototype.declaration\r\n );\r\n if (!instance) return;\r\n this.compileClass(instance);\r\n }\r\n\r\n compileClass(instance: Class): bool {\r\n if (instance.is(CommonFlags.COMPILED)) return true;\r\n instance.set(CommonFlags.COMPILED);\r\n var prototype = instance.prototype;\r\n var staticMembers = (prototype).members;\r\n if (staticMembers) {\r\n for (let element of staticMembers.values()) {\r\n switch (element.kind) {\r\n case ElementKind.GLOBAL: {\r\n this.compileGlobal(element);\r\n break;\r\n }\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n if (\r\n !(element).is(CommonFlags.GENERIC)\r\n ) {\r\n this.compileFunctionUsingTypeArguments(\r\n element,\r\n [],\r\n makeMap(),\r\n (element).identifierNode\r\n );\r\n }\r\n break;\r\n }\r\n case ElementKind.PROPERTY_PROTOTYPE: {\r\n let getter = (element).getterPrototype;\r\n if (getter) {\r\n this.compileFunctionUsingTypeArguments(\r\n getter,\r\n [],\r\n makeMap(),\r\n getter.identifierNode\r\n );\r\n }\r\n let setter = (element).setterPrototype;\r\n if (setter) {\r\n this.compileFunctionUsingTypeArguments(\r\n setter,\r\n [],\r\n makeMap(),\r\n setter.identifierNode\r\n );\r\n }\r\n break;\r\n }\r\n case ElementKind.PROPERTY: {\r\n }\r\n }\r\n }\r\n }\r\n var ctorInstance = instance.constructorInstance;\r\n if (ctorInstance) this.compileFunction(ctorInstance);\r\n var instanceMembers = instance.members;\r\n if (instanceMembers) {\r\n for (let element of instanceMembers.values()) {\r\n switch (element.kind) {\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n if (\r\n !(element).is(CommonFlags.GENERIC)\r\n ) {\r\n this.compileFunctionUsingTypeArguments(\r\n element,\r\n [],\r\n makeMap(instance.contextualTypeArguments),\r\n (element).declaration.name\r\n );\r\n }\r\n break;\r\n }\r\n case ElementKind.FIELD_PROTOTYPE: {\r\n element.set(CommonFlags.COMPILED);\r\n break;\r\n }\r\n case ElementKind.PROPERTY: {\r\n let getter = (element).getterInstance;\r\n if (getter) this.compileFunction(getter);\r\n let setter = (element).setterInstance;\r\n if (setter) this.compileFunction(setter);\r\n break;\r\n }\r\n }\r\n }\r\n }\r\n return true;\r\n }\r\n\r\n compileInterfaceDeclaration(\r\n declaration: InterfaceDeclaration,\r\n typeArguments: TypeNode[],\r\n contextualTypeArguments: Map | null = null,\r\n alternativeReportNode: Node | null = null\r\n ): void {\r\n // TODO\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n declaration.range\r\n );\r\n }\r\n\r\n // memory\r\n\r\n /** Adds a static memory segment with the specified data. */\r\n addMemorySegment(buffer: Uint8Array, alignment: i32 = 8): MemorySegment {\r\n var memoryOffset = i64_align(this.memoryOffset, alignment);\r\n var segment = MemorySegment.create(buffer, memoryOffset);\r\n this.memorySegments.push(segment);\r\n this.memoryOffset = i64_add(memoryOffset, i64_new(buffer.length, 0));\r\n return segment;\r\n }\r\n\r\n // function table\r\n\r\n /** Ensures that a table entry exists for the specified function and returns its index. */\r\n ensureFunctionTableEntry(func: Function): i32 {\r\n assert(func.is(CommonFlags.COMPILED));\r\n if (func.functionTableIndex >= 0) {\r\n return func.functionTableIndex;\r\n }\r\n var functionTable = this.functionTable;\r\n var index = functionTable.length;\r\n if (!func.is(CommonFlags.TRAMPOLINE) && func.signature.requiredParameters < func.signature.parameterTypes.length) {\r\n // insert the trampoline if the function has optional parameters\r\n func = this.ensureTrampoline(func);\r\n }\r\n functionTable.push(func.internalName);\r\n func.functionTableIndex = index;\r\n return index;\r\n }\r\n\r\n // statements\r\n\r\n compileTopLevelStatement(statement: Statement, body: ExpressionRef[]): void {\r\n switch (statement.kind) {\r\n case NodeKind.CLASSDECLARATION: {\r\n let memberStatements = (statement).members;\r\n for (let i = 0, k = memberStatements.length; i < k; ++i) {\r\n this.compileTopLevelStatement(memberStatements[i], body);\r\n }\r\n break;\r\n }\r\n case NodeKind.ENUMDECLARATION: {\r\n let element = this.program.getElementByDeclaration(statement);\r\n assert(element.kind == ElementKind.ENUM);\r\n if (!element.hasDecorator(DecoratorFlags.LAZY)) this.compileEnum(element);\r\n break;\r\n }\r\n case NodeKind.NAMESPACEDECLARATION: {\r\n let memberStatements = (statement).members;\r\n for (let i = 0, k = memberStatements.length; i < k; ++i) {\r\n this.compileTopLevelStatement(memberStatements[i], body);\r\n }\r\n break;\r\n }\r\n case NodeKind.VARIABLE: {\r\n let declarations = (statement).declarations;\r\n for (let i = 0, k = declarations.length; i < k; ++i) {\r\n let element = this.program.getElementByDeclaration(declarations[i]);\r\n assert(element.kind == ElementKind.GLOBAL);\r\n if (\r\n !element.is(CommonFlags.AMBIENT) && // delay imports\r\n !element.hasDecorator(DecoratorFlags.LAZY)\r\n ) this.compileGlobal(element);\r\n }\r\n break;\r\n }\r\n case NodeKind.FIELDDECLARATION: {\r\n let element = this.program.getElementByDeclaration(statement);\r\n if (element.kind == ElementKind.GLOBAL) { // static\r\n if (!element.hasDecorator(DecoratorFlags.LAZY)) this.compileGlobal(element);\r\n }\r\n break;\r\n }\r\n case NodeKind.EXPORT: {\r\n if ((statement).normalizedPath != null) {\r\n this.compileFileByPath(\r\n (statement).normalizedPath,\r\n (statement).path\r\n );\r\n }\r\n break;\r\n }\r\n case NodeKind.IMPORT: {\r\n this.compileFileByPath(\r\n (statement).normalizedPath,\r\n (statement).path\r\n );\r\n break;\r\n }\r\n case NodeKind.FUNCTIONDECLARATION:\r\n case NodeKind.METHODDECLARATION:\r\n case NodeKind.INTERFACEDECLARATION:\r\n case NodeKind.INDEXSIGNATUREDECLARATION:\r\n case NodeKind.TYPEDECLARATION: break;\r\n default: { // otherwise a top-level statement that is part of the start function's body\r\n let stmt = this.compileStatement(statement);\r\n if (getExpressionId(stmt) != ExpressionId.Nop) body.push(stmt);\r\n break;\r\n }\r\n }\r\n }\r\n\r\n compileStatement(statement: Statement, isLastStatementInBody: bool = false): ExpressionRef {\r\n var module = this.module;\r\n var stmt: ExpressionRef;\r\n switch (statement.kind) {\r\n case NodeKind.BLOCK: {\r\n stmt = this.compileBlockStatement(statement);\r\n break;\r\n }\r\n case NodeKind.BREAK: {\r\n stmt = this.compileBreakStatement(statement);\r\n break;\r\n }\r\n case NodeKind.CONTINUE: {\r\n stmt = this.compileContinueStatement(statement);\r\n break;\r\n }\r\n case NodeKind.DO: {\r\n stmt = this.compileDoStatement(statement);\r\n break;\r\n }\r\n case NodeKind.EMPTY: {\r\n stmt = this.compileEmptyStatement(statement);\r\n break;\r\n }\r\n case NodeKind.EXPRESSION: {\r\n stmt = this.compileExpressionStatement(statement);\r\n break;\r\n }\r\n case NodeKind.FOR: {\r\n stmt = this.compileForStatement(statement);\r\n break;\r\n }\r\n case NodeKind.IF: {\r\n stmt = this.compileIfStatement(statement);\r\n break;\r\n }\r\n case NodeKind.RETURN: {\r\n stmt = this.compileReturnStatement(statement, isLastStatementInBody);\r\n break;\r\n }\r\n case NodeKind.SWITCH: {\r\n stmt = this.compileSwitchStatement(statement);\r\n break;\r\n }\r\n case NodeKind.THROW: {\r\n stmt = this.compileThrowStatement(statement);\r\n break;\r\n }\r\n case NodeKind.TRY: {\r\n stmt = this.compileTryStatement(statement);\r\n break;\r\n }\r\n case NodeKind.VARIABLE: {\r\n stmt = this.compileVariableStatement(statement);\r\n if (!stmt) stmt = module.createNop();\r\n break;\r\n }\r\n case NodeKind.VOID: {\r\n stmt = this.compileVoidStatement(statement);\r\n break;\r\n }\r\n case NodeKind.WHILE: {\r\n stmt = this.compileWhileStatement(statement);\r\n break;\r\n }\r\n case NodeKind.TYPEDECLARATION: {\r\n // TODO: integrate inner type declaration into flow\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n statement.range\r\n );\r\n stmt = module.createUnreachable();\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n stmt = module.createUnreachable();\r\n }\r\n }\r\n if (this.options.sourceMap) this.addDebugLocation(stmt, statement.range);\r\n return stmt;\r\n }\r\n\r\n compileStatements(statements: Statement[], isBody: bool = false): ExpressionRef[] {\r\n var numStatements = statements.length;\r\n var stmts = new Array(numStatements);\r\n stmts.length = 0;\r\n var flow = this.currentFlow;\r\n for (let i = 0; i < numStatements; ++i) {\r\n let stmt = this.compileStatement(statements[i], isBody && i == numStatements - 1);\r\n switch (getExpressionId(stmt)) {\r\n case ExpressionId.Block: {\r\n if (!getBlockName(stmt)) {\r\n for (let j = 0, k = getBlockChildCount(stmt); j < k; ++j) stmts.push(getBlockChild(stmt, j));\r\n break;\r\n }\r\n // fall-through\r\n }\r\n default: stmts.push(stmt);\r\n case ExpressionId.Nop:\r\n }\r\n if (flow.isAny(FlowFlags.ANY_TERMINATING)) {\r\n if (needsExplicitUnreachable(stmt)) stmts.push(this.module.createUnreachable());\r\n break;\r\n }\r\n }\r\n return stmts;\r\n }\r\n\r\n compileBlockStatement(statement: BlockStatement): ExpressionRef {\r\n var statements = statement.statements;\r\n var outerFlow = this.currentFlow;\r\n var innerFlow = outerFlow.fork();\r\n this.currentFlow = innerFlow;\r\n\r\n var stmts = this.compileStatements(statements);\r\n var stmt = stmts.length == 0\r\n ? this.module.createNop()\r\n : stmts.length == 1\r\n ? stmts[0]\r\n : this.module.createBlock(null, stmts,getExpressionType(stmts[stmts.length - 1]));\r\n\r\n innerFlow.freeScopedLocals();\r\n outerFlow.inherit(innerFlow);\r\n this.currentFlow = outerFlow;\r\n return stmt;\r\n }\r\n\r\n compileBreakStatement(statement: BreakStatement): ExpressionRef {\r\n var module = this.module;\r\n if (statement.label) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n statement.label.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n var flow = this.currentFlow;\r\n var breakLabel = flow.breakLabel;\r\n if (breakLabel == null) {\r\n this.error(\r\n DiagnosticCode.A_break_statement_can_only_be_used_within_an_enclosing_iteration_or_switch_statement,\r\n statement.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n flow.set(FlowFlags.BREAKS);\r\n return module.createBreak(breakLabel);\r\n }\r\n\r\n compileContinueStatement(statement: ContinueStatement): ExpressionRef {\r\n var module = this.module;\r\n var label = statement.label;\r\n if (label) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n label.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n // Check if 'continue' is allowed here\r\n var flow = this.currentFlow;\r\n var continueLabel = flow.continueLabel;\r\n if (continueLabel == null) {\r\n this.error(\r\n DiagnosticCode.A_continue_statement_can_only_be_used_within_an_enclosing_iteration_statement,\r\n statement.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n flow.set(FlowFlags.CONTINUES);\r\n return module.createBreak(continueLabel);\r\n }\r\n\r\n compileDoStatement(statement: DoStatement): ExpressionRef {\r\n var module = this.module;\r\n\r\n var outerFlow = this.currentFlow;\r\n var label = outerFlow.pushBreakLabel();\r\n var innerFlow = outerFlow.fork();\r\n this.currentFlow = innerFlow;\r\n var breakLabel = \"break|\" + label;\r\n innerFlow.breakLabel = breakLabel;\r\n var continueLabel = \"continue|\" + label;\r\n innerFlow.continueLabel = continueLabel;\r\n\r\n var body = this.compileStatement(statement.statement);\r\n var condExpr = this.makeIsTrueish(\r\n this.compileExpression(statement.condition, Type.i32, ConversionKind.NONE, WrapMode.NONE),\r\n this.currentType\r\n );\r\n // TODO: check if condition is always false and if so, omit it (just a block)\r\n\r\n // Switch back to the parent flow\r\n innerFlow.freeScopedLocals();\r\n outerFlow.popBreakLabel();\r\n this.currentFlow = outerFlow;\r\n var terminated = innerFlow.isAny(FlowFlags.ANY_TERMINATING);\r\n innerFlow.unset(\r\n FlowFlags.BREAKS |\r\n FlowFlags.CONDITIONALLY_BREAKS |\r\n FlowFlags.CONTINUES |\r\n FlowFlags.CONDITIONALLY_CONTINUES\r\n );\r\n outerFlow.inherit(innerFlow);\r\n\r\n var block: ExpressionRef[] = [\r\n module.createLoop(continueLabel,\r\n terminated\r\n ? body // skip trailing continue if unnecessary\r\n : module.createBlock(null, [\r\n body,\r\n module.createBreak(continueLabel, condExpr)\r\n ], NativeType.None)\r\n )\r\n ];\r\n if (terminated) block.push(module.createUnreachable());\r\n return module.createBlock(breakLabel, block);\r\n }\r\n\r\n compileEmptyStatement(statement: EmptyStatement): ExpressionRef {\r\n return this.module.createNop();\r\n }\r\n\r\n compileExpressionStatement(statement: ExpressionStatement): ExpressionRef {\r\n var expr = this.compileExpression(statement.expression, Type.void, ConversionKind.NONE, WrapMode.NONE);\r\n if (this.currentType != Type.void) {\r\n expr = this.module.createDrop(expr);\r\n this.currentType = Type.void;\r\n }\r\n return expr;\r\n }\r\n\r\n compileForStatement(statement: ForStatement): ExpressionRef {\r\n // A for statement initiates a new branch with its own scoped variables\r\n // possibly declared in its initializer, and break context.\r\n var outerFlow = this.currentFlow;\r\n var label = outerFlow.pushBreakLabel();\r\n var innerFlow = outerFlow.fork();\r\n this.currentFlow = innerFlow;\r\n var breakLabel = innerFlow.breakLabel = \"break|\" + label;\r\n innerFlow.breakLabel = breakLabel;\r\n var continueLabel = \"continue|\" + label;\r\n innerFlow.continueLabel = continueLabel;\r\n var repeatLabel = \"repeat|\" + label;\r\n\r\n // Compile in correct order\r\n var module = this.module;\r\n var initExpr = statement.initializer\r\n ? this.compileStatement(statement.initializer)\r\n : 0;\r\n var condExpr: ExpressionRef = 0;\r\n var alwaysTrue = false;\r\n if (statement.condition) {\r\n condExpr = this.makeIsTrueish(\r\n this.compileExpressionRetainType(statement.condition, Type.bool, WrapMode.NONE),\r\n this.currentType\r\n );\r\n // check if the condition is always true\r\n let condPre = module.precomputeExpression(condExpr);\r\n if (getExpressionId(condPre) == ExpressionId.Const) {\r\n assert(getExpressionType(condPre) == NativeType.I32);\r\n if (getConstValueI32(condPre) != 0) alwaysTrue = true;\r\n // TODO: could skip compilation if the condition is always false here, but beware that the\r\n // initializer could still declare new 'var's that are used later on.\r\n }\r\n // recompile to original\r\n condExpr = this.makeIsTrueish(\r\n this.compileExpressionRetainType(statement.condition, Type.bool, WrapMode.NONE),\r\n this.currentType\r\n );\r\n } else {\r\n // omitted condition is always true\r\n condExpr = module.createI32(1);\r\n alwaysTrue = true;\r\n }\r\n var incrExpr = statement.incrementor\r\n ? this.compileExpression(statement.incrementor, Type.void, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n : 0;\r\n var bodyStatement = statement.statement;\r\n var bodyExpr = bodyStatement.kind == NodeKind.BLOCK && (bodyStatement).statements.length == 1\r\n ? this.compileStatement((bodyStatement).statements[0])\r\n : this.compileStatement(bodyStatement);\r\n\r\n // Switch back to the parent flow\r\n innerFlow.freeScopedLocals();\r\n outerFlow.popBreakLabel();\r\n this.currentFlow = outerFlow;\r\n var usesContinue = innerFlow.isAny(FlowFlags.CONTINUES | FlowFlags.CONDITIONALLY_CONTINUES);\r\n innerFlow.unset(\r\n FlowFlags.BREAKS |\r\n FlowFlags.CONDITIONALLY_BREAKS |\r\n FlowFlags.CONTINUES |\r\n FlowFlags.CONDITIONALLY_CONTINUES\r\n );\r\n if (alwaysTrue) outerFlow.inherit(innerFlow);\r\n else outerFlow.inheritConditional(innerFlow);\r\n\r\n var breakBlock = new Array(); // outer 'break' block\r\n if (initExpr) breakBlock.push(initExpr);\r\n\r\n var repeatBlock = new Array(); // block repeating the loop\r\n if (usesContinue) {\r\n repeatBlock.push(\r\n module.createBlock(continueLabel, [ // inner 'continue' block\r\n module.createBreak(breakLabel, module.createUnary(UnaryOp.EqzI32, condExpr)),\r\n bodyExpr\r\n ], NativeType.None)\r\n );\r\n } else { // can omit the 'continue' block\r\n repeatBlock.push(\r\n module.createBreak(breakLabel, module.createUnary(UnaryOp.EqzI32, condExpr))\r\n );\r\n repeatBlock.push(bodyExpr);\r\n }\r\n if (incrExpr) repeatBlock.push(incrExpr);\r\n repeatBlock.push(\r\n module.createBreak(repeatLabel)\r\n );\r\n\r\n breakBlock.push(\r\n module.createLoop(repeatLabel, module.createBlock(null, repeatBlock, NativeType.None))\r\n );\r\n\r\n return module.createBlock(breakLabel, breakBlock);\r\n }\r\n\r\n compileIfStatement(statement: IfStatement): ExpressionRef {\r\n var module = this.module;\r\n var ifTrue = statement.ifTrue;\r\n var ifFalse = statement.ifFalse;\r\n var outerFlow = this.currentFlow;\r\n var actualFunction = outerFlow.actualFunction;\r\n\r\n // The condition doesn't initiate a branch yet\r\n var condExpr = this.makeIsTrueish(\r\n this.compileExpressionRetainType(statement.condition, Type.bool, WrapMode.NONE),\r\n this.currentType\r\n );\r\n\r\n // Try to eliminate unnecesssary branches if the condition is constant\r\n var condExprPrecomp = module.precomputeExpression(condExpr);\r\n if (\r\n getExpressionId(condExprPrecomp) == ExpressionId.Const &&\r\n getExpressionType(condExprPrecomp) == NativeType.I32\r\n ) {\r\n return getConstValueI32(condExprPrecomp)\r\n ? this.compileStatement(ifTrue)\r\n : ifFalse\r\n ? this.compileStatement(ifFalse)\r\n : module.createNop();\r\n\r\n // Otherwise recompile to the original and let the optimizer decide\r\n } else /* if (condExpr != condExprPrecomp) <- not guaranteed */ {\r\n condExpr = this.makeIsTrueish(\r\n this.compileExpressionRetainType(statement.condition, Type.bool, WrapMode.NONE),\r\n this.currentType\r\n );\r\n }\r\n\r\n // Each arm initiates a branch\r\n var ifTrueFlow = outerFlow.fork();\r\n this.currentFlow = ifTrueFlow;\r\n var ifTrueExpr = this.compileStatement(ifTrue);\r\n ifTrueFlow.freeScopedLocals();\r\n this.currentFlow = outerFlow;\r\n\r\n var ifFalseExpr: ExpressionRef = 0;\r\n if (ifFalse) {\r\n let ifFalseFlow = outerFlow.fork();\r\n this.currentFlow = ifFalseFlow;\r\n ifFalseExpr = this.compileStatement(ifFalse);\r\n ifFalseFlow.freeScopedLocals();\r\n this.currentFlow = outerFlow;\r\n outerFlow.inheritMutual(ifTrueFlow, ifFalseFlow);\r\n } else {\r\n outerFlow.inheritConditional(ifTrueFlow);\r\n }\r\n return module.createIf(condExpr, ifTrueExpr, ifFalseExpr);\r\n }\r\n\r\n compileReturnStatement(statement: ReturnStatement, isLastStatementInBody: bool): ExpressionRef {\r\n var module = this.module;\r\n var expr: ExpressionRef = 0;\r\n var flow = this.currentFlow;\r\n var returnType = flow.returnType;\r\n\r\n // Remember that this flow returns\r\n flow.set(FlowFlags.RETURNS);\r\n\r\n if (statement.value) {\r\n if (returnType == Type.void) {\r\n this.compileExpressionRetainType(statement.value, returnType, WrapMode.NONE);\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n statement.value.range, this.currentType.toString(), returnType.toString()\r\n );\r\n this.currentType = Type.void;\r\n return module.createUnreachable();\r\n }\r\n expr = this.compileExpression(\r\n statement.value,\r\n returnType,\r\n ConversionKind.IMPLICIT,\r\n flow.actualFunction.is(CommonFlags.MODULE_EXPORT)\r\n ? WrapMode.WRAP\r\n : WrapMode.NONE\r\n );\r\n\r\n // Remember whether returning a properly wrapped value\r\n if (!flow.canOverflow(expr, returnType)) flow.set(FlowFlags.RETURNS_WRAPPED);\r\n\r\n } else if (returnType != Type.void) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n statement.range, \"void\", returnType.toString()\r\n );\r\n expr = module.createUnreachable();\r\n }\r\n\r\n // If the last statement anyway, make it the block's return value\r\n if (isLastStatementInBody) return expr ? expr : module.createNop();\r\n\r\n // When inlining, break to the end of the inlined function's block (no need to wrap)\r\n if (flow.is(FlowFlags.INLINE_CONTEXT)) return module.createBreak(assert(flow.inlineReturnLabel), 0, expr);\r\n\r\n return module.createReturn(expr);\r\n }\r\n\r\n compileSwitchStatement(statement: SwitchStatement): ExpressionRef {\r\n var module = this.module;\r\n\r\n var cases = statement.cases;\r\n var numCases = cases.length;\r\n if (!numCases) {\r\n return this.compileExpression(statement.condition, Type.void, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n }\r\n\r\n // Everything within a switch uses the same break context\r\n var outerFlow = this.currentFlow;\r\n var context = outerFlow.pushBreakLabel();\r\n\r\n // introduce a local for evaluating the condition (exactly once)\r\n var tempLocal = outerFlow.getTempLocal(Type.u32, false);\r\n var tempLocalIndex = tempLocal.index;\r\n\r\n // Prepend initializer to inner block. Does not initiate a new branch, yet.\r\n var breaks = new Array(1 + numCases);\r\n breaks[0] = module.createSetLocal( // initializer\r\n tempLocalIndex,\r\n this.compileExpression(statement.condition, Type.u32, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n );\r\n\r\n // make one br_if per (possibly dynamic) labeled case (binaryen optimizes to br_table where possible)\r\n var breakIndex = 1;\r\n var defaultIndex = -1;\r\n for (let i = 0; i < numCases; ++i) {\r\n let case_ = cases[i];\r\n let label = case_.label;\r\n if (label) {\r\n breaks[breakIndex++] = module.createBreak(\"case\" + i.toString(10) + \"|\" + context,\r\n module.createBinary(BinaryOp.EqI32,\r\n module.createGetLocal(tempLocalIndex, NativeType.I32),\r\n this.compileExpression(label, Type.u32, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n )\r\n );\r\n } else {\r\n defaultIndex = i;\r\n }\r\n }\r\n\r\n outerFlow.freeTempLocal(tempLocal);\r\n\r\n // otherwise br to default respectively out of the switch if there is no default case\r\n breaks[breakIndex] = module.createBreak((defaultIndex >= 0\r\n ? \"case\" + defaultIndex.toString(10)\r\n : \"break\"\r\n ) + \"|\" + context);\r\n\r\n // nest blocks in order\r\n var currentBlock = module.createBlock(\"case0|\" + context, breaks, NativeType.None);\r\n var alwaysReturns = true;\r\n var alwaysReturnsWrapped = true;\r\n var alwaysThrows = true;\r\n var alwaysAllocates = true;\r\n for (let i = 0; i < numCases; ++i) {\r\n let case_ = cases[i];\r\n let statements = case_.statements;\r\n let numStatements = statements.length;\r\n\r\n // Each switch case initiates a new branch\r\n let innerFlow = outerFlow.fork();\r\n this.currentFlow = innerFlow;\r\n let breakLabel = \"break|\" + context;\r\n innerFlow.breakLabel = breakLabel;\r\n\r\n let isLast = i == numCases - 1;\r\n let nextLabel = isLast ? breakLabel : \"case\" + (i + 1).toString(10) + \"|\" + context;\r\n let stmts = new Array(1 + numStatements);\r\n stmts[0] = currentBlock;\r\n let count = 1;\r\n let terminated = false;\r\n for (let j = 0; j < numStatements; ++j) {\r\n let stmt = this.compileStatement(statements[j]);\r\n if (getExpressionId(stmt) != ExpressionId.Nop) {\r\n stmts[count++] = stmt;\r\n if (innerFlow.isAny(FlowFlags.ANY_TERMINATING)) {\r\n terminated = true;\r\n break;\r\n }\r\n }\r\n }\r\n stmts.length = count;\r\n if (terminated || isLast) {\r\n if (!innerFlow.is(FlowFlags.RETURNS)) alwaysReturns = false;\r\n if (!innerFlow.is(FlowFlags.RETURNS_WRAPPED)) alwaysReturnsWrapped = false;\r\n if (!innerFlow.is(FlowFlags.THROWS)) alwaysThrows = false;\r\n if (!innerFlow.is(FlowFlags.ALLOCATES)) alwaysAllocates = false;\r\n }\r\n\r\n // Switch back to the parent flow\r\n innerFlow.unset(\r\n FlowFlags.BREAKS |\r\n FlowFlags.CONDITIONALLY_BREAKS\r\n );\r\n innerFlow.freeScopedLocals();\r\n this.currentFlow = outerFlow;\r\n currentBlock = module.createBlock(nextLabel, stmts, NativeType.None); // must be a labeled block\r\n }\r\n outerFlow.popBreakLabel();\r\n\r\n // If the switch has a default (guaranteed to handle any value), propagate common flags\r\n if (defaultIndex >= 0) {\r\n if (alwaysReturns) outerFlow.set(FlowFlags.RETURNS);\r\n if (alwaysReturnsWrapped) outerFlow.set(FlowFlags.RETURNS_WRAPPED);\r\n if (alwaysThrows) outerFlow.set(FlowFlags.THROWS);\r\n if (alwaysAllocates) outerFlow.set(FlowFlags.ALLOCATES);\r\n }\r\n return currentBlock;\r\n }\r\n\r\n compileThrowStatement(statement: ThrowStatement): ExpressionRef {\r\n var flow = this.currentFlow;\r\n\r\n // Remember that this branch throws\r\n flow.set(FlowFlags.THROWS);\r\n\r\n // FIXME: without try-catch it is safe to assume RETURNS as well for now\r\n flow.set(FlowFlags.RETURNS);\r\n\r\n // TODO: requires exception-handling spec.\r\n return compileAbort(this, null, statement);\r\n }\r\n\r\n compileTryStatement(statement: TryStatement): ExpressionRef {\r\n // TODO: can't yet support something like: try { return ... } finally { ... }\r\n // worthwhile to investigate lowering returns to block results (here)?\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n statement.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n /** Compiles a variable statement. Returns `0` if an initializer is not necessary. */\r\n compileVariableStatement(statement: VariableStatement): ExpressionRef {\r\n var declarations = statement.declarations;\r\n var numDeclarations = declarations.length;\r\n var flow = this.currentFlow;\r\n var initializers = new Array();\r\n var resolver = this.resolver;\r\n for (let i = 0; i < numDeclarations; ++i) {\r\n let declaration = declarations[i];\r\n let name = declaration.name.text;\r\n let type: Type | null = null;\r\n let initExpr: ExpressionRef = 0;\r\n if (declaration.type) {\r\n type = resolver.resolveType( // reports\r\n declaration.type,\r\n flow.actualFunction,\r\n flow.contextualTypeArguments\r\n );\r\n if (!type) continue;\r\n if (declaration.initializer) {\r\n initExpr = this.compileExpression( // reports\r\n declaration.initializer,\r\n type,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n } else if (declaration.initializer) { // infer type using void/NONE for proper literal inference\r\n initExpr = this.compileExpressionRetainType( // reports\r\n declaration.initializer,\r\n Type.void,\r\n WrapMode.NONE\r\n );\r\n if (this.currentType == Type.void) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n declaration.range, this.currentType.toString(), \"\"\r\n );\r\n continue;\r\n }\r\n type = this.currentType;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n declaration.name.range.atEnd\r\n );\r\n continue;\r\n }\r\n let isInlined = false;\r\n if (declaration.is(CommonFlags.CONST)) {\r\n if (initExpr) {\r\n initExpr = this.module.precomputeExpression(initExpr);\r\n if (getExpressionId(initExpr) == ExpressionId.Const) {\r\n let local = new Local(name, -1, type, flow.parentFunction);\r\n switch (getExpressionType(initExpr)) {\r\n case NativeType.I32: {\r\n local.setConstantIntegerValue(\r\n i64_new(\r\n getConstValueI32(initExpr),\r\n 0\r\n ),\r\n type\r\n );\r\n break;\r\n }\r\n case NativeType.I64: {\r\n local.setConstantIntegerValue(\r\n i64_new(\r\n getConstValueI64Low(initExpr),\r\n getConstValueI64High(initExpr)\r\n ),\r\n type\r\n );\r\n break;\r\n }\r\n case NativeType.F32: {\r\n local.setConstantFloatValue(getConstValueF32(initExpr), type);\r\n break;\r\n }\r\n case NativeType.F64: {\r\n local.setConstantFloatValue(getConstValueF64(initExpr), type);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n return this.module.createUnreachable();\r\n }\r\n }\r\n // Create a virtual local that doesn't actually exist in WebAssembly\r\n let scopedLocals = flow.scopedLocals;\r\n if (!scopedLocals) flow.scopedLocals = scopedLocals = new Map();\r\n else if (scopedLocals.has(name)) {\r\n this.error(\r\n DiagnosticCode.Duplicate_identifier_0,\r\n declaration.name.range, name\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n scopedLocals.set(name, local);\r\n isInlined = true;\r\n } else {\r\n this.warning(\r\n DiagnosticCode.Compiling_constant_with_non_constant_initializer_as_mutable,\r\n declaration.range\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._const_declarations_must_be_initialized,\r\n declaration.range\r\n );\r\n }\r\n }\r\n if (!isInlined) {\r\n let local: Local;\r\n if (\r\n declaration.isAny(CommonFlags.LET | CommonFlags.CONST) ||\r\n flow.is(FlowFlags.INLINE_CONTEXT)\r\n ) { // here: not top-level\r\n local = flow.addScopedLocal(name, type, false, declaration.name); // reports if duplicate\r\n } else {\r\n if (flow.lookupLocal(name)) {\r\n this.error(\r\n DiagnosticCode.Duplicate_identifier_0,\r\n declaration.name.range, name\r\n );\r\n continue;\r\n }\r\n local = flow.parentFunction.addLocal(type, name, declaration);\r\n }\r\n if (initExpr) {\r\n initializers.push(\r\n this.compileAssignmentWithValue(declaration.name, initExpr)\r\n );\r\n if (local.type.is(TypeFlags.SHORT | TypeFlags.INTEGER)) {\r\n flow.setLocalWrapped(local.index, !flow.canOverflow(initExpr, type));\r\n }\r\n } else if (local.type.is(TypeFlags.SHORT | TypeFlags.INTEGER)) {\r\n flow.setLocalWrapped(local.index, true); // zero\r\n }\r\n }\r\n }\r\n return initializers.length // we can unwrap these here because the\r\n ? initializers.length == 1 // source didn't tell us exactly what to do\r\n ? initializers[0]\r\n : this.module.createBlock(null, initializers, NativeType.None)\r\n : 0;\r\n }\r\n\r\n compileVoidStatement(statement: VoidStatement): ExpressionRef {\r\n return this.compileExpression(statement.expression, Type.void, ConversionKind.EXPLICIT, WrapMode.NONE);\r\n }\r\n\r\n compileWhileStatement(statement: WhileStatement): ExpressionRef {\r\n var module = this.module;\r\n var outerFlow = this.currentFlow;\r\n\r\n // The condition does not yet initialize a branch\r\n var condExpr = this.makeIsTrueish(\r\n this.compileExpressionRetainType(statement.condition, Type.bool, WrapMode.NONE),\r\n this.currentType\r\n );\r\n\r\n // Try to eliminate unnecesssary loops if the condition is constant\r\n var condExprPrecomp = module.precomputeExpression(condExpr);\r\n if (\r\n getExpressionId(condExprPrecomp) == ExpressionId.Const &&\r\n getExpressionType(condExprPrecomp) == NativeType.I32\r\n ) {\r\n if (!getConstValueI32(condExprPrecomp)) return module.createNop();\r\n\r\n // Otherwise recompile to the original and let the optimizer decide\r\n } else /* if (condExpr != condExprPrecomp) <- not guaranteed */ {\r\n condExpr = this.makeIsTrueish(\r\n this.compileExpressionRetainType(statement.condition, Type.bool, WrapMode.NONE),\r\n this.currentType\r\n );\r\n }\r\n\r\n // Statements initiate a new branch with its own break context\r\n var label = outerFlow.pushBreakLabel();\r\n var innerFlow = outerFlow.fork();\r\n this.currentFlow = innerFlow;\r\n var breakLabel = \"break|\" + label;\r\n innerFlow.breakLabel = breakLabel;\r\n var continueLabel = \"continue|\" + label;\r\n innerFlow.continueLabel = continueLabel;\r\n\r\n var body = this.compileStatement(statement.statement);\r\n var alwaysTrue = false; // TODO\r\n var terminated = innerFlow.isAny(FlowFlags.ANY_TERMINATING);\r\n\r\n // Switch back to the parent flow\r\n innerFlow.freeScopedLocals();\r\n outerFlow.popBreakLabel();\r\n this.currentFlow = outerFlow;\r\n innerFlow.unset(\r\n FlowFlags.BREAKS |\r\n FlowFlags.CONDITIONALLY_BREAKS |\r\n FlowFlags.CONTINUES |\r\n FlowFlags.CONDITIONALLY_CONTINUES\r\n );\r\n if (alwaysTrue) outerFlow.inherit(innerFlow);\r\n else outerFlow.inheritConditional(innerFlow);\r\n\r\n return module.createBlock(breakLabel, [\r\n module.createLoop(continueLabel,\r\n module.createIf(condExpr,\r\n terminated\r\n ? body // skip trailing continue if unnecessary\r\n : module.createBlock(null, [\r\n body,\r\n module.createBreak(continueLabel)\r\n ], NativeType.None)\r\n )\r\n )\r\n ]);\r\n }\r\n\r\n // expressions\r\n\r\n /**\r\n * Compiles the value of an inlined constant element.\r\n * @param retainType If true, the annotated type of the constant is retained. Otherwise, the value\r\n * is precomputed according to context.\r\n */\r\n compileInlineConstant(\r\n element: VariableLikeElement,\r\n contextualType: Type,\r\n retainType: bool\r\n ): ExpressionRef {\r\n assert(element.is(CommonFlags.INLINED));\r\n var type = element.type;\r\n switch (\r\n !retainType &&\r\n type.is(TypeFlags.INTEGER) &&\r\n contextualType.is(TypeFlags.INTEGER) &&\r\n type.size < contextualType.size\r\n ? (this.currentType = contextualType).kind // essentially precomputes a (sign-)extension\r\n : (this.currentType = type).kind\r\n ) {\r\n case TypeKind.I8:\r\n case TypeKind.I16: {\r\n let shift = type.computeSmallIntegerShift(Type.i32);\r\n return this.module.createI32(\r\n element.constantValueKind == ConstantValueKind.INTEGER\r\n ? i64_low(element.constantIntegerValue) << shift >> shift\r\n : 0\r\n ); // recognized by canOverflow\r\n }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n let mask = element.type.computeSmallIntegerMask(Type.i32);\r\n return this.module.createI32(\r\n element.constantValueKind == ConstantValueKind.INTEGER\r\n ? i64_low(element.constantIntegerValue) & mask\r\n : 0\r\n ); // recognized by canOverflow\r\n }\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n return this.module.createI32(\r\n element.constantValueKind == ConstantValueKind.INTEGER\r\n ? i64_low(element.constantIntegerValue)\r\n : 0\r\n );\r\n }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n if (!element.program.options.isWasm64) {\r\n return this.module.createI32(\r\n element.constantValueKind == ConstantValueKind.INTEGER\r\n ? i64_low(element.constantIntegerValue)\r\n : 0\r\n );\r\n }\r\n // fall-through\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n return element.constantValueKind == ConstantValueKind.INTEGER\r\n ? this.module.createI64(\r\n i64_low(element.constantIntegerValue),\r\n i64_high(element.constantIntegerValue)\r\n )\r\n : this.module.createI64(0);\r\n }\r\n case TypeKind.F64: {\r\n // monkey-patch for converting built-in floats to f32 implicitly\r\n if (!(element.hasDecorator(DecoratorFlags.BUILTIN) && contextualType == Type.f32)) {\r\n return this.module.createF64((element).constantFloatValue);\r\n }\r\n // otherwise fall-through: basically precomputes f32.demote/f64 of NaN / Infinity\r\n this.currentType = Type.f32;\r\n }\r\n case TypeKind.F32: {\r\n return this.module.createF32((element).constantFloatValue);\r\n }\r\n default: {\r\n assert(false);\r\n return this.module.createUnreachable();\r\n }\r\n }\r\n }\r\n\r\n compileExpression(\r\n expression: Expression,\r\n contextualType: Type,\r\n conversionKind: ConversionKind,\r\n wrapMode: WrapMode\r\n ): ExpressionRef {\r\n this.currentType = contextualType;\r\n var expr: ExpressionRef;\r\n switch (expression.kind) {\r\n case NodeKind.ASSERTION: {\r\n expr = this.compileAssertionExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.BINARY: {\r\n expr = this.compileBinaryExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.CALL: {\r\n expr = this.compileCallExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.COMMA: {\r\n expr = this.compileCommaExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.ELEMENTACCESS: {\r\n expr = this.compileElementAccessExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.FUNCTION: {\r\n expr = this.compileFunctionExpression(expression, contextualType.signatureReference);\r\n break;\r\n }\r\n case NodeKind.IDENTIFIER:\r\n case NodeKind.FALSE:\r\n case NodeKind.NULL:\r\n case NodeKind.THIS:\r\n case NodeKind.SUPER:\r\n case NodeKind.TRUE: {\r\n expr = this.compileIdentifierExpression(\r\n expression,\r\n contextualType,\r\n conversionKind == ConversionKind.NONE // retain type of inlined constants\r\n );\r\n break;\r\n }\r\n case NodeKind.INSTANCEOF: {\r\n expr = this.compileInstanceOfExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.LITERAL: {\r\n expr = this.compileLiteralExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.NEW: {\r\n expr = this.compileNewExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.PARENTHESIZED: {\r\n expr = this.compileParenthesizedExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.PROPERTYACCESS: {\r\n expr = this.compilePropertyAccessExpression(\r\n expression,\r\n contextualType,\r\n conversionKind == ConversionKind.NONE // retain type of inlined constants\r\n );\r\n break;\r\n }\r\n case NodeKind.TERNARY: {\r\n expr = this.compileTernaryExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.UNARYPOSTFIX: {\r\n expr = this.compileUnaryPostfixExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.UNARYPREFIX: {\r\n expr = this.compileUnaryPrefixExpression(expression, contextualType);\r\n break;\r\n }\r\n default: {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n expr = this.module.createUnreachable();\r\n }\r\n }\r\n var currentType = this.currentType;\r\n if (conversionKind != ConversionKind.NONE && currentType != contextualType) {\r\n expr = this.convertExpression(expr, currentType, contextualType, conversionKind, wrapMode, expression);\r\n this.currentType = contextualType;\r\n } else if (wrapMode == WrapMode.WRAP) {\r\n expr = this.ensureSmallIntegerWrap(expr, currentType);\r\n }\r\n\r\n if (this.options.sourceMap) this.addDebugLocation(expr, expression.range);\r\n return expr;\r\n }\r\n\r\n compileExpressionRetainType(\r\n expression: Expression,\r\n contextualType: Type,\r\n wrapMode: WrapMode\r\n ): ExpressionRef {\r\n return this.compileExpression(\r\n expression,\r\n contextualType == Type.void\r\n ? Type.i32\r\n : contextualType,\r\n ConversionKind.NONE,\r\n wrapMode\r\n );\r\n }\r\n\r\n precomputeExpression(\r\n expression: Expression,\r\n contextualType: Type,\r\n conversionKind: ConversionKind,\r\n wrapMode: WrapMode\r\n ): ExpressionRef {\r\n return this.module.precomputeExpression(\r\n this.compileExpression(expression, contextualType, conversionKind, wrapMode)\r\n );\r\n }\r\n\r\n convertExpression(\r\n expr: ExpressionRef,\r\n fromType: Type,\r\n toType: Type,\r\n conversionKind: ConversionKind,\r\n wrapMode: WrapMode,\r\n reportNode: Node\r\n ): ExpressionRef {\r\n assert(conversionKind != ConversionKind.NONE);\r\n var module = this.module;\r\n\r\n // void to any\r\n if (fromType.kind == TypeKind.VOID) {\r\n assert(toType.kind != TypeKind.VOID); // convertExpression should not be called with void -> void\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n reportNode.range, fromType.toString(), toType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n\r\n // any to void\r\n if (toType.kind == TypeKind.VOID) return module.createDrop(expr);\r\n\r\n if (!fromType.isAssignableTo(toType)) {\r\n if (conversionKind == ConversionKind.IMPLICIT) {\r\n this.error(\r\n DiagnosticCode.Conversion_from_type_0_to_1_requires_an_explicit_cast,\r\n reportNode.range, fromType.toString(), toType.toString()\r\n ); // recoverable\r\n }\r\n }\r\n\r\n if (fromType.is(TypeFlags.FLOAT)) {\r\n\r\n // float to float\r\n if (toType.is(TypeFlags.FLOAT)) {\r\n if (fromType.kind == TypeKind.F32) {\r\n\r\n // f32 to f64\r\n if (toType.kind == TypeKind.F64) {\r\n expr = module.createUnary(UnaryOp.PromoteF32, expr);\r\n }\r\n\r\n // otherwise f32 to f32\r\n\r\n // f64 to f32\r\n } else if (toType.kind == TypeKind.F32) {\r\n expr = module.createUnary(UnaryOp.DemoteF64, expr);\r\n }\r\n\r\n // otherwise f64 to f64\r\n\r\n // float to int\r\n } else if (toType.is(TypeFlags.INTEGER)) {\r\n\r\n // f32 to int\r\n if (fromType.kind == TypeKind.F32) {\r\n if (toType == Type.bool) {\r\n expr = module.createBinary(BinaryOp.NeF32, expr, module.createF32(0));\r\n wrapMode = WrapMode.NONE;\r\n } else if (toType.is(TypeFlags.SIGNED)) {\r\n if (toType.is(TypeFlags.LONG)) {\r\n expr = module.createUnary(UnaryOp.TruncF32ToI64, expr);\r\n } else {\r\n expr = module.createUnary(UnaryOp.TruncF32ToI32, expr);\r\n }\r\n } else {\r\n if (toType.is(TypeFlags.LONG)) {\r\n expr = module.createUnary(UnaryOp.TruncF32ToU64, expr);\r\n } else {\r\n expr = module.createUnary(UnaryOp.TruncF32ToU32, expr);\r\n }\r\n }\r\n\r\n // f64 to int\r\n } else {\r\n if (toType == Type.bool) {\r\n expr = module.createBinary(BinaryOp.NeF64, expr, module.createF64(0));\r\n wrapMode = WrapMode.NONE;\r\n } else if (toType.is(TypeFlags.SIGNED)) {\r\n if (toType.is(TypeFlags.LONG)) {\r\n expr = module.createUnary(UnaryOp.TruncF64ToI64, expr);\r\n } else {\r\n expr = module.createUnary(UnaryOp.TruncF64ToI32, expr);\r\n }\r\n } else {\r\n if (toType.is(TypeFlags.LONG)) {\r\n expr = module.createUnary(UnaryOp.TruncF64ToU64, expr);\r\n } else {\r\n expr = module.createUnary(UnaryOp.TruncF64ToU32, expr);\r\n }\r\n }\r\n }\r\n\r\n // float to void\r\n } else {\r\n assert(toType.flags == TypeFlags.NONE, \"void type expected\");\r\n expr = module.createDrop(expr);\r\n }\r\n\r\n // int to float\r\n } else if (fromType.is(TypeFlags.INTEGER) && toType.is(TypeFlags.FLOAT)) {\r\n\r\n // int to f32\r\n if (toType.kind == TypeKind.F32) {\r\n if (fromType.is(TypeFlags.LONG)) {\r\n expr = module.createUnary(\r\n fromType.is(TypeFlags.SIGNED)\r\n ? UnaryOp.ConvertI64ToF32\r\n : UnaryOp.ConvertU64ToF32,\r\n expr\r\n );\r\n } else {\r\n expr = module.createUnary(\r\n fromType.is(TypeFlags.SIGNED)\r\n ? UnaryOp.ConvertI32ToF32\r\n : UnaryOp.ConvertU32ToF32,\r\n expr\r\n );\r\n }\r\n\r\n // int to f64\r\n } else {\r\n if (fromType.is(TypeFlags.LONG)) {\r\n expr = module.createUnary(\r\n fromType.is(TypeFlags.SIGNED)\r\n ? UnaryOp.ConvertI64ToF64\r\n : UnaryOp.ConvertU64ToF64,\r\n expr\r\n );\r\n } else {\r\n expr = module.createUnary(\r\n fromType.is(TypeFlags.SIGNED)\r\n ? UnaryOp.ConvertI32ToF64\r\n : UnaryOp.ConvertU32ToF64,\r\n expr\r\n );\r\n }\r\n }\r\n\r\n // int to int\r\n } else {\r\n // i64 to ...\r\n if (fromType.is(TypeFlags.LONG)) {\r\n\r\n // i64 to i32 or smaller\r\n if (toType == Type.bool) {\r\n expr = module.createBinary(BinaryOp.NeI64, expr, module.createI64(0));\r\n wrapMode = WrapMode.NONE;\r\n } else if (!toType.is(TypeFlags.LONG)) {\r\n expr = module.createUnary(UnaryOp.WrapI64, expr); // discards upper bits\r\n }\r\n\r\n // i32 or smaller to i64\r\n } else if (toType.is(TypeFlags.LONG)) {\r\n expr = module.createUnary(\r\n fromType.is(TypeFlags.SIGNED) ? UnaryOp.ExtendI32 : UnaryOp.ExtendU32,\r\n this.ensureSmallIntegerWrap(expr, fromType) // must clear garbage bits\r\n );\r\n wrapMode = WrapMode.NONE;\r\n\r\n // i32 to i32\r\n } else {\r\n // small i32 to ...\r\n if (fromType.is(TypeFlags.SHORT)) {\r\n // small i32 to larger i32\r\n if (fromType.size < toType.size) {\r\n expr = this.ensureSmallIntegerWrap(expr, fromType); // must clear garbage bits\r\n wrapMode = WrapMode.NONE;\r\n }\r\n }\r\n }\r\n }\r\n\r\n this.currentType = toType;\r\n return wrapMode == WrapMode.WRAP\r\n ? this.ensureSmallIntegerWrap(expr, toType)\r\n : expr;\r\n }\r\n\r\n compileAssertionExpression(expression: AssertionExpression, contextualType: Type): ExpressionRef {\r\n switch (expression.assertionKind) {\r\n case AssertionKind.PREFIX:\r\n case AssertionKind.AS: {\r\n let toType = this.resolver.resolveType( // reports\r\n assert(expression.toType),\r\n this.currentFlow.actualFunction,\r\n this.currentFlow.contextualTypeArguments\r\n );\r\n if (!toType) return this.module.createUnreachable();\r\n return this.compileExpression(expression.expression, toType, ConversionKind.EXPLICIT, WrapMode.NONE);\r\n }\r\n case AssertionKind.NONNULL: {\r\n assert(!expression.toType);\r\n let expr = this.compileExpressionRetainType(expression.expression, contextualType, WrapMode.NONE);\r\n this.currentType = this.currentType.nonNullableType;\r\n return expr;\r\n }\r\n default: assert(false);\r\n }\r\n return this.module.createUnreachable();\r\n }\r\n\r\n private f32ModInstance: Function | null = null;\r\n private f64ModInstance: Function | null = null;\r\n private f32PowInstance: Function | null = null;\r\n private f64PowInstance: Function | null = null;\r\n\r\n compileBinaryExpression(\r\n expression: BinaryExpression,\r\n contextualType: Type\r\n ): ExpressionRef {\r\n var module = this.module;\r\n var left = expression.left;\r\n var right = expression.right;\r\n\r\n var leftExpr: ExpressionRef;\r\n var leftType: Type;\r\n var rightExpr: ExpressionRef;\r\n var rightType: Type;\r\n var commonType: Type | null;\r\n\r\n var expr: ExpressionRef;\r\n var compound = false;\r\n\r\n var operator = expression.operator;\r\n switch (operator) {\r\n case Token.LESSTHAN: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.LT);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, true)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \"<\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n switch (commonType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32: {\r\n expr = module.createBinary(BinaryOp.LtI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I64: {\r\n expr = module.createBinary(BinaryOp.LtI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.LtI64\r\n : BinaryOp.LtI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.LtU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.LtU64\r\n : BinaryOp.LtU32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.LtU64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.LtF32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.LtF64, leftExpr, rightExpr);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n this.currentType = Type.bool;\r\n break;\r\n }\r\n case Token.GREATERTHAN: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.GT);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, true)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \">\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n switch (commonType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32: {\r\n expr = module.createBinary(BinaryOp.GtI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.GtI64\r\n : BinaryOp.GtI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64: {\r\n expr = module.createBinary(BinaryOp.GtI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.GtU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.GtU64\r\n : BinaryOp.GtU32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.GtU64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.GtF32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.GtF64, leftExpr, rightExpr);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n this.currentType = Type.bool;\r\n break;\r\n }\r\n case Token.LESSTHAN_EQUALS: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.LE);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, true)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \"<=\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n switch (commonType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32: {\r\n expr = module.createBinary(BinaryOp.LeI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.LeI64\r\n : BinaryOp.LeI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64: {\r\n expr = module.createBinary(BinaryOp.LeI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.LeU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.LeU64\r\n : BinaryOp.LeU32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.LeU64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.LeF32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.LeF64, leftExpr, rightExpr);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n this.currentType = Type.bool;\r\n break;\r\n }\r\n case Token.GREATERTHAN_EQUALS: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.GE);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, true)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \">=\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n switch (commonType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32: {\r\n expr = module.createBinary(BinaryOp.GeI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.GeI64\r\n : BinaryOp.GeI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64: {\r\n expr = module.createBinary(BinaryOp.GeI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.GeU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.GeU64\r\n : BinaryOp.GeU32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.GeU64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.GeF32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.GeF64, leftExpr, rightExpr);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n this.currentType = Type.bool;\r\n break;\r\n }\r\n\r\n case Token.EQUALS_EQUALS_EQUALS:\r\n case Token.EQUALS_EQUALS: {\r\n\r\n // NOTE that this favors correctness, in terms of emitting a binary expression, over\r\n // checking for a possible use of unary EQZ. while the most classic of all optimizations,\r\n // that's not what the source told us to do. for reference, `!left` emits unary EQZ.\r\n\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (operator == Token.EQUALS_EQUALS && this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.EQ);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n // still allow '==' with references\r\n }\r\n\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, false)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, operatorTokenToString(expression.operator), leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n switch (commonType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.EqI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.EqI64\r\n : BinaryOp.EqI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.EqI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.EqF32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.EqF64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.V128: {\r\n expr = module.createUnary(UnaryOp.AllTrueVecI8x16,\r\n module.createBinary(BinaryOp.EqVecI8x16, leftExpr, rightExpr)\r\n );\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n this.currentType = Type.bool;\r\n break;\r\n }\r\n case Token.EXCLAMATION_EQUALS_EQUALS:\r\n case Token.EXCLAMATION_EQUALS: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (operator == Token.EXCLAMATION_EQUALS && this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.NE);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n // still allow '!=' with references\r\n }\r\n\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, false)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, operatorTokenToString(expression.operator), leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n switch (commonType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.NeI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.NeI64\r\n : BinaryOp.NeI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.NeI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.NeF32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.NeF64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.V128: {\r\n expr = module.createUnary(UnaryOp.AnyTrueVecI8x16,\r\n module.createBinary(BinaryOp.NeVecI8x16, leftExpr, rightExpr)\r\n );\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n this.currentType = Type.bool;\r\n break;\r\n }\r\n case Token.EQUALS: {\r\n return this.compileAssignment(left, right, contextualType);\r\n }\r\n case Token.PLUS_EQUALS: compound = true;\r\n case Token.PLUS: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.ADD);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n if (compound) {\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n } else {\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, false)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \"+\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n }\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8: // addition might overflow\r\n case TypeKind.I16: // ^\r\n case TypeKind.U8: // ^\r\n case TypeKind.U16: // ^\r\n case TypeKind.BOOL: // ^\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.AddI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.AddI64\r\n : BinaryOp.AddI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.AddI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.AddF32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.AddF64, leftExpr, rightExpr);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.MINUS_EQUALS: compound = true;\r\n case Token.MINUS: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.SUB);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n if (compound) {\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n rightType = this.currentType;\r\n } else {\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, false)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \"-\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n }\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8: // subtraction might overflow\r\n case TypeKind.I16: // ^\r\n case TypeKind.U8: // ^\r\n case TypeKind.U16: // ^\r\n case TypeKind.BOOL: // ^\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.SubI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.SubI64\r\n : BinaryOp.SubI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.SubI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.SubF32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.SubF64, leftExpr, rightExpr);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.ASTERISK_EQUALS: compound = true;\r\n case Token.ASTERISK: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.MUL);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n if (compound) {\r\n leftExpr = this.ensureSmallIntegerWrap(leftExpr, leftType);\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.WRAP);\r\n } else {\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, false)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \"*\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n }\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL:\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.MulI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.MulI64\r\n : BinaryOp.MulI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.MulI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.MulF32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.MulF64, leftExpr, rightExpr);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.ASTERISK_ASTERISK_EQUALS: compound = true;\r\n case Token.ASTERISK_ASTERISK: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.POW);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n let instance: Function | null;\r\n\r\n // Mathf.pow if lhs is f32 (result is f32)\r\n if (this.currentType.kind == TypeKind.F32) {\r\n rightExpr = this.compileExpression(right, Type.f32, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (!(instance = this.f32PowInstance)) {\r\n let namespace = this.program.lookupGlobal(LibrarySymbols.Mathf);\r\n if (!namespace) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n expression.range, \"Mathf\"\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n let prototype = namespace.members ? namespace.members.get(LibrarySymbols.pow) : null;\r\n if (!prototype) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n expression.range, \"Mathf.pow\"\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n assert(prototype.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n this.f32PowInstance = instance = this.resolver.resolveFunction(prototype, null);\r\n }\r\n\r\n // Math.pow otherwise (result is f64)\r\n // TODO: should the result be converted back?\r\n } else {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n this.currentType,\r\n Type.f64,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n left\r\n );\r\n leftType = this.currentType;\r\n rightExpr = this.compileExpression(\r\n right,\r\n Type.f64,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n rightType = this.currentType;\r\n if (!(instance = this.f64PowInstance)) {\r\n let namespace = this.program.lookupGlobal(LibrarySymbols.Math);\r\n if (!namespace) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n expression.range, \"Math\"\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n let prototype = namespace.members ? namespace.members.get(LibrarySymbols.pow) : null;\r\n if (!prototype) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n expression.range, \"Math.pow\"\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n assert(prototype.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n this.f64PowInstance = instance = this.resolver.resolveFunction(prototype, null);\r\n }\r\n }\r\n if (!(instance && this.compileFunction(instance))) {\r\n expr = module.createUnreachable();\r\n } else {\r\n expr = this.makeCallDirect(instance, [ leftExpr, rightExpr ]);\r\n }\r\n break;\r\n }\r\n case Token.SLASH_EQUALS: compound = true;\r\n case Token.SLASH: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.DIV);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n if (compound) {\r\n leftExpr = this.ensureSmallIntegerWrap(leftExpr, leftType);\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.WRAP);\r\n rightType = this.currentType;\r\n } else {\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, false)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP, // !\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP, // !\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \"/\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n }\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8: // signed div on signed small integers might overflow, e.g. -128/-1\r\n case TypeKind.I16: // ^\r\n case TypeKind.I32: {\r\n expr = module.createBinary(BinaryOp.DivI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.DivI64\r\n : BinaryOp.DivI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64: {\r\n expr = module.createBinary(BinaryOp.DivI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.DivU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.DivU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.DivU64\r\n : BinaryOp.DivU32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.DivU64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.DivF32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.DivF64, leftExpr, rightExpr);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.PERCENT_EQUALS: compound = true;\r\n case Token.PERCENT: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.REM);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n if (compound) {\r\n leftExpr = this.ensureSmallIntegerWrap(leftExpr, leftType);\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.WRAP);\r\n rightType = this.currentType;\r\n } else {\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, false)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP, // !\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP, // !\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \"%\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n }\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16: {\r\n expr = module.createBinary(BinaryOp.RemI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I32: {\r\n expr = module.createBinary(BinaryOp.RemI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.RemI64\r\n : BinaryOp.RemI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64: {\r\n expr = module.createBinary(BinaryOp.RemI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.RemU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.RemU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.RemU64\r\n : BinaryOp.RemU32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.RemU64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n let instance = this.f32ModInstance;\r\n if (!instance) {\r\n let namespace = this.program.lookupGlobal(LibrarySymbols.Mathf);\r\n if (!namespace) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n expression.range, \"Mathf\"\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n let prototype = namespace.members ? namespace.members.get(LibrarySymbols.mod) : null;\r\n if (!prototype) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n expression.range, \"Mathf.mod\"\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n assert(prototype.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n this.f32ModInstance = instance = this.resolver.resolveFunction(prototype, null);\r\n }\r\n if (!(instance && this.compileFunction(instance))) {\r\n expr = module.createUnreachable();\r\n } else {\r\n expr = this.makeCallDirect(instance, [ leftExpr, rightExpr ]);\r\n }\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n let instance = this.f64ModInstance;\r\n if (!instance) {\r\n let namespace = this.program.lookupGlobal(LibrarySymbols.Math);\r\n if (!namespace) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n expression.range, \"Math\"\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n let prototype = namespace.members ? namespace.members.get(LibrarySymbols.mod) : null;\r\n if (!prototype) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n expression.range, \"Math.mod\"\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n assert(prototype.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n this.f64ModInstance = instance = this.resolver.resolveFunction(prototype, null);\r\n }\r\n if (!(instance && this.compileFunction(instance))) {\r\n expr = module.createUnreachable();\r\n } else {\r\n expr = this.makeCallDirect(instance, [ leftExpr, rightExpr ]);\r\n }\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.LESSTHAN_LESSTHAN_EQUALS: compound = true;\r\n case Token.LESSTHAN_LESSTHAN: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType.intType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.BITWISE_SHL);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n rightType = this.currentType;\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL:\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.ShlI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.ShlI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.ShlI64\r\n : BinaryOp.ShlI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.F32:\r\n case TypeKind.F64: {\r\n this.error(\r\n DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,\r\n expression.range, operatorTokenToString(expression.operator), this.currentType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.GREATERTHAN_GREATERTHAN_EQUALS: compound = true;\r\n case Token.GREATERTHAN_GREATERTHAN: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType.intType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.BITWISE_SHR);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n leftExpr = this.ensureSmallIntegerWrap(leftExpr, leftType); // must clear garbage bits\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.WRAP);\r\n rightType = this.currentType;\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16: {\r\n expr = module.createBinary(BinaryOp.ShrI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I32: {\r\n expr = module.createBinary(BinaryOp.ShrI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I64: {\r\n expr = module.createBinary(BinaryOp.ShrI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.ShrI64\r\n : BinaryOp.ShrI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.ShrU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.ShrU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.ShrU64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.ShrU64\r\n : BinaryOp.ShrU32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.F32:\r\n case TypeKind.F64: {\r\n this.error(\r\n DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,\r\n expression.range, operatorTokenToString(expression.operator), this.currentType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.GREATERTHAN_GREATERTHAN_GREATERTHAN_EQUALS: compound = true;\r\n case Token.GREATERTHAN_GREATERTHAN_GREATERTHAN: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType.intType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.BITWISE_SHR_U);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n leftExpr = this.ensureSmallIntegerWrap(leftExpr, leftType); // must clear garbage bits\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n rightType = this.currentType;\r\n switch (this.currentType.kind) {\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: { // assumes that unsigned shr on unsigned small integers does not overflow\r\n expr = module.createBinary(BinaryOp.ShrU32, leftExpr, rightExpr);\r\n }\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.ShrU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.ShrU64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.ShrU64\r\n : BinaryOp.ShrU32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.F32:\r\n case TypeKind.F64: {\r\n this.error(\r\n DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,\r\n expression.range, operatorTokenToString(expression.operator), this.currentType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.AMPERSAND_EQUALS: compound = true;\r\n case Token.AMPERSAND: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType.intType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overloadd\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.BITWISE_AND);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n if (compound) {\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n rightType = this.currentType;\r\n } else {\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, false)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \"&\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n }\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL:\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.AndI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.AndI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.AndI64\r\n : BinaryOp.AndI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.F32:\r\n case TypeKind.F64: {\r\n this.error(\r\n DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,\r\n expression.range, operatorTokenToString(expression.operator), this.currentType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.BAR_EQUALS: compound = true;\r\n case Token.BAR: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType.intType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.BITWISE_OR);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n if (compound) {\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n rightType = this.currentType;\r\n } else {\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, false)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \"|\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n }\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.OrI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.OrI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.OrI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.OrI64\r\n : BinaryOp.OrI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.F32:\r\n case TypeKind.F64: {\r\n this.error(\r\n DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,\r\n expression.range, operatorTokenToString(expression.operator), this.currentType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.CARET_EQUALS: compound = true;\r\n case Token.CARET: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType.intType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.BITWISE_XOR);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n if (compound) {\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n rightType = this.currentType;\r\n } else {\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, false)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \"^\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n }\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.XorI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.XorI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.XorI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.XorI64\r\n : BinaryOp.XorI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.F32:\r\n case TypeKind.F64: {\r\n this.error(\r\n DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,\r\n expression.range, operatorTokenToString(expression.operator), this.currentType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n\r\n // logical (no overloading)\r\n\r\n case Token.AMPERSAND_AMPERSAND: { // left && right\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n rightType = this.currentType;\r\n\r\n // simplify if cloning left without side effects is possible\r\n if (expr = module.cloneExpression(leftExpr, true, 0)) {\r\n expr = module.createIf(\r\n this.makeIsTrueish(leftExpr, this.currentType),\r\n rightExpr,\r\n expr\r\n );\r\n\r\n // if not possible, tee left to a temp. local\r\n } else {\r\n let flow = this.currentFlow;\r\n let tempLocal = flow.getAndFreeTempLocal(\r\n this.currentType,\r\n !flow.canOverflow(leftExpr, this.currentType)\r\n );\r\n expr = module.createIf(\r\n this.makeIsTrueish(\r\n module.createTeeLocal(tempLocal.index, leftExpr),\r\n this.currentType\r\n ),\r\n rightExpr,\r\n module.createGetLocal(\r\n assert(tempLocal).index, // to be sure\r\n this.currentType.toNativeType()\r\n )\r\n );\r\n }\r\n break;\r\n }\r\n case Token.BAR_BAR: { // left || right\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n rightType = this.currentType;\r\n\r\n // simplify if cloning left without side effects is possible\r\n if (expr = this.module.cloneExpression(leftExpr, true, 0)) {\r\n expr = this.module.createIf(\r\n this.makeIsTrueish(leftExpr, this.currentType),\r\n expr,\r\n rightExpr\r\n );\r\n\r\n // if not possible, tee left to a temp. local\r\n } else {\r\n let flow = this.currentFlow;\r\n let tempLocal = flow.getAndFreeTempLocal(\r\n this.currentType,\r\n !flow.canOverflow(leftExpr, this.currentType)\r\n );\r\n expr = module.createIf(\r\n this.makeIsTrueish(\r\n module.createTeeLocal(tempLocal.index, leftExpr),\r\n this.currentType\r\n ),\r\n module.createGetLocal(\r\n assert(tempLocal).index, // to be sure\r\n this.currentType.toNativeType()\r\n ),\r\n rightExpr\r\n );\r\n }\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = this.module.createUnreachable();\r\n }\r\n }\r\n return compound\r\n ? this.compileAssignmentWithValue(left, expr, contextualType != Type.void)\r\n : expr;\r\n }\r\n\r\n compileUnaryOverload(\r\n operatorInstance: Function,\r\n value: Expression,\r\n valueExpr: ExpressionRef,\r\n reportNode: Node\r\n ): ExpressionRef {\r\n var argumentExpressions: Expression[];\r\n var thisArg: ExpressionRef = 0;\r\n if (operatorInstance.is(CommonFlags.INSTANCE)) {\r\n thisArg = valueExpr; // can reuse the previously evaluated expr as the this value here\r\n argumentExpressions = [];\r\n } else {\r\n argumentExpressions = [ value ]; // annotated type might differ -> recompile\r\n }\r\n return this.compileCallDirect(\r\n operatorInstance,\r\n argumentExpressions,\r\n reportNode,\r\n thisArg\r\n );\r\n }\r\n\r\n compileBinaryOverload(\r\n operatorInstance: Function,\r\n left: Expression,\r\n leftExpr: ExpressionRef,\r\n right: Expression,\r\n reportNode: Node\r\n ): ExpressionRef {\r\n var argumentExpressions: Expression[];\r\n var thisArg: ExpressionRef = 0;\r\n if (operatorInstance.is(CommonFlags.INSTANCE)) {\r\n let classInstance = assert(operatorInstance.parent); assert(classInstance.kind == ElementKind.CLASS);\r\n thisArg = leftExpr; // can reuse the previously evaluated leftExpr as the this value here\r\n argumentExpressions = [ right ];\r\n } else {\r\n argumentExpressions = [ left, right ]; // annotated type of LHS might differ -> recompile\r\n }\r\n var ret = this.compileCallDirect(\r\n operatorInstance,\r\n argumentExpressions,\r\n reportNode,\r\n thisArg\r\n );\r\n return ret;\r\n }\r\n\r\n compileAssignment(expression: Expression, valueExpression: Expression, contextualType: Type): ExpressionRef {\r\n var program = this.program;\r\n var resolver = program.resolver;\r\n var flow = this.currentFlow;\r\n var target = resolver.resolveExpression(expression, flow); // reports\r\n if (!target) return this.module.createUnreachable();\r\n\r\n // to compile just the value, we need to know the target's type\r\n var targetType: Type;\r\n switch (target.kind) {\r\n case ElementKind.GLOBAL: {\r\n if (!this.compileGlobal(target)) { // reports; not yet compiled if a static field compiled as a global\r\n return this.module.createUnreachable();\r\n }\r\n assert((target).type != Type.void); // compileGlobal must guarantee this\r\n // fall-through\r\n }\r\n case ElementKind.LOCAL:\r\n case ElementKind.FIELD: {\r\n targetType = (target).type;\r\n break;\r\n }\r\n case ElementKind.PROPERTY_PROTOTYPE: { // static property\r\n let setterPrototype = (target).setterPrototype;\r\n if (!setterPrototype) {\r\n this.error(\r\n DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,\r\n expression.range, (target).internalName\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n let setterInstance = this.resolver.resolveFunction(setterPrototype, null, makeMap(), ReportMode.REPORT);\r\n if (!setterInstance) return this.module.createUnreachable();\r\n assert(setterInstance.signature.parameterTypes.length == 1); // parser must guarantee this\r\n targetType = setterInstance.signature.parameterTypes[0];\r\n break;\r\n }\r\n case ElementKind.PROPERTY: { // instance property\r\n let setterInstance = (target).setterInstance;\r\n if (!setterInstance) {\r\n this.error(\r\n DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,\r\n expression.range, (target).internalName\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n assert(setterInstance.signature.parameterTypes.length == 1); // parser must guarantee this\r\n targetType = setterInstance.signature.parameterTypes[0];\r\n break;\r\n }\r\n case ElementKind.CLASS: {\r\n if (resolver.currentElementExpression) { // indexed access\r\n let isUnchecked = flow.is(FlowFlags.UNCHECKED_CONTEXT);\r\n let indexedSet = (target).lookupOverload(OperatorKind.INDEXED_SET, isUnchecked);\r\n if (!indexedSet) {\r\n let indexedGet = (target).lookupOverload(OperatorKind.INDEXED_GET, isUnchecked);\r\n if (!indexedGet) {\r\n this.error(\r\n DiagnosticCode.Index_signature_is_missing_in_type_0,\r\n expression.range, (target).internalName\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Index_signature_in_type_0_only_permits_reading,\r\n expression.range, (target).internalName\r\n );\r\n }\r\n return this.module.createUnreachable();\r\n }\r\n assert(indexedSet.signature.parameterTypes.length == 2); // parser must guarantee this\r\n targetType = indexedSet.signature.parameterTypes[1]; // 2nd parameter is the element\r\n break;\r\n }\r\n // fall-through\r\n }\r\n default: {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n }\r\n\r\n // compile the value and do the assignment\r\n assert(targetType != Type.void);\r\n var valueExpr = this.compileExpression(valueExpression, targetType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n return this.compileAssignmentWithValue(\r\n expression,\r\n valueExpr,\r\n contextualType != Type.void\r\n );\r\n }\r\n\r\n compileAssignmentWithValue(\r\n expression: Expression,\r\n valueWithCorrectType: ExpressionRef,\r\n tee: bool = false\r\n ): ExpressionRef {\r\n var module = this.module;\r\n var flow = this.currentFlow;\r\n var target = this.resolver.resolveExpression(expression, flow); // reports\r\n if (!target) return module.createUnreachable();\r\n\r\n switch (target.kind) {\r\n case ElementKind.LOCAL: {\r\n let type = (target).type;\r\n assert(type != Type.void);\r\n this.currentType = tee ? type : Type.void;\r\n if ((target).is(CommonFlags.CONST)) {\r\n this.error(\r\n DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,\r\n expression.range, target.internalName\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (type.is(TypeFlags.SHORT | TypeFlags.INTEGER)) {\r\n flow.setLocalWrapped((target).index, !flow.canOverflow(valueWithCorrectType, type));\r\n }\r\n return tee\r\n ? module.createTeeLocal((target).index, valueWithCorrectType)\r\n : module.createSetLocal((target).index, valueWithCorrectType);\r\n }\r\n case ElementKind.GLOBAL: {\r\n if (!this.compileGlobal(target)) return module.createUnreachable();\r\n let type = (target).type;\r\n assert(type != Type.void);\r\n this.currentType = tee ? type : Type.void;\r\n if ((target).is(CommonFlags.CONST)) {\r\n this.error(\r\n DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,\r\n expression.range,\r\n target.internalName\r\n );\r\n return module.createUnreachable();\r\n }\r\n valueWithCorrectType = this.ensureSmallIntegerWrap(valueWithCorrectType, type); // guaranteed\r\n if (tee) {\r\n let nativeType = type.toNativeType();\r\n let internalName = target.internalName;\r\n return module.createBlock(null, [ // emulated teeGlobal\r\n module.createSetGlobal(internalName, valueWithCorrectType),\r\n module.createGetGlobal(internalName, nativeType)\r\n ], nativeType);\r\n } else {\r\n return module.createSetGlobal(target.internalName, valueWithCorrectType);\r\n }\r\n }\r\n case ElementKind.FIELD: {\r\n let initializerNode = (target).initializerNode;\r\n if (\r\n (target).is(CommonFlags.READONLY) &&\r\n !(\r\n flow.actualFunction.is(CommonFlags.CONSTRUCTOR) ||\r\n initializerNode\r\n )\r\n ) {\r\n this.error(\r\n DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,\r\n expression.range, (target).internalName\r\n );\r\n return module.createUnreachable();\r\n }\r\n let thisExpression = assert(this.resolver.currentThisExpression);\r\n let thisExpr = this.compileExpressionRetainType(\r\n thisExpression,\r\n this.options.usizeType,\r\n WrapMode.NONE\r\n );\r\n let type = (target).type;\r\n this.currentType = tee ? type : Type.void;\r\n let nativeType = type.toNativeType();\r\n if (type.kind == TypeKind.BOOL) {\r\n // make sure bools are wrapped (usually are) when storing as 8 bits\r\n valueWithCorrectType = this.ensureSmallIntegerWrap(valueWithCorrectType, type);\r\n }\r\n if (tee) {\r\n let flow = this.currentFlow;\r\n let tempLocal = flow.getAndFreeTempLocal(\r\n type,\r\n !flow.canOverflow(valueWithCorrectType, type)\r\n );\r\n let tempLocalIndex = tempLocal.index;\r\n // TODO: simplify if valueWithCorrectType has no side effects\r\n // TODO: call __gc_link here if a GC is present\r\n return module.createBlock(null, [\r\n module.createSetLocal(tempLocalIndex, valueWithCorrectType),\r\n module.createStore(\r\n type.byteSize,\r\n thisExpr,\r\n module.createGetLocal(tempLocalIndex, nativeType),\r\n nativeType,\r\n (target).memoryOffset\r\n ),\r\n module.createGetLocal(tempLocalIndex, nativeType)\r\n ], nativeType);\r\n } else {\r\n // TODO: call __gc_link here if a GC is present\r\n return module.createStore(\r\n type.byteSize,\r\n thisExpr,\r\n valueWithCorrectType,\r\n nativeType,\r\n (target).memoryOffset\r\n );\r\n }\r\n }\r\n case ElementKind.PROPERTY_PROTOTYPE: { // static property\r\n let setterPrototype = (target).setterPrototype;\r\n if (!setterPrototype) {\r\n this.error(\r\n DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,\r\n expression.range, target.internalName\r\n );\r\n return module.createUnreachable();\r\n }\r\n let setterInstance = this.resolver.resolveFunction(setterPrototype, null, makeMap(), ReportMode.REPORT);\r\n if (!setterInstance) return module.createUnreachable();\r\n // call just the setter if the return value isn't of interest\r\n if (!tee) return this.makeCallDirect(setterInstance, [ valueWithCorrectType ]);\r\n // otherwise call the setter first, then the getter\r\n let getterPrototype = assert((target).getterPrototype); // must be present\r\n let getterInstance = this.resolver.resolveFunction(getterPrototype, null, makeMap(), ReportMode.REPORT);\r\n if (!getterInstance) return module.createUnreachable();\r\n let returnType = getterInstance.signature.returnType;\r\n let nativeReturnType = returnType.toNativeType();\r\n return module.createBlock(null, [\r\n this.makeCallDirect(setterInstance, [ valueWithCorrectType ]),\r\n this.makeCallDirect(getterInstance) // sets currentType\r\n ], nativeReturnType);\r\n }\r\n case ElementKind.PROPERTY: { // instance property\r\n let setterInstance = (target).setterInstance;\r\n if (!setterInstance) {\r\n this.error(\r\n DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,\r\n expression.range, target.internalName\r\n );\r\n return module.createUnreachable();\r\n }\r\n // call just the setter if the return value isn't of interest\r\n if (!tee) {\r\n let thisExpr = this.compileExpressionRetainType(\r\n assert(this.resolver.currentThisExpression),\r\n this.options.usizeType,\r\n WrapMode.NONE\r\n );\r\n return this.makeCallDirect(setterInstance, [ thisExpr, valueWithCorrectType ]);\r\n }\r\n // otherwise call the setter first, then the getter\r\n let getterInstance = assert((target).getterInstance); // must be present\r\n let returnType = getterInstance.signature.returnType;\r\n let nativeReturnType = returnType.toNativeType();\r\n let thisExpr = this.compileExpressionRetainType(\r\n assert(this.resolver.currentThisExpression),\r\n this.options.usizeType,\r\n WrapMode.NONE\r\n );\r\n let tempLocal = flow.getAndFreeTempLocal(returnType, false);\r\n let tempLocalIndex = tempLocal.index;\r\n return module.createBlock(null, [\r\n this.makeCallDirect(setterInstance, [ // set and remember the target\r\n module.createTeeLocal(tempLocalIndex, thisExpr),\r\n valueWithCorrectType\r\n ]),\r\n this.makeCallDirect(getterInstance, [ // get from remembered target\r\n module.createGetLocal(tempLocalIndex, nativeReturnType)\r\n ])\r\n ], nativeReturnType);\r\n }\r\n case ElementKind.CLASS: {\r\n let elementExpression = this.resolver.currentElementExpression;\r\n if (elementExpression) {\r\n let isUnchecked = flow.is(FlowFlags.UNCHECKED_CONTEXT);\r\n let indexedGet = (target).lookupOverload(OperatorKind.INDEXED_GET, isUnchecked);\r\n if (!indexedGet) {\r\n this.error(\r\n DiagnosticCode.Index_signature_is_missing_in_type_0,\r\n expression.range, target.internalName\r\n );\r\n return module.createUnreachable();\r\n }\r\n let indexedSet = (target).lookupOverload(OperatorKind.INDEXED_SET, isUnchecked);\r\n if (!indexedSet) {\r\n this.error(\r\n DiagnosticCode.Index_signature_in_type_0_only_permits_reading,\r\n expression.range, target.internalName\r\n );\r\n this.currentType = tee ? indexedGet.signature.returnType : Type.void;\r\n return module.createUnreachable();\r\n }\r\n let targetType = (target).type;\r\n let thisExpression = assert(this.resolver.currentThisExpression);\r\n let thisExpr = this.compileExpressionRetainType(\r\n thisExpression,\r\n this.options.usizeType,\r\n WrapMode.NONE\r\n );\r\n let elementExpr = this.compileExpression(\r\n elementExpression,\r\n Type.i32,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n if (tee) {\r\n let tempLocalTarget = flow.getTempLocal(targetType, false);\r\n let tempLocalElement = flow.getAndFreeTempLocal(this.currentType, false);\r\n let returnType = indexedGet.signature.returnType;\r\n flow.freeTempLocal(tempLocalTarget);\r\n return module.createBlock(null, [\r\n this.makeCallDirect(indexedSet, [\r\n module.createTeeLocal(tempLocalTarget.index, thisExpr),\r\n module.createTeeLocal(tempLocalElement.index, elementExpr),\r\n valueWithCorrectType\r\n ]),\r\n this.makeCallDirect(indexedGet, [\r\n module.createGetLocal(tempLocalTarget.index, tempLocalTarget.type.toNativeType()),\r\n module.createGetLocal(tempLocalElement.index, tempLocalElement.type.toNativeType())\r\n ])\r\n ], returnType.toNativeType());\r\n } else {\r\n return this.makeCallDirect(indexedSet, [\r\n thisExpr,\r\n elementExpr,\r\n valueWithCorrectType\r\n ]);\r\n }\r\n }\r\n // fall-through\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n\r\n compileCallExpression(expression: CallExpression, contextualType: Type): ExpressionRef {\r\n var module = this.module;\r\n var flow = this.currentFlow;\r\n\r\n // handle call to super\r\n if (expression.expression.kind == NodeKind.SUPER) {\r\n let flow = this.currentFlow;\r\n let actualFunction = flow.actualFunction;\r\n if (!actualFunction.is(CommonFlags.CONSTRUCTOR)) {\r\n this.error(\r\n DiagnosticCode.Super_calls_are_not_permitted_outside_constructors_or_in_nested_functions_inside_constructors,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n\r\n let classInstance = assert(actualFunction.parent); assert(classInstance.kind == ElementKind.CLASS);\r\n let baseClassInstance = assert((classInstance).base);\r\n let thisLocal = assert(flow.lookupLocal(CommonSymbols.this_));\r\n let nativeSizeType = this.options.nativeSizeType;\r\n\r\n // {\r\n // this = super(this || , ...args)\r\n // this.a = X\r\n // this.b = Y\r\n // }\r\n let stmts: ExpressionRef[] = [\r\n module.createSetLocal(thisLocal.index,\r\n this.compileCallDirect(\r\n this.ensureConstructor(baseClassInstance, expression),\r\n expression.arguments,\r\n expression,\r\n module.createIf(\r\n module.createGetLocal(thisLocal.index, nativeSizeType),\r\n module.createGetLocal(thisLocal.index, nativeSizeType),\r\n this.makeAllocation(classInstance)\r\n )\r\n )\r\n )\r\n ];\r\n this.makeFieldInitialization(classInstance, stmts);\r\n\r\n // check that super had been called before accessing allocating `this`\r\n if (flow.isAny(\r\n FlowFlags.ALLOCATES |\r\n FlowFlags.CONDITIONALLY_ALLOCATES\r\n )) {\r\n this.error(\r\n DiagnosticCode._super_must_be_called_before_accessing_this_in_the_constructor_of_a_derived_class,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n flow.set(FlowFlags.ALLOCATES | FlowFlags.CALLS_SUPER);\r\n this.currentType = Type.void;\r\n return module.createBlock(null, stmts);\r\n }\r\n\r\n // otherwise resolve normally\r\n var target = this.resolver.resolveExpression(expression.expression, flow); // reports\r\n if (!target) return module.createUnreachable();\r\n\r\n var signature: Signature | null;\r\n var indexArg: ExpressionRef;\r\n switch (target.kind) {\r\n\r\n // direct call: concrete function\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n let prototype = target;\r\n let typeArguments = expression.typeArguments;\r\n\r\n // builtins handle present respectively omitted type arguments on their own\r\n if (prototype.hasDecorator(DecoratorFlags.BUILTIN)) {\r\n return this.compileCallExpressionBuiltin(prototype, expression, contextualType);\r\n }\r\n\r\n let instance: Function | null = null;\r\n\r\n // resolve generic call if type arguments have been provided\r\n if (typeArguments) {\r\n if (!prototype.is(CommonFlags.GENERIC)) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n expression.expression.range, prototype.internalName\r\n );\r\n return module.createUnreachable();\r\n }\r\n instance = this.resolver.resolveFunctionInclTypeArguments(\r\n prototype,\r\n typeArguments,\r\n flow.actualFunction.parent, // relative to caller\r\n makeMap(flow.contextualTypeArguments),\r\n expression\r\n );\r\n\r\n // infer generic call if type arguments have been omitted\r\n } else if (prototype.is(CommonFlags.GENERIC)) {\r\n let inferredTypes = new Map();\r\n let typeParameterNodes = assert(prototype.typeParameterNodes);\r\n let numTypeParameters = typeParameterNodes.length;\r\n for (let i = 0; i < numTypeParameters; ++i) {\r\n inferredTypes.set(typeParameterNodes[i].name.text, null);\r\n }\r\n // let numInferred = 0;\r\n let parameterNodes = prototype.signatureNode.parameters;\r\n let numParameters = parameterNodes.length;\r\n let argumentNodes = expression.arguments;\r\n let numArguments = argumentNodes.length;\r\n let argumentExprs = new Array(numArguments);\r\n for (let i = 0; i < numParameters; ++i) {\r\n let typeNode = parameterNodes[i].type;\r\n let templateName = typeNode.kind == NodeKind.TYPE && !(typeNode).name.next\r\n ? (typeNode).name.identifier.text\r\n : null;\r\n let argumentExpression = i < numArguments\r\n ? argumentNodes[i]\r\n : parameterNodes[i].initializer;\r\n if (!argumentExpression) { // missing initializer -> too few arguments\r\n this.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n expression.range, numParameters.toString(10), numArguments.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (templateName !== null && inferredTypes.has(templateName)) {\r\n let inferredType = inferredTypes.get(templateName);\r\n if (inferredType) {\r\n argumentExprs[i] = this.compileExpressionRetainType(argumentExpression, inferredType, WrapMode.NONE);\r\n let commonType: Type | null;\r\n if (!(commonType = Type.commonDenominator(inferredType, this.currentType, true))) {\r\n if (!(commonType = Type.commonDenominator(inferredType, this.currentType, false))) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n parameterNodes[i].type.range, this.currentType.toString(), inferredType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n inferredType = commonType;\r\n } else {\r\n argumentExprs[i] = this.compileExpressionRetainType(argumentExpression, Type.i32, WrapMode.NONE);\r\n inferredType = this.currentType;\r\n // ++numInferred;\r\n }\r\n inferredTypes.set(templateName, inferredType);\r\n } else {\r\n let concreteType = this.resolver.resolveType(\r\n parameterNodes[i].type,\r\n flow.actualFunction,\r\n flow.contextualTypeArguments\r\n );\r\n if (!concreteType) return module.createUnreachable();\r\n argumentExprs[i] = this.compileExpression(\r\n argumentExpression,\r\n concreteType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n }\r\n let resolvedTypeArguments = new Array(numTypeParameters);\r\n for (let i = 0; i < numTypeParameters; ++i) {\r\n let inferredType = assert(inferredTypes.get(typeParameterNodes[i].name.text)); // TODO\r\n resolvedTypeArguments[i] = inferredType;\r\n }\r\n instance = this.resolver.resolveFunction(\r\n prototype,\r\n resolvedTypeArguments,\r\n makeMap(flow.contextualTypeArguments)\r\n );\r\n if (!instance) return this.module.createUnreachable();\r\n return this.makeCallDirect(instance, argumentExprs);\r\n // TODO: this skips inlining because inlining requires compiling its temporary locals in\r\n // the scope of the inlined flow. might need another mechanism to lock temp. locals early,\r\n // so inlining can be performed in `makeCallDirect` instead?\r\n\r\n // otherwise resolve the non-generic call as usual\r\n } else {\r\n instance = this.resolver.resolveFunction(prototype, null);\r\n }\r\n if (!instance) return this.module.createUnreachable();\r\n\r\n // compile 'this' expression if an instance method\r\n let thisExpr: ExpressionRef = 0;\r\n if (instance.is(CommonFlags.INSTANCE)) {\r\n thisExpr = this.compileExpressionRetainType(\r\n assert(this.resolver.currentThisExpression),\r\n this.options.usizeType,\r\n WrapMode.NONE\r\n );\r\n }\r\n\r\n return this.compileCallDirect(\r\n instance,\r\n expression.arguments,\r\n expression,\r\n thisExpr\r\n );\r\n }\r\n\r\n // indirect call: index argument with signature (non-generic, can't be inlined)\r\n case ElementKind.LOCAL: {\r\n if (signature = (target).type.signatureReference) {\r\n if ((target).is(CommonFlags.INLINED)) {\r\n indexArg = module.createI32(i64_low((target).constantIntegerValue));\r\n } else {\r\n indexArg = module.createGetLocal((target).index, NativeType.I32);\r\n }\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Cannot_invoke_an_expression_whose_type_lacks_a_call_signature_Type_0_has_no_compatible_call_signatures,\r\n expression.range, (target).type.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n case ElementKind.GLOBAL: {\r\n if (signature = (target).type.signatureReference) {\r\n indexArg = module.createGetGlobal((target).internalName, (target).type.toNativeType());\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Cannot_invoke_an_expression_whose_type_lacks_a_call_signature_Type_0_has_no_compatible_call_signatures,\r\n expression.range, (target).type.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n case ElementKind.FIELD: {\r\n let type = (target).type;\r\n if (signature = type.signatureReference) {\r\n let thisExpression = assert(this.resolver.currentThisExpression);\r\n let thisExpr = this.compileExpressionRetainType(\r\n thisExpression,\r\n this.options.usizeType,\r\n WrapMode.NONE\r\n );\r\n indexArg = module.createLoad(\r\n 4,\r\n false,\r\n thisExpr,\r\n NativeType.I32,\r\n (target).memoryOffset\r\n );\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Cannot_invoke_an_expression_whose_type_lacks_a_call_signature_Type_0_has_no_compatible_call_signatures,\r\n expression.range, type.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n case ElementKind.FUNCTION_TARGET: {\r\n signature = (target).signature;\r\n indexArg = this.compileExpression(\r\n expression.expression,\r\n (target).type,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n break;\r\n }\r\n\r\n case ElementKind.PROPERTY_PROTOTYPE: { // static property\r\n let getterPrototype = assert((target).getterPrototype);\r\n let getterInstance = this.resolver.resolveFunction(getterPrototype, null);\r\n if (!getterInstance) return module.createUnreachable();\r\n indexArg = this.compileCallDirect(getterInstance, [], expression.expression);\r\n signature = this.currentType.signatureReference;\r\n if (!signature) {\r\n this.error(\r\n DiagnosticCode.Cannot_invoke_an_expression_whose_type_lacks_a_call_signature_Type_0_has_no_compatible_call_signatures,\r\n expression.range, this.currentType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n break;\r\n }\r\n case ElementKind.PROPERTY: { // instance property\r\n let getterInstance = assert((target).getterInstance);\r\n indexArg = this.compileCallDirect(getterInstance, [], expression.expression,\r\n this.compileExpressionRetainType(\r\n assert(this.resolver.currentThisExpression),\r\n this.options.usizeType,\r\n WrapMode.NONE\r\n )\r\n );\r\n signature = this.currentType.signatureReference;\r\n if (!signature) {\r\n this.error(\r\n DiagnosticCode.Cannot_invoke_an_expression_whose_type_lacks_a_call_signature_Type_0_has_no_compatible_call_signatures,\r\n expression.range, this.currentType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n break;\r\n }\r\n\r\n // not supported\r\n default: {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n return this.compileCallIndirect(\r\n signature,\r\n indexArg,\r\n expression.arguments,\r\n expression\r\n );\r\n }\r\n\r\n private compileCallExpressionBuiltin(\r\n prototype: FunctionPrototype,\r\n expression: CallExpression,\r\n contextualType: Type\r\n ): ExpressionRef {\r\n var typeArguments: Type[] | null = null;\r\n\r\n // builtins handle omitted type arguments on their own. if present, however, resolve them here\r\n // and pass them to the builtin, even if it's still up to the builtin how to handle them.\r\n var typeParameterNodes = prototype.typeParameterNodes;\r\n var typeArgumentNodes = expression.typeArguments;\r\n if (expression.typeArguments) {\r\n if (!prototype.is(CommonFlags.GENERIC)) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n expression.range, prototype.internalName\r\n );\r\n }\r\n typeArguments = this.resolver.resolveTypeArguments(\r\n assert(typeParameterNodes),\r\n typeArgumentNodes,\r\n this.currentFlow.actualFunction.parent,\r\n makeMap(this.currentFlow.contextualTypeArguments),\r\n expression\r\n );\r\n }\r\n\r\n // now compile the builtin, which usually returns a block of code that replaces the call.\r\n var expr = compileBuiltinCall(\r\n this,\r\n prototype,\r\n typeArguments,\r\n expression.arguments,\r\n contextualType,\r\n expression\r\n );\r\n if (!expr) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n return expr;\r\n }\r\n\r\n /**\r\n * Checks that a call with the given number as arguments can be performed according to the\r\n * specified signature.\r\n */\r\n checkCallSignature(\r\n signature: Signature,\r\n numArguments: i32,\r\n hasThis: bool,\r\n reportNode: Node\r\n ): bool {\r\n\r\n // cannot call an instance method without a `this` argument (TODO: `.call`?)\r\n var thisType = signature.thisType;\r\n if (hasThis != (thisType != null)) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported, // TODO: better message?\r\n reportNode.range\r\n );\r\n return false;\r\n }\r\n\r\n // not yet implemented (TODO: maybe some sort of an unmanaged/lightweight array?)\r\n var hasRest = signature.hasRest;\r\n if (hasRest) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return false;\r\n }\r\n\r\n var minimum = signature.requiredParameters;\r\n var maximum = signature.parameterTypes.length;\r\n\r\n // must at least be called with required arguments\r\n if (numArguments < minimum) {\r\n this.error(\r\n minimum < maximum\r\n ? DiagnosticCode.Expected_at_least_0_arguments_but_got_1\r\n : DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, minimum.toString(), numArguments.toString()\r\n );\r\n return false;\r\n }\r\n\r\n // must not be called with more than the maximum arguments\r\n if (numArguments > maximum && !hasRest) {\r\n this.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, maximum.toString(), numArguments.toString()\r\n );\r\n return false;\r\n }\r\n\r\n return true;\r\n }\r\n\r\n /** Compiles a direct call to a concrete function. */\r\n compileCallDirect(\r\n instance: Function,\r\n argumentExpressions: Expression[],\r\n reportNode: Node,\r\n thisArg: ExpressionRef = 0\r\n ): ExpressionRef {\r\n var numArguments = argumentExpressions.length;\r\n var signature = instance.signature;\r\n\r\n if (!this.checkCallSignature( // reports\r\n signature,\r\n numArguments,\r\n thisArg != 0,\r\n reportNode\r\n )) {\r\n return this.module.createUnreachable();\r\n }\r\n\r\n // Inline if explicitly requested\r\n if (instance.hasDecorator(DecoratorFlags.INLINE)) {\r\n assert(!instance.is(CommonFlags.TRAMPOLINE)); // doesn't make sense\r\n if (this.currentInlineFunctions.includes(instance)) {\r\n this.warning(\r\n DiagnosticCode.Function_0_cannot_be_inlined_into_itself,\r\n reportNode.range, instance.internalName\r\n );\r\n } else {\r\n this.currentInlineFunctions.push(instance);\r\n let expr = this.compileCallInlinePrechecked(instance, argumentExpressions, thisArg);\r\n this.currentInlineFunctions.pop();\r\n return expr;\r\n }\r\n }\r\n\r\n // Otherwise compile to just a call\r\n var numArgumentsInclThis = thisArg ? numArguments + 1 : numArguments;\r\n var operands = new Array(numArgumentsInclThis);\r\n var index = 0;\r\n if (thisArg) {\r\n operands[0] = thisArg;\r\n index = 1;\r\n }\r\n var parameterTypes = signature.parameterTypes;\r\n for (let i = 0; i < numArguments; ++i, ++index) {\r\n operands[index] = this.compileExpression(\r\n argumentExpressions[i],\r\n parameterTypes[i],\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n assert(index == numArgumentsInclThis);\r\n return this.makeCallDirect(instance, operands);\r\n }\r\n\r\n // Depends on being pre-checked in compileCallDirect\r\n private compileCallInlinePrechecked(\r\n instance: Function,\r\n argumentExpressions: Expression[],\r\n thisArg: ExpressionRef = 0\r\n ): ExpressionRef {\r\n var module = this.module;\r\n\r\n // Create a new inline flow and use it to compile the function as a block\r\n var previousFlow = this.currentFlow;\r\n var flow = Flow.createInline(previousFlow.parentFunction, instance);\r\n\r\n // Convert provided call arguments to temporary locals. It is important that these are compiled\r\n // here, with their respective locals being blocked. There is no 'makeCallInline'.\r\n var body = [];\r\n\r\n if (thisArg) {\r\n let classInstance = assert(instance.parent); assert(classInstance.kind == ElementKind.CLASS);\r\n let thisType = assert(instance.signature.thisType);\r\n let thisLocal = flow.addScopedLocal(CommonSymbols.this_, thisType, false);\r\n body.push(\r\n module.createSetLocal(thisLocal.index, thisArg)\r\n );\r\n let baseInstance = (classInstance).base;\r\n if (baseInstance) flow.addScopedAlias(CommonSymbols.super_, baseInstance.type, thisLocal.index);\r\n }\r\n\r\n var numArguments = argumentExpressions.length;\r\n var signature = instance.signature;\r\n var parameterTypes = signature.parameterTypes;\r\n for (let i = 0; i < numArguments; ++i) {\r\n let paramExpr = this.compileExpression(\r\n argumentExpressions[i],\r\n parameterTypes[i],\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let argumentLocal = flow.addScopedLocal(\r\n signature.getParameterName(i),\r\n parameterTypes[i],\r\n !previousFlow.canOverflow(paramExpr, parameterTypes[i])\r\n );\r\n body.push(\r\n module.createSetLocal(argumentLocal.index, paramExpr)\r\n );\r\n }\r\n\r\n // Compile optional parameter initializers in the scope of the inlined flow\r\n this.currentFlow = flow;\r\n var numParameters = signature.parameterTypes.length;\r\n for (let i = numArguments; i < numParameters; ++i) {\r\n let initExpr = this.compileExpression(\r\n assert(instance.prototype.signatureNode.parameters[i].initializer),\r\n parameterTypes[i],\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP\r\n );\r\n let argumentLocal = flow.addScopedLocal(\r\n signature.getParameterName(i),\r\n parameterTypes[i],\r\n !flow.canOverflow(initExpr, parameterTypes[i])\r\n );\r\n body.push(\r\n module.createSetLocal(argumentLocal.index, initExpr)\r\n );\r\n }\r\n\r\n // Compile the called function's body in the scope of the inlined flow\r\n {\r\n let stmts = this.compileFunctionBody(instance);\r\n for (let i = 0, k = stmts.length; i < k; ++i) body.push(stmts[i]);\r\n }\r\n\r\n // Free any new scoped locals and reset to the original flow\r\n flow.freeScopedLocals();\r\n var returnType = flow.returnType;\r\n this.currentFlow = previousFlow;\r\n this.currentType = returnType;\r\n\r\n // Create an outer block that we can break to when returning a value out of order\r\n return module.createBlock(flow.inlineReturnLabel, body, returnType.toNativeType());\r\n }\r\n\r\n /** Gets the trampoline for the specified function. */\r\n ensureTrampoline(original: Function): Function {\r\n // A trampoline is a function that takes a fixed amount of operands with some of them possibly\r\n // being zeroed. It takes one additional argument denoting the number of actual operands\r\n // provided to the call, and takes appropriate steps to initialize zeroed operands to their\r\n // default values using the optional parameter initializers of the original function. Doing so\r\n // allows calls to functions with optional parameters to circumvent the trampoline when all\r\n // parameters are provided as a fast route, respectively setting up omitted operands in a proper\r\n // context otherwise.\r\n var trampoline = original.trampoline;\r\n if (trampoline) return trampoline;\r\n\r\n var originalSignature = original.signature;\r\n var originalName = original.internalName;\r\n var originalParameterTypes = originalSignature.parameterTypes;\r\n var originalParameterDeclarations = original.prototype.signatureNode.parameters;\r\n var commonReturnType = originalSignature.returnType;\r\n var commonThisType = originalSignature.thisType;\r\n var isInstance = original.is(CommonFlags.INSTANCE);\r\n\r\n // arguments excl. `this`, operands incl. `this`\r\n var minArguments = originalSignature.requiredParameters;\r\n var minOperands = minArguments;\r\n var maxArguments = originalParameterTypes.length;\r\n var maxOperands = maxArguments;\r\n if (isInstance) {\r\n ++minOperands;\r\n ++maxOperands;\r\n }\r\n var numOptional = assert(maxOperands - minOperands);\r\n\r\n var forwardedOperands = new Array(minOperands);\r\n var operandIndex = 0;\r\n\r\n // forward `this` if applicable\r\n var module = this.module;\r\n if (isInstance) {\r\n forwardedOperands[0] = module.createGetLocal(0, this.options.nativeSizeType);\r\n operandIndex = 1;\r\n }\r\n\r\n // forward required arguments\r\n for (let i = 0; i < minArguments; ++i, ++operandIndex) {\r\n forwardedOperands[operandIndex] = module.createGetLocal(operandIndex, originalParameterTypes[i].toNativeType());\r\n }\r\n assert(operandIndex == minOperands);\r\n\r\n // create the trampoline element\r\n var trampolineSignature = new Signature(originalParameterTypes, commonReturnType, commonThisType);\r\n trampolineSignature.requiredParameters = maxArguments;\r\n trampoline = new Function(\r\n original.name + \"|trampoline\",\r\n original.prototype,\r\n trampolineSignature,\r\n original.contextualTypeArguments\r\n );\r\n trampoline.set(original.flags | CommonFlags.TRAMPOLINE | CommonFlags.COMPILED);\r\n original.trampoline = trampoline;\r\n\r\n // compile initializers of omitted arguments in scope of the trampoline function\r\n // this is necessary because initializers might need additional locals and a proper this context\r\n var previousFlow = this.currentFlow;\r\n this.currentFlow = trampoline.flow;\r\n\r\n // create a br_table switching over the number of optional parameters provided\r\n var numNames = numOptional + 1; // incl. outer block\r\n var names = new Array(numNames);\r\n var ofN = \"of\" + numOptional.toString(10);\r\n for (let i = 0; i < numNames; ++i) {\r\n let label = i.toString(10) + ofN;\r\n names[i] = label;\r\n }\r\n var body = module.createBlock(names[0], [\r\n module.createBlock(\"outOfRange\", [\r\n module.createSwitch(names, \"outOfRange\",\r\n // condition is number of provided optional arguments, so subtract required arguments\r\n minArguments\r\n ? module.createBinary(\r\n BinaryOp.SubI32,\r\n module.createGetGlobal(CompilerSymbols.argc, NativeType.I32),\r\n module.createI32(minArguments)\r\n )\r\n : module.createGetGlobal(CompilerSymbols.argc, NativeType.I32)\r\n )\r\n ]),\r\n module.createUnreachable()\r\n ]);\r\n for (let i = 0; i < numOptional; ++i, ++operandIndex) {\r\n let type = originalParameterTypes[minArguments + i];\r\n let declaration = originalParameterDeclarations[minArguments + i];\r\n let initializer = declaration.initializer;\r\n let initExpr: ExpressionRef;\r\n if (initializer) {\r\n initExpr = module.createSetLocal(operandIndex,\r\n this.compileExpression(\r\n initializer,\r\n type,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP\r\n )\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Optional_parameter_must_have_an_initializer,\r\n declaration.range\r\n );\r\n initExpr = module.createUnreachable();\r\n }\r\n body = module.createBlock(names[i + 1], [\r\n body,\r\n initExpr,\r\n ]);\r\n forwardedOperands[operandIndex] = module.createGetLocal(operandIndex, type.toNativeType());\r\n }\r\n this.currentFlow = previousFlow;\r\n assert(operandIndex == maxOperands);\r\n\r\n var funcRef = module.addFunction(\r\n trampoline.internalName,\r\n this.ensureFunctionType(\r\n trampolineSignature.parameterTypes,\r\n trampolineSignature.returnType,\r\n trampolineSignature.thisType\r\n ),\r\n typesToNativeTypes(trampoline.additionalLocals),\r\n module.createBlock(null, [\r\n body,\r\n module.createCall(\r\n originalName,\r\n forwardedOperands,\r\n commonReturnType.toNativeType()\r\n )\r\n ], commonReturnType.toNativeType())\r\n );\r\n trampoline.finalize(module, funcRef);\r\n return trampoline;\r\n }\r\n\r\n /** Makes sure that the argument count helper global is present and returns its name. */\r\n private ensureArgcVar(): string {\r\n if (!this.argcVar) {\r\n let module = this.module;\r\n this.argcVar = module.addGlobal(\r\n CompilerSymbols.argc,\r\n NativeType.I32,\r\n true,\r\n module.createI32(0)\r\n );\r\n }\r\n return CompilerSymbols.argc;\r\n }\r\n\r\n /** Makes sure that the argument count helper setter is present and returns its name. */\r\n private ensureArgcSet(): string {\r\n var internalName = CompilerSymbols.setargc;\r\n if (!this.argcSet) {\r\n let module = this.module;\r\n this.argcSet = module.addFunction(internalName,\r\n this.ensureFunctionType([ Type.u32 ], Type.void),\r\n null,\r\n module.createSetGlobal(this.ensureArgcVar(),\r\n module.createGetLocal(0, NativeType.I32)\r\n )\r\n );\r\n module.addFunctionExport(internalName, \"_setargc\");\r\n }\r\n return internalName;\r\n }\r\n\r\n /** Creates a direct call to the specified function. */\r\n makeCallDirect(\r\n instance: Function,\r\n operands: ExpressionRef[] | null = null\r\n ): ExpressionRef {\r\n var numOperands = operands ? operands.length : 0;\r\n var numArguments = numOperands;\r\n var minArguments = instance.signature.requiredParameters;\r\n var minOperands = minArguments;\r\n var maxArguments = instance.signature.parameterTypes.length;\r\n var maxOperands = maxArguments;\r\n if (instance.is(CommonFlags.INSTANCE)) {\r\n ++minOperands;\r\n ++maxOperands;\r\n --numArguments;\r\n }\r\n assert(numOperands >= minOperands);\r\n\r\n var module = this.module;\r\n if (!this.compileFunction(instance)) return module.createUnreachable();\r\n var returnType = instance.signature.returnType;\r\n var isCallImport = instance.is(CommonFlags.MODULE_IMPORT);\r\n\r\n // fill up omitted arguments with their initializers, if constant, otherwise with zeroes.\r\n if (numOperands < maxOperands) {\r\n if (!operands) {\r\n operands = new Array(maxOperands);\r\n operands.length = 0;\r\n }\r\n let parameterTypes = instance.signature.parameterTypes;\r\n let parameterNodes = instance.prototype.signatureNode.parameters;\r\n assert(parameterNodes.length == parameterTypes.length);\r\n let allOptionalsAreConstant = true;\r\n for (let i = numArguments; i < maxArguments; ++i) {\r\n let initializer = parameterNodes[i].initializer;\r\n if (!(initializer && nodeIsConstantValue(initializer.kind))) {\r\n allOptionalsAreConstant = false;\r\n break;\r\n }\r\n }\r\n if (allOptionalsAreConstant) { // inline into the call\r\n for (let i = numArguments; i < maxArguments; ++i) {\r\n operands.push(\r\n this.compileExpression(\r\n parameterNodes[i].initializer,\r\n parameterTypes[i],\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n )\r\n );\r\n }\r\n } else { // otherwise fill up with zeroes and call the trampoline\r\n for (let i = numArguments; i < maxArguments; ++i) {\r\n operands.push(parameterTypes[i].toNativeZero(module));\r\n }\r\n if (!isCallImport) {\r\n let original = instance;\r\n instance = this.ensureTrampoline(instance);\r\n if (!this.compileFunction(instance)) return module.createUnreachable();\r\n instance.flow.flags = original.flow.flags;\r\n let nativeReturnType = returnType.toNativeType();\r\n this.currentType = returnType;\r\n return module.createBlock(null, [\r\n module.createSetGlobal(this.ensureArgcVar(), module.createI32(numArguments)),\r\n module.createCall(instance.internalName, operands, nativeReturnType)\r\n ], nativeReturnType);\r\n }\r\n }\r\n }\r\n\r\n // otherwise just call through\r\n this.currentType = returnType;\r\n return module.createCall(instance.internalName, operands, returnType.toNativeType());\r\n }\r\n\r\n /** Compiles an indirect call using an index argument and a signature. */\r\n compileCallIndirect(\r\n signature: Signature,\r\n indexArg: ExpressionRef,\r\n argumentExpressions: Expression[],\r\n reportNode: Node,\r\n thisArg: ExpressionRef = 0\r\n ): ExpressionRef {\r\n var numArguments = argumentExpressions.length;\r\n\r\n if (!this.checkCallSignature( // reports\r\n signature,\r\n numArguments,\r\n thisArg != 0,\r\n reportNode\r\n )) {\r\n return this.module.createUnreachable();\r\n }\r\n\r\n var numArgumentsInclThis = thisArg ? numArguments + 1 : numArguments;\r\n var operands = new Array(numArgumentsInclThis);\r\n var index = 0;\r\n if (thisArg) {\r\n operands[0] = thisArg;\r\n index = 1;\r\n }\r\n var parameterTypes = signature.parameterTypes;\r\n for (let i = 0; i < numArguments; ++i, ++index) {\r\n operands[index] = this.compileExpression(\r\n argumentExpressions[i],\r\n parameterTypes[i],\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n assert(index == numArgumentsInclThis);\r\n return this.makeCallIndirect(signature, indexArg, operands);\r\n }\r\n\r\n /** Creates an indirect call to the function at `indexArg` in the function table. */\r\n makeCallIndirect(\r\n signature: Signature,\r\n indexArg: ExpressionRef,\r\n operands: ExpressionRef[] | null = null\r\n ): ExpressionRef {\r\n var numOperands = operands ? operands.length : 0;\r\n var numArguments = numOperands;\r\n var minArguments = signature.requiredParameters;\r\n var minOperands = minArguments;\r\n var maxArguments = signature.parameterTypes.length;\r\n var maxOperands = maxArguments;\r\n if (signature.thisType) {\r\n ++minOperands;\r\n ++maxOperands;\r\n --numArguments;\r\n }\r\n assert(numOperands >= minOperands);\r\n\r\n this.ensureFunctionType(signature.parameterTypes, signature.returnType, signature.thisType);\r\n var module = this.module;\r\n\r\n // fill up omitted arguments with zeroes\r\n if (numOperands < maxOperands) {\r\n if (!operands) {\r\n operands = new Array(maxOperands);\r\n operands.length = 0;\r\n }\r\n let parameterTypes = signature.parameterTypes;\r\n for (let i = numArguments; i < maxArguments; ++i) {\r\n operands.push(parameterTypes[i].toNativeZero(module));\r\n }\r\n }\r\n\r\n var returnType = signature.returnType;\r\n this.currentType = returnType;\r\n return module.createBlock(null, [\r\n module.createSetGlobal(this.ensureArgcVar(), // might still be calling a trampoline\r\n module.createI32(numArguments)\r\n ),\r\n module.createCallIndirect(indexArg, operands, signature.toSignatureString())\r\n ], returnType.toNativeType()); // not necessarily wrapped\r\n }\r\n\r\n compileCommaExpression(expression: CommaExpression, contextualType: Type): ExpressionRef {\r\n var expressions = expression.expressions;\r\n var numExpressions = expressions.length;\r\n var exprs = new Array(numExpressions--);\r\n for (let i = 0; i < numExpressions; ++i) {\r\n exprs[i] = this.compileExpression(\r\n expressions[i],\r\n Type.void, // drop all\r\n ConversionKind.EXPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n exprs[numExpressions] = this.compileExpression(\r\n expressions[numExpressions],\r\n contextualType, // except last\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n return this.module.createBlock(null, exprs, this.currentType.toNativeType());\r\n }\r\n\r\n compileElementAccessExpression(expression: ElementAccessExpression, contextualType: Type): ExpressionRef {\r\n var target = this.resolver.resolveElementAccessExpression(\r\n expression,\r\n this.currentFlow,\r\n contextualType\r\n ); // reports\r\n if (!target) return this.module.createUnreachable();\r\n switch (target.kind) {\r\n case ElementKind.CLASS: {\r\n let isUnchecked = this.currentFlow.is(FlowFlags.UNCHECKED_CONTEXT);\r\n let indexedGet = (target).lookupOverload(OperatorKind.INDEXED_GET, isUnchecked);\r\n if (!indexedGet) {\r\n this.error(\r\n DiagnosticCode.Index_signature_is_missing_in_type_0,\r\n expression.expression.range, (target).internalName\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n let thisArg = this.compileExpression(\r\n expression.expression,\r\n (target).type,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n return this.compileCallDirect(indexedGet, [\r\n expression.elementExpression\r\n ], expression, thisArg);\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n compileFunctionExpression(\r\n expression: FunctionExpression,\r\n contextualSignature: Signature | null\r\n ): ExpressionRef {\r\n var declaration = expression.declaration.clone(); // generic contexts can have multiple\r\n assert(!declaration.typeParameters); // function expression cannot be generic\r\n var flow = this.currentFlow;\r\n var actualFunction = flow.actualFunction;\r\n var prototype = new FunctionPrototype(\r\n declaration.name.text.length\r\n ? declaration.name.text\r\n : \"anonymous|\" + (actualFunction.nextAnonymousId++).toString(10),\r\n actualFunction,\r\n declaration,\r\n DecoratorFlags.NONE\r\n );\r\n var instance: Function | null;\r\n var contextualTypeArguments = makeMap(flow.contextualTypeArguments);\r\n\r\n // compile according to context. this differs from a normal function in that omitted parameter\r\n // and return types can be inferred and omitted arguments can be replaced with dummies.\r\n if (contextualSignature) {\r\n let signatureNode = prototype.signatureNode;\r\n let parameterNodes = signatureNode.parameters;\r\n let numPresentParameters = parameterNodes.length;\r\n\r\n // must not require more than the maximum number of parameters\r\n let parameterTypes = contextualSignature.parameterTypes;\r\n let numParameters = parameterTypes.length;\r\n if (numPresentParameters > numParameters) {\r\n this.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n expression.range, numParameters.toString(), numPresentParameters.toString()\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n // check non-omitted parameter types\r\n let parameterNames = new Array(numPresentParameters);\r\n for (let i = 0; i < numPresentParameters; ++i) {\r\n let parameterNode = parameterNodes[i];\r\n parameterNames[i] = parameterNode.name.text; // use actual name\r\n if (!isTypeOmitted(parameterNode.type)) {\r\n let resolvedType = this.resolver.resolveType(\r\n parameterNode.type,\r\n actualFunction.parent,\r\n contextualTypeArguments\r\n );\r\n if (!resolvedType) return this.module.createUnreachable();\r\n if (!parameterTypes[i].isStrictlyAssignableTo(resolvedType)) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n parameterNode.range, parameterTypes[i].toString(), resolvedType.toString()\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n }\r\n // any unused parameters are inherited but ignored\r\n }\r\n\r\n // check non-omitted return type\r\n let returnType = contextualSignature.returnType;\r\n if (!isTypeOmitted(signatureNode.returnType)) {\r\n let resolvedType = this.resolver.resolveType(\r\n signatureNode.returnType,\r\n actualFunction.parent,\r\n contextualTypeArguments\r\n );\r\n if (!resolvedType) return this.module.createUnreachable();\r\n if (\r\n returnType == Type.void\r\n ? resolvedType != Type.void\r\n : !resolvedType.isStrictlyAssignableTo(returnType)\r\n ) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n signatureNode.returnType.range, resolvedType.toString(), returnType.toString()\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n }\r\n\r\n // check explicit this type\r\n let thisType = contextualSignature.thisType;\r\n let thisTypeNode = signatureNode.explicitThisType;\r\n if (thisTypeNode) {\r\n if (!thisType) {\r\n this.error(\r\n DiagnosticCode._this_cannot_be_referenced_in_current_location,\r\n thisTypeNode.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n let resolvedType = this.resolver.resolveType(\r\n thisTypeNode,\r\n actualFunction.parent,\r\n contextualTypeArguments\r\n );\r\n if (!resolvedType) return this.module.createUnreachable();\r\n if (!thisType.isStrictlyAssignableTo(resolvedType)) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n thisTypeNode.range, thisType.toString(), resolvedType.toString()\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n }\r\n\r\n let signature = new Signature(parameterTypes, returnType, thisType);\r\n signature.requiredParameters = numParameters; // !\r\n signature.parameterNames = parameterNames;\r\n instance = new Function(\r\n prototype.name,\r\n prototype,\r\n signature,\r\n contextualTypeArguments\r\n );\r\n if (!this.compileFunction(instance)) return this.module.createUnreachable();\r\n this.currentType = contextualSignature.type;\r\n\r\n // otherwise compile like a normal function\r\n } else {\r\n instance = this.compileFunctionUsingTypeArguments(\r\n prototype,\r\n [],\r\n contextualTypeArguments\r\n );\r\n if (!instance) return this.module.createUnreachable();\r\n this.currentType = instance.signature.type;\r\n }\r\n\r\n var index = this.ensureFunctionTableEntry(instance); // reports\r\n return index < 0\r\n ? this.module.createUnreachable()\r\n : this.module.createI32(index);\r\n }\r\n\r\n /** Makes sure the enclosing source file of the specified expression has been compiled. */\r\n private maybeCompileEnclosingSource(expression: Expression): void {\r\n var internalPath = expression.range.source.internalPath;\r\n var filesByName = this.program.filesByName;\r\n assert(filesByName.has(internalPath));\r\n var enclosingFile = filesByName.get(internalPath)!;\r\n if (!enclosingFile.is(CommonFlags.COMPILED)) {\r\n this.compileFileByPath(internalPath, expression);\r\n }\r\n }\r\n\r\n /**\r\n * Compiles an identifier in the specified context.\r\n * @param retainConstantType Retains the type of inlined constants if `true`, otherwise\r\n * precomputes them according to context.\r\n */\r\n compileIdentifierExpression(\r\n expression: IdentifierExpression,\r\n contextualType: Type,\r\n retainConstantType: bool\r\n ): ExpressionRef {\r\n var module = this.module;\r\n var flow = this.currentFlow;\r\n var actualFunction = flow.actualFunction;\r\n\r\n // check special keywords first\r\n switch (expression.kind) {\r\n case NodeKind.NULL: {\r\n let options = this.options;\r\n if (!contextualType.classReference) {\r\n this.currentType = options.usizeType;\r\n }\r\n return options.isWasm64\r\n ? module.createI64(0)\r\n : module.createI32(0);\r\n }\r\n case NodeKind.TRUE: {\r\n this.currentType = Type.bool;\r\n return module.createI32(1);\r\n }\r\n case NodeKind.FALSE: {\r\n this.currentType = Type.bool;\r\n return module.createI32(0);\r\n }\r\n case NodeKind.THIS: {\r\n if (actualFunction.is(CommonFlags.INSTANCE)) {\r\n let thisLocal = assert(flow.lookupLocal(CommonSymbols.this_));\r\n let classInstance = assert(actualFunction.parent); assert(classInstance.kind == ElementKind.CLASS);\r\n let nativeSizeType = this.options.nativeSizeType;\r\n if (actualFunction.is(CommonFlags.CONSTRUCTOR)) {\r\n if (!flow.is(FlowFlags.ALLOCATES)) {\r\n flow.set(FlowFlags.ALLOCATES);\r\n // {\r\n // if (!this) this = \r\n // this.a = X\r\n // this.b = Y\r\n // return this\r\n // }\r\n let stmts: ExpressionRef[] = [\r\n module.createIf(\r\n module.createUnary(nativeSizeType == NativeType.I64 ? UnaryOp.EqzI64 : UnaryOp.EqzI32,\r\n module.createGetLocal(thisLocal.index, nativeSizeType)\r\n ),\r\n module.createSetLocal(thisLocal.index,\r\n this.makeAllocation(classInstance)\r\n )\r\n )\r\n ];\r\n this.makeFieldInitialization(classInstance, stmts);\r\n stmts.push(\r\n module.createGetLocal(thisLocal.index, nativeSizeType)\r\n );\r\n this.currentType = thisLocal.type;\r\n return module.createBlock(null, stmts, nativeSizeType);\r\n }\r\n }\r\n // if not a constructor, `this` type can differ\r\n let thisType = assert(actualFunction.signature.thisType);\r\n this.currentType = thisType;\r\n return module.createGetLocal(thisLocal.index, thisType.toNativeType());\r\n }\r\n this.error(\r\n DiagnosticCode._this_cannot_be_referenced_in_current_location,\r\n expression.range\r\n );\r\n this.currentType = this.options.usizeType;\r\n return module.createUnreachable();\r\n }\r\n case NodeKind.SUPER: {\r\n let flow = this.currentFlow;\r\n let actualFunction = flow.actualFunction;\r\n if (actualFunction.is(CommonFlags.CONSTRUCTOR)) {\r\n if (!flow.is(FlowFlags.CALLS_SUPER)) {\r\n // TS1034 in the parser effectively limits this to property accesses\r\n this.error(\r\n DiagnosticCode._super_must_be_called_before_accessing_a_property_of_super_in_the_constructor_of_a_derived_class,\r\n expression.range\r\n );\r\n }\r\n }\r\n if (flow.is(FlowFlags.INLINE_CONTEXT)) {\r\n let scopedThis = flow.lookupLocal(CommonSymbols.this_);\r\n if (scopedThis) {\r\n let scopedThisClass = assert(scopedThis.type.classReference);\r\n let base = scopedThisClass.base;\r\n if (base) {\r\n this.currentType = base.type;\r\n return module.createGetLocal(scopedThis.index, base.type.toNativeType());\r\n }\r\n }\r\n }\r\n if (actualFunction.is(CommonFlags.INSTANCE)) {\r\n let classInstance = assert(actualFunction.parent); assert(classInstance.kind == ElementKind.CLASS);\r\n let baseClassInstance = (classInstance).base;\r\n if (baseClassInstance) {\r\n let superType = baseClassInstance.type;\r\n this.currentType = superType;\r\n return module.createGetLocal(0, superType.toNativeType());\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode._super_can_only_be_referenced_in_a_derived_class,\r\n expression.range\r\n );\r\n this.currentType = this.options.usizeType;\r\n return module.createUnreachable();\r\n }\r\n }\r\n\r\n this.maybeCompileEnclosingSource(expression);\r\n\r\n // otherwise resolve\r\n var target = this.resolver.resolveIdentifier( // reports\r\n expression,\r\n flow,\r\n this.currentEnum || actualFunction\r\n );\r\n if (!target) return module.createUnreachable();\r\n\r\n switch (target.kind) {\r\n case ElementKind.LOCAL: {\r\n let localType = (target).type;\r\n assert(localType != Type.void);\r\n if ((target).is(CommonFlags.INLINED)) {\r\n return this.compileInlineConstant(target, contextualType, retainConstantType);\r\n }\r\n let localIndex = (target).index;\r\n assert(localIndex >= 0);\r\n this.currentType = localType;\r\n return this.module.createGetLocal(localIndex, localType.toNativeType());\r\n }\r\n case ElementKind.GLOBAL: {\r\n if (!this.compileGlobal(target)) { // reports; not yet compiled if a static field\r\n return this.module.createUnreachable();\r\n }\r\n let globalType = (target).type;\r\n assert(globalType != Type.void);\r\n if ((target).is(CommonFlags.INLINED)) {\r\n return this.compileInlineConstant(target, contextualType, retainConstantType);\r\n }\r\n this.currentType = globalType;\r\n return this.module.createGetGlobal((target).internalName, globalType.toNativeType());\r\n }\r\n case ElementKind.ENUMVALUE: { // here: if referenced from within the same enum\r\n if (!target.is(CommonFlags.COMPILED)) {\r\n this.error(\r\n DiagnosticCode.A_member_initializer_in_a_enum_declaration_cannot_reference_members_declared_after_it_including_members_defined_in_other_enums,\r\n expression.range\r\n );\r\n this.currentType = Type.i32;\r\n return this.module.createUnreachable();\r\n }\r\n this.currentType = Type.i32;\r\n if ((target).is(CommonFlags.INLINED)) {\r\n assert((target).constantValueKind == ConstantValueKind.INTEGER);\r\n return this.module.createI32(i64_low((target).constantIntegerValue));\r\n }\r\n return this.module.createGetGlobal((target).internalName, NativeType.I32);\r\n }\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n let instance = this.resolver.resolveFunction(\r\n target,\r\n null,\r\n makeMap(flow.contextualTypeArguments)\r\n );\r\n if (!(instance && this.compileFunction(instance))) return module.createUnreachable();\r\n let index = this.ensureFunctionTableEntry(instance);\r\n this.currentType = instance.signature.type;\r\n return this.module.createI32(index);\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n compileInstanceOfExpression(\r\n expression: InstanceOfExpression,\r\n contextualType: Type\r\n ): ExpressionRef {\r\n var module = this.module;\r\n // NOTE that this differs from TypeScript in that the rhs is a type, not an expression. at the\r\n // time of implementation, this seemed more useful because dynamic rhs expressions are not\r\n // possible in AS anyway.\r\n var expr = this.compileExpressionRetainType(expression.expression, this.options.usizeType, WrapMode.NONE);\r\n var actualType = this.currentType;\r\n var expectedType = this.resolver.resolveType(\r\n expression.isType,\r\n this.currentFlow.actualFunction\r\n );\r\n this.currentType = Type.bool;\r\n if (!expectedType) return module.createUnreachable();\r\n\r\n // instanceof must be exact\r\n if (!expectedType.is(TypeFlags.REFERENCE)) {\r\n return module.createI32(actualType == expectedType ? 1 : 0);\r\n }\r\n // instanceof must be != 0\r\n if (\r\n actualType.is(TypeFlags.NULLABLE) && !expectedType.is(TypeFlags.NULLABLE) &&\r\n actualType.nonNullableType.isAssignableTo(expectedType)\r\n ) {\r\n return module.createBinary(\r\n actualType.is(TypeFlags.LONG)\r\n ? BinaryOp.NeI64\r\n : BinaryOp.NeI32,\r\n expr,\r\n actualType.toNativeZero(module)\r\n );\r\n }\r\n return module.createI32(actualType.isAssignableTo(expectedType) ? 1 : 0);\r\n }\r\n\r\n compileLiteralExpression(\r\n expression: LiteralExpression,\r\n contextualType: Type,\r\n implicitNegate: bool = false\r\n ): ExpressionRef {\r\n var module = this.module;\r\n switch (expression.literalKind) {\r\n case LiteralKind.ARRAY: {\r\n assert(!implicitNegate);\r\n let classType = contextualType.classReference;\r\n if (\r\n classType &&\r\n classType.prototype == this.program.arrayPrototype\r\n ) {\r\n return this.compileArrayLiteral(\r\n assert(classType.typeArguments)[0],\r\n (expression).elementExpressions,\r\n false, // TODO: isConst?\r\n expression\r\n );\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n case LiteralKind.FLOAT: {\r\n let floatValue = (expression).value;\r\n if (implicitNegate) {\r\n floatValue = -floatValue;\r\n }\r\n if (contextualType == Type.f32) {\r\n return module.createF32(floatValue);\r\n }\r\n this.currentType = Type.f64;\r\n return module.createF64(floatValue);\r\n }\r\n case LiteralKind.INTEGER: {\r\n let intValue = (expression).value;\r\n if (implicitNegate) {\r\n intValue = i64_sub(\r\n i64_new(0),\r\n intValue\r\n );\r\n }\r\n let type = this.resolver.determineIntegerLiteralType(intValue, contextualType);\r\n this.currentType = type;\r\n switch (type.kind) {\r\n case TypeKind.ISIZE: if (!this.options.isWasm64) return module.createI32(i64_low(intValue));\r\n case TypeKind.I64: return module.createI64(i64_low(intValue), i64_high(intValue));\r\n case TypeKind.USIZE: if (!this.options.isWasm64) return module.createI32(i64_low(intValue));\r\n case TypeKind.U64: return module.createI64(i64_low(intValue), i64_high(intValue));\r\n case TypeKind.F32: return module.createF32(i64_to_f32(intValue));\r\n case TypeKind.F64: return module.createF64(i64_to_f64(intValue));\r\n default: return module.createI32(i64_low(intValue));\r\n }\r\n }\r\n case LiteralKind.STRING: {\r\n assert(!implicitNegate);\r\n return this.compileStringLiteral(expression);\r\n }\r\n case LiteralKind.OBJECT: {\r\n assert(!implicitNegate);\r\n return this.compileObjectLiteral(expression, contextualType);\r\n }\r\n // case LiteralKind.REGEXP:\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n\r\n /** Ensures that the specified string exists in static memory and returns a pointer to it. */\r\n ensureStaticString(stringValue: string): ExpressionRef {\r\n var program = this.program;\r\n var hasGC = program.hasGC;\r\n var gcHeaderSize = program.gcHeaderSize;\r\n\r\n var stringInstance = assert(program.stringInstance);\r\n var stringSegment: MemorySegment;\r\n\r\n // if the string already exists, reuse it\r\n var segments = this.stringSegments;\r\n if (segments.has(stringValue)) {\r\n stringSegment = segments.get(stringValue);\r\n\r\n // otherwise create it\r\n } else {\r\n let length = stringValue.length;\r\n let headerSize = (stringInstance.currentMemoryOffset + 1) & ~1;\r\n let totalSize = headerSize + length * 2;\r\n\r\n let buf: Uint8Array;\r\n let pos: u32;\r\n\r\n if (hasGC) {\r\n buf = new Uint8Array(gcHeaderSize + totalSize);\r\n pos = gcHeaderSize;\r\n writeI32(ensureGCHook(this, stringInstance), buf, program.gcHookOffset);\r\n } else {\r\n buf = new Uint8Array(totalSize);\r\n pos = 0;\r\n }\r\n writeI32(length, buf, pos + stringInstance.offsetof(LibrarySymbols.length));\r\n pos += headerSize;\r\n for (let i = 0; i < length; ++i) {\r\n writeI16(stringValue.charCodeAt(i), buf, pos + (i << 1));\r\n }\r\n stringSegment = this.addMemorySegment(buf);\r\n segments.set(stringValue, stringSegment);\r\n }\r\n var stringOffset = stringSegment.offset;\r\n if (hasGC) stringOffset = i64_add(stringOffset, i64_new(gcHeaderSize));\r\n\r\n this.currentType = stringInstance.type;\r\n if (this.options.isWasm64) {\r\n return this.module.createI64(i64_low(stringOffset), i64_high(stringOffset));\r\n } else {\r\n assert(i64_is_u32(stringOffset));\r\n return this.module.createI32(i64_low(stringOffset));\r\n }\r\n }\r\n\r\n compileStringLiteral(expression: StringLiteralExpression): ExpressionRef {\r\n return this.ensureStaticString(expression.value);\r\n }\r\n\r\n /** Ensures that the specified array exists in static memory and returns a pointer to it. */\r\n ensureStaticArray(elementType: Type, values: ExpressionRef[]): ExpressionRef {\r\n var program = this.program;\r\n var hasGC = program.hasGC;\r\n var gcHeaderSize = program.gcHeaderSize;\r\n\r\n var length = values.length;\r\n var byteSize = elementType.byteSize;\r\n var byteLength = length * byteSize;\r\n var usizeTypeSize = this.options.usizeType.byteSize;\r\n\r\n var buf: Uint8Array;\r\n var pos: u32;\r\n\r\n // create the backing ArrayBuffer segment\r\n var bufferInstance = assert(program.arrayBufferInstance);\r\n var bufferHeaderSize = (bufferInstance.currentMemoryOffset + 7) & ~7;\r\n var bufferTotalSize = 1 << (32 - clz(bufferHeaderSize + byteLength - 1));\r\n if (hasGC) {\r\n buf = new Uint8Array(gcHeaderSize + bufferTotalSize);\r\n pos = gcHeaderSize;\r\n writeI32(ensureGCHook(this, bufferInstance), buf, program.gcHookOffset);\r\n } else {\r\n buf = new Uint8Array(bufferTotalSize);\r\n pos = 0;\r\n }\r\n writeI32(byteLength, buf, pos + bufferInstance.offsetof(LibrarySymbols.byteLength));\r\n pos += bufferHeaderSize;\r\n var nativeType = elementType.toNativeType();\r\n switch (nativeType) {\r\n case NativeType.I32: {\r\n switch (byteSize) {\r\n case 1: {\r\n for (let i = 0; i < length; ++i) {\r\n let value = values[i];\r\n assert(getExpressionType(value) == nativeType);\r\n assert(getExpressionId(value) == ExpressionId.Const);\r\n writeI8(getConstValueI32(value), buf, pos);\r\n pos += 1;\r\n }\r\n break;\r\n }\r\n case 2: {\r\n for (let i = 0; i < length; ++i) {\r\n let value = values[i];\r\n assert(getExpressionType(value) == nativeType);\r\n assert(getExpressionId(value) == ExpressionId.Const);\r\n writeI16(getConstValueI32(value), buf, pos);\r\n pos += 2;\r\n }\r\n break;\r\n }\r\n case 4: {\r\n for (let i = 0; i < length; ++i) {\r\n let value = values[i];\r\n assert(getExpressionType(value) == nativeType);\r\n assert(getExpressionId(value) == ExpressionId.Const);\r\n writeI32(getConstValueI32(value), buf, pos);\r\n pos += 4;\r\n }\r\n break;\r\n }\r\n default: assert(false);\r\n }\r\n break;\r\n }\r\n case NativeType.I64: {\r\n for (let i = 0; i < length; ++i) {\r\n let value = values[i];\r\n assert(getExpressionType(value) == nativeType);\r\n assert(getExpressionId(value) == ExpressionId.Const);\r\n writeI64(i64_new(getConstValueI64Low(value), getConstValueI64High(value)), buf, pos);\r\n pos += 8;\r\n }\r\n break;\r\n }\r\n case NativeType.F32: {\r\n for (let i = 0; i < length; ++i) {\r\n let value = values[i];\r\n assert(getExpressionType(value) == nativeType);\r\n assert(getExpressionId(value) == ExpressionId.Const);\r\n writeF32(getConstValueF32(value), buf, pos);\r\n pos += 4;\r\n }\r\n break;\r\n }\r\n case NativeType.F64: {\r\n for (let i = 0; i < length; ++i) {\r\n let value = values[i];\r\n assert(getExpressionType(value) == nativeType);\r\n assert(getExpressionId(value) == ExpressionId.Const);\r\n writeF64(getConstValueF64(value), buf, pos);\r\n pos += 8;\r\n }\r\n break;\r\n }\r\n default: assert(false);\r\n }\r\n var bufferSegment = this.addMemorySegment(buf);\r\n var bufferOffset = bufferSegment.offset;\r\n if (hasGC) bufferOffset = i64_add(bufferOffset, i64_new(gcHeaderSize));\r\n\r\n // create the Array segment and return a pointer to it\r\n var arrayPrototype = assert(program.arrayPrototype);\r\n var arrayInstance = assert(this.resolver.resolveClass(\r\n arrayPrototype,\r\n [ elementType ],\r\n makeMap()\r\n ));\r\n var arrayHeaderSize = (arrayInstance.currentMemoryOffset + 7) & ~7;\r\n if (hasGC) {\r\n buf = new Uint8Array(gcHeaderSize + arrayHeaderSize);\r\n pos = gcHeaderSize;\r\n writeI32(ensureGCHook(this, arrayInstance), buf, program.gcHookOffset);\r\n } else {\r\n buf = new Uint8Array(arrayHeaderSize);\r\n pos = 0;\r\n }\r\n var arraySegment = this.addMemorySegment(buf);\r\n var arrayOffset = arraySegment.offset;\r\n if (hasGC) arrayOffset = i64_add(arrayOffset, i64_new(gcHeaderSize));\r\n this.currentType = arrayInstance.type;\r\n var buffer_offset = pos + arrayInstance.offsetof(\"buffer_\");\r\n var length_offset = pos + arrayInstance.offsetof(\"length_\");\r\n if (usizeTypeSize == 8) {\r\n writeI64(bufferOffset, buf, buffer_offset);\r\n writeI32(length, buf, length_offset);\r\n return this.module.createI64(i64_low(arrayOffset), i64_high(arrayOffset));\r\n } else {\r\n assert(i64_is_u32(bufferOffset));\r\n writeI32(i64_low(bufferOffset), buf, buffer_offset);\r\n writeI32(length, buf, length_offset);\r\n assert(i64_is_u32(arrayOffset));\r\n return this.module.createI32(i64_low(arrayOffset));\r\n }\r\n }\r\n\r\n compileArrayLiteral(\r\n elementType: Type,\r\n expressions: (Expression | null)[],\r\n isConst: bool,\r\n reportNode: Node\r\n ): ExpressionRef {\r\n var module = this.module;\r\n\r\n // find out whether all elements are constant (array is static)\r\n var length = expressions.length;\r\n var compiledValues = new Array(length);\r\n var constantValues = new Array(length);\r\n var nativeElementType = elementType.toNativeType();\r\n var isStatic = true;\r\n for (let i = 0; i < length; ++i) {\r\n let expression = expressions[i];\r\n let expr = expression\r\n ? this.compileExpression(expression, elementType, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n : elementType.toNativeZero(module);\r\n compiledValues[i] = expr;\r\n if (isStatic) {\r\n expr = module.precomputeExpression(expr);\r\n if (getExpressionId(expr) == ExpressionId.Const) {\r\n assert(getExpressionType(expr) == nativeElementType);\r\n constantValues[i] = expr;\r\n } else {\r\n if (isConst) {\r\n this.warning(\r\n DiagnosticCode.Compiling_constant_with_non_constant_initializer_as_mutable,\r\n reportNode.range\r\n );\r\n }\r\n isStatic = false;\r\n }\r\n }\r\n }\r\n\r\n // make a static array if possible\r\n if (isStatic) return this.ensureStaticArray(elementType, constantValues);\r\n\r\n // otherwise obtain the array type\r\n var arrayPrototype = assert(this.program.arrayPrototype);\r\n var arrayInstance = assert(this.resolver.resolveClass(\r\n arrayPrototype,\r\n [ elementType ],\r\n makeMap()\r\n ));\r\n var arrayType = arrayInstance.type;\r\n\r\n // and compile an explicit instantiation\r\n this.currentType = arrayType;\r\n var setter = arrayInstance.lookupOverload(OperatorKind.INDEXED_SET, true);\r\n if (!setter) {\r\n this.error(\r\n DiagnosticCode.Index_signature_in_type_0_only_permits_reading,\r\n reportNode.range, arrayInstance.internalName\r\n );\r\n return module.createUnreachable();\r\n }\r\n var nativeArrayType = arrayType.toNativeType();\r\n var flow = this.currentFlow;\r\n var tempLocal = flow.parentFunction.addLocal(arrayType); // can't reuse a temp (used in compiledValues)\r\n var stmts = new Array(2 + length);\r\n var index = 0;\r\n stmts[index++] = module.createSetLocal(tempLocal.index,\r\n this.makeCallDirect(assert(arrayInstance.constructorInstance), [\r\n module.createI32(0), // this\r\n module.createI32(length)\r\n ])\r\n );\r\n for (let i = 0; i < length; ++i) {\r\n stmts[index++] = this.makeCallDirect(setter, [\r\n module.createGetLocal(tempLocal.index, nativeArrayType), // this\r\n module.createI32(i),\r\n compiledValues[i]\r\n ]);\r\n }\r\n assert(index + 1 == stmts.length);\r\n stmts[index] = module.createGetLocal(tempLocal.index, nativeArrayType);\r\n flow.freeTempLocal(tempLocal); // but can be reused now\r\n this.currentType = arrayType;\r\n return module.createBlock(null, stmts, nativeArrayType);\r\n }\r\n\r\n compileObjectLiteral(expression: ObjectLiteralExpression, contextualType: Type): ExpressionRef {\r\n var module = this.module;\r\n\r\n // contextual type must be a class\r\n var classReference = contextualType.classReference;\r\n if (!classReference || classReference.is(CommonFlags.ABSTRACT)) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n expression.range, \"\", contextualType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n\r\n // if present, check that the constructor is compatible with object literals\r\n var ctor = classReference.constructorInstance;\r\n if (ctor) {\r\n // TODO: if the constructor requires parameters, check whether these are given as part of the\r\n // object literal and use them to call the ctor while not generating a store.\r\n if (ctor.signature.requiredParameters) {\r\n this.error(\r\n DiagnosticCode.Constructor_of_class_0_must_not_require_any_arguments,\r\n expression.range, classReference.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (ctor.is(CommonFlags.PRIVATE)) {\r\n this.error(\r\n DiagnosticCode.Constructor_of_class_0_is_private_and_only_accessible_within_the_class_declaration,\r\n expression.range, classReference.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (ctor.is(CommonFlags.PROTECTED)) {\r\n this.error(\r\n DiagnosticCode.Constructor_of_class_0_is_protected_and_only_accessible_within_the_class_declaration,\r\n expression.range, classReference.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n\r\n // check and compile field values\r\n var names = expression.names;\r\n var numNames = names.length;\r\n var values = expression.values;\r\n var members = classReference.members;\r\n var hasErrors = false;\r\n var exprs = new Array(numNames + 2);\r\n var flow = this.currentFlow;\r\n var tempLocal = flow.getTempLocal(this.options.usizeType);\r\n assert(numNames == values.length);\r\n for (let i = 0, k = numNames; i < k; ++i) {\r\n let member = members ? members.get(names[i].text) : null;\r\n if (!member || member.kind != ElementKind.FIELD) {\r\n this.error(\r\n DiagnosticCode.Property_0_does_not_exist_on_type_1,\r\n names[i].range, names[i].text, classReference.toString()\r\n );\r\n hasErrors = true;\r\n continue;\r\n }\r\n let type = (member).type;\r\n exprs[i + 1] = this.module.createStore( // TODO: handle setters as well\r\n type.byteSize,\r\n this.module.createGetLocal(tempLocal.index, this.options.nativeSizeType),\r\n this.compileExpression(values[i], (member).type, ConversionKind.IMPLICIT, WrapMode.NONE),\r\n type.toNativeType(),\r\n (member).memoryOffset\r\n );\r\n }\r\n this.currentType = classReference.type.nonNullableType;\r\n if (hasErrors) return module.createUnreachable();\r\n\r\n // allocate a new instance first and assign 'this' to the temp. local\r\n exprs[0] = module.createSetLocal(\r\n tempLocal.index,\r\n this.makeAllocation(classReference)\r\n );\r\n\r\n // once all field values have been set, return 'this'\r\n exprs[exprs.length - 1] = module.createGetLocal(tempLocal.index, this.options.nativeSizeType);\r\n\r\n return module.createBlock(null, exprs, this.options.nativeSizeType);\r\n }\r\n\r\n compileNewExpression(expression: NewExpression, contextualType: Type): ExpressionRef {\r\n var module = this.module;\r\n var flow = this.currentFlow;\r\n\r\n // obtain the class being instantiated\r\n var target = this.resolver.resolveExpression( // reports\r\n expression.expression,\r\n flow\r\n );\r\n if (!target) return module.createUnreachable();\r\n if (target.kind != ElementKind.CLASS_PROTOTYPE) {\r\n this.error(\r\n DiagnosticCode.Cannot_use_new_with_an_expression_whose_type_lacks_a_construct_signature,\r\n expression.expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n var classPrototype = target;\r\n var classInstance: Class | null = null;\r\n var typeArguments = expression.typeArguments;\r\n var classReference: Class | null;\r\n if (\r\n !typeArguments &&\r\n (classReference = contextualType.classReference) !== null &&\r\n classReference.is(CommonFlags.GENERIC)\r\n ) {\r\n classInstance = this.resolver.resolveClass(\r\n classPrototype,\r\n classReference.typeArguments,\r\n makeMap(flow.contextualTypeArguments)\r\n );\r\n } else {\r\n classInstance = this.resolver.resolveClassInclTypeArguments(\r\n classPrototype,\r\n typeArguments,\r\n flow.actualFunction.parent, // relative to caller\r\n makeMap(flow.contextualTypeArguments),\r\n expression\r\n );\r\n }\r\n if (!classInstance) return module.createUnreachable();\r\n return this.compileInstantiate(classInstance, expression.arguments, expression);\r\n }\r\n\r\n /** Gets the compiled constructor of the specified class or generates one if none is present. */\r\n ensureConstructor(classInstance: Class, reportNode: Node): Function {\r\n var instance = classInstance.constructorInstance;\r\n if (instance) {\r\n // do not attempt to compile it if inlined anyway\r\n if (!instance.hasDecorator(DecoratorFlags.INLINE)) this.compileFunction(instance);\r\n return instance;\r\n }\r\n\r\n // clone base constructor if a derived class\r\n var baseClass = classInstance.base;\r\n if (baseClass) {\r\n let baseCtor = this.ensureConstructor(baseClass, reportNode);\r\n instance = new Function(\r\n CommonSymbols.constructor,\r\n new FunctionPrototype(\r\n CommonSymbols.constructor,\r\n classInstance,\r\n // declaration is important, i.e. to access optional parameter initializers\r\n (baseCtor.declaration).clone()\r\n ),\r\n baseCtor.signature,\r\n null\r\n );\r\n\r\n // otherwise make a default constructor\r\n } else {\r\n instance = new Function(\r\n CommonSymbols.constructor,\r\n new FunctionPrototype(\r\n CommonSymbols.constructor,\r\n classInstance,\r\n this.program.makeNativeFunctionDeclaration(CommonSymbols.constructor,\r\n CommonFlags.INSTANCE | CommonFlags.CONSTRUCTOR\r\n )\r\n ),\r\n new Signature(null, classInstance.type, classInstance.type),\r\n null\r\n );\r\n }\r\n\r\n instance.internalName = classInstance.internalName + INSTANCE_DELIMITER + \"constructor\";\r\n instance.set(CommonFlags.COMPILED);\r\n instance.prototype.setResolvedInstance(\"\", instance);\r\n classInstance.constructorInstance = instance;\r\n var previousFlow = this.currentFlow;\r\n this.currentFlow = instance.flow;\r\n\r\n // generate body\r\n var signature = instance.signature;\r\n var module = this.module;\r\n var nativeSizeType = this.options.nativeSizeType;\r\n var stmts = new Array();\r\n\r\n // {\r\n // if (!this) this = \r\n // IF_DERIVED: this = super(this, ...args)\r\n // this.a = X\r\n // this.b = Y\r\n // return this\r\n // }\r\n stmts.push(\r\n module.createIf(\r\n module.createUnary(nativeSizeType == NativeType.I64 ? UnaryOp.EqzI64 : UnaryOp.EqzI32,\r\n module.createGetLocal(0, nativeSizeType)\r\n ),\r\n module.createSetLocal(0,\r\n this.makeAllocation(classInstance)\r\n )\r\n )\r\n );\r\n if (baseClass) {\r\n let parameterTypes = signature.parameterTypes;\r\n let numParameters = parameterTypes.length;\r\n let operands = new Array(1 + numParameters);\r\n operands[0] = module.createGetLocal(0, nativeSizeType);\r\n for (let i = 0; i < numParameters; ++i) {\r\n operands[i + 1] = module.createGetLocal(i + 1, parameterTypes[i].toNativeType());\r\n }\r\n // TODO: base constructor might be inlined, but makeCallDirect can't do this\r\n stmts.push(\r\n module.createSetLocal(0,\r\n this.makeCallDirect(assert(baseClass.constructorInstance), operands)\r\n )\r\n );\r\n }\r\n this.makeFieldInitialization(classInstance, stmts);\r\n stmts.push(\r\n module.createGetLocal(0, nativeSizeType)\r\n );\r\n\r\n // make the function\r\n var typeRef = this.ensureFunctionType(signature.parameterTypes, signature.returnType, signature.thisType);\r\n var locals = instance.localsByIndex;\r\n var varTypes = new Array(); // of temp. vars added while compiling initializers\r\n var numOperands = 1 + signature.parameterTypes.length;\r\n var numLocals = locals.length;\r\n if (numLocals > numOperands) {\r\n for (let i = numOperands; i < numLocals; ++i) varTypes.push(locals[i].type.toNativeType());\r\n }\r\n var funcRef = module.addFunction(instance.internalName, typeRef, varTypes,\r\n stmts.length == 1\r\n ? stmts[0]\r\n : module.createBlock(null, stmts, nativeSizeType)\r\n );\r\n instance.finalize(module, funcRef);\r\n this.currentFlow = previousFlow;\r\n return instance;\r\n }\r\n\r\n compileInstantiate(classInstance: Class, argumentExpressions: Expression[], reportNode: Node): ExpressionRef {\r\n var ctor = this.ensureConstructor(classInstance, reportNode);\r\n var expr = this.compileCallDirect(\r\n ctor,\r\n argumentExpressions,\r\n reportNode,\r\n this.options.usizeType.toNativeZero(this.module)\r\n );\r\n this.currentType = classInstance.type;\r\n return expr;\r\n }\r\n\r\n compileParenthesizedExpression(\r\n expression: ParenthesizedExpression,\r\n contextualType: Type\r\n ): ExpressionRef {\r\n // does not change types, just order\r\n return this.compileExpression(\r\n expression.expression,\r\n contextualType,\r\n ConversionKind.NONE,\r\n WrapMode.NONE\r\n );\r\n }\r\n\r\n /**\r\n * Compiles a property access in the specified context.\r\n * @param retainConstantType Retains the type of inlined constants if `true`, otherwise\r\n * precomputes them according to context.\r\n */\r\n compilePropertyAccessExpression(\r\n propertyAccess: PropertyAccessExpression,\r\n contextualType: Type,\r\n retainConstantType: bool\r\n ): ExpressionRef {\r\n var module = this.module;\r\n var flow = this.currentFlow;\r\n\r\n this.maybeCompileEnclosingSource(propertyAccess);\r\n\r\n var target = this.resolver.resolvePropertyAccessExpression(propertyAccess, flow, contextualType); // reports\r\n if (!target) return module.createUnreachable();\r\n\r\n switch (target.kind) {\r\n case ElementKind.GLOBAL: { // static field\r\n if (!this.compileGlobal(target)) { // reports; not yet compiled if a static field\r\n return module.createUnreachable();\r\n }\r\n let globalType = (target).type;\r\n assert(globalType != Type.void);\r\n if ((target).is(CommonFlags.INLINED)) {\r\n return this.compileInlineConstant(target, contextualType, retainConstantType);\r\n }\r\n this.currentType = globalType;\r\n return module.createGetGlobal((target).internalName, globalType.toNativeType());\r\n }\r\n case ElementKind.ENUMVALUE: { // enum value\r\n let theEnum = assert((target).parent); assert(theEnum.kind == ElementKind.ENUM);\r\n if (!this.compileEnum(theEnum)) {\r\n this.currentType = Type.i32;\r\n return this.module.createUnreachable();\r\n }\r\n this.currentType = Type.i32;\r\n if ((target).is(CommonFlags.INLINED)) {\r\n assert((target).constantValueKind == ConstantValueKind.INTEGER);\r\n return module.createI32(i64_low((target).constantIntegerValue));\r\n }\r\n return module.createGetGlobal((target).internalName, NativeType.I32);\r\n }\r\n case ElementKind.FIELD: { // instance field\r\n assert((target).memoryOffset >= 0);\r\n let thisExpr = this.compileExpressionRetainType(\r\n assert(this.resolver.currentThisExpression),\r\n this.options.usizeType,\r\n WrapMode.NONE\r\n );\r\n this.currentType = (target).type;\r\n return module.createLoad(\r\n (target).type.byteSize,\r\n (target).type.is(TypeFlags.SIGNED | TypeFlags.INTEGER),\r\n thisExpr,\r\n (target).type.toNativeType(),\r\n (target).memoryOffset\r\n );\r\n }\r\n case ElementKind.PROPERTY_PROTOTYPE: {// static property\r\n let getterPrototype = (target).getterPrototype;\r\n if (getterPrototype) {\r\n let getter = this.resolver.resolveFunction(getterPrototype, null);\r\n if (getter) return this.compileCallDirect(getter, [], propertyAccess, 0);\r\n }\r\n return module.createUnreachable();\r\n }\r\n case ElementKind.PROPERTY: { // instance property\r\n let getterInstance = assert((target).getterInstance);\r\n return this.compileCallDirect(getterInstance, [], propertyAccess,\r\n this.compileExpressionRetainType(\r\n assert(this.resolver.currentThisExpression),\r\n this.options.usizeType,\r\n WrapMode.NONE\r\n )\r\n );\r\n }\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n this.error(\r\n DiagnosticCode.Cannot_access_method_0_without_calling_it_as_it_requires_this_to_be_set,\r\n propertyAccess.range, (target).name\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n propertyAccess.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n\r\n private compileGetter(target: PropertyPrototype, reportNode: Node): ExpressionRef {\r\n var prototype = target.getterPrototype;\r\n if (prototype) {\r\n let instance = this.resolver.resolveFunction(prototype, null);\r\n if (!instance) return this.module.createUnreachable();\r\n let signature = instance.signature;\r\n if (!this.checkCallSignature( // reports\r\n signature,\r\n 0,\r\n instance.is(CommonFlags.INSTANCE),\r\n reportNode\r\n )) {\r\n return this.module.createUnreachable();\r\n }\r\n if (instance.is(CommonFlags.INSTANCE)) {\r\n let classInstance = assert(instance.parent); assert(classInstance.kind == ElementKind.CLASS);\r\n let thisExpression = assert(this.resolver.currentThisExpression); //!!!\r\n let thisExpr = this.compileExpressionRetainType(\r\n thisExpression,\r\n this.options.usizeType,\r\n WrapMode.NONE\r\n );\r\n this.currentType = signature.returnType;\r\n return this.compileCallDirect(instance, [], reportNode, thisExpr);\r\n } else {\r\n this.currentType = signature.returnType;\r\n return this.compileCallDirect(instance, [], reportNode, 0);\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode.Property_0_does_not_exist_on_type_1,\r\n reportNode.range, (target).name, (target).parent.toString()\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n }\r\n\r\n compileTernaryExpression(expression: TernaryExpression, contextualType: Type): ExpressionRef {\r\n var ifThen = expression.ifThen;\r\n var ifElse = expression.ifElse;\r\n var outerFlow = this.currentFlow;\r\n\r\n var condExpr = this.makeIsTrueish(\r\n this.compileExpressionRetainType(expression.condition, Type.bool, WrapMode.NONE),\r\n this.currentType\r\n );\r\n\r\n // Try to eliminate unnecesssary branches if the condition is constant\r\n var condExprPrecomp = this.module.precomputeExpression(condExpr);\r\n if (\r\n getExpressionId(condExprPrecomp) == ExpressionId.Const &&\r\n getExpressionType(condExprPrecomp) == NativeType.I32\r\n ) {\r\n return getConstValueI32(condExprPrecomp)\r\n ? this.compileExpressionRetainType(ifThen, contextualType, WrapMode.NONE)\r\n : this.compileExpressionRetainType(ifElse, contextualType, WrapMode.NONE);\r\n\r\n // Otherwise recompile to the original and let the optimizer decide\r\n } else /* if (condExpr != condExprPrecomp) <- not guaranteed */ {\r\n condExpr = this.makeIsTrueish(\r\n this.compileExpressionRetainType(expression.condition, Type.bool, WrapMode.NONE),\r\n this.currentType\r\n );\r\n }\r\n\r\n var ifThenFlow = outerFlow.fork();\r\n this.currentFlow = ifThenFlow;\r\n var ifThenExpr = this.compileExpressionRetainType(ifThen, contextualType, WrapMode.NONE);\r\n var ifThenType = this.currentType;\r\n ifThenFlow.freeScopedLocals();\r\n\r\n var ifElseFlow = outerFlow.fork();\r\n this.currentFlow = ifElseFlow;\r\n var ifElseExpr = this.compileExpressionRetainType(ifElse, contextualType, WrapMode.NONE);\r\n var ifElseType = this.currentType;\r\n ifElseFlow.freeScopedLocals();\r\n this.currentFlow = outerFlow;\r\n\r\n outerFlow.inheritMutual(ifThenFlow, ifElseFlow);\r\n\r\n var commonType = Type.commonDenominator(ifThenType, ifElseType, false);\r\n if (!commonType) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n expression.range, ifThenType.toString(), ifElseType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return this.module.createUnreachable();\r\n }\r\n ifThenExpr = this.convertExpression(\r\n ifThenExpr,\r\n ifThenType,\r\n commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n ifThen\r\n );\r\n ifElseExpr = this.convertExpression(\r\n ifElseExpr,\r\n ifElseType,\r\n commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n ifElse\r\n );\r\n this.currentType = commonType;\r\n return this.module.createIf(condExpr, ifThenExpr, ifElseExpr);\r\n }\r\n\r\n compileUnaryPostfixExpression(expression: UnaryPostfixExpression, contextualType: Type): ExpressionRef {\r\n var module = this.module;\r\n var flow = this.currentFlow;\r\n\r\n // make a getter for the expression (also obtains the type)\r\n var getValue = this.compileExpression( // reports\r\n expression.operand,\r\n contextualType == Type.void\r\n ? Type.i32\r\n : contextualType,\r\n ConversionKind.NONE,\r\n WrapMode.NONE\r\n );\r\n\r\n // shortcut if compiling the getter already failed\r\n if (getExpressionId(getValue) == ExpressionId.Unreachable) return getValue;\r\n\r\n var currentType = this.currentType;\r\n\r\n // if the value isn't dropped, a temp. local is required to remember the original value\r\n var tempLocal: Local | null = null;\r\n if (contextualType != Type.void) {\r\n tempLocal = flow.getTempLocal(currentType, false);\r\n getValue = module.createTeeLocal(\r\n tempLocal.index,\r\n getValue\r\n );\r\n }\r\n\r\n var calcValue: ExpressionRef;\r\n\r\n switch (expression.operator) {\r\n case Token.PLUS_PLUS: {\r\n switch (currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n calcValue = module.createBinary(\r\n BinaryOp.AddI32,\r\n getValue,\r\n module.createI32(1)\r\n );\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = this.currentType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.POSTFIX_INC);\r\n if (overload) {\r\n calcValue = this.compileUnaryOverload(overload, expression.operand, getValue, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n case TypeKind.ISIZE: {\r\n let options = this.options;\r\n calcValue = module.createBinary(\r\n options.isWasm64\r\n ? BinaryOp.AddI64\r\n : BinaryOp.AddI32,\r\n getValue,\r\n currentType.toNativeOne(module)\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n calcValue = module.createBinary(\r\n BinaryOp.AddI64,\r\n getValue,\r\n module.createI64(1)\r\n );\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n calcValue = module.createBinary(\r\n BinaryOp.AddF32,\r\n getValue,\r\n module.createF32(1)\r\n );\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n calcValue = module.createBinary(\r\n BinaryOp.AddF64,\r\n getValue,\r\n module.createF64(1)\r\n );\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n return module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.MINUS_MINUS: {\r\n switch (currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n calcValue = module.createBinary(\r\n BinaryOp.SubI32,\r\n getValue,\r\n module.createI32(1)\r\n );\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = this.currentType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.POSTFIX_DEC);\r\n if (overload) {\r\n calcValue = this.compileUnaryOverload(overload, expression.operand, getValue, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n case TypeKind.ISIZE: {\r\n let options = this.options;\r\n calcValue = module.createBinary(\r\n options.isWasm64\r\n ? BinaryOp.SubI64\r\n : BinaryOp.SubI32,\r\n getValue,\r\n currentType.toNativeOne(module)\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n calcValue = module.createBinary(\r\n BinaryOp.SubI64,\r\n getValue,\r\n module.createI64(1)\r\n );\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n calcValue = module.createBinary(\r\n BinaryOp.SubF32,\r\n getValue,\r\n module.createF32(1)\r\n );\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n calcValue = module.createBinary(\r\n BinaryOp.SubF64,\r\n getValue,\r\n module.createF64(1)\r\n );\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n return module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n return module.createUnreachable();\r\n }\r\n }\r\n\r\n // simplify if dropped anyway\r\n if (!tempLocal) {\r\n this.currentType = Type.void;\r\n return this.compileAssignmentWithValue(expression.operand,\r\n calcValue,\r\n false\r\n );\r\n }\r\n\r\n // otherwise use the temp. local for the intermediate value (always possibly overflows)\r\n var setValue = this.compileAssignmentWithValue(expression.operand,\r\n calcValue, // also tees getValue to tempLocal\r\n false\r\n );\r\n\r\n this.currentType = tempLocal.type;\r\n flow.freeTempLocal(tempLocal);\r\n var nativeType = tempLocal.type.toNativeType();\r\n\r\n return module.createBlock(null, [\r\n setValue,\r\n module.createGetLocal(tempLocal.index, nativeType)\r\n ], nativeType); // result of 'x++' / 'x--' might overflow\r\n }\r\n\r\n compileUnaryPrefixExpression(\r\n expression: UnaryPrefixExpression,\r\n contextualType: Type\r\n ): ExpressionRef {\r\n var module = this.module;\r\n var compound = false;\r\n var expr: ExpressionRef;\r\n\r\n switch (expression.operator) {\r\n case Token.PLUS: {\r\n expr = this.compileExpression(\r\n expression.operand,\r\n contextualType == Type.void\r\n ? Type.i32\r\n : contextualType,\r\n ConversionKind.NONE,\r\n WrapMode.NONE\r\n );\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = this.currentType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.PLUS);\r\n if (overload) {\r\n expr = this.compileUnaryOverload(overload, expression.operand, expr, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n\r\n // nop\r\n break;\r\n }\r\n case Token.MINUS: {\r\n if (expression.operand.kind == NodeKind.LITERAL && (\r\n (expression.operand).literalKind == LiteralKind.INTEGER ||\r\n (expression.operand).literalKind == LiteralKind.FLOAT\r\n )) {\r\n // implicitly negate integer and float literals. also enables proper checking of literal ranges.\r\n expr = this.compileLiteralExpression(expression.operand, contextualType, true);\r\n // compileExpression normally does this:\r\n if (this.options.sourceMap) this.addDebugLocation(expr, expression.range);\r\n break;\r\n }\r\n\r\n expr = this.compileExpression(\r\n expression.operand,\r\n contextualType == Type.void\r\n ? Type.i32\r\n : contextualType,\r\n ConversionKind.NONE,\r\n WrapMode.NONE\r\n );\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = this.currentType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.MINUS);\r\n if (overload) {\r\n expr = this.compileUnaryOverload(overload, expression.operand, expr, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.SubI32, module.createI32(0), expr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.SubI64\r\n : BinaryOp.SubI32,\r\n this.currentType.toNativeZero(module),\r\n expr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.SubI64, module.createI64(0), expr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createUnary(UnaryOp.NegF32, expr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createUnary(UnaryOp.NegF64, expr);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.PLUS_PLUS: {\r\n compound = true;\r\n expr = this.compileExpression(\r\n expression.operand,\r\n contextualType == Type.void\r\n ? Type.i32\r\n : contextualType,\r\n ConversionKind.NONE,\r\n WrapMode.NONE\r\n );\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = this.currentType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.PREFIX_INC);\r\n if (overload) {\r\n expr = this.compileUnaryOverload(overload, expression.operand, expr, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.AddI32, expr, this.module.createI32(1));\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.AddI64\r\n : BinaryOp.AddI32,\r\n expr,\r\n this.currentType.toNativeOne(module)\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.AddI64, expr, module.createI64(1));\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.AddF32, expr, module.createF32(1));\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.AddF64, expr, module.createF64(1));\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.MINUS_MINUS: {\r\n compound = true;\r\n expr = this.compileExpression(\r\n expression.operand,\r\n contextualType == Type.void\r\n ? Type.i32\r\n : contextualType,\r\n ConversionKind.NONE,\r\n WrapMode.NONE\r\n );\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = this.currentType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.PREFIX_DEC);\r\n if (overload) {\r\n expr = this.compileUnaryOverload(overload, expression.operand, expr, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.SubI32, expr, module.createI32(1));\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.SubI64\r\n : BinaryOp.SubI32,\r\n expr,\r\n this.currentType.toNativeOne(module)\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.SubI64, expr, module.createI64(1));\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.SubF32, expr, module.createF32(1));\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.SubF64, expr, module.createF64(1));\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.EXCLAMATION: {\r\n expr = this.compileExpression(\r\n expression.operand,\r\n contextualType == Type.void\r\n ? Type.i32\r\n : contextualType,\r\n ConversionKind.NONE,\r\n WrapMode.NONE\r\n );\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = this.currentType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.NOT);\r\n if (overload) {\r\n expr = this.compileUnaryOverload(overload, expression.operand, expr, expression);\r\n break;\r\n }\r\n }\r\n // allow '!' for references even without an overload\r\n }\r\n\r\n expr = this.makeIsFalseish(expr, this.currentType);\r\n this.currentType = Type.bool;\r\n break;\r\n }\r\n case Token.TILDE: {\r\n expr = this.compileExpression(\r\n expression.operand,\r\n contextualType == Type.void\r\n ? Type.i32\r\n : contextualType.is(TypeFlags.FLOAT)\r\n ? Type.i64\r\n : contextualType,\r\n ConversionKind.NONE,\r\n WrapMode.NONE\r\n );\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = this.currentType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.BITWISE_NOT);\r\n if (overload) {\r\n expr = this.compileUnaryOverload(overload, expression.operand, expr, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n } else {\r\n expr = this.convertExpression(\r\n expr,\r\n this.currentType, this.currentType.intType,\r\n ConversionKind.IMPLICIT, WrapMode.NONE,\r\n expression.operand\r\n );\r\n }\r\n\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.XorI32, expr, module.createI32(-1));\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.XorI64\r\n : BinaryOp.XorI32,\r\n expr,\r\n this.currentType.toNativeNegOne(module)\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.XorI64, expr, module.createI64(-1, -1));\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.TYPEOF: {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n default: {\r\n assert(false);\r\n return module.createUnreachable();\r\n }\r\n }\r\n return compound\r\n ? this.compileAssignmentWithValue(expression.operand, expr, contextualType != Type.void)\r\n : expr;\r\n }\r\n\r\n /** Makes sure that a 32-bit integer value is wrapped to a valid value of the specified type. */\r\n ensureSmallIntegerWrap(expr: ExpressionRef, type: Type): ExpressionRef {\r\n var module = this.module;\r\n var flow = this.currentFlow;\r\n switch (type.kind) {\r\n case TypeKind.I8: {\r\n if (flow.canOverflow(expr, type)) {\r\n expr = this.options.hasFeature(Feature.SIGN_EXTENSION)\r\n ? module.createUnary(UnaryOp.ExtendI8ToI32, expr)\r\n : module.createBinary(BinaryOp.ShrI32,\r\n module.createBinary(BinaryOp.ShlI32,\r\n expr,\r\n module.createI32(24)\r\n ),\r\n module.createI32(24)\r\n );\r\n }\r\n break;\r\n }\r\n case TypeKind.I16: {\r\n if (flow.canOverflow(expr, type)) {\r\n expr = this.options.hasFeature(Feature.SIGN_EXTENSION)\r\n ? module.createUnary(UnaryOp.ExtendI16ToI32, expr)\r\n : module.createBinary(BinaryOp.ShrI32,\r\n module.createBinary(BinaryOp.ShlI32,\r\n expr,\r\n module.createI32(16)\r\n ),\r\n module.createI32(16)\r\n );\r\n }\r\n break;\r\n }\r\n case TypeKind.U8: {\r\n if (flow.canOverflow(expr, type)) {\r\n expr = module.createBinary(BinaryOp.AndI32,\r\n expr,\r\n module.createI32(0xff)\r\n );\r\n }\r\n break;\r\n }\r\n case TypeKind.U16: {\r\n if (flow.canOverflow(expr, type)) {\r\n expr = module.createBinary(BinaryOp.AndI32,\r\n expr,\r\n module.createI32(0xffff)\r\n );\r\n }\r\n break;\r\n }\r\n case TypeKind.BOOL: {\r\n if (flow.canOverflow(expr, type)) {\r\n // bool is special in that it compares to 0 instead of masking with 0x1\r\n expr = module.createBinary(BinaryOp.NeI32,\r\n expr,\r\n module.createI32(0)\r\n );\r\n }\r\n break;\r\n }\r\n }\r\n return expr;\r\n }\r\n\r\n /** Creates a comparison whether an expression is 'false' in a broader sense. */\r\n makeIsFalseish(expr: ExpressionRef, type: Type): ExpressionRef {\r\n var module = this.module;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n expr = this.ensureSmallIntegerWrap(expr, type);\r\n // fall-through\r\n }\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n return module.createUnary(UnaryOp.EqzI32, expr);\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n return module.createUnary(UnaryOp.EqzI64, expr);\r\n }\r\n case TypeKind.USIZE: // TODO: strings?\r\n case TypeKind.ISIZE: {\r\n return module.createUnary(type.size == 64 ? UnaryOp.EqzI64 : UnaryOp.EqzI32, expr);\r\n }\r\n case TypeKind.F32: {\r\n return module.createBinary(BinaryOp.EqF32, expr, module.createF32(0));\r\n }\r\n case TypeKind.F64: {\r\n return module.createBinary(BinaryOp.EqF64, expr, module.createF64(0));\r\n }\r\n default: {\r\n assert(false);\r\n return module.createI32(1);\r\n }\r\n }\r\n }\r\n\r\n /** Creates a comparison whether an expression is 'true' in a broader sense. */\r\n makeIsTrueish(expr: ExpressionRef, type: Type): ExpressionRef {\r\n var module = this.module;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n expr = this.ensureSmallIntegerWrap(expr, type);\r\n // fall-through\r\n }\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n return expr;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n return module.createBinary(BinaryOp.NeI64, expr, module.createI64(0));\r\n }\r\n case TypeKind.USIZE: // TODO: strings?\r\n case TypeKind.ISIZE: {\r\n return type.size == 64\r\n ? module.createBinary(BinaryOp.NeI64, expr, module.createI64(0))\r\n : expr;\r\n }\r\n case TypeKind.F32: {\r\n return module.createBinary(BinaryOp.NeF32, expr, module.createF32(0));\r\n }\r\n case TypeKind.F64: {\r\n return module.createBinary(BinaryOp.NeF64, expr, module.createF64(0));\r\n }\r\n default: {\r\n assert(false);\r\n return module.createI32(0);\r\n }\r\n }\r\n }\r\n\r\n /** Makes an allocation suitable to hold the data of an instance of the given class. */\r\n makeAllocation(classInstance: Class): ExpressionRef {\r\n var program = this.program;\r\n assert(classInstance.program == program);\r\n var module = this.module;\r\n var options = this.options;\r\n\r\n // __gc_allocate(size, markFn)\r\n if (program.hasGC && classInstance.type.isManaged(program)) {\r\n let allocateInstance = assert(program.gcAllocateInstance);\r\n if (!this.compileFunction(allocateInstance)) return module.createUnreachable();\r\n this.currentType = classInstance.type;\r\n return module.createCall(\r\n allocateInstance.internalName, [\r\n options.isWasm64\r\n ? module.createI64(classInstance.currentMemoryOffset)\r\n : module.createI32(classInstance.currentMemoryOffset),\r\n module.createI32(\r\n ensureGCHook(this, classInstance)\r\n )\r\n ],\r\n options.nativeSizeType\r\n );\r\n\r\n // memory.allocate(size)\r\n } else {\r\n let allocateInstance = program.memoryAllocateInstance;\r\n if (!allocateInstance || !this.compileFunction(allocateInstance)) return module.createUnreachable();\r\n this.currentType = classInstance.type;\r\n return module.createCall(\r\n allocateInstance.internalName, [\r\n options.isWasm64\r\n ? module.createI64(classInstance.currentMemoryOffset)\r\n : module.createI32(classInstance.currentMemoryOffset)\r\n ],\r\n options.nativeSizeType\r\n );\r\n }\r\n }\r\n\r\n /** Makes the initializers for a class's fields. */\r\n makeFieldInitialization(classInstance: Class, stmts: ExpressionRef[] = []): ExpressionRef[] {\r\n var members = classInstance.members;\r\n if (!members) return [];\r\n\r\n var module = this.module;\r\n var flow = this.currentFlow;\r\n var isInline = flow.is(FlowFlags.INLINE_CONTEXT);\r\n var thisLocalIndex = isInline\r\n ? assert(flow.lookupLocal(CommonSymbols.this_)).index\r\n : 0;\r\n var nativeSizeType = this.options.nativeSizeType;\r\n\r\n for (let member of members.values()) {\r\n if (\r\n member.kind != ElementKind.FIELD || // not a field\r\n member.parent != classInstance // inherited field\r\n ) continue;\r\n\r\n let field = member; assert(!field.isAny(CommonFlags.CONST));\r\n let fieldType = field.type;\r\n let nativeFieldType = fieldType.toNativeType();\r\n let initializerNode = field.prototype.initializerNode;\r\n if (initializerNode) { // use initializer\r\n stmts.push(\r\n module.createStore(fieldType.byteSize,\r\n module.createGetLocal(thisLocalIndex, nativeSizeType),\r\n this.compileExpression( // reports\r\n initializerNode,\r\n fieldType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n ),\r\n nativeFieldType,\r\n field.memoryOffset\r\n )\r\n );\r\n } else {\r\n let parameterIndex = field.prototype.parameterIndex;\r\n stmts.push(\r\n module.createStore(fieldType.byteSize,\r\n module.createGetLocal(thisLocalIndex, nativeSizeType),\r\n parameterIndex >= 0 // initialized via parameter (here: a local)\r\n ? module.createGetLocal(\r\n isInline\r\n ? assert(flow.lookupLocal(field.name)).index\r\n : 1 + parameterIndex, // this is local 0\r\n nativeFieldType\r\n )\r\n : fieldType.toNativeZero(module),\r\n nativeFieldType,\r\n field.memoryOffset\r\n )\r\n );\r\n }\r\n }\r\n return stmts;\r\n }\r\n\r\n /** Adds the debug location of the specified expression at the specified range to the source map. */\r\n addDebugLocation(expr: ExpressionRef, range: Range): void {\r\n var parentFunction = this.currentFlow.parentFunction;\r\n var source = range.source;\r\n if (source.debugInfoIndex < 0) source.debugInfoIndex = this.module.addDebugInfoFile(source.normalizedPath);\r\n range.debugInfoRef = expr;\r\n parentFunction.debugLocations.push(range);\r\n }\r\n}\r\n\r\n// helpers\r\n\r\nfunction mangleImportName(\r\n element: Element,\r\n declaration: DeclarationStatement\r\n): void {\r\n // by default, use the file name as the module name\r\n mangleImportName_moduleName = declaration.range.source.simplePath;\r\n // and the internal name of the element within that file as the element name\r\n mangleImportName_elementName = mangleInternalName(\r\n element.name, element.parent, element.is(CommonFlags.INSTANCE), true\r\n );\r\n if (!element.hasDecorator(DecoratorFlags.EXTERNAL)) return;\r\n\r\n var program = element.program;\r\n var decorator = assert(findDecorator(DecoratorKind.EXTERNAL, declaration.decorators));\r\n var args = decorator.arguments;\r\n if (args && args.length) {\r\n let arg = args[0];\r\n // if one argument is given, override just the element name\r\n // if two arguments are given, override both module and element name\r\n if (arg.kind == NodeKind.LITERAL && (arg).literalKind == LiteralKind.STRING) {\r\n mangleImportName_elementName = (arg).value;\r\n if (args.length >= 2) {\r\n arg = args[1];\r\n if (arg.kind == NodeKind.LITERAL && (arg).literalKind == LiteralKind.STRING) {\r\n mangleImportName_moduleName = mangleImportName_elementName;\r\n mangleImportName_elementName = (arg).value;\r\n if (args.length > 2) {\r\n program.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n decorator.range, \"2\", args.length.toString()\r\n );\r\n }\r\n } else {\r\n program.error(\r\n DiagnosticCode.String_literal_expected,\r\n arg.range\r\n );\r\n }\r\n }\r\n } else {\r\n program.error(\r\n DiagnosticCode.String_literal_expected,\r\n arg.range\r\n );\r\n }\r\n } else {\r\n program.error(\r\n DiagnosticCode.Expected_at_least_0_arguments_but_got_1,\r\n decorator.range, \"1\", \"0\"\r\n );\r\n }\r\n}\r\n\r\nvar mangleImportName_moduleName: string;\r\nvar mangleImportName_elementName: string;\r\n\r\n/** Special compiler symbols. */\r\nnamespace CompilerSymbols {\r\n /** Module started global. Used if an explicit start function is present. */\r\n export const started = \"~lib/started\";\r\n /** Argument count global. Used to call trampolines for varargs functions. */\r\n export const argc = \"~lib/argc\";\r\n /** Argument count setter. Exported for use by host calls. */\r\n export const setargc = \"~lib/setargc\";\r\n}\r\n","/**\r\n * Generated from diagnosticsMessages.json. Do not edit.\r\n * @module diagnostics\r\n *//***/\r\n\r\n/* tslint:disable:max-line-length */\r\n\r\n/** Enum of available diagnostic codes. */\r\nexport enum DiagnosticCode {\r\n Operation_not_supported = 100,\r\n Operation_is_unsafe = 101,\r\n User_defined_0 = 102,\r\n Conversion_from_type_0_to_1_requires_an_explicit_cast = 200,\r\n Conversion_from_type_0_to_1_will_require_an_explicit_cast_when_switching_between_32_64_bit = 201,\r\n Type_0_cannot_be_changed_to_type_1 = 202,\r\n Type_0_cannot_be_reinterpreted_as_type_1 = 203,\r\n Basic_type_0_cannot_be_nullable = 204,\r\n Cannot_export_a_mutable_global = 205,\r\n Compiling_constant_with_non_constant_initializer_as_mutable = 206,\r\n Unmanaged_classes_cannot_extend_managed_classes_and_vice_versa = 207,\r\n Unmanaged_classes_cannot_implement_interfaces = 208,\r\n Invalid_regular_expression_flags = 209,\r\n Implementation_0_must_match_the_signature_1 = 210,\r\n Class_0_is_sealed_and_cannot_be_extended = 211,\r\n Decorator_0_is_not_valid_here = 212,\r\n Duplicate_decorator = 213,\r\n An_allocator_must_be_declared_to_allocate_memory_Try_importing_allocator_arena_or_allocator_tlsf = 214,\r\n Optional_parameter_must_have_an_initializer = 215,\r\n Constructor_of_class_0_must_not_require_any_arguments = 216,\r\n Function_0_cannot_be_inlined_into_itself = 217,\r\n Cannot_access_method_0_without_calling_it_as_it_requires_this_to_be_set = 218,\r\n Optional_properties_are_not_supported = 219,\r\n Expression_must_be_a_compile_time_constant = 220,\r\n Module_cannot_have_multiple_start_functions = 221,\r\n _0_must_be_a_value_between_1_and_2_inclusive = 222,\r\n _0_must_be_a_power_of_two = 223,\r\n Unterminated_string_literal = 1002,\r\n Identifier_expected = 1003,\r\n _0_expected = 1005,\r\n A_file_cannot_have_a_reference_to_itself = 1006,\r\n Trailing_comma_not_allowed = 1009,\r\n Unexpected_token = 1012,\r\n A_rest_parameter_must_be_last_in_a_parameter_list = 1014,\r\n Parameter_cannot_have_question_mark_and_initializer = 1015,\r\n A_required_parameter_cannot_follow_an_optional_parameter = 1016,\r\n Statements_are_not_allowed_in_ambient_contexts = 1036,\r\n Initializers_are_not_allowed_in_ambient_contexts = 1039,\r\n _0_modifier_cannot_be_used_here = 1042,\r\n A_rest_parameter_cannot_be_optional = 1047,\r\n A_rest_parameter_cannot_have_an_initializer = 1048,\r\n A_set_accessor_must_have_exactly_one_parameter = 1049,\r\n A_set_accessor_parameter_cannot_have_an_initializer = 1052,\r\n A_get_accessor_cannot_have_parameters = 1054,\r\n Enum_member_must_have_initializer = 1061,\r\n Type_parameters_cannot_appear_on_a_constructor_declaration = 1092,\r\n Type_annotation_cannot_appear_on_a_constructor_declaration = 1093,\r\n An_accessor_cannot_have_type_parameters = 1094,\r\n A_set_accessor_cannot_have_a_return_type_annotation = 1095,\r\n Type_parameter_list_cannot_be_empty = 1098,\r\n A_continue_statement_can_only_be_used_within_an_enclosing_iteration_statement = 1104,\r\n A_break_statement_can_only_be_used_within_an_enclosing_iteration_or_switch_statement = 1105,\r\n A_return_statement_can_only_be_used_within_a_function_body = 1108,\r\n Expression_expected = 1109,\r\n Type_expected = 1110,\r\n A_default_clause_cannot_appear_more_than_once_in_a_switch_statement = 1113,\r\n Duplicate_label_0 = 1114,\r\n Octal_literals_are_not_allowed_in_strict_mode = 1121,\r\n Digit_expected = 1124,\r\n Hexadecimal_digit_expected = 1125,\r\n Unexpected_end_of_text = 1126,\r\n Invalid_character = 1127,\r\n _case_or_default_expected = 1130,\r\n _super_must_be_followed_by_an_argument_list_or_member_access = 1034,\r\n A_declare_modifier_cannot_be_used_in_an_already_ambient_context = 1038,\r\n Type_argument_expected = 1140,\r\n String_literal_expected = 1141,\r\n Line_break_not_permitted_here = 1142,\r\n Declaration_expected = 1146,\r\n _const_declarations_must_be_initialized = 1155,\r\n Unterminated_regular_expression_literal = 1161,\r\n Interface_declaration_cannot_have_implements_clause = 1176,\r\n Binary_digit_expected = 1177,\r\n Octal_digit_expected = 1178,\r\n An_implementation_cannot_be_declared_in_ambient_contexts = 1183,\r\n An_extended_Unicode_escape_value_must_be_between_0x0_and_0x10FFFF_inclusive = 1198,\r\n Unterminated_Unicode_escape_sequence = 1199,\r\n Decorators_are_not_valid_here = 1206,\r\n _abstract_modifier_can_only_appear_on_a_class_method_or_property_declaration = 1242,\r\n Method_0_cannot_have_an_implementation_because_it_is_marked_abstract = 1245,\r\n A_definite_assignment_assertion_is_not_permitted_in_this_context = 1255,\r\n A_class_may_only_extend_another_class = 1311,\r\n A_parameter_property_cannot_be_declared_using_a_rest_parameter = 1317,\r\n Duplicate_identifier_0 = 2300,\r\n Cannot_find_name_0 = 2304,\r\n Module_0_has_no_exported_member_1 = 2305,\r\n Generic_type_0_requires_1_type_argument_s = 2314,\r\n Type_0_is_not_generic = 2315,\r\n Type_0_is_not_assignable_to_type_1 = 2322,\r\n Index_signature_is_missing_in_type_0 = 2329,\r\n _this_cannot_be_referenced_in_current_location = 2332,\r\n _super_can_only_be_referenced_in_a_derived_class = 2335,\r\n Super_calls_are_not_permitted_outside_constructors_or_in_nested_functions_inside_constructors = 2337,\r\n Property_0_does_not_exist_on_type_1 = 2339,\r\n Cannot_invoke_an_expression_whose_type_lacks_a_call_signature_Type_0_has_no_compatible_call_signatures = 2349,\r\n Cannot_use_new_with_an_expression_whose_type_lacks_a_construct_signature = 2351,\r\n A_function_whose_declared_type_is_not_void_must_return_a_value = 2355,\r\n The_operand_of_an_increment_or_decrement_operator_must_be_a_variable_or_a_property_access = 2357,\r\n The_left_hand_side_of_an_assignment_expression_must_be_a_variable_or_a_property_access = 2364,\r\n Operator_0_cannot_be_applied_to_types_1_and_2 = 2365,\r\n A_super_call_must_be_the_first_statement_in_the_constructor = 2376,\r\n Constructors_for_derived_classes_must_contain_a_super_call = 2377,\r\n _get_and_set_accessor_must_have_the_same_type = 2380,\r\n Constructor_implementation_is_missing = 2390,\r\n Function_implementation_is_missing_or_not_immediately_following_the_declaration = 2391,\r\n Multiple_constructor_implementations_are_not_allowed = 2392,\r\n Duplicate_function_implementation = 2393,\r\n Individual_declarations_in_merged_declaration_0_must_be_all_exported_or_all_local = 2395,\r\n A_namespace_declaration_cannot_be_located_prior_to_a_class_or_function_with_which_it_is_merged = 2434,\r\n Type_0_has_no_property_1 = 2460,\r\n The_0_operator_cannot_be_applied_to_type_1 = 2469,\r\n In_const_enum_declarations_member_initializer_must_be_constant_expression = 2474,\r\n Export_declaration_conflicts_with_exported_declaration_of_0 = 2484,\r\n Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property = 2540,\r\n The_target_of_an_assignment_must_be_a_variable_or_a_property_access = 2541,\r\n Index_signature_in_type_0_only_permits_reading = 2542,\r\n Expected_0_arguments_but_got_1 = 2554,\r\n Expected_at_least_0_arguments_but_got_1 = 2555,\r\n Expected_0_type_arguments_but_got_1 = 2558,\r\n A_member_initializer_in_a_enum_declaration_cannot_reference_members_declared_after_it_including_members_defined_in_other_enums = 2651,\r\n Constructor_of_class_0_is_private_and_only_accessible_within_the_class_declaration = 2673,\r\n Constructor_of_class_0_is_protected_and_only_accessible_within_the_class_declaration = 2674,\r\n Namespace_0_has_no_exported_member_1 = 2694,\r\n Required_type_parameters_may_not_follow_optional_type_parameters = 2706,\r\n Duplicate_property_0 = 2718,\r\n File_0_not_found = 6054,\r\n Numeric_separators_are_not_allowed_here = 6188,\r\n Multiple_consecutive_numeric_separators_are_not_permitted = 6189,\r\n _super_must_be_called_before_accessing_this_in_the_constructor_of_a_derived_class = 17009,\r\n _super_must_be_called_before_accessing_a_property_of_super_in_the_constructor_of_a_derived_class = 17011\r\n}\r\n\r\n/** Translates a diagnostic code to its respective string. */\r\nexport function diagnosticCodeToString(code: DiagnosticCode): string {\r\n switch (code) {\r\n case 100: return \"Operation not supported.\";\r\n case 101: return \"Operation is unsafe.\";\r\n case 102: return \"User-defined: {0}\";\r\n case 200: return \"Conversion from type '{0}' to '{1}' requires an explicit cast.\";\r\n case 201: return \"Conversion from type '{0}' to '{1}' will require an explicit cast when switching between 32/64-bit.\";\r\n case 202: return \"Type '{0}' cannot be changed to type '{1}'.\";\r\n case 203: return \"Type '{0}' cannot be reinterpreted as type '{1}'.\";\r\n case 204: return \"Basic type '{0}' cannot be nullable.\";\r\n case 205: return \"Cannot export a mutable global.\";\r\n case 206: return \"Compiling constant with non-constant initializer as mutable.\";\r\n case 207: return \"Unmanaged classes cannot extend managed classes and vice-versa.\";\r\n case 208: return \"Unmanaged classes cannot implement interfaces.\";\r\n case 209: return \"Invalid regular expression flags.\";\r\n case 210: return \"Implementation '{0}' must match the signature '{1}'.\";\r\n case 211: return \"Class '{0}' is sealed and cannot be extended.\";\r\n case 212: return \"Decorator '{0}' is not valid here.\";\r\n case 213: return \"Duplicate decorator.\";\r\n case 214: return \"An allocator must be declared to allocate memory. Try importing allocator/arena or allocator/tlsf.\";\r\n case 215: return \"Optional parameter must have an initializer.\";\r\n case 216: return \"Constructor of class '{0}' must not require any arguments.\";\r\n case 217: return \"Function '{0}' cannot be inlined into itself.\";\r\n case 218: return \"Cannot access method '{0}' without calling it as it requires 'this' to be set.\";\r\n case 219: return \"Optional properties are not supported.\";\r\n case 220: return \"Expression must be a compile-time constant.\";\r\n case 221: return \"Module cannot have multiple start functions.\";\r\n case 222: return \"'{0}' must be a value between '{1}' and '{2}' inclusive.\";\r\n case 223: return \"'{0}' must be a power of two.\";\r\n case 1002: return \"Unterminated string literal.\";\r\n case 1003: return \"Identifier expected.\";\r\n case 1005: return \"'{0}' expected.\";\r\n case 1006: return \"A file cannot have a reference to itself.\";\r\n case 1009: return \"Trailing comma not allowed.\";\r\n case 1012: return \"Unexpected token.\";\r\n case 1014: return \"A rest parameter must be last in a parameter list.\";\r\n case 1015: return \"Parameter cannot have question mark and initializer.\";\r\n case 1016: return \"A required parameter cannot follow an optional parameter.\";\r\n case 1036: return \"Statements are not allowed in ambient contexts.\";\r\n case 1039: return \"Initializers are not allowed in ambient contexts.\";\r\n case 1042: return \"'{0}' modifier cannot be used here.\";\r\n case 1047: return \"A rest parameter cannot be optional.\";\r\n case 1048: return \"A rest parameter cannot have an initializer.\";\r\n case 1049: return \"A 'set' accessor must have exactly one parameter.\";\r\n case 1052: return \"A 'set' accessor parameter cannot have an initializer.\";\r\n case 1054: return \"A 'get' accessor cannot have parameters.\";\r\n case 1061: return \"Enum member must have initializer.\";\r\n case 1092: return \"Type parameters cannot appear on a constructor declaration.\";\r\n case 1093: return \"Type annotation cannot appear on a constructor declaration.\";\r\n case 1094: return \"An accessor cannot have type parameters.\";\r\n case 1095: return \"A 'set' accessor cannot have a return type annotation.\";\r\n case 1098: return \"Type parameter list cannot be empty.\";\r\n case 1104: return \"A 'continue' statement can only be used within an enclosing iteration statement.\";\r\n case 1105: return \"A 'break' statement can only be used within an enclosing iteration or switch statement.\";\r\n case 1108: return \"A 'return' statement can only be used within a function body.\";\r\n case 1109: return \"Expression expected.\";\r\n case 1110: return \"Type expected.\";\r\n case 1113: return \"A 'default' clause cannot appear more than once in a 'switch' statement.\";\r\n case 1114: return \"Duplicate label '{0}'.\";\r\n case 1121: return \"Octal literals are not allowed in strict mode.\";\r\n case 1124: return \"Digit expected.\";\r\n case 1125: return \"Hexadecimal digit expected.\";\r\n case 1126: return \"Unexpected end of text.\";\r\n case 1127: return \"Invalid character.\";\r\n case 1130: return \"'case' or 'default' expected.\";\r\n case 1034: return \"'super' must be followed by an argument list or member access.\";\r\n case 1038: return \"A 'declare' modifier cannot be used in an already ambient context.\";\r\n case 1140: return \"Type argument expected.\";\r\n case 1141: return \"String literal expected.\";\r\n case 1142: return \"Line break not permitted here.\";\r\n case 1146: return \"Declaration expected.\";\r\n case 1155: return \"'const' declarations must be initialized.\";\r\n case 1161: return \"Unterminated regular expression literal.\";\r\n case 1176: return \"Interface declaration cannot have 'implements' clause.\";\r\n case 1177: return \"Binary digit expected.\";\r\n case 1178: return \"Octal digit expected.\";\r\n case 1183: return \"An implementation cannot be declared in ambient contexts.\";\r\n case 1198: return \"An extended Unicode escape value must be between 0x0 and 0x10FFFF inclusive.\";\r\n case 1199: return \"Unterminated Unicode escape sequence.\";\r\n case 1206: return \"Decorators are not valid here.\";\r\n case 1242: return \"'abstract' modifier can only appear on a class, method, or property declaration.\";\r\n case 1245: return \"Method '{0}' cannot have an implementation because it is marked abstract.\";\r\n case 1255: return \"A definite assignment assertion '!' is not permitted in this context.\";\r\n case 1311: return \"A class may only extend another class.\";\r\n case 1317: return \"A parameter property cannot be declared using a rest parameter.\";\r\n case 2300: return \"Duplicate identifier '{0}'.\";\r\n case 2304: return \"Cannot find name '{0}'.\";\r\n case 2305: return \"Module '{0}' has no exported member '{1}'.\";\r\n case 2314: return \"Generic type '{0}' requires {1} type argument(s).\";\r\n case 2315: return \"Type '{0}' is not generic.\";\r\n case 2322: return \"Type '{0}' is not assignable to type '{1}'.\";\r\n case 2329: return \"Index signature is missing in type '{0}'.\";\r\n case 2332: return \"'this' cannot be referenced in current location.\";\r\n case 2335: return \"'super' can only be referenced in a derived class.\";\r\n case 2337: return \"Super calls are not permitted outside constructors or in nested functions inside constructors.\";\r\n case 2339: return \"Property '{0}' does not exist on type '{1}'.\";\r\n case 2349: return \"Cannot invoke an expression whose type lacks a call signature. Type '{0}' has no compatible call signatures.\";\r\n case 2351: return \"Cannot use 'new' with an expression whose type lacks a construct signature.\";\r\n case 2355: return \"A function whose declared type is not 'void' must return a value.\";\r\n case 2357: return \"The operand of an increment or decrement operator must be a variable or a property access.\";\r\n case 2364: return \"The left-hand side of an assignment expression must be a variable or a property access.\";\r\n case 2365: return \"Operator '{0}' cannot be applied to types '{1}' and '{2}'.\";\r\n case 2376: return \"A 'super' call must be the first statement in the constructor.\";\r\n case 2377: return \"Constructors for derived classes must contain a 'super' call.\";\r\n case 2380: return \"'get' and 'set' accessor must have the same type.\";\r\n case 2390: return \"Constructor implementation is missing.\";\r\n case 2391: return \"Function implementation is missing or not immediately following the declaration.\";\r\n case 2392: return \"Multiple constructor implementations are not allowed.\";\r\n case 2393: return \"Duplicate function implementation.\";\r\n case 2395: return \"Individual declarations in merged declaration '{0}' must be all exported or all local.\";\r\n case 2434: return \"A namespace declaration cannot be located prior to a class or function with which it is merged.\";\r\n case 2460: return \"Type '{0}' has no property '{1}'.\";\r\n case 2469: return \"The '{0}' operator cannot be applied to type '{1}'.\";\r\n case 2474: return \"In 'const' enum declarations member initializer must be constant expression.\";\r\n case 2484: return \"Export declaration conflicts with exported declaration of '{0}'.\";\r\n case 2540: return \"Cannot assign to '{0}' because it is a constant or a read-only property.\";\r\n case 2541: return \"The target of an assignment must be a variable or a property access.\";\r\n case 2542: return \"Index signature in type '{0}' only permits reading.\";\r\n case 2554: return \"Expected {0} arguments, but got {1}.\";\r\n case 2555: return \"Expected at least {0} arguments, but got {1}.\";\r\n case 2558: return \"Expected {0} type arguments, but got {1}.\";\r\n case 2651: return \"A member initializer in a enum declaration cannot reference members declared after it, including members defined in other enums.\";\r\n case 2673: return \"Constructor of class '{0}' is private and only accessible within the class declaration.\";\r\n case 2674: return \"Constructor of class '{0}' is protected and only accessible within the class declaration.\";\r\n case 2694: return \"Namespace '{0}' has no exported member '{1}'.\";\r\n case 2706: return \"Required type parameters may not follow optional type parameters.\";\r\n case 2718: return \"Duplicate property '{0}'.\";\r\n case 6054: return \"File '{0}' not found.\";\r\n case 6188: return \"Numeric separators are not allowed here.\";\r\n case 6189: return \"Multiple consecutive numeric separators are not permitted.\";\r\n case 17009: return \"'super' must be called before accessing 'this' in the constructor of a derived class.\";\r\n case 17011: return \"'super' must be called before accessing a property of 'super' in the constructor of a derived class.\";\r\n default: return \"\";\r\n }\r\n}\r\n","/**\r\n * A control flow analyzer.\r\n * @module flow\r\n *//***/\r\n\r\nimport {\r\n Type,\r\n TypeFlags,\r\n TypeKind\r\n} from \"./types\";\r\n\r\nimport {\r\n Local,\r\n Function,\r\n Element,\r\n ElementKind,\r\n Global\r\n} from \"./program\";\r\n\r\nimport {\r\n NativeType,\r\n ExpressionId,\r\n ExpressionRef,\r\n\r\n getExpressionId,\r\n getGetLocalIndex,\r\n isTeeLocal,\r\n getSetLocalValue,\r\n getGetGlobalName,\r\n getBinaryOp,\r\n BinaryOp,\r\n getBinaryLeft,\r\n getConstValueI32,\r\n getBinaryRight,\r\n getUnaryOp,\r\n UnaryOp,\r\n getExpressionType,\r\n getConstValueI64Low,\r\n getConstValueF32,\r\n getConstValueF64,\r\n getLoadBytes,\r\n isLoadSigned,\r\n getBlockName,\r\n getBlockChildCount,\r\n getBlockChild,\r\n getIfTrue,\r\n getIfFalse,\r\n getSelectThen,\r\n getSelectElse,\r\n getCallTarget\r\n} from \"./module\";\r\n\r\nimport {\r\n CommonFlags\r\n} from \"./common\";\r\n\r\nimport {\r\n DiagnosticCode\r\n} from \"./diagnostics\";\r\n\r\nimport {\r\n Node\r\n} from \"./ast\";\r\n\r\nimport {\r\n bitsetIs,\r\n bitsetSet\r\n} from \"./util\";\r\n\r\n/** Control flow flags indicating specific conditions. */\r\nexport const enum FlowFlags {\r\n /** No specific conditions. */\r\n NONE = 0,\r\n\r\n // categorical\r\n\r\n /** This flow returns. */\r\n RETURNS = 1 << 0,\r\n /** This flow returns a wrapped value. */\r\n RETURNS_WRAPPED = 1 << 1,\r\n /** This flow throws. */\r\n THROWS = 1 << 2,\r\n /** This flow breaks. */\r\n BREAKS = 1 << 3,\r\n /** This flow continues. */\r\n CONTINUES = 1 << 4,\r\n /** This flow allocates. Constructors only. */\r\n ALLOCATES = 1 << 5,\r\n /** This flow calls super. Constructors only. */\r\n CALLS_SUPER = 1 << 6,\r\n\r\n // conditional\r\n\r\n /** This flow conditionally returns in a child flow. */\r\n CONDITIONALLY_RETURNS = 1 << 7,\r\n /** This flow conditionally throws in a child flow. */\r\n CONDITIONALLY_THROWS = 1 << 8,\r\n /** This flow conditionally breaks in a child flow. */\r\n CONDITIONALLY_BREAKS = 1 << 9,\r\n /** This flow conditionally continues in a child flow. */\r\n CONDITIONALLY_CONTINUES = 1 << 10,\r\n /** This flow conditionally allocates in a child flow. Constructors only. */\r\n CONDITIONALLY_ALLOCATES = 1 << 11,\r\n\r\n // special\r\n\r\n /** This is an inlining flow. */\r\n INLINE_CONTEXT = 1 << 12,\r\n /** This is a flow with explicitly disabled bounds checking. */\r\n UNCHECKED_CONTEXT = 1 << 13,\r\n\r\n // masks\r\n\r\n /** Any terminating flag. */\r\n ANY_TERMINATING = FlowFlags.RETURNS\r\n | FlowFlags.THROWS\r\n | FlowFlags.BREAKS\r\n | FlowFlags.CONTINUES,\r\n\r\n /** Any categorical flag. */\r\n ANY_CATEGORICAL = FlowFlags.RETURNS\r\n | FlowFlags.RETURNS_WRAPPED\r\n | FlowFlags.THROWS\r\n | FlowFlags.BREAKS\r\n | FlowFlags.CONTINUES\r\n | FlowFlags.ALLOCATES\r\n | FlowFlags.CALLS_SUPER,\r\n\r\n /** Any conditional flag. */\r\n ANY_CONDITIONAL = FlowFlags.CONDITIONALLY_RETURNS\r\n | FlowFlags.CONDITIONALLY_THROWS\r\n | FlowFlags.CONDITIONALLY_BREAKS\r\n | FlowFlags.CONDITIONALLY_CONTINUES\r\n | FlowFlags.CONDITIONALLY_ALLOCATES\r\n}\r\n\r\n/** A control flow evaluator. */\r\nexport class Flow {\r\n\r\n /** Parent flow. */\r\n parent: Flow | null;\r\n /** Flow flags indicating specific conditions. */\r\n flags: FlowFlags;\r\n /** Function this flow belongs to. */\r\n parentFunction: Function;\r\n /** The label we break to when encountering a continue statement. */\r\n continueLabel: string | null;\r\n /** The label we break to when encountering a break statement. */\r\n breakLabel: string | null;\r\n /** The current return type. */\r\n returnType: Type;\r\n /** The current contextual type arguments. */\r\n contextualTypeArguments: Map | null;\r\n /** Scoped local variables. */\r\n scopedLocals: Map | null = null;\r\n /** Local variable wrap states for the first 64 locals. */\r\n wrappedLocals: I64;\r\n /** Local variable wrap states for locals with index >= 64. */\r\n wrappedLocalsExt: I64[] | null;\r\n /** Function being inlined, when inlining. */\r\n inlineFunction: Function | null;\r\n /** The label we break to when encountering a return statement, when inlining. */\r\n inlineReturnLabel: string | null;\r\n\r\n /** Creates the parent flow of the specified function. */\r\n static create(parentFunction: Function): Flow {\r\n var flow = new Flow();\r\n flow.parent = null;\r\n flow.flags = FlowFlags.NONE;\r\n flow.parentFunction = parentFunction;\r\n flow.continueLabel = null;\r\n flow.breakLabel = null;\r\n flow.returnType = parentFunction.signature.returnType;\r\n flow.contextualTypeArguments = parentFunction.contextualTypeArguments;\r\n flow.wrappedLocals = i64_new(0);\r\n flow.wrappedLocalsExt = null;\r\n flow.inlineFunction = null;\r\n flow.inlineReturnLabel = null;\r\n return flow;\r\n }\r\n\r\n /** Creates an inline flow within `currentFunction`. */\r\n static createInline(parentFunction: Function, inlineFunction: Function): Flow {\r\n var flow = Flow.create(parentFunction);\r\n flow.set(FlowFlags.INLINE_CONTEXT);\r\n flow.inlineFunction = inlineFunction;\r\n flow.inlineReturnLabel = inlineFunction.internalName + \"|inlined.\" + (inlineFunction.nextInlineId++).toString(10);\r\n flow.returnType = inlineFunction.signature.returnType;\r\n flow.contextualTypeArguments = inlineFunction.contextualTypeArguments;\r\n return flow;\r\n }\r\n\r\n private constructor() { }\r\n\r\n /** Gets the actual function being compiled, The inlined function when inlining, otherwise the parent function. */\r\n get actualFunction(): Function {\r\n return this.inlineFunction || this.parentFunction;\r\n }\r\n\r\n /** Tests if this flow has the specified flag or flags. */\r\n is(flag: FlowFlags): bool { return (this.flags & flag) == flag; }\r\n /** Tests if this flow has one of the specified flags. */\r\n isAny(flag: FlowFlags): bool { return (this.flags & flag) != 0; }\r\n /** Sets the specified flag or flags. */\r\n set(flag: FlowFlags): void { this.flags |= flag; }\r\n /** Unsets the specified flag or flags. */\r\n unset(flag: FlowFlags): void { this.flags &= ~flag; }\r\n\r\n /** Forks this flow to a child flow. */\r\n fork(): Flow {\r\n var branch = new Flow();\r\n branch.parent = this;\r\n branch.flags = this.flags;\r\n branch.parentFunction = this.parentFunction;\r\n branch.continueLabel = this.continueLabel;\r\n branch.breakLabel = this.breakLabel;\r\n branch.returnType = this.returnType;\r\n branch.contextualTypeArguments = this.contextualTypeArguments;\r\n branch.wrappedLocals = this.wrappedLocals;\r\n branch.wrappedLocalsExt = this.wrappedLocalsExt ? this.wrappedLocalsExt.slice() : null;\r\n branch.inlineFunction = this.inlineFunction;\r\n branch.inlineReturnLabel = this.inlineReturnLabel;\r\n return branch;\r\n }\r\n\r\n /** Gets a free temporary local of the specified type. */\r\n getTempLocal(type: Type, wrapped: bool = false): Local {\r\n var parentFunction = this.parentFunction;\r\n var temps: Local[] | null;\r\n switch (type.toNativeType()) {\r\n case NativeType.I32: { temps = parentFunction.tempI32s; break; }\r\n case NativeType.I64: { temps = parentFunction.tempI64s; break; }\r\n case NativeType.F32: { temps = parentFunction.tempF32s; break; }\r\n case NativeType.F64: { temps = parentFunction.tempF64s; break; }\r\n case NativeType.V128: { temps = parentFunction.tempV128s; break; }\r\n default: throw new Error(\"concrete type expected\");\r\n }\r\n var local: Local;\r\n if (temps && temps.length) {\r\n local = temps.pop();\r\n local.type = type;\r\n local.flags = CommonFlags.NONE;\r\n } else {\r\n local = parentFunction.addLocal(type);\r\n }\r\n if (type.is(TypeFlags.SHORT | TypeFlags.INTEGER)) this.setLocalWrapped(local.index, wrapped);\r\n return local;\r\n }\r\n\r\n /** Frees the temporary local for reuse. */\r\n freeTempLocal(local: Local): void {\r\n if (local.is(CommonFlags.INLINED)) return;\r\n assert(local.index >= 0);\r\n var parentFunction = this.parentFunction;\r\n var temps: Local[];\r\n assert(local.type != null); // internal error\r\n switch ((local.type).toNativeType()) {\r\n case NativeType.I32: {\r\n temps = parentFunction.tempI32s || (parentFunction.tempI32s = []);\r\n break;\r\n }\r\n case NativeType.I64: {\r\n temps = parentFunction.tempI64s || (parentFunction.tempI64s = []);\r\n break;\r\n }\r\n case NativeType.F32: {\r\n temps = parentFunction.tempF32s || (parentFunction.tempF32s = []);\r\n break;\r\n }\r\n case NativeType.F64: {\r\n temps = parentFunction.tempF64s || (parentFunction.tempF64s = []);\r\n break;\r\n }\r\n case NativeType.V128: {\r\n temps = parentFunction.tempV128s || (parentFunction.tempV128s = []);\r\n break;\r\n }\r\n default: throw new Error(\"concrete type expected\");\r\n }\r\n assert(local.index >= 0);\r\n temps.push(local);\r\n }\r\n\r\n /** Gets and immediately frees a temporary local of the specified type. */\r\n getAndFreeTempLocal(type: Type, wrapped: bool): Local {\r\n var parentFunction = this.parentFunction;\r\n var temps: Local[];\r\n switch (type.toNativeType()) {\r\n case NativeType.I32: {\r\n temps = parentFunction.tempI32s || (parentFunction.tempI32s = []);\r\n break;\r\n }\r\n case NativeType.I64: {\r\n temps = parentFunction.tempI64s || (parentFunction.tempI64s = []);\r\n break;\r\n }\r\n case NativeType.F32: {\r\n temps = parentFunction.tempF32s || (parentFunction.tempF32s = []);\r\n break;\r\n }\r\n case NativeType.F64: {\r\n temps = parentFunction.tempF64s || (parentFunction.tempF64s = []);\r\n break;\r\n }\r\n case NativeType.V128: {\r\n temps = parentFunction.tempV128s || (parentFunction.tempV128s = []);\r\n break;\r\n }\r\n default: throw new Error(\"concrete type expected\");\r\n }\r\n var local: Local;\r\n if (temps.length) {\r\n local = temps[temps.length - 1];\r\n local.type = type;\r\n } else {\r\n local = parentFunction.addLocal(type);\r\n temps.push(local);\r\n }\r\n if (type.is(TypeFlags.SHORT | TypeFlags.INTEGER)) this.setLocalWrapped(local.index, wrapped);\r\n return local;\r\n }\r\n\r\n /** Adds a new scoped local of the specified name. */\r\n addScopedLocal(name: string, type: Type, wrapped: bool, reportNode: Node | null = null): Local {\r\n var scopedLocal = this.getTempLocal(type, false);\r\n if (!this.scopedLocals) this.scopedLocals = new Map();\r\n else {\r\n let existingLocal = this.scopedLocals.get(name);\r\n if (existingLocal) {\r\n if (reportNode) {\r\n this.parentFunction.program.error(\r\n DiagnosticCode.Duplicate_identifier_0,\r\n reportNode.range\r\n );\r\n }\r\n return existingLocal;\r\n }\r\n }\r\n scopedLocal.set(CommonFlags.SCOPED);\r\n this.scopedLocals.set(name, scopedLocal);\r\n if (type.is(TypeFlags.SHORT | TypeFlags.INTEGER)) {\r\n this.setLocalWrapped(scopedLocal.index, wrapped);\r\n }\r\n return scopedLocal;\r\n }\r\n\r\n /** Adds a new scoped alias for the specified local. For example `super` aliased to the `this` local. */\r\n addScopedAlias(name: string, type: Type, index: i32, reportNode: Node | null = null): Local {\r\n if (!this.scopedLocals) this.scopedLocals = new Map();\r\n else {\r\n let existingLocal = this.scopedLocals.get(name);\r\n if (existingLocal) {\r\n if (reportNode) {\r\n this.parentFunction.program.error(\r\n DiagnosticCode.Duplicate_identifier_0,\r\n reportNode.range\r\n );\r\n }\r\n return existingLocal;\r\n }\r\n }\r\n assert(index < this.parentFunction.localsByIndex.length);\r\n var scopedAlias = new Local(\r\n name,\r\n index,\r\n type,\r\n this.parentFunction\r\n );\r\n // not flagged as SCOPED as it must not be free'd when the flow is finalized\r\n this.scopedLocals.set(name, scopedAlias);\r\n return scopedAlias;\r\n }\r\n\r\n /** Frees this flow's scoped variables and returns its parent flow. */\r\n freeScopedLocals(): void {\r\n if (this.scopedLocals) {\r\n for (let scopedLocal of this.scopedLocals.values()) {\r\n if (scopedLocal.is(CommonFlags.SCOPED)) { // otherwise an alias\r\n this.freeTempLocal(scopedLocal);\r\n }\r\n }\r\n this.scopedLocals = null;\r\n }\r\n }\r\n\r\n /** Looks up the local of the specified name in the current scope. */\r\n lookupLocal(name: string): Local | null {\r\n var current: Flow | null = this;\r\n var scope: Map | null;\r\n do if ((scope = current.scopedLocals) && (scope.has(name))) return scope.get(name);\r\n while (current = current.parent);\r\n return this.parentFunction.localsByName.get(name);\r\n }\r\n\r\n /** Looks up the element with the specified name relative to the scope of this flow. */\r\n lookup(name: string): Element | null {\r\n var element = this.lookupLocal(name);\r\n if (element) return element;\r\n return this.actualFunction.lookup(name);\r\n }\r\n\r\n /** Tests if the value of the local at the specified index is considered wrapped. */\r\n isLocalWrapped(index: i32): bool {\r\n if (index < 0) return true; // inlined constant\r\n if (index < 64) return bitsetIs(this.wrappedLocals, index);\r\n var ext = this.wrappedLocalsExt;\r\n var i = ((index - 64) / 64) | 0;\r\n if (!(ext && i < ext.length)) return false;\r\n return bitsetIs(ext[i], index - (i + 1) * 64);\r\n }\r\n\r\n /** Sets if the value of the local at the specified index is considered wrapped. */\r\n setLocalWrapped(index: i32, wrapped: bool): void {\r\n if (index < 0) return; // inlined constant\r\n if (index < 64) {\r\n this.wrappedLocals = bitsetSet(this.wrappedLocals, index, wrapped);\r\n return;\r\n }\r\n var ext = this.wrappedLocalsExt;\r\n var i = ((index - 64) / 64) | 0;\r\n if (!ext) {\r\n this.wrappedLocalsExt = ext = new Array(i + 1);\r\n for (let j = 0; j <= i; ++j) ext[j] = i64_new(0);\r\n } else {\r\n while (ext.length <= i) ext.push(i64_new(0));\r\n }\r\n ext[i] = bitsetSet(ext[i], index - (i + 1) * 64, wrapped);\r\n }\r\n\r\n /** Pushes a new break label to the stack, for example when entering a loop that one can `break` from. */\r\n pushBreakLabel(): string {\r\n var parentFunction = this.parentFunction;\r\n var id = parentFunction.nextBreakId++;\r\n var stack = parentFunction.breakStack;\r\n if (!stack) parentFunction.breakStack = [ id ];\r\n else stack.push(id);\r\n return parentFunction.breakLabel = id.toString(10);\r\n }\r\n\r\n /** Pops the most recent break label from the stack. */\r\n popBreakLabel(): void {\r\n var parentFunction = this.parentFunction;\r\n var stack = assert(parentFunction.breakStack);\r\n var length = assert(stack.length);\r\n stack.pop();\r\n if (length > 1) {\r\n parentFunction.breakLabel = stack[length - 2].toString(10);\r\n } else {\r\n parentFunction.breakLabel = null;\r\n parentFunction.breakStack = null;\r\n }\r\n }\r\n\r\n /** Inherits flags and local wrap states from the specified flow (e.g. blocks). */\r\n inherit(other: Flow): void {\r\n this.flags |= other.flags & (FlowFlags.ANY_CATEGORICAL | FlowFlags.ANY_CONDITIONAL);\r\n this.wrappedLocals = other.wrappedLocals;\r\n this.wrappedLocalsExt = other.wrappedLocalsExt; // no need to slice because other flow is finished\r\n }\r\n\r\n /** Inherits categorical flags as conditional flags from the specified flow (e.g. then without else). */\r\n inheritConditional(other: Flow): void {\r\n if (other.is(FlowFlags.RETURNS)) {\r\n this.set(FlowFlags.CONDITIONALLY_RETURNS);\r\n }\r\n if (other.is(FlowFlags.THROWS)) {\r\n this.set(FlowFlags.CONDITIONALLY_THROWS);\r\n }\r\n if (other.is(FlowFlags.BREAKS) && other.breakLabel == this.breakLabel) {\r\n this.set(FlowFlags.CONDITIONALLY_BREAKS);\r\n }\r\n if (other.is(FlowFlags.CONTINUES) && other.continueLabel == this.continueLabel) {\r\n this.set(FlowFlags.CONDITIONALLY_CONTINUES);\r\n }\r\n if (other.is(FlowFlags.ALLOCATES)) {\r\n this.set(FlowFlags.CONDITIONALLY_ALLOCATES);\r\n }\r\n }\r\n\r\n /** Inherits mutual flags and local wrap states from the specified flows (e.g. then with else). */\r\n inheritMutual(left: Flow, right: Flow): void {\r\n // categorical flags set in both arms\r\n this.flags |= left.flags & right.flags & FlowFlags.ANY_CATEGORICAL;\r\n\r\n // conditional flags set in at least one arm\r\n this.flags |= left.flags & FlowFlags.ANY_CONDITIONAL;\r\n this.flags |= right.flags & FlowFlags.ANY_CONDITIONAL;\r\n\r\n // locals wrapped in both arms\r\n this.wrappedLocals = i64_and(left.wrappedLocals, right.wrappedLocals);\r\n var leftExt = left.wrappedLocalsExt;\r\n var rightExt = right.wrappedLocalsExt;\r\n if (leftExt != null && rightExt != null) {\r\n let thisExt = this.wrappedLocalsExt;\r\n let minLength = min(leftExt.length, rightExt.length);\r\n if (minLength) {\r\n if (!thisExt) thisExt = new Array(minLength);\r\n else while (thisExt.length < minLength) thisExt.push(i64_new(0));\r\n for (let i = 0; i < minLength; ++i) {\r\n thisExt[i] = i64_and(\r\n leftExt[i],\r\n rightExt[i]\r\n );\r\n }\r\n }\r\n }\r\n }\r\n\r\n /**\r\n * Tests if an expression can possibly overflow in the context of this flow. Assumes that the\r\n * expression might already have overflown and returns `false` only if the operation neglects\r\n * any possible combination of garbage bits being present.\r\n */\r\n canOverflow(expr: ExpressionRef, type: Type): bool {\r\n // TODO: the following catches most common and a few uncommon cases, but there are additional\r\n // opportunities here, obviously.\r\n assert(type != Type.void);\r\n\r\n // types other than i8, u8, i16, u16 and bool do not overflow\r\n if (!type.is(TypeFlags.SHORT | TypeFlags.INTEGER)) return false;\r\n\r\n var operand: ExpressionRef;\r\n switch (getExpressionId(expr)) {\r\n\r\n // overflows if the local isn't wrapped or the conversion does\r\n case ExpressionId.GetLocal: {\r\n let local = this.parentFunction.localsByIndex[getGetLocalIndex(expr)];\r\n return !this.isLocalWrapped(local.index)\r\n || canConversionOverflow(local.type, type);\r\n }\r\n\r\n // overflows if the value does\r\n case ExpressionId.SetLocal: { // tee\r\n assert(isTeeLocal(expr));\r\n return this.canOverflow(getSetLocalValue(expr), type);\r\n }\r\n\r\n // overflows if the conversion does (globals are wrapped on set)\r\n case ExpressionId.GetGlobal: {\r\n // TODO: this is inefficient because it has to read a string\r\n let global = assert(this.parentFunction.program.elementsByName.get(assert(getGetGlobalName(expr))));\r\n assert(global.kind == ElementKind.GLOBAL);\r\n return canConversionOverflow(assert((global).type), type);\r\n }\r\n\r\n case ExpressionId.Binary: {\r\n switch (getBinaryOp(expr)) {\r\n\r\n // comparisons do not overflow (result is 0 or 1)\r\n case BinaryOp.EqI32:\r\n case BinaryOp.EqI64:\r\n case BinaryOp.EqF32:\r\n case BinaryOp.EqF64:\r\n case BinaryOp.NeI32:\r\n case BinaryOp.NeI64:\r\n case BinaryOp.NeF32:\r\n case BinaryOp.NeF64:\r\n case BinaryOp.LtI32:\r\n case BinaryOp.LtU32:\r\n case BinaryOp.LtI64:\r\n case BinaryOp.LtU64:\r\n case BinaryOp.LtF32:\r\n case BinaryOp.LtF64:\r\n case BinaryOp.LeI32:\r\n case BinaryOp.LeU32:\r\n case BinaryOp.LeI64:\r\n case BinaryOp.LeU64:\r\n case BinaryOp.LeF32:\r\n case BinaryOp.LeF64:\r\n case BinaryOp.GtI32:\r\n case BinaryOp.GtU32:\r\n case BinaryOp.GtI64:\r\n case BinaryOp.GtU64:\r\n case BinaryOp.GtF32:\r\n case BinaryOp.GtF64:\r\n case BinaryOp.GeI32:\r\n case BinaryOp.GeU32:\r\n case BinaryOp.GeI64:\r\n case BinaryOp.GeU64:\r\n case BinaryOp.GeF32:\r\n case BinaryOp.GeF64: return false;\r\n\r\n // result won't overflow if one side is 0 or if one side is 1 and the other wrapped\r\n case BinaryOp.MulI32: {\r\n return !(\r\n (\r\n getExpressionId(operand = getBinaryLeft(expr)) == ExpressionId.Const &&\r\n (\r\n getConstValueI32(operand) == 0 ||\r\n (\r\n getConstValueI32(operand) == 1 &&\r\n !this.canOverflow(getBinaryRight(expr), type)\r\n )\r\n )\r\n ) || (\r\n getExpressionId(operand = getBinaryRight(expr)) == ExpressionId.Const &&\r\n (\r\n getConstValueI32(operand) == 0 ||\r\n (\r\n getConstValueI32(operand) == 1 &&\r\n !this.canOverflow(getBinaryLeft(expr), type)\r\n )\r\n )\r\n )\r\n );\r\n }\r\n\r\n // result won't overflow if one side is a constant less than this type's mask or one side\r\n // is wrapped\r\n case BinaryOp.AndI32: {\r\n // note that computeSmallIntegerMask returns the mask minus the MSB for signed types\r\n // because signed value garbage bits must be guaranteed to be equal to the MSB.\r\n return !(\r\n (\r\n (\r\n getExpressionId(operand = getBinaryLeft(expr)) == ExpressionId.Const &&\r\n getConstValueI32(operand) <= type.computeSmallIntegerMask(Type.i32)\r\n ) || !this.canOverflow(operand, type)\r\n ) || (\r\n (\r\n getExpressionId(operand = getBinaryRight(expr)) == ExpressionId.Const &&\r\n getConstValueI32(operand) <= type.computeSmallIntegerMask(Type.i32)\r\n ) || !this.canOverflow(operand, type)\r\n )\r\n );\r\n }\r\n\r\n // overflows if the shift doesn't clear potential garbage bits\r\n case BinaryOp.ShlI32: {\r\n let shift = 32 - type.size;\r\n return getExpressionId(operand = getBinaryRight(expr)) != ExpressionId.Const\r\n || getConstValueI32(operand) < shift;\r\n }\r\n\r\n // overflows if the value does and the shift doesn't clear potential garbage bits\r\n case BinaryOp.ShrI32: {\r\n let shift = 32 - type.size;\r\n return this.canOverflow(getBinaryLeft(expr), type) && (\r\n getExpressionId(operand = getBinaryRight(expr)) != ExpressionId.Const ||\r\n getConstValueI32(operand) < shift\r\n );\r\n }\r\n\r\n // overflows if the shift does not clear potential garbage bits. if an unsigned value is\r\n // wrapped, it can't overflow.\r\n case BinaryOp.ShrU32: {\r\n let shift = 32 - type.size;\r\n return type.is(TypeFlags.SIGNED)\r\n ? !(\r\n getExpressionId(operand = getBinaryRight(expr)) == ExpressionId.Const &&\r\n getConstValueI32(operand) > shift // must clear MSB\r\n )\r\n : this.canOverflow(getBinaryLeft(expr), type) && !(\r\n getExpressionId(operand = getBinaryRight(expr)) == ExpressionId.Const &&\r\n getConstValueI32(operand) >= shift // can leave MSB\r\n );\r\n }\r\n\r\n // overflows if any side does\r\n case BinaryOp.DivU32:\r\n case BinaryOp.RemI32:\r\n case BinaryOp.RemU32: {\r\n return this.canOverflow(getBinaryLeft(expr), type)\r\n || this.canOverflow(getBinaryRight(expr), type);\r\n }\r\n }\r\n break;\r\n }\r\n\r\n case ExpressionId.Unary: {\r\n switch (getUnaryOp(expr)) {\r\n\r\n // comparisons do not overflow (result is 0 or 1)\r\n case UnaryOp.EqzI32:\r\n case UnaryOp.EqzI64: return false;\r\n\r\n // overflow if the maximum result (32) cannot be represented in the target type\r\n case UnaryOp.ClzI32:\r\n case UnaryOp.CtzI32:\r\n case UnaryOp.PopcntI32: return type.size < 7;\r\n }\r\n break;\r\n }\r\n\r\n // overflows if the value cannot be represented in the target type\r\n case ExpressionId.Const: {\r\n let value: i32 = 0;\r\n switch (getExpressionType(expr)) {\r\n case NativeType.I32: { value = getConstValueI32(expr); break; }\r\n case NativeType.I64: { value = getConstValueI64Low(expr); break; } // discards upper bits\r\n case NativeType.F32: { value = i32(getConstValueF32(expr)); break; }\r\n case NativeType.F64: { value = i32(getConstValueF64(expr)); break; }\r\n default: assert(false);\r\n }\r\n switch (type.kind) {\r\n case TypeKind.I8: return value < i8.MIN_VALUE || value > i8.MAX_VALUE;\r\n case TypeKind.I16: return value < i16.MIN_VALUE || value > i16.MAX_VALUE;\r\n case TypeKind.U8: return value < 0 || value > u8.MAX_VALUE;\r\n case TypeKind.U16: return value < 0 || value > u16.MAX_VALUE;\r\n case TypeKind.BOOL: return (value & ~1) != 0;\r\n }\r\n break;\r\n }\r\n\r\n // overflows if the conversion does\r\n case ExpressionId.Load: {\r\n let fromType: Type;\r\n switch (getLoadBytes(expr)) {\r\n case 1: { fromType = isLoadSigned(expr) ? Type.i8 : Type.u8; break; }\r\n case 2: { fromType = isLoadSigned(expr) ? Type.i16 : Type.u16; break; }\r\n default: { fromType = isLoadSigned(expr) ? Type.i32 : Type.u32; break; }\r\n }\r\n return canConversionOverflow(fromType, type);\r\n }\r\n\r\n // overflows if the result does, which is either\r\n // - the last expression of the block, by contract, if the block doesn't have a label\r\n // - the last expression or the value of an inner br if the block has a label (TODO)\r\n case ExpressionId.Block: {\r\n if (!getBlockName(expr)) {\r\n let size = assert(getBlockChildCount(expr));\r\n let last = getBlockChild(expr, size - 1);\r\n return this.canOverflow(last, type);\r\n }\r\n break;\r\n }\r\n\r\n // overflows if either side does\r\n case ExpressionId.If: {\r\n return this.canOverflow(getIfTrue(expr), type)\r\n || this.canOverflow(assert(getIfFalse(expr)), type);\r\n }\r\n\r\n // overflows if either side does\r\n case ExpressionId.Select: {\r\n return this.canOverflow(getSelectThen(expr), type)\r\n || this.canOverflow(getSelectElse(expr), type);\r\n }\r\n\r\n // overflows if the call does not return a wrapped value or the conversion does\r\n case ExpressionId.Call: {\r\n let program = this.parentFunction.program;\r\n let instance = assert(program.instancesByName.get(assert(getCallTarget(expr))));\r\n assert(instance.kind == ElementKind.FUNCTION);\r\n let returnType = (instance).signature.returnType;\r\n return !(instance).flow.is(FlowFlags.RETURNS_WRAPPED)\r\n || canConversionOverflow(returnType, type);\r\n }\r\n\r\n // doesn't technically overflow\r\n case ExpressionId.Unreachable: return false;\r\n }\r\n return true;\r\n }\r\n}\r\n\r\n/** Tests if a conversion from one type to another can technically overflow. */\r\nfunction canConversionOverflow(fromType: Type, toType: Type): bool {\r\n return !fromType.is(TypeFlags.INTEGER) // non-i32 locals or returns\r\n || fromType.size > toType.size\r\n || fromType.is(TypeFlags.SIGNED) != toType.is(TypeFlags.SIGNED);\r\n}\r\n","/**\r\n * A decompiler that generates low-level AssemblyScript from WebAssembly binaries.\r\n * @module decompiler\r\n *//***/\r\n\r\nimport {\r\n Module,\r\n NativeType,\r\n ExpressionId,\r\n UnaryOp,\r\n BinaryOp,\r\n HostOp,\r\n FunctionRef,\r\n ExpressionRef,\r\n Index,\r\n getFunctionName,\r\n getFunctionBody,\r\n getFunctionParamCount,\r\n getFunctionParamType,\r\n getFunctionResultType,\r\n getExpressionId,\r\n getExpressionType,\r\n getBlockName,\r\n getBlockChildCount,\r\n getBlockChild,\r\n getIfCondition,\r\n getIfTrue,\r\n getIfFalse,\r\n getLoopName,\r\n getLoopBody,\r\n getBreakName,\r\n getBreakCondition,\r\n getGetLocalIndex,\r\n getSetLocalIndex,\r\n getSetLocalValue,\r\n getLoadOffset,\r\n getLoadPtr,\r\n getStoreOffset,\r\n getStorePtr,\r\n getStoreValue,\r\n getConstValueI32,\r\n getConstValueI64Low,\r\n getConstValueI64High,\r\n getConstValueF32,\r\n getConstValueF64,\r\n getUnaryOp,\r\n getUnaryValue,\r\n getBinaryOp,\r\n getBinaryLeft,\r\n getBinaryRight,\r\n getSelectThen,\r\n getSelectElse,\r\n getSelectCondition,\r\n getDropValue,\r\n getReturnValue,\r\n getHostOp,\r\n getHostOperand\r\n} from \"./module\";\r\n\r\n// TODO :-)\r\n\r\nexport class Decompiler {\r\n\r\n static decompile(module: Module): string {\r\n var decompiler = new Decompiler();\r\n decompiler.decompile(module);\r\n return decompiler.finish();\r\n }\r\n\r\n text: string[] = [];\r\n functionId: i32 = 0;\r\n\r\n constructor() { }\r\n\r\n /** Decompiles a module to an AST that can then be serialized. */\r\n decompile(module: Module): void {\r\n throw new Error(\"not implemented\");\r\n }\r\n\r\n decompileFunction(func: FunctionRef): void {\r\n var name = getFunctionName(func) || \"$\" + this.functionId.toString(10);\r\n var body = getFunctionBody(func);\r\n this.push(\"function \");\r\n this.push(name);\r\n this.push(\"(\");\r\n for (let i: Index = 0, k: Index = getFunctionParamCount(func); i < k; ++i) {\r\n if (i > 0) this.push(\", \");\r\n this.push(\"$\");\r\n this.push(i.toString(10));\r\n this.push(\": \");\r\n this.push(nativeTypeToType(getFunctionParamType(func, i)));\r\n }\r\n this.push(\"): \");\r\n this.push(nativeTypeToType(getFunctionResultType(func)));\r\n this.push(\" \");\r\n if (getExpressionId(body) != ExpressionId.Block) {\r\n this.push(\"{\\n\");\r\n }\r\n this.decompileExpression(body);\r\n if (getExpressionId(body) != ExpressionId.Block) {\r\n this.push(\"\\n}\\n\");\r\n }\r\n ++this.functionId;\r\n }\r\n\r\n decompileExpression(expr: ExpressionRef): void {\r\n var id = getExpressionId(expr);\r\n var type = getExpressionType(expr);\r\n\r\n var nested: ExpressionRef;\r\n var string: string | null;\r\n var i: Index, k: Index;\r\n\r\n switch (id) {\r\n case ExpressionId.Block: { // TODO: magic\r\n if ((string = getBlockName(expr)) != null) {\r\n this.push(string);\r\n this.push(\": \");\r\n }\r\n this.push(\"{\\n\");\r\n k = getBlockChildCount(expr);\r\n for (i = 0; i < k; ++i) {\r\n this.decompileExpression(getBlockChild(expr, i));\r\n }\r\n this.push(\"}\\n\");\r\n return;\r\n }\r\n case ExpressionId.If: {\r\n if (type == NativeType.None) {\r\n this.push(\"if (\");\r\n this.decompileExpression(getIfCondition(expr));\r\n this.push(\") \");\r\n this.decompileExpression(getIfTrue(expr));\r\n if (nested = getIfFalse(expr)) {\r\n this.push(\" else \");\r\n this.decompileExpression(nested);\r\n }\r\n } else {\r\n this.decompileExpression(getIfCondition(expr));\r\n this.push(\" ? \");\r\n this.decompileExpression(getIfTrue(expr));\r\n this.push(\" : \");\r\n this.decompileExpression(getIfFalse(expr));\r\n }\r\n return;\r\n }\r\n case ExpressionId.Loop: {\r\n if ((string = getLoopName(expr)) != null) {\r\n this.push(string);\r\n this.push(\": \");\r\n }\r\n this.push(\"do \");\r\n this.decompileExpression(getLoopBody(expr));\r\n this.push(\"while (0);\\n\");\r\n }\r\n case ExpressionId.Break: {\r\n if (nested = getBreakCondition(expr)) {\r\n this.push(\"if (\");\r\n this.decompileExpression(nested);\r\n this.push(\") \");\r\n }\r\n if ((string = getBreakName(expr)) != null) {\r\n this.push(\"break \");\r\n this.push(string);\r\n this.push(\";\\n\");\r\n } else {\r\n this.push(\"break;\\n\");\r\n }\r\n return;\r\n }\r\n case ExpressionId.Switch:\r\n case ExpressionId.Call:\r\n case ExpressionId.CallIndirect: {\r\n throw new Error(\"not implemented\");\r\n }\r\n case ExpressionId.GetLocal: {\r\n this.push(\"$\");\r\n this.push(getGetLocalIndex(expr).toString(10));\r\n return;\r\n }\r\n case ExpressionId.SetLocal: {\r\n this.push(\"$\");\r\n this.push(getSetLocalIndex(expr).toString(10));\r\n this.push(\" = \");\r\n this.decompileExpression(getSetLocalValue(expr));\r\n return;\r\n }\r\n case ExpressionId.GetGlobal:\r\n case ExpressionId.SetGlobal: {\r\n throw new Error(\"not implemented\");\r\n }\r\n case ExpressionId.Load: {\r\n this.push(\"load<\");\r\n this.push(nativeTypeToType(type));\r\n this.push(\">(\");\r\n this.push(getLoadOffset(expr).toString(10));\r\n this.push(\" + \");\r\n this.decompileExpression(getLoadPtr(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case ExpressionId.Store: {\r\n this.push(\"store<\");\r\n this.push(nativeTypeToType(type));\r\n this.push(\">(\");\r\n this.push(getStoreOffset(expr).toString(10));\r\n this.push(\" + \");\r\n this.decompileExpression(getStorePtr(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getStoreValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case ExpressionId.Const: {\r\n switch (type) {\r\n case NativeType.I32: {\r\n this.push(getConstValueI32(expr).toString(10));\r\n return;\r\n }\r\n case NativeType.I64: {\r\n this.push(\r\n i64_to_string(\r\n i64_new(\r\n getConstValueI64Low(expr),\r\n getConstValueI64High(expr)\r\n )\r\n )\r\n );\r\n return;\r\n }\r\n case NativeType.F32: {\r\n this.push(getConstValueF32(expr).toString(10));\r\n return;\r\n }\r\n case NativeType.F64: {\r\n this.push(getConstValueF64(expr).toString(10));\r\n return;\r\n }\r\n }\r\n break;\r\n }\r\n case ExpressionId.Unary: {\r\n switch (getUnaryOp(expr)) {\r\n case UnaryOp.ClzI32: {\r\n this.push(\"clz(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.CtzI32: {\r\n this.push(\"ctz(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.PopcntI32: {\r\n this.push(\"popcnt(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.NegF32:\r\n case UnaryOp.NegF64: {\r\n this.push(\"-\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.AbsF32: {\r\n this.push(\"abs(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.CeilF32: {\r\n this.push(\"ceil(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.FloorF32: {\r\n this.push(\"floor(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.TruncF32: {\r\n this.push(\"trunc(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.NearestF32: {\r\n this.push(\"nearest(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.SqrtF32: {\r\n this.push(\"sqrt(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.EqzI32:\r\n case UnaryOp.EqzI64: {\r\n this.push(\"!\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ClzI64: {\r\n this.push(\"clz(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.CtzI64: {\r\n this.push(\"ctz(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.PopcntI64: {\r\n this.push(\"popcnt(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.AbsF64: {\r\n this.push(\"abs(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.CeilF64: {\r\n this.push(\"ceil(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.FloorF64: {\r\n this.push(\"floor(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.TruncF64: {\r\n this.push(\"trunc(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.NearestF64: {\r\n this.push(\"nearest(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.SqrtF64: {\r\n this.push(\"sqrt(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.ExtendI32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ExtendU32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.WrapI64: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.TruncF32ToI32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.TruncF32ToI64: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.TruncF32ToU32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.TruncF32ToU64: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.TruncF64ToI32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.TruncF64ToI64: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.TruncF64ToU32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.TruncF64ToU64: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ReinterpretF32: {\r\n this.push(\"reinterpret(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.ReinterpretF64: {\r\n this.push(\"reinterpret(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.ConvertI32ToF32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ConvertI32ToF64: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ConvertU32ToF32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ConvertU32ToF64: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ConvertI64ToF32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ConvertI64ToF64: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ConvertU64ToF32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ConvertU64ToF64: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.PromoteF32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.DemoteF64: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ReinterpretI32: {\r\n this.push(\"reinterpret(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.ReinterpretI64: {\r\n this.push(\"reinterpret(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n }\r\n break;\r\n }\r\n case ExpressionId.Binary: { // TODO: precedence\r\n switch (getBinaryOp(expr)) {\r\n case BinaryOp.AddI32:\r\n case BinaryOp.AddI64:\r\n case BinaryOp.AddF32:\r\n case BinaryOp.AddF64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" + \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.SubI32:\r\n case BinaryOp.SubI64:\r\n case BinaryOp.SubF32:\r\n case BinaryOp.SubF64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" - \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.MulI32:\r\n case BinaryOp.MulI64:\r\n case BinaryOp.MulF32:\r\n case BinaryOp.MulF64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" * \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.DivI32:\r\n case BinaryOp.DivI64:\r\n case BinaryOp.DivF32:\r\n case BinaryOp.DivF64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" / \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.DivU32: {\r\n this.push(\"(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" / \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.RemI32:\r\n case BinaryOp.RemI64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" % \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.RemU32: {\r\n this.push(\"(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" / \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.AndI32:\r\n case BinaryOp.AndI64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" & \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.OrI32:\r\n case BinaryOp.OrI64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" | \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.XorI32:\r\n case BinaryOp.XorI64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" ^ \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.ShlI32:\r\n case BinaryOp.ShlI64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" << \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.ShrU32:\r\n case BinaryOp.ShrU64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" >>> \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.ShrI32:\r\n case BinaryOp.ShrI64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" >> \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.RotlI32: {\r\n this.push(\"rotl(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.RotrI32: {\r\n this.push(\"rotr(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.EqI32:\r\n case BinaryOp.EqI64:\r\n case BinaryOp.EqF32:\r\n case BinaryOp.EqF64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" == \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.NeI32:\r\n case BinaryOp.NeI64:\r\n case BinaryOp.NeF32:\r\n case BinaryOp.NeF64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" != \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.LtI32:\r\n case BinaryOp.LtI64:\r\n case BinaryOp.LtF32:\r\n case BinaryOp.LtF64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" < \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.LtU32: {\r\n this.push(\"\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" < \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.LeI32:\r\n case BinaryOp.LeI64:\r\n case BinaryOp.LeF32:\r\n case BinaryOp.LeF64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" <= \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.LeU32: {\r\n this.push(\"\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" <= \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.GtI32:\r\n case BinaryOp.GtI64:\r\n case BinaryOp.GtF32:\r\n case BinaryOp.GtF64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" > \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.GtU32: {\r\n this.push(\"\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" > \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.GeI32:\r\n case BinaryOp.GeI64:\r\n case BinaryOp.GeF32:\r\n case BinaryOp.GeF64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" >= \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.GeU32: {\r\n this.push(\"\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" >= \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.DivU64: {\r\n this.push(\"\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" / \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.RemU64: {\r\n this.push(\"\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" % \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.RotlI64: {\r\n this.push(\"rotl(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.RotrI64: {\r\n this.push(\"rotr(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.LtU64: {\r\n this.push(\"\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" < \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.LeU64: {\r\n this.push(\"\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" <= \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.GtU64: {\r\n this.push(\"\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" > \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.GeU64: {\r\n this.push(\"\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" >= \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.CopysignF32: {\r\n this.push(\"copysign(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.MinF32: {\r\n this.push(\"min(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.MaxF32: {\r\n this.push(\"max(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.CopysignF64: {\r\n this.push(\"copysign(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.MinF64: {\r\n this.push(\"min(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.MaxF64: {\r\n this.push(\"max(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n }\r\n return;\r\n }\r\n case ExpressionId.Select: {\r\n this.push(\"select<\");\r\n this.push(nativeTypeToType(type));\r\n this.push(\">(\");\r\n this.decompileExpression(getSelectThen(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getSelectElse(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getSelectCondition(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case ExpressionId.Drop: {\r\n this.decompileExpression(getDropValue(expr));\r\n this.push(\";\\n\");\r\n return;\r\n }\r\n case ExpressionId.Return: {\r\n if (nested = getReturnValue(expr)) {\r\n this.push(\"return \");\r\n this.decompileExpression(nested);\r\n this.push(\";\\n\");\r\n } else {\r\n this.push(\"return;\\n\");\r\n }\r\n return;\r\n }\r\n case ExpressionId.Host: {\r\n switch (getHostOp(expr)) {\r\n case HostOp.CurrentMemory: {\r\n this.push(\"memory.size()\");\r\n return;\r\n }\r\n case HostOp.GrowMemory: {\r\n this.push(\"memory.grow(\");\r\n this.decompileExpression(getHostOperand(expr, 0));\r\n this.push(\")\");\r\n return;\r\n }\r\n }\r\n break;\r\n }\r\n case ExpressionId.Nop: {\r\n this.push(\";\\n\");\r\n return;\r\n }\r\n case ExpressionId.Unreachable: {\r\n this.push(\"unreachable()\");\r\n return;\r\n }\r\n case ExpressionId.AtomicCmpxchg:\r\n case ExpressionId.AtomicRMW:\r\n case ExpressionId.AtomicWait:\r\n case ExpressionId.AtomicWake:\r\n }\r\n throw new Error(\"not implemented\");\r\n }\r\n\r\n private push(text: string): void {\r\n // mostly here so we can add debugging if necessary\r\n this.text.push(text);\r\n }\r\n\r\n finish(): string {\r\n var ret = this.text.join(\"\");\r\n this.text = [];\r\n return ret;\r\n }\r\n}\r\n\r\nfunction nativeTypeToType(type: NativeType): string {\r\n switch (type) {\r\n case NativeType.None: return \"void\";\r\n case NativeType.I32: return \"i32\";\r\n case NativeType.I64: return \"i64\";\r\n case NativeType.F32: return \"f32\";\r\n case NativeType.F64: return \"f64\";\r\n case NativeType.V128: return \"v128\";\r\n case NativeType.Unreachable: throw new Error(\"unreachable type\");\r\n case NativeType.Auto: throw new Error(\"auto type\");\r\n default: throw new Error(\"unexpected type\");\r\n }\r\n}\r\n","/**\r\n * Definition builders for WebIDL and TypeScript.\r\n * @module definitions\r\n *//***/\r\n\r\nimport {\r\n CommonFlags\r\n} from \"./common\";\r\n\r\nimport {\r\n Program,\r\n Element,\r\n ElementKind,\r\n Global,\r\n Enum,\r\n EnumValue,\r\n Field,\r\n Function,\r\n FunctionPrototype,\r\n Class,\r\n ClassPrototype,\r\n Namespace,\r\n ConstantValueKind,\r\n Interface,\r\n Property,\r\n PropertyPrototype\r\n} from \"./program\";\r\n\r\nimport {\r\n Type,\r\n TypeKind\r\n} from \"./types\";\r\n\r\nimport {\r\n indent\r\n} from \"./util\";\r\n\r\n/** Walker base class. */\r\nabstract class ExportsWalker {\r\n\r\n /** Program reference. */\r\n program: Program;\r\n /** Whether to include private members */\r\n includePrivate: bool;\r\n /** Elements still to do. */\r\n todo: Element[] = [];\r\n /** Already seen elements. */\r\n seen: Set = new Set();\r\n\r\n /** Constructs a new Element walker. */\r\n constructor(program: Program, includePrivate: bool = false) {\r\n this.program = program;\r\n this.includePrivate;\r\n }\r\n\r\n /** Walks all elements and calls the respective handlers. */\r\n walk(): void {\r\n for (let file of this.program.filesByName.values()) {\r\n let members = file.members;\r\n if (!members) continue;\r\n for (let member of members.values()) {\r\n // FIXME: doesn't honor the actual externally visible name\r\n this.visitElement(member);\r\n }\r\n }\r\n var todo = this.todo;\r\n for (let i = 0; i < todo.length; ) this.visitElement(todo[i]);\r\n }\r\n\r\n /** Visits an element.*/\r\n visitElement(element: Element): void {\r\n if (element.is(CommonFlags.PRIVATE) && !this.includePrivate) return;\r\n if (this.seen.has(element)) return;\r\n this.seen.add(element);\r\n switch (element.kind) {\r\n case ElementKind.GLOBAL: {\r\n if (element.is(CommonFlags.COMPILED)) this.visitGlobal(element);\r\n break;\r\n }\r\n case ElementKind.ENUM: {\r\n if (element.is(CommonFlags.COMPILED)) this.visitEnum(element);\r\n break;\r\n }\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n this.visitFunctionInstances(element);\r\n break;\r\n }\r\n case ElementKind.CLASS_PROTOTYPE: {\r\n this.visitClassInstances(element);\r\n break;\r\n }\r\n case ElementKind.FIELD: {\r\n if ((element).is(CommonFlags.COMPILED)) this.visitField(element);\r\n break;\r\n }\r\n case ElementKind.PROPERTY_PROTOTYPE: {\r\n this.visitPropertyInstances(element);\r\n break;\r\n }\r\n case ElementKind.PROPERTY: {\r\n let prop = element;\r\n let getter = prop.getterInstance;\r\n if (getter) this.visitFunction(getter);\r\n let setter = prop.setterInstance;\r\n if (setter) this.visitFunction(setter);\r\n break;\r\n }\r\n case ElementKind.NAMESPACE: {\r\n if (hasCompiledMember(element)) this.visitNamespace(element);\r\n break;\r\n }\r\n case ElementKind.TYPEDEFINITION: break;\r\n default: assert(false);\r\n }\r\n }\r\n\r\n private visitFunctionInstances(element: FunctionPrototype): void {\r\n var instances = element.instances;\r\n if (instances) {\r\n for (let instance of instances.values()) {\r\n if (instance.is(CommonFlags.COMPILED)) this.visitFunction(instance);\r\n }\r\n }\r\n }\r\n\r\n private visitClassInstances(element: ClassPrototype): void {\r\n var instances = element.instances;\r\n if (instances) {\r\n for (let instance of instances.values()) {\r\n if (instance.is(CommonFlags.COMPILED)) this.visitClass(instance);\r\n }\r\n }\r\n }\r\n\r\n private visitPropertyInstances(element: PropertyPrototype): void {\r\n // var instances = element.instances;\r\n // if (instances) {\r\n // for (let instance of instances.values()) {\r\n // if (instance.is(CommonFlags.COMPILED)) this.visitProperty(instance);\r\n // }\r\n // }\r\n assert(false);\r\n }\r\n\r\n abstract visitGlobal(element: Global): void;\r\n abstract visitEnum(element: Enum): void;\r\n abstract visitFunction(element: Function): void;\r\n abstract visitClass(element: Class): void;\r\n abstract visitInterface(element: Interface): void;\r\n abstract visitField(element: Field): void;\r\n abstract visitNamespace(element: Element): void;\r\n}\r\n\r\n/** A WebIDL definitions builder. */\r\nexport class IDLBuilder extends ExportsWalker {\r\n\r\n /** Builds WebIDL definitions for the specified program. */\r\n static build(program: Program): string {\r\n return new IDLBuilder(program).build();\r\n }\r\n\r\n private sb: string[] = [];\r\n private indentLevel: i32 = 0;\r\n\r\n /** Constructs a new WebIDL builder. */\r\n constructor(program: Program, includePrivate: bool = false) {\r\n super(program, includePrivate);\r\n }\r\n\r\n visitGlobal(element: Global): void {\r\n var sb = this.sb;\r\n var isConst = element.is(CommonFlags.INLINED);\r\n indent(sb, this.indentLevel);\r\n if (isConst) sb.push(\"const \");\r\n sb.push(this.typeToString(element.type));\r\n sb.push(\" \");\r\n sb.push(element.name);\r\n if (isConst) {\r\n switch (element.constantValueKind) {\r\n case ConstantValueKind.INTEGER: {\r\n sb.push(\" = \");\r\n sb.push(i64_to_string(element.constantIntegerValue));\r\n break;\r\n }\r\n case ConstantValueKind.FLOAT: {\r\n sb.push(\" = \");\r\n sb.push(element.constantFloatValue.toString());\r\n break;\r\n }\r\n default: assert(false);\r\n }\r\n }\r\n sb.push(\";\\n\");\r\n }\r\n\r\n visitEnum(element: Enum): void {\r\n var sb = this.sb;\r\n indent(sb, this.indentLevel++);\r\n sb.push(\"interface \");\r\n sb.push(element.name);\r\n sb.push(\" {\\n\");\r\n var members = element.members;\r\n if (members) {\r\n for (let [name, member] of members) {\r\n if (member.kind == ElementKind.ENUMVALUE) {\r\n let isConst = (member).is(CommonFlags.INLINED);\r\n indent(sb, this.indentLevel);\r\n if (isConst) sb.push(\"const \");\r\n else sb.push(\"readonly \");\r\n sb.push(\"unsigned long \");\r\n sb.push(name);\r\n if (isConst) {\r\n sb.push(\" = \");\r\n assert((member).constantValueKind == ConstantValueKind.INTEGER);\r\n sb.push(i64_low((member).constantIntegerValue).toString(10));\r\n }\r\n sb.push(\";\\n\");\r\n }\r\n }\r\n for (let member of members.values()) {\r\n if (member.kind != ElementKind.ENUMVALUE) this.visitElement(member);\r\n }\r\n }\r\n indent(sb, --this.indentLevel);\r\n sb.push(\"}\\n\");\r\n }\r\n\r\n visitFunction(element: Function): void {\r\n var sb = this.sb;\r\n var signature = element.signature;\r\n indent(sb, this.indentLevel);\r\n sb.push(this.typeToString(signature.returnType));\r\n sb.push(\" \");\r\n sb.push(element.name);\r\n sb.push(\"(\");\r\n var parameters = signature.parameterTypes;\r\n var numParameters = parameters.length;\r\n // var requiredParameters = signature.requiredParameters;\r\n for (let i = 0; i < numParameters; ++i) {\r\n if (i) sb.push(\", \");\r\n // if (i >= requiredParameters) sb.push(\"optional \");\r\n sb.push(this.typeToString(parameters[i]));\r\n sb.push(\" \");\r\n sb.push(signature.getParameterName(i));\r\n }\r\n sb.push(\");\\n\");\r\n var members = element.members;\r\n if (members && members.size) {\r\n indent(sb, this.indentLevel);\r\n sb.push(\"interface \");\r\n sb.push(element.name);\r\n sb.push(\" {\\n\");\r\n for (let member of members.values()) this.visitElement(member);\r\n indent(sb, --this.indentLevel);\r\n sb.push(\"}\\n\");\r\n }\r\n }\r\n\r\n visitClass(element: Class): void {\r\n var sb = this.sb;\r\n indent(sb, this.indentLevel++);\r\n sb.push(\"interface \");\r\n sb.push(element.name);\r\n sb.push(\" {\\n\");\r\n // TODO\r\n indent(sb, --this.indentLevel);\r\n sb.push(\"}\\n\");\r\n }\r\n\r\n visitInterface(element: Interface): void {\r\n this.visitClass(element);\r\n }\r\n\r\n visitField(element: Field): void {\r\n // TODO\r\n }\r\n\r\n visitNamespace(element: Namespace): void {\r\n var sb = this.sb;\r\n indent(sb, this.indentLevel++);\r\n sb.push(\"interface \");\r\n sb.push(element.name);\r\n sb.push(\" {\\n\");\r\n var members = element.members;\r\n if (members) {\r\n for (let member of members.values()) this.visitElement(member);\r\n }\r\n indent(sb, --this.indentLevel);\r\n sb.push(\"}\\n\");\r\n }\r\n\r\n typeToString(type: Type): string {\r\n switch (type.kind) {\r\n case TypeKind.I8: return \"byte\";\r\n case TypeKind.I16: return \"short\";\r\n case TypeKind.I32: return \"long\";\r\n case TypeKind.I64: return \"long long\";\r\n case TypeKind.ISIZE: return this.program.options.isWasm64 ? \"long long\" : \"long\";\r\n case TypeKind.U8: return \"octet\";\r\n case TypeKind.U16: return \"unsigned short\";\r\n case TypeKind.U32: return \"unsigned long\";\r\n // ^ TODO: function types\r\n case TypeKind.U64: return \"unsigned long long\";\r\n case TypeKind.USIZE: return this.program.options.isWasm64 ? \"unsigned long long\" : \"unsigned long\";\r\n // ^ TODO: class types\r\n case TypeKind.BOOL: return \"boolean\";\r\n case TypeKind.F32: return \"unrestricted float\";\r\n case TypeKind.F64: return \"unrestricted double\";\r\n case TypeKind.VOID: return \"void\";\r\n default: {\r\n assert(false);\r\n return \"\";\r\n }\r\n }\r\n }\r\n\r\n build(): string {\r\n var sb = this.sb;\r\n sb.push(\"interface ASModule {\\n\");\r\n ++this.indentLevel;\r\n this.walk();\r\n --this.indentLevel;\r\n sb.push(\"}\\n\");\r\n return sb.join(\"\");\r\n }\r\n}\r\n\r\n/** A TypeScript definitions builder. */\r\nexport class TSDBuilder extends ExportsWalker {\r\n\r\n /** Builds TypeScript definitions for the specified program. */\r\n static build(program: Program): string {\r\n return new TSDBuilder(program).build();\r\n }\r\n\r\n private sb: string[] = [];\r\n private indentLevel: i32 = 0;\r\n\r\n /** Constructs a new WebIDL builder. */\r\n constructor(program: Program, includePrivate: bool = false) {\r\n super(program, includePrivate);\r\n }\r\n\r\n visitGlobal(element: Global): void {\r\n var sb = this.sb;\r\n var isConst = element.is(CommonFlags.INLINED);\r\n indent(sb, this.indentLevel);\r\n if (element.is(CommonFlags.STATIC)) {\r\n if (isConst) sb.push(\"static readonly \");\r\n else sb.push(\"static \");\r\n } else {\r\n if (isConst) sb.push(\"const \");\r\n else sb.push(\"var \");\r\n }\r\n sb.push(element.name);\r\n sb.push(\": \");\r\n sb.push(this.typeToString(element.type));\r\n sb.push(\";\\n\");\r\n this.visitNamespace(element);\r\n }\r\n\r\n visitEnum(element: Enum): void {\r\n var sb = this.sb;\r\n indent(sb, this.indentLevel++);\r\n sb.push(\"enum \");\r\n sb.push(element.name);\r\n sb.push(\" {\\n\");\r\n var members = element.members;\r\n if (members) {\r\n let numMembers = members.size;\r\n for (let [name, member] of members) {\r\n if (member.kind == ElementKind.ENUMVALUE) {\r\n indent(sb, this.indentLevel);\r\n sb.push(name);\r\n if (member.is(CommonFlags.INLINED)) {\r\n sb.push(\" = \");\r\n assert((member).constantValueKind == ConstantValueKind.INTEGER);\r\n sb.push(i64_low((member).constantIntegerValue).toString(10));\r\n }\r\n sb.push(\",\\n\");\r\n --numMembers;\r\n }\r\n }\r\n if (numMembers) this.visitNamespace(element);\r\n }\r\n indent(sb, --this.indentLevel);\r\n sb.push(\"}\\n\");\r\n }\r\n\r\n visitFunction(element: Function): void {\r\n if (element.isAny(CommonFlags.PRIVATE | CommonFlags.SET)) return;\r\n var sb = this.sb;\r\n var signature = element.signature;\r\n indent(sb, this.indentLevel);\r\n if (element.is(CommonFlags.PROTECTED)) sb.push(\"protected \");\r\n if (element.is(CommonFlags.STATIC)) sb.push(\"static \");\r\n if (element.is(CommonFlags.GET)) {\r\n sb.push(element.identifierNode.text); // 'get:funcName' internally\r\n sb.push(\": \");\r\n sb.push(this.typeToString(signature.returnType));\r\n sb.push(\";\\n\");\r\n return;\r\n } else {\r\n if (!element.isAny(CommonFlags.STATIC | CommonFlags.INSTANCE)) sb.push(\"function \");\r\n sb.push(element.name);\r\n }\r\n sb.push(\"(\");\r\n var parameters = signature.parameterTypes;\r\n var numParameters = parameters.length;\r\n // var requiredParameters = signature.requiredParameters;\r\n for (let i = 0; i < numParameters; ++i) {\r\n if (i) sb.push(\", \");\r\n // if (i >= requiredParameters) sb.push(\"optional \");\r\n sb.push(signature.getParameterName(i));\r\n sb.push(\": \");\r\n sb.push(this.typeToString(parameters[i]));\r\n }\r\n if (element.isAny(CommonFlags.CONSTRUCTOR | CommonFlags.SET)) {\r\n sb.push(\")\");\r\n } else {\r\n sb.push(\"): \");\r\n sb.push(this.typeToString(signature.returnType));\r\n }\r\n sb.push(\";\\n\");\r\n this.visitNamespace(element);\r\n }\r\n\r\n visitClass(element: Class): void {\r\n var sb = this.sb;\r\n var isInterface = element.kind == ElementKind.INTERFACE;\r\n indent(sb, this.indentLevel++);\r\n if (isInterface) {\r\n sb.push(\"interface \");\r\n } else {\r\n if (element.is(CommonFlags.ABSTRACT)) sb.push(\"abstract \");\r\n sb.push(\"class \");\r\n }\r\n sb.push(element.name);\r\n var base = element.base;\r\n if (base && base.is(CommonFlags.COMPILED | CommonFlags.MODULE_EXPORT)) {\r\n sb.push(\" extends \");\r\n sb.push(base.name); // TODO: fqn\r\n }\r\n sb.push(\" {\\n\");\r\n var members = element.parent.members; // static\r\n if (members) {\r\n for (let member of members.values()) {\r\n this.visitElement(member);\r\n }\r\n }\r\n var ctor = element.constructorInstance;\r\n if (ctor) this.visitFunction(ctor);\r\n members = element.members; // instance\r\n if (members) {\r\n for (let member of members.values()) this.visitElement(member);\r\n }\r\n indent(sb, --this.indentLevel);\r\n sb.push(\"}\\n\");\r\n }\r\n\r\n visitInterface(element: Interface): void {\r\n this.visitClass(element);\r\n }\r\n\r\n visitField(element: Field): void {\r\n if (element.is(CommonFlags.PRIVATE)) return;\r\n var sb = this.sb;\r\n indent(sb, this.indentLevel);\r\n if (element.is(CommonFlags.PROTECTED)) sb.push(\"protected \");\r\n if (element.is(CommonFlags.STATIC)) sb.push(\"static \");\r\n if (element.is(CommonFlags.READONLY)) sb.push(\"readonly \");\r\n sb.push(element.name);\r\n sb.push(\": \");\r\n sb.push(this.typeToString(element.type));\r\n sb.push(\";\\n\");\r\n }\r\n\r\n visitNamespace(element: Element): void {\r\n var members = element.members;\r\n if (members && members.size) {\r\n let sb = this.sb;\r\n indent(sb, this.indentLevel++);\r\n sb.push(\"namespace \");\r\n sb.push(element.name);\r\n sb.push(\" {\\n\");\r\n for (let member of members.values()) this.visitElement(member);\r\n indent(sb, --this.indentLevel);\r\n sb.push(\"}\\n\");\r\n }\r\n }\r\n\r\n typeToString(type: Type): string {\r\n switch (type.kind) {\r\n case TypeKind.I8: return \"i8\";\r\n case TypeKind.I16: return \"i16\";\r\n case TypeKind.I32: return \"i32\";\r\n case TypeKind.I64: return \"I64\";\r\n case TypeKind.ISIZE: return this.program.options.isWasm64 ? \"I64\" : \"i32\";\r\n case TypeKind.U8: return \"u8\";\r\n case TypeKind.U16: return \"u16\";\r\n case TypeKind.U32: return \"u32\";\r\n // ^ TODO: function types\r\n case TypeKind.U64: return \"U64\";\r\n case TypeKind.USIZE: return this.program.options.isWasm64 ? \"U64\" : \"u32\";\r\n // ^ TODO: class types\r\n case TypeKind.BOOL: return \"bool\";\r\n case TypeKind.F32: return \"f32\";\r\n case TypeKind.F64: return \"f64\";\r\n case TypeKind.V128: return \"v128\";\r\n case TypeKind.VOID: return \"void\";\r\n default: {\r\n assert(false);\r\n return \"\";\r\n }\r\n }\r\n }\r\n\r\n build(): string {\r\n var sb = this.sb;\r\n sb.push(\"declare module ASModule {\\n\");\r\n sb.push(\" type i8 = number;\\n\");\r\n sb.push(\" type i16 = number;\\n\");\r\n sb.push(\" type i32 = number;\\n\");\r\n sb.push(\" type u8 = number;\\n\");\r\n sb.push(\" type u16 = number;\\n\");\r\n sb.push(\" type u32 = number;\\n\");\r\n sb.push(\" type f32 = number;\\n\");\r\n sb.push(\" type f64 = number;\\n\");\r\n sb.push(\" type bool = any;\\n\");\r\n ++this.indentLevel;\r\n this.walk();\r\n --this.indentLevel;\r\n sb.push(\"}\\n\");\r\n sb.push(\"export default ASModule;\\n\");\r\n return this.sb.join(\"\");\r\n }\r\n}\r\n\r\n// helpers\r\n\r\n/** Tests if a namespace-like element has at least one compiled member. */\r\nfunction hasCompiledMember(element: Element): bool {\r\n var members = element.members;\r\n if (members) {\r\n for (let member of members.values()) {\r\n switch (member.kind) {\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n let instances = (member).instances;\r\n if (instances) {\r\n for (let instance of instances.values()) {\r\n if (instance.is(CommonFlags.COMPILED)) return true;\r\n }\r\n }\r\n break;\r\n }\r\n case ElementKind.CLASS_PROTOTYPE: {\r\n let instances = (member).instances;\r\n if (instances) {\r\n for (let instance of instances.values()) {\r\n if (instance.is(CommonFlags.COMPILED)) return true;\r\n }\r\n }\r\n break;\r\n }\r\n default: {\r\n if (member.is(CommonFlags.COMPILED) || hasCompiledMember(member)) return true;\r\n break;\r\n }\r\n }\r\n }\r\n }\r\n return false;\r\n}\r\n","/**\r\n * A TypeScript parser for the AssemblyScript subset.\r\n * @module parser\r\n *//***/\r\n\r\nimport {\r\n CommonFlags,\r\n LIBRARY_PREFIX,\r\n PATH_DELIMITER\r\n} from \"./common\";\r\n\r\nimport {\r\n Program\r\n} from \"./program\";\r\n\r\nimport {\r\n Tokenizer,\r\n Token,\r\n Range,\r\n CommentHandler,\r\n IdentifierHandling\r\n} from \"./tokenizer\";\r\n\r\nimport {\r\n DiagnosticCode,\r\n DiagnosticEmitter\r\n} from \"./diagnostics\";\r\n\r\nimport {\r\n normalizePath\r\n} from \"./util\";\r\n\r\nimport {\r\n Node,\r\n NodeKind,\r\n Source,\r\n SourceKind,\r\n CommonTypeNode,\r\n TypeNode,\r\n SignatureNode,\r\n ArrowKind,\r\n\r\n Expression,\r\n AssertionKind,\r\n CallExpression,\r\n ClassExpression,\r\n FunctionExpression,\r\n IdentifierExpression,\r\n StringLiteralExpression,\r\n\r\n Statement,\r\n BlockStatement,\r\n BreakStatement,\r\n ClassDeclaration,\r\n ContinueStatement,\r\n DeclarationStatement,\r\n DecoratorNode,\r\n DoStatement,\r\n EnumDeclaration,\r\n EnumValueDeclaration,\r\n ExportImportStatement,\r\n ExportMember,\r\n ExportStatement,\r\n ExpressionStatement,\r\n ForStatement,\r\n FunctionDeclaration,\r\n IfStatement,\r\n ImportDeclaration,\r\n ImportStatement,\r\n IndexSignatureDeclaration,\r\n NamespaceDeclaration,\r\n ParameterNode,\r\n ParameterKind,\r\n ReturnStatement,\r\n SwitchCase,\r\n SwitchStatement,\r\n ThrowStatement,\r\n TryStatement,\r\n TypeDeclaration,\r\n TypeParameterNode,\r\n VariableStatement,\r\n VariableDeclaration,\r\n VoidStatement,\r\n WhileStatement,\r\n\r\n mangleInternalPath,\r\n nodeIsCallable,\r\n nodeIsGenericCallable\r\n} from \"./ast\";\r\n\r\n/** Parser interface. */\r\nexport class Parser extends DiagnosticEmitter {\r\n\r\n /** Program being created. */\r\n program: Program;\r\n /** Source file names to be requested next. */\r\n backlog: string[] = new Array();\r\n /** Source file names already seen, that is processed or backlogged. */\r\n seenlog: Set = new Set();\r\n /** Source file names already completely processed. */\r\n donelog: Set = new Set();\r\n /** Optional handler to intercept comments while tokenizing. */\r\n onComment: CommentHandler | null = null;\r\n\r\n /** Constructs a new parser. */\r\n constructor() {\r\n super();\r\n this.program = new Program(this.diagnostics);\r\n }\r\n\r\n /** Parses a file and adds its definitions to the program. */\r\n parseFile(\r\n text: string,\r\n path: string,\r\n isEntry: bool\r\n ): void {\r\n var normalizedPath = normalizePath(path);\r\n var internalPath = mangleInternalPath(normalizedPath);\r\n\r\n // check if already processed\r\n if (this.donelog.has(internalPath)) return;\r\n this.donelog.add(internalPath); // do not parse again\r\n this.seenlog.add(internalPath); // do not request again\r\n\r\n // create the source element\r\n var source = new Source(\r\n normalizedPath,\r\n text,\r\n isEntry\r\n ? SourceKind.ENTRY\r\n : path.startsWith(LIBRARY_PREFIX) && path.indexOf(PATH_DELIMITER, LIBRARY_PREFIX.length) < 0\r\n ? SourceKind.LIBRARY\r\n : SourceKind.DEFAULT\r\n );\r\n var program = this.program;\r\n program.sources.push(source);\r\n\r\n // tokenize and parse\r\n var tn = new Tokenizer(source, program.diagnostics);\r\n tn.onComment = this.onComment;\r\n source.tokenizer = tn;\r\n var statements = source.statements;\r\n while (!tn.skip(Token.ENDOFFILE)) {\r\n let statement = this.parseTopLevelStatement(tn, null);\r\n if (statement) statements.push(statement);\r\n }\r\n tn.finish();\r\n }\r\n\r\n /** Parses a top-level statement. */\r\n parseTopLevelStatement(\r\n tn: Tokenizer,\r\n namespace: NamespaceDeclaration | null = null\r\n ): Statement | null {\r\n var flags = CommonFlags.NONE;\r\n var startPos: i32 = -1;\r\n\r\n // check decorators\r\n var decorators: DecoratorNode[] | null = null;\r\n while (tn.skip(Token.AT)) {\r\n if (startPos < 0) startPos = tn.tokenPos;\r\n let decorator = this.parseDecorator(tn);\r\n if (!decorator) {\r\n this.skipStatement(tn);\r\n continue;\r\n }\r\n if (!decorators) decorators = [];\r\n decorators.push(decorator);\r\n }\r\n\r\n // check modifiers\r\n var exportStart: i32 = 0;\r\n var exportEnd: i32 = 0;\r\n if (tn.skip(Token.EXPORT)) {\r\n if (tn.skip(Token.DEFAULT)) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n tn.range()\r\n );\r\n }\r\n if (startPos < 0) startPos = tn.tokenPos;\r\n flags |= CommonFlags.EXPORT;\r\n exportStart = tn.tokenPos;\r\n exportEnd = tn.pos;\r\n }\r\n\r\n var declareStart: i32 = 0;\r\n var declareEnd: i32 = 0;\r\n var contextIsAmbient = namespace != null && namespace.is(CommonFlags.AMBIENT);\r\n if (tn.skip(Token.DECLARE)) {\r\n if (startPos < 0) startPos = tn.tokenPos;\r\n if (contextIsAmbient) {\r\n this.error(\r\n DiagnosticCode.A_declare_modifier_cannot_be_used_in_an_already_ambient_context,\r\n tn.range()\r\n ); // recoverable\r\n }\r\n flags |= CommonFlags.DECLARE | CommonFlags.AMBIENT;\r\n } else if (contextIsAmbient) {\r\n flags |= CommonFlags.AMBIENT;\r\n }\r\n\r\n // parse the statement\r\n var statement: Statement | null = null;\r\n\r\n // handle declarations\r\n var first = tn.peek();\r\n if (startPos < 0) startPos = tn.nextTokenPos;\r\n switch (first) {\r\n case Token.CONST: {\r\n tn.next();\r\n flags |= CommonFlags.CONST;\r\n if (tn.skip(Token.ENUM)) {\r\n statement = this.parseEnum(tn, flags, decorators, startPos);\r\n } else {\r\n statement = this.parseVariable(tn, flags, decorators, startPos);\r\n }\r\n decorators = null;\r\n break;\r\n }\r\n case Token.LET: flags |= CommonFlags.LET;\r\n case Token.VAR: {\r\n tn.next();\r\n statement = this.parseVariable(tn, flags, decorators, startPos);\r\n decorators = null;\r\n break;\r\n }\r\n case Token.ENUM: {\r\n tn.next();\r\n statement = this.parseEnum(tn, flags, decorators, startPos);\r\n decorators = null;\r\n break;\r\n }\r\n case Token.FUNCTION: {\r\n tn.next();\r\n statement = this.parseFunction(tn, flags, decorators, startPos);\r\n decorators = null;\r\n break;\r\n }\r\n case Token.ABSTRACT: {\r\n let state = tn.mark();\r\n tn.next();\r\n if (!tn.skip(Token.CLASS)) {\r\n tn.reset(state);\r\n statement = this.parseStatement(tn, true);\r\n break;\r\n } else {\r\n tn.discard(state);\r\n }\r\n flags |= CommonFlags.ABSTRACT;\r\n // fall through\r\n }\r\n case Token.CLASS:\r\n case Token.INTERFACE: {\r\n tn.next();\r\n statement = this.parseClassOrInterface(tn, flags, decorators, startPos);\r\n decorators = null;\r\n break;\r\n }\r\n case Token.NAMESPACE: {\r\n let state = tn.mark();\r\n tn.next();\r\n if (tn.peek(false, IdentifierHandling.PREFER) == Token.IDENTIFIER) {\r\n tn.discard(state);\r\n statement = this.parseNamespace(tn, flags, decorators, startPos);\r\n decorators = null;\r\n } else {\r\n tn.reset(state);\r\n statement = this.parseStatement(tn, true);\r\n }\r\n break;\r\n }\r\n case Token.IMPORT: {\r\n tn.next();\r\n flags |= CommonFlags.IMPORT;\r\n if (flags & CommonFlags.EXPORT) {\r\n statement = this.parseExportImport(tn, startPos);\r\n } else {\r\n statement = this.parseImport(tn);\r\n }\r\n break;\r\n }\r\n case Token.TYPE: { // also identifier\r\n let state = tn.mark();\r\n tn.next();\r\n if (tn.peek(false, IdentifierHandling.PREFER) == Token.IDENTIFIER) {\r\n tn.discard(state);\r\n statement = this.parseTypeDeclaration(tn, flags, decorators, startPos);\r\n decorators = null;\r\n } else {\r\n tn.reset(state);\r\n statement = this.parseStatement(tn, true);\r\n }\r\n break;\r\n }\r\n default: {\r\n\r\n // handle plain exports\r\n if (flags & CommonFlags.EXPORT) {\r\n statement = this.parseExport(tn, startPos, (flags & CommonFlags.DECLARE) != 0);\r\n\r\n // handle non-declaration statements\r\n } else {\r\n if (exportEnd) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(exportStart, exportEnd), \"export\"\r\n ); // recoverable\r\n }\r\n if (declareEnd) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(declareStart, declareEnd), \"declare\"\r\n ); // recoverable\r\n }\r\n if (!namespace) {\r\n statement = this.parseStatement(tn, true);\r\n } // TODO: else?\r\n }\r\n break;\r\n }\r\n }\r\n\r\n // check for decorators that weren't consumed\r\n if (decorators) {\r\n for (let i = 0, k = decorators.length; i < k; ++i) {\r\n this.error(\r\n DiagnosticCode.Decorators_are_not_valid_here,\r\n decorators[i].range\r\n );\r\n }\r\n }\r\n return statement;\r\n }\r\n\r\n /** Obtains the next file to parse. */\r\n nextFile(): string | null {\r\n var backlog = this.backlog;\r\n return backlog.length ? backlog.shift() : null;\r\n }\r\n\r\n /** Finishes parsing and returns the program. */\r\n finish(): Program {\r\n if (this.backlog.length) throw new Error(\"backlog is not empty\");\r\n this.backlog = [];\r\n this.seenlog.clear();\r\n this.donelog.clear();\r\n return this.program;\r\n }\r\n\r\n /** Parses a type. */\r\n parseType(\r\n tn: Tokenizer,\r\n acceptParenthesized: bool = true,\r\n suppressErrors: bool = false\r\n ): CommonTypeNode | null {\r\n\r\n // NOTE: this parses our limited subset\r\n var token = tn.next();\r\n var startPos = tn.tokenPos;\r\n\r\n var type: CommonTypeNode;\r\n\r\n // '(' ...\r\n if (token == Token.OPENPAREN) {\r\n\r\n // '(' FunctionSignature ')' '|' 'null'?\r\n let isNullableSignature = tn.skip(Token.OPENPAREN);\r\n // FunctionSignature?\r\n let signature = this.tryParseSignature(tn);\r\n if (signature) {\r\n if (isNullableSignature) {\r\n if (!tn.skip(Token.CLOSEPAREN)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n return null;\r\n }\r\n if (!tn.skip(Token.BAR)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"|\"\r\n );\r\n return null;\r\n }\r\n if (!tn.skip(Token.NULL)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"null\"\r\n );\r\n }\r\n signature.isNullable = true;\r\n }\r\n return signature;\r\n } else if (isNullableSignature || this.tryParseSignatureIsSignature) {\r\n this.error(\r\n DiagnosticCode.Unexpected_token,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n\r\n // Type (',' Type)* ')'\r\n if (acceptParenthesized) {\r\n let innerType = this.parseType(tn, false, suppressErrors);\r\n if (!innerType) return null;\r\n if (!tn.skip(Token.CLOSEPAREN)) {\r\n if (!suppressErrors) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(tn.pos), \"}\"\r\n );\r\n }\r\n return null;\r\n }\r\n type = innerType;\r\n type.range.start = startPos;\r\n type.range.end = tn.pos;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Unexpected_token,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n\r\n // 'void'\r\n } else if (token == Token.VOID) {\r\n type = Node.createType(\r\n Node.createSimpleTypeName(\"void\", tn.range()), [], false, tn.range(startPos, tn.pos)\r\n );\r\n\r\n // 'this'\r\n } else if (token == Token.THIS) {\r\n type = Node.createType(\r\n Node.createSimpleTypeName(\"this\", tn.range()), [], false, tn.range(startPos, tn.pos)\r\n );\r\n\r\n // 'true'\r\n } else if (token == Token.TRUE || token == Token.FALSE) {\r\n type = Node.createType(\r\n Node.createSimpleTypeName(\"bool\", tn.range()), [], false, tn.range(startPos, tn.pos)\r\n );\r\n\r\n // StringLiteral\r\n } else if (token == Token.STRINGLITERAL) {\r\n tn.readString();\r\n type = Node.createType(\r\n Node.createSimpleTypeName(\"string\", tn.range()), [], false, tn.range(startPos, tn.pos)\r\n );\r\n\r\n // Identifier\r\n } else if (token == Token.IDENTIFIER) {\r\n let first = Node.createSimpleTypeName(tn.readIdentifier(), tn.range());\r\n let current = first;\r\n let parameters = new Array();\r\n let nullable = false;\r\n\r\n // Identifier ('.' Identifier)+\r\n while (tn.skip(Token.DOT)) {\r\n if (tn.skip(Token.IDENTIFIER)) {\r\n let next = Node.createSimpleTypeName(tn.readIdentifier(), tn.range());\r\n current.next = next;\r\n current = next;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range(tn.pos)\r\n );\r\n return null;\r\n }\r\n }\r\n\r\n // Name\r\n if (tn.skip(Token.LESSTHAN)) {\r\n do {\r\n let parameter = this.parseType(tn, true, suppressErrors);\r\n if (!parameter) return null;\r\n parameters.push(parameter);\r\n } while (tn.skip(Token.COMMA));\r\n if (!tn.skip(Token.GREATERTHAN)) {\r\n if (!suppressErrors) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(tn.pos), \">\"\r\n );\r\n }\r\n return null;\r\n }\r\n }\r\n // ... | null\r\n while (tn.skip(Token.BAR)) {\r\n if (tn.skip(Token.NULL)) {\r\n nullable = true;\r\n } else {\r\n if (!suppressErrors) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(tn.pos), \"null\"\r\n );\r\n }\r\n return null;\r\n }\r\n }\r\n type = Node.createType(first, parameters, nullable, tn.range(startPos, tn.pos));\r\n\r\n } else {\r\n if (!suppressErrors) {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n // ... [][]\r\n while (tn.skip(Token.OPENBRACKET)) {\r\n let bracketStart = tn.tokenPos;\r\n if (!tn.skip(Token.CLOSEBRACKET)) {\r\n if (!suppressErrors) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"]\"\r\n );\r\n }\r\n return null;\r\n }\r\n let bracketRange = tn.range(bracketStart, tn.pos);\r\n\r\n // ...[] | null\r\n let nullable = false;\r\n if (tn.skip(Token.BAR)) {\r\n if (tn.skip(Token.NULL)) {\r\n nullable = true;\r\n } else {\r\n if (!suppressErrors) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"null\"\r\n );\r\n }\r\n return null;\r\n }\r\n }\r\n type = Node.createType(\r\n Node.createSimpleTypeName(\"Array\", bracketRange),\r\n [ type ],\r\n nullable,\r\n tn.range(startPos, tn.pos)\r\n );\r\n if (nullable) break;\r\n }\r\n\r\n return type;\r\n }\r\n\r\n // Indicates whether tryParseSignature determined that it is handling a Signature\r\n private tryParseSignatureIsSignature: bool = false;\r\n\r\n /** Parses a function signature, as used in type declarations. */\r\n tryParseSignature(\r\n tn: Tokenizer\r\n ): SignatureNode | null {\r\n\r\n // at '(': ('...'? Identifier '?'? ':' Type (',' '...'? Identifier '?'? ':' Type)* )? ')' '=>' Type\r\n\r\n var state = tn.mark();\r\n var startPos = tn.tokenPos;\r\n var parameters: ParameterNode[] | null = null;\r\n var thisType: TypeNode | null = null;\r\n var isSignature: bool = false;\r\n\r\n if (tn.skip(Token.CLOSEPAREN)) {\r\n isSignature = true;\r\n tn.discard(state);\r\n parameters = [];\r\n\r\n } else {\r\n isSignature = false; // not yet known\r\n do {\r\n let kind = ParameterKind.DEFAULT;\r\n if (tn.skip(Token.DOT_DOT_DOT)) {\r\n isSignature = true;\r\n tn.discard(state);\r\n kind = ParameterKind.REST;\r\n }\r\n if (tn.skip(Token.THIS)) {\r\n if (tn.skip(Token.COLON)) {\r\n isSignature = true;\r\n tn.discard(state);\r\n let t = this.parseType(tn, false);\r\n if (!t) return null;\r\n if (t.kind != NodeKind.TYPE) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n t.range\r\n );\r\n this.tryParseSignatureIsSignature = true;\r\n return null;\r\n }\r\n thisType = t;\r\n } else {\r\n tn.reset(state);\r\n this.tryParseSignatureIsSignature = false;\r\n return null;\r\n }\r\n } else if (tn.skipIdentifier()) {\r\n let name = Node.createIdentifierExpression(tn.readIdentifier(), tn.range(tn.tokenPos, tn.pos));\r\n if (tn.skip(Token.QUESTION)) {\r\n isSignature = true;\r\n tn.discard(state);\r\n if (kind == ParameterKind.REST) {\r\n this.error(\r\n DiagnosticCode.A_rest_parameter_cannot_be_optional,\r\n tn.range()\r\n ); // recoverable\r\n } else {\r\n kind = ParameterKind.OPTIONAL;\r\n }\r\n }\r\n if (tn.skip(Token.COLON)) {\r\n isSignature = true;\r\n tn.discard(state);\r\n let type = this.parseType(tn); // not suppressing errors because known\r\n if (!type) {\r\n this.tryParseSignatureIsSignature = isSignature;\r\n return null;\r\n }\r\n let param = new ParameterNode();\r\n param.parameterKind = kind;\r\n param.name = name;\r\n param.type = type;\r\n if (!parameters) parameters = [ param ];\r\n else parameters.push(param);\r\n } else {\r\n if (isSignature) {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n tn.range()\r\n ); // recoverable\r\n }\r\n }\r\n } else {\r\n if (isSignature) {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n } else {\r\n tn.reset(state);\r\n }\r\n this.tryParseSignatureIsSignature = isSignature;\r\n return null;\r\n }\r\n } while (tn.skip(Token.COMMA));\r\n if (!tn.skip(Token.CLOSEPAREN)) {\r\n if (isSignature) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n } else {\r\n tn.reset(state);\r\n }\r\n this.tryParseSignatureIsSignature = isSignature;\r\n return null;\r\n }\r\n }\r\n\r\n var returnType: CommonTypeNode | null;\r\n if (tn.skip(Token.EQUALS_GREATERTHAN)) {\r\n isSignature = true;\r\n tn.discard(state);\r\n returnType = this.parseType(tn);\r\n if (!returnType) {\r\n this.tryParseSignatureIsSignature = isSignature;\r\n return null;\r\n }\r\n } else {\r\n if (isSignature) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"=>\"\r\n );\r\n } else {\r\n tn.reset(state);\r\n }\r\n this.tryParseSignatureIsSignature = isSignature;\r\n return null;\r\n }\r\n this.tryParseSignatureIsSignature = true;\r\n return Node.createSignature(\r\n parameters || [],\r\n returnType,\r\n thisType,\r\n false,\r\n tn.range(startPos, tn.pos)\r\n );\r\n }\r\n\r\n // statements\r\n\r\n parseDecorator(\r\n tn: Tokenizer\r\n ): DecoratorNode | null {\r\n\r\n // at '@': Identifier ('.' Identifier)* '(' Arguments\r\n\r\n var startPos = tn.tokenPos;\r\n if (tn.skipIdentifier()) {\r\n let name = tn.readIdentifier();\r\n let expression: Expression = Node.createIdentifierExpression(name, tn.range(startPos, tn.pos));\r\n while (tn.skip(Token.DOT)) {\r\n if (tn.skipIdentifier()) {\r\n name = tn.readIdentifier();\r\n expression = Node.createPropertyAccessExpression(\r\n expression,\r\n Node.createIdentifierExpression(name, tn.range()),\r\n tn.range(startPos, tn.pos)\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n }\r\n let args: Expression[] | null;\r\n if (tn.skip(Token.OPENPAREN)) {\r\n args = this.parseArguments(tn);\r\n if (args) {\r\n return Node.createDecorator(expression, args, tn.range(startPos, tn.pos));\r\n }\r\n } else {\r\n return Node.createDecorator(expression, null, tn.range(startPos, tn.pos));\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseVariable(\r\n tn: Tokenizer,\r\n flags: CommonFlags,\r\n decorators: DecoratorNode[] | null,\r\n startPos: i32\r\n ): VariableStatement | null {\r\n\r\n // at ('const' | 'let' | 'var'): VariableDeclaration (',' VariableDeclaration)* ';'?\r\n\r\n var members = new Array();\r\n do {\r\n let member = this.parseVariableDeclaration(tn, flags, decorators);\r\n if (!member) return null;\r\n members.push(member);\r\n } while (tn.skip(Token.COMMA));\r\n\r\n var ret = Node.createVariableStatement(members, decorators, tn.range(startPos, tn.pos));\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n }\r\n\r\n parseVariableDeclaration(\r\n tn: Tokenizer,\r\n parentFlags: CommonFlags,\r\n parentDecorators: DecoratorNode[] | null\r\n ): VariableDeclaration | null {\r\n\r\n // before: Identifier (':' Type)? ('=' Expression)?\r\n\r\n if (!tn.skipIdentifier()) {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n var identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n var flags = parentFlags;\r\n if (tn.skip(Token.EXCLAMATION)) {\r\n flags |= CommonFlags.DEFINITE_ASSIGNMENT;\r\n }\r\n\r\n var type: CommonTypeNode | null = null;\r\n if (tn.skip(Token.COLON)) {\r\n type = this.parseType(tn);\r\n }\r\n\r\n var initializer: Expression | null = null;\r\n if (tn.skip(Token.EQUALS)) {\r\n if (flags & CommonFlags.AMBIENT) {\r\n this.error(\r\n DiagnosticCode.Initializers_are_not_allowed_in_ambient_contexts,\r\n tn.range()\r\n ); // recoverable\r\n }\r\n initializer = this.parseExpression(tn, Precedence.COMMA + 1);\r\n if (!initializer) return null;\r\n } else {\r\n if (flags & CommonFlags.CONST) {\r\n if (!(flags & CommonFlags.AMBIENT)) {\r\n this.error(\r\n DiagnosticCode._const_declarations_must_be_initialized,\r\n identifier.range\r\n ); // recoverable\r\n }\r\n } else if (!type) { // neither type nor initializer\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n tn.range(tn.pos)\r\n ); // recoverable\r\n }\r\n }\r\n var range = Range.join(identifier.range, tn.range());\r\n if ((flags & CommonFlags.DEFINITE_ASSIGNMENT) && initializer) {\r\n this.error(\r\n DiagnosticCode.A_definite_assignment_assertion_is_not_permitted_in_this_context,\r\n range);\r\n }\r\n return Node.createVariableDeclaration(\r\n identifier,\r\n type,\r\n initializer,\r\n parentDecorators,\r\n flags,\r\n range\r\n );\r\n }\r\n\r\n parseEnum(\r\n tn: Tokenizer,\r\n flags: CommonFlags,\r\n decorators: DecoratorNode[] | null,\r\n startPos: i32\r\n ): EnumDeclaration | null {\r\n\r\n // at 'enum': Identifier '{' (EnumValueDeclaration (',' EnumValueDeclaration )*)? '}' ';'?\r\n\r\n if (tn.next() != Token.IDENTIFIER) {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n var identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n if (tn.next() != Token.OPENBRACE) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"{\"\r\n );\r\n return null;\r\n }\r\n var members = new Array();\r\n while (!tn.skip(Token.CLOSEBRACE)) {\r\n let member = this.parseEnumValue(tn, CommonFlags.NONE);\r\n if (!member) return null;\r\n members.push(member);\r\n if (!tn.skip(Token.COMMA)) {\r\n if (tn.skip(Token.CLOSEBRACE)) {\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"}\"\r\n );\r\n return null;\r\n }\r\n }\r\n }\r\n var ret = Node.createEnumDeclaration(\r\n identifier,\r\n members,\r\n decorators,\r\n flags,\r\n tn.range(startPos, tn.pos)\r\n );\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n }\r\n\r\n parseEnumValue(\r\n tn: Tokenizer,\r\n parentFlags: CommonFlags\r\n ): EnumValueDeclaration | null {\r\n\r\n // before: Identifier ('=' Expression)?\r\n\r\n if (!tn.skipIdentifier()) {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n var identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n var value: Expression | null = null;\r\n if (tn.skip(Token.EQUALS)) {\r\n value = this.parseExpression(tn, Precedence.COMMA + 1);\r\n if (!value) return null;\r\n }\r\n return Node.createEnumValueDeclaration(\r\n identifier,\r\n value,\r\n parentFlags,\r\n Range.join(identifier.range, tn.range())\r\n );\r\n }\r\n\r\n parseReturn(\r\n tn: Tokenizer\r\n ): ReturnStatement | null {\r\n\r\n // at 'return': Expression | (';' | '}' | ...'\\n')\r\n\r\n var expr: Expression | null = null;\r\n if (\r\n tn.peek(true) != Token.SEMICOLON &&\r\n tn.nextToken != Token.CLOSEBRACE &&\r\n !tn.nextTokenOnNewLine\r\n ) {\r\n if (!(expr = this.parseExpression(tn))) return null;\r\n }\r\n\r\n var ret = Node.createReturnStatement(expr, tn.range());\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n }\r\n\r\n parseTypeParameters(\r\n tn: Tokenizer\r\n ): TypeParameterNode[] | null {\r\n\r\n // at '<': TypeParameter (',' TypeParameter)* '>'\r\n\r\n var typeParameters = new Array();\r\n var seenOptional = false;\r\n while (!tn.skip(Token.GREATERTHAN)) {\r\n let typeParameter = this.parseTypeParameter(tn);\r\n if (!typeParameter) return null;\r\n if (typeParameter.defaultType !== null) {\r\n seenOptional = true;\r\n } else if (seenOptional) {\r\n this.error(\r\n DiagnosticCode.Required_type_parameters_may_not_follow_optional_type_parameters,\r\n typeParameter.range\r\n );\r\n typeParameter.defaultType = null;\r\n }\r\n typeParameters.push(typeParameter);\r\n if (!tn.skip(Token.COMMA)) {\r\n if (tn.skip(Token.GREATERTHAN)) {\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \">\"\r\n );\r\n return null;\r\n }\r\n }\r\n }\r\n if (typeParameters.length === 0) {\r\n this.error(\r\n DiagnosticCode.Type_parameter_list_cannot_be_empty,\r\n tn.range()\r\n ); // recoverable\r\n }\r\n return typeParameters;\r\n }\r\n\r\n parseTypeParameter(\r\n tn: Tokenizer\r\n ): TypeParameterNode | null {\r\n\r\n // before: Identifier ('extends' Type)? ('=' Type)?\r\n\r\n if (tn.next() == Token.IDENTIFIER) {\r\n let identifier = Node.createIdentifierExpression(\r\n tn.readIdentifier(),\r\n tn.range()\r\n );\r\n let extendsType: TypeNode | null = null;\r\n if (tn.skip(Token.EXTENDS)) {\r\n let t = this.parseType(tn);\r\n if (!t) return null;\r\n if (t.kind != NodeKind.TYPE) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n t.range\r\n );\r\n return null;\r\n }\r\n extendsType = t;\r\n }\r\n let defaultType: TypeNode | null = null;\r\n if (tn.skip(Token.EQUALS)) {\r\n let t = this.parseType(tn);\r\n if (!t) return null;\r\n if (t.kind != NodeKind.TYPE) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n t.range\r\n );\r\n return null;\r\n }\r\n defaultType = t;\r\n }\r\n return Node.createTypeParameter(\r\n identifier,\r\n extendsType,\r\n defaultType,\r\n Range.join(identifier.range, tn.range())\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n private parseParametersThis: TypeNode | null = null;\r\n\r\n parseParameters(\r\n tn: Tokenizer,\r\n isConstructor: bool = false\r\n ): ParameterNode[] | null {\r\n\r\n // at '(': (Parameter (',' Parameter)*)? ')'\r\n\r\n var parameters = new Array();\r\n var seenRest: ParameterNode | null = null;\r\n var seenOptional = false;\r\n var reportedRest = false;\r\n var thisType: CommonTypeNode | null = null;\r\n\r\n // check if there is a leading `this` parameter\r\n this.parseParametersThis = null;\r\n if (tn.skip(Token.THIS)) {\r\n if (tn.skip(Token.COLON)) {\r\n thisType = this.parseType(tn); // reports\r\n if (!thisType) return null;\r\n if (thisType.kind == NodeKind.TYPE) {\r\n this.parseParametersThis = thisType;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n thisType.range\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \":\"\r\n );\r\n return null;\r\n }\r\n if (!tn.skip(Token.COMMA)) {\r\n if (tn.skip(Token.CLOSEPAREN)) {\r\n return parameters;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n return null;\r\n }\r\n }\r\n }\r\n\r\n while (!tn.skip(Token.CLOSEPAREN)) {\r\n let param = this.parseParameter(tn, isConstructor); // reports\r\n if (!param) return null;\r\n if (seenRest && !reportedRest) {\r\n this.error(\r\n DiagnosticCode.A_rest_parameter_must_be_last_in_a_parameter_list,\r\n seenRest.name.range\r\n );\r\n reportedRest = true;\r\n }\r\n switch (param.parameterKind) {\r\n default: {\r\n if (seenOptional) {\r\n this.error(\r\n DiagnosticCode.A_required_parameter_cannot_follow_an_optional_parameter,\r\n param.name.range\r\n );\r\n }\r\n break;\r\n }\r\n case ParameterKind.OPTIONAL: {\r\n seenOptional = true;\r\n break;\r\n }\r\n case ParameterKind.REST: {\r\n seenRest = param;\r\n break;\r\n }\r\n }\r\n parameters.push(param);\r\n if (!tn.skip(Token.COMMA)) {\r\n if (tn.skip(Token.CLOSEPAREN)) {\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n return null;\r\n }\r\n }\r\n }\r\n return parameters;\r\n }\r\n\r\n parseParameter(\r\n tn: Tokenizer,\r\n isConstructor: bool = false\r\n ): ParameterNode | null {\r\n\r\n // before: ('public' | 'private' | 'protected' | '...')? Identifier '?'? (':' Type)? ('=' Expression)?\r\n\r\n var isRest = false;\r\n var isOptional = false;\r\n var startRange: Range | null = null;\r\n var accessFlags: CommonFlags = CommonFlags.NONE;\r\n if (isConstructor) {\r\n if (tn.skip(Token.PUBLIC)) {\r\n startRange = tn.range();\r\n accessFlags |= CommonFlags.PUBLIC;\r\n } else if (tn.skip(Token.PROTECTED)) {\r\n startRange = tn.range();\r\n accessFlags |= CommonFlags.PROTECTED;\r\n } else if (tn.skip(Token.PRIVATE)) {\r\n startRange = tn.range();\r\n accessFlags |= CommonFlags.PRIVATE;\r\n }\r\n if (tn.peek() == Token.READONLY) {\r\n let state = tn.mark();\r\n tn.next();\r\n if (tn.peek() != Token.COLON) { // modifier\r\n tn.discard(state);\r\n if (!startRange) startRange = tn.range();\r\n accessFlags |= CommonFlags.READONLY;\r\n } else { // identifier\r\n tn.reset(state);\r\n }\r\n }\r\n }\r\n if (tn.skip(Token.DOT_DOT_DOT)) {\r\n if (accessFlags) {\r\n this.error(\r\n DiagnosticCode.A_parameter_property_cannot_be_declared_using_a_rest_parameter,\r\n tn.range()\r\n );\r\n } else {\r\n startRange = tn.range();\r\n }\r\n isRest = true;\r\n }\r\n if (tn.skipIdentifier()) {\r\n if (!isRest) startRange = tn.range();\r\n let identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n let type: CommonTypeNode | null = null;\r\n if (isOptional = tn.skip(Token.QUESTION)) {\r\n if (isRest) {\r\n this.error(\r\n DiagnosticCode.A_rest_parameter_cannot_be_optional,\r\n identifier.range\r\n );\r\n }\r\n }\r\n if (tn.skip(Token.COLON)) {\r\n type = this.parseType(tn);\r\n if (!type) return null;\r\n } else {\r\n type = Node.createOmittedType(tn.range(tn.pos));\r\n }\r\n let initializer: Expression | null = null;\r\n if (tn.skip(Token.EQUALS)) {\r\n if (isRest) {\r\n this.error(\r\n DiagnosticCode.A_rest_parameter_cannot_have_an_initializer,\r\n identifier.range\r\n );\r\n }\r\n if (isOptional) {\r\n this.error(\r\n DiagnosticCode.Parameter_cannot_have_question_mark_and_initializer,\r\n identifier.range\r\n );\r\n } else {\r\n isOptional = true;\r\n }\r\n initializer = this.parseExpression(tn, Precedence.COMMA + 1);\r\n if (!initializer) return null;\r\n }\r\n let param = Node.createParameter(\r\n identifier,\r\n type,\r\n initializer,\r\n isRest\r\n ? ParameterKind.REST\r\n : isOptional\r\n ? ParameterKind.OPTIONAL\r\n : ParameterKind.DEFAULT,\r\n Range.join(startRange, tn.range())\r\n );\r\n param.flags |= accessFlags;\r\n return param;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseFunction(\r\n tn: Tokenizer,\r\n flags: CommonFlags,\r\n decorators: DecoratorNode[] | null,\r\n startPos: i32\r\n ): FunctionDeclaration | null {\r\n\r\n // at 'function':\r\n // Identifier\r\n // ('<' TypeParameters)?\r\n // '(' Parameters (':' Type)?\r\n // '{' Statement* '}'\r\n // ';'?\r\n\r\n if (!tn.skipIdentifier()) {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range(tn.pos)\r\n );\r\n return null;\r\n }\r\n\r\n var name = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n var signatureStart: i32 = -1;\r\n\r\n var typeParameters: TypeParameterNode[] | null = null;\r\n if (tn.skip(Token.LESSTHAN)) {\r\n signatureStart = tn.tokenPos;\r\n typeParameters = this.parseTypeParameters(tn);\r\n if (!typeParameters) return null;\r\n flags |= CommonFlags.GENERIC;\r\n }\r\n\r\n if (!tn.skip(Token.OPENPAREN)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(tn.pos), \"(\"\r\n );\r\n return null;\r\n }\r\n\r\n if (signatureStart < 0) {\r\n signatureStart = tn.tokenPos;\r\n }\r\n\r\n var parameters = this.parseParameters(tn);\r\n if (!parameters) return null;\r\n var thisType = this.parseParametersThis;\r\n\r\n var isSetter = (flags & CommonFlags.SET) != 0;\r\n if (isSetter) {\r\n if (parameters.length != 1) {\r\n this.error(\r\n DiagnosticCode.A_set_accessor_must_have_exactly_one_parameter,\r\n name.range\r\n ); // recoverable\r\n }\r\n if (parameters.length && parameters[0].initializer) {\r\n this.error(\r\n DiagnosticCode.A_set_accessor_parameter_cannot_have_an_initializer,\r\n name.range\r\n ); // recoverable\r\n }\r\n }\r\n\r\n if (flags & CommonFlags.GET) {\r\n if (parameters.length) {\r\n this.error(\r\n DiagnosticCode.A_get_accessor_cannot_have_parameters,\r\n name.range\r\n ); // recoverable\r\n }\r\n }\r\n\r\n var returnType: CommonTypeNode | null = null;\r\n if (tn.skip(Token.COLON)) {\r\n returnType = this.parseType(tn, true, isSetter);\r\n if (!returnType) return null;\r\n }\r\n\r\n if (!returnType) {\r\n returnType = Node.createOmittedType(\r\n tn.range(tn.pos)\r\n );\r\n if (!isSetter) {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n returnType.range\r\n ); // recoverable\r\n }\r\n }\r\n\r\n var signature = Node.createSignature(\r\n parameters,\r\n returnType,\r\n thisType,\r\n false,\r\n tn.range(signatureStart, tn.pos)\r\n );\r\n\r\n var body: Statement | null = null;\r\n if (tn.skip(Token.OPENBRACE)) {\r\n if (flags & CommonFlags.AMBIENT) {\r\n this.error(\r\n DiagnosticCode.An_implementation_cannot_be_declared_in_ambient_contexts,\r\n tn.range()\r\n ); // recoverable\r\n }\r\n\r\n body = this.parseBlockStatement(tn, false);\r\n if (!body) return null;\r\n } else if (!(flags & CommonFlags.AMBIENT)) {\r\n this.error(\r\n DiagnosticCode.Function_implementation_is_missing_or_not_immediately_following_the_declaration,\r\n tn.range(tn.pos)\r\n );\r\n }\r\n\r\n var ret = Node.createFunctionDeclaration(\r\n name,\r\n typeParameters,\r\n signature,\r\n body,\r\n decorators,\r\n flags,\r\n ArrowKind.NONE,\r\n tn.range(startPos, tn.pos)\r\n );\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n }\r\n\r\n parseFunctionExpression(tn: Tokenizer): FunctionExpression | null {\r\n var startPos = tn.tokenPos;\r\n var name: IdentifierExpression;\r\n var arrowKind = ArrowKind.NONE;\r\n\r\n // either at 'function':\r\n // Identifier?\r\n // '(' Parameters (':' Type)?\r\n // Statement\r\n\r\n if (tn.token == Token.FUNCTION) {\r\n if (tn.skipIdentifier()) {\r\n name = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n } else { // empty name\r\n name = Node.createEmptyIdentifierExpression(tn.range(tn.pos));\r\n }\r\n if (!tn.skip(Token.OPENPAREN)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(tn.pos), \"(\"\r\n );\r\n return null;\r\n }\r\n\r\n // or at '(' of arrow function:\r\n // Parameters (':' Type)?\r\n // Statement\r\n\r\n } else {\r\n arrowKind = ArrowKind.ARROW_PARENTHESIZED;\r\n assert(tn.token == Token.OPENPAREN);\r\n name = Node.createEmptyIdentifierExpression(tn.range(tn.tokenPos));\r\n }\r\n\r\n // TODO: type parameters? doesn't seem worth it.\r\n\r\n var signatureStart = tn.pos;\r\n var parameters = this.parseParameters(tn);\r\n if (!parameters) return null;\r\n\r\n return this.parseFunctionExpressionCommon(tn, name, parameters, arrowKind, startPos, signatureStart);\r\n }\r\n\r\n private parseFunctionExpressionCommon(\r\n tn: Tokenizer,\r\n name: IdentifierExpression,\r\n parameters: ParameterNode[],\r\n arrowKind: ArrowKind,\r\n startPos: i32 = -1,\r\n signatureStart: i32 = -1\r\n ): FunctionExpression | null {\r\n if (startPos < 0) startPos = name.range.start;\r\n if (signatureStart < 0) signatureStart = startPos;\r\n\r\n var returnType: CommonTypeNode | null = null;\r\n if (arrowKind != ArrowKind.ARROW_SINGLE && tn.skip(Token.COLON)) {\r\n returnType = this.parseType(tn);\r\n if (!returnType) return null;\r\n } else {\r\n returnType = Node.createOmittedType(tn.range(tn.pos));\r\n }\r\n\r\n if (arrowKind) {\r\n if (!tn.skip(Token.EQUALS_GREATERTHAN)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(tn.pos), \"=>\"\r\n );\r\n return null;\r\n }\r\n }\r\n\r\n var signature = Node.createSignature(\r\n parameters,\r\n returnType,\r\n null, // TODO?\r\n false,\r\n tn.range(signatureStart, tn.pos)\r\n );\r\n\r\n var body: Statement | null;\r\n if (arrowKind) {\r\n body = this.parseStatement(tn, false);\r\n } else {\r\n if (!tn.skip(Token.OPENBRACE)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(tn.pos), \"{\"\r\n );\r\n return null;\r\n }\r\n body = this.parseBlockStatement(tn, false);\r\n }\r\n if (!body) return null;\r\n\r\n var declaration = Node.createFunctionDeclaration(\r\n name,\r\n null,\r\n signature,\r\n body,\r\n null,\r\n CommonFlags.NONE,\r\n arrowKind,\r\n tn.range(startPos, tn.pos)\r\n );\r\n return Node.createFunctionExpression(declaration);\r\n }\r\n\r\n parseClassOrInterface(\r\n tn: Tokenizer,\r\n flags: CommonFlags,\r\n decorators: DecoratorNode[] | null,\r\n startPos: i32\r\n ): ClassDeclaration | null {\r\n\r\n // at ('class' | 'interface'):\r\n // Identifier\r\n // ('<' TypeParameters)?\r\n // ('extends' Type)?\r\n // ('implements' Type (',' Type)*)?\r\n // '{' ClassMember* '}'\r\n\r\n var isInterface = tn.token == Token.INTERFACE;\r\n\r\n if (!tn.skipIdentifier()) {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n\r\n var identifier = Node.createIdentifierExpression(\r\n tn.readIdentifier(),\r\n tn.range()\r\n );\r\n\r\n var typeParameters: TypeParameterNode[] | null = null;\r\n if (tn.skip(Token.LESSTHAN)) {\r\n typeParameters = this.parseTypeParameters(tn);\r\n if (!typeParameters) return null;\r\n flags |= CommonFlags.GENERIC;\r\n }\r\n\r\n var extendsType: TypeNode | null = null;\r\n if (tn.skip(Token.EXTENDS)) {\r\n let t = this.parseType(tn);\r\n if (!t) return null;\r\n if (t.kind != NodeKind.TYPE) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n t.range\r\n );\r\n return null;\r\n }\r\n extendsType = t;\r\n }\r\n\r\n var implementsTypes: TypeNode[] | null = null;\r\n if (tn.skip(Token.IMPLEMENTS)) {\r\n if (isInterface) {\r\n this.error(\r\n DiagnosticCode.Interface_declaration_cannot_have_implements_clause,\r\n tn.range()\r\n ); // recoverable\r\n }\r\n do {\r\n let type = this.parseType(tn);\r\n if (!type) return null;\r\n if (!isInterface) {\r\n if (!implementsTypes) implementsTypes = [];\r\n implementsTypes.push(type);\r\n }\r\n } while (tn.skip(Token.COMMA));\r\n }\r\n\r\n if (!tn.skip(Token.OPENBRACE)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"{\"\r\n );\r\n return null;\r\n }\r\n\r\n var members = new Array();\r\n var declaration: ClassDeclaration;\r\n if (isInterface) {\r\n assert(!implementsTypes);\r\n declaration = Node.createInterfaceDeclaration(\r\n identifier,\r\n typeParameters,\r\n extendsType,\r\n members,\r\n decorators,\r\n flags,\r\n tn.range(startPos, tn.pos)\r\n );\r\n } else {\r\n declaration = Node.createClassDeclaration(\r\n identifier,\r\n typeParameters,\r\n extendsType,\r\n implementsTypes,\r\n members,\r\n decorators,\r\n flags,\r\n tn.range(startPos, tn.pos)\r\n );\r\n }\r\n if (!tn.skip(Token.CLOSEBRACE)) {\r\n do {\r\n let member = this.parseClassMember(tn, declaration);\r\n if (member) members.push(member);\r\n } while (!tn.skip(Token.CLOSEBRACE));\r\n }\r\n return declaration;\r\n }\r\n\r\n parseClassExpression(tn: Tokenizer): ClassExpression | null {\r\n\r\n // at 'class': Identifier? '{' ... '}'\r\n\r\n var startPos = tn.tokenPos;\r\n var name: IdentifierExpression;\r\n\r\n if (tn.skipIdentifier()) {\r\n name = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n } else {\r\n name = Node.createEmptyIdentifierExpression(tn.range(tn.pos));\r\n }\r\n\r\n if (!tn.skip(Token.OPENBRACE)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(tn.pos), \"{\"\r\n );\r\n return null;\r\n }\r\n\r\n var members = new Array();\r\n var declaration = Node.createClassDeclaration(\r\n name,\r\n [],\r\n null,\r\n null,\r\n members,\r\n null,\r\n CommonFlags.NONE,\r\n tn.range(startPos, tn.pos)\r\n );\r\n if (!tn.skip(Token.CLOSEBRACE)) {\r\n do {\r\n let member = this.parseClassMember(tn, declaration);\r\n if (member) members.push(member);\r\n } while (!tn.skip(Token.CLOSEBRACE));\r\n }\r\n return Node.createClassExpression(declaration);\r\n }\r\n\r\n parseClassMember(\r\n tn: Tokenizer,\r\n parent: ClassDeclaration\r\n ): DeclarationStatement | null {\r\n\r\n // before:\r\n // ('public' | 'private' | 'protected')?\r\n // ('static' | 'abstract')?\r\n // 'readonly'?\r\n // ('get' | 'set')?\r\n // Identifier ...\r\n\r\n var startPos = tn.pos;\r\n var isInterface = parent.kind == NodeKind.INTERFACEDECLARATION;\r\n\r\n var decorators = new Array();\r\n if (tn.skip(Token.AT)) {\r\n do {\r\n let decorator = this.parseDecorator(tn);\r\n if (!decorator) break;\r\n decorators.push(decorator);\r\n } while (tn.skip(Token.AT));\r\n if (isInterface) {\r\n this.error(\r\n DiagnosticCode.Decorators_are_not_valid_here,\r\n Range.join(decorators[0].range, decorators[decorators.length - 1].range)\r\n );\r\n }\r\n }\r\n\r\n // inherit ambient status\r\n var flags = parent.flags & CommonFlags.AMBIENT;\r\n\r\n // implemented methods are virtual\r\n if (isInterface) flags |= CommonFlags.VIRTUAL;\r\n\r\n var accessStart = 0;\r\n var accessEnd = 0;\r\n if (tn.skip(Token.PUBLIC)) {\r\n if (isInterface) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(), \"public\"\r\n );\r\n }\r\n flags |= CommonFlags.PUBLIC;\r\n accessStart = tn.tokenPos;\r\n accessEnd = tn.pos;\r\n } else if (tn.skip(Token.PRIVATE)) {\r\n if (isInterface) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(), \"private\"\r\n );\r\n }\r\n flags |= CommonFlags.PRIVATE;\r\n accessStart = tn.tokenPos;\r\n accessEnd = tn.pos;\r\n } else if (tn.skip(Token.PROTECTED)) {\r\n if (isInterface) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(), \"protected\"\r\n );\r\n }\r\n flags |= CommonFlags.PROTECTED;\r\n accessStart = tn.tokenPos;\r\n accessEnd = tn.pos;\r\n }\r\n\r\n var staticStart = 0;\r\n var staticEnd = 0;\r\n var abstractStart = 0;\r\n var abstractEnd = 0;\r\n if (tn.skip(Token.STATIC)) {\r\n if (isInterface) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(), \"static\"\r\n );\r\n }\r\n flags |= CommonFlags.STATIC;\r\n staticStart = tn.tokenPos;\r\n staticEnd = tn.pos;\r\n } else {\r\n flags |= CommonFlags.INSTANCE;\r\n if (tn.skip(Token.ABSTRACT)) {\r\n if (isInterface) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(), \"abstract\"\r\n );\r\n }\r\n flags |= CommonFlags.ABSTRACT;\r\n abstractStart = tn.tokenPos;\r\n abstractEnd = tn.pos;\r\n }\r\n if (parent.flags & CommonFlags.GENERIC) flags |= CommonFlags.GENERIC_CONTEXT;\r\n }\r\n\r\n var readonlyStart: i32 = 0;\r\n var readonlyEnd: i32 = 0;\r\n if (tn.skip(Token.READONLY)) {\r\n flags |= CommonFlags.READONLY;\r\n readonlyStart = tn.tokenPos;\r\n readonlyEnd = tn.pos;\r\n }\r\n\r\n // check if accessor: ('get' | 'set') ^\\n Identifier\r\n var state = tn.mark();\r\n var isConstructor = false;\r\n var isGetter = false;\r\n var getStart: i32 = 0;\r\n var getEnd: i32 = 0;\r\n var isSetter = false;\r\n var setStart: i32 = 0;\r\n var setEnd: i32 = 0;\r\n if (!isInterface) {\r\n if (tn.skip(Token.GET)) {\r\n if (tn.peek(true, IdentifierHandling.PREFER) == Token.IDENTIFIER && !tn.nextTokenOnNewLine) {\r\n flags |= CommonFlags.GET;\r\n isGetter = true;\r\n setStart = tn.tokenPos;\r\n setEnd = tn.pos;\r\n if (flags & CommonFlags.READONLY) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(readonlyStart, readonlyEnd), \"readonly\"\r\n ); // recoverable\r\n }\r\n } else {\r\n tn.reset(state);\r\n }\r\n } else if (tn.skip(Token.SET)) {\r\n if (tn.peek(true, IdentifierHandling.PREFER) == Token.IDENTIFIER && !tn.nextTokenOnNewLine) {\r\n flags |= CommonFlags.SET;\r\n isSetter = true;\r\n setStart = tn.tokenPos;\r\n setEnd = tn.pos;\r\n if (flags & CommonFlags.READONLY) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(readonlyStart, readonlyEnd), \"readonly\"\r\n ); // recoverable\r\n }\r\n } else {\r\n tn.reset(state);\r\n }\r\n } else if (tn.skip(Token.CONSTRUCTOR)) {\r\n flags |= CommonFlags.CONSTRUCTOR;\r\n isConstructor = true;\r\n if (flags & CommonFlags.STATIC) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(staticStart, staticEnd), \"static\"\r\n ); // recoverable\r\n }\r\n if (flags & CommonFlags.ABSTRACT) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(abstractStart, abstractEnd), \"abstract\"\r\n ); // recoverable\r\n }\r\n if (flags & CommonFlags.READONLY) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(readonlyStart, readonlyEnd), \"readonly\"\r\n ); // recoverable\r\n }\r\n }\r\n }\r\n\r\n var name: IdentifierExpression;\r\n if (isConstructor) {\r\n name = Node.createConstructorExpression(tn.range());\r\n } else {\r\n if (!(isGetter || isSetter) && tn.skip(Token.OPENBRACKET)) {\r\n // TODO: also handle symbols, which might have some of these modifiers\r\n if (flags & CommonFlags.PUBLIC) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(accessStart, accessEnd), \"public\"\r\n ); // recoverable\r\n } else if (flags & CommonFlags.PROTECTED) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(accessStart, accessEnd), \"protected\"\r\n ); // recoverable\r\n } else if (flags & CommonFlags.PRIVATE) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(accessStart, accessEnd), \"protected\"\r\n ); // recoverable\r\n }\r\n if (flags & CommonFlags.STATIC) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(staticStart, staticEnd), \"static\"\r\n ); // recoverable\r\n }\r\n if (flags & CommonFlags.ABSTRACT) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(abstractStart, abstractEnd), \"abstract\"\r\n ); // recoverable\r\n }\r\n if (flags & CommonFlags.READONLY) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(readonlyStart, readonlyEnd), \"readonly\"\r\n ); // recoverable\r\n }\r\n let retIndex = this.parseIndexSignatureDeclaration(tn, decorators);\r\n if (!retIndex) return null;\r\n tn.skip(Token.SEMICOLON);\r\n return retIndex;\r\n }\r\n if (!tn.skipIdentifier()) {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n name = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n }\r\n var typeParameters: TypeParameterNode[] | null = null;\r\n if (tn.skip(Token.LESSTHAN)) {\r\n let typeParametersStart = tn.tokenPos;\r\n typeParameters = this.parseTypeParameters(tn);\r\n if (!typeParameters) return null;\r\n if (isConstructor) {\r\n this.error(\r\n DiagnosticCode.Type_parameters_cannot_appear_on_a_constructor_declaration,\r\n tn.range(typeParametersStart, tn.pos)\r\n ); // recoverable\r\n } else if (isGetter || isSetter) {\r\n this.error(\r\n DiagnosticCode.An_accessor_cannot_have_type_parameters,\r\n tn.range(typeParametersStart, tn.pos)\r\n ); // recoverable\r\n } else {\r\n flags |= CommonFlags.GENERIC;\r\n }\r\n }\r\n\r\n // method: '(' Parameters (':' Type)? '{' Statement* '}' ';'?\r\n if (tn.skip(Token.OPENPAREN)) {\r\n let signatureStart = tn.tokenPos;\r\n let parameters = this.parseParameters(tn, isConstructor);\r\n if (!parameters) return null;\r\n let thisType = this.parseParametersThis;\r\n if (isConstructor) {\r\n for (let i = 0, k = parameters.length; i < k; ++i) {\r\n let parameter = parameters[i];\r\n if (parameter.isAny(\r\n CommonFlags.PUBLIC |\r\n CommonFlags.PROTECTED |\r\n CommonFlags.PRIVATE |\r\n CommonFlags.READONLY\r\n )) {\r\n let implicitFieldDeclaration = Node.createFieldDeclaration(\r\n parameter.name,\r\n parameter.type,\r\n null, // initialized via parameter\r\n null,\r\n parameter.flags | CommonFlags.INSTANCE,\r\n parameter.range\r\n );\r\n implicitFieldDeclaration.parameterIndex = i;\r\n parameter.implicitFieldDeclaration = implicitFieldDeclaration;\r\n parent.members.push(implicitFieldDeclaration);\r\n }\r\n }\r\n } else if (isGetter) {\r\n if (parameters.length) {\r\n this.error(\r\n DiagnosticCode.A_get_accessor_cannot_have_parameters,\r\n name.range\r\n );\r\n }\r\n } else if (isSetter) {\r\n if (parameters.length != 1) {\r\n this.error(\r\n DiagnosticCode.A_set_accessor_must_have_exactly_one_parameter,\r\n name.range\r\n );\r\n }\r\n if (parameters.length && parameters[0].initializer) {\r\n this.error(\r\n DiagnosticCode.A_set_accessor_parameter_cannot_have_an_initializer,\r\n name.range\r\n );\r\n }\r\n }\r\n\r\n let returnType: CommonTypeNode | null = null;\r\n if (tn.skip(Token.COLON)) {\r\n if (name.kind == NodeKind.CONSTRUCTOR) {\r\n this.error(\r\n DiagnosticCode.Type_annotation_cannot_appear_on_a_constructor_declaration,\r\n tn.range()\r\n );\r\n } else if (isSetter) {\r\n this.error(\r\n DiagnosticCode.A_set_accessor_cannot_have_a_return_type_annotation,\r\n tn.range()\r\n );\r\n }\r\n returnType = this.parseType(tn, name.kind == NodeKind.CONSTRUCTOR || isSetter);\r\n if (!returnType) return null;\r\n } else {\r\n returnType = Node.createOmittedType(tn.range(tn.pos));\r\n if (!isSetter && name.kind != NodeKind.CONSTRUCTOR) {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n returnType.range\r\n ); // recoverable\r\n }\r\n }\r\n\r\n let signature = Node.createSignature(\r\n parameters,\r\n returnType,\r\n thisType,\r\n false,\r\n tn.range(signatureStart, tn.pos)\r\n );\r\n\r\n let body: Statement | null = null;\r\n if (tn.skip(Token.OPENBRACE)) {\r\n if (flags & CommonFlags.AMBIENT) {\r\n this.error(\r\n DiagnosticCode.An_implementation_cannot_be_declared_in_ambient_contexts,\r\n tn.range()\r\n ); // recoverable\r\n } else if (flags & CommonFlags.ABSTRACT) {\r\n this.error(\r\n DiagnosticCode.Method_0_cannot_have_an_implementation_because_it_is_marked_abstract,\r\n tn.range(), name.text\r\n ); // recoverable\r\n }\r\n body = this.parseBlockStatement(tn, false);\r\n if (!body) return null;\r\n } else if (!(flags & CommonFlags.AMBIENT) && !isInterface) {\r\n this.error(\r\n DiagnosticCode.Function_implementation_is_missing_or_not_immediately_following_the_declaration,\r\n tn.range()\r\n ); // recoverable\r\n }\r\n\r\n let retMethod = Node.createMethodDeclaration(\r\n name,\r\n typeParameters,\r\n signature,\r\n body,\r\n decorators,\r\n flags,\r\n tn.range(startPos, tn.pos)\r\n );\r\n tn.skip(Token.SEMICOLON);\r\n return retMethod;\r\n\r\n } else if (isConstructor) {\r\n this.error(\r\n DiagnosticCode.Constructor_implementation_is_missing,\r\n name.range\r\n );\r\n\r\n } else if (isGetter || isSetter) {\r\n this.error(\r\n DiagnosticCode.Function_implementation_is_missing_or_not_immediately_following_the_declaration,\r\n name.range\r\n );\r\n\r\n // field: (':' Type)? ('=' Expression)? ';'?\r\n } else {\r\n if (flags & CommonFlags.ABSTRACT) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(abstractStart, abstractEnd), \"abstract\"\r\n ); // recoverable\r\n }\r\n\r\n if (flags & CommonFlags.GET) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(getStart, getEnd), \"get\"\r\n ); // recoverable\r\n }\r\n\r\n if (flags & CommonFlags.SET) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(setStart, setEnd), \"set\"\r\n ); // recoverable\r\n }\r\n\r\n let type: CommonTypeNode | null = null;\r\n if (tn.skip(Token.QUESTION)) {\r\n this.error(\r\n DiagnosticCode.Optional_properties_are_not_supported,\r\n tn.range(startPos, tn.pos)\r\n );\r\n }\r\n if (tn.skip(Token.EXCLAMATION)) {\r\n flags |= CommonFlags.DEFINITE_ASSIGNMENT;\r\n }\r\n if (tn.skip(Token.COLON)) {\r\n type = this.parseType(tn);\r\n if (!type) return null;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n tn.range()\r\n ); // recoverable\r\n }\r\n let initializer: Expression | null = null;\r\n if (tn.skip(Token.EQUALS)) {\r\n initializer = this.parseExpression(tn);\r\n if (!initializer) return null;\r\n }\r\n let range = tn.range(startPos, tn.pos);\r\n if ((flags & CommonFlags.DEFINITE_ASSIGNMENT) && ((flags & CommonFlags.STATIC) || isInterface || initializer)) {\r\n this.error(\r\n DiagnosticCode.A_definite_assignment_assertion_is_not_permitted_in_this_context,\r\n range\r\n );\r\n }\r\n let retField = Node.createFieldDeclaration(\r\n name,\r\n type,\r\n initializer,\r\n decorators,\r\n flags,\r\n range\r\n );\r\n tn.skip(Token.SEMICOLON);\r\n return retField;\r\n }\r\n return null;\r\n }\r\n\r\n parseIndexSignatureDeclaration(tn: Tokenizer, decorators: DecoratorNode[]): IndexSignatureDeclaration | null {\r\n\r\n // at: '[': 'key' ':' Type ']' ':' Type\r\n\r\n if (decorators.length) {\r\n this.error(\r\n DiagnosticCode.Decorators_are_not_valid_here,\r\n Range.join(decorators[0].range, decorators[decorators.length - 1].range)\r\n ); // recoverable\r\n }\r\n\r\n var start = tn.tokenPos;\r\n if (tn.skipIdentifier()) {\r\n let id = tn.readIdentifier();\r\n if (id == \"key\") {\r\n if (tn.skip(Token.COLON)) {\r\n let keyType = this.parseType(tn);\r\n if (!keyType) return null;\r\n if (keyType.kind != NodeKind.TYPE) {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n if (tn.skip(Token.CLOSEBRACKET)) {\r\n if (tn.skip(Token.COLON)) {\r\n let valueType = this.parseType(tn);\r\n if (!valueType) return null;\r\n return Node.createIndexSignatureDeclaration(keyType, valueType, tn.range(start, tn.pos));\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \":\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"]\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \":\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"key\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseNamespace(\r\n tn: Tokenizer,\r\n flags: CommonFlags,\r\n decorators: DecoratorNode[] | null,\r\n startPos: i32\r\n ): NamespaceDeclaration | null {\r\n\r\n // at 'namespace': Identifier '{' (Variable | Function)* '}'\r\n\r\n if (tn.skipIdentifier()) {\r\n let identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n if (tn.skip(Token.OPENBRACE)) {\r\n let members = new Array();\r\n let ns = Node.createNamespaceDeclaration(\r\n identifier,\r\n members,\r\n decorators,\r\n flags,\r\n tn.range(startPos, tn.pos)\r\n );\r\n while (!tn.skip(Token.CLOSEBRACE)) {\r\n let member = this.parseTopLevelStatement(tn, ns);\r\n if (member) members.push(member);\r\n }\r\n tn.skip(Token.SEMICOLON);\r\n return ns;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"{\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseExport(\r\n tn: Tokenizer,\r\n startPos: i32,\r\n isDeclare: bool\r\n ): ExportStatement | null {\r\n\r\n // at 'export': '{' ExportMember (',' ExportMember)* }' ('from' StringLiteral)? ';'?\r\n\r\n var path: StringLiteralExpression | null = null;\r\n if (tn.skip(Token.OPENBRACE)) {\r\n let members = new Array();\r\n while (!tn.skip(Token.CLOSEBRACE)) {\r\n let member = this.parseExportMember(tn);\r\n if (!member) return null;\r\n members.push(member);\r\n if (!tn.skip(Token.COMMA)) {\r\n if (tn.skip(Token.CLOSEBRACE)) {\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"}\"\r\n );\r\n return null;\r\n }\r\n }\r\n }\r\n if (tn.skip(Token.FROM)) {\r\n if (tn.skip(Token.STRINGLITERAL)) {\r\n path = Node.createStringLiteralExpression(tn.readString(), tn.range());\r\n } else {\r\n this.error(\r\n DiagnosticCode.String_literal_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n }\r\n let ret = Node.createExportStatement(members, path, isDeclare, tn.range(startPos, tn.pos));\r\n let internalPath = ret.internalPath;\r\n if (internalPath !== null && !this.seenlog.has(internalPath)) {\r\n this.backlog.push(internalPath);\r\n this.seenlog.add(internalPath);\r\n }\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n } else if (tn.skip(Token.ASTERISK)) {\r\n if (tn.skip(Token.FROM)) {\r\n if (tn.skip(Token.STRINGLITERAL)) {\r\n path = Node.createStringLiteralExpression(tn.readString(), tn.range());\r\n let ret = Node.createExportStatement(null, path, isDeclare, tn.range(startPos, tn.pos));\r\n let internalPath = assert(ret.internalPath);\r\n let source = tn.source;\r\n if (!source.exportPaths) source.exportPaths = new Set();\r\n source.exportPaths.add(internalPath);\r\n if (!this.seenlog.has(internalPath)) {\r\n this.backlog.push(internalPath);\r\n this.seenlog.add(internalPath);\r\n }\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n } else {\r\n this.error(\r\n DiagnosticCode.String_literal_expected,\r\n tn.range()\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"from\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"{\"\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseExportMember(\r\n tn: Tokenizer\r\n ): ExportMember | null {\r\n\r\n // before: Identifier ('as' Identifier)?\r\n\r\n if (tn.skipIdentifier()) {\r\n let identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n let asIdentifier: IdentifierExpression | null = null;\r\n if (tn.skip(Token.AS)) {\r\n if (tn.skipIdentifier(IdentifierHandling.ALWAYS)) {\r\n asIdentifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n }\r\n return Node.createExportMember(\r\n identifier,\r\n asIdentifier,\r\n asIdentifier\r\n ? Range.join(identifier.range, asIdentifier.range)\r\n : identifier.range\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseImport(\r\n tn: Tokenizer\r\n ): ImportStatement | null {\r\n\r\n // at 'import':\r\n // ('{' (ImportMember (',' ImportMember)* '}') | ('*' 'as' Identifier)?\r\n // 'from' StringLiteral ';'?\r\n\r\n var startPos = tn.tokenPos;\r\n var members: ImportDeclaration[] | null = null;\r\n var namespaceName: IdentifierExpression | null = null;\r\n var skipFrom = false;\r\n if (tn.skip(Token.OPENBRACE)) {\r\n members = new Array();\r\n while (!tn.skip(Token.CLOSEBRACE)) {\r\n let member = this.parseImportDeclaration(tn);\r\n if (!member) return null;\r\n members.push(member);\r\n if (!tn.skip(Token.COMMA)) {\r\n if (tn.skip(Token.CLOSEBRACE)) {\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"}\"\r\n );\r\n return null;\r\n }\r\n }\r\n }\r\n } else if (tn.skip(Token.ASTERISK)) {\r\n if (tn.skip(Token.AS)) {\r\n if (tn.skipIdentifier()) {\r\n namespaceName = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"as\"\r\n );\r\n return null;\r\n }\r\n } else {\r\n skipFrom = true;\r\n }\r\n\r\n if (skipFrom || tn.skip(Token.FROM)) {\r\n if (tn.skip(Token.STRINGLITERAL)) {\r\n let path = Node.createStringLiteralExpression(tn.readString(), tn.range());\r\n let ret: ImportStatement;\r\n if (namespaceName) {\r\n assert(!members);\r\n ret = Node.createImportStatementWithWildcard(namespaceName, path, tn.range(startPos, tn.pos));\r\n } else {\r\n ret = Node.createImportStatement(members, path, tn.range(startPos, tn.pos));\r\n }\r\n let internalPath = ret.internalPath;\r\n if (!this.seenlog.has(internalPath)) {\r\n this.backlog.push(internalPath);\r\n this.seenlog.add(internalPath);\r\n }\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n } else {\r\n this.error(\r\n DiagnosticCode.String_literal_expected,\r\n tn.range()\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"from\"\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseImportDeclaration(\r\n tn: Tokenizer\r\n ): ImportDeclaration | null {\r\n\r\n // before: Identifier ('as' Identifier)?\r\n\r\n if (tn.skipIdentifier(IdentifierHandling.ALWAYS)) {\r\n let identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n let asIdentifier: IdentifierExpression | null = null;\r\n if (tn.skip(Token.AS)) {\r\n if (tn.skipIdentifier()) {\r\n asIdentifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n }\r\n return Node.createImportDeclaration(\r\n identifier,\r\n asIdentifier,\r\n asIdentifier\r\n ? Range.join(identifier.range, asIdentifier.range)\r\n : identifier.range\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseExportImport(\r\n tn: Tokenizer,\r\n startPos: i32\r\n ): ExportImportStatement | null {\r\n\r\n // at 'export' 'import': Identifier ('=' Identifier)? ';'?\r\n\r\n if (tn.skipIdentifier()) {\r\n let asIdentifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n if (tn.skip(Token.EQUALS)) {\r\n if (tn.skipIdentifier()) {\r\n let identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n let ret = Node.createExportImportStatement(identifier, asIdentifier, tn.range(startPos, tn.pos));\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"=\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseStatement(\r\n tn: Tokenizer,\r\n topLevel: bool = false\r\n ): Statement | null {\r\n\r\n // at previous token\r\n\r\n var state = tn.mark();\r\n var token = tn.next();\r\n var statement: Statement | null = null;\r\n switch (token) {\r\n case Token.BREAK: {\r\n statement = this.parseBreak(tn);\r\n break;\r\n }\r\n case Token.CONST: {\r\n statement = this.parseVariable(tn, CommonFlags.CONST, null, tn.tokenPos);\r\n break;\r\n }\r\n case Token.CONTINUE: {\r\n statement = this.parseContinue(tn);\r\n break;\r\n }\r\n case Token.DO: {\r\n statement = this.parseDoStatement(tn);\r\n break;\r\n }\r\n case Token.FOR: {\r\n statement = this.parseForStatement(tn);\r\n break;\r\n }\r\n case Token.IF: {\r\n statement = this.parseIfStatement(tn);\r\n break;\r\n }\r\n case Token.LET: {\r\n statement = this.parseVariable(tn, CommonFlags.LET, null, tn.tokenPos);\r\n break;\r\n }\r\n case Token.VAR: {\r\n statement = this.parseVariable(tn, CommonFlags.NONE, null, tn.tokenPos);\r\n break;\r\n }\r\n case Token.OPENBRACE: {\r\n statement = this.parseBlockStatement(tn, topLevel);\r\n break;\r\n }\r\n case Token.RETURN: {\r\n if (topLevel) {\r\n this.error(\r\n DiagnosticCode.A_return_statement_can_only_be_used_within_a_function_body,\r\n tn.range()\r\n ); // recoverable\r\n }\r\n statement = this.parseReturn(tn);\r\n break;\r\n }\r\n case Token.SEMICOLON: {\r\n return Node.createEmptyStatement(tn.range(tn.tokenPos));\r\n }\r\n case Token.SWITCH: {\r\n statement = this.parseSwitchStatement(tn);\r\n break;\r\n }\r\n case Token.THROW: {\r\n statement = this.parseThrowStatement(tn);\r\n break;\r\n }\r\n case Token.TRY: {\r\n statement = this.parseTryStatement(tn);\r\n break;\r\n }\r\n case Token.VOID: {\r\n statement = this.parseVoidStatement(tn);\r\n break;\r\n }\r\n case Token.WHILE: {\r\n statement = this.parseWhileStatement(tn);\r\n break;\r\n }\r\n case Token.TYPE: { // also identifier\r\n if (tn.peek(false, IdentifierHandling.PREFER) == Token.IDENTIFIER) {\r\n statement = this.parseTypeDeclaration(tn, CommonFlags.NONE, null, tn.tokenPos);\r\n break;\r\n }\r\n // fall-through\r\n }\r\n default: {\r\n tn.reset(state);\r\n statement = this.parseExpressionStatement(tn);\r\n break;\r\n }\r\n }\r\n if (!statement) { // has been reported\r\n tn.reset(state);\r\n this.skipStatement(tn);\r\n } else {\r\n tn.discard(state);\r\n }\r\n return statement;\r\n }\r\n\r\n parseBlockStatement(\r\n tn: Tokenizer,\r\n topLevel: bool\r\n ): BlockStatement | null {\r\n\r\n // at '{': Statement* '}' ';'?\r\n\r\n var startPos = tn.tokenPos;\r\n var statements = new Array();\r\n while (!tn.skip(Token.CLOSEBRACE)) {\r\n let state = tn.mark();\r\n let statement = this.parseStatement(tn, topLevel);\r\n if (!statement) {\r\n if (tn.token == Token.ENDOFFILE) return null;\r\n tn.reset(state);\r\n this.skipStatement(tn);\r\n } else {\r\n tn.discard(state);\r\n statements.push(statement);\r\n }\r\n }\r\n var ret = Node.createBlockStatement(statements, tn.range(startPos, tn.pos));\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n }\r\n\r\n parseBreak(\r\n tn: Tokenizer\r\n ): BreakStatement | null {\r\n\r\n // at 'break': Identifier? ';'?\r\n\r\n var identifier: IdentifierExpression | null = null;\r\n if (tn.peek(true) == Token.IDENTIFIER && !tn.nextTokenOnNewLine) {\r\n tn.next(IdentifierHandling.PREFER);\r\n identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n }\r\n var ret = Node.createBreakStatement(identifier, tn.range());\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n }\r\n\r\n parseContinue(\r\n tn: Tokenizer\r\n ): ContinueStatement | null {\r\n\r\n // at 'continue': Identifier? ';'?\r\n\r\n var identifier: IdentifierExpression | null = null;\r\n if (tn.peek(true) == Token.IDENTIFIER && !tn.nextTokenOnNewLine) {\r\n tn.next(IdentifierHandling.PREFER);\r\n identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n }\r\n var ret = Node.createContinueStatement(identifier, tn.range());\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n }\r\n\r\n parseDoStatement(\r\n tn: Tokenizer\r\n ): DoStatement | null {\r\n\r\n // at 'do': Statement 'while' '(' Expression ')' ';'?\r\n\r\n var startPos = tn.tokenPos;\r\n var statement = this.parseStatement(tn);\r\n if (!statement) return null;\r\n\r\n if (tn.skip(Token.WHILE)) {\r\n\r\n if (tn.skip(Token.OPENPAREN)) {\r\n let condition = this.parseExpression(tn);\r\n if (!condition) return null;\r\n\r\n if (tn.skip(Token.CLOSEPAREN)) {\r\n let ret = Node.createDoStatement(statement, condition, tn.range(startPos, tn.pos));\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"(\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"while\"\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseExpressionStatement(\r\n tn: Tokenizer\r\n ): ExpressionStatement | null {\r\n\r\n // at previous token\r\n\r\n var expr = this.parseExpression(tn);\r\n if (!expr) return null;\r\n\r\n var ret = Node.createExpressionStatement(expr);\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n }\r\n\r\n parseForStatement(\r\n tn: Tokenizer\r\n ): ForStatement | null {\r\n\r\n // at 'for': '(' Statement? Expression? ';' Expression? ')' Statement\r\n\r\n var startPos = tn.tokenPos;\r\n\r\n if (tn.skip(Token.OPENPAREN)) {\r\n let initializer: Statement | null = null;\r\n\r\n if (tn.skip(Token.CONST)) {\r\n initializer = this.parseVariable(tn, CommonFlags.CONST, null, tn.tokenPos);\r\n } else if (tn.skip(Token.LET)) {\r\n initializer = this.parseVariable(tn, CommonFlags.LET, null, tn.tokenPos);\r\n } else if (tn.skip(Token.VAR)) {\r\n initializer = this.parseVariable(tn, CommonFlags.NONE, null, tn.tokenPos);\r\n\r\n } else if (!tn.skip(Token.SEMICOLON)) {\r\n initializer = this.parseExpressionStatement(tn);\r\n if (!initializer) return null;\r\n }\r\n\r\n if (tn.token == Token.SEMICOLON) {\r\n let condition: ExpressionStatement | null = null;\r\n if (!tn.skip(Token.SEMICOLON)) {\r\n condition = this.parseExpressionStatement(tn);\r\n if (!condition) return null;\r\n }\r\n\r\n if (tn.token == Token.SEMICOLON) {\r\n let incrementor: Expression | null = null;\r\n if (!tn.skip(Token.CLOSEPAREN)) {\r\n incrementor = this.parseExpression(tn);\r\n if (!incrementor) return null;\r\n\r\n if (!tn.skip(Token.CLOSEPAREN)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n return null;\r\n }\r\n }\r\n\r\n let statement = this.parseStatement(tn);\r\n if (!statement) return null;\r\n\r\n return Node.createForStatement(\r\n initializer,\r\n condition\r\n ? condition.expression\r\n : null,\r\n incrementor,\r\n statement,\r\n tn.range(startPos, tn.pos)\r\n );\r\n\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \";\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \";\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"(\"\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseIfStatement(\r\n tn: Tokenizer\r\n ): IfStatement | null {\r\n\r\n // at 'if': '(' Expression ')' Statement ('else' Statement)?\r\n\r\n var startPos = tn.tokenPos;\r\n if (tn.skip(Token.OPENPAREN)) {\r\n let condition = this.parseExpression(tn);\r\n if (!condition) return null;\r\n if (tn.skip(Token.CLOSEPAREN)) {\r\n let statement = this.parseStatement(tn);\r\n if (!statement) return null;\r\n let elseStatement: Statement | null = null;\r\n if (tn.skip(Token.ELSE)) {\r\n elseStatement = this.parseStatement(tn);\r\n if (!elseStatement) return null;\r\n }\r\n return Node.createIfStatement(\r\n condition,\r\n statement,\r\n elseStatement,\r\n tn.range(startPos, tn.pos)\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"(\"\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseSwitchStatement(\r\n tn: Tokenizer\r\n ): SwitchStatement | null {\r\n\r\n // at 'switch': '(' Expression ')' '{' SwitchCase* '}' ';'?\r\n\r\n var startPos = tn.tokenPos;\r\n if (tn.skip(Token.OPENPAREN)) {\r\n let condition = this.parseExpression(tn);\r\n if (!condition) return null;\r\n if (tn.skip(Token.CLOSEPAREN)) {\r\n if (tn.skip(Token.OPENBRACE)) {\r\n let cases = new Array();\r\n while (!tn.skip(Token.CLOSEBRACE)) {\r\n let case_ = this.parseSwitchCase(tn);\r\n if (!case_) return null;\r\n cases.push(case_);\r\n }\r\n let ret = Node.createSwitchStatement(condition, cases, tn.range(startPos, tn.pos));\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"{\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"(\"\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseSwitchCase(\r\n tn: Tokenizer\r\n ): SwitchCase | null {\r\n\r\n var startPos = tn.tokenPos;\r\n var statements: Statement[],\r\n statement: Statement | null;\r\n\r\n // 'case' Expression ':' Statement*\r\n\r\n if (tn.skip(Token.CASE)) {\r\n let label = this.parseExpression(tn);\r\n if (!label) return null;\r\n if (tn.skip(Token.COLON)) {\r\n statements = new Array();\r\n while (tn.peek() != Token.CASE && tn.nextToken != Token.DEFAULT && tn.nextToken != Token.CLOSEBRACE) {\r\n statement = this.parseStatement(tn);\r\n if (!statement) return null;\r\n statements.push(statement);\r\n }\r\n return Node.createSwitchCase(label, statements, tn.range(startPos, tn.pos));\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \":\"\r\n );\r\n }\r\n\r\n // 'default' ':' Statement*\r\n\r\n } else if (tn.skip(Token.DEFAULT)) {\r\n if (tn.skip(Token.COLON)) {\r\n statements = new Array();\r\n while (tn.peek() != Token.CASE && tn.nextToken != Token.DEFAULT && tn.nextToken != Token.CLOSEBRACE) {\r\n statement = this.parseStatement(tn);\r\n if (!statement) return null;\r\n statements.push(statement);\r\n }\r\n return Node.createSwitchCase(null, statements, tn.range(startPos, tn.pos));\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \":\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._case_or_default_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseThrowStatement(\r\n tn: Tokenizer\r\n ): ThrowStatement | null {\r\n\r\n // at 'throw': Expression ';'?\r\n\r\n var startPos = tn.tokenPos;\r\n var expression = this.parseExpression(tn);\r\n if (!expression) return null;\r\n var ret = Node.createThrowStatement(expression, tn.range(startPos, tn.pos));\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n }\r\n\r\n parseTryStatement(\r\n tn: Tokenizer\r\n ): TryStatement | null {\r\n\r\n // at 'try':\r\n // '{' Statement* '}'\r\n // ('catch' '(' VariableMember ')' '{' Statement* '}')?\r\n // ('finally' '{' Statement* '}'? ';'?\r\n\r\n var startPos = tn.tokenPos;\r\n var stmt: Statement | null;\r\n if (tn.skip(Token.OPENBRACE)) {\r\n let statements = new Array();\r\n while (!tn.skip(Token.CLOSEBRACE)) {\r\n stmt = this.parseStatement(tn);\r\n if (!stmt) return null;\r\n statements.push(stmt);\r\n }\r\n let catchVariable: IdentifierExpression | null = null;\r\n let catchStatements: Statement[] | null = null;\r\n let finallyStatements: Statement[] | null = null;\r\n if (tn.skip(Token.CATCH)) {\r\n if (!tn.skip(Token.OPENPAREN)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"(\"\r\n );\r\n return null;\r\n }\r\n if (!tn.skipIdentifier()) {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n catchVariable = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n if (!tn.skip(Token.CLOSEPAREN)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n return null;\r\n }\r\n if (!tn.skip(Token.OPENBRACE)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"{\"\r\n );\r\n return null;\r\n }\r\n catchStatements = [];\r\n while (!tn.skip(Token.CLOSEBRACE)) {\r\n stmt = this.parseStatement(tn);\r\n if (!stmt) return null;\r\n catchStatements.push(stmt);\r\n }\r\n }\r\n if (tn.skip(Token.FINALLY)) {\r\n if (!tn.skip(Token.OPENBRACE)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"{\"\r\n );\r\n return null;\r\n }\r\n finallyStatements = [];\r\n while (!tn.skip(Token.CLOSEBRACE)) {\r\n stmt = this.parseStatement(tn);\r\n if (!stmt) return null;\r\n finallyStatements.push(stmt);\r\n }\r\n }\r\n if (!(catchStatements || finallyStatements)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"catch\"\r\n );\r\n return null;\r\n }\r\n let ret = Node.createTryStatement(\r\n statements,\r\n catchVariable,\r\n catchStatements,\r\n finallyStatements,\r\n tn.range(startPos, tn.pos)\r\n );\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"{\"\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseTypeDeclaration(\r\n tn: Tokenizer,\r\n flags: CommonFlags,\r\n decorators: DecoratorNode[] | null,\r\n startPos: i32\r\n ): TypeDeclaration | null {\r\n\r\n // at 'type': Identifier ('<' TypeParameters '>')? '=' Type ';'?\r\n\r\n if (tn.skipIdentifier()) {\r\n let name = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n let typeParameters: TypeParameterNode[] | null = null;\r\n if (tn.skip(Token.LESSTHAN)) {\r\n typeParameters = this.parseTypeParameters(tn);\r\n if (!typeParameters) return null;\r\n flags |= CommonFlags.GENERIC;\r\n }\r\n if (tn.skip(Token.EQUALS)) {\r\n let type = this.parseType(tn);\r\n if (!type) return null;\r\n let ret = Node.createTypeDeclaration(\r\n name,\r\n typeParameters,\r\n type,\r\n decorators,\r\n flags,\r\n tn.range(startPos, tn.pos)\r\n );\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"=\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseVoidStatement(\r\n tn: Tokenizer\r\n ): VoidStatement | null {\r\n\r\n // at 'void': Expression ';'?\r\n\r\n var startPos = tn.tokenPos;\r\n var expression = this.parseExpression(tn, Precedence.GROUPING);\r\n if (!expression) return null;\r\n var ret = Node.createVoidStatement(expression, tn.range(startPos, tn.pos));\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n }\r\n\r\n parseWhileStatement(\r\n tn: Tokenizer\r\n ): WhileStatement | null {\r\n\r\n // at 'while': '(' Expression ')' Statement ';'?\r\n\r\n var startPos = tn.tokenPos;\r\n if (tn.skip(Token.OPENPAREN)) {\r\n let expression = this.parseExpression(tn);\r\n if (!expression) return null;\r\n if (tn.skip(Token.CLOSEPAREN)) {\r\n let statement = this.parseStatement(tn);\r\n if (!statement) return null;\r\n let ret = Node.createWhileStatement(expression, statement, tn.range(startPos, tn.pos));\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"(\"\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n // expressions\r\n // see: http://www.engr.mun.ca/~theo/Misc/exp_parsing.htm#climbing\r\n\r\n parseExpressionStart(\r\n tn: Tokenizer\r\n ): Expression | null {\r\n\r\n var token = tn.next(IdentifierHandling.PREFER);\r\n var startPos = tn.tokenPos;\r\n var precedence = determinePrecedenceStart(token);\r\n if (precedence != Precedence.NONE) {\r\n let operand: Expression | null;\r\n\r\n // TODO: SpreadExpression, YieldExpression (currently become unsupported UnaryPrefixExpressions)\r\n\r\n // NewExpression\r\n if (token == Token.NEW) {\r\n operand = this.parseExpression(tn, Precedence.CALL);\r\n if (!operand) return null;\r\n if (operand.kind == NodeKind.CALL) {\r\n return Node.createNewExpression(\r\n (operand).expression,\r\n (operand).typeArguments,\r\n (operand).arguments,\r\n tn.range(startPos, tn.pos)\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n } else {\r\n operand = this.parseExpression(tn, precedence);\r\n if (!operand) return null;\r\n }\r\n\r\n // UnaryPrefixExpression\r\n if (token == Token.PLUS_PLUS || token == Token.MINUS_MINUS) {\r\n if (\r\n operand.kind != NodeKind.IDENTIFIER &&\r\n operand.kind != NodeKind.ELEMENTACCESS &&\r\n operand.kind != NodeKind.PROPERTYACCESS\r\n ) {\r\n this.error(\r\n DiagnosticCode.The_operand_of_an_increment_or_decrement_operator_must_be_a_variable_or_a_property_access,\r\n operand.range\r\n );\r\n }\r\n }\r\n return Node.createUnaryPrefixExpression(token, operand, tn.range(startPos, tn.pos));\r\n }\r\n\r\n var expr: Expression | null = null;\r\n switch (token) {\r\n\r\n case Token.NULL: return Node.createNullExpression(tn.range());\r\n case Token.TRUE: return Node.createTrueExpression(tn.range());\r\n case Token.FALSE: return Node.createFalseExpression(tn.range());\r\n\r\n // ParenthesizedExpression\r\n // FunctionExpression\r\n case Token.OPENPAREN: {\r\n\r\n // determine whether this is a function expression\r\n if (tn.skip(Token.CLOSEPAREN)) { // must be a function expression (fast route)\r\n return this.parseFunctionExpressionCommon(\r\n tn,\r\n Node.createEmptyIdentifierExpression(tn.range(startPos)),\r\n [],\r\n ArrowKind.ARROW_PARENTHESIZED\r\n );\r\n }\r\n let state = tn.mark();\r\n let again = true;\r\n do {\r\n switch (tn.next(IdentifierHandling.PREFER)) {\r\n\r\n // function expression\r\n case Token.DOT_DOT_DOT: {\r\n tn.reset(state);\r\n return this.parseFunctionExpression(tn);\r\n }\r\n // can be both\r\n case Token.IDENTIFIER: {\r\n tn.readIdentifier();\r\n switch (tn.next()) {\r\n\r\n // if we got here, check for arrow\r\n case Token.CLOSEPAREN: {\r\n if (\r\n !tn.skip(Token.COLON) &&\r\n !tn.skip(Token.EQUALS_GREATERTHAN)\r\n ) {\r\n again = false;\r\n break;\r\n }\r\n // fall-through\r\n }\r\n // function expression\r\n case Token.COLON: { // type annotation\r\n tn.reset(state);\r\n return this.parseFunctionExpression(tn);\r\n }\r\n // optional parameter or parenthesized\r\n case Token.QUESTION: {\r\n if (\r\n tn.skip(Token.COLON) || // optional parameter with type\r\n tn.skip(Token.COMMA) || // optional parameter without type\r\n tn.skip(Token.CLOSEPAREN) // last optional parameter without type\r\n ) {\r\n tn.reset(state);\r\n return this.parseFunctionExpression(tn);\r\n }\r\n again = false; // parenthesized\r\n break;\r\n }\r\n case Token.COMMA: {\r\n break; // continue\r\n }\r\n // parenthesized expression\r\n // case Token.EQUALS: // missing type annotation for simplicity\r\n default: {\r\n again = false;\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n // parenthesized expression\r\n default: {\r\n again = false;\r\n break;\r\n }\r\n }\r\n } while (again);\r\n tn.reset(state);\r\n\r\n // parse parenthesized\r\n expr = this.parseExpression(tn);\r\n if (!expr) return null;\r\n if (!tn.skip(Token.CLOSEPAREN)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n return null;\r\n }\r\n return Node.createParenthesizedExpression(expr, tn.range(startPos, tn.pos));\r\n }\r\n // ArrayLiteralExpression\r\n case Token.OPENBRACKET: {\r\n let elementExpressions = new Array();\r\n while (!tn.skip(Token.CLOSEBRACKET)) {\r\n if (tn.peek() == Token.COMMA) {\r\n expr = null; // omitted\r\n } else {\r\n expr = this.parseExpression(tn, Precedence.COMMA + 1);\r\n if (!expr) return null;\r\n }\r\n elementExpressions.push(expr);\r\n if (!tn.skip(Token.COMMA)) {\r\n if (tn.skip(Token.CLOSEBRACKET)) {\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"]\"\r\n );\r\n return null;\r\n }\r\n }\r\n }\r\n return Node.createArrayLiteralExpression(elementExpressions, tn.range(startPos, tn.pos));\r\n }\r\n // ObjectLiteralExpression\r\n case Token.OPENBRACE: {\r\n let startPos = tn.tokenPos;\r\n let names = new Array();\r\n let values = new Array();\r\n let name: IdentifierExpression;\r\n while (!tn.skip(Token.CLOSEBRACE)) {\r\n if (!tn.skipIdentifier()) {\r\n if (!tn.skip(Token.STRINGLITERAL)) {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range(),\r\n );\r\n return null;\r\n }\r\n name = Node.createIdentifierExpression(tn.readString(), tn.range());\r\n name.isQuoted = true;\r\n } else {\r\n name = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n }\r\n names.push(name);\r\n if (tn.skip(Token.COLON)) {\r\n let value = this.parseExpression(tn, Precedence.COMMA + 1);\r\n if (!value) return null;\r\n values.push(value);\r\n } else if (!name.isQuoted) {\r\n values.push(name);\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \":\"\r\n );\r\n return null;\r\n }\r\n if (!tn.skip(Token.COMMA)) {\r\n if (tn.skip(Token.CLOSEBRACE)) {\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"}\"\r\n );\r\n return null;\r\n }\r\n }\r\n }\r\n return Node.createObjectLiteralExpression(names, values, tn.range(startPos, tn.pos));\r\n }\r\n // AssertionExpression (unary prefix)\r\n case Token.LESSTHAN: {\r\n let toType = this.parseType(tn);\r\n if (!toType) return null;\r\n if (!tn.skip(Token.GREATERTHAN)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \">\"\r\n );\r\n return null;\r\n }\r\n expr = this.parseExpression(tn, Precedence.CALL);\r\n if (!expr) return null;\r\n return Node.createAssertionExpression(\r\n AssertionKind.PREFIX,\r\n expr,\r\n toType,\r\n tn.range(startPos, tn.pos)\r\n );\r\n }\r\n case Token.IDENTIFIER: {\r\n let identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range(startPos, tn.pos));\r\n if (tn.peek(true) == Token.EQUALS_GREATERTHAN && !tn.nextTokenOnNewLine) {\r\n return this.parseFunctionExpressionCommon(\r\n tn,\r\n Node.createEmptyIdentifierExpression(tn.range(startPos)),\r\n [\r\n Node.createParameter(\r\n identifier,\r\n Node.createOmittedType(identifier.range.atEnd),\r\n null,\r\n ParameterKind.DEFAULT,\r\n identifier.range\r\n )\r\n ],\r\n ArrowKind.ARROW_SINGLE,\r\n startPos\r\n );\r\n }\r\n return identifier;\r\n }\r\n case Token.THIS: {\r\n return Node.createThisExpression(tn.range(startPos, tn.pos));\r\n }\r\n case Token.CONSTRUCTOR: {\r\n return Node.createConstructorExpression(tn.range(startPos, tn.pos));\r\n }\r\n case Token.SUPER: {\r\n if (tn.peek() != Token.DOT && tn.nextToken != Token.OPENPAREN) {\r\n this.error(\r\n DiagnosticCode._super_must_be_followed_by_an_argument_list_or_member_access,\r\n tn.range()\r\n );\r\n }\r\n return Node.createSuperExpression(tn.range(startPos, tn.pos));\r\n }\r\n case Token.STRINGLITERAL: {\r\n return Node.createStringLiteralExpression(tn.readString(), tn.range(startPos, tn.pos));\r\n }\r\n case Token.INTEGERLITERAL: {\r\n return Node.createIntegerLiteralExpression(tn.readInteger(), tn.range(startPos, tn.pos));\r\n }\r\n case Token.FLOATLITERAL: {\r\n return Node.createFloatLiteralExpression(tn.readFloat(), tn.range(startPos, tn.pos));\r\n }\r\n // RegexpLiteralExpression\r\n // note that this also continues on invalid ones so the surrounding AST remains intact\r\n case Token.SLASH: {\r\n let regexpPattern = tn.readRegexpPattern(); // also reports\r\n if (!tn.skip(Token.SLASH)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"/\"\r\n );\r\n return null;\r\n }\r\n return Node.createRegexpLiteralExpression(\r\n regexpPattern,\r\n tn.readRegexpFlags(), // also reports\r\n tn.range(startPos, tn.pos)\r\n );\r\n }\r\n case Token.FUNCTION: {\r\n return this.parseFunctionExpression(tn);\r\n }\r\n case Token.CLASS: {\r\n return this.parseClassExpression(tn);\r\n }\r\n default: {\r\n if (token == Token.ENDOFFILE) {\r\n this.error(\r\n DiagnosticCode.Unexpected_end_of_text,\r\n tn.range(startPos)\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Expression_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n }\r\n }\r\n\r\n tryParseTypeArgumentsBeforeArguments(\r\n tn: Tokenizer\r\n ): CommonTypeNode[] | null {\r\n\r\n // at '<': Type (',' Type)* '>' '('\r\n\r\n var state = tn.mark();\r\n if (!tn.skip(Token.LESSTHAN)) return null;\r\n var typeArguments = new Array();\r\n do {\r\n if (tn.peek() === Token.GREATERTHAN) {\r\n break;\r\n }\r\n let type = this.parseType(tn, true, true);\r\n if (!type) {\r\n tn.reset(state);\r\n return null;\r\n }\r\n typeArguments.push(type);\r\n } while (tn.skip(Token.COMMA));\r\n if (tn.skip(Token.GREATERTHAN) && tn.skip(Token.OPENPAREN)) {\r\n return typeArguments;\r\n }\r\n tn.reset(state);\r\n return null;\r\n }\r\n\r\n parseArguments(\r\n tn: Tokenizer\r\n ): Expression[] | null {\r\n\r\n // at '(': (Expression (',' Expression)*)? ')'\r\n\r\n var args = new Array();\r\n while (!tn.skip(Token.CLOSEPAREN)) {\r\n let expr = this.parseExpression(tn, Precedence.COMMA + 1);\r\n if (!expr) return null;\r\n args.push(expr);\r\n if (!tn.skip(Token.COMMA)) {\r\n if (tn.skip(Token.CLOSEPAREN)) {\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n return null;\r\n }\r\n }\r\n }\r\n return args;\r\n }\r\n\r\n parseExpression(\r\n tn: Tokenizer,\r\n precedence: Precedence = Precedence.COMMA\r\n ): Expression | null {\r\n assert(precedence != Precedence.NONE);\r\n\r\n var expr = this.parseExpressionStart(tn);\r\n if (!expr) return null;\r\n expr = this.maybeParseCallExpression(tn, expr); // simple call like on an Identifier\r\n\r\n var startPos = expr.range.start;\r\n var token: Token;\r\n var next: Expression | null = null;\r\n var nextPrecedence: Precedence;\r\n while (\r\n (nextPrecedence = determinePrecedence(token = tn.peek())) >= precedence\r\n ) { // precedence climbing\r\n tn.next();\r\n switch (token) {\r\n // AssertionExpression\r\n case Token.AS: {\r\n let toType = this.parseType(tn); // reports\r\n if (!toType) return null;\r\n expr = Node.createAssertionExpression(\r\n AssertionKind.AS,\r\n expr,\r\n toType,\r\n tn.range(startPos, tn.pos)\r\n );\r\n break;\r\n }\r\n case Token.EXCLAMATION: {\r\n expr = Node.createAssertionExpression(\r\n AssertionKind.NONNULL,\r\n expr,\r\n null,\r\n tn.range(startPos, tn.pos)\r\n );\r\n break;\r\n }\r\n // InstanceOfExpression\r\n case Token.INSTANCEOF: {\r\n let isType = this.parseType(tn); // reports\r\n if (!isType) return null;\r\n expr = Node.createInstanceOfExpression(\r\n expr,\r\n isType,\r\n tn.range(startPos, tn.pos)\r\n );\r\n break;\r\n }\r\n // ElementAccessExpression\r\n case Token.OPENBRACKET: {\r\n next = this.parseExpression(tn); // reports\r\n if (!next) return null;\r\n if (!tn.skip(Token.CLOSEBRACKET)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"]\"\r\n );\r\n return null;\r\n }\r\n expr = Node.createElementAccessExpression(\r\n expr,\r\n next,\r\n tn.range(startPos, tn.pos)\r\n );\r\n break;\r\n }\r\n // UnaryPostfixExpression\r\n case Token.PLUS_PLUS:\r\n case Token.MINUS_MINUS: {\r\n if (\r\n expr.kind != NodeKind.IDENTIFIER &&\r\n expr.kind != NodeKind.ELEMENTACCESS &&\r\n expr.kind != NodeKind.PROPERTYACCESS\r\n ) {\r\n this.error(\r\n DiagnosticCode.The_operand_of_an_increment_or_decrement_operator_must_be_a_variable_or_a_property_access,\r\n expr.range\r\n );\r\n }\r\n expr = Node.createUnaryPostfixExpression(\r\n token,\r\n expr,\r\n tn.range(startPos, tn.pos)\r\n );\r\n break;\r\n }\r\n // TernaryExpression\r\n case Token.QUESTION: {\r\n let ifThen = this.parseExpression(tn);\r\n if (!ifThen) return null;\r\n if (!tn.skip(Token.COLON)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \":\"\r\n );\r\n return null;\r\n }\r\n let ifElse = this.parseExpression(tn, precedence > Precedence.COMMA\r\n ? Precedence.COMMA + 1\r\n : Precedence.COMMA\r\n );\r\n if (!ifElse) return null;\r\n expr = Node.createTernaryExpression(\r\n expr,\r\n ifThen,\r\n ifElse,\r\n tn.range(startPos, tn.pos)\r\n );\r\n break;\r\n }\r\n // CommaExpression\r\n case Token.COMMA: {\r\n let commaExprs: Expression[] = [ expr ];\r\n do {\r\n expr = this.parseExpression(tn, Precedence.COMMA + 1);\r\n if (!expr) return null;\r\n commaExprs.push(expr);\r\n } while (tn.skip(Token.COMMA));\r\n expr = Node.createCommaExpression(commaExprs, tn.range(startPos, tn.pos));\r\n break;\r\n }\r\n default: {\r\n\r\n // PropertyAccessExpression\r\n if (token == Token.DOT) {\r\n if (tn.skipIdentifier()) {\r\n next = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n } else {\r\n next = this.parseExpression(tn,\r\n isRightAssociative(token)\r\n ? nextPrecedence\r\n : nextPrecedence + 1\r\n );\r\n if (!next) return null;\r\n }\r\n if (next.kind == NodeKind.IDENTIFIER) { // expr '.' Identifier\r\n expr = Node.createPropertyAccessExpression(\r\n expr,\r\n next,\r\n tn.range(startPos, tn.pos)\r\n );\r\n } else if (next.kind == NodeKind.CALL) { // expr '.' CallExpression\r\n expr = this.joinPropertyCall(tn, startPos, expr, next);\r\n if (!expr) return null;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n next.range\r\n );\r\n return null;\r\n }\r\n\r\n // BinaryExpression\r\n } else {\r\n next = this.parseExpression(tn,\r\n isRightAssociative(token)\r\n ? nextPrecedence\r\n : nextPrecedence + 1\r\n );\r\n if (!next) return null;\r\n expr = Node.createBinaryExpression(token, expr, next, tn.range(startPos, tn.pos));\r\n }\r\n break;\r\n }\r\n }\r\n expr = this.maybeParseCallExpression(tn, expr); // compound call like on an ElementAccess\r\n }\r\n return expr;\r\n }\r\n\r\n private joinPropertyCall(\r\n tn: Tokenizer,\r\n startPos: i32,\r\n expr: Expression,\r\n call: CallExpression\r\n ): Expression | null {\r\n var callee = call.expression;\r\n switch (callee.kind) {\r\n case NodeKind.IDENTIFIER: { // join property access and use as call target\r\n call.expression = Node.createPropertyAccessExpression(\r\n expr,\r\n callee,\r\n tn.range(startPos, tn.pos)\r\n );\r\n break;\r\n }\r\n case NodeKind.CALL: { // join call target und wrap the original call around it\r\n let inner = this.joinPropertyCall(tn, startPos, expr, callee);\r\n if (!inner) return null;\r\n call.expression = inner;\r\n call.range = tn.range(startPos, tn.pos);\r\n break;\r\n }\r\n default: {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n call.range\r\n );\r\n return null;\r\n }\r\n }\r\n return call;\r\n }\r\n\r\n private maybeParseCallExpression(\r\n tn: Tokenizer,\r\n expr: Expression\r\n ): Expression {\r\n if (nodeIsCallable(expr.kind)) {\r\n let typeArguments: CommonTypeNode[] | null = null;\r\n while (\r\n tn.skip(Token.OPENPAREN)\r\n ||\r\n nodeIsGenericCallable(expr.kind) && (typeArguments = this.tryParseTypeArgumentsBeforeArguments(tn)) !== null\r\n ) {\r\n let args = this.parseArguments(tn);\r\n if (!args) break;\r\n expr = Node.createCallExpression( // is again callable\r\n expr,\r\n typeArguments,\r\n args,\r\n tn.range(expr.range.start, tn.pos)\r\n );\r\n }\r\n }\r\n return expr;\r\n }\r\n\r\n /** Skips over a statement on errors in an attempt to reduce unnecessary diagnostic noise. */\r\n skipStatement(tn: Tokenizer): void {\r\n tn.peek(true);\r\n if (tn.nextTokenOnNewLine) tn.next(); // if reset() to the previous line\r\n do {\r\n let nextToken = tn.peek(true);\r\n if (\r\n nextToken == Token.ENDOFFILE || // next step should handle this\r\n nextToken == Token.SEMICOLON // end of the statement for sure\r\n ) {\r\n tn.next();\r\n break;\r\n }\r\n if (tn.nextTokenOnNewLine) break; // end of the statement maybe\r\n switch (tn.next()) {\r\n case Token.IDENTIFIER: {\r\n tn.readIdentifier();\r\n break;\r\n }\r\n case Token.STRINGLITERAL: {\r\n tn.readString();\r\n break;\r\n }\r\n case Token.INTEGERLITERAL: {\r\n tn.readInteger();\r\n break;\r\n }\r\n case Token.FLOATLITERAL: {\r\n tn.readFloat();\r\n break;\r\n }\r\n }\r\n } while (true);\r\n }\r\n\r\n /** Skips over a block on errors in an attempt to reduce unnecessary diagnostic noise. */\r\n skipBlock(tn: Tokenizer): void {\r\n // at '{': ... '}'\r\n var depth = 1;\r\n var again = true;\r\n do {\r\n switch (tn.next()) {\r\n case Token.ENDOFFILE: {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"}\"\r\n );\r\n again = false;\r\n break;\r\n }\r\n case Token.OPENBRACE: {\r\n ++depth;\r\n break;\r\n }\r\n case Token.CLOSEBRACE: {\r\n --depth;\r\n if (!depth) again = false;\r\n break;\r\n }\r\n case Token.IDENTIFIER: {\r\n tn.readIdentifier();\r\n break;\r\n }\r\n case Token.STRINGLITERAL: {\r\n tn.readString();\r\n break;\r\n }\r\n case Token.INTEGERLITERAL: {\r\n tn.readInteger();\r\n break;\r\n }\r\n case Token.FLOATLITERAL: {\r\n tn.readFloat();\r\n break;\r\n }\r\n }\r\n } while (again);\r\n }\r\n}\r\n\r\n/** Operator precedence from least to largest. */\r\nexport const enum Precedence {\r\n NONE,\r\n COMMA,\r\n SPREAD,\r\n YIELD,\r\n ASSIGNMENT,\r\n CONDITIONAL,\r\n LOGICAL_OR,\r\n LOGICAL_AND,\r\n BITWISE_OR,\r\n BITWISE_XOR,\r\n BITWISE_AND,\r\n EQUALITY,\r\n RELATIONAL,\r\n SHIFT,\r\n ADDITIVE,\r\n MULTIPLICATIVE,\r\n EXPONENTIATED,\r\n UNARY_PREFIX,\r\n UNARY_POSTFIX,\r\n CALL,\r\n MEMBERACCESS,\r\n GROUPING\r\n}\r\n\r\n/** Determines the precedence of a starting token. */\r\nfunction determinePrecedenceStart(kind: Token): Precedence {\r\n switch (kind) {\r\n case Token.DOT_DOT_DOT: return Precedence.SPREAD;\r\n case Token.YIELD: return Precedence.YIELD;\r\n case Token.EXCLAMATION:\r\n case Token.TILDE:\r\n case Token.PLUS:\r\n case Token.MINUS:\r\n case Token.PLUS_PLUS:\r\n case Token.MINUS_MINUS:\r\n case Token.TYPEOF:\r\n case Token.VOID:\r\n case Token.DELETE: return Precedence.UNARY_PREFIX;\r\n case Token.NEW: return Precedence.MEMBERACCESS;\r\n }\r\n return Precedence.NONE;\r\n}\r\n\r\n/** Determines the precende of a non-starting token. */\r\nfunction determinePrecedence(kind: Token): Precedence {\r\n switch (kind) {\r\n case Token.COMMA: return Precedence.COMMA;\r\n case Token.EQUALS:\r\n case Token.PLUS_EQUALS:\r\n case Token.MINUS_EQUALS:\r\n case Token.ASTERISK_ASTERISK_EQUALS:\r\n case Token.ASTERISK_EQUALS:\r\n case Token.SLASH_EQUALS:\r\n case Token.PERCENT_EQUALS:\r\n case Token.LESSTHAN_LESSTHAN_EQUALS:\r\n case Token.GREATERTHAN_GREATERTHAN_EQUALS:\r\n case Token.GREATERTHAN_GREATERTHAN_GREATERTHAN_EQUALS:\r\n case Token.AMPERSAND_EQUALS:\r\n case Token.CARET_EQUALS:\r\n case Token.BAR_EQUALS: return Precedence.ASSIGNMENT;\r\n case Token.QUESTION: return Precedence.CONDITIONAL;\r\n case Token.BAR_BAR: return Precedence.LOGICAL_OR;\r\n case Token.AMPERSAND_AMPERSAND: return Precedence.LOGICAL_AND;\r\n case Token.BAR: return Precedence.BITWISE_OR;\r\n case Token.CARET: return Precedence.BITWISE_XOR;\r\n case Token.AMPERSAND: return Precedence.BITWISE_AND;\r\n case Token.EQUALS_EQUALS:\r\n case Token.EXCLAMATION_EQUALS:\r\n case Token.EQUALS_EQUALS_EQUALS:\r\n case Token.EXCLAMATION_EQUALS_EQUALS: return Precedence.EQUALITY;\r\n case Token.AS:\r\n case Token.IN:\r\n case Token.INSTANCEOF:\r\n case Token.LESSTHAN:\r\n case Token.GREATERTHAN:\r\n case Token.LESSTHAN_EQUALS:\r\n case Token.GREATERTHAN_EQUALS: return Precedence.RELATIONAL;\r\n case Token.LESSTHAN_LESSTHAN:\r\n case Token.GREATERTHAN_GREATERTHAN:\r\n case Token.GREATERTHAN_GREATERTHAN_GREATERTHAN: return Precedence.SHIFT;\r\n case Token.PLUS:\r\n case Token.MINUS: return Precedence.ADDITIVE;\r\n case Token.ASTERISK:\r\n case Token.SLASH:\r\n case Token.PERCENT: return Precedence.MULTIPLICATIVE;\r\n case Token.ASTERISK_ASTERISK: return Precedence.EXPONENTIATED;\r\n case Token.PLUS_PLUS:\r\n case Token.MINUS_MINUS: return Precedence.UNARY_POSTFIX;\r\n case Token.DOT:\r\n case Token.NEW:\r\n case Token.OPENBRACKET:\r\n case Token.EXCLAMATION: return Precedence.MEMBERACCESS;\r\n }\r\n return Precedence.NONE;\r\n}\r\n\r\n/** Determines whether a non-starting token is right associative. */\r\nfunction isRightAssociative(kind: Token): bool {\r\n switch (kind) {\r\n case Token.EQUALS:\r\n case Token.PLUS_EQUALS:\r\n case Token.MINUS_EQUALS:\r\n case Token.ASTERISK_ASTERISK_EQUALS:\r\n case Token.ASTERISK_EQUALS:\r\n case Token.SLASH_EQUALS:\r\n case Token.PERCENT_EQUALS:\r\n case Token.LESSTHAN_LESSTHAN_EQUALS:\r\n case Token.GREATERTHAN_GREATERTHAN_EQUALS:\r\n case Token.GREATERTHAN_GREATERTHAN_GREATERTHAN_EQUALS:\r\n case Token.AMPERSAND_EQUALS:\r\n case Token.CARET_EQUALS:\r\n case Token.BAR_EQUALS:\r\n case Token.QUESTION:\r\n case Token.ASTERISK_ASTERISK: return true;\r\n default: return false;\r\n }\r\n}\r\n","/**\r\n * JavaScript glue code.\r\n * @module glue/js\r\n * @preferred\r\n *//***/\r\n\r\n/// \r\n\r\nimport \"./binaryen\"; // must be first so portable can pick up the memory implementation\r\nimport \"../../../std/portable/index\";\r\nimport \"./float\";\r\nimport \"./i64\";\r\n\r\nimport { Module } from \"../../module\";\r\n\r\nModule.prototype.toText = function(this: Module) {\r\n return binaryen.wrapModule(this.ref).emitStackIR();\r\n};\r\n\r\nModule.prototype.toAsmjs = function(this: Module) {\r\n return binaryen.wrapModule(this.ref).emitAsmjs();\r\n};\r\n","// Copy Binaryen exports to global scope\r\n\r\nconst binaryen = global.Binaryen || require(\"binaryen\");\r\nglobal.binaryen = binaryen;\r\n\r\nfor (var key in binaryen) {\r\n if (key.startsWith(\"_Binaryen\") || key.startsWith(\"_Relooper\")) global[key] = binaryen[key];\r\n}\r\n\r\n// Utilize Binaryen's heap\r\n\r\nglobal.__memory_allocate = binaryen._malloc;\r\nglobal.__memory_free = binaryen._free;\r\nglobal.__memory_copy = binaryen._memmove;\r\nglobal.__store = function(ptr, val) { binaryen.HEAPU8[ptr] = val; };\r\nglobal.__load = function(ptr) { return binaryen.HEAPU8[ptr]; };\r\n","module.exports = __WEBPACK_EXTERNAL_MODULE__19__;","/** @module std/portable *//***/\r\n\r\nvar globalScope = typeof window !== \"undefined\" && window || typeof global !== \"undefined\" && global || self;\r\n\r\nglobalScope.ASC_TARGET = 0; // JS\r\nglobalScope.ASC_NO_ASSERT = false;\r\nglobalScope.ASC_MEMORY_BASE = 0;\r\nglobalScope.ASC_OPTIMIZE_LEVEL = 3;\r\nglobalScope.ASC_SHRINK_LEVEL = 0;\r\nglobalScope.ASC_FEATURE_MUTABLE_GLOBAL = false;\r\nglobalScope.ASC_FEATURE_SIGN_EXTENSION = false;\r\nglobalScope.ASC_FEATURE_BULK_MEMORY = false;\r\nglobalScope.ASC_FEATURE_SIMD = false;\r\nglobalScope.ASC_FEATURE_THREADS = false;\r\n\r\nvar F64 = new Float64Array(1);\r\nvar U64 = new Uint32Array(F64.buffer);\r\n\r\nObject.defineProperties(\r\n globalScope[\"i8\"] = function i8(value) { return value << 24 >> 24; }\r\n, {\r\n \"MIN_VALUE\": { value: -128, writable: false },\r\n \"MAX_VALUE\": { value: 127, writable: false }\r\n});\r\n\r\nObject.defineProperties(\r\n globalScope[\"i16\"] = function i16(value) { return value << 16 >> 16; }\r\n, {\r\n \"MIN_VALUE\": { value: -32768, writable: false },\r\n \"MAX_VALUE\": { value: 32767, writable: false }\r\n});\r\n\r\nObject.defineProperties(\r\n globalScope[\"i32\"] = globalScope[\"isize\"] = function i32(value) { return value | 0; }\r\n, {\r\n \"MIN_VALUE\": { value: -2147483648, writable: false },\r\n \"MAX_VALUE\": { value: 2147483647, writable: false }\r\n});\r\n\r\nObject.defineProperties(\r\n globalScope[\"u8\"] = function u8(value) { return value & 0xff; }\r\n, {\r\n \"MIN_VALUE\": { value: 0, writable: false },\r\n \"MAX_VALUE\": { value: 255, writable: false }\r\n});\r\n\r\nObject.defineProperties(\r\n globalScope[\"u16\"] = function u16(value) { return value & 0xffff; }\r\n, {\r\n \"MIN_VALUE\": { value: 0, writable: false },\r\n \"MAX_VALUE\": { value: 65535, writable: false }\r\n});\r\n\r\nObject.defineProperties(\r\n globalScope[\"u32\"] = globalScope[\"usize\"] = function u32(value) { return value >>> 0; }\r\n, {\r\n \"MIN_VALUE\": { value: 0, writable: false },\r\n \"MAX_VALUE\": { value: 4294967295, writable: false }\r\n});\r\n\r\nObject.defineProperties(\r\n globalScope[\"bool\"] = function bool(value) { return !!value; }\r\n, {\r\n \"MIN_VALUE\": { value: false, writable: false },\r\n \"MAX_VALUE\": { value: true, writable: false }\r\n});\r\n\r\nObject.defineProperties(\r\n globalScope[\"f32\"] = function f32(value) { return Math.fround(value); }\r\n, {\r\n \"EPSILON\": { value: Math.fround(1.1920929e-07), writable: false },\r\n \"MIN_VALUE\": { value: Math.fround(1.4012985e-45), writable: false },\r\n \"MAX_VALUE\": { value: Math.fround(3.4028235e+38), writable: false },\r\n \"MIN_NORMAL_VALUE\": { value: Math.fround(1.17549435e-38), writable: false },\r\n \"MIN_SAFE_INTEGER\": { value: -16777215, writable: false },\r\n \"MAX_SAFE_INTEGER\": { value: 16777215, writable: false }\r\n});\r\n\r\nObject.defineProperties(\r\n globalScope[\"f64\"] = function f64(value) { return +value; }\r\n, {\r\n \"EPSILON\": { value: 2.2204460492503131e-16, writable: false },\r\n \"MIN_VALUE\": { value: 5e-324, writable: false },\r\n \"MAX_VALUE\": { value: 1.7976931348623157e+308, writable: false },\r\n \"MIN_NORMAL_VALUE\": { value: 2.2250738585072014e-308 , writable: false },\r\n \"MIN_SAFE_INTEGER\": { value: -9007199254740991, writable: false },\r\n \"MAX_SAFE_INTEGER\": { value: 9007199254740991, writable: false }\r\n});\r\n\r\nglobalScope[\"clz\"] = Math.clz32;\r\n\r\nglobalScope[\"ctz\"] = function ctz(value) {\r\n var c = Math.clz32(value & -value);\r\n return value ? 31 - c : c;\r\n};\r\n\r\nglobalScope[\"popcnt\"] = function popcnt(value) {\r\n value -= value >>> 1 & 0x55555555;\r\n value = (value & 0x33333333) + (value >>> 2 & 0x33333333);\r\n return (((value + (value >>> 4)) & 0x0F0F0F0F) * 0x01010101) >>> 24;\r\n};\r\n\r\nglobalScope[\"rotl\"] = function rotl(value, shift) {\r\n shift &= 31;\r\n return (value << shift) | (value >>> (32 - shift));\r\n};\r\n\r\nglobalScope[\"rotr\"] = function rotr(value, shift) {\r\n shift &= 31;\r\n return (value >>> shift) | (value << (32 - shift));\r\n};\r\n\r\nglobalScope[\"abs\"] = Math.abs;\r\n\r\nglobalScope[\"max\"] = Math.max;\r\n\r\nglobalScope[\"min\"] = Math.min;\r\n\r\nglobalScope[\"ceil\"] = Math.ceil;\r\n\r\nglobalScope[\"floor\"] = Math.floor;\r\n\r\n// Adopt code from https://github.com/rfk/wasm-polyfill\r\nglobalScope[\"nearest\"] = function nearest(value) {\r\n if (Math.abs(value - Math.trunc(value)) === 0.5) {\r\n return 2.0 * Math.round(value * 0.5);\r\n }\r\n return Math.round(value);\r\n};\r\n\r\nglobalScope[\"select\"] = function select(ifTrue, ifFalse, condition) {\r\n return condition ? ifTrue : ifFalse;\r\n};\r\n\r\nglobalScope[\"sqrt\"] = Math.sqrt;\r\n\r\nglobalScope[\"trunc\"] = Math.trunc;\r\n\r\nglobalScope[\"copysign\"] = function copysign(x, y) {\r\n return Math.abs(x) * Math.sign(y);\r\n};\r\n\r\nglobalScope[\"bswap\"] = function bswap(value) {\r\n var a = value >> 8 & 0x00FF00FF;\r\n var b = (value & 0x00FF00FF) << 8;\r\n value = a | b;\r\n a = value >> 16 & 0x0000FFFF;\r\n b = (value & 0x0000FFFF) << 16;\r\n return a | b;\r\n};\r\n\r\nglobalScope[\"bswap16\"] = function bswap16(value) {\r\n return ((value << 8) & 0xFF00) | ((value >> 8) & 0x00FF) | (value & 0xFFFF0000);\r\n};\r\n\r\nfunction UnreachableError() {\r\n if (Error.captureStackTrace) {\r\n Error.captureStackTrace(this, UnreachableError);\r\n } else {\r\n this.stack = this.name + \": \" + this.message + \"\\n\" + new Error().stack;\r\n }\r\n}\r\nUnreachableError.prototype = Object.create(Error.prototype);\r\nUnreachableError.prototype.name = \"UnreachableError\";\r\nUnreachableError.prototype.message = \"unreachable\";\r\n\r\nglobalScope[\"unreachable\"] = function unreachable() {\r\n throw new UnreachableError();\r\n};\r\n\r\nfunction AssertionError(message) {\r\n this.message = message || \"assertion failed\";\r\n if (Error.captureStackTrace) {\r\n Error.captureStackTrace(this, AssertionError);\r\n } else {\r\n this.stack = this.name + \": \" + this.message + \"\\n\" + new Error().stack;\r\n }\r\n}\r\nAssertionError.prototype = Object.create(Error.prototype);\r\nAssertionError.prototype.name = \"AssertionError\";\r\n\r\nglobalScope[\"assert\"] = function assert(isTrueish, message) {\r\n if (isTrueish) return isTrueish;\r\n throw new AssertionError(message);\r\n};\r\n\r\nglobalScope[\"changetype\"] = function changetype(value) {\r\n return value;\r\n};\r\n\r\nglobalScope[\"parseI32\"] = function parseI32(str, radix) {\r\n return parseInt(str, undefined) | 0;\r\n};\r\n\r\nString[\"fromCharCodes\"] = function fromCharCodes(arr) {\r\n return String.fromCharCode.apply(String, arr);\r\n};\r\n\r\nString[\"fromCodePoints\"] = function fromCodePoints(arr) {\r\n return String.fromCodePoint.apply(String, arr);\r\n};\r\n\r\nglobalScope[\"isInteger\"] = Number.isInteger;\r\n\r\nglobalScope[\"isFloat\"] = function isFloat(arg) {\r\n return typeof arg === \"number\";\r\n};\r\n\r\nglobalScope[\"isReference\"] = function isReference(arg) {\r\n return typeof arg === \"object\" || typeof arg === \"string\";\r\n};\r\n\r\nglobalScope[\"isString\"] = function isString(arg) {\r\n return typeof arg === \"string\" || arg instanceof String;\r\n};\r\n\r\nglobalScope[\"isArray\"] = Array.isArray;\r\nglobalScope[\"isArrayLike\"] = function isArrayLike(expr) {\r\n return expr\r\n && typeof expr === 'object'\r\n && typeof expr.length === 'number'\r\n && expr.length >= 0\r\n && Math.trunc(expr.length) === expr.length;\r\n}\r\n\r\nglobalScope[\"isDefined\"] = function isDefined(expr) {\r\n return typeof expr !== \"undefined\";\r\n}\r\n\r\nglobalScope[\"isConstant\"] = function isConstant(expr) {\r\n return false;\r\n};\r\n\r\nglobalScope[\"unchecked\"] = function unchecked(expr) {\r\n return expr;\r\n};\r\n\r\nglobalScope[\"fmod\"] = function fmod(x, y) {\r\n return x % y;\r\n};\r\n\r\nglobalScope[\"fmodf\"] = function fmodf(x, y) {\r\n return Math.fround(x % y);\r\n};\r\n\r\nglobalScope[\"JSMath\"] = Math;\r\nglobalScope[\"JSMath\"].signbit = function signbit(x) {\r\n F64[0] = x; return Boolean((U64[1] >>> 31) & (x == x));\r\n}\r\n\r\nglobalScope[\"memory\"] = (() => {\r\n var HEAP = new Uint8Array(0);\r\n var HEAP_OFFSET = 0;\r\n return {\r\n allocate: globalScope[\"__memory_allocate\"] || function allocate(size) {\r\n if (!(size >>>= 0)) return 0;\r\n if (HEAP_OFFSET + size > HEAP.length) {\r\n var oldHeap = HEAP;\r\n HEAP = new Uint8Array(Math.max(65536, HEAP.length + size, HEAP.length * 2));\r\n HEAP.set(oldHeap);\r\n }\r\n var ptr = HEAP_OFFSET;\r\n if ((HEAP_OFFSET += size) & 7) HEAP_OFFSET = (HEAP_OFFSET | 7) + 1;\r\n return ptr;\r\n },\r\n fill: globalScope[\"__memory_fill\"] || function fill(dest, value, size) {\r\n HEAP.fill(value, dest, dest + size);\r\n },\r\n free: globalScope[\"__memory_free\"] || function free(ptr) { },\r\n copy: globalScope[\"__memory_copy\"] || function copy(dest, src, size) {\r\n HEAP.copyWithin(dest, src, src + size);\r\n },\r\n reset: globalScope[\"__memory_reset\"] || function reset() {\r\n HEAP = new Uint8Array(0);\r\n HEAP_OFFSET = 0;\r\n }\r\n };\r\n})();\r\n\r\nglobalScope[\"store\"] = globalScope[\"__store\"] || function store(ptr, value, offset) {\r\n HEAP[(ptr | 0) + (offset | 0)] = value;\r\n};\r\n\r\nglobalScope[\"load\"] = globalScope[\"__load\"] || function load(ptr, offset) {\r\n return HEAP[(ptr | 0) + (offset | 0)];\r\n};\r\n","const F64 = new Float64Array(1);\r\nconst F32 = new Float32Array(F64.buffer);\r\nconst I32 = new Int32Array(F64.buffer);\r\n\r\nglobal.f32_as_i32 = function(value) {\r\n F32[0] = value;\r\n return I32[0];\r\n};\r\n\r\nglobal.i32_as_f32 = function(value) {\r\n I32[0] = value;\r\n return F32[0];\r\n};\r\n\r\nglobal.f64_as_i64 = function(value) {\r\n F64[0] = value;\r\n return i64_new(I32[0], I32[1]);\r\n};\r\n\r\nglobal.i64_as_f64 = function(value) {\r\n I32[0] = i64_low(value);\r\n I32[1] = i64_high(value);\r\n return F64[0];\r\n};\r\n","const Long = global.Long || require(\"long\");\r\n\r\nglobal.i64_zero = Long.ZERO;\r\n\r\nglobal.i64_one = Long.ONE;\r\n\r\nglobal.i64_new = function(lo, hi) {\r\n return Long.fromBits(lo, hi);\r\n};\r\n\r\nglobal.i64_low = function(value) {\r\n return value.low;\r\n};\r\n\r\nglobal.i64_high = function(value) {\r\n return value.high;\r\n};\r\n\r\nglobal.i64_add = function(left, right) {\r\n return left.add(right);\r\n};\r\n\r\nglobal.i64_sub = function(left, right) {\r\n return left.sub(right);\r\n};\r\n\r\nglobal.i64_mul = function(left, right) {\r\n return left.mul(right);\r\n};\r\n\r\nglobal.i64_div = function(left, right) {\r\n return left.div(right);\r\n};\r\n\r\nglobal.i64_div_u = function(left, right) {\r\n return left.toUnsigned().div(right.toUnsigned()).toSigned();\r\n};\r\n\r\nglobal.i64_rem = function(left, right) {\r\n return left.mod(right);\r\n};\r\n\r\nglobal.i64_rem_u = function(left, right) {\r\n return left.toUnsigned().mod(right.toUnsigned()).toSigned();\r\n};\r\n\r\nglobal.i64_and = function(left, right) {\r\n return left.and(right);\r\n};\r\n\r\nglobal.i64_or = function(left, right) {\r\n return left.or(right);\r\n};\r\n\r\nglobal.i64_xor = function(left, right) {\r\n return left.xor(right);\r\n};\r\n\r\nglobal.i64_shl = function(left, right) {\r\n return left.shl(right);\r\n};\r\n\r\nglobal.i64_shr = function(left, right) {\r\n return left.shr(right);\r\n};\r\n\r\nglobal.i64_shr_u = function(left, right) {\r\n return left.shru(right);\r\n};\r\n\r\nglobal.i64_not = function(value) {\r\n return value.not();\r\n};\r\n\r\nglobal.i64_eq = function(left, right) {\r\n return left.eq(right);\r\n};\r\n\r\nglobal.i64_ne = function(left, right) {\r\n return left.ne(right);\r\n};\r\n\r\nglobal.i64_align = function(value, alignment) {\r\n assert(alignment && (alignment & (alignment - 1)) == 0);\r\n var mask = Long.fromInt(alignment - 1);\r\n return value.add(mask).and(mask.not());\r\n};\r\n\r\nglobal.i64_is_i8 = function(value) {\r\n return value.high === 0 && (value.low >= 0 && value.low <= i8.MAX_VALUE)\r\n || value.high === -1 && (value.low >= i8.MIN_VALUE && value.low < 0);\r\n};\r\n\r\nglobal.i64_is_i16 = function(value) {\r\n return value.high === 0 && (value.low >= 0 && value.low <= i16.MAX_VALUE)\r\n || value.high === -1 && (value.low >= i16.MIN_VALUE && value.low < 0);\r\n};\r\n\r\nglobal.i64_is_i32 = function(value) {\r\n return (value.high === 0 && value.low >= 0)\r\n || (value.high === -1 && value.low < 0);\r\n};\r\n\r\nglobal.i64_is_u8 = function(value) {\r\n return value.high === 0 && value.low >= 0 && value.low <= u8.MAX_VALUE;\r\n};\r\n\r\nglobal.i64_is_u16 = function(value) {\r\n return value.high === 0 && value.low >= 0 && value.low <= u16.MAX_VALUE;\r\n};\r\n\r\nglobal.i64_is_u32 = function(value) {\r\n return value.high === 0;\r\n};\r\n\r\nglobal.i64_is_bool = function(value) {\r\n return value.high === 0 && (value.low === 0 || value.low === 1);\r\n};\r\n\r\nconst minSafeF32 = Long.fromNumber(f32.MIN_SAFE_INTEGER);\r\nconst maxSafeF32 = Long.fromNumber(f32.MAX_SAFE_INTEGER);\r\n\r\nglobal.i64_is_f32 = function(value) {\r\n return value.gte(minSafeF32) && value.lte(maxSafeF32);\r\n};\r\n\r\nconst minSafeF64 = Long.fromNumber(f64.MIN_SAFE_INTEGER);\r\nconst maxSafeF64 = Long.fromNumber(f64.MAX_SAFE_INTEGER);\r\n\r\nglobal.i64_is_f64 = function(value) {\r\n return value.gte(minSafeF64) && value.lte(maxSafeF64);\r\n};\r\n\r\nglobal.i64_to_f32 = function(value) {\r\n return global.Math.fround(value.toNumber());\r\n};\r\n\r\nglobal.i64_to_f64 = function(value) {\r\n return value.toNumber();\r\n};\r\n\r\nglobal.i64_to_string = function(value, unsigned) {\r\n return (unsigned ? value.toUnsigned() : value).toString(10);\r\n};\r\n","module.exports = Long;\r\n\r\n/**\r\n * wasm optimizations, to do native i64 multiplication and divide\r\n */\r\nvar wasm = null;\r\n\r\ntry {\r\n wasm = new WebAssembly.Instance(new WebAssembly.Module(new Uint8Array([\r\n 0, 97, 115, 109, 1, 0, 0, 0, 1, 13, 2, 96, 0, 1, 127, 96, 4, 127, 127, 127, 127, 1, 127, 3, 7, 6, 0, 1, 1, 1, 1, 1, 6, 6, 1, 127, 1, 65, 0, 11, 7, 50, 6, 3, 109, 117, 108, 0, 1, 5, 100, 105, 118, 95, 115, 0, 2, 5, 100, 105, 118, 95, 117, 0, 3, 5, 114, 101, 109, 95, 115, 0, 4, 5, 114, 101, 109, 95, 117, 0, 5, 8, 103, 101, 116, 95, 104, 105, 103, 104, 0, 0, 10, 191, 1, 6, 4, 0, 35, 0, 11, 36, 1, 1, 126, 32, 0, 173, 32, 1, 173, 66, 32, 134, 132, 32, 2, 173, 32, 3, 173, 66, 32, 134, 132, 126, 34, 4, 66, 32, 135, 167, 36, 0, 32, 4, 167, 11, 36, 1, 1, 126, 32, 0, 173, 32, 1, 173, 66, 32, 134, 132, 32, 2, 173, 32, 3, 173, 66, 32, 134, 132, 127, 34, 4, 66, 32, 135, 167, 36, 0, 32, 4, 167, 11, 36, 1, 1, 126, 32, 0, 173, 32, 1, 173, 66, 32, 134, 132, 32, 2, 173, 32, 3, 173, 66, 32, 134, 132, 128, 34, 4, 66, 32, 135, 167, 36, 0, 32, 4, 167, 11, 36, 1, 1, 126, 32, 0, 173, 32, 1, 173, 66, 32, 134, 132, 32, 2, 173, 32, 3, 173, 66, 32, 134, 132, 129, 34, 4, 66, 32, 135, 167, 36, 0, 32, 4, 167, 11, 36, 1, 1, 126, 32, 0, 173, 32, 1, 173, 66, 32, 134, 132, 32, 2, 173, 32, 3, 173, 66, 32, 134, 132, 130, 34, 4, 66, 32, 135, 167, 36, 0, 32, 4, 167, 11\r\n ])), {}).exports;\r\n} catch (e) {\r\n // no wasm support :(\r\n}\r\n\r\n/**\r\n * Constructs a 64 bit two's-complement integer, given its low and high 32 bit values as *signed* integers.\r\n * See the from* functions below for more convenient ways of constructing Longs.\r\n * @exports Long\r\n * @class A Long class for representing a 64 bit two's-complement integer value.\r\n * @param {number} low The low (signed) 32 bits of the long\r\n * @param {number} high The high (signed) 32 bits of the long\r\n * @param {boolean=} unsigned Whether unsigned or not, defaults to signed\r\n * @constructor\r\n */\r\nfunction Long(low, high, unsigned) {\r\n\r\n /**\r\n * The low 32 bits as a signed value.\r\n * @type {number}\r\n */\r\n this.low = low | 0;\r\n\r\n /**\r\n * The high 32 bits as a signed value.\r\n * @type {number}\r\n */\r\n this.high = high | 0;\r\n\r\n /**\r\n * Whether unsigned or not.\r\n * @type {boolean}\r\n */\r\n this.unsigned = !!unsigned;\r\n}\r\n\r\n// The internal representation of a long is the two given signed, 32-bit values.\r\n// We use 32-bit pieces because these are the size of integers on which\r\n// Javascript performs bit-operations. For operations like addition and\r\n// multiplication, we split each number into 16 bit pieces, which can easily be\r\n// multiplied within Javascript's floating-point representation without overflow\r\n// or change in sign.\r\n//\r\n// In the algorithms below, we frequently reduce the negative case to the\r\n// positive case by negating the input(s) and then post-processing the result.\r\n// Note that we must ALWAYS check specially whether those values are MIN_VALUE\r\n// (-2^63) because -MIN_VALUE == MIN_VALUE (since 2^63 cannot be represented as\r\n// a positive number, it overflows back into a negative). Not handling this\r\n// case would often result in infinite recursion.\r\n//\r\n// Common constant values ZERO, ONE, NEG_ONE, etc. are defined below the from*\r\n// methods on which they depend.\r\n\r\n/**\r\n * An indicator used to reliably determine if an object is a Long or not.\r\n * @type {boolean}\r\n * @const\r\n * @private\r\n */\r\nLong.prototype.__isLong__;\r\n\r\nObject.defineProperty(Long.prototype, \"__isLong__\", { value: true });\r\n\r\n/**\r\n * @function\r\n * @param {*} obj Object\r\n * @returns {boolean}\r\n * @inner\r\n */\r\nfunction isLong(obj) {\r\n return (obj && obj[\"__isLong__\"]) === true;\r\n}\r\n\r\n/**\r\n * Tests if the specified object is a Long.\r\n * @function\r\n * @param {*} obj Object\r\n * @returns {boolean}\r\n */\r\nLong.isLong = isLong;\r\n\r\n/**\r\n * A cache of the Long representations of small integer values.\r\n * @type {!Object}\r\n * @inner\r\n */\r\nvar INT_CACHE = {};\r\n\r\n/**\r\n * A cache of the Long representations of small unsigned integer values.\r\n * @type {!Object}\r\n * @inner\r\n */\r\nvar UINT_CACHE = {};\r\n\r\n/**\r\n * @param {number} value\r\n * @param {boolean=} unsigned\r\n * @returns {!Long}\r\n * @inner\r\n */\r\nfunction fromInt(value, unsigned) {\r\n var obj, cachedObj, cache;\r\n if (unsigned) {\r\n value >>>= 0;\r\n if (cache = (0 <= value && value < 256)) {\r\n cachedObj = UINT_CACHE[value];\r\n if (cachedObj)\r\n return cachedObj;\r\n }\r\n obj = fromBits(value, (value | 0) < 0 ? -1 : 0, true);\r\n if (cache)\r\n UINT_CACHE[value] = obj;\r\n return obj;\r\n } else {\r\n value |= 0;\r\n if (cache = (-128 <= value && value < 128)) {\r\n cachedObj = INT_CACHE[value];\r\n if (cachedObj)\r\n return cachedObj;\r\n }\r\n obj = fromBits(value, value < 0 ? -1 : 0, false);\r\n if (cache)\r\n INT_CACHE[value] = obj;\r\n return obj;\r\n }\r\n}\r\n\r\n/**\r\n * Returns a Long representing the given 32 bit integer value.\r\n * @function\r\n * @param {number} value The 32 bit integer in question\r\n * @param {boolean=} unsigned Whether unsigned or not, defaults to signed\r\n * @returns {!Long} The corresponding Long value\r\n */\r\nLong.fromInt = fromInt;\r\n\r\n/**\r\n * @param {number} value\r\n * @param {boolean=} unsigned\r\n * @returns {!Long}\r\n * @inner\r\n */\r\nfunction fromNumber(value, unsigned) {\r\n if (isNaN(value))\r\n return unsigned ? UZERO : ZERO;\r\n if (unsigned) {\r\n if (value < 0)\r\n return UZERO;\r\n if (value >= TWO_PWR_64_DBL)\r\n return MAX_UNSIGNED_VALUE;\r\n } else {\r\n if (value <= -TWO_PWR_63_DBL)\r\n return MIN_VALUE;\r\n if (value + 1 >= TWO_PWR_63_DBL)\r\n return MAX_VALUE;\r\n }\r\n if (value < 0)\r\n return fromNumber(-value, unsigned).neg();\r\n return fromBits((value % TWO_PWR_32_DBL) | 0, (value / TWO_PWR_32_DBL) | 0, unsigned);\r\n}\r\n\r\n/**\r\n * Returns a Long representing the given value, provided that it is a finite number. Otherwise, zero is returned.\r\n * @function\r\n * @param {number} value The number in question\r\n * @param {boolean=} unsigned Whether unsigned or not, defaults to signed\r\n * @returns {!Long} The corresponding Long value\r\n */\r\nLong.fromNumber = fromNumber;\r\n\r\n/**\r\n * @param {number} lowBits\r\n * @param {number} highBits\r\n * @param {boolean=} unsigned\r\n * @returns {!Long}\r\n * @inner\r\n */\r\nfunction fromBits(lowBits, highBits, unsigned) {\r\n return new Long(lowBits, highBits, unsigned);\r\n}\r\n\r\n/**\r\n * Returns a Long representing the 64 bit integer that comes by concatenating the given low and high bits. Each is\r\n * assumed to use 32 bits.\r\n * @function\r\n * @param {number} lowBits The low 32 bits\r\n * @param {number} highBits The high 32 bits\r\n * @param {boolean=} unsigned Whether unsigned or not, defaults to signed\r\n * @returns {!Long} The corresponding Long value\r\n */\r\nLong.fromBits = fromBits;\r\n\r\n/**\r\n * @function\r\n * @param {number} base\r\n * @param {number} exponent\r\n * @returns {number}\r\n * @inner\r\n */\r\nvar pow_dbl = Math.pow; // Used 4 times (4*8 to 15+4)\r\n\r\n/**\r\n * @param {string} str\r\n * @param {(boolean|number)=} unsigned\r\n * @param {number=} radix\r\n * @returns {!Long}\r\n * @inner\r\n */\r\nfunction fromString(str, unsigned, radix) {\r\n if (str.length === 0)\r\n throw Error('empty string');\r\n if (str === \"NaN\" || str === \"Infinity\" || str === \"+Infinity\" || str === \"-Infinity\")\r\n return ZERO;\r\n if (typeof unsigned === 'number') {\r\n // For goog.math.long compatibility\r\n radix = unsigned,\r\n unsigned = false;\r\n } else {\r\n unsigned = !! unsigned;\r\n }\r\n radix = radix || 10;\r\n if (radix < 2 || 36 < radix)\r\n throw RangeError('radix');\r\n\r\n var p;\r\n if ((p = str.indexOf('-')) > 0)\r\n throw Error('interior hyphen');\r\n else if (p === 0) {\r\n return fromString(str.substring(1), unsigned, radix).neg();\r\n }\r\n\r\n // Do several (8) digits each time through the loop, so as to\r\n // minimize the calls to the very expensive emulated div.\r\n var radixToPower = fromNumber(pow_dbl(radix, 8));\r\n\r\n var result = ZERO;\r\n for (var i = 0; i < str.length; i += 8) {\r\n var size = Math.min(8, str.length - i),\r\n value = parseInt(str.substring(i, i + size), radix);\r\n if (size < 8) {\r\n var power = fromNumber(pow_dbl(radix, size));\r\n result = result.mul(power).add(fromNumber(value));\r\n } else {\r\n result = result.mul(radixToPower);\r\n result = result.add(fromNumber(value));\r\n }\r\n }\r\n result.unsigned = unsigned;\r\n return result;\r\n}\r\n\r\n/**\r\n * Returns a Long representation of the given string, written using the specified radix.\r\n * @function\r\n * @param {string} str The textual representation of the Long\r\n * @param {(boolean|number)=} unsigned Whether unsigned or not, defaults to signed\r\n * @param {number=} radix The radix in which the text is written (2-36), defaults to 10\r\n * @returns {!Long} The corresponding Long value\r\n */\r\nLong.fromString = fromString;\r\n\r\n/**\r\n * @function\r\n * @param {!Long|number|string|!{low: number, high: number, unsigned: boolean}} val\r\n * @param {boolean=} unsigned\r\n * @returns {!Long}\r\n * @inner\r\n */\r\nfunction fromValue(val, unsigned) {\r\n if (typeof val === 'number')\r\n return fromNumber(val, unsigned);\r\n if (typeof val === 'string')\r\n return fromString(val, unsigned);\r\n // Throws for non-objects, converts non-instanceof Long:\r\n return fromBits(val.low, val.high, typeof unsigned === 'boolean' ? unsigned : val.unsigned);\r\n}\r\n\r\n/**\r\n * Converts the specified value to a Long using the appropriate from* function for its type.\r\n * @function\r\n * @param {!Long|number|string|!{low: number, high: number, unsigned: boolean}} val Value\r\n * @param {boolean=} unsigned Whether unsigned or not, defaults to signed\r\n * @returns {!Long}\r\n */\r\nLong.fromValue = fromValue;\r\n\r\n// NOTE: the compiler should inline these constant values below and then remove these variables, so there should be\r\n// no runtime penalty for these.\r\n\r\n/**\r\n * @type {number}\r\n * @const\r\n * @inner\r\n */\r\nvar TWO_PWR_16_DBL = 1 << 16;\r\n\r\n/**\r\n * @type {number}\r\n * @const\r\n * @inner\r\n */\r\nvar TWO_PWR_24_DBL = 1 << 24;\r\n\r\n/**\r\n * @type {number}\r\n * @const\r\n * @inner\r\n */\r\nvar TWO_PWR_32_DBL = TWO_PWR_16_DBL * TWO_PWR_16_DBL;\r\n\r\n/**\r\n * @type {number}\r\n * @const\r\n * @inner\r\n */\r\nvar TWO_PWR_64_DBL = TWO_PWR_32_DBL * TWO_PWR_32_DBL;\r\n\r\n/**\r\n * @type {number}\r\n * @const\r\n * @inner\r\n */\r\nvar TWO_PWR_63_DBL = TWO_PWR_64_DBL / 2;\r\n\r\n/**\r\n * @type {!Long}\r\n * @const\r\n * @inner\r\n */\r\nvar TWO_PWR_24 = fromInt(TWO_PWR_24_DBL);\r\n\r\n/**\r\n * @type {!Long}\r\n * @inner\r\n */\r\nvar ZERO = fromInt(0);\r\n\r\n/**\r\n * Signed zero.\r\n * @type {!Long}\r\n */\r\nLong.ZERO = ZERO;\r\n\r\n/**\r\n * @type {!Long}\r\n * @inner\r\n */\r\nvar UZERO = fromInt(0, true);\r\n\r\n/**\r\n * Unsigned zero.\r\n * @type {!Long}\r\n */\r\nLong.UZERO = UZERO;\r\n\r\n/**\r\n * @type {!Long}\r\n * @inner\r\n */\r\nvar ONE = fromInt(1);\r\n\r\n/**\r\n * Signed one.\r\n * @type {!Long}\r\n */\r\nLong.ONE = ONE;\r\n\r\n/**\r\n * @type {!Long}\r\n * @inner\r\n */\r\nvar UONE = fromInt(1, true);\r\n\r\n/**\r\n * Unsigned one.\r\n * @type {!Long}\r\n */\r\nLong.UONE = UONE;\r\n\r\n/**\r\n * @type {!Long}\r\n * @inner\r\n */\r\nvar NEG_ONE = fromInt(-1);\r\n\r\n/**\r\n * Signed negative one.\r\n * @type {!Long}\r\n */\r\nLong.NEG_ONE = NEG_ONE;\r\n\r\n/**\r\n * @type {!Long}\r\n * @inner\r\n */\r\nvar MAX_VALUE = fromBits(0xFFFFFFFF|0, 0x7FFFFFFF|0, false);\r\n\r\n/**\r\n * Maximum signed value.\r\n * @type {!Long}\r\n */\r\nLong.MAX_VALUE = MAX_VALUE;\r\n\r\n/**\r\n * @type {!Long}\r\n * @inner\r\n */\r\nvar MAX_UNSIGNED_VALUE = fromBits(0xFFFFFFFF|0, 0xFFFFFFFF|0, true);\r\n\r\n/**\r\n * Maximum unsigned value.\r\n * @type {!Long}\r\n */\r\nLong.MAX_UNSIGNED_VALUE = MAX_UNSIGNED_VALUE;\r\n\r\n/**\r\n * @type {!Long}\r\n * @inner\r\n */\r\nvar MIN_VALUE = fromBits(0, 0x80000000|0, false);\r\n\r\n/**\r\n * Minimum signed value.\r\n * @type {!Long}\r\n */\r\nLong.MIN_VALUE = MIN_VALUE;\r\n\r\n/**\r\n * @alias Long.prototype\r\n * @inner\r\n */\r\nvar LongPrototype = Long.prototype;\r\n\r\n/**\r\n * Converts the Long to a 32 bit integer, assuming it is a 32 bit integer.\r\n * @returns {number}\r\n */\r\nLongPrototype.toInt = function toInt() {\r\n return this.unsigned ? this.low >>> 0 : this.low;\r\n};\r\n\r\n/**\r\n * Converts the Long to a the nearest floating-point representation of this value (double, 53 bit mantissa).\r\n * @returns {number}\r\n */\r\nLongPrototype.toNumber = function toNumber() {\r\n if (this.unsigned)\r\n return ((this.high >>> 0) * TWO_PWR_32_DBL) + (this.low >>> 0);\r\n return this.high * TWO_PWR_32_DBL + (this.low >>> 0);\r\n};\r\n\r\n/**\r\n * Converts the Long to a string written in the specified radix.\r\n * @param {number=} radix Radix (2-36), defaults to 10\r\n * @returns {string}\r\n * @override\r\n * @throws {RangeError} If `radix` is out of range\r\n */\r\nLongPrototype.toString = function toString(radix) {\r\n radix = radix || 10;\r\n if (radix < 2 || 36 < radix)\r\n throw RangeError('radix');\r\n if (this.isZero())\r\n return '0';\r\n if (this.isNegative()) { // Unsigned Longs are never negative\r\n if (this.eq(MIN_VALUE)) {\r\n // We need to change the Long value before it can be negated, so we remove\r\n // the bottom-most digit in this base and then recurse to do the rest.\r\n var radixLong = fromNumber(radix),\r\n div = this.div(radixLong),\r\n rem1 = div.mul(radixLong).sub(this);\r\n return div.toString(radix) + rem1.toInt().toString(radix);\r\n } else\r\n return '-' + this.neg().toString(radix);\r\n }\r\n\r\n // Do several (6) digits each time through the loop, so as to\r\n // minimize the calls to the very expensive emulated div.\r\n var radixToPower = fromNumber(pow_dbl(radix, 6), this.unsigned),\r\n rem = this;\r\n var result = '';\r\n while (true) {\r\n var remDiv = rem.div(radixToPower),\r\n intval = rem.sub(remDiv.mul(radixToPower)).toInt() >>> 0,\r\n digits = intval.toString(radix);\r\n rem = remDiv;\r\n if (rem.isZero())\r\n return digits + result;\r\n else {\r\n while (digits.length < 6)\r\n digits = '0' + digits;\r\n result = '' + digits + result;\r\n }\r\n }\r\n};\r\n\r\n/**\r\n * Gets the high 32 bits as a signed integer.\r\n * @returns {number} Signed high bits\r\n */\r\nLongPrototype.getHighBits = function getHighBits() {\r\n return this.high;\r\n};\r\n\r\n/**\r\n * Gets the high 32 bits as an unsigned integer.\r\n * @returns {number} Unsigned high bits\r\n */\r\nLongPrototype.getHighBitsUnsigned = function getHighBitsUnsigned() {\r\n return this.high >>> 0;\r\n};\r\n\r\n/**\r\n * Gets the low 32 bits as a signed integer.\r\n * @returns {number} Signed low bits\r\n */\r\nLongPrototype.getLowBits = function getLowBits() {\r\n return this.low;\r\n};\r\n\r\n/**\r\n * Gets the low 32 bits as an unsigned integer.\r\n * @returns {number} Unsigned low bits\r\n */\r\nLongPrototype.getLowBitsUnsigned = function getLowBitsUnsigned() {\r\n return this.low >>> 0;\r\n};\r\n\r\n/**\r\n * Gets the number of bits needed to represent the absolute value of this Long.\r\n * @returns {number}\r\n */\r\nLongPrototype.getNumBitsAbs = function getNumBitsAbs() {\r\n if (this.isNegative()) // Unsigned Longs are never negative\r\n return this.eq(MIN_VALUE) ? 64 : this.neg().getNumBitsAbs();\r\n var val = this.high != 0 ? this.high : this.low;\r\n for (var bit = 31; bit > 0; bit--)\r\n if ((val & (1 << bit)) != 0)\r\n break;\r\n return this.high != 0 ? bit + 33 : bit + 1;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value equals zero.\r\n * @returns {boolean}\r\n */\r\nLongPrototype.isZero = function isZero() {\r\n return this.high === 0 && this.low === 0;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value equals zero. This is an alias of {@link Long#isZero}.\r\n * @returns {boolean}\r\n */\r\nLongPrototype.eqz = LongPrototype.isZero;\r\n\r\n/**\r\n * Tests if this Long's value is negative.\r\n * @returns {boolean}\r\n */\r\nLongPrototype.isNegative = function isNegative() {\r\n return !this.unsigned && this.high < 0;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value is positive.\r\n * @returns {boolean}\r\n */\r\nLongPrototype.isPositive = function isPositive() {\r\n return this.unsigned || this.high >= 0;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value is odd.\r\n * @returns {boolean}\r\n */\r\nLongPrototype.isOdd = function isOdd() {\r\n return (this.low & 1) === 1;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value is even.\r\n * @returns {boolean}\r\n */\r\nLongPrototype.isEven = function isEven() {\r\n return (this.low & 1) === 0;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value equals the specified's.\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.equals = function equals(other) {\r\n if (!isLong(other))\r\n other = fromValue(other);\r\n if (this.unsigned !== other.unsigned && (this.high >>> 31) === 1 && (other.high >>> 31) === 1)\r\n return false;\r\n return this.high === other.high && this.low === other.low;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value equals the specified's. This is an alias of {@link Long#equals}.\r\n * @function\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.eq = LongPrototype.equals;\r\n\r\n/**\r\n * Tests if this Long's value differs from the specified's.\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.notEquals = function notEquals(other) {\r\n return !this.eq(/* validates */ other);\r\n};\r\n\r\n/**\r\n * Tests if this Long's value differs from the specified's. This is an alias of {@link Long#notEquals}.\r\n * @function\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.neq = LongPrototype.notEquals;\r\n\r\n/**\r\n * Tests if this Long's value differs from the specified's. This is an alias of {@link Long#notEquals}.\r\n * @function\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.ne = LongPrototype.notEquals;\r\n\r\n/**\r\n * Tests if this Long's value is less than the specified's.\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.lessThan = function lessThan(other) {\r\n return this.comp(/* validates */ other) < 0;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value is less than the specified's. This is an alias of {@link Long#lessThan}.\r\n * @function\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.lt = LongPrototype.lessThan;\r\n\r\n/**\r\n * Tests if this Long's value is less than or equal the specified's.\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.lessThanOrEqual = function lessThanOrEqual(other) {\r\n return this.comp(/* validates */ other) <= 0;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value is less than or equal the specified's. This is an alias of {@link Long#lessThanOrEqual}.\r\n * @function\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.lte = LongPrototype.lessThanOrEqual;\r\n\r\n/**\r\n * Tests if this Long's value is less than or equal the specified's. This is an alias of {@link Long#lessThanOrEqual}.\r\n * @function\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.le = LongPrototype.lessThanOrEqual;\r\n\r\n/**\r\n * Tests if this Long's value is greater than the specified's.\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.greaterThan = function greaterThan(other) {\r\n return this.comp(/* validates */ other) > 0;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value is greater than the specified's. This is an alias of {@link Long#greaterThan}.\r\n * @function\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.gt = LongPrototype.greaterThan;\r\n\r\n/**\r\n * Tests if this Long's value is greater than or equal the specified's.\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.greaterThanOrEqual = function greaterThanOrEqual(other) {\r\n return this.comp(/* validates */ other) >= 0;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value is greater than or equal the specified's. This is an alias of {@link Long#greaterThanOrEqual}.\r\n * @function\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.gte = LongPrototype.greaterThanOrEqual;\r\n\r\n/**\r\n * Tests if this Long's value is greater than or equal the specified's. This is an alias of {@link Long#greaterThanOrEqual}.\r\n * @function\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.ge = LongPrototype.greaterThanOrEqual;\r\n\r\n/**\r\n * Compares this Long's value with the specified's.\r\n * @param {!Long|number|string} other Other value\r\n * @returns {number} 0 if they are the same, 1 if the this is greater and -1\r\n * if the given one is greater\r\n */\r\nLongPrototype.compare = function compare(other) {\r\n if (!isLong(other))\r\n other = fromValue(other);\r\n if (this.eq(other))\r\n return 0;\r\n var thisNeg = this.isNegative(),\r\n otherNeg = other.isNegative();\r\n if (thisNeg && !otherNeg)\r\n return -1;\r\n if (!thisNeg && otherNeg)\r\n return 1;\r\n // At this point the sign bits are the same\r\n if (!this.unsigned)\r\n return this.sub(other).isNegative() ? -1 : 1;\r\n // Both are positive if at least one is unsigned\r\n return (other.high >>> 0) > (this.high >>> 0) || (other.high === this.high && (other.low >>> 0) > (this.low >>> 0)) ? -1 : 1;\r\n};\r\n\r\n/**\r\n * Compares this Long's value with the specified's. This is an alias of {@link Long#compare}.\r\n * @function\r\n * @param {!Long|number|string} other Other value\r\n * @returns {number} 0 if they are the same, 1 if the this is greater and -1\r\n * if the given one is greater\r\n */\r\nLongPrototype.comp = LongPrototype.compare;\r\n\r\n/**\r\n * Negates this Long's value.\r\n * @returns {!Long} Negated Long\r\n */\r\nLongPrototype.negate = function negate() {\r\n if (!this.unsigned && this.eq(MIN_VALUE))\r\n return MIN_VALUE;\r\n return this.not().add(ONE);\r\n};\r\n\r\n/**\r\n * Negates this Long's value. This is an alias of {@link Long#negate}.\r\n * @function\r\n * @returns {!Long} Negated Long\r\n */\r\nLongPrototype.neg = LongPrototype.negate;\r\n\r\n/**\r\n * Returns the sum of this and the specified Long.\r\n * @param {!Long|number|string} addend Addend\r\n * @returns {!Long} Sum\r\n */\r\nLongPrototype.add = function add(addend) {\r\n if (!isLong(addend))\r\n addend = fromValue(addend);\r\n\r\n // Divide each number into 4 chunks of 16 bits, and then sum the chunks.\r\n\r\n var a48 = this.high >>> 16;\r\n var a32 = this.high & 0xFFFF;\r\n var a16 = this.low >>> 16;\r\n var a00 = this.low & 0xFFFF;\r\n\r\n var b48 = addend.high >>> 16;\r\n var b32 = addend.high & 0xFFFF;\r\n var b16 = addend.low >>> 16;\r\n var b00 = addend.low & 0xFFFF;\r\n\r\n var c48 = 0, c32 = 0, c16 = 0, c00 = 0;\r\n c00 += a00 + b00;\r\n c16 += c00 >>> 16;\r\n c00 &= 0xFFFF;\r\n c16 += a16 + b16;\r\n c32 += c16 >>> 16;\r\n c16 &= 0xFFFF;\r\n c32 += a32 + b32;\r\n c48 += c32 >>> 16;\r\n c32 &= 0xFFFF;\r\n c48 += a48 + b48;\r\n c48 &= 0xFFFF;\r\n return fromBits((c16 << 16) | c00, (c48 << 16) | c32, this.unsigned);\r\n};\r\n\r\n/**\r\n * Returns the difference of this and the specified Long.\r\n * @param {!Long|number|string} subtrahend Subtrahend\r\n * @returns {!Long} Difference\r\n */\r\nLongPrototype.subtract = function subtract(subtrahend) {\r\n if (!isLong(subtrahend))\r\n subtrahend = fromValue(subtrahend);\r\n return this.add(subtrahend.neg());\r\n};\r\n\r\n/**\r\n * Returns the difference of this and the specified Long. This is an alias of {@link Long#subtract}.\r\n * @function\r\n * @param {!Long|number|string} subtrahend Subtrahend\r\n * @returns {!Long} Difference\r\n */\r\nLongPrototype.sub = LongPrototype.subtract;\r\n\r\n/**\r\n * Returns the product of this and the specified Long.\r\n * @param {!Long|number|string} multiplier Multiplier\r\n * @returns {!Long} Product\r\n */\r\nLongPrototype.multiply = function multiply(multiplier) {\r\n if (this.isZero())\r\n return ZERO;\r\n if (!isLong(multiplier))\r\n multiplier = fromValue(multiplier);\r\n\r\n // use wasm support if present\r\n if (wasm) {\r\n var low = wasm.mul(this.low,\r\n this.high,\r\n multiplier.low,\r\n multiplier.high);\r\n return fromBits(low, wasm.get_high(), this.unsigned);\r\n }\r\n\r\n if (multiplier.isZero())\r\n return ZERO;\r\n if (this.eq(MIN_VALUE))\r\n return multiplier.isOdd() ? MIN_VALUE : ZERO;\r\n if (multiplier.eq(MIN_VALUE))\r\n return this.isOdd() ? MIN_VALUE : ZERO;\r\n\r\n if (this.isNegative()) {\r\n if (multiplier.isNegative())\r\n return this.neg().mul(multiplier.neg());\r\n else\r\n return this.neg().mul(multiplier).neg();\r\n } else if (multiplier.isNegative())\r\n return this.mul(multiplier.neg()).neg();\r\n\r\n // If both longs are small, use float multiplication\r\n if (this.lt(TWO_PWR_24) && multiplier.lt(TWO_PWR_24))\r\n return fromNumber(this.toNumber() * multiplier.toNumber(), this.unsigned);\r\n\r\n // Divide each long into 4 chunks of 16 bits, and then add up 4x4 products.\r\n // We can skip products that would overflow.\r\n\r\n var a48 = this.high >>> 16;\r\n var a32 = this.high & 0xFFFF;\r\n var a16 = this.low >>> 16;\r\n var a00 = this.low & 0xFFFF;\r\n\r\n var b48 = multiplier.high >>> 16;\r\n var b32 = multiplier.high & 0xFFFF;\r\n var b16 = multiplier.low >>> 16;\r\n var b00 = multiplier.low & 0xFFFF;\r\n\r\n var c48 = 0, c32 = 0, c16 = 0, c00 = 0;\r\n c00 += a00 * b00;\r\n c16 += c00 >>> 16;\r\n c00 &= 0xFFFF;\r\n c16 += a16 * b00;\r\n c32 += c16 >>> 16;\r\n c16 &= 0xFFFF;\r\n c16 += a00 * b16;\r\n c32 += c16 >>> 16;\r\n c16 &= 0xFFFF;\r\n c32 += a32 * b00;\r\n c48 += c32 >>> 16;\r\n c32 &= 0xFFFF;\r\n c32 += a16 * b16;\r\n c48 += c32 >>> 16;\r\n c32 &= 0xFFFF;\r\n c32 += a00 * b32;\r\n c48 += c32 >>> 16;\r\n c32 &= 0xFFFF;\r\n c48 += a48 * b00 + a32 * b16 + a16 * b32 + a00 * b48;\r\n c48 &= 0xFFFF;\r\n return fromBits((c16 << 16) | c00, (c48 << 16) | c32, this.unsigned);\r\n};\r\n\r\n/**\r\n * Returns the product of this and the specified Long. This is an alias of {@link Long#multiply}.\r\n * @function\r\n * @param {!Long|number|string} multiplier Multiplier\r\n * @returns {!Long} Product\r\n */\r\nLongPrototype.mul = LongPrototype.multiply;\r\n\r\n/**\r\n * Returns this Long divided by the specified. The result is signed if this Long is signed or\r\n * unsigned if this Long is unsigned.\r\n * @param {!Long|number|string} divisor Divisor\r\n * @returns {!Long} Quotient\r\n */\r\nLongPrototype.divide = function divide(divisor) {\r\n if (!isLong(divisor))\r\n divisor = fromValue(divisor);\r\n if (divisor.isZero())\r\n throw Error('division by zero');\r\n\r\n // use wasm support if present\r\n if (wasm) {\r\n // guard against signed division overflow: the largest\r\n // negative number / -1 would be 1 larger than the largest\r\n // positive number, due to two's complement.\r\n if (!this.unsigned &&\r\n this.high === -0x80000000 &&\r\n divisor.low === -1 && divisor.high === -1) {\r\n // be consistent with non-wasm code path\r\n return this;\r\n }\r\n var low = (this.unsigned ? wasm.div_u : wasm.div_s)(\r\n this.low,\r\n this.high,\r\n divisor.low,\r\n divisor.high\r\n );\r\n return fromBits(low, wasm.get_high(), this.unsigned);\r\n }\r\n\r\n if (this.isZero())\r\n return this.unsigned ? UZERO : ZERO;\r\n var approx, rem, res;\r\n if (!this.unsigned) {\r\n // This section is only relevant for signed longs and is derived from the\r\n // closure library as a whole.\r\n if (this.eq(MIN_VALUE)) {\r\n if (divisor.eq(ONE) || divisor.eq(NEG_ONE))\r\n return MIN_VALUE; // recall that -MIN_VALUE == MIN_VALUE\r\n else if (divisor.eq(MIN_VALUE))\r\n return ONE;\r\n else {\r\n // At this point, we have |other| >= 2, so |this/other| < |MIN_VALUE|.\r\n var halfThis = this.shr(1);\r\n approx = halfThis.div(divisor).shl(1);\r\n if (approx.eq(ZERO)) {\r\n return divisor.isNegative() ? ONE : NEG_ONE;\r\n } else {\r\n rem = this.sub(divisor.mul(approx));\r\n res = approx.add(rem.div(divisor));\r\n return res;\r\n }\r\n }\r\n } else if (divisor.eq(MIN_VALUE))\r\n return this.unsigned ? UZERO : ZERO;\r\n if (this.isNegative()) {\r\n if (divisor.isNegative())\r\n return this.neg().div(divisor.neg());\r\n return this.neg().div(divisor).neg();\r\n } else if (divisor.isNegative())\r\n return this.div(divisor.neg()).neg();\r\n res = ZERO;\r\n } else {\r\n // The algorithm below has not been made for unsigned longs. It's therefore\r\n // required to take special care of the MSB prior to running it.\r\n if (!divisor.unsigned)\r\n divisor = divisor.toUnsigned();\r\n if (divisor.gt(this))\r\n return UZERO;\r\n if (divisor.gt(this.shru(1))) // 15 >>> 1 = 7 ; with divisor = 8 ; true\r\n return UONE;\r\n res = UZERO;\r\n }\r\n\r\n // Repeat the following until the remainder is less than other: find a\r\n // floating-point that approximates remainder / other *from below*, add this\r\n // into the result, and subtract it from the remainder. It is critical that\r\n // the approximate value is less than or equal to the real value so that the\r\n // remainder never becomes negative.\r\n rem = this;\r\n while (rem.gte(divisor)) {\r\n // Approximate the result of division. This may be a little greater or\r\n // smaller than the actual value.\r\n approx = Math.max(1, Math.floor(rem.toNumber() / divisor.toNumber()));\r\n\r\n // We will tweak the approximate result by changing it in the 48-th digit or\r\n // the smallest non-fractional digit, whichever is larger.\r\n var log2 = Math.ceil(Math.log(approx) / Math.LN2),\r\n delta = (log2 <= 48) ? 1 : pow_dbl(2, log2 - 48),\r\n\r\n // Decrease the approximation until it is smaller than the remainder. Note\r\n // that if it is too large, the product overflows and is negative.\r\n approxRes = fromNumber(approx),\r\n approxRem = approxRes.mul(divisor);\r\n while (approxRem.isNegative() || approxRem.gt(rem)) {\r\n approx -= delta;\r\n approxRes = fromNumber(approx, this.unsigned);\r\n approxRem = approxRes.mul(divisor);\r\n }\r\n\r\n // We know the answer can't be zero... and actually, zero would cause\r\n // infinite recursion since we would make no progress.\r\n if (approxRes.isZero())\r\n approxRes = ONE;\r\n\r\n res = res.add(approxRes);\r\n rem = rem.sub(approxRem);\r\n }\r\n return res;\r\n};\r\n\r\n/**\r\n * Returns this Long divided by the specified. This is an alias of {@link Long#divide}.\r\n * @function\r\n * @param {!Long|number|string} divisor Divisor\r\n * @returns {!Long} Quotient\r\n */\r\nLongPrototype.div = LongPrototype.divide;\r\n\r\n/**\r\n * Returns this Long modulo the specified.\r\n * @param {!Long|number|string} divisor Divisor\r\n * @returns {!Long} Remainder\r\n */\r\nLongPrototype.modulo = function modulo(divisor) {\r\n if (!isLong(divisor))\r\n divisor = fromValue(divisor);\r\n\r\n // use wasm support if present\r\n if (wasm) {\r\n var low = (this.unsigned ? wasm.rem_u : wasm.rem_s)(\r\n this.low,\r\n this.high,\r\n divisor.low,\r\n divisor.high\r\n );\r\n return fromBits(low, wasm.get_high(), this.unsigned);\r\n }\r\n\r\n return this.sub(this.div(divisor).mul(divisor));\r\n};\r\n\r\n/**\r\n * Returns this Long modulo the specified. This is an alias of {@link Long#modulo}.\r\n * @function\r\n * @param {!Long|number|string} divisor Divisor\r\n * @returns {!Long} Remainder\r\n */\r\nLongPrototype.mod = LongPrototype.modulo;\r\n\r\n/**\r\n * Returns this Long modulo the specified. This is an alias of {@link Long#modulo}.\r\n * @function\r\n * @param {!Long|number|string} divisor Divisor\r\n * @returns {!Long} Remainder\r\n */\r\nLongPrototype.rem = LongPrototype.modulo;\r\n\r\n/**\r\n * Returns the bitwise NOT of this Long.\r\n * @returns {!Long}\r\n */\r\nLongPrototype.not = function not() {\r\n return fromBits(~this.low, ~this.high, this.unsigned);\r\n};\r\n\r\n/**\r\n * Returns the bitwise AND of this Long and the specified.\r\n * @param {!Long|number|string} other Other Long\r\n * @returns {!Long}\r\n */\r\nLongPrototype.and = function and(other) {\r\n if (!isLong(other))\r\n other = fromValue(other);\r\n return fromBits(this.low & other.low, this.high & other.high, this.unsigned);\r\n};\r\n\r\n/**\r\n * Returns the bitwise OR of this Long and the specified.\r\n * @param {!Long|number|string} other Other Long\r\n * @returns {!Long}\r\n */\r\nLongPrototype.or = function or(other) {\r\n if (!isLong(other))\r\n other = fromValue(other);\r\n return fromBits(this.low | other.low, this.high | other.high, this.unsigned);\r\n};\r\n\r\n/**\r\n * Returns the bitwise XOR of this Long and the given one.\r\n * @param {!Long|number|string} other Other Long\r\n * @returns {!Long}\r\n */\r\nLongPrototype.xor = function xor(other) {\r\n if (!isLong(other))\r\n other = fromValue(other);\r\n return fromBits(this.low ^ other.low, this.high ^ other.high, this.unsigned);\r\n};\r\n\r\n/**\r\n * Returns this Long with bits shifted to the left by the given amount.\r\n * @param {number|!Long} numBits Number of bits\r\n * @returns {!Long} Shifted Long\r\n */\r\nLongPrototype.shiftLeft = function shiftLeft(numBits) {\r\n if (isLong(numBits))\r\n numBits = numBits.toInt();\r\n if ((numBits &= 63) === 0)\r\n return this;\r\n else if (numBits < 32)\r\n return fromBits(this.low << numBits, (this.high << numBits) | (this.low >>> (32 - numBits)), this.unsigned);\r\n else\r\n return fromBits(0, this.low << (numBits - 32), this.unsigned);\r\n};\r\n\r\n/**\r\n * Returns this Long with bits shifted to the left by the given amount. This is an alias of {@link Long#shiftLeft}.\r\n * @function\r\n * @param {number|!Long} numBits Number of bits\r\n * @returns {!Long} Shifted Long\r\n */\r\nLongPrototype.shl = LongPrototype.shiftLeft;\r\n\r\n/**\r\n * Returns this Long with bits arithmetically shifted to the right by the given amount.\r\n * @param {number|!Long} numBits Number of bits\r\n * @returns {!Long} Shifted Long\r\n */\r\nLongPrototype.shiftRight = function shiftRight(numBits) {\r\n if (isLong(numBits))\r\n numBits = numBits.toInt();\r\n if ((numBits &= 63) === 0)\r\n return this;\r\n else if (numBits < 32)\r\n return fromBits((this.low >>> numBits) | (this.high << (32 - numBits)), this.high >> numBits, this.unsigned);\r\n else\r\n return fromBits(this.high >> (numBits - 32), this.high >= 0 ? 0 : -1, this.unsigned);\r\n};\r\n\r\n/**\r\n * Returns this Long with bits arithmetically shifted to the right by the given amount. This is an alias of {@link Long#shiftRight}.\r\n * @function\r\n * @param {number|!Long} numBits Number of bits\r\n * @returns {!Long} Shifted Long\r\n */\r\nLongPrototype.shr = LongPrototype.shiftRight;\r\n\r\n/**\r\n * Returns this Long with bits logically shifted to the right by the given amount.\r\n * @param {number|!Long} numBits Number of bits\r\n * @returns {!Long} Shifted Long\r\n */\r\nLongPrototype.shiftRightUnsigned = function shiftRightUnsigned(numBits) {\r\n if (isLong(numBits))\r\n numBits = numBits.toInt();\r\n numBits &= 63;\r\n if (numBits === 0)\r\n return this;\r\n else {\r\n var high = this.high;\r\n if (numBits < 32) {\r\n var low = this.low;\r\n return fromBits((low >>> numBits) | (high << (32 - numBits)), high >>> numBits, this.unsigned);\r\n } else if (numBits === 32)\r\n return fromBits(high, 0, this.unsigned);\r\n else\r\n return fromBits(high >>> (numBits - 32), 0, this.unsigned);\r\n }\r\n};\r\n\r\n/**\r\n * Returns this Long with bits logically shifted to the right by the given amount. This is an alias of {@link Long#shiftRightUnsigned}.\r\n * @function\r\n * @param {number|!Long} numBits Number of bits\r\n * @returns {!Long} Shifted Long\r\n */\r\nLongPrototype.shru = LongPrototype.shiftRightUnsigned;\r\n\r\n/**\r\n * Returns this Long with bits logically shifted to the right by the given amount. This is an alias of {@link Long#shiftRightUnsigned}.\r\n * @function\r\n * @param {number|!Long} numBits Number of bits\r\n * @returns {!Long} Shifted Long\r\n */\r\nLongPrototype.shr_u = LongPrototype.shiftRightUnsigned;\r\n\r\n/**\r\n * Converts this Long to signed.\r\n * @returns {!Long} Signed long\r\n */\r\nLongPrototype.toSigned = function toSigned() {\r\n if (!this.unsigned)\r\n return this;\r\n return fromBits(this.low, this.high, false);\r\n};\r\n\r\n/**\r\n * Converts this Long to unsigned.\r\n * @returns {!Long} Unsigned long\r\n */\r\nLongPrototype.toUnsigned = function toUnsigned() {\r\n if (this.unsigned)\r\n return this;\r\n return fromBits(this.low, this.high, true);\r\n};\r\n\r\n/**\r\n * Converts this Long to its byte representation.\r\n * @param {boolean=} le Whether little or big endian, defaults to big endian\r\n * @returns {!Array.} Byte representation\r\n */\r\nLongPrototype.toBytes = function toBytes(le) {\r\n return le ? this.toBytesLE() : this.toBytesBE();\r\n};\r\n\r\n/**\r\n * Converts this Long to its little endian byte representation.\r\n * @returns {!Array.} Little endian byte representation\r\n */\r\nLongPrototype.toBytesLE = function toBytesLE() {\r\n var hi = this.high,\r\n lo = this.low;\r\n return [\r\n lo & 0xff,\r\n lo >>> 8 & 0xff,\r\n lo >>> 16 & 0xff,\r\n lo >>> 24 ,\r\n hi & 0xff,\r\n hi >>> 8 & 0xff,\r\n hi >>> 16 & 0xff,\r\n hi >>> 24\r\n ];\r\n};\r\n\r\n/**\r\n * Converts this Long to its big endian byte representation.\r\n * @returns {!Array.} Big endian byte representation\r\n */\r\nLongPrototype.toBytesBE = function toBytesBE() {\r\n var hi = this.high,\r\n lo = this.low;\r\n return [\r\n hi >>> 24 ,\r\n hi >>> 16 & 0xff,\r\n hi >>> 8 & 0xff,\r\n hi & 0xff,\r\n lo >>> 24 ,\r\n lo >>> 16 & 0xff,\r\n lo >>> 8 & 0xff,\r\n lo & 0xff\r\n ];\r\n};\r\n\r\n/**\r\n * Creates a Long from its byte representation.\r\n * @param {!Array.} bytes Byte representation\r\n * @param {boolean=} unsigned Whether unsigned or not, defaults to signed\r\n * @param {boolean=} le Whether little or big endian, defaults to big endian\r\n * @returns {Long} The corresponding Long value\r\n */\r\nLong.fromBytes = function fromBytes(bytes, unsigned, le) {\r\n return le ? Long.fromBytesLE(bytes, unsigned) : Long.fromBytesBE(bytes, unsigned);\r\n};\r\n\r\n/**\r\n * Creates a Long from its little endian byte representation.\r\n * @param {!Array.} bytes Little endian byte representation\r\n * @param {boolean=} unsigned Whether unsigned or not, defaults to signed\r\n * @returns {Long} The corresponding Long value\r\n */\r\nLong.fromBytesLE = function fromBytesLE(bytes, unsigned) {\r\n return new Long(\r\n bytes[0] |\r\n bytes[1] << 8 |\r\n bytes[2] << 16 |\r\n bytes[3] << 24,\r\n bytes[4] |\r\n bytes[5] << 8 |\r\n bytes[6] << 16 |\r\n bytes[7] << 24,\r\n unsigned\r\n );\r\n};\r\n\r\n/**\r\n * Creates a Long from its big endian byte representation.\r\n * @param {!Array.} bytes Big endian byte representation\r\n * @param {boolean=} unsigned Whether unsigned or not, defaults to signed\r\n * @returns {Long} The corresponding Long value\r\n */\r\nLong.fromBytesBE = function fromBytesBE(bytes, unsigned) {\r\n return new Long(\r\n bytes[4] << 24 |\r\n bytes[5] << 16 |\r\n bytes[6] << 8 |\r\n bytes[7],\r\n bytes[0] << 24 |\r\n bytes[1] << 16 |\r\n bytes[2] << 8 |\r\n bytes[3],\r\n unsigned\r\n );\r\n};\r\n","/**\r\n * Built-in elements providing WebAssembly core functionality.\r\n * @module builtins\r\n *//***/\r\n\r\n import {\r\n Compiler,\r\n ConversionKind,\r\n WrapMode,\r\n Feature\r\n} from \"./compiler\";\r\n\r\nimport {\r\n DiagnosticCode\r\n} from \"./diagnostics\";\r\n\r\nimport {\r\n Node,\r\n NodeKind,\r\n Expression,\r\n LiteralKind,\r\n LiteralExpression,\r\n StringLiteralExpression,\r\n CallExpression\r\n} from \"./ast\";\r\n\r\nimport {\r\n Type,\r\n TypeKind,\r\n TypeFlags\r\n} from \"./types\";\r\n\r\nimport {\r\n BinaryOp,\r\n UnaryOp,\r\n HostOp,\r\n AtomicRMWOp,\r\n SIMDExtractOp,\r\n SIMDReplaceOp,\r\n SIMDShiftOp,\r\n NativeType,\r\n ExpressionRef,\r\n ExpressionId,\r\n getExpressionId,\r\n getExpressionType,\r\n getConstValueI64High,\r\n getConstValueI64Low,\r\n getConstValueI32,\r\n getConstValueF32,\r\n getConstValueF64\r\n} from \"./module\";\r\n\r\nimport {\r\n ElementKind,\r\n OperatorKind,\r\n FunctionPrototype,\r\n Class,\r\n Field,\r\n Global,\r\n DecoratorFlags,\r\n ClassPrototype\r\n} from \"./program\";\r\n\r\nimport {\r\n FlowFlags\r\n} from \"./flow\";\r\n\r\nimport {\r\n ReportMode\r\n} from \"./resolver\";\r\n\r\nimport {\r\n CommonFlags\r\n} from \"./common\";\r\n\r\nimport {\r\n writeI8,\r\n writeI16,\r\n writeI32,\r\n writeF32,\r\n writeF64,\r\n isPowerOf2\r\n} from \"./util\";\r\n\r\n/** Symbols of various compiler built-ins. */\r\nexport namespace BuiltinSymbols {\r\n // std/builtins.ts\r\n export const isInteger = \"~lib/builtins/isInteger\";\r\n export const isFloat = \"~lib/builtins/isFloat\";\r\n export const isSigned = \"~lib/builtins/isSigned\";\r\n export const isReference = \"~lib/builtins/isReference\";\r\n export const isString = \"~lib/builtins/isString\";\r\n export const isArray = \"~lib/builtins/isArray\";\r\n export const isArrayLike = \"~lib/builtins/isArrayLike\";\r\n export const isFunction = \"~lib/builtins/isFunction\";\r\n export const isNullable = \"~lib/builtins/isNullable\";\r\n export const isDefined = \"~lib/builtins/isDefined\";\r\n export const isConstant = \"~lib/builtins/isConstant\";\r\n export const isManaged = \"~lib/builtins/isManaged\";\r\n\r\n export const clz = \"~lib/builtins/clz\";\r\n export const ctz = \"~lib/builtins/ctz\";\r\n export const popcnt = \"~lib/builtins/popcnt\";\r\n export const rotl = \"~lib/builtins/rotl\";\r\n export const rotr = \"~lib/builtins/rotr\";\r\n export const abs = \"~lib/builtins/abs\";\r\n export const max = \"~lib/builtins/max\";\r\n export const min = \"~lib/builtins/min\";\r\n export const ceil = \"~lib/builtins/ceil\";\r\n export const floor = \"~lib/builtins/floor\";\r\n export const copysign = \"~lib/builtins/copysign\";\r\n export const nearest = \"~lib/builtins/nearest\";\r\n export const reinterpret = \"~lib/builtins/reinterpret\";\r\n export const sqrt = \"~lib/builtins/sqrt\";\r\n export const trunc = \"~lib/builtins/trunc\";\r\n export const load = \"~lib/builtins/load\";\r\n export const store = \"~lib/builtins/store\";\r\n export const atomic_load = \"~lib/builtins/atomic.load\";\r\n export const atomic_store = \"~lib/builtins/atomic.store\";\r\n export const atomic_add = \"~lib/builtins/atomic.add\";\r\n export const atomic_sub = \"~lib/builtins/atomic.sub\";\r\n export const atomic_and = \"~lib/builtins/atomic.and\";\r\n export const atomic_or = \"~lib/builtins/atomic.or\";\r\n export const atomic_xor = \"~lib/builtins/atomic.xor\";\r\n export const atomic_xchg = \"~lib/builtins/atomic.xchg\";\r\n export const atomic_cmpxchg = \"~lib/builtins/atomic.cmpxchg\";\r\n export const atomic_wait = \"~lib/builtins/atomic.wait\";\r\n export const atomic_notify = \"~lib/builtins/atomic.notify\";\r\n\r\n export const sizeof = \"~lib/builtins/sizeof\";\r\n export const alignof = \"~lib/builtins/alignof\";\r\n export const offsetof = \"~lib/builtins/offsetof\";\r\n export const select = \"~lib/builtins/select\";\r\n export const unreachable = \"~lib/builtins/unreachable\";\r\n export const changetype = \"~lib/builtins/changetype\";\r\n export const assert = \"~lib/builtins/assert\";\r\n export const unchecked = \"~lib/builtins/unchecked\";\r\n export const call_indirect = \"~lib/builtins/call_indirect\";\r\n export const instantiate = \"~lib/builtins/instantiate\";\r\n\r\n export const i8 = \"~lib/builtins/i8\";\r\n export const i16 = \"~lib/builtins/i16\";\r\n export const i32 = \"~lib/builtins/i32\";\r\n export const i64 = \"~lib/builtins/i64\";\r\n export const isize = \"~lib/builtins/isize\";\r\n export const u8 = \"~lib/builtins/u8\";\r\n export const u16 = \"~lib/builtins/u16\";\r\n export const u32 = \"~lib/builtins/u32\";\r\n export const u64 = \"~lib/builtins/u64\";\r\n export const usize = \"~lib/builtins/usize\";\r\n export const bool = \"~lib/builtins/bool\";\r\n export const f32 = \"~lib/builtins/f32\";\r\n export const f64 = \"~lib/builtins/f64\";\r\n export const v128 = \"~lib/builtins/v128\";\r\n export const void_ = \"~lib/builtins/void\";\r\n\r\n export const i32_clz = \"~lib/builtins/i32.clz\";\r\n export const i64_clz = \"~lib/builtins/i64.clz\";\r\n export const i32_ctz = \"~lib/builtins/i32.ctz\";\r\n export const i64_ctz = \"~lib/builtins/i64.ctz\";\r\n export const i32_popcnt = \"~lib/builtins/i32.popcnt\";\r\n export const i64_popcnt = \"~lib/builtins/i64.popcnt\";\r\n export const i32_rotl = \"~lib/builtins/i32.rotl\";\r\n export const i64_rotl = \"~lib/builtins/i64.rotl\";\r\n export const i32_rotr = \"~lib/builtins/i32.rotr\";\r\n export const i64_rotr = \"~lib/builtins/i64.rotr\";\r\n\r\n export const f32_abs = \"~lib/builtins/f32.abs\";\r\n export const f64_abs = \"~lib/builtins/f64.abs\";\r\n export const f32_max = \"~lib/builtins/f32.max\";\r\n export const f64_max = \"~lib/builtins/f64.max\";\r\n export const f32_min = \"~lib/builtins/f32.min\";\r\n export const f64_min = \"~lib/builtins/f64.min\";\r\n export const f32_ceil = \"~lib/builtins/f32.ceil\";\r\n export const f64_ceil = \"~lib/builtins/f64.ceil\";\r\n export const f32_floor = \"~lib/builtins/f32.floor\";\r\n export const f64_floor = \"~lib/builtins/f64.floor\";\r\n export const f32_copysign = \"~lib/builtins/f32.copysign\";\r\n export const f64_copysign = \"~lib/builtins/f64.copysign\";\r\n export const f32_nearest = \"~lib/builtins/f32.nearest\";\r\n export const f64_nearest = \"~lib/builtins/f64.nearest\";\r\n export const i32_reinterpret_f32 = \"~lib/builtins/i32.reinterpret_f32\";\r\n export const i64_reinterpret_f64 = \"~lib/builtins/i64.reinterpret_f64\";\r\n export const f32_reinterpret_i32 = \"~lib/builtins/f32.reinterpret_i32\";\r\n export const f64_reinterpret_i64 = \"~lib/builtins/f64.reinterpret_i64\";\r\n export const f32_sqrt = \"~lib/builtins/f32.sqrt\";\r\n export const f64_sqrt = \"~lib/builtins/f64.sqrt\";\r\n export const f32_trunc = \"~lib/builtins/f32.trunc\";\r\n export const f64_trunc = \"~lib/builtins/f64.trunc\";\r\n\r\n export const i32_load8_s = \"~lib/builtins/i32.load8_s\";\r\n export const i32_load8_u = \"~lib/builtins/i32.load8_u\";\r\n export const i32_load16_s = \"~lib/builtins/i32.load16_s\";\r\n export const i32_load16_u = \"~lib/builtins/i32.load16_u\";\r\n export const i32_load = \"~lib/builtins/i32.load\";\r\n export const i64_load8_s = \"~lib/builtins/i64.load8_s\";\r\n export const i64_load8_u = \"~lib/builtins/i64.load8_u\";\r\n export const i64_load16_s = \"~lib/builtins/i64.load16_s\";\r\n export const i64_load16_u = \"~lib/builtins/i64.load16_u\";\r\n export const i64_load32_s = \"~lib/builtins/i64.load32_s\";\r\n export const i64_load32_u = \"~lib/builtins/i64.load32_u\";\r\n export const i64_load = \"~lib/builtins/i64.load\";\r\n export const f32_load = \"~lib/builtins/f32.load\";\r\n export const f64_load = \"~lib/builtins/f64.load\";\r\n export const i32_store8 = \"~lib/builtins/i32.store8\";\r\n export const i32_store16 = \"~lib/builtins/i32.store16\";\r\n export const i32_store = \"~lib/builtins/i32.store\";\r\n export const i64_store8 = \"~lib/builtins/i64.store8\";\r\n export const i64_store16 = \"~lib/builtins/i64.store16\";\r\n export const i64_store32 = \"~lib/builtins/i64.store32\";\r\n export const i64_store = \"~lib/builtins/i64.store\";\r\n export const f32_store = \"~lib/builtins/f32.store\";\r\n export const f64_store = \"~lib/builtins/f64.store\";\r\n\r\n export const i32_atomic_load8_u = \"~lib/builtins/i32.atomic.load8_u\";\r\n export const i32_atomic_load16_u = \"~lib/builtins/i32.atomic.load16_u\";\r\n export const i32_atomic_load = \"~lib/builtins/i32.atomic.load\";\r\n export const i64_atomic_load8_u = \"~lib/builtins/i64.atomic.load8_u\";\r\n export const i64_atomic_load16_u = \"~lib/builtins/i64.atomic.load16_u\";\r\n export const i64_atomic_load32_u = \"~lib/builtins/i64.atomic.load32_u\";\r\n export const i64_atomic_load = \"~lib/builtins/i64.atomic.load\";\r\n export const i32_atomic_store8 = \"~lib/builtins/i32.atomic.store8\";\r\n export const i32_atomic_store16 = \"~lib/builtins/i32.atomic.store16\";\r\n export const i32_atomic_store = \"~lib/builtins/i32.atomic.store\";\r\n export const i64_atomic_store8 = \"~lib/builtins/i64.atomic.store8\";\r\n export const i64_atomic_store16 = \"~lib/builtins/i64.atomic.store16\";\r\n export const i64_atomic_store32 = \"~lib/builtins/i64.atomic.store32\";\r\n export const i64_atomic_store = \"~lib/builtins/i64.atomic.store\";\r\n export const i32_atomic_rmw8_u_add = \"~lib/builtins/i32.atomic.rmw8_u.add\";\r\n export const i32_atomic_rmw16_u_add = \"~lib/builtins/i32.atomic.rmw16_u.add\";\r\n export const i32_atomic_rmw_add = \"~lib/builtins/i32.atomic.rmw.add\";\r\n export const i64_atomic_rmw8_u_add = \"~lib/builtins/i64.atomic.rmw8_u.add\";\r\n export const i64_atomic_rmw16_u_add = \"~lib/builtins/i64.atomic.rmw16_u.add\";\r\n export const i64_atomic_rmw32_u_add = \"~lib/builtins/i64.atomic.rmw32_u.add\";\r\n export const i64_atomic_rmw_add = \"~lib/builtins/i64.atomic.rmw.add\";\r\n export const i32_atomic_rmw8_u_sub = \"~lib/builtins/i32.atomic.rmw8_u.sub\";\r\n export const i32_atomic_rmw16_u_sub = \"~lib/builtins/i32.atomic.rmw16_u.sub\";\r\n export const i32_atomic_rmw_sub = \"~lib/builtins/i32.atomic.rmw.sub\";\r\n export const i64_atomic_rmw8_u_sub = \"~lib/builtins/i64.atomic.rmw8_u.sub\";\r\n export const i64_atomic_rmw16_u_sub = \"~lib/builtins/i64.atomic.rmw16_u.sub\";\r\n export const i64_atomic_rmw32_u_sub = \"~lib/builtins/i64.atomic.rmw32_u.sub\";\r\n export const i64_atomic_rmw_sub = \"~lib/builtins/i64.atomic.rmw.sub\";\r\n export const i32_atomic_rmw8_u_and = \"~lib/builtins/i32.atomic.rmw8_u.and\";\r\n export const i32_atomic_rmw16_u_and = \"~lib/builtins/i32.atomic.rmw16_u.and\";\r\n export const i32_atomic_rmw_and = \"~lib/builtins/i32.atomic.rmw.and\";\r\n export const i64_atomic_rmw8_u_and = \"~lib/builtins/i64.atomic.rmw8_u.and\";\r\n export const i64_atomic_rmw16_u_and = \"~lib/builtins/i64.atomic.rmw16_u.and\";\r\n export const i64_atomic_rmw32_u_and = \"~lib/builtins/i64.atomic.rmw32_u.and\";\r\n export const i64_atomic_rmw_and = \"~lib/builtins/i64.atomic.rmw.and\";\r\n export const i32_atomic_rmw8_u_or = \"~lib/builtins/i32.atomic.rmw8_u.or\";\r\n export const i32_atomic_rmw16_u_or = \"~lib/builtins/i32.atomic.rmw16_u.or\";\r\n export const i32_atomic_rmw_or = \"~lib/builtins/i32.atomic.rmw.or\";\r\n export const i64_atomic_rmw8_u_or = \"~lib/builtins/i64.atomic.rmw8_u.or\";\r\n export const i64_atomic_rmw16_u_or = \"~lib/builtins/i64.atomic.rmw16_u.or\";\r\n export const i64_atomic_rmw32_u_or = \"~lib/builtins/i64.atomic.rmw32_u.or\";\r\n export const i64_atomic_rmw_or = \"~lib/builtins/i64.atomic.rmw.or\";\r\n export const i32_atomic_rmw8_u_xor = \"~lib/builtins/i32.atomic.rmw8_u.xor\";\r\n export const i32_atomic_rmw16_u_xor = \"~lib/builtins/i32.atomic.rmw16_u.xor\";\r\n export const i32_atomic_rmw_xor = \"~lib/builtins/i32.atomic.rmw.xor\";\r\n export const i64_atomic_rmw8_u_xor = \"~lib/builtins/i64.atomic.rmw8_u.xor\";\r\n export const i64_atomic_rmw16_u_xor = \"~lib/builtins/i64.atomic.rmw16_u.xor\";\r\n export const i64_atomic_rmw32_u_xor = \"~lib/builtins/i64.atomic.rmw32_u.xor\";\r\n export const i64_atomic_rmw_xor = \"~lib/builtins/i64.atomic.rmw.xor\";\r\n export const i32_atomic_rmw8_u_xchg = \"~lib/builtins/i32.atomic.rmw8_u.xchg\";\r\n export const i32_atomic_rmw16_u_xchg = \"~lib/builtins/i32.atomic.rmw16_u.xchg\";\r\n export const i32_atomic_rmw_xchg = \"~lib/builtins/i32.atomic.rmw.xchg\";\r\n export const i64_atomic_rmw8_u_xchg = \"~lib/builtins/i64.atomic.rmw8_u.xchg\";\r\n export const i64_atomic_rmw16_u_xchg = \"~lib/builtins/i64.atomic.rmw16_u.xchg\";\r\n export const i64_atomic_rmw32_u_xchg = \"~lib/builtins/i64.atomic.rmw32_u.xchg\";\r\n export const i64_atomic_rmw_xchg = \"~lib/builtins/i64.atomic.rmw.xchg\";\r\n export const i32_atomic_rmw8_u_cmpxchg = \"~lib/builtins/i32.atomic.rmw8_u.cmpxchg\";\r\n export const i32_atomic_rmw16_u_cmpxchg = \"~lib/builtins/i32.atomic.rmw16_u.cmpxchg\";\r\n export const i32_atomic_rmw_cmpxchg = \"~lib/builtins/i32.atomic.rmw.cmpxchg\";\r\n export const i64_atomic_rmw8_u_cmpxchg = \"~lib/builtins/i64.atomic.rmw8_u.cmpxchg\";\r\n export const i64_atomic_rmw16_u_cmpxchg = \"~lib/builtins/i64.atomic.rmw16_u.cmpxchg\";\r\n export const i64_atomic_rmw32_u_cmpxchg = \"~lib/builtins/i64.atomic.rmw32_u.cmpxchg\";\r\n export const i64_atomic_rmw_cmpxchg = \"~lib/builtins/i64.atomic.rmw.cmpxchg\";\r\n export const i32_wait = \"~lib/builtins/i32.wait\";\r\n export const i64_wait = \"~lib/builtins/i64.wait\";\r\n export const i32_notify = \"~lib/builtins/i32.notify\";\r\n export const i64_notify = \"~lib/builtins/i64.notify\";\r\n\r\n export const v128_splat = \"~lib/builtins/v128.splat\";\r\n export const v128_extract_lane = \"~lib/builtins/v128.extract_lane\";\r\n export const v128_replace_lane = \"~lib/builtins/v128.replace_lane\";\r\n export const v128_shuffle = \"~lib/builtins/v128.shuffle\";\r\n export const v128_load = \"~lib/builtins/v128.load\";\r\n export const v128_store = \"~lib/builtins/v128.store\";\r\n export const v128_add = \"~lib/builtins/v128.add\";\r\n export const v128_sub = \"~lib/builtins/v128.sub\";\r\n export const v128_mul = \"~lib/builtins/v128.mul\";\r\n export const v128_div = \"~lib/builtins/v128.div\";\r\n export const v128_neg = \"~lib/builtins/v128.neg\";\r\n export const v128_add_saturate = \"~lib/builtins/v128.add_saturate\";\r\n export const v128_sub_saturate = \"~lib/builtins/v128.sub_saturate\";\r\n export const v128_shl = \"~lib/builtins/v128.shl\";\r\n export const v128_shr = \"~lib/builtins/v128.shr\";\r\n export const v128_and = \"~lib/builtins/v128.and\";\r\n export const v128_or = \"~lib/builtins/v128.or\";\r\n export const v128_xor = \"~lib/builtins/v128.xor\";\r\n export const v128_not = \"~lib/builtins/v128.not\";\r\n export const v128_bitselect = \"~lib/builtins/v128.bitselect\";\r\n export const v128_any_true = \"~lib/builtins/v128.any_true\";\r\n export const v128_all_true = \"~lib/builtins/v128.all_true\";\r\n export const v128_min = \"~lib/builtins/v128.min\";\r\n export const v128_max = \"~lib/builtins/v128.max\";\r\n export const v128_abs = \"~lib/builtins/v128.abs\";\r\n export const v128_sqrt = \"~lib/builtins/v128.sqrt\";\r\n export const v128_eq = \"~lib/builtins/v128.eq\";\r\n export const v128_ne = \"~lib/builtins/v128.ne\";\r\n export const v128_lt = \"~lib/builtins/v128.lt\";\r\n export const v128_le = \"~lib/builtins/v128.le\";\r\n export const v128_gt = \"~lib/builtins/v128.gt\";\r\n export const v128_ge = \"~lib/builtins/v128.ge\";\r\n export const v128_convert = \"~lib/builtins/v128.convert\";\r\n export const v128_trunc = \"~lib/builtins/v128.trunc\";\r\n\r\n export const i8x16 = \"~lib/builtins/i8x16\";\r\n export const i16x8 = \"~lib/builtins/i16x8\";\r\n export const i32x4 = \"~lib/builtins/i32x4\";\r\n export const i64x2 = \"~lib/builtins/i64x2\";\r\n export const f32x4 = \"~lib/builtins/f32x4\";\r\n export const f64x2 = \"~lib/builtins/f64x2\";\r\n\r\n export const i8x16_splat = \"~lib/builtins/i8x16.splat\";\r\n export const i8x16_extract_lane_s = \"~lib/builtins/i8x16.extract_lane_s\";\r\n export const i8x16_extract_lane_u = \"~lib/builtins/i8x16.extract_lane_u\";\r\n export const i8x16_replace_lane = \"~lib/builtins/i8x16.replace_lane\";\r\n export const i8x16_add = \"~lib/builtins/i8x16.add\";\r\n export const i8x16_sub = \"~lib/builtins/i8x16.sub\";\r\n export const i8x16_mul = \"~lib/builtins/i8x16.mul\";\r\n export const i8x16_neg = \"~lib/builtins/i8x16.neg\";\r\n export const i8x16_add_saturate_s = \"~lib/builtins/i8x16.add_saturate_s\";\r\n export const i8x16_add_saturate_u = \"~lib/builtins/i8x16.add_saturate_u\";\r\n export const i8x16_sub_saturate_s = \"~lib/builtins/i8x16.sub_saturate_s\";\r\n export const i8x16_sub_saturate_u = \"~lib/builtins/i8x16.sub_saturate_u\";\r\n export const i8x16_shl = \"~lib/builtins/i8x16.shl\";\r\n export const i8x16_shr_s = \"~lib/builtins/i8x16.shr_s\";\r\n export const i8x16_shr_u = \"~lib/builtins/i8x16.shr_u\";\r\n export const i8x16_any_true = \"~lib/builtins/i8x16.any_true\";\r\n export const i8x16_all_true = \"~lib/builtins/i8x16.all_true\";\r\n export const i8x16_eq = \"~lib/builtins/i8x16.eq\";\r\n export const i8x16_ne = \"~lib/builtins/i8x16.ne\";\r\n export const i8x16_lt_s = \"~lib/builtins/i8x16.lt_s\";\r\n export const i8x16_lt_u = \"~lib/builtins/i8x16.lt_u\";\r\n export const i8x16_le_s = \"~lib/builtins/i8x16.le_s\";\r\n export const i8x16_le_u = \"~lib/builtins/i8x16.le_u\";\r\n export const i8x16_gt_s = \"~lib/builtins/i8x16.gt_s\";\r\n export const i8x16_gt_u = \"~lib/builtins/i8x16.gt_u\";\r\n export const i8x16_ge_s = \"~lib/builtins/i8x16.ge_s\";\r\n export const i8x16_ge_u = \"~lib/builtins/i8x16.ge_u\";\r\n\r\n export const i16x8_splat = \"~lib/builtins/i16x8.splat\";\r\n export const i16x8_extract_lane_s = \"~lib/builtins/i16x8.extract_lane_s\";\r\n export const i16x8_extract_lane_u = \"~lib/builtins/i16x8.extract_lane_u\";\r\n export const i16x8_replace_lane = \"~lib/builtins/i16x8.replace_lane\";\r\n export const i16x8_add = \"~lib/builtins/i16x8.add\";\r\n export const i16x8_sub = \"~lib/builtins/i16x8.sub\";\r\n export const i16x8_mul = \"~lib/builtins/i16x8.mul\";\r\n export const i16x8_neg = \"~lib/builtins/i16x8.neg\";\r\n export const i16x8_add_saturate_s = \"~lib/builtins/i16x8.add_saturate_s\";\r\n export const i16x8_add_saturate_u = \"~lib/builtins/i16x8.add_saturate_u\";\r\n export const i16x8_sub_saturate_s = \"~lib/builtins/i16x8.sub_saturate_s\";\r\n export const i16x8_sub_saturate_u = \"~lib/builtins/i16x8.sub_saturate_u\";\r\n export const i16x8_shl = \"~lib/builtins/i16x8.shl\";\r\n export const i16x8_shr_s = \"~lib/builtins/i16x8.shr_s\";\r\n export const i16x8_shr_u = \"~lib/builtins/i16x8.shr_u\";\r\n export const i16x8_any_true = \"~lib/builtins/i16x8.any_true\";\r\n export const i16x8_all_true = \"~lib/builtins/i16x8.all_true\";\r\n export const i16x8_eq = \"~lib/builtins/i16x8.eq\";\r\n export const i16x8_ne = \"~lib/builtins/i16x8.ne\";\r\n export const i16x8_lt_s = \"~lib/builtins/i16x8.lt_s\";\r\n export const i16x8_lt_u = \"~lib/builtins/i16x8.lt_u\";\r\n export const i16x8_le_s = \"~lib/builtins/i16x8.le_s\";\r\n export const i16x8_le_u = \"~lib/builtins/i16x8.le_u\";\r\n export const i16x8_gt_s = \"~lib/builtins/i16x8.gt_s\";\r\n export const i16x8_gt_u = \"~lib/builtins/i16x8.gt_u\";\r\n export const i16x8_ge_s = \"~lib/builtins/i16x8.ge_s\";\r\n export const i16x8_ge_u = \"~lib/builtins/i16x8.ge_u\";\r\n\r\n export const i32x4_splat = \"~lib/builtins/i32x4.splat\";\r\n export const i32x4_extract_lane = \"~lib/builtins/i32x4.extract_lane\";\r\n export const i32x4_replace_lane = \"~lib/builtins/i32x4.replace_lane\";\r\n export const i32x4_add = \"~lib/builtins/i32x4.add\";\r\n export const i32x4_sub = \"~lib/builtins/i32x4.sub\";\r\n export const i32x4_mul = \"~lib/builtins/i32x4.mul\";\r\n export const i32x4_neg = \"~lib/builtins/i32x4.neg\";\r\n export const i32x4_shl = \"~lib/builtins/i32x4.shl\";\r\n export const i32x4_shr_s = \"~lib/builtins/i32x4.shr_s\";\r\n export const i32x4_shr_u = \"~lib/builtins/i32x4.shr_u\";\r\n export const i32x4_any_true = \"~lib/builtins/i32x4.any_true\";\r\n export const i32x4_all_true = \"~lib/builtins/i32x4.all_true\";\r\n export const i32x4_eq = \"~lib/builtins/i32x4.eq\";\r\n export const i32x4_ne = \"~lib/builtins/i32x4.ne\";\r\n export const i32x4_lt_s = \"~lib/builtins/i32x4.lt_s\";\r\n export const i32x4_lt_u = \"~lib/builtins/i32x4.lt_u\";\r\n export const i32x4_le_s = \"~lib/builtins/i32x4.le_s\";\r\n export const i32x4_le_u = \"~lib/builtins/i32x4.le_u\";\r\n export const i32x4_gt_s = \"~lib/builtins/i32x4.gt_s\";\r\n export const i32x4_gt_u = \"~lib/builtins/i32x4.gt_u\";\r\n export const i32x4_ge_s = \"~lib/builtins/i32x4.ge_s\";\r\n export const i32x4_ge_u = \"~lib/builtins/i32x4.ge_u\";\r\n export const i32x4_trunc_s_f32x4_sat = \"~lib/builtins/i32x4.trunc_s_f32x4_sat\";\r\n export const i32x4_trunc_u_f32x4_sat = \"~lib/builtins/i32x4.trunc_u_f32x4_sat\";\r\n\r\n export const i64x2_splat = \"~lib/builtins/i64x2.splat\";\r\n export const i64x2_extract_lane = \"~lib/builtins/i64x2.extract_lane\";\r\n export const i64x2_replace_lane = \"~lib/builtins/i64x2.replace_lane\";\r\n export const i64x2_add = \"~lib/builtins/i64x2.add\";\r\n export const i64x2_sub = \"~lib/builtins/i64x2.sub\"; // i64x2 has no .mul\r\n export const i64x2_neg = \"~lib/builtins/i64x2.neg\";\r\n export const i64x2_shl = \"~lib/builtins/i64x2.shl\";\r\n export const i64x2_shr_s = \"~lib/builtins/i64x2.shr_s\";\r\n export const i64x2_shr_u = \"~lib/builtins/i64x2.shr_u\";\r\n export const i64x2_any_true = \"~lib/builtins/i64x2.any_true\";\r\n export const i64x2_all_true = \"~lib/builtins/i64x2.all_true\"; // i64x2 has no .eq etc.\r\n export const i64x2_trunc_s_f64x2_sat = \"~lib/builtins/i64x2.trunc_s_f64x2_sat\";\r\n export const i64x2_trunc_u_f64x2_sat = \"~lib/builtins/i64x2.trunc_u_f64x2_sat\";\r\n\r\n export const f32x4_splat = \"~lib/builtins/f32x4.splat\";\r\n export const f32x4_extract_lane = \"~lib/builtins/f32x4.extract_lane\";\r\n export const f32x4_replace_lane = \"~lib/builtins/f32x4.replace_lane\";\r\n export const f32x4_add = \"~lib/builtins/f32x4.add\";\r\n export const f32x4_sub = \"~lib/builtins/f32x4.sub\";\r\n export const f32x4_mul = \"~lib/builtins/f32x4.mul\";\r\n export const f32x4_div = \"~lib/builtins/f32x4.div\";\r\n export const f32x4_neg = \"~lib/builtins/f32x4.neg\";\r\n export const f32x4_min = \"~lib/builtins/f32x4.min\";\r\n export const f32x4_max = \"~lib/builtins/f32x4.max\";\r\n export const f32x4_abs = \"~lib/builtins/f32x4.abs\";\r\n export const f32x4_sqrt = \"~lib/builtins/f32x4.sqrt\";\r\n export const f32x4_eq = \"~lib/builtins/f32x4.eq\";\r\n export const f32x4_ne = \"~lib/builtins/f32x4.ne\";\r\n export const f32x4_lt = \"~lib/builtins/f32x4.lt\";\r\n export const f32x4_le = \"~lib/builtins/f32x4.le\";\r\n export const f32x4_gt = \"~lib/builtins/f32x4.gt\";\r\n export const f32x4_ge = \"~lib/builtins/f32x4.ge\";\r\n export const f32x4_convert_s_i32x4 = \"~lib/builtins/f32x4.convert_s_i32x4\";\r\n export const f32x4_convert_u_i32x4 = \"~lib/builtins/f32x4.convert_u_i32x4\";\r\n\r\n export const f64x2_splat = \"~lib/builtins/f64x2.splat\";\r\n export const f64x2_extract_lane = \"~lib/builtins/f64x2.extract_lane\";\r\n export const f64x2_replace_lane = \"~lib/builtins/f64x2.replace_lane\";\r\n export const f64x2_add = \"~lib/builtins/f64x2.add\";\r\n export const f64x2_sub = \"~lib/builtins/f64x2.sub\";\r\n export const f64x2_mul = \"~lib/builtins/f64x2.mul\";\r\n export const f64x2_div = \"~lib/builtins/f64x2.div\";\r\n export const f64x2_neg = \"~lib/builtins/f64x2.neg\";\r\n export const f64x2_min = \"~lib/builtins/f64x2.min\";\r\n export const f64x2_max = \"~lib/builtins/f64x2.max\";\r\n export const f64x2_abs = \"~lib/builtins/f64x2.abs\";\r\n export const f64x2_sqrt = \"~lib/builtins/f64x2.sqrt\";\r\n export const f64x2_eq = \"~lib/builtins/f64x2.eq\";\r\n export const f64x2_ne = \"~lib/builtins/f64x2.ne\";\r\n export const f64x2_lt = \"~lib/builtins/f64x2.lt\";\r\n export const f64x2_le = \"~lib/builtins/f64x2.le\";\r\n export const f64x2_gt = \"~lib/builtins/f64x2.gt\";\r\n export const f64x2_ge = \"~lib/builtins/f64x2.ge\";\r\n export const f64x2_convert_s_i64x2 = \"~lib/builtins/f64x2.convert_s_i64x2\";\r\n export const f64x2_convert_u_i64x2 = \"~lib/builtins/f64x2.convert_u_i64x2\";\r\n\r\n export const v8x16_shuffle = \"~lib/builtins/v8x16.shuffle\";\r\n\r\n // std/diagnostics.ts\r\n export const ERROR = \"~lib/diagnostics/ERROR\";\r\n export const WARNING = \"~lib/diagnostics/WARNING\";\r\n export const INFO = \"~lib/diagnostics/INFO\";\r\n // std/memory.ts\r\n export const HEAP_BASE = \"~lib/memory/HEAP_BASE\";\r\n export const memory_size = \"~lib/memory/memory.size\";\r\n export const memory_grow = \"~lib/memory/memory.grow\";\r\n export const memory_copy = \"~lib/memory/memory.copy\";\r\n export const memory_fill = \"~lib/memory/memory.fill\";\r\n // std/gc.ts\r\n export const iterateRoots = \"~lib/gc/iterateRoots\";\r\n}\r\n\r\n/** Compiles a call to a built-in function. */\r\nexport function compileCall(\r\n compiler: Compiler,\r\n prototype: FunctionPrototype,\r\n typeArguments: Type[] | null,\r\n operands: Expression[],\r\n contextualType: Type,\r\n reportNode: CallExpression\r\n): ExpressionRef {\r\n var module = compiler.module;\r\n\r\n var arg0: ExpressionRef,\r\n arg1: ExpressionRef,\r\n arg2: ExpressionRef,\r\n ret: ExpressionRef;\r\n\r\n // NOTE that some implementations below make use of the select expression where straight-forward.\r\n // whether worth or not should probably be tested once it's known if/how embedders handle it.\r\n // search: createSelect\r\n\r\n switch (prototype.internalName) {\r\n\r\n // types\r\n\r\n case BuiltinSymbols.isInteger: { // isInteger() / isInteger(value: T) -> bool\r\n let type = evaluateConstantType(compiler, typeArguments, operands, reportNode);\r\n compiler.currentType = Type.bool;\r\n if (!type) return module.createUnreachable();\r\n return type.is(TypeFlags.INTEGER) && !type.is(TypeFlags.REFERENCE)\r\n ? module.createI32(1)\r\n : module.createI32(0);\r\n }\r\n case BuiltinSymbols.isFloat: { // isFloat() / isFloat(value: T) -> bool\r\n let type = evaluateConstantType(compiler, typeArguments, operands, reportNode);\r\n compiler.currentType = Type.bool;\r\n if (!type) return module.createUnreachable();\r\n return type.is(TypeFlags.FLOAT)\r\n ? module.createI32(1)\r\n : module.createI32(0);\r\n }\r\n case BuiltinSymbols.isSigned: { // isSigned() / isSigned(value: T) -> bool\r\n let type = evaluateConstantType(compiler, typeArguments, operands, reportNode);\r\n compiler.currentType = Type.bool;\r\n if (!type) return module.createUnreachable();\r\n return type.is(TypeFlags.SIGNED)\r\n ? module.createI32(1)\r\n : module.createI32(0);\r\n }\r\n case BuiltinSymbols.isReference: { // isReference() / isReference(value: T) -> bool\r\n let type = evaluateConstantType(compiler, typeArguments, operands, reportNode);\r\n compiler.currentType = Type.bool;\r\n if (!type) return module.createUnreachable();\r\n return type.is(TypeFlags.REFERENCE)\r\n ? module.createI32(1)\r\n : module.createI32(0);\r\n }\r\n case BuiltinSymbols.isString: { // isString() / isString(value: T) -> bool\r\n let type = evaluateConstantType(compiler, typeArguments, operands, reportNode);\r\n compiler.currentType = Type.bool;\r\n if (!type) return module.createUnreachable();\r\n let classType = type.classReference;\r\n if (classType) {\r\n let stringInstance = compiler.program.stringInstance;\r\n if (stringInstance && classType.isAssignableTo(stringInstance)) return module.createI32(1);\r\n }\r\n return module.createI32(0);\r\n }\r\n case BuiltinSymbols.isArray: { // isArray() / isArray(value: T) -> bool\r\n let type = evaluateConstantType(compiler, typeArguments, operands, reportNode);\r\n compiler.currentType = Type.bool;\r\n if (!type) return module.createUnreachable();\r\n let classReference = type.classReference;\r\n if (!classReference) return module.createI32(0);\r\n let classPrototype = classReference.prototype;\r\n return module.createI32(\r\n (classPrototype).extends(compiler.program.arrayPrototype)\r\n ? 1\r\n : 0\r\n );\r\n }\r\n case BuiltinSymbols.isArrayLike: { // isArrayLike() / isArrayLike(value: T) -> bool\r\n let type = evaluateConstantType(compiler, typeArguments, operands, reportNode);\r\n compiler.currentType = Type.bool;\r\n if (!type) return module.createUnreachable();\r\n let classReference = type.classReference;\r\n if (!classReference) return module.createI32(0);\r\n return module.createI32(\r\n classReference.lookupInSelf(\"length\") && (\r\n classReference.lookupOverload(OperatorKind.INDEXED_GET) ||\r\n classReference.lookupOverload(OperatorKind.UNCHECKED_INDEXED_GET)\r\n ) ? 1 : 0\r\n );\r\n }\r\n case BuiltinSymbols.isFunction: { // isFunction / isFunction(value: T) -> bool\r\n let type = evaluateConstantType(compiler, typeArguments, operands, reportNode);\r\n compiler.currentType = Type.bool;\r\n if (!type) return module.createUnreachable();\r\n return module.createI32(type.signatureReference ? 1 : 0);\r\n }\r\n case BuiltinSymbols.isNullable: { // isNullable / isNullable(value: T) -> bool\r\n let type = evaluateConstantType(compiler, typeArguments, operands, reportNode);\r\n compiler.currentType = Type.bool;\r\n if (!type) return module.createUnreachable();\r\n return module.createI32(type.is(TypeFlags.NULLABLE) ? 1 : 0);\r\n }\r\n case BuiltinSymbols.isDefined: { // isDefined(expression) -> bool\r\n compiler.currentType = Type.bool;\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let element = compiler.resolver.resolveExpression(\r\n operands[0],\r\n compiler.currentFlow,\r\n Type.void,\r\n ReportMode.SWALLOW\r\n );\r\n return module.createI32(element ? 1 : 0);\r\n }\r\n case BuiltinSymbols.isConstant: { // isConstant(expression) -> bool\r\n compiler.currentType = Type.bool;\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let expr = compiler.compileExpressionRetainType(operands[0], Type.i32, WrapMode.NONE);\r\n compiler.currentType = Type.bool;\r\n return module.createI32(getExpressionId(expr) == ExpressionId.Const ? 1 : 0);\r\n }\r\n case BuiltinSymbols.isManaged: { // isManaged() -> bool\r\n if (!compiler.program.hasGC) {\r\n compiler.currentType = Type.bool;\r\n return module.createI32(0);\r\n }\r\n let type = evaluateConstantType(compiler, typeArguments, operands, reportNode);\r\n compiler.currentType = Type.bool;\r\n if (!type) return module.createUnreachable();\r\n let classType = type.classReference;\r\n return classType !== null && !classType.hasDecorator(DecoratorFlags.UNMANAGED)\r\n ? module.createI32(1)\r\n : module.createI32(0);\r\n }\r\n\r\n // math\r\n\r\n case BuiltinSymbols.clz: { // clz(value: T) -> T\r\n if (operands.length != 1) {\r\n if (typeArguments) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n if (typeArguments.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n }\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (typeArguments) {\r\n if (typeArguments.length != 1) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.WRAP);\r\n } else {\r\n arg0 = compiler.compileExpression(operands[0], Type.i32, ConversionKind.NONE, WrapMode.WRAP);\r\n }\r\n switch (compiler.currentType.kind) {\r\n case TypeKind.BOOL: // usually overflows\r\n case TypeKind.I8:\r\n case TypeKind.U8:\r\n case TypeKind.I16:\r\n case TypeKind.U16:\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n ret = module.createUnary(UnaryOp.ClzI32, arg0);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n if (compiler.currentType.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n // fall-through\r\n }\r\n case TypeKind.ISIZE: {\r\n ret = module.createUnary(\r\n compiler.options.isWasm64\r\n ? UnaryOp.ClzI64\r\n : UnaryOp.ClzI32,\r\n arg0\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n ret = module.createUnary(UnaryOp.ClzI64, arg0);\r\n break;\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return ret;\r\n }\r\n case BuiltinSymbols.ctz: { // ctz(value: T) -> T\r\n if (operands.length != 1) {\r\n if (typeArguments) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n if (typeArguments.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n }\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (typeArguments) {\r\n if (typeArguments.length != 1) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.NONE, WrapMode.WRAP);\r\n } else {\r\n arg0 = compiler.compileExpression(operands[0], Type.i32, ConversionKind.NONE, WrapMode.WRAP);\r\n }\r\n switch (compiler.currentType.kind) {\r\n case TypeKind.BOOL: // usually overflows\r\n case TypeKind.I8:\r\n case TypeKind.U8:\r\n case TypeKind.I16:\r\n case TypeKind.U16:\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n ret = module.createUnary(UnaryOp.CtzI32, arg0);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n if (compiler.currentType.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n // fall-through\r\n }\r\n case TypeKind.ISIZE: {\r\n ret = module.createUnary(\r\n compiler.options.isWasm64\r\n ? UnaryOp.CtzI64\r\n : UnaryOp.CtzI32,\r\n arg0\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n ret = module.createUnary(UnaryOp.CtzI64, arg0);\r\n break;\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return ret;\r\n }\r\n case BuiltinSymbols.popcnt: { // popcnt(value: T) -> T\r\n if (operands.length != 1) {\r\n if (typeArguments) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n if (typeArguments.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n }\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (typeArguments) {\r\n if (typeArguments.length != 1) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.WRAP);\r\n } else {\r\n arg0 = compiler.compileExpression(operands[0], Type.i32, ConversionKind.NONE, WrapMode.WRAP);\r\n }\r\n switch (compiler.currentType.kind) {\r\n case TypeKind.BOOL: // usually overflows\r\n case TypeKind.I8:\r\n case TypeKind.U8:\r\n case TypeKind.I16:\r\n case TypeKind.U16:\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n ret = module.createUnary(UnaryOp.PopcntI32, arg0);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n if (compiler.currentType.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n // fall-through\r\n }\r\n case TypeKind.ISIZE: {\r\n ret = module.createUnary(\r\n compiler.options.isWasm64\r\n ? UnaryOp.PopcntI64\r\n : UnaryOp.PopcntI32,\r\n arg0\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n ret = module.createUnary(UnaryOp.PopcntI64, arg0);\r\n break;\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return ret;\r\n }\r\n case BuiltinSymbols.rotl: { // rotl(value: T, shift: T) -> T\r\n if (operands.length != 2) {\r\n if (typeArguments) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n if (typeArguments.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n }\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (typeArguments) {\r\n if (typeArguments.length != 1) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.WRAP);\r\n } else {\r\n arg0 = compiler.compileExpression(operands[0], Type.i32, ConversionKind.NONE, WrapMode.WRAP);\r\n }\r\n arg1 = compiler.compileExpression(operands[1], compiler.currentType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n switch (compiler.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n ret = compiler.ensureSmallIntegerWrap(\r\n module.createBinary(BinaryOp.RotlI32, arg0, arg1),\r\n compiler.currentType\r\n );\r\n // fall-through\r\n }\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n ret = module.createBinary(BinaryOp.RotlI32, arg0, arg1);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n if (compiler.currentType.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n // fall-through\r\n }\r\n case TypeKind.ISIZE: {\r\n ret = module.createBinary(\r\n compiler.options.isWasm64\r\n ? BinaryOp.RotlI64\r\n : BinaryOp.RotlI32,\r\n arg0,\r\n arg1\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n ret = module.createBinary(BinaryOp.RotlI64, arg0, arg1);\r\n break;\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return ret; // possibly overflows\r\n }\r\n case BuiltinSymbols.rotr: { // rotr(value: T, shift: T) -> T\r\n if (operands.length != 2) {\r\n if (typeArguments) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n if (typeArguments.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n }\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (typeArguments) {\r\n if (typeArguments.length != 1) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.WRAP);\r\n } else {\r\n arg0 = compiler.compileExpression(operands[0], Type.i32, ConversionKind.NONE, WrapMode.WRAP);\r\n }\r\n arg1 = compiler.compileExpression(operands[1], compiler.currentType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n switch (compiler.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n ret = compiler.ensureSmallIntegerWrap(\r\n module.createBinary(BinaryOp.RotrI32, arg0, arg1),\r\n compiler.currentType\r\n );\r\n break;\r\n }\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n ret = module.createBinary(BinaryOp.RotrI32, arg0, arg1);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n if (compiler.currentType.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n // fall-through\r\n }\r\n case TypeKind.ISIZE: {\r\n ret = module.createBinary(\r\n compiler.options.isWasm64\r\n ? BinaryOp.RotrI64\r\n : BinaryOp.RotrI32,\r\n arg0,\r\n arg1\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n ret = module.createBinary(BinaryOp.RotrI64, arg0, arg1);\r\n break;\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return ret; // possibly overflowws\r\n }\r\n case BuiltinSymbols.abs: { // abs(value: T) -> T\r\n if (operands.length != 1) {\r\n if (typeArguments) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n if (typeArguments.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n }\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (typeArguments) {\r\n if (typeArguments.length != 1) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.WRAP);\r\n } else {\r\n arg0 = compiler.compileExpression(operands[0], Type.f64, ConversionKind.NONE, WrapMode.WRAP);\r\n }\r\n switch (compiler.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32: {\r\n let flow = compiler.currentFlow;\r\n\r\n // possibly overflows, e.g. abs(-128) == 128\r\n let tempLocal1 = flow.getTempLocal(Type.i32, false);\r\n let tempLocalIndex2 = flow.getAndFreeTempLocal(Type.i32, false).index;\r\n let tempLocalIndex1 = tempLocal1.index;\r\n\r\n // (x + (x >> 31)) ^ (x >> 31)\r\n ret = module.createBinary(BinaryOp.XorI32,\r\n module.createBinary(BinaryOp.AddI32,\r\n module.createTeeLocal(\r\n tempLocalIndex2,\r\n module.createBinary(BinaryOp.ShrI32,\r\n module.createTeeLocal(tempLocalIndex1, arg0),\r\n module.createI32(31)\r\n )\r\n ),\r\n module.createGetLocal(tempLocalIndex1, NativeType.I32)\r\n ),\r\n module.createGetLocal(tempLocalIndex2, NativeType.I32)\r\n );\r\n\r\n flow.freeTempLocal(tempLocal1);\r\n break;\r\n }\r\n case TypeKind.ISIZE: {\r\n let options = compiler.options;\r\n let flow = compiler.currentFlow;\r\n let wasm64 = options.isWasm64;\r\n\r\n let tempLocal1 = flow.getTempLocal(options.usizeType, false);\r\n let tempLocalIndex2 = flow.getAndFreeTempLocal(options.usizeType, false).index;\r\n let tempLocalIndex1 = tempLocal1.index;\r\n\r\n ret = module.createBinary(wasm64 ? BinaryOp.XorI64 : BinaryOp.XorI32,\r\n module.createBinary(wasm64 ? BinaryOp.AddI64 : BinaryOp.AddI32,\r\n module.createTeeLocal(\r\n tempLocalIndex2,\r\n module.createBinary(wasm64 ? BinaryOp.ShrI64 : BinaryOp.ShrI32,\r\n module.createTeeLocal(tempLocalIndex1, arg0),\r\n wasm64 ? module.createI64(63) : module.createI32(31)\r\n )\r\n ),\r\n module.createGetLocal(tempLocalIndex1, options.nativeSizeType)\r\n ),\r\n module.createGetLocal(tempLocalIndex2, options.nativeSizeType)\r\n );\r\n\r\n flow.freeTempLocal(tempLocal1);\r\n break;\r\n }\r\n case TypeKind.I64: {\r\n let flow = compiler.currentFlow;\r\n\r\n let tempLocal1 = flow.getTempLocal(Type.i64, false);\r\n let tempLocalIndex2 = flow.getAndFreeTempLocal(Type.i64, false).index;\r\n let tempLocalIndex1 = tempLocal1.index;\r\n\r\n // (x + (x >> 63)) ^ (x >> 63)\r\n ret = module.createBinary(BinaryOp.XorI64,\r\n module.createBinary(BinaryOp.AddI64,\r\n module.createTeeLocal(\r\n tempLocalIndex2,\r\n module.createBinary(BinaryOp.ShrI64,\r\n module.createTeeLocal(tempLocalIndex1, arg0),\r\n module.createI64(63)\r\n )\r\n ),\r\n module.createGetLocal(tempLocalIndex1, NativeType.I64)\r\n ),\r\n module.createGetLocal(tempLocalIndex2, NativeType.I64)\r\n );\r\n\r\n flow.freeTempLocal(tempLocal1);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n if (compiler.currentType.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n // fall-through\r\n }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.U64:\r\n case TypeKind.BOOL: {\r\n ret = arg0;\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n ret = module.createUnary(UnaryOp.AbsF32, arg0);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n ret = module.createUnary(UnaryOp.AbsF64, arg0);\r\n break;\r\n }\r\n case TypeKind.VOID: {\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n default: { // void\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return ret;\r\n }\r\n case BuiltinSymbols.max: { // max(left: T, right: T) -> T\r\n if (operands.length != 2) {\r\n if (typeArguments) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n if (typeArguments.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n }\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (typeArguments) {\r\n if (typeArguments.length != 1) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.WRAP);\r\n } else {\r\n arg0 = compiler.compileExpression(operands[0], Type.f64, ConversionKind.NONE, WrapMode.WRAP);\r\n }\r\n arg1 = compiler.compileExpression(operands[1], compiler.currentType, ConversionKind.IMPLICIT, WrapMode.WRAP);\r\n switch (compiler.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32: {\r\n let flow = compiler.currentFlow;\r\n let tempLocal0 = flow.getTempLocal(\r\n compiler.currentType,\r\n !flow.canOverflow(arg0, compiler.currentType)\r\n );\r\n let tempLocal1 = flow.getAndFreeTempLocal(\r\n compiler.currentType,\r\n !flow.canOverflow(arg1, compiler.currentType)\r\n );\r\n flow.freeTempLocal(tempLocal0);\r\n ret = module.createSelect(\r\n module.createTeeLocal(tempLocal0.index, arg0),\r\n module.createTeeLocal(tempLocal1.index, arg1),\r\n module.createBinary(BinaryOp.GtI32,\r\n module.createGetLocal(tempLocal0.index, NativeType.I32),\r\n module.createGetLocal(tempLocal1.index, NativeType.I32)\r\n )\r\n );\r\n break;\r\n }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n let flow = compiler.currentFlow;\r\n let tempLocal0 = flow.getTempLocal(\r\n compiler.currentType,\r\n !flow.canOverflow(arg0, compiler.currentType)\r\n );\r\n let tempLocal1 = flow.getAndFreeTempLocal(\r\n compiler.currentType,\r\n !flow.canOverflow(arg1, compiler.currentType)\r\n );\r\n flow.freeTempLocal(tempLocal0);\r\n ret = module.createSelect(\r\n module.createTeeLocal(tempLocal0.index, arg0),\r\n module.createTeeLocal(tempLocal1.index, arg1),\r\n module.createBinary(BinaryOp.GtU32,\r\n module.createGetLocal(tempLocal0.index, NativeType.I32),\r\n module.createGetLocal(tempLocal1.index, NativeType.I32)\r\n )\r\n );\r\n break;\r\n }\r\n case TypeKind.I64: {\r\n let flow = compiler.currentFlow;\r\n let tempLocal0 = flow.getTempLocal(Type.i64, false);\r\n let tempLocal1 = flow.getAndFreeTempLocal(Type.i64, false);\r\n flow.freeTempLocal(tempLocal0);\r\n ret = module.createSelect(\r\n module.createTeeLocal(tempLocal0.index, arg0),\r\n module.createTeeLocal(tempLocal1.index, arg1),\r\n module.createBinary(BinaryOp.GtI64,\r\n module.createGetLocal(tempLocal0.index, NativeType.I64),\r\n module.createGetLocal(tempLocal1.index, NativeType.I64)\r\n )\r\n );\r\n break;\r\n }\r\n case TypeKind.U64: {\r\n let flow = compiler.currentFlow;\r\n let tempLocal0 = flow.getTempLocal(Type.i64, false);\r\n let tempLocal1 = flow.getAndFreeTempLocal(Type.i64, false);\r\n flow.freeTempLocal(tempLocal0);\r\n ret = module.createSelect(\r\n module.createTeeLocal(tempLocal0.index, arg0),\r\n module.createTeeLocal(tempLocal1.index, arg1),\r\n module.createBinary(BinaryOp.GtU64,\r\n module.createGetLocal(tempLocal0.index, NativeType.I64),\r\n module.createGetLocal(tempLocal1.index, NativeType.I64)\r\n )\r\n );\r\n break;\r\n }\r\n case TypeKind.ISIZE: {\r\n let flow = compiler.currentFlow;\r\n let tempLocal0 = flow.getTempLocal(compiler.options.usizeType, false);\r\n let tempLocal1 = flow.getAndFreeTempLocal(compiler.options.usizeType, false);\r\n flow.freeTempLocal(tempLocal0);\r\n ret = module.createSelect(\r\n module.createTeeLocal(tempLocal0.index, arg0),\r\n module.createTeeLocal(tempLocal1.index, arg1),\r\n module.createBinary(\r\n compiler.options.isWasm64\r\n ? BinaryOp.GtI64\r\n : BinaryOp.GtI32,\r\n module.createGetLocal(tempLocal0.index, compiler.options.nativeSizeType),\r\n module.createGetLocal(tempLocal1.index, compiler.options.nativeSizeType)\r\n )\r\n );\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n if (compiler.currentType.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n let flow = compiler.currentFlow;\r\n let tempLocal0 = flow.getTempLocal(compiler.options.usizeType, false);\r\n let tempLocal1 = flow.getAndFreeTempLocal(compiler.options.usizeType, false);\r\n flow.freeTempLocal(tempLocal0);\r\n ret = module.createSelect(\r\n module.createTeeLocal(tempLocal0.index, arg0),\r\n module.createTeeLocal(tempLocal1.index, arg1),\r\n module.createBinary(\r\n compiler.options.isWasm64\r\n ? BinaryOp.GtU64\r\n : BinaryOp.GtU32,\r\n module.createGetLocal(tempLocal0.index, compiler.options.nativeSizeType),\r\n module.createGetLocal(tempLocal1.index, compiler.options.nativeSizeType)\r\n )\r\n );\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n ret = module.createBinary(BinaryOp.MaxF32, arg0, arg1);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n ret = module.createBinary(BinaryOp.MaxF64, arg0, arg1);\r\n break;\r\n }\r\n default: { // void\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return ret;\r\n }\r\n case BuiltinSymbols.min: { // min(left: T, right: T) -> T\r\n if (operands.length != 2) {\r\n if (typeArguments) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n if (typeArguments.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n }\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (typeArguments) {\r\n if (typeArguments.length != 1) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.WRAP);\r\n } else {\r\n arg0 = compiler.compileExpression(operands[0], Type.f64, ConversionKind.NONE, WrapMode.WRAP);\r\n }\r\n arg1 = compiler.compileExpression(operands[1], compiler.currentType, ConversionKind.IMPLICIT, WrapMode.WRAP);\r\n switch (compiler.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32: {\r\n let flow = compiler.currentFlow;\r\n let tempLocal0 = flow.getTempLocal(\r\n compiler.currentType,\r\n !flow.canOverflow(arg0, compiler.currentType)\r\n );\r\n let tempLocal1 = flow.getAndFreeTempLocal(\r\n compiler.currentType,\r\n !flow.canOverflow(arg1, compiler.currentType)\r\n );\r\n flow.freeTempLocal(tempLocal0);\r\n ret = module.createSelect(\r\n module.createTeeLocal(tempLocal0.index, arg0),\r\n module.createTeeLocal(tempLocal1.index, arg1),\r\n module.createBinary(BinaryOp.LtI32,\r\n module.createGetLocal(tempLocal0.index, NativeType.I32),\r\n module.createGetLocal(tempLocal1.index, NativeType.I32)\r\n )\r\n );\r\n break;\r\n }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n let flow = compiler.currentFlow;\r\n let tempLocal0 = flow.getTempLocal(\r\n compiler.currentType,\r\n !flow.canOverflow(arg0, compiler.currentType)\r\n );\r\n let tempLocal1 = flow.getAndFreeTempLocal(\r\n compiler.currentType,\r\n !flow.canOverflow(arg1, compiler.currentType)\r\n );\r\n flow.freeTempLocal(tempLocal0);\r\n ret = module.createSelect(\r\n module.createTeeLocal(tempLocal0.index, arg0),\r\n module.createTeeLocal(tempLocal1.index, arg1),\r\n module.createBinary(BinaryOp.LtU32,\r\n module.createGetLocal(tempLocal0.index, NativeType.I32),\r\n module.createGetLocal(tempLocal1.index, NativeType.I32)\r\n )\r\n );\r\n break;\r\n }\r\n case TypeKind.I64: {\r\n let flow = compiler.currentFlow;\r\n let tempLocal0 = flow.getTempLocal(Type.i64, false);\r\n let tempLocal1 = flow.getAndFreeTempLocal(Type.i64, false);\r\n flow.freeTempLocal(tempLocal0);\r\n ret = module.createSelect(\r\n module.createTeeLocal(tempLocal0.index, arg0),\r\n module.createTeeLocal(tempLocal1.index, arg1),\r\n module.createBinary(BinaryOp.LtI64,\r\n module.createGetLocal(tempLocal0.index, NativeType.I64),\r\n module.createGetLocal(tempLocal1.index, NativeType.I64)\r\n )\r\n );\r\n break;\r\n }\r\n case TypeKind.U64: {\r\n let flow = compiler.currentFlow;\r\n let tempLocal0 = flow.getTempLocal(Type.i64, false);\r\n let tempLocal1 = flow.getAndFreeTempLocal(Type.i64, false);\r\n flow.freeTempLocal(tempLocal0);\r\n ret = module.createSelect(\r\n module.createTeeLocal(tempLocal0.index, arg0),\r\n module.createTeeLocal(tempLocal1.index, arg1),\r\n module.createBinary(BinaryOp.LtU64,\r\n module.createGetLocal(tempLocal0.index, NativeType.I64),\r\n module.createGetLocal(tempLocal1.index, NativeType.I64)\r\n )\r\n );\r\n break;\r\n }\r\n case TypeKind.ISIZE: {\r\n let flow = compiler.currentFlow;\r\n let tempLocal0 = flow.getTempLocal(compiler.options.usizeType, false);\r\n let tempLocal1 = flow.getAndFreeTempLocal(compiler.options.usizeType, false);\r\n flow.freeTempLocal(tempLocal0);\r\n ret = module.createSelect(\r\n module.createTeeLocal(tempLocal0.index, arg0),\r\n module.createTeeLocal(tempLocal1.index, arg1),\r\n module.createBinary(\r\n compiler.options.isWasm64\r\n ? BinaryOp.LtI64\r\n : BinaryOp.LtI32,\r\n module.createGetLocal(tempLocal0.index, compiler.options.nativeSizeType),\r\n module.createGetLocal(tempLocal1.index, compiler.options.nativeSizeType)\r\n )\r\n );\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n if (compiler.currentType.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n let flow = compiler.currentFlow;\r\n let tempLocal0 = flow.getTempLocal(compiler.options.usizeType, false);\r\n let tempLocal1 = flow.getAndFreeTempLocal(compiler.options.usizeType, false);\r\n flow.freeTempLocal(tempLocal0);\r\n ret = module.createSelect(\r\n module.createTeeLocal(tempLocal0.index, arg0),\r\n module.createTeeLocal(tempLocal1.index, arg1),\r\n module.createBinary(\r\n compiler.options.isWasm64\r\n ? BinaryOp.LtU64\r\n : BinaryOp.LtU32,\r\n module.createGetLocal(tempLocal0.index, compiler.options.nativeSizeType),\r\n module.createGetLocal(tempLocal1.index, compiler.options.nativeSizeType)\r\n )\r\n );\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n ret = module.createBinary(BinaryOp.MinF32, arg0, arg1);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n ret = module.createBinary(BinaryOp.MinF64, arg0, arg1);\r\n break;\r\n }\r\n default: { // void\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return ret;\r\n }\r\n case BuiltinSymbols.ceil: { // ceil(value: T) -> T\r\n if (operands.length != 1) {\r\n if (typeArguments) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n if (typeArguments.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n }\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (typeArguments) {\r\n if (typeArguments.length != 1) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.NONE);\r\n } else {\r\n arg0 = compiler.compileExpression(operands[0], Type.f64, ConversionKind.NONE, WrapMode.NONE);\r\n }\r\n switch (compiler.currentType.kind) {\r\n case TypeKind.USIZE: {\r\n if (compiler.currentType.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n // fall-through\r\n }\r\n default: { // any integer\r\n ret = arg0;\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n ret = module.createUnary(UnaryOp.CeilF32, arg0);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n ret = module.createUnary(UnaryOp.CeilF64, arg0);\r\n break;\r\n }\r\n case TypeKind.VOID: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return ret;\r\n }\r\n case BuiltinSymbols.floor: { // floor(value: T) -> T\r\n if (operands.length != 1) {\r\n if (typeArguments) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n if (typeArguments.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n }\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (typeArguments) {\r\n if (typeArguments.length != 1) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.NONE);\r\n } else {\r\n arg0 = compiler.compileExpression(operands[0], Type.f64, ConversionKind.NONE, WrapMode.NONE);\r\n }\r\n switch (compiler.currentType.kind) {\r\n case TypeKind.USIZE: {\r\n if (compiler.currentType.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n // fall-through\r\n }\r\n default: { // any integer\r\n ret = arg0;\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n ret = module.createUnary(UnaryOp.FloorF32, arg0);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n ret = module.createUnary(UnaryOp.FloorF64, arg0);\r\n break;\r\n }\r\n case TypeKind.VOID: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return ret;\r\n }\r\n case BuiltinSymbols.copysign: { // copysign(left: T, right: T) -> T\r\n if (operands.length != 2) {\r\n if (typeArguments) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n if (typeArguments.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n }\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (typeArguments) {\r\n if (typeArguments.length != 1) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.NONE);\r\n } else {\r\n arg0 = compiler.compileExpression(operands[0], Type.f64, ConversionKind.NONE, WrapMode.NONE);\r\n }\r\n arg1 = compiler.compileExpression(operands[1], compiler.currentType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n switch (compiler.currentType.kind) { // TODO: does an integer version make sense?\r\n case TypeKind.F32: {\r\n ret = module.createBinary(BinaryOp.CopysignF32, arg0, arg1);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n ret = module.createBinary(BinaryOp.CopysignF64, arg0, arg1);\r\n break;\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return ret;\r\n }\r\n case BuiltinSymbols.nearest: { // nearest(value: T) -> T\r\n if (operands.length != 1) {\r\n if (typeArguments) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n if (typeArguments.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n }\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (typeArguments) {\r\n if (typeArguments.length != 1) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.NONE);\r\n } else {\r\n arg0 = compiler.compileExpression(operands[0], Type.f64, ConversionKind.NONE, WrapMode.NONE);\r\n }\r\n switch (compiler.currentType.kind) {\r\n case TypeKind.USIZE: {\r\n if (compiler.currentType.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n // fall-through\r\n }\r\n default: { // any integer\r\n ret = arg0;\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n ret = module.createUnary(UnaryOp.NearestF32, arg0);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n ret = module.createUnary(UnaryOp.NearestF64, arg0);\r\n break;\r\n }\r\n case TypeKind.VOID: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return ret;\r\n }\r\n case BuiltinSymbols.reinterpret: { // reinterpret(value: *) -> T\r\n if (operands.length != 1) {\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n if (typeArguments && typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n if (typeArguments && typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n switch (typeArguments[0].kind) {\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n arg0 = compiler.compileExpression(operands[0], Type.f32, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n ret = module.createUnary(UnaryOp.ReinterpretF32, arg0);\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n arg0 = compiler.compileExpression(operands[0], Type.f64, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n ret = module.createUnary(UnaryOp.ReinterpretF64, arg0);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n if (typeArguments[0].is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n compiler.currentType = typeArguments[0];\r\n return module.createUnreachable();\r\n }\r\n // fall-through\r\n }\r\n case TypeKind.ISIZE: {\r\n arg0 = compiler.compileExpression(\r\n operands[0],\r\n compiler.options.isWasm64\r\n ? Type.f64\r\n : Type.f32,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n ret = module.createUnary(\r\n compiler.options.isWasm64\r\n ? UnaryOp.ReinterpretF64\r\n : UnaryOp.ReinterpretF32,\r\n arg0\r\n );\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n arg0 = compiler.compileExpression(operands[0], Type.i32, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n ret = module.createUnary(UnaryOp.ReinterpretI32, arg0);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n arg0 = compiler.compileExpression(operands[0], Type.i64, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n ret = module.createUnary(UnaryOp.ReinterpretI64, arg0);\r\n break;\r\n }\r\n default: { // small integers and void\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n compiler.currentType = typeArguments[0];\r\n return ret;\r\n }\r\n case BuiltinSymbols.sqrt: { // sqrt(value: T) -> T\r\n if (operands.length != 1) {\r\n if (typeArguments) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n if (typeArguments.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n }\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (typeArguments) {\r\n if (typeArguments.length != 1) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.NONE);\r\n } else {\r\n arg0 = compiler.compileExpression(operands[0], Type.f64, ConversionKind.NONE, WrapMode.NONE);\r\n }\r\n switch (compiler.currentType.kind) { // TODO: integer versions (that return f64 or convert)?\r\n case TypeKind.F32: {\r\n ret = module.createUnary(UnaryOp.SqrtF32, arg0);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n ret = module.createUnary(UnaryOp.SqrtF64, arg0);\r\n break;\r\n }\r\n // case TypeKind.VOID:\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return ret;\r\n }\r\n case BuiltinSymbols.trunc: { // trunc(value: T) -> T\r\n if (operands.length != 1) {\r\n if (typeArguments) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n if (typeArguments.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n }\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (typeArguments && typeArguments.length) {\r\n compiler.currentType = typeArguments[0];\r\n if (typeArguments.length != 1) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.NONE);\r\n } else {\r\n arg0 = compiler.compileExpression(operands[0], Type.f64, ConversionKind.NONE, WrapMode.NONE);\r\n }\r\n switch (compiler.currentType.kind) {\r\n case TypeKind.USIZE: {\r\n if (compiler.currentType.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n // fall-through\r\n }\r\n default: { // any integer\r\n ret = arg0;\r\n break;\r\n }\r\n // TODO: truncate to contextual type directly (if not void etc.)?\r\n case TypeKind.F32: {\r\n ret = module.createUnary(UnaryOp.TruncF32, arg0);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n ret = module.createUnary(UnaryOp.TruncF64, arg0);\r\n break;\r\n }\r\n case TypeKind.VOID: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return ret;\r\n }\r\n\r\n // memory access\r\n\r\n case BuiltinSymbols.load: { // load(offset: usize, offset?: usize, align?: usize) -> *\r\n if (operands.length < 1 || operands.length > 3) {\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n }\r\n if (operands.length < 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_at_least_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n } else {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"3\", operands.length.toString(10)\r\n );\r\n }\r\n return module.createUnreachable();\r\n }\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n if (typeArguments && typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(\r\n operands[0],\r\n compiler.options.usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let offset = operands.length >= 2 ? evaluateImmediateOffset(compiler, operands[1]) : 0; // reports\r\n if (offset < 0) return module.createUnreachable();\r\n let align: i32;\r\n let naturalAlign = typeArguments[0].byteSize;\r\n if (operands.length == 3) {\r\n align = evaluateImmediateOffset(compiler, operands[2]);\r\n if (align < 0) return module.createUnreachable();\r\n if (align > naturalAlign) {\r\n compiler.error(\r\n DiagnosticCode._0_must_be_a_value_between_1_and_2_inclusive,\r\n operands[2].range, \"Alignment\", \"0\", naturalAlign.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (!isPowerOf2(align)) {\r\n compiler.error(\r\n DiagnosticCode._0_must_be_a_power_of_two,\r\n operands[2].range, \"Alignment\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n } else {\r\n align = naturalAlign;\r\n }\r\n compiler.currentType = typeArguments[0];\r\n return module.createLoad(\r\n typeArguments[0].byteSize,\r\n typeArguments[0].is(TypeFlags.SIGNED | TypeFlags.INTEGER),\r\n arg0,\r\n typeArguments[0].is(TypeFlags.INTEGER) &&\r\n contextualType.is(TypeFlags.INTEGER) &&\r\n contextualType.size > typeArguments[0].size\r\n ? (compiler.currentType = contextualType).toNativeType()\r\n : (compiler.currentType = typeArguments[0]).toNativeType(),\r\n offset,\r\n align\r\n );\r\n }\r\n case BuiltinSymbols.store: { // store(offset: usize, value: *, offset?: usize, align?: usize) -> void\r\n compiler.currentType = Type.void;\r\n if (operands.length < 2 || operands.length > 4) {\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n }\r\n if (operands.length < 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_at_least_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n } else {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"4\", operands.length.toString(10)\r\n );\r\n }\r\n return module.createUnreachable();\r\n }\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(\r\n operands[0],\r\n compiler.options.usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n arg1 = compiler.compileExpression(\r\n operands[1],\r\n typeArguments[0],\r\n typeArguments[0].is(TypeFlags.INTEGER)\r\n ? ConversionKind.NONE // no need to convert to small int (but now might result in a float)\r\n : ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let type: Type;\r\n if (\r\n typeArguments[0].is(TypeFlags.INTEGER) &&\r\n (\r\n !compiler.currentType.is(TypeFlags.INTEGER) || // float to int\r\n compiler.currentType.size < typeArguments[0].size // int to larger int (clear garbage bits)\r\n )\r\n ) {\r\n arg1 = compiler.convertExpression(\r\n arg1,\r\n compiler.currentType, typeArguments[0],\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE, // still clears garbage bits\r\n operands[1]\r\n );\r\n type = typeArguments[0];\r\n } else {\r\n type = compiler.currentType;\r\n }\r\n let offset = operands.length >= 3 ? evaluateImmediateOffset(compiler, operands[2]) : 0; // reports\r\n if (offset < 0) return module.createUnreachable();\r\n let align: i32;\r\n let naturalAlign = typeArguments[0].byteSize;\r\n if (operands.length == 4) {\r\n align = evaluateImmediateOffset(compiler, operands[3]);\r\n if (align < 0) return module.createUnreachable();\r\n if (align > naturalAlign) {\r\n compiler.error(\r\n DiagnosticCode._0_must_be_a_value_between_1_and_2_inclusive,\r\n operands[3].range, \"Alignment\", \"0\", naturalAlign.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (!isPowerOf2(align)) {\r\n compiler.error(\r\n DiagnosticCode._0_must_be_a_power_of_two,\r\n operands[3].range, \"Alignment\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n } else {\r\n align = naturalAlign;\r\n }\r\n compiler.currentType = Type.void;\r\n return module.createStore(typeArguments[0].byteSize, arg0, arg1, type.toNativeType(), offset, align);\r\n }\r\n case BuiltinSymbols.atomic_load: {\r\n if (!compiler.options.hasFeature(Feature.THREADS)) break;\r\n if (operands.length < 1 || operands.length > 2) {\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n }\r\n if (operands.length < 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_at_least_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n } else {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n }\r\n return module.createUnreachable();\r\n }\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n if (typeArguments && typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(\r\n operands[0],\r\n compiler.options.usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let offset = operands.length == 2 ? evaluateImmediateOffset(compiler, operands[1]) : 0; // reports\r\n if (offset < 0) { // reported in evaluateImmediateOffset\r\n return module.createUnreachable();\r\n }\r\n compiler.currentType = typeArguments[0];\r\n return module.createAtomicLoad(\r\n typeArguments[0].byteSize,\r\n arg0,\r\n typeArguments[0].is(TypeFlags.INTEGER) &&\r\n contextualType.is(TypeFlags.INTEGER) &&\r\n contextualType.size > typeArguments[0].size\r\n ? (compiler.currentType = contextualType).toNativeType()\r\n : (compiler.currentType = typeArguments[0]).toNativeType(),\r\n offset\r\n );\r\n }\r\n case BuiltinSymbols.atomic_store: { // store(offset: usize, value: *, immOffset?, immAlign?) -> void\r\n if (!compiler.options.hasFeature(Feature.THREADS)) break;\r\n compiler.currentType = Type.void;\r\n if (operands.length < 2 || operands.length > 3) {\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n }\r\n if (operands.length < 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_at_least_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n } else {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"3\", operands.length.toString(10)\r\n );\r\n }\r\n return module.createUnreachable();\r\n }\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(\r\n operands[0],\r\n compiler.options.usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n arg1 = compiler.compileExpression(\r\n operands[1],\r\n typeArguments[0],\r\n typeArguments[0].is(TypeFlags.INTEGER)\r\n ? ConversionKind.NONE // no need to convert to small int (but now might result in a float)\r\n : ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let type: Type;\r\n if (\r\n typeArguments[0].is(TypeFlags.INTEGER) &&\r\n (\r\n !compiler.currentType.is(TypeFlags.INTEGER) || // float to int\r\n compiler.currentType.size < typeArguments[0].size // int to larger int (clear garbage bits)\r\n )\r\n ) {\r\n arg1 = compiler.convertExpression(\r\n arg1,\r\n compiler.currentType, typeArguments[0],\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE, // still clears garbage bits\r\n operands[1]\r\n );\r\n type = typeArguments[0];\r\n } else {\r\n type = compiler.currentType;\r\n }\r\n let offset = operands.length == 3 ? evaluateImmediateOffset(compiler, operands[2]) : 0; // reports\r\n if (offset < 0) return module.createUnreachable();\r\n compiler.currentType = Type.void;\r\n return module.createAtomicStore(typeArguments[0].byteSize, arg0, arg1, type.toNativeType(), offset);\r\n }\r\n case BuiltinSymbols.atomic_add: // add(ptr, value: T, immOffset?: usize): T;\r\n case BuiltinSymbols.atomic_sub: // sub(ptr, value: T, immOffset?: usize): T;\r\n case BuiltinSymbols.atomic_and: // and(ptr, value: T, immOffset?: usize): T;\r\n case BuiltinSymbols.atomic_or: // or(ptr, value: T, immOffset?: usize): T;\r\n case BuiltinSymbols.atomic_xor: // xor(ptr, value: T, immOffset?: usize): T;\r\n case BuiltinSymbols.atomic_xchg: // xchg(ptr, value, immOffset?: usize): T;\r\n {\r\n if (!compiler.options.hasFeature(Feature.THREADS)) break;\r\n if (operands.length < 2 || operands.length > 3) {\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n }\r\n if (operands.length < 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_at_least_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n } else {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"3\", operands.length.toString(10)\r\n );\r\n }\r\n return module.createUnreachable();\r\n }\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(\r\n operands[0],\r\n compiler.options.usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n arg1 = compiler.compileExpression(\r\n operands[1],\r\n typeArguments[0],\r\n typeArguments[0].is(TypeFlags.INTEGER)\r\n ? ConversionKind.NONE // no need to convert to small int (but now might result in a float)\r\n : ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n\r\n let type: Type;\r\n if (\r\n typeArguments[0].is(TypeFlags.INTEGER) &&\r\n (\r\n !compiler.currentType.is(TypeFlags.INTEGER) || // float to int\r\n compiler.currentType.size < typeArguments[0].size // int to larger int (clear garbage bits)\r\n )\r\n ) {\r\n arg1 = compiler.convertExpression(\r\n arg1,\r\n compiler.currentType, typeArguments[0],\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE, // still clears garbage bits\r\n operands[1]\r\n );\r\n type = typeArguments[0];\r\n } else {\r\n type = compiler.currentType;\r\n }\r\n\r\n let offset = operands.length == 3 ? evaluateImmediateOffset(compiler, operands[2]) : 0; // reports\r\n if (offset < 0) return module.createUnreachable();\r\n let RMWOp: AtomicRMWOp | null = null;\r\n switch (prototype.internalName) {\r\n case BuiltinSymbols.atomic_add: { RMWOp = AtomicRMWOp.Add; break; }\r\n case BuiltinSymbols.atomic_sub: { RMWOp = AtomicRMWOp.Sub; break; }\r\n case BuiltinSymbols.atomic_and: { RMWOp = AtomicRMWOp.And; break; }\r\n case BuiltinSymbols.atomic_or: { RMWOp = AtomicRMWOp.Or; break; }\r\n case BuiltinSymbols.atomic_xor: { RMWOp = AtomicRMWOp.Xor; break; }\r\n case BuiltinSymbols.atomic_xchg: { RMWOp = AtomicRMWOp.Xchg; break; }\r\n }\r\n compiler.currentType = typeArguments[0];\r\n if (RMWOp !== null) {\r\n return module.createAtomicRMW(\r\n RMWOp, typeArguments[0].byteSize, offset, arg0, arg1, type.toNativeType()\r\n );\r\n } else {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n case BuiltinSymbols.atomic_cmpxchg: { // cmpxchg(ptr: usize, expected: T, replacement: T, cOff?: usize): T\r\n if (!compiler.options.hasFeature(Feature.THREADS)) break;\r\n if (operands.length < 3 || operands.length > 4) {\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n }\r\n if (operands.length < 3) {\r\n compiler.error(\r\n DiagnosticCode.Expected_at_least_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n } else {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"3\", operands.length.toString(10)\r\n );\r\n }\r\n return module.createUnreachable();\r\n }\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(\r\n operands[0],\r\n compiler.options.usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n arg1 = compiler.compileExpression(\r\n operands[1],\r\n typeArguments[0],\r\n typeArguments[0].is(TypeFlags.INTEGER)\r\n ? ConversionKind.NONE // no need to convert to small int (but now might result in a float)\r\n : ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n arg2 = compiler.compileExpression(\r\n operands[2],\r\n typeArguments[0],\r\n typeArguments[0].is(TypeFlags.INTEGER)\r\n ? ConversionKind.NONE // no need to convert to small int (but now might result in a float)\r\n : ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n\r\n let type: Type;\r\n if (\r\n typeArguments[0].is(TypeFlags.INTEGER) &&\r\n (\r\n !compiler.currentType.is(TypeFlags.INTEGER) || // float to int\r\n compiler.currentType.size < typeArguments[0].size // int to larger int (clear garbage bits)\r\n )\r\n ) {\r\n arg1 = compiler.convertExpression(\r\n arg1,\r\n compiler.currentType, typeArguments[0],\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE, // still clears garbage bits\r\n operands[1]\r\n );\r\n arg2 = compiler.convertExpression(\r\n arg2,\r\n compiler.currentType, typeArguments[0],\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE, // still clears garbage bits\r\n operands[2]\r\n );\r\n type = typeArguments[0];\r\n } else {\r\n type = compiler.currentType;\r\n }\r\n\r\n let offset = operands.length == 4 ? evaluateImmediateOffset(compiler, operands[3]) : 0; // reports\r\n if (offset < 0) return module.createUnreachable();\r\n compiler.currentType = typeArguments[0];\r\n return module.createAtomicCmpxchg(\r\n typeArguments[0].byteSize, offset, arg0, arg1, arg2, type.toNativeType()\r\n );\r\n }\r\n case BuiltinSymbols.atomic_wait: { // wait(ptr: usize, expected:T, timeout: i64): i32;\r\n if (!compiler.options.hasFeature(Feature.THREADS)) break;\r\n let hasError = typeArguments == null;\r\n if (operands.length != 3) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"3\", operands.length.toString(10)\r\n );\r\n hasError = true;\r\n }\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n hasError = true;\r\n }\r\n\r\n if (!typeArguments || hasError) {\r\n return module.createUnreachable();\r\n }\r\n\r\n arg0 = compiler.compileExpression(\r\n operands[0],\r\n compiler.options.usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n arg1 = compiler.compileExpression(\r\n operands[1],\r\n typeArguments[0],\r\n typeArguments[0].is(TypeFlags.INTEGER)\r\n ? ConversionKind.NONE // no need to convert to small int (but now might result in a float)\r\n : ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n arg2 = compiler.compileExpression(\r\n operands[2],\r\n Type.i64,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n\r\n let type: Type = typeArguments[0];\r\n if (\r\n typeArguments[0].is(TypeFlags.INTEGER) &&\r\n (\r\n !compiler.currentType.is(TypeFlags.INTEGER) || // float to int\r\n compiler.currentType.size < typeArguments[0].size // int to larger int (clear garbage bits)\r\n )\r\n ) {\r\n arg1 = compiler.convertExpression(\r\n arg1,\r\n compiler.currentType, typeArguments[0],\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE, // still clears garbage bits\r\n operands[1]\r\n );\r\n arg2 = compiler.convertExpression(\r\n arg2,\r\n compiler.currentType, typeArguments[0],\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE, // still clears garbage bits\r\n operands[2]\r\n );\r\n }\r\n\r\n return module.createAtomicWait(\r\n arg0, arg1, arg2, type.toNativeType()\r\n );\r\n }\r\n case BuiltinSymbols.atomic_notify: { // notify(ptr: usize, count: u32): u32;\r\n if (!compiler.options.hasFeature(Feature.THREADS)) break;\r\n let hasError = typeArguments == null;\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n hasError = true;\r\n }\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n hasError = true;\r\n }\r\n\r\n if (!typeArguments || hasError) {\r\n return module.createUnreachable();\r\n }\r\n\r\n arg0 = compiler.compileExpression(\r\n operands[0],\r\n compiler.options.usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n arg1 = compiler.compileExpression(\r\n operands[1],\r\n Type.i32,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n\r\n return module.createAtomicWake(\r\n arg0, arg1\r\n );\r\n }\r\n case BuiltinSymbols.sizeof: { // sizeof() -> usize\r\n compiler.currentType = compiler.options.usizeType;\r\n if (operands.length != 0) {\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"0\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n }\r\n let byteSize = (typeArguments)[0].byteSize;\r\n if (compiler.options.isWasm64) {\r\n // implicitly wrap if contextual type is a 32-bit integer\r\n if (contextualType.is(TypeFlags.INTEGER) && contextualType.size <= 32) {\r\n compiler.currentType = Type.u32;\r\n ret = module.createI32(byteSize);\r\n } else {\r\n ret = module.createI64(byteSize, 0);\r\n }\r\n } else {\r\n // implicitly extend if contextual type is a 64-bit integer\r\n if (contextualType.is(TypeFlags.INTEGER) && contextualType.size == 64) {\r\n compiler.currentType = Type.u64;\r\n ret = module.createI64(byteSize, 0);\r\n } else {\r\n ret = module.createI32(byteSize);\r\n }\r\n }\r\n return ret;\r\n }\r\n case BuiltinSymbols.alignof: { // alignof() -> usize\r\n compiler.currentType = compiler.options.usizeType;\r\n if (operands.length != 0) {\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"0\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n let byteSize = (typeArguments)[0].byteSize;\r\n let alignLog2: i32;\r\n switch (byteSize) {\r\n case 1: { alignLog2 = 0; break; }\r\n case 2: { alignLog2 = 1; break; }\r\n case 4: { alignLog2 = 2; break; }\r\n case 8: { alignLog2 = 3; break; }\r\n default: { assert(false, \"unexected byte size\"); return module.createUnreachable(); }\r\n }\r\n if (compiler.options.isWasm64) {\r\n // implicitly wrap if contextual type is a 32-bit integer\r\n if (contextualType.is(TypeFlags.INTEGER) && contextualType.size <= 32) {\r\n compiler.currentType = Type.u32;\r\n ret = module.createI32(alignLog2);\r\n } else {\r\n ret = module.createI64(alignLog2, 0);\r\n }\r\n } else {\r\n // implicitly extend if contextual type is a 64-bit integer\r\n if (contextualType.is(TypeFlags.INTEGER) && contextualType.size == 64) {\r\n compiler.currentType = Type.u64;\r\n ret = module.createI64(alignLog2, 0);\r\n } else {\r\n ret = module.createI32(alignLog2);\r\n }\r\n }\r\n return ret;\r\n }\r\n case BuiltinSymbols.offsetof: { // offsetof(fieldName?: string) -> usize\r\n compiler.currentType = compiler.options.usizeType;\r\n if (operands.length > 1) {\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n let classType = typeArguments[0].classReference;\r\n if (!classType) {\r\n compiler.error( // TODO: better error\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let offset: i32;\r\n if (operands.length) {\r\n if (\r\n operands[0].kind != NodeKind.LITERAL ||\r\n (operands[0]).literalKind != LiteralKind.STRING\r\n ) {\r\n compiler.error(\r\n DiagnosticCode.String_literal_expected,\r\n operands[0].range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let fieldName = (operands[0]).value;\r\n let field = classType.members ? classType.members.get(fieldName) : null;\r\n if (!(field && field.kind == ElementKind.FIELD)) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_has_no_property_1,\r\n operands[0].range, classType.internalName, fieldName\r\n );\r\n return module.createUnreachable();\r\n }\r\n offset = (field).memoryOffset;\r\n } else {\r\n offset = classType.currentMemoryOffset;\r\n }\r\n if (compiler.options.isWasm64) {\r\n // implicitly wrap if contextual type is a 32-bit integer\r\n if (contextualType.is(TypeFlags.INTEGER) && contextualType.size <= 32) {\r\n compiler.currentType = Type.u32;\r\n return module.createI32(offset);\r\n } else {\r\n return module.createI64(offset);\r\n }\r\n } else {\r\n // implicitly extend if contextual type is a 64-bit integer\r\n if (contextualType.is(TypeFlags.INTEGER) && contextualType.size == 64) {\r\n compiler.currentType = Type.u64;\r\n return module.createI64(offset);\r\n } else {\r\n return module.createI32(offset);\r\n }\r\n }\r\n }\r\n\r\n // control flow\r\n\r\n case BuiltinSymbols.select: { // select(ifTrue: T, ifFalse: T, condition: bool) -> T\r\n if (operands.length != 3) {\r\n if (typeArguments) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n if (typeArguments.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n }\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"3\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (typeArguments) {\r\n if (typeArguments.length != 1) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.NONE);\r\n } else {\r\n arg0 = compiler.compileExpressionRetainType(operands[0], Type.i32, WrapMode.NONE);\r\n }\r\n let type = compiler.currentType;\r\n arg1 = compiler.compileExpression(operands[1], type, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg2 = compiler.makeIsTrueish(\r\n compiler.compileExpressionRetainType(operands[2], Type.bool, WrapMode.NONE),\r\n compiler.currentType\r\n );\r\n compiler.currentType = type;\r\n switch (compiler.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL:\r\n default: {\r\n ret = module.createSelect(arg0, arg1, arg2);\r\n break;\r\n }\r\n case TypeKind.VOID: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return ret;\r\n }\r\n case BuiltinSymbols.unreachable: { // unreachable() -> *\r\n if (operands.length != 0) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"0\", operands.length.toString(10)\r\n );\r\n }\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n return module.createUnreachable();\r\n }\r\n\r\n // host operations\r\n\r\n case BuiltinSymbols.memory_size: { // memory.size() -> i32\r\n compiler.currentType = Type.i32;\r\n if (operands.length != 0) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"0\", operands.length.toString(10)\r\n );\r\n }\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n return module.createHost(HostOp.CurrentMemory);\r\n }\r\n case BuiltinSymbols.memory_grow: { // memory.grow(pages: i32) -> i32\r\n compiler.currentType = Type.i32;\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"0\", operands.length.toString(10)\r\n );\r\n arg0 = module.createUnreachable();\r\n } else {\r\n arg0 = compiler.compileExpression(operands[0], Type.i32, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n }\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n return module.createHost(HostOp.GrowMemory, null, [ arg0 ]);\r\n }\r\n // see: https://github.com/WebAssembly/bulk-memory-operations\r\n case BuiltinSymbols.memory_copy: { // memory.copy(dest: usize, src: usize: n: usize) -> void\r\n if (!compiler.options.hasFeature(Feature.BULK_MEMORY)) {\r\n let instance = compiler.resolver.resolveFunction(prototype, null); // reports\r\n compiler.currentType = Type.void;\r\n if (!instance) return module.createUnreachable();\r\n return compiler.compileCallDirect(instance, operands, reportNode);\r\n }\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 3) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"3\", operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.void;\r\n return module.createUnreachable();\r\n }\r\n let usizeType = compiler.options.usizeType;\r\n arg0 = compiler.compileExpression(\r\n operands[0],\r\n usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n arg1 = compiler.compileExpression(\r\n operands[1],\r\n usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n arg2 = compiler.compileExpression(\r\n operands[2],\r\n usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n compiler.currentType = Type.void;\r\n return module.createMemoryCopy(arg0, arg1, arg2);\r\n }\r\n case BuiltinSymbols.memory_fill: { // memory.fill(dest: usize, value: u8, n: usize) -> void\r\n if (!compiler.options.hasFeature(Feature.BULK_MEMORY)) {\r\n let instance = compiler.resolver.resolveFunction(prototype, null); // reports\r\n compiler.currentType = Type.void;\r\n if (!instance) return module.createUnreachable();\r\n return compiler.compileCallDirect(instance, operands, reportNode);\r\n }\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 3) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"3\", operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.void;\r\n return module.createUnreachable();\r\n }\r\n let usizeType = compiler.options.usizeType;\r\n arg0 = compiler.compileExpression(\r\n operands[0],\r\n usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n arg1 = compiler.compileExpression(\r\n operands[1],\r\n Type.u32,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n arg2 = compiler.compileExpression(\r\n operands[2],\r\n usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n compiler.currentType = Type.void;\r\n return module.createMemoryFill(arg0, arg1, arg2);\r\n }\r\n\r\n // other\r\n\r\n case BuiltinSymbols.changetype: { // changetype(value: *) -> T\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n if (typeArguments && typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n compiler.currentType = typeArguments[0];\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpressionRetainType(\r\n operands[0],\r\n typeArguments[0],\r\n WrapMode.NONE\r\n );\r\n compiler.currentType = typeArguments[0];\r\n if (compiler.currentType.size != typeArguments[0].size) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n // if (reportNode.range.source.sourceKind != SourceKind.STDLIB)\r\n // compiler.warning(DiagnosticCode.Operation_is_unsafe, reportNode.range);\r\n return arg0; // any usize to any usize\r\n }\r\n case BuiltinSymbols.assert: { // assert(isTrueish: T, message?: string) -> T with T != null\r\n if (operands.length < 1 || operands.length > 2) {\r\n if (typeArguments) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0].nonNullableType;\r\n if (typeArguments.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n }\r\n }\r\n if (operands.length < 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_at_least_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n } else if (operands.length > 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n }\r\n return module.createUnreachable();\r\n }\r\n if (typeArguments) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0].nonNullableType;\r\n if (typeArguments.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.WRAP);\r\n } else {\r\n arg0 = compiler.compileExpressionRetainType(operands[0], Type.bool, WrapMode.WRAP);\r\n }\r\n\r\n let type = compiler.currentType;\r\n compiler.currentType = type.nonNullableType;\r\n\r\n // just return ifTrueish if assertions are disabled, or simplify if dropped anyway\r\n if (compiler.options.noAssert) {\r\n if (contextualType == Type.void) {\r\n compiler.currentType = Type.void;\r\n return module.createNop();\r\n }\r\n return arg0;\r\n }\r\n\r\n let abort = compileAbort(compiler, operands.length == 2 ? operands[1] : null, reportNode);\r\n\r\n compiler.currentType = type.nonNullableType;\r\n\r\n if (contextualType == Type.void) { // simplify if dropped anyway\r\n switch (compiler.currentType.kind) {\r\n default: { // any integer up to 32-bits incl. bool\r\n ret = module.createIf(\r\n module.createUnary(UnaryOp.EqzI32,\r\n arg0\r\n ),\r\n abort\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n ret = module.createIf(\r\n module.createUnary(UnaryOp.EqzI64,\r\n arg0\r\n ),\r\n abort\r\n );\r\n break;\r\n }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n ret = module.createIf(\r\n module.createUnary(\r\n compiler.options.isWasm64\r\n ? UnaryOp.EqzI64\r\n : UnaryOp.EqzI32,\r\n arg0\r\n ),\r\n abort\r\n );\r\n break;\r\n }\r\n // TODO: also check for NaN in float assertions, as in `Boolean(NaN) -> false`?\r\n case TypeKind.F32: {\r\n ret = module.createIf(\r\n module.createBinary(BinaryOp.EqF32,\r\n arg0,\r\n module.createF32(0)\r\n ),\r\n abort\r\n );\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n ret = module.createIf(\r\n module.createBinary(BinaryOp.EqF64,\r\n arg0,\r\n module.createF64(0)\r\n ),\r\n abort\r\n );\r\n break;\r\n }\r\n case TypeKind.VOID: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = abort;\r\n break;\r\n }\r\n }\r\n compiler.currentType = Type.void;\r\n } else {\r\n switch (compiler.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n let flow = compiler.currentFlow;\r\n let tempLocal = flow.getAndFreeTempLocal(\r\n compiler.currentType,\r\n !flow.canOverflow(arg0, compiler.currentType)\r\n );\r\n ret = module.createIf(\r\n module.createTeeLocal(tempLocal.index, arg0),\r\n module.createGetLocal(tempLocal.index, NativeType.I32),\r\n abort\r\n );\r\n break;\r\n }\r\n case TypeKind.I32:\r\n case TypeKind.U32:\r\n default: {\r\n let tempLocal = compiler.currentFlow.getAndFreeTempLocal(Type.i32, false);\r\n ret = module.createIf(\r\n module.createTeeLocal(tempLocal.index, arg0),\r\n module.createGetLocal(tempLocal.index, NativeType.I32),\r\n abort\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n let tempLocal = compiler.currentFlow.getAndFreeTempLocal(Type.i64, false);\r\n ret = module.createIf(\r\n module.createUnary(UnaryOp.EqzI64,\r\n module.createTeeLocal(tempLocal.index, arg0)\r\n ),\r\n abort,\r\n module.createGetLocal(tempLocal.index, NativeType.I64)\r\n );\r\n break;\r\n }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n let tempLocal = compiler.currentFlow.getAndFreeTempLocal(compiler.options.usizeType, false);\r\n ret = module.createIf(\r\n module.createUnary(\r\n compiler.options.isWasm64\r\n ? UnaryOp.EqzI64\r\n : UnaryOp.EqzI32,\r\n module.createTeeLocal(tempLocal.index, arg0)\r\n ),\r\n abort,\r\n module.createGetLocal(tempLocal.index, compiler.options.nativeSizeType)\r\n );\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n let tempLocal = compiler.currentFlow.getAndFreeTempLocal(Type.f32, false);\r\n ret = module.createIf(\r\n module.createBinary(BinaryOp.EqF32,\r\n module.createTeeLocal(tempLocal.index, arg0),\r\n module.createF32(0)\r\n ),\r\n abort,\r\n module.createGetLocal(tempLocal.index, NativeType.F32)\r\n );\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n let tempLocal = compiler.currentFlow.getAndFreeTempLocal(Type.f64, false);\r\n ret = module.createIf(\r\n module.createBinary(BinaryOp.EqF64,\r\n module.createTeeLocal(tempLocal.index, arg0),\r\n module.createF64(0)\r\n ),\r\n abort,\r\n module.createGetLocal(tempLocal.index, NativeType.F64)\r\n );\r\n break;\r\n }\r\n case TypeKind.VOID: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n ret = abort;\r\n break;\r\n }\r\n }\r\n }\r\n return ret;\r\n }\r\n case BuiltinSymbols.unchecked: {\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let flow = compiler.currentFlow;\r\n let alreadyUnchecked = flow.is(FlowFlags.UNCHECKED_CONTEXT);\r\n flow.set(FlowFlags.UNCHECKED_CONTEXT);\r\n ret = compiler.compileExpressionRetainType(operands[0], contextualType, WrapMode.NONE);\r\n if (!alreadyUnchecked) flow.unset(FlowFlags.UNCHECKED_CONTEXT);\r\n return ret;\r\n }\r\n case BuiltinSymbols.call_indirect: { // call_indirect(target: Function | u32, ...args: *[]) -> T\r\n if (operands.length < 1) {\r\n if (typeArguments) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n if (typeArguments.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n }\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_at_least_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let returnType: Type;\r\n if (typeArguments) {\r\n if (typeArguments.length != 1) {\r\n if (typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n returnType = typeArguments[0];\r\n } else {\r\n returnType = contextualType;\r\n }\r\n arg0 = compiler.compileExpressionRetainType(operands[0], Type.u32, WrapMode.NONE);\r\n if (compiler.currentType.kind != TypeKind.U32) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n operands[0].range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let numOperands = operands.length - 1;\r\n let operandExprs = new Array(numOperands);\r\n let signatureParts = new Array(numOperands + 1);\r\n let nativeReturnType = returnType.toNativeType();\r\n let nativeParamTypes = new Array(numOperands);\r\n for (let i = 0; i < numOperands; ++i) {\r\n operandExprs[i] = compiler.compileExpressionRetainType(operands[1 + i], Type.i32, WrapMode.NONE);\r\n let operandType = compiler.currentType;\r\n signatureParts[i] = operandType.toSignatureString();\r\n nativeParamTypes[i] = operandType.toNativeType();\r\n }\r\n signatureParts[numOperands] = returnType.toSignatureString();\r\n let typeName = signatureParts.join(\"\");\r\n let typeRef = module.getFunctionTypeBySignature(nativeReturnType, nativeParamTypes);\r\n if (!typeRef) typeRef = module.addFunctionType(typeName, nativeReturnType, nativeParamTypes);\r\n compiler.currentType = returnType;\r\n // of course this can easily result in a 'RuntimeError: function signature mismatch' trap and\r\n // thus must be used with care. it exists because it *might* be useful in specific scenarios.\r\n return module.createCallIndirect(arg0, operandExprs, typeName);\r\n }\r\n case BuiltinSymbols.instantiate: {\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n if (typeArguments && typeArguments.length) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n let classInstance = typeArguments[0].classReference;\r\n if (!classInstance) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileInstantiate(classInstance, operands, reportNode);\r\n }\r\n\r\n // user-defined diagnostic macros\r\n\r\n case BuiltinSymbols.ERROR: {\r\n compiler.error(\r\n DiagnosticCode.User_defined_0,\r\n reportNode.range, (operands.length ? operands[0] : reportNode).range.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n case BuiltinSymbols.WARNING: {\r\n compiler.warning(\r\n DiagnosticCode.User_defined_0,\r\n reportNode.range, (operands.length ? operands[0] : reportNode).range.toString()\r\n );\r\n return module.createNop();\r\n }\r\n case BuiltinSymbols.INFO: {\r\n compiler.info(\r\n DiagnosticCode.User_defined_0,\r\n reportNode.range, (operands.length ? operands[0] : reportNode).range.toString()\r\n );\r\n return module.createNop();\r\n }\r\n\r\n // conversions\r\n\r\n case BuiltinSymbols.i8: {\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.i8;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(\r\n operands[0],\r\n Type.i8,\r\n ConversionKind.EXPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n case BuiltinSymbols.i16: {\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.i16;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(\r\n operands[0],\r\n Type.i16,\r\n ConversionKind.EXPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n case BuiltinSymbols.i32: {\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.i32;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(\r\n operands[0],\r\n Type.i32,\r\n ConversionKind.EXPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n case BuiltinSymbols.i64: {\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.i64;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(\r\n operands[0],\r\n Type.i64,\r\n ConversionKind.EXPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n case BuiltinSymbols.isize: {\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n compiler.currentType = compiler.options.isWasm64\r\n ? Type.isize64\r\n : Type.isize32;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(\r\n operands[0],\r\n compiler.options.isWasm64\r\n ? Type.isize64\r\n : Type.isize32,\r\n ConversionKind.EXPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n case BuiltinSymbols.u8: {\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.u8;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(\r\n operands[0],\r\n Type.u8,\r\n ConversionKind.EXPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n case BuiltinSymbols.u16: {\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.u16;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(\r\n operands[0],\r\n Type.u16,\r\n ConversionKind.EXPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n case BuiltinSymbols.u32: {\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.u32;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(\r\n operands[0],\r\n Type.u32,\r\n ConversionKind.EXPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n case BuiltinSymbols.u64: {\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.u64;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(\r\n operands[0],\r\n Type.u64,\r\n ConversionKind.EXPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n case BuiltinSymbols.usize: {\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n compiler.currentType = compiler.options.usizeType;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(\r\n operands[0],\r\n compiler.options.usizeType,\r\n ConversionKind.EXPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n case BuiltinSymbols.bool: {\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.bool;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(\r\n operands[0],\r\n Type.bool,\r\n ConversionKind.EXPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n case BuiltinSymbols.f32: {\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.f32;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(\r\n operands[0],\r\n Type.f32,\r\n ConversionKind.EXPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n case BuiltinSymbols.f64: {\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.f64;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(\r\n operands[0],\r\n Type.f64,\r\n ConversionKind.EXPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n\r\n // === SIMD ===================================================================================\r\n\r\n // const\r\n\r\n case BuiltinSymbols.v128: // alias for now\r\n case BuiltinSymbols.i8x16: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 16) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"16\", operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let bytes = new Uint8Array(16);\r\n for (let i = 0; i < 16; ++i) {\r\n let value = operands[i];\r\n if (value) {\r\n let expr = module.precomputeExpression(\r\n compiler.compileExpression(value, Type.i8, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n );\r\n if (getExpressionId(expr) != ExpressionId.Const) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n value.range\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n assert(getExpressionType(expr) == NativeType.I32);\r\n writeI8(getConstValueI32(expr), bytes, i);\r\n }\r\n }\r\n compiler.currentType = Type.v128;\r\n return module.createV128(bytes);\r\n }\r\n case BuiltinSymbols.i16x8: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 8) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"8\", operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let bytes = new Uint8Array(16);\r\n for (let i = 0; i < 8; ++i) {\r\n let value = operands[i];\r\n if (value) {\r\n let expr = module.precomputeExpression(\r\n compiler.compileExpression(value, Type.i16, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n );\r\n if (getExpressionId(expr) != ExpressionId.Const) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n value.range\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n assert(getExpressionType(expr) == NativeType.I32);\r\n writeI16(getConstValueI32(expr), bytes, i << 1);\r\n }\r\n }\r\n compiler.currentType = Type.v128;\r\n return module.createV128(bytes);\r\n }\r\n case BuiltinSymbols.i32x4: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 4) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"4\", operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let bytes = new Uint8Array(16);\r\n for (let i = 0; i < 4; ++i) {\r\n let value = operands[i];\r\n if (value) {\r\n let expr = module.precomputeExpression(\r\n compiler.compileExpression(value, Type.i32, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n );\r\n if (getExpressionId(expr) != ExpressionId.Const) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n value.range\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n assert(getExpressionType(expr) == NativeType.I32);\r\n writeI32(getConstValueI32(expr), bytes, i << 2);\r\n }\r\n }\r\n compiler.currentType = Type.v128;\r\n return module.createV128(bytes);\r\n }\r\n case BuiltinSymbols.i64x2: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let bytes = new Uint8Array(16);\r\n for (let i = 0; i < 2; ++i) {\r\n let value = operands[i];\r\n if (value) {\r\n let expr = module.precomputeExpression(\r\n compiler.compileExpression(value, Type.i64, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n );\r\n if (getExpressionId(expr) != ExpressionId.Const) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n value.range\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n assert(getExpressionType(expr) == NativeType.I64);\r\n let off = i << 3;\r\n writeI32(getConstValueI64Low(expr), bytes, off);\r\n writeI32(getConstValueI64High(expr), bytes, off + 4);\r\n }\r\n }\r\n compiler.currentType = Type.v128;\r\n return module.createV128(bytes);\r\n }\r\n case BuiltinSymbols.f32x4: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 4) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"4\", operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let bytes = new Uint8Array(16);\r\n for (let i = 0; i < 4; ++i) {\r\n let value = operands[i];\r\n if (value) {\r\n let expr = module.precomputeExpression(\r\n compiler.compileExpression(value, Type.f32, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n );\r\n if (getExpressionId(expr) != ExpressionId.Const) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n value.range\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n assert(getExpressionType(expr) == NativeType.F32);\r\n writeF32(getConstValueF32(expr), bytes, i << 2);\r\n }\r\n }\r\n compiler.currentType = Type.v128;\r\n return module.createV128(bytes);\r\n }\r\n case BuiltinSymbols.f64x2: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let bytes = new Uint8Array(16);\r\n for (let i = 0; i < 2; ++i) {\r\n let value = operands[i];\r\n if (value) {\r\n let expr = module.precomputeExpression(\r\n compiler.compileExpression(value, Type.f64, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n );\r\n if (getExpressionId(expr) != ExpressionId.Const) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n value.range\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n assert(getExpressionType(expr) == NativeType.F64);\r\n writeF64(getConstValueF64(expr), bytes, i << 3);\r\n }\r\n }\r\n compiler.currentType = Type.v128;\r\n return module.createV128(bytes);\r\n }\r\n\r\n // v128.*\r\n\r\n case BuiltinSymbols.v128_splat: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: UnaryOp;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = UnaryOp.SplatVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = UnaryOp.SplatVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = UnaryOp.SplatVecI32x4; break; }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = UnaryOp.SplatVecI64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? UnaryOp.SplatVecI64x2\r\n : UnaryOp.SplatVecI32x4;\r\n break;\r\n }\r\n case TypeKind.F32: { op = UnaryOp.SplatVecF32x4; break; }\r\n case TypeKind.F64: { op = UnaryOp.SplatVecF64x2; break; }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], type, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createUnary(op, arg0);\r\n }\r\n case BuiltinSymbols.v128_extract_lane: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n compiler.currentType = type;\r\n return module.createUnreachable();\r\n }\r\n let op: SIMDExtractOp;\r\n switch (type.kind) {\r\n case TypeKind.I8: { op = SIMDExtractOp.ExtractLaneSVecI8x16; break; }\r\n case TypeKind.U8: { op = SIMDExtractOp.ExtractLaneUVecI8x16; break; }\r\n case TypeKind.I16: { op = SIMDExtractOp.ExtractLaneSVecI16x8; break; }\r\n case TypeKind.U16: { op = SIMDExtractOp.ExtractLaneUVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = SIMDExtractOp.ExtractLaneVecI32x4; break; }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = SIMDExtractOp.ExtractLaneVecI64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? SIMDExtractOp.ExtractLaneVecI64x2\r\n : SIMDExtractOp.ExtractLaneVecI32x4;\r\n break;\r\n }\r\n case TypeKind.F32: { op = SIMDExtractOp.ExtractLaneVecF32x4; break; }\r\n case TypeKind.F64: { op = SIMDExtractOp.ExtractLaneVecF64x2; break; }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n compiler.currentType = type;\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = module.precomputeExpression(\r\n compiler.compileExpression(operands[1], Type.u8, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n );\r\n compiler.currentType = type;\r\n if (getExpressionId(arg1) != ExpressionId.Const) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n operands[1].range\r\n );\r\n return module.createUnreachable();\r\n }\r\n assert(getExpressionType(arg1) == NativeType.I32);\r\n let maxIdx = (16 / type.byteSize) - 1;\r\n let idx = getConstValueI32(arg1);\r\n if (idx < 0 || idx > maxIdx) {\r\n compiler.error(\r\n DiagnosticCode._0_must_be_a_value_between_1_and_2_inclusive,\r\n operands[1].range, \"Lane index\", \"0\", maxIdx.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n return module.createSIMDExtract(op, arg0, idx);\r\n }\r\n case BuiltinSymbols.v128_replace_lane: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 3) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"3\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: SIMDReplaceOp;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = SIMDReplaceOp.ReplaceLaneVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = SIMDReplaceOp.ReplaceLaneVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = SIMDReplaceOp.ReplaceLaneVecI32x4; break; }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = SIMDReplaceOp.ReplaceLaneVecI64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? SIMDReplaceOp.ReplaceLaneVecI64x2\r\n : SIMDReplaceOp.ReplaceLaneVecI32x4;\r\n break;\r\n }\r\n case TypeKind.F32: { op = SIMDReplaceOp.ReplaceLaneVecF32x4; break; }\r\n case TypeKind.F64: { op = SIMDReplaceOp.ReplaceLaneVecF64x2; break; }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = module.precomputeExpression(\r\n compiler.compileExpression(operands[1], Type.u8, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n );\r\n if (getExpressionId(arg1) != ExpressionId.Const) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n operands[1].range\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n assert(getExpressionType(arg1) == NativeType.I32);\r\n let maxIdx = (16 / type.byteSize) - 1;\r\n let idx = getConstValueI32(arg1);\r\n if (idx < 0 || idx > maxIdx) {\r\n compiler.error(\r\n DiagnosticCode._0_must_be_a_value_between_1_and_2_inclusive,\r\n operands[1].range, \"Lane index\", \"0\", maxIdx.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg2 = compiler.compileExpression(operands[2], type, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createSIMDReplace(op, arg0, idx, arg2);\r\n }\r\n case BuiltinSymbols.v128_shuffle: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n compiler.currentType = type;\r\n return module.createUnreachable();\r\n }\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8:\r\n case TypeKind.I16:\r\n case TypeKind.U16:\r\n case TypeKind.I32:\r\n case TypeKind.U32:\r\n case TypeKind.I64:\r\n case TypeKind.U64:\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE:\r\n case TypeKind.F32:\r\n case TypeKind.F64: break;\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n compiler.currentType = type;\r\n return module.createUnreachable();\r\n }\r\n }\r\n let laneWidth = type.byteSize;\r\n let laneCount = 16 / laneWidth;\r\n if (operands.length != 2 + laneCount) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, (2 + laneCount).toString(), operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n let mask = new Uint8Array(16);\r\n let maxIdx = (laneCount << 1) - 1;\r\n for (let i = 0; i < laneCount; ++i) {\r\n let operand = operands[2 + i];\r\n arg2 = module.precomputeExpression(\r\n compiler.compileExpression(operand, Type.u8, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n );\r\n if (getExpressionId(arg2) != ExpressionId.Const) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n operand.range\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n assert(getExpressionType(arg2) == NativeType.I32);\r\n let idx = getConstValueI32(arg2);\r\n if (idx < 0 || idx > maxIdx) {\r\n compiler.error(\r\n DiagnosticCode._0_must_be_a_value_between_1_and_2_inclusive,\r\n operand.range, \"Lane index\", \"0\", maxIdx.toString()\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n switch (laneWidth) {\r\n case 1: {\r\n writeI8(idx, mask, i);\r\n break;\r\n }\r\n case 2: {\r\n let off8 = i << 1;\r\n let idx8 = idx << 1;\r\n writeI8(idx8 , mask, off8);\r\n writeI8(idx8 + 1, mask, off8 + 1);\r\n break;\r\n }\r\n case 4: {\r\n let off8 = i << 2;\r\n let idx8 = idx << 2;\r\n writeI8(idx8 , mask, off8);\r\n writeI8(idx8 + 1, mask, off8 + 1);\r\n writeI8(idx8 + 2, mask, off8 + 2);\r\n writeI8(idx8 + 3, mask, off8 + 3);\r\n break;\r\n }\r\n case 8: {\r\n let off8 = i << 3;\r\n let idx8 = idx << 3;\r\n writeI8(idx8 , mask, off8);\r\n writeI8(idx8 + 1, mask, off8 + 1);\r\n writeI8(idx8 + 2, mask, off8 + 2);\r\n writeI8(idx8 + 3, mask, off8 + 3);\r\n writeI8(idx8 + 4, mask, off8 + 4);\r\n writeI8(idx8 + 5, mask, off8 + 5);\r\n writeI8(idx8 + 6, mask, off8 + 6);\r\n writeI8(idx8 + 7, mask, off8 + 7);\r\n break;\r\n }\r\n default: assert(false);\r\n }\r\n }\r\n compiler.currentType = Type.v128;\r\n return module.createSIMDShuffle(arg0, arg1, mask);\r\n }\r\n case BuiltinSymbols.v128_add: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: BinaryOp;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = BinaryOp.AddVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = BinaryOp.AddVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = BinaryOp.AddVecI32x4; break; }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = BinaryOp.AddVecI64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? BinaryOp.AddVecI64x2\r\n : BinaryOp.AddVecI32x4;\r\n break;\r\n }\r\n case TypeKind.F32: { op = BinaryOp.AddVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.AddVecF64x2; break; }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createBinary(op, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_sub: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: BinaryOp;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = BinaryOp.SubVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = BinaryOp.SubVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = BinaryOp.SubVecI32x4; break; }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = BinaryOp.SubVecI64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? BinaryOp.SubVecI64x2\r\n : BinaryOp.SubVecI32x4;\r\n break;\r\n }\r\n case TypeKind.F32: { op = BinaryOp.SubVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.SubVecF64x2; break; }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createBinary(op, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_mul: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: BinaryOp;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = BinaryOp.MulVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = BinaryOp.MulVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = BinaryOp.MulVecI32x4; break; }\r\n case TypeKind.F32: { op = BinaryOp.MulVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.MulVecF64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n if (!compiler.options.isWasm64) {\r\n op = BinaryOp.MulVecI32x4;\r\n break;\r\n }\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createBinary(op, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_div: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: BinaryOp;\r\n switch (type.kind) {\r\n case TypeKind.F32: { op = BinaryOp.DivVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.DivVecF64x2; break; }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createBinary(op, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_neg: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: UnaryOp;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = UnaryOp.NegVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = UnaryOp.NegVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = UnaryOp.NegVecI32x4; break; }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = UnaryOp.NegVecI64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? UnaryOp.NegVecI64x2\r\n : UnaryOp.NegVecI32x4;\r\n break;\r\n }\r\n case TypeKind.F32: { op = UnaryOp.NegVecF32x4; break; }\r\n case TypeKind.F64: { op = UnaryOp.NegVecF64x2; break; }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createUnary(op, arg0);\r\n }\r\n case BuiltinSymbols.v128_add_saturate: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: BinaryOp;\r\n switch (type.kind) {\r\n case TypeKind.I8: { op = BinaryOp.AddSatSVecI8x16; break; }\r\n case TypeKind.U8: { op = BinaryOp.AddSatUVecI8x16; break; }\r\n case TypeKind.I16: { op = BinaryOp.AddSatSVecI16x8; break; }\r\n case TypeKind.U16: { op = BinaryOp.AddSatUVecI16x8; break; }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createBinary(op, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_sub_saturate: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: BinaryOp;\r\n switch (type.kind) {\r\n case TypeKind.I8: { op = BinaryOp.SubSatSVecI8x16; break; }\r\n case TypeKind.U8: { op = BinaryOp.SubSatUVecI8x16; break; }\r\n case TypeKind.I16: { op = BinaryOp.SubSatSVecI16x8; break; }\r\n case TypeKind.U16: { op = BinaryOp.SubSatUVecI16x8; break; }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createBinary(op, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_shl: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: SIMDShiftOp;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = SIMDShiftOp.ShlVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = SIMDShiftOp.ShlVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = SIMDShiftOp.ShlVecI32x4; break; }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = SIMDShiftOp.ShlVecI64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? SIMDShiftOp.ShlVecI64x2\r\n : SIMDShiftOp.ShlVecI32x4;\r\n break;\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.i32, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createSIMDShift(op, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_shr: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: SIMDShiftOp;\r\n switch (type.kind) {\r\n case TypeKind.I8: { op = SIMDShiftOp.ShrSVecI8x16; break; }\r\n case TypeKind.U8: { op = SIMDShiftOp.ShrUVecI8x16; break; }\r\n case TypeKind.I16: { op = SIMDShiftOp.ShrSVecI16x8; break; }\r\n case TypeKind.U16: { op = SIMDShiftOp.ShrUVecI16x8; break; }\r\n case TypeKind.I32: { op = SIMDShiftOp.ShrSVecI32x4; break; }\r\n case TypeKind.U32: { op = SIMDShiftOp.ShrUVecI32x4; break; }\r\n case TypeKind.I64: { op = SIMDShiftOp.ShrSVecI64x2; break; }\r\n case TypeKind.U64: { op = SIMDShiftOp.ShrUVecI64x2; break; }\r\n case TypeKind.ISIZE: {\r\n op = compiler.options.isWasm64\r\n ? SIMDShiftOp.ShrSVecI64x2\r\n : SIMDShiftOp.ShrSVecI32x4;\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? SIMDShiftOp.ShrUVecI64x2\r\n : SIMDShiftOp.ShrUVecI32x4;\r\n break;\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.i32, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createSIMDShift(op, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_and: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createBinary(BinaryOp.AndVec128, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_or: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createBinary(BinaryOp.OrVec128, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_xor: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createBinary(BinaryOp.XorVec128, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_not: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createUnary(UnaryOp.NotVec128, arg0);\r\n }\r\n case BuiltinSymbols.v128_bitselect: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 3) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"3\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg2 = compiler.compileExpression(operands[2], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createSIMDBitselect(arg0, arg1, arg2);\r\n }\r\n case BuiltinSymbols.v128_any_true: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.bool;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: UnaryOp;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = UnaryOp.AnyTrueVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = UnaryOp.AnyTrueVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = UnaryOp.AnyTrueVecI32x4; break; }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = UnaryOp.AnyTrueVecI64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? UnaryOp.AnyTrueVecI64x2\r\n : UnaryOp.AnyTrueVecI32x4;\r\n break;\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.bool;\r\n return module.createUnary(op, arg0);\r\n }\r\n case BuiltinSymbols.v128_all_true: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.bool;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: UnaryOp;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = UnaryOp.AllTrueVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = UnaryOp.AllTrueVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = UnaryOp.AllTrueVecI32x4; break; }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = UnaryOp.AllTrueVecI64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? UnaryOp.AllTrueVecI64x2\r\n : UnaryOp.AllTrueVecI32x4;\r\n break;\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.bool;\r\n return module.createUnary(op, arg0);\r\n }\r\n case BuiltinSymbols.v128_min: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: BinaryOp;\r\n switch (type.kind) {\r\n case TypeKind.F32: { op = BinaryOp.MinVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.MinVecF64x2; break; }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createBinary(op, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_max: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: BinaryOp;\r\n switch (type.kind) {\r\n case TypeKind.F32: { op = BinaryOp.MaxVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.MaxVecF64x2; break; }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createBinary(op, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_abs: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: UnaryOp;\r\n switch (type.kind) {\r\n case TypeKind.F32: { op = UnaryOp.AbsVecF32x4; break; }\r\n case TypeKind.F64: { op = UnaryOp.AbsVecF64x2; break; }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createUnary(op, arg0);\r\n }\r\n case BuiltinSymbols.v128_sqrt: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: UnaryOp;\r\n switch (type.kind) {\r\n case TypeKind.F32: { op = UnaryOp.SqrtVecF32x4; break; }\r\n case TypeKind.F64: { op = UnaryOp.SqrtVecF64x2; break; }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createUnary(op, arg0);\r\n }\r\n case BuiltinSymbols.v128_eq: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: BinaryOp;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = BinaryOp.EqVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = BinaryOp.EqVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = BinaryOp.EqVecI32x4; break; }\r\n case TypeKind.F32: { op = BinaryOp.EqVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.EqVecF64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n if (!compiler.options.isWasm64) {\r\n op = BinaryOp.EqVecI32x4;\r\n break;\r\n }\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createBinary(op, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_ne: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: BinaryOp;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = BinaryOp.NeVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = BinaryOp.NeVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = BinaryOp.NeVecI32x4; break; }\r\n case TypeKind.F32: { op = BinaryOp.NeVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.NeVecF64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n if (!compiler.options.isWasm64) {\r\n op = BinaryOp.NeVecI32x4;\r\n break;\r\n }\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createBinary(op, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_lt: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: BinaryOp;\r\n switch (type.kind) {\r\n case TypeKind.I8: { op = BinaryOp.LtSVecI8x16; break; }\r\n case TypeKind.U8: { op = BinaryOp.LtUVecI8x16; break; }\r\n case TypeKind.I16: { op = BinaryOp.LtSVecI16x8; break; }\r\n case TypeKind.U16: { op = BinaryOp.LtUVecI16x8; break; }\r\n case TypeKind.I32: { op = BinaryOp.LtSVecI32x4; break; }\r\n case TypeKind.U32: { op = BinaryOp.LtUVecI32x4; break; }\r\n case TypeKind.F32: { op = BinaryOp.LtVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.LtVecF64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n if (!compiler.options.isWasm64) {\r\n op = type.kind == TypeKind.ISIZE\r\n ? BinaryOp.LtSVecI32x4\r\n : BinaryOp.LtUVecI32x4;\r\n break;\r\n }\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createBinary(op, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_le: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: BinaryOp;\r\n switch (type.kind) {\r\n case TypeKind.I8: { op = BinaryOp.LeSVecI8x16; break; }\r\n case TypeKind.U8: { op = BinaryOp.LeUVecI8x16; break; }\r\n case TypeKind.I16: { op = BinaryOp.LeSVecI16x8; break; }\r\n case TypeKind.U16: { op = BinaryOp.LeUVecI16x8; break; }\r\n case TypeKind.I32: { op = BinaryOp.LeSVecI32x4; break; }\r\n case TypeKind.U32: { op = BinaryOp.LeUVecI32x4; break; }\r\n case TypeKind.F32: { op = BinaryOp.LeVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.LeVecF64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n if (!compiler.options.isWasm64) {\r\n op = type.kind == TypeKind.ISIZE\r\n ? BinaryOp.LeSVecI32x4\r\n : BinaryOp.LeUVecI32x4;\r\n break;\r\n }\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createBinary(op, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_gt: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: BinaryOp;\r\n switch (type.kind) {\r\n case TypeKind.I8: { op = BinaryOp.GtSVecI8x16; break; }\r\n case TypeKind.U8: { op = BinaryOp.GtUVecI8x16; break; }\r\n case TypeKind.I16: { op = BinaryOp.GtSVecI16x8; break; }\r\n case TypeKind.U16: { op = BinaryOp.GtUVecI16x8; break; }\r\n case TypeKind.I32: { op = BinaryOp.GtSVecI32x4; break; }\r\n case TypeKind.U32: { op = BinaryOp.GtUVecI32x4; break; }\r\n case TypeKind.F32: { op = BinaryOp.GtVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.GtVecF64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n if (!compiler.options.isWasm64) {\r\n op = type.kind == TypeKind.ISIZE\r\n ? BinaryOp.GtSVecI32x4\r\n : BinaryOp.GtUVecI32x4;\r\n break;\r\n }\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createBinary(op, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_ge: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 2) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"2\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments[0];\r\n if (!type.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: BinaryOp;\r\n switch (type.kind) {\r\n case TypeKind.I8: { op = BinaryOp.GeSVecI8x16; break; }\r\n case TypeKind.U8: { op = BinaryOp.GeUVecI8x16; break; }\r\n case TypeKind.I16: { op = BinaryOp.GeSVecI16x8; break; }\r\n case TypeKind.U16: { op = BinaryOp.GeUVecI16x8; break; }\r\n case TypeKind.I32: { op = BinaryOp.GeSVecI32x4; break; }\r\n case TypeKind.U32: { op = BinaryOp.GeUVecI32x4; break; }\r\n case TypeKind.F32: { op = BinaryOp.GeVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.GeVecF64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n if (!compiler.options.isWasm64) {\r\n op = type.kind == TypeKind.ISIZE\r\n ? BinaryOp.GeSVecI32x4\r\n : BinaryOp.GeUVecI32x4;\r\n break;\r\n }\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createBinary(op, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_convert: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let fromType = typeArguments[0];\r\n if (!fromType.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: UnaryOp;\r\n switch (fromType.kind) {\r\n case TypeKind.I32: { op = UnaryOp.ConvertSVecI32x4ToVecF32x4; break; }\r\n case TypeKind.U32: { op = UnaryOp.ConvertUVecI32x4ToVecF32x4; break; }\r\n case TypeKind.I64: { op = UnaryOp.ConvertSVecI64x2ToVecF64x2; break; }\r\n case TypeKind.U64: { op = UnaryOp.ConvertUVecI64x2ToVecF64x2; break; }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createUnary(op, arg0);\r\n }\r\n case BuiltinSymbols.v128_trunc: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n compiler.currentType = Type.v128;\r\n if (!(typeArguments && typeArguments.length == 1)) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString() : \"0\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n let toType = typeArguments[0];\r\n if (!toType.is(TypeFlags.VALUE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: UnaryOp;\r\n switch (toType.kind) {\r\n case TypeKind.I32: { op = UnaryOp.TruncSatSVecF32x4ToVecI32x4; break; }\r\n case TypeKind.U32: { op = UnaryOp.TruncSatUVecF32x4ToVecI32x4; break; }\r\n case TypeKind.I64: { op = UnaryOp.TruncSatSVecF64x2ToVecI64x2; break; }\r\n case TypeKind.U64: { op = UnaryOp.TruncSatUVecF64x2ToVecI64x2; break; }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createUnary(op, arg0);\r\n }\r\n\r\n // === GC integration =========================================================================\r\n\r\n case BuiltinSymbols.iterateRoots: {\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n if (operands.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n compiler.currentType = Type.void;\r\n return module.createUnreachable();\r\n }\r\n let expr = compiler.compileExpressionRetainType(operands[0], Type.u32, WrapMode.NONE);\r\n let type = compiler.currentType;\r\n let signatureReference = type.signatureReference;\r\n compiler.currentType = Type.void;\r\n if (\r\n !type.is(TypeFlags.REFERENCE) ||\r\n !signatureReference ||\r\n signatureReference.parameterTypes.length != 1 ||\r\n signatureReference.parameterTypes[0] != compiler.options.usizeType\r\n ) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n reportNode.range, type.toString(), \"(ref: usize) => void\"\r\n );\r\n return module.createUnreachable();\r\n }\r\n compiler.currentType = Type.void;\r\n // just emit a call even if the function doesn't yet exist\r\n compiler.needsIterateRoots = true;\r\n return module.createCall(\"~iterateRoots\", [ expr ], NativeType.None);\r\n }\r\n }\r\n\r\n // try to defer inline asm to a concrete built-in\r\n var expr = tryDeferASM(compiler, prototype, operands, reportNode);\r\n if (expr) {\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n return expr;\r\n }\r\n compiler.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n reportNode.expression.range, prototype.internalName\r\n );\r\n return module.createUnreachable();\r\n}\r\n\r\n/** Tries to defer an inline-assembler-like call to a built-in function. */\r\nfunction tryDeferASM(\r\n compiler: Compiler,\r\n prototype: FunctionPrototype,\r\n operands: Expression[],\r\n reportNode: CallExpression\r\n): ExpressionRef {\r\n /* tslint:disable:max-line-length */\r\n switch (prototype.internalName) {\r\n\r\n // TODO: Operators can't be just deferred (don't have a corresponding generic built-in)\r\n // add, sub, mul, div_s, div_u, rem_s, rem_u\r\n // and, or, xor, shl, shr_u, shr_s\r\n // eq, eqz, ne, lt_s, lt_u, le_s, le_u, gt_s, gt_u, ge_s, ge_u\r\n\r\n case BuiltinSymbols.i32_clz: return deferASM(BuiltinSymbols.clz, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_clz: return deferASM(BuiltinSymbols.clz, compiler, Type.i64, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i32_ctz: return deferASM(BuiltinSymbols.ctz, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_ctz: return deferASM(BuiltinSymbols.ctz, compiler, Type.i64, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i32_popcnt: return deferASM(BuiltinSymbols.popcnt, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_popcnt: return deferASM(BuiltinSymbols.popcnt, compiler, Type.i64, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i32_rotl: return deferASM(BuiltinSymbols.rotl, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_rotl: return deferASM(BuiltinSymbols.rotl, compiler, Type.i64, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i32_rotr: return deferASM(BuiltinSymbols.rotr, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_rotr: return deferASM(BuiltinSymbols.rotr, compiler, Type.i64, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.f32_abs: return deferASM(BuiltinSymbols.abs, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_abs: return deferASM(BuiltinSymbols.abs, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.f32_max: return deferASM(BuiltinSymbols.max, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_max: return deferASM(BuiltinSymbols.max, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.f32_min: return deferASM(BuiltinSymbols.min, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_min: return deferASM(BuiltinSymbols.min, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.f32_ceil: return deferASM(BuiltinSymbols.ceil, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_ceil: return deferASM(BuiltinSymbols.ceil, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.f32_floor: return deferASM(BuiltinSymbols.floor, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_floor: return deferASM(BuiltinSymbols.floor, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.f32_copysign: return deferASM(BuiltinSymbols.copysign, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_copysign: return deferASM(BuiltinSymbols.copysign, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.f32_nearest: return deferASM(BuiltinSymbols.nearest, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_nearest: return deferASM(BuiltinSymbols.nearest, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.i32_reinterpret_f32: return deferASM(BuiltinSymbols.reinterpret, compiler, Type.i32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.i64_reinterpret_f64: return deferASM(BuiltinSymbols.reinterpret, compiler, Type.i64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.f32_reinterpret_i32: return deferASM(BuiltinSymbols.reinterpret, compiler, Type.f32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.f64_reinterpret_i64: return deferASM(BuiltinSymbols.reinterpret, compiler, Type.f64, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.f32_sqrt: return deferASM(BuiltinSymbols.sqrt, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_sqrt: return deferASM(BuiltinSymbols.sqrt, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.f32_trunc: return deferASM(BuiltinSymbols.trunc, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_trunc: return deferASM(BuiltinSymbols.trunc, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.i32_load8_s: return deferASM(BuiltinSymbols.load, compiler, Type.i8, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_load8_u: return deferASM(BuiltinSymbols.load, compiler, Type.u8, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i32_load16_s: return deferASM(BuiltinSymbols.load, compiler, Type.i16, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_load16_u: return deferASM(BuiltinSymbols.load, compiler, Type.u16, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i32_load: return deferASM(BuiltinSymbols.load, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_load8_s: return deferASM(BuiltinSymbols.load, compiler, Type.i8, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_load8_u: return deferASM(BuiltinSymbols.load, compiler, Type.u8, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_load16_s: return deferASM(BuiltinSymbols.load, compiler, Type.i16, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_load16_u: return deferASM(BuiltinSymbols.load, compiler, Type.u16, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_load32_s: return deferASM(BuiltinSymbols.load, compiler, Type.i32, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_load32_u: return deferASM(BuiltinSymbols.load, compiler, Type.u32, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_load: return deferASM(BuiltinSymbols.load, compiler, Type.i64, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.f32_load: return deferASM(BuiltinSymbols.load, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_load: return deferASM(BuiltinSymbols.load, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.i32_store8: return deferASM(BuiltinSymbols.store, compiler, Type.i8, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_store16: return deferASM(BuiltinSymbols.store, compiler, Type.i16, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_store: return deferASM(BuiltinSymbols.store, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_store8: return deferASM(BuiltinSymbols.store, compiler, Type.i8, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_store16: return deferASM(BuiltinSymbols.store, compiler, Type.i16, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_store32: return deferASM(BuiltinSymbols.store, compiler, Type.i32, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_store: return deferASM(BuiltinSymbols.store, compiler, Type.i64, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.f32_store: return deferASM(BuiltinSymbols.store, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_store: return deferASM(BuiltinSymbols.store, compiler, Type.f64, operands, Type.f64, reportNode);\r\n }\r\n if (compiler.options.hasFeature(Feature.THREADS)) {\r\n switch (prototype.internalName) {\r\n\r\n case BuiltinSymbols.i32_atomic_load8_u: return deferASM(BuiltinSymbols.atomic_load, compiler, Type.u8, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i32_atomic_load16_u: return deferASM(BuiltinSymbols.atomic_load, compiler, Type.u16, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i32_atomic_load: return deferASM(BuiltinSymbols.atomic_load, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_atomic_load8_u: return deferASM(BuiltinSymbols.atomic_load, compiler, Type.u8, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_load16_u: return deferASM(BuiltinSymbols.atomic_load, compiler, Type.u16, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_load32_u: return deferASM(BuiltinSymbols.atomic_load, compiler, Type.u32, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_load: return deferASM(BuiltinSymbols.atomic_load, compiler, Type.i64, operands, Type.i64, reportNode);\r\n\r\n case BuiltinSymbols.i32_atomic_store8: return deferASM(BuiltinSymbols.atomic_store, compiler, Type.i8, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_atomic_store16: return deferASM(BuiltinSymbols.atomic_store, compiler, Type.i16, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_atomic_store: return deferASM(BuiltinSymbols.atomic_store, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_atomic_store8: return deferASM(BuiltinSymbols.atomic_store, compiler, Type.i8, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_store16: return deferASM(BuiltinSymbols.atomic_store, compiler, Type.i16, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_store32: return deferASM(BuiltinSymbols.atomic_store, compiler, Type.i32, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_store: return deferASM(BuiltinSymbols.atomic_store, compiler, Type.i64, operands, Type.i64, reportNode);\r\n\r\n case BuiltinSymbols.i32_atomic_rmw8_u_add: return deferASM(BuiltinSymbols.atomic_add, compiler, Type.u8, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw16_u_add: return deferASM(BuiltinSymbols.atomic_add, compiler, Type.u16, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw_add: return deferASM(BuiltinSymbols.atomic_add, compiler, Type.u32, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw8_u_add: return deferASM(BuiltinSymbols.atomic_add, compiler, Type.u8, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw16_u_add: return deferASM(BuiltinSymbols.atomic_add, compiler, Type.u16, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw32_u_add: return deferASM(BuiltinSymbols.atomic_add, compiler, Type.u32, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw_add: return deferASM(BuiltinSymbols.atomic_add, compiler, Type.u64, operands, Type.u64, reportNode);\r\n\r\n case BuiltinSymbols.i32_atomic_rmw8_u_sub: return deferASM(BuiltinSymbols.atomic_sub, compiler, Type.u8, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw16_u_sub: return deferASM(BuiltinSymbols.atomic_sub, compiler, Type.u16, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw_sub: return deferASM(BuiltinSymbols.atomic_sub, compiler, Type.u32, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw8_u_sub: return deferASM(BuiltinSymbols.atomic_sub, compiler, Type.u8, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw16_u_sub: return deferASM(BuiltinSymbols.atomic_sub, compiler, Type.u16, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw32_u_sub: return deferASM(BuiltinSymbols.atomic_sub, compiler, Type.u32, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw_sub: return deferASM(BuiltinSymbols.atomic_sub, compiler, Type.u64, operands, Type.u64, reportNode);\r\n\r\n case BuiltinSymbols.i32_atomic_rmw8_u_and: return deferASM(BuiltinSymbols.atomic_and, compiler, Type.u8, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw16_u_and: return deferASM(BuiltinSymbols.atomic_and, compiler, Type.u16, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw_and: return deferASM(BuiltinSymbols.atomic_and, compiler, Type.u32, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw8_u_and: return deferASM(BuiltinSymbols.atomic_and, compiler, Type.u8, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw16_u_and: return deferASM(BuiltinSymbols.atomic_and, compiler, Type.u16, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw32_u_and: return deferASM(BuiltinSymbols.atomic_and, compiler, Type.u32, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw_and: return deferASM(BuiltinSymbols.atomic_and, compiler, Type.u64, operands, Type.u64, reportNode);\r\n\r\n case BuiltinSymbols.i32_atomic_rmw8_u_or: return deferASM(BuiltinSymbols.atomic_or, compiler, Type.u8, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw16_u_or: return deferASM(BuiltinSymbols.atomic_or, compiler, Type.u16, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw_or: return deferASM(BuiltinSymbols.atomic_or, compiler, Type.u32, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw8_u_or: return deferASM(BuiltinSymbols.atomic_or, compiler, Type.u8, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw16_u_or: return deferASM(BuiltinSymbols.atomic_or, compiler, Type.u16, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw32_u_or: return deferASM(BuiltinSymbols.atomic_or, compiler, Type.u32, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw_or: return deferASM(BuiltinSymbols.atomic_or, compiler, Type.u64, operands, Type.u64, reportNode);\r\n\r\n case BuiltinSymbols.i32_atomic_rmw8_u_xor: return deferASM(BuiltinSymbols.atomic_xor, compiler, Type.u8, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw16_u_xor: return deferASM(BuiltinSymbols.atomic_xor, compiler, Type.u8, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw_xor: return deferASM(BuiltinSymbols.atomic_xor, compiler, Type.u8, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw8_u_xor: return deferASM(BuiltinSymbols.atomic_xor, compiler, Type.u8, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw16_u_xor: return deferASM(BuiltinSymbols.atomic_xor, compiler, Type.u16, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw32_u_xor: return deferASM(BuiltinSymbols.atomic_xor, compiler, Type.u32, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw_xor: return deferASM(BuiltinSymbols.atomic_xor, compiler, Type.u64, operands, Type.u64, reportNode);\r\n\r\n case BuiltinSymbols.i32_atomic_rmw8_u_xchg: return deferASM(BuiltinSymbols.atomic_xchg, compiler, Type.u8, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw16_u_xchg: return deferASM(BuiltinSymbols.atomic_xchg, compiler, Type.u8, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw_xchg: return deferASM(BuiltinSymbols.atomic_xchg, compiler, Type.u8, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw8_u_xchg: return deferASM(BuiltinSymbols.atomic_xchg, compiler, Type.u8, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw16_u_xchg: return deferASM(BuiltinSymbols.atomic_xchg, compiler, Type.u16, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw32_u_xchg: return deferASM(BuiltinSymbols.atomic_xchg, compiler, Type.u32, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw_xchg: return deferASM(BuiltinSymbols.atomic_xchg, compiler, Type.u64, operands, Type.u64, reportNode);\r\n\r\n case BuiltinSymbols.i32_atomic_rmw8_u_cmpxchg: return deferASM(BuiltinSymbols.atomic_cmpxchg, compiler, Type.u8, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw16_u_cmpxchg: return deferASM(BuiltinSymbols.atomic_cmpxchg, compiler, Type.u8, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw_cmpxchg: return deferASM(BuiltinSymbols.atomic_cmpxchg, compiler, Type.u8, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw8_u_cmpxchg: return deferASM(BuiltinSymbols.atomic_cmpxchg, compiler, Type.u8, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw16_u_cmpxchg: return deferASM(BuiltinSymbols.atomic_cmpxchg, compiler, Type.u16, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw32_u_cmpxchg: return deferASM(BuiltinSymbols.atomic_cmpxchg, compiler, Type.u32, operands, Type.u64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw_cmpxchg: return deferASM(BuiltinSymbols.atomic_cmpxchg, compiler, Type.u64, operands, Type.u64, reportNode);\r\n\r\n case BuiltinSymbols.i32_wait: return deferASM(BuiltinSymbols.atomic_wait, compiler, Type.i32, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i64_wait: return deferASM(BuiltinSymbols.atomic_wait, compiler, Type.i64, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i32_notify: return deferASM(BuiltinSymbols.atomic_notify, compiler, Type.i32, operands, Type.u32, reportNode);\r\n case BuiltinSymbols.i64_notify: return deferASM(BuiltinSymbols.atomic_notify, compiler, Type.i64, operands, Type.i64, reportNode);\r\n }\r\n }\r\n if (compiler.options.hasFeature(Feature.SIMD)) {\r\n switch (prototype.internalName) {\r\n\r\n case BuiltinSymbols.v128_load: return deferASM(BuiltinSymbols.load, compiler, Type.v128, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.v128_store: return deferASM(BuiltinSymbols.store, compiler, Type.v128, operands, Type.void, reportNode);\r\n\r\n case BuiltinSymbols.i8x16_splat: return deferASM(BuiltinSymbols.v128_splat, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_extract_lane_s: return deferASM(BuiltinSymbols.v128_extract_lane, compiler, Type.i8, operands, Type.i8, reportNode);\r\n case BuiltinSymbols.i8x16_extract_lane_u: return deferASM(BuiltinSymbols.v128_extract_lane, compiler, Type.u8, operands, Type.u8, reportNode);\r\n case BuiltinSymbols.i8x16_replace_lane: return deferASM(BuiltinSymbols.v128_replace_lane, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_add: return deferASM(BuiltinSymbols.v128_add, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_sub: return deferASM(BuiltinSymbols.v128_sub, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_mul: return deferASM(BuiltinSymbols.v128_mul, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_neg: return deferASM(BuiltinSymbols.v128_neg, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_add_saturate_s: return deferASM(BuiltinSymbols.v128_add_saturate, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_add_saturate_u: return deferASM(BuiltinSymbols.v128_add_saturate, compiler, Type.u8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_sub_saturate_s: return deferASM(BuiltinSymbols.v128_sub_saturate, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_sub_saturate_u: return deferASM(BuiltinSymbols.v128_sub_saturate, compiler, Type.u8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_shl: return deferASM(BuiltinSymbols.v128_shl, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_shr_s: return deferASM(BuiltinSymbols.v128_shr, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_shr_u: return deferASM(BuiltinSymbols.v128_shr, compiler, Type.u8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_any_true: return deferASM(BuiltinSymbols.v128_any_true, compiler, Type.i8, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i8x16_all_true: return deferASM(BuiltinSymbols.v128_all_true, compiler, Type.i8, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i8x16_eq: return deferASM(BuiltinSymbols.v128_eq, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_ne: return deferASM(BuiltinSymbols.v128_ne, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_lt_s: return deferASM(BuiltinSymbols.v128_lt, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_lt_u: return deferASM(BuiltinSymbols.v128_lt, compiler, Type.u8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_le_s: return deferASM(BuiltinSymbols.v128_le, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_le_u: return deferASM(BuiltinSymbols.v128_le, compiler, Type.u8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_gt_s: return deferASM(BuiltinSymbols.v128_gt, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_gt_u: return deferASM(BuiltinSymbols.v128_gt, compiler, Type.u8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_ge_s: return deferASM(BuiltinSymbols.v128_ge, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_ge_u: return deferASM(BuiltinSymbols.v128_ge, compiler, Type.u8, operands, Type.v128, reportNode);\r\n\r\n case BuiltinSymbols.i16x8_splat: return deferASM(BuiltinSymbols.v128_splat, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_extract_lane_s: return deferASM(BuiltinSymbols.v128_extract_lane, compiler, Type.i16, operands, Type.i16, reportNode);\r\n case BuiltinSymbols.i16x8_extract_lane_u: return deferASM(BuiltinSymbols.v128_extract_lane, compiler, Type.u16, operands, Type.u16, reportNode);\r\n case BuiltinSymbols.i16x8_replace_lane: return deferASM(BuiltinSymbols.v128_replace_lane, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_add: return deferASM(BuiltinSymbols.v128_add, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_sub: return deferASM(BuiltinSymbols.v128_sub, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_mul: return deferASM(BuiltinSymbols.v128_mul, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_neg: return deferASM(BuiltinSymbols.v128_neg, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_add_saturate_s: return deferASM(BuiltinSymbols.v128_add_saturate, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_add_saturate_u: return deferASM(BuiltinSymbols.v128_add_saturate, compiler, Type.u16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_sub_saturate_s: return deferASM(BuiltinSymbols.v128_sub_saturate, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_sub_saturate_u: return deferASM(BuiltinSymbols.v128_sub_saturate, compiler, Type.u16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_shl: return deferASM(BuiltinSymbols.v128_shl, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_shr_s: return deferASM(BuiltinSymbols.v128_shr, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_shr_u: return deferASM(BuiltinSymbols.v128_shr, compiler, Type.u16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_any_true: return deferASM(BuiltinSymbols.v128_any_true, compiler, Type.i16, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i16x8_all_true: return deferASM(BuiltinSymbols.v128_all_true, compiler, Type.i16, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i16x8_eq: return deferASM(BuiltinSymbols.v128_eq, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_ne: return deferASM(BuiltinSymbols.v128_ne, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_lt_s: return deferASM(BuiltinSymbols.v128_lt, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_lt_u: return deferASM(BuiltinSymbols.v128_lt, compiler, Type.u16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_le_s: return deferASM(BuiltinSymbols.v128_le, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_le_u: return deferASM(BuiltinSymbols.v128_le, compiler, Type.u16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_gt_s: return deferASM(BuiltinSymbols.v128_gt, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_gt_u: return deferASM(BuiltinSymbols.v128_gt, compiler, Type.u16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_ge_s: return deferASM(BuiltinSymbols.v128_ge, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_ge_u: return deferASM(BuiltinSymbols.v128_ge, compiler, Type.u16, operands, Type.v128, reportNode);\r\n\r\n case BuiltinSymbols.i32x4_splat: return deferASM(BuiltinSymbols.v128_splat, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_extract_lane: return deferASM(BuiltinSymbols.v128_extract_lane, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32x4_replace_lane: return deferASM(BuiltinSymbols.v128_replace_lane, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_add: return deferASM(BuiltinSymbols.v128_add, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_sub: return deferASM(BuiltinSymbols.v128_sub, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_mul: return deferASM(BuiltinSymbols.v128_mul, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_neg: return deferASM(BuiltinSymbols.v128_neg, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_shl: return deferASM(BuiltinSymbols.v128_shl, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_shr_s: return deferASM(BuiltinSymbols.v128_shr, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_shr_u: return deferASM(BuiltinSymbols.v128_shr, compiler, Type.u32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_any_true: return deferASM(BuiltinSymbols.v128_any_true, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32x4_all_true: return deferASM(BuiltinSymbols.v128_all_true, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32x4_eq: return deferASM(BuiltinSymbols.v128_eq, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_ne: return deferASM(BuiltinSymbols.v128_ne, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_lt_s: return deferASM(BuiltinSymbols.v128_lt, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_lt_u: return deferASM(BuiltinSymbols.v128_lt, compiler, Type.u32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_le_s: return deferASM(BuiltinSymbols.v128_le, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_le_u: return deferASM(BuiltinSymbols.v128_le, compiler, Type.u32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_gt_s: return deferASM(BuiltinSymbols.v128_gt, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_gt_u: return deferASM(BuiltinSymbols.v128_gt, compiler, Type.u32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_ge_s: return deferASM(BuiltinSymbols.v128_ge, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_ge_u: return deferASM(BuiltinSymbols.v128_ge, compiler, Type.u32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_trunc_s_f32x4_sat: return deferASM(BuiltinSymbols.v128_trunc, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_trunc_u_f32x4_sat: return deferASM(BuiltinSymbols.v128_trunc, compiler, Type.u32, operands, Type.v128, reportNode);\r\n\r\n case BuiltinSymbols.i64x2_splat: return deferASM(BuiltinSymbols.v128_splat, compiler, Type.i64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i64x2_extract_lane: return deferASM(BuiltinSymbols.v128_extract_lane, compiler, Type.i64, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64x2_replace_lane: return deferASM(BuiltinSymbols.v128_replace_lane, compiler, Type.i64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i64x2_add: return deferASM(BuiltinSymbols.v128_add, compiler, Type.i64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i64x2_sub: return deferASM(BuiltinSymbols.v128_sub, compiler, Type.i64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i64x2_neg: return deferASM(BuiltinSymbols.v128_neg, compiler, Type.i64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i64x2_shl: return deferASM(BuiltinSymbols.v128_shl, compiler, Type.i64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i64x2_shr_s: return deferASM(BuiltinSymbols.v128_shr, compiler, Type.i64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i64x2_shr_u: return deferASM(BuiltinSymbols.v128_shr, compiler, Type.u64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i64x2_any_true: return deferASM(BuiltinSymbols.v128_any_true, compiler, Type.i64, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64x2_all_true: return deferASM(BuiltinSymbols.v128_all_true, compiler, Type.i64, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64x2_trunc_s_f64x2_sat: return deferASM(BuiltinSymbols.v128_trunc, compiler, Type.i64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i64x2_trunc_u_f64x2_sat: return deferASM(BuiltinSymbols.v128_trunc, compiler, Type.u64, operands, Type.v128, reportNode);\r\n\r\n case BuiltinSymbols.f32x4_splat: return deferASM(BuiltinSymbols.v128_splat, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_extract_lane: return deferASM(BuiltinSymbols.v128_extract_lane, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f32x4_replace_lane: return deferASM(BuiltinSymbols.v128_replace_lane, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_add: return deferASM(BuiltinSymbols.v128_add, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_sub: return deferASM(BuiltinSymbols.v128_sub, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_mul: return deferASM(BuiltinSymbols.v128_mul, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_div: return deferASM(BuiltinSymbols.v128_div, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_neg: return deferASM(BuiltinSymbols.v128_neg, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_min: return deferASM(BuiltinSymbols.v128_min, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_max: return deferASM(BuiltinSymbols.v128_max, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_abs: return deferASM(BuiltinSymbols.v128_abs, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_sqrt: return deferASM(BuiltinSymbols.v128_sqrt, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_eq: return deferASM(BuiltinSymbols.v128_eq, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_ne: return deferASM(BuiltinSymbols.v128_ne, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_lt: return deferASM(BuiltinSymbols.v128_lt, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_le: return deferASM(BuiltinSymbols.v128_le, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_gt: return deferASM(BuiltinSymbols.v128_gt, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_ge: return deferASM(BuiltinSymbols.v128_ge, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_convert_s_i32x4: return deferASM(BuiltinSymbols.v128_convert, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_convert_u_i32x4: return deferASM(BuiltinSymbols.v128_convert, compiler, Type.u32, operands, Type.v128, reportNode);\r\n\r\n case BuiltinSymbols.f64x2_splat: return deferASM(BuiltinSymbols.v128_splat, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_extract_lane: return deferASM(BuiltinSymbols.v128_extract_lane, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.f64x2_replace_lane: return deferASM(BuiltinSymbols.v128_replace_lane, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_add: return deferASM(BuiltinSymbols.v128_add, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_sub: return deferASM(BuiltinSymbols.v128_sub, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_mul: return deferASM(BuiltinSymbols.v128_mul, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_div: return deferASM(BuiltinSymbols.v128_div, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_neg: return deferASM(BuiltinSymbols.v128_neg, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_min: return deferASM(BuiltinSymbols.v128_min, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_max: return deferASM(BuiltinSymbols.v128_max, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_abs: return deferASM(BuiltinSymbols.v128_abs, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_sqrt: return deferASM(BuiltinSymbols.v128_sqrt, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_eq: return deferASM(BuiltinSymbols.v128_eq, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_ne: return deferASM(BuiltinSymbols.v128_ne, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_lt: return deferASM(BuiltinSymbols.v128_lt, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_le: return deferASM(BuiltinSymbols.v128_le, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_gt: return deferASM(BuiltinSymbols.v128_gt, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_ge: return deferASM(BuiltinSymbols.v128_ge, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_convert_s_i64x2: return deferASM(BuiltinSymbols.v128_convert, compiler, Type.i64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_convert_u_i64x2: return deferASM(BuiltinSymbols.v128_convert, compiler, Type.u64, operands, Type.v128, reportNode);\r\n\r\n case BuiltinSymbols.v8x16_shuffle: return deferASM(BuiltinSymbols.v128_shuffle, compiler, Type.i8, operands, Type.v128, reportNode);\r\n }\r\n }\r\n /* tslint:enable:max-line-length */\r\n return 0;\r\n}\r\n\r\n/** A helper for deferring inline-assembler-like calls to built-in functions. */\r\nfunction deferASM(\r\n name: string,\r\n compiler: Compiler,\r\n typeArgument: Type,\r\n operands: Expression[],\r\n valueType: Type,\r\n reportNode: CallExpression\r\n): ExpressionRef {\r\n assert(compiler.program.elementsByName.has(name));\r\n var prototype = compiler.program.elementsByName.get(name)!;\r\n assert(prototype.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n return compileCall(compiler, prototype, [ typeArgument ], operands, valueType, reportNode);\r\n}\r\n\r\n/** Evaluates the constant type of a type argument *or* expression. */\r\nfunction evaluateConstantType(\r\n compiler: Compiler,\r\n typeArguments: Type[] | null,\r\n operands: Expression[],\r\n reportNode: Node\r\n): Type | null {\r\n if (operands.length == 0) { // requires type argument\r\n if (!typeArguments || typeArguments.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n return null;\r\n }\r\n return typeArguments[0];\r\n }\r\n if (operands.length == 1) { // optional type argument\r\n if (typeArguments) {\r\n if (typeArguments.length == 1) {\r\n compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.NONE);\r\n } else {\r\n if (typeArguments.length) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n return null;\r\n }\r\n compiler.compileExpressionRetainType(operands[0], Type.i32, WrapMode.NONE);\r\n }\r\n } else {\r\n compiler.compileExpressionRetainType(operands[0], Type.i32, WrapMode.NONE);\r\n }\r\n return compiler.currentType;\r\n }\r\n if (typeArguments && typeArguments.length > 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", typeArguments.length.toString(10)\r\n );\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, \"1\", operands.length.toString(10)\r\n );\r\n return null;\r\n}\r\n\r\n/** Evaluates a compile-time constant immediate offset argument.*/\r\nfunction evaluateImmediateOffset(compiler: Compiler, expression: Expression): i32 {\r\n var expr: ExpressionRef;\r\n var value: i32;\r\n if (compiler.options.isWasm64) {\r\n expr = compiler.precomputeExpression(expression, Type.usize64, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n if (\r\n getExpressionId(expr) != ExpressionId.Const ||\r\n getExpressionType(expr) != NativeType.I64 ||\r\n getConstValueI64High(expr) != 0 ||\r\n (value = getConstValueI64Low(expr)) < 0\r\n ) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n expression.range\r\n );\r\n value = -1;\r\n }\r\n } else {\r\n expr = compiler.precomputeExpression(expression, Type.usize32, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n if (\r\n getExpressionId(expr) != ExpressionId.Const ||\r\n getExpressionType(expr) != NativeType.I32 ||\r\n (value = getConstValueI32(expr)) < 0\r\n ) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n expression.range\r\n );\r\n value = -1;\r\n }\r\n }\r\n return value;\r\n}\r\n\r\n/** Compiles an abort wired to the conditionally imported 'abort' function. */\r\nexport function compileAbort(\r\n compiler: Compiler,\r\n message: Expression | null,\r\n reportNode: Node\r\n): ExpressionRef {\r\n var program = compiler.program;\r\n var module = compiler.module;\r\n\r\n var stringInstance = compiler.program.stringInstance;\r\n if (!stringInstance) return module.createUnreachable();\r\n\r\n var abortInstance = program.abortInstance;\r\n if (!(abortInstance && compiler.compileFunction(abortInstance))) return module.createUnreachable();\r\n\r\n var messageArg = message != null\r\n ? compiler.compileExpression(message, stringInstance.type, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n : stringInstance.type.toNativeZero(module);\r\n\r\n var filenameArg = compiler.ensureStaticString(reportNode.range.source.normalizedPath);\r\n\r\n compiler.currentType = Type.void;\r\n return module.createBlock(null, [\r\n module.createCall(\r\n abortInstance.internalName, [\r\n messageArg,\r\n filenameArg,\r\n module.createI32(reportNode.range.line),\r\n module.createI32(reportNode.range.column)\r\n ],\r\n NativeType.None\r\n ),\r\n module.createUnreachable()\r\n ]);\r\n}\r\n\r\n/** Compiles the iterateRoots function if requires. */\r\nexport function compileIterateRoots(compiler: Compiler): void {\r\n var module = compiler.module;\r\n var exprs = new Array();\r\n\r\n for (let element of compiler.program.elementsByName.values()) {\r\n if (element.kind != ElementKind.GLOBAL) continue;\r\n let global = element;\r\n let classReference = global.type.classReference;\r\n if (\r\n global.is(CommonFlags.COMPILED) &&\r\n classReference !== null &&\r\n !classReference.hasDecorator(DecoratorFlags.UNMANAGED)\r\n ) {\r\n if (global.is(CommonFlags.INLINED)) {\r\n let value = global.constantIntegerValue;\r\n exprs.push(\r\n module.createCallIndirect(\r\n module.createGetLocal(0, NativeType.I32),\r\n [\r\n compiler.options.isWasm64\r\n ? module.createI64(i64_low(value), i64_high(value))\r\n : module.createI32(i64_low(value))\r\n ],\r\n \"i_\"\r\n )\r\n );\r\n } else {\r\n exprs.push(\r\n module.createCallIndirect(\r\n module.createGetLocal(0, NativeType.I32),\r\n [\r\n module.createGetGlobal(\r\n global.internalName,\r\n compiler.options.nativeSizeType\r\n )\r\n ],\r\n \"i_\"\r\n )\r\n );\r\n }\r\n }\r\n }\r\n var typeRef = compiler.ensureFunctionType([ Type.i32 ], Type.void);\r\n module.addFunction(\"~iterateRoots\", typeRef, [],\r\n exprs.length\r\n ? module.createBlock(null, exprs)\r\n : module.createNop()\r\n );\r\n}\r\n\r\n/** Ensures that the specified class's GC hook exists and returns its function table index. */\r\nexport function ensureGCHook(\r\n compiler: Compiler,\r\n classInstance: Class\r\n): u32 {\r\n var program = compiler.program;\r\n assert(classInstance.type.isManaged(program));\r\n\r\n // check if the GC hook has already been created\r\n {\r\n let existingIndex = classInstance.gcHookIndex;\r\n if (existingIndex != -1) return existingIndex;\r\n }\r\n\r\n // check if the class implements a custom GC function (only valid for library elements)\r\n var members = classInstance.members;\r\n if (classInstance.isDeclaredInLibrary) {\r\n if (members !== null && members.has(\"__gc\")) {\r\n let gcPrototype = assert(members.get(\"__gc\"));\r\n assert(gcPrototype.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n let gcInstance = assert(program.resolver.resolveFunction(gcPrototype, null));\r\n assert(gcInstance.is(CommonFlags.PRIVATE | CommonFlags.INSTANCE));\r\n assert(!gcInstance.isAny(CommonFlags.AMBIENT | CommonFlags.VIRTUAL));\r\n assert(gcInstance.signature.parameterTypes.length == 0);\r\n assert(gcInstance.signature.returnType == Type.void);\r\n gcInstance.internalName = classInstance.internalName + \"~gc\";\r\n assert(compiler.compileFunction(gcInstance));\r\n let index = compiler.ensureFunctionTableEntry(gcInstance);\r\n classInstance.gcHookIndex = index;\r\n return index;\r\n }\r\n }\r\n\r\n var module = compiler.module;\r\n var options = compiler.options;\r\n var nativeSizeType = options.nativeSizeType;\r\n var nativeSizeSize = options.usizeType.byteSize;\r\n var body = new Array();\r\n\r\n // nothing to mark if 'this' is null\r\n body.push(\r\n module.createIf(\r\n module.createUnary(\r\n options.isWasm64\r\n ? UnaryOp.EqzI64\r\n : UnaryOp.EqzI32,\r\n module.createGetLocal(0, nativeSizeType)\r\n ),\r\n module.createReturn()\r\n )\r\n );\r\n\r\n // remember the function index so we don't recurse infinitely\r\n var functionTable = compiler.functionTable;\r\n var gcHookIndex = functionTable.length;\r\n functionTable.push(\"\");\r\n classInstance.gcHookIndex = gcHookIndex;\r\n\r\n // if the class extends a base class, call its hook first (calls mark)\r\n var baseInstance = classInstance.base;\r\n if (baseInstance) {\r\n assert(baseInstance.type.isManaged(program));\r\n body.push(\r\n module.createCallIndirect(\r\n module.createI32(\r\n ensureGCHook(compiler, baseInstance.type.classReference)\r\n ),\r\n [\r\n module.createGetLocal(0, nativeSizeType)\r\n ],\r\n nativeSizeType == NativeType.I64 ? \"I_\" : \"i_\"\r\n )\r\n );\r\n\r\n // if this class is the top-most base class, mark the instance\r\n } else {\r\n body.push(\r\n module.createCall(assert(program.gcMarkInstance).internalName, [\r\n module.createGetLocal(0, nativeSizeType)\r\n ], NativeType.None)\r\n );\r\n }\r\n\r\n // mark instances assigned to own fields that are again references\r\n if (members) {\r\n for (let member of members.values()) {\r\n if (member.kind == ElementKind.FIELD) {\r\n if ((member).parent === classInstance) {\r\n let type = (member).type;\r\n if (type.isManaged(program)) {\r\n let offset = (member).memoryOffset;\r\n assert(offset >= 0);\r\n body.push(\r\n module.createCall(assert(program.gcMarkInstance).internalName, [\r\n module.createLoad(\r\n nativeSizeSize,\r\n false,\r\n module.createGetLocal(0, nativeSizeType),\r\n nativeSizeType,\r\n offset\r\n )\r\n ], NativeType.None)\r\n );\r\n }\r\n }\r\n }\r\n }\r\n }\r\n\r\n // add the function to the module and return its table index\r\n var funcName = classInstance.internalName + \"~gc\";\r\n module.addFunction(\r\n funcName,\r\n compiler.ensureFunctionType(null, Type.void, options.usizeType),\r\n null,\r\n module.createBlock(null, body)\r\n );\r\n functionTable[gcHookIndex] = funcName;\r\n return gcHookIndex;\r\n}\r\n","/** @module util *//***/\r\n\r\n/** Tests if the bit at the specified index is set within a 64-bit map. */\r\nexport function bitsetIs(map: I64, index: i32): bool {\r\n assert(index >= 0 && index < 64);\r\n return i64_ne(\r\n i64_and(\r\n map,\r\n i64_shl(\r\n i64_one,\r\n i64_new(index)\r\n )\r\n ),\r\n i64_zero\r\n );\r\n}\r\n\r\n/** Sets or unsets the bit at the specified index within a 64-bit map and returns the new map. */\r\nexport function bitsetSet(map: I64, index: i32, isSet: bool): I64 {\r\n assert(index >= 0 && index < 64);\r\n return isSet\r\n ? i64_or(\r\n map,\r\n i64_shl(\r\n i64_one,\r\n i64_new(index)\r\n )\r\n )\r\n : i64_and(\r\n map,\r\n i64_not(\r\n i64_shl(\r\n i64_one,\r\n i64_new(index)\r\n )\r\n )\r\n );\r\n}\r\n","/** @module util *//***/\r\n\r\n/** An enum of named character codes. */\r\nexport const enum CharCode {\r\n\r\n NULL = 0,\r\n LINEFEED = 0x0A,\r\n CARRIAGERETURN = 0x0D,\r\n LINESEPARATOR = 0x2028,\r\n PARAGRAPHSEPARATOR = 0x2029,\r\n NEXTLINE = 0x0085,\r\n\r\n SPACE = 0x20,\r\n NONBREAKINGSPACE = 0xA0,\r\n ENQUAD = 0x2000,\r\n EMQUAD = 0x2001,\r\n ENSPACE = 0x2002,\r\n EMSPACE = 0x2003,\r\n THREEPEREMSPACE = 0x2004,\r\n FOURPEREMSPACE = 0x2005,\r\n SIXPEREMSPACE = 0x2006,\r\n FIGURESPACE = 0x2007,\r\n PUNCTUATIONSPACE = 0x2008,\r\n THINSPACE = 0x2009,\r\n HAIRSPACE = 0x200A,\r\n ZEROWIDTHSPACE = 0x200B,\r\n NARROWNOBREAKSPACE = 0x202F,\r\n IDEOGRAPHICSPACE = 0x3000,\r\n MATHEMATICALSPACE = 0x205F,\r\n OGHAM = 0x1680,\r\n\r\n _ = 0x5F,\r\n\r\n _0 = 0x30,\r\n _1 = 0x31,\r\n _2 = 0x32,\r\n _3 = 0x33,\r\n _4 = 0x34,\r\n _5 = 0x35,\r\n _6 = 0x36,\r\n _7 = 0x37,\r\n _8 = 0x38,\r\n _9 = 0x39,\r\n\r\n a = 0x61,\r\n b = 0x62,\r\n c = 0x63,\r\n d = 0x64,\r\n e = 0x65,\r\n f = 0x66,\r\n g = 0x67,\r\n h = 0x68,\r\n i = 0x69,\r\n j = 0x6A,\r\n k = 0x6B,\r\n l = 0x6C,\r\n m = 0x6D,\r\n n = 0x6E,\r\n o = 0x6F,\r\n p = 0x70,\r\n q = 0x71,\r\n r = 0x72,\r\n s = 0x73,\r\n t = 0x74,\r\n u = 0x75,\r\n v = 0x76,\r\n w = 0x77,\r\n x = 0x78,\r\n y = 0x79,\r\n z = 0x7A,\r\n\r\n A = 0x41,\r\n B = 0x42,\r\n C = 0x43,\r\n D = 0x44,\r\n E = 0x45,\r\n F = 0x46,\r\n G = 0x47,\r\n H = 0x48,\r\n I = 0x49,\r\n J = 0x4A,\r\n K = 0x4B,\r\n L = 0x4C,\r\n M = 0x4D,\r\n N = 0x4E,\r\n O = 0x4F,\r\n P = 0x50,\r\n Q = 0x51,\r\n R = 0x52,\r\n S = 0x53,\r\n T = 0x54,\r\n U = 0x55,\r\n V = 0x56,\r\n W = 0x57,\r\n X = 0x58,\r\n Y = 0x59,\r\n Z = 0x5a,\r\n\r\n AMPERSAND = 0x26,\r\n ASTERISK = 0x2A,\r\n AT = 0x40,\r\n BACKSLASH = 0x5C,\r\n BACKTICK = 0x60,\r\n BAR = 0x7C,\r\n CARET = 0x5E,\r\n CLOSEBRACE = 0x7D,\r\n CLOSEBRACKET = 0x5D,\r\n CLOSEPAREN = 0x29,\r\n COLON = 0x3A,\r\n COMMA = 0x2C,\r\n DOLLAR = 0x24,\r\n DOT = 0x2E,\r\n DOUBLEQUOTE = 0x22,\r\n EQUALS = 0x3D,\r\n EXCLAMATION = 0x21,\r\n GREATERTHAN = 0x3E,\r\n HASH = 0x23,\r\n LESSTHAN = 0x3C,\r\n MINUS = 0x2D,\r\n OPENBRACE = 0x7B,\r\n OPENBRACKET = 0x5B,\r\n OPENPAREN = 0x28,\r\n PERCENT = 0x25,\r\n PLUS = 0x2B,\r\n QUESTION = 0x3F,\r\n SEMICOLON = 0x3B,\r\n SINGLEQUOTE = 0x27,\r\n SLASH = 0x2F,\r\n TILDE = 0x7E,\r\n\r\n BACKSPACE = 0x08,\r\n FORMFEED = 0x0C,\r\n BYTEORDERMARK = 0xFEFF,\r\n TAB = 0x09,\r\n VERTICALTAB = 0x0B\r\n}\r\n\r\n/** Tests if the specified character code is some sort of line break. */\r\nexport function isLineBreak(c: CharCode): bool {\r\n switch (c) {\r\n case CharCode.LINEFEED:\r\n case CharCode.CARRIAGERETURN:\r\n case CharCode.LINESEPARATOR:\r\n case CharCode.PARAGRAPHSEPARATOR: {\r\n return true;\r\n }\r\n default: {\r\n return false;\r\n }\r\n }\r\n}\r\n\r\n/** Tests if the specified character code is some sort of white space. */\r\nexport function isWhiteSpace(c: i32): bool {\r\n switch (c) {\r\n case CharCode.SPACE:\r\n case CharCode.TAB:\r\n case CharCode.VERTICALTAB:\r\n case CharCode.FORMFEED:\r\n case CharCode.NONBREAKINGSPACE:\r\n case CharCode.NEXTLINE:\r\n case CharCode.OGHAM:\r\n case CharCode.NARROWNOBREAKSPACE:\r\n case CharCode.MATHEMATICALSPACE:\r\n case CharCode.IDEOGRAPHICSPACE:\r\n case CharCode.BYTEORDERMARK: {\r\n return true;\r\n }\r\n default: {\r\n return c >= CharCode.ENQUAD && c <= CharCode.ZEROWIDTHSPACE;\r\n }\r\n }\r\n}\r\n\r\n/** Tests if the specified character code is a valid decimal digit. */\r\nexport function isDecimalDigit(c: i32): bool {\r\n return c >= CharCode._0 && c <= CharCode._9;\r\n}\r\n\r\n/** Tests if the specified character code is a valid octal digit. */\r\nexport function isOctalDigit(c: i32): bool {\r\n return c >= CharCode._0 && c <= CharCode._7;\r\n}\r\n\r\n/** Tests if the specified character code is a valid start of an identifier. */\r\nexport function isIdentifierStart(c: i32): bool {\r\n return c >= CharCode.a && c <= CharCode.z\r\n || c >= CharCode.A && c <= CharCode.Z\r\n || c == CharCode._\r\n || c == CharCode.DOLLAR\r\n || c > 0x7f && isUnicodeIdentifierStart(c);\r\n}\r\n\r\n/** Tests if the specified character code is a valid keyword character. */\r\nexport function isKeywordCharacter(c: i32): bool {\r\n return c >= CharCode.a && c <= CharCode.z;\r\n}\r\n\r\n/** Tests if the specified character code is a valid part of an identifier. */\r\nexport function isIdentifierPart(c: i32): bool {\r\n return c >= CharCode.a && c <= CharCode.z\r\n || c >= CharCode.A && c <= CharCode.Z\r\n || c >= CharCode._0 && c <= CharCode._9\r\n || c == CharCode._\r\n || c == CharCode.DOLLAR\r\n || c > 0x7f && isUnicodeIdentifierPart(c);\r\n}\r\n\r\n// storing as u16 to save memory\r\nconst unicodeIdentifierStart: u16[] = [\r\n 170, 170, 181, 181, 186, 186, 192, 214, 216, 246, 248, 705, 710, 721, 736,\r\n 740, 748, 748, 750, 750, 880, 884, 886, 887, 890, 893, 902, 902, 904, 906,\r\n 908, 908, 910, 929, 931,\r\n 1013, 1015, 1153, 1162, 1319, 1329, 1366, 1369, 1369, 1377, 1415, 1488, 1514,\r\n 1520, 1522, 1568, 1610, 1646, 1647, 1649, 1747, 1749, 1749, 1765, 1766, 1774,\r\n 1775, 1786, 1788, 1791, 1791, 1808, 1808, 1810, 1839, 1869, 1957, 1969, 1969,\r\n 1994, 2026, 2036, 2037, 2042, 2042, 2048, 2069, 2074, 2074, 2084, 2084, 2088,\r\n 2088, 2112, 2136, 2208, 2208, 2210, 2220, 2308, 2361, 2365, 2365, 2384, 2384,\r\n 2392, 2401, 2417, 2423, 2425, 2431, 2437, 2444, 2447, 2448, 2451, 2472, 2474,\r\n 2480, 2482, 2482, 2486, 2489, 2493, 2493, 2510, 2510, 2524, 2525, 2527, 2529,\r\n 2544, 2545, 2565, 2570, 2575, 2576, 2579, 2600, 2602, 2608, 2610, 2611, 2613,\r\n 2614, 2616, 2617, 2649, 2652, 2654, 2654, 2674, 2676, 2693, 2701, 2703, 2705,\r\n 2707, 2728, 2730, 2736, 2738, 2739, 2741, 2745, 2749, 2749, 2768, 2768, 2784,\r\n 2785, 2821, 2828, 2831, 2832, 2835, 2856, 2858, 2864, 2866, 2867, 2869, 2873,\r\n 2877, 2877, 2908, 2909, 2911, 2913, 2929, 2929, 2947, 2947, 2949, 2954, 2958,\r\n 2960, 2962, 2965, 2969, 2970, 2972, 2972, 2974, 2975, 2979, 2980, 2984, 2986,\r\n 2990, 3001, 3024, 3024, 3077, 3084, 3086, 3088, 3090, 3112, 3114, 3123, 3125,\r\n 3129, 3133, 3133, 3160, 3161, 3168, 3169, 3205, 3212, 3214, 3216, 3218, 3240,\r\n 3242, 3251, 3253, 3257, 3261, 3261, 3294, 3294, 3296, 3297, 3313, 3314, 3333,\r\n 3340, 3342, 3344, 3346, 3386, 3389, 3389, 3406, 3406, 3424, 3425, 3450, 3455,\r\n 3461, 3478, 3482, 3505, 3507, 3515, 3517, 3517, 3520, 3526, 3585, 3632, 3634,\r\n 3635, 3648, 3654, 3713, 3714, 3716, 3716, 3719, 3720, 3722, 3722, 3725, 3725,\r\n 3732, 3735, 3737, 3743, 3745, 3747, 3749, 3749, 3751, 3751, 3754, 3755, 3757,\r\n 3760, 3762, 3763, 3773, 3773, 3776, 3780, 3782, 3782, 3804, 3807, 3840, 3840,\r\n 3904, 3911, 3913, 3948, 3976, 3980, 4096, 4138, 4159, 4159, 4176, 4181, 4186,\r\n 4189, 4193, 4193, 4197, 4198, 4206, 4208, 4213, 4225, 4238, 4238, 4256, 4293,\r\n 4295, 4295, 4301, 4301, 4304, 4346, 4348, 4680, 4682, 4685, 4688, 4694, 4696,\r\n 4696, 4698, 4701, 4704, 4744, 4746, 4749, 4752, 4784, 4786, 4789, 4792, 4798,\r\n 4800, 4800, 4802, 4805, 4808, 4822, 4824, 4880, 4882, 4885, 4888, 4954, 4992,\r\n 5007, 5024, 5108, 5121, 5740, 5743, 5759, 5761, 5786, 5792, 5866, 5870, 5872,\r\n 5888, 5900, 5902, 5905, 5920, 5937, 5952, 5969, 5984, 5996, 5998, 6000, 6016,\r\n 6067, 6103, 6103, 6108, 6108, 6176, 6263, 6272, 6312, 6314, 6314, 6320, 6389,\r\n 6400, 6428, 6480, 6509, 6512, 6516, 6528, 6571, 6593, 6599, 6656, 6678, 6688,\r\n 6740, 6823, 6823, 6917, 6963, 6981, 6987, 7043, 7072, 7086, 7087, 7098, 7141,\r\n 7168, 7203, 7245, 7247, 7258, 7293, 7401, 7404, 7406, 7409, 7413, 7414, 7424,\r\n 7615, 7680, 7957, 7960, 7965, 7968, 8005, 8008, 8013, 8016, 8023, 8025, 8025,\r\n 8027, 8027, 8029, 8029, 8031, 8061, 8064, 8116, 8118, 8124, 8126, 8126, 8130,\r\n 8132, 8134, 8140, 8144, 8147, 8150, 8155, 8160, 8172, 8178, 8180, 8182, 8188,\r\n 8305, 8305, 8319, 8319, 8336, 8348, 8450, 8450, 8455, 8455, 8458, 8467, 8469,\r\n 8469, 8473, 8477, 8484, 8484, 8486, 8486, 8488, 8488, 8490, 8493, 8495, 8505,\r\n 8508, 8511, 8517, 8521, 8526, 8526, 8544, 8584,\r\n 11264, 11310, 11312, 11358, 11360, 11492, 11499, 11502, 11506, 11507, 11520,\r\n 11557, 11559, 11559, 11565, 11565, 11568, 11623, 11631, 11631, 11648, 11670,\r\n 11680, 11686, 11688, 11694, 11696, 11702, 11704, 11710, 11712, 11718, 11720,\r\n 11726, 11728, 11734, 11736, 11742, 11823, 11823, 12293, 12295, 12321, 12329,\r\n 12337, 12341, 12344, 12348, 12353, 12438, 12445, 12447, 12449, 12538, 12540,\r\n 12543, 12549, 12589, 12593, 12686, 12704, 12730, 12784, 12799, 13312, 19893,\r\n 19968, 40908, 40960, 42124, 42192, 42237, 42240, 42508, 42512, 42527, 42538,\r\n 42539, 42560, 42606, 42623, 42647, 42656, 42735, 42775, 42783, 42786, 42888,\r\n 42891, 42894, 42896, 42899, 42912, 42922, 43000, 43009, 43011, 43013, 43015,\r\n 43018, 43020, 43042, 43072, 43123, 43138, 43187, 43250, 43255, 43259, 43259,\r\n 43274, 43301, 43312, 43334, 43360, 43388, 43396, 43442, 43471, 43471, 43520,\r\n 43560, 43584, 43586, 43588, 43595, 43616, 43638, 43642, 43642, 43648, 43695,\r\n 43697, 43697, 43701, 43702, 43705, 43709, 43712, 43712, 43714, 43714, 43739,\r\n 43741, 43744, 43754, 43762, 43764, 43777, 43782, 43785, 43790, 43793, 43798,\r\n 43808, 43814, 43816, 43822, 43968, 44002, 44032, 55203, 55216, 55238, 55243,\r\n 55291, 63744, 64109, 64112, 64217, 64256, 64262, 64275, 64279, 64285, 64285,\r\n 64287, 64296, 64298, 64310, 64312, 64316, 64318, 64318, 64320, 64321, 64323,\r\n 64324, 64326, 64433, 64467, 64829, 64848, 64911, 64914, 64967, 65008, 65019,\r\n 65136, 65140, 65142, 65276, 65313, 65338, 65345, 65370, 65382, 65470, 65474,\r\n 65479, 65482, 65487, 65490, 65495, 65498, 65500,\r\n];\r\nconst unicodeIdentifierPart: u16[] = [\r\n 170, 170, 181, 181, 186, 186, 192, 214, 216, 246, 248, 705, 710, 721, 736,\r\n 740, 748, 748, 750, 750, 768, 884, 886, 887, 890, 893, 902, 902, 904, 906,\r\n 908, 908, 910, 929, 931,\r\n 1013, 1015, 1153, 1155, 1159, 1162, 1319, 1329, 1366, 1369, 1369, 1377, 1415,\r\n 1425, 1469, 1471, 1471, 1473, 1474, 1476, 1477, 1479, 1479, 1488, 1514, 1520,\r\n 1522, 1552, 1562, 1568, 1641, 1646, 1747, 1749, 1756, 1759, 1768, 1770, 1788,\r\n 1791, 1791, 1808, 1866, 1869, 1969, 1984, 2037, 2042, 2042, 2048, 2093, 2112,\r\n 2139, 2208, 2208, 2210, 2220, 2276, 2302, 2304, 2403, 2406, 2415, 2417, 2423,\r\n 2425, 2431, 2433, 2435, 2437, 2444, 2447, 2448, 2451, 2472, 2474, 2480, 2482,\r\n 2482, 2486, 2489, 2492, 2500, 2503, 2504, 2507, 2510, 2519, 2519, 2524, 2525,\r\n 2527, 2531, 2534, 2545, 2561, 2563, 2565, 2570, 2575, 2576, 2579, 2600, 2602,\r\n 2608, 2610, 2611, 2613, 2614, 2616, 2617, 2620, 2620, 2622, 2626, 2631, 2632,\r\n 2635, 2637, 2641, 2641, 2649, 2652, 2654, 2654, 2662, 2677, 2689, 2691, 2693,\r\n 2701, 2703, 2705, 2707, 2728, 2730, 2736, 2738, 2739, 2741, 2745, 2748, 2757,\r\n 2759, 2761, 2763, 2765, 2768, 2768, 2784, 2787, 2790, 2799, 2817, 2819, 2821,\r\n 2828, 2831, 2832, 2835, 2856, 2858, 2864, 2866, 2867, 2869, 2873, 2876, 2884,\r\n 2887, 2888, 2891, 2893, 2902, 2903, 2908, 2909, 2911, 2915, 2918, 2927, 2929,\r\n 2929, 2946, 2947, 2949, 2954, 2958, 2960, 2962, 2965, 2969, 2970, 2972, 2972,\r\n 2974, 2975, 2979, 2980, 2984, 2986, 2990, 3001, 3006, 3010, 3014, 3016, 3018,\r\n 3021, 3024, 3024, 3031, 3031, 3046, 3055, 3073, 3075, 3077, 3084, 3086, 3088,\r\n 3090, 3112, 3114, 3123, 3125, 3129, 3133, 3140, 3142, 3144, 3146, 3149, 3157,\r\n 3158, 3160, 3161, 3168, 3171, 3174, 3183, 3202, 3203, 3205, 3212, 3214, 3216,\r\n 3218, 3240, 3242, 3251, 3253, 3257, 3260, 3268, 3270, 3272, 3274, 3277, 3285,\r\n 3286, 3294, 3294, 3296, 3299, 3302, 3311, 3313, 3314, 3330, 3331, 3333, 3340,\r\n 3342, 3344, 3346, 3386, 3389, 3396, 3398, 3400, 3402, 3406, 3415, 3415, 3424,\r\n 3427, 3430, 3439, 3450, 3455, 3458, 3459, 3461, 3478, 3482, 3505, 3507, 3515,\r\n 3517, 3517, 3520, 3526, 3530, 3530, 3535, 3540, 3542, 3542, 3544, 3551, 3570,\r\n 3571, 3585, 3642, 3648, 3662, 3664, 3673, 3713, 3714, 3716, 3716, 3719, 3720,\r\n 3722, 3722, 3725, 3725, 3732, 3735, 3737, 3743, 3745, 3747, 3749, 3749, 3751,\r\n 3751, 3754, 3755, 3757, 3769, 3771, 3773, 3776, 3780, 3782, 3782, 3784, 3789,\r\n 3792, 3801, 3804, 3807, 3840, 3840, 3864, 3865, 3872, 3881, 3893, 3893, 3895,\r\n 3895, 3897, 3897, 3902, 3911, 3913, 3948, 3953, 3972, 3974, 3991, 3993, 4028,\r\n 4038, 4038, 4096, 4169, 4176, 4253, 4256, 4293, 4295, 4295, 4301, 4301, 4304,\r\n 4346, 4348, 4680, 4682, 4685, 4688, 4694, 4696, 4696, 4698, 4701, 4704, 4744,\r\n 4746, 4749, 4752, 4784, 4786, 4789, 4792, 4798, 4800, 4800, 4802, 4805, 4808,\r\n 4822, 4824, 4880, 4882, 4885, 4888, 4954, 4957, 4959, 4992, 5007, 5024, 5108,\r\n 5121, 5740, 5743, 5759, 5761, 5786, 5792, 5866, 5870, 5872, 5888, 5900, 5902,\r\n 5908, 5920, 5940, 5952, 5971, 5984, 5996, 5998, 6000, 6002, 6003, 6016, 6099,\r\n 6103, 6103, 6108, 6109, 6112, 6121, 6155, 6157, 6160, 6169, 6176, 6263, 6272,\r\n 6314, 6320, 6389, 6400, 6428, 6432, 6443, 6448, 6459, 6470, 6509, 6512, 6516,\r\n 6528, 6571, 6576, 6601, 6608, 6617, 6656, 6683, 6688, 6750, 6752, 6780, 6783,\r\n 6793, 6800, 6809, 6823, 6823, 6912, 6987, 6992, 7001, 7019, 7027, 7040, 7155,\r\n 7168, 7223, 7232, 7241, 7245, 7293, 7376, 7378, 7380, 7414, 7424, 7654, 7676,\r\n 7957, 7960, 7965, 7968, 8005, 8008, 8013, 8016, 8023, 8025, 8025, 8027, 8027,\r\n 8029, 8029, 8031, 8061, 8064, 8116, 8118, 8124, 8126, 8126, 8130, 8132, 8134,\r\n 8140, 8144, 8147, 8150, 8155, 8160, 8172, 8178, 8180, 8182, 8188, 8204, 8205,\r\n 8255, 8256, 8276, 8276, 8305, 8305, 8319, 8319, 8336, 8348, 8400, 8412, 8417,\r\n 8417, 8421, 8432, 8450, 8450, 8455, 8455, 8458, 8467, 8469, 8469, 8473, 8477,\r\n 8484, 8484, 8486, 8486, 8488, 8488, 8490, 8493, 8495, 8505, 8508, 8511, 8517,\r\n 8521, 8526, 8526, 8544, 8584,\r\n 11264, 11310, 11312, 11358, 11360, 11492, 11499, 11507, 11520, 11557, 11559,\r\n 11559, 11565, 11565, 11568, 11623, 11631, 11631, 11647, 11670, 11680, 11686,\r\n 11688, 11694, 11696, 11702, 11704, 11710, 11712, 11718, 11720, 11726, 11728,\r\n 11734, 11736, 11742, 11744, 11775, 11823, 11823, 12293, 12295, 12321, 12335,\r\n 12337, 12341, 12344, 12348, 12353, 12438, 12441, 12442, 12445, 12447, 12449,\r\n 12538, 12540, 12543, 12549, 12589, 12593, 12686, 12704, 12730, 12784, 12799,\r\n 13312, 19893, 19968, 40908, 40960, 42124, 42192, 42237, 42240, 42508, 42512,\r\n 42539, 42560, 42607, 42612, 42621, 42623, 42647, 42655, 42737, 42775, 42783,\r\n 42786, 42888, 42891, 42894, 42896, 42899, 42912, 42922, 43000, 43047, 43072,\r\n 43123, 43136, 43204, 43216, 43225, 43232, 43255, 43259, 43259, 43264, 43309,\r\n 43312, 43347, 43360, 43388, 43392, 43456, 43471, 43481, 43520, 43574, 43584,\r\n 43597, 43600, 43609, 43616, 43638, 43642, 43643, 43648, 43714, 43739, 43741,\r\n 43744, 43759, 43762, 43766, 43777, 43782, 43785, 43790, 43793, 43798, 43808,\r\n 43814, 43816, 43822, 43968, 44010, 44012, 44013, 44016, 44025, 44032, 55203,\r\n 55216, 55238, 55243, 55291, 63744, 64109, 64112, 64217, 64256, 64262, 64275,\r\n 64279, 64285, 64296, 64298, 64310, 64312, 64316, 64318, 64318, 64320, 64321,\r\n 64323, 64324, 64326, 64433, 64467, 64829, 64848, 64911, 64914, 64967, 65008,\r\n 65019, 65024, 65039, 65056, 65062, 65075, 65076, 65101, 65103, 65136, 65140,\r\n 65142, 65276, 65296, 65305, 65313, 65338, 65343, 65343, 65345, 65370, 65382,\r\n 65470, 65474, 65479, 65482, 65487, 65490, 65495, 65498, 65500,\r\n];\r\n\r\nfunction lookupInUnicodeMap(code: u16, map: u16[]): bool {\r\n if (code < map[0]) return false;\r\n\r\n var lo = 0;\r\n var hi = map.length;\r\n var mid: i32;\r\n var midVal: u16;\r\n\r\n while (lo + 1 < hi) {\r\n mid = lo + ((hi - lo) >> 1);\r\n mid -= (mid & 1);\r\n midVal = map[mid];\r\n if (midVal <= code && code <= map[mid + 1]) {\r\n return true;\r\n }\r\n if (code < midVal) {\r\n hi = mid;\r\n } else {\r\n lo = mid + 2;\r\n }\r\n }\r\n return false;\r\n}\r\n\r\nfunction isUnicodeIdentifierStart(code: i32): bool {\r\n return code < 0 || code > 0xffff ? false\r\n : lookupInUnicodeMap(code as u16, unicodeIdentifierStart);\r\n}\r\n\r\nfunction isUnicodeIdentifierPart(code: i32): bool {\r\n return code < 0 || code > 0xffff ? false\r\n : lookupInUnicodeMap(code as u16, unicodeIdentifierPart);\r\n}\r\n","export function makeArray(original: Array | null = null): Array {\r\n if (original) {\r\n let cloned = new Array(original.length);\r\n for (let i = 0, k = original.length; i < k; ++i) unchecked(cloned[i] = original[i]);\r\n return cloned;\r\n }\r\n return new Array();\r\n}\r\n\r\nexport function makeSet(original: Set | null = null): Set {\r\n if (original) {\r\n let cloned = new Set();\r\n for (let v of original) cloned.add(v);\r\n return cloned;\r\n }\r\n return new Set();\r\n}\r\n\r\nexport function makeMap(original: Map | null = null, overrides: Map | null = null): Map {\r\n var cloned = new Map();\r\n if (original) {\r\n for (let [k, v] of original) cloned.set(k, v);\r\n if (overrides) for (let [k, v] of overrides) cloned.set(k, v);\r\n } else if (overrides) {\r\n for (let [k, v] of overrides) cloned.set(k, v);\r\n }\r\n return cloned;\r\n}\r\n","/** @module util *//***/\r\n\r\nimport {\r\n CharCode\r\n} from \"./charcode\";\r\n\r\nimport {\r\n PATH_DELIMITER\r\n} from \"../common\";\r\n\r\nconst separator = CharCode.SLASH;\r\n\r\n/**\r\n * Normalizes the specified path, removing interior placeholders.\r\n * Expects a posix-compatible relative path (not Windows compatible).\r\n */\r\nexport function normalizePath(path: string): string {\r\n var pos = 0;\r\n var len = path.length;\r\n\r\n // trim leading './'\r\n while (pos + 1 < len &&\r\n path.charCodeAt(pos) == CharCode.DOT &&\r\n path.charCodeAt(pos + 1) == separator\r\n ) {\r\n pos += 2;\r\n }\r\n\r\n if (pos > 0 || len < path.length) {\r\n path = path.substring(pos, len);\r\n len -= pos;\r\n pos = 0;\r\n }\r\n\r\n var atEnd: bool;\r\n while (pos + 1 < len) {\r\n atEnd = false;\r\n\r\n // we are only interested in '/.' sequences ...\r\n if (\r\n path.charCodeAt(pos) == separator &&\r\n path.charCodeAt(pos + 1) == CharCode.DOT\r\n ) {\r\n // '/.' ( '/' | $ )\r\n atEnd = pos + 2 == len;\r\n if (atEnd ||\r\n pos + 2 < len &&\r\n path.charCodeAt(pos + 2) == separator\r\n ) {\r\n path = atEnd\r\n ? path.substring(0, pos)\r\n : path.substring(0, pos) + path.substring(pos + 2);\r\n len -= 2;\r\n continue;\r\n }\r\n\r\n // '/.' ( './' | '.' $ )\r\n atEnd = pos + 3 == len;\r\n if (atEnd && path.charCodeAt(pos + 2) == CharCode.DOT ||\r\n pos + 3 < len &&\r\n path.charCodeAt(pos + 2) == CharCode.DOT &&\r\n path.charCodeAt(pos + 3) == separator\r\n ) {\r\n // find preceeding '/'\r\n let ipos = pos;\r\n while (--ipos >= 0) {\r\n if (path.charCodeAt(ipos) == separator) {\r\n if (pos - ipos != 3 ||\r\n path.charCodeAt(ipos + 1) != CharCode.DOT ||\r\n path.charCodeAt(ipos + 2) != CharCode.DOT\r\n ) { // exclude '..' itself\r\n path = atEnd\r\n ? path.substring(0, ipos)\r\n : path.substring(0, ipos) + path.substring(pos + 3);\r\n len -= pos + 3 - ipos;\r\n pos = ipos - 1; // incremented again at end of loop\r\n }\r\n break;\r\n }\r\n }\r\n\r\n // if there's no preceeding '/', trim start if non-empty\r\n if (ipos < 0 && pos > 0) {\r\n if (pos != 2 ||\r\n path.charCodeAt(0) != CharCode.DOT ||\r\n path.charCodeAt(1) != CharCode.DOT\r\n ) { // exclude '..' itself\r\n path = path.substring(pos + 4);\r\n len = path.length;\r\n continue;\r\n }\r\n }\r\n }\r\n }\r\n pos++;\r\n }\r\n return len > 0 ? path : \".\";\r\n}\r\n\r\n/** Resolves the specified path relative to the specified origin. */\r\nexport function resolvePath(normalizedPath: string, origin: string): string {\r\n if (normalizedPath.startsWith(\"std/\")) {\r\n return normalizedPath;\r\n }\r\n return normalizePath(\r\n dirname(origin) + PATH_DELIMITER + normalizedPath\r\n );\r\n}\r\n\r\n/** Obtains the directory portion of a normalized path. */\r\nexport function dirname(normalizedPath: string): string {\r\n var pos = normalizedPath.length;\r\n if (pos <= 1) {\r\n if (pos == 0) return \".\";\r\n if (normalizedPath.charCodeAt(0) == separator) {\r\n return normalizedPath;\r\n }\r\n }\r\n while (--pos > 0) {\r\n if (normalizedPath.charCodeAt(pos) == separator) {\r\n return normalizedPath.substring(0, pos);\r\n }\r\n }\r\n return \".\";\r\n}\r\n","/** @module util *//***/\r\n\r\nconst indentX1 = \" \";\r\nconst indentX2 = \" \";\r\nconst indentX4 = \" \";\r\n\r\n/** Creates an indentation matching the number of specified levels. */\r\nexport function indent(sb: string[], level: i32): void {\r\n while (level >= 4) {\r\n sb.push(indentX4);\r\n level -= 4;\r\n }\r\n if (level >= 2) {\r\n sb.push(indentX2);\r\n level -= 2;\r\n }\r\n if (level) {\r\n sb.push(indentX1);\r\n }\r\n}\r\n","/** @module util *//***/\r\n\r\n/** Reads an 8-bit integer from the specified buffer. */\r\nexport function readI8(buffer: Uint8Array, offset: i32): i32 {\r\n return buffer[offset];\r\n}\r\n\r\n/** Writes an 8-bit integer to the specified buffer. */\r\nexport function writeI8(value: i32, buffer: Uint8Array, offset: i32): void {\r\n buffer[offset] = value;\r\n}\r\n\r\n/** Reads a 16-bit integer from the specified buffer. */\r\nexport function readI16(buffer: Uint8Array, offset: i32): i32 {\r\n return buffer[offset ]\r\n | buffer[offset + 1] << 8;\r\n}\r\n\r\n/** Writes a 16-bit integer to the specified buffer. */\r\nexport function writeI16(value: i32, buffer: Uint8Array, offset: i32): void {\r\n buffer[offset ] = value;\r\n buffer[offset + 1] = value >>> 8;\r\n}\r\n\r\n/** Reads a 32-bit integer from the specified buffer. */\r\nexport function readI32(buffer: Uint8Array, offset: i32): i32 {\r\n return buffer[offset ]\r\n | buffer[offset + 1] << 8\r\n | buffer[offset + 2] << 16\r\n | buffer[offset + 3] << 24;\r\n}\r\n\r\n/** Writes a 32-bit integer to the specified buffer. */\r\nexport function writeI32(value: i32, buffer: Uint8Array, offset: i32): void {\r\n buffer[offset ] = value;\r\n buffer[offset + 1] = value >>> 8;\r\n buffer[offset + 2] = value >>> 16;\r\n buffer[offset + 3] = value >>> 24;\r\n}\r\n\r\n/** Reads a 64-bit integer from the specified buffer. */\r\nexport function readI64(buffer: Uint8Array, offset: i32): I64 {\r\n var lo = readI32(buffer, offset);\r\n var hi = readI32(buffer, offset + 4);\r\n return i64_new(lo, hi);\r\n}\r\n\r\n/** Writes a 64-bit integer to the specified buffer. */\r\nexport function writeI64(value: I64, buffer: Uint8Array, offset: i32): void {\r\n writeI32(i64_low(value), buffer, offset);\r\n writeI32(i64_high(value), buffer, offset + 4);\r\n}\r\n\r\n/** Reads a 32-bit float from the specified buffer. */\r\nexport function readF32(buffer: Uint8Array, offset: i32): f32 {\r\n return i32_as_f32(readI32(buffer, offset));\r\n}\r\n\r\n/** Writes a 32-bit float to the specified buffer. */\r\nexport function writeF32(value: f32, buffer: Uint8Array, offset: i32): void {\r\n writeI32(f32_as_i32(value), buffer, offset);\r\n}\r\n\r\n/** Reads a 64-bit float from the specified buffer. */\r\nexport function readF64(buffer: Uint8Array, offset: i32): f64 {\r\n return i64_as_f64(readI64(buffer, offset));\r\n}\r\n\r\n/** Writes a 64-bit float to the specified buffer. */\r\nexport function writeF64(value: f64, buffer: Uint8Array, offset: i32): void {\r\n var valueI64 = f64_as_i64(value);\r\n writeI32(i64_low(valueI64), buffer, offset);\r\n writeI32(i64_high(valueI64), buffer, offset + 4);\r\n}\r\n","/**\r\n * Low-level C-like compiler API.\r\n * @module index\r\n *//***/\r\n\r\nimport {\r\n Compiler,\r\n Options,\r\n Target,\r\n Feature\r\n} from \"./compiler\";\r\n\r\nimport {\r\n Decompiler\r\n} from \"./decompiler\";\r\n\r\nimport {\r\n IDLBuilder,\r\n TSDBuilder\r\n} from \"./definitions\";\r\n\r\nimport {\r\n DiagnosticMessage,\r\n DiagnosticCategory,\r\n formatDiagnosticMessage\r\n} from \"./diagnostics\";\r\n\r\nimport {\r\n Module\r\n} from \"./module\";\r\n\r\nimport {\r\n Parser\r\n} from \"./parser\";\r\n\r\nimport {\r\n Program\r\n} from \"./program\";\r\n\r\n/** Parses a source file. If `parser` has been omitted a new one is created. */\r\nexport function parseFile(text: string, path: string, isEntry: bool = false,\r\n parser: Parser | null = null\r\n): Parser {\r\n if (!parser) parser = new Parser();\r\n parser.parseFile(text, path, isEntry);\r\n return parser;\r\n}\r\n\r\n/** Obtains the next required file's path. Returns `null` once complete. */\r\nexport function nextFile(parser: Parser): string | null {\r\n return parser.nextFile();\r\n}\r\n\r\n/** Obtains the next diagnostic message. Returns `null` once complete. */\r\nexport function nextDiagnostic(parser: Parser): DiagnosticMessage | null {\r\n var program = parser.program;\r\n return program.diagnosticsOffset < program.diagnostics.length\r\n ? program.diagnostics[program.diagnosticsOffset++]\r\n : null;\r\n}\r\n\r\n/** Formats a diagnostic message to a string. */\r\nexport { formatDiagnosticMessage as formatDiagnostic };\r\n\r\n/** Tests whether a diagnostic is informatory. */\r\nexport function isInfo(message: DiagnosticMessage): bool {\r\n return message.category == DiagnosticCategory.INFO;\r\n}\r\n\r\n/** Tests whether a diagnostic is a warning. */\r\nexport function isWarning(message: DiagnosticMessage): bool {\r\n return message.category == DiagnosticCategory.WARNING;\r\n}\r\n\r\n/** Tests whether a diagnostic is an error. */\r\nexport function isError(message: DiagnosticMessage): bool {\r\n return message.category == DiagnosticCategory.ERROR;\r\n}\r\n\r\n/** Creates a new set of compiler options. */\r\nexport function createOptions(): Options {\r\n return new Options();\r\n}\r\n\r\n/** Sets the `target` option. */\r\nexport function setTarget(options: Options, target: Target): void {\r\n options.target = target;\r\n}\r\n\r\n/** Sets the `noAssert` option. */\r\nexport function setNoAssert(options: Options, noAssert: bool): void {\r\n options.noAssert = noAssert;\r\n}\r\n\r\n/** Sets the `importMemory` option. */\r\nexport function setImportMemory(options: Options, importMemory: bool): void {\r\n options.importMemory = importMemory;\r\n}\r\n\r\n/** Sets the `sharedMemory` option. */\r\nexport function setSharedMemory(options: Options, sharedMemory: i32): void {\r\n options.sharedMemory = sharedMemory;\r\n}\r\n\r\n/** Sets the `importTable` option. */\r\nexport function setImportTable(options: Options, importTable: bool): void {\r\n options.importTable = importTable;\r\n}\r\n\r\n/** Sets the `sourceMap` option. */\r\nexport function setSourceMap(options: Options, sourceMap: bool): void {\r\n options.sourceMap = sourceMap;\r\n}\r\n\r\n/** Sets the `memoryBase` option. */\r\nexport function setMemoryBase(options: Options, memoryBase: u32): void {\r\n options.memoryBase = memoryBase;\r\n}\r\n\r\n/** Sets a 'globalAliases' value. */\r\nexport function setGlobalAlias(options: Options, name: string, alias: string): void {\r\n var globalAliases = options.globalAliases;\r\n if (!globalAliases) options.globalAliases = globalAliases = new Map();\r\n globalAliases.set(name, alias);\r\n}\r\n\r\n/** Sign extension operations. */\r\nexport const FEATURE_SIGN_EXTENSION = Feature.SIGN_EXTENSION;\r\n/** Mutable global imports and exports. */\r\nexport const FEATURE_MUTABLE_GLOBAL = Feature.MUTABLE_GLOBAL;\r\n/** Bulk memory operations. */\r\nexport const FEATURE_BULK_MEMORY = Feature.BULK_MEMORY;\r\n/** SIMD types and operations. */\r\nexport const FEATURE_SIMD = Feature.SIMD;\r\n/** Threading and atomic operations. */\r\nexport const FEATURE_THREADS = Feature.THREADS;\r\n\r\n/** Enables a specific feature. */\r\nexport function enableFeature(options: Options, feature: Feature): void {\r\n options.features |= feature;\r\n}\r\n\r\n/** Gives the compiler a hint at the optimize levels that will be used later on. */\r\nexport function setOptimizeLevelHints(options: Options, optimizeLevel: i32, shrinkLevel: i32): void {\r\n options.optimizeLevelHint = optimizeLevel;\r\n options.shrinkLevelHint = shrinkLevel;\r\n}\r\n\r\n/** Finishes parsing. */\r\nexport function finishParsing(parser: Parser): Program {\r\n return parser.finish();\r\n}\r\n\r\n/** Compiles the sources computed by the parser to a module. */\r\nexport function compileProgram(program: Program, options: Options | null = null): Module {\r\n return new Compiler(program, options).compile();\r\n}\r\n\r\n/** Decompiles a module to its (low level) source. */\r\nexport function decompileModule(module: Module): string {\r\n var decompiler = new Decompiler();\r\n decompiler.decompile(module);\r\n return decompiler.finish();\r\n}\r\n\r\n/** Builds WebIDL definitions for the specified program. */\r\nexport function buildIDL(program: Program): string {\r\n return IDLBuilder.build(program);\r\n}\r\n\r\n/** Builds TypeScript definitions for the specified program. */\r\nexport function buildTSD(program: Program): string {\r\n return TSDBuilder.build(program);\r\n}\r\n\r\n/** Prefix indicating a library file. */\r\nexport { LIBRARY_PREFIX } from \"./common\";\r\n\r\n// Full API\r\nexport * from \"./ast\";\r\n// export * from \"./binary\";\r\nexport * from \"./common\";\r\nexport * from \"./compiler\";\r\nexport * from \"./decompiler\";\r\nexport * from \"./definitions\";\r\nexport * from \"./diagnosticMessages.generated\";\r\nexport * from \"./diagnostics\";\r\nexport * from \"./flow\";\r\nexport * from \"./module\";\r\nexport * from \"./parser\";\r\nexport * from \"./program\";\r\nexport * from \"./resolver\";\r\nexport * from \"./tokenizer\";\r\nexport * from \"./types\";\r\nexport * from \"./util\";\r\n"],"sourceRoot":""} \ No newline at end of file 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ateSIMDBitselect","cond","_BinaryenSIMDBitselect","createSIMDShift","shift","_BinaryenSIMDShift","addGlobal","mutable","_BinaryenAddGlobal","removeGlobal","_BinaryenRemoveGlobal","addFunction","varTypes","_BinaryenAddFunction","removeFunction","_BinaryenRemoveFunction","addTemporaryFunction","tempName","typeRef","removeTemporaryFunction","addFunctionExport","externalName","cStr1","cStr2","_BinaryenAddFunctionExport","addTableExport","_BinaryenAddTableExport","addMemoryExport","_BinaryenAddMemoryExport","addGlobalExport","_BinaryenAddGlobalExport","removeExport","_BinaryenRemoveExport","addFunctionImport","externalModuleName","externalBaseName","functionType","cStr3","_BinaryenAddFunctionImport","addTableImport","_BinaryenAddTableImport","addMemoryImport","shared","_BinaryenAddMemoryImport","addGlobalImport","globalType","_BinaryenAddGlobalImport","setMemory","initial","maximum","segments","segs","offs","sizs","Target","WASM64","i64_low","i64_high","cArr1","cArr2","cArr3","_BinaryenSetMemory","setFunctionTable","funcs","_BinaryenSetFunctionTable","setStart","func","_BinaryenSetStart","getOptimizeLevel","_BinaryenGetOptimizeLevel","setOptimizeLevel","level","_BinaryenSetOptimizeLevel","getShrinkLevel","_BinaryenGetShrinkLevel","setShrinkLevel","_BinaryenSetShrinkLevel","setDebugInfo","on","_BinaryenSetDebugInfo","optimize","_BinaryenFunctionOptimize","_BinaryenModuleOptimize","runPasses","passes","allocString","_BinaryenFunctionRunPasses","_BinaryenModuleRunPasses","precomputeExpression","previousOptimizeLevel","previousShrinkLevel","previousDebugInfo","_BinaryenGetDebugInfo","_BinaryenExpressionGetType","_BinaryenFunctionGetBody","validate","_BinaryenModuleValidate","interpret","_BinaryenModuleInterpret","toBinary","sourceMapUrl","binaryPtr","sourceMapPtr","_BinaryenModuleAllocateAndWrite","readInt","binaryBytes","ret","BinaryModule","output","Uint8Array","load","readBuffer","readString","toText","toAsmjs","str","dispose","_BinaryenModuleDispose","createRelooper","Relooper","cloneExpression","noSideEffects","maxDepth","MAX_VALUE","nested1","nested2","_BinaryenExpressionGetId","Const","_BinaryenConstGetValueI32","_BinaryenConstGetValueI64Low","_BinaryenConstGetValueI64High","_BinaryenConstGetValueF32","_BinaryenConstGetValueF64","GetLocal","_BinaryenGetLocalGetIndex","GetGlobal","globalName","_BinaryenGetGlobalGetName","Load","_BinaryenLoadGetPtr","_BinaryenLoadIsAtomic","_BinaryenLoadGetBytes","_BinaryenLoadGetOffset","_BinaryenLoadIsSigned","_BinaryenLoadGetAlign","Unary","_BinaryenUnaryGetValue","_BinaryenUnaryGetOp","Binary","_BinaryenBinaryGetLeft","_BinaryenBinaryGetRight","_BinaryenBinaryGetOp","addDebugInfoFile","_BinaryenModuleAddDebugInfoFileName","getDebugInfoFile","_BinaryenModuleGetDebugInfoFileName","fileIndex","lineNumber","columnNumber","_BinaryenFunctionSetDebugLocation","UNLIMITED_MEMORY","getExpressionId","getExpressionType","getConstValueI32","getConstValueI64Low","getConstValueI64High","getConstValueF32","getConstValueF64","getGetLocalIndex","getSetLocalIndex","_BinaryenSetLocalGetIndex","getSetLocalValue","_BinaryenSetLocalGetValue","isTeeLocal","_BinaryenSetLocalIsTee","getGetGlobalName","getBinaryOp","getBinaryLeft","getBinaryRight","getUnaryOp","getUnaryValue","getLoadBytes","getLoadOffset","getLoadPtr","isLoadSigned","getStoreBytes","_BinaryenStoreGetBytes","getStoreOffset","_BinaryenStoreGetOffset","getStorePtr","_BinaryenStoreGetPtr","getStoreValue","_BinaryenStoreGetValue","getBlockName","_BinaryenBlockGetName","getBlockChildCount","_BinaryenBlockGetNumChildren","getBlockChild","_BinaryenBlockGetChild","getIfCondition","_BinaryenIfGetCondition","getIfTrue","_BinaryenIfGetIfTrue","getIfFalse","_BinaryenIfGetIfFalse","getLoopName","_BinaryenLoopGetName","getLoopBody","_BinaryenLoopGetBody","getBreakName","_BinaryenBreakGetName","getBreakCondition","_BinaryenBreakGetCondition","getSelectThen","_BinaryenSelectGetIfTrue","getSelectElse","_BinaryenSelectGetIfFalse","getSelectCondition","_BinaryenSelectGetCondition","getDropValue","_BinaryenDropGetValue","getReturnValue","_BinaryenReturnGetValue","getCallTarget","_BinaryenCallGetTarget","getHostOp","_BinaryenHostGetOp","getHostOperandCount","_BinaryenHostGetNumOperands","getHostOperand","_BinaryenHostGetOperand","getHostName","_BinaryenHostGetNameOperand","getFunctionBody","getFunctionName","_BinaryenFunctionGetName","getFunctionParamCount","_BinaryenFunctionGetNumParams","getFunctionParamType","_BinaryenFunctionGetParam","getFunctionResultType","_BinaryenFunctionGetResult","relooper","_RelooperCreate","addBlock","_RelooperAddBlock","addBranch","from","to","_RelooperAddBranch","addBlockWithSwitch","_RelooperAddBlockWithSwitch","addBranchForSwitch","indexes","_RelooperAddBranchForSwitch","renderAndDispose","entry","labelHelper","_RelooperRenderAndDispose","u8s","numValues","i32s","val","ptrs","u","stringLengthUTF8","cp","u1","u2","u3","u4","arr","fromCodePoints","needsExplicitUnreachable","Unreachable","Return","Break","Block","numChildre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\t};\n\n \t// create a fake namespace object\n \t// mode & 1: value is a module id, require it\n \t// mode & 2: merge all properties of value into the ns\n \t// mode & 4: return value when already ns object\n \t// mode & 8|1: behave like require\n \t__webpack_require__.t = function(value, mode) {\n \t\tif(mode & 1) value = __webpack_require__(value);\n \t\tif(mode & 8) return value;\n \t\tif((mode & 4) && typeof value === 'object' && value && value.__esModule) return value;\n \t\tvar ns = Object.create(null);\n \t\t__webpack_require__.r(ns);\n \t\tObject.defineProperty(ns, 'default', { enumerable: true, value: value });\n \t\tif(mode & 2 && typeof value != 'string') for(var key in value) __webpack_require__.d(ns, key, function(key) { return value[key]; }.bind(null, key));\n \t\treturn ns;\n \t};\n\n \t// getDefaultExport function for compatibility with non-harmony modules\n \t__webpack_require__.n = function(module) {\n \t\tvar getter = module && module.__esModule ?\n \t\t\tfunction getDefault() { return module['default']; } :\n \t\t\tfunction getModuleExports() { return module; };\n \t\t__webpack_require__.d(getter, 'a', getter);\n \t\treturn getter;\n \t};\n\n \t// Object.prototype.hasOwnProperty.call\n \t__webpack_require__.o = function(object, property) { return Object.prototype.hasOwnProperty.call(object, property); };\n\n \t// __webpack_public_path__\n \t__webpack_require__.p = \"\";\n\n\n \t// Load entry module and return exports\n \treturn __webpack_require__(__webpack_require__.s = 16);\n","/**\r\n * Common constants.\r\n * @module common\r\n *//***/\r\n\r\n/** Indicates traits of a {@link Node} or {@link Element}. */\r\nexport enum CommonFlags {\r\n /** No flags set. */\r\n NONE = 0,\r\n\r\n // Basic modifiers\r\n\r\n /** Has an `import` modifier. */\r\n IMPORT = 1 << 0,\r\n /** Has an `export` modifier. */\r\n EXPORT = 1 << 1,\r\n /** Has a `declare` modifier. */\r\n DECLARE = 1 << 2,\r\n /** Has a `const` modifier. */\r\n CONST = 1 << 3,\r\n /** Has a `let` modifier. */\r\n LET = 1 << 4,\r\n /** Has a `static` modifier. */\r\n STATIC = 1 << 5,\r\n /** Has a `readonly` modifier. */\r\n READONLY = 1 << 6,\r\n /** Has an `abstract` modifier. */\r\n ABSTRACT = 1 << 7,\r\n /** Has a `public` modifier. */\r\n PUBLIC = 1 << 8,\r\n /** Has a `private` modifier. */\r\n PRIVATE = 1 << 9,\r\n /** Has a `protected` modifier. */\r\n PROTECTED = 1 << 10,\r\n /** Has a `get` modifier. */\r\n GET = 1 << 11,\r\n /** Has a `set` modifier. */\r\n SET = 1 << 12,\r\n /** Has a definite assignment assertion `!` as in `x!: i32;`. */\r\n DEFINITE_ASSIGNMENT = 1 << 13,\r\n\r\n // Extended modifiers usually derived from basic modifiers\r\n\r\n /** Is ambient, that is either declared or nested in a declared element. */\r\n AMBIENT = 1 << 14,\r\n /** Is generic. */\r\n GENERIC = 1 << 15,\r\n /** Is part of a generic context. */\r\n GENERIC_CONTEXT = 1 << 16,\r\n /** Is an instance member. */\r\n INSTANCE = 1 << 17,\r\n /** Is a constructor. */\r\n CONSTRUCTOR = 1 << 18,\r\n /** Is a module export. */\r\n MODULE_EXPORT = 1 << 19,\r\n /** Is a module import. */\r\n MODULE_IMPORT = 1 << 20,\r\n\r\n // Compilation states\r\n\r\n /** Is resolved. */\r\n RESOLVED = 1 << 21,\r\n /** Is compiled. */\r\n COMPILED = 1 << 22,\r\n /** Has a constant value and is therefore inlined. */\r\n INLINED = 1 << 23,\r\n /** Is scoped. */\r\n SCOPED = 1 << 24,\r\n /** Is a trampoline. */\r\n TRAMPOLINE = 1 << 25,\r\n /** Is a virtual method. */\r\n VIRTUAL = 1 << 26,\r\n /** Is the main function. */\r\n MAIN = 1 << 27,\r\n\r\n // Other\r\n\r\n QUOTED = 1 << 28\r\n}\r\n\r\n/** Path delimiter inserted between file system levels. */\r\nexport const PATH_DELIMITER = \"/\";\r\n/** Substitution used to indicate the parent directory. */\r\nexport const PARENT_SUBST = \"..\";\r\n/** Function name prefix used for getters. */\r\nexport const GETTER_PREFIX = \"get:\";\r\n/** Function name prefix used for setters. */\r\nexport const SETTER_PREFIX = \"set:\";\r\n/** Delimiter used between class names and instance members. */\r\nexport const INSTANCE_DELIMITER = \"#\";\r\n/** Delimiter used between class and namespace names and static members. */\r\nexport const STATIC_DELIMITER = \".\";\r\n/** Delimiter used between a function and its inner elements. */\r\nexport const INNER_DELIMITER = \"~\";\r\n/** Substitution used to indicate a library directory. */\r\nexport const LIBRARY_SUBST = \"~lib\";\r\n/** Library directory prefix. */\r\nexport const LIBRARY_PREFIX = LIBRARY_SUBST + PATH_DELIMITER;\r\n/** Path index suffix. */\r\nexport const INDEX_SUFFIX = PATH_DELIMITER + \"index\";\r\n\r\n/** Common compiler symbols. */\r\nexport namespace CommonSymbols {\r\n // special\r\n export const EMPTY = \"\";\r\n // types\r\n export const i8 = \"i8\";\r\n export const i16 = \"i16\";\r\n export const i32 = \"i32\";\r\n export const i64 = \"i64\";\r\n export const isize = \"isize\";\r\n export const u8 = \"u8\";\r\n export const u16 = \"u16\";\r\n export const u32 = \"u32\";\r\n export const u64 = \"u64\";\r\n export const usize = \"usize\";\r\n export const bool = \"bool\";\r\n export const f32 = \"f32\";\r\n export const f64 = \"f64\";\r\n export const v128 = \"v128\";\r\n export const i8x16 = \"i8x16\";\r\n export const u8x16 = \"u8x16\";\r\n export const i16x8 = \"i16x8\";\r\n export const u16x8 = \"u16x8\";\r\n export const i32x4 = \"i32x4\";\r\n export const u32x4 = \"u32x4\";\r\n export const i64x2 = \"i64x2\";\r\n export const u64x2 = \"u64x2\";\r\n export const f32x4 = \"f32x4\";\r\n export const f64x2 = \"f64x2\";\r\n export const void_ = \"void\";\r\n export const number = \"number\";\r\n export const boolean = \"boolean\";\r\n export const string = \"string\";\r\n export const native = \"native\";\r\n // aliases\r\n export const null_ = \"null\";\r\n export const true_ = \"true\";\r\n export const false_ = \"false\";\r\n // objects\r\n export const this_ = \"this\";\r\n export const super_ = \"super\";\r\n export const constructor = \"constructor\";\r\n}\r\n\r\n/** Common standard library symbols. */\r\nexport namespace LibrarySymbols {\r\n // constants\r\n export const ASC_TARGET = \"ASC_TARGET\";\r\n export const ASC_NO_TREESHAKING = \"ASC_NO_TREESHAKING\";\r\n export const ASC_NO_ASSERT = \"ASC_NO_ASSERT\";\r\n export const ASC_MEMORY_BASE = \"ASC_MEMORY_BASE\";\r\n export const ASC_OPTIMIZE_LEVEL = \"ASC_OPTIMIZE_LEVEL\";\r\n export const ASC_SHRINK_LEVEL = \"ASC_SHRINK_LEVEL\";\r\n export const ASC_FEATURE_MUTABLE_GLOBAL = \"ASC_FEATURE_MUTABLE_GLOBAL\";\r\n export const ASC_FEATURE_SIGN_EXTENSION = \"ASC_FEATURE_SIGN_EXTENSION\";\r\n export const ASC_FEATURE_BULK_MEMORY = \"ASC_FEATURE_BULK_MEMORY\";\r\n export const ASC_FEATURE_SIMD = \"ASC_FEATURE_SIMD\";\r\n export const ASC_FEATURE_THREADS = \"ASC_FEATURE_THREADS\";\r\n // classes\r\n export const I8 = \"I8\";\r\n export const I16 = \"I16\";\r\n export const I32 = \"I32\";\r\n export const I64 = \"I64\";\r\n export const Isize = \"Isize\";\r\n export const U8 = \"U8\";\r\n export const U16 = \"U16\";\r\n export const U32 = \"U32\";\r\n export const U64 = \"U64\";\r\n export const Usize = \"Usize\";\r\n export const Bool = \"Bool\";\r\n export const F32 = \"F32\";\r\n export const F64 = \"F64\";\r\n export const V128 = \"V128\";\r\n export const String = \"String\";\r\n export const Array = \"Array\";\r\n export const ArrayBuffer = \"ArrayBuffer\";\r\n export const Math = \"Math\";\r\n export const Mathf = \"Mathf\";\r\n // runtime\r\n export const memory = \"memory\";\r\n export const allocate = \"allocate\";\r\n export const abort = \"abort\";\r\n export const main = \"main\";\r\n // other\r\n export const length = \"length\";\r\n export const byteLength = \"byteLength\";\r\n export const pow = \"pow\";\r\n export const mod = \"mod\";\r\n}\r\n","/**\r\n * Various compiler utilities.\r\n * @module util\r\n * @preferred\r\n *//***/\r\n\r\nexport * from \"./bitset\";\r\nexport * from \"./charcode\";\r\nexport * from \"./collections\";\r\nexport * from \"./path\";\r\nexport * from \"./text\";\r\nexport * from \"./binary\";\r\n\r\n/** Tests if `x` is a power of two. */\r\nexport function isPowerOf2(x: i32): bool {\r\n return x != 0 && (x & (x - 1)) == 0;\r\n}\r\n","/**\r\n * Shared diagnostic handling inherited by the parser and the compiler.\r\n * @module diagnostics\r\n * @preferred\r\n *//***/\r\n\r\nimport {\r\n Range\r\n} from \"./ast\";\r\n\r\nimport {\r\n DiagnosticCode,\r\n diagnosticCodeToString\r\n} from \"./diagnosticMessages.generated\";\r\n\r\nimport {\r\n isLineBreak\r\n} from \"./util\";\r\n\r\nexport {\r\n DiagnosticCode,\r\n diagnosticCodeToString\r\n} from \"./diagnosticMessages.generated\";\r\n\r\n/** Indicates the category of a {@link DiagnosticMessage}. */\r\nexport enum DiagnosticCategory {\r\n /** Informatory message. */\r\n INFO,\r\n /** Warning message. */\r\n WARNING,\r\n /** Error message. */\r\n ERROR\r\n}\r\n\r\n/** Returns the string representation of the specified diagnostic category. */\r\nexport function diagnosticCategoryToString(category: DiagnosticCategory): string {\r\n switch (category) {\r\n case DiagnosticCategory.INFO: return \"INFO\";\r\n case DiagnosticCategory.WARNING: return \"WARNING\";\r\n case DiagnosticCategory.ERROR: return \"ERROR\";\r\n default: {\r\n assert(false);\r\n return \"\";\r\n }\r\n }\r\n}\r\n\r\n/** ANSI escape sequence for blue foreground. */\r\nexport const COLOR_BLUE: string = \"\\u001b[96m\";\r\n/** ANSI escape sequence for yellow foreground. */\r\nexport const COLOR_YELLOW: string = \"\\u001b[93m\";\r\n/** ANSI escape sequence for red foreground. */\r\nexport const COLOR_RED: string = \"\\u001b[91m\";\r\n/** ANSI escape sequence to reset the foreground color. */\r\nexport const COLOR_RESET: string = \"\\u001b[0m\";\r\n\r\n/** Returns the ANSI escape sequence for the specified category. */\r\nexport function diagnosticCategoryToColor(category: DiagnosticCategory): string {\r\n switch (category) {\r\n case DiagnosticCategory.INFO: return COLOR_BLUE;\r\n case DiagnosticCategory.WARNING: return COLOR_YELLOW;\r\n case DiagnosticCategory.ERROR: return COLOR_RED;\r\n default: {\r\n assert(false);\r\n return \"\";\r\n }\r\n }\r\n}\r\n\r\n/** Represents a diagnostic message. */\r\nexport class DiagnosticMessage {\r\n\r\n /** Message code. */\r\n code: i32;\r\n /** Message category. */\r\n category: DiagnosticCategory;\r\n /** Message text. */\r\n message: string;\r\n /** Respective source range, if any. */\r\n range: Range | null = null;\r\n /** Related range, if any. */\r\n relatedRange: Range | null = null;\r\n\r\n /** Constructs a new diagnostic message. */\r\n private constructor(code: i32, category: DiagnosticCategory, message: string) {\r\n this.code = code;\r\n this.category = category;\r\n this.message = message;\r\n }\r\n\r\n /** Creates a new diagnostic message of the specified category. */\r\n static create(\r\n code: DiagnosticCode,\r\n category: DiagnosticCategory,\r\n arg0: string | null = null,\r\n arg1: string | null = null,\r\n arg2: string | null = null\r\n ): DiagnosticMessage {\r\n var message = diagnosticCodeToString(code);\r\n if (arg0 != null) message = message.replace(\"{0}\", arg0);\r\n if (arg1 != null) message = message.replace(\"{1}\", arg1);\r\n if (arg2 != null) message = message.replace(\"{2}\", arg2);\r\n return new DiagnosticMessage(code, category, message);\r\n }\r\n\r\n /** Creates a new informatory diagnostic message. */\r\n static createInfo(\r\n code: DiagnosticCode,\r\n arg0: string | null = null,\r\n arg1: string | null = null\r\n ): DiagnosticMessage {\r\n return DiagnosticMessage.create(code, DiagnosticCategory.INFO, arg0, arg1);\r\n }\r\n\r\n /** Creates a new warning diagnostic message. */\r\n static createWarning(\r\n code: DiagnosticCode,\r\n arg0: string | null = null,\r\n arg1: string | null = null\r\n ): DiagnosticMessage {\r\n return DiagnosticMessage.create(code, DiagnosticCategory.WARNING, arg0, arg1);\r\n }\r\n\r\n /** Creates a new error diagnostic message. */\r\n static createError(\r\n code: DiagnosticCode,\r\n arg0: string | null = null,\r\n arg1: string | null = null\r\n ): DiagnosticMessage {\r\n return DiagnosticMessage.create(code, DiagnosticCategory.ERROR, arg0, arg1);\r\n }\r\n\r\n /** Adds a source range to this message. */\r\n withRange(range: Range): this {\r\n this.range = range;\r\n return this;\r\n }\r\n\r\n /** Adds a related source range to this message. */\r\n withRelatedRange(range: Range): this {\r\n this.relatedRange = range;\r\n return this;\r\n }\r\n\r\n /** Converts this message to a string. */\r\n toString(): string {\r\n if (this.range) {\r\n return (\r\n diagnosticCategoryToString(this.category) +\r\n \" \" +\r\n this.code.toString(10) +\r\n \": \\\"\" +\r\n this.message +\r\n \"\\\" in \" +\r\n this.range.source.normalizedPath +\r\n \":\" +\r\n this.range.line.toString(10) +\r\n \":\" +\r\n this.range.column.toString(10)\r\n );\r\n }\r\n return (\r\n diagnosticCategoryToString(this.category) +\r\n \" \" +\r\n this.code.toString(10) +\r\n \": \" +\r\n this.message\r\n );\r\n }\r\n}\r\n\r\n/** Formats a diagnostic message, optionally with terminal colors and source context. */\r\nexport function formatDiagnosticMessage(\r\n message: DiagnosticMessage,\r\n useColors: bool = false,\r\n showContext: bool = false\r\n): string {\r\n\r\n // general information\r\n var sb: string[] = [];\r\n if (useColors) sb.push(diagnosticCategoryToColor(message.category));\r\n sb.push(diagnosticCategoryToString(message.category));\r\n if (useColors) sb.push(COLOR_RESET);\r\n sb.push(message.code < 1000 ? \" AS\" : \" TS\");\r\n sb.push(message.code.toString(10));\r\n sb.push(\": \");\r\n sb.push(message.message);\r\n\r\n // include range information if available\r\n if (message.range) {\r\n\r\n // include context information if requested\r\n let range = message.range;\r\n if (showContext) {\r\n sb.push(\"\\n\");\r\n sb.push(formatDiagnosticContext(range, useColors));\r\n }\r\n sb.push(\"\\n\");\r\n sb.push(\" in \");\r\n sb.push(range.source.normalizedPath);\r\n sb.push(\"(\");\r\n sb.push(range.line.toString(10));\r\n sb.push(\",\");\r\n sb.push(range.column.toString(10));\r\n sb.push(\")\");\r\n\r\n let relatedRange = message.relatedRange;\r\n if (relatedRange) {\r\n if (showContext) {\r\n sb.push(\"\\n\");\r\n sb.push(formatDiagnosticContext(relatedRange, useColors));\r\n }\r\n sb.push(\"\\n\");\r\n sb.push(\" in \");\r\n sb.push(range.source.normalizedPath);\r\n sb.push(\"(\");\r\n sb.push(range.line.toString(10));\r\n sb.push(\",\");\r\n sb.push(range.column.toString(10));\r\n sb.push(\")\");\r\n }\r\n }\r\n return sb.join(\"\");\r\n}\r\n\r\n/** Formats the diagnostic context for the specified range, optionally with terminal colors. */\r\nexport function formatDiagnosticContext(range: Range, useColors: bool = false): string {\r\n var text = range.source.text;\r\n var len = text.length;\r\n var start = range.start;\r\n var end = range.end;\r\n while (start > 0 && !isLineBreak(text.charCodeAt(start - 1))) start--;\r\n while (end < len && !isLineBreak(text.charCodeAt(end))) end++;\r\n var sb: string[] = [\r\n \"\\n \",\r\n text.substring(start, end),\r\n \"\\n \"\r\n ];\r\n while (start < range.start) {\r\n sb.push(\" \");\r\n start++;\r\n }\r\n if (useColors) sb.push(COLOR_RED);\r\n if (range.start == range.end) {\r\n sb.push(\"^\");\r\n } else {\r\n while (start++ < range.end) sb.push(\"~\");\r\n }\r\n if (useColors) sb.push(COLOR_RESET);\r\n return sb.join(\"\");\r\n}\r\n\r\n/** Base class of all diagnostic emitters. */\r\nexport abstract class DiagnosticEmitter {\r\n\r\n /** Diagnostic messages emitted so far. */\r\n diagnostics: DiagnosticMessage[];\r\n\r\n /** Initializes this diagnostic emitter. */\r\n protected constructor(diagnostics: DiagnosticMessage[] | null = null) {\r\n this.diagnostics = diagnostics ? diagnostics : new Array();\r\n }\r\n\r\n /** Emits a diagnostic message of the specified category. */\r\n emitDiagnostic(\r\n code: DiagnosticCode,\r\n category: DiagnosticCategory,\r\n range: Range,\r\n relatedRange: Range | null,\r\n arg0: string | null = null,\r\n arg1: string | null = null,\r\n arg2: string | null = null\r\n ): void {\r\n var message = DiagnosticMessage.create(code, category, arg0, arg1, arg2).withRange(range);\r\n if (relatedRange) message.relatedRange = relatedRange;\r\n this.diagnostics.push(message);\r\n // console.log(formatDiagnosticMessage(message, true, true) + \"\\n\"); // temporary\r\n // console.log(new Error(\"stack\").stack);\r\n }\r\n\r\n /** Emits an informatory diagnostic message. */\r\n info(\r\n code: DiagnosticCode,\r\n range: Range,\r\n arg0: string | null = null,\r\n arg1: string | null = null,\r\n arg2: string | null = null\r\n ): void {\r\n this.emitDiagnostic(code, DiagnosticCategory.INFO, range, null, arg0, arg1, arg2);\r\n }\r\n\r\n /** Emits an informatory diagnostic message with a related range. */\r\n infoRelated(\r\n code: DiagnosticCode,\r\n range: Range,\r\n relatedRange: Range,\r\n arg0: string | null = null,\r\n arg1: string | null = null,\r\n arg2: string | null = null\r\n ): void {\r\n this.emitDiagnostic(code, DiagnosticCategory.INFO, range, relatedRange, arg0, arg1, arg2);\r\n }\r\n\r\n /** Emits a warning diagnostic message. */\r\n warning(\r\n code: DiagnosticCode,\r\n range: Range,\r\n arg0: string | null = null,\r\n arg1: string | null = null,\r\n arg2: string | null = null\r\n ): void {\r\n this.emitDiagnostic(code, DiagnosticCategory.WARNING, range, null, arg0, arg1, arg2);\r\n }\r\n\r\n /** Emits a warning diagnostic message with a related range. */\r\n warningRelated(\r\n code: DiagnosticCode,\r\n range: Range,\r\n relatedRange: Range,\r\n arg0: string | null = null,\r\n arg1: string | null = null,\r\n arg2: string | null = null\r\n ): void {\r\n this.emitDiagnostic(code, DiagnosticCategory.WARNING, range, relatedRange, arg0, arg1, arg2);\r\n }\r\n\r\n /** Emits an error diagnostic message. */\r\n error(\r\n code: DiagnosticCode,\r\n range: Range,\r\n arg0: string | null = null,\r\n arg1: string | null = null,\r\n arg2: string | null = null\r\n ): void {\r\n this.emitDiagnostic(code, DiagnosticCategory.ERROR, range, null, arg0, arg1, arg2);\r\n }\r\n\r\n /** Emits an error diagnostic message with a related range. */\r\n errorRelated(\r\n code: DiagnosticCode,\r\n range: Range,\r\n relatedRange: Range,\r\n arg0: string | null = null,\r\n arg1: string | null = null,\r\n arg2: string | null = null\r\n ): void {\r\n this.emitDiagnostic(code, DiagnosticCategory.ERROR, range, relatedRange, arg0, arg1, arg2);\r\n }\r\n}\r\n","/**\r\n * AssemblyScript's intermediate representation describing a program's elements.\r\n * @module program\r\n *//***/\r\n\r\nimport {\r\n CommonFlags,\r\n PATH_DELIMITER,\r\n STATIC_DELIMITER,\r\n INSTANCE_DELIMITER,\r\n GETTER_PREFIX,\r\n SETTER_PREFIX,\r\n INNER_DELIMITER,\r\n LIBRARY_SUBST,\r\n INDEX_SUFFIX,\r\n CommonSymbols,\r\n LibrarySymbols\r\n} from \"./common\";\r\n\r\nimport {\r\n Options,\r\n Feature\r\n} from \"./compiler\";\r\n\r\nimport {\r\n DiagnosticCode,\r\n DiagnosticMessage,\r\n DiagnosticEmitter\r\n} from \"./diagnostics\";\r\n\r\nimport {\r\n Type,\r\n TypeKind,\r\n TypeFlags,\r\n Signature\r\n} from \"./types\";\r\n\r\nimport {\r\n Node,\r\n NodeKind,\r\n Source,\r\n SourceKind,\r\n Range,\r\n DecoratorNode,\r\n DecoratorKind,\r\n SignatureNode,\r\n TypeParameterNode,\r\n CommonTypeNode,\r\n TypeNode,\r\n ArrowKind,\r\n\r\n Expression,\r\n IdentifierExpression,\r\n LiteralExpression,\r\n LiteralKind,\r\n StringLiteralExpression,\r\n\r\n Statement,\r\n ClassDeclaration,\r\n DeclarationStatement,\r\n EnumDeclaration,\r\n EnumValueDeclaration,\r\n ExportMember,\r\n ExportStatement,\r\n FieldDeclaration,\r\n FunctionDeclaration,\r\n ImportDeclaration,\r\n ImportStatement,\r\n InterfaceDeclaration,\r\n MethodDeclaration,\r\n NamespaceDeclaration,\r\n TypeDeclaration,\r\n VariableDeclaration,\r\n VariableLikeDeclarationStatement,\r\n VariableStatement,\r\n\r\n decoratorNameToKind,\r\n findDecorator\r\n} from \"./ast\";\r\n\r\nimport {\r\n Module,\r\n FunctionRef\r\n} from \"./module\";\r\n\r\nimport {\r\n CharCode\r\n} from \"./util\";\r\n\r\nimport {\r\n Resolver\r\n} from \"./resolver\";\r\n\r\nimport {\r\n Flow\r\n} from \"./flow\";\r\n\r\n/** Represents a yet unresolved `import`. */\r\nclass QueuedImport {\r\n constructor(\r\n /** File being imported into. */\r\n public localFile: File,\r\n /** Identifier within the local file. */\r\n public localIdentifier: IdentifierExpression,\r\n /** Identifier within the other file. Is an `import *` if not set. */\r\n public foreignIdentifier: IdentifierExpression | null,\r\n /** Path to the other file. */\r\n public foreignPath: string,\r\n /** Alternative path to the other file. */\r\n public foreignPathAlt: string\r\n ) {}\r\n}\r\n\r\n/** Represents a yet unresolved `export`. */\r\nclass QueuedExport {\r\n constructor(\r\n /** Identifier within the local file. */\r\n public localIdentifier: IdentifierExpression,\r\n /** Identifier within the other file. */\r\n public foreignIdentifier: IdentifierExpression,\r\n /** Path to the other file if a re-export. */\r\n public foreignPath: string | null,\r\n /** Alternative path to the other file if a re-export. */\r\n public foreignPathAlt: string | null\r\n ) {}\r\n}\r\n\r\n/** Represents a yet unresolved `export *`. */\r\nclass QueuedExportStar {\r\n // stored in a map with localFile as the key\r\n constructor(\r\n /** Path to the other file. */\r\n public foreignPath: string,\r\n /** Alternative path to the other file. */\r\n public foreignPathAlt: string,\r\n /** Reference to the path literal for reporting. */\r\n public pathLiteral: StringLiteralExpression\r\n ) {}\r\n}\r\n\r\n/** Represents the kind of an operator overload. */\r\nexport enum OperatorKind {\r\n INVALID,\r\n\r\n // indexed access\r\n INDEXED_GET, // a[]\r\n INDEXED_SET, // a[]=b\r\n UNCHECKED_INDEXED_GET, // unchecked(a[])\r\n UNCHECKED_INDEXED_SET, // unchecked(a[]=b)\r\n\r\n // binary\r\n ADD, // a + b\r\n SUB, // a - b\r\n MUL, // a * b\r\n DIV, // a / b\r\n REM, // a % b\r\n POW, // a ** b\r\n BITWISE_AND, // a & b\r\n BITWISE_OR, // a | b\r\n BITWISE_XOR, // a ^ b\r\n BITWISE_SHL, // a << b\r\n BITWISE_SHR, // a >> b\r\n BITWISE_SHR_U, // a >>> b\r\n EQ, // a == b\r\n NE, // a != b\r\n GT, // a > b\r\n GE, // a >= b\r\n LT, // a < b\r\n LE, // a <= b\r\n\r\n // unary prefix\r\n PLUS, // +a\r\n MINUS, // -a\r\n NOT, // !a\r\n BITWISE_NOT, // ~a\r\n PREFIX_INC, // ++a\r\n PREFIX_DEC, // --a\r\n\r\n // unary postfix\r\n POSTFIX_INC, // a++\r\n POSTFIX_DEC // a--\r\n\r\n // not overridable:\r\n // IDENTITY // a === b\r\n // LOGICAL_AND // a && b\r\n // LOGICAL_OR // a || b\r\n}\r\n\r\n/** Returns the operator kind represented by the specified decorator and string argument. */\r\nfunction operatorKindFromDecorator(decoratorKind: DecoratorKind, arg: string): OperatorKind {\r\n assert(arg.length);\r\n switch (decoratorKind) {\r\n case DecoratorKind.OPERATOR:\r\n case DecoratorKind.OPERATOR_BINARY: {\r\n switch (arg.charCodeAt(0)) {\r\n case CharCode.OPENBRACKET: {\r\n if (arg == \"[]\") return OperatorKind.INDEXED_GET;\r\n if (arg == \"[]=\") return OperatorKind.INDEXED_SET;\r\n break;\r\n }\r\n case CharCode.OPENBRACE: {\r\n if (arg == \"{}\") return OperatorKind.UNCHECKED_INDEXED_GET;\r\n if (arg == \"{}=\") return OperatorKind.UNCHECKED_INDEXED_SET;\r\n break;\r\n }\r\n case CharCode.PLUS: {\r\n if (arg == \"+\") return OperatorKind.ADD;\r\n break;\r\n }\r\n case CharCode.MINUS: {\r\n if (arg == \"-\") return OperatorKind.SUB;\r\n break;\r\n }\r\n case CharCode.ASTERISK: {\r\n if (arg == \"*\") return OperatorKind.MUL;\r\n if (arg == \"**\") return OperatorKind.POW;\r\n break;\r\n }\r\n case CharCode.SLASH: {\r\n if (arg == \"/\") return OperatorKind.DIV;\r\n break;\r\n }\r\n case CharCode.PERCENT: {\r\n if (arg == \"%\") return OperatorKind.REM;\r\n break;\r\n }\r\n case CharCode.AMPERSAND: {\r\n if (arg == \"&\") return OperatorKind.BITWISE_AND;\r\n break;\r\n }\r\n case CharCode.BAR: {\r\n if (arg == \"|\") return OperatorKind.BITWISE_OR;\r\n break;\r\n }\r\n case CharCode.CARET: {\r\n if (arg == \"^\") return OperatorKind.BITWISE_XOR;\r\n break;\r\n }\r\n case CharCode.EQUALS: {\r\n if (arg == \"==\") return OperatorKind.EQ;\r\n break;\r\n }\r\n case CharCode.EXCLAMATION: {\r\n if (arg == \"!=\") return OperatorKind.NE;\r\n break;\r\n }\r\n case CharCode.GREATERTHAN: {\r\n if (arg == \">\") return OperatorKind.GT;\r\n if (arg == \">=\") return OperatorKind.GE;\r\n if (arg == \">>\") return OperatorKind.BITWISE_SHR;\r\n if (arg == \">>>\") return OperatorKind.BITWISE_SHR_U;\r\n break;\r\n }\r\n case CharCode.LESSTHAN: {\r\n if (arg == \"<\") return OperatorKind.LT;\r\n if (arg == \"<=\") return OperatorKind.LE;\r\n if (arg == \"<<\") return OperatorKind.BITWISE_SHL;\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n case DecoratorKind.OPERATOR_PREFIX: {\r\n switch (arg.charCodeAt(0)) {\r\n case CharCode.PLUS: {\r\n if (arg == \"+\") return OperatorKind.PLUS;\r\n if (arg == \"++\") return OperatorKind.PREFIX_INC;\r\n break;\r\n }\r\n case CharCode.MINUS: {\r\n if (arg == \"-\") return OperatorKind.MINUS;\r\n if (arg == \"--\") return OperatorKind.PREFIX_DEC;\r\n break;\r\n }\r\n case CharCode.EXCLAMATION: {\r\n if (arg == \"!\") return OperatorKind.NOT;\r\n break;\r\n }\r\n case CharCode.TILDE: {\r\n if (arg == \"~\") return OperatorKind.BITWISE_NOT;\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n case DecoratorKind.OPERATOR_POSTFIX: {\r\n switch (arg.charCodeAt(0)) {\r\n case CharCode.PLUS: {\r\n if (arg == \"++\") return OperatorKind.POSTFIX_INC;\r\n break;\r\n }\r\n case CharCode.MINUS: {\r\n if (arg == \"--\") return OperatorKind.POSTFIX_DEC;\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n }\r\n return OperatorKind.INVALID;\r\n}\r\n\r\n/** Represents an AssemblyScript program. */\r\nexport class Program extends DiagnosticEmitter {\r\n\r\n /** Resolver instance. */\r\n resolver: Resolver;\r\n /** Array of sources. */\r\n sources: Source[] = [];\r\n /** Diagnostic offset used where successively obtaining the next diagnostic. */\r\n diagnosticsOffset: i32 = 0;\r\n /** Compiler options. */\r\n options: Options;\r\n /** Special native code source. */\r\n nativeSource: Source;\r\n /** Special native code file. */\r\n nativeFile: File;\r\n /** Explicitly annotated start function. */\r\n explicitStartFunction: FunctionPrototype | null = null;\r\n\r\n // lookup maps\r\n\r\n /** Files by unique internal name. */\r\n filesByName: Map = new Map();\r\n /** Elements by unique internal name in element space. */\r\n elementsByName: Map = new Map();\r\n /** Elements by declaration. */\r\n elementsByDeclaration: Map = new Map();\r\n /** Element instances by unique internal name. */\r\n instancesByName: Map = new Map();\r\n /** Classes backing basic types like `i32`. */\r\n typeClasses: Map = new Map();\r\n\r\n // runtime references\r\n\r\n /** ArrayBuffer instance reference. */\r\n arrayBufferInstance: Class | null = null;\r\n /** Array prototype reference. */\r\n arrayPrototype: ClassPrototype | null = null;\r\n /** String instance reference. */\r\n stringInstance: Class | null = null;\r\n /** Abort function reference, if present. */\r\n abortInstance: Function | null = null;\r\n /** Memory allocation function. */\r\n memoryAllocateInstance: Function | null = null;\r\n\r\n // gc integration\r\n\r\n /** Whether a garbage collector is present or not. */\r\n hasGC: bool = false;\r\n /** Garbage collector allocation function. */\r\n gcAllocateInstance: Function | null = null;\r\n /** Garbage collector link function called when a managed object is referenced from a parent. */\r\n gcLinkInstance: Function | null = null;\r\n /** Garbage collector mark function called to on reachable managed objects. */\r\n gcMarkInstance: Function | null = null;\r\n /** Size of a managed object header. */\r\n gcHeaderSize: u32 = 0;\r\n /** Offset of the GC hook. */\r\n gcHookOffset: u32 = 0;\r\n\r\n /** Constructs a new program, optionally inheriting parser diagnostics. */\r\n constructor(\r\n /** Shared array of diagnostic messages (emitted so far). */\r\n diagnostics: DiagnosticMessage[] | null = null\r\n ) {\r\n super(diagnostics);\r\n var nativeSource = new Source(LIBRARY_SUBST, \"[native code]\", SourceKind.LIBRARY);\r\n this.nativeSource = nativeSource;\r\n var nativeFile = new File(this, nativeSource);\r\n this.nativeFile = nativeFile;\r\n this.filesByName.set(nativeFile.internalName, nativeFile);\r\n this.resolver = new Resolver(this);\r\n }\r\n\r\n /** Creates a native variable declaration. */\r\n makeNativeVariableDeclaration(\r\n /** The simple name of the variable */\r\n name: string,\r\n /** Flags indicating specific traits, e.g. `CONST`. */\r\n flags: CommonFlags = CommonFlags.NONE\r\n ): VariableDeclaration {\r\n var range = this.nativeSource.range;\r\n return Node.createVariableDeclaration(\r\n Node.createIdentifierExpression(name, range),\r\n null, null, null, flags, range\r\n );\r\n }\r\n\r\n /** Creates a native type declaration. */\r\n makeNativeTypeDeclaration(\r\n /** The simple name of the type. */\r\n name: string,\r\n /** Flags indicating specific traits, e.g. `GENERIC`. */\r\n flags: CommonFlags = CommonFlags.NONE\r\n ): TypeDeclaration {\r\n var range = this.nativeSource.range;\r\n var identifier = Node.createIdentifierExpression(name, range);\r\n return Node.createTypeDeclaration(\r\n identifier,\r\n null,\r\n Node.createOmittedType(range),\r\n null, flags, range\r\n );\r\n }\r\n\r\n // a dummy signature for programmatically generated native functions\r\n private nativeDummySignature: SignatureNode | null = null;\r\n\r\n /** Creates a native function declaration. */\r\n makeNativeFunctionDeclaration(\r\n /** The simple name of the function. */\r\n name: string,\r\n /** Flags indicating specific traits, e.g. `DECLARE`. */\r\n flags: CommonFlags = CommonFlags.NONE\r\n ): FunctionDeclaration {\r\n var range = this.nativeSource.range;\r\n return Node.createFunctionDeclaration(\r\n Node.createIdentifierExpression(name, range),\r\n null,\r\n this.nativeDummySignature || (this.nativeDummySignature = Node.createSignature([],\r\n Node.createType( // ^ AST signature doesn't really matter, is overridden anyway\r\n Node.createSimpleTypeName(CommonSymbols.void_, range),\r\n null, false, range\r\n ),\r\n null, false, range)\r\n ),\r\n null, null, flags, ArrowKind.NONE, range\r\n );\r\n }\r\n\r\n /** Creates a native namespace declaration. */\r\n makeNativeNamespaceDeclaration(\r\n /** The simple name of the namespace. */\r\n name: string,\r\n /** Flags indicating specific traits, e.g. `EXPORT`. */\r\n flags: CommonFlags = CommonFlags.NONE\r\n ): NamespaceDeclaration {\r\n var range = this.nativeSource.range;\r\n return Node.createNamespaceDeclaration(\r\n Node.createIdentifierExpression(name, range),\r\n [], null, flags, range\r\n );\r\n }\r\n\r\n /** Creates a native function. */\r\n makeNativeFunction(\r\n /** The simple name of the function. */\r\n name: string,\r\n /** Concrete function signature. */\r\n signature: Signature,\r\n /** Parent element, usually a file, class or namespace. */\r\n parent: Element = this.nativeFile,\r\n /** Flags indicating specific traits, e.g. `GENERIC`. */\r\n flags: CommonFlags = CommonFlags.NONE,\r\n /** Decorator flags representing built-in decorators. */\r\n decoratorFlags: DecoratorFlags = DecoratorFlags.NONE\r\n ): Function {\r\n return new Function(\r\n name,\r\n new FunctionPrototype(\r\n name,\r\n parent,\r\n this.makeNativeFunctionDeclaration(name, flags),\r\n decoratorFlags\r\n ),\r\n signature\r\n );\r\n }\r\n\r\n /** Gets the (possibly merged) program element linked to the specified declaration. */\r\n getElementByDeclaration(declaration: DeclarationStatement): DeclaredElement {\r\n var elementsByDeclaration = this.elementsByDeclaration;\r\n assert(elementsByDeclaration.has(declaration));\r\n return elementsByDeclaration.get(declaration)!;\r\n }\r\n\r\n /** Initializes the program and its elements prior to compilation. */\r\n initialize(options: Options): void {\r\n this.options = options;\r\n\r\n // register native types\r\n this.registerNativeType(CommonSymbols.i8, Type.i8);\r\n this.registerNativeType(CommonSymbols.i16, Type.i16);\r\n this.registerNativeType(CommonSymbols.i32, Type.i32);\r\n this.registerNativeType(CommonSymbols.i64, Type.i64);\r\n this.registerNativeType(CommonSymbols.isize, options.isizeType);\r\n this.registerNativeType(CommonSymbols.u8, Type.u8);\r\n this.registerNativeType(CommonSymbols.u16, Type.u16);\r\n this.registerNativeType(CommonSymbols.u32, Type.u32);\r\n this.registerNativeType(CommonSymbols.u64, Type.u64);\r\n this.registerNativeType(CommonSymbols.usize, options.usizeType);\r\n this.registerNativeType(CommonSymbols.bool, Type.bool);\r\n this.registerNativeType(CommonSymbols.f32, Type.f32);\r\n this.registerNativeType(CommonSymbols.f64, Type.f64);\r\n this.registerNativeType(CommonSymbols.void_, Type.void);\r\n this.registerNativeType(CommonSymbols.number, Type.f64); // alias\r\n this.registerNativeType(CommonSymbols.boolean, Type.bool); // alias\r\n this.nativeFile.add(CommonSymbols.native, new TypeDefinition(\r\n CommonSymbols.native,\r\n this.nativeFile,\r\n this.makeNativeTypeDeclaration(CommonSymbols.native, CommonFlags.EXPORT | CommonFlags.GENERIC),\r\n DecoratorFlags.BUILTIN\r\n ));\r\n if (options.hasFeature(Feature.SIMD)) this.registerNativeType(CommonSymbols.v128, Type.v128);\r\n\r\n // register compiler hints\r\n this.registerConstantInteger(LibrarySymbols.ASC_TARGET, Type.i32,\r\n i64_new(options.isWasm64 ? 2 : 1));\r\n this.registerConstantInteger(LibrarySymbols.ASC_NO_ASSERT, Type.bool,\r\n i64_new(options.noAssert ? 1 : 0, 0));\r\n this.registerConstantInteger(LibrarySymbols.ASC_MEMORY_BASE, Type.i32,\r\n i64_new(options.memoryBase, 0));\r\n this.registerConstantInteger(LibrarySymbols.ASC_OPTIMIZE_LEVEL, Type.i32,\r\n i64_new(options.optimizeLevelHint, 0));\r\n this.registerConstantInteger(LibrarySymbols.ASC_SHRINK_LEVEL, Type.i32,\r\n i64_new(options.shrinkLevelHint, 0));\r\n this.registerConstantInteger(LibrarySymbols.ASC_FEATURE_MUTABLE_GLOBAL, Type.bool,\r\n i64_new(options.hasFeature(Feature.MUTABLE_GLOBAL) ? 1 : 0, 0));\r\n this.registerConstantInteger(LibrarySymbols.ASC_FEATURE_SIGN_EXTENSION, Type.bool,\r\n i64_new(options.hasFeature(Feature.SIGN_EXTENSION) ? 1 : 0, 0));\r\n this.registerConstantInteger(LibrarySymbols.ASC_FEATURE_BULK_MEMORY, Type.bool,\r\n i64_new(options.hasFeature(Feature.BULK_MEMORY) ? 1 : 0, 0));\r\n this.registerConstantInteger(LibrarySymbols.ASC_FEATURE_SIMD, Type.bool,\r\n i64_new(options.hasFeature(Feature.SIMD) ? 1 : 0, 0));\r\n this.registerConstantInteger(LibrarySymbols.ASC_FEATURE_THREADS, Type.bool,\r\n i64_new(options.hasFeature(Feature.THREADS) ? 1 : 0, 0));\r\n\r\n // remember deferred elements\r\n var queuedImports = new Array();\r\n var queuedExports = new Map>();\r\n var queuedExportsStar = new Map();\r\n var queuedExtends = new Array();\r\n var queuedImplements = new Array();\r\n\r\n // initialize relevant declaration-like statements of the entire program\r\n for (let i = 0, k = this.sources.length; i < k; ++i) {\r\n let source = this.sources[i];\r\n let file = new File(this, source);\r\n this.filesByName.set(file.internalName, file);\r\n let statements = source.statements;\r\n for (let j = 0, l = statements.length; j < l; ++j) {\r\n let statement = statements[j];\r\n switch (statement.kind) {\r\n case NodeKind.EXPORT: {\r\n this.initializeExports(statement, file, queuedExports, queuedExportsStar);\r\n break;\r\n }\r\n case NodeKind.IMPORT: {\r\n this.initializeImports(statement, file, queuedImports, queuedExports);\r\n break;\r\n }\r\n case NodeKind.VARIABLE: {\r\n this.initializeVariables(statement, file);\r\n break;\r\n }\r\n case NodeKind.CLASSDECLARATION: {\r\n this.initializeClass(statement, file, queuedExtends, queuedImplements);\r\n break;\r\n }\r\n case NodeKind.ENUMDECLARATION: {\r\n this.initializeEnum(statement, file);\r\n break;\r\n }\r\n case NodeKind.FUNCTIONDECLARATION: {\r\n this.initializeFunction(statement, file);\r\n break;\r\n }\r\n case NodeKind.INTERFACEDECLARATION: {\r\n this.initializeInterface(statement, file);\r\n break;\r\n }\r\n case NodeKind.NAMESPACEDECLARATION: {\r\n this.initializeNamespace(statement, file, queuedExtends, queuedImplements);\r\n break;\r\n }\r\n case NodeKind.TYPEDECLARATION: {\r\n this.initializeTypeDefinition(statement, file);\r\n break;\r\n }\r\n }\r\n }\r\n }\r\n\r\n // queued exports * should be linkable now that all files have been processed\r\n for (let [file, exportsStar] of queuedExportsStar) {\r\n for (let i = 0, k = exportsStar.length; i < k; ++i) {\r\n let exportStar = exportsStar[i];\r\n let foreignFile = this.lookupForeignFile(exportStar.foreignPath, exportStar.foreignPathAlt);\r\n if (!foreignFile) {\r\n this.error(\r\n DiagnosticCode.File_0_not_found,\r\n exportStar.pathLiteral.range, exportStar.pathLiteral.value\r\n );\r\n continue;\r\n }\r\n file.ensureExportStar(foreignFile);\r\n }\r\n }\r\n\r\n // queued imports should be resolvable now through traversing exports and queued exports\r\n for (let i = 0, k = queuedImports.length; i < k; ++i) {\r\n let queuedImport = queuedImports[i];\r\n let foreignIdentifier = queuedImport.foreignIdentifier;\r\n if (foreignIdentifier) { // i.e. import { foo [as bar] } from \"./baz\"\r\n let element = this.lookupForeign(\r\n foreignIdentifier.text,\r\n queuedImport.foreignPath,\r\n queuedImport.foreignPathAlt,\r\n queuedExports\r\n );\r\n if (element) {\r\n queuedImport.localFile.add(\r\n queuedImport.localIdentifier.text,\r\n element,\r\n true // isImport\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Module_0_has_no_exported_member_1,\r\n foreignIdentifier.range,\r\n queuedImport.foreignPath,\r\n foreignIdentifier.text\r\n );\r\n }\r\n } else { // i.e. import * as bar from \"./bar\"\r\n let foreignFile = this.lookupForeignFile(queuedImport.foreignPath, queuedImport.foreignPathAlt);\r\n if (foreignFile) {\r\n let localFile = queuedImport.localFile;\r\n let localName = queuedImport.localIdentifier.text;\r\n localFile.add(\r\n localName,\r\n foreignFile.asImportedNamespace(\r\n localName,\r\n localFile\r\n ),\r\n true // isImport\r\n );\r\n } else {\r\n assert(false); // already reported by the parser not finding the file\r\n }\r\n }\r\n }\r\n\r\n // queued exports should be resolvable now that imports are finalized\r\n for (let [file, exports] of queuedExports) {\r\n for (let [exportName, queuedExport] of exports) {\r\n let localName = queuedExport.localIdentifier.text;\r\n let foreignPath = queuedExport.foreignPath;\r\n if (foreignPath) { // i.e. export { foo [as bar] } from \"./baz\"\r\n let element = this.lookupForeign(\r\n localName,\r\n foreignPath,\r\n assert(queuedExport.foreignPathAlt), // must be set if foreignPath is\r\n queuedExports\r\n );\r\n if (element) {\r\n file.ensureExport(exportName, element);\r\n } else {\r\n this.error(\r\n DiagnosticCode.Module_0_has_no_exported_member_1,\r\n queuedExport.localIdentifier.range,\r\n foreignPath, localName\r\n );\r\n }\r\n } else { // i.e. export { foo [as bar] }\r\n let element = file.lookupInSelf(localName);\r\n if (element) {\r\n file.ensureExport(exportName, element);\r\n } else {\r\n let globalElement = this.lookupGlobal(localName);\r\n if (globalElement && globalElement instanceof DeclaredElement) { // export { memory }\r\n file.ensureExport(exportName, globalElement);\r\n } else {\r\n this.error(\r\n DiagnosticCode.Module_0_has_no_exported_member_1,\r\n queuedExport.foreignIdentifier.range,\r\n file.internalName, queuedExport.foreignIdentifier.text\r\n );\r\n }\r\n }\r\n }\r\n }\r\n }\r\n\r\n // register classes backing basic types\r\n this.registerNativeTypeClass(TypeKind.I8, LibrarySymbols.I8);\r\n this.registerNativeTypeClass(TypeKind.I16, LibrarySymbols.I16);\r\n this.registerNativeTypeClass(TypeKind.I32, LibrarySymbols.I32);\r\n this.registerNativeTypeClass(TypeKind.I64, LibrarySymbols.I64);\r\n this.registerNativeTypeClass(TypeKind.ISIZE, LibrarySymbols.Isize);\r\n this.registerNativeTypeClass(TypeKind.U8, LibrarySymbols.U8);\r\n this.registerNativeTypeClass(TypeKind.U16, LibrarySymbols.U16);\r\n this.registerNativeTypeClass(TypeKind.U32, LibrarySymbols.U32);\r\n this.registerNativeTypeClass(TypeKind.U64, LibrarySymbols.U64);\r\n this.registerNativeTypeClass(TypeKind.USIZE, LibrarySymbols.Usize);\r\n this.registerNativeTypeClass(TypeKind.BOOL, LibrarySymbols.Bool);\r\n this.registerNativeTypeClass(TypeKind.F32, LibrarySymbols.F32);\r\n this.registerNativeTypeClass(TypeKind.F64, LibrarySymbols.F64);\r\n if (options.hasFeature(Feature.SIMD)) this.registerNativeTypeClass(TypeKind.V128, LibrarySymbols.V128);\r\n\r\n // resolve base prototypes of derived classes\r\n var resolver = this.resolver;\r\n for (let i = 0, k = queuedExtends.length; i < k; ++i) {\r\n let thisPrototype = queuedExtends[i];\r\n let extendsNode = assert(thisPrototype.extendsNode); // must be present if in queuedExtends\r\n let baseElement = resolver.resolveTypeName(extendsNode.name, thisPrototype.parent); // reports\r\n if (!baseElement) continue;\r\n if (baseElement.kind == ElementKind.CLASS_PROTOTYPE) {\r\n let basePrototype = baseElement;\r\n if (basePrototype.hasDecorator(DecoratorFlags.SEALED)) {\r\n this.error(\r\n DiagnosticCode.Class_0_is_sealed_and_cannot_be_extended,\r\n extendsNode.range, (baseElement).identifierNode.text\r\n );\r\n }\r\n if (\r\n basePrototype.hasDecorator(DecoratorFlags.UNMANAGED) !=\r\n thisPrototype.hasDecorator(DecoratorFlags.UNMANAGED)\r\n ) {\r\n this.error(\r\n DiagnosticCode.Unmanaged_classes_cannot_extend_managed_classes_and_vice_versa,\r\n Range.join(thisPrototype.identifierNode.range, extendsNode.range)\r\n );\r\n }\r\n thisPrototype.basePrototype = basePrototype;\r\n } else {\r\n this.error(\r\n DiagnosticCode.A_class_may_only_extend_another_class,\r\n extendsNode.range\r\n );\r\n }\r\n }\r\n\r\n // set up global aliases\r\n {\r\n let globalAliases = options.globalAliases;\r\n if (globalAliases) {\r\n for (let [alias, name] of globalAliases) {\r\n if (!name.length) continue; // explicitly disabled\r\n let elementsByName = this.elementsByName;\r\n let element = elementsByName.get(name);\r\n if (element) {\r\n if (elementsByName.has(alias)) throw new Error(\"duplicate global element: \" + name);\r\n elementsByName.set(alias, element);\r\n }\r\n else throw new Error(\"no such global element: \" + name);\r\n }\r\n }\r\n }\r\n\r\n // register global library elements\r\n {\r\n let element: Element | null;\r\n if (element = this.lookupGlobal(LibrarySymbols.String)) {\r\n assert(element.kind == ElementKind.CLASS_PROTOTYPE);\r\n this.stringInstance = resolver.resolveClass(element, null);\r\n }\r\n if (element = this.lookupGlobal(LibrarySymbols.ArrayBuffer)) {\r\n assert(element.kind == ElementKind.CLASS_PROTOTYPE);\r\n this.arrayBufferInstance = resolver.resolveClass(element, null);\r\n }\r\n if (element = this.lookupGlobal(LibrarySymbols.Array)) {\r\n assert(element.kind == ElementKind.CLASS_PROTOTYPE);\r\n this.arrayPrototype = element;\r\n }\r\n if (element = this.lookupGlobal(LibrarySymbols.abort)) {\r\n assert(element.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n this.abortInstance = this.resolver.resolveFunction(element, null);\r\n }\r\n if (element = this.lookupGlobal(LibrarySymbols.memory)) {\r\n if (element = element.lookupInSelf(LibrarySymbols.allocate)) {\r\n assert(element.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n this.memoryAllocateInstance = this.resolver.resolveFunction(element, null);\r\n }\r\n }\r\n }\r\n\r\n // register GC hooks if present\r\n // FIXME: think about a better way than globals to model this, maybe a GC namespace that can be\r\n // dynamically extended by a concrete implementation but then has `@unsafe` methods that normal\r\n // code cannot call without explicitly enabling it with a flag.\r\n if (\r\n this.elementsByName.has(\"__gc_allocate\") &&\r\n this.elementsByName.has(\"__gc_link\") &&\r\n this.elementsByName.has(\"__gc_mark\")\r\n ) {\r\n // __gc_allocate(usize, (ref: usize) => void): usize\r\n let element = this.elementsByName.get(\"__gc_allocate\");\r\n assert(element.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n let gcAllocateInstance = assert(this.resolver.resolveFunction(element, null));\r\n let signature = gcAllocateInstance.signature;\r\n assert(signature.parameterTypes.length == 2);\r\n assert(signature.parameterTypes[0] == this.options.usizeType);\r\n assert(signature.parameterTypes[1].signatureReference);\r\n assert(signature.returnType == this.options.usizeType);\r\n\r\n // __gc_link(usize, usize): void\r\n element = this.elementsByName.get(\"__gc_link\");\r\n assert(element.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n let gcLinkInstance = assert(this.resolver.resolveFunction(element, null));\r\n signature = gcLinkInstance.signature;\r\n assert(signature.parameterTypes.length == 2);\r\n assert(signature.parameterTypes[0] == this.options.usizeType);\r\n assert(signature.parameterTypes[1] == this.options.usizeType);\r\n assert(signature.returnType == Type.void);\r\n\r\n // __gc_mark(usize): void\r\n element = this.elementsByName.get(\"__gc_mark\");\r\n assert(element.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n let gcMarkInstance = assert(this.resolver.resolveFunction(element, null));\r\n signature = gcMarkInstance.signature;\r\n assert(signature.parameterTypes.length == 1);\r\n assert(signature.parameterTypes[0] == this.options.usizeType);\r\n assert(signature.returnType == Type.void);\r\n\r\n this.gcAllocateInstance = gcAllocateInstance;\r\n this.gcLinkInstance = gcLinkInstance;\r\n this.gcMarkInstance = gcMarkInstance;\r\n let gcHookOffset = 2 * options.usizeType.byteSize; // .next + .prev\r\n this.gcHookOffset = gcHookOffset;\r\n this.gcHeaderSize = (gcHookOffset + 4 + 7) & ~7; // + .hook index + alignment\r\n this.hasGC = true;\r\n }\r\n\r\n // mark module exports, i.e. to apply proper wrapping behavior on the boundaries\r\n for (let file of this.filesByName.values()) {\r\n let exports = file.exports;\r\n if (!(file.source.isEntry && exports)) continue;\r\n for (let element of exports.values()) this.markModuleExport(element);\r\n }\r\n }\r\n\r\n /** Marks an element and its children as a module export. */\r\n private markModuleExport(element: Element): void {\r\n element.set(CommonFlags.MODULE_EXPORT);\r\n switch (element.kind) {\r\n case ElementKind.CLASS_PROTOTYPE: {\r\n let instanceMembers = (element).instanceMembers;\r\n if (instanceMembers) for (let member of instanceMembers.values()) this.markModuleExport(member);\r\n break;\r\n }\r\n case ElementKind.PROPERTY_PROTOTYPE: {\r\n let getterPrototype = (element).getterPrototype;\r\n if (getterPrototype) this.markModuleExport(getterPrototype);\r\n let setterPrototype = (element).setterPrototype;\r\n if (setterPrototype) this.markModuleExport(setterPrototype);\r\n break;\r\n }\r\n case ElementKind.PROPERTY:\r\n case ElementKind.FUNCTION:\r\n case ElementKind.FIELD:\r\n case ElementKind.CLASS: assert(false); // assumes that there are no instances yet\r\n }\r\n {\r\n let members = element.members;\r\n if (members) for (let member of members.values()) this.markModuleExport(member);\r\n }\r\n }\r\n\r\n /** Registers a native type with the program. */\r\n private registerNativeType(name: string, type: Type): void {\r\n var element = new TypeDefinition(\r\n name,\r\n this.nativeFile,\r\n this.makeNativeTypeDeclaration(name, CommonFlags.EXPORT),\r\n DecoratorFlags.BUILTIN\r\n );\r\n element.setType(type);\r\n this.nativeFile.add(name, element);\r\n }\r\n\r\n /** Registers the backing class of a native type. */\r\n private registerNativeTypeClass(typeKind: TypeKind, className: string): void {\r\n assert(!this.typeClasses.has(typeKind));\r\n var element = this.lookupGlobal(className);\r\n if (element) {\r\n assert(element.kind == ElementKind.CLASS_PROTOTYPE);\r\n let classElement = this.resolver.resolveClass(element, null);\r\n if (classElement) this.typeClasses.set(typeKind, classElement);\r\n }\r\n }\r\n\r\n /** Registers a constant integer value within the global scope. */\r\n private registerConstantInteger(name: string, type: Type, value: I64): void {\r\n assert(type.is(TypeFlags.INTEGER)); // must be an integer type\r\n var global = new Global(\r\n name,\r\n this.nativeFile,\r\n DecoratorFlags.NONE,\r\n this.makeNativeVariableDeclaration(name, CommonFlags.CONST | CommonFlags.EXPORT)\r\n );\r\n global.setConstantIntegerValue(value, type);\r\n this.nativeFile.add(name, global);\r\n }\r\n\r\n /** Registers a constant float value within the global scope. */\r\n private registerConstantFloat(name: string, type: Type, value: f64): void {\r\n assert(type.is(TypeFlags.FLOAT)); // must be a float type\r\n var global = new Global(\r\n name,\r\n this.nativeFile,\r\n DecoratorFlags.NONE,\r\n this.makeNativeVariableDeclaration(name, CommonFlags.CONST | CommonFlags.EXPORT)\r\n );\r\n global.setConstantFloatValue(value, type);\r\n this.nativeFile.add(name, global);\r\n }\r\n\r\n /** Ensures that the given global element exists. Attempts to merge duplicates. */\r\n ensureGlobal(name: string, element: DeclaredElement): void {\r\n var elementsByName = this.elementsByName;\r\n if (elementsByName.has(name)) {\r\n let actual = elementsByName.get(name);\r\n // NOTE: this is effectively only performed when merging native types with\r\n // their respective namespaces in std/builtins, but can also trigger when a\r\n // user has multiple global elements of the same name in different files,\r\n // which might result in unexpected shared symbols accross files. considering\r\n // this a wonky feature for now that we might want to revisit later.\r\n if (actual !== element) {\r\n let merged = tryMerge(elementsByName.get(name)!, element);\r\n if (!merged) {\r\n this.error(\r\n DiagnosticCode.Duplicate_identifier_0,\r\n element.identifierNode.range, name\r\n );\r\n return;\r\n }\r\n element = merged;\r\n }\r\n }\r\n elementsByName.set(name, element);\r\n }\r\n\r\n /** Looks up the element of the specified name in the global scope. */\r\n lookupGlobal(name: string): Element | null {\r\n var elements = this.elementsByName;\r\n if (elements.has(name)) return elements.get(name);\r\n return null;\r\n }\r\n\r\n /** Tries to locate a foreign file given its normalized path. */\r\n private lookupForeignFile(\r\n /** Normalized path to the other file. */\r\n foreignPath: string,\r\n /** Alternative normalized path to the other file. */\r\n foreignPathAlt: string\r\n ): File | null {\r\n var filesByName = this.filesByName;\r\n return filesByName.has(foreignPath)\r\n ? filesByName.get(foreignPath)!\r\n : filesByName.has(foreignPathAlt)\r\n ? filesByName.get(foreignPathAlt)!\r\n : null;\r\n }\r\n\r\n /** Tries to locate a foreign element by traversing exports and queued exports. */\r\n private lookupForeign(\r\n /** Identifier within the other file. */\r\n foreignName: string,\r\n /** Normalized path to the other file. */\r\n foreignPath: string,\r\n /** Alternative normalized path to the other file. */\r\n foreignPathAlt: string,\r\n /** So far queued exports. */\r\n queuedExports: Map>\r\n ): DeclaredElement | null {\r\n do {\r\n let foreignFile = this.lookupForeignFile(foreignPath, foreignPathAlt);\r\n if (!foreignFile) return null; // no such file\r\n\r\n // search already resolved exports\r\n let element = foreignFile.lookupExport(foreignName);\r\n if (element) return element;\r\n\r\n // otherwise traverse queued exports\r\n if (queuedExports.has(foreignFile)) {\r\n let fileQueuedExports = queuedExports.get(foreignFile)!;\r\n if (fileQueuedExports.has(foreignName)) {\r\n let queuedExport = fileQueuedExports.get(foreignName)!;\r\n if (queuedExport.foreignPath) { // imported from another file\r\n foreignName = queuedExport.localIdentifier.text;\r\n foreignPath = queuedExport.foreignPath;\r\n foreignPathAlt = assert(queuedExport.foreignPathAlt);\r\n continue;\r\n } else { // local element of this file\r\n element = foreignFile.lookupInSelf(queuedExport.localIdentifier.text);\r\n if (element) return element;\r\n }\r\n }\r\n }\r\n break;\r\n } while (true);\r\n return null;\r\n }\r\n\r\n /** Validates that only supported decorators are present. */\r\n private checkDecorators(\r\n /** Decorators present on an element. */\r\n decorators: DecoratorNode[] | null,\r\n /** Accepted decorator flags. Emits diagnostics if any other decorators are present. */\r\n acceptedFlags: DecoratorFlags\r\n ): DecoratorFlags {\r\n var flags = DecoratorFlags.NONE;\r\n if (decorators) {\r\n for (let i = 0, k = decorators.length; i < k; ++i) {\r\n let decorator = decorators[i];\r\n let kind = decoratorNameToKind(decorator.name);\r\n let flag = decoratorKindToFlag(kind);\r\n if (flag) {\r\n if (flag == DecoratorFlags.BUILTIN) {\r\n if (decorator.range.source.isLibrary) {\r\n flags |= flag;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Decorator_0_is_not_valid_here,\r\n decorator.range, decorator.name.range.toString()\r\n );\r\n }\r\n } else if (!(acceptedFlags & flag)) {\r\n this.error(\r\n DiagnosticCode.Decorator_0_is_not_valid_here,\r\n decorator.range, decorator.name.range.toString()\r\n );\r\n } else if (flags & flag) {\r\n this.error(\r\n DiagnosticCode.Duplicate_decorator,\r\n decorator.range, decorator.name.range.toString()\r\n );\r\n } else {\r\n flags |= flag;\r\n }\r\n }\r\n }\r\n }\r\n return flags;\r\n }\r\n\r\n /** Initializes a class declaration. */\r\n private initializeClass(\r\n /** The declaration to initialize. */\r\n declaration: ClassDeclaration,\r\n /** Parent element, usually a file or namespace. */\r\n parent: Element,\r\n /** So far queued `extends` clauses. */\r\n queuedExtends: ClassPrototype[],\r\n /** So far queued `implements` clauses. */\r\n queuedImplements: ClassPrototype[]\r\n ): void {\r\n var name = declaration.name.text;\r\n var element = new ClassPrototype(\r\n name,\r\n parent,\r\n declaration,\r\n this.checkDecorators(declaration.decorators,\r\n DecoratorFlags.GLOBAL |\r\n DecoratorFlags.SEALED |\r\n DecoratorFlags.UNMANAGED\r\n )\r\n );\r\n if (!parent.add(name, element)) return;\r\n\r\n var implementsTypes = declaration.implementsTypes;\r\n if (implementsTypes) {\r\n let numImplementsTypes = implementsTypes.length;\r\n // cannot implement interfaces when unmanaged\r\n if (element.hasDecorator(DecoratorFlags.UNMANAGED)) {\r\n if (numImplementsTypes) {\r\n this.error(\r\n DiagnosticCode.Unmanaged_classes_cannot_implement_interfaces,\r\n Range.join(\r\n declaration.name.range,\r\n implementsTypes[numImplementsTypes - 1].range\r\n )\r\n );\r\n }\r\n } else if (numImplementsTypes) {\r\n // remember classes that implement interfaces\r\n for (let i = 0; i < numImplementsTypes; ++i) {\r\n this.warning( // TODO: not yet supported\r\n DiagnosticCode.Operation_not_supported,\r\n implementsTypes[i].range\r\n );\r\n }\r\n queuedImplements.push(element);\r\n }\r\n }\r\n // remember classes that extend another class\r\n if (declaration.extendsType) queuedExtends.push(element);\r\n\r\n // initialize members\r\n var memberDeclarations = declaration.members;\r\n for (let i = 0, k = memberDeclarations.length; i < k; ++i) {\r\n let memberDeclaration = memberDeclarations[i];\r\n switch (memberDeclaration.kind) {\r\n case NodeKind.FIELDDECLARATION: {\r\n this.initializeField(memberDeclaration, element);\r\n break;\r\n }\r\n case NodeKind.METHODDECLARATION: {\r\n if (memberDeclaration.isAny(CommonFlags.GET | CommonFlags.SET)) {\r\n this.initializeProperty(memberDeclaration, element);\r\n } else {\r\n this.initializeMethod(memberDeclaration, element);\r\n }\r\n break;\r\n }\r\n case NodeKind.INDEXSIGNATUREDECLARATION: break; // ignored for now\r\n default: assert(false); // class member expected\r\n }\r\n }\r\n }\r\n\r\n /** Initializes a field of a class or interface. */\r\n private initializeField(\r\n /** The declaration to initialize. */\r\n declaration: FieldDeclaration,\r\n /** Parent class. */\r\n parent: ClassPrototype\r\n ): void {\r\n var name = declaration.name.text;\r\n var decorators = declaration.decorators;\r\n var element: DeclaredElement;\r\n if (declaration.is(CommonFlags.STATIC)) { // global variable\r\n assert(parent.kind != ElementKind.INTERFACE_PROTOTYPE);\r\n element = new Global(\r\n name,\r\n parent,\r\n this.checkDecorators(decorators,\r\n (declaration.is(CommonFlags.READONLY)\r\n ? DecoratorFlags.INLINE\r\n : DecoratorFlags.NONE\r\n ) | DecoratorFlags.LAZY\r\n ),\r\n declaration\r\n );\r\n if (!parent.add(name, element)) return;\r\n } else { // actual instance field\r\n assert(!declaration.isAny(CommonFlags.ABSTRACT | CommonFlags.GET | CommonFlags.SET));\r\n element = new FieldPrototype(\r\n name,\r\n parent,\r\n declaration,\r\n this.checkDecorators(decorators, DecoratorFlags.NONE)\r\n );\r\n if (!parent.addInstance(name, element)) return;\r\n }\r\n }\r\n\r\n /** Initializes a method of a class or interface. */\r\n private initializeMethod(\r\n /** The declaration to initialize. */\r\n declaration: MethodDeclaration,\r\n /** Parent class. */\r\n parent: ClassPrototype\r\n ): void {\r\n var name = declaration.name.text;\r\n var isStatic = declaration.is(CommonFlags.STATIC);\r\n var acceptedFlags = DecoratorFlags.INLINE;\r\n if (!declaration.is(CommonFlags.GENERIC)) {\r\n acceptedFlags |= DecoratorFlags.OPERATOR_BINARY\r\n | DecoratorFlags.OPERATOR_PREFIX\r\n | DecoratorFlags.OPERATOR_POSTFIX;\r\n }\r\n var element = new FunctionPrototype(\r\n name,\r\n parent,\r\n declaration,\r\n this.checkDecorators(declaration.decorators, acceptedFlags)\r\n );\r\n if (isStatic) { // global function\r\n assert(declaration.name.kind != NodeKind.CONSTRUCTOR);\r\n if (!parent.add(name, element)) return;\r\n } else { // actual instance method\r\n if (!parent.addInstance(name, element)) return;\r\n }\r\n this.checkOperatorOverloads(declaration.decorators, element, parent);\r\n }\r\n\r\n /** Checks that operator overloads are generally valid, if present. */\r\n private checkOperatorOverloads(\r\n /** Decorators to check. */\r\n decorators: DecoratorNode[] | null,\r\n /** Decorated method. */\r\n prototype: FunctionPrototype,\r\n /** Parent class. */\r\n classPrototype: ClassPrototype\r\n ): void {\r\n if (decorators) {\r\n for (let i = 0, k = decorators.length; i < k; ++i) {\r\n let decorator = decorators[i];\r\n switch (decorator.decoratorKind) {\r\n case DecoratorKind.OPERATOR:\r\n case DecoratorKind.OPERATOR_BINARY:\r\n case DecoratorKind.OPERATOR_PREFIX:\r\n case DecoratorKind.OPERATOR_POSTFIX: {\r\n let numArgs = decorator.arguments && decorator.arguments.length || 0;\r\n if (numArgs == 1) {\r\n let firstArg = (decorator.arguments)[0];\r\n if (\r\n firstArg.kind == NodeKind.LITERAL &&\r\n (firstArg).literalKind == LiteralKind.STRING\r\n ) {\r\n let kind = operatorKindFromDecorator(\r\n decorator.decoratorKind,\r\n (firstArg).value\r\n );\r\n if (kind == OperatorKind.INVALID) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n firstArg.range\r\n );\r\n } else {\r\n let overloads = classPrototype.overloadPrototypes;\r\n if (overloads.has(kind)) {\r\n this.error(\r\n DiagnosticCode.Duplicate_function_implementation,\r\n firstArg.range\r\n );\r\n } else {\r\n prototype.operatorKind = kind;\r\n overloads.set(kind, prototype);\r\n }\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode.String_literal_expected,\r\n firstArg.range\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n decorator.range, \"1\", numArgs.toString(10)\r\n );\r\n }\r\n }\r\n }\r\n }\r\n }\r\n }\r\n\r\n /** Ensures that the property introduced by the specified getter or setter exists.*/\r\n private ensureProperty(\r\n /** The declaration of the getter or setter introducing the property. */\r\n declaration: MethodDeclaration,\r\n /** Parent class. */\r\n parent: ClassPrototype\r\n ): PropertyPrototype | null {\r\n var name = declaration.name.text;\r\n if (declaration.is(CommonFlags.STATIC)) {\r\n let parentMembers = parent.members;\r\n if (parentMembers && parentMembers.has(name)) {\r\n let element = parentMembers.get(name)!;\r\n if (element.kind == ElementKind.PROPERTY_PROTOTYPE) return element;\r\n } else {\r\n let element = new PropertyPrototype(name, parent, declaration);\r\n if (!parent.add(name, element)) return null;\r\n return element;\r\n }\r\n } else {\r\n let parentMembers = parent.instanceMembers;\r\n if (parentMembers && parentMembers.has(name)) {\r\n let element = parentMembers.get(name);\r\n if (element.kind == ElementKind.PROPERTY_PROTOTYPE) return element;\r\n } else {\r\n let element = new PropertyPrototype(name, parent, declaration);\r\n if (!parent.addInstance(name, element)) return null;\r\n return element;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Duplicate_property_0,\r\n declaration.name.range, name\r\n );\r\n return null;\r\n }\r\n\r\n /** Initializes a property of a class. */\r\n private initializeProperty(\r\n /** The declaration of the getter or setter. */\r\n declaration: MethodDeclaration,\r\n /** Parent class. */\r\n parent: ClassPrototype\r\n ): void {\r\n var property = this.ensureProperty(declaration, parent);\r\n if (!property) return;\r\n var name = declaration.name.text;\r\n var isGetter = declaration.is(CommonFlags.GET);\r\n if (isGetter) {\r\n if (property.getterPrototype) {\r\n this.error(\r\n DiagnosticCode.Duplicate_property_0,\r\n declaration.name.range, name\r\n );\r\n return;\r\n }\r\n } else {\r\n if (property.setterPrototype) {\r\n this.error(\r\n DiagnosticCode.Duplicate_property_0,\r\n declaration.name.range, name\r\n );\r\n return;\r\n }\r\n }\r\n var element = new FunctionPrototype(\r\n (isGetter ? GETTER_PREFIX : SETTER_PREFIX) + name,\r\n property,\r\n declaration,\r\n this.checkDecorators(declaration.decorators,\r\n DecoratorFlags.INLINE\r\n )\r\n );\r\n if (isGetter) {\r\n property.getterPrototype = element;\r\n } else {\r\n property.setterPrototype = element;\r\n }\r\n }\r\n\r\n /** Initializes an enum. */\r\n private initializeEnum(\r\n /** The declaration to initialize. */\r\n declaration: EnumDeclaration,\r\n /** Parent element, usually a file or namespace. */\r\n parent: Element\r\n ): void {\r\n var name = declaration.name.text;\r\n var element = new Enum(\r\n name,\r\n parent,\r\n declaration,\r\n this.checkDecorators(declaration.decorators,\r\n DecoratorFlags.GLOBAL |\r\n DecoratorFlags.INLINE |\r\n DecoratorFlags.LAZY\r\n )\r\n );\r\n if (!parent.add(name, element)) return;\r\n var values = declaration.values;\r\n for (let i = 0, k = values.length; i < k; ++i) {\r\n this.initializeEnumValue(values[i], element);\r\n }\r\n }\r\n\r\n /** Initializes an enum value. */\r\n private initializeEnumValue(\r\n /** The declaration to initialize. */\r\n declaration: EnumValueDeclaration,\r\n /** Parent enum. */\r\n parent: Enum\r\n ): void {\r\n var name = declaration.name.text;\r\n var element = new EnumValue(\r\n name,\r\n parent,\r\n declaration,\r\n this.checkDecorators(declaration.decorators,\r\n DecoratorFlags.NONE\r\n )\r\n );\r\n if (!parent.add(name, element)) return;\r\n }\r\n\r\n /** Initializes an `export` statement. */\r\n private initializeExports(\r\n /** The statement to initialize. */\r\n statement: ExportStatement,\r\n /** Parent file. */\r\n parent: File,\r\n /** So far queued `export`s. */\r\n queuedExports: Map>,\r\n /** So far queued `export *`s. */\r\n queuedExportsStar: Map\r\n ): void {\r\n var members = statement.members;\r\n if (members) { // export { foo, bar } [from \"./baz\"]\r\n for (let i = 0, k = members.length; i < k; ++i) {\r\n this.initializeExport(members[i], parent, statement.internalPath, queuedExports);\r\n }\r\n } else { // export * from \"./baz\"\r\n let queued: QueuedExportStar[];\r\n if (queuedExportsStar.has(parent)) queued = queuedExportsStar.get(parent)!;\r\n else queuedExportsStar.set(parent, queued = []);\r\n let foreignPath = assert(statement.internalPath); // must be set for export *\r\n queued.push(new QueuedExportStar(\r\n foreignPath,\r\n foreignPath.endsWith(INDEX_SUFFIX) // strip or add index depending on what's already present\r\n ? foreignPath.substring(0, foreignPath.length - INDEX_SUFFIX.length)\r\n : foreignPath + INDEX_SUFFIX,\r\n assert(statement.path)\r\n ));\r\n }\r\n }\r\n\r\n /** Initializes a single `export` member. Does not handle `export *`. */\r\n private initializeExport(\r\n /** The member to initialize. */\r\n member: ExportMember,\r\n /** Local file. */\r\n localFile: File,\r\n /** Path to the other file, if present. */\r\n foreignPath: string | null,\r\n /** So far queued `export`s. */\r\n queuedExports: Map>\r\n ): void {\r\n var localName = member.localName.text;\r\n var foreignName = member.exportedName.text;\r\n\r\n // check for duplicates\r\n var element = localFile.lookupExport(foreignName);\r\n if (element) {\r\n this.error(\r\n DiagnosticCode.Export_declaration_conflicts_with_exported_declaration_of_0,\r\n member.exportedName.range, foreignName\r\n );\r\n return;\r\n }\r\n // local element, i.e. export { foo [as bar] }\r\n if (foreignPath === null) {\r\n\r\n // resolve right away if the local element already exists\r\n if (element = localFile.lookupInSelf(localName)) {\r\n localFile.ensureExport(foreignName, element);\r\n\r\n // otherwise queue it\r\n } else {\r\n let queued: Map;\r\n if (queuedExports.has(localFile)) queued = queuedExports.get(localFile)!;\r\n else queuedExports.set(localFile, queued = new Map());\r\n queued.set(foreignName, new QueuedExport(\r\n member.localName,\r\n member.exportedName,\r\n null, null\r\n ));\r\n }\r\n\r\n // foreign element, i.e. export { foo } from \"./bar\"\r\n } else {\r\n let queued: Map;\r\n if (queuedExports.has(localFile)) queued = queuedExports.get(localFile)!;\r\n else queuedExports.set(localFile, queued = new Map());\r\n queued.set(foreignName, new QueuedExport(\r\n member.localName,\r\n member.exportedName,\r\n foreignPath,\r\n foreignPath.endsWith(INDEX_SUFFIX) // strip or add index depending on what's already present\r\n ? foreignPath.substring(0, foreignPath.length - INDEX_SUFFIX.length)\r\n : foreignPath + INDEX_SUFFIX\r\n ));\r\n }\r\n }\r\n\r\n /** Initializes an `import` statement. */\r\n private initializeImports(\r\n /** The statement to initialize. */\r\n statement: ImportStatement,\r\n /** Parent file. */\r\n parent: File,\r\n /** So far queued `import`s. */\r\n queuedImports: QueuedImport[],\r\n /** SO far queued `export`s. */\r\n queuedExports: Map>\r\n ): void {\r\n var declarations = statement.declarations;\r\n if (declarations) { // import { foo [as bar] } from \"./baz\"\r\n for (let i = 0, k = declarations.length; i < k; ++i) {\r\n this.initializeImport(\r\n declarations[i],\r\n parent,\r\n statement.internalPath,\r\n queuedImports,\r\n queuedExports\r\n );\r\n }\r\n } else if (statement.namespaceName) { // import * as foo from \"./bar\"\r\n queuedImports.push(new QueuedImport(\r\n parent,\r\n statement.namespaceName,\r\n null, // indicates import *\r\n statement.internalPath,\r\n statement.internalPath + INDEX_SUFFIX\r\n ));\r\n } else {\r\n // import \"./foo\"\r\n }\r\n }\r\n\r\n /** Initializes a single `import` declaration. Does not handle `import *`. */\r\n private initializeImport( // { foo [as bar] }\r\n /** The declaration to initialize. */\r\n declaration: ImportDeclaration,\r\n /** Parent file. */\r\n parent: File,\r\n /** Path to the other file. */\r\n foreignPath: string,\r\n /** So far queued `import`s. */\r\n queuedImports: QueuedImport[],\r\n /** So far queued `export`s. */\r\n queuedExports: Map>\r\n ): void {\r\n var foreignPathAlt = foreignPath.endsWith(INDEX_SUFFIX) // strip or add index depending on what's already present\r\n ? foreignPath.substring(0, foreignPath.length - INDEX_SUFFIX.length)\r\n : foreignPath + INDEX_SUFFIX;\r\n\r\n // resolve right away if the element exists\r\n var element = this.lookupForeign(declaration.foreignName.text, foreignPath, foreignPathAlt, queuedExports);\r\n if (element) {\r\n parent.add(declaration.name.text, element, true);\r\n return;\r\n }\r\n\r\n // otherwise queue it\r\n queuedImports.push(new QueuedImport(\r\n parent,\r\n declaration.name,\r\n declaration.foreignName,\r\n foreignPath,\r\n foreignPathAlt\r\n ));\r\n }\r\n\r\n /** Initializes a function. Does not handle methods. */\r\n private initializeFunction(\r\n /** The declaration to initialize. */\r\n declaration: FunctionDeclaration,\r\n /** Parent element, usually a file or namespace. */\r\n parent: Element\r\n ): void {\r\n var name = declaration.name.text;\r\n var validDecorators = DecoratorFlags.NONE;\r\n if (declaration.is(CommonFlags.AMBIENT)) {\r\n validDecorators |= DecoratorFlags.EXTERNAL;\r\n } else {\r\n validDecorators |= DecoratorFlags.INLINE;\r\n }\r\n if (!declaration.is(CommonFlags.INSTANCE)) {\r\n if (parent.kind != ElementKind.CLASS_PROTOTYPE) {\r\n validDecorators |= DecoratorFlags.GLOBAL;\r\n }\r\n }\r\n if (!declaration.is(CommonFlags.GENERIC)) {\r\n if (parent.kind == ElementKind.FILE && (parent).source.isEntry) {\r\n validDecorators |= DecoratorFlags.START;\r\n }\r\n }\r\n var element = new FunctionPrototype(\r\n name,\r\n parent,\r\n declaration,\r\n this.checkDecorators(declaration.decorators, validDecorators)\r\n );\r\n if (!parent.add(name, element)) return;\r\n if (element.hasDecorator(DecoratorFlags.START)) {\r\n if (this.explicitStartFunction) {\r\n this.error(\r\n DiagnosticCode.Module_cannot_have_multiple_start_functions,\r\n assert(findDecorator(DecoratorKind.START, declaration.decorators)).range\r\n );\r\n } else this.explicitStartFunction = element;\r\n }\r\n }\r\n\r\n /** Initializes an interface. */\r\n private initializeInterface(\r\n /** The declaration to initialize. */\r\n declaration: InterfaceDeclaration,\r\n /** Parent element, usually a file or namespace. */\r\n parent: Element\r\n ): void {\r\n var name = declaration.name.text;\r\n var element = new InterfacePrototype(\r\n name,\r\n parent,\r\n declaration,\r\n this.checkDecorators(declaration.decorators,\r\n DecoratorFlags.GLOBAL\r\n )\r\n );\r\n if (!parent.add(name, element)) return;\r\n var memberDeclarations = declaration.members;\r\n for (let i = 0, k = memberDeclarations.length; i < k; ++i) {\r\n let memberDeclaration = memberDeclarations[i];\r\n switch (memberDeclaration.kind) {\r\n case NodeKind.FIELDDECLARATION: {\r\n this.initializeField(memberDeclaration, element);\r\n break;\r\n }\r\n case NodeKind.METHODDECLARATION: {\r\n if (memberDeclaration.isAny(CommonFlags.GET | CommonFlags.SET)) {\r\n this.initializeProperty(memberDeclaration, element);\r\n } else {\r\n this.initializeMethod(memberDeclaration, element);\r\n }\r\n break;\r\n }\r\n default: assert(false); // interface member expected\r\n }\r\n }\r\n }\r\n\r\n /** Initializes a namespace. */\r\n private initializeNamespace(\r\n /** The declaration to initialize. */\r\n declaration: NamespaceDeclaration,\r\n /** Parent element, usually a file or another namespace. */\r\n parent: Element,\r\n /** So far queued `extends` clauses. */\r\n queuedExtends: ClassPrototype[],\r\n /** So far queued `implements` clauses. */\r\n queuedImplements: ClassPrototype[]\r\n ): void {\r\n var name = declaration.name.text;\r\n var element = new Namespace(name, parent, declaration);\r\n if (!parent.add(name, element)) return;\r\n element = assert(parent.lookupInSelf(name)); // possibly merged\r\n var members = declaration.members;\r\n for (let i = 0, k = members.length; i < k; ++i) {\r\n let member = members[i];\r\n switch (member.kind) {\r\n case NodeKind.CLASSDECLARATION: {\r\n this.initializeClass(member, element, queuedExtends, queuedImplements);\r\n break;\r\n }\r\n case NodeKind.ENUMDECLARATION: {\r\n this.initializeEnum(member, element);\r\n break;\r\n }\r\n case NodeKind.FUNCTIONDECLARATION: {\r\n this.initializeFunction(member, element);\r\n break;\r\n }\r\n case NodeKind.INTERFACEDECLARATION: {\r\n this.initializeInterface(member, element);\r\n break;\r\n }\r\n case NodeKind.NAMESPACEDECLARATION: {\r\n this.initializeNamespace(member, element, queuedExtends, queuedImplements);\r\n break;\r\n }\r\n case NodeKind.TYPEDECLARATION: {\r\n this.initializeTypeDefinition(member, element);\r\n break;\r\n }\r\n case NodeKind.VARIABLE: {\r\n this.initializeVariables(member, element);\r\n break;\r\n }\r\n default: assert(false); // namespace member expected\r\n }\r\n }\r\n }\r\n\r\n /** Initializes a `type` definition. */\r\n private initializeTypeDefinition(\r\n /** The declaration to initialize. */\r\n declaration: TypeDeclaration,\r\n /** Parent element, usually a file or namespace. */\r\n parent: Element\r\n ): void {\r\n var name = declaration.name.text;\r\n var element = new TypeDefinition(\r\n name,\r\n parent,\r\n declaration,\r\n this.checkDecorators(declaration.decorators, DecoratorFlags.NONE)\r\n );\r\n parent.add(name, element); // reports\r\n }\r\n\r\n /** Initializes a variable statement. */\r\n private initializeVariables(\r\n /** The statement to initialize. */\r\n statement: VariableStatement,\r\n /** Parent element, usually a file or namespace. */\r\n parent: Element\r\n ): void {\r\n var declarations = statement.declarations;\r\n for (let i = 0, k = declarations.length; i < k; ++i) {\r\n let declaration = declarations[i];\r\n let name = declaration.name.text;\r\n let acceptedFlags = DecoratorFlags.GLOBAL | DecoratorFlags.LAZY;\r\n if (declaration.is(CommonFlags.DECLARE)) {\r\n acceptedFlags |= DecoratorFlags.EXTERNAL;\r\n }\r\n if (declaration.is(CommonFlags.CONST)) {\r\n acceptedFlags |= DecoratorFlags.INLINE;\r\n }\r\n let element = new Global(\r\n name,\r\n parent,\r\n this.checkDecorators(declaration.decorators, acceptedFlags),\r\n declaration\r\n );\r\n if (!parent.add(name, element)) continue; // reports\r\n }\r\n }\r\n}\r\n\r\n/** Indicates the specific kind of an {@link Element}. */\r\nexport enum ElementKind {\r\n /** A {@link Global}. */\r\n GLOBAL,\r\n /** A {@link Local}. */\r\n LOCAL,\r\n /** An {@link Enum}. */\r\n ENUM,\r\n /** An {@link EnumValue}. */\r\n ENUMVALUE,\r\n /** A {@link FunctionPrototype}. */\r\n FUNCTION_PROTOTYPE,\r\n /** A {@link Function}. */\r\n FUNCTION,\r\n /** A {@link FunctionTarget}. */\r\n FUNCTION_TARGET,\r\n /** A {@link ClassPrototype}. */\r\n CLASS_PROTOTYPE,\r\n /** A {@link Class}. */\r\n CLASS,\r\n /** An {@link InterfacePrototype}. */\r\n INTERFACE_PROTOTYPE,\r\n /** An {@link Interface}. */\r\n INTERFACE,\r\n /** A {@link FieldPrototype}. */\r\n FIELD_PROTOTYPE,\r\n /** A {@link Field}. */\r\n FIELD,\r\n /** A {@link PropertyPrototype}. */\r\n PROPERTY_PROTOTYPE,\r\n /** A {@link Property}. */\r\n PROPERTY,\r\n /** A {@link Namespace}. */\r\n NAMESPACE,\r\n /** A {@link File}. */\r\n FILE,\r\n /** A {@link TypeDefinition}. */\r\n TYPEDEFINITION,\r\n}\r\n\r\n/** Indicates built-in decorators that are present. */\r\nexport enum DecoratorFlags {\r\n /** No flags set. */\r\n NONE = 0,\r\n /** Is a program global. */\r\n GLOBAL = 1 << 0,\r\n /** Is a binary operator overload. */\r\n OPERATOR_BINARY = 1 << 1,\r\n /** Is a unary prefix operator overload. */\r\n OPERATOR_PREFIX = 1 << 2,\r\n /** Is a unary postfix operator overload. */\r\n OPERATOR_POSTFIX = 1 << 3,\r\n /** Is an unmanaged class. */\r\n UNMANAGED = 1 << 4,\r\n /** Is a sealed class. */\r\n SEALED = 1 << 5,\r\n /** Is always inlined. */\r\n INLINE = 1 << 6,\r\n /** Is using a different external name. */\r\n EXTERNAL = 1 << 7,\r\n /** Is a builtin. */\r\n BUILTIN = 1 << 8,\r\n /** Is compiled lazily. */\r\n LAZY = 1 << 9,\r\n /** Is the explicit start function. */\r\n START = 1 << 10\r\n}\r\n\r\n/** Translates a decorator kind to the respective decorator flag. */\r\nexport function decoratorKindToFlag(kind: DecoratorKind): DecoratorFlags {\r\n switch (kind) {\r\n case DecoratorKind.GLOBAL: return DecoratorFlags.GLOBAL;\r\n case DecoratorKind.OPERATOR:\r\n case DecoratorKind.OPERATOR_BINARY: return DecoratorFlags.OPERATOR_BINARY;\r\n case DecoratorKind.OPERATOR_PREFIX: return DecoratorFlags.OPERATOR_PREFIX;\r\n case DecoratorKind.OPERATOR_POSTFIX: return DecoratorFlags.OPERATOR_POSTFIX;\r\n case DecoratorKind.UNMANAGED: return DecoratorFlags.UNMANAGED;\r\n case DecoratorKind.SEALED: return DecoratorFlags.SEALED;\r\n case DecoratorKind.INLINE: return DecoratorFlags.INLINE;\r\n case DecoratorKind.EXTERNAL: return DecoratorFlags.EXTERNAL;\r\n case DecoratorKind.BUILTIN: return DecoratorFlags.BUILTIN;\r\n case DecoratorKind.LAZY: return DecoratorFlags.LAZY;\r\n case DecoratorKind.START: return DecoratorFlags.START;\r\n default: return DecoratorFlags.NONE;\r\n }\r\n}\r\n\r\n/** Base class of all program elements. */\r\nexport abstract class Element {\r\n\r\n /** Parent element. */\r\n parent: Element;\r\n /** Common flags indicating specific traits. */\r\n flags: CommonFlags = CommonFlags.NONE;\r\n /** Decorator flags indicating annotated traits. */\r\n decoratorFlags: DecoratorFlags = DecoratorFlags.NONE;\r\n /** Member elements. */\r\n members: Map | null = null;\r\n /** Shadowing type in type space, if any. */\r\n shadowType: TypeDefinition | null = null;\r\n\r\n /** Constructs a new program element. */\r\n protected constructor(\r\n /** Specific element kind. */\r\n public kind: ElementKind,\r\n /** Simple name. */\r\n public name: string,\r\n /** Internal name referring to this element. */\r\n public internalName: string,\r\n /** Containing {@link Program}. */\r\n public program: Program,\r\n /** Parent element. */\r\n parent: Element | null\r\n ) {\r\n this.program = program;\r\n this.name = name;\r\n this.internalName = internalName;\r\n if (parent) {\r\n this.parent = parent;\r\n } else {\r\n assert(this.kind == ElementKind.FILE);\r\n this.parent = this; // special case to keep this.parent non-nullable\r\n }\r\n }\r\n\r\n /** Gets the enclosing file. */\r\n get file(): File {\r\n var current: Element = this;\r\n do if ((current = current.parent).kind == ElementKind.FILE) return current;\r\n while (true);\r\n }\r\n\r\n /** Tests if this element has a specific flag or flags. */\r\n is(flag: CommonFlags): bool { return (this.flags & flag) == flag; }\r\n /** Tests if this element has any of the specified flags. */\r\n isAny(flags: CommonFlags): bool { return (this.flags & flags) != 0; }\r\n /** Sets a specific flag or flags. */\r\n set(flag: CommonFlags): void { this.flags |= flag; }\r\n /** Tests if this element has a specific decorator flag or flags. */\r\n hasDecorator(flag: DecoratorFlags): bool { return (this.decoratorFlags & flag) == flag; }\r\n\r\n /** Looks up the element with the specified name within this element. */\r\n lookupInSelf(name: string): DeclaredElement | null {\r\n var members = this.members;\r\n if (members && members.has(name)) return members.get(name)!;\r\n return null;\r\n }\r\n\r\n /** Looks up the element with the specified name relative to this element, like in JS. */\r\n abstract lookup(name: string): Element | null;\r\n\r\n /** Adds an element as a member of this one. Reports and returns `false` if a duplicate. */\r\n add(name: string, element: DeclaredElement): bool {\r\n var originalDeclaration = element.declaration;\r\n var members = this.members;\r\n if (!members) this.members = members = new Map();\r\n else if (members.has(name)) {\r\n let actual = members.get(name)!;\r\n if (actual.parent !== this) {\r\n // override non-own element\r\n } else {\r\n let merged = tryMerge(actual, element);\r\n if (merged) {\r\n element = merged; // use merged element\r\n } else {\r\n this.program.error(\r\n DiagnosticCode.Duplicate_identifier_0,\r\n element.identifierNode.range, element.identifierNode.text\r\n );\r\n return false;\r\n }\r\n }\r\n }\r\n members.set(name, element);\r\n var program = this.program;\r\n if (element.kind != ElementKind.FUNCTION_PROTOTYPE || !(element).isBound) {\r\n // prefer unbound prototypes in global lookup maps\r\n program.elementsByName.set(element.internalName, element);\r\n program.elementsByDeclaration.set(originalDeclaration, element);\r\n }\r\n return true;\r\n }\r\n\r\n /** Returns a string representation of this element. */\r\n toString(): string {\r\n return ElementKind[this.kind] + \":\" + this.internalName;\r\n }\r\n}\r\n\r\n/** Base class of elements with an associated declaration statement. */\r\nexport abstract class DeclaredElement extends Element {\r\n\r\n /** Constructs a new declared program element. */\r\n protected constructor(\r\n /** Specific element kind. */\r\n kind: ElementKind,\r\n /** Simple name. */\r\n name: string,\r\n /** Internal name referring to this element. */\r\n internalName: string,\r\n /** Containing {@link Program}. */\r\n program: Program,\r\n /** Parent element. */\r\n parent: Element | null,\r\n /** Declaration reference. */\r\n public declaration: DeclarationStatement\r\n ) {\r\n super(kind, name, internalName, program, parent);\r\n // It is necessary to have access to identifiers of all members and exports\r\n // for reporting purposes and this is the lowest common denominator. Comes\r\n // at the expense of not having more specific type information in derived\r\n // classes, though. Instead, derived classes implement getters for other\r\n // important AST nodes directly through manual casting, allowing the resolver\r\n // etc. to not worry about actual declarations.\r\n this.declaration = declaration;\r\n this.flags = declaration.flags; // inherit\r\n }\r\n\r\n /** Tests if this element is a library element. */\r\n get isDeclaredInLibrary(): bool {\r\n return this.declaration.range.source.isLibrary;\r\n }\r\n\r\n /** Gets the associated identifier node. */\r\n get identifierNode(): IdentifierExpression {\r\n return this.declaration.name;\r\n }\r\n\r\n /** Gets the assiciated decorator nodes. */\r\n get decoratorNodes(): DecoratorNode[] | null {\r\n return this.declaration.decorators;\r\n }\r\n}\r\n\r\n/** Base class of elements that can be resolved to a concrete type. */\r\nexport abstract class TypedElement extends DeclaredElement {\r\n\r\n /** Resolved type. Set once `is(RESOLVED)`, otherwise void. */\r\n type: Type = Type.void;\r\n\r\n /** Sets the resolved type of this element. */\r\n setType(type: Type): void {\r\n assert(!this.is(CommonFlags.RESOLVED));\r\n this.type = type;\r\n this.set(CommonFlags.RESOLVED);\r\n }\r\n}\r\n\r\n/** A file representing the implicit top-level namespace of a source. */\r\nexport class File extends Element {\r\n\r\n /** File exports. */\r\n exports: Map | null = null;\r\n /** File re-exports. */\r\n exportsStar: File[] | null = null;\r\n /** Top-level start function of this file. */\r\n startFunction: Function;\r\n\r\n /** Constructs a new file. */\r\n constructor(\r\n /** Program this file belongs to. */\r\n program: Program,\r\n /** Source of this file. */\r\n public source: Source\r\n ) {\r\n super(\r\n ElementKind.FILE,\r\n source.normalizedPath,\r\n source.internalPath,\r\n program,\r\n null // special case for files\r\n );\r\n this.source = source;\r\n assert(!program.filesByName.has(this.internalName));\r\n program.filesByName.set(this.internalName, this);\r\n var startFunction = this.program.makeNativeFunction(\r\n \"start:\" + this.internalName,\r\n new Signature(null, Type.void),\r\n this\r\n );\r\n startFunction.internalName = startFunction.name;\r\n this.startFunction = startFunction;\r\n }\r\n\r\n /* @override */\r\n add(name: string, element: DeclaredElement, isImport: bool = false): bool {\r\n if (!super.add(name, element)) return false;\r\n element = assert(this.lookupInSelf(name)); // possibly merged\r\n if (element.is(CommonFlags.EXPORT) && !isImport) {\r\n this.ensureExport(\r\n element.name,\r\n element\r\n );\r\n }\r\n if (element.hasDecorator(DecoratorFlags.GLOBAL)) this.program.ensureGlobal(name, element);\r\n return true;\r\n }\r\n\r\n /* @override */\r\n lookupInSelf(name: string): DeclaredElement | null {\r\n var element = super.lookupInSelf(name);\r\n if (element) return element;\r\n var exportsStar = this.exportsStar;\r\n if (exportsStar) {\r\n for (let i = 0, k = exportsStar.length; i < k; ++i) {\r\n if (element = exportsStar[i].lookupInSelf(name)) return element;\r\n }\r\n }\r\n return null;\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n var element = this.lookupInSelf(name);\r\n if (element) return element;\r\n return this.program.lookupGlobal(name);\r\n }\r\n\r\n /** Ensures that an element is an export of this file. */\r\n ensureExport(name: string, element: DeclaredElement): void {\r\n var exports = this.exports;\r\n if (!exports) this.exports = exports = new Map();\r\n exports.set(name, element);\r\n if (this.source.isLibrary) this.program.ensureGlobal(name, element);\r\n }\r\n\r\n /** Ensures that another file is a re-export of this file. */\r\n ensureExportStar(file: File): void {\r\n var exportsStar = this.exportsStar;\r\n if (!exportsStar) this.exportsStar = exportsStar = [];\r\n else if (exportsStar.includes(file)) return;\r\n exportsStar.push(file);\r\n }\r\n\r\n /** Looks up the export of the specified name. */\r\n lookupExport(name: string): DeclaredElement | null {\r\n var exports = this.exports;\r\n if (exports && exports.has(name)) return exports.get(name)!;\r\n var exportsStar = this.exportsStar;\r\n if (exportsStar) {\r\n for (let i = 0, k = exportsStar.length; i < k; ++i) {\r\n let element = exportsStar[i].lookupExport(name);\r\n if (element) return element;\r\n }\r\n }\r\n return null;\r\n }\r\n\r\n /** Creates an imported namespace from this file. */\r\n asImportedNamespace(name: string, parent: Element): Namespace {\r\n var ns = new Namespace(\r\n name,\r\n parent,\r\n this.program.makeNativeNamespaceDeclaration(name)\r\n );\r\n var exports = this.exports;\r\n if (exports) {\r\n for (let [memberName, member] of exports) {\r\n ns.add(memberName, member);\r\n }\r\n }\r\n return ns;\r\n }\r\n}\r\n\r\n/** A type definition. */\r\nexport class TypeDefinition extends TypedElement {\r\n\r\n /** Constructs a new type definition. */\r\n constructor(\r\n /** Simple name. */\r\n name: string,\r\n /** Parent element, usually a file or namespace. */\r\n parent: Element,\r\n /** Declaration reference. */\r\n declaration: TypeDeclaration,\r\n /** Pre-checked flags indicating built-in decorators. */\r\n decoratorFlags: DecoratorFlags = DecoratorFlags.NONE\r\n ) {\r\n super(\r\n ElementKind.TYPEDEFINITION,\r\n name,\r\n mangleInternalName(name, parent, false),\r\n parent.program,\r\n parent,\r\n declaration\r\n );\r\n this.decoratorFlags = decoratorFlags;\r\n }\r\n\r\n /** Gets the associated type parameter nodes. */\r\n get typeParameterNodes(): TypeParameterNode[] | null {\r\n return (this.declaration).typeParameters;\r\n }\r\n\r\n /** Gets the associated type node. */\r\n get typeNode(): CommonTypeNode {\r\n return (this.declaration).type;\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return this.parent.lookup(name);\r\n }\r\n}\r\n\r\n/** A namespace that differs from a file in being user-declared with a name. */\r\nexport class Namespace extends DeclaredElement {\r\n\r\n /** Constructs a new namespace. */\r\n constructor(\r\n /** Simple name. */\r\n name: string,\r\n /** Parent element, usually a file or another namespace. */\r\n parent: Element,\r\n /** Declaration reference. */\r\n declaration: NamespaceDeclaration\r\n ) {\r\n super(\r\n ElementKind.NAMESPACE,\r\n name,\r\n mangleInternalName(name, parent, false),\r\n parent.program,\r\n parent,\r\n declaration\r\n );\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return this.lookupInSelf(name)\r\n || this.parent.lookup(name);\r\n }\r\n}\r\n\r\n/** An enum. */\r\nexport class Enum extends TypedElement {\r\n\r\n /** Constructs a new enum. */\r\n constructor(\r\n /** Simple name. */\r\n name: string,\r\n /** Parent element, usually a file or namespace. */\r\n parent: Element,\r\n /** Declaration reference. */\r\n declaration: EnumDeclaration,\r\n /** Pre-checked flags indicating built-in decorators. */\r\n decoratorFlags: DecoratorFlags = DecoratorFlags.NONE\r\n ) {\r\n super(\r\n ElementKind.ENUM,\r\n name,\r\n mangleInternalName(name, parent, false),\r\n parent.program,\r\n parent,\r\n declaration\r\n );\r\n this.decoratorFlags = decoratorFlags;\r\n this.setType(Type.i32);\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return this.lookupInSelf(name)\r\n || this.parent.lookup(name);\r\n }\r\n}\r\n\r\n/** Indicates the kind of an inlined constant value. */\r\nexport const enum ConstantValueKind {\r\n /** No constant value. */\r\n NONE,\r\n /** Constant integer value. */\r\n INTEGER,\r\n /** Constant float value. */\r\n FLOAT\r\n}\r\n\r\n/** Base class of all variable-like program elements. */\r\nexport abstract class VariableLikeElement extends TypedElement {\r\n\r\n /** Constant value kind. */\r\n constantValueKind: ConstantValueKind = ConstantValueKind.NONE;\r\n /** Constant integer value, if applicable. */\r\n constantIntegerValue: I64;\r\n /** Constant float value, if applicable. */\r\n constantFloatValue: f64;\r\n\r\n /** Constructs a new variable-like element. */\r\n protected constructor(\r\n /** Specific element kind. */\r\n kind: ElementKind,\r\n /** Simple name. */\r\n name: string,\r\n /** Parent element, usually a file, namespace or class. */\r\n parent: Element,\r\n /** Declaration reference. Creates a native declaration if omitted. */\r\n declaration: VariableLikeDeclarationStatement = parent.program.makeNativeVariableDeclaration(name)\r\n ) {\r\n super(\r\n kind,\r\n name,\r\n mangleInternalName(name, parent, false),\r\n parent.program,\r\n parent,\r\n declaration\r\n );\r\n this.flags = declaration.flags;\r\n }\r\n\r\n /** Gets the associated type node.s */\r\n get typeNode(): CommonTypeNode | null {\r\n return (this.declaration).type;\r\n }\r\n\r\n /** Gets the associated initializer node. */\r\n get initializerNode(): Expression | null {\r\n return (this.declaration).initializer;\r\n }\r\n\r\n /** Applies a constant integer value to this element. */\r\n setConstantIntegerValue(value: I64, type: Type): void {\r\n assert(type.is(TypeFlags.INTEGER));\r\n this.type = type;\r\n this.constantValueKind = ConstantValueKind.INTEGER;\r\n this.constantIntegerValue = value;\r\n this.set(CommonFlags.CONST | CommonFlags.INLINED | CommonFlags.RESOLVED);\r\n }\r\n\r\n /** Applies a constant float value to this element. */\r\n setConstantFloatValue(value: f64, type: Type): void {\r\n assert(type.is(TypeFlags.FLOAT));\r\n this.type = type;\r\n this.constantValueKind = ConstantValueKind.FLOAT;\r\n this.constantFloatValue = value;\r\n this.set(CommonFlags.CONST | CommonFlags.INLINED | CommonFlags.RESOLVED);\r\n }\r\n\r\n /** @override */\r\n lookup(name: string): Element | null {\r\n return this.parent.lookup(name);\r\n }\r\n}\r\n\r\n/** An enum value. */\r\nexport class EnumValue extends VariableLikeElement {\r\n\r\n /** Constructs a new enum value. */\r\n constructor(\r\n /** Simple name. */\r\n name: string,\r\n /** Parent enum. */\r\n parent: Enum,\r\n /** Declaration reference. */\r\n declaration: EnumValueDeclaration,\r\n /** Pre-checked flags indicating built-in decorators. */\r\n decoratorFlags: DecoratorFlags = DecoratorFlags.NONE\r\n ) {\r\n super(\r\n ElementKind.ENUMVALUE,\r\n name,\r\n parent,\r\n declaration\r\n );\r\n this.decoratorFlags = decoratorFlags;\r\n this.setType(Type.i32);\r\n }\r\n\r\n /** Gets the associated value node. */\r\n get valueNode(): Expression | null {\r\n return (this.declaration).value;\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return this.parent.lookup(name);\r\n }\r\n}\r\n\r\n/** A global variable. */\r\nexport class Global extends VariableLikeElement {\r\n\r\n /** Constructs a new global variable. */\r\n constructor(\r\n /** Simple name. */\r\n name: string,\r\n /** Parent element, usually a file, namespace or static class. */\r\n parent: Element,\r\n /** Pre-checked flags indicating built-in decorators. */\r\n decoratorFlags: DecoratorFlags,\r\n /** Declaration reference. Creates a native declaration if omitted. */\r\n declaration: VariableLikeDeclarationStatement = parent.program.makeNativeVariableDeclaration(name)\r\n ) {\r\n super(\r\n ElementKind.GLOBAL,\r\n name,\r\n parent,\r\n declaration\r\n );\r\n this.decoratorFlags = decoratorFlags;\r\n }\r\n}\r\n\r\n/** A function parameter. */\r\nexport class Parameter {\r\n /** Constructs a new function parameter. */\r\n constructor(\r\n /** Parameter name. */\r\n public name: string,\r\n /** Parameter type. */\r\n public type: Type,\r\n /** Parameter initializer, if present. */\r\n public initializer: Expression | null = null\r\n ) {}\r\n}\r\n\r\n/** A local variable. */\r\nexport class Local extends VariableLikeElement {\r\n\r\n /** Constructs a new local variable. */\r\n constructor(\r\n /** Simple name. */\r\n name: string,\r\n /** Zero-based index within the enclosing function. `-1` indicates a virtual local. */\r\n public index: i32,\r\n /** Resolved type. */\r\n type: Type,\r\n /** Parent function. */\r\n parent: Function,\r\n /** Declaration reference. */\r\n declaration: VariableLikeDeclarationStatement = parent.program.makeNativeVariableDeclaration(name)\r\n ) {\r\n super(\r\n ElementKind.LOCAL,\r\n name,\r\n parent,\r\n declaration\r\n );\r\n this.index = index;\r\n assert(type != Type.void);\r\n this.setType(type);\r\n }\r\n}\r\n\r\n/** A yet unresolved function prototype. */\r\nexport class FunctionPrototype extends DeclaredElement {\r\n\r\n /** Operator kind, if an overload. */\r\n operatorKind: OperatorKind = OperatorKind.INVALID;\r\n /** Already resolved instances. */\r\n instances: Map | null = null;\r\n\r\n /** Clones of this prototype that are bounds to specific classes. */\r\n private boundPrototypes: Map | null = null;\r\n\r\n /** Constructs a new function prototype. */\r\n constructor(\r\n /** Simple na,e */\r\n name: string,\r\n /** Parent element, usually a file, namespace or class (if a method). */\r\n parent: Element,\r\n /** Declaration reference. */\r\n declaration: FunctionDeclaration,\r\n /** Pre-checked flags indicating built-in decorators. */\r\n decoratorFlags: DecoratorFlags = DecoratorFlags.NONE\r\n ) {\r\n super(\r\n ElementKind.FUNCTION_PROTOTYPE,\r\n name,\r\n mangleInternalName(name, parent, declaration.is(CommonFlags.INSTANCE)),\r\n parent.program,\r\n parent,\r\n declaration\r\n );\r\n this.decoratorFlags = decoratorFlags;\r\n }\r\n\r\n /** Gets the associated type parameter nodes. */\r\n get typeParameterNodes(): TypeParameterNode[] | null {\r\n return (this.declaration).typeParameters;\r\n }\r\n\r\n /** Gets the associated signature node. */\r\n get signatureNode(): SignatureNode {\r\n return (this.declaration).signature;\r\n }\r\n\r\n /** Gets the associated body node. */\r\n get bodyNode(): Statement | null {\r\n return (this.declaration).body;\r\n }\r\n\r\n /** Gets the arrow function kind. */\r\n get arrowKind(): ArrowKind {\r\n return (this.declaration).arrowKind;\r\n }\r\n\r\n /** Tests if this prototype is bound to a class. */\r\n get isBound(): bool {\r\n var parent = this.parent;\r\n return parent.kind == ElementKind.CLASS\r\n || parent.kind == ElementKind.PROPERTY_PROTOTYPE && parent.parent.kind == ElementKind.CLASS;\r\n }\r\n\r\n /** Creates a clone of this prototype that is bound to a concrete class instead. */\r\n toBound(classInstance: Class): FunctionPrototype {\r\n assert(this.is(CommonFlags.INSTANCE));\r\n assert(!this.isBound);\r\n var boundPrototypes = this.boundPrototypes;\r\n if (!boundPrototypes) this.boundPrototypes = boundPrototypes = new Map();\r\n else if (boundPrototypes.has(classInstance)) return boundPrototypes.get(classInstance)!;\r\n var declaration = this.declaration; assert(declaration.kind == NodeKind.METHODDECLARATION);\r\n var bound = new FunctionPrototype(\r\n this.name,\r\n classInstance, // !\r\n declaration,\r\n this.decoratorFlags\r\n );\r\n bound.flags = this.flags;\r\n bound.operatorKind = this.operatorKind;\r\n // NOTE: this.instances holds instances per bound class / unbound\r\n boundPrototypes.set(classInstance, bound);\r\n return bound;\r\n }\r\n\r\n /** Gets the resolved instance for the specified instance key, if already resolved. */\r\n getResolvedInstance(instanceKey: string): Function | null {\r\n var instances = this.instances;\r\n if (instances && instances.has(instanceKey)) return instances.get(instanceKey);\r\n return null;\r\n }\r\n\r\n /** Sets the resolved instance for the specified instance key. */\r\n setResolvedInstance(instanceKey: string, instance: Function): void {\r\n var instances = this.instances;\r\n if (!instances) this.instances = instances = new Map();\r\n else assert(!instances.has(instanceKey));\r\n instances.set(instanceKey, instance);\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return this.parent.lookup(name);\r\n }\r\n}\r\n\r\n/** A resolved function. */\r\nexport class Function extends TypedElement {\r\n\r\n /** Function prototype. */\r\n prototype: FunctionPrototype;\r\n /** Function signature. */\r\n signature: Signature;\r\n /** Map of locals by name. */\r\n localsByName: Map = new Map();\r\n /** Array of locals by index. */\r\n localsByIndex: Local[] = [];\r\n /** List of additional non-parameter locals. */\r\n additionalLocals: Type[] = [];\r\n /** Contextual type arguments. */\r\n contextualTypeArguments: Map | null;\r\n /** Default control flow. */\r\n flow: Flow;\r\n /** Remembered debug locations. */\r\n debugLocations: Range[] = [];\r\n /** Function reference, if compiled. */\r\n ref: FunctionRef = 0;\r\n /** Function table index, if any. */\r\n functionTableIndex: i32 = -1;\r\n /** Trampoline function for calling with omitted arguments. */\r\n trampoline: Function | null = null;\r\n\r\n /** Counting id of inline operations involving this function. */\r\n nextInlineId: i32 = 0;\r\n /** Counting id of anonymous inner functions. */\r\n nextAnonymousId: i32 = 0;\r\n\r\n /** Constructs a new concrete function. */\r\n constructor(\r\n /** Name incl. type parameters, i.e. `foo`. */\r\n nameInclTypeParameters: string,\r\n /** Respective function prototype. */\r\n prototype: FunctionPrototype,\r\n /** Concrete signature. */\r\n signature: Signature, // pre-resolved\r\n /** Contextual type arguments inherited from its parent class, if any. */\r\n contextualTypeArguments: Map | null = null\r\n ) {\r\n super(\r\n ElementKind.FUNCTION,\r\n nameInclTypeParameters,\r\n mangleInternalName(nameInclTypeParameters, prototype.parent, prototype.is(CommonFlags.INSTANCE)),\r\n prototype.program,\r\n prototype.parent,\r\n prototype.declaration\r\n );\r\n this.prototype = prototype;\r\n this.signature = signature;\r\n this.flags = prototype.flags | CommonFlags.RESOLVED;\r\n this.decoratorFlags = prototype.decoratorFlags;\r\n this.contextualTypeArguments = contextualTypeArguments;\r\n this.type = Type.u32.asFunction(signature);\r\n if (!prototype.is(CommonFlags.AMBIENT)) {\r\n let localIndex = 0;\r\n if (this.is(CommonFlags.INSTANCE)) {\r\n let local = new Local(\r\n CommonSymbols.this_,\r\n localIndex++,\r\n assert(signature.thisType),\r\n this\r\n );\r\n this.localsByName.set(CommonSymbols.this_, local);\r\n this.localsByIndex[local.index] = local;\r\n }\r\n let parameterTypes = signature.parameterTypes;\r\n for (let i = 0, k = parameterTypes.length; i < k; ++i) {\r\n let parameterType = parameterTypes[i];\r\n let parameterName = signature.getParameterName(i);\r\n let local = new Local(\r\n parameterName,\r\n localIndex++,\r\n parameterType,\r\n this\r\n );\r\n this.localsByName.set(parameterName, local);\r\n this.localsByIndex[local.index] = local;\r\n }\r\n }\r\n this.flow = Flow.create(this);\r\n registerConcreteElement(this.program, this);\r\n }\r\n\r\n /** Adds a local of the specified type, with an optional name. */\r\n addLocal(type: Type, name: string | null = null, declaration: VariableDeclaration | null = null): Local {\r\n // if it has a name, check previously as this method will throw otherwise\r\n var localIndex = this.signature.parameterTypes.length + this.additionalLocals.length;\r\n if (this.is(CommonFlags.INSTANCE)) ++localIndex;\r\n var localName = name !== null\r\n ? name\r\n : \"var$\" + localIndex.toString();\r\n var local = new Local(\r\n localName,\r\n localIndex,\r\n type,\r\n this,\r\n declaration || this.program.makeNativeVariableDeclaration(localName)\r\n );\r\n if (name) {\r\n if (this.localsByName.has(name)) throw new Error(\"duplicate local name\");\r\n this.localsByName.set(name, local);\r\n }\r\n this.localsByIndex[local.index] = local;\r\n this.additionalLocals.push(type);\r\n return local;\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n var locals = this.localsByName;\r\n if (locals.has(name)) return locals.get(name);\r\n return this.parent.lookup(name);\r\n }\r\n\r\n // used by flows to keep track of temporary locals\r\n tempI32s: Local[] | null = null;\r\n tempI64s: Local[] | null = null;\r\n tempF32s: Local[] | null = null;\r\n tempF64s: Local[] | null = null;\r\n tempV128s: Local[] | null = null;\r\n\r\n // used by flows to keep track of break labels\r\n nextBreakId: i32 = 0;\r\n breakStack: i32[] | null = null;\r\n breakLabel: string | null = null;\r\n\r\n /** Finalizes the function once compiled, releasing no longer needed resources. */\r\n finalize(module: Module, ref: FunctionRef): void {\r\n this.ref = ref;\r\n assert(!this.breakStack || !this.breakStack.length); // internal error\r\n this.breakStack = null;\r\n this.breakLabel = null;\r\n this.tempI32s = this.tempI64s = this.tempF32s = this.tempF64s = null;\r\n if (this.program.options.sourceMap) {\r\n let debugLocations = this.debugLocations;\r\n for (let i = 0, k = debugLocations.length; i < k; ++i) {\r\n let debugLocation = debugLocations[i];\r\n module.setDebugLocation(\r\n ref,\r\n debugLocation.debugInfoRef,\r\n debugLocation.source.debugInfoIndex,\r\n debugLocation.line,\r\n debugLocation.column\r\n );\r\n }\r\n }\r\n }\r\n}\r\n\r\n/** A resolved function target, that is a function called indirectly by an index and signature. */\r\nexport class FunctionTarget extends Element {\r\n\r\n /** Underlying signature. */\r\n signature: Signature;\r\n /** Function type. */\r\n type: Type;\r\n\r\n /** Constructs a new function target. */\r\n constructor(\r\n /** Concrete signature. */\r\n signature: Signature,\r\n /** Program reference. */\r\n program: Program,\r\n __s: string = \"\" // FIXME: current TS limitation workaround, but a fix seems underway\r\n ) {\r\n super(\r\n ElementKind.FUNCTION_TARGET,\r\n __s = \"sig:\" + signature.toSignatureString(),\r\n __s,\r\n program,\r\n program.nativeFile\r\n );\r\n this.signature = signature;\r\n this.flags = CommonFlags.RESOLVED;\r\n this.type = Type.u32.asFunction(signature);\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return null;\r\n }\r\n}\r\n\r\n/** A yet unresolved instance field prototype. */\r\nexport class FieldPrototype extends DeclaredElement {\r\n\r\n /** Constructs a new field prototype. */\r\n constructor(\r\n /** Simple name. */\r\n name: string,\r\n /** Parent class. */\r\n parent: ClassPrototype,\r\n /** Declaration reference. */\r\n declaration: FieldDeclaration,\r\n /** Pre-checked flags indicating built-in decorators. */\r\n decoratorFlags: DecoratorFlags = DecoratorFlags.NONE\r\n ) {\r\n super(\r\n ElementKind.FIELD_PROTOTYPE,\r\n name,\r\n mangleInternalName(name, parent, assert(declaration.is(CommonFlags.INSTANCE))),\r\n parent.program,\r\n parent,\r\n declaration\r\n );\r\n this.decoratorFlags = decoratorFlags;\r\n }\r\n\r\n /** Gets the associated type node. */\r\n get typeNode(): CommonTypeNode | null {\r\n return (this.declaration).type;\r\n }\r\n\r\n /** Gets the associated initializer node. */\r\n get initializerNode(): Expression | null {\r\n return (this.declaration).initializer;\r\n }\r\n\r\n /** Gets the associated parameter index. Set if declared as a constructor parameter, otherwise `-1`. */\r\n get parameterIndex(): i32 {\r\n return (this.declaration).parameterIndex;\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return this.parent.lookup(name);\r\n }\r\n}\r\n\r\n/** A resolved instance field. */\r\nexport class Field extends VariableLikeElement {\r\n\r\n /** Field prototype reference. */\r\n prototype: FieldPrototype;\r\n /** Field memory offset, if an instance field. */\r\n memoryOffset: i32 = -1;\r\n\r\n /** Constructs a new field. */\r\n constructor(\r\n /** Respective field prototype. */\r\n prototype: FieldPrototype,\r\n /** Parent class. */\r\n parent: Class,\r\n /** Concrete type. */\r\n type: Type\r\n ) {\r\n super(\r\n ElementKind.FIELD,\r\n prototype.name,\r\n parent,\r\n prototype.declaration\r\n );\r\n this.prototype = prototype;\r\n this.flags = prototype.flags;\r\n assert(type != Type.void);\r\n this.setType(type);\r\n registerConcreteElement(this.program, this);\r\n }\r\n}\r\n\r\n/** A property comprised of a getter and a setter function. */\r\nexport class PropertyPrototype extends DeclaredElement {\r\n\r\n /** Getter prototype. */\r\n getterPrototype: FunctionPrototype | null = null;\r\n /** Setter prototype. */\r\n setterPrototype: FunctionPrototype | null = null;\r\n\r\n /** Constructs a new property prototype. */\r\n constructor(\r\n /** Simple name. */\r\n name: string,\r\n /** Parent class. */\r\n parent: ClassPrototype,\r\n /** Declaration of the getter or setter introducing the property. */\r\n firstDeclaration: FunctionDeclaration\r\n ) {\r\n super(\r\n ElementKind.PROPERTY_PROTOTYPE,\r\n name,\r\n mangleInternalName(name, parent, firstDeclaration.is(CommonFlags.INSTANCE)),\r\n parent.program,\r\n parent,\r\n firstDeclaration\r\n );\r\n this.flags &= ~(CommonFlags.GET | CommonFlags.SET);\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return this.parent.lookup(name);\r\n }\r\n}\r\n\r\n/** A resolved property. */\r\nexport class Property extends VariableLikeElement {\r\n\r\n /** Prototype reference. */\r\n prototype: PropertyPrototype;\r\n /** Getter instance. */\r\n getterInstance: Function | null = null;\r\n /** Setter instance. */\r\n setterInstance: Function | null = null;\r\n\r\n /** Constructs a new property prototype. */\r\n constructor(\r\n /** Respective property prototype. */\r\n prototype: PropertyPrototype,\r\n /** Parent element, usually a static class prototype or class instance. */\r\n parent: Element\r\n ) {\r\n super(\r\n ElementKind.PROPERTY,\r\n prototype.name,\r\n parent,\r\n prototype.program.makeNativeVariableDeclaration(\r\n prototype.name,\r\n prototype.is(CommonFlags.INSTANCE)\r\n ? CommonFlags.INSTANCE\r\n : CommonFlags.NONE\r\n )\r\n );\r\n this.prototype = prototype;\r\n registerConcreteElement(this.program, this);\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return this.parent.lookup(name);\r\n }\r\n}\r\n\r\n/** A yet unresolved class prototype. */\r\nexport class ClassPrototype extends DeclaredElement {\r\n\r\n /** Instance member prototypes. */\r\n instanceMembers: Map | null = null;\r\n /** Base class prototype, if applicable. */\r\n basePrototype: ClassPrototype | null = null; // set in Program#initialize\r\n /** Constructor prototype. */\r\n constructorPrototype: FunctionPrototype | null = null;\r\n /** Operator overload prototypes. */\r\n overloadPrototypes: Map = new Map();\r\n /** Already resolved instances. */\r\n instances: Map | null = null;\r\n\r\n constructor(\r\n /** Simple name. */\r\n name: string,\r\n /** Parent element, usually a file or namespace. */\r\n parent: Element,\r\n /** Declaration reference. */\r\n declaration: ClassDeclaration,\r\n /** Pre-checked flags indicating built-in decorators. */\r\n decoratorFlags: DecoratorFlags = DecoratorFlags.NONE,\r\n _isInterface: bool = false // FIXME\r\n ) {\r\n super(\r\n _isInterface ? ElementKind.INTERFACE_PROTOTYPE : ElementKind.CLASS_PROTOTYPE,\r\n name,\r\n mangleInternalName(name, parent, declaration.is(CommonFlags.INSTANCE)),\r\n parent.program,\r\n parent,\r\n declaration\r\n );\r\n this.decoratorFlags = decoratorFlags;\r\n }\r\n\r\n /** Gets the associated type parameter nodes. */\r\n get typeParameterNodes(): TypeParameterNode[] | null {\r\n return (this.declaration).typeParameters;\r\n }\r\n /** Gets the associated extends node. */\r\n get extendsNode(): TypeNode | null {\r\n return (this.declaration).extendsType;\r\n }\r\n /** Gets the associated implements nodes. */\r\n get implementsNodes(): TypeNode[] | null {\r\n return (this.declaration).implementsTypes;\r\n }\r\n\r\n /** Tests if this prototype extends the specified. */\r\n extends(basePtototype: ClassPrototype | null): bool {\r\n var current: ClassPrototype | null = this;\r\n do {\r\n if (current === basePtototype) return true;\r\n } while (current = current.basePrototype);\r\n return false;\r\n }\r\n\r\n /** Adds an element as an instance member of this one. Returns the previous element if a duplicate. */\r\n addInstance(name: string, element: DeclaredElement): bool {\r\n var originalDeclaration = element.declaration;\r\n var instanceMembers = this.instanceMembers;\r\n if (!instanceMembers) this.instanceMembers = instanceMembers = new Map();\r\n else if (instanceMembers.has(name)) {\r\n let merged = tryMerge(instanceMembers.get(name)!, element);\r\n if (!merged) {\r\n this.program.error(\r\n DiagnosticCode.Duplicate_identifier_0,\r\n element.identifierNode.range, element.identifierNode.text\r\n );\r\n return false;\r\n }\r\n element = merged;\r\n }\r\n instanceMembers.set(name, element);\r\n if (element.is(CommonFlags.EXPORT) && this.is(CommonFlags.MODULE_EXPORT)) {\r\n element.set(CommonFlags.MODULE_EXPORT); // propagate\r\n }\r\n this.program.elementsByDeclaration.set(originalDeclaration, element);\r\n return true;\r\n }\r\n\r\n /** Gets the resolved instance for the specified instance key, if already resolved. */\r\n getResolvedInstance(instanceKey: string): Class | null {\r\n var instances = this.instances;\r\n if (instances && instances.has(instanceKey)) return instances.get(instanceKey);\r\n return null;\r\n }\r\n\r\n /** Sets the resolved instance for the specified instance key. */\r\n setResolvedInstance(instanceKey: string, instance: Class): void {\r\n var instances = this.instances;\r\n if (!instances) this.instances = instances = new Map();\r\n else assert(!instances.has(instanceKey));\r\n instances.set(instanceKey, instance);\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return this.parent.lookup(name);\r\n }\r\n}\r\n\r\n/** A resolved class. */\r\nexport class Class extends TypedElement {\r\n\r\n /** Class prototype. */\r\n prototype: ClassPrototype;\r\n /** Resolved type arguments. */\r\n typeArguments: Type[] | null;\r\n /** Base class, if applicable. */\r\n base: Class | null;\r\n /** Contextual type arguments for fields and methods. */\r\n contextualTypeArguments: Map | null = null;\r\n /** Current member memory offset. */\r\n currentMemoryOffset: u32 = 0;\r\n /** Constructor instance. */\r\n constructorInstance: Function | null = null;\r\n /** Operator overloads. */\r\n overloads: Map | null = null;\r\n /** Function index of the GC hook. */\r\n gcHookIndex: u32 = -1;\r\n\r\n /** Constructs a new class. */\r\n constructor(\r\n /** Name incl. type parameters, i.e. `Foo`. */\r\n nameInclTypeParameters: string,\r\n /** The respective class prototype. */\r\n prototype: ClassPrototype,\r\n /** Concrete type arguments, if any. */\r\n typeArguments: Type[] | null = null,\r\n /** Base class, if derived. */\r\n base: Class | null = null,\r\n _isInterface: bool = false // FIXME\r\n ) {\r\n super(\r\n _isInterface ? ElementKind.INTERFACE : ElementKind.CLASS,\r\n nameInclTypeParameters,\r\n mangleInternalName(nameInclTypeParameters, prototype.parent, prototype.is(CommonFlags.INSTANCE)),\r\n prototype.program,\r\n prototype.parent,\r\n prototype.declaration\r\n );\r\n this.prototype = prototype;\r\n this.flags = prototype.flags;\r\n this.decoratorFlags = prototype.decoratorFlags;\r\n this.typeArguments = typeArguments;\r\n this.setType(this.program.options.usizeType.asClass(this));\r\n this.base = base;\r\n\r\n // inherit static members and contextual type arguments from base class\r\n if (base) {\r\n let inheritedTypeArguments = base.contextualTypeArguments;\r\n if (inheritedTypeArguments) {\r\n let contextualTypeArguments = this.contextualTypeArguments;\r\n for (let [baseName, baseType] of inheritedTypeArguments) {\r\n if (!contextualTypeArguments) this.contextualTypeArguments = contextualTypeArguments = new Map();\r\n contextualTypeArguments.set(baseName, baseType);\r\n }\r\n }\r\n }\r\n\r\n // apply pre-checked instance-specific contextual type arguments\r\n var typeParameters = prototype.typeParameterNodes;\r\n if (typeArguments) {\r\n let numTypeArguments = typeArguments.length;\r\n if (!typeParameters || numTypeArguments != typeParameters.length) {\r\n throw new Error(\"type argument count mismatch\");\r\n }\r\n if (numTypeArguments) {\r\n if (!this.contextualTypeArguments) this.contextualTypeArguments = new Map();\r\n for (let i = 0; i < numTypeArguments; ++i) {\r\n this.contextualTypeArguments.set(typeParameters[i].name.text, typeArguments[i]);\r\n }\r\n }\r\n } else if (typeParameters && typeParameters.length) {\r\n throw new Error(\"type argument count mismatch\");\r\n }\r\n registerConcreteElement(this.program, this);\r\n }\r\n\r\n /** Tests if a value of this class type is assignable to a target of the specified class type. */\r\n isAssignableTo(target: Class): bool {\r\n var current: Class | null = this;\r\n do if (current == target) return true;\r\n while (current = current.base);\r\n return false;\r\n }\r\n\r\n /** Looks up the operator overload of the specified kind. */\r\n lookupOverload(kind: OperatorKind, unchecked: bool = false): Function | null {\r\n if (unchecked) {\r\n switch (kind) {\r\n case OperatorKind.INDEXED_GET: {\r\n let uncheckedOverload = this.lookupOverload(OperatorKind.UNCHECKED_INDEXED_GET);\r\n if (uncheckedOverload) return uncheckedOverload;\r\n break;\r\n }\r\n case OperatorKind.INDEXED_SET: {\r\n let uncheckedOverload = this.lookupOverload(OperatorKind.UNCHECKED_INDEXED_SET);\r\n if (uncheckedOverload) return uncheckedOverload;\r\n break;\r\n }\r\n default: assert(false);\r\n }\r\n }\r\n var instance: Class | null = this;\r\n do {\r\n let overloads = instance.overloads;\r\n if (overloads) {\r\n let overload = overloads.get(kind);\r\n if (overload) return overload;\r\n }\r\n } while (instance = instance.base);\r\n return null;\r\n }\r\n\r\n /* @override */\r\n lookup(name: string): Element | null {\r\n return this.parent.lookup(name);\r\n }\r\n\r\n /** Calculates the memory offset of the specified field. */\r\n offsetof(fieldName: string): u32 {\r\n var members = assert(this.members);\r\n assert(members.has(fieldName));\r\n var field = members.get(fieldName);\r\n assert(field.kind == ElementKind.FIELD);\r\n return (field).memoryOffset;\r\n }\r\n}\r\n\r\n/** A yet unresolved interface. */\r\nexport class InterfacePrototype extends ClassPrototype { // FIXME\r\n\r\n /** Constructs a new interface prototype. */\r\n constructor(\r\n name: string,\r\n parent: Element,\r\n declaration: InterfaceDeclaration,\r\n decoratorFlags: DecoratorFlags\r\n ) {\r\n super(\r\n name,\r\n parent,\r\n declaration,\r\n decoratorFlags,\r\n true\r\n );\r\n }\r\n}\r\n\r\n/** A resolved interface. */\r\nexport class Interface extends Class { // FIXME\r\n\r\n /** Constructs a new interface. */\r\n constructor(\r\n nameInclTypeParameters: string,\r\n prototype: InterfacePrototype,\r\n typeArguments: Type[] = [],\r\n base: Interface | null = null\r\n ) {\r\n super(\r\n nameInclTypeParameters,\r\n prototype,\r\n typeArguments,\r\n base,\r\n true\r\n );\r\n }\r\n}\r\n\r\n/** Registers a concrete element with a program. */\r\nfunction registerConcreteElement(program: Program, element: Element): void {\r\n assert(!program.instancesByName.has(element.internalName));\r\n program.instancesByName.set(element.internalName, element);\r\n}\r\n\r\n/** Attempts to merge two elements. Returns the merged element on success. */\r\nfunction tryMerge(older: Element, newer: Element): DeclaredElement | null {\r\n // NOTE: some of the following cases are not supported by TS, not sure why exactly.\r\n // suggesting to just merge what seems to be possible for now and revisit later.\r\n assert(older.program === newer.program);\r\n assert(!newer.members);\r\n var merged: DeclaredElement | null = null;\r\n switch (older.kind) {\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n switch (newer.kind) {\r\n case ElementKind.NAMESPACE: {\r\n copyMembers(newer, older);\r\n merged = older;\r\n break;\r\n }\r\n case ElementKind.TYPEDEFINITION: {\r\n if (!older.shadowType) {\r\n older.shadowType = newer;\r\n copyMembers(newer, older);\r\n merged = older;\r\n }\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n case ElementKind.CLASS_PROTOTYPE:\r\n case ElementKind.ENUM: {\r\n if (newer.kind == ElementKind.NAMESPACE) {\r\n copyMembers(newer, older);\r\n merged = older;\r\n break;\r\n }\r\n break;\r\n }\r\n case ElementKind.NAMESPACE: {\r\n switch (newer.kind) {\r\n case ElementKind.ENUM:\r\n case ElementKind.CLASS_PROTOTYPE: // TS2434\r\n case ElementKind.FUNCTION_PROTOTYPE: { // TS2434\r\n copyMembers(older, newer);\r\n merged = newer;\r\n break;\r\n }\r\n case ElementKind.NAMESPACE: {\r\n copyMembers(newer, older);\r\n merged = older;\r\n break;\r\n }\r\n case ElementKind.TYPEDEFINITION: {\r\n if (!older.shadowType) {\r\n older.shadowType = newer;\r\n copyMembers(newer, older);\r\n merged = older;\r\n }\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n case ElementKind.GLOBAL: {\r\n if (newer.kind == ElementKind.TYPEDEFINITION) {\r\n if (!older.shadowType) {\r\n older.shadowType = newer;\r\n copyMembers(newer, older);\r\n merged = older;\r\n }\r\n }\r\n break;\r\n }\r\n case ElementKind.TYPEDEFINITION: {\r\n switch (newer.kind) {\r\n case ElementKind.GLOBAL:\r\n case ElementKind.FUNCTION_PROTOTYPE:\r\n case ElementKind.NAMESPACE: {\r\n if (!newer.shadowType) {\r\n newer.shadowType = older;\r\n copyMembers(older, newer);\r\n merged = newer;\r\n }\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n }\r\n if (merged) {\r\n if (older.is(CommonFlags.EXPORT) != newer.is(CommonFlags.EXPORT)) {\r\n older.program.error(\r\n DiagnosticCode.Individual_declarations_in_merged_declaration_0_must_be_all_exported_or_all_local,\r\n merged.identifierNode.range, merged.identifierNode.text\r\n );\r\n }\r\n }\r\n return merged;\r\n}\r\n\r\n/** Copies the members of `src` to `dest`. */\r\nfunction copyMembers(src: Element, dest: Element): void {\r\n var srcMembers = src.members;\r\n if (srcMembers) {\r\n let destMembers = dest.members;\r\n if (!destMembers) dest.members = destMembers = new Map();\r\n for (let [memberName, member] of srcMembers) {\r\n destMembers.set(memberName, member);\r\n }\r\n }\r\n}\r\n\r\n/** Mangles the internal name of an element with the specified name that is a child of the given parent. */\r\nexport function mangleInternalName(name: string, parent: Element, isInstance: bool, asGlobal: bool = false): string {\r\n switch (parent.kind) {\r\n case ElementKind.FILE: {\r\n if (asGlobal) return name;\r\n return parent.internalName + PATH_DELIMITER + name;\r\n }\r\n case ElementKind.FUNCTION: {\r\n if (asGlobal) return name;\r\n assert(!isInstance);\r\n return parent.internalName + INNER_DELIMITER + name;\r\n }\r\n default: {\r\n return mangleInternalName(parent.name, parent.parent, parent.is(CommonFlags.INSTANCE), asGlobal)\r\n + (isInstance ? INSTANCE_DELIMITER : STATIC_DELIMITER) + name;\r\n }\r\n }\r\n}\r\n","/**\r\n * A thin wrapper around Binaryen's C-API.\r\n * @module module\r\n *//***/\r\n\r\nimport {\r\n Target\r\n} from \"./compiler\";\r\n\r\nexport type ModuleRef = usize;\r\nexport type FunctionTypeRef = usize;\r\nexport type FunctionRef = usize;\r\nexport type ExpressionRef = usize;\r\nexport type GlobalRef = usize;\r\nexport type ImportRef = usize;\r\nexport type ExportRef = usize;\r\nexport type RelooperRef = usize;\r\nexport type RelooperBlockRef = usize;\r\nexport type Index = u32;\r\n\r\nexport enum NativeType {\r\n None = _BinaryenTypeNone(),\r\n I32 = _BinaryenTypeInt32(),\r\n I64 = _BinaryenTypeInt64(),\r\n F32 = _BinaryenTypeFloat32(),\r\n F64 = _BinaryenTypeFloat64(),\r\n V128 = _BinaryenTypeVec128(),\r\n Unreachable = _BinaryenTypeUnreachable(),\r\n Auto = _BinaryenTypeAuto()\r\n}\r\n\r\nexport enum ExpressionId {\r\n Invalid = _BinaryenInvalidId(),\r\n Block = _BinaryenBlockId(),\r\n If = _BinaryenIfId(),\r\n Loop = _BinaryenLoopId(),\r\n Break = _BinaryenBreakId(),\r\n Switch = _BinaryenSwitchId(),\r\n Call = _BinaryenCallId(),\r\n CallIndirect = _BinaryenCallIndirectId(),\r\n GetLocal = _BinaryenGetLocalId(),\r\n SetLocal = _BinaryenSetLocalId(),\r\n GetGlobal = _BinaryenGetGlobalId(),\r\n SetGlobal = _BinaryenSetGlobalId(),\r\n Load = _BinaryenLoadId(),\r\n Store = _BinaryenStoreId(),\r\n Const = _BinaryenConstId(),\r\n Unary = _BinaryenUnaryId(),\r\n Binary = _BinaryenBinaryId(),\r\n Select = _BinaryenSelectId(),\r\n Drop = _BinaryenDropId(),\r\n Return = _BinaryenReturnId(),\r\n Host = _BinaryenHostId(),\r\n Nop = _BinaryenNopId(),\r\n Unreachable = _BinaryenUnreachableId(),\r\n AtomicCmpxchg = _BinaryenAtomicCmpxchgId(),\r\n AtomicRMW = _BinaryenAtomicRMWId(),\r\n AtomicWait = _BinaryenAtomicWaitId(),\r\n AtomicWake = _BinaryenAtomicWakeId(),\r\n SIMDExtract = _BinaryenSIMDExtractId(),\r\n SIMDReplace = _BinaryenSIMDReplaceId(),\r\n SIMDShuffle = _BinaryenSIMDShuffleId(),\r\n SIMDBitselect = _BinaryenSIMDBitselectId(),\r\n SIMDShift = _BinaryenSIMDShiftId(),\r\n MemoryInit = _BinaryenMemoryInitId(),\r\n DataDrop = _BinaryenDataDropId(),\r\n MemoryCopy = _BinaryenMemoryCopyId(),\r\n MemoryFill = _BinaryenMemoryFillId()\r\n}\r\n\r\nexport enum UnaryOp {\r\n ClzI32 = _BinaryenClzInt32(),\r\n CtzI32 = _BinaryenCtzInt32(),\r\n PopcntI32 = _BinaryenPopcntInt32(),\r\n NegF32 = _BinaryenNegFloat32(),\r\n AbsF32 = _BinaryenAbsFloat32(),\r\n CeilF32 = _BinaryenCeilFloat32(),\r\n FloorF32 = _BinaryenFloorFloat32(),\r\n TruncF32 = _BinaryenTruncFloat32(),\r\n NearestF32 = _BinaryenNearestFloat32(),\r\n SqrtF32 = _BinaryenSqrtFloat32(),\r\n EqzI32 = _BinaryenEqZInt32(),\r\n ClzI64 = _BinaryenClzInt64(),\r\n CtzI64 = _BinaryenCtzInt64(),\r\n PopcntI64 = _BinaryenPopcntInt64(),\r\n NegF64 = _BinaryenNegFloat64(),\r\n AbsF64 = _BinaryenAbsFloat64(),\r\n CeilF64 = _BinaryenCeilFloat64(),\r\n FloorF64 = _BinaryenFloorFloat64(),\r\n TruncF64 = _BinaryenTruncFloat64(),\r\n NearestF64 = _BinaryenNearestFloat64(),\r\n SqrtF64 = _BinaryenSqrtFloat64(),\r\n EqzI64 = _BinaryenEqZInt64(),\r\n ExtendI32 = _BinaryenExtendSInt32(),\r\n ExtendU32 = _BinaryenExtendUInt32(),\r\n WrapI64 = _BinaryenWrapInt64(),\r\n TruncF32ToI32 = _BinaryenTruncSFloat32ToInt32(),\r\n TruncF32ToI64 = _BinaryenTruncSFloat32ToInt64(),\r\n TruncF32ToU32 = _BinaryenTruncUFloat32ToInt32(),\r\n TruncF32ToU64 = _BinaryenTruncUFloat32ToInt64(),\r\n TruncF64ToI32 = _BinaryenTruncSFloat64ToInt32(),\r\n TruncF64ToI64 = _BinaryenTruncSFloat64ToInt64(),\r\n TruncF64ToU32 = _BinaryenTruncUFloat64ToInt32(),\r\n TruncF64ToU64 = _BinaryenTruncUFloat64ToInt64(),\r\n ReinterpretF32 = _BinaryenReinterpretFloat32(),\r\n ReinterpretF64 = _BinaryenReinterpretFloat64(),\r\n ConvertI32ToF32 = _BinaryenConvertSInt32ToFloat32(),\r\n ConvertI32ToF64 = _BinaryenConvertSInt32ToFloat64(),\r\n ConvertU32ToF32 = _BinaryenConvertUInt32ToFloat32(),\r\n ConvertU32ToF64 = _BinaryenConvertUInt32ToFloat64(),\r\n ConvertI64ToF32 = _BinaryenConvertSInt64ToFloat32(),\r\n ConvertI64ToF64 = _BinaryenConvertSInt64ToFloat64(),\r\n ConvertU64ToF32 = _BinaryenConvertUInt64ToFloat32(),\r\n ConvertU64ToF64 = _BinaryenConvertUInt64ToFloat64(),\r\n PromoteF32 = _BinaryenPromoteFloat32(),\r\n DemoteF64 = _BinaryenDemoteFloat64(),\r\n ReinterpretI32 = _BinaryenReinterpretInt32(),\r\n ReinterpretI64 = _BinaryenReinterpretInt64(),\r\n\r\n // see: https://github.com/WebAssembly/sign-extension-ops\r\n ExtendI8ToI32 = _BinaryenExtendS8Int32(),\r\n ExtendI16ToI32 = _BinaryenExtendS16Int32(),\r\n ExtendI8ToI64 = _BinaryenExtendS8Int64(),\r\n ExtendI16ToI64 = _BinaryenExtendS16Int64(),\r\n ExtendI32ToI64 = _BinaryenExtendS32Int64(),\r\n\r\n // see: https://github.com/WebAssembly/nontrapping-float-to-int-conversions\r\n // TruncF32ToI32Sat\r\n // TruncF32ToU32Sat\r\n // TruncF64ToI32Sat\r\n // TruncF64ToU32Sat\r\n // TruncF32ToI64Sat\r\n // TruncF32ToU64Sat\r\n // TruncF64ToI64Sat\r\n // TruncF64ToU64Sat\r\n\r\n // see: https://github.com/WebAssembly/simd\r\n SplatVecI8x16 = _BinaryenSplatVecI8x16(),\r\n SplatVecI16x8 = _BinaryenSplatVecI16x8(),\r\n SplatVecI32x4 = _BinaryenSplatVecI32x4(),\r\n SplatVecI64x2 = _BinaryenSplatVecI64x2(),\r\n SplatVecF32x4 = _BinaryenSplatVecF32x4(),\r\n SplatVecF64x2 = _BinaryenSplatVecF64x2(),\r\n NotVec128 = _BinaryenNotVec128(),\r\n NegVecI8x16 = _BinaryenNegVecI8x16(),\r\n AnyTrueVecI8x16 = _BinaryenAnyTrueVecI8x16(),\r\n AllTrueVecI8x16 = _BinaryenAllTrueVecI8x16(),\r\n NegVecI16x8 = _BinaryenNegVecI16x8(),\r\n AnyTrueVecI16x8 = _BinaryenAnyTrueVecI16x8(),\r\n AllTrueVecI16x8 = _BinaryenAllTrueVecI16x8(),\r\n NegVecI32x4 = _BinaryenNegVecI32x4(),\r\n AnyTrueVecI32x4 = _BinaryenAnyTrueVecI32x4(),\r\n AllTrueVecI32x4 = _BinaryenAllTrueVecI32x4(),\r\n NegVecI64x2 = _BinaryenNegVecI64x2(),\r\n AnyTrueVecI64x2 = _BinaryenAnyTrueVecI64x2(),\r\n AllTrueVecI64x2 = _BinaryenAllTrueVecI64x2(),\r\n AbsVecF32x4 = _BinaryenAbsVecF32x4(),\r\n NegVecF32x4 = _BinaryenNegVecF32x4(),\r\n SqrtVecF32x4 = _BinaryenSqrtVecF32x4(),\r\n AbsVecF64x2 = _BinaryenAbsVecF64x2(),\r\n NegVecF64x2 = _BinaryenNegVecF64x2(),\r\n SqrtVecF64x2 = _BinaryenSqrtVecF64x2(),\r\n TruncSatSVecF32x4ToVecI32x4 = _BinaryenTruncSatSVecF32x4ToVecI32x4(),\r\n TruncSatUVecF32x4ToVecI32x4 = _BinaryenTruncSatUVecF32x4ToVecI32x4(),\r\n TruncSatSVecF64x2ToVecI64x2 = _BinaryenTruncSatSVecF64x2ToVecI64x2(),\r\n TruncSatUVecF64x2ToVecI64x2 = _BinaryenTruncSatUVecF64x2ToVecI64x2(),\r\n ConvertSVecI32x4ToVecF32x4 = _BinaryenConvertSVecI32x4ToVecF32x4(),\r\n ConvertUVecI32x4ToVecF32x4 = _BinaryenConvertUVecI32x4ToVecF32x4(),\r\n ConvertSVecI64x2ToVecF64x2 = _BinaryenConvertSVecI64x2ToVecF64x2(),\r\n ConvertUVecI64x2ToVecF64x2 = _BinaryenConvertUVecI64x2ToVecF64x2()\r\n}\r\n\r\nexport enum BinaryOp {\r\n AddI32 = _BinaryenAddInt32(),\r\n SubI32 = _BinaryenSubInt32(),\r\n MulI32 = _BinaryenMulInt32(),\r\n DivI32 = _BinaryenDivSInt32(),\r\n DivU32 = _BinaryenDivUInt32(),\r\n RemI32 = _BinaryenRemSInt32(),\r\n RemU32 = _BinaryenRemUInt32(),\r\n AndI32 = _BinaryenAndInt32(),\r\n OrI32 = _BinaryenOrInt32(),\r\n XorI32 = _BinaryenXorInt32(),\r\n ShlI32 = _BinaryenShlInt32(),\r\n ShrU32 = _BinaryenShrUInt32(),\r\n ShrI32 = _BinaryenShrSInt32(),\r\n RotlI32 = _BinaryenRotLInt32(),\r\n RotrI32 = _BinaryenRotRInt32(),\r\n EqI32 = _BinaryenEqInt32(),\r\n NeI32 = _BinaryenNeInt32(),\r\n LtI32 = _BinaryenLtSInt32(),\r\n LtU32 = _BinaryenLtUInt32(),\r\n LeI32 = _BinaryenLeSInt32(),\r\n LeU32 = _BinaryenLeUInt32(),\r\n GtI32 = _BinaryenGtSInt32(),\r\n GtU32 = _BinaryenGtUInt32(),\r\n GeI32 = _BinaryenGeSInt32(),\r\n GeU32 = _BinaryenGeUInt32(),\r\n AddI64 = _BinaryenAddInt64(),\r\n SubI64 = _BinaryenSubInt64(),\r\n MulI64 = _BinaryenMulInt64(),\r\n DivI64 = _BinaryenDivSInt64(),\r\n DivU64 = _BinaryenDivUInt64(),\r\n RemI64 = _BinaryenRemSInt64(),\r\n RemU64 = _BinaryenRemUInt64(),\r\n AndI64 = _BinaryenAndInt64(),\r\n OrI64 = _BinaryenOrInt64(),\r\n XorI64 = _BinaryenXorInt64(),\r\n ShlI64 = _BinaryenShlInt64(),\r\n ShrU64 = _BinaryenShrUInt64(),\r\n ShrI64 = _BinaryenShrSInt64(),\r\n RotlI64 = _BinaryenRotLInt64(),\r\n RotrI64 = _BinaryenRotRInt64(),\r\n EqI64 = _BinaryenEqInt64(),\r\n NeI64 = _BinaryenNeInt64(),\r\n LtI64 = _BinaryenLtSInt64(),\r\n LtU64 = _BinaryenLtUInt64(),\r\n LeI64 = _BinaryenLeSInt64(),\r\n LeU64 = _BinaryenLeUInt64(),\r\n GtI64 = _BinaryenGtSInt64(),\r\n GtU64 = _BinaryenGtUInt64(),\r\n GeI64 = _BinaryenGeSInt64(),\r\n GeU64 = _BinaryenGeUInt64(),\r\n AddF32 = _BinaryenAddFloat32(),\r\n SubF32 = _BinaryenSubFloat32(),\r\n MulF32 = _BinaryenMulFloat32(),\r\n DivF32 = _BinaryenDivFloat32(),\r\n CopysignF32 = _BinaryenCopySignFloat32(),\r\n MinF32 = _BinaryenMinFloat32(),\r\n MaxF32 = _BinaryenMaxFloat32(),\r\n EqF32 = _BinaryenEqFloat32(),\r\n NeF32 = _BinaryenNeFloat32(),\r\n LtF32 = _BinaryenLtFloat32(),\r\n LeF32 = _BinaryenLeFloat32(),\r\n GtF32 = _BinaryenGtFloat32(),\r\n GeF32 = _BinaryenGeFloat32(),\r\n AddF64 = _BinaryenAddFloat64(),\r\n SubF64 = _BinaryenSubFloat64(),\r\n MulF64 = _BinaryenMulFloat64(),\r\n DivF64 = _BinaryenDivFloat64(),\r\n CopysignF64 = _BinaryenCopySignFloat64(),\r\n MinF64 = _BinaryenMinFloat64(),\r\n MaxF64 = _BinaryenMaxFloat64(),\r\n EqF64 = _BinaryenEqFloat64(),\r\n NeF64 = _BinaryenNeFloat64(),\r\n LtF64 = _BinaryenLtFloat64(),\r\n LeF64 = _BinaryenLeFloat64(),\r\n GtF64 = _BinaryenGtFloat64(),\r\n GeF64 = _BinaryenGeFloat64(),\r\n\r\n // see: https://github.com/WebAssembly/simd\r\n EqVecI8x16 = _BinaryenEqVecI8x16(),\r\n NeVecI8x16 = _BinaryenNeVecI8x16(),\r\n LtSVecI8x16 = _BinaryenLtSVecI8x16(),\r\n LtUVecI8x16 = _BinaryenLtUVecI8x16(),\r\n LeSVecI8x16 = _BinaryenLeSVecI8x16(),\r\n LeUVecI8x16 = _BinaryenLeUVecI8x16(),\r\n GtSVecI8x16 = _BinaryenGtSVecI8x16(),\r\n GtUVecI8x16 = _BinaryenGtUVecI8x16(),\r\n GeSVecI8x16 = _BinaryenGeSVecI8x16(),\r\n GeUVecI8x16 = _BinaryenGeUVecI8x16(),\r\n EqVecI16x8 = _BinaryenEqVecI16x8(),\r\n NeVecI16x8 = _BinaryenNeVecI16x8(),\r\n LtSVecI16x8 = _BinaryenLtSVecI16x8(),\r\n LtUVecI16x8 = _BinaryenLtUVecI16x8(),\r\n LeSVecI16x8 = _BinaryenLeSVecI16x8(),\r\n LeUVecI16x8 = _BinaryenLeUVecI16x8(),\r\n GtSVecI16x8 = _BinaryenGtSVecI16x8(),\r\n GtUVecI16x8 = _BinaryenGtUVecI16x8(),\r\n GeSVecI16x8 = _BinaryenGeSVecI16x8(),\r\n GeUVecI16x8 = _BinaryenGeUVecI16x8(),\r\n EqVecI32x4 = _BinaryenEqVecI32x4(),\r\n NeVecI32x4 = _BinaryenNeVecI32x4(),\r\n LtSVecI32x4 = _BinaryenLtSVecI32x4(),\r\n LtUVecI32x4 = _BinaryenLtUVecI32x4(),\r\n LeSVecI32x4 = _BinaryenLeSVecI32x4(),\r\n LeUVecI32x4 = _BinaryenLeUVecI32x4(),\r\n GtSVecI32x4 = _BinaryenGtSVecI32x4(),\r\n GtUVecI32x4 = _BinaryenGtUVecI32x4(),\r\n GeSVecI32x4 = _BinaryenGeSVecI32x4(),\r\n GeUVecI32x4 = _BinaryenGeUVecI32x4(),\r\n EqVecF32x4 = _BinaryenEqVecF32x4(),\r\n NeVecF32x4 = _BinaryenNeVecF32x4(),\r\n LtVecF32x4 = _BinaryenLtVecF32x4(),\r\n LeVecF32x4 = _BinaryenLeVecF32x4(),\r\n GtVecF32x4 = _BinaryenGtVecF32x4(),\r\n GeVecF32x4 = _BinaryenGeVecF32x4(),\r\n EqVecF64x2 = _BinaryenEqVecF64x2(),\r\n NeVecF64x2 = _BinaryenNeVecF64x2(),\r\n LtVecF64x2 = _BinaryenLtVecF64x2(),\r\n LeVecF64x2 = _BinaryenLeVecF64x2(),\r\n GtVecF64x2 = _BinaryenGtVecF64x2(),\r\n GeVecF64x2 = _BinaryenGeVecF64x2(),\r\n AndVec128 = _BinaryenAndVec128(),\r\n OrVec128 = _BinaryenOrVec128(),\r\n XorVec128 = _BinaryenXorVec128(),\r\n AddVecI8x16 = _BinaryenAddVecI8x16(),\r\n AddSatSVecI8x16 = _BinaryenAddSatSVecI8x16(),\r\n AddSatUVecI8x16 = _BinaryenAddSatUVecI8x16(),\r\n SubVecI8x16 = _BinaryenSubVecI8x16(),\r\n SubSatSVecI8x16 = _BinaryenSubSatSVecI8x16(),\r\n SubSatUVecI8x16 = _BinaryenSubSatUVecI8x16(),\r\n MulVecI8x16 = _BinaryenMulVecI8x16(),\r\n AddVecI16x8 = _BinaryenAddVecI16x8(),\r\n AddSatSVecI16x8 = _BinaryenAddSatSVecI16x8(),\r\n AddSatUVecI16x8 = _BinaryenAddSatUVecI16x8(),\r\n SubVecI16x8 = _BinaryenSubVecI16x8(),\r\n SubSatSVecI16x8 = _BinaryenSubSatSVecI16x8(),\r\n SubSatUVecI16x8 = _BinaryenSubSatUVecI16x8(),\r\n MulVecI16x8 = _BinaryenMulVecI16x8(),\r\n AddVecI32x4 = _BinaryenAddVecI32x4(),\r\n SubVecI32x4 = _BinaryenSubVecI32x4(),\r\n MulVecI32x4 = _BinaryenMulVecI32x4(),\r\n AddVecI64x2 = _BinaryenAddVecI64x2(),\r\n SubVecI64x2 = _BinaryenSubVecI64x2(),\r\n AddVecF32x4 = _BinaryenAddVecF32x4(),\r\n SubVecF32x4 = _BinaryenSubVecF32x4(),\r\n MulVecF32x4 = _BinaryenMulVecF32x4(),\r\n DivVecF32x4 = _BinaryenDivVecF32x4(),\r\n MinVecF32x4 = _BinaryenMinVecF32x4(),\r\n MaxVecF32x4 = _BinaryenMaxVecF32x4(),\r\n AddVecF64x2 = _BinaryenAddVecF64x2(),\r\n SubVecF64x2 = _BinaryenSubVecF64x2(),\r\n MulVecF64x2 = _BinaryenMulVecF64x2(),\r\n DivVecF64x2 = _BinaryenDivVecF64x2(),\r\n MinVecF64x2 = _BinaryenMinVecF64x2(),\r\n MaxVecF64x2 = _BinaryenMaxVecF64x2()\r\n}\r\n\r\nexport enum HostOp {\r\n CurrentMemory = _BinaryenCurrentMemory(),\r\n GrowMemory = _BinaryenGrowMemory(),\r\n}\r\n\r\nexport enum AtomicRMWOp {\r\n Add = _BinaryenAtomicRMWAdd(),\r\n Sub = _BinaryenAtomicRMWSub(),\r\n And = _BinaryenAtomicRMWAnd(),\r\n Or = _BinaryenAtomicRMWOr(),\r\n Xor = _BinaryenAtomicRMWXor(),\r\n Xchg = _BinaryenAtomicRMWXchg()\r\n}\r\n\r\nexport enum SIMDExtractOp {\r\n ExtractLaneSVecI8x16 = _BinaryenExtractLaneSVecI8x16(),\r\n ExtractLaneUVecI8x16 = _BinaryenExtractLaneUVecI8x16(),\r\n ExtractLaneSVecI16x8 = _BinaryenExtractLaneSVecI16x8(),\r\n ExtractLaneUVecI16x8 = _BinaryenExtractLaneUVecI16x8(),\r\n ExtractLaneVecI32x4 = _BinaryenExtractLaneVecI32x4(),\r\n ExtractLaneVecI64x2 = _BinaryenExtractLaneVecI64x2(),\r\n ExtractLaneVecF32x4 = _BinaryenExtractLaneVecF32x4(),\r\n ExtractLaneVecF64x2 = _BinaryenExtractLaneVecF64x2(),\r\n}\r\n\r\nexport enum SIMDReplaceOp {\r\n ReplaceLaneVecI8x16 = _BinaryenReplaceLaneVecI8x16(),\r\n ReplaceLaneVecI16x8 = _BinaryenReplaceLaneVecI16x8(),\r\n ReplaceLaneVecI32x4 = _BinaryenReplaceLaneVecI32x4(),\r\n ReplaceLaneVecI64x2 = _BinaryenReplaceLaneVecI64x2(),\r\n ReplaceLaneVecF32x4 = _BinaryenReplaceLaneVecF32x4(),\r\n ReplaceLaneVecF64x2 = _BinaryenReplaceLaneVecF64x2()\r\n}\r\n\r\nexport enum SIMDShiftOp {\r\n ShlVecI8x16 = _BinaryenShlVecI8x16(),\r\n ShrSVecI8x16 = _BinaryenShrSVecI8x16(),\r\n ShrUVecI8x16 = _BinaryenShrUVecI8x16(),\r\n ShlVecI16x8 = _BinaryenShlVecI16x8(),\r\n ShrSVecI16x8 = _BinaryenShrSVecI16x8(),\r\n ShrUVecI16x8 = _BinaryenShrUVecI16x8(),\r\n ShlVecI32x4 = _BinaryenShlVecI32x4(),\r\n ShrSVecI32x4 = _BinaryenShrSVecI32x4(),\r\n ShrUVecI32x4 = _BinaryenShrUVecI32x4(),\r\n ShlVecI64x2 = _BinaryenShlVecI64x2(),\r\n ShrSVecI64x2 = _BinaryenShrSVecI64x2(),\r\n ShrUVecI64x2 = _BinaryenShrUVecI64x2()\r\n}\r\n\r\nexport class MemorySegment {\r\n\r\n buffer: Uint8Array;\r\n offset: I64;\r\n\r\n static create(buffer: Uint8Array, offset: I64): MemorySegment {\r\n var segment = new MemorySegment();\r\n segment.buffer = buffer;\r\n segment.offset = offset;\r\n return segment;\r\n }\r\n}\r\n\r\nexport class Module {\r\n\r\n ref: ModuleRef;\r\n\r\n private lit: usize;\r\n\r\n static create(): Module {\r\n var module = new Module();\r\n module.ref = _BinaryenModuleCreate();\r\n module.lit = memory.allocate(_BinaryenSizeofLiteral());\r\n return module;\r\n }\r\n\r\n static createFrom(buffer: Uint8Array): Module {\r\n var cArr = allocU8Array(buffer);\r\n try {\r\n let module = new Module();\r\n module.ref = _BinaryenModuleRead(cArr, buffer.length);\r\n module.lit = memory.allocate(_BinaryenSizeofLiteral());\r\n return module;\r\n } finally {\r\n memory.free(changetype(cArr));\r\n }\r\n }\r\n\r\n private constructor() { }\r\n\r\n // types\r\n\r\n addFunctionType(\r\n name: string,\r\n result: NativeType,\r\n paramTypes: NativeType[] | null\r\n ): FunctionRef {\r\n var cStr = this.allocStringCached(name);\r\n var cArr = allocI32Array(paramTypes);\r\n try {\r\n return _BinaryenAddFunctionType(this.ref, cStr, result, cArr, paramTypes ? paramTypes.length : 0);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n getFunctionTypeBySignature(\r\n result: NativeType,\r\n paramTypes: NativeType[] | null\r\n ): FunctionTypeRef {\r\n var cArr = allocI32Array(paramTypes);\r\n try {\r\n return _BinaryenGetFunctionTypeBySignature(this.ref, result, cArr, paramTypes ? paramTypes.length : 0);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n removeFunctionType(name: string): void {\r\n var cStr = this.allocStringCached(name);\r\n _BinaryenRemoveFunctionType(this.ref, cStr);\r\n }\r\n\r\n // constants\r\n\r\n createI32(value: i32): ExpressionRef {\r\n var out = this.lit;\r\n _BinaryenLiteralInt32(out, value);\r\n return _BinaryenConst(this.ref, out);\r\n }\r\n\r\n createI64(valueLow: i32, valueHigh: i32 = 0): ExpressionRef {\r\n var out = this.lit;\r\n _BinaryenLiteralInt64(out, valueLow, valueHigh);\r\n return _BinaryenConst(this.ref, out);\r\n }\r\n\r\n createF32(value: f32): ExpressionRef {\r\n var out = this.lit;\r\n _BinaryenLiteralFloat32(out, value);\r\n return _BinaryenConst(this.ref, out);\r\n }\r\n\r\n createF64(value: f64): ExpressionRef {\r\n var out = this.lit;\r\n _BinaryenLiteralFloat64(out, value);\r\n return _BinaryenConst(this.ref, out);\r\n }\r\n\r\n createV128(bytes: Uint8Array): ExpressionRef {\r\n assert(bytes.length == 16);\r\n var out = this.lit;\r\n for (let i = 0; i < 16; ++i) store(out + i, bytes[i]);\r\n _BinaryenLiteralVec128(out, out);\r\n return _BinaryenConst(this.ref, out);\r\n }\r\n\r\n // expressions\r\n\r\n createUnary(\r\n op: UnaryOp,\r\n expr: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenUnary(this.ref, op, expr);\r\n }\r\n\r\n createBinary(\r\n op: BinaryOp,\r\n left: ExpressionRef,\r\n right: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenBinary(this.ref, op, left, right);\r\n }\r\n\r\n createHost(\r\n op: HostOp,\r\n name: string | null = null,\r\n operands: ExpressionRef[] | null = null\r\n ): ExpressionRef {\r\n var cStr = this.allocStringCached(name);\r\n var cArr = allocPtrArray(operands);\r\n try {\r\n return _BinaryenHost(this.ref, op, cStr, cArr, operands ? (operands).length : 0);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n createGetLocal(\r\n index: i32,\r\n type: NativeType\r\n ): ExpressionRef {\r\n return _BinaryenGetLocal(this.ref, index, type);\r\n }\r\n\r\n createTeeLocal(\r\n index: i32,\r\n value: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenTeeLocal(this.ref, index, value);\r\n }\r\n\r\n createGetGlobal(\r\n name: string,\r\n type: NativeType\r\n ): ExpressionRef {\r\n var cStr = this.allocStringCached(name);\r\n return _BinaryenGetGlobal(this.ref, cStr, type);\r\n }\r\n\r\n createLoad(\r\n bytes: Index,\r\n signed: bool,\r\n ptr: ExpressionRef,\r\n type: NativeType,\r\n offset: Index = 0,\r\n align: Index = bytes // naturally aligned by default\r\n ): ExpressionRef {\r\n return _BinaryenLoad(this.ref, bytes, signed ? 1 : 0, offset, align, type, ptr);\r\n }\r\n\r\n createStore(\r\n bytes: Index,\r\n ptr: ExpressionRef,\r\n value: ExpressionRef,\r\n type: NativeType,\r\n offset: Index = 0,\r\n align: Index = bytes // naturally aligned by default\r\n ): ExpressionRef {\r\n return _BinaryenStore(this.ref, bytes, offset, align, ptr, value, type);\r\n }\r\n\r\n createAtomicLoad(\r\n bytes: Index,\r\n ptr: ExpressionRef,\r\n type: NativeType,\r\n offset: Index = 0\r\n ): ExpressionRef {\r\n return _BinaryenAtomicLoad(this.ref, bytes, offset, type, ptr);\r\n }\r\n\r\n createAtomicStore(\r\n bytes: Index,\r\n ptr: ExpressionRef,\r\n value: ExpressionRef,\r\n type: NativeType,\r\n offset: Index = 0\r\n ): ExpressionRef {\r\n return _BinaryenAtomicStore(this.ref, bytes, offset, ptr, value, type);\r\n }\r\n\r\n createAtomicRMW(\r\n op: AtomicRMWOp,\r\n bytes: Index,\r\n offset: Index,\r\n ptr: ExpressionRef,\r\n value: ExpressionRef,\r\n type: NativeType\r\n ): ExpressionRef {\r\n return _BinaryenAtomicRMW(this.ref, op, bytes, offset, ptr, value, type);\r\n }\r\n\r\n createAtomicCmpxchg(\r\n bytes: Index,\r\n offset: Index,\r\n ptr: ExpressionRef,\r\n expected: ExpressionRef,\r\n replacement: ExpressionRef,\r\n type: NativeType\r\n ): ExpressionRef {\r\n return _BinaryenAtomicCmpxchg(this.ref, bytes, offset, ptr, expected, replacement, type);\r\n }\r\n\r\n createAtomicWait(\r\n ptr: ExpressionRef,\r\n expected: ExpressionRef,\r\n timeout: ExpressionRef,\r\n expectedType: NativeType\r\n ): ExpressionRef {\r\n return _BinaryenAtomicWait(this.ref, ptr, expected, timeout, expectedType);\r\n }\r\n\r\n createAtomicWake(\r\n ptr: ExpressionRef,\r\n wakeCount: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenAtomicWake(this.ref, ptr, wakeCount);\r\n }\r\n\r\n // statements\r\n\r\n createSetLocal(\r\n index: Index,\r\n value: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenSetLocal(this.ref, index, value);\r\n }\r\n\r\n createSetGlobal(\r\n name: string,\r\n value: ExpressionRef\r\n ): ExpressionRef {\r\n var cStr = this.allocStringCached(name);\r\n return _BinaryenSetGlobal(this.ref, cStr, value);\r\n }\r\n\r\n createBlock(\r\n label: string | null,\r\n children: ExpressionRef[],\r\n type: NativeType = NativeType.None\r\n ): ExpressionRef {\r\n var cStr = this.allocStringCached(label);\r\n var cArr = allocPtrArray(children);\r\n try {\r\n return _BinaryenBlock(this.ref, cStr, cArr, children.length, type);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n createBreak(\r\n label: string | null,\r\n condition: ExpressionRef = 0,\r\n value: ExpressionRef = 0\r\n ): ExpressionRef {\r\n var cStr = this.allocStringCached(label);\r\n return _BinaryenBreak(this.ref, cStr, condition, value);\r\n }\r\n\r\n createDrop(\r\n expression: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenDrop(this.ref, expression);\r\n }\r\n\r\n createLoop(\r\n label: string | null,\r\n body: ExpressionRef\r\n ): ExpressionRef {\r\n var cStr = this.allocStringCached(label);\r\n return _BinaryenLoop(this.ref, cStr, body);\r\n }\r\n\r\n createIf(\r\n condition: ExpressionRef,\r\n ifTrue: ExpressionRef,\r\n ifFalse: ExpressionRef = 0\r\n ): ExpressionRef {\r\n return _BinaryenIf(this.ref, condition, ifTrue, ifFalse);\r\n }\r\n\r\n createNop(): ExpressionRef {\r\n return _BinaryenNop(this.ref);\r\n }\r\n\r\n createReturn(\r\n expression: ExpressionRef = 0\r\n ): ExpressionRef {\r\n return _BinaryenReturn(this.ref, expression);\r\n }\r\n\r\n createSelect(\r\n ifTrue: ExpressionRef,\r\n ifFalse: ExpressionRef,\r\n condition: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenSelect(this.ref, condition, ifTrue, ifFalse);\r\n }\r\n\r\n createSwitch(\r\n names: string[],\r\n defaultName: string | null,\r\n condition: ExpressionRef,\r\n value: ExpressionRef = 0\r\n ): ExpressionRef {\r\n var numNames = names.length;\r\n var strs = new Array(numNames);\r\n for (let i = 0; i < numNames; ++i) {\r\n strs[i] = this.allocStringCached(names[i]);\r\n }\r\n var cArr = allocI32Array(strs);\r\n var cStr = this.allocStringCached(defaultName);\r\n try {\r\n return _BinaryenSwitch(this.ref, cArr, numNames, cStr, condition, value);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n createCall(\r\n target: string,\r\n operands: ExpressionRef[] | null,\r\n returnType: NativeType\r\n ): ExpressionRef {\r\n var cStr = this.allocStringCached(target);\r\n var cArr = allocPtrArray(operands);\r\n try {\r\n return _BinaryenCall(this.ref, cStr, cArr, operands && operands.length || 0, returnType);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n createCallIndirect(\r\n index: ExpressionRef,\r\n operands: ExpressionRef[] | null,\r\n typeName: string\r\n ): ExpressionRef {\r\n var cStr = this.allocStringCached(typeName);\r\n var cArr = allocPtrArray(operands);\r\n try {\r\n return _BinaryenCallIndirect(this.ref, index, cArr, operands && operands.length || 0, cStr);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n createUnreachable(): ExpressionRef {\r\n return _BinaryenUnreachable(this.ref);\r\n }\r\n\r\n // bulk memory\r\n\r\n createMemoryCopy(\r\n dest: ExpressionRef,\r\n source: ExpressionRef,\r\n size: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenMemoryCopy(this.ref, dest, source, size);\r\n }\r\n\r\n createMemoryFill(\r\n dest: ExpressionRef,\r\n value: ExpressionRef,\r\n size: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenMemoryFill(this.ref, dest, value, size);\r\n }\r\n\r\n // simd\r\n\r\n createSIMDExtract(\r\n op: SIMDExtractOp,\r\n vec: ExpressionRef,\r\n idx: u8\r\n ): ExpressionRef {\r\n return _BinaryenSIMDExtract(this.ref, op, vec, idx);\r\n }\r\n\r\n createSIMDReplace(\r\n op: SIMDReplaceOp,\r\n vec: ExpressionRef,\r\n idx: u8,\r\n value: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenSIMDReplace(this.ref, op, vec, idx, value);\r\n }\r\n\r\n createSIMDShuffle(\r\n vec1: ExpressionRef,\r\n vec2: ExpressionRef,\r\n mask: Uint8Array\r\n ): ExpressionRef {\r\n assert(mask.length == 16);\r\n var cArr = allocU8Array(mask);\r\n try {\r\n return _BinaryenSIMDShuffle(this.ref, vec1, vec2, cArr);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n createSIMDBitselect(\r\n vec1: ExpressionRef,\r\n vec2: ExpressionRef,\r\n cond: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenSIMDBitselect(this.ref, vec1, vec2, cond);\r\n }\r\n\r\n createSIMDShift(\r\n op: SIMDShiftOp,\r\n vec: ExpressionRef,\r\n shift: ExpressionRef\r\n ): ExpressionRef {\r\n return _BinaryenSIMDShift(this.ref, op, vec, shift);\r\n }\r\n\r\n // meta\r\n\r\n addGlobal(\r\n name: string,\r\n type: NativeType,\r\n mutable: bool,\r\n initializer: ExpressionRef\r\n ): GlobalRef {\r\n var cStr = this.allocStringCached(name);\r\n return _BinaryenAddGlobal(this.ref, cStr, type, mutable ? 1 : 0, initializer);\r\n }\r\n\r\n removeGlobal(\r\n name: string\r\n ): void {\r\n var cStr = this.allocStringCached(name);\r\n _BinaryenRemoveGlobal(this.ref, cStr);\r\n }\r\n\r\n addFunction(\r\n name: string,\r\n type: FunctionTypeRef,\r\n varTypes: NativeType[] | null,\r\n body: ExpressionRef\r\n ): FunctionRef {\r\n var cStr = this.allocStringCached(name);\r\n var cArr = allocI32Array(varTypes);\r\n try {\r\n return _BinaryenAddFunction(this.ref, cStr, type, cArr, varTypes ? varTypes.length : 0, body);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n removeFunction(name: string): void {\r\n var cStr = this.allocStringCached(name);\r\n _BinaryenRemoveFunction(this.ref, cStr);\r\n }\r\n\r\n private hasTemporaryFunction: bool = false;\r\n\r\n addTemporaryFunction(result: NativeType, paramTypes: NativeType[] | null, body: ExpressionRef): FunctionRef {\r\n this.hasTemporaryFunction = assert(!this.hasTemporaryFunction);\r\n var tempName = this.allocStringCached(\"\");\r\n var cArr = allocI32Array(paramTypes);\r\n try {\r\n let typeRef = _BinaryenAddFunctionType(this.ref, tempName, result, cArr, paramTypes ? paramTypes.length : 0);\r\n return _BinaryenAddFunction(this.ref, tempName, typeRef, 0, 0, body);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n removeTemporaryFunction(): void {\r\n this.hasTemporaryFunction = !assert(this.hasTemporaryFunction);\r\n var tempName = this.allocStringCached(\"\");\r\n _BinaryenRemoveFunction(this.ref, tempName);\r\n _BinaryenRemoveFunctionType(this.ref, tempName);\r\n }\r\n\r\n addFunctionExport(\r\n internalName: string,\r\n externalName: string\r\n ): ExportRef {\r\n var cStr1 = this.allocStringCached(internalName);\r\n var cStr2 = this.allocStringCached(externalName);\r\n return _BinaryenAddFunctionExport(this.ref, cStr1, cStr2);\r\n }\r\n\r\n addTableExport(\r\n internalName: string,\r\n externalName: string\r\n ): ExportRef {\r\n var cStr1 = this.allocStringCached(internalName);\r\n var cStr2 = this.allocStringCached(externalName);\r\n return _BinaryenAddTableExport(this.ref, cStr1, cStr2);\r\n }\r\n\r\n addMemoryExport(\r\n internalName: string,\r\n externalName: string\r\n ): ExportRef {\r\n var cStr1 = this.allocStringCached(internalName);\r\n var cStr2 = this.allocStringCached(externalName);\r\n return _BinaryenAddMemoryExport(this.ref, cStr1, cStr2);\r\n }\r\n\r\n addGlobalExport(\r\n internalName: string,\r\n externalName: string\r\n ): ExportRef {\r\n var cStr1 = this.allocStringCached(internalName);\r\n var cStr2 = this.allocStringCached(externalName);\r\n return _BinaryenAddGlobalExport(this.ref, cStr1, cStr2);\r\n }\r\n\r\n removeExport(externalName: string): void {\r\n var cStr = this.allocStringCached(externalName);\r\n _BinaryenRemoveExport(this.ref, cStr);\r\n }\r\n\r\n addFunctionImport(\r\n internalName: string,\r\n externalModuleName: string,\r\n externalBaseName: string,\r\n functionType: FunctionTypeRef\r\n ): ImportRef {\r\n var cStr1 = this.allocStringCached(internalName);\r\n var cStr2 = this.allocStringCached(externalModuleName);\r\n var cStr3 = this.allocStringCached(externalBaseName);\r\n return _BinaryenAddFunctionImport(this.ref, cStr1, cStr2, cStr3, functionType);\r\n }\r\n\r\n addTableImport(\r\n internalName: string,\r\n externalModuleName: string,\r\n externalBaseName: string\r\n ): ImportRef {\r\n var cStr1 = this.allocStringCached(internalName);\r\n var cStr2 = this.allocStringCached(externalModuleName);\r\n var cStr3 = this.allocStringCached(externalBaseName);\r\n return _BinaryenAddTableImport(this.ref, cStr1, cStr2, cStr3);\r\n }\r\n\r\n addMemoryImport(\r\n internalName: string,\r\n externalModuleName: string,\r\n externalBaseName: string,\r\n shared: bool = false,\r\n ): ImportRef {\r\n var cStr1 = this.allocStringCached(internalName);\r\n var cStr2 = this.allocStringCached(externalModuleName);\r\n var cStr3 = this.allocStringCached(externalBaseName);\r\n return _BinaryenAddMemoryImport(this.ref, cStr1, cStr2, cStr3, shared);\r\n }\r\n\r\n addGlobalImport(\r\n internalName: string,\r\n externalModuleName: string,\r\n externalBaseName: string,\r\n globalType: NativeType\r\n ): ImportRef {\r\n var cStr1 = this.allocStringCached(internalName);\r\n var cStr2 = this.allocStringCached(externalModuleName);\r\n var cStr3 = this.allocStringCached(externalBaseName);\r\n return _BinaryenAddGlobalImport(this.ref, cStr1, cStr2, cStr3, globalType);\r\n }\r\n\r\n /** Unlimited memory constant. */\r\n static readonly UNLIMITED_MEMORY: Index = -1;\r\n\r\n setMemory(\r\n initial: Index,\r\n maximum: Index,\r\n segments: MemorySegment[],\r\n target: Target,\r\n exportName: string | null = null,\r\n shared: bool = false\r\n ): void {\r\n var cStr = this.allocStringCached(exportName);\r\n var k = segments.length;\r\n var segs = new Array(k);\r\n var offs = new Array(k);\r\n var sizs = new Array(k);\r\n for (let i = 0; i < k; ++i) {\r\n let buffer = segments[i].buffer;\r\n let offset = segments[i].offset;\r\n segs[i] = allocU8Array(buffer);\r\n offs[i] = target == Target.WASM64\r\n ? this.createI64(i64_low(offset), i64_high(offset))\r\n : this.createI32(i64_low(offset));\r\n sizs[i] = buffer.length;\r\n }\r\n var cArr1 = allocI32Array(segs);\r\n var cArr2 = allocI32Array(offs);\r\n var cArr3 = allocI32Array(sizs);\r\n try {\r\n _BinaryenSetMemory(this.ref, initial, maximum, cStr, cArr1, cArr2, cArr3, k, shared);\r\n } finally {\r\n memory.free(cArr3);\r\n memory.free(cArr2);\r\n memory.free(cArr1);\r\n for (let i = k - 1; i >= 0; --i) memory.free(segs[i]);\r\n }\r\n }\r\n\r\n setFunctionTable(\r\n initial: Index,\r\n maximum: Index,\r\n funcs: string[]\r\n ): void {\r\n var numNames = funcs.length;\r\n var names = new Array(numNames);\r\n for (let i = 0; i < numNames; ++i) {\r\n names[i] = this.allocStringCached(funcs[i]);\r\n }\r\n var cArr = allocI32Array(names);\r\n try {\r\n _BinaryenSetFunctionTable(this.ref, initial, maximum, cArr, numNames);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n setStart(func: FunctionRef): void {\r\n _BinaryenSetStart(this.ref, func);\r\n }\r\n\r\n getOptimizeLevel(): i32 {\r\n return _BinaryenGetOptimizeLevel();\r\n }\r\n\r\n setOptimizeLevel(level: i32 = 2): void {\r\n _BinaryenSetOptimizeLevel(level);\r\n }\r\n\r\n getShrinkLevel(): i32 {\r\n return _BinaryenGetShrinkLevel();\r\n }\r\n\r\n setShrinkLevel(level: i32 = 1): void {\r\n _BinaryenSetShrinkLevel(level);\r\n }\r\n\r\n setDebugInfo(on: bool = false): void {\r\n _BinaryenSetDebugInfo(on);\r\n }\r\n\r\n optimize(func: FunctionRef = 0): void {\r\n if (func) {\r\n _BinaryenFunctionOptimize(func, this.ref);\r\n } else {\r\n _BinaryenModuleOptimize(this.ref);\r\n }\r\n }\r\n\r\n runPasses(passes: string[], func: FunctionRef = 0): void {\r\n var numNames = passes.length;\r\n var names = new Array(numNames);\r\n for (let i = 0; i < numNames; ++i) {\r\n names[i] = allocString(passes[i]);\r\n }\r\n var cArr = allocI32Array(names);\r\n try {\r\n if (func) {\r\n _BinaryenFunctionRunPasses(func, this.ref, cArr, numNames);\r\n } else {\r\n _BinaryenModuleRunPasses(this.ref, cArr, numNames);\r\n }\r\n } finally {\r\n memory.free(cArr);\r\n for (let i = numNames; i >= 0; --i) memory.free(names[i]);\r\n }\r\n }\r\n\r\n private cachedPrecomputeNames: usize = 0;\r\n\r\n precomputeExpression(expr: ExpressionRef): ExpressionRef {\r\n // remember the previous optimize levels and set to max instead, to be sure\r\n var previousOptimizeLevel = _BinaryenGetOptimizeLevel();\r\n var previousShrinkLevel = _BinaryenGetShrinkLevel();\r\n var previousDebugInfo = _BinaryenGetDebugInfo();\r\n _BinaryenSetOptimizeLevel(4);\r\n _BinaryenSetShrinkLevel(0);\r\n _BinaryenSetDebugInfo(false);\r\n\r\n // wrap the expression in a temp. function and run the precompute pass on it\r\n var type = _BinaryenExpressionGetType(expr);\r\n var func = this.addTemporaryFunction(type, null, expr);\r\n var names = this.cachedPrecomputeNames;\r\n if (!names) {\r\n this.cachedPrecomputeNames = names = allocI32Array([ this.allocStringCached(\"precompute\") ]);\r\n }\r\n _BinaryenFunctionRunPasses(func, this.ref, names, 1);\r\n expr = _BinaryenFunctionGetBody(func);\r\n this.removeTemporaryFunction();\r\n\r\n // reset optimize levels to previous\r\n _BinaryenSetOptimizeLevel(previousOptimizeLevel);\r\n _BinaryenSetShrinkLevel(previousShrinkLevel);\r\n _BinaryenSetDebugInfo(previousDebugInfo);\r\n return expr;\r\n }\r\n\r\n validate(): bool {\r\n return _BinaryenModuleValidate(this.ref) == 1;\r\n }\r\n\r\n interpret(): void {\r\n _BinaryenModuleInterpret(this.ref);\r\n }\r\n\r\n toBinary(sourceMapUrl: string | null): BinaryModule {\r\n var out = this.lit; // safe to reuse as long as..\r\n assert(_BinaryenSizeofLiteral() >= 12);\r\n var cStr = allocString(sourceMapUrl);\r\n var binaryPtr: usize = 0;\r\n var sourceMapPtr: usize = 0;\r\n try {\r\n _BinaryenModuleAllocateAndWrite(out, this.ref, cStr);\r\n binaryPtr = readInt(out);\r\n let binaryBytes = readInt(out + 4);\r\n sourceMapPtr = readInt(out + 4 * 2);\r\n let ret = new BinaryModule();\r\n ret.output = readBuffer(binaryPtr, binaryBytes);\r\n ret.sourceMap = readString(sourceMapPtr);\r\n return ret;\r\n } finally {\r\n if (cStr) memory.free(cStr);\r\n if (binaryPtr) memory.free(binaryPtr);\r\n if (sourceMapPtr) memory.free(sourceMapPtr);\r\n }\r\n }\r\n\r\n toText(): string {\r\n throw new Error(\"not implemented\"); // JS glue overrides this\r\n }\r\n\r\n toAsmjs(): string {\r\n throw new Error(\"not implemented\"); // JS glue overrides this\r\n }\r\n\r\n private cachedStrings: Map = new Map();\r\n\r\n private allocStringCached(str: string | null): usize {\r\n if (str == null) return 0;\r\n var cachedStrings = this.cachedStrings;\r\n if (cachedStrings.has(str)) return cachedStrings.get(str);\r\n var ptr = allocString(str);\r\n cachedStrings.set(str, ptr);\r\n return ptr;\r\n }\r\n\r\n dispose(): void {\r\n assert(this.ref);\r\n for (let ptr of this.cachedStrings.values()) memory.free(ptr);\r\n this.cachedStrings = new Map();\r\n memory.free(this.lit);\r\n memory.free(this.cachedPrecomputeNames);\r\n this.cachedPrecomputeNames = 0;\r\n _BinaryenModuleDispose(this.ref);\r\n this.ref = 0;\r\n }\r\n\r\n createRelooper(): Relooper {\r\n return Relooper.create(this);\r\n }\r\n\r\n cloneExpression(\r\n expr: ExpressionRef,\r\n noSideEffects: bool = false,\r\n maxDepth: i32 = i32.MAX_VALUE\r\n ): ExpressionRef { // currently supports side effect free expressions only\r\n if (maxDepth < 0) return 0;\r\n maxDepth -= 1;\r\n\r\n var nested1: ExpressionRef,\r\n nested2: ExpressionRef;\r\n\r\n switch (_BinaryenExpressionGetId(expr)) {\r\n case ExpressionId.Const: {\r\n switch (_BinaryenExpressionGetType(expr)) {\r\n case NativeType.I32: {\r\n return this.createI32(_BinaryenConstGetValueI32(expr));\r\n }\r\n case NativeType.I64: {\r\n return this.createI64(\r\n _BinaryenConstGetValueI64Low(expr),\r\n _BinaryenConstGetValueI64High(expr)\r\n );\r\n }\r\n case NativeType.F32: {\r\n return this.createF32(_BinaryenConstGetValueF32(expr));\r\n }\r\n case NativeType.F64: {\r\n return this.createF64(_BinaryenConstGetValueF64(expr));\r\n }\r\n case NativeType.V128: {\r\n // TODO\r\n return 0;\r\n }\r\n default: {\r\n throw new Error(\"concrete type expected\");\r\n }\r\n }\r\n }\r\n case ExpressionId.GetLocal: {\r\n return _BinaryenGetLocal(this.ref,\r\n _BinaryenGetLocalGetIndex(expr),\r\n _BinaryenExpressionGetType(expr)\r\n );\r\n }\r\n case ExpressionId.GetGlobal: {\r\n let globalName = _BinaryenGetGlobalGetName(expr);\r\n if (!globalName) break;\r\n return _BinaryenGetGlobal(this.ref, globalName, _BinaryenExpressionGetType(expr));\r\n }\r\n case ExpressionId.Load: {\r\n if (!(nested1 = this.cloneExpression(_BinaryenLoadGetPtr(expr), noSideEffects, maxDepth))) {\r\n break;\r\n }\r\n return (\r\n _BinaryenLoadIsAtomic(expr)\r\n ? _BinaryenAtomicLoad(this.ref,\r\n _BinaryenLoadGetBytes(expr),\r\n _BinaryenLoadGetOffset(expr),\r\n _BinaryenExpressionGetType(expr),\r\n nested1\r\n )\r\n : _BinaryenLoad(this.ref,\r\n _BinaryenLoadGetBytes(expr),\r\n _BinaryenLoadIsSigned(expr) ? 1 : 0,\r\n _BinaryenLoadGetOffset(expr),\r\n _BinaryenLoadGetAlign(expr),\r\n _BinaryenExpressionGetType(expr),\r\n nested1\r\n )\r\n );\r\n }\r\n case ExpressionId.Unary: {\r\n if (!(nested1 = this.cloneExpression(_BinaryenUnaryGetValue(expr), noSideEffects, maxDepth))) {\r\n break;\r\n }\r\n return _BinaryenUnary(this.ref, _BinaryenUnaryGetOp(expr), nested1);\r\n }\r\n case ExpressionId.Binary: {\r\n if (!(nested1 = this.cloneExpression(_BinaryenBinaryGetLeft(expr), noSideEffects, maxDepth))) {\r\n break;\r\n }\r\n if (!(nested2 = this.cloneExpression(_BinaryenBinaryGetRight(expr), noSideEffects, maxDepth))) {\r\n break;\r\n }\r\n return _BinaryenBinary(this.ref, _BinaryenBinaryGetOp(expr), nested1, nested2);\r\n }\r\n }\r\n return 0;\r\n }\r\n\r\n // source map generation\r\n\r\n addDebugInfoFile(name: string): Index {\r\n var cStr = allocString(name);\r\n try {\r\n return _BinaryenModuleAddDebugInfoFileName(this.ref, cStr);\r\n } finally {\r\n memory.free(cStr);\r\n }\r\n }\r\n\r\n getDebugInfoFile(index: Index): string | null {\r\n return readString(_BinaryenModuleGetDebugInfoFileName(this.ref, index));\r\n }\r\n\r\n setDebugLocation(\r\n func: FunctionRef,\r\n expr: ExpressionRef,\r\n fileIndex: Index,\r\n lineNumber: Index,\r\n columnNumber: Index\r\n ): void {\r\n _BinaryenFunctionSetDebugLocation(func, expr, fileIndex, lineNumber, columnNumber);\r\n }\r\n}\r\n\r\n// expressions\r\n\r\nexport function getExpressionId(expr: ExpressionRef): ExpressionId {\r\n return _BinaryenExpressionGetId(expr);\r\n}\r\n\r\nexport function getExpressionType(expr: ExpressionRef): NativeType {\r\n return _BinaryenExpressionGetType(expr);\r\n}\r\n\r\nexport function getConstValueI32(expr: ExpressionRef): i32 {\r\n return _BinaryenConstGetValueI32(expr);\r\n}\r\n\r\nexport function getConstValueI64Low(expr: ExpressionRef): i32 {\r\n return _BinaryenConstGetValueI64Low(expr);\r\n}\r\n\r\nexport function getConstValueI64High(expr: ExpressionRef): i32 {\r\n return _BinaryenConstGetValueI64High(expr);\r\n}\r\n\r\nexport function getConstValueF32(expr: ExpressionRef): f32 {\r\n return _BinaryenConstGetValueF32(expr);\r\n}\r\n\r\nexport function getConstValueF64(expr: ExpressionRef): f32 {\r\n return _BinaryenConstGetValueF64(expr);\r\n}\r\n\r\nexport function getGetLocalIndex(expr: ExpressionRef): Index {\r\n return _BinaryenGetLocalGetIndex(expr);\r\n}\r\n\r\nexport function getSetLocalIndex(expr: ExpressionRef): Index {\r\n return _BinaryenSetLocalGetIndex(expr);\r\n}\r\n\r\nexport function getSetLocalValue(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenSetLocalGetValue(expr);\r\n}\r\n\r\nexport function isTeeLocal(expr: ExpressionRef): bool {\r\n return _BinaryenSetLocalIsTee(expr);\r\n}\r\n\r\nexport function getGetGlobalName(expr: ExpressionRef): string | null {\r\n return readString(_BinaryenGetGlobalGetName(expr));\r\n}\r\n\r\nexport function getBinaryOp(expr: ExpressionRef): BinaryOp {\r\n return _BinaryenBinaryGetOp(expr);\r\n}\r\n\r\nexport function getBinaryLeft(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenBinaryGetLeft(expr);\r\n}\r\n\r\nexport function getBinaryRight(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenBinaryGetRight(expr);\r\n}\r\n\r\nexport function getUnaryOp(expr: ExpressionRef): UnaryOp {\r\n return _BinaryenUnaryGetOp(expr);\r\n}\r\n\r\nexport function getUnaryValue(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenUnaryGetValue(expr);\r\n}\r\n\r\nexport function getLoadBytes(expr: ExpressionRef): u32 {\r\n return _BinaryenLoadGetBytes(expr);\r\n}\r\n\r\nexport function getLoadOffset(expr: ExpressionRef): u32 {\r\n return _BinaryenLoadGetOffset(expr);\r\n}\r\n\r\nexport function getLoadPtr(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenLoadGetPtr(expr);\r\n}\r\n\r\nexport function isLoadSigned(expr: ExpressionRef): bool {\r\n return _BinaryenLoadIsSigned(expr);\r\n}\r\n\r\nexport function getStoreBytes(expr: ExpressionRef): u32 {\r\n return _BinaryenStoreGetBytes(expr);\r\n}\r\n\r\nexport function getStoreOffset(expr: ExpressionRef): u32 {\r\n return _BinaryenStoreGetOffset(expr);\r\n}\r\n\r\nexport function getStorePtr(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenStoreGetPtr(expr);\r\n}\r\n\r\nexport function getStoreValue(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenStoreGetValue(expr);\r\n}\r\n\r\nexport function getBlockName(expr: ExpressionRef): string | null {\r\n return readString(_BinaryenBlockGetName(expr));\r\n}\r\n\r\nexport function getBlockChildCount(expr: ExpressionRef): Index {\r\n return _BinaryenBlockGetNumChildren(expr);\r\n}\r\n\r\nexport function getBlockChild(expr: ExpressionRef, index: Index): ExpressionRef {\r\n return _BinaryenBlockGetChild(expr, index);\r\n}\r\n\r\nexport function getIfCondition(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenIfGetCondition(expr);\r\n}\r\n\r\nexport function getIfTrue(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenIfGetIfTrue(expr);\r\n}\r\n\r\nexport function getIfFalse(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenIfGetIfFalse(expr);\r\n}\r\n\r\nexport function getLoopName(expr: ExpressionRef): string | null {\r\n return readString(_BinaryenLoopGetName(expr));\r\n}\r\n\r\nexport function getLoopBody(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenLoopGetBody(expr);\r\n}\r\n\r\nexport function getBreakName(expr: ExpressionRef): string | null {\r\n return readString(_BinaryenBreakGetName(expr));\r\n}\r\n\r\nexport function getBreakCondition(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenBreakGetCondition(expr);\r\n}\r\n\r\nexport function getSelectThen(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenSelectGetIfTrue(expr);\r\n}\r\n\r\nexport function getSelectElse(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenSelectGetIfFalse(expr);\r\n}\r\n\r\nexport function getSelectCondition(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenSelectGetCondition(expr);\r\n}\r\n\r\nexport function getDropValue(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenDropGetValue(expr);\r\n}\r\n\r\nexport function getReturnValue(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenReturnGetValue(expr);\r\n}\r\n\r\nexport function getCallTarget(expr: ExpressionRef): string | null {\r\n return readString(_BinaryenCallGetTarget(expr));\r\n}\r\n\r\nexport function getHostOp(expr: ExpressionRef): ExpressionRef {\r\n return _BinaryenHostGetOp(expr);\r\n}\r\n\r\nexport function getHostOperandCount(expr: ExpressionRef): Index {\r\n return _BinaryenHostGetNumOperands(expr);\r\n}\r\n\r\nexport function getHostOperand(expr: ExpressionRef, index: Index): ExpressionRef {\r\n return _BinaryenHostGetOperand(expr, index);\r\n}\r\n\r\nexport function getHostName(expr: ExpressionRef): string | null {\r\n return readString(_BinaryenHostGetNameOperand(expr));\r\n}\r\n\r\n// functions\r\n\r\nexport function getFunctionBody(func: FunctionRef): ExpressionRef {\r\n return _BinaryenFunctionGetBody(func);\r\n}\r\n\r\nexport function getFunctionName(func: FunctionRef): string | null {\r\n return readString(_BinaryenFunctionGetName(func));\r\n}\r\n\r\nexport function getFunctionParamCount(func: FunctionRef): Index {\r\n return _BinaryenFunctionGetNumParams(func);\r\n}\r\n\r\nexport function getFunctionParamType(func: FunctionRef, index: Index): NativeType {\r\n return _BinaryenFunctionGetParam(func, index);\r\n}\r\n\r\nexport function getFunctionResultType(func: FunctionRef): NativeType {\r\n return _BinaryenFunctionGetResult(func);\r\n}\r\n\r\nexport class Relooper {\r\n\r\n module: Module;\r\n ref: RelooperRef;\r\n\r\n static create(module: Module): Relooper {\r\n var relooper = new Relooper();\r\n relooper.module = module;\r\n relooper.ref = _RelooperCreate(module.ref);\r\n return relooper;\r\n }\r\n\r\n private constructor() {}\r\n\r\n addBlock(code: ExpressionRef): RelooperBlockRef {\r\n return _RelooperAddBlock(this.ref, code);\r\n }\r\n\r\n addBranch(\r\n from: RelooperBlockRef,\r\n to: RelooperBlockRef,\r\n condition: ExpressionRef = 0,\r\n code: ExpressionRef = 0\r\n ): void {\r\n _RelooperAddBranch(from, to, condition, code);\r\n }\r\n\r\n addBlockWithSwitch(code: ExpressionRef, condition: ExpressionRef): RelooperBlockRef {\r\n return _RelooperAddBlockWithSwitch(this.ref, code, condition);\r\n }\r\n\r\n addBranchForSwitch(\r\n from: RelooperBlockRef,\r\n to: RelooperBlockRef,\r\n indexes: i32[],\r\n code: ExpressionRef = 0\r\n ): void {\r\n var cArr = allocI32Array(indexes);\r\n try {\r\n _RelooperAddBranchForSwitch(from, to, cArr, indexes.length, code);\r\n } finally {\r\n memory.free(cArr);\r\n }\r\n }\r\n\r\n renderAndDispose(entry: RelooperBlockRef, labelHelper: Index): ExpressionRef {\r\n return _RelooperRenderAndDispose(this.ref, entry, labelHelper);\r\n }\r\n}\r\n\r\n// export function hasSideEffects(expr: ExpressionRef): bool {\r\n// switch (_BinaryenExpressionGetId(expr = getPtr(expr))) {\r\n// case ExpressionId.GetLocal:\r\n// case ExpressionId.GetGlobal:\r\n// case ExpressionId.Const:\r\n// case ExpressionId.Nop:\r\n// case ExpressionId.Unreachable: {\r\n// return false;\r\n// }\r\n// case ExpressionId.Block: {\r\n// for (let i = 0, k = _BinaryenBlockGetNumChildren(expr); i < k; ++i) {\r\n// if (hasSideEffects(_BinaryenBlockGetChild(expr, i))) return true;\r\n// }\r\n// return false;\r\n// }\r\n// case ExpressionId.If: {\r\n// return hasSideEffects(_BinaryenIfGetCondition(expr))\r\n// || hasSideEffects(_BinaryenIfGetIfTrue(expr))\r\n// || hasSideEffects(_BinaryenIfGetIfFalse(expr));\r\n// }\r\n// case ExpressionId.Unary: {\r\n// return hasSideEffects(_BinaryenUnaryGetValue(expr));\r\n// }\r\n// case ExpressionId.Binary: {\r\n// return hasSideEffects(_BinaryenBinaryGetLeft(expr))\r\n// || hasSideEffects(_BinaryenBinaryGetRight(expr));\r\n// }\r\n// case ExpressionId.Drop: {\r\n// return hasSideEffects(_BinaryenDropGetValue(expr));\r\n// }\r\n// case ExpressionId.Select: {\r\n// return hasSideEffects(_BinaryenSelectGetIfTrue(expr))\r\n// || hasSideEffects(_BinaryenSelectGetIfFalse(expr))\r\n// || hasSideEffects(_BinaryenSelectGetCondition(expr));\r\n// }\r\n// }\r\n// return true;\r\n// }\r\n\r\n// helpers\r\n// can't do stack allocation here: STACKTOP is a global in WASM but a hidden variable in asm.js\r\n\r\nfunction allocU8Array(u8s: Uint8Array | null): usize {\r\n if (!u8s) return 0;\r\n var numValues = u8s.length;\r\n var ptr = memory.allocate(numValues);\r\n var idx = ptr;\r\n for (let i = 0; i < numValues; ++i) {\r\n store(idx++, u8s[i]);\r\n }\r\n return ptr;\r\n}\r\n\r\nfunction allocI32Array(i32s: i32[] | null): usize {\r\n if (!i32s) return 0;\r\n var ptr = memory.allocate(i32s.length << 2);\r\n var idx = ptr;\r\n for (let i = 0, k = i32s.length; i < k; ++i) {\r\n let val = i32s[i];\r\n // store(idx, val) is not portable\r\n store(idx , ( val & 0xff) as u8);\r\n store(idx + 1, ((val >> 8) & 0xff) as u8);\r\n store(idx + 2, ((val >> 16) & 0xff) as u8);\r\n store(idx + 3, ( val >>> 24 ) as u8);\r\n idx += 4;\r\n }\r\n return ptr;\r\n}\r\n\r\nfunction allocPtrArray(ptrs: usize[] | null): usize {\r\n return allocI32Array(ptrs); // TODO: WASM64 one day\r\n}\r\n\r\nfunction stringLengthUTF8(str: string): usize {\r\n var len = 0;\r\n for (let i = 0, k = str.length; i < k; ++i) {\r\n let u = str.charCodeAt(i);\r\n if (u >= 0xD800 && u <= 0xDFFF && i + 1 < k) {\r\n u = 0x10000 + ((u & 0x3FF) << 10) | (str.charCodeAt(++i) & 0x3FF);\r\n }\r\n if (u <= 0x7F) {\r\n ++len;\r\n } else if (u <= 0x7FF) {\r\n len += 2;\r\n } else if (u <= 0xFFFF) {\r\n len += 3;\r\n } else if (u <= 0x1FFFFF) {\r\n len += 4;\r\n } else if (u <= 0x3FFFFFF) {\r\n len += 5;\r\n } else {\r\n len += 6;\r\n }\r\n }\r\n return len;\r\n}\r\n\r\nfunction allocString(str: string | null): usize {\r\n if (str == null) return 0;\r\n var ptr = memory.allocate(stringLengthUTF8(str) + 1);\r\n // the following is based on Emscripten's stringToUTF8Array\r\n var idx = ptr;\r\n for (let i = 0, k = str.length; i < k; ++i) {\r\n let u = str.charCodeAt(i);\r\n if (u >= 0xD800 && u <= 0xDFFF && i + 1 < k) {\r\n u = 0x10000 + ((u & 0x3FF) << 10) | (str.charCodeAt(++i) & 0x3FF);\r\n }\r\n if (u <= 0x7F) {\r\n store(idx++, u as u8);\r\n } else if (u <= 0x7FF) {\r\n store(idx++, (0xC0 | (u >>> 6) ) as u8);\r\n store(idx++, (0x80 | ( u & 63)) as u8);\r\n } else if (u <= 0xFFFF) {\r\n store(idx++, (0xE0 | (u >>> 12) ) as u8);\r\n store(idx++, (0x80 | ((u >>> 6) & 63)) as u8);\r\n store(idx++, (0x80 | ( u & 63)) as u8);\r\n } else if (u <= 0x1FFFFF) {\r\n store(idx++, (0xF0 | (u >>> 18) ) as u8);\r\n store(idx++, (0x80 | ((u >>> 12) & 63)) as u8);\r\n store(idx++, (0x80 | ((u >>> 6) & 63)) as u8);\r\n store(idx++, (0x80 | ( u & 63)) as u8);\r\n } else if (u <= 0x3FFFFFF) {\r\n store(idx++, (0xF8 | (u >>> 24) ) as u8);\r\n store(idx++, (0x80 | ((u >>> 18) & 63)) as u8);\r\n store(idx++, (0x80 | ((u >>> 12) & 63)) as u8);\r\n store(idx++, (0x80 | ((u >>> 6) & 63)) as u8);\r\n store(idx++, (0x80 | ( u & 63)) as u8);\r\n } else {\r\n store(idx++, (0xFC | (u >>> 30) ) as u8);\r\n store(idx++, (0x80 | ((u >>> 24) & 63)) as u8);\r\n store(idx++, (0x80 | ((u >>> 18) & 63)) as u8);\r\n store(idx++, (0x80 | ((u >>> 12) & 63)) as u8);\r\n store(idx++, (0x80 | ((u >>> 6) & 63)) as u8);\r\n store(idx++, (0x80 | ( u & 63)) as u8);\r\n }\r\n }\r\n store(idx, 0);\r\n return ptr;\r\n}\r\n\r\nfunction readInt(ptr: usize): i32 {\r\n return (\r\n load(ptr ) |\r\n (load(ptr + 1) << 8) |\r\n (load(ptr + 2) << 16) |\r\n (load(ptr + 3) << 24)\r\n );\r\n}\r\n\r\nfunction readBuffer(ptr: usize, length: usize): Uint8Array {\r\n var ret = new Uint8Array(length);\r\n for (let i: usize = 0; i < length; ++i) {\r\n ret[i] = load(ptr + i);\r\n }\r\n return ret;\r\n}\r\n\r\nexport function readString(ptr: usize): string | null {\r\n if (!ptr) return null;\r\n var arr = new Array();\r\n // the following is based on Emscripten's UTF8ArrayToString\r\n var cp: u32;\r\n var u1: u32, u2: u32, u3: u32, u4: u32, u5: u32;\r\n while (cp = load(ptr++)) {\r\n if (!(cp & 0x80)) {\r\n arr.push(cp);\r\n continue;\r\n }\r\n u1 = load(ptr++) & 63;\r\n if ((cp & 0xE0) == 0xC0) {\r\n arr.push(((cp & 31) << 6) | u1);\r\n continue;\r\n }\r\n u2 = load(ptr++) & 63;\r\n if ((cp & 0xF0) == 0xE0) {\r\n cp = ((cp & 15) << 12) | (u1 << 6) | u2;\r\n } else {\r\n u3 = load(ptr++) & 63;\r\n if ((cp & 0xF8) == 0xF0) {\r\n cp = ((cp & 7) << 18) | (u1 << 12) | (u2 << 6) | u3;\r\n } else {\r\n u4 = load(ptr++) & 63;\r\n if ((cp & 0xFC) == 0xF8) {\r\n cp = ((cp & 3) << 24) | (u1 << 18) | (u2 << 12) | (u3 << 6) | u4;\r\n } else {\r\n u5 = load(ptr++) & 63;\r\n cp = ((cp & 1) << 30) | (u1 << 24) | (u2 << 18) | (u3 << 12) | (u4 << 6) | u5;\r\n }\r\n }\r\n }\r\n arr.push(cp);\r\n // if (cp < 0x10000) {\r\n // arr.push(cp);\r\n // } else {\r\n // var ch = cp - 0x10000;\r\n // arr.push(0xD800 | (ch >> 10));\r\n // arr.push(0xDC00 | (ch & 0x3FF));\r\n // }\r\n }\r\n // return String.fromCharCodes(arr);\r\n return String.fromCodePoints(arr);\r\n}\r\n\r\n/** Result structure of {@link Module#toBinary}. */\r\nexport class BinaryModule {\r\n /** WebAssembly binary. */\r\n output: Uint8Array;\r\n /** Source map, if generated. */\r\n sourceMap: string | null;\r\n}\r\n\r\n/** Tests if an expression needs an explicit 'unreachable' when it is the terminating statement. */\r\nexport function needsExplicitUnreachable(expr: ExpressionRef): bool {\r\n // not applicable if pushing a value to the stack\r\n switch (_BinaryenExpressionGetType(expr)) {\r\n case NativeType.I32:\r\n case NativeType.I64:\r\n case NativeType.F32:\r\n case NativeType.F64:\r\n case NativeType.V128: return false;\r\n }\r\n switch (_BinaryenExpressionGetId(expr)) {\r\n case ExpressionId.Unreachable:\r\n case ExpressionId.Return: return false;\r\n case ExpressionId.Break: return _BinaryenBreakGetCondition(expr) != 0;\r\n case ExpressionId.Block: {\r\n if (!_BinaryenBlockGetName(expr)) { // can't break out of it\r\n let numChildren = _BinaryenBlockGetNumChildren(expr); // last child needs unreachable\r\n return numChildren > 0 && needsExplicitUnreachable(_BinaryenBlockGetChild(expr, numChildren - 1));\r\n }\r\n }\r\n }\r\n return true;\r\n}\r\n","/**\r\n * Abstract syntax tree representing a source file once parsed.\r\n * @module ast\r\n *//***/\r\n\r\nimport {\r\n CommonFlags,\r\n CommonSymbols,\r\n PATH_DELIMITER,\r\n LIBRARY_PREFIX\r\n} from \"./common\";\r\n\r\nimport {\r\n Token,\r\n Tokenizer,\r\n Range\r\n} from \"./tokenizer\";\r\n\r\nimport {\r\n normalizePath,\r\n resolvePath,\r\n CharCode\r\n} from \"./util\";\r\n\r\nexport { Token, Range };\r\n\r\n/** Indicates the kind of a node. */\r\nexport enum NodeKind {\r\n\r\n SOURCE,\r\n\r\n // types\r\n TYPE,\r\n TYPENAME,\r\n TYPEPARAMETER,\r\n PARAMETER,\r\n SIGNATURE,\r\n\r\n // expressions\r\n IDENTIFIER,\r\n ASSERTION,\r\n BINARY,\r\n CALL,\r\n CLASS,\r\n COMMA,\r\n ELEMENTACCESS,\r\n FALSE,\r\n FUNCTION,\r\n INSTANCEOF,\r\n LITERAL,\r\n NEW,\r\n NULL,\r\n PARENTHESIZED,\r\n PROPERTYACCESS,\r\n TERNARY,\r\n SUPER,\r\n THIS,\r\n TRUE,\r\n CONSTRUCTOR,\r\n UNARYPOSTFIX,\r\n UNARYPREFIX,\r\n\r\n // statements\r\n BLOCK,\r\n BREAK,\r\n CONTINUE,\r\n DO,\r\n EMPTY,\r\n EXPORT,\r\n EXPORTIMPORT,\r\n EXPRESSION,\r\n FOR,\r\n IF,\r\n IMPORT,\r\n RETURN,\r\n SWITCH,\r\n THROW,\r\n TRY,\r\n VARIABLE,\r\n VOID,\r\n WHILE,\r\n\r\n // declaration statements\r\n CLASSDECLARATION,\r\n ENUMDECLARATION,\r\n ENUMVALUEDECLARATION,\r\n FIELDDECLARATION,\r\n FUNCTIONDECLARATION,\r\n IMPORTDECLARATION,\r\n INDEXSIGNATUREDECLARATION,\r\n INTERFACEDECLARATION,\r\n METHODDECLARATION,\r\n NAMESPACEDECLARATION,\r\n TYPEDECLARATION,\r\n VARIABLEDECLARATION,\r\n\r\n // special\r\n DECORATOR,\r\n EXPORTMEMBER,\r\n SWITCHCASE,\r\n COMMENT\r\n}\r\n\r\n/** Checks if a node represents a constant value. */\r\nexport function nodeIsConstantValue(kind: NodeKind): bool {\r\n switch (kind) {\r\n case NodeKind.LITERAL:\r\n case NodeKind.NULL:\r\n case NodeKind.TRUE:\r\n case NodeKind.FALSE: return true;\r\n }\r\n return false;\r\n}\r\n\r\n/** Checks if a node might be callable. */\r\nexport function nodeIsCallable(kind: NodeKind): bool {\r\n switch (kind) {\r\n case NodeKind.IDENTIFIER:\r\n case NodeKind.ASSERTION: // if kind=NONNULL\r\n case NodeKind.CALL:\r\n case NodeKind.ELEMENTACCESS:\r\n case NodeKind.PARENTHESIZED:\r\n case NodeKind.PROPERTYACCESS:\r\n case NodeKind.SUPER: return true;\r\n }\r\n return false;\r\n}\r\n\r\n/** Checks if a node might be callable with generic arguments. */\r\nexport function nodeIsGenericCallable(kind: NodeKind): bool {\r\n switch (kind) {\r\n case NodeKind.IDENTIFIER:\r\n case NodeKind.PROPERTYACCESS: return true;\r\n }\r\n return false;\r\n}\r\n\r\n/** Base class of all nodes. */\r\nexport abstract class Node {\r\n\r\n /** Node kind indicator. */\r\n kind: NodeKind;\r\n /** Source range. */\r\n range: Range;\r\n\r\n // types\r\n\r\n static createTypeName(\r\n name: IdentifierExpression,\r\n range: Range\r\n ): TypeName {\r\n var typeName = new TypeName();\r\n typeName.range = range;\r\n typeName.identifier = name;\r\n typeName.next = null;\r\n return typeName;\r\n }\r\n\r\n static createSimpleTypeName(\r\n name: string,\r\n range: Range\r\n ): TypeName {\r\n return Node.createTypeName(Node.createIdentifierExpression(name, range), range);\r\n }\r\n\r\n static createType(\r\n name: TypeName,\r\n typeArguments: CommonTypeNode[] | null,\r\n isNullable: bool,\r\n range: Range\r\n ): TypeNode {\r\n var type = new TypeNode();\r\n type.range = range;\r\n type.name = name;\r\n type.typeArguments = typeArguments;\r\n type.isNullable = isNullable;\r\n return type;\r\n }\r\n\r\n static createOmittedType(\r\n range: Range\r\n ): TypeNode {\r\n return Node.createType(\r\n Node.createSimpleTypeName(\"\", range),\r\n null,\r\n false,\r\n range\r\n );\r\n }\r\n\r\n static createTypeParameter(\r\n name: IdentifierExpression,\r\n extendsType: TypeNode | null,\r\n defaultType: TypeNode | null,\r\n range: Range\r\n ): TypeParameterNode {\r\n var elem = new TypeParameterNode();\r\n elem.range = range;\r\n elem.name = name;\r\n elem.extendsType = extendsType;\r\n elem.defaultType = defaultType;\r\n return elem;\r\n }\r\n\r\n static createParameter(\r\n name: IdentifierExpression,\r\n type: CommonTypeNode,\r\n initializer: Expression | null,\r\n kind: ParameterKind,\r\n range: Range\r\n ): ParameterNode {\r\n var elem = new ParameterNode();\r\n elem.range = range;\r\n elem.name = name;\r\n elem.type = type;\r\n elem.initializer = initializer;\r\n elem.parameterKind = kind;\r\n return elem;\r\n }\r\n\r\n static createSignature(\r\n parameters: ParameterNode[],\r\n returnType: CommonTypeNode,\r\n explicitThisType: TypeNode | null,\r\n isNullable: bool,\r\n range: Range\r\n ): SignatureNode {\r\n var sig = new SignatureNode();\r\n sig.range = range;\r\n sig.parameters = parameters;\r\n sig.returnType = returnType;\r\n sig.explicitThisType = explicitThisType;\r\n sig.isNullable = isNullable;\r\n return sig;\r\n }\r\n\r\n // special\r\n\r\n static createDecorator(\r\n name: Expression,\r\n args: Expression[] | null,\r\n range: Range\r\n ): DecoratorNode {\r\n var stmt = new DecoratorNode();\r\n stmt.range = range;\r\n stmt.name = name;\r\n stmt.arguments = args;\r\n stmt.decoratorKind = decoratorNameToKind(name);\r\n return stmt;\r\n }\r\n\r\n static createComment(\r\n text: string,\r\n kind: CommentKind,\r\n range: Range\r\n ): CommentNode {\r\n var node = new CommentNode();\r\n node.range = range;\r\n node.commentKind = kind;\r\n node.text = text;\r\n return node;\r\n }\r\n\r\n // expressions\r\n\r\n static createIdentifierExpression(\r\n name: string,\r\n range: Range,\r\n isQuoted: bool = false\r\n ): IdentifierExpression {\r\n var expr = new IdentifierExpression();\r\n expr.range = range;\r\n expr.text = name; // TODO: extract from range\r\n expr.symbol = name; // TODO: Symbol.for(name)\r\n expr.isQuoted = isQuoted;\r\n return expr;\r\n }\r\n\r\n static createEmptyIdentifierExpression(\r\n range: Range\r\n ): IdentifierExpression {\r\n var expr = new IdentifierExpression();\r\n expr.range = range;\r\n expr.text = \"\";\r\n return expr;\r\n }\r\n\r\n static createArrayLiteralExpression(\r\n elements: (Expression | null)[],\r\n range: Range\r\n ): ArrayLiteralExpression {\r\n var expr = new ArrayLiteralExpression();\r\n expr.range = range;\r\n expr.elementExpressions = elements;\r\n return expr;\r\n }\r\n\r\n static createAssertionExpression(\r\n assertionKind: AssertionKind,\r\n expression: Expression,\r\n toType: CommonTypeNode | null,\r\n range: Range\r\n ): AssertionExpression {\r\n var expr = new AssertionExpression();\r\n expr.range = range;\r\n expr.assertionKind = assertionKind;\r\n expr.expression = expression;\r\n expr.toType = toType;\r\n return expr;\r\n }\r\n\r\n static createBinaryExpression(\r\n operator: Token,\r\n left: Expression,\r\n right: Expression,\r\n range: Range\r\n ): BinaryExpression {\r\n var expr = new BinaryExpression();\r\n expr.range = range;\r\n expr.operator = operator;\r\n expr.left = left;\r\n expr.right = right;\r\n return expr;\r\n }\r\n\r\n static createCallExpression(\r\n expression: Expression,\r\n typeArgs: CommonTypeNode[] | null,\r\n args: Expression[],\r\n range: Range\r\n ): CallExpression {\r\n var expr = new CallExpression();\r\n expr.range = range;\r\n expr.expression = expression;\r\n expr.typeArguments = typeArgs;\r\n expr.arguments = args;\r\n return expr;\r\n }\r\n\r\n static createClassExpression(\r\n declaration: ClassDeclaration\r\n ): ClassExpression {\r\n var expr = new ClassExpression();\r\n expr.range = declaration.range;\r\n expr.declaration = declaration;\r\n return expr;\r\n }\r\n\r\n static createCommaExpression(\r\n expressions: Expression[],\r\n range: Range\r\n ): CommaExpression {\r\n var expr = new CommaExpression();\r\n expr.range = range;\r\n expr.expressions = expressions;\r\n return expr;\r\n }\r\n\r\n static createConstructorExpression(\r\n range: Range\r\n ): ConstructorExpression {\r\n var expr = new ConstructorExpression();\r\n expr.range = range;\r\n return expr;\r\n }\r\n\r\n static createElementAccessExpression(\r\n expression: Expression,\r\n element: Expression,\r\n range: Range\r\n ): ElementAccessExpression {\r\n var expr = new ElementAccessExpression();\r\n expr.range = range;\r\n expr.expression = expression;\r\n expr.elementExpression = element;\r\n return expr;\r\n }\r\n\r\n static createFalseExpression(\r\n range: Range\r\n ): FalseExpression {\r\n var expr = new FalseExpression();\r\n expr.range = range;\r\n return expr;\r\n }\r\n\r\n static createFloatLiteralExpression(\r\n value: f64,\r\n range: Range\r\n ): FloatLiteralExpression {\r\n var expr = new FloatLiteralExpression();\r\n expr.range = range;\r\n expr.value = value;\r\n return expr;\r\n }\r\n\r\n static createFunctionExpression(\r\n declaration: FunctionDeclaration\r\n ): FunctionExpression {\r\n var expr = new FunctionExpression();\r\n expr.range = declaration.range;\r\n expr.declaration = declaration;\r\n return expr;\r\n }\r\n\r\n static createInstanceOfExpression(\r\n expression: Expression,\r\n isType: CommonTypeNode,\r\n range: Range\r\n ): InstanceOfExpression {\r\n var expr = new InstanceOfExpression();\r\n expr.range = range;\r\n expr.expression = expression;\r\n expr.isType = isType;\r\n return expr;\r\n }\r\n\r\n static createIntegerLiteralExpression(\r\n value: I64,\r\n range: Range\r\n ): IntegerLiteralExpression {\r\n var expr = new IntegerLiteralExpression();\r\n expr.range = range;\r\n expr.value = value;\r\n return expr;\r\n }\r\n\r\n static createNewExpression(\r\n expression: Expression,\r\n typeArgs: CommonTypeNode[] | null,\r\n args: Expression[],\r\n range: Range\r\n ): NewExpression {\r\n var expr = new NewExpression();\r\n expr.range = range;\r\n expr.expression = expression;\r\n expr.typeArguments = typeArgs;\r\n expr.arguments = args;\r\n return expr;\r\n }\r\n\r\n static createNullExpression(\r\n range: Range\r\n ): NullExpression {\r\n var expr = new NullExpression();\r\n expr.range = range;\r\n return expr;\r\n }\r\n\r\n static createObjectLiteralExpression(\r\n names: IdentifierExpression[],\r\n values: Expression[],\r\n range: Range\r\n ): ObjectLiteralExpression {\r\n var expr = new ObjectLiteralExpression();\r\n expr.range = range;\r\n expr.names = names;\r\n expr.values = values;\r\n return expr;\r\n }\r\n\r\n static createParenthesizedExpression(\r\n expression: Expression,\r\n range: Range\r\n ): ParenthesizedExpression {\r\n var expr = new ParenthesizedExpression();\r\n expr.range = range;\r\n expr.expression = expression;\r\n return expr;\r\n }\r\n\r\n static createPropertyAccessExpression(\r\n expression: Expression,\r\n property: IdentifierExpression,\r\n range: Range\r\n ): PropertyAccessExpression {\r\n var expr = new PropertyAccessExpression();\r\n expr.range = range;\r\n expr.expression = expression;\r\n expr.property = property;\r\n return expr;\r\n }\r\n\r\n static createRegexpLiteralExpression(\r\n pattern: string,\r\n flags: string,\r\n range: Range\r\n ): RegexpLiteralExpression {\r\n var expr = new RegexpLiteralExpression();\r\n expr.range = range;\r\n expr.pattern = pattern;\r\n expr.patternFlags = flags;\r\n return expr;\r\n }\r\n\r\n static createTernaryExpression(\r\n condition: Expression,\r\n ifThen: Expression,\r\n ifElse: Expression,\r\n range: Range\r\n ): TernaryExpression {\r\n var expr = new TernaryExpression();\r\n expr.range = range;\r\n expr.condition = condition;\r\n expr.ifThen = ifThen;\r\n expr.ifElse = ifElse;\r\n return expr;\r\n }\r\n\r\n static createStringLiteralExpression(\r\n value: string,\r\n range: Range\r\n ): StringLiteralExpression {\r\n var expr = new StringLiteralExpression();\r\n expr.range = range;\r\n expr.value = value;\r\n return expr;\r\n }\r\n\r\n static createSuperExpression(\r\n range: Range\r\n ): SuperExpression {\r\n var expr = new SuperExpression();\r\n expr.range = range;\r\n return expr;\r\n }\r\n\r\n static createThisExpression(\r\n range: Range\r\n ): ThisExpression {\r\n var expr = new ThisExpression();\r\n expr.range = range;\r\n return expr;\r\n }\r\n\r\n static createTrueExpression(\r\n range: Range\r\n ): TrueExpression {\r\n var expr = new TrueExpression();\r\n expr.range = range;\r\n return expr;\r\n }\r\n\r\n static createUnaryPostfixExpression(\r\n operator: Token,\r\n operand: Expression,\r\n range: Range\r\n ): UnaryPostfixExpression {\r\n var expr = new UnaryPostfixExpression();\r\n expr.range = range;\r\n expr.operator = operator;\r\n expr.operand = operand;\r\n return expr;\r\n }\r\n\r\n static createUnaryPrefixExpression(\r\n operator: Token,\r\n operand: Expression,\r\n range: Range\r\n ): UnaryPrefixExpression {\r\n var expr = new UnaryPrefixExpression();\r\n expr.range = range;\r\n expr.operator = operator;\r\n expr.operand = operand;\r\n return expr;\r\n }\r\n\r\n // statements\r\n\r\n static createBlockStatement(\r\n statements: Statement[],\r\n range: Range\r\n ): BlockStatement {\r\n var stmt = new BlockStatement();\r\n stmt.range = range;\r\n stmt.statements = statements;\r\n return stmt;\r\n }\r\n\r\n static createBreakStatement(\r\n label: IdentifierExpression | null,\r\n range: Range\r\n ): BreakStatement {\r\n var stmt = new BreakStatement();\r\n stmt.range = range;\r\n stmt.label = label;\r\n return stmt;\r\n }\r\n\r\n static createClassDeclaration(\r\n identifier: IdentifierExpression,\r\n typeParameters: TypeParameterNode[] | null,\r\n extendsType: TypeNode | null, // can't be a function\r\n implementsTypes: TypeNode[] | null, // can't be functions\r\n members: DeclarationStatement[],\r\n decorators: DecoratorNode[] | null,\r\n flags: CommonFlags,\r\n range: Range\r\n ): ClassDeclaration {\r\n var stmt = new ClassDeclaration();\r\n stmt.range = range;\r\n stmt.flags = flags;\r\n stmt.name = identifier;\r\n stmt.typeParameters = typeParameters;\r\n stmt.extendsType = extendsType;\r\n stmt.implementsTypes = implementsTypes;\r\n stmt.members = members;\r\n stmt.decorators = decorators;\r\n return stmt;\r\n }\r\n\r\n static createContinueStatement(\r\n label: IdentifierExpression | null,\r\n range: Range\r\n ): ContinueStatement {\r\n var stmt = new ContinueStatement();\r\n stmt.range = range;\r\n stmt.label = label;\r\n return stmt;\r\n }\r\n\r\n static createDoStatement(\r\n statement: Statement,\r\n condition: Expression,\r\n range: Range\r\n ): DoStatement {\r\n var stmt = new DoStatement();\r\n stmt.range = range;\r\n stmt.statement = statement;\r\n stmt.condition = condition;\r\n return stmt;\r\n }\r\n\r\n static createEmptyStatement(\r\n range: Range\r\n ): EmptyStatement {\r\n var stmt = new EmptyStatement();\r\n stmt.range = range;\r\n return stmt;\r\n }\r\n\r\n static createEnumDeclaration(\r\n name: IdentifierExpression,\r\n members: EnumValueDeclaration[],\r\n decorators: DecoratorNode[] | null,\r\n flags: CommonFlags,\r\n range: Range\r\n ): EnumDeclaration {\r\n var stmt = new EnumDeclaration();\r\n stmt.range = range;\r\n stmt.flags = flags;\r\n stmt.name = name;\r\n stmt.values = members;\r\n stmt.decorators = decorators;\r\n return stmt;\r\n }\r\n\r\n static createEnumValueDeclaration(\r\n name: IdentifierExpression,\r\n value: Expression | null,\r\n flags: CommonFlags,\r\n range: Range\r\n ): EnumValueDeclaration {\r\n var stmt = new EnumValueDeclaration();\r\n stmt.range = range;\r\n stmt.flags = flags;\r\n stmt.name = name;\r\n stmt.value = value;\r\n return stmt;\r\n }\r\n\r\n static createExportStatement(\r\n members: ExportMember[] | null,\r\n path: StringLiteralExpression | null,\r\n isDeclare: bool,\r\n range: Range\r\n ): ExportStatement {\r\n var stmt = new ExportStatement();\r\n stmt.range = range;\r\n stmt.members = members;\r\n stmt.path = path;\r\n if (path) {\r\n let normalizedPath = normalizePath(path.value);\r\n if (path.value.startsWith(\".\")) { // relative\r\n stmt.normalizedPath = resolvePath(\r\n normalizedPath,\r\n range.source.normalizedPath\r\n );\r\n } else { // absolute\r\n stmt.normalizedPath = normalizedPath;\r\n }\r\n stmt.internalPath = mangleInternalPath(stmt.normalizedPath);\r\n } else {\r\n stmt.normalizedPath = null;\r\n stmt.internalPath = null;\r\n }\r\n stmt.isDeclare = isDeclare;\r\n return stmt;\r\n }\r\n\r\n static createExportImportStatement(\r\n name: IdentifierExpression,\r\n externalName: IdentifierExpression,\r\n range: Range\r\n ): ExportImportStatement {\r\n var stmt = new ExportImportStatement();\r\n stmt.range = range;\r\n stmt.name = name;\r\n stmt.externalName = externalName;\r\n return stmt;\r\n }\r\n\r\n static createExportMember(\r\n name: IdentifierExpression,\r\n externalName: IdentifierExpression | null,\r\n range: Range\r\n ): ExportMember {\r\n var elem = new ExportMember();\r\n elem.range = range;\r\n elem.localName = name;\r\n if (!externalName) externalName = name;\r\n elem.exportedName = externalName;\r\n return elem;\r\n }\r\n\r\n static createExpressionStatement(\r\n expression: Expression\r\n ): ExpressionStatement {\r\n var stmt = new ExpressionStatement();\r\n stmt.range = expression.range;\r\n stmt.expression = expression;\r\n return stmt;\r\n }\r\n\r\n static createIfStatement(\r\n condition: Expression,\r\n ifTrue: Statement,\r\n ifFalse: Statement | null,\r\n range: Range\r\n ): IfStatement {\r\n var stmt = new IfStatement();\r\n stmt.range = range;\r\n stmt.condition = condition;\r\n stmt.ifTrue = ifTrue;\r\n stmt.ifFalse = ifFalse;\r\n return stmt;\r\n }\r\n\r\n static createImportStatement(\r\n decls: ImportDeclaration[] | null,\r\n path: StringLiteralExpression,\r\n range: Range\r\n ): ImportStatement {\r\n var stmt = new ImportStatement();\r\n stmt.range = range;\r\n stmt.declarations = decls;\r\n stmt.namespaceName = null;\r\n stmt.path = path;\r\n var normalizedPath = normalizePath(path.value);\r\n if (path.value.startsWith(\".\")) { // relative in project\r\n stmt.normalizedPath = resolvePath(\r\n normalizedPath,\r\n range.source.normalizedPath\r\n );\r\n } else { // absolute in library\r\n if (!normalizedPath.startsWith(LIBRARY_PREFIX)) {\r\n normalizedPath = LIBRARY_PREFIX + normalizedPath;\r\n }\r\n stmt.normalizedPath = normalizedPath;\r\n }\r\n stmt.internalPath = mangleInternalPath(stmt.normalizedPath);\r\n return stmt;\r\n }\r\n\r\n static createImportStatementWithWildcard(\r\n identifier: IdentifierExpression,\r\n path: StringLiteralExpression,\r\n range: Range\r\n ): ImportStatement {\r\n var stmt = new ImportStatement();\r\n stmt.range = range;\r\n stmt.declarations = null;\r\n stmt.namespaceName = identifier;\r\n stmt.path = path;\r\n stmt.normalizedPath = resolvePath(\r\n normalizePath(path.value),\r\n range.source.normalizedPath\r\n );\r\n stmt.internalPath = mangleInternalPath(stmt.normalizedPath);\r\n return stmt;\r\n }\r\n\r\n static createImportDeclaration(\r\n foreignName: IdentifierExpression,\r\n name: IdentifierExpression | null,\r\n range: Range\r\n ): ImportDeclaration {\r\n var elem = new ImportDeclaration();\r\n elem.range = range;\r\n elem.foreignName = foreignName;\r\n if (!name) name = foreignName;\r\n elem.name = name;\r\n return elem;\r\n }\r\n\r\n static createInterfaceDeclaration(\r\n name: IdentifierExpression,\r\n typeParameters: TypeParameterNode[] | null,\r\n extendsType: TypeNode | null, // can't be a function\r\n members: DeclarationStatement[],\r\n decorators: DecoratorNode[] | null,\r\n flags: CommonFlags,\r\n range: Range\r\n ): InterfaceDeclaration {\r\n var stmt = new InterfaceDeclaration();\r\n stmt.range = range;\r\n stmt.flags = flags;\r\n stmt.name = name;\r\n stmt.typeParameters = typeParameters;\r\n stmt.extendsType = extendsType;\r\n stmt.members = members;\r\n stmt.decorators = decorators;\r\n return stmt;\r\n }\r\n\r\n static createFieldDeclaration(\r\n name: IdentifierExpression,\r\n type: CommonTypeNode | null,\r\n initializer: Expression | null,\r\n decorators: DecoratorNode[] | null,\r\n flags: CommonFlags,\r\n range: Range\r\n ): FieldDeclaration {\r\n var stmt = new FieldDeclaration();\r\n stmt.range = range;\r\n stmt.flags = flags;\r\n stmt.name = name;\r\n stmt.type = type;\r\n stmt.initializer = initializer;\r\n stmt.decorators = decorators;\r\n return stmt;\r\n }\r\n\r\n static createForStatement(\r\n initializer: Statement | null,\r\n condition: Expression | null,\r\n incrementor: Expression | null,\r\n statement: Statement,\r\n range: Range\r\n ): ForStatement {\r\n var stmt = new ForStatement();\r\n stmt.range = range;\r\n stmt.initializer = initializer;\r\n stmt.condition = condition;\r\n stmt.incrementor = incrementor;\r\n stmt.statement = statement;\r\n return stmt;\r\n }\r\n\r\n static createFunctionDeclaration(\r\n name: IdentifierExpression,\r\n typeParameters: TypeParameterNode[] | null,\r\n signature: SignatureNode,\r\n body: Statement | null,\r\n decorators: DecoratorNode[] | null,\r\n flags: CommonFlags,\r\n arrowKind: ArrowKind,\r\n range: Range\r\n ): FunctionDeclaration {\r\n var stmt = new FunctionDeclaration();\r\n stmt.range = range;\r\n stmt.flags = flags;\r\n stmt.name = name;\r\n stmt.typeParameters = typeParameters;\r\n stmt.signature = signature;\r\n stmt.body = body;\r\n stmt.decorators = decorators;\r\n stmt.arrowKind = arrowKind;\r\n return stmt;\r\n }\r\n\r\n static createIndexSignatureDeclaration(\r\n keyType: TypeNode,\r\n valueType: CommonTypeNode,\r\n range: Range\r\n ): IndexSignatureDeclaration {\r\n var elem = new IndexSignatureDeclaration();\r\n elem.range = range;\r\n elem.keyType = keyType;\r\n elem.valueType = valueType;\r\n return elem;\r\n }\r\n\r\n static createMethodDeclaration(\r\n name: IdentifierExpression,\r\n typeParameters: TypeParameterNode[] | null,\r\n signature: SignatureNode,\r\n body: Statement | null,\r\n decorators: DecoratorNode[] | null,\r\n flags: CommonFlags,\r\n range: Range\r\n ): MethodDeclaration {\r\n var stmt = new MethodDeclaration();\r\n stmt.range = range;\r\n stmt.flags = flags;\r\n stmt.name = name;\r\n stmt.typeParameters = typeParameters;\r\n stmt.signature = signature;\r\n stmt.body = body;\r\n stmt.decorators = decorators;\r\n return stmt;\r\n }\r\n\r\n static createNamespaceDeclaration(\r\n name: IdentifierExpression,\r\n members: Statement[],\r\n decorators: DecoratorNode[] | null,\r\n flags: CommonFlags,\r\n range: Range\r\n ): NamespaceDeclaration {\r\n var stmt = new NamespaceDeclaration();\r\n stmt.range = range;\r\n stmt.flags = flags;\r\n stmt.name = name;\r\n stmt.members = members;\r\n stmt.decorators = decorators;\r\n return stmt;\r\n }\r\n\r\n static createReturnStatement(\r\n value: Expression | null,\r\n range: Range\r\n ): ReturnStatement {\r\n var stmt = new ReturnStatement();\r\n stmt.range = range;\r\n stmt.value = value;\r\n return stmt;\r\n }\r\n\r\n static createSwitchStatement(\r\n condition: Expression,\r\n cases: SwitchCase[],\r\n range: Range\r\n ): SwitchStatement {\r\n var stmt = new SwitchStatement();\r\n stmt.range = range;\r\n stmt.condition = condition;\r\n stmt.cases = cases;\r\n return stmt;\r\n }\r\n\r\n static createSwitchCase(\r\n label: Expression | null,\r\n statements: Statement[],\r\n range: Range\r\n ): SwitchCase {\r\n var elem = new SwitchCase();\r\n elem.range = range;\r\n elem.label = label;\r\n elem.statements = statements;\r\n return elem;\r\n }\r\n\r\n static createThrowStatement(\r\n value: Expression,\r\n range: Range\r\n ): ThrowStatement {\r\n var stmt = new ThrowStatement();\r\n stmt.range = range;\r\n stmt.value = value;\r\n return stmt;\r\n }\r\n\r\n static createTryStatement(\r\n statements: Statement[],\r\n catchVariable: IdentifierExpression | null,\r\n catchStatements: Statement[] | null,\r\n finallyStatements: Statement[] | null,\r\n range: Range\r\n ): TryStatement {\r\n var stmt = new TryStatement();\r\n stmt.range = range;\r\n stmt.statements = statements;\r\n stmt.catchVariable = catchVariable;\r\n stmt.catchStatements = catchStatements;\r\n stmt.finallyStatements = finallyStatements;\r\n return stmt;\r\n }\r\n\r\n static createTypeDeclaration(\r\n name: IdentifierExpression,\r\n typeParameters: TypeParameterNode[] | null,\r\n alias: CommonTypeNode,\r\n decorators: DecoratorNode[] | null,\r\n flags: CommonFlags,\r\n range: Range\r\n ): TypeDeclaration {\r\n var stmt = new TypeDeclaration();\r\n stmt.range = range;\r\n stmt.flags = flags;\r\n stmt.name = name;\r\n stmt.typeParameters = typeParameters;\r\n stmt.type = alias;\r\n stmt.decorators = decorators;\r\n return stmt;\r\n }\r\n\r\n static createVariableStatement(\r\n declarations: VariableDeclaration[],\r\n decorators: DecoratorNode[] | null,\r\n range: Range\r\n ): VariableStatement {\r\n var stmt = new VariableStatement();\r\n stmt.range = range;\r\n stmt.declarations = declarations;\r\n stmt.decorators = decorators;\r\n return stmt;\r\n }\r\n\r\n static createVariableDeclaration(\r\n name: IdentifierExpression,\r\n type: CommonTypeNode | null,\r\n initializer: Expression | null,\r\n decorators: DecoratorNode[] | null,\r\n flags: CommonFlags,\r\n range: Range\r\n ): VariableDeclaration {\r\n var elem = new VariableDeclaration();\r\n elem.range = range;\r\n elem.flags = flags;\r\n elem.name = name;\r\n elem.type = type;\r\n elem.initializer = initializer;\r\n elem.decorators = decorators; // inherited\r\n return elem;\r\n }\r\n\r\n static createVoidStatement(\r\n expression: Expression,\r\n range: Range\r\n ): VoidStatement {\r\n var stmt = new VoidStatement();\r\n stmt.range = range;\r\n stmt.expression = expression;\r\n return stmt;\r\n }\r\n\r\n static createWhileStatement(\r\n condition: Expression,\r\n statement: Statement,\r\n range: Range\r\n ): WhileStatement {\r\n var stmt = new WhileStatement();\r\n stmt.range = range;\r\n stmt.condition = condition;\r\n stmt.statement = statement;\r\n return stmt;\r\n }\r\n}\r\n\r\n// types\r\n\r\nexport abstract class CommonTypeNode extends Node {\r\n // kind varies\r\n\r\n /** Whether nullable or not. */\r\n isNullable: bool;\r\n}\r\n\r\n/** Represents a type name. */\r\nexport class TypeName extends Node {\r\n kind = NodeKind.TYPENAME;\r\n\r\n /** Identifier of this part. */\r\n identifier: IdentifierExpression;\r\n /** Next part of the type name or `null` if this is the last part. */\r\n next: TypeName | null;\r\n}\r\n\r\n/** Represents a type annotation. */\r\nexport class TypeNode extends CommonTypeNode {\r\n kind = NodeKind.TYPE;\r\n\r\n /** Type name. */\r\n name: TypeName;\r\n /** Type argument references. */\r\n typeArguments: CommonTypeNode[] | null;\r\n}\r\n\r\n/** Represents a type parameter. */\r\nexport class TypeParameterNode extends Node {\r\n kind = NodeKind.TYPEPARAMETER;\r\n\r\n /** Identifier reference. */\r\n name: IdentifierExpression;\r\n /** Extended type reference, if any. */\r\n extendsType: TypeNode | null; // can't be a function\r\n /** Default type if omitted, if any. */\r\n defaultType: TypeNode | null; // can't be a function\r\n}\r\n\r\n/** Represents the kind of a parameter. */\r\nexport enum ParameterKind {\r\n /** No specific flags. */\r\n DEFAULT,\r\n /** Is an optional parameter. */\r\n OPTIONAL,\r\n /** Is a rest parameter. */\r\n REST\r\n}\r\n\r\n/** Represents a function parameter. */\r\nexport class ParameterNode extends Node {\r\n kind = NodeKind.PARAMETER;\r\n\r\n /** Parameter kind. */\r\n parameterKind: ParameterKind;\r\n /** Parameter name. */\r\n name: IdentifierExpression;\r\n /** Parameter type. */\r\n type: CommonTypeNode;\r\n /** Initializer expression, if present. */\r\n initializer: Expression | null;\r\n /** Implicit field declaration, if applicable. */\r\n implicitFieldDeclaration: FieldDeclaration | null = null;\r\n /** Common flags indicating specific traits. */\r\n flags: CommonFlags = CommonFlags.NONE;\r\n\r\n /** Tests if this node has the specified flag or flags. */\r\n is(flag: CommonFlags): bool { return (this.flags & flag) == flag; }\r\n /** Tests if this node has one of the specified flags. */\r\n isAny(flag: CommonFlags): bool { return (this.flags & flag) != 0; }\r\n /** Sets a specific flag or flags. */\r\n set(flag: CommonFlags): void { this.flags |= flag; }\r\n}\r\n\r\n/** Represents a function signature. */\r\nexport class SignatureNode extends CommonTypeNode {\r\n kind = NodeKind.SIGNATURE;\r\n\r\n /** Accepted parameters. */\r\n parameters: ParameterNode[];\r\n /** Return type. */\r\n returnType: CommonTypeNode;\r\n /** Explicitly provided this type, if any. */\r\n explicitThisType: TypeNode | null; // can't be a function\r\n}\r\n\r\n// special\r\n\r\n/** Built-in decorator kinds. */\r\nexport enum DecoratorKind {\r\n CUSTOM,\r\n GLOBAL,\r\n OPERATOR,\r\n OPERATOR_BINARY,\r\n OPERATOR_PREFIX,\r\n OPERATOR_POSTFIX,\r\n UNMANAGED,\r\n SEALED,\r\n INLINE,\r\n EXTERNAL,\r\n BUILTIN,\r\n LAZY,\r\n START\r\n}\r\n\r\n/** Returns the kind of the specified decorator. Defaults to {@link DecoratorKind.CUSTOM}. */\r\nexport function decoratorNameToKind(name: Expression): DecoratorKind {\r\n // @global, @inline, @operator, @sealed, @unmanaged\r\n if (name.kind == NodeKind.IDENTIFIER) {\r\n let nameStr = (name).text;\r\n assert(nameStr.length);\r\n switch (nameStr.charCodeAt(0)) {\r\n case CharCode.b: {\r\n if (nameStr == \"builtin\") return DecoratorKind.BUILTIN;\r\n break;\r\n }\r\n case CharCode.e: {\r\n if (nameStr == \"external\") return DecoratorKind.EXTERNAL;\r\n break;\r\n }\r\n case CharCode.g: {\r\n if (nameStr == \"global\") return DecoratorKind.GLOBAL;\r\n break;\r\n }\r\n case CharCode.i: {\r\n if (nameStr == \"inline\") return DecoratorKind.INLINE;\r\n break;\r\n }\r\n case CharCode.l: {\r\n if (nameStr == \"lazy\") return DecoratorKind.LAZY;\r\n break;\r\n }\r\n case CharCode.o: {\r\n if (nameStr == \"operator\") return DecoratorKind.OPERATOR;\r\n break;\r\n }\r\n case CharCode.s: {\r\n if (nameStr == \"sealed\") return DecoratorKind.SEALED;\r\n if (nameStr == \"start\") return DecoratorKind.START;\r\n break;\r\n }\r\n case CharCode.u: {\r\n if (nameStr == \"unmanaged\") return DecoratorKind.UNMANAGED;\r\n break;\r\n }\r\n }\r\n } else if (\r\n name.kind == NodeKind.PROPERTYACCESS &&\r\n (name).expression.kind == NodeKind.IDENTIFIER\r\n ) {\r\n let nameStr = ((name).expression).text;\r\n assert(nameStr.length);\r\n let propStr = (name).property.text;\r\n assert(propStr.length);\r\n // @operator.binary, @operator.prefix, @operator.postfix\r\n if (nameStr == \"operator\") {\r\n switch (propStr.charCodeAt(0)) {\r\n case CharCode.b: {\r\n if (propStr == \"binary\") return DecoratorKind.OPERATOR_BINARY;\r\n break;\r\n }\r\n case CharCode.p: {\r\n switch (propStr) {\r\n case \"prefix\": return DecoratorKind.OPERATOR_PREFIX;\r\n case \"postfix\": return DecoratorKind.OPERATOR_POSTFIX;\r\n }\r\n break;\r\n }\r\n }\r\n }\r\n }\r\n return DecoratorKind.CUSTOM;\r\n}\r\n\r\n/** Represents a decorator. */\r\nexport class DecoratorNode extends Node {\r\n kind = NodeKind.DECORATOR;\r\n\r\n /** Built-in kind, if applicable. */\r\n decoratorKind: DecoratorKind;\r\n /** Name expression. */\r\n name: Expression;\r\n /** Argument expressions. */\r\n arguments: Expression[] | null;\r\n}\r\n\r\n/** Comment kinds. */\r\nexport enum CommentKind {\r\n /** Line comment. */\r\n LINE,\r\n /** Triple-slash comment. */\r\n TRIPLE,\r\n /** Block comment. */\r\n BLOCK\r\n}\r\n\r\n/** Represents a comment. */\r\nexport class CommentNode extends Node {\r\n kind = NodeKind.COMMENT;\r\n\r\n /** Comment kind. */\r\n commentKind: CommentKind;\r\n /** Comment text. */\r\n text: string;\r\n}\r\n\r\n// expressions\r\n\r\n/** Base class of all expression nodes. */\r\nexport abstract class Expression extends Node { }\r\n\r\n/** Represents an identifier expression. */\r\nexport class IdentifierExpression extends Expression {\r\n kind = NodeKind.IDENTIFIER;\r\n\r\n /** Textual name. */\r\n text: string;\r\n /** Symbol. */\r\n symbol: string; // TODO: symbol\r\n /** Whether quoted or not. */\r\n isQuoted: bool;\r\n}\r\n\r\n/** Indicates the kind of a literal. */\r\nexport enum LiteralKind {\r\n FLOAT,\r\n INTEGER,\r\n STRING,\r\n REGEXP,\r\n ARRAY,\r\n OBJECT\r\n}\r\n\r\n/** Base class of all literal expressions. */\r\nexport abstract class LiteralExpression extends Expression {\r\n kind = NodeKind.LITERAL;\r\n\r\n /** Specific literal kind. */\r\n literalKind: LiteralKind;\r\n}\r\n\r\n/** Represents an `[]` literal expression. */\r\nexport class ArrayLiteralExpression extends LiteralExpression {\r\n literalKind = LiteralKind.ARRAY;\r\n\r\n /** Nested element expressions. */\r\n elementExpressions: (Expression | null)[];\r\n}\r\n\r\n/** Indicates the kind of an assertion. */\r\nexport enum AssertionKind {\r\n PREFIX,\r\n AS,\r\n NONNULL\r\n}\r\n\r\n/** Represents an assertion expression. */\r\nexport class AssertionExpression extends Expression {\r\n kind = NodeKind.ASSERTION;\r\n\r\n /** Specific kind of this assertion. */\r\n assertionKind: AssertionKind;\r\n /** Expression being asserted. */\r\n expression: Expression;\r\n /** Target type. */\r\n toType: CommonTypeNode | null;\r\n}\r\n\r\n/** Represents a binary expression. */\r\nexport class BinaryExpression extends Expression {\r\n kind = NodeKind.BINARY;\r\n\r\n /** Operator token. */\r\n operator: Token;\r\n /** Left-hand side expression */\r\n left: Expression;\r\n /** Right-hand side expression. */\r\n right: Expression;\r\n}\r\n\r\n/** Represents a call expression. */\r\nexport class CallExpression extends Expression {\r\n kind = NodeKind.CALL;\r\n\r\n /** Called expression. Usually an identifier or property access expression. */\r\n expression: Expression;\r\n /** Provided type arguments. */\r\n typeArguments: CommonTypeNode[] | null;\r\n /** Provided arguments. */\r\n arguments: Expression[];\r\n\r\n /** Gets the type arguments range for reporting. */\r\n get typeArgumentsRange(): Range {\r\n var typeArguments = this.typeArguments;\r\n var numTypeArguments: i32;\r\n if (typeArguments && (numTypeArguments = typeArguments.length)) {\r\n return Range.join(typeArguments[0].range, typeArguments[numTypeArguments - 1].range);\r\n }\r\n return this.expression.range;\r\n }\r\n\r\n /** Gets the arguments range for reporting. */\r\n get argumentsRange(): Range {\r\n var args = this.arguments;\r\n var numArguments = args.length;\r\n if (numArguments) {\r\n return Range.join(args[0].range, args[numArguments - 1].range);\r\n }\r\n return this.expression.range;\r\n }\r\n}\r\n\r\n/** Represents a class expression using the 'class' keyword. */\r\nexport class ClassExpression extends Expression {\r\n kind = NodeKind.CLASS;\r\n\r\n /** Inline class declaration. */\r\n declaration: ClassDeclaration;\r\n}\r\n\r\n/** Represents a comma expression composed of multiple expressions. */\r\nexport class CommaExpression extends Expression {\r\n kind = NodeKind.COMMA;\r\n\r\n /** Sequential expressions. */\r\n expressions: Expression[];\r\n}\r\n\r\n/** Represents a `constructor` expression. */\r\nexport class ConstructorExpression extends IdentifierExpression {\r\n kind = NodeKind.CONSTRUCTOR;\r\n text = \"constructor\";\r\n symbol = CommonSymbols.constructor;\r\n}\r\n\r\n/** Represents an element access expression, e.g., array access. */\r\nexport class ElementAccessExpression extends Expression {\r\n kind = NodeKind.ELEMENTACCESS;\r\n\r\n /** Expression being accessed. */\r\n expression: Expression;\r\n /** Element of the expression being accessed. */\r\n elementExpression: Expression;\r\n}\r\n\r\n/** Represents a float literal expression. */\r\nexport class FloatLiteralExpression extends LiteralExpression {\r\n literalKind = LiteralKind.FLOAT;\r\n\r\n /** Float value. */\r\n value: f64;\r\n}\r\n\r\n/** Represents a function expression using the 'function' keyword. */\r\nexport class FunctionExpression extends Expression {\r\n kind = NodeKind.FUNCTION;\r\n\r\n /** Inline function declaration. */\r\n declaration: FunctionDeclaration;\r\n}\r\n\r\n/** Represents an `instanceof` expression. */\r\nexport class InstanceOfExpression extends Expression {\r\n kind = NodeKind.INSTANCEOF;\r\n\r\n /** Expression being asserted. */\r\n expression: Expression;\r\n /** Type to test for. */\r\n isType: CommonTypeNode;\r\n}\r\n\r\n/** Represents an integer literal expression. */\r\nexport class IntegerLiteralExpression extends LiteralExpression {\r\n literalKind = LiteralKind.INTEGER;\r\n\r\n /** Integer value. */\r\n value: I64;\r\n}\r\n\r\n/** Represents a `new` expression. Like a call but with its own kind. */\r\nexport class NewExpression extends CallExpression {\r\n kind = NodeKind.NEW;\r\n}\r\n\r\n/** Represents a `null` expression. */\r\nexport class NullExpression extends IdentifierExpression {\r\n kind = NodeKind.NULL;\r\n text = \"null\";\r\n symbol = CommonSymbols.null_;\r\n}\r\n\r\n/** Represents an object literal expression. */\r\nexport class ObjectLiteralExpression extends LiteralExpression {\r\n literalKind = LiteralKind.OBJECT;\r\n\r\n /** Field names. */\r\n names: IdentifierExpression[];\r\n /** Field values. */\r\n values: Expression[];\r\n}\r\n\r\n/** Represents a parenthesized expression. */\r\nexport class ParenthesizedExpression extends Expression {\r\n kind = NodeKind.PARENTHESIZED;\r\n\r\n /** Expression in parenthesis. */\r\n expression: Expression;\r\n}\r\n\r\n/** Represents a property access expression. */\r\nexport class PropertyAccessExpression extends Expression {\r\n kind = NodeKind.PROPERTYACCESS;\r\n\r\n /** Expression being accessed. */\r\n expression: Expression;\r\n /** Property of the expression being accessed. */\r\n property: IdentifierExpression;\r\n}\r\n\r\n/** Represents a regular expression literal expression. */\r\nexport class RegexpLiteralExpression extends LiteralExpression {\r\n literalKind = LiteralKind.REGEXP;\r\n\r\n /** Regular expression pattern. */\r\n pattern: string;\r\n /** Regular expression flags. */\r\n patternFlags: string;\r\n}\r\n\r\n/** Represents a ternary expression, i.e., short if notation. */\r\nexport class TernaryExpression extends Expression {\r\n kind = NodeKind.TERNARY;\r\n\r\n /** Condition expression. */\r\n condition: Expression;\r\n /** Expression executed when condition is `true`. */\r\n ifThen: Expression;\r\n /** Expression executed when condition is `false`. */\r\n ifElse: Expression;\r\n}\r\n\r\n/** Represents a string literal expression. */\r\nexport class StringLiteralExpression extends LiteralExpression {\r\n literalKind = LiteralKind.STRING;\r\n\r\n /** String value without quotes. */\r\n value: string;\r\n}\r\n\r\n/** Represents a `super` expression. */\r\nexport class SuperExpression extends IdentifierExpression {\r\n kind = NodeKind.SUPER;\r\n text = \"super\";\r\n symbol = CommonSymbols.super_;\r\n}\r\n\r\n/** Represents a `this` expression. */\r\nexport class ThisExpression extends IdentifierExpression {\r\n kind = NodeKind.THIS;\r\n text = \"this\";\r\n symbol = CommonSymbols.this_;\r\n}\r\n\r\n/** Represents a `true` expression. */\r\nexport class TrueExpression extends IdentifierExpression {\r\n kind = NodeKind.TRUE;\r\n text = \"true\";\r\n symbol = CommonSymbols.true_;\r\n}\r\n\r\n/** Represents a `false` expression. */\r\nexport class FalseExpression extends IdentifierExpression {\r\n kind = NodeKind.FALSE;\r\n text = \"false\";\r\n symbol = CommonSymbols.false_;\r\n}\r\n\r\n/** Base class of all unary expressions. */\r\nexport abstract class UnaryExpression extends Expression {\r\n\r\n /** Operator token. */\r\n operator: Token;\r\n /** Operand expression. */\r\n operand: Expression;\r\n}\r\n\r\n/** Represents a unary postfix expression, e.g. a postfix increment. */\r\nexport class UnaryPostfixExpression extends UnaryExpression {\r\n kind = NodeKind.UNARYPOSTFIX;\r\n}\r\n\r\n/** Represents a unary prefix expression, e.g. a negation. */\r\nexport class UnaryPrefixExpression extends UnaryExpression {\r\n kind = NodeKind.UNARYPREFIX;\r\n}\r\n\r\n// statements\r\n\r\n/** Base class of all statement nodes. */\r\nexport abstract class Statement extends Node { }\r\n\r\n/** Indicates the specific kind of a source. */\r\nexport enum SourceKind {\r\n /** Default source. Usually imported from an entry file. */\r\n DEFAULT,\r\n /** Entry file. */\r\n ENTRY,\r\n /** Library file. */\r\n LIBRARY\r\n}\r\n\r\n/** A top-level source node. */\r\nexport class Source extends Node {\r\n kind = NodeKind.SOURCE;\r\n parent = null;\r\n\r\n /** Source kind. */\r\n sourceKind: SourceKind;\r\n /** Normalized path. */\r\n normalizedPath: string;\r\n /** Path used internally. */\r\n internalPath: string;\r\n /** Simple path (last part without extension). */\r\n simplePath: string;\r\n /** Contained statements. */\r\n statements: Statement[];\r\n /** Full source text. */\r\n text: string;\r\n /** Tokenizer reference. */\r\n tokenizer: Tokenizer | null = null;\r\n /** Source map index. */\r\n debugInfoIndex: i32 = -1;\r\n /** Re-exported sources. */\r\n exportPaths: Set | null = null;\r\n\r\n /** Constructs a new source node. */\r\n constructor(normalizedPath: string, text: string, kind: SourceKind) {\r\n super();\r\n this.sourceKind = kind;\r\n this.normalizedPath = normalizedPath;\r\n var internalPath = mangleInternalPath(this.normalizedPath);\r\n this.internalPath = internalPath;\r\n var pos = internalPath.lastIndexOf(PATH_DELIMITER);\r\n this.simplePath = pos >= 0 ? internalPath.substring(pos + 1) : internalPath;\r\n this.statements = new Array();\r\n this.range = new Range(this, 0, text.length);\r\n this.text = text;\r\n }\r\n\r\n /** Tests if this source is an entry file. */\r\n get isEntry(): bool { return this.sourceKind == SourceKind.ENTRY; }\r\n /** Tests if this source is a stdlib file. */\r\n get isLibrary(): bool { return this.sourceKind == SourceKind.LIBRARY; }\r\n}\r\n\r\n/** Base class of all declaration statements. */\r\nexport abstract class DeclarationStatement extends Statement {\r\n /** Simple name being declared. */\r\n name: IdentifierExpression;\r\n /** Array of decorators. */\r\n decorators: DecoratorNode[] | null = null;\r\n /** Common flags indicating specific traits. */\r\n flags: CommonFlags = CommonFlags.NONE;\r\n\r\n /** Tests if this node has the specified flag or flags. */\r\n is(flag: CommonFlags): bool { return (this.flags & flag) == flag; }\r\n /** Tests if this node has one of the specified flags. */\r\n isAny(flag: CommonFlags): bool { return (this.flags & flag) != 0; }\r\n /** Sets a specific flag or flags. */\r\n set(flag: CommonFlags): void { this.flags |= flag; }\r\n}\r\n\r\n/** Represents an index signature declaration. */\r\nexport class IndexSignatureDeclaration extends DeclarationStatement {\r\n kind = NodeKind.INDEXSIGNATUREDECLARATION;\r\n\r\n /** Key type. */\r\n keyType: TypeNode;\r\n /** Value type. */\r\n valueType: CommonTypeNode;\r\n}\r\n\r\n/** Base class of all variable-like declaration statements. */\r\nexport abstract class VariableLikeDeclarationStatement extends DeclarationStatement {\r\n\r\n /** Variable type. */\r\n type: CommonTypeNode | null;\r\n /** Variable initializer. */\r\n initializer: Expression | null;\r\n}\r\n\r\n/** Represents a block statement. */\r\nexport class BlockStatement extends Statement {\r\n kind = NodeKind.BLOCK;\r\n\r\n /** Contained statements. */\r\n statements: Statement[];\r\n}\r\n\r\n/** Represents a `break` statement. */\r\nexport class BreakStatement extends Statement {\r\n kind = NodeKind.BREAK;\r\n\r\n /** Target label, if applicable. */\r\n label: IdentifierExpression | null;\r\n}\r\n\r\n/** Represents a `class` declaration. */\r\nexport class ClassDeclaration extends DeclarationStatement {\r\n kind = NodeKind.CLASSDECLARATION;\r\n\r\n /** Accepted type parameters. */\r\n typeParameters: TypeParameterNode[] | null;\r\n /** Base class type being extended, if any. */\r\n extendsType: TypeNode | null; // can't be a function\r\n /** Interface types being implemented, if any. */\r\n implementsTypes: TypeNode[] | null; // can't be functions\r\n /** Class member declarations. */\r\n members: DeclarationStatement[];\r\n\r\n get isGeneric(): bool {\r\n var typeParameters = this.typeParameters;\r\n return typeParameters != null && typeParameters.length > 0;\r\n }\r\n}\r\n\r\n/** Represents a `continue` statement. */\r\nexport class ContinueStatement extends Statement {\r\n kind = NodeKind.CONTINUE;\r\n\r\n /** Target label, if applicable. */\r\n label: IdentifierExpression | null;\r\n}\r\n\r\n/** Represents a `do` statement. */\r\nexport class DoStatement extends Statement {\r\n kind = NodeKind.DO;\r\n\r\n /** Statement being looped over. */\r\n statement: Statement;\r\n /** Condition when to repeat. */\r\n condition: Expression;\r\n}\r\n\r\n/** Represents an empty statement, i.e., a semicolon terminating nothing. */\r\nexport class EmptyStatement extends Statement {\r\n kind = NodeKind.EMPTY;\r\n}\r\n\r\n/** Represents an `enum` declaration. */\r\nexport class EnumDeclaration extends DeclarationStatement {\r\n kind = NodeKind.ENUMDECLARATION;\r\n\r\n /** Enum value declarations. */\r\n values: EnumValueDeclaration[];\r\n}\r\n\r\n/** Represents a value of an `enum` declaration. */\r\nexport class EnumValueDeclaration extends VariableLikeDeclarationStatement {\r\n kind = NodeKind.ENUMVALUEDECLARATION;\r\n // name is inherited\r\n\r\n /** Value expression. */\r\n value: Expression | null;\r\n}\r\n\r\n/** Represents an `export import` statement of an interface. */\r\nexport class ExportImportStatement extends Node {\r\n kind = NodeKind.EXPORTIMPORT;\r\n\r\n /** Identifier being imported. */\r\n name: IdentifierExpression;\r\n /** Identifier being exported. */\r\n externalName: IdentifierExpression;\r\n}\r\n\r\n/** Represents a member of an `export` statement. */\r\nexport class ExportMember extends Node {\r\n kind = NodeKind.EXPORTMEMBER;\r\n\r\n /** Local identifier. */\r\n localName: IdentifierExpression;\r\n /** Exported identifier. */\r\n exportedName: IdentifierExpression;\r\n}\r\n\r\n/** Represents an `export` statement. */\r\nexport class ExportStatement extends Statement {\r\n kind = NodeKind.EXPORT;\r\n\r\n /** Array of members if a set of named exports, or `null` if a file export. */\r\n members: ExportMember[] | null;\r\n /** Path being exported from, if applicable. */\r\n path: StringLiteralExpression | null;\r\n /** Normalized path, if `path` is set. */\r\n normalizedPath: string | null;\r\n /** Mangled internal path being referenced, if `path` is set. */\r\n internalPath: string | null;\r\n /** Whether this is a declared export. */\r\n isDeclare: bool;\r\n}\r\n\r\n/** Represents an expression that is used as a statement. */\r\nexport class ExpressionStatement extends Statement {\r\n kind = NodeKind.EXPRESSION;\r\n\r\n /** Expression being used as a statement.*/\r\n expression: Expression;\r\n}\r\n\r\n/** Represents a field declaration within a `class`. */\r\nexport class FieldDeclaration extends VariableLikeDeclarationStatement {\r\n kind = NodeKind.FIELDDECLARATION;\r\n\r\n /** Parameter index if declared as a constructor parameter, otherwise `-1`. */\r\n parameterIndex: i32 = -1;\r\n}\r\n\r\n/** Represents a `for` statement. */\r\nexport class ForStatement extends Statement {\r\n kind = NodeKind.FOR;\r\n\r\n /**\r\n * Initializer statement, if present.\r\n * Either a {@link VariableStatement} or {@link ExpressionStatement}.\r\n */\r\n initializer: Statement | null;\r\n /** Condition expression, if present. */\r\n condition: Expression | null;\r\n /** Incrementor expression, if present. */\r\n incrementor: Expression | null;\r\n /** Statement being looped over. */\r\n statement: Statement;\r\n}\r\n\r\n/** Indicates the kind of an array function. */\r\nexport const enum ArrowKind {\r\n /** Not an arrow function. */\r\n NONE,\r\n /** Parenthesized parameter list. */\r\n ARROW_PARENTHESIZED,\r\n /** Single parameter without parenthesis. */\r\n ARROW_SINGLE\r\n}\r\n\r\n/** Represents a `function` declaration. */\r\nexport class FunctionDeclaration extends DeclarationStatement {\r\n kind = NodeKind.FUNCTIONDECLARATION;\r\n\r\n /** Type parameters, if any. */\r\n typeParameters: TypeParameterNode[] | null;\r\n /** Function signature. */\r\n signature: SignatureNode;\r\n /** Body statement. Usually a block. */\r\n body: Statement | null;\r\n /** Arrow function kind, if applicable. */\r\n arrowKind: ArrowKind;\r\n\r\n get isGeneric(): bool {\r\n var typeParameters = this.typeParameters;\r\n return typeParameters != null && typeParameters.length > 0;\r\n }\r\n\r\n /** Clones this function declaration. */\r\n clone(): FunctionDeclaration {\r\n return Node.createFunctionDeclaration(\r\n this.name,\r\n this.typeParameters,\r\n this.signature,\r\n this.body,\r\n this.decorators,\r\n this.flags,\r\n this.arrowKind,\r\n this.range\r\n );\r\n }\r\n}\r\n\r\n/** Represents an `if` statement. */\r\nexport class IfStatement extends Statement {\r\n kind = NodeKind.IF;\r\n\r\n /** Condition. */\r\n condition: Expression;\r\n /** Statement executed when condition is `true`. */\r\n ifTrue: Statement;\r\n /** Statement executed when condition is `false`. */\r\n ifFalse: Statement | null;\r\n}\r\n\r\n/** Represents an `import` declaration part of an {@link ImportStatement}. */\r\nexport class ImportDeclaration extends DeclarationStatement {\r\n kind = NodeKind.IMPORTDECLARATION;\r\n\r\n /** Identifier being imported. */\r\n foreignName: IdentifierExpression;\r\n}\r\n\r\n/** Represents an `import` statement. */\r\nexport class ImportStatement extends Statement {\r\n kind = NodeKind.IMPORT;\r\n\r\n /** Array of member declarations or `null` if an asterisk import. */\r\n declarations: ImportDeclaration[] | null;\r\n /** Name of the local namespace, if an asterisk import. */\r\n namespaceName: IdentifierExpression | null;\r\n /** Path being imported from. */\r\n path: StringLiteralExpression;\r\n /** Normalized path. */\r\n normalizedPath: string;\r\n /** Mangled internal path being referenced. */\r\n internalPath: string;\r\n}\r\n\r\n/** Represents an `interfarce` declaration. */\r\nexport class InterfaceDeclaration extends ClassDeclaration {\r\n kind = NodeKind.INTERFACEDECLARATION;\r\n}\r\n\r\n/** Represents a method declaration within a `class`. */\r\nexport class MethodDeclaration extends FunctionDeclaration {\r\n kind = NodeKind.METHODDECLARATION;\r\n}\r\n\r\n/** Represents a `namespace` declaration. */\r\nexport class NamespaceDeclaration extends DeclarationStatement {\r\n kind = NodeKind.NAMESPACEDECLARATION;\r\n\r\n /** Array of namespace members. */\r\n members: Statement[];\r\n}\r\n\r\n/** Represents a `return` statement. */\r\nexport class ReturnStatement extends Statement {\r\n kind = NodeKind.RETURN;\r\n\r\n /** Value expression being returned, if present. */\r\n value: Expression | null;\r\n}\r\n\r\n/** Represents a single `case` within a `switch` statement. */\r\nexport class SwitchCase extends Node {\r\n kind = NodeKind.SWITCHCASE;\r\n\r\n /** Label expression. `null` indicates the default case. */\r\n label: Expression | null;\r\n /** Contained statements. */\r\n statements: Statement[];\r\n}\r\n\r\n/** Represents a `switch` statement. */\r\nexport class SwitchStatement extends Statement {\r\n kind = NodeKind.SWITCH;\r\n\r\n /** Condition expression. */\r\n condition: Expression;\r\n /** Contained cases. */\r\n cases: SwitchCase[];\r\n}\r\n\r\n/** Represents a `throw` statement. */\r\nexport class ThrowStatement extends Statement {\r\n kind = NodeKind.THROW;\r\n\r\n /** Value expression being thrown. */\r\n value: Expression;\r\n}\r\n\r\n/** Represents a `try` statement. */\r\nexport class TryStatement extends Statement {\r\n kind = NodeKind.TRY;\r\n\r\n /** Contained statements. */\r\n statements: Statement[];\r\n /** Exception variable name, if a `catch` clause is present. */\r\n catchVariable: IdentifierExpression | null;\r\n /** Statements being executed on catch, if a `catch` clause is present. */\r\n catchStatements: Statement[] | null;\r\n /** Statements being executed afterwards, if a `finally` clause is present. */\r\n finallyStatements: Statement[] | null;\r\n}\r\n\r\n/** Represents a `type` declaration. */\r\nexport class TypeDeclaration extends DeclarationStatement {\r\n kind = NodeKind.TYPEDECLARATION;\r\n\r\n /** Type parameters, if any. */\r\n typeParameters: TypeParameterNode[] | null;\r\n /** Type being aliased. */\r\n type: CommonTypeNode;\r\n}\r\n\r\n/** Represents a variable declaration part of a {@link VariableStatement}. */\r\nexport class VariableDeclaration extends VariableLikeDeclarationStatement {\r\n kind = NodeKind.VARIABLEDECLARATION;\r\n}\r\n\r\n/** Represents a variable statement wrapping {@link VariableDeclaration}s. */\r\nexport class VariableStatement extends Statement {\r\n kind = NodeKind.VARIABLE;\r\n\r\n /** Array of decorators. */\r\n decorators: DecoratorNode[] | null;\r\n /** Array of member declarations. */\r\n declarations: VariableDeclaration[];\r\n}\r\n\r\n/** Represents a void statement dropping an expression's value. */\r\nexport class VoidStatement extends Statement {\r\n kind = NodeKind.VOID;\r\n\r\n /** Expression being dropped. */\r\n expression: Expression;\r\n}\r\n\r\n/** Represents a `while` statement. */\r\nexport class WhileStatement extends Statement {\r\n kind = NodeKind.WHILE;\r\n\r\n /** Condition expression. */\r\n condition: Expression;\r\n /** Statement being looped over. */\r\n statement: Statement;\r\n}\r\n\r\n/** Finds the first decorator matching the specified kind. */\r\nexport function findDecorator(kind: DecoratorKind, decorators: DecoratorNode[] | null): DecoratorNode | null {\r\n if (decorators) {\r\n for (let i = 0, k = decorators.length; i < k; ++i) {\r\n let decorator = decorators[i];\r\n if (decorator.decoratorKind == kind) return decorator;\r\n }\r\n }\r\n return null;\r\n}\r\n\r\n/** Mangles an external to an internal path. */\r\nexport function mangleInternalPath(path: string): string {\r\n if (path.endsWith(\".ts\")) path = path.substring(0, path.length - 3);\r\n return path;\r\n}\r\n\r\n/** Tests if the specified type node represents an omitted type. */\r\nexport function isTypeOmitted(type: CommonTypeNode): bool {\r\n if (type.kind == NodeKind.TYPE) {\r\n let name = (type).name;\r\n return !(name.next || name.identifier.text.length);\r\n }\r\n return false;\r\n}\r\n","/**\r\n * Mappings from AssemblyScript types to WebAssembly types.\r\n * @module types\r\n *//***/\r\n\r\nimport {\r\n Class,\r\n FunctionTarget,\r\n Program,\r\n DecoratorFlags\r\n} from \"./program\";\r\n\r\nimport {\r\n NativeType,\r\n ExpressionRef,\r\n Module\r\n} from \"./module\";\r\n\r\n/** Indicates the kind of a type. */\r\nexport const enum TypeKind {\r\n\r\n // signed integers\r\n\r\n /** An 8-bit signed integer. */\r\n I8,\r\n /** A 16-bit signed integer. */\r\n I16,\r\n /** A 32-bit signed integer. */\r\n I32,\r\n /** A 64-bit signed integer. */\r\n I64,\r\n /** A 32-bit/64-bit signed integer, depending on the target. */\r\n ISIZE,\r\n\r\n // unsigned integers\r\n\r\n /** An 8-bit unsigned integer. */\r\n U8,\r\n /** A 16-bit unsigned integer. */\r\n U16,\r\n /** A 32-bit unsigned integer. Also the base of function types. */\r\n U32,\r\n /** A 64-bit unsigned integer. */\r\n U64,\r\n /** A 32-bit/64-bit unsigned integer, depending on the target. Also the base of class types. */\r\n USIZE,\r\n /** A 1-bit unsigned integer. */\r\n BOOL, // sic\r\n\r\n // floats\r\n\r\n /** A 32-bit float. */\r\n F32,\r\n /** A 64-bit double. */\r\n F64,\r\n\r\n // vectors\r\n\r\n /** A 128-bit vector. */\r\n V128,\r\n\r\n // other\r\n\r\n /** No return type. */\r\n VOID\r\n}\r\n\r\n/** Indicates capabilities of a type. */\r\nexport const enum TypeFlags {\r\n NONE = 0,\r\n /** Is a signed type that can represent negative values. */\r\n SIGNED = 1 << 0,\r\n /** Is an unsigned type that cannot represent negative values. */\r\n UNSIGNED = 1 << 1,\r\n /** Is an integer type. */\r\n INTEGER = 1 << 2,\r\n /** Is a floating point type. */\r\n FLOAT = 1 << 3,\r\n /** Is a pointer type. */\r\n POINTER = 1 << 4,\r\n /** Is smaller than 32-bits. */\r\n SHORT = 1 << 5,\r\n /** Is larger than 32-bits. */\r\n LONG = 1 << 6,\r\n /** Is a value type. */\r\n VALUE = 1 << 7,\r\n /** Is a reference type. */\r\n REFERENCE = 1 << 8,\r\n /** Is a nullable type. */\r\n NULLABLE = 1 << 9,\r\n /** Is a vector type. */\r\n VECTOR = 1 << 10\r\n}\r\n\r\nconst v128_zero = new Uint8Array(16);\r\n\r\n/** Represents a resolved type. */\r\nexport class Type {\r\n\r\n /** Type kind. */\r\n kind: TypeKind;\r\n /** Type flags. */\r\n flags: TypeFlags;\r\n /** Size in bits. */\r\n size: u32;\r\n /** Size in bytes. */\r\n byteSize: i32;\r\n /** Underlying class reference, if a class type. */\r\n classReference: Class | null;\r\n /** Underlying signature reference, if a function type. */\r\n signatureReference: Signature | null;\r\n /** Respective non-nullable type, if nullable. */\r\n nonNullableType: Type;\r\n /** Cached nullable type, if non-nullable. */\r\n private cachedNullableType: Type | null = null;\r\n\r\n /** Constructs a new resolved type. */\r\n constructor(kind: TypeKind, flags: TypeFlags, size: u32) {\r\n this.kind = kind;\r\n this.flags = flags;\r\n this.size = size;\r\n this.byteSize = ceil(size / 8);\r\n this.classReference = null;\r\n this.signatureReference = null;\r\n this.nonNullableType = this;\r\n }\r\n\r\n /** Returns the closest int type representing this type. */\r\n get intType(): Type {\r\n switch (this.kind) {\r\n case TypeKind.I8: return Type.i8;\r\n case TypeKind.I16: return Type.i16;\r\n case TypeKind.F32:\r\n case TypeKind.I32: return Type.i32;\r\n case TypeKind.F64:\r\n case TypeKind.I64: return Type.i64;\r\n case TypeKind.ISIZE: return this.size == 64 ? Type.isize64 : Type.isize32;\r\n case TypeKind.U8: return Type.u8;\r\n case TypeKind.U16: return Type.u16;\r\n case TypeKind.U32: return Type.u32;\r\n case TypeKind.U64: return Type.u64;\r\n case TypeKind.USIZE: return this.size == 64 ? Type.usize64 : Type.usize32;\r\n case TypeKind.BOOL:\r\n default: return Type.i32;\r\n }\r\n }\r\n\r\n /** Tests if this is a managed type that needs GC hooks. */\r\n isManaged(program: Program): bool {\r\n if (program.hasGC) {\r\n let classReference = this.classReference;\r\n return classReference !== null && !classReference.hasDecorator(DecoratorFlags.UNMANAGED);\r\n }\r\n return false;\r\n }\r\n\r\n /** Computes the sign-extending shift in the target type. */\r\n computeSmallIntegerShift(targetType: Type): u32 {\r\n return targetType.size - this.size;\r\n }\r\n\r\n /** Computes the truncating mask in the target type. */\r\n computeSmallIntegerMask(targetType: Type): u32 {\r\n var size = this.is(TypeFlags.UNSIGNED) ? this.size : this.size - 1;\r\n return ~0 >>> (targetType.size - size);\r\n }\r\n\r\n /** Tests if this type has (all of) the specified flags. */\r\n is(flags: TypeFlags): bool { return (this.flags & flags) == flags; }\r\n /** Tests if this type has any of the specified flags. */\r\n isAny(flags: TypeFlags): bool { return (this.flags & flags) != 0; }\r\n\r\n /** Composes a class type from this type and a class. */\r\n asClass(classType: Class): Type {\r\n assert(this.kind == TypeKind.USIZE && !this.classReference);\r\n var ret = new Type(this.kind, this.flags & ~TypeFlags.VALUE | TypeFlags.REFERENCE, this.size);\r\n ret.classReference = classType;\r\n return ret;\r\n }\r\n\r\n /** Composes a function type from this type and a function. */\r\n asFunction(signature: Signature): Type {\r\n assert(this.kind == TypeKind.U32 && !this.signatureReference);\r\n var ret = new Type(this.kind, this.flags & ~TypeFlags.VALUE | TypeFlags.REFERENCE, this.size);\r\n ret.signatureReference = signature;\r\n return ret;\r\n }\r\n\r\n /** Composes the respective nullable type of this type. */\r\n asNullable(): Type {\r\n assert(this.is(TypeFlags.REFERENCE));\r\n if (!this.cachedNullableType) {\r\n assert(!this.is(TypeFlags.NULLABLE));\r\n this.cachedNullableType = new Type(this.kind, this.flags | TypeFlags.NULLABLE, this.size);\r\n this.cachedNullableType.nonNullableType = this;\r\n this.cachedNullableType.classReference = this.classReference; // either a class reference\r\n this.cachedNullableType.signatureReference = this.signatureReference; // or a function reference\r\n }\r\n return this.cachedNullableType;\r\n }\r\n\r\n /** Tests if a value of this type is assignable to the target type incl. implicit conversion. */\r\n isAssignableTo(target: Type, signednessIsRelevant: bool = false): bool {\r\n var currentClass: Class | null;\r\n var targetClass: Class | null;\r\n var currentFunction: Signature | null;\r\n var targetFunction: Signature | null;\r\n if (this.is(TypeFlags.REFERENCE)) {\r\n if (target.is(TypeFlags.REFERENCE)) {\r\n if (!this.is(TypeFlags.NULLABLE) || target.is(TypeFlags.NULLABLE)) {\r\n if (currentClass = this.classReference) {\r\n if (targetClass = target.classReference) {\r\n return currentClass.isAssignableTo(targetClass);\r\n }\r\n } else if (currentFunction = this.signatureReference) {\r\n if (targetFunction = target.signatureReference) {\r\n return currentFunction.isAssignableTo(targetFunction);\r\n }\r\n }\r\n }\r\n }\r\n } else if (!target.is(TypeFlags.REFERENCE)) {\r\n if (this.is(TypeFlags.INTEGER)) {\r\n if (target.is(TypeFlags.INTEGER)) {\r\n if (\r\n !signednessIsRelevant ||\r\n this == Type.bool || // a bool (0 or 1) can be safely assigned to all sorts of integers\r\n this.is(TypeFlags.SIGNED) == target.is(TypeFlags.SIGNED)\r\n ) {\r\n return this.size <= target.size;\r\n }\r\n } else if (target.kind == TypeKind.F32) {\r\n return this.size <= 23; // mantissa bits\r\n } else if (target.kind == TypeKind.F64) {\r\n return this.size <= 52; // ^\r\n }\r\n } else if (this.is(TypeFlags.FLOAT)) {\r\n if (target.is(TypeFlags.FLOAT)) {\r\n return this.size <= target.size;\r\n }\r\n } else if (this.is(TypeFlags.VECTOR)) {\r\n if (target.is(TypeFlags.VECTOR)) {\r\n return this.size == target.size;\r\n }\r\n }\r\n }\r\n return false;\r\n }\r\n\r\n /** Tests if a value of this type is assignable to the target type excl. implicit conversion. */\r\n isStrictlyAssignableTo(target: Type, signednessIsRelevant: bool = false): bool {\r\n if (this.is(TypeFlags.REFERENCE)) return this.isAssignableTo(target);\r\n else if (target.is(TypeFlags.REFERENCE)) return false;\r\n if (this.is(TypeFlags.INTEGER)) {\r\n return target.is(TypeFlags.INTEGER) && target.size == this.size && (\r\n !signednessIsRelevant || this.is(TypeFlags.SIGNED) == target.is(TypeFlags.SIGNED)\r\n );\r\n }\r\n return this.kind == target.kind;\r\n }\r\n\r\n /** Determines the common denominator type of two types, if there is any. */\r\n static commonDenominator(left: Type, right: Type, signednessIsImportant: bool): Type | null {\r\n if (right.isAssignableTo(left, signednessIsImportant)) return left;\r\n else if (left.isAssignableTo(right, signednessIsImportant)) return right;\r\n return null;\r\n }\r\n\r\n /** Converts this type to its TypeScript representation. */\r\n toString(kindOnly: bool = false): string {\r\n if (!kindOnly && this.is(TypeFlags.REFERENCE)) {\r\n let classReference = this.classReference;\r\n if (classReference) {\r\n return this.is(TypeFlags.NULLABLE)\r\n ? classReference.name + \" | null\"\r\n : classReference.name;\r\n }\r\n let signatureReference = this.signatureReference;\r\n if (signatureReference) {\r\n return this.is(TypeFlags.NULLABLE)\r\n ? \"(\" + signatureReference.toString(true) + \") | null\"\r\n : signatureReference.toString(true);\r\n }\r\n assert(false);\r\n }\r\n switch (this.kind) {\r\n case TypeKind.I8: return \"i8\";\r\n case TypeKind.I16: return \"i16\";\r\n case TypeKind.I32: return \"i32\";\r\n case TypeKind.I64: return \"i64\";\r\n case TypeKind.ISIZE: return \"isize\";\r\n case TypeKind.U8: return \"u8\";\r\n case TypeKind.U16: return \"u16\";\r\n case TypeKind.U32: return \"u32\";\r\n case TypeKind.U64: return \"u64\";\r\n case TypeKind.USIZE: return \"usize\";\r\n case TypeKind.BOOL: return \"bool\";\r\n case TypeKind.F32: return \"f32\";\r\n case TypeKind.F64: return \"f64\";\r\n case TypeKind.V128: return \"v128\";\r\n default: assert(false);\r\n case TypeKind.VOID: return \"void\";\r\n }\r\n }\r\n\r\n // Binaryen specific\r\n\r\n /** Converts this type to its respective native type. */\r\n toNativeType(): NativeType {\r\n switch (this.kind) {\r\n default: return NativeType.I32;\r\n case TypeKind.I64:\r\n case TypeKind.U64: return NativeType.I64;\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: return this.size == 64 ? NativeType.I64 : NativeType.I32;\r\n case TypeKind.F32: return NativeType.F32;\r\n case TypeKind.F64: return NativeType.F64;\r\n case TypeKind.V128: return NativeType.V128;\r\n case TypeKind.VOID: return NativeType.None;\r\n }\r\n }\r\n\r\n /** Converts this type to its native `0` value. */\r\n toNativeZero(module: Module): ExpressionRef {\r\n switch (this.kind) {\r\n case TypeKind.VOID: assert(false);\r\n default: return module.createI32(0);\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: if (this.size != 64) return module.createI32(0);\r\n case TypeKind.I64:\r\n case TypeKind.U64: return module.createI64(0);\r\n case TypeKind.F32: return module.createF32(0);\r\n case TypeKind.F64: return module.createF64(0);\r\n case TypeKind.V128: return module.createV128(v128_zero);\r\n }\r\n }\r\n\r\n /** Converts this type to its native `1` value. */\r\n toNativeOne(module: Module): ExpressionRef {\r\n switch (this.kind) {\r\n case TypeKind.V128:\r\n case TypeKind.VOID: assert(false);\r\n default: return module.createI32(1);\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: if (this.size != 64) return module.createI32(1);\r\n case TypeKind.I64:\r\n case TypeKind.U64: return module.createI64(1);\r\n case TypeKind.F32: return module.createF32(1);\r\n case TypeKind.F64: return module.createF64(1);\r\n }\r\n }\r\n\r\n /** Converts this type to its native `-1` value. */\r\n toNativeNegOne(module: Module): ExpressionRef {\r\n switch (this.kind) {\r\n case TypeKind.V128:\r\n case TypeKind.VOID: assert(false);\r\n default: return module.createI32(-1);\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: if (this.size != 64) return module.createI32(-1);\r\n case TypeKind.I64:\r\n case TypeKind.U64: return module.createI64(-1, -1);\r\n case TypeKind.F32: return module.createF32(-1);\r\n case TypeKind.F64: return module.createF64(-1);\r\n }\r\n }\r\n\r\n /** Converts this type to its signature string. */\r\n toSignatureString(): string {\r\n switch (this.kind) {\r\n // same naming scheme as Binaryen\r\n case TypeKind.I8:\r\n case TypeKind.U8:\r\n case TypeKind.I16:\r\n case TypeKind.U16:\r\n case TypeKind.I32:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: return \"i\";\r\n case TypeKind.I64:\r\n case TypeKind.U64: return \"j\";\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: return this.size == 64 ? \"j\" : \"i\";\r\n case TypeKind.F32: return \"f\";\r\n case TypeKind.F64: return \"d\";\r\n case TypeKind.V128: return \"V\";\r\n case TypeKind.VOID: return \"v\";\r\n default: assert(false);\r\n }\r\n return \"i\";\r\n }\r\n\r\n // Types\r\n\r\n /** An 8-bit signed integer. */\r\n static readonly i8: Type = new Type(TypeKind.I8,\r\n TypeFlags.SIGNED |\r\n TypeFlags.SHORT |\r\n TypeFlags.INTEGER |\r\n TypeFlags.VALUE, 8\r\n );\r\n\r\n /** A 16-bit signed integer. */\r\n static readonly i16: Type = new Type(TypeKind.I16,\r\n TypeFlags.SIGNED |\r\n TypeFlags.SHORT |\r\n TypeFlags.INTEGER |\r\n TypeFlags.VALUE, 16\r\n );\r\n\r\n /** A 32-bit signed integer. */\r\n static readonly i32: Type = new Type(TypeKind.I32,\r\n TypeFlags.SIGNED |\r\n TypeFlags.INTEGER |\r\n TypeFlags.VALUE, 32\r\n );\r\n\r\n /** A 64-bit signed integer. */\r\n static readonly i64: Type = new Type(TypeKind.I64,\r\n TypeFlags.SIGNED |\r\n TypeFlags.LONG |\r\n TypeFlags.INTEGER |\r\n TypeFlags.VALUE, 64\r\n );\r\n\r\n /** A 32-bit signed size. WASM32 only. */\r\n static readonly isize32: Type = new Type(TypeKind.ISIZE,\r\n TypeFlags.SIGNED |\r\n TypeFlags.INTEGER |\r\n TypeFlags.POINTER |\r\n TypeFlags.VALUE, 32\r\n );\r\n\r\n /** A 64-bit signed size. WASM64 only. */\r\n static readonly isize64: Type = new Type(TypeKind.ISIZE,\r\n TypeFlags.SIGNED |\r\n TypeFlags.LONG |\r\n TypeFlags.INTEGER |\r\n TypeFlags.POINTER |\r\n TypeFlags.VALUE, 64\r\n );\r\n\r\n /** An 8-bit unsigned integer. */\r\n static readonly u8: Type = new Type(TypeKind.U8,\r\n TypeFlags.UNSIGNED |\r\n TypeFlags.SHORT |\r\n TypeFlags.INTEGER |\r\n TypeFlags.VALUE, 8\r\n );\r\n\r\n /** A 16-bit unsigned integer. */\r\n static readonly u16: Type = new Type(TypeKind.U16,\r\n TypeFlags.UNSIGNED |\r\n TypeFlags.SHORT |\r\n TypeFlags.INTEGER |\r\n TypeFlags.VALUE, 16\r\n );\r\n\r\n /** A 32-bit unsigned integer. */\r\n static readonly u32: Type = new Type(TypeKind.U32,\r\n TypeFlags.UNSIGNED |\r\n TypeFlags.INTEGER |\r\n TypeFlags.VALUE, 32\r\n );\r\n\r\n /** A 64-bit unsigned integer. */\r\n static readonly u64: Type = new Type(TypeKind.U64,\r\n TypeFlags.UNSIGNED |\r\n TypeFlags.LONG |\r\n TypeFlags.INTEGER |\r\n TypeFlags.VALUE, 64\r\n );\r\n\r\n /** A 32-bit unsigned size. WASM32 only. */\r\n static readonly usize32: Type = new Type(TypeKind.USIZE,\r\n TypeFlags.UNSIGNED |\r\n TypeFlags.INTEGER |\r\n TypeFlags.POINTER |\r\n TypeFlags.VALUE, 32\r\n );\r\n\r\n /** A 64-bit unsigned size. WASM64 only. */\r\n static readonly usize64: Type = new Type(TypeKind.USIZE,\r\n TypeFlags.UNSIGNED |\r\n TypeFlags.LONG |\r\n TypeFlags.INTEGER |\r\n TypeFlags.POINTER |\r\n TypeFlags.VALUE, 64\r\n );\r\n\r\n /** A 1-bit unsigned integer. */\r\n static readonly bool: Type = new Type(TypeKind.BOOL,\r\n TypeFlags.UNSIGNED |\r\n TypeFlags.SHORT |\r\n TypeFlags.INTEGER |\r\n TypeFlags.VALUE, 1\r\n );\r\n\r\n /** A 32-bit float. */\r\n static readonly f32: Type = new Type(TypeKind.F32,\r\n TypeFlags.SIGNED |\r\n TypeFlags.FLOAT |\r\n TypeFlags.VALUE, 32\r\n );\r\n\r\n /** A 64-bit float. */\r\n static readonly f64: Type = new Type(TypeKind.F64,\r\n TypeFlags.SIGNED |\r\n TypeFlags.LONG |\r\n TypeFlags.FLOAT |\r\n TypeFlags.VALUE, 64\r\n );\r\n\r\n /** A 128-bit vector. */\r\n static readonly v128: Type = new Type(TypeKind.V128,\r\n TypeFlags.VECTOR |\r\n TypeFlags.VALUE, 128\r\n );\r\n\r\n /** No return type. */\r\n static readonly void: Type = new Type(TypeKind.VOID, TypeFlags.NONE, 0);\r\n}\r\n\r\n/** Converts an array of types to an array of native types. */\r\nexport function typesToNativeTypes(types: Type[]): NativeType[] {\r\n var numTypes = types.length;\r\n var ret = new Array(numTypes);\r\n for (let i = 0; i < numTypes; ++i) ret[i] = types[i].toNativeType();\r\n return ret;\r\n}\r\n\r\n/** Converts an array of types to its combined string representation. */\r\nexport function typesToString(types: Type[]): string {\r\n var numTypes = types.length;\r\n if (!numTypes) return \"\";\r\n var sb = new Array(numTypes);\r\n for (let i = 0; i < numTypes; ++i) sb[i] = types[i].toString();\r\n return sb.join(\",\");\r\n}\r\n\r\n/** Represents a fully resolved function signature. */\r\nexport class Signature {\r\n\r\n /** Parameter types, if any, excluding `this`. */\r\n parameterTypes: Type[];\r\n /** Parameter names, if known, excluding `this`. */\r\n parameterNames: string[] | null;\r\n /** Number of required parameters excluding `this`. Other parameters are considered optional. */\r\n requiredParameters: i32;\r\n /** Return type. */\r\n returnType: Type;\r\n /** This type, if an instance signature. */\r\n thisType: Type | null;\r\n /** Whether the last parameter is a rest parameter. */\r\n hasRest: bool;\r\n /** Cached {@link FunctionTarget}. */\r\n cachedFunctionTarget: FunctionTarget | null = null;\r\n /** Respective function type. */\r\n type: Type;\r\n\r\n /** Constructs a new signature. */\r\n constructor(\r\n parameterTypes: Type[] | null = null,\r\n returnType: Type | null = null,\r\n thisType: Type | null = null\r\n ) {\r\n this.parameterTypes = parameterTypes ? parameterTypes : [];\r\n this.parameterNames = null;\r\n this.requiredParameters = 0;\r\n this.returnType = returnType ? returnType : Type.void;\r\n this.thisType = thisType;\r\n this.hasRest = false;\r\n this.type = Type.u32.asFunction(this);\r\n }\r\n\r\n asFunctionTarget(program: Program): FunctionTarget {\r\n var target = this.cachedFunctionTarget;\r\n if (!target) this.cachedFunctionTarget = target = new FunctionTarget(this, program);\r\n else assert(target.program == program);\r\n return target;\r\n }\r\n\r\n /** Gets the known or, alternatively, generic parameter name at the specified index. */\r\n getParameterName(index: i32): string {\r\n var parameterNames = this.parameterNames;\r\n return parameterNames && parameterNames.length > index\r\n ? parameterNames[index]\r\n : getDefaultParameterName(index);\r\n }\r\n\r\n /** Tests if a value of this function type is assignable to a target of the specified function type. */\r\n isAssignableTo(target: Signature): bool {\r\n // TODO: maybe cache results?\r\n\r\n // check `this` type\r\n var thisThisType = this.thisType;\r\n var targetThisType = target.thisType;\r\n if (thisThisType) {\r\n if (!(targetThisType && thisThisType.isAssignableTo(targetThisType))) return false;\r\n } else if (targetThisType) {\r\n return false;\r\n }\r\n\r\n // check rest parameter\r\n if (this.hasRest != target.hasRest) return false; // TODO\r\n\r\n // check parameter types\r\n var thisParameterTypes = this.parameterTypes;\r\n var targetParameterTypes = target.parameterTypes;\r\n var numParameters = thisParameterTypes.length;\r\n if (numParameters != targetParameterTypes.length) return false;\r\n for (let i = 0; i < numParameters; ++i) {\r\n let thisParameterType = thisParameterTypes[i];\r\n let targetParameterType = targetParameterTypes[i];\r\n if (!thisParameterType.isAssignableTo(targetParameterType)) return false;\r\n }\r\n\r\n // check return type\r\n var thisReturnType = this.returnType;\r\n var targetReturnType = target.returnType;\r\n return thisReturnType == targetReturnType || thisReturnType.isAssignableTo(targetReturnType);\r\n }\r\n\r\n /** Converts a signature to a function type string. */\r\n static makeSignatureString(parameterTypes: Type[] | null, returnType: Type, thisType: Type | null = null): string {\r\n var sb = [];\r\n sb.push(returnType.toSignatureString());\r\n if (thisType) sb.push(thisType.toSignatureString());\r\n if (parameterTypes) {\r\n for (let i = 0, k = parameterTypes.length; i < k; ++i) sb.push(parameterTypes[i].toSignatureString());\r\n }\r\n return \"FUNCSIG$\" + sb.join(\"\");\r\n }\r\n\r\n /** Converts this signature to a function type string. */\r\n toSignatureString(): string {\r\n return Signature.makeSignatureString(this.parameterTypes, this.returnType, this.thisType);\r\n }\r\n\r\n /** Converts this signature to a string. */\r\n toString(includeThis: bool = false): string {\r\n var sb = new Array();\r\n sb.push(\"(\");\r\n var index = 0;\r\n var thisType = this.thisType;\r\n if (thisType) {\r\n if (includeThis) {\r\n sb.push(\"this: \");\r\n sb.push(thisType.toString());\r\n index = 1;\r\n }\r\n }\r\n var parameters = this.parameterTypes;\r\n var numParameters = parameters.length;\r\n if (numParameters) {\r\n let names = this.parameterNames;\r\n let numNames = names ? names.length : 0;\r\n let optionalStart = this.requiredParameters;\r\n let restIndex = this.hasRest ? numParameters - 1 : -1;\r\n for (let i = 0; i < numParameters; ++i, ++index) {\r\n if (index) sb.push(\", \");\r\n if (i == restIndex) sb.push(\"...\");\r\n if (i < numNames) sb.push((names)[i]);\r\n else sb.push(getDefaultParameterName(i));\r\n if (i >= optionalStart && i != restIndex) sb.push(\"?: \");\r\n else sb.push(\": \");\r\n sb.push(parameters[i].toString());\r\n }\r\n }\r\n sb.push(\") => \");\r\n sb.push(this.returnType.toString());\r\n return sb.join(\"\");\r\n }\r\n}\r\n\r\n// helpers\r\n\r\n// Cached default parameter names used where names are unknown.\r\nvar cachedDefaultParameterNames: string[] | null = null;\r\n\r\n/** Gets the cached default parameter name for the specified index. */\r\nexport function getDefaultParameterName(index: i32): string {\r\n if (!cachedDefaultParameterNames) cachedDefaultParameterNames = [];\r\n for (let i = cachedDefaultParameterNames.length; i <= index; ++i) {\r\n cachedDefaultParameterNames.push(\"arg$\" + i.toString(10));\r\n }\r\n return cachedDefaultParameterNames[index - 1];\r\n}\r\n","/**\r\n * A TypeScript tokenizer modified for AssemblyScript.\r\n *\r\n * Skips over trivia and provides a general mark/reset mechanism for the parser to utilize on\r\n * ambiguous tokens.\r\n *\r\n * @module tokenizer\r\n *//***/\r\n\r\nimport {\r\n DiagnosticCode,\r\n DiagnosticMessage,\r\n DiagnosticEmitter\r\n} from \"./diagnostics\";\r\n\r\nimport {\r\n Source,\r\n CommentKind\r\n} from \"./ast\";\r\n\r\nimport {\r\n CharCode,\r\n isLineBreak,\r\n isWhiteSpace,\r\n isIdentifierStart,\r\n isIdentifierPart,\r\n isDecimalDigit,\r\n isOctalDigit,\r\n isKeywordCharacter\r\n} from \"./util\";\r\n\r\n/** Named token types. */\r\nexport enum Token {\r\n\r\n // keywords\r\n // discarded: ANY, BOOLEAN, NEVER, NUMBER, STRING, SYMBOL, UNDEFINED, LESSTHAN_SLASH\r\n\r\n ABSTRACT,\r\n AS,\r\n ASYNC,\r\n AWAIT, // ES2017\r\n BREAK, // ES2017\r\n CASE, // ES2017\r\n CATCH, // ES2017\r\n CLASS, // ES2017\r\n CONST, // ES2017\r\n CONTINUE, // ES2017\r\n CONSTRUCTOR,\r\n DEBUGGER, // ES2017\r\n DECLARE,\r\n DEFAULT, // ES2017\r\n DELETE, // ES2017\r\n DO, // ES2017\r\n ELSE, // ES2017\r\n ENUM, // ES2017 future\r\n EXPORT, // ES2017\r\n EXTENDS, // ES2017\r\n FALSE, // ES\r\n FINALLY, // ES2017\r\n FOR, // ES2017\r\n FROM, // AS possible identifier\r\n FUNCTION, // ES2017\r\n GET,\r\n IF, // ES2017\r\n IMPLEMENTS, // ES2017 non-lexical\r\n IMPORT, // ES2017\r\n IN, // ES2017\r\n INSTANCEOF, // ES2017\r\n INTERFACE, // ES2017 non-lexical\r\n IS,\r\n KEYOF,\r\n LET, // ES2017 non-lexical\r\n MODULE, // AS possible identifier\r\n NAMESPACE, // AS possible identifier\r\n NEW, // ES2017\r\n NULL, // ES\r\n OF,\r\n PACKAGE, // ES2017 non-lexical\r\n PRIVATE, // ES2017 non-lexical\r\n PROTECTED, // ES2017 non-lexical\r\n PUBLIC, // ES2017 non-lexical\r\n READONLY,\r\n RETURN, // ES2017\r\n SET,\r\n STATIC, // ES2017 non-lexical\r\n SUPER, // ES2017\r\n SWITCH, // ES2017\r\n THIS, // ES2017\r\n THROW, // ES2017\r\n TRUE, // ES\r\n TRY, // ES2017\r\n TYPE, // AS possible identifier\r\n TYPEOF, // ES2017\r\n VAR, // ES2017\r\n VOID, // ES2017\r\n WHILE, // ES2017\r\n WITH, // ES2017\r\n YIELD, // ES2017\r\n\r\n // punctuation\r\n\r\n OPENBRACE,\r\n CLOSEBRACE,\r\n OPENPAREN,\r\n CLOSEPAREN,\r\n OPENBRACKET,\r\n CLOSEBRACKET,\r\n DOT,\r\n DOT_DOT_DOT,\r\n SEMICOLON,\r\n COMMA,\r\n LESSTHAN,\r\n GREATERTHAN,\r\n LESSTHAN_EQUALS,\r\n GREATERTHAN_EQUALS,\r\n EQUALS_EQUALS,\r\n EXCLAMATION_EQUALS,\r\n EQUALS_EQUALS_EQUALS,\r\n EXCLAMATION_EQUALS_EQUALS,\r\n EQUALS_GREATERTHAN,\r\n PLUS,\r\n MINUS,\r\n ASTERISK_ASTERISK,\r\n ASTERISK,\r\n SLASH,\r\n PERCENT,\r\n PLUS_PLUS,\r\n MINUS_MINUS,\r\n LESSTHAN_LESSTHAN,\r\n GREATERTHAN_GREATERTHAN,\r\n GREATERTHAN_GREATERTHAN_GREATERTHAN,\r\n AMPERSAND,\r\n BAR,\r\n CARET,\r\n EXCLAMATION,\r\n TILDE,\r\n AMPERSAND_AMPERSAND,\r\n BAR_BAR,\r\n QUESTION,\r\n COLON,\r\n EQUALS,\r\n PLUS_EQUALS,\r\n MINUS_EQUALS,\r\n ASTERISK_EQUALS,\r\n ASTERISK_ASTERISK_EQUALS,\r\n SLASH_EQUALS,\r\n PERCENT_EQUALS,\r\n LESSTHAN_LESSTHAN_EQUALS,\r\n GREATERTHAN_GREATERTHAN_EQUALS,\r\n GREATERTHAN_GREATERTHAN_GREATERTHAN_EQUALS,\r\n AMPERSAND_EQUALS,\r\n BAR_EQUALS,\r\n CARET_EQUALS,\r\n AT,\r\n\r\n // literals\r\n\r\n IDENTIFIER,\r\n STRINGLITERAL,\r\n INTEGERLITERAL,\r\n FLOATLITERAL,\r\n\r\n // meta\r\n\r\n INVALID,\r\n ENDOFFILE\r\n}\r\n\r\nexport enum IdentifierHandling {\r\n DEFAULT,\r\n PREFER,\r\n ALWAYS\r\n}\r\n\r\nexport function tokenFromKeyword(text: string): Token {\r\n assert(text.length);\r\n switch (text.charCodeAt(0)) {\r\n case CharCode.a: {\r\n switch (text) {\r\n case \"abstract\": return Token.ABSTRACT;\r\n case \"as\": return Token.AS;\r\n case \"async\": return Token.ASYNC;\r\n case \"await\": return Token.AWAIT;\r\n }\r\n break;\r\n }\r\n case CharCode.b: {\r\n switch (text) {\r\n case \"break\": return Token.BREAK;\r\n }\r\n break;\r\n }\r\n case CharCode.c: {\r\n switch (text) {\r\n case \"case\": return Token.CASE;\r\n case \"catch\": return Token.CATCH;\r\n case \"class\": return Token.CLASS;\r\n case \"continue\": return Token.CONTINUE;\r\n case \"const\": return Token.CONST;\r\n case \"constructor\": return Token.CONSTRUCTOR;\r\n }\r\n break;\r\n }\r\n case CharCode.d: {\r\n switch (text) {\r\n case \"debugger\": return Token.DEBUGGER;\r\n case \"declare\": return Token.DECLARE;\r\n case \"default\": return Token.DEFAULT;\r\n case \"delete\": return Token.DELETE;\r\n case \"do\": return Token.DO;\r\n }\r\n break;\r\n }\r\n case CharCode.e: {\r\n switch (text) {\r\n case \"else\": return Token.ELSE;\r\n case \"enum\": return Token.ENUM;\r\n case \"export\": return Token.EXPORT;\r\n case \"extends\": return Token.EXTENDS;\r\n }\r\n break;\r\n }\r\n case CharCode.f: {\r\n switch (text) {\r\n case \"false\": return Token.FALSE;\r\n case \"finally\": return Token.FINALLY;\r\n case \"for\": return Token.FOR;\r\n case \"from\": return Token.FROM;\r\n case \"function\": return Token.FUNCTION;\r\n }\r\n break;\r\n }\r\n case CharCode.g: {\r\n switch (text) {\r\n case \"get\": return Token.GET;\r\n }\r\n break;\r\n }\r\n case CharCode.i: {\r\n switch (text) {\r\n case \"if\": return Token.IF;\r\n case \"implements\": return Token.IMPLEMENTS;\r\n case \"import\": return Token.IMPORT;\r\n case \"in\": return Token.IN;\r\n case \"instanceof\": return Token.INSTANCEOF;\r\n case \"interface\": return Token.INTERFACE;\r\n case \"is\": return Token.IS;\r\n }\r\n break;\r\n }\r\n case CharCode.k: {\r\n switch (text) {\r\n case \"keyof\": return Token.KEYOF;\r\n }\r\n break;\r\n }\r\n case CharCode.l: {\r\n switch (text) {\r\n case \"let\": return Token.LET;\r\n }\r\n break;\r\n }\r\n case CharCode.m: {\r\n switch (text) {\r\n case \"module\": return Token.MODULE;\r\n }\r\n break;\r\n }\r\n case CharCode.n: {\r\n switch (text) {\r\n case \"namespace\": return Token.NAMESPACE;\r\n case \"new\": return Token.NEW;\r\n case \"null\": return Token.NULL;\r\n }\r\n break;\r\n }\r\n case CharCode.o: {\r\n switch (text) {\r\n case \"of\": return Token.OF;\r\n }\r\n break;\r\n }\r\n case CharCode.p: {\r\n switch (text) {\r\n case \"package\": return Token.PACKAGE;\r\n case \"private\": return Token.PRIVATE;\r\n case \"protected\": return Token.PROTECTED;\r\n case \"public\": return Token.PUBLIC;\r\n }\r\n break;\r\n }\r\n case CharCode.r: {\r\n switch (text) {\r\n case \"readonly\": return Token.READONLY;\r\n case \"return\": return Token.RETURN;\r\n }\r\n break;\r\n }\r\n case CharCode.s: {\r\n switch (text) {\r\n case \"set\": return Token.SET;\r\n case \"static\": return Token.STATIC;\r\n case \"super\": return Token.SUPER;\r\n case \"switch\": return Token.SWITCH;\r\n }\r\n break;\r\n }\r\n case CharCode.t: {\r\n switch (text) {\r\n case \"this\": return Token.THIS;\r\n case \"throw\": return Token.THROW;\r\n case \"true\": return Token.TRUE;\r\n case \"try\": return Token.TRY;\r\n case \"type\": return Token.TYPE;\r\n case \"typeof\": return Token.TYPEOF;\r\n }\r\n break;\r\n }\r\n case CharCode.v: {\r\n switch (text) {\r\n case \"var\": return Token.VAR;\r\n case \"void\": return Token.VOID;\r\n }\r\n break;\r\n }\r\n case CharCode.w: {\r\n switch (text) {\r\n case \"while\": return Token.WHILE;\r\n case \"with\": return Token.WITH;\r\n }\r\n break;\r\n }\r\n case CharCode.y: {\r\n switch (text) {\r\n case \"yield\": return Token.YIELD;\r\n }\r\n break;\r\n }\r\n }\r\n return Token.INVALID;\r\n}\r\n\r\nexport function tokenIsAlsoIdentifier(token: Token): bool {\r\n switch (token) {\r\n case Token.ABSTRACT:\r\n case Token.AS:\r\n case Token.CONSTRUCTOR:\r\n case Token.DECLARE:\r\n case Token.DELETE:\r\n case Token.FROM:\r\n case Token.FOR:\r\n case Token.GET:\r\n case Token.IS:\r\n case Token.KEYOF:\r\n case Token.MODULE:\r\n case Token.NAMESPACE:\r\n case Token.READONLY:\r\n case Token.SET:\r\n case Token.TYPE:\r\n case Token.VOID: return true;\r\n default: return false;\r\n }\r\n}\r\n\r\nexport function operatorTokenToString(token: Token): string {\r\n switch (token) {\r\n case Token.DELETE: return \"delete\";\r\n case Token.IN: return \"in\";\r\n case Token.INSTANCEOF: return \"instanceof\";\r\n case Token.NEW: return \"new\";\r\n case Token.TYPEOF: return \"typeof\";\r\n case Token.VOID: return \"void\";\r\n case Token.YIELD: return \"yield\";\r\n case Token.DOT_DOT_DOT: return \"...\";\r\n case Token.COMMA: return \",\";\r\n case Token.LESSTHAN: return \"<\";\r\n case Token.GREATERTHAN: return \">\";\r\n case Token.LESSTHAN_EQUALS: return \"<=\";\r\n case Token.GREATERTHAN_EQUALS: return \">=\";\r\n case Token.EQUALS_EQUALS: return \"==\";\r\n case Token.EXCLAMATION_EQUALS: return \"!=\";\r\n case Token.EQUALS_EQUALS_EQUALS: return \"===\";\r\n case Token.EXCLAMATION_EQUALS_EQUALS: return \"!==\";\r\n case Token.PLUS: return \"+\";\r\n case Token.MINUS: return \"-\";\r\n case Token.ASTERISK_ASTERISK: return \"**\";\r\n case Token.ASTERISK: return \"*\";\r\n case Token.SLASH: return \"/\";\r\n case Token.PERCENT: return \"%\";\r\n case Token.PLUS_PLUS: return \"++\";\r\n case Token.MINUS_MINUS: return \"--\";\r\n case Token.LESSTHAN_LESSTHAN: return \"<<\";\r\n case Token.GREATERTHAN_GREATERTHAN: return \">>\";\r\n case Token.GREATERTHAN_GREATERTHAN_GREATERTHAN: return \">>>\";\r\n case Token.AMPERSAND: return \"&\";\r\n case Token.BAR: return \"|\";\r\n case Token.CARET: return \"^\";\r\n case Token.EXCLAMATION: return \"!\";\r\n case Token.TILDE: return \"~\";\r\n case Token.AMPERSAND_AMPERSAND: return \"&&\";\r\n case Token.BAR_BAR: return \"||\";\r\n case Token.EQUALS: return \"=\";\r\n case Token.PLUS_EQUALS: return \"+=\";\r\n case Token.MINUS_EQUALS: return \"-=\";\r\n case Token.ASTERISK_EQUALS: return \"*=\";\r\n case Token.ASTERISK_ASTERISK_EQUALS: return \"**=\";\r\n case Token.SLASH_EQUALS: return \"/=\";\r\n case Token.PERCENT_EQUALS: return \"%=\";\r\n case Token.LESSTHAN_LESSTHAN_EQUALS: return \"<<=\";\r\n case Token.GREATERTHAN_GREATERTHAN_EQUALS: return \">>=\";\r\n case Token.GREATERTHAN_GREATERTHAN_GREATERTHAN_EQUALS: return \">>>=\";\r\n case Token.AMPERSAND_EQUALS: return \"&=\";\r\n case Token.BAR_EQUALS: return \"|=\";\r\n case Token.CARET_EQUALS: return \"^=\";\r\n default: {\r\n assert(false);\r\n return \"\";\r\n }\r\n }\r\n}\r\n\r\nexport class Range {\r\n\r\n source: Source;\r\n start: i32;\r\n end: i32;\r\n\r\n // TODO: set these while tokenizing\r\n // line: i32;\r\n // column: i32;\r\n\r\n constructor(source: Source, start: i32, end: i32) {\r\n this.source = source;\r\n this.start = start;\r\n this.end = end;\r\n }\r\n\r\n static join(a: Range, b: Range): Range {\r\n if (a.source != b.source) throw new Error(\"source mismatch\");\r\n return new Range(a.source,\r\n a.start < b.start ? a.start : b.start,\r\n a.end > b.end ? a.end : b.end\r\n );\r\n }\r\n\r\n get atStart(): Range {\r\n return new Range(this.source, this.start, this.start);\r\n }\r\n get atEnd(): Range {\r\n return new Range(this.source, this.end, this.end);\r\n }\r\n\r\n get line(): i32 {\r\n var text = this.source.text;\r\n var line = 1;\r\n for (let pos = this.start; pos >= 0; --pos) {\r\n if (text.charCodeAt(pos) == CharCode.LINEFEED) line++;\r\n }\r\n return line;\r\n }\r\n\r\n get column(): i32 {\r\n var text = this.source.text;\r\n var column = 0;\r\n for (let pos = this.start - 1; pos >= 0; --pos) {\r\n if (text.charCodeAt(pos) == CharCode.LINEFEED) break;\r\n ++column;\r\n }\r\n return column;\r\n }\r\n\r\n toString(): string {\r\n return this.source.text.substring(this.start, this.end);\r\n }\r\n\r\n debugInfoRef: usize = 0;\r\n}\r\n\r\ndeclare function parseFloat(str: string): f64;\r\n\r\n/** Handler for intercepting comments while tokenizing. */\r\nexport type CommentHandler = (kind: CommentKind, text: string, range: Range) => void;\r\n\r\n/** Tokenizes a source to individual {@link Token}s. */\r\nexport class Tokenizer extends DiagnosticEmitter {\r\n\r\n source: Source;\r\n end: i32 = 0;\r\n\r\n pos: i32 = 0;\r\n token: Token = -1;\r\n tokenPos: i32 = 0;\r\n\r\n nextToken: Token = -1;\r\n nextTokenPos: i32 = 0;\r\n nextTokenOnNewLine: bool = false;\r\n\r\n onComment: CommentHandler | null = null;\r\n\r\n /** Constructs a new tokenizer. */\r\n constructor(source: Source, diagnostics: DiagnosticMessage[] | null = null) {\r\n super(diagnostics);\r\n\r\n this.source = source;\r\n this.pos = 0;\r\n this.end = source.text.length;\r\n this.diagnostics = diagnostics ? diagnostics : new Array();\r\n\r\n var text = source.text;\r\n\r\n // skip bom\r\n if (\r\n this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.BYTEORDERMARK\r\n ) {\r\n ++this.pos;\r\n }\r\n\r\n // skip shebang\r\n if (\r\n this.pos + 1 < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.HASH &&\r\n text.charCodeAt(this.pos + 1) == CharCode.EXCLAMATION\r\n ) {\r\n this.pos += 2;\r\n while (\r\n this.pos < this.end &&\r\n text.charCodeAt(this.pos) != CharCode.LINEFEED\r\n ) {\r\n ++this.pos;\r\n }\r\n // 'next' now starts at lf or eof\r\n }\r\n }\r\n\r\n next(identifierHandling: IdentifierHandling = IdentifierHandling.DEFAULT): Token {\r\n this.nextToken = -1;\r\n return this.token = this.unsafeNext(identifierHandling);\r\n }\r\n\r\n private unsafeNext(\r\n identifierHandling: IdentifierHandling = IdentifierHandling.DEFAULT,\r\n maxTokenLength: i32 = i32.MAX_VALUE\r\n ): Token {\r\n var text = this.source.text;\r\n while (this.pos < this.end) {\r\n this.tokenPos = this.pos;\r\n let c = text.charCodeAt(this.pos);\r\n switch (c) {\r\n case CharCode.CARRIAGERETURN: {\r\n if (!(\r\n ++this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.LINEFEED\r\n )) break;\r\n // otherwise fall-through\r\n }\r\n case CharCode.LINEFEED:\r\n case CharCode.TAB:\r\n case CharCode.VERTICALTAB:\r\n case CharCode.FORMFEED:\r\n case CharCode.SPACE: {\r\n ++this.pos;\r\n break;\r\n }\r\n case CharCode.EXCLAMATION: {\r\n ++this.pos;\r\n if (\r\n maxTokenLength > 1 && this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.EQUALS\r\n ) {\r\n ++this.pos;\r\n if (\r\n maxTokenLength > 2 && this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.EQUALS\r\n ) {\r\n ++this.pos;\r\n return Token.EXCLAMATION_EQUALS_EQUALS;\r\n }\r\n return Token.EXCLAMATION_EQUALS;\r\n }\r\n return Token.EXCLAMATION;\r\n }\r\n case CharCode.DOUBLEQUOTE:\r\n case CharCode.SINGLEQUOTE:\r\n case CharCode.BACKTICK: { // TODO\r\n return Token.STRINGLITERAL; // expects a call to readString\r\n }\r\n case CharCode.PERCENT: {\r\n ++this.pos;\r\n if (\r\n maxTokenLength > 1 && this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.EQUALS\r\n ) {\r\n ++this.pos;\r\n return Token.PERCENT_EQUALS;\r\n }\r\n return Token.PERCENT;\r\n }\r\n case CharCode.AMPERSAND: {\r\n ++this.pos;\r\n if (maxTokenLength > 1 && this.pos < this.end) {\r\n let chr = text.charCodeAt(this.pos);\r\n if (chr == CharCode.AMPERSAND) {\r\n ++this.pos;\r\n return Token.AMPERSAND_AMPERSAND;\r\n }\r\n if (chr == CharCode.EQUALS) {\r\n ++this.pos;\r\n return Token.AMPERSAND_EQUALS;\r\n }\r\n }\r\n return Token.AMPERSAND;\r\n }\r\n case CharCode.OPENPAREN: {\r\n ++this.pos;\r\n return Token.OPENPAREN;\r\n }\r\n case CharCode.CLOSEPAREN: {\r\n ++this.pos;\r\n return Token.CLOSEPAREN;\r\n }\r\n case CharCode.ASTERISK: {\r\n ++this.pos;\r\n if (maxTokenLength > 1 && this.pos < this.end) {\r\n let chr = text.charCodeAt(this.pos);\r\n if (chr == CharCode.EQUALS) {\r\n ++this.pos;\r\n return Token.ASTERISK_EQUALS;\r\n }\r\n if (chr == CharCode.ASTERISK) {\r\n ++this.pos;\r\n if (\r\n maxTokenLength > 2 && this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.EQUALS\r\n ) {\r\n ++this.pos;\r\n return Token.ASTERISK_ASTERISK_EQUALS;\r\n }\r\n return Token.ASTERISK_ASTERISK;\r\n }\r\n }\r\n return Token.ASTERISK;\r\n }\r\n case CharCode.PLUS: {\r\n ++this.pos;\r\n if (maxTokenLength > 1 && this.pos < this.end) {\r\n let chr = text.charCodeAt(this.pos);\r\n if (chr == CharCode.PLUS) {\r\n ++this.pos;\r\n return Token.PLUS_PLUS;\r\n }\r\n if (chr == CharCode.EQUALS) {\r\n ++this.pos;\r\n return Token.PLUS_EQUALS;\r\n }\r\n }\r\n return Token.PLUS;\r\n }\r\n case CharCode.COMMA: {\r\n ++this.pos;\r\n return Token.COMMA;\r\n }\r\n case CharCode.MINUS: {\r\n ++this.pos;\r\n if (maxTokenLength > 1 && this.pos < this.end) {\r\n let chr = text.charCodeAt(this.pos);\r\n if (chr == CharCode.MINUS) {\r\n ++this.pos;\r\n return Token.MINUS_MINUS;\r\n }\r\n if (chr == CharCode.EQUALS) {\r\n ++this.pos;\r\n return Token.MINUS_EQUALS;\r\n }\r\n }\r\n return Token.MINUS;\r\n }\r\n case CharCode.DOT: {\r\n ++this.pos;\r\n if (maxTokenLength > 1 && this.pos < this.end) {\r\n let chr = text.charCodeAt(this.pos);\r\n if (isDecimalDigit(chr)) {\r\n --this.pos;\r\n return Token.FLOATLITERAL; // expects a call to readFloat\r\n }\r\n if (\r\n maxTokenLength > 2 && this.pos + 1 < this.end &&\r\n chr == CharCode.DOT &&\r\n text.charCodeAt(this.pos + 1) == CharCode.DOT\r\n ) {\r\n this.pos += 2;\r\n return Token.DOT_DOT_DOT;\r\n }\r\n }\r\n return Token.DOT;\r\n }\r\n case CharCode.SLASH: {\r\n let commentStartPos = this.pos;\r\n ++this.pos;\r\n if (maxTokenLength > 1 && this.pos < this.end) {\r\n let chr = text.charCodeAt(this.pos);\r\n if (chr == CharCode.SLASH) { // single-line\r\n let commentKind = CommentKind.LINE;\r\n if (\r\n this.pos + 1 < this.end &&\r\n text.charCodeAt(this.pos + 1) == CharCode.SLASH\r\n ) {\r\n ++this.pos;\r\n commentKind = CommentKind.TRIPLE;\r\n }\r\n while (++this.pos < this.end) {\r\n if (text.charCodeAt(this.pos) == CharCode.LINEFEED) {\r\n ++this.pos;\r\n break;\r\n }\r\n }\r\n if (this.onComment) {\r\n this.onComment(\r\n commentKind,\r\n text.substring(commentStartPos, this.pos),\r\n this.range(commentStartPos, this.pos)\r\n );\r\n }\r\n break;\r\n }\r\n if (chr == CharCode.ASTERISK) { // multi-line\r\n let closed = false;\r\n while (++this.pos < this.end) {\r\n c = text.charCodeAt(this.pos);\r\n if (\r\n c == CharCode.ASTERISK &&\r\n this.pos + 1 < this.end &&\r\n text.charCodeAt(this.pos + 1) == CharCode.SLASH\r\n ) {\r\n this.pos += 2;\r\n closed = true;\r\n break;\r\n }\r\n }\r\n if (!closed) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n this.range(this.pos), \"*/\"\r\n );\r\n } else if (this.onComment) {\r\n this.onComment(\r\n CommentKind.BLOCK,\r\n text.substring(commentStartPos, this.pos),\r\n this.range(commentStartPos, this.pos)\r\n );\r\n }\r\n break;\r\n }\r\n if (chr == CharCode.EQUALS) {\r\n ++this.pos;\r\n return Token.SLASH_EQUALS;\r\n }\r\n }\r\n return Token.SLASH;\r\n }\r\n case CharCode._0:\r\n case CharCode._1:\r\n case CharCode._2:\r\n case CharCode._3:\r\n case CharCode._4:\r\n case CharCode._5:\r\n case CharCode._6:\r\n case CharCode._7:\r\n case CharCode._8:\r\n case CharCode._9: {\r\n return this.testInteger()\r\n ? Token.INTEGERLITERAL // expects a call to readInteger\r\n : Token.FLOATLITERAL; // expects a call to readFloat\r\n }\r\n case CharCode.COLON: {\r\n ++this.pos;\r\n return Token.COLON;\r\n }\r\n case CharCode.SEMICOLON: {\r\n ++this.pos;\r\n return Token.SEMICOLON;\r\n }\r\n case CharCode.LESSTHAN: {\r\n ++this.pos;\r\n if (maxTokenLength > 1 && this.pos < this.end) {\r\n let chr = text.charCodeAt(this.pos);\r\n if (chr == CharCode.LESSTHAN) {\r\n ++this.pos;\r\n if (\r\n maxTokenLength > 2 &&\r\n this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.EQUALS\r\n ) {\r\n ++this.pos;\r\n return Token.LESSTHAN_LESSTHAN_EQUALS;\r\n }\r\n return Token.LESSTHAN_LESSTHAN;\r\n }\r\n if (chr == CharCode.EQUALS) {\r\n ++this.pos;\r\n return Token.LESSTHAN_EQUALS;\r\n }\r\n }\r\n return Token.LESSTHAN;\r\n }\r\n case CharCode.EQUALS: {\r\n ++this.pos;\r\n if (maxTokenLength > 1 && this.pos < this.end) {\r\n let chr = text.charCodeAt(this.pos);\r\n if (chr == CharCode.EQUALS) {\r\n ++this.pos;\r\n if (\r\n maxTokenLength > 2 &&\r\n this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.EQUALS\r\n ) {\r\n ++this.pos;\r\n return Token.EQUALS_EQUALS_EQUALS;\r\n }\r\n return Token.EQUALS_EQUALS;\r\n }\r\n if (chr == CharCode.GREATERTHAN) {\r\n ++this.pos;\r\n return Token.EQUALS_GREATERTHAN;\r\n }\r\n }\r\n return Token.EQUALS;\r\n }\r\n case CharCode.GREATERTHAN: {\r\n ++this.pos;\r\n if (maxTokenLength > 1 && this.pos < this.end) {\r\n let chr = text.charCodeAt(this.pos);\r\n if (chr == CharCode.GREATERTHAN) {\r\n ++this.pos;\r\n if (maxTokenLength > 2 && this.pos < this.end) {\r\n chr = text.charCodeAt(this.pos);\r\n if (chr == CharCode.GREATERTHAN) {\r\n ++this.pos;\r\n if (\r\n maxTokenLength > 3 && this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.EQUALS\r\n ) {\r\n ++this.pos;\r\n return Token.GREATERTHAN_GREATERTHAN_GREATERTHAN_EQUALS;\r\n }\r\n return Token.GREATERTHAN_GREATERTHAN_GREATERTHAN;\r\n }\r\n if (chr == CharCode.EQUALS) {\r\n ++this.pos;\r\n return Token.GREATERTHAN_GREATERTHAN_EQUALS;\r\n }\r\n }\r\n return Token.GREATERTHAN_GREATERTHAN;\r\n }\r\n if (chr == CharCode.EQUALS) {\r\n ++this.pos;\r\n return Token.GREATERTHAN_EQUALS;\r\n }\r\n }\r\n return Token.GREATERTHAN;\r\n }\r\n case CharCode.QUESTION: {\r\n ++this.pos;\r\n return Token.QUESTION;\r\n }\r\n case CharCode.OPENBRACKET: {\r\n ++this.pos;\r\n return Token.OPENBRACKET;\r\n }\r\n case CharCode.CLOSEBRACKET: {\r\n ++this.pos;\r\n return Token.CLOSEBRACKET;\r\n }\r\n case CharCode.CARET: {\r\n ++this.pos;\r\n if (\r\n maxTokenLength > 1 && this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.EQUALS\r\n ) {\r\n ++this.pos;\r\n return Token.CARET_EQUALS;\r\n }\r\n return Token.CARET;\r\n }\r\n case CharCode.OPENBRACE: {\r\n ++this.pos;\r\n return Token.OPENBRACE;\r\n }\r\n case CharCode.BAR: {\r\n ++this.pos;\r\n if (maxTokenLength > 1 && this.pos < this.end) {\r\n let chr = text.charCodeAt(this.pos);\r\n if (chr == CharCode.BAR) {\r\n ++this.pos;\r\n return Token.BAR_BAR;\r\n }\r\n if (chr == CharCode.EQUALS) {\r\n ++this.pos;\r\n return Token.BAR_EQUALS;\r\n }\r\n }\r\n return Token.BAR;\r\n }\r\n case CharCode.CLOSEBRACE: {\r\n ++this.pos;\r\n return Token.CLOSEBRACE;\r\n }\r\n case CharCode.TILDE: {\r\n ++this.pos;\r\n return Token.TILDE;\r\n }\r\n case CharCode.AT: {\r\n ++this.pos;\r\n return Token.AT;\r\n }\r\n default: {\r\n if (isIdentifierStart(c)) {\r\n if (isKeywordCharacter(c)) {\r\n let posBefore = this.pos;\r\n while (\r\n ++this.pos < this.end &&\r\n isIdentifierPart(c = text.charCodeAt(this.pos))\r\n ) {\r\n if (!isKeywordCharacter(c)) {\r\n this.pos = posBefore;\r\n return Token.IDENTIFIER;\r\n }\r\n }\r\n let keywordText = text.substring(posBefore, this.pos);\r\n let keywordToken = tokenFromKeyword(keywordText);\r\n if (\r\n keywordToken !== Token.INVALID &&\r\n identifierHandling !== IdentifierHandling.ALWAYS &&\r\n !(\r\n identifierHandling === IdentifierHandling.PREFER &&\r\n tokenIsAlsoIdentifier(keywordToken)\r\n )\r\n ) {\r\n return keywordToken;\r\n }\r\n this.pos = posBefore;\r\n }\r\n return Token.IDENTIFIER; // expects a call to readIdentifier\r\n } else if (isWhiteSpace(c)) {\r\n ++this.pos;\r\n break;\r\n }\r\n this.error(\r\n DiagnosticCode.Invalid_character,\r\n this.range(this.pos, this.pos + 1)\r\n );\r\n ++this.pos;\r\n return Token.INVALID;\r\n }\r\n }\r\n }\r\n return Token.ENDOFFILE;\r\n }\r\n\r\n peek(\r\n checkOnNewLine: bool = false,\r\n identifierHandling: IdentifierHandling = IdentifierHandling.DEFAULT,\r\n maxCompoundLength: i32 = i32.MAX_VALUE\r\n ): Token {\r\n var text = this.source.text;\r\n if (this.nextToken < 0) {\r\n let posBefore = this.pos;\r\n let tokenBefore = this.token;\r\n let tokenPosBefore = this.tokenPos;\r\n this.nextToken = this.unsafeNext(identifierHandling, maxCompoundLength);\r\n this.nextTokenPos = this.tokenPos;\r\n if (checkOnNewLine) {\r\n this.nextTokenOnNewLine = false;\r\n for (let pos = posBefore, end = this.nextTokenPos; pos < end; ++pos) {\r\n if (isLineBreak(text.charCodeAt(pos))) {\r\n this.nextTokenOnNewLine = true;\r\n break;\r\n }\r\n }\r\n }\r\n this.pos = posBefore;\r\n this.token = tokenBefore;\r\n this.tokenPos = tokenPosBefore;\r\n }\r\n return this.nextToken;\r\n }\r\n\r\n skipIdentifier(identifierHandling: IdentifierHandling = IdentifierHandling.PREFER): bool {\r\n return this.skip(Token.IDENTIFIER, identifierHandling);\r\n }\r\n\r\n skip(token: Token, identifierHandling: IdentifierHandling = IdentifierHandling.DEFAULT): bool {\r\n var posBefore = this.pos;\r\n var tokenBefore = this.token;\r\n var tokenPosBefore = this.tokenPos;\r\n var maxCompoundLength = i32.MAX_VALUE;\r\n switch (token) {\r\n case Token.GREATERTHAN: { // where parsing type arguments\r\n maxCompoundLength = 1;\r\n break;\r\n }\r\n }\r\n this.token = this.unsafeNext(identifierHandling, maxCompoundLength);\r\n if (this.token == token) {\r\n this.nextToken = -1;\r\n return true;\r\n } else {\r\n this.pos = posBefore;\r\n this.token = tokenBefore;\r\n this.tokenPos = tokenPosBefore;\r\n return false;\r\n }\r\n }\r\n\r\n mark(): State {\r\n var state: State;\r\n if (reusableState) {\r\n state = reusableState;\r\n reusableState = null;\r\n } else {\r\n state = new State();\r\n }\r\n state.pos = this.pos;\r\n state.token = this.token;\r\n state.tokenPos = this.tokenPos;\r\n return state;\r\n }\r\n\r\n discard(state: State): void {\r\n reusableState = state;\r\n }\r\n\r\n reset(state: State): void {\r\n this.pos = state.pos;\r\n this.token = state.token;\r\n this.tokenPos = state.tokenPos;\r\n this.nextToken = -1;\r\n }\r\n\r\n range(start: i32 = -1, end: i32 = -1): Range {\r\n if (start < 0) {\r\n start = this.tokenPos;\r\n end = this.pos;\r\n } else if (end < 0) {\r\n end = start;\r\n }\r\n return new Range(this.source, start, end);\r\n }\r\n\r\n readIdentifier(): string {\r\n var text = this.source.text;\r\n var start = this.pos;\r\n while (\r\n ++this.pos < this.end &&\r\n isIdentifierPart(text.charCodeAt(this.pos))\r\n );\r\n return text.substring(start, this.pos);\r\n }\r\n\r\n readString(): string {\r\n var text = this.source.text;\r\n var quote = text.charCodeAt(this.pos++);\r\n var start = this.pos;\r\n var result = \"\";\r\n while (true) {\r\n if (this.pos >= this.end) {\r\n result += text.substring(start, this.pos);\r\n this.error(\r\n DiagnosticCode.Unterminated_string_literal,\r\n this.range(start - 1, this.end)\r\n );\r\n break;\r\n }\r\n let c = text.charCodeAt(this.pos);\r\n if (c == quote) {\r\n result += text.substring(start, this.pos++);\r\n break;\r\n }\r\n if (c == CharCode.BACKSLASH) {\r\n result += text.substring(start, this.pos);\r\n result += this.readEscapeSequence();\r\n start = this.pos;\r\n continue;\r\n }\r\n if (isLineBreak(c)) {\r\n result += text.substring(start, this.pos);\r\n this.error(\r\n DiagnosticCode.Unterminated_string_literal,\r\n this.range(start - 1, this.pos)\r\n );\r\n break;\r\n }\r\n ++this.pos;\r\n }\r\n return result;\r\n }\r\n\r\n readEscapeSequence(): string {\r\n if (++this.pos >= this.end) {\r\n this.error(\r\n DiagnosticCode.Unexpected_end_of_text,\r\n this.range(this.end)\r\n );\r\n return \"\";\r\n }\r\n\r\n var text = this.source.text;\r\n var c = text.charCodeAt(this.pos++);\r\n switch (c) {\r\n case CharCode._0: return \"\\0\";\r\n case CharCode.b: return \"\\b\";\r\n case CharCode.t: return \"\\t\";\r\n case CharCode.n: return \"\\n\";\r\n case CharCode.v: return \"\\v\";\r\n case CharCode.f: return \"\\f\";\r\n case CharCode.r: return \"\\r\";\r\n case CharCode.SINGLEQUOTE: return \"'\";\r\n case CharCode.DOUBLEQUOTE: return \"\\\"\";\r\n case CharCode.u: {\r\n if (\r\n this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.OPENBRACE\r\n ) {\r\n ++this.pos;\r\n return this.readExtendedUnicodeEscape(); // \\u{DDDDDDDD}\r\n }\r\n return this.readUnicodeEscape(); // \\uDDDD\r\n }\r\n case CharCode.CARRIAGERETURN: {\r\n if (\r\n this.pos < this.end &&\r\n text.charCodeAt(this.pos) == CharCode.LINEFEED\r\n ) {\r\n ++this.pos;\r\n }\r\n // fall through\r\n }\r\n case CharCode.LINEFEED:\r\n case CharCode.LINESEPARATOR:\r\n case CharCode.PARAGRAPHSEPARATOR: return \"\";\r\n default: return String.fromCharCode(c);\r\n }\r\n }\r\n\r\n readRegexpPattern(): string {\r\n var text = this.source.text;\r\n var start = this.pos;\r\n var escaped = false;\r\n while (true) {\r\n if (this.pos >= this.end) {\r\n this.error(\r\n DiagnosticCode.Unterminated_regular_expression_literal,\r\n this.range(start, this.end)\r\n );\r\n break;\r\n }\r\n if (text.charCodeAt(this.pos) == CharCode.BACKSLASH) {\r\n ++this.pos;\r\n escaped = true;\r\n continue;\r\n }\r\n let c = text.charCodeAt(this.pos);\r\n if (!escaped && c == CharCode.SLASH) break;\r\n if (isLineBreak(c)) {\r\n this.error(\r\n DiagnosticCode.Unterminated_regular_expression_literal,\r\n this.range(start, this.pos)\r\n );\r\n break;\r\n }\r\n ++this.pos;\r\n escaped = false;\r\n }\r\n return text.substring(start, this.pos);\r\n }\r\n\r\n readRegexpFlags(): string {\r\n var text = this.source.text;\r\n var start = this.pos;\r\n var flags = 0;\r\n while (this.pos < this.end) {\r\n let c: i32 = text.charCodeAt(this.pos);\r\n if (!isIdentifierPart(c)) break;\r\n ++this.pos;\r\n\r\n // make sure each supported flag is unique\r\n switch (c) {\r\n case CharCode.g: {\r\n flags |= flags & 1 ? -1 : 1;\r\n break;\r\n }\r\n case CharCode.i: {\r\n flags |= flags & 2 ? -1 : 2;\r\n break;\r\n }\r\n case CharCode.m: {\r\n flags |= flags & 4 ? -1 : 4;\r\n break;\r\n }\r\n default: {\r\n flags = -1;\r\n break;\r\n }\r\n }\r\n }\r\n if (flags == -1) {\r\n this.error(\r\n DiagnosticCode.Invalid_regular_expression_flags,\r\n this.range(start, this.pos)\r\n );\r\n }\r\n return text.substring(start, this.pos);\r\n }\r\n\r\n testInteger(): bool {\r\n var text = this.source.text;\r\n if (this.pos + 1 < this.end && text.charCodeAt(this.pos) == CharCode._0) {\r\n switch (text.charCodeAt(this.pos + 2)) {\r\n case CharCode.x:\r\n case CharCode.X:\r\n case CharCode.b:\r\n case CharCode.B:\r\n case CharCode.o:\r\n case CharCode.O: return true;\r\n }\r\n }\r\n var pos = this.pos;\r\n while (pos < this.end) {\r\n let c = text.charCodeAt(pos);\r\n if (c == CharCode.DOT || c == CharCode.e || c == CharCode.E) {\r\n return false;\r\n }\r\n if ((c < CharCode._0 || c > CharCode._9) && c != CharCode._) break;\r\n // does not validate separator placement (this is done in readXYInteger)\r\n pos++;\r\n }\r\n return true;\r\n }\r\n\r\n readInteger(): I64 {\r\n var text = this.source.text;\r\n if (this.pos + 2 < this.end && text.charCodeAt(this.pos) == CharCode._0) {\r\n switch (text.charCodeAt(this.pos + 1)) {\r\n case CharCode.x:\r\n case CharCode.X: {\r\n this.pos += 2;\r\n return this.readHexInteger();\r\n }\r\n case CharCode.b:\r\n case CharCode.B: {\r\n this.pos += 2;\r\n return this.readBinaryInteger();\r\n }\r\n case CharCode.o:\r\n case CharCode.O: {\r\n this.pos += 2;\r\n return this.readOctalInteger();\r\n }\r\n }\r\n if (isOctalDigit(text.charCodeAt(this.pos + 1))) {\r\n let start = this.pos;\r\n ++this.pos;\r\n let value = this.readOctalInteger();\r\n this.error(\r\n DiagnosticCode.Octal_literals_are_not_allowed_in_strict_mode,\r\n this.range(start, this.pos)\r\n );\r\n return value;\r\n }\r\n }\r\n return this.readDecimalInteger();\r\n }\r\n\r\n readHexInteger(): I64 {\r\n var text = this.source.text;\r\n var start = this.pos;\r\n var value = i64_new(0);\r\n var i64_4 = i64_new(4);\r\n var sepEnd = start;\r\n while (this.pos < this.end) {\r\n let pos = this.pos;\r\n let c = text.charCodeAt(pos);\r\n if (c >= CharCode._0 && c <= CharCode._9) {\r\n // value = (value << 4) + c - CharCode._0;\r\n value = i64_add(\r\n i64_shl(value, i64_4),\r\n i64_new(c - CharCode._0)\r\n );\r\n } else if (c >= CharCode.A && c <= CharCode.F) {\r\n // value = (value << 4) + 10 + c - CharCode.A;\r\n value = i64_add(\r\n i64_shl(value, i64_4),\r\n i64_new(10 + c - CharCode.A)\r\n );\r\n } else if (c >= CharCode.a && c <= CharCode.f) {\r\n // value = (value << 4) + 10 + c - CharCode.a;\r\n value = i64_add(\r\n i64_shl(value, i64_4),\r\n i64_new(10 + c - CharCode.a)\r\n );\r\n } else if (c == CharCode._) {\r\n if (sepEnd == pos) {\r\n this.error(\r\n sepEnd == start\r\n ? DiagnosticCode.Numeric_separators_are_not_allowed_here\r\n : DiagnosticCode.Multiple_consecutive_numeric_separators_are_not_permitted,\r\n this.range(pos)\r\n );\r\n }\r\n sepEnd = pos + 1;\r\n } else {\r\n break;\r\n }\r\n this.pos = pos + 1;\r\n }\r\n if (this.pos == start) {\r\n this.error(\r\n DiagnosticCode.Hexadecimal_digit_expected,\r\n this.range(start)\r\n );\r\n } else if (sepEnd == this.pos) {\r\n this.error(\r\n DiagnosticCode.Numeric_separators_are_not_allowed_here,\r\n this.range(sepEnd - 1)\r\n );\r\n }\r\n return value;\r\n }\r\n\r\n readDecimalInteger(): I64 {\r\n var text = this.source.text;\r\n var start = this.pos;\r\n var value = i64_new(0);\r\n var i64_10 = i64_new(10);\r\n var sepEnd = start;\r\n while (this.pos < this.end) {\r\n let pos = this.pos;\r\n let c = text.charCodeAt(pos);\r\n if (c >= CharCode._0 && c <= CharCode._9) {\r\n // value = value * 10 + c - CharCode._0;\r\n value = i64_add(\r\n i64_mul(value, i64_10),\r\n i64_new(c - CharCode._0)\r\n );\r\n } else if (c == CharCode._) {\r\n if (sepEnd == pos) {\r\n this.error(\r\n sepEnd == start\r\n ? DiagnosticCode.Numeric_separators_are_not_allowed_here\r\n : DiagnosticCode.Multiple_consecutive_numeric_separators_are_not_permitted,\r\n this.range(pos)\r\n );\r\n }\r\n sepEnd = pos + 1;\r\n } else {\r\n break;\r\n }\r\n this.pos = pos + 1;\r\n }\r\n if (this.pos == start) {\r\n this.error(\r\n DiagnosticCode.Digit_expected,\r\n this.range(start)\r\n );\r\n } else if (sepEnd == this.pos) {\r\n this.error(\r\n DiagnosticCode.Numeric_separators_are_not_allowed_here,\r\n this.range(sepEnd - 1)\r\n );\r\n }\r\n return value;\r\n }\r\n\r\n readOctalInteger(): I64 {\r\n var text = this.source.text;\r\n var start = this.pos;\r\n var value = i64_new(0);\r\n var i64_3 = i64_new(3);\r\n var sepEnd = start;\r\n while (this.pos < this.end) {\r\n let pos = this.pos;\r\n let c = text.charCodeAt(pos);\r\n if (c >= CharCode._0 && c <= CharCode._7) {\r\n // value = (value << 3) + c - CharCode._0;\r\n value = i64_add(\r\n i64_shl(value, i64_3),\r\n i64_new(c - CharCode._0)\r\n );\r\n } else if (c == CharCode._) {\r\n if (sepEnd == pos) {\r\n this.error(\r\n sepEnd == start\r\n ? DiagnosticCode.Numeric_separators_are_not_allowed_here\r\n : DiagnosticCode.Multiple_consecutive_numeric_separators_are_not_permitted,\r\n this.range(pos)\r\n );\r\n }\r\n sepEnd = pos + 1;\r\n } else {\r\n break;\r\n }\r\n ++this.pos;\r\n }\r\n if (this.pos == start) {\r\n this.error(\r\n DiagnosticCode.Octal_digit_expected,\r\n this.range(start)\r\n );\r\n } else if (sepEnd == this.pos) {\r\n this.error(\r\n DiagnosticCode.Numeric_separators_are_not_allowed_here,\r\n this.range(sepEnd - 1)\r\n );\r\n }\r\n return value;\r\n }\r\n\r\n readBinaryInteger(): I64 {\r\n var text = this.source.text;\r\n var start = this.pos;\r\n var value = i64_new(0);\r\n var i64_1 = i64_new(1);\r\n var sepEnd = start;\r\n while (this.pos < this.end) {\r\n let pos = this.pos;\r\n let c = text.charCodeAt(pos);\r\n if (c == CharCode._0) {\r\n // value = (value << 1);\r\n value = i64_shl(value, i64_1);\r\n } else if (c == CharCode._1) {\r\n // value = (value << 1) + 1;\r\n value = i64_add(\r\n i64_shl(value, i64_1),\r\n i64_1\r\n );\r\n } else if (c == CharCode._) {\r\n if (sepEnd == pos) {\r\n this.error(\r\n sepEnd == start\r\n ? DiagnosticCode.Numeric_separators_are_not_allowed_here\r\n : DiagnosticCode.Multiple_consecutive_numeric_separators_are_not_permitted,\r\n this.range(pos)\r\n );\r\n }\r\n sepEnd = pos + 1;\r\n } else {\r\n break;\r\n }\r\n this.pos = pos + 1;\r\n }\r\n if (this.pos == start) {\r\n this.error(\r\n DiagnosticCode.Binary_digit_expected,\r\n this.range(start)\r\n );\r\n } else if (sepEnd == this.pos) {\r\n this.error(\r\n DiagnosticCode.Numeric_separators_are_not_allowed_here,\r\n this.range(sepEnd - 1)\r\n );\r\n }\r\n return value;\r\n }\r\n\r\n readFloat(): f64 {\r\n // var text = this.source.text;\r\n // if (text.charCodeAt(this.pos) == CharCode._0 && this.pos + 2 < this.end) {\r\n // switch (text.charCodeAt(this.pos + 1)) {\r\n // case CharCode.X:\r\n // case CharCode.x: {\r\n // this.pos += 2;\r\n // return this.readHexFloat();\r\n // }\r\n // }\r\n // }\r\n return this.readDecimalFloat();\r\n }\r\n\r\n readDecimalFloat(): f64 {\r\n // TODO: numeric separators (parseFloat can't handle these)\r\n var start = this.pos;\r\n var text = this.source.text;\r\n while (this.pos < this.end && isDecimalDigit(text.charCodeAt(this.pos))) {\r\n ++this.pos;\r\n }\r\n if (this.pos < this.end && text.charCodeAt(this.pos) == CharCode.DOT) {\r\n ++this.pos;\r\n while (this.pos < this.end && isDecimalDigit(text.charCodeAt(this.pos))) {\r\n ++this.pos;\r\n }\r\n }\r\n if (this.pos < this.end) {\r\n let c = text.charCodeAt(this.pos);\r\n if (c == CharCode.e || c == CharCode.E) {\r\n if (\r\n ++this.pos < this.end &&\r\n (c = text.charCodeAt(this.pos)) == CharCode.MINUS || c == CharCode.PLUS &&\r\n isDecimalDigit(text.charCodeAt(this.pos + 1))\r\n ) {\r\n ++this.pos;\r\n }\r\n while (this.pos < this.end && isDecimalDigit(text.charCodeAt(this.pos))) {\r\n ++this.pos;\r\n }\r\n }\r\n }\r\n return parseFloat(text.substring(start, this.pos));\r\n }\r\n\r\n readHexFloat(): f64 {\r\n throw new Error(\"not implemented\"); // TBD\r\n }\r\n\r\n readUnicodeEscape(): string {\r\n var remain = 4;\r\n var value = 0;\r\n var text = this.source.text;\r\n while (this.pos < this.end) {\r\n let c = text.charCodeAt(this.pos++);\r\n if (c >= CharCode._0 && c <= CharCode._9) {\r\n value = (value << 4) + c - CharCode._0;\r\n } else if (c >= CharCode.A && c <= CharCode.F) {\r\n value = (value << 4) + c + (10 - CharCode.A);\r\n } else if (c >= CharCode.a && c <= CharCode.f) {\r\n value = (value << 4) + c + (10 - CharCode.a);\r\n } else {\r\n this.error(\r\n DiagnosticCode.Hexadecimal_digit_expected,\r\n this.range(this.pos - 1, this.pos)\r\n );\r\n return \"\";\r\n }\r\n if (--remain == 0) break;\r\n }\r\n if (remain) {\r\n this.error(\r\n DiagnosticCode.Unexpected_end_of_text,\r\n this.range(this.pos)\r\n );\r\n return \"\";\r\n }\r\n return String.fromCharCode(value);\r\n }\r\n\r\n private readExtendedUnicodeEscape(): string {\r\n var start = this.pos;\r\n var value = this.readHexInteger();\r\n var value32 = i64_low(value);\r\n var invalid = false;\r\n\r\n assert(!i64_high(value));\r\n if (value32 > 0x10FFFF) {\r\n this.error(\r\n DiagnosticCode.An_extended_Unicode_escape_value_must_be_between_0x0_and_0x10FFFF_inclusive,\r\n this.range(start, this.pos)\r\n );\r\n invalid = true;\r\n }\r\n\r\n var text = this.source.text;\r\n if (this.pos >= this.end) {\r\n this.error(\r\n DiagnosticCode.Unexpected_end_of_text,\r\n this.range(start, this.end)\r\n );\r\n invalid = true;\r\n } else if (text.charCodeAt(this.pos) == CharCode.CLOSEBRACE) {\r\n ++this.pos;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Unterminated_Unicode_escape_sequence,\r\n this.range(start, this.pos)\r\n );\r\n invalid = true;\r\n }\r\n\r\n if (invalid) return \"\";\r\n return value32 < 65536\r\n ? String.fromCharCode(value32)\r\n : String.fromCharCode(\r\n ((value32 - 65536) >>> 10) + 0xD800,\r\n ((value32 - 65536) & 1023) + 0xDC00\r\n );\r\n }\r\n\r\n finish(): void {\r\n }\r\n}\r\n\r\n/** Tokenizer state as returned by {@link Tokenizer#mark} and consumed by {@link Tokenizer#reset}. */\r\nexport class State {\r\n /** Current position. */\r\n pos: i32;\r\n /** Current token. */\r\n token: Token;\r\n /** Current token's position. */\r\n tokenPos: i32;\r\n}\r\n\r\n// Reusable state object to reduce allocations\r\nvar reusableState: State | null = null;\r\n","var g;\n\n// This works in non-strict mode\ng = (function() {\n\treturn this;\n})();\n\ntry {\n\t// This works if eval is allowed (see CSP)\n\tg = g || new Function(\"return this\")();\n} catch (e) {\n\t// This works if the window reference is available\n\tif (typeof window === \"object\") g = window;\n}\n\n// g can still be undefined, but nothing to do about it...\n// We return undefined, instead of nothing here, so it's\n// easier to handle this case. if(!global) { ...}\n\nmodule.exports = g;\n","/**\r\n * Resolve infrastructure to obtain types and elements.\r\n * @module resolver\r\n *//***/\r\n\r\nimport {\r\n DiagnosticEmitter,\r\n DiagnosticCode\r\n} from \"./diagnostics\";\r\n\r\nimport {\r\n Program,\r\n ElementKind,\r\n OperatorKind,\r\n Element,\r\n Class,\r\n ClassPrototype,\r\n Function,\r\n FunctionPrototype,\r\n VariableLikeElement,\r\n Property,\r\n PropertyPrototype,\r\n Field,\r\n FieldPrototype,\r\n Global,\r\n TypeDefinition\r\n} from \"./program\";\r\n\r\nimport {\r\n FlowFlags,\r\n Flow\r\n} from \"./flow\";\r\n\r\nimport {\r\n SignatureNode,\r\n ParameterKind,\r\n CommonTypeNode,\r\n NodeKind,\r\n TypeNode,\r\n TypeName,\r\n TypeParameterNode,\r\n Node,\r\n Range,\r\n IdentifierExpression,\r\n CallExpression,\r\n ElementAccessExpression,\r\n PropertyAccessExpression,\r\n LiteralExpression,\r\n LiteralKind,\r\n ParenthesizedExpression,\r\n AssertionExpression,\r\n Expression,\r\n IntegerLiteralExpression,\r\n UnaryPrefixExpression,\r\n UnaryPostfixExpression,\r\n AssertionKind,\r\n BinaryExpression,\r\n ThisExpression,\r\n SuperExpression,\r\n isTypeOmitted\r\n} from \"./ast\";\r\n\r\nimport {\r\n Type,\r\n Signature,\r\n typesToString,\r\n TypeKind,\r\n TypeFlags\r\n} from \"./types\";\r\n\r\nimport {\r\n CommonFlags,\r\n CommonSymbols\r\n} from \"./common\";\r\n\r\nimport {\r\n makeMap,\r\n isPowerOf2\r\n} from \"./util\";\r\n\r\nimport {\r\n Token\r\n} from \"./tokenizer\";\r\n\r\n/** Indicates whether errors are reported or not. */\r\nexport enum ReportMode {\r\n /** Report errors. */\r\n REPORT,\r\n /** Swallow errors. */\r\n SWALLOW\r\n}\r\n\r\n/** Provides tools to resolve types and expressions. */\r\nexport class Resolver extends DiagnosticEmitter {\r\n\r\n /** The program this resolver belongs to. */\r\n program: Program;\r\n\r\n /** Target expression of the previously resolved property or element access. */\r\n currentThisExpression: Expression | null = null;\r\n /** Element expression of the previously resolved element access. */\r\n currentElementExpression : Expression | null = null;\r\n\r\n /** Constructs the resolver for the specified program. */\r\n constructor(\r\n /** The program to construct a resolver for. */\r\n program: Program\r\n ) {\r\n super(program.diagnostics);\r\n this.program = program;\r\n }\r\n\r\n /** Resolves a {@link CommonTypeNode} to a concrete {@link Type}. */\r\n resolveType(\r\n /** The type to resolve. */\r\n node: CommonTypeNode,\r\n /** Relative context. */\r\n context: Element,\r\n /** Type arguments inherited through context, i.e. `T`. */\r\n contextualTypeArguments: Map | null = null,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Type | null {\r\n\r\n // handle signature\r\n if (node.kind == NodeKind.SIGNATURE) {\r\n let explicitThisType = (node).explicitThisType;\r\n let thisType: Type | null = null;\r\n if (explicitThisType) {\r\n thisType = this.resolveType(\r\n explicitThisType,\r\n context,\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n if (!thisType) return null;\r\n }\r\n let parameterNodes = (node).parameters;\r\n let numParameters = parameterNodes.length;\r\n let parameterTypes = new Array(numParameters);\r\n let parameterNames = new Array(numParameters);\r\n let requiredParameters = 0;\r\n let hasRest = false;\r\n for (let i = 0; i < numParameters; ++i) {\r\n let parameterNode = parameterNodes[i];\r\n switch (parameterNode.parameterKind) {\r\n case ParameterKind.DEFAULT: {\r\n requiredParameters = i + 1;\r\n break;\r\n }\r\n case ParameterKind.REST: {\r\n assert(i == numParameters);\r\n hasRest = true;\r\n break;\r\n }\r\n }\r\n let parameterTypeNode = parameterNode.type;\r\n if (isTypeOmitted(parameterTypeNode)) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n parameterTypeNode.range\r\n );\r\n }\r\n return null;\r\n }\r\n let parameterType = this.resolveType(\r\n parameterTypeNode,\r\n context,\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n if (!parameterType) return null;\r\n parameterTypes[i] = parameterType;\r\n parameterNames[i] = parameterNode.name.text;\r\n }\r\n let returnTypeNode = (node).returnType;\r\n if (isTypeOmitted(returnTypeNode)) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n returnTypeNode.range\r\n );\r\n }\r\n return null;\r\n }\r\n let returnType: Type | null;\r\n if (returnTypeNode) {\r\n returnType = this.resolveType(\r\n returnTypeNode,\r\n context,\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n if (!returnType) return null;\r\n } else {\r\n returnType = Type.void;\r\n }\r\n let signature = new Signature(parameterTypes, returnType, thisType);\r\n signature.parameterNames = parameterNames;\r\n signature.requiredParameters = requiredParameters;\r\n signature.hasRest = hasRest;\r\n return node.isNullable ? signature.type.asNullable() : signature.type;\r\n }\r\n\r\n // now dealing with TypeNode\r\n assert(node.kind == NodeKind.TYPE);\r\n var typeNode = node;\r\n var typeName = typeNode.name;\r\n var typeArgumentNodes = typeNode.typeArguments;\r\n var possiblyPlaceholder = !typeName.next;\r\n\r\n // look up in contextual type arguments if possibly a placeholder\r\n if (possiblyPlaceholder) {\r\n if (contextualTypeArguments && contextualTypeArguments.has(typeName.identifier.text)) {\r\n let type = contextualTypeArguments.get(typeName.identifier.text)!;\r\n if (typeArgumentNodes !== null && typeArgumentNodes.length) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n node.range, type.toString()\r\n );\r\n }\r\n }\r\n if (node.isNullable) {\r\n if (!type.is(TypeFlags.REFERENCE)) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Basic_type_0_cannot_be_nullable,\r\n node.range, type.toString()\r\n );\r\n }\r\n }\r\n return type.asNullable();\r\n }\r\n return type;\r\n }\r\n }\r\n\r\n // look up in context\r\n var element = this.resolveTypeName(typeName, context, reportMode);\r\n if (!element) return null;\r\n\r\n // use shadow type if present (i.e. namespace sharing a type)\r\n if (element.shadowType) {\r\n element = element.shadowType;\r\n\r\n } else {\r\n // handle enums (become i32)\r\n if (element.kind == ElementKind.ENUM) {\r\n if (typeArgumentNodes !== null && typeArgumentNodes.length) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n node.range, element.internalName\r\n );\r\n }\r\n }\r\n if (node.isNullable) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Basic_type_0_cannot_be_nullable,\r\n node.range, element.name\r\n );\r\n }\r\n }\r\n return Type.i32;\r\n }\r\n\r\n // handle classes\r\n if (element.kind == ElementKind.CLASS_PROTOTYPE) {\r\n let instance = this.resolveClassInclTypeArguments(\r\n element,\r\n typeArgumentNodes,\r\n context,\r\n makeMap(contextualTypeArguments), // don't inherit\r\n node\r\n ); // reports\r\n if (!instance) return null;\r\n return node.isNullable ? instance.type.asNullable() : instance.type;\r\n }\r\n }\r\n\r\n // handle type definitions\r\n if (element.kind == ElementKind.TYPEDEFINITION) {\r\n\r\n // shortcut already resolved (mostly builtins)\r\n if (element.is(CommonFlags.RESOLVED)) {\r\n if (typeArgumentNodes !== null && typeArgumentNodes.length) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n node.range, element.internalName\r\n );\r\n }\r\n }\r\n let type = (element).type;\r\n if (node.isNullable) {\r\n if (!type.is(TypeFlags.REFERENCE)) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Basic_type_0_cannot_be_nullable,\r\n typeNode.name.range, typeName.identifier.text\r\n );\r\n }\r\n } else {\r\n return type.asNullable();\r\n }\r\n }\r\n return type;\r\n }\r\n\r\n // handle special native type\r\n if (possiblyPlaceholder && typeName.identifier.text == CommonSymbols.native) {\r\n if (!(typeArgumentNodes && typeArgumentNodes.length == 1)) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n typeNode.range, \"1\", (typeArgumentNodes ? typeArgumentNodes.length : 1).toString(10)\r\n );\r\n }\r\n return null;\r\n }\r\n let typeArgument = this.resolveType(\r\n typeArgumentNodes[0],\r\n context,\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n if (!typeArgument) return null;\r\n switch (typeArgument.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32: return Type.i32;\r\n case TypeKind.ISIZE: if (!this.program.options.isWasm64) return Type.i32;\r\n case TypeKind.I64: return Type.i64;\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: return Type.u32;\r\n case TypeKind.USIZE: if (!this.program.options.isWasm64) return Type.u32;\r\n case TypeKind.U64: return Type.u64;\r\n case TypeKind.F32: return Type.f32;\r\n case TypeKind.F64: return Type.f64;\r\n case TypeKind.V128: return Type.v128;\r\n case TypeKind.VOID: return Type.void;\r\n default: assert(false);\r\n }\r\n }\r\n\r\n // resolve normally\r\n let typeParameterNodes = (element).typeParameterNodes;\r\n let typeArguments: Type[] | null = null;\r\n if (typeParameterNodes) {\r\n typeArguments = this.resolveTypeArguments(\r\n typeParameterNodes,\r\n typeArgumentNodes,\r\n context,\r\n contextualTypeArguments = makeMap(contextualTypeArguments), // inherit\r\n node,\r\n reportMode\r\n );\r\n if (!typeArguments) return null;\r\n } else if (typeArgumentNodes && typeArgumentNodes.length) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n typeNode.range, typeName.identifier.text\r\n );\r\n // recoverable\r\n }\r\n return this.resolveType(\r\n (element).typeNode,\r\n element,\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n typeNode.name.range, typeName.identifier.text\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Resolves a type name to the program element it refers to. */\r\n resolveTypeName(\r\n /** The type name to resolve. */\r\n typeName: TypeName,\r\n /** Relative context. */\r\n context: Element,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode = ReportMode.REPORT\r\n ): Element | null {\r\n var element = context.lookup(typeName.identifier.text);\r\n if (!element) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n typeName.range, typeName.identifier.text\r\n );\r\n }\r\n return null;\r\n }\r\n var prev = typeName;\r\n var next = typeName.next;\r\n while (next) {\r\n if (!(element = element.lookupInSelf(next.identifier.text))) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Property_0_does_not_exist_on_type_1,\r\n next.range, next.identifier.text, prev.identifier.text\r\n );\r\n }\r\n return null;\r\n }\r\n prev = next;\r\n next = next.next;\r\n }\r\n return element;\r\n }\r\n\r\n /** Resolves an array of type arguments to concrete types. */\r\n resolveTypeArguments(\r\n /** Actual type parameter nodes. */\r\n typeParameters: TypeParameterNode[],\r\n /** Type arguments provided. */\r\n typeArgumentNodes: CommonTypeNode[] | null,\r\n /** Relative context. */\r\n context: Element,\r\n /** Type arguments inherited through context, i.e. `T`. */\r\n contextualTypeArguments: Map = makeMap(),\r\n /** Alternative report node in case of empty type arguments. */\r\n alternativeReportNode: Node | null = null,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Type[] | null {\r\n var minParameterCount = 0;\r\n var maxParameterCount = 0;\r\n for (let i = 0; i < typeParameters.length; ++i) {\r\n if (!typeParameters[i].defaultType) ++minParameterCount;\r\n ++maxParameterCount;\r\n }\r\n var argumentCount = typeArgumentNodes ? typeArgumentNodes.length : 0;\r\n if (argumentCount < minParameterCount || argumentCount > maxParameterCount) {\r\n this.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n argumentCount\r\n ? Range.join(\r\n (typeArgumentNodes)[0].range,\r\n (typeArgumentNodes)[argumentCount - 1].range\r\n )\r\n : assert(alternativeReportNode).range,\r\n (argumentCount < minParameterCount ? minParameterCount : maxParameterCount).toString(10),\r\n argumentCount.toString(10)\r\n );\r\n return null;\r\n }\r\n var typeArguments = new Array(maxParameterCount);\r\n for (let i = 0; i < maxParameterCount; ++i) {\r\n let type = i < argumentCount\r\n ? this.resolveType( // reports\r\n (typeArgumentNodes)[i],\r\n context,\r\n contextualTypeArguments,\r\n reportMode\r\n )\r\n : this.resolveType( // reports\r\n assert(typeParameters[i].defaultType),\r\n context,\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n if (!type) return null;\r\n // TODO: check extendsType\r\n contextualTypeArguments.set(typeParameters[i].name.text, type);\r\n typeArguments[i] = type;\r\n }\r\n return typeArguments;\r\n }\r\n\r\n /** Resolves an identifier to the program element it refers to. */\r\n resolveIdentifier(\r\n /** The expression to resolve. */\r\n identifier: IdentifierExpression,\r\n /** Optional flow to search for scoped locals. */\r\n flow: Flow | null,\r\n /** Optional context to search. */\r\n context: Element | null,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n var name = identifier.text;\r\n var element: Element | null;\r\n if (flow) {\r\n if (element = flow.lookup(name)) {\r\n this.currentThisExpression = null;\r\n this.currentElementExpression = null;\r\n return element;\r\n }\r\n }\r\n if (context) {\r\n if (element = context.lookup(name)) {\r\n this.currentThisExpression = null;\r\n this.currentElementExpression = null;\r\n return element;\r\n }\r\n }\r\n if (element = this.program.lookupGlobal(name)) {\r\n this.currentThisExpression = null;\r\n this.currentElementExpression = null;\r\n return element;\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n identifier.range, name\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Resolves a lazily compiled global, i.e. a static class field. */\r\n ensureResolvedLazyGlobal(global: Global, reportMode: ReportMode = ReportMode.REPORT): bool {\r\n if (global.is(CommonFlags.RESOLVED)) return true;\r\n var typeNode = global.typeNode;\r\n if (!typeNode) return false;\r\n var type = this.resolveType( // reports\r\n typeNode,\r\n global.parent,\r\n null,\r\n reportMode\r\n );\r\n if (!type) return false;\r\n global.setType(type);\r\n return true;\r\n }\r\n\r\n /** Resolves a property access expression to the program element it refers to. */\r\n resolvePropertyAccessExpression(\r\n /** The expression to resolve. */\r\n propertyAccess: PropertyAccessExpression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n var targetExpression = propertyAccess.expression;\r\n var target = this.resolveExpression(targetExpression, flow, contextualType, reportMode); // reports\r\n if (!target) return null;\r\n var propertyName = propertyAccess.property.text;\r\n\r\n // Resolve variable-likes to their class type first\r\n switch (target.kind) {\r\n case ElementKind.GLOBAL: if (!this.ensureResolvedLazyGlobal(target, reportMode)) return null;\r\n case ElementKind.LOCAL:\r\n case ElementKind.FIELD: {\r\n let type = (target).type; assert(type != Type.void);\r\n let classReference = type.classReference;\r\n if (!classReference) {\r\n let typeClasses = this.program.typeClasses;\r\n if (!type.is(TypeFlags.REFERENCE) && typeClasses.has(type.kind)) {\r\n classReference = typeClasses.get(type.kind)!;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Property_0_does_not_exist_on_type_1,\r\n propertyAccess.property.range, propertyName, (target).type.toString()\r\n );\r\n return null;\r\n }\r\n }\r\n target = classReference;\r\n break;\r\n }\r\n case ElementKind.PROPERTY_PROTOTYPE: { // static\r\n let getterInstance = this.resolveFunction( // reports\r\n assert((target).getterPrototype), // must have a getter\r\n null,\r\n makeMap(),\r\n reportMode\r\n );\r\n if (!getterInstance) return null;\r\n let classReference = getterInstance.signature.returnType.classReference;\r\n if (!classReference) {\r\n this.error(\r\n DiagnosticCode.Property_0_does_not_exist_on_type_1,\r\n propertyAccess.property.range, propertyName, getterInstance.signature.returnType.toString()\r\n );\r\n return null;\r\n }\r\n target = classReference;\r\n break;\r\n }\r\n case ElementKind.PROPERTY: { // instance\r\n let getterInstance = assert((target).getterInstance); // must have a getter\r\n let classReference = getterInstance.signature.returnType.classReference;\r\n if (!classReference) {\r\n this.error(\r\n DiagnosticCode.Property_0_does_not_exist_on_type_1,\r\n propertyAccess.property.range, propertyName, getterInstance.signature.returnType.toString()\r\n );\r\n return null;\r\n }\r\n target = classReference;\r\n break;\r\n }\r\n case ElementKind.CLASS: { // property access on element access?\r\n let elementExpression = this.currentElementExpression;\r\n if (elementExpression) {\r\n let indexedGet = (target).lookupOverload(OperatorKind.INDEXED_GET);\r\n if (!indexedGet) {\r\n this.error(\r\n DiagnosticCode.Index_signature_is_missing_in_type_0,\r\n elementExpression.range, (target).internalName\r\n );\r\n return null;\r\n }\r\n let returnType = indexedGet.signature.returnType;\r\n if (!(target = returnType.classReference)) {\r\n this.error(\r\n DiagnosticCode.Property_0_does_not_exist_on_type_1,\r\n propertyAccess.property.range, propertyName, returnType.toString()\r\n );\r\n return null;\r\n }\r\n }\r\n break;\r\n }\r\n }\r\n\r\n // Look up the member within\r\n switch (target.kind) {\r\n case ElementKind.CLASS_PROTOTYPE:\r\n case ElementKind.CLASS: {\r\n do {\r\n let members = target.members;\r\n if (members && members.has(propertyName)) {\r\n this.currentThisExpression = targetExpression;\r\n this.currentElementExpression = null;\r\n return members.get(propertyName)!; // instance FIELD, static GLOBAL, FUNCTION_PROTOTYPE...\r\n }\r\n // traverse inherited static members on the base prototype if target is a class prototype\r\n if (target.kind == ElementKind.CLASS_PROTOTYPE) {\r\n if ((target).basePrototype) {\r\n target = (target).basePrototype;\r\n } else {\r\n break;\r\n }\r\n // traverse inherited instance members on the base class if target is a class instance\r\n } else if (target.kind == ElementKind.CLASS) {\r\n if ((target).base) {\r\n target = (target).base;\r\n } else {\r\n break;\r\n }\r\n } else {\r\n break;\r\n }\r\n } while (true);\r\n break;\r\n }\r\n default: { // enums or other namespace-like elements\r\n let members = target.members;\r\n if (members && members.has(propertyName)) {\r\n this.currentThisExpression = targetExpression;\r\n this.currentElementExpression = null;\r\n return members.get(propertyName)!; // static ENUMVALUE, static GLOBAL, static FUNCTION_PROTOTYPE...\r\n }\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Property_0_does_not_exist_on_type_1,\r\n propertyAccess.property.range, propertyName, target.internalName\r\n );\r\n return null;\r\n }\r\n\r\n /** Resolves an element access expression to the program element it refers to. */\r\n resolveElementAccessExpression(\r\n /** The expression to resolve. */\r\n elementAccess: ElementAccessExpression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n var targetExpression = elementAccess.expression;\r\n var target = this.resolveExpression(targetExpression, flow, contextualType, reportMode); // reports\r\n if (!target) return null;\r\n switch (target.kind) {\r\n case ElementKind.GLOBAL: if (!this.ensureResolvedLazyGlobal(target, reportMode)) return null;\r\n case ElementKind.LOCAL:\r\n case ElementKind.FIELD: {\r\n let type = (target).type;\r\n if (target = type.classReference) {\r\n this.currentThisExpression = targetExpression;\r\n this.currentElementExpression = elementAccess.elementExpression;\r\n return target;\r\n }\r\n break;\r\n }\r\n case ElementKind.CLASS: {\r\n let indexedGet = (target).lookupOverload(OperatorKind.INDEXED_GET);\r\n if (!indexedGet) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Index_signature_is_missing_in_type_0,\r\n elementAccess.range, (target).internalName\r\n );\r\n }\r\n return null;\r\n }\r\n if (targetExpression.kind == NodeKind.ELEMENTACCESS) { // nested element access\r\n let returnType = indexedGet.signature.returnType;\r\n if (target = returnType.classReference) {\r\n this.currentThisExpression = targetExpression;\r\n this.currentElementExpression = elementAccess.elementExpression;\r\n return target;\r\n }\r\n return null;\r\n }\r\n this.currentThisExpression = targetExpression;\r\n this.currentElementExpression = elementAccess.elementExpression;\r\n return target;\r\n }\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n targetExpression.range\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Determines the final type of an integer literal given the specified contextual type. */\r\n determineIntegerLiteralType(\r\n /** Integer literal value. */\r\n intValue: I64,\r\n /** Current contextual type. */\r\n contextualType: Type\r\n ): Type {\r\n if (!contextualType.is(TypeFlags.REFERENCE)) {\r\n // compile to contextualType if matching\r\n switch (contextualType.kind) {\r\n case TypeKind.I8: {\r\n if (i64_is_i8(intValue)) return Type.i8;\r\n break;\r\n }\r\n case TypeKind.U8: {\r\n if (i64_is_u8(intValue)) return Type.u8;\r\n break;\r\n }\r\n case TypeKind.I16: {\r\n if (i64_is_i16(intValue)) return Type.i16;\r\n break;\r\n }\r\n case TypeKind.U16: {\r\n if (i64_is_u16(intValue)) return Type.u16;\r\n break;\r\n }\r\n case TypeKind.I32: {\r\n if (i64_is_i32(intValue)) return Type.i32;\r\n break;\r\n }\r\n case TypeKind.U32: {\r\n if (i64_is_u32(intValue)) return Type.u32;\r\n break;\r\n }\r\n case TypeKind.BOOL: {\r\n if (i64_is_bool(intValue)) return Type.bool;\r\n break;\r\n }\r\n case TypeKind.ISIZE: {\r\n if (!this.program.options.isWasm64) {\r\n if (i64_is_i32(intValue)) return Type.isize32;\r\n break;\r\n }\r\n return Type.isize64;\r\n }\r\n case TypeKind.USIZE: {\r\n if (!this.program.options.isWasm64) {\r\n if (i64_is_u32(intValue)) return Type.usize32;\r\n break;\r\n }\r\n return Type.usize64;\r\n }\r\n case TypeKind.I64: return Type.i64;\r\n case TypeKind.U64: return Type.u64;\r\n case TypeKind.F32: return Type.f32;\r\n case TypeKind.F64: return Type.f64;\r\n case TypeKind.VOID: break; // best fitting below\r\n default: assert(false);\r\n }\r\n }\r\n // otherwise compile to best fitting native type\r\n if (i64_is_i32(intValue)) return Type.i32;\r\n if (i64_is_u32(intValue)) return Type.u32;\r\n return Type.i64;\r\n }\r\n\r\n /** Resolves any expression to the program element it refers to. */\r\n resolveExpression(\r\n /** The expression to resolve. */\r\n expression: Expression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type = Type.void,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n while (expression.kind == NodeKind.PARENTHESIZED) { // simply skip\r\n expression = (expression).expression;\r\n }\r\n switch (expression.kind) {\r\n case NodeKind.ASSERTION: {\r\n return this.resolveAssertionExpression(\r\n expression,\r\n flow, contextualType, reportMode\r\n );\r\n }\r\n case NodeKind.UNARYPREFIX: {\r\n return this.resolveUnaryPrefixExpression(\r\n expression,\r\n flow, contextualType, reportMode\r\n );\r\n }\r\n case NodeKind.UNARYPOSTFIX: {\r\n return this.resolveUnaryPostfixExpression(\r\n expression,\r\n flow, contextualType, reportMode\r\n );\r\n }\r\n case NodeKind.BINARY: {\r\n return this.resolveBinaryExpression(\r\n expression,\r\n flow, contextualType, reportMode\r\n );\r\n }\r\n case NodeKind.THIS: {\r\n return this.resolveThisExpression(\r\n expression,\r\n flow, contextualType, reportMode\r\n );\r\n }\r\n case NodeKind.SUPER: {\r\n return this.resolveSuperExpression(\r\n expression,\r\n flow, contextualType, reportMode\r\n );\r\n }\r\n case NodeKind.IDENTIFIER: {\r\n return this.resolveIdentifier(\r\n expression,\r\n flow, flow.actualFunction, reportMode\r\n );\r\n }\r\n case NodeKind.LITERAL: {\r\n return this.resolveLiteralExpression(\r\n expression,\r\n flow, contextualType, reportMode\r\n );\r\n }\r\n case NodeKind.PROPERTYACCESS: {\r\n return this.resolvePropertyAccessExpression(\r\n expression,\r\n flow, contextualType, reportMode\r\n );\r\n }\r\n case NodeKind.ELEMENTACCESS: {\r\n return this.resolveElementAccessExpression(\r\n expression,\r\n flow, contextualType, reportMode\r\n );\r\n }\r\n case NodeKind.CALL: {\r\n return this.resolveCallExpression(\r\n expression,\r\n flow, contextualType, reportMode\r\n );\r\n }\r\n // TODO: everything else\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Resolves an assertion expression to the program element it refers to. */\r\n resolveAssertionExpression(\r\n /** The expression to resolve. */\r\n expression: AssertionExpression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type = Type.void,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n if (expression.assertionKind == AssertionKind.NONNULL) {\r\n return this.resolveExpression(\r\n expression.expression,\r\n flow,\r\n contextualType,\r\n reportMode\r\n );\r\n }\r\n var type = this.resolveType(\r\n assert(expression.toType), // must be set if not NONNULL\r\n flow.actualFunction,\r\n flow.contextualTypeArguments,\r\n reportMode\r\n );\r\n if (!type) return null;\r\n var element: Element | null = type.classReference;\r\n if (!element) {\r\n let signature = type.signatureReference;\r\n if (!signature) return null;\r\n element = signature.asFunctionTarget(this.program);\r\n }\r\n this.currentThisExpression = null;\r\n this.currentElementExpression = null;\r\n return element;\r\n }\r\n\r\n /** Resolves an unary prefix expression to the program element it refers to. */\r\n resolveUnaryPrefixExpression(\r\n /** The expression to resolve. */\r\n expression: UnaryPrefixExpression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type = Type.void,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n var operand = expression.operand;\r\n // TODO: operator overloads\r\n switch (expression.operator) {\r\n case Token.MINUS: {\r\n // implicitly negate if an integer literal to distinguish between i32/u32/i64\r\n if (operand.kind == NodeKind.LITERAL && (operand).literalKind == LiteralKind.INTEGER) {\r\n let type = this.determineIntegerLiteralType(\r\n i64_sub(i64_zero, (operand).value),\r\n contextualType\r\n );\r\n let typeClasses = this.program.typeClasses;\r\n return typeClasses.has(type.kind) ? typeClasses.get(type.kind)! : null;\r\n }\r\n return this.resolveExpression(\r\n operand,\r\n flow,\r\n contextualType,\r\n reportMode\r\n );\r\n }\r\n case Token.PLUS:\r\n case Token.PLUS_PLUS:\r\n case Token.MINUS_MINUS: {\r\n return this.resolveExpression(\r\n expression.operand,\r\n flow,\r\n contextualType,\r\n reportMode\r\n );\r\n }\r\n case Token.EXCLAMATION: {\r\n let typeClasses = this.program.typeClasses;\r\n return typeClasses.has(TypeKind.BOOL) ? typeClasses.get(TypeKind.BOOL)! : null;\r\n }\r\n case Token.TILDE: {\r\n let resolvedOperand = this.resolveExpression(\r\n expression.operand,\r\n flow,\r\n contextualType,\r\n reportMode\r\n );\r\n if (!resolvedOperand) return null;\r\n // TODO\r\n break;\r\n }\r\n default: assert(false);\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Resolves an unary postfix expression to the program element it refers to. */\r\n resolveUnaryPostfixExpression(\r\n /** The expression to resolve. */\r\n expression: UnaryPostfixExpression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type = Type.void,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n // TODO: operator overloads\r\n switch (expression.operator) {\r\n case Token.PLUS_PLUS:\r\n case Token.MINUS_MINUS: {\r\n return this.resolveExpression(\r\n expression.operand,\r\n flow,\r\n contextualType,\r\n reportMode\r\n );\r\n }\r\n default: assert(false);\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Resolves a binary expression to the program element it refers to. */\r\n resolveBinaryExpression(\r\n /** The expression to resolve. */\r\n expression: BinaryExpression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type = Type.void,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n // TODO\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Resolves a this expression to the program element it refers to. */\r\n resolveThisExpression(\r\n /** The expression to resolve. */\r\n expression: ThisExpression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type = Type.void,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n if (flow.is(FlowFlags.INLINE_CONTEXT)) {\r\n let thisLocal = flow.lookupLocal(CommonSymbols.this_);\r\n if (thisLocal) {\r\n this.currentThisExpression = null;\r\n this.currentElementExpression = null;\r\n return thisLocal;\r\n }\r\n }\r\n var parent = flow.actualFunction.parent;\r\n if (parent) {\r\n this.currentThisExpression = null;\r\n this.currentElementExpression = null;\r\n return parent;\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode._this_cannot_be_referenced_in_current_location,\r\n expression.range\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Resolves a super expression to the program element it refers to. */\r\n resolveSuperExpression(\r\n /** The expression to resolve. */\r\n expression: SuperExpression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type = Type.void,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n if (flow.is(FlowFlags.INLINE_CONTEXT)) {\r\n let superLocal = flow.lookupLocal(CommonSymbols.super_);\r\n if (superLocal) {\r\n this.currentThisExpression = null;\r\n this.currentElementExpression = null;\r\n return superLocal;\r\n }\r\n }\r\n var parent: Element | null = flow.actualFunction.parent;\r\n if (parent && parent.kind == ElementKind.CLASS && (parent = (parent).base)) {\r\n this.currentThisExpression = null;\r\n this.currentElementExpression = null;\r\n return parent;\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode._super_can_only_be_referenced_in_a_derived_class,\r\n expression.range\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Resolves a literal expression to the program element it refers to. */\r\n resolveLiteralExpression(\r\n /** The expression to resolve. */\r\n expression: LiteralExpression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type = Type.void,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n switch (expression.literalKind) {\r\n case LiteralKind.INTEGER: {\r\n this.currentThisExpression = expression;\r\n this.currentElementExpression = null;\r\n let literalType = this.determineIntegerLiteralType(\r\n (expression).value,\r\n contextualType\r\n );\r\n let typeClasses = this.program.typeClasses;\r\n return typeClasses.has(literalType.kind) ? typeClasses.get(literalType.kind)! : null;\r\n }\r\n case LiteralKind.FLOAT: {\r\n this.currentThisExpression = expression;\r\n this.currentElementExpression = null;\r\n let literalType = contextualType == Type.f32 ? Type.f32 : Type.f64;\r\n let typeClasses = this.program.typeClasses;\r\n return typeClasses.has(literalType.kind) ? typeClasses.get(literalType.kind)! : null;\r\n }\r\n case LiteralKind.STRING: {\r\n this.currentThisExpression = expression;\r\n this.currentElementExpression = null;\r\n return this.program.stringInstance;\r\n }\r\n // TODO\r\n // case LiteralKind.ARRAY:\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Resolves a call expression to the program element it refers to. */\r\n resolveCallExpression(\r\n /** The expression to resolve. */\r\n expression: CallExpression,\r\n /** Current flow. */\r\n flow: Flow,\r\n /** Current contextual type. */\r\n contextualType: Type = Type.void,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Element | null {\r\n var targetExpression = expression.expression;\r\n var target = this.resolveExpression( // reports\r\n targetExpression,\r\n flow,\r\n contextualType,\r\n reportMode\r\n );\r\n if (!target) return null;\r\n if (target.kind == ElementKind.FUNCTION_PROTOTYPE) {\r\n let instance = this.resolveFunctionInclTypeArguments(\r\n target,\r\n expression.typeArguments,\r\n flow.actualFunction,\r\n makeMap(flow.contextualTypeArguments), // don't inherit\r\n expression,\r\n reportMode\r\n );\r\n if (!instance) return null;\r\n let returnType = instance.signature.returnType;\r\n let classType = returnType.classReference;\r\n if (classType) {\r\n // reuse resolvedThisExpression (might be property access)\r\n // reuse resolvedElementExpression (might be element access)\r\n return classType;\r\n } else {\r\n let signature = returnType.signatureReference;\r\n if (signature) {\r\n let functionTarget = signature.asFunctionTarget(this.program);\r\n // reuse resolvedThisExpression (might be property access)\r\n // reuse resolvedElementExpression (might be element access)\r\n return functionTarget;\r\n }\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Cannot_invoke_an_expression_whose_type_lacks_a_call_signature_Type_0_has_no_compatible_call_signatures,\r\n targetExpression.range, target.internalName\r\n );\r\n }\r\n return null;\r\n }\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n /** Resolves a function prototype using the specified concrete type arguments. */\r\n resolveFunction(\r\n /** The prototype of the function. */\r\n prototype: FunctionPrototype,\r\n /** Concrete type arguments. */\r\n typeArguments: Type[] | null,\r\n /** Type arguments inherited through context, i.e. `T`. */\r\n contextualTypeArguments: Map = makeMap(),\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Function | null {\r\n var actualParent = prototype.parent.kind == ElementKind.PROPERTY_PROTOTYPE\r\n ? prototype.parent.parent\r\n : prototype.parent;\r\n var classInstance: Class | null = null; // if an instance method\r\n var instanceKey = typeArguments ? typesToString(typeArguments) : \"\";\r\n\r\n // Instance method prototypes are pre-bound to their concrete class as their parent\r\n if (prototype.is(CommonFlags.INSTANCE)) {\r\n assert(actualParent.kind == ElementKind.CLASS);\r\n classInstance = actualParent;\r\n\r\n // check if this exact concrete class and function combination is known already\r\n let resolvedInstance = prototype.getResolvedInstance(instanceKey);\r\n if (resolvedInstance) return resolvedInstance;\r\n\r\n // inherit class specific type arguments\r\n let classTypeArguments = classInstance.typeArguments;\r\n if (classTypeArguments) {\r\n let classTypeParameters = assert(classInstance.prototype.typeParameterNodes);\r\n let numClassTypeArguments = classTypeParameters.length;\r\n assert(numClassTypeArguments == classTypeParameters.length);\r\n for (let i = 0; i < numClassTypeArguments; ++i) {\r\n let classTypeParameterName = classTypeParameters[i].name.text;\r\n if (!contextualTypeArguments.has(classTypeParameterName)) {\r\n contextualTypeArguments.set(\r\n classTypeParameterName,\r\n classTypeArguments[i]\r\n );\r\n }\r\n }\r\n }\r\n } else {\r\n assert(actualParent.kind != ElementKind.CLASS); // must not be pre-bound\r\n let resolvedInstance = prototype.getResolvedInstance(instanceKey);\r\n if (resolvedInstance) return resolvedInstance;\r\n }\r\n\r\n // override whatever is contextual with actual function type arguments\r\n var signatureNode = prototype.signatureNode;\r\n var typeParameterNodes = prototype.typeParameterNodes;\r\n var numFunctionTypeArguments: i32;\r\n if (typeArguments && (numFunctionTypeArguments = typeArguments.length)) {\r\n assert(typeParameterNodes && numFunctionTypeArguments == typeParameterNodes.length);\r\n for (let i = 0; i < numFunctionTypeArguments; ++i) {\r\n contextualTypeArguments.set(\r\n (typeParameterNodes)[i].name.text,\r\n typeArguments[i]\r\n );\r\n }\r\n } else {\r\n assert(!typeParameterNodes || typeParameterNodes.length == 0);\r\n }\r\n\r\n // resolve `this` type if applicable\r\n var thisType: Type | null = null;\r\n var explicitThisType = signatureNode.explicitThisType;\r\n if (explicitThisType) {\r\n thisType = this.resolveType(\r\n explicitThisType,\r\n prototype.parent, // relative to function\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n if (!thisType) return null;\r\n contextualTypeArguments.set(CommonSymbols.this_, thisType);\r\n } else if (classInstance) {\r\n thisType = classInstance.type;\r\n contextualTypeArguments.set(CommonSymbols.this_, thisType);\r\n }\r\n\r\n // resolve parameter types\r\n var signatureParameters = signatureNode.parameters;\r\n var numSignatureParameters = signatureParameters.length;\r\n var parameterTypes = new Array(numSignatureParameters);\r\n var parameterNames = new Array(numSignatureParameters);\r\n var requiredParameters = 0;\r\n for (let i = 0; i < numSignatureParameters; ++i) {\r\n let parameterDeclaration = signatureParameters[i];\r\n if (parameterDeclaration.parameterKind == ParameterKind.DEFAULT) {\r\n requiredParameters = i + 1;\r\n }\r\n let typeNode = parameterDeclaration.type;\r\n if (isTypeOmitted(typeNode)) {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n typeNode.range\r\n );\r\n return null;\r\n }\r\n let parameterType = this.resolveType(\r\n typeNode,\r\n prototype.parent, // relative to function\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n if (!parameterType) return null;\r\n parameterTypes[i] = parameterType;\r\n parameterNames[i] = parameterDeclaration.name.text;\r\n }\r\n\r\n // resolve return type\r\n var returnType: Type;\r\n if (prototype.is(CommonFlags.SET)) {\r\n returnType = Type.void; // not annotated\r\n } else if (prototype.is(CommonFlags.CONSTRUCTOR)) {\r\n returnType = assert(classInstance).type; // not annotated\r\n } else {\r\n let typeNode = signatureNode.returnType;\r\n if (isTypeOmitted(typeNode)) {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n typeNode.range\r\n );\r\n return null;\r\n }\r\n let type = this.resolveType(\r\n typeNode,\r\n prototype.parent, // relative to function\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n if (!type) return null;\r\n returnType = type;\r\n }\r\n\r\n var signature = new Signature(parameterTypes, returnType, thisType);\r\n signature.parameterNames = parameterNames;\r\n signature.requiredParameters = requiredParameters;\r\n\r\n var nameInclTypeParameters = prototype.name;\r\n if (instanceKey.length) nameInclTypeParameters += \"<\" + instanceKey + \">\";\r\n var instance = new Function(\r\n nameInclTypeParameters,\r\n prototype,\r\n signature,\r\n contextualTypeArguments\r\n );\r\n prototype.setResolvedInstance(instanceKey, instance);\r\n return instance;\r\n }\r\n\r\n /** Resolves a function prototypeby first resolving the specified type arguments. */\r\n resolveFunctionInclTypeArguments(\r\n /** The prototype of the function. */\r\n prototype: FunctionPrototype,\r\n /** Type arguments provided. */\r\n typeArgumentNodes: CommonTypeNode[] | null,\r\n /** Relative context. Type arguments are resolved from here. */\r\n context: Element,\r\n /** Type arguments inherited through context, i.e. `T`. */\r\n contextualTypeArguments: Map,\r\n /** The node to use when reporting intermediate errors. */\r\n reportNode: Node,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Function | null {\r\n var actualParent = prototype.parent.kind == ElementKind.PROPERTY_PROTOTYPE\r\n ? prototype.parent.parent\r\n : prototype.parent;\r\n var resolvedTypeArguments: Type[] | null = null;\r\n\r\n // Resolve type arguments if generic\r\n if (prototype.is(CommonFlags.GENERIC)) {\r\n\r\n // If this is an instance method, first apply the class's type arguments\r\n if (prototype.is(CommonFlags.INSTANCE)) {\r\n assert(actualParent.kind == ElementKind.CLASS);\r\n let classTypeArguments = (actualParent).typeArguments;\r\n if (classTypeArguments) {\r\n let typeParameterNodes = assert((actualParent).prototype.typeParameterNodes);\r\n let numClassTypeArguments = classTypeArguments.length;\r\n assert(numClassTypeArguments == typeParameterNodes.length);\r\n for (let i = 0; i < numClassTypeArguments; ++i) {\r\n contextualTypeArguments.set(\r\n typeParameterNodes[i].name.text,\r\n classTypeArguments[i]\r\n );\r\n }\r\n }\r\n }\r\n\r\n resolvedTypeArguments = this.resolveTypeArguments( // reports\r\n assert(prototype.typeParameterNodes),\r\n typeArgumentNodes,\r\n context,\r\n contextualTypeArguments,\r\n reportNode,\r\n reportMode\r\n );\r\n if (!resolvedTypeArguments) return null;\r\n\r\n // Otherwise make sure that no type arguments have been specified\r\n } else {\r\n if (typeArgumentNodes !== null && typeArgumentNodes.length) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n return null;\r\n }\r\n }\r\n\r\n // Continue with concrete types\r\n return this.resolveFunction(\r\n prototype,\r\n resolvedTypeArguments,\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n }\r\n\r\n /** Resolves a class prototype using the specified concrete type arguments. */\r\n resolveClass(\r\n /** The prototype of the class. */\r\n prototype: ClassPrototype,\r\n /** Concrete type arguments. */\r\n typeArguments: Type[] | null,\r\n /** Type arguments inherited through context, i.e. `T`. */\r\n contextualTypeArguments: Map = makeMap(),\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Class | null {\r\n var instanceKey = typeArguments ? typesToString(typeArguments) : \"\";\r\n\r\n // Check if this exact instance has already been resolved\r\n var instance = prototype.getResolvedInstance(instanceKey);\r\n if (instance) return instance;\r\n\r\n // Insert contextual type arguments for this operation. Internally, this method is always\r\n // called with matching type parameter / argument counts.\r\n if (typeArguments) {\r\n let typeParameterNodes = assert(prototype.typeParameterNodes);\r\n let numTypeParameters = typeParameterNodes.length;\r\n let numTypeArguments = typeArguments.length;\r\n assert(numTypeArguments == numTypeParameters);\r\n for (let i = 0; i < numTypeArguments; ++i) {\r\n contextualTypeArguments.set(typeParameterNodes[i].name.text, typeArguments[i]);\r\n }\r\n } else {\r\n let typeParameterNodes = prototype.typeParameterNodes;\r\n assert(!(typeParameterNodes && typeParameterNodes.length));\r\n }\r\n\r\n // Resolve base class if applicable\r\n var basePrototype = prototype.basePrototype;\r\n var baseClass: Class | null = null;\r\n if (basePrototype) {\r\n let extendsNode = assert(prototype.extendsNode); // must be present if it has a base prototype\r\n baseClass = this.resolveClassInclTypeArguments(\r\n basePrototype,\r\n extendsNode.typeArguments,\r\n prototype.parent, // relative to derived class\r\n makeMap(contextualTypeArguments), // don't inherit\r\n extendsNode,\r\n reportMode\r\n );\r\n if (!baseClass) return null;\r\n }\r\n\r\n // Construct the instance and remember that it has been resolved already\r\n var nameInclTypeParamters = prototype.name;\r\n if (instanceKey.length) nameInclTypeParamters += \"<\" + instanceKey + \">\";\r\n instance = new Class(nameInclTypeParamters, prototype, typeArguments, baseClass);\r\n instance.contextualTypeArguments = contextualTypeArguments;\r\n prototype.setResolvedInstance(instanceKey, instance);\r\n\r\n // Inherit base class members and set up the initial memory offset for own fields\r\n var memoryOffset: u32 = 0;\r\n if (baseClass) {\r\n let baseMembers = baseClass.members;\r\n if (baseMembers) {\r\n let instanceMembers = instance.members;\r\n if (!instanceMembers) instance.members = instanceMembers = new Map();\r\n for (let [baseMemberName, baseMember] of baseMembers) {\r\n instanceMembers.set(baseMemberName, baseMember);\r\n }\r\n }\r\n memoryOffset = baseClass.currentMemoryOffset;\r\n }\r\n\r\n // Resolve instance members\r\n var instanceMemberPrototypes = prototype.instanceMembers;\r\n if (instanceMemberPrototypes) {\r\n for (let member of instanceMemberPrototypes.values()) {\r\n switch (member.kind) {\r\n\r\n // Lay out fields in advance\r\n case ElementKind.FIELD_PROTOTYPE: {\r\n let instanceMembers = instance.members;\r\n if (!instanceMembers) instance.members = instanceMembers = new Map();\r\n else if (instanceMembers.has(member.name)) {\r\n this.error(\r\n DiagnosticCode.Duplicate_identifier_0,\r\n (member).identifierNode.range,\r\n member.name\r\n );\r\n break;\r\n }\r\n let fieldTypeNode = (member).typeNode;\r\n let fieldType: Type | null = null;\r\n // TODO: handle duplicate non-private fields specifically?\r\n if (!fieldTypeNode) {\r\n if (baseClass) {\r\n let baseMembers = baseClass.members;\r\n if (baseMembers && baseMembers.has((member).name)) {\r\n let baseField = baseMembers.get((member).name)!;\r\n if (!baseField.is(CommonFlags.PRIVATE)) {\r\n assert(baseField.kind == ElementKind.FIELD);\r\n fieldType = (baseField).type;\r\n }\r\n }\r\n }\r\n if (!fieldType) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n (member).identifierNode.range.atEnd\r\n );\r\n }\r\n }\r\n } else {\r\n fieldType = this.resolveType(\r\n fieldTypeNode,\r\n prototype.parent, // relative to class\r\n instance.contextualTypeArguments,\r\n reportMode\r\n );\r\n }\r\n if (!fieldType) break; // did report above\r\n let fieldInstance = new Field(member, instance, fieldType);\r\n assert(isPowerOf2(fieldType.byteSize));\r\n let mask = fieldType.byteSize - 1;\r\n if (memoryOffset & mask) memoryOffset = (memoryOffset | mask) + 1;\r\n fieldInstance.memoryOffset = memoryOffset;\r\n memoryOffset += fieldType.byteSize;\r\n instance.add(member.name, fieldInstance); // reports\r\n break;\r\n }\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n let boundPrototype = (member).toBound(instance);\r\n instance.add(boundPrototype.name, boundPrototype); // reports\r\n break;\r\n }\r\n case ElementKind.PROPERTY_PROTOTYPE: {\r\n let propertyInstance = new Property(member, instance);\r\n let getterPrototype = (member).getterPrototype;\r\n if (getterPrototype) {\r\n let getterInstance = this.resolveFunction(\r\n getterPrototype.toBound(instance),\r\n null,\r\n makeMap(instance.contextualTypeArguments),\r\n reportMode\r\n );\r\n if (getterInstance) {\r\n propertyInstance.getterInstance = getterInstance;\r\n propertyInstance.setType(getterInstance.signature.returnType);\r\n }\r\n }\r\n let setterPrototype = (member).setterPrototype;\r\n if (setterPrototype) {\r\n let setterInstance = this.resolveFunction(\r\n setterPrototype.toBound(instance),\r\n null,\r\n makeMap(instance.contextualTypeArguments),\r\n reportMode\r\n );\r\n if (setterInstance) {\r\n propertyInstance.setterInstance = setterInstance;\r\n if (!propertyInstance.is(CommonFlags.RESOLVED)) {\r\n assert(setterInstance.signature.parameterTypes.length == 1);\r\n propertyInstance.setType(setterInstance.signature.parameterTypes[0]);\r\n }\r\n }\r\n }\r\n instance.add(propertyInstance.name, propertyInstance); // reports\r\n break;\r\n }\r\n default: assert(false);\r\n }\r\n }\r\n }\r\n\r\n // Finalize memory offset\r\n instance.currentMemoryOffset = memoryOffset;\r\n\r\n // Link _own_ constructor if present\r\n {\r\n let ctorPrototype = instance.lookupInSelf(CommonSymbols.constructor);\r\n if (ctorPrototype && ctorPrototype.parent === instance) {\r\n assert(ctorPrototype.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n let ctorInstance = this.resolveFunction(\r\n ctorPrototype,\r\n null,\r\n instance.contextualTypeArguments,\r\n reportMode\r\n );\r\n if (ctorInstance) instance.constructorInstance = ctorInstance;\r\n }\r\n }\r\n\r\n // Fully resolve operator overloads (don't have type parameters on their own)\r\n for (let [kind, overloadPrototype] of prototype.overloadPrototypes) {\r\n assert(kind != OperatorKind.INVALID);\r\n let operatorInstance: Function | null;\r\n if (overloadPrototype.is(CommonFlags.INSTANCE)) {\r\n let boundPrototype = overloadPrototype.toBound(instance);\r\n operatorInstance = this.resolveFunction(\r\n boundPrototype,\r\n null,\r\n makeMap(),\r\n reportMode\r\n );\r\n } else {\r\n operatorInstance = this.resolveFunction(\r\n overloadPrototype,\r\n null,\r\n makeMap(),\r\n reportMode\r\n );\r\n }\r\n if (!operatorInstance) continue;\r\n let overloads = instance.overloads;\r\n if (!overloads) instance.overloads = overloads = new Map();\r\n overloads.set(kind, operatorInstance);\r\n }\r\n return instance;\r\n }\r\n\r\n /** Resolves a class prototype by first resolving the specified type arguments. */\r\n resolveClassInclTypeArguments(\r\n /** The prototype of the class. */\r\n prototype: ClassPrototype,\r\n /** Type argument nodes provided. */\r\n typeArgumentNodes: CommonTypeNode[] | null,\r\n /** Relative context. Type arguments are resolved from here. */\r\n context: Element,\r\n /** Type arguments inherited through context, i.e. `T`. */\r\n contextualTypeArguments: Map,\r\n /** The node to use when reporting intermediate errors. */\r\n reportNode: Node,\r\n /** How to proceed with eventualy diagnostics. */\r\n reportMode: ReportMode = ReportMode.REPORT\r\n ): Class | null {\r\n var resolvedTypeArguments: Type[] | null = null;\r\n\r\n // Resolve type arguments if generic\r\n if (prototype.is(CommonFlags.GENERIC)) {\r\n resolvedTypeArguments = this.resolveTypeArguments( // reports\r\n assert(prototype.typeParameterNodes), // must be present if generic\r\n typeArgumentNodes,\r\n context,\r\n contextualTypeArguments,\r\n reportNode,\r\n reportMode\r\n );\r\n if (!resolvedTypeArguments) return null;\r\n\r\n // Otherwise make sure that no type arguments have been specified\r\n } else {\r\n if (typeArgumentNodes !== null && typeArgumentNodes.length) {\r\n if (reportMode == ReportMode.REPORT) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.range, prototype.internalName\r\n );\r\n }\r\n return null;\r\n }\r\n }\r\n\r\n // Continue with concrete types\r\n return this.resolveClass(\r\n prototype,\r\n resolvedTypeArguments,\r\n contextualTypeArguments,\r\n reportMode\r\n );\r\n }\r\n}\r\n","/**\r\n * The AssemblyScript compiler.\r\n * @module compiler\r\n *//***/\r\n\r\nimport {\r\n compileCall as compileBuiltinCall,\r\n compileAbort,\r\n compileIterateRoots,\r\n ensureGCHook,\r\n BuiltinSymbols\r\n} from \"./builtins\";\r\n\r\nimport {\r\n DiagnosticCode,\r\n DiagnosticEmitter\r\n} from \"./diagnostics\";\r\n\r\nimport {\r\n Module,\r\n MemorySegment,\r\n ExpressionRef,\r\n UnaryOp,\r\n BinaryOp,\r\n NativeType,\r\n FunctionRef,\r\n ExpressionId,\r\n FunctionTypeRef,\r\n GlobalRef,\r\n getExpressionId,\r\n getExpressionType,\r\n getConstValueI32,\r\n getConstValueI64Low,\r\n getConstValueI64High,\r\n getConstValueF32,\r\n getConstValueF64,\r\n getBlockChildCount,\r\n getBlockChild,\r\n getBlockName,\r\n needsExplicitUnreachable\r\n} from \"./module\";\r\n\r\nimport {\r\n CommonFlags,\r\n INSTANCE_DELIMITER,\r\n STATIC_DELIMITER,\r\n GETTER_PREFIX,\r\n SETTER_PREFIX,\r\n LibrarySymbols,\r\n CommonSymbols,\r\n INDEX_SUFFIX\r\n} from \"./common\";\r\n\r\nimport {\r\n Program,\r\n ClassPrototype,\r\n Class,\r\n Element,\r\n ElementKind,\r\n Enum,\r\n Field,\r\n FunctionPrototype,\r\n Function,\r\n FunctionTarget,\r\n Global,\r\n Local,\r\n EnumValue,\r\n Property,\r\n VariableLikeElement,\r\n ConstantValueKind,\r\n OperatorKind,\r\n DecoratorFlags,\r\n PropertyPrototype,\r\n File,\r\n mangleInternalName\r\n} from \"./program\";\r\n\r\nimport {\r\n FlowFlags,\r\n Flow\r\n} from \"./flow\";\r\n\r\nimport {\r\n Resolver, ReportMode\r\n} from \"./resolver\";\r\n\r\nimport {\r\n Token,\r\n operatorTokenToString\r\n} from \"./tokenizer\";\r\n\r\nimport {\r\n Node,\r\n NodeKind,\r\n TypeNode,\r\n Range,\r\n DecoratorKind,\r\n AssertionKind,\r\n\r\n Statement,\r\n BlockStatement,\r\n BreakStatement,\r\n ClassDeclaration,\r\n ContinueStatement,\r\n DeclarationStatement,\r\n DoStatement,\r\n EmptyStatement,\r\n EnumDeclaration,\r\n ExportStatement,\r\n ExpressionStatement,\r\n FieldDeclaration,\r\n ForStatement,\r\n FunctionDeclaration,\r\n IfStatement,\r\n ImportStatement,\r\n InstanceOfExpression,\r\n InterfaceDeclaration,\r\n NamespaceDeclaration,\r\n ReturnStatement,\r\n SwitchStatement,\r\n ThrowStatement,\r\n TryStatement,\r\n VariableStatement,\r\n VoidStatement,\r\n WhileStatement,\r\n\r\n Expression,\r\n AssertionExpression,\r\n BinaryExpression,\r\n CallExpression,\r\n CommaExpression,\r\n ElementAccessExpression,\r\n FloatLiteralExpression,\r\n FunctionExpression,\r\n IdentifierExpression,\r\n IntegerLiteralExpression,\r\n LiteralExpression,\r\n LiteralKind,\r\n NewExpression,\r\n ObjectLiteralExpression,\r\n ParenthesizedExpression,\r\n PropertyAccessExpression,\r\n TernaryExpression,\r\n ArrayLiteralExpression,\r\n StringLiteralExpression,\r\n UnaryPostfixExpression,\r\n UnaryPrefixExpression,\r\n\r\n nodeIsConstantValue,\r\n findDecorator,\r\n isTypeOmitted\r\n} from \"./ast\";\r\n\r\nimport {\r\n Type,\r\n TypeKind,\r\n TypeFlags,\r\n Signature,\r\n\r\n typesToNativeTypes\r\n} from \"./types\";\r\n\r\nimport {\r\n writeI8,\r\n writeI16,\r\n writeI32,\r\n writeI64,\r\n writeF32,\r\n writeF64,\r\n makeMap\r\n} from \"./util\";\r\n\r\n/** Compilation target. */\r\nexport enum Target {\r\n /** WebAssembly with 32-bit pointers. */\r\n WASM32,\r\n /** WebAssembly with 64-bit pointers. Experimental and not supported by any runtime yet. */\r\n WASM64\r\n}\r\n\r\n/** Compiler options. */\r\nexport class Options {\r\n\r\n /** WebAssembly target. Defaults to {@link Target.WASM32}. */\r\n target: Target = Target.WASM32;\r\n /** If true, replaces assertions with nops. */\r\n noAssert: bool = false;\r\n /** If true, imports the memory provided by the embedder. */\r\n importMemory: bool = false;\r\n /** If greater than zero, declare memory as shared by setting max memory to sharedMemory. */\r\n sharedMemory: i32 = 0;\r\n /** If true, imports the function table provided by the embedder. */\r\n importTable: bool = false;\r\n /** If true, generates information necessary for source maps. */\r\n sourceMap: bool = false;\r\n /** Static memory start offset. */\r\n memoryBase: i32 = 0;\r\n /** Global aliases. */\r\n globalAliases: Map | null = null;\r\n /** Additional features to activate. */\r\n features: Feature = Feature.NONE;\r\n\r\n /** Hinted optimize level. Not applied by the compiler itself. */\r\n optimizeLevelHint: i32 = 0;\r\n /** Hinted shrink level. Not applied by the compiler itself. */\r\n shrinkLevelHint: i32 = 0;\r\n\r\n /** Tests if the target is WASM64 or, otherwise, WASM32. */\r\n get isWasm64(): bool {\r\n return this.target == Target.WASM64;\r\n }\r\n\r\n /** Gets the unsigned size type matching the target. */\r\n get usizeType(): Type {\r\n return this.target == Target.WASM64 ? Type.usize64 : Type.usize32;\r\n }\r\n\r\n /** Gets the signed size type matching the target. */\r\n get isizeType(): Type {\r\n return this.target == Target.WASM64 ? Type.isize64 : Type.isize32;\r\n }\r\n\r\n /** Gets the native size type matching the target. */\r\n get nativeSizeType(): NativeType {\r\n return this.target == Target.WASM64 ? NativeType.I64 : NativeType.I32;\r\n }\r\n\r\n /** Tests if a specific feature is activated. */\r\n hasFeature(feature: Feature): bool {\r\n return (this.features & feature) != 0;\r\n }\r\n}\r\n\r\n/** Indicates specific features to activate. */\r\nexport const enum Feature {\r\n /** No additional features. */\r\n NONE = 0,\r\n /** Sign extension operations. */\r\n SIGN_EXTENSION = 1 << 0, // see: https://github.com/WebAssembly/sign-extension-ops\r\n /** Mutable global imports and exports. */\r\n MUTABLE_GLOBAL = 1 << 1, // see: https://github.com/WebAssembly/mutable-global\r\n /** Bulk memory operations. */\r\n BULK_MEMORY = 1 << 2, // see: https://github.com/WebAssembly/bulk-memory-operations\r\n /** SIMD types and operations. */\r\n SIMD = 1 << 3, // see: https://github.com/WebAssembly/simd\r\n /** Threading and atomic operations. */\r\n THREADS = 1 << 4 // see: https://github.com/WebAssembly/threads\r\n}\r\n\r\n/** Indicates the desired kind of a conversion. */\r\nexport const enum ConversionKind {\r\n /** No conversion. */\r\n NONE,\r\n /** Implicit conversion. */\r\n IMPLICIT,\r\n /** Explicit conversion. */\r\n EXPLICIT\r\n}\r\n\r\n/** Indicates the desired wrap mode of a conversion. */\r\nexport const enum WrapMode {\r\n /** No wrapping. */\r\n NONE,\r\n /** Wrap small integer values. */\r\n WRAP\r\n}\r\n\r\n/** Compiler interface. */\r\nexport class Compiler extends DiagnosticEmitter {\r\n\r\n /** Program reference. */\r\n program: Program;\r\n /** Resolver reference. */\r\n resolver: Resolver;\r\n /** Provided options. */\r\n options: Options;\r\n /** Module instance being compiled. */\r\n module: Module;\r\n /** Current control flow. */\r\n currentFlow: Flow;\r\n /** Current inline functions stack. */\r\n currentInlineFunctions: Function[] = [];\r\n /** Current enum in compilation. */\r\n currentEnum: Enum | null = null;\r\n /** Current type in compilation. */\r\n currentType: Type = Type.void;\r\n /** Start function statements. */\r\n currentBody: ExpressionRef[];\r\n /** Counting memory offset. */\r\n memoryOffset: I64;\r\n /** Memory segments being compiled. */\r\n memorySegments: MemorySegment[] = [];\r\n /** Map of already compiled static string segments. */\r\n stringSegments: Map = new Map();\r\n /** Function table being compiled. */\r\n functionTable: string[] = [ \"null\" ];\r\n /** Argument count helper global. */\r\n argcVar: GlobalRef = 0;\r\n /** Argument count helper setter. */\r\n argcSet: FunctionRef = 0;\r\n /** Indicates whether the iterateRoots function must be generated. */\r\n needsIterateRoots: bool = false;\r\n\r\n /** Compiles a {@link Program} to a {@link Module} using the specified options. */\r\n static compile(program: Program, options: Options | null = null): Module {\r\n return new Compiler(program, options).compile();\r\n }\r\n\r\n /** Constructs a new compiler for a {@link Program} using the specified options. */\r\n constructor(program: Program, options: Options | null = null) {\r\n super(program.diagnostics);\r\n this.program = program;\r\n this.resolver = program.resolver;\r\n if (!options) options = new Options();\r\n this.options = options;\r\n this.memoryOffset = i64_new(\r\n // leave space for `null`. also functions as a sentinel for erroneous stores at offset 0.\r\n // note that Binaryen's asm.js output utilizes the first 8 bytes for reinterpretations (#1547)\r\n max(options.memoryBase, 8)\r\n );\r\n this.module = Module.create();\r\n }\r\n\r\n /** Performs compilation of the underlying {@link Program} to a {@link Module}. */\r\n compile(): Module {\r\n var options = this.options;\r\n var module = this.module;\r\n var program = this.program;\r\n\r\n // initialize lookup maps, built-ins, imports, exports, etc.\r\n program.initialize(options);\r\n\r\n // set up the main start function\r\n var startFunctionInstance = program.makeNativeFunction(\"start\", new Signature([], Type.void));\r\n startFunctionInstance.internalName = \"start\";\r\n var startFunctionBody = new Array();\r\n this.currentFlow = startFunctionInstance.flow;\r\n this.currentBody = startFunctionBody;\r\n\r\n // add a mutable heap base dummy\r\n if (options.isWasm64) {\r\n module.addGlobal(\r\n BuiltinSymbols.HEAP_BASE,\r\n NativeType.I64,\r\n true,\r\n module.createI64(0, 0)\r\n );\r\n } else {\r\n module.addGlobal(\r\n BuiltinSymbols.HEAP_BASE,\r\n NativeType.I32,\r\n false,\r\n module.createI32(0)\r\n );\r\n }\r\n\r\n // compile entry file(s) while traversing reachable elements\r\n var files = program.filesByName;\r\n for (let file of files.values()) {\r\n if (file.source.isEntry) {\r\n this.compileFile(file);\r\n this.compileExports(file);\r\n }\r\n }\r\n\r\n // compile the start function if not empty or called by main\r\n var explicitStartFunction = program.explicitStartFunction;\r\n if (startFunctionBody.length || explicitStartFunction) {\r\n let signature = startFunctionInstance.signature;\r\n let funcRef = module.addFunction(\r\n startFunctionInstance.internalName,\r\n this.ensureFunctionType(\r\n signature.parameterTypes,\r\n signature.returnType,\r\n signature.thisType\r\n ),\r\n typesToNativeTypes(startFunctionInstance.additionalLocals),\r\n module.createBlock(null, startFunctionBody)\r\n );\r\n startFunctionInstance.finalize(module, funcRef);\r\n if (!explicitStartFunction) module.setStart(funcRef);\r\n }\r\n\r\n // update the heap base pointer\r\n var memoryOffset = this.memoryOffset;\r\n memoryOffset = i64_align(memoryOffset, options.usizeType.byteSize);\r\n this.memoryOffset = memoryOffset;\r\n module.removeGlobal(BuiltinSymbols.HEAP_BASE);\r\n if (options.isWasm64) {\r\n module.addGlobal(\r\n BuiltinSymbols.HEAP_BASE,\r\n NativeType.I64,\r\n false,\r\n module.createI64(i64_low(memoryOffset), i64_high(memoryOffset))\r\n );\r\n } else {\r\n module.addGlobal(\r\n BuiltinSymbols.HEAP_BASE,\r\n NativeType.I32,\r\n false,\r\n module.createI32(i64_low(memoryOffset))\r\n );\r\n }\r\n\r\n // set up memory\r\n var isSharedMemory = options.hasFeature(Feature.THREADS) && options.sharedMemory > 0;\r\n module.setMemory(\r\n this.options.memoryBase /* is specified */ || this.memorySegments.length\r\n ? i64_low(i64_shr_u(i64_align(memoryOffset, 0x10000), i64_new(16, 0)))\r\n : 0,\r\n isSharedMemory ? options.sharedMemory : Module.UNLIMITED_MEMORY,\r\n this.memorySegments,\r\n options.target,\r\n \"memory\",\r\n isSharedMemory\r\n );\r\n\r\n // import memory if requested (default memory is named '0' by Binaryen)\r\n if (options.importMemory) module.addMemoryImport(\"0\", \"env\", \"memory\", isSharedMemory);\r\n\r\n // set up function table\r\n var functionTable = this.functionTable;\r\n module.setFunctionTable(functionTable.length, 0xffffffff, functionTable);\r\n module.addTableExport(\"0\", \"table\");\r\n module.addFunction(\"null\", this.ensureFunctionType(null, Type.void), null, module.createBlock(null, []));\r\n\r\n // import table if requested (default table is named '0' by Binaryen)\r\n if (options.importTable) module.addTableImport(\"0\", \"env\", \"table\");\r\n\r\n // set up module exports\r\n for (let file of this.program.filesByName.values()) {\r\n if (file.source.isEntry) this.makeModuleExports(file);\r\n }\r\n\r\n // set up gc\r\n if (this.needsIterateRoots) compileIterateRoots(this);\r\n\r\n return module;\r\n }\r\n\r\n /** Applies the respective module exports for the specified file. */\r\n private makeModuleExports(file: File): void {\r\n var members = file.exports;\r\n if (members) for (let [name, member] of members) this.makeModuleExport(name, member);\r\n var exportsStar = file.exportsStar;\r\n if (exportsStar) {\r\n for (let i = 0, k = exportsStar.length; i < k; ++i) this.makeModuleExports(exportsStar[i]);\r\n }\r\n }\r\n\r\n /** Applies the respective module export(s) for the specified element. */\r\n private makeModuleExport(name: string, element: Element, prefix: string = \"\"): void {\r\n switch (element.kind) {\r\n\r\n // traverse instances\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n let instances = (element).instances;\r\n if (instances) {\r\n for (let instance of instances.values()) {\r\n let instanceName = name;\r\n if (instance.is(CommonFlags.GENERIC)) {\r\n let fullName = instance.internalName;\r\n instanceName += fullName.substring(fullName.lastIndexOf(\"<\"));\r\n }\r\n this.makeModuleExport(instanceName, instance, prefix);\r\n }\r\n }\r\n break;\r\n }\r\n case ElementKind.CLASS_PROTOTYPE: {\r\n let instances = (element).instances;\r\n if (instances) {\r\n for (let instance of instances.values()) {\r\n let instanceName = name;\r\n if (instance.is(CommonFlags.GENERIC)) {\r\n let fullName = instance.internalName;\r\n instanceName += fullName.substring(fullName.lastIndexOf(\"<\"));\r\n }\r\n this.makeModuleExport(instanceName, instance, prefix);\r\n }\r\n }\r\n break;\r\n }\r\n case ElementKind.PROPERTY_PROTOTYPE: {\r\n let getter = (element).getterPrototype;\r\n let setter = (element).setterPrototype;\r\n if (getter) this.makeModuleExport(GETTER_PREFIX + name, getter, prefix);\r\n if (setter) this.makeModuleExport(SETTER_PREFIX + name, setter, prefix);\r\n break;\r\n }\r\n\r\n // export concrete elements\r\n case ElementKind.GLOBAL: {\r\n let isConst = element.is(CommonFlags.CONST) || element.is(CommonFlags.STATIC | CommonFlags.READONLY);\r\n if (!isConst && !this.options.hasFeature(Feature.MUTABLE_GLOBAL)) {\r\n this.error(\r\n DiagnosticCode.Cannot_export_a_mutable_global,\r\n (element).identifierNode.range\r\n );\r\n } else {\r\n this.module.addGlobalExport(element.internalName, prefix + name);\r\n }\r\n break;\r\n }\r\n case ElementKind.ENUMVALUE: {\r\n if (!assert(element.parent).is(CommonFlags.CONST) && !this.options.hasFeature(Feature.MUTABLE_GLOBAL)) {\r\n this.error(\r\n DiagnosticCode.Cannot_export_a_mutable_global,\r\n (element).identifierNode.range\r\n );\r\n } else {\r\n this.module.addGlobalExport(element.internalName, prefix + name);\r\n }\r\n break;\r\n }\r\n case ElementKind.FUNCTION: {\r\n let instance = element;\r\n let signature = instance.signature;\r\n if (signature.requiredParameters < signature.parameterTypes.length) {\r\n // utilize trampoline to fill in omitted arguments\r\n instance = this.ensureTrampoline(instance);\r\n this.ensureArgcSet();\r\n }\r\n if (instance.is(CommonFlags.COMPILED)) this.module.addFunctionExport(instance.internalName, prefix + name);\r\n break;\r\n }\r\n case ElementKind.PROPERTY: {\r\n let getter = (element).getterInstance;\r\n if (getter) this.makeModuleExport(GETTER_PREFIX + name, getter, prefix);\r\n let setter = (element).setterInstance;\r\n if (setter) this.makeModuleExport(SETTER_PREFIX + name, setter, prefix);\r\n break;\r\n }\r\n case ElementKind.FIELD: {\r\n let module = this.module;\r\n let type = (element).type;\r\n let nativeType = type.toNativeType();\r\n let offset = (element).memoryOffset;\r\n let usizeType = this.options.usizeType;\r\n let nativeSizeType = this.options.nativeSizeType;\r\n\r\n // make a getter\r\n let getterName = prefix + GETTER_PREFIX + name;\r\n module.addFunction(\r\n getterName,\r\n this.ensureFunctionType(null, type, usizeType),\r\n null,\r\n module.createLoad(\r\n type.byteSize,\r\n type.is(TypeFlags.SIGNED),\r\n module.createGetLocal(0, nativeSizeType),\r\n nativeType,\r\n offset\r\n )\r\n );\r\n module.addFunctionExport(getterName, getterName);\r\n\r\n // make a setter\r\n if (!element.is(CommonFlags.READONLY)) {\r\n let setterName = prefix + SETTER_PREFIX + name;\r\n module.addFunction(\r\n setterName,\r\n this.ensureFunctionType([ type ], Type.void, usizeType),\r\n null,\r\n module.createStore(\r\n type.byteSize,\r\n module.createGetLocal(0, nativeSizeType),\r\n module.createGetLocal(1, nativeType),\r\n nativeType,\r\n offset\r\n )\r\n );\r\n module.addFunctionExport(setterName, setterName);\r\n }\r\n break;\r\n }\r\n\r\n // just traverse members below\r\n case ElementKind.ENUM:\r\n case ElementKind.CLASS:\r\n case ElementKind.NAMESPACE:\r\n case ElementKind.FILE:\r\n case ElementKind.TYPEDEFINITION: break;\r\n\r\n default: assert(false); // unexpected module export\r\n }\r\n\r\n // traverse members\r\n var members = element.members;\r\n if (members) {\r\n let subPrefix = prefix + name + (element.kind == ElementKind.CLASS\r\n ? INSTANCE_DELIMITER\r\n : STATIC_DELIMITER\r\n );\r\n if (\r\n element.kind == ElementKind.NAMESPACE ||\r\n element.kind == ElementKind.FILE\r\n ) {\r\n for (let member of members.values()) {\r\n if (!member.is(CommonFlags.EXPORT)) continue;\r\n this.makeModuleExport(member.name, member, subPrefix);\r\n }\r\n } else {\r\n for (let member of members.values()) {\r\n if (member.is(CommonFlags.PRIVATE)) continue;\r\n this.makeModuleExport(member.name, member, subPrefix);\r\n }\r\n }\r\n }\r\n }\r\n\r\n // general\r\n\r\n /** Compiles any element. */\r\n compileElement(element: Element, compileMembers: bool = true): void {\r\n switch (element.kind) {\r\n case ElementKind.GLOBAL: {\r\n this.compileGlobal(element);\r\n break;\r\n }\r\n case ElementKind.ENUM: {\r\n this.compileEnum(element);\r\n break;\r\n }\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n if (!element.is(CommonFlags.GENERIC)) {\r\n this.compileFunctionUsingTypeArguments(element, []);\r\n }\r\n break;\r\n }\r\n case ElementKind.CLASS_PROTOTYPE: {\r\n if (!element.is(CommonFlags.GENERIC)) {\r\n this.compileClassUsingTypeArguments(element, []);\r\n }\r\n break;\r\n }\r\n case ElementKind.PROPERTY_PROTOTYPE: {\r\n let getterPrototype = (element).getterPrototype;\r\n if (getterPrototype) {\r\n this.compileFunctionUsingTypeArguments(getterPrototype, []);\r\n }\r\n let setterPrototype = (element).setterPrototype;\r\n if (setterPrototype) {\r\n this.compileFunctionUsingTypeArguments(setterPrototype, []);\r\n }\r\n break;\r\n }\r\n case ElementKind.NAMESPACE:\r\n case ElementKind.TYPEDEFINITION:\r\n case ElementKind.ENUMVALUE: break;\r\n default: assert(false, ElementKind[element.kind]);\r\n }\r\n if (compileMembers) this.compileMembers(element);\r\n }\r\n\r\n /** Compiles an element's members. */\r\n compileMembers(element: Element): void {\r\n var members = element.members;\r\n if (members) for (let element of members.values()) this.compileElement(element);\r\n }\r\n\r\n /** Compiles a file's exports. */\r\n compileExports(file: File): void {\r\n var exports = file.exports;\r\n if (exports) for (let element of exports.values()) this.compileElement(element);\r\n var exportsStar = file.exportsStar;\r\n if (exportsStar) for (let exportStar of exportsStar) this.compileFile(exportStar);\r\n }\r\n\r\n // files\r\n\r\n /** Compiles the file matching the specified path. */\r\n compileFileByPath(normalizedPathWithoutExtension: string, reportNode: Node): void {\r\n var file: File;\r\n var filesByName = this.program.filesByName;\r\n var pathWithIndex: string;\r\n if (filesByName.has(normalizedPathWithoutExtension)) {\r\n file = filesByName.get(normalizedPathWithoutExtension)!;\r\n } else if (filesByName.has(pathWithIndex = normalizedPathWithoutExtension + INDEX_SUFFIX)) {\r\n file = filesByName.get(pathWithIndex)!;\r\n } else {\r\n this.error(\r\n DiagnosticCode.File_0_not_found,\r\n reportNode.range, normalizedPathWithoutExtension\r\n );\r\n return;\r\n }\r\n this.compileFile(file);\r\n }\r\n\r\n /** Compiles the specified file. */\r\n compileFile(file: File): void {\r\n if (file.is(CommonFlags.COMPILED)) return;\r\n file.set(CommonFlags.COMPILED);\r\n\r\n // compile top-level statements within the file's start function\r\n var startFunction = file.startFunction;\r\n var previousBody = this.currentBody;\r\n var startFunctionBody = new Array();\r\n this.currentBody = startFunctionBody;\r\n\r\n // compile top-level statements\r\n var previousFlow = this.currentFlow;\r\n this.currentFlow = startFunction.flow;\r\n for (let statements = file.source.statements, i = 0, k = statements.length; i < k; ++i) {\r\n this.compileTopLevelStatement(statements[i], startFunctionBody);\r\n }\r\n this.currentFlow = previousFlow;\r\n this.currentBody = previousBody;\r\n\r\n // if top-level statements are present, make the per-file start function and call it in start\r\n if (startFunctionBody.length) {\r\n let module = this.module;\r\n let locals = startFunction.localsByIndex;\r\n let numLocals = locals.length;\r\n let varTypes = new Array(numLocals);\r\n for (let i = 0; i < numLocals; ++i) varTypes[i] = locals[i].type.toNativeType();\r\n module.addFunction(\r\n startFunction.internalName,\r\n this.ensureFunctionType(startFunction.signature.parameterTypes, startFunction.signature.returnType),\r\n varTypes,\r\n startFunctionBody.length > 1\r\n ? module.createBlock(null, startFunctionBody)\r\n : startFunctionBody[0]\r\n );\r\n previousBody.push(\r\n module.createCall(startFunction.internalName, null, NativeType.None)\r\n );\r\n }\r\n }\r\n\r\n // globals\r\n\r\n compileGlobal(global: Global): bool {\r\n if (global.is(CommonFlags.COMPILED)) return true;\r\n global.set(CommonFlags.COMPILED);\r\n\r\n var module = this.module;\r\n var initExpr: ExpressionRef = 0;\r\n var typeNode = global.typeNode;\r\n var initializerNode = global.initializerNode;\r\n\r\n if (!global.is(CommonFlags.RESOLVED)) {\r\n\r\n // resolve now if annotated\r\n if (typeNode) {\r\n let resolvedType = this.resolver.resolveType(typeNode, global.parent); // reports\r\n if (!resolvedType) return false;\r\n if (resolvedType == Type.void) {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n typeNode.range\r\n );\r\n return false;\r\n }\r\n global.setType(resolvedType);\r\n\r\n // infer from initializer if not annotated\r\n } else if (initializerNode) { // infer type using void/NONE for literal inference\r\n let previousFlow = this.currentFlow;\r\n if (global.hasDecorator(DecoratorFlags.LAZY)) {\r\n this.currentFlow = global.file.startFunction.flow;\r\n }\r\n initExpr = this.compileExpressionRetainType( // reports\r\n initializerNode,\r\n Type.void,\r\n WrapMode.WRAP\r\n );\r\n this.currentFlow = previousFlow;\r\n if (this.currentType == Type.void) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n initializerNode.range, this.currentType.toString(), \"\"\r\n );\r\n return false;\r\n }\r\n global.setType(this.currentType);\r\n\r\n // must either be annotated or have an initializer\r\n } else {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n global.identifierNode.range.atEnd\r\n );\r\n return false;\r\n }\r\n }\r\n\r\n // ambient builtins like 'HEAP_BASE' need to be resolved but are added explicitly\r\n if (global.is(CommonFlags.AMBIENT) && global.hasDecorator(DecoratorFlags.BUILTIN)) return true;\r\n\r\n var nativeType = global.type.toNativeType();\r\n var isDeclaredConstant = global.is(CommonFlags.CONST) || global.is(CommonFlags.STATIC | CommonFlags.READONLY);\r\n\r\n // handle imports\r\n if (global.is(CommonFlags.AMBIENT)) {\r\n\r\n // constant global\r\n if (isDeclaredConstant || this.options.hasFeature(Feature.MUTABLE_GLOBAL)) {\r\n global.set(CommonFlags.MODULE_IMPORT);\r\n mangleImportName(global, global.declaration);\r\n module.addGlobalImport(\r\n global.internalName,\r\n mangleImportName_moduleName,\r\n mangleImportName_elementName,\r\n nativeType\r\n );\r\n global.set(CommonFlags.COMPILED);\r\n return true;\r\n\r\n // importing mutable globals is not supported in the MVP\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n global.declaration.range\r\n );\r\n }\r\n return false;\r\n }\r\n\r\n // the MVP does not yet support initializer expressions other than constant values (and constant\r\n // get_globals), hence such initializations must be performed in the start function for now.\r\n var initializeInStart = false;\r\n\r\n // evaluate initializer if present\r\n if (initializerNode) {\r\n if (!initExpr) {\r\n let previousFlow = this.currentFlow;\r\n if (global.hasDecorator(DecoratorFlags.LAZY)) {\r\n this.currentFlow = global.file.startFunction.flow;\r\n }\r\n initExpr = this.compileExpression(\r\n initializerNode,\r\n global.type,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP\r\n );\r\n this.currentFlow = previousFlow;\r\n }\r\n\r\n if (getExpressionId(initExpr) != ExpressionId.Const) {\r\n if (isDeclaredConstant) {\r\n initExpr = module.precomputeExpression(initExpr);\r\n if (getExpressionId(initExpr) != ExpressionId.Const) {\r\n this.warning(\r\n DiagnosticCode.Compiling_constant_with_non_constant_initializer_as_mutable,\r\n initializerNode.range\r\n );\r\n initializeInStart = true;\r\n }\r\n } else {\r\n initializeInStart = true;\r\n }\r\n }\r\n\r\n // explicitly inline if annotated\r\n if (global.hasDecorator(DecoratorFlags.INLINE)) {\r\n if (!initializeInStart) { // reported above\r\n assert(getExpressionId(initExpr) == ExpressionId.Const);\r\n let exprType = getExpressionType(initExpr);\r\n switch (exprType) {\r\n case NativeType.I32: {\r\n global.constantValueKind = ConstantValueKind.INTEGER;\r\n global.constantIntegerValue = i64_new(getConstValueI32(initExpr), 0);\r\n break;\r\n }\r\n case NativeType.I64: {\r\n global.constantValueKind = ConstantValueKind.INTEGER;\r\n global.constantIntegerValue = i64_new(\r\n getConstValueI64Low(initExpr),\r\n getConstValueI64High(initExpr)\r\n );\r\n break;\r\n }\r\n case NativeType.F32: {\r\n global.constantValueKind = ConstantValueKind.FLOAT;\r\n global.constantFloatValue = getConstValueF32(initExpr);\r\n break;\r\n }\r\n case NativeType.F64: {\r\n global.constantValueKind = ConstantValueKind.FLOAT;\r\n global.constantFloatValue = getConstValueF64(initExpr);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n return false;\r\n }\r\n }\r\n global.set(CommonFlags.INLINED); // inline the value from now on\r\n }\r\n }\r\n\r\n // initialize to zero if there's no initializer\r\n } else {\r\n initExpr = global.type.toNativeZero(module);\r\n }\r\n\r\n var internalName = global.internalName;\r\n\r\n if (initializeInStart) { // initialize to mutable zero and set the actual value in start\r\n if (global.hasDecorator(DecoratorFlags.INLINE)) {\r\n this.error(\r\n DiagnosticCode.Decorator_0_is_not_valid_here,\r\n global.identifierNode.range, \"inline\"\r\n );\r\n }\r\n module.addGlobal(internalName, nativeType, true, global.type.toNativeZero(module));\r\n this.currentBody.push(module.createSetGlobal(internalName, initExpr));\r\n\r\n } else if (!global.hasDecorator(DecoratorFlags.INLINE)) { // compile normally\r\n module.addGlobal(internalName, nativeType, !isDeclaredConstant, initExpr);\r\n }\r\n return true;\r\n }\r\n\r\n // enums\r\n\r\n compileEnum(element: Enum): bool {\r\n if (element.is(CommonFlags.COMPILED)) return true;\r\n element.set(CommonFlags.COMPILED);\r\n\r\n var module = this.module;\r\n this.currentEnum = element;\r\n var previousValue: EnumValue | null = null;\r\n var previousValueIsMut = false;\r\n var isInline = element.is(CommonFlags.CONST) || element.hasDecorator(DecoratorFlags.INLINE);\r\n\r\n if (element.members) {\r\n for (let member of element.members.values()) {\r\n if (member.kind != ElementKind.ENUMVALUE) continue; // happens if an enum is also a namespace\r\n let initInStart = false;\r\n let val = member;\r\n let valueNode = val.valueNode;\r\n val.set(CommonFlags.COMPILED);\r\n let previousFlow = this.currentFlow;\r\n if (element.hasDecorator(DecoratorFlags.LAZY)) {\r\n this.currentFlow = element.file.startFunction.flow;\r\n }\r\n let initExpr: ExpressionRef;\r\n if (valueNode) {\r\n initExpr = this.compileExpression(\r\n valueNode,\r\n Type.i32,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n if (getExpressionId(initExpr) != ExpressionId.Const) {\r\n if (element.is(CommonFlags.CONST)) {\r\n initExpr = module.precomputeExpression(initExpr);\r\n if (getExpressionId(initExpr) != ExpressionId.Const) {\r\n this.error(\r\n DiagnosticCode.In_const_enum_declarations_member_initializer_must_be_constant_expression,\r\n valueNode.range\r\n );\r\n initInStart = true;\r\n }\r\n } else {\r\n initInStart = true;\r\n }\r\n }\r\n } else if (previousValue == null) {\r\n initExpr = module.createI32(0);\r\n } else {\r\n if (previousValueIsMut) {\r\n this.error(\r\n DiagnosticCode.Enum_member_must_have_initializer,\r\n (member).identifierNode.range.atEnd\r\n );\r\n }\r\n initExpr = module.createBinary(BinaryOp.AddI32,\r\n module.createGetGlobal(previousValue.internalName, NativeType.I32),\r\n module.createI32(1)\r\n );\r\n initExpr = module.precomputeExpression(initExpr);\r\n if (getExpressionId(initExpr) != ExpressionId.Const) {\r\n if (element.is(CommonFlags.CONST)) {\r\n this.error(\r\n DiagnosticCode.In_const_enum_declarations_member_initializer_must_be_constant_expression,\r\n member.declaration.range\r\n );\r\n }\r\n initInStart = true;\r\n }\r\n }\r\n this.currentFlow = previousFlow;\r\n if (initInStart) {\r\n module.addGlobal(val.internalName, NativeType.I32, true, module.createI32(0));\r\n this.currentBody.push(\r\n module.createSetGlobal(val.internalName, initExpr)\r\n );\r\n previousValueIsMut = true;\r\n } else {\r\n if (isInline) {\r\n val.setConstantIntegerValue(i64_new(getConstValueI32(initExpr)), Type.i32);\r\n if (val.is(CommonFlags.MODULE_EXPORT)) {\r\n module.addGlobal(val.internalName, NativeType.I32, false, initExpr);\r\n }\r\n } else {\r\n module.addGlobal(val.internalName, NativeType.I32, true, initExpr);\r\n }\r\n previousValueIsMut = false;\r\n }\r\n previousValue = val;\r\n }\r\n }\r\n this.currentEnum = null;\r\n return true;\r\n }\r\n\r\n // functions\r\n\r\n /** Resolves the specified type arguments prior to compiling the resulting function instance. */\r\n compileFunctionUsingTypeArguments(\r\n prototype: FunctionPrototype,\r\n typeArguments: TypeNode[],\r\n contextualTypeArguments: Map = makeMap(),\r\n alternativeReportNode: Node | null = null\r\n ): Function | null {\r\n if (prototype.hasDecorator(DecoratorFlags.BUILTIN)) return null;\r\n var instance = this.resolver.resolveFunctionInclTypeArguments(\r\n prototype,\r\n typeArguments,\r\n prototype.parent, // relative to itself\r\n contextualTypeArguments,\r\n alternativeReportNode || prototype.declaration\r\n );\r\n if (!instance) return null;\r\n if (!this.compileFunction(instance)) return null; // reports\r\n return instance;\r\n }\r\n\r\n /** Either reuses or creates the function type matching the specified signature. */\r\n ensureFunctionType(\r\n parameterTypes: Type[] | null,\r\n returnType: Type,\r\n thisType: Type | null = null\r\n ): FunctionTypeRef {\r\n var numParameters = parameterTypes ? parameterTypes.length : 0;\r\n var paramTypes: NativeType[];\r\n var index = 0;\r\n if (thisType) {\r\n paramTypes = new Array(1 + numParameters);\r\n paramTypes[0] = thisType.toNativeType();\r\n index = 1;\r\n } else {\r\n paramTypes = new Array(numParameters);\r\n }\r\n if (parameterTypes) {\r\n for (let i = 0; i < numParameters; ++i, ++index) {\r\n paramTypes[index] = parameterTypes[i].toNativeType();\r\n }\r\n }\r\n var resultType = returnType.toNativeType();\r\n var module = this.module;\r\n var typeRef = module.getFunctionTypeBySignature(resultType, paramTypes);\r\n if (!typeRef) {\r\n let name = Signature.makeSignatureString(parameterTypes, returnType, thisType);\r\n typeRef = module.addFunctionType(name, resultType, paramTypes);\r\n }\r\n return typeRef;\r\n }\r\n\r\n /** Compiles the body of a function within the specified flow. */\r\n private compileFunctionBody(instance: Function): ExpressionRef[] {\r\n var module = this.module;\r\n var bodyNode = assert(instance.prototype.bodyNode);\r\n var returnType = instance.signature.returnType;\r\n var flow = this.currentFlow;\r\n\r\n // compile statements\r\n var stmts: BinaryenExportRef[];\r\n if (bodyNode.kind == NodeKind.BLOCK) {\r\n stmts = this.compileStatements((bodyNode).statements, true);\r\n } else {\r\n // must be an expression statement if not a block\r\n assert(bodyNode.kind == NodeKind.EXPRESSION);\r\n\r\n // must be an arrow function\r\n assert(instance.prototype.arrowKind);\r\n\r\n // none of the following can be an arrow function\r\n assert(!instance.isAny(CommonFlags.CONSTRUCTOR | CommonFlags.GET | CommonFlags.SET | CommonFlags.MAIN));\r\n\r\n let stmt = this.compileExpression(\r\n (bodyNode).expression,\r\n returnType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n flow.set(FlowFlags.RETURNS);\r\n if (!flow.canOverflow(stmt, returnType)) flow.set(FlowFlags.RETURNS_WRAPPED);\r\n stmts = [ stmt ];\r\n }\r\n\r\n // make the main function call `start` implicitly, but only once\r\n if (instance.prototype == this.program.explicitStartFunction) {\r\n module.addGlobal(CompilerSymbols.started, NativeType.I32, true, module.createI32(0));\r\n stmts.unshift(\r\n module.createIf(\r\n module.createUnary(\r\n UnaryOp.EqzI32,\r\n module.createGetGlobal(CompilerSymbols.started, NativeType.I32)\r\n ),\r\n module.createBlock(null, [\r\n module.createCall(\"start\", null, NativeType.None),\r\n module.createSetGlobal(CompilerSymbols.started, module.createI32(1))\r\n ])\r\n )\r\n );\r\n }\r\n\r\n // make constructors return their instance pointer\r\n if (instance.is(CommonFlags.CONSTRUCTOR)) {\r\n let nativeSizeType = this.options.nativeSizeType;\r\n assert(instance.is(CommonFlags.INSTANCE));\r\n let classInstance = assert(instance.parent); assert(classInstance.kind == ElementKind.CLASS);\r\n\r\n if (!flow.isAny(FlowFlags.ANY_TERMINATING)) {\r\n let thisLocalIndex = flow.is(FlowFlags.INLINE_CONTEXT)\r\n ? assert(flow.lookupLocal(CommonSymbols.this_)).index\r\n : 0;\r\n\r\n // if `this` wasn't accessed before, allocate if necessary and initialize `this`\r\n if (!flow.is(FlowFlags.ALLOCATES)) {\r\n // {\r\n // if (!this) this = \r\n // this.a = X\r\n // this.b = Y\r\n // }\r\n stmts.push(\r\n module.createIf(\r\n module.createUnary(nativeSizeType == NativeType.I64 ? UnaryOp.EqzI64 : UnaryOp.EqzI32,\r\n module.createGetLocal(thisLocalIndex, nativeSizeType)\r\n ),\r\n module.createSetLocal(thisLocalIndex,\r\n this.makeAllocation(classInstance)\r\n )\r\n )\r\n );\r\n this.makeFieldInitialization(classInstance, stmts);\r\n }\r\n\r\n // implicitly return `this`\r\n stmts.push(\r\n module.createGetLocal(thisLocalIndex, nativeSizeType)\r\n );\r\n }\r\n\r\n // check that super has been called if this is a derived class\r\n if ((classInstance).base && !flow.is(FlowFlags.CALLS_SUPER)) {\r\n this.error(\r\n DiagnosticCode.Constructors_for_derived_classes_must_contain_a_super_call,\r\n instance.prototype.declaration.range\r\n );\r\n }\r\n\r\n // if this is a normal function, make sure that all branches return\r\n } else if (returnType != Type.void && !flow.is(FlowFlags.RETURNS)) {\r\n this.error(\r\n DiagnosticCode.A_function_whose_declared_type_is_not_void_must_return_a_value,\r\n instance.prototype.signatureNode.returnType.range\r\n );\r\n }\r\n\r\n return stmts;\r\n }\r\n\r\n /** Compiles a readily resolved function instance. */\r\n compileFunction(instance: Function): bool {\r\n if (instance.is(CommonFlags.COMPILED)) return true;\r\n assert(!(instance.is(CommonFlags.AMBIENT) && instance.hasDecorator(DecoratorFlags.BUILTIN)));\r\n instance.set(CommonFlags.COMPILED);\r\n\r\n var module = this.module;\r\n var signature = instance.signature;\r\n var bodyNode = instance.prototype.bodyNode;\r\n\r\n var typeRef = this.ensureFunctionType(signature.parameterTypes, signature.returnType, signature.thisType);\r\n var funcRef: FunctionRef;\r\n\r\n // concrete function\r\n if (bodyNode) {\r\n\r\n // must not be ambient\r\n if (instance.is(CommonFlags.AMBIENT)) {\r\n this.error(\r\n DiagnosticCode.An_implementation_cannot_be_declared_in_ambient_contexts,\r\n instance.identifierNode.range\r\n );\r\n }\r\n\r\n // cannot have an annotated external name\r\n if (instance.hasDecorator(DecoratorFlags.EXTERNAL)) {\r\n let decoratorNodes = instance.decoratorNodes;\r\n let decorator = assert(findDecorator(DecoratorKind.EXTERNAL, decoratorNodes));\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n decorator.range\r\n );\r\n }\r\n\r\n // compile body in this function's context\r\n let previousFlow = this.currentFlow;\r\n this.currentFlow = instance.flow;\r\n let stmts = this.compileFunctionBody(instance);\r\n this.currentFlow = previousFlow;\r\n\r\n // create the function\r\n funcRef = module.addFunction(\r\n instance.internalName,\r\n typeRef,\r\n typesToNativeTypes(instance.additionalLocals),\r\n stmts.length\r\n ? stmts.length == 1\r\n ? stmts[0]\r\n : module.createBlock(null, stmts, instance.signature.returnType.toNativeType())\r\n : module.createNop()\r\n );\r\n\r\n // imported function\r\n } else {\r\n if (!instance.is(CommonFlags.AMBIENT)) {\r\n this.error(\r\n DiagnosticCode.Function_implementation_is_missing_or_not_immediately_following_the_declaration,\r\n instance.identifierNode.range\r\n );\r\n }\r\n\r\n instance.set(CommonFlags.MODULE_IMPORT);\r\n mangleImportName(instance, instance.declaration); // TODO: check for duplicates\r\n\r\n // create the import\r\n funcRef = module.addFunctionImport(\r\n instance.internalName,\r\n mangleImportName_moduleName,\r\n mangleImportName_elementName,\r\n typeRef\r\n );\r\n }\r\n\r\n instance.finalize(module, funcRef);\r\n return true;\r\n }\r\n\r\n // classes\r\n\r\n compileClassUsingTypeArguments(\r\n prototype: ClassPrototype,\r\n typeArguments: TypeNode[],\r\n contextualTypeArguments: Map = makeMap(),\r\n alternativeReportNode: Node | null = null\r\n ): void {\r\n var instance = this.resolver.resolveClassInclTypeArguments(\r\n prototype,\r\n typeArguments,\r\n prototype.parent, // relative to itself\r\n contextualTypeArguments,\r\n alternativeReportNode || prototype.declaration\r\n );\r\n if (!instance) return;\r\n this.compileClass(instance);\r\n }\r\n\r\n compileClass(instance: Class): bool {\r\n if (instance.is(CommonFlags.COMPILED)) return true;\r\n instance.set(CommonFlags.COMPILED);\r\n var prototype = instance.prototype;\r\n var staticMembers = (prototype).members;\r\n if (staticMembers) {\r\n for (let element of staticMembers.values()) {\r\n switch (element.kind) {\r\n case ElementKind.GLOBAL: {\r\n this.compileGlobal(element);\r\n break;\r\n }\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n if (\r\n !(element).is(CommonFlags.GENERIC)\r\n ) {\r\n this.compileFunctionUsingTypeArguments(\r\n element,\r\n [],\r\n makeMap(),\r\n (element).identifierNode\r\n );\r\n }\r\n break;\r\n }\r\n case ElementKind.PROPERTY_PROTOTYPE: {\r\n let getter = (element).getterPrototype;\r\n if (getter) {\r\n this.compileFunctionUsingTypeArguments(\r\n getter,\r\n [],\r\n makeMap(),\r\n getter.identifierNode\r\n );\r\n }\r\n let setter = (element).setterPrototype;\r\n if (setter) {\r\n this.compileFunctionUsingTypeArguments(\r\n setter,\r\n [],\r\n makeMap(),\r\n setter.identifierNode\r\n );\r\n }\r\n break;\r\n }\r\n case ElementKind.PROPERTY: {\r\n }\r\n }\r\n }\r\n }\r\n var ctorInstance = instance.constructorInstance;\r\n if (ctorInstance) this.compileFunction(ctorInstance);\r\n var instanceMembers = instance.members;\r\n if (instanceMembers) {\r\n for (let element of instanceMembers.values()) {\r\n switch (element.kind) {\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n if (\r\n !(element).is(CommonFlags.GENERIC)\r\n ) {\r\n this.compileFunctionUsingTypeArguments(\r\n element,\r\n [],\r\n makeMap(instance.contextualTypeArguments),\r\n (element).declaration.name\r\n );\r\n }\r\n break;\r\n }\r\n case ElementKind.FIELD_PROTOTYPE: {\r\n element.set(CommonFlags.COMPILED);\r\n break;\r\n }\r\n case ElementKind.PROPERTY: {\r\n let getter = (element).getterInstance;\r\n if (getter) this.compileFunction(getter);\r\n let setter = (element).setterInstance;\r\n if (setter) this.compileFunction(setter);\r\n break;\r\n }\r\n }\r\n }\r\n }\r\n return true;\r\n }\r\n\r\n compileInterfaceDeclaration(\r\n declaration: InterfaceDeclaration,\r\n typeArguments: TypeNode[],\r\n contextualTypeArguments: Map | null = null,\r\n alternativeReportNode: Node | null = null\r\n ): void {\r\n // TODO\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n declaration.range\r\n );\r\n }\r\n\r\n // memory\r\n\r\n /** Adds a static memory segment with the specified data. */\r\n addMemorySegment(buffer: Uint8Array, alignment: i32 = 8): MemorySegment {\r\n var memoryOffset = i64_align(this.memoryOffset, alignment);\r\n var segment = MemorySegment.create(buffer, memoryOffset);\r\n this.memorySegments.push(segment);\r\n this.memoryOffset = i64_add(memoryOffset, i64_new(buffer.length, 0));\r\n return segment;\r\n }\r\n\r\n // function table\r\n\r\n /** Ensures that a table entry exists for the specified function and returns its index. */\r\n ensureFunctionTableEntry(func: Function): i32 {\r\n assert(func.is(CommonFlags.COMPILED));\r\n if (func.functionTableIndex >= 0) {\r\n return func.functionTableIndex;\r\n }\r\n var functionTable = this.functionTable;\r\n var index = functionTable.length;\r\n if (!func.is(CommonFlags.TRAMPOLINE) && func.signature.requiredParameters < func.signature.parameterTypes.length) {\r\n // insert the trampoline if the function has optional parameters\r\n func = this.ensureTrampoline(func);\r\n }\r\n functionTable.push(func.internalName);\r\n func.functionTableIndex = index;\r\n return index;\r\n }\r\n\r\n // statements\r\n\r\n compileTopLevelStatement(statement: Statement, body: ExpressionRef[]): void {\r\n switch (statement.kind) {\r\n case NodeKind.CLASSDECLARATION: {\r\n let memberStatements = (statement).members;\r\n for (let i = 0, k = memberStatements.length; i < k; ++i) {\r\n this.compileTopLevelStatement(memberStatements[i], body);\r\n }\r\n break;\r\n }\r\n case NodeKind.ENUMDECLARATION: {\r\n let element = this.program.getElementByDeclaration(statement);\r\n assert(element.kind == ElementKind.ENUM);\r\n if (!element.hasDecorator(DecoratorFlags.LAZY)) this.compileEnum(element);\r\n break;\r\n }\r\n case NodeKind.NAMESPACEDECLARATION: {\r\n let memberStatements = (statement).members;\r\n for (let i = 0, k = memberStatements.length; i < k; ++i) {\r\n this.compileTopLevelStatement(memberStatements[i], body);\r\n }\r\n break;\r\n }\r\n case NodeKind.VARIABLE: {\r\n let declarations = (statement).declarations;\r\n for (let i = 0, k = declarations.length; i < k; ++i) {\r\n let element = this.program.getElementByDeclaration(declarations[i]);\r\n assert(element.kind == ElementKind.GLOBAL);\r\n if (\r\n !element.is(CommonFlags.AMBIENT) && // delay imports\r\n !element.hasDecorator(DecoratorFlags.LAZY)\r\n ) this.compileGlobal(element);\r\n }\r\n break;\r\n }\r\n case NodeKind.FIELDDECLARATION: {\r\n let element = this.program.getElementByDeclaration(statement);\r\n if (element.kind == ElementKind.GLOBAL) { // static\r\n if (!element.hasDecorator(DecoratorFlags.LAZY)) this.compileGlobal(element);\r\n }\r\n break;\r\n }\r\n case NodeKind.EXPORT: {\r\n if ((statement).normalizedPath != null) {\r\n this.compileFileByPath(\r\n (statement).normalizedPath,\r\n (statement).path\r\n );\r\n }\r\n break;\r\n }\r\n case NodeKind.IMPORT: {\r\n this.compileFileByPath(\r\n (statement).normalizedPath,\r\n (statement).path\r\n );\r\n break;\r\n }\r\n case NodeKind.FUNCTIONDECLARATION:\r\n case NodeKind.METHODDECLARATION:\r\n case NodeKind.INTERFACEDECLARATION:\r\n case NodeKind.INDEXSIGNATUREDECLARATION:\r\n case NodeKind.TYPEDECLARATION: break;\r\n default: { // otherwise a top-level statement that is part of the start function's body\r\n let stmt = this.compileStatement(statement);\r\n if (getExpressionId(stmt) != ExpressionId.Nop) body.push(stmt);\r\n break;\r\n }\r\n }\r\n }\r\n\r\n compileStatement(statement: Statement, isLastStatementInBody: bool = false): ExpressionRef {\r\n var module = this.module;\r\n var stmt: ExpressionRef;\r\n switch (statement.kind) {\r\n case NodeKind.BLOCK: {\r\n stmt = this.compileBlockStatement(statement);\r\n break;\r\n }\r\n case NodeKind.BREAK: {\r\n stmt = this.compileBreakStatement(statement);\r\n break;\r\n }\r\n case NodeKind.CONTINUE: {\r\n stmt = this.compileContinueStatement(statement);\r\n break;\r\n }\r\n case NodeKind.DO: {\r\n stmt = this.compileDoStatement(statement);\r\n break;\r\n }\r\n case NodeKind.EMPTY: {\r\n stmt = this.compileEmptyStatement(statement);\r\n break;\r\n }\r\n case NodeKind.EXPRESSION: {\r\n stmt = this.compileExpressionStatement(statement);\r\n break;\r\n }\r\n case NodeKind.FOR: {\r\n stmt = this.compileForStatement(statement);\r\n break;\r\n }\r\n case NodeKind.IF: {\r\n stmt = this.compileIfStatement(statement);\r\n break;\r\n }\r\n case NodeKind.RETURN: {\r\n stmt = this.compileReturnStatement(statement, isLastStatementInBody);\r\n break;\r\n }\r\n case NodeKind.SWITCH: {\r\n stmt = this.compileSwitchStatement(statement);\r\n break;\r\n }\r\n case NodeKind.THROW: {\r\n stmt = this.compileThrowStatement(statement);\r\n break;\r\n }\r\n case NodeKind.TRY: {\r\n stmt = this.compileTryStatement(statement);\r\n break;\r\n }\r\n case NodeKind.VARIABLE: {\r\n stmt = this.compileVariableStatement(statement);\r\n if (!stmt) stmt = module.createNop();\r\n break;\r\n }\r\n case NodeKind.VOID: {\r\n stmt = this.compileVoidStatement(statement);\r\n break;\r\n }\r\n case NodeKind.WHILE: {\r\n stmt = this.compileWhileStatement(statement);\r\n break;\r\n }\r\n case NodeKind.TYPEDECLARATION: {\r\n // TODO: integrate inner type declaration into flow\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n statement.range\r\n );\r\n stmt = module.createUnreachable();\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n stmt = module.createUnreachable();\r\n }\r\n }\r\n if (this.options.sourceMap) this.addDebugLocation(stmt, statement.range);\r\n return stmt;\r\n }\r\n\r\n compileStatements(statements: Statement[], isBody: bool = false): ExpressionRef[] {\r\n var numStatements = statements.length;\r\n var stmts = new Array(numStatements);\r\n stmts.length = 0;\r\n var flow = this.currentFlow;\r\n for (let i = 0; i < numStatements; ++i) {\r\n let stmt = this.compileStatement(statements[i], isBody && i == numStatements - 1);\r\n switch (getExpressionId(stmt)) {\r\n case ExpressionId.Block: {\r\n if (!getBlockName(stmt)) {\r\n for (let j = 0, k = getBlockChildCount(stmt); j < k; ++j) stmts.push(getBlockChild(stmt, j));\r\n break;\r\n }\r\n // fall-through\r\n }\r\n default: stmts.push(stmt);\r\n case ExpressionId.Nop:\r\n }\r\n if (flow.isAny(FlowFlags.ANY_TERMINATING)) {\r\n if (needsExplicitUnreachable(stmt)) stmts.push(this.module.createUnreachable());\r\n break;\r\n }\r\n }\r\n return stmts;\r\n }\r\n\r\n compileBlockStatement(statement: BlockStatement): ExpressionRef {\r\n var statements = statement.statements;\r\n var outerFlow = this.currentFlow;\r\n var innerFlow = outerFlow.fork();\r\n this.currentFlow = innerFlow;\r\n\r\n var stmts = this.compileStatements(statements);\r\n var stmt = stmts.length == 0\r\n ? this.module.createNop()\r\n : stmts.length == 1\r\n ? stmts[0]\r\n : this.module.createBlock(null, stmts,getExpressionType(stmts[stmts.length - 1]));\r\n\r\n innerFlow.freeScopedLocals();\r\n outerFlow.inherit(innerFlow);\r\n this.currentFlow = outerFlow;\r\n return stmt;\r\n }\r\n\r\n compileBreakStatement(statement: BreakStatement): ExpressionRef {\r\n var module = this.module;\r\n if (statement.label) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n statement.label.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n var flow = this.currentFlow;\r\n var breakLabel = flow.breakLabel;\r\n if (breakLabel == null) {\r\n this.error(\r\n DiagnosticCode.A_break_statement_can_only_be_used_within_an_enclosing_iteration_or_switch_statement,\r\n statement.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n flow.set(FlowFlags.BREAKS);\r\n return module.createBreak(breakLabel);\r\n }\r\n\r\n compileContinueStatement(statement: ContinueStatement): ExpressionRef {\r\n var module = this.module;\r\n var label = statement.label;\r\n if (label) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n label.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n // Check if 'continue' is allowed here\r\n var flow = this.currentFlow;\r\n var continueLabel = flow.continueLabel;\r\n if (continueLabel == null) {\r\n this.error(\r\n DiagnosticCode.A_continue_statement_can_only_be_used_within_an_enclosing_iteration_statement,\r\n statement.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n flow.set(FlowFlags.CONTINUES);\r\n return module.createBreak(continueLabel);\r\n }\r\n\r\n compileDoStatement(statement: DoStatement): ExpressionRef {\r\n var module = this.module;\r\n\r\n var outerFlow = this.currentFlow;\r\n var label = outerFlow.pushBreakLabel();\r\n var innerFlow = outerFlow.fork();\r\n this.currentFlow = innerFlow;\r\n var breakLabel = \"break|\" + label;\r\n innerFlow.breakLabel = breakLabel;\r\n var continueLabel = \"continue|\" + label;\r\n innerFlow.continueLabel = continueLabel;\r\n\r\n var body = this.compileStatement(statement.statement);\r\n var condExpr = this.makeIsTrueish(\r\n this.compileExpression(statement.condition, Type.i32, ConversionKind.NONE, WrapMode.NONE),\r\n this.currentType\r\n );\r\n // TODO: check if condition is always false and if so, omit it (just a block)\r\n\r\n // Switch back to the parent flow\r\n innerFlow.freeScopedLocals();\r\n outerFlow.popBreakLabel();\r\n this.currentFlow = outerFlow;\r\n var terminated = innerFlow.isAny(FlowFlags.ANY_TERMINATING);\r\n innerFlow.unset(\r\n FlowFlags.BREAKS |\r\n FlowFlags.CONDITIONALLY_BREAKS |\r\n FlowFlags.CONTINUES |\r\n FlowFlags.CONDITIONALLY_CONTINUES\r\n );\r\n outerFlow.inherit(innerFlow);\r\n\r\n var block: ExpressionRef[] = [\r\n module.createLoop(continueLabel,\r\n terminated\r\n ? body // skip trailing continue if unnecessary\r\n : module.createBlock(null, [\r\n body,\r\n module.createBreak(continueLabel, condExpr)\r\n ], NativeType.None)\r\n )\r\n ];\r\n if (terminated) block.push(module.createUnreachable());\r\n return module.createBlock(breakLabel, block);\r\n }\r\n\r\n compileEmptyStatement(statement: EmptyStatement): ExpressionRef {\r\n return this.module.createNop();\r\n }\r\n\r\n compileExpressionStatement(statement: ExpressionStatement): ExpressionRef {\r\n var expr = this.compileExpression(statement.expression, Type.void, ConversionKind.NONE, WrapMode.NONE);\r\n if (this.currentType != Type.void) {\r\n expr = this.module.createDrop(expr);\r\n this.currentType = Type.void;\r\n }\r\n return expr;\r\n }\r\n\r\n compileForStatement(statement: ForStatement): ExpressionRef {\r\n // A for statement initiates a new branch with its own scoped variables\r\n // possibly declared in its initializer, and break context.\r\n var outerFlow = this.currentFlow;\r\n var label = outerFlow.pushBreakLabel();\r\n var innerFlow = outerFlow.fork();\r\n this.currentFlow = innerFlow;\r\n var breakLabel = innerFlow.breakLabel = \"break|\" + label;\r\n innerFlow.breakLabel = breakLabel;\r\n var continueLabel = \"continue|\" + label;\r\n innerFlow.continueLabel = continueLabel;\r\n var repeatLabel = \"repeat|\" + label;\r\n\r\n // Compile in correct order\r\n var module = this.module;\r\n var initExpr = statement.initializer\r\n ? this.compileStatement(statement.initializer)\r\n : 0;\r\n var condExpr: ExpressionRef = 0;\r\n var alwaysTrue = false;\r\n if (statement.condition) {\r\n condExpr = this.makeIsTrueish(\r\n this.compileExpressionRetainType(statement.condition, Type.bool, WrapMode.NONE),\r\n this.currentType\r\n );\r\n // check if the condition is always true\r\n let condPre = module.precomputeExpression(condExpr);\r\n if (getExpressionId(condPre) == ExpressionId.Const) {\r\n assert(getExpressionType(condPre) == NativeType.I32);\r\n if (getConstValueI32(condPre) != 0) alwaysTrue = true;\r\n // TODO: could skip compilation if the condition is always false here, but beware that the\r\n // initializer could still declare new 'var's that are used later on.\r\n }\r\n // recompile to original\r\n condExpr = this.makeIsTrueish(\r\n this.compileExpressionRetainType(statement.condition, Type.bool, WrapMode.NONE),\r\n this.currentType\r\n );\r\n } else {\r\n // omitted condition is always true\r\n condExpr = module.createI32(1);\r\n alwaysTrue = true;\r\n }\r\n var incrExpr = statement.incrementor\r\n ? this.compileExpression(statement.incrementor, Type.void, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n : 0;\r\n var bodyStatement = statement.statement;\r\n var bodyExpr = bodyStatement.kind == NodeKind.BLOCK && (bodyStatement).statements.length == 1\r\n ? this.compileStatement((bodyStatement).statements[0])\r\n : this.compileStatement(bodyStatement);\r\n\r\n // Switch back to the parent flow\r\n innerFlow.freeScopedLocals();\r\n outerFlow.popBreakLabel();\r\n this.currentFlow = outerFlow;\r\n var usesContinue = innerFlow.isAny(FlowFlags.CONTINUES | FlowFlags.CONDITIONALLY_CONTINUES);\r\n innerFlow.unset(\r\n FlowFlags.BREAKS |\r\n FlowFlags.CONDITIONALLY_BREAKS |\r\n FlowFlags.CONTINUES |\r\n FlowFlags.CONDITIONALLY_CONTINUES\r\n );\r\n if (alwaysTrue) outerFlow.inherit(innerFlow);\r\n else outerFlow.inheritConditional(innerFlow);\r\n\r\n var breakBlock = new Array(); // outer 'break' block\r\n if (initExpr) breakBlock.push(initExpr);\r\n\r\n var repeatBlock = new Array(); // block repeating the loop\r\n if (usesContinue) {\r\n repeatBlock.push(\r\n module.createBlock(continueLabel, [ // inner 'continue' block\r\n module.createBreak(breakLabel, module.createUnary(UnaryOp.EqzI32, condExpr)),\r\n bodyExpr\r\n ], NativeType.None)\r\n );\r\n } else { // can omit the 'continue' block\r\n repeatBlock.push(\r\n module.createBreak(breakLabel, module.createUnary(UnaryOp.EqzI32, condExpr))\r\n );\r\n repeatBlock.push(bodyExpr);\r\n }\r\n if (incrExpr) repeatBlock.push(incrExpr);\r\n repeatBlock.push(\r\n module.createBreak(repeatLabel)\r\n );\r\n\r\n breakBlock.push(\r\n module.createLoop(repeatLabel, module.createBlock(null, repeatBlock, NativeType.None))\r\n );\r\n\r\n return module.createBlock(breakLabel, breakBlock);\r\n }\r\n\r\n compileIfStatement(statement: IfStatement): ExpressionRef {\r\n var module = this.module;\r\n var ifTrue = statement.ifTrue;\r\n var ifFalse = statement.ifFalse;\r\n var outerFlow = this.currentFlow;\r\n var actualFunction = outerFlow.actualFunction;\r\n\r\n // The condition doesn't initiate a branch yet\r\n var condExpr = this.makeIsTrueish(\r\n this.compileExpressionRetainType(statement.condition, Type.bool, WrapMode.NONE),\r\n this.currentType\r\n );\r\n\r\n // Try to eliminate unnecesssary branches if the condition is constant\r\n var condExprPrecomp = module.precomputeExpression(condExpr);\r\n if (\r\n getExpressionId(condExprPrecomp) == ExpressionId.Const &&\r\n getExpressionType(condExprPrecomp) == NativeType.I32\r\n ) {\r\n return getConstValueI32(condExprPrecomp)\r\n ? this.compileStatement(ifTrue)\r\n : ifFalse\r\n ? this.compileStatement(ifFalse)\r\n : module.createNop();\r\n\r\n // Otherwise recompile to the original and let the optimizer decide\r\n } else /* if (condExpr != condExprPrecomp) <- not guaranteed */ {\r\n condExpr = this.makeIsTrueish(\r\n this.compileExpressionRetainType(statement.condition, Type.bool, WrapMode.NONE),\r\n this.currentType\r\n );\r\n }\r\n\r\n // Each arm initiates a branch\r\n var ifTrueFlow = outerFlow.fork();\r\n this.currentFlow = ifTrueFlow;\r\n var ifTrueExpr = this.compileStatement(ifTrue);\r\n ifTrueFlow.freeScopedLocals();\r\n this.currentFlow = outerFlow;\r\n\r\n var ifFalseExpr: ExpressionRef = 0;\r\n if (ifFalse) {\r\n let ifFalseFlow = outerFlow.fork();\r\n this.currentFlow = ifFalseFlow;\r\n ifFalseExpr = this.compileStatement(ifFalse);\r\n ifFalseFlow.freeScopedLocals();\r\n this.currentFlow = outerFlow;\r\n outerFlow.inheritMutual(ifTrueFlow, ifFalseFlow);\r\n } else {\r\n outerFlow.inheritConditional(ifTrueFlow);\r\n }\r\n return module.createIf(condExpr, ifTrueExpr, ifFalseExpr);\r\n }\r\n\r\n compileReturnStatement(statement: ReturnStatement, isLastStatementInBody: bool): ExpressionRef {\r\n var module = this.module;\r\n var expr: ExpressionRef = 0;\r\n var flow = this.currentFlow;\r\n var returnType = flow.returnType;\r\n\r\n // Remember that this flow returns\r\n flow.set(FlowFlags.RETURNS);\r\n\r\n if (statement.value) {\r\n if (returnType == Type.void) {\r\n this.compileExpressionRetainType(statement.value, returnType, WrapMode.NONE);\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n statement.value.range, this.currentType.toString(), returnType.toString()\r\n );\r\n this.currentType = Type.void;\r\n return module.createUnreachable();\r\n }\r\n expr = this.compileExpression(\r\n statement.value,\r\n returnType,\r\n ConversionKind.IMPLICIT,\r\n flow.actualFunction.is(CommonFlags.MODULE_EXPORT)\r\n ? WrapMode.WRAP\r\n : WrapMode.NONE\r\n );\r\n\r\n // Remember whether returning a properly wrapped value\r\n if (!flow.canOverflow(expr, returnType)) flow.set(FlowFlags.RETURNS_WRAPPED);\r\n\r\n } else if (returnType != Type.void) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n statement.range, \"void\", returnType.toString()\r\n );\r\n expr = module.createUnreachable();\r\n }\r\n\r\n // If the last statement anyway, make it the block's return value\r\n if (isLastStatementInBody) return expr ? expr : module.createNop();\r\n\r\n // When inlining, break to the end of the inlined function's block (no need to wrap)\r\n if (flow.is(FlowFlags.INLINE_CONTEXT)) return module.createBreak(assert(flow.inlineReturnLabel), 0, expr);\r\n\r\n return module.createReturn(expr);\r\n }\r\n\r\n compileSwitchStatement(statement: SwitchStatement): ExpressionRef {\r\n var module = this.module;\r\n\r\n var cases = statement.cases;\r\n var numCases = cases.length;\r\n if (!numCases) {\r\n return this.compileExpression(statement.condition, Type.void, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n }\r\n\r\n // Everything within a switch uses the same break context\r\n var outerFlow = this.currentFlow;\r\n var context = outerFlow.pushBreakLabel();\r\n\r\n // introduce a local for evaluating the condition (exactly once)\r\n var tempLocal = outerFlow.getTempLocal(Type.u32, false);\r\n var tempLocalIndex = tempLocal.index;\r\n\r\n // Prepend initializer to inner block. Does not initiate a new branch, yet.\r\n var breaks = new Array(1 + numCases);\r\n breaks[0] = module.createSetLocal( // initializer\r\n tempLocalIndex,\r\n this.compileExpression(statement.condition, Type.u32, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n );\r\n\r\n // make one br_if per (possibly dynamic) labeled case (binaryen optimizes to br_table where possible)\r\n var breakIndex = 1;\r\n var defaultIndex = -1;\r\n for (let i = 0; i < numCases; ++i) {\r\n let case_ = cases[i];\r\n let label = case_.label;\r\n if (label) {\r\n breaks[breakIndex++] = module.createBreak(\"case\" + i.toString(10) + \"|\" + context,\r\n module.createBinary(BinaryOp.EqI32,\r\n module.createGetLocal(tempLocalIndex, NativeType.I32),\r\n this.compileExpression(label, Type.u32, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n )\r\n );\r\n } else {\r\n defaultIndex = i;\r\n }\r\n }\r\n\r\n outerFlow.freeTempLocal(tempLocal);\r\n\r\n // otherwise br to default respectively out of the switch if there is no default case\r\n breaks[breakIndex] = module.createBreak((defaultIndex >= 0\r\n ? \"case\" + defaultIndex.toString(10)\r\n : \"break\"\r\n ) + \"|\" + context);\r\n\r\n // nest blocks in order\r\n var currentBlock = module.createBlock(\"case0|\" + context, breaks, NativeType.None);\r\n var alwaysReturns = true;\r\n var alwaysReturnsWrapped = true;\r\n var alwaysThrows = true;\r\n var alwaysAllocates = true;\r\n for (let i = 0; i < numCases; ++i) {\r\n let case_ = cases[i];\r\n let statements = case_.statements;\r\n let numStatements = statements.length;\r\n\r\n // Each switch case initiates a new branch\r\n let innerFlow = outerFlow.fork();\r\n this.currentFlow = innerFlow;\r\n let breakLabel = \"break|\" + context;\r\n innerFlow.breakLabel = breakLabel;\r\n\r\n let isLast = i == numCases - 1;\r\n let nextLabel = isLast ? breakLabel : \"case\" + (i + 1).toString(10) + \"|\" + context;\r\n let stmts = new Array(1 + numStatements);\r\n stmts[0] = currentBlock;\r\n let count = 1;\r\n let terminated = false;\r\n for (let j = 0; j < numStatements; ++j) {\r\n let stmt = this.compileStatement(statements[j]);\r\n if (getExpressionId(stmt) != ExpressionId.Nop) {\r\n stmts[count++] = stmt;\r\n if (innerFlow.isAny(FlowFlags.ANY_TERMINATING)) {\r\n terminated = true;\r\n break;\r\n }\r\n }\r\n }\r\n stmts.length = count;\r\n if (terminated || isLast) {\r\n if (!innerFlow.is(FlowFlags.RETURNS)) alwaysReturns = false;\r\n if (!innerFlow.is(FlowFlags.RETURNS_WRAPPED)) alwaysReturnsWrapped = false;\r\n if (!innerFlow.is(FlowFlags.THROWS)) alwaysThrows = false;\r\n if (!innerFlow.is(FlowFlags.ALLOCATES)) alwaysAllocates = false;\r\n }\r\n\r\n // Switch back to the parent flow\r\n innerFlow.unset(\r\n FlowFlags.BREAKS |\r\n FlowFlags.CONDITIONALLY_BREAKS\r\n );\r\n innerFlow.freeScopedLocals();\r\n this.currentFlow = outerFlow;\r\n currentBlock = module.createBlock(nextLabel, stmts, NativeType.None); // must be a labeled block\r\n }\r\n outerFlow.popBreakLabel();\r\n\r\n // If the switch has a default (guaranteed to handle any value), propagate common flags\r\n if (defaultIndex >= 0) {\r\n if (alwaysReturns) outerFlow.set(FlowFlags.RETURNS);\r\n if (alwaysReturnsWrapped) outerFlow.set(FlowFlags.RETURNS_WRAPPED);\r\n if (alwaysThrows) outerFlow.set(FlowFlags.THROWS);\r\n if (alwaysAllocates) outerFlow.set(FlowFlags.ALLOCATES);\r\n }\r\n return currentBlock;\r\n }\r\n\r\n compileThrowStatement(statement: ThrowStatement): ExpressionRef {\r\n var flow = this.currentFlow;\r\n\r\n // Remember that this branch throws\r\n flow.set(FlowFlags.THROWS);\r\n\r\n // FIXME: without try-catch it is safe to assume RETURNS as well for now\r\n flow.set(FlowFlags.RETURNS);\r\n\r\n // TODO: requires exception-handling spec.\r\n return compileAbort(this, null, statement);\r\n }\r\n\r\n compileTryStatement(statement: TryStatement): ExpressionRef {\r\n // TODO: can't yet support something like: try { return ... } finally { ... }\r\n // worthwhile to investigate lowering returns to block results (here)?\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n statement.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n /** Compiles a variable statement. Returns `0` if an initializer is not necessary. */\r\n compileVariableStatement(statement: VariableStatement): ExpressionRef {\r\n var declarations = statement.declarations;\r\n var numDeclarations = declarations.length;\r\n var flow = this.currentFlow;\r\n var initializers = new Array();\r\n var resolver = this.resolver;\r\n for (let i = 0; i < numDeclarations; ++i) {\r\n let declaration = declarations[i];\r\n let name = declaration.name.text;\r\n let type: Type | null = null;\r\n let initExpr: ExpressionRef = 0;\r\n if (declaration.type) {\r\n type = resolver.resolveType( // reports\r\n declaration.type,\r\n flow.actualFunction,\r\n flow.contextualTypeArguments\r\n );\r\n if (!type) continue;\r\n if (declaration.initializer) {\r\n initExpr = this.compileExpression( // reports\r\n declaration.initializer,\r\n type,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n } else if (declaration.initializer) { // infer type using void/NONE for proper literal inference\r\n initExpr = this.compileExpressionRetainType( // reports\r\n declaration.initializer,\r\n Type.void,\r\n WrapMode.NONE\r\n );\r\n if (this.currentType == Type.void) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n declaration.range, this.currentType.toString(), \"\"\r\n );\r\n continue;\r\n }\r\n type = this.currentType;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n declaration.name.range.atEnd\r\n );\r\n continue;\r\n }\r\n let isInlined = false;\r\n if (declaration.is(CommonFlags.CONST)) {\r\n if (initExpr) {\r\n initExpr = this.module.precomputeExpression(initExpr);\r\n if (getExpressionId(initExpr) == ExpressionId.Const) {\r\n let local = new Local(name, -1, type, flow.parentFunction);\r\n switch (getExpressionType(initExpr)) {\r\n case NativeType.I32: {\r\n local.setConstantIntegerValue(\r\n i64_new(\r\n getConstValueI32(initExpr),\r\n 0\r\n ),\r\n type\r\n );\r\n break;\r\n }\r\n case NativeType.I64: {\r\n local.setConstantIntegerValue(\r\n i64_new(\r\n getConstValueI64Low(initExpr),\r\n getConstValueI64High(initExpr)\r\n ),\r\n type\r\n );\r\n break;\r\n }\r\n case NativeType.F32: {\r\n local.setConstantFloatValue(getConstValueF32(initExpr), type);\r\n break;\r\n }\r\n case NativeType.F64: {\r\n local.setConstantFloatValue(getConstValueF64(initExpr), type);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n return this.module.createUnreachable();\r\n }\r\n }\r\n // Create a virtual local that doesn't actually exist in WebAssembly\r\n let scopedLocals = flow.scopedLocals;\r\n if (!scopedLocals) flow.scopedLocals = scopedLocals = new Map();\r\n else if (scopedLocals.has(name)) {\r\n this.error(\r\n DiagnosticCode.Duplicate_identifier_0,\r\n declaration.name.range, name\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n scopedLocals.set(name, local);\r\n isInlined = true;\r\n } else {\r\n this.warning(\r\n DiagnosticCode.Compiling_constant_with_non_constant_initializer_as_mutable,\r\n declaration.range\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._const_declarations_must_be_initialized,\r\n declaration.range\r\n );\r\n }\r\n }\r\n if (!isInlined) {\r\n let local: Local;\r\n if (\r\n declaration.isAny(CommonFlags.LET | CommonFlags.CONST) ||\r\n flow.is(FlowFlags.INLINE_CONTEXT)\r\n ) { // here: not top-level\r\n local = flow.addScopedLocal(name, type, false, declaration.name); // reports if duplicate\r\n } else {\r\n if (flow.lookupLocal(name)) {\r\n this.error(\r\n DiagnosticCode.Duplicate_identifier_0,\r\n declaration.name.range, name\r\n );\r\n continue;\r\n }\r\n local = flow.parentFunction.addLocal(type, name, declaration);\r\n }\r\n if (initExpr) {\r\n initializers.push(\r\n this.compileAssignmentWithValue(declaration.name, initExpr)\r\n );\r\n if (local.type.is(TypeFlags.SHORT | TypeFlags.INTEGER)) {\r\n flow.setLocalWrapped(local.index, !flow.canOverflow(initExpr, type));\r\n }\r\n } else if (local.type.is(TypeFlags.SHORT | TypeFlags.INTEGER)) {\r\n flow.setLocalWrapped(local.index, true); // zero\r\n }\r\n }\r\n }\r\n return initializers.length // we can unwrap these here because the\r\n ? initializers.length == 1 // source didn't tell us exactly what to do\r\n ? initializers[0]\r\n : this.module.createBlock(null, initializers, NativeType.None)\r\n : 0;\r\n }\r\n\r\n compileVoidStatement(statement: VoidStatement): ExpressionRef {\r\n return this.compileExpression(statement.expression, Type.void, ConversionKind.EXPLICIT, WrapMode.NONE);\r\n }\r\n\r\n compileWhileStatement(statement: WhileStatement): ExpressionRef {\r\n var module = this.module;\r\n var outerFlow = this.currentFlow;\r\n\r\n // The condition does not yet initialize a branch\r\n var condExpr = this.makeIsTrueish(\r\n this.compileExpressionRetainType(statement.condition, Type.bool, WrapMode.NONE),\r\n this.currentType\r\n );\r\n\r\n // Try to eliminate unnecesssary loops if the condition is constant\r\n var condExprPrecomp = module.precomputeExpression(condExpr);\r\n if (\r\n getExpressionId(condExprPrecomp) == ExpressionId.Const &&\r\n getExpressionType(condExprPrecomp) == NativeType.I32\r\n ) {\r\n if (!getConstValueI32(condExprPrecomp)) return module.createNop();\r\n\r\n // Otherwise recompile to the original and let the optimizer decide\r\n } else /* if (condExpr != condExprPrecomp) <- not guaranteed */ {\r\n condExpr = this.makeIsTrueish(\r\n this.compileExpressionRetainType(statement.condition, Type.bool, WrapMode.NONE),\r\n this.currentType\r\n );\r\n }\r\n\r\n // Statements initiate a new branch with its own break context\r\n var label = outerFlow.pushBreakLabel();\r\n var innerFlow = outerFlow.fork();\r\n this.currentFlow = innerFlow;\r\n var breakLabel = \"break|\" + label;\r\n innerFlow.breakLabel = breakLabel;\r\n var continueLabel = \"continue|\" + label;\r\n innerFlow.continueLabel = continueLabel;\r\n\r\n var body = this.compileStatement(statement.statement);\r\n var alwaysTrue = false; // TODO\r\n var terminated = innerFlow.isAny(FlowFlags.ANY_TERMINATING);\r\n\r\n // Switch back to the parent flow\r\n innerFlow.freeScopedLocals();\r\n outerFlow.popBreakLabel();\r\n this.currentFlow = outerFlow;\r\n innerFlow.unset(\r\n FlowFlags.BREAKS |\r\n FlowFlags.CONDITIONALLY_BREAKS |\r\n FlowFlags.CONTINUES |\r\n FlowFlags.CONDITIONALLY_CONTINUES\r\n );\r\n if (alwaysTrue) outerFlow.inherit(innerFlow);\r\n else outerFlow.inheritConditional(innerFlow);\r\n\r\n return module.createBlock(breakLabel, [\r\n module.createLoop(continueLabel,\r\n module.createIf(condExpr,\r\n terminated\r\n ? body // skip trailing continue if unnecessary\r\n : module.createBlock(null, [\r\n body,\r\n module.createBreak(continueLabel)\r\n ], NativeType.None)\r\n )\r\n )\r\n ]);\r\n }\r\n\r\n // expressions\r\n\r\n /**\r\n * Compiles the value of an inlined constant element.\r\n * @param retainType If true, the annotated type of the constant is retained. Otherwise, the value\r\n * is precomputed according to context.\r\n */\r\n compileInlineConstant(\r\n element: VariableLikeElement,\r\n contextualType: Type,\r\n retainType: bool\r\n ): ExpressionRef {\r\n assert(element.is(CommonFlags.INLINED));\r\n var type = element.type;\r\n switch (\r\n !retainType &&\r\n type.is(TypeFlags.INTEGER) &&\r\n contextualType.is(TypeFlags.INTEGER) &&\r\n type.size < contextualType.size\r\n ? (this.currentType = contextualType).kind // essentially precomputes a (sign-)extension\r\n : (this.currentType = type).kind\r\n ) {\r\n case TypeKind.I8:\r\n case TypeKind.I16: {\r\n let shift = type.computeSmallIntegerShift(Type.i32);\r\n return this.module.createI32(\r\n element.constantValueKind == ConstantValueKind.INTEGER\r\n ? i64_low(element.constantIntegerValue) << shift >> shift\r\n : 0\r\n ); // recognized by canOverflow\r\n }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n let mask = element.type.computeSmallIntegerMask(Type.i32);\r\n return this.module.createI32(\r\n element.constantValueKind == ConstantValueKind.INTEGER\r\n ? i64_low(element.constantIntegerValue) & mask\r\n : 0\r\n ); // recognized by canOverflow\r\n }\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n return this.module.createI32(\r\n element.constantValueKind == ConstantValueKind.INTEGER\r\n ? i64_low(element.constantIntegerValue)\r\n : 0\r\n );\r\n }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n if (!element.program.options.isWasm64) {\r\n return this.module.createI32(\r\n element.constantValueKind == ConstantValueKind.INTEGER\r\n ? i64_low(element.constantIntegerValue)\r\n : 0\r\n );\r\n }\r\n // fall-through\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n return element.constantValueKind == ConstantValueKind.INTEGER\r\n ? this.module.createI64(\r\n i64_low(element.constantIntegerValue),\r\n i64_high(element.constantIntegerValue)\r\n )\r\n : this.module.createI64(0);\r\n }\r\n case TypeKind.F64: {\r\n // monkey-patch for converting built-in floats to f32 implicitly\r\n if (!(element.hasDecorator(DecoratorFlags.BUILTIN) && contextualType == Type.f32)) {\r\n return this.module.createF64((element).constantFloatValue);\r\n }\r\n // otherwise fall-through: basically precomputes f32.demote/f64 of NaN / Infinity\r\n this.currentType = Type.f32;\r\n }\r\n case TypeKind.F32: {\r\n return this.module.createF32((element).constantFloatValue);\r\n }\r\n default: {\r\n assert(false);\r\n return this.module.createUnreachable();\r\n }\r\n }\r\n }\r\n\r\n compileExpression(\r\n expression: Expression,\r\n contextualType: Type,\r\n conversionKind: ConversionKind,\r\n wrapMode: WrapMode\r\n ): ExpressionRef {\r\n this.currentType = contextualType;\r\n var expr: ExpressionRef;\r\n switch (expression.kind) {\r\n case NodeKind.ASSERTION: {\r\n expr = this.compileAssertionExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.BINARY: {\r\n expr = this.compileBinaryExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.CALL: {\r\n expr = this.compileCallExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.COMMA: {\r\n expr = this.compileCommaExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.ELEMENTACCESS: {\r\n expr = this.compileElementAccessExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.FUNCTION: {\r\n expr = this.compileFunctionExpression(expression, contextualType.signatureReference);\r\n break;\r\n }\r\n case NodeKind.IDENTIFIER:\r\n case NodeKind.FALSE:\r\n case NodeKind.NULL:\r\n case NodeKind.THIS:\r\n case NodeKind.SUPER:\r\n case NodeKind.TRUE: {\r\n expr = this.compileIdentifierExpression(\r\n expression,\r\n contextualType,\r\n conversionKind == ConversionKind.NONE // retain type of inlined constants\r\n );\r\n break;\r\n }\r\n case NodeKind.INSTANCEOF: {\r\n expr = this.compileInstanceOfExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.LITERAL: {\r\n expr = this.compileLiteralExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.NEW: {\r\n expr = this.compileNewExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.PARENTHESIZED: {\r\n expr = this.compileParenthesizedExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.PROPERTYACCESS: {\r\n expr = this.compilePropertyAccessExpression(\r\n expression,\r\n contextualType,\r\n conversionKind == ConversionKind.NONE // retain type of inlined constants\r\n );\r\n break;\r\n }\r\n case NodeKind.TERNARY: {\r\n expr = this.compileTernaryExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.UNARYPOSTFIX: {\r\n expr = this.compileUnaryPostfixExpression(expression, contextualType);\r\n break;\r\n }\r\n case NodeKind.UNARYPREFIX: {\r\n expr = this.compileUnaryPrefixExpression(expression, contextualType);\r\n break;\r\n }\r\n default: {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n expr = this.module.createUnreachable();\r\n }\r\n }\r\n var currentType = this.currentType;\r\n if (conversionKind != ConversionKind.NONE && currentType != contextualType) {\r\n expr = this.convertExpression(expr, currentType, contextualType, conversionKind, wrapMode, expression);\r\n this.currentType = contextualType;\r\n } else if (wrapMode == WrapMode.WRAP) {\r\n expr = this.ensureSmallIntegerWrap(expr, currentType);\r\n }\r\n\r\n if (this.options.sourceMap) this.addDebugLocation(expr, expression.range);\r\n return expr;\r\n }\r\n\r\n compileExpressionRetainType(\r\n expression: Expression,\r\n contextualType: Type,\r\n wrapMode: WrapMode\r\n ): ExpressionRef {\r\n return this.compileExpression(\r\n expression,\r\n contextualType == Type.void\r\n ? Type.i32\r\n : contextualType,\r\n ConversionKind.NONE,\r\n wrapMode\r\n );\r\n }\r\n\r\n precomputeExpression(\r\n expression: Expression,\r\n contextualType: Type,\r\n conversionKind: ConversionKind,\r\n wrapMode: WrapMode\r\n ): ExpressionRef {\r\n return this.module.precomputeExpression(\r\n this.compileExpression(expression, contextualType, conversionKind, wrapMode)\r\n );\r\n }\r\n\r\n convertExpression(\r\n expr: ExpressionRef,\r\n fromType: Type,\r\n toType: Type,\r\n conversionKind: ConversionKind,\r\n wrapMode: WrapMode,\r\n reportNode: Node\r\n ): ExpressionRef {\r\n assert(conversionKind != ConversionKind.NONE);\r\n var module = this.module;\r\n\r\n // void to any\r\n if (fromType.kind == TypeKind.VOID) {\r\n assert(toType.kind != TypeKind.VOID); // convertExpression should not be called with void -> void\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n reportNode.range, fromType.toString(), toType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n\r\n // any to void\r\n if (toType.kind == TypeKind.VOID) return module.createDrop(expr);\r\n\r\n if (!fromType.isAssignableTo(toType)) {\r\n if (conversionKind == ConversionKind.IMPLICIT) {\r\n this.error(\r\n DiagnosticCode.Conversion_from_type_0_to_1_requires_an_explicit_cast,\r\n reportNode.range, fromType.toString(), toType.toString()\r\n ); // recoverable\r\n }\r\n }\r\n\r\n if (fromType.is(TypeFlags.FLOAT)) {\r\n\r\n // float to float\r\n if (toType.is(TypeFlags.FLOAT)) {\r\n if (fromType.kind == TypeKind.F32) {\r\n\r\n // f32 to f64\r\n if (toType.kind == TypeKind.F64) {\r\n expr = module.createUnary(UnaryOp.PromoteF32, expr);\r\n }\r\n\r\n // otherwise f32 to f32\r\n\r\n // f64 to f32\r\n } else if (toType.kind == TypeKind.F32) {\r\n expr = module.createUnary(UnaryOp.DemoteF64, expr);\r\n }\r\n\r\n // otherwise f64 to f64\r\n\r\n // float to int\r\n } else if (toType.is(TypeFlags.INTEGER)) {\r\n\r\n // f32 to int\r\n if (fromType.kind == TypeKind.F32) {\r\n if (toType == Type.bool) {\r\n expr = module.createBinary(BinaryOp.NeF32, expr, module.createF32(0));\r\n wrapMode = WrapMode.NONE;\r\n } else if (toType.is(TypeFlags.SIGNED)) {\r\n if (toType.is(TypeFlags.LONG)) {\r\n expr = module.createUnary(UnaryOp.TruncF32ToI64, expr);\r\n } else {\r\n expr = module.createUnary(UnaryOp.TruncF32ToI32, expr);\r\n }\r\n } else {\r\n if (toType.is(TypeFlags.LONG)) {\r\n expr = module.createUnary(UnaryOp.TruncF32ToU64, expr);\r\n } else {\r\n expr = module.createUnary(UnaryOp.TruncF32ToU32, expr);\r\n }\r\n }\r\n\r\n // f64 to int\r\n } else {\r\n if (toType == Type.bool) {\r\n expr = module.createBinary(BinaryOp.NeF64, expr, module.createF64(0));\r\n wrapMode = WrapMode.NONE;\r\n } else if (toType.is(TypeFlags.SIGNED)) {\r\n if (toType.is(TypeFlags.LONG)) {\r\n expr = module.createUnary(UnaryOp.TruncF64ToI64, expr);\r\n } else {\r\n expr = module.createUnary(UnaryOp.TruncF64ToI32, expr);\r\n }\r\n } else {\r\n if (toType.is(TypeFlags.LONG)) {\r\n expr = module.createUnary(UnaryOp.TruncF64ToU64, expr);\r\n } else {\r\n expr = module.createUnary(UnaryOp.TruncF64ToU32, expr);\r\n }\r\n }\r\n }\r\n\r\n // float to void\r\n } else {\r\n assert(toType.flags == TypeFlags.NONE, \"void type expected\");\r\n expr = module.createDrop(expr);\r\n }\r\n\r\n // int to float\r\n } else if (fromType.is(TypeFlags.INTEGER) && toType.is(TypeFlags.FLOAT)) {\r\n\r\n // int to f32\r\n if (toType.kind == TypeKind.F32) {\r\n if (fromType.is(TypeFlags.LONG)) {\r\n expr = module.createUnary(\r\n fromType.is(TypeFlags.SIGNED)\r\n ? UnaryOp.ConvertI64ToF32\r\n : UnaryOp.ConvertU64ToF32,\r\n expr\r\n );\r\n } else {\r\n expr = module.createUnary(\r\n fromType.is(TypeFlags.SIGNED)\r\n ? UnaryOp.ConvertI32ToF32\r\n : UnaryOp.ConvertU32ToF32,\r\n expr\r\n );\r\n }\r\n\r\n // int to f64\r\n } else {\r\n if (fromType.is(TypeFlags.LONG)) {\r\n expr = module.createUnary(\r\n fromType.is(TypeFlags.SIGNED)\r\n ? UnaryOp.ConvertI64ToF64\r\n : UnaryOp.ConvertU64ToF64,\r\n expr\r\n );\r\n } else {\r\n expr = module.createUnary(\r\n fromType.is(TypeFlags.SIGNED)\r\n ? UnaryOp.ConvertI32ToF64\r\n : UnaryOp.ConvertU32ToF64,\r\n expr\r\n );\r\n }\r\n }\r\n\r\n // int to int\r\n } else {\r\n // i64 to ...\r\n if (fromType.is(TypeFlags.LONG)) {\r\n\r\n // i64 to i32 or smaller\r\n if (toType == Type.bool) {\r\n expr = module.createBinary(BinaryOp.NeI64, expr, module.createI64(0));\r\n wrapMode = WrapMode.NONE;\r\n } else if (!toType.is(TypeFlags.LONG)) {\r\n expr = module.createUnary(UnaryOp.WrapI64, expr); // discards upper bits\r\n }\r\n\r\n // i32 or smaller to i64\r\n } else if (toType.is(TypeFlags.LONG)) {\r\n expr = module.createUnary(\r\n fromType.is(TypeFlags.SIGNED) ? UnaryOp.ExtendI32 : UnaryOp.ExtendU32,\r\n this.ensureSmallIntegerWrap(expr, fromType) // must clear garbage bits\r\n );\r\n wrapMode = WrapMode.NONE;\r\n\r\n // i32 to i32\r\n } else {\r\n // small i32 to ...\r\n if (fromType.is(TypeFlags.SHORT)) {\r\n // small i32 to larger i32\r\n if (fromType.size < toType.size) {\r\n expr = this.ensureSmallIntegerWrap(expr, fromType); // must clear garbage bits\r\n wrapMode = WrapMode.NONE;\r\n }\r\n }\r\n }\r\n }\r\n\r\n this.currentType = toType;\r\n return wrapMode == WrapMode.WRAP\r\n ? this.ensureSmallIntegerWrap(expr, toType)\r\n : expr;\r\n }\r\n\r\n compileAssertionExpression(expression: AssertionExpression, contextualType: Type): ExpressionRef {\r\n switch (expression.assertionKind) {\r\n case AssertionKind.PREFIX:\r\n case AssertionKind.AS: {\r\n let toType = this.resolver.resolveType( // reports\r\n assert(expression.toType),\r\n this.currentFlow.actualFunction,\r\n this.currentFlow.contextualTypeArguments\r\n );\r\n if (!toType) return this.module.createUnreachable();\r\n return this.compileExpression(expression.expression, toType, ConversionKind.EXPLICIT, WrapMode.NONE);\r\n }\r\n case AssertionKind.NONNULL: {\r\n assert(!expression.toType);\r\n let expr = this.compileExpressionRetainType(expression.expression, contextualType, WrapMode.NONE);\r\n this.currentType = this.currentType.nonNullableType;\r\n return expr;\r\n }\r\n default: assert(false);\r\n }\r\n return this.module.createUnreachable();\r\n }\r\n\r\n private f32ModInstance: Function | null = null;\r\n private f64ModInstance: Function | null = null;\r\n private f32PowInstance: Function | null = null;\r\n private f64PowInstance: Function | null = null;\r\n\r\n compileBinaryExpression(\r\n expression: BinaryExpression,\r\n contextualType: Type\r\n ): ExpressionRef {\r\n var module = this.module;\r\n var left = expression.left;\r\n var right = expression.right;\r\n\r\n var leftExpr: ExpressionRef;\r\n var leftType: Type;\r\n var rightExpr: ExpressionRef;\r\n var rightType: Type;\r\n var commonType: Type | null;\r\n\r\n var expr: ExpressionRef;\r\n var compound = false;\r\n\r\n var operator = expression.operator;\r\n switch (operator) {\r\n case Token.LESSTHAN: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.LT);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, true)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \"<\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n switch (commonType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32: {\r\n expr = module.createBinary(BinaryOp.LtI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I64: {\r\n expr = module.createBinary(BinaryOp.LtI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.LtI64\r\n : BinaryOp.LtI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.LtU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.LtU64\r\n : BinaryOp.LtU32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.LtU64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.LtF32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.LtF64, leftExpr, rightExpr);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n this.currentType = Type.bool;\r\n break;\r\n }\r\n case Token.GREATERTHAN: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.GT);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, true)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \">\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n switch (commonType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32: {\r\n expr = module.createBinary(BinaryOp.GtI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.GtI64\r\n : BinaryOp.GtI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64: {\r\n expr = module.createBinary(BinaryOp.GtI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.GtU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.GtU64\r\n : BinaryOp.GtU32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.GtU64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.GtF32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.GtF64, leftExpr, rightExpr);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n this.currentType = Type.bool;\r\n break;\r\n }\r\n case Token.LESSTHAN_EQUALS: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.LE);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, true)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \"<=\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n switch (commonType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32: {\r\n expr = module.createBinary(BinaryOp.LeI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.LeI64\r\n : BinaryOp.LeI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64: {\r\n expr = module.createBinary(BinaryOp.LeI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.LeU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.LeU64\r\n : BinaryOp.LeU32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.LeU64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.LeF32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.LeF64, leftExpr, rightExpr);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n this.currentType = Type.bool;\r\n break;\r\n }\r\n case Token.GREATERTHAN_EQUALS: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.GE);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, true)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \">=\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n switch (commonType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32: {\r\n expr = module.createBinary(BinaryOp.GeI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.GeI64\r\n : BinaryOp.GeI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64: {\r\n expr = module.createBinary(BinaryOp.GeI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.GeU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.GeU64\r\n : BinaryOp.GeU32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.GeU64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.GeF32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.GeF64, leftExpr, rightExpr);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n this.currentType = Type.bool;\r\n break;\r\n }\r\n\r\n case Token.EQUALS_EQUALS_EQUALS:\r\n case Token.EQUALS_EQUALS: {\r\n\r\n // NOTE that this favors correctness, in terms of emitting a binary expression, over\r\n // checking for a possible use of unary EQZ. while the most classic of all optimizations,\r\n // that's not what the source told us to do. for reference, `!left` emits unary EQZ.\r\n\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (operator == Token.EQUALS_EQUALS && this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.EQ);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n // still allow '==' with references\r\n }\r\n\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, false)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, operatorTokenToString(expression.operator), leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n switch (commonType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.EqI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.EqI64\r\n : BinaryOp.EqI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.EqI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.EqF32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.EqF64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.V128: {\r\n expr = module.createUnary(UnaryOp.AllTrueVecI8x16,\r\n module.createBinary(BinaryOp.EqVecI8x16, leftExpr, rightExpr)\r\n );\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n this.currentType = Type.bool;\r\n break;\r\n }\r\n case Token.EXCLAMATION_EQUALS_EQUALS:\r\n case Token.EXCLAMATION_EQUALS: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (operator == Token.EXCLAMATION_EQUALS && this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.NE);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n // still allow '!=' with references\r\n }\r\n\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, false)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, operatorTokenToString(expression.operator), leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n switch (commonType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.NeI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.NeI64\r\n : BinaryOp.NeI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.NeI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.NeF32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.NeF64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.V128: {\r\n expr = module.createUnary(UnaryOp.AnyTrueVecI8x16,\r\n module.createBinary(BinaryOp.NeVecI8x16, leftExpr, rightExpr)\r\n );\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n this.currentType = Type.bool;\r\n break;\r\n }\r\n case Token.EQUALS: {\r\n return this.compileAssignment(left, right, contextualType);\r\n }\r\n case Token.PLUS_EQUALS: compound = true;\r\n case Token.PLUS: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.ADD);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n if (compound) {\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n } else {\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, false)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \"+\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n }\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8: // addition might overflow\r\n case TypeKind.I16: // ^\r\n case TypeKind.U8: // ^\r\n case TypeKind.U16: // ^\r\n case TypeKind.BOOL: // ^\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.AddI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.AddI64\r\n : BinaryOp.AddI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.AddI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.AddF32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.AddF64, leftExpr, rightExpr);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.MINUS_EQUALS: compound = true;\r\n case Token.MINUS: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.SUB);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n if (compound) {\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n rightType = this.currentType;\r\n } else {\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, false)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \"-\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n }\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8: // subtraction might overflow\r\n case TypeKind.I16: // ^\r\n case TypeKind.U8: // ^\r\n case TypeKind.U16: // ^\r\n case TypeKind.BOOL: // ^\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.SubI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.SubI64\r\n : BinaryOp.SubI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.SubI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.SubF32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.SubF64, leftExpr, rightExpr);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.ASTERISK_EQUALS: compound = true;\r\n case Token.ASTERISK: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.MUL);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n if (compound) {\r\n leftExpr = this.ensureSmallIntegerWrap(leftExpr, leftType);\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.WRAP);\r\n } else {\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, false)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \"*\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n }\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL:\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.MulI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.MulI64\r\n : BinaryOp.MulI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.MulI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.MulF32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.MulF64, leftExpr, rightExpr);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.ASTERISK_ASTERISK_EQUALS: compound = true;\r\n case Token.ASTERISK_ASTERISK: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.POW);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n let instance: Function | null;\r\n\r\n // Mathf.pow if lhs is f32 (result is f32)\r\n if (this.currentType.kind == TypeKind.F32) {\r\n rightExpr = this.compileExpression(right, Type.f32, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (!(instance = this.f32PowInstance)) {\r\n let namespace = this.program.lookupGlobal(LibrarySymbols.Mathf);\r\n if (!namespace) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n expression.range, \"Mathf\"\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n let prototype = namespace.members ? namespace.members.get(LibrarySymbols.pow) : null;\r\n if (!prototype) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n expression.range, \"Mathf.pow\"\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n assert(prototype.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n this.f32PowInstance = instance = this.resolver.resolveFunction(prototype, null);\r\n }\r\n\r\n // Math.pow otherwise (result is f64)\r\n // TODO: should the result be converted back?\r\n } else {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n this.currentType,\r\n Type.f64,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n left\r\n );\r\n leftType = this.currentType;\r\n rightExpr = this.compileExpression(\r\n right,\r\n Type.f64,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n rightType = this.currentType;\r\n if (!(instance = this.f64PowInstance)) {\r\n let namespace = this.program.lookupGlobal(LibrarySymbols.Math);\r\n if (!namespace) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n expression.range, \"Math\"\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n let prototype = namespace.members ? namespace.members.get(LibrarySymbols.pow) : null;\r\n if (!prototype) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n expression.range, \"Math.pow\"\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n assert(prototype.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n this.f64PowInstance = instance = this.resolver.resolveFunction(prototype, null);\r\n }\r\n }\r\n if (!(instance && this.compileFunction(instance))) {\r\n expr = module.createUnreachable();\r\n } else {\r\n expr = this.makeCallDirect(instance, [ leftExpr, rightExpr ]);\r\n }\r\n break;\r\n }\r\n case Token.SLASH_EQUALS: compound = true;\r\n case Token.SLASH: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.DIV);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n if (compound) {\r\n leftExpr = this.ensureSmallIntegerWrap(leftExpr, leftType);\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.WRAP);\r\n rightType = this.currentType;\r\n } else {\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, false)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP, // !\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP, // !\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \"/\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n }\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8: // signed div on signed small integers might overflow, e.g. -128/-1\r\n case TypeKind.I16: // ^\r\n case TypeKind.I32: {\r\n expr = module.createBinary(BinaryOp.DivI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.DivI64\r\n : BinaryOp.DivI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64: {\r\n expr = module.createBinary(BinaryOp.DivI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.DivU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.DivU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.DivU64\r\n : BinaryOp.DivU32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.DivU64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.DivF32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.DivF64, leftExpr, rightExpr);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.PERCENT_EQUALS: compound = true;\r\n case Token.PERCENT: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.REM);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n if (compound) {\r\n leftExpr = this.ensureSmallIntegerWrap(leftExpr, leftType);\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.WRAP);\r\n rightType = this.currentType;\r\n } else {\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, false)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP, // !\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP, // !\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \"%\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n }\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16: {\r\n expr = module.createBinary(BinaryOp.RemI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I32: {\r\n expr = module.createBinary(BinaryOp.RemI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.RemI64\r\n : BinaryOp.RemI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64: {\r\n expr = module.createBinary(BinaryOp.RemI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.RemU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.RemU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.RemU64\r\n : BinaryOp.RemU32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.RemU64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n let instance = this.f32ModInstance;\r\n if (!instance) {\r\n let namespace = this.program.lookupGlobal(LibrarySymbols.Mathf);\r\n if (!namespace) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n expression.range, \"Mathf\"\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n let prototype = namespace.members ? namespace.members.get(LibrarySymbols.mod) : null;\r\n if (!prototype) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n expression.range, \"Mathf.mod\"\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n assert(prototype.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n this.f32ModInstance = instance = this.resolver.resolveFunction(prototype, null);\r\n }\r\n if (!(instance && this.compileFunction(instance))) {\r\n expr = module.createUnreachable();\r\n } else {\r\n expr = this.makeCallDirect(instance, [ leftExpr, rightExpr ]);\r\n }\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n let instance = this.f64ModInstance;\r\n if (!instance) {\r\n let namespace = this.program.lookupGlobal(LibrarySymbols.Math);\r\n if (!namespace) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n expression.range, \"Math\"\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n let prototype = namespace.members ? namespace.members.get(LibrarySymbols.mod) : null;\r\n if (!prototype) {\r\n this.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n expression.range, \"Math.mod\"\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n assert(prototype.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n this.f64ModInstance = instance = this.resolver.resolveFunction(prototype, null);\r\n }\r\n if (!(instance && this.compileFunction(instance))) {\r\n expr = module.createUnreachable();\r\n } else {\r\n expr = this.makeCallDirect(instance, [ leftExpr, rightExpr ]);\r\n }\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.LESSTHAN_LESSTHAN_EQUALS: compound = true;\r\n case Token.LESSTHAN_LESSTHAN: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType.intType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.BITWISE_SHL);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n rightType = this.currentType;\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL:\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.ShlI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.ShlI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.ShlI64\r\n : BinaryOp.ShlI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.F32:\r\n case TypeKind.F64: {\r\n this.error(\r\n DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,\r\n expression.range, operatorTokenToString(expression.operator), this.currentType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.GREATERTHAN_GREATERTHAN_EQUALS: compound = true;\r\n case Token.GREATERTHAN_GREATERTHAN: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType.intType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.BITWISE_SHR);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n leftExpr = this.ensureSmallIntegerWrap(leftExpr, leftType); // must clear garbage bits\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.WRAP);\r\n rightType = this.currentType;\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16: {\r\n expr = module.createBinary(BinaryOp.ShrI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I32: {\r\n expr = module.createBinary(BinaryOp.ShrI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I64: {\r\n expr = module.createBinary(BinaryOp.ShrI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.ShrI64\r\n : BinaryOp.ShrI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.ShrU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.ShrU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.ShrU64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.ShrU64\r\n : BinaryOp.ShrU32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.F32:\r\n case TypeKind.F64: {\r\n this.error(\r\n DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,\r\n expression.range, operatorTokenToString(expression.operator), this.currentType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.GREATERTHAN_GREATERTHAN_GREATERTHAN_EQUALS: compound = true;\r\n case Token.GREATERTHAN_GREATERTHAN_GREATERTHAN: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType.intType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.BITWISE_SHR_U);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n leftExpr = this.ensureSmallIntegerWrap(leftExpr, leftType); // must clear garbage bits\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n rightType = this.currentType;\r\n switch (this.currentType.kind) {\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: { // assumes that unsigned shr on unsigned small integers does not overflow\r\n expr = module.createBinary(BinaryOp.ShrU32, leftExpr, rightExpr);\r\n }\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.ShrU32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.ShrU64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.ShrU64\r\n : BinaryOp.ShrU32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.F32:\r\n case TypeKind.F64: {\r\n this.error(\r\n DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,\r\n expression.range, operatorTokenToString(expression.operator), this.currentType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.AMPERSAND_EQUALS: compound = true;\r\n case Token.AMPERSAND: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType.intType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overloadd\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.BITWISE_AND);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n if (compound) {\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n rightType = this.currentType;\r\n } else {\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, false)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \"&\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n }\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL:\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.AndI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.AndI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.AndI64\r\n : BinaryOp.AndI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.F32:\r\n case TypeKind.F64: {\r\n this.error(\r\n DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,\r\n expression.range, operatorTokenToString(expression.operator), this.currentType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.BAR_EQUALS: compound = true;\r\n case Token.BAR: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType.intType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.BITWISE_OR);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n if (compound) {\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n rightType = this.currentType;\r\n } else {\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, false)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \"|\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n }\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.OrI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.OrI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.OrI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.OrI64\r\n : BinaryOp.OrI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.F32:\r\n case TypeKind.F64: {\r\n this.error(\r\n DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,\r\n expression.range, operatorTokenToString(expression.operator), this.currentType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.CARET_EQUALS: compound = true;\r\n case Token.CARET: {\r\n leftExpr = this.compileExpressionRetainType(left, contextualType.intType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = leftType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.BITWISE_XOR);\r\n if (overload) {\r\n expr = this.compileBinaryOverload(overload, left, leftExpr, right, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n if (compound) {\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n rightType = this.currentType;\r\n } else {\r\n rightExpr = this.compileExpressionRetainType(right, leftType, WrapMode.NONE);\r\n rightType = this.currentType;\r\n if (commonType = Type.commonDenominator(leftType, rightType, false)) {\r\n leftExpr = this.convertExpression(\r\n leftExpr,\r\n leftType,\r\n leftType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n left\r\n );\r\n rightExpr = this.convertExpression(\r\n rightExpr,\r\n rightType,\r\n rightType = commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n right\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operator_0_cannot_be_applied_to_types_1_and_2,\r\n expression.range, \"^\", leftType.toString(), rightType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n }\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.XorI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.XorI32, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.XorI64, leftExpr, rightExpr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.XorI64\r\n : BinaryOp.XorI32,\r\n leftExpr,\r\n rightExpr\r\n );\r\n break;\r\n }\r\n case TypeKind.F32:\r\n case TypeKind.F64: {\r\n this.error(\r\n DiagnosticCode.The_0_operator_cannot_be_applied_to_type_1,\r\n expression.range, operatorTokenToString(expression.operator), this.currentType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n\r\n // logical (no overloading)\r\n\r\n case Token.AMPERSAND_AMPERSAND: { // left && right\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n rightType = this.currentType;\r\n\r\n // simplify if cloning left without side effects is possible\r\n if (expr = module.cloneExpression(leftExpr, true, 0)) {\r\n expr = module.createIf(\r\n this.makeIsTrueish(leftExpr, this.currentType),\r\n rightExpr,\r\n expr\r\n );\r\n\r\n // if not possible, tee left to a temp. local\r\n } else {\r\n let flow = this.currentFlow;\r\n let tempLocal = flow.getAndFreeTempLocal(\r\n this.currentType,\r\n !flow.canOverflow(leftExpr, this.currentType)\r\n );\r\n expr = module.createIf(\r\n this.makeIsTrueish(\r\n module.createTeeLocal(tempLocal.index, leftExpr),\r\n this.currentType\r\n ),\r\n rightExpr,\r\n module.createGetLocal(\r\n assert(tempLocal).index, // to be sure\r\n this.currentType.toNativeType()\r\n )\r\n );\r\n }\r\n break;\r\n }\r\n case Token.BAR_BAR: { // left || right\r\n leftExpr = this.compileExpressionRetainType(left, contextualType, WrapMode.NONE);\r\n leftType = this.currentType;\r\n rightExpr = this.compileExpression(right, leftType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n rightType = this.currentType;\r\n\r\n // simplify if cloning left without side effects is possible\r\n if (expr = this.module.cloneExpression(leftExpr, true, 0)) {\r\n expr = this.module.createIf(\r\n this.makeIsTrueish(leftExpr, this.currentType),\r\n expr,\r\n rightExpr\r\n );\r\n\r\n // if not possible, tee left to a temp. local\r\n } else {\r\n let flow = this.currentFlow;\r\n let tempLocal = flow.getAndFreeTempLocal(\r\n this.currentType,\r\n !flow.canOverflow(leftExpr, this.currentType)\r\n );\r\n expr = module.createIf(\r\n this.makeIsTrueish(\r\n module.createTeeLocal(tempLocal.index, leftExpr),\r\n this.currentType\r\n ),\r\n module.createGetLocal(\r\n assert(tempLocal).index, // to be sure\r\n this.currentType.toNativeType()\r\n ),\r\n rightExpr\r\n );\r\n }\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = this.module.createUnreachable();\r\n }\r\n }\r\n return compound\r\n ? this.compileAssignmentWithValue(left, expr, contextualType != Type.void)\r\n : expr;\r\n }\r\n\r\n compileUnaryOverload(\r\n operatorInstance: Function,\r\n value: Expression,\r\n valueExpr: ExpressionRef,\r\n reportNode: Node\r\n ): ExpressionRef {\r\n var argumentExpressions: Expression[];\r\n var thisArg: ExpressionRef = 0;\r\n if (operatorInstance.is(CommonFlags.INSTANCE)) {\r\n thisArg = valueExpr; // can reuse the previously evaluated expr as the this value here\r\n argumentExpressions = [];\r\n } else {\r\n argumentExpressions = [ value ]; // annotated type might differ -> recompile\r\n }\r\n return this.compileCallDirect(\r\n operatorInstance,\r\n argumentExpressions,\r\n reportNode,\r\n thisArg\r\n );\r\n }\r\n\r\n compileBinaryOverload(\r\n operatorInstance: Function,\r\n left: Expression,\r\n leftExpr: ExpressionRef,\r\n right: Expression,\r\n reportNode: Node\r\n ): ExpressionRef {\r\n var argumentExpressions: Expression[];\r\n var thisArg: ExpressionRef = 0;\r\n if (operatorInstance.is(CommonFlags.INSTANCE)) {\r\n let classInstance = assert(operatorInstance.parent); assert(classInstance.kind == ElementKind.CLASS);\r\n thisArg = leftExpr; // can reuse the previously evaluated leftExpr as the this value here\r\n argumentExpressions = [ right ];\r\n } else {\r\n argumentExpressions = [ left, right ]; // annotated type of LHS might differ -> recompile\r\n }\r\n var ret = this.compileCallDirect(\r\n operatorInstance,\r\n argumentExpressions,\r\n reportNode,\r\n thisArg\r\n );\r\n return ret;\r\n }\r\n\r\n compileAssignment(expression: Expression, valueExpression: Expression, contextualType: Type): ExpressionRef {\r\n var program = this.program;\r\n var resolver = program.resolver;\r\n var flow = this.currentFlow;\r\n var target = resolver.resolveExpression(expression, flow); // reports\r\n if (!target) return this.module.createUnreachable();\r\n\r\n // to compile just the value, we need to know the target's type\r\n var targetType: Type;\r\n switch (target.kind) {\r\n case ElementKind.GLOBAL: {\r\n if (!this.compileGlobal(target)) { // reports; not yet compiled if a static field compiled as a global\r\n return this.module.createUnreachable();\r\n }\r\n assert((target).type != Type.void); // compileGlobal must guarantee this\r\n // fall-through\r\n }\r\n case ElementKind.LOCAL:\r\n case ElementKind.FIELD: {\r\n targetType = (target).type;\r\n break;\r\n }\r\n case ElementKind.PROPERTY_PROTOTYPE: { // static property\r\n let setterPrototype = (target).setterPrototype;\r\n if (!setterPrototype) {\r\n this.error(\r\n DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,\r\n expression.range, (target).internalName\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n let setterInstance = this.resolver.resolveFunction(setterPrototype, null, makeMap(), ReportMode.REPORT);\r\n if (!setterInstance) return this.module.createUnreachable();\r\n assert(setterInstance.signature.parameterTypes.length == 1); // parser must guarantee this\r\n targetType = setterInstance.signature.parameterTypes[0];\r\n break;\r\n }\r\n case ElementKind.PROPERTY: { // instance property\r\n let setterInstance = (target).setterInstance;\r\n if (!setterInstance) {\r\n this.error(\r\n DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,\r\n expression.range, (target).internalName\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n assert(setterInstance.signature.parameterTypes.length == 1); // parser must guarantee this\r\n targetType = setterInstance.signature.parameterTypes[0];\r\n break;\r\n }\r\n case ElementKind.CLASS: {\r\n if (resolver.currentElementExpression) { // indexed access\r\n let isUnchecked = flow.is(FlowFlags.UNCHECKED_CONTEXT);\r\n let indexedSet = (target).lookupOverload(OperatorKind.INDEXED_SET, isUnchecked);\r\n if (!indexedSet) {\r\n let indexedGet = (target).lookupOverload(OperatorKind.INDEXED_GET, isUnchecked);\r\n if (!indexedGet) {\r\n this.error(\r\n DiagnosticCode.Index_signature_is_missing_in_type_0,\r\n expression.range, (target).internalName\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Index_signature_in_type_0_only_permits_reading,\r\n expression.range, (target).internalName\r\n );\r\n }\r\n return this.module.createUnreachable();\r\n }\r\n assert(indexedSet.signature.parameterTypes.length == 2); // parser must guarantee this\r\n targetType = indexedSet.signature.parameterTypes[1]; // 2nd parameter is the element\r\n break;\r\n }\r\n // fall-through\r\n }\r\n default: {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n }\r\n\r\n // compile the value and do the assignment\r\n assert(targetType != Type.void);\r\n var valueExpr = this.compileExpression(valueExpression, targetType, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n return this.compileAssignmentWithValue(\r\n expression,\r\n valueExpr,\r\n contextualType != Type.void\r\n );\r\n }\r\n\r\n compileAssignmentWithValue(\r\n expression: Expression,\r\n valueWithCorrectType: ExpressionRef,\r\n tee: bool = false\r\n ): ExpressionRef {\r\n var module = this.module;\r\n var flow = this.currentFlow;\r\n var target = this.resolver.resolveExpression(expression, flow); // reports\r\n if (!target) return module.createUnreachable();\r\n\r\n switch (target.kind) {\r\n case ElementKind.LOCAL: {\r\n let type = (target).type;\r\n assert(type != Type.void);\r\n this.currentType = tee ? type : Type.void;\r\n if ((target).is(CommonFlags.CONST)) {\r\n this.error(\r\n DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,\r\n expression.range, target.internalName\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (type.is(TypeFlags.SHORT | TypeFlags.INTEGER)) {\r\n flow.setLocalWrapped((target).index, !flow.canOverflow(valueWithCorrectType, type));\r\n }\r\n return tee\r\n ? module.createTeeLocal((target).index, valueWithCorrectType)\r\n : module.createSetLocal((target).index, valueWithCorrectType);\r\n }\r\n case ElementKind.GLOBAL: {\r\n if (!this.compileGlobal(target)) return module.createUnreachable();\r\n let type = (target).type;\r\n assert(type != Type.void);\r\n this.currentType = tee ? type : Type.void;\r\n if ((target).is(CommonFlags.CONST)) {\r\n this.error(\r\n DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,\r\n expression.range,\r\n target.internalName\r\n );\r\n return module.createUnreachable();\r\n }\r\n valueWithCorrectType = this.ensureSmallIntegerWrap(valueWithCorrectType, type); // guaranteed\r\n if (tee) {\r\n let nativeType = type.toNativeType();\r\n let internalName = target.internalName;\r\n return module.createBlock(null, [ // emulated teeGlobal\r\n module.createSetGlobal(internalName, valueWithCorrectType),\r\n module.createGetGlobal(internalName, nativeType)\r\n ], nativeType);\r\n } else {\r\n return module.createSetGlobal(target.internalName, valueWithCorrectType);\r\n }\r\n }\r\n case ElementKind.FIELD: {\r\n let initializerNode = (target).initializerNode;\r\n if (\r\n (target).is(CommonFlags.READONLY) &&\r\n !(\r\n flow.actualFunction.is(CommonFlags.CONSTRUCTOR) ||\r\n initializerNode\r\n )\r\n ) {\r\n this.error(\r\n DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,\r\n expression.range, (target).internalName\r\n );\r\n return module.createUnreachable();\r\n }\r\n let thisExpression = assert(this.resolver.currentThisExpression);\r\n let thisExpr = this.compileExpressionRetainType(\r\n thisExpression,\r\n this.options.usizeType,\r\n WrapMode.NONE\r\n );\r\n let type = (target).type;\r\n this.currentType = tee ? type : Type.void;\r\n let nativeType = type.toNativeType();\r\n if (type.kind == TypeKind.BOOL) {\r\n // make sure bools are wrapped (usually are) when storing as 8 bits\r\n valueWithCorrectType = this.ensureSmallIntegerWrap(valueWithCorrectType, type);\r\n }\r\n if (tee) {\r\n let flow = this.currentFlow;\r\n let tempLocal = flow.getAndFreeTempLocal(\r\n type,\r\n !flow.canOverflow(valueWithCorrectType, type)\r\n );\r\n let tempLocalIndex = tempLocal.index;\r\n // TODO: simplify if valueWithCorrectType has no side effects\r\n // TODO: call __gc_link here if a GC is present\r\n return module.createBlock(null, [\r\n module.createSetLocal(tempLocalIndex, valueWithCorrectType),\r\n module.createStore(\r\n type.byteSize,\r\n thisExpr,\r\n module.createGetLocal(tempLocalIndex, nativeType),\r\n nativeType,\r\n (target).memoryOffset\r\n ),\r\n module.createGetLocal(tempLocalIndex, nativeType)\r\n ], nativeType);\r\n } else {\r\n // TODO: call __gc_link here if a GC is present\r\n return module.createStore(\r\n type.byteSize,\r\n thisExpr,\r\n valueWithCorrectType,\r\n nativeType,\r\n (target).memoryOffset\r\n );\r\n }\r\n }\r\n case ElementKind.PROPERTY_PROTOTYPE: { // static property\r\n let setterPrototype = (target).setterPrototype;\r\n if (!setterPrototype) {\r\n this.error(\r\n DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,\r\n expression.range, target.internalName\r\n );\r\n return module.createUnreachable();\r\n }\r\n let setterInstance = this.resolver.resolveFunction(setterPrototype, null, makeMap(), ReportMode.REPORT);\r\n if (!setterInstance) return module.createUnreachable();\r\n // call just the setter if the return value isn't of interest\r\n if (!tee) return this.makeCallDirect(setterInstance, [ valueWithCorrectType ]);\r\n // otherwise call the setter first, then the getter\r\n let getterPrototype = assert((target).getterPrototype); // must be present\r\n let getterInstance = this.resolver.resolveFunction(getterPrototype, null, makeMap(), ReportMode.REPORT);\r\n if (!getterInstance) return module.createUnreachable();\r\n let returnType = getterInstance.signature.returnType;\r\n let nativeReturnType = returnType.toNativeType();\r\n return module.createBlock(null, [\r\n this.makeCallDirect(setterInstance, [ valueWithCorrectType ]),\r\n this.makeCallDirect(getterInstance) // sets currentType\r\n ], nativeReturnType);\r\n }\r\n case ElementKind.PROPERTY: { // instance property\r\n let setterInstance = (target).setterInstance;\r\n if (!setterInstance) {\r\n this.error(\r\n DiagnosticCode.Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property,\r\n expression.range, target.internalName\r\n );\r\n return module.createUnreachable();\r\n }\r\n // call just the setter if the return value isn't of interest\r\n if (!tee) {\r\n let thisExpr = this.compileExpressionRetainType(\r\n assert(this.resolver.currentThisExpression),\r\n this.options.usizeType,\r\n WrapMode.NONE\r\n );\r\n return this.makeCallDirect(setterInstance, [ thisExpr, valueWithCorrectType ]);\r\n }\r\n // otherwise call the setter first, then the getter\r\n let getterInstance = assert((target).getterInstance); // must be present\r\n let returnType = getterInstance.signature.returnType;\r\n let nativeReturnType = returnType.toNativeType();\r\n let thisExpr = this.compileExpressionRetainType(\r\n assert(this.resolver.currentThisExpression),\r\n this.options.usizeType,\r\n WrapMode.NONE\r\n );\r\n let tempLocal = flow.getAndFreeTempLocal(returnType, false);\r\n let tempLocalIndex = tempLocal.index;\r\n return module.createBlock(null, [\r\n this.makeCallDirect(setterInstance, [ // set and remember the target\r\n module.createTeeLocal(tempLocalIndex, thisExpr),\r\n valueWithCorrectType\r\n ]),\r\n this.makeCallDirect(getterInstance, [ // get from remembered target\r\n module.createGetLocal(tempLocalIndex, nativeReturnType)\r\n ])\r\n ], nativeReturnType);\r\n }\r\n case ElementKind.CLASS: {\r\n let elementExpression = this.resolver.currentElementExpression;\r\n if (elementExpression) {\r\n let isUnchecked = flow.is(FlowFlags.UNCHECKED_CONTEXT);\r\n let indexedGet = (target).lookupOverload(OperatorKind.INDEXED_GET, isUnchecked);\r\n if (!indexedGet) {\r\n this.error(\r\n DiagnosticCode.Index_signature_is_missing_in_type_0,\r\n expression.range, target.internalName\r\n );\r\n return module.createUnreachable();\r\n }\r\n let indexedSet = (target).lookupOverload(OperatorKind.INDEXED_SET, isUnchecked);\r\n if (!indexedSet) {\r\n this.error(\r\n DiagnosticCode.Index_signature_in_type_0_only_permits_reading,\r\n expression.range, target.internalName\r\n );\r\n this.currentType = tee ? indexedGet.signature.returnType : Type.void;\r\n return module.createUnreachable();\r\n }\r\n let targetType = (target).type;\r\n let thisExpression = assert(this.resolver.currentThisExpression);\r\n let thisExpr = this.compileExpressionRetainType(\r\n thisExpression,\r\n this.options.usizeType,\r\n WrapMode.NONE\r\n );\r\n let elementExpr = this.compileExpression(\r\n elementExpression,\r\n Type.i32,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n if (tee) {\r\n let tempLocalTarget = flow.getTempLocal(targetType, false);\r\n let tempLocalElement = flow.getAndFreeTempLocal(this.currentType, false);\r\n let returnType = indexedGet.signature.returnType;\r\n flow.freeTempLocal(tempLocalTarget);\r\n return module.createBlock(null, [\r\n this.makeCallDirect(indexedSet, [\r\n module.createTeeLocal(tempLocalTarget.index, thisExpr),\r\n module.createTeeLocal(tempLocalElement.index, elementExpr),\r\n valueWithCorrectType\r\n ]),\r\n this.makeCallDirect(indexedGet, [\r\n module.createGetLocal(tempLocalTarget.index, tempLocalTarget.type.toNativeType()),\r\n module.createGetLocal(tempLocalElement.index, tempLocalElement.type.toNativeType())\r\n ])\r\n ], returnType.toNativeType());\r\n } else {\r\n return this.makeCallDirect(indexedSet, [\r\n thisExpr,\r\n elementExpr,\r\n valueWithCorrectType\r\n ]);\r\n }\r\n }\r\n // fall-through\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n\r\n compileCallExpression(expression: CallExpression, contextualType: Type): ExpressionRef {\r\n var module = this.module;\r\n var flow = this.currentFlow;\r\n\r\n // handle call to super\r\n if (expression.expression.kind == NodeKind.SUPER) {\r\n let flow = this.currentFlow;\r\n let actualFunction = flow.actualFunction;\r\n if (!actualFunction.is(CommonFlags.CONSTRUCTOR)) {\r\n this.error(\r\n DiagnosticCode.Super_calls_are_not_permitted_outside_constructors_or_in_nested_functions_inside_constructors,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n\r\n let classInstance = assert(actualFunction.parent); assert(classInstance.kind == ElementKind.CLASS);\r\n let baseClassInstance = assert((classInstance).base);\r\n let thisLocal = assert(flow.lookupLocal(CommonSymbols.this_));\r\n let nativeSizeType = this.options.nativeSizeType;\r\n\r\n // {\r\n // this = super(this || , ...args)\r\n // this.a = X\r\n // this.b = Y\r\n // }\r\n let stmts: ExpressionRef[] = [\r\n module.createSetLocal(thisLocal.index,\r\n this.compileCallDirect(\r\n this.ensureConstructor(baseClassInstance, expression),\r\n expression.arguments,\r\n expression,\r\n module.createIf(\r\n module.createGetLocal(thisLocal.index, nativeSizeType),\r\n module.createGetLocal(thisLocal.index, nativeSizeType),\r\n this.makeAllocation(classInstance)\r\n )\r\n )\r\n )\r\n ];\r\n this.makeFieldInitialization(classInstance, stmts);\r\n\r\n // check that super had been called before accessing allocating `this`\r\n if (flow.isAny(\r\n FlowFlags.ALLOCATES |\r\n FlowFlags.CONDITIONALLY_ALLOCATES\r\n )) {\r\n this.error(\r\n DiagnosticCode._super_must_be_called_before_accessing_this_in_the_constructor_of_a_derived_class,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n flow.set(FlowFlags.ALLOCATES | FlowFlags.CALLS_SUPER);\r\n this.currentType = Type.void;\r\n return module.createBlock(null, stmts);\r\n }\r\n\r\n // otherwise resolve normally\r\n var target = this.resolver.resolveExpression(expression.expression, flow); // reports\r\n if (!target) return module.createUnreachable();\r\n\r\n var signature: Signature | null;\r\n var indexArg: ExpressionRef;\r\n switch (target.kind) {\r\n\r\n // direct call: concrete function\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n let prototype = target;\r\n let typeArguments = expression.typeArguments;\r\n\r\n // builtins handle present respectively omitted type arguments on their own\r\n if (prototype.hasDecorator(DecoratorFlags.BUILTIN)) {\r\n return this.compileCallExpressionBuiltin(prototype, expression, contextualType);\r\n }\r\n\r\n let instance: Function | null = null;\r\n\r\n // resolve generic call if type arguments have been provided\r\n if (typeArguments) {\r\n if (!prototype.is(CommonFlags.GENERIC)) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n expression.expression.range, prototype.internalName\r\n );\r\n return module.createUnreachable();\r\n }\r\n instance = this.resolver.resolveFunctionInclTypeArguments(\r\n prototype,\r\n typeArguments,\r\n flow.actualFunction.parent, // relative to caller\r\n makeMap(flow.contextualTypeArguments),\r\n expression\r\n );\r\n\r\n // infer generic call if type arguments have been omitted\r\n } else if (prototype.is(CommonFlags.GENERIC)) {\r\n let inferredTypes = new Map();\r\n let typeParameterNodes = assert(prototype.typeParameterNodes);\r\n let numTypeParameters = typeParameterNodes.length;\r\n for (let i = 0; i < numTypeParameters; ++i) {\r\n inferredTypes.set(typeParameterNodes[i].name.text, null);\r\n }\r\n // let numInferred = 0;\r\n let parameterNodes = prototype.signatureNode.parameters;\r\n let numParameters = parameterNodes.length;\r\n let argumentNodes = expression.arguments;\r\n let numArguments = argumentNodes.length;\r\n let argumentExprs = new Array(numArguments);\r\n for (let i = 0; i < numParameters; ++i) {\r\n let typeNode = parameterNodes[i].type;\r\n let templateName = typeNode.kind == NodeKind.TYPE && !(typeNode).name.next\r\n ? (typeNode).name.identifier.text\r\n : null;\r\n let argumentExpression = i < numArguments\r\n ? argumentNodes[i]\r\n : parameterNodes[i].initializer;\r\n if (!argumentExpression) { // missing initializer -> too few arguments\r\n this.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n expression.range, numParameters.toString(10), numArguments.toString(10)\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (templateName !== null && inferredTypes.has(templateName)) {\r\n let inferredType = inferredTypes.get(templateName);\r\n if (inferredType) {\r\n argumentExprs[i] = this.compileExpressionRetainType(argumentExpression, inferredType, WrapMode.NONE);\r\n let commonType: Type | null;\r\n if (!(commonType = Type.commonDenominator(inferredType, this.currentType, true))) {\r\n if (!(commonType = Type.commonDenominator(inferredType, this.currentType, false))) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n parameterNodes[i].type.range, this.currentType.toString(), inferredType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n inferredType = commonType;\r\n } else {\r\n argumentExprs[i] = this.compileExpressionRetainType(argumentExpression, Type.i32, WrapMode.NONE);\r\n inferredType = this.currentType;\r\n // ++numInferred;\r\n }\r\n inferredTypes.set(templateName, inferredType);\r\n } else {\r\n let concreteType = this.resolver.resolveType(\r\n parameterNodes[i].type,\r\n flow.actualFunction,\r\n flow.contextualTypeArguments\r\n );\r\n if (!concreteType) return module.createUnreachable();\r\n argumentExprs[i] = this.compileExpression(\r\n argumentExpression,\r\n concreteType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n }\r\n let resolvedTypeArguments = new Array(numTypeParameters);\r\n for (let i = 0; i < numTypeParameters; ++i) {\r\n let inferredType = assert(inferredTypes.get(typeParameterNodes[i].name.text)); // TODO\r\n resolvedTypeArguments[i] = inferredType;\r\n }\r\n instance = this.resolver.resolveFunction(\r\n prototype,\r\n resolvedTypeArguments,\r\n makeMap(flow.contextualTypeArguments)\r\n );\r\n if (!instance) return this.module.createUnreachable();\r\n return this.makeCallDirect(instance, argumentExprs);\r\n // TODO: this skips inlining because inlining requires compiling its temporary locals in\r\n // the scope of the inlined flow. might need another mechanism to lock temp. locals early,\r\n // so inlining can be performed in `makeCallDirect` instead?\r\n\r\n // otherwise resolve the non-generic call as usual\r\n } else {\r\n instance = this.resolver.resolveFunction(prototype, null);\r\n }\r\n if (!instance) return this.module.createUnreachable();\r\n\r\n // compile 'this' expression if an instance method\r\n let thisExpr: ExpressionRef = 0;\r\n if (instance.is(CommonFlags.INSTANCE)) {\r\n thisExpr = this.compileExpressionRetainType(\r\n assert(this.resolver.currentThisExpression),\r\n this.options.usizeType,\r\n WrapMode.NONE\r\n );\r\n }\r\n\r\n return this.compileCallDirect(\r\n instance,\r\n expression.arguments,\r\n expression,\r\n thisExpr\r\n );\r\n }\r\n\r\n // indirect call: index argument with signature (non-generic, can't be inlined)\r\n case ElementKind.LOCAL: {\r\n if (signature = (target).type.signatureReference) {\r\n if ((target).is(CommonFlags.INLINED)) {\r\n indexArg = module.createI32(i64_low((target).constantIntegerValue));\r\n } else {\r\n indexArg = module.createGetLocal((target).index, NativeType.I32);\r\n }\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Cannot_invoke_an_expression_whose_type_lacks_a_call_signature_Type_0_has_no_compatible_call_signatures,\r\n expression.range, (target).type.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n case ElementKind.GLOBAL: {\r\n if (signature = (target).type.signatureReference) {\r\n indexArg = module.createGetGlobal((target).internalName, (target).type.toNativeType());\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Cannot_invoke_an_expression_whose_type_lacks_a_call_signature_Type_0_has_no_compatible_call_signatures,\r\n expression.range, (target).type.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n case ElementKind.FIELD: {\r\n let type = (target).type;\r\n if (signature = type.signatureReference) {\r\n let thisExpression = assert(this.resolver.currentThisExpression);\r\n let thisExpr = this.compileExpressionRetainType(\r\n thisExpression,\r\n this.options.usizeType,\r\n WrapMode.NONE\r\n );\r\n indexArg = module.createLoad(\r\n 4,\r\n false,\r\n thisExpr,\r\n NativeType.I32,\r\n (target).memoryOffset\r\n );\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Cannot_invoke_an_expression_whose_type_lacks_a_call_signature_Type_0_has_no_compatible_call_signatures,\r\n expression.range, type.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n case ElementKind.FUNCTION_TARGET: {\r\n signature = (target).signature;\r\n indexArg = this.compileExpression(\r\n expression.expression,\r\n (target).type,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n break;\r\n }\r\n\r\n case ElementKind.PROPERTY_PROTOTYPE: { // static property\r\n let getterPrototype = assert((target).getterPrototype);\r\n let getterInstance = this.resolver.resolveFunction(getterPrototype, null);\r\n if (!getterInstance) return module.createUnreachable();\r\n indexArg = this.compileCallDirect(getterInstance, [], expression.expression);\r\n signature = this.currentType.signatureReference;\r\n if (!signature) {\r\n this.error(\r\n DiagnosticCode.Cannot_invoke_an_expression_whose_type_lacks_a_call_signature_Type_0_has_no_compatible_call_signatures,\r\n expression.range, this.currentType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n break;\r\n }\r\n case ElementKind.PROPERTY: { // instance property\r\n let getterInstance = assert((target).getterInstance);\r\n indexArg = this.compileCallDirect(getterInstance, [], expression.expression,\r\n this.compileExpressionRetainType(\r\n assert(this.resolver.currentThisExpression),\r\n this.options.usizeType,\r\n WrapMode.NONE\r\n )\r\n );\r\n signature = this.currentType.signatureReference;\r\n if (!signature) {\r\n this.error(\r\n DiagnosticCode.Cannot_invoke_an_expression_whose_type_lacks_a_call_signature_Type_0_has_no_compatible_call_signatures,\r\n expression.range, this.currentType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n break;\r\n }\r\n\r\n // not supported\r\n default: {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n return this.compileCallIndirect(\r\n signature,\r\n indexArg,\r\n expression.arguments,\r\n expression\r\n );\r\n }\r\n\r\n private compileCallExpressionBuiltin(\r\n prototype: FunctionPrototype,\r\n expression: CallExpression,\r\n contextualType: Type\r\n ): ExpressionRef {\r\n var typeArguments: Type[] | null = null;\r\n\r\n // builtins handle omitted type arguments on their own. if present, however, resolve them here\r\n // and pass them to the builtin, even if it's still up to the builtin how to handle them.\r\n var typeParameterNodes = prototype.typeParameterNodes;\r\n var typeArgumentNodes = expression.typeArguments;\r\n if (expression.typeArguments) {\r\n if (!prototype.is(CommonFlags.GENERIC)) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n expression.range, prototype.internalName\r\n );\r\n }\r\n typeArguments = this.resolver.resolveTypeArguments(\r\n assert(typeParameterNodes),\r\n typeArgumentNodes,\r\n this.currentFlow.actualFunction.parent,\r\n makeMap(this.currentFlow.contextualTypeArguments),\r\n expression\r\n );\r\n }\r\n\r\n // now compile the builtin, which usually returns a block of code that replaces the call.\r\n var expr = compileBuiltinCall(\r\n this,\r\n prototype,\r\n typeArguments,\r\n expression.arguments,\r\n contextualType,\r\n expression\r\n );\r\n if (!expr) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n return expr;\r\n }\r\n\r\n /**\r\n * Checks that a call with the given number as arguments can be performed according to the\r\n * specified signature.\r\n */\r\n checkCallSignature(\r\n signature: Signature,\r\n numArguments: i32,\r\n hasThis: bool,\r\n reportNode: Node\r\n ): bool {\r\n\r\n // cannot call an instance method without a `this` argument (TODO: `.call`?)\r\n var thisType = signature.thisType;\r\n if (hasThis != (thisType != null)) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported, // TODO: better message?\r\n reportNode.range\r\n );\r\n return false;\r\n }\r\n\r\n // not yet implemented (TODO: maybe some sort of an unmanaged/lightweight array?)\r\n var hasRest = signature.hasRest;\r\n if (hasRest) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return false;\r\n }\r\n\r\n var minimum = signature.requiredParameters;\r\n var maximum = signature.parameterTypes.length;\r\n\r\n // must at least be called with required arguments\r\n if (numArguments < minimum) {\r\n this.error(\r\n minimum < maximum\r\n ? DiagnosticCode.Expected_at_least_0_arguments_but_got_1\r\n : DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, minimum.toString(), numArguments.toString()\r\n );\r\n return false;\r\n }\r\n\r\n // must not be called with more than the maximum arguments\r\n if (numArguments > maximum && !hasRest) {\r\n this.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, maximum.toString(), numArguments.toString()\r\n );\r\n return false;\r\n }\r\n\r\n return true;\r\n }\r\n\r\n /** Compiles a direct call to a concrete function. */\r\n compileCallDirect(\r\n instance: Function,\r\n argumentExpressions: Expression[],\r\n reportNode: Node,\r\n thisArg: ExpressionRef = 0\r\n ): ExpressionRef {\r\n var numArguments = argumentExpressions.length;\r\n var signature = instance.signature;\r\n\r\n if (!this.checkCallSignature( // reports\r\n signature,\r\n numArguments,\r\n thisArg != 0,\r\n reportNode\r\n )) {\r\n return this.module.createUnreachable();\r\n }\r\n\r\n // Inline if explicitly requested\r\n if (instance.hasDecorator(DecoratorFlags.INLINE)) {\r\n assert(!instance.is(CommonFlags.TRAMPOLINE)); // doesn't make sense\r\n if (this.currentInlineFunctions.includes(instance)) {\r\n this.warning(\r\n DiagnosticCode.Function_0_cannot_be_inlined_into_itself,\r\n reportNode.range, instance.internalName\r\n );\r\n } else {\r\n this.currentInlineFunctions.push(instance);\r\n let expr = this.compileCallInlinePrechecked(instance, argumentExpressions, thisArg);\r\n this.currentInlineFunctions.pop();\r\n return expr;\r\n }\r\n }\r\n\r\n // Otherwise compile to just a call\r\n var numArgumentsInclThis = thisArg ? numArguments + 1 : numArguments;\r\n var operands = new Array(numArgumentsInclThis);\r\n var index = 0;\r\n if (thisArg) {\r\n operands[0] = thisArg;\r\n index = 1;\r\n }\r\n var parameterTypes = signature.parameterTypes;\r\n for (let i = 0; i < numArguments; ++i, ++index) {\r\n operands[index] = this.compileExpression(\r\n argumentExpressions[i],\r\n parameterTypes[i],\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n assert(index == numArgumentsInclThis);\r\n return this.makeCallDirect(instance, operands);\r\n }\r\n\r\n // Depends on being pre-checked in compileCallDirect\r\n private compileCallInlinePrechecked(\r\n instance: Function,\r\n argumentExpressions: Expression[],\r\n thisArg: ExpressionRef = 0\r\n ): ExpressionRef {\r\n var module = this.module;\r\n\r\n // Create a new inline flow and use it to compile the function as a block\r\n var previousFlow = this.currentFlow;\r\n var flow = Flow.createInline(previousFlow.parentFunction, instance);\r\n\r\n // Convert provided call arguments to temporary locals. It is important that these are compiled\r\n // here, with their respective locals being blocked. There is no 'makeCallInline'.\r\n var body = [];\r\n\r\n if (thisArg) {\r\n let classInstance = assert(instance.parent); assert(classInstance.kind == ElementKind.CLASS);\r\n let thisType = assert(instance.signature.thisType);\r\n let thisLocal = flow.addScopedLocal(CommonSymbols.this_, thisType, false);\r\n body.push(\r\n module.createSetLocal(thisLocal.index, thisArg)\r\n );\r\n let baseInstance = (classInstance).base;\r\n if (baseInstance) flow.addScopedAlias(CommonSymbols.super_, baseInstance.type, thisLocal.index);\r\n }\r\n\r\n var numArguments = argumentExpressions.length;\r\n var signature = instance.signature;\r\n var parameterTypes = signature.parameterTypes;\r\n for (let i = 0; i < numArguments; ++i) {\r\n let paramExpr = this.compileExpression(\r\n argumentExpressions[i],\r\n parameterTypes[i],\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let argumentLocal = flow.addScopedLocal(\r\n signature.getParameterName(i),\r\n parameterTypes[i],\r\n !previousFlow.canOverflow(paramExpr, parameterTypes[i])\r\n );\r\n body.push(\r\n module.createSetLocal(argumentLocal.index, paramExpr)\r\n );\r\n }\r\n\r\n // Compile optional parameter initializers in the scope of the inlined flow\r\n this.currentFlow = flow;\r\n var numParameters = signature.parameterTypes.length;\r\n for (let i = numArguments; i < numParameters; ++i) {\r\n let initExpr = this.compileExpression(\r\n assert(instance.prototype.signatureNode.parameters[i].initializer),\r\n parameterTypes[i],\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP\r\n );\r\n let argumentLocal = flow.addScopedLocal(\r\n signature.getParameterName(i),\r\n parameterTypes[i],\r\n !flow.canOverflow(initExpr, parameterTypes[i])\r\n );\r\n body.push(\r\n module.createSetLocal(argumentLocal.index, initExpr)\r\n );\r\n }\r\n\r\n // Compile the called function's body in the scope of the inlined flow\r\n {\r\n let stmts = this.compileFunctionBody(instance);\r\n for (let i = 0, k = stmts.length; i < k; ++i) body.push(stmts[i]);\r\n }\r\n\r\n // Free any new scoped locals and reset to the original flow\r\n flow.freeScopedLocals();\r\n var returnType = flow.returnType;\r\n this.currentFlow = previousFlow;\r\n this.currentType = returnType;\r\n\r\n // Create an outer block that we can break to when returning a value out of order\r\n return module.createBlock(flow.inlineReturnLabel, body, returnType.toNativeType());\r\n }\r\n\r\n /** Gets the trampoline for the specified function. */\r\n ensureTrampoline(original: Function): Function {\r\n // A trampoline is a function that takes a fixed amount of operands with some of them possibly\r\n // being zeroed. It takes one additional argument denoting the number of actual operands\r\n // provided to the call, and takes appropriate steps to initialize zeroed operands to their\r\n // default values using the optional parameter initializers of the original function. Doing so\r\n // allows calls to functions with optional parameters to circumvent the trampoline when all\r\n // parameters are provided as a fast route, respectively setting up omitted operands in a proper\r\n // context otherwise.\r\n var trampoline = original.trampoline;\r\n if (trampoline) return trampoline;\r\n\r\n var originalSignature = original.signature;\r\n var originalName = original.internalName;\r\n var originalParameterTypes = originalSignature.parameterTypes;\r\n var originalParameterDeclarations = original.prototype.signatureNode.parameters;\r\n var commonReturnType = originalSignature.returnType;\r\n var commonThisType = originalSignature.thisType;\r\n var isInstance = original.is(CommonFlags.INSTANCE);\r\n\r\n // arguments excl. `this`, operands incl. `this`\r\n var minArguments = originalSignature.requiredParameters;\r\n var minOperands = minArguments;\r\n var maxArguments = originalParameterTypes.length;\r\n var maxOperands = maxArguments;\r\n if (isInstance) {\r\n ++minOperands;\r\n ++maxOperands;\r\n }\r\n var numOptional = assert(maxOperands - minOperands);\r\n\r\n var forwardedOperands = new Array(minOperands);\r\n var operandIndex = 0;\r\n\r\n // forward `this` if applicable\r\n var module = this.module;\r\n if (isInstance) {\r\n forwardedOperands[0] = module.createGetLocal(0, this.options.nativeSizeType);\r\n operandIndex = 1;\r\n }\r\n\r\n // forward required arguments\r\n for (let i = 0; i < minArguments; ++i, ++operandIndex) {\r\n forwardedOperands[operandIndex] = module.createGetLocal(operandIndex, originalParameterTypes[i].toNativeType());\r\n }\r\n assert(operandIndex == minOperands);\r\n\r\n // create the trampoline element\r\n var trampolineSignature = new Signature(originalParameterTypes, commonReturnType, commonThisType);\r\n trampolineSignature.requiredParameters = maxArguments;\r\n trampoline = new Function(\r\n original.name + \"|trampoline\",\r\n original.prototype,\r\n trampolineSignature,\r\n original.contextualTypeArguments\r\n );\r\n trampoline.set(original.flags | CommonFlags.TRAMPOLINE | CommonFlags.COMPILED);\r\n original.trampoline = trampoline;\r\n\r\n // compile initializers of omitted arguments in scope of the trampoline function\r\n // this is necessary because initializers might need additional locals and a proper this context\r\n var previousFlow = this.currentFlow;\r\n this.currentFlow = trampoline.flow;\r\n\r\n // create a br_table switching over the number of optional parameters provided\r\n var numNames = numOptional + 1; // incl. outer block\r\n var names = new Array(numNames);\r\n var ofN = \"of\" + numOptional.toString(10);\r\n for (let i = 0; i < numNames; ++i) {\r\n let label = i.toString(10) + ofN;\r\n names[i] = label;\r\n }\r\n var body = module.createBlock(names[0], [\r\n module.createBlock(\"outOfRange\", [\r\n module.createSwitch(names, \"outOfRange\",\r\n // condition is number of provided optional arguments, so subtract required arguments\r\n minArguments\r\n ? module.createBinary(\r\n BinaryOp.SubI32,\r\n module.createGetGlobal(CompilerSymbols.argc, NativeType.I32),\r\n module.createI32(minArguments)\r\n )\r\n : module.createGetGlobal(CompilerSymbols.argc, NativeType.I32)\r\n )\r\n ]),\r\n module.createUnreachable()\r\n ]);\r\n for (let i = 0; i < numOptional; ++i, ++operandIndex) {\r\n let type = originalParameterTypes[minArguments + i];\r\n let declaration = originalParameterDeclarations[minArguments + i];\r\n let initializer = declaration.initializer;\r\n let initExpr: ExpressionRef;\r\n if (initializer) {\r\n initExpr = module.createSetLocal(operandIndex,\r\n this.compileExpression(\r\n initializer,\r\n type,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.WRAP\r\n )\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Optional_parameter_must_have_an_initializer,\r\n declaration.range\r\n );\r\n initExpr = module.createUnreachable();\r\n }\r\n body = module.createBlock(names[i + 1], [\r\n body,\r\n initExpr,\r\n ]);\r\n forwardedOperands[operandIndex] = module.createGetLocal(operandIndex, type.toNativeType());\r\n }\r\n this.currentFlow = previousFlow;\r\n assert(operandIndex == maxOperands);\r\n\r\n var funcRef = module.addFunction(\r\n trampoline.internalName,\r\n this.ensureFunctionType(\r\n trampolineSignature.parameterTypes,\r\n trampolineSignature.returnType,\r\n trampolineSignature.thisType\r\n ),\r\n typesToNativeTypes(trampoline.additionalLocals),\r\n module.createBlock(null, [\r\n body,\r\n module.createCall(\r\n originalName,\r\n forwardedOperands,\r\n commonReturnType.toNativeType()\r\n )\r\n ], commonReturnType.toNativeType())\r\n );\r\n trampoline.finalize(module, funcRef);\r\n return trampoline;\r\n }\r\n\r\n /** Makes sure that the argument count helper global is present and returns its name. */\r\n private ensureArgcVar(): string {\r\n if (!this.argcVar) {\r\n let module = this.module;\r\n this.argcVar = module.addGlobal(\r\n CompilerSymbols.argc,\r\n NativeType.I32,\r\n true,\r\n module.createI32(0)\r\n );\r\n }\r\n return CompilerSymbols.argc;\r\n }\r\n\r\n /** Makes sure that the argument count helper setter is present and returns its name. */\r\n private ensureArgcSet(): string {\r\n var internalName = CompilerSymbols.setargc;\r\n if (!this.argcSet) {\r\n let module = this.module;\r\n this.argcSet = module.addFunction(internalName,\r\n this.ensureFunctionType([ Type.u32 ], Type.void),\r\n null,\r\n module.createSetGlobal(this.ensureArgcVar(),\r\n module.createGetLocal(0, NativeType.I32)\r\n )\r\n );\r\n module.addFunctionExport(internalName, \"_setargc\");\r\n }\r\n return internalName;\r\n }\r\n\r\n /** Creates a direct call to the specified function. */\r\n makeCallDirect(\r\n instance: Function,\r\n operands: ExpressionRef[] | null = null\r\n ): ExpressionRef {\r\n var numOperands = operands ? operands.length : 0;\r\n var numArguments = numOperands;\r\n var minArguments = instance.signature.requiredParameters;\r\n var minOperands = minArguments;\r\n var maxArguments = instance.signature.parameterTypes.length;\r\n var maxOperands = maxArguments;\r\n if (instance.is(CommonFlags.INSTANCE)) {\r\n ++minOperands;\r\n ++maxOperands;\r\n --numArguments;\r\n }\r\n assert(numOperands >= minOperands);\r\n\r\n var module = this.module;\r\n if (!this.compileFunction(instance)) return module.createUnreachable();\r\n var returnType = instance.signature.returnType;\r\n var isCallImport = instance.is(CommonFlags.MODULE_IMPORT);\r\n\r\n // fill up omitted arguments with their initializers, if constant, otherwise with zeroes.\r\n if (numOperands < maxOperands) {\r\n if (!operands) {\r\n operands = new Array(maxOperands);\r\n operands.length = 0;\r\n }\r\n let parameterTypes = instance.signature.parameterTypes;\r\n let parameterNodes = instance.prototype.signatureNode.parameters;\r\n assert(parameterNodes.length == parameterTypes.length);\r\n let allOptionalsAreConstant = true;\r\n for (let i = numArguments; i < maxArguments; ++i) {\r\n let initializer = parameterNodes[i].initializer;\r\n if (!(initializer && nodeIsConstantValue(initializer.kind))) {\r\n allOptionalsAreConstant = false;\r\n break;\r\n }\r\n }\r\n if (allOptionalsAreConstant) { // inline into the call\r\n for (let i = numArguments; i < maxArguments; ++i) {\r\n operands.push(\r\n this.compileExpression(\r\n parameterNodes[i].initializer,\r\n parameterTypes[i],\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n )\r\n );\r\n }\r\n } else { // otherwise fill up with zeroes and call the trampoline\r\n for (let i = numArguments; i < maxArguments; ++i) {\r\n operands.push(parameterTypes[i].toNativeZero(module));\r\n }\r\n if (!isCallImport) {\r\n let original = instance;\r\n instance = this.ensureTrampoline(instance);\r\n if (!this.compileFunction(instance)) return module.createUnreachable();\r\n instance.flow.flags = original.flow.flags;\r\n let nativeReturnType = returnType.toNativeType();\r\n this.currentType = returnType;\r\n return module.createBlock(null, [\r\n module.createSetGlobal(this.ensureArgcVar(), module.createI32(numArguments)),\r\n module.createCall(instance.internalName, operands, nativeReturnType)\r\n ], nativeReturnType);\r\n }\r\n }\r\n }\r\n\r\n // otherwise just call through\r\n this.currentType = returnType;\r\n return module.createCall(instance.internalName, operands, returnType.toNativeType());\r\n }\r\n\r\n /** Compiles an indirect call using an index argument and a signature. */\r\n compileCallIndirect(\r\n signature: Signature,\r\n indexArg: ExpressionRef,\r\n argumentExpressions: Expression[],\r\n reportNode: Node,\r\n thisArg: ExpressionRef = 0\r\n ): ExpressionRef {\r\n var numArguments = argumentExpressions.length;\r\n\r\n if (!this.checkCallSignature( // reports\r\n signature,\r\n numArguments,\r\n thisArg != 0,\r\n reportNode\r\n )) {\r\n return this.module.createUnreachable();\r\n }\r\n\r\n var numArgumentsInclThis = thisArg ? numArguments + 1 : numArguments;\r\n var operands = new Array(numArgumentsInclThis);\r\n var index = 0;\r\n if (thisArg) {\r\n operands[0] = thisArg;\r\n index = 1;\r\n }\r\n var parameterTypes = signature.parameterTypes;\r\n for (let i = 0; i < numArguments; ++i, ++index) {\r\n operands[index] = this.compileExpression(\r\n argumentExpressions[i],\r\n parameterTypes[i],\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n assert(index == numArgumentsInclThis);\r\n return this.makeCallIndirect(signature, indexArg, operands);\r\n }\r\n\r\n /** Creates an indirect call to the function at `indexArg` in the function table. */\r\n makeCallIndirect(\r\n signature: Signature,\r\n indexArg: ExpressionRef,\r\n operands: ExpressionRef[] | null = null\r\n ): ExpressionRef {\r\n var numOperands = operands ? operands.length : 0;\r\n var numArguments = numOperands;\r\n var minArguments = signature.requiredParameters;\r\n var minOperands = minArguments;\r\n var maxArguments = signature.parameterTypes.length;\r\n var maxOperands = maxArguments;\r\n if (signature.thisType) {\r\n ++minOperands;\r\n ++maxOperands;\r\n --numArguments;\r\n }\r\n assert(numOperands >= minOperands);\r\n\r\n this.ensureFunctionType(signature.parameterTypes, signature.returnType, signature.thisType);\r\n var module = this.module;\r\n\r\n // fill up omitted arguments with zeroes\r\n if (numOperands < maxOperands) {\r\n if (!operands) {\r\n operands = new Array(maxOperands);\r\n operands.length = 0;\r\n }\r\n let parameterTypes = signature.parameterTypes;\r\n for (let i = numArguments; i < maxArguments; ++i) {\r\n operands.push(parameterTypes[i].toNativeZero(module));\r\n }\r\n }\r\n\r\n var returnType = signature.returnType;\r\n this.currentType = returnType;\r\n return module.createBlock(null, [\r\n module.createSetGlobal(this.ensureArgcVar(), // might still be calling a trampoline\r\n module.createI32(numArguments)\r\n ),\r\n module.createCallIndirect(indexArg, operands, signature.toSignatureString())\r\n ], returnType.toNativeType()); // not necessarily wrapped\r\n }\r\n\r\n compileCommaExpression(expression: CommaExpression, contextualType: Type): ExpressionRef {\r\n var expressions = expression.expressions;\r\n var numExpressions = expressions.length;\r\n var exprs = new Array(numExpressions--);\r\n for (let i = 0; i < numExpressions; ++i) {\r\n exprs[i] = this.compileExpression(\r\n expressions[i],\r\n Type.void, // drop all\r\n ConversionKind.EXPLICIT,\r\n WrapMode.NONE\r\n );\r\n }\r\n exprs[numExpressions] = this.compileExpression(\r\n expressions[numExpressions],\r\n contextualType, // except last\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n return this.module.createBlock(null, exprs, this.currentType.toNativeType());\r\n }\r\n\r\n compileElementAccessExpression(expression: ElementAccessExpression, contextualType: Type): ExpressionRef {\r\n var target = this.resolver.resolveElementAccessExpression(\r\n expression,\r\n this.currentFlow,\r\n contextualType\r\n ); // reports\r\n if (!target) return this.module.createUnreachable();\r\n switch (target.kind) {\r\n case ElementKind.CLASS: {\r\n let isUnchecked = this.currentFlow.is(FlowFlags.UNCHECKED_CONTEXT);\r\n let indexedGet = (target).lookupOverload(OperatorKind.INDEXED_GET, isUnchecked);\r\n if (!indexedGet) {\r\n this.error(\r\n DiagnosticCode.Index_signature_is_missing_in_type_0,\r\n expression.expression.range, (target).internalName\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n let thisArg = this.compileExpression(\r\n expression.expression,\r\n (target).type,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n return this.compileCallDirect(indexedGet, [\r\n expression.elementExpression\r\n ], expression, thisArg);\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n compileFunctionExpression(\r\n expression: FunctionExpression,\r\n contextualSignature: Signature | null\r\n ): ExpressionRef {\r\n var declaration = expression.declaration.clone(); // generic contexts can have multiple\r\n assert(!declaration.typeParameters); // function expression cannot be generic\r\n var flow = this.currentFlow;\r\n var actualFunction = flow.actualFunction;\r\n var prototype = new FunctionPrototype(\r\n declaration.name.text.length\r\n ? declaration.name.text\r\n : \"anonymous|\" + (actualFunction.nextAnonymousId++).toString(10),\r\n actualFunction,\r\n declaration,\r\n DecoratorFlags.NONE\r\n );\r\n var instance: Function | null;\r\n var contextualTypeArguments = makeMap(flow.contextualTypeArguments);\r\n\r\n // compile according to context. this differs from a normal function in that omitted parameter\r\n // and return types can be inferred and omitted arguments can be replaced with dummies.\r\n if (contextualSignature) {\r\n let signatureNode = prototype.signatureNode;\r\n let parameterNodes = signatureNode.parameters;\r\n let numPresentParameters = parameterNodes.length;\r\n\r\n // must not require more than the maximum number of parameters\r\n let parameterTypes = contextualSignature.parameterTypes;\r\n let numParameters = parameterTypes.length;\r\n if (numPresentParameters > numParameters) {\r\n this.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n expression.range, numParameters.toString(), numPresentParameters.toString()\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n // check non-omitted parameter types\r\n let parameterNames = new Array(numPresentParameters);\r\n for (let i = 0; i < numPresentParameters; ++i) {\r\n let parameterNode = parameterNodes[i];\r\n parameterNames[i] = parameterNode.name.text; // use actual name\r\n if (!isTypeOmitted(parameterNode.type)) {\r\n let resolvedType = this.resolver.resolveType(\r\n parameterNode.type,\r\n actualFunction.parent,\r\n contextualTypeArguments\r\n );\r\n if (!resolvedType) return this.module.createUnreachable();\r\n if (!parameterTypes[i].isStrictlyAssignableTo(resolvedType)) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n parameterNode.range, parameterTypes[i].toString(), resolvedType.toString()\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n }\r\n // any unused parameters are inherited but ignored\r\n }\r\n\r\n // check non-omitted return type\r\n let returnType = contextualSignature.returnType;\r\n if (!isTypeOmitted(signatureNode.returnType)) {\r\n let resolvedType = this.resolver.resolveType(\r\n signatureNode.returnType,\r\n actualFunction.parent,\r\n contextualTypeArguments\r\n );\r\n if (!resolvedType) return this.module.createUnreachable();\r\n if (\r\n returnType == Type.void\r\n ? resolvedType != Type.void\r\n : !resolvedType.isStrictlyAssignableTo(returnType)\r\n ) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n signatureNode.returnType.range, resolvedType.toString(), returnType.toString()\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n }\r\n\r\n // check explicit this type\r\n let thisType = contextualSignature.thisType;\r\n let thisTypeNode = signatureNode.explicitThisType;\r\n if (thisTypeNode) {\r\n if (!thisType) {\r\n this.error(\r\n DiagnosticCode._this_cannot_be_referenced_in_current_location,\r\n thisTypeNode.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n let resolvedType = this.resolver.resolveType(\r\n thisTypeNode,\r\n actualFunction.parent,\r\n contextualTypeArguments\r\n );\r\n if (!resolvedType) return this.module.createUnreachable();\r\n if (!thisType.isStrictlyAssignableTo(resolvedType)) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n thisTypeNode.range, thisType.toString(), resolvedType.toString()\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n }\r\n\r\n let signature = new Signature(parameterTypes, returnType, thisType);\r\n signature.requiredParameters = numParameters; // !\r\n signature.parameterNames = parameterNames;\r\n instance = new Function(\r\n prototype.name,\r\n prototype,\r\n signature,\r\n contextualTypeArguments\r\n );\r\n if (!this.compileFunction(instance)) return this.module.createUnreachable();\r\n this.currentType = contextualSignature.type;\r\n\r\n // otherwise compile like a normal function\r\n } else {\r\n instance = this.compileFunctionUsingTypeArguments(\r\n prototype,\r\n [],\r\n contextualTypeArguments\r\n );\r\n if (!instance) return this.module.createUnreachable();\r\n this.currentType = instance.signature.type;\r\n }\r\n\r\n var index = this.ensureFunctionTableEntry(instance); // reports\r\n return index < 0\r\n ? this.module.createUnreachable()\r\n : this.module.createI32(index);\r\n }\r\n\r\n /** Makes sure the enclosing source file of the specified expression has been compiled. */\r\n private maybeCompileEnclosingSource(expression: Expression): void {\r\n var internalPath = expression.range.source.internalPath;\r\n var filesByName = this.program.filesByName;\r\n assert(filesByName.has(internalPath));\r\n var enclosingFile = filesByName.get(internalPath)!;\r\n if (!enclosingFile.is(CommonFlags.COMPILED)) {\r\n this.compileFileByPath(internalPath, expression);\r\n }\r\n }\r\n\r\n /**\r\n * Compiles an identifier in the specified context.\r\n * @param retainConstantType Retains the type of inlined constants if `true`, otherwise\r\n * precomputes them according to context.\r\n */\r\n compileIdentifierExpression(\r\n expression: IdentifierExpression,\r\n contextualType: Type,\r\n retainConstantType: bool\r\n ): ExpressionRef {\r\n var module = this.module;\r\n var flow = this.currentFlow;\r\n var actualFunction = flow.actualFunction;\r\n\r\n // check special keywords first\r\n switch (expression.kind) {\r\n case NodeKind.NULL: {\r\n let options = this.options;\r\n if (!contextualType.classReference) {\r\n this.currentType = options.usizeType;\r\n }\r\n return options.isWasm64\r\n ? module.createI64(0)\r\n : module.createI32(0);\r\n }\r\n case NodeKind.TRUE: {\r\n this.currentType = Type.bool;\r\n return module.createI32(1);\r\n }\r\n case NodeKind.FALSE: {\r\n this.currentType = Type.bool;\r\n return module.createI32(0);\r\n }\r\n case NodeKind.THIS: {\r\n if (actualFunction.is(CommonFlags.INSTANCE)) {\r\n let thisLocal = assert(flow.lookupLocal(CommonSymbols.this_));\r\n let classInstance = assert(actualFunction.parent); assert(classInstance.kind == ElementKind.CLASS);\r\n let nativeSizeType = this.options.nativeSizeType;\r\n if (actualFunction.is(CommonFlags.CONSTRUCTOR)) {\r\n if (!flow.is(FlowFlags.ALLOCATES)) {\r\n flow.set(FlowFlags.ALLOCATES);\r\n // {\r\n // if (!this) this = \r\n // this.a = X\r\n // this.b = Y\r\n // return this\r\n // }\r\n let stmts: ExpressionRef[] = [\r\n module.createIf(\r\n module.createUnary(nativeSizeType == NativeType.I64 ? UnaryOp.EqzI64 : UnaryOp.EqzI32,\r\n module.createGetLocal(thisLocal.index, nativeSizeType)\r\n ),\r\n module.createSetLocal(thisLocal.index,\r\n this.makeAllocation(classInstance)\r\n )\r\n )\r\n ];\r\n this.makeFieldInitialization(classInstance, stmts);\r\n stmts.push(\r\n module.createGetLocal(thisLocal.index, nativeSizeType)\r\n );\r\n this.currentType = thisLocal.type;\r\n return module.createBlock(null, stmts, nativeSizeType);\r\n }\r\n }\r\n // if not a constructor, `this` type can differ\r\n let thisType = assert(actualFunction.signature.thisType);\r\n this.currentType = thisType;\r\n return module.createGetLocal(thisLocal.index, thisType.toNativeType());\r\n }\r\n this.error(\r\n DiagnosticCode._this_cannot_be_referenced_in_current_location,\r\n expression.range\r\n );\r\n this.currentType = this.options.usizeType;\r\n return module.createUnreachable();\r\n }\r\n case NodeKind.SUPER: {\r\n let flow = this.currentFlow;\r\n let actualFunction = flow.actualFunction;\r\n if (actualFunction.is(CommonFlags.CONSTRUCTOR)) {\r\n if (!flow.is(FlowFlags.CALLS_SUPER)) {\r\n // TS1034 in the parser effectively limits this to property accesses\r\n this.error(\r\n DiagnosticCode._super_must_be_called_before_accessing_a_property_of_super_in_the_constructor_of_a_derived_class,\r\n expression.range\r\n );\r\n }\r\n }\r\n if (flow.is(FlowFlags.INLINE_CONTEXT)) {\r\n let scopedThis = flow.lookupLocal(CommonSymbols.this_);\r\n if (scopedThis) {\r\n let scopedThisClass = assert(scopedThis.type.classReference);\r\n let base = scopedThisClass.base;\r\n if (base) {\r\n this.currentType = base.type;\r\n return module.createGetLocal(scopedThis.index, base.type.toNativeType());\r\n }\r\n }\r\n }\r\n if (actualFunction.is(CommonFlags.INSTANCE)) {\r\n let classInstance = assert(actualFunction.parent); assert(classInstance.kind == ElementKind.CLASS);\r\n let baseClassInstance = (classInstance).base;\r\n if (baseClassInstance) {\r\n let superType = baseClassInstance.type;\r\n this.currentType = superType;\r\n return module.createGetLocal(0, superType.toNativeType());\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode._super_can_only_be_referenced_in_a_derived_class,\r\n expression.range\r\n );\r\n this.currentType = this.options.usizeType;\r\n return module.createUnreachable();\r\n }\r\n }\r\n\r\n this.maybeCompileEnclosingSource(expression);\r\n\r\n // otherwise resolve\r\n var target = this.resolver.resolveIdentifier( // reports\r\n expression,\r\n flow,\r\n this.currentEnum || actualFunction\r\n );\r\n if (!target) return module.createUnreachable();\r\n\r\n switch (target.kind) {\r\n case ElementKind.LOCAL: {\r\n let localType = (target).type;\r\n assert(localType != Type.void);\r\n if ((target).is(CommonFlags.INLINED)) {\r\n return this.compileInlineConstant(target, contextualType, retainConstantType);\r\n }\r\n let localIndex = (target).index;\r\n assert(localIndex >= 0);\r\n this.currentType = localType;\r\n return this.module.createGetLocal(localIndex, localType.toNativeType());\r\n }\r\n case ElementKind.GLOBAL: {\r\n if (!this.compileGlobal(target)) { // reports; not yet compiled if a static field\r\n return this.module.createUnreachable();\r\n }\r\n let globalType = (target).type;\r\n assert(globalType != Type.void);\r\n if ((target).is(CommonFlags.INLINED)) {\r\n return this.compileInlineConstant(target, contextualType, retainConstantType);\r\n }\r\n this.currentType = globalType;\r\n return this.module.createGetGlobal((target).internalName, globalType.toNativeType());\r\n }\r\n case ElementKind.ENUMVALUE: { // here: if referenced from within the same enum\r\n if (!target.is(CommonFlags.COMPILED)) {\r\n this.error(\r\n DiagnosticCode.A_member_initializer_in_a_enum_declaration_cannot_reference_members_declared_after_it_including_members_defined_in_other_enums,\r\n expression.range\r\n );\r\n this.currentType = Type.i32;\r\n return this.module.createUnreachable();\r\n }\r\n this.currentType = Type.i32;\r\n if ((target).is(CommonFlags.INLINED)) {\r\n assert((target).constantValueKind == ConstantValueKind.INTEGER);\r\n return this.module.createI32(i64_low((target).constantIntegerValue));\r\n }\r\n return this.module.createGetGlobal((target).internalName, NativeType.I32);\r\n }\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n let instance = this.resolver.resolveFunction(\r\n target,\r\n null,\r\n makeMap(flow.contextualTypeArguments)\r\n );\r\n if (!(instance && this.compileFunction(instance))) return module.createUnreachable();\r\n let index = this.ensureFunctionTableEntry(instance);\r\n this.currentType = instance.signature.type;\r\n return this.module.createI32(index);\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n\r\n compileInstanceOfExpression(\r\n expression: InstanceOfExpression,\r\n contextualType: Type\r\n ): ExpressionRef {\r\n var module = this.module;\r\n // NOTE that this differs from TypeScript in that the rhs is a type, not an expression. at the\r\n // time of implementation, this seemed more useful because dynamic rhs expressions are not\r\n // possible in AS anyway.\r\n var expr = this.compileExpressionRetainType(expression.expression, this.options.usizeType, WrapMode.NONE);\r\n var actualType = this.currentType;\r\n var expectedType = this.resolver.resolveType(\r\n expression.isType,\r\n this.currentFlow.actualFunction\r\n );\r\n this.currentType = Type.bool;\r\n if (!expectedType) return module.createUnreachable();\r\n\r\n // instanceof must be exact\r\n if (!expectedType.is(TypeFlags.REFERENCE)) {\r\n return module.createI32(actualType == expectedType ? 1 : 0);\r\n }\r\n // instanceof must be != 0\r\n if (\r\n actualType.is(TypeFlags.NULLABLE) && !expectedType.is(TypeFlags.NULLABLE) &&\r\n actualType.nonNullableType.isAssignableTo(expectedType)\r\n ) {\r\n return module.createBinary(\r\n actualType.is(TypeFlags.LONG)\r\n ? BinaryOp.NeI64\r\n : BinaryOp.NeI32,\r\n expr,\r\n actualType.toNativeZero(module)\r\n );\r\n }\r\n return module.createI32(actualType.isAssignableTo(expectedType) ? 1 : 0);\r\n }\r\n\r\n compileLiteralExpression(\r\n expression: LiteralExpression,\r\n contextualType: Type,\r\n implicitNegate: bool = false\r\n ): ExpressionRef {\r\n var module = this.module;\r\n switch (expression.literalKind) {\r\n case LiteralKind.ARRAY: {\r\n assert(!implicitNegate);\r\n let classType = contextualType.classReference;\r\n if (\r\n classType &&\r\n classType.prototype == this.program.arrayPrototype\r\n ) {\r\n return this.compileArrayLiteral(\r\n assert(classType.typeArguments)[0],\r\n (expression).elementExpressions,\r\n false, // TODO: isConst?\r\n expression\r\n );\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n case LiteralKind.FLOAT: {\r\n let floatValue = (expression).value;\r\n if (implicitNegate) {\r\n floatValue = -floatValue;\r\n }\r\n if (contextualType == Type.f32) {\r\n return module.createF32(floatValue);\r\n }\r\n this.currentType = Type.f64;\r\n return module.createF64(floatValue);\r\n }\r\n case LiteralKind.INTEGER: {\r\n let intValue = (expression).value;\r\n if (implicitNegate) {\r\n intValue = i64_sub(\r\n i64_new(0),\r\n intValue\r\n );\r\n }\r\n let type = this.resolver.determineIntegerLiteralType(intValue, contextualType);\r\n this.currentType = type;\r\n switch (type.kind) {\r\n case TypeKind.ISIZE: if (!this.options.isWasm64) return module.createI32(i64_low(intValue));\r\n case TypeKind.I64: return module.createI64(i64_low(intValue), i64_high(intValue));\r\n case TypeKind.USIZE: if (!this.options.isWasm64) return module.createI32(i64_low(intValue));\r\n case TypeKind.U64: return module.createI64(i64_low(intValue), i64_high(intValue));\r\n case TypeKind.F32: return module.createF32(i64_to_f32(intValue));\r\n case TypeKind.F64: return module.createF64(i64_to_f64(intValue));\r\n default: return module.createI32(i64_low(intValue));\r\n }\r\n }\r\n case LiteralKind.STRING: {\r\n assert(!implicitNegate);\r\n return this.compileStringLiteral(expression);\r\n }\r\n case LiteralKind.OBJECT: {\r\n assert(!implicitNegate);\r\n return this.compileObjectLiteral(expression, contextualType);\r\n }\r\n // case LiteralKind.REGEXP:\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n this.currentType = contextualType;\r\n return module.createUnreachable();\r\n }\r\n\r\n /** Ensures that the specified string exists in static memory and returns a pointer to it. */\r\n ensureStaticString(stringValue: string): ExpressionRef {\r\n var program = this.program;\r\n var hasGC = program.hasGC;\r\n var gcHeaderSize = program.gcHeaderSize;\r\n\r\n var stringInstance = assert(program.stringInstance);\r\n var stringSegment: MemorySegment;\r\n\r\n // if the string already exists, reuse it\r\n var segments = this.stringSegments;\r\n if (segments.has(stringValue)) {\r\n stringSegment = segments.get(stringValue);\r\n\r\n // otherwise create it\r\n } else {\r\n let length = stringValue.length;\r\n let headerSize = (stringInstance.currentMemoryOffset + 1) & ~1;\r\n let totalSize = headerSize + length * 2;\r\n\r\n let buf: Uint8Array;\r\n let pos: u32;\r\n\r\n if (hasGC) {\r\n buf = new Uint8Array(gcHeaderSize + totalSize);\r\n pos = gcHeaderSize;\r\n writeI32(ensureGCHook(this, stringInstance), buf, program.gcHookOffset);\r\n } else {\r\n buf = new Uint8Array(totalSize);\r\n pos = 0;\r\n }\r\n writeI32(length, buf, pos + stringInstance.offsetof(LibrarySymbols.length));\r\n pos += headerSize;\r\n for (let i = 0; i < length; ++i) {\r\n writeI16(stringValue.charCodeAt(i), buf, pos + (i << 1));\r\n }\r\n stringSegment = this.addMemorySegment(buf);\r\n segments.set(stringValue, stringSegment);\r\n }\r\n var stringOffset = stringSegment.offset;\r\n if (hasGC) stringOffset = i64_add(stringOffset, i64_new(gcHeaderSize));\r\n\r\n this.currentType = stringInstance.type;\r\n if (this.options.isWasm64) {\r\n return this.module.createI64(i64_low(stringOffset), i64_high(stringOffset));\r\n } else {\r\n assert(i64_is_u32(stringOffset));\r\n return this.module.createI32(i64_low(stringOffset));\r\n }\r\n }\r\n\r\n compileStringLiteral(expression: StringLiteralExpression): ExpressionRef {\r\n return this.ensureStaticString(expression.value);\r\n }\r\n\r\n /** Ensures that the specified array exists in static memory and returns a pointer to it. */\r\n ensureStaticArray(elementType: Type, values: ExpressionRef[]): ExpressionRef {\r\n var program = this.program;\r\n var hasGC = program.hasGC;\r\n var gcHeaderSize = program.gcHeaderSize;\r\n\r\n var length = values.length;\r\n var byteSize = elementType.byteSize;\r\n var byteLength = length * byteSize;\r\n var usizeTypeSize = this.options.usizeType.byteSize;\r\n\r\n var buf: Uint8Array;\r\n var pos: u32;\r\n\r\n // create the backing ArrayBuffer segment\r\n var bufferInstance = assert(program.arrayBufferInstance);\r\n var bufferHeaderSize = (bufferInstance.currentMemoryOffset + 7) & ~7;\r\n var bufferTotalSize = 1 << (32 - clz(bufferHeaderSize + byteLength - 1));\r\n if (hasGC) {\r\n buf = new Uint8Array(gcHeaderSize + bufferTotalSize);\r\n pos = gcHeaderSize;\r\n writeI32(ensureGCHook(this, bufferInstance), buf, program.gcHookOffset);\r\n } else {\r\n buf = new Uint8Array(bufferTotalSize);\r\n pos = 0;\r\n }\r\n writeI32(byteLength, buf, pos + bufferInstance.offsetof(LibrarySymbols.byteLength));\r\n pos += bufferHeaderSize;\r\n var nativeType = elementType.toNativeType();\r\n switch (nativeType) {\r\n case NativeType.I32: {\r\n switch (byteSize) {\r\n case 1: {\r\n for (let i = 0; i < length; ++i) {\r\n let value = values[i];\r\n assert(getExpressionType(value) == nativeType);\r\n assert(getExpressionId(value) == ExpressionId.Const);\r\n writeI8(getConstValueI32(value), buf, pos);\r\n pos += 1;\r\n }\r\n break;\r\n }\r\n case 2: {\r\n for (let i = 0; i < length; ++i) {\r\n let value = values[i];\r\n assert(getExpressionType(value) == nativeType);\r\n assert(getExpressionId(value) == ExpressionId.Const);\r\n writeI16(getConstValueI32(value), buf, pos);\r\n pos += 2;\r\n }\r\n break;\r\n }\r\n case 4: {\r\n for (let i = 0; i < length; ++i) {\r\n let value = values[i];\r\n assert(getExpressionType(value) == nativeType);\r\n assert(getExpressionId(value) == ExpressionId.Const);\r\n writeI32(getConstValueI32(value), buf, pos);\r\n pos += 4;\r\n }\r\n break;\r\n }\r\n default: assert(false);\r\n }\r\n break;\r\n }\r\n case NativeType.I64: {\r\n for (let i = 0; i < length; ++i) {\r\n let value = values[i];\r\n assert(getExpressionType(value) == nativeType);\r\n assert(getExpressionId(value) == ExpressionId.Const);\r\n writeI64(i64_new(getConstValueI64Low(value), getConstValueI64High(value)), buf, pos);\r\n pos += 8;\r\n }\r\n break;\r\n }\r\n case NativeType.F32: {\r\n for (let i = 0; i < length; ++i) {\r\n let value = values[i];\r\n assert(getExpressionType(value) == nativeType);\r\n assert(getExpressionId(value) == ExpressionId.Const);\r\n writeF32(getConstValueF32(value), buf, pos);\r\n pos += 4;\r\n }\r\n break;\r\n }\r\n case NativeType.F64: {\r\n for (let i = 0; i < length; ++i) {\r\n let value = values[i];\r\n assert(getExpressionType(value) == nativeType);\r\n assert(getExpressionId(value) == ExpressionId.Const);\r\n writeF64(getConstValueF64(value), buf, pos);\r\n pos += 8;\r\n }\r\n break;\r\n }\r\n default: assert(false);\r\n }\r\n var bufferSegment = this.addMemorySegment(buf);\r\n var bufferOffset = bufferSegment.offset;\r\n if (hasGC) bufferOffset = i64_add(bufferOffset, i64_new(gcHeaderSize));\r\n\r\n // create the Array segment and return a pointer to it\r\n var arrayPrototype = assert(program.arrayPrototype);\r\n var arrayInstance = assert(this.resolver.resolveClass(\r\n arrayPrototype,\r\n [ elementType ],\r\n makeMap()\r\n ));\r\n var arrayHeaderSize = (arrayInstance.currentMemoryOffset + 7) & ~7;\r\n if (hasGC) {\r\n buf = new Uint8Array(gcHeaderSize + arrayHeaderSize);\r\n pos = gcHeaderSize;\r\n writeI32(ensureGCHook(this, arrayInstance), buf, program.gcHookOffset);\r\n } else {\r\n buf = new Uint8Array(arrayHeaderSize);\r\n pos = 0;\r\n }\r\n var arraySegment = this.addMemorySegment(buf);\r\n var arrayOffset = arraySegment.offset;\r\n if (hasGC) arrayOffset = i64_add(arrayOffset, i64_new(gcHeaderSize));\r\n this.currentType = arrayInstance.type;\r\n var buffer_offset = pos + arrayInstance.offsetof(\"buffer_\");\r\n var length_offset = pos + arrayInstance.offsetof(\"length_\");\r\n if (usizeTypeSize == 8) {\r\n writeI64(bufferOffset, buf, buffer_offset);\r\n writeI32(length, buf, length_offset);\r\n return this.module.createI64(i64_low(arrayOffset), i64_high(arrayOffset));\r\n } else {\r\n assert(i64_is_u32(bufferOffset));\r\n writeI32(i64_low(bufferOffset), buf, buffer_offset);\r\n writeI32(length, buf, length_offset);\r\n assert(i64_is_u32(arrayOffset));\r\n return this.module.createI32(i64_low(arrayOffset));\r\n }\r\n }\r\n\r\n compileArrayLiteral(\r\n elementType: Type,\r\n expressions: (Expression | null)[],\r\n isConst: bool,\r\n reportNode: Node\r\n ): ExpressionRef {\r\n var module = this.module;\r\n\r\n // find out whether all elements are constant (array is static)\r\n var length = expressions.length;\r\n var compiledValues = new Array(length);\r\n var constantValues = new Array(length);\r\n var nativeElementType = elementType.toNativeType();\r\n var isStatic = true;\r\n for (let i = 0; i < length; ++i) {\r\n let expression = expressions[i];\r\n let expr = expression\r\n ? this.compileExpression(expression, elementType, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n : elementType.toNativeZero(module);\r\n compiledValues[i] = expr;\r\n if (isStatic) {\r\n expr = module.precomputeExpression(expr);\r\n if (getExpressionId(expr) == ExpressionId.Const) {\r\n assert(getExpressionType(expr) == nativeElementType);\r\n constantValues[i] = expr;\r\n } else {\r\n if (isConst) {\r\n this.warning(\r\n DiagnosticCode.Compiling_constant_with_non_constant_initializer_as_mutable,\r\n reportNode.range\r\n );\r\n }\r\n isStatic = false;\r\n }\r\n }\r\n }\r\n\r\n // make a static array if possible\r\n if (isStatic) return this.ensureStaticArray(elementType, constantValues);\r\n\r\n // otherwise obtain the array type\r\n var arrayPrototype = assert(this.program.arrayPrototype);\r\n var arrayInstance = assert(this.resolver.resolveClass(\r\n arrayPrototype,\r\n [ elementType ],\r\n makeMap()\r\n ));\r\n var arrayType = arrayInstance.type;\r\n\r\n // and compile an explicit instantiation\r\n this.currentType = arrayType;\r\n var setter = arrayInstance.lookupOverload(OperatorKind.INDEXED_SET, true);\r\n if (!setter) {\r\n this.error(\r\n DiagnosticCode.Index_signature_in_type_0_only_permits_reading,\r\n reportNode.range, arrayInstance.internalName\r\n );\r\n return module.createUnreachable();\r\n }\r\n var nativeArrayType = arrayType.toNativeType();\r\n var flow = this.currentFlow;\r\n var tempLocal = flow.parentFunction.addLocal(arrayType); // can't reuse a temp (used in compiledValues)\r\n var stmts = new Array(2 + length);\r\n var index = 0;\r\n stmts[index++] = module.createSetLocal(tempLocal.index,\r\n this.makeCallDirect(assert(arrayInstance.constructorInstance), [\r\n module.createI32(0), // this\r\n module.createI32(length)\r\n ])\r\n );\r\n for (let i = 0; i < length; ++i) {\r\n stmts[index++] = this.makeCallDirect(setter, [\r\n module.createGetLocal(tempLocal.index, nativeArrayType), // this\r\n module.createI32(i),\r\n compiledValues[i]\r\n ]);\r\n }\r\n assert(index + 1 == stmts.length);\r\n stmts[index] = module.createGetLocal(tempLocal.index, nativeArrayType);\r\n flow.freeTempLocal(tempLocal); // but can be reused now\r\n this.currentType = arrayType;\r\n return module.createBlock(null, stmts, nativeArrayType);\r\n }\r\n\r\n compileObjectLiteral(expression: ObjectLiteralExpression, contextualType: Type): ExpressionRef {\r\n var module = this.module;\r\n\r\n // contextual type must be a class\r\n var classReference = contextualType.classReference;\r\n if (!classReference || classReference.is(CommonFlags.ABSTRACT)) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n expression.range, \"\", contextualType.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n\r\n // if present, check that the constructor is compatible with object literals\r\n var ctor = classReference.constructorInstance;\r\n if (ctor) {\r\n // TODO: if the constructor requires parameters, check whether these are given as part of the\r\n // object literal and use them to call the ctor while not generating a store.\r\n if (ctor.signature.requiredParameters) {\r\n this.error(\r\n DiagnosticCode.Constructor_of_class_0_must_not_require_any_arguments,\r\n expression.range, classReference.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (ctor.is(CommonFlags.PRIVATE)) {\r\n this.error(\r\n DiagnosticCode.Constructor_of_class_0_is_private_and_only_accessible_within_the_class_declaration,\r\n expression.range, classReference.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n if (ctor.is(CommonFlags.PROTECTED)) {\r\n this.error(\r\n DiagnosticCode.Constructor_of_class_0_is_protected_and_only_accessible_within_the_class_declaration,\r\n expression.range, classReference.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n\r\n // check and compile field values\r\n var names = expression.names;\r\n var numNames = names.length;\r\n var values = expression.values;\r\n var members = classReference.members;\r\n var hasErrors = false;\r\n var exprs = new Array(numNames + 2);\r\n var flow = this.currentFlow;\r\n var tempLocal = flow.getTempLocal(this.options.usizeType);\r\n assert(numNames == values.length);\r\n for (let i = 0, k = numNames; i < k; ++i) {\r\n let member = members ? members.get(names[i].text) : null;\r\n if (!member || member.kind != ElementKind.FIELD) {\r\n this.error(\r\n DiagnosticCode.Property_0_does_not_exist_on_type_1,\r\n names[i].range, names[i].text, classReference.toString()\r\n );\r\n hasErrors = true;\r\n continue;\r\n }\r\n let type = (member).type;\r\n exprs[i + 1] = this.module.createStore( // TODO: handle setters as well\r\n type.byteSize,\r\n this.module.createGetLocal(tempLocal.index, this.options.nativeSizeType),\r\n this.compileExpression(values[i], (member).type, ConversionKind.IMPLICIT, WrapMode.NONE),\r\n type.toNativeType(),\r\n (member).memoryOffset\r\n );\r\n }\r\n this.currentType = classReference.type.nonNullableType;\r\n if (hasErrors) return module.createUnreachable();\r\n\r\n // allocate a new instance first and assign 'this' to the temp. local\r\n exprs[0] = module.createSetLocal(\r\n tempLocal.index,\r\n this.makeAllocation(classReference)\r\n );\r\n\r\n // once all field values have been set, return 'this'\r\n exprs[exprs.length - 1] = module.createGetLocal(tempLocal.index, this.options.nativeSizeType);\r\n\r\n return module.createBlock(null, exprs, this.options.nativeSizeType);\r\n }\r\n\r\n compileNewExpression(expression: NewExpression, contextualType: Type): ExpressionRef {\r\n var module = this.module;\r\n var flow = this.currentFlow;\r\n\r\n // obtain the class being instantiated\r\n var target = this.resolver.resolveExpression( // reports\r\n expression.expression,\r\n flow\r\n );\r\n if (!target) return module.createUnreachable();\r\n if (target.kind != ElementKind.CLASS_PROTOTYPE) {\r\n this.error(\r\n DiagnosticCode.Cannot_use_new_with_an_expression_whose_type_lacks_a_construct_signature,\r\n expression.expression.range\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n var classPrototype = target;\r\n var classInstance: Class | null = null;\r\n var typeArguments = expression.typeArguments;\r\n var classReference: Class | null;\r\n if (\r\n !typeArguments &&\r\n (classReference = contextualType.classReference) !== null &&\r\n classReference.is(CommonFlags.GENERIC)\r\n ) {\r\n classInstance = this.resolver.resolveClass(\r\n classPrototype,\r\n classReference.typeArguments,\r\n makeMap(flow.contextualTypeArguments)\r\n );\r\n } else {\r\n classInstance = this.resolver.resolveClassInclTypeArguments(\r\n classPrototype,\r\n typeArguments,\r\n flow.actualFunction.parent, // relative to caller\r\n makeMap(flow.contextualTypeArguments),\r\n expression\r\n );\r\n }\r\n if (!classInstance) return module.createUnreachable();\r\n return this.compileInstantiate(classInstance, expression.arguments, expression);\r\n }\r\n\r\n /** Gets the compiled constructor of the specified class or generates one if none is present. */\r\n ensureConstructor(classInstance: Class, reportNode: Node): Function {\r\n var instance = classInstance.constructorInstance;\r\n if (instance) {\r\n // do not attempt to compile it if inlined anyway\r\n if (!instance.hasDecorator(DecoratorFlags.INLINE)) this.compileFunction(instance);\r\n return instance;\r\n }\r\n\r\n // clone base constructor if a derived class\r\n var baseClass = classInstance.base;\r\n if (baseClass) {\r\n let baseCtor = this.ensureConstructor(baseClass, reportNode);\r\n instance = new Function(\r\n CommonSymbols.constructor,\r\n new FunctionPrototype(\r\n CommonSymbols.constructor,\r\n classInstance,\r\n // declaration is important, i.e. to access optional parameter initializers\r\n (baseCtor.declaration).clone()\r\n ),\r\n baseCtor.signature,\r\n null\r\n );\r\n\r\n // otherwise make a default constructor\r\n } else {\r\n instance = new Function(\r\n CommonSymbols.constructor,\r\n new FunctionPrototype(\r\n CommonSymbols.constructor,\r\n classInstance,\r\n this.program.makeNativeFunctionDeclaration(CommonSymbols.constructor,\r\n CommonFlags.INSTANCE | CommonFlags.CONSTRUCTOR\r\n )\r\n ),\r\n new Signature(null, classInstance.type, classInstance.type),\r\n null\r\n );\r\n }\r\n\r\n instance.internalName = classInstance.internalName + INSTANCE_DELIMITER + \"constructor\";\r\n instance.set(CommonFlags.COMPILED);\r\n instance.prototype.setResolvedInstance(\"\", instance);\r\n classInstance.constructorInstance = instance;\r\n var previousFlow = this.currentFlow;\r\n this.currentFlow = instance.flow;\r\n\r\n // generate body\r\n var signature = instance.signature;\r\n var module = this.module;\r\n var nativeSizeType = this.options.nativeSizeType;\r\n var stmts = new Array();\r\n\r\n // {\r\n // if (!this) this = \r\n // IF_DERIVED: this = super(this, ...args)\r\n // this.a = X\r\n // this.b = Y\r\n // return this\r\n // }\r\n stmts.push(\r\n module.createIf(\r\n module.createUnary(nativeSizeType == NativeType.I64 ? UnaryOp.EqzI64 : UnaryOp.EqzI32,\r\n module.createGetLocal(0, nativeSizeType)\r\n ),\r\n module.createSetLocal(0,\r\n this.makeAllocation(classInstance)\r\n )\r\n )\r\n );\r\n if (baseClass) {\r\n let parameterTypes = signature.parameterTypes;\r\n let numParameters = parameterTypes.length;\r\n let operands = new Array(1 + numParameters);\r\n operands[0] = module.createGetLocal(0, nativeSizeType);\r\n for (let i = 0; i < numParameters; ++i) {\r\n operands[i + 1] = module.createGetLocal(i + 1, parameterTypes[i].toNativeType());\r\n }\r\n // TODO: base constructor might be inlined, but makeCallDirect can't do this\r\n stmts.push(\r\n module.createSetLocal(0,\r\n this.makeCallDirect(assert(baseClass.constructorInstance), operands)\r\n )\r\n );\r\n }\r\n this.makeFieldInitialization(classInstance, stmts);\r\n stmts.push(\r\n module.createGetLocal(0, nativeSizeType)\r\n );\r\n\r\n // make the function\r\n var typeRef = this.ensureFunctionType(signature.parameterTypes, signature.returnType, signature.thisType);\r\n var locals = instance.localsByIndex;\r\n var varTypes = new Array(); // of temp. vars added while compiling initializers\r\n var numOperands = 1 + signature.parameterTypes.length;\r\n var numLocals = locals.length;\r\n if (numLocals > numOperands) {\r\n for (let i = numOperands; i < numLocals; ++i) varTypes.push(locals[i].type.toNativeType());\r\n }\r\n var funcRef = module.addFunction(instance.internalName, typeRef, varTypes,\r\n stmts.length == 1\r\n ? stmts[0]\r\n : module.createBlock(null, stmts, nativeSizeType)\r\n );\r\n instance.finalize(module, funcRef);\r\n this.currentFlow = previousFlow;\r\n return instance;\r\n }\r\n\r\n compileInstantiate(classInstance: Class, argumentExpressions: Expression[], reportNode: Node): ExpressionRef {\r\n var ctor = this.ensureConstructor(classInstance, reportNode);\r\n var expr = this.compileCallDirect(\r\n ctor,\r\n argumentExpressions,\r\n reportNode,\r\n this.options.usizeType.toNativeZero(this.module)\r\n );\r\n this.currentType = classInstance.type;\r\n return expr;\r\n }\r\n\r\n compileParenthesizedExpression(\r\n expression: ParenthesizedExpression,\r\n contextualType: Type\r\n ): ExpressionRef {\r\n // does not change types, just order\r\n return this.compileExpression(\r\n expression.expression,\r\n contextualType,\r\n ConversionKind.NONE,\r\n WrapMode.NONE\r\n );\r\n }\r\n\r\n /**\r\n * Compiles a property access in the specified context.\r\n * @param retainConstantType Retains the type of inlined constants if `true`, otherwise\r\n * precomputes them according to context.\r\n */\r\n compilePropertyAccessExpression(\r\n propertyAccess: PropertyAccessExpression,\r\n contextualType: Type,\r\n retainConstantType: bool\r\n ): ExpressionRef {\r\n var module = this.module;\r\n var flow = this.currentFlow;\r\n\r\n this.maybeCompileEnclosingSource(propertyAccess);\r\n\r\n var target = this.resolver.resolvePropertyAccessExpression(propertyAccess, flow, contextualType); // reports\r\n if (!target) return module.createUnreachable();\r\n\r\n switch (target.kind) {\r\n case ElementKind.GLOBAL: { // static field\r\n if (!this.compileGlobal(target)) { // reports; not yet compiled if a static field\r\n return module.createUnreachable();\r\n }\r\n let globalType = (target).type;\r\n assert(globalType != Type.void);\r\n if ((target).is(CommonFlags.INLINED)) {\r\n return this.compileInlineConstant(target, contextualType, retainConstantType);\r\n }\r\n this.currentType = globalType;\r\n return module.createGetGlobal((target).internalName, globalType.toNativeType());\r\n }\r\n case ElementKind.ENUMVALUE: { // enum value\r\n let theEnum = assert((target).parent); assert(theEnum.kind == ElementKind.ENUM);\r\n if (!this.compileEnum(theEnum)) {\r\n this.currentType = Type.i32;\r\n return this.module.createUnreachable();\r\n }\r\n this.currentType = Type.i32;\r\n if ((target).is(CommonFlags.INLINED)) {\r\n assert((target).constantValueKind == ConstantValueKind.INTEGER);\r\n return module.createI32(i64_low((target).constantIntegerValue));\r\n }\r\n return module.createGetGlobal((target).internalName, NativeType.I32);\r\n }\r\n case ElementKind.FIELD: { // instance field\r\n assert((target).memoryOffset >= 0);\r\n let thisExpr = this.compileExpressionRetainType(\r\n assert(this.resolver.currentThisExpression),\r\n this.options.usizeType,\r\n WrapMode.NONE\r\n );\r\n this.currentType = (target).type;\r\n return module.createLoad(\r\n (target).type.byteSize,\r\n (target).type.is(TypeFlags.SIGNED | TypeFlags.INTEGER),\r\n thisExpr,\r\n (target).type.toNativeType(),\r\n (target).memoryOffset\r\n );\r\n }\r\n case ElementKind.PROPERTY_PROTOTYPE: {// static property\r\n let getterPrototype = (target).getterPrototype;\r\n if (getterPrototype) {\r\n let getter = this.resolver.resolveFunction(getterPrototype, null);\r\n if (getter) return this.compileCallDirect(getter, [], propertyAccess, 0);\r\n }\r\n return module.createUnreachable();\r\n }\r\n case ElementKind.PROPERTY: { // instance property\r\n let getterInstance = assert((target).getterInstance);\r\n return this.compileCallDirect(getterInstance, [], propertyAccess,\r\n this.compileExpressionRetainType(\r\n assert(this.resolver.currentThisExpression),\r\n this.options.usizeType,\r\n WrapMode.NONE\r\n )\r\n );\r\n }\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n this.error(\r\n DiagnosticCode.Cannot_access_method_0_without_calling_it_as_it_requires_this_to_be_set,\r\n propertyAccess.range, (target).name\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n propertyAccess.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n\r\n private compileGetter(target: PropertyPrototype, reportNode: Node): ExpressionRef {\r\n var prototype = target.getterPrototype;\r\n if (prototype) {\r\n let instance = this.resolver.resolveFunction(prototype, null);\r\n if (!instance) return this.module.createUnreachable();\r\n let signature = instance.signature;\r\n if (!this.checkCallSignature( // reports\r\n signature,\r\n 0,\r\n instance.is(CommonFlags.INSTANCE),\r\n reportNode\r\n )) {\r\n return this.module.createUnreachable();\r\n }\r\n if (instance.is(CommonFlags.INSTANCE)) {\r\n let classInstance = assert(instance.parent); assert(classInstance.kind == ElementKind.CLASS);\r\n let thisExpression = assert(this.resolver.currentThisExpression); //!!!\r\n let thisExpr = this.compileExpressionRetainType(\r\n thisExpression,\r\n this.options.usizeType,\r\n WrapMode.NONE\r\n );\r\n this.currentType = signature.returnType;\r\n return this.compileCallDirect(instance, [], reportNode, thisExpr);\r\n } else {\r\n this.currentType = signature.returnType;\r\n return this.compileCallDirect(instance, [], reportNode, 0);\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode.Property_0_does_not_exist_on_type_1,\r\n reportNode.range, (target).name, (target).parent.toString()\r\n );\r\n return this.module.createUnreachable();\r\n }\r\n }\r\n\r\n compileTernaryExpression(expression: TernaryExpression, contextualType: Type): ExpressionRef {\r\n var ifThen = expression.ifThen;\r\n var ifElse = expression.ifElse;\r\n var outerFlow = this.currentFlow;\r\n\r\n var condExpr = this.makeIsTrueish(\r\n this.compileExpressionRetainType(expression.condition, Type.bool, WrapMode.NONE),\r\n this.currentType\r\n );\r\n\r\n // Try to eliminate unnecesssary branches if the condition is constant\r\n var condExprPrecomp = this.module.precomputeExpression(condExpr);\r\n if (\r\n getExpressionId(condExprPrecomp) == ExpressionId.Const &&\r\n getExpressionType(condExprPrecomp) == NativeType.I32\r\n ) {\r\n return getConstValueI32(condExprPrecomp)\r\n ? this.compileExpressionRetainType(ifThen, contextualType, WrapMode.NONE)\r\n : this.compileExpressionRetainType(ifElse, contextualType, WrapMode.NONE);\r\n\r\n // Otherwise recompile to the original and let the optimizer decide\r\n } else /* if (condExpr != condExprPrecomp) <- not guaranteed */ {\r\n condExpr = this.makeIsTrueish(\r\n this.compileExpressionRetainType(expression.condition, Type.bool, WrapMode.NONE),\r\n this.currentType\r\n );\r\n }\r\n\r\n var ifThenFlow = outerFlow.fork();\r\n this.currentFlow = ifThenFlow;\r\n var ifThenExpr = this.compileExpressionRetainType(ifThen, contextualType, WrapMode.NONE);\r\n var ifThenType = this.currentType;\r\n ifThenFlow.freeScopedLocals();\r\n\r\n var ifElseFlow = outerFlow.fork();\r\n this.currentFlow = ifElseFlow;\r\n var ifElseExpr = this.compileExpressionRetainType(ifElse, contextualType, WrapMode.NONE);\r\n var ifElseType = this.currentType;\r\n ifElseFlow.freeScopedLocals();\r\n this.currentFlow = outerFlow;\r\n\r\n outerFlow.inheritMutual(ifThenFlow, ifElseFlow);\r\n\r\n var commonType = Type.commonDenominator(ifThenType, ifElseType, false);\r\n if (!commonType) {\r\n this.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n expression.range, ifThenType.toString(), ifElseType.toString()\r\n );\r\n this.currentType = contextualType;\r\n return this.module.createUnreachable();\r\n }\r\n ifThenExpr = this.convertExpression(\r\n ifThenExpr,\r\n ifThenType,\r\n commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n ifThen\r\n );\r\n ifElseExpr = this.convertExpression(\r\n ifElseExpr,\r\n ifElseType,\r\n commonType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE,\r\n ifElse\r\n );\r\n this.currentType = commonType;\r\n return this.module.createIf(condExpr, ifThenExpr, ifElseExpr);\r\n }\r\n\r\n compileUnaryPostfixExpression(expression: UnaryPostfixExpression, contextualType: Type): ExpressionRef {\r\n var module = this.module;\r\n var flow = this.currentFlow;\r\n\r\n // make a getter for the expression (also obtains the type)\r\n var getValue = this.compileExpression( // reports\r\n expression.operand,\r\n contextualType == Type.void\r\n ? Type.i32\r\n : contextualType,\r\n ConversionKind.NONE,\r\n WrapMode.NONE\r\n );\r\n\r\n // shortcut if compiling the getter already failed\r\n if (getExpressionId(getValue) == ExpressionId.Unreachable) return getValue;\r\n\r\n var currentType = this.currentType;\r\n\r\n // if the value isn't dropped, a temp. local is required to remember the original value\r\n var tempLocal: Local | null = null;\r\n if (contextualType != Type.void) {\r\n tempLocal = flow.getTempLocal(currentType, false);\r\n getValue = module.createTeeLocal(\r\n tempLocal.index,\r\n getValue\r\n );\r\n }\r\n\r\n var calcValue: ExpressionRef;\r\n\r\n switch (expression.operator) {\r\n case Token.PLUS_PLUS: {\r\n switch (currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n calcValue = module.createBinary(\r\n BinaryOp.AddI32,\r\n getValue,\r\n module.createI32(1)\r\n );\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = this.currentType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.POSTFIX_INC);\r\n if (overload) {\r\n calcValue = this.compileUnaryOverload(overload, expression.operand, getValue, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n case TypeKind.ISIZE: {\r\n let options = this.options;\r\n calcValue = module.createBinary(\r\n options.isWasm64\r\n ? BinaryOp.AddI64\r\n : BinaryOp.AddI32,\r\n getValue,\r\n currentType.toNativeOne(module)\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n calcValue = module.createBinary(\r\n BinaryOp.AddI64,\r\n getValue,\r\n module.createI64(1)\r\n );\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n calcValue = module.createBinary(\r\n BinaryOp.AddF32,\r\n getValue,\r\n module.createF32(1)\r\n );\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n calcValue = module.createBinary(\r\n BinaryOp.AddF64,\r\n getValue,\r\n module.createF64(1)\r\n );\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n return module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.MINUS_MINUS: {\r\n switch (currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n calcValue = module.createBinary(\r\n BinaryOp.SubI32,\r\n getValue,\r\n module.createI32(1)\r\n );\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = this.currentType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.POSTFIX_DEC);\r\n if (overload) {\r\n calcValue = this.compileUnaryOverload(overload, expression.operand, getValue, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n case TypeKind.ISIZE: {\r\n let options = this.options;\r\n calcValue = module.createBinary(\r\n options.isWasm64\r\n ? BinaryOp.SubI64\r\n : BinaryOp.SubI32,\r\n getValue,\r\n currentType.toNativeOne(module)\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n calcValue = module.createBinary(\r\n BinaryOp.SubI64,\r\n getValue,\r\n module.createI64(1)\r\n );\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n calcValue = module.createBinary(\r\n BinaryOp.SubF32,\r\n getValue,\r\n module.createF32(1)\r\n );\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n calcValue = module.createBinary(\r\n BinaryOp.SubF64,\r\n getValue,\r\n module.createF64(1)\r\n );\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n return module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n return module.createUnreachable();\r\n }\r\n }\r\n\r\n // simplify if dropped anyway\r\n if (!tempLocal) {\r\n this.currentType = Type.void;\r\n return this.compileAssignmentWithValue(expression.operand,\r\n calcValue,\r\n false\r\n );\r\n }\r\n\r\n // otherwise use the temp. local for the intermediate value (always possibly overflows)\r\n var setValue = this.compileAssignmentWithValue(expression.operand,\r\n calcValue, // also tees getValue to tempLocal\r\n false\r\n );\r\n\r\n this.currentType = tempLocal.type;\r\n flow.freeTempLocal(tempLocal);\r\n var nativeType = tempLocal.type.toNativeType();\r\n\r\n return module.createBlock(null, [\r\n setValue,\r\n module.createGetLocal(tempLocal.index, nativeType)\r\n ], nativeType); // result of 'x++' / 'x--' might overflow\r\n }\r\n\r\n compileUnaryPrefixExpression(\r\n expression: UnaryPrefixExpression,\r\n contextualType: Type\r\n ): ExpressionRef {\r\n var module = this.module;\r\n var compound = false;\r\n var expr: ExpressionRef;\r\n\r\n switch (expression.operator) {\r\n case Token.PLUS: {\r\n expr = this.compileExpression(\r\n expression.operand,\r\n contextualType == Type.void\r\n ? Type.i32\r\n : contextualType,\r\n ConversionKind.NONE,\r\n WrapMode.NONE\r\n );\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = this.currentType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.PLUS);\r\n if (overload) {\r\n expr = this.compileUnaryOverload(overload, expression.operand, expr, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n\r\n // nop\r\n break;\r\n }\r\n case Token.MINUS: {\r\n if (expression.operand.kind == NodeKind.LITERAL && (\r\n (expression.operand).literalKind == LiteralKind.INTEGER ||\r\n (expression.operand).literalKind == LiteralKind.FLOAT\r\n )) {\r\n // implicitly negate integer and float literals. also enables proper checking of literal ranges.\r\n expr = this.compileLiteralExpression(expression.operand, contextualType, true);\r\n // compileExpression normally does this:\r\n if (this.options.sourceMap) this.addDebugLocation(expr, expression.range);\r\n break;\r\n }\r\n\r\n expr = this.compileExpression(\r\n expression.operand,\r\n contextualType == Type.void\r\n ? Type.i32\r\n : contextualType,\r\n ConversionKind.NONE,\r\n WrapMode.NONE\r\n );\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = this.currentType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.MINUS);\r\n if (overload) {\r\n expr = this.compileUnaryOverload(overload, expression.operand, expr, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.SubI32, module.createI32(0), expr);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.SubI64\r\n : BinaryOp.SubI32,\r\n this.currentType.toNativeZero(module),\r\n expr\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.SubI64, module.createI64(0), expr);\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createUnary(UnaryOp.NegF32, expr);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createUnary(UnaryOp.NegF64, expr);\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.PLUS_PLUS: {\r\n compound = true;\r\n expr = this.compileExpression(\r\n expression.operand,\r\n contextualType == Type.void\r\n ? Type.i32\r\n : contextualType,\r\n ConversionKind.NONE,\r\n WrapMode.NONE\r\n );\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = this.currentType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.PREFIX_INC);\r\n if (overload) {\r\n expr = this.compileUnaryOverload(overload, expression.operand, expr, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.AddI32, expr, this.module.createI32(1));\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.AddI64\r\n : BinaryOp.AddI32,\r\n expr,\r\n this.currentType.toNativeOne(module)\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.AddI64, expr, module.createI64(1));\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.AddF32, expr, module.createF32(1));\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.AddF64, expr, module.createF64(1));\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.MINUS_MINUS: {\r\n compound = true;\r\n expr = this.compileExpression(\r\n expression.operand,\r\n contextualType == Type.void\r\n ? Type.i32\r\n : contextualType,\r\n ConversionKind.NONE,\r\n WrapMode.NONE\r\n );\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = this.currentType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.PREFIX_DEC);\r\n if (overload) {\r\n expr = this.compileUnaryOverload(overload, expression.operand, expr, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.SubI32, expr, module.createI32(1));\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.SubI64\r\n : BinaryOp.SubI32,\r\n expr,\r\n this.currentType.toNativeOne(module)\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.SubI64, expr, module.createI64(1));\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createBinary(BinaryOp.SubF32, expr, module.createF32(1));\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createBinary(BinaryOp.SubF64, expr, module.createF64(1));\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.EXCLAMATION: {\r\n expr = this.compileExpression(\r\n expression.operand,\r\n contextualType == Type.void\r\n ? Type.i32\r\n : contextualType,\r\n ConversionKind.NONE,\r\n WrapMode.NONE\r\n );\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = this.currentType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.NOT);\r\n if (overload) {\r\n expr = this.compileUnaryOverload(overload, expression.operand, expr, expression);\r\n break;\r\n }\r\n }\r\n // allow '!' for references even without an overload\r\n }\r\n\r\n expr = this.makeIsFalseish(expr, this.currentType);\r\n this.currentType = Type.bool;\r\n break;\r\n }\r\n case Token.TILDE: {\r\n expr = this.compileExpression(\r\n expression.operand,\r\n contextualType == Type.void\r\n ? Type.i32\r\n : contextualType.is(TypeFlags.FLOAT)\r\n ? Type.i64\r\n : contextualType,\r\n ConversionKind.NONE,\r\n WrapMode.NONE\r\n );\r\n\r\n // check operator overload\r\n if (this.currentType.is(TypeFlags.REFERENCE)) {\r\n let classReference = this.currentType.classReference;\r\n if (classReference) {\r\n let overload = classReference.lookupOverload(OperatorKind.BITWISE_NOT);\r\n if (overload) {\r\n expr = this.compileUnaryOverload(overload, expression.operand, expr, expression);\r\n break;\r\n }\r\n }\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n } else {\r\n expr = this.convertExpression(\r\n expr,\r\n this.currentType, this.currentType.intType,\r\n ConversionKind.IMPLICIT, WrapMode.NONE,\r\n expression.operand\r\n );\r\n }\r\n\r\n switch (this.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createBinary(BinaryOp.XorI32, expr, module.createI32(-1));\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n this.options.isWasm64\r\n ? BinaryOp.XorI64\r\n : BinaryOp.XorI32,\r\n expr,\r\n this.currentType.toNativeNegOne(module)\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.XorI64, expr, module.createI64(-1, -1));\r\n break;\r\n }\r\n default: {\r\n assert(false);\r\n expr = module.createUnreachable();\r\n }\r\n }\r\n break;\r\n }\r\n case Token.TYPEOF: {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n expression.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n default: {\r\n assert(false);\r\n return module.createUnreachable();\r\n }\r\n }\r\n return compound\r\n ? this.compileAssignmentWithValue(expression.operand, expr, contextualType != Type.void)\r\n : expr;\r\n }\r\n\r\n /** Makes sure that a 32-bit integer value is wrapped to a valid value of the specified type. */\r\n ensureSmallIntegerWrap(expr: ExpressionRef, type: Type): ExpressionRef {\r\n var module = this.module;\r\n var flow = this.currentFlow;\r\n switch (type.kind) {\r\n case TypeKind.I8: {\r\n if (flow.canOverflow(expr, type)) {\r\n expr = this.options.hasFeature(Feature.SIGN_EXTENSION)\r\n ? module.createUnary(UnaryOp.ExtendI8ToI32, expr)\r\n : module.createBinary(BinaryOp.ShrI32,\r\n module.createBinary(BinaryOp.ShlI32,\r\n expr,\r\n module.createI32(24)\r\n ),\r\n module.createI32(24)\r\n );\r\n }\r\n break;\r\n }\r\n case TypeKind.I16: {\r\n if (flow.canOverflow(expr, type)) {\r\n expr = this.options.hasFeature(Feature.SIGN_EXTENSION)\r\n ? module.createUnary(UnaryOp.ExtendI16ToI32, expr)\r\n : module.createBinary(BinaryOp.ShrI32,\r\n module.createBinary(BinaryOp.ShlI32,\r\n expr,\r\n module.createI32(16)\r\n ),\r\n module.createI32(16)\r\n );\r\n }\r\n break;\r\n }\r\n case TypeKind.U8: {\r\n if (flow.canOverflow(expr, type)) {\r\n expr = module.createBinary(BinaryOp.AndI32,\r\n expr,\r\n module.createI32(0xff)\r\n );\r\n }\r\n break;\r\n }\r\n case TypeKind.U16: {\r\n if (flow.canOverflow(expr, type)) {\r\n expr = module.createBinary(BinaryOp.AndI32,\r\n expr,\r\n module.createI32(0xffff)\r\n );\r\n }\r\n break;\r\n }\r\n case TypeKind.BOOL: {\r\n if (flow.canOverflow(expr, type)) {\r\n // bool is special in that it compares to 0 instead of masking with 0x1\r\n expr = module.createBinary(BinaryOp.NeI32,\r\n expr,\r\n module.createI32(0)\r\n );\r\n }\r\n break;\r\n }\r\n }\r\n return expr;\r\n }\r\n\r\n /** Creates a comparison whether an expression is 'false' in a broader sense. */\r\n makeIsFalseish(expr: ExpressionRef, type: Type): ExpressionRef {\r\n var module = this.module;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n expr = this.ensureSmallIntegerWrap(expr, type);\r\n // fall-through\r\n }\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n return module.createUnary(UnaryOp.EqzI32, expr);\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n return module.createUnary(UnaryOp.EqzI64, expr);\r\n }\r\n case TypeKind.USIZE: // TODO: strings?\r\n case TypeKind.ISIZE: {\r\n return module.createUnary(type.size == 64 ? UnaryOp.EqzI64 : UnaryOp.EqzI32, expr);\r\n }\r\n case TypeKind.F32: {\r\n return module.createBinary(BinaryOp.EqF32, expr, module.createF32(0));\r\n }\r\n case TypeKind.F64: {\r\n return module.createBinary(BinaryOp.EqF64, expr, module.createF64(0));\r\n }\r\n default: {\r\n assert(false);\r\n return module.createI32(1);\r\n }\r\n }\r\n }\r\n\r\n /** Creates a comparison whether an expression is 'true' in a broader sense. */\r\n makeIsTrueish(expr: ExpressionRef, type: Type): ExpressionRef {\r\n var module = this.module;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n expr = this.ensureSmallIntegerWrap(expr, type);\r\n // fall-through\r\n }\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n return expr;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n return module.createBinary(BinaryOp.NeI64, expr, module.createI64(0));\r\n }\r\n case TypeKind.USIZE: // TODO: strings?\r\n case TypeKind.ISIZE: {\r\n return type.size == 64\r\n ? module.createBinary(BinaryOp.NeI64, expr, module.createI64(0))\r\n : expr;\r\n }\r\n case TypeKind.F32: {\r\n return module.createBinary(BinaryOp.NeF32, expr, module.createF32(0));\r\n }\r\n case TypeKind.F64: {\r\n return module.createBinary(BinaryOp.NeF64, expr, module.createF64(0));\r\n }\r\n default: {\r\n assert(false);\r\n return module.createI32(0);\r\n }\r\n }\r\n }\r\n\r\n /** Makes an allocation suitable to hold the data of an instance of the given class. */\r\n makeAllocation(classInstance: Class): ExpressionRef {\r\n var program = this.program;\r\n assert(classInstance.program == program);\r\n var module = this.module;\r\n var options = this.options;\r\n\r\n // __gc_allocate(size, markFn)\r\n if (program.hasGC && classInstance.type.isManaged(program)) {\r\n let allocateInstance = assert(program.gcAllocateInstance);\r\n if (!this.compileFunction(allocateInstance)) return module.createUnreachable();\r\n this.currentType = classInstance.type;\r\n return module.createCall(\r\n allocateInstance.internalName, [\r\n options.isWasm64\r\n ? module.createI64(classInstance.currentMemoryOffset)\r\n : module.createI32(classInstance.currentMemoryOffset),\r\n module.createI32(\r\n ensureGCHook(this, classInstance)\r\n )\r\n ],\r\n options.nativeSizeType\r\n );\r\n\r\n // memory.allocate(size)\r\n } else {\r\n let allocateInstance = program.memoryAllocateInstance;\r\n if (!allocateInstance || !this.compileFunction(allocateInstance)) return module.createUnreachable();\r\n this.currentType = classInstance.type;\r\n return module.createCall(\r\n allocateInstance.internalName, [\r\n options.isWasm64\r\n ? module.createI64(classInstance.currentMemoryOffset)\r\n : module.createI32(classInstance.currentMemoryOffset)\r\n ],\r\n options.nativeSizeType\r\n );\r\n }\r\n }\r\n\r\n /** Makes the initializers for a class's fields. */\r\n makeFieldInitialization(classInstance: Class, stmts: ExpressionRef[] = []): ExpressionRef[] {\r\n var members = classInstance.members;\r\n if (!members) return [];\r\n\r\n var module = this.module;\r\n var flow = this.currentFlow;\r\n var isInline = flow.is(FlowFlags.INLINE_CONTEXT);\r\n var thisLocalIndex = isInline\r\n ? assert(flow.lookupLocal(CommonSymbols.this_)).index\r\n : 0;\r\n var nativeSizeType = this.options.nativeSizeType;\r\n\r\n for (let member of members.values()) {\r\n if (\r\n member.kind != ElementKind.FIELD || // not a field\r\n member.parent != classInstance // inherited field\r\n ) continue;\r\n\r\n let field = member; assert(!field.isAny(CommonFlags.CONST));\r\n let fieldType = field.type;\r\n let nativeFieldType = fieldType.toNativeType();\r\n let initializerNode = field.prototype.initializerNode;\r\n if (initializerNode) { // use initializer\r\n stmts.push(\r\n module.createStore(fieldType.byteSize,\r\n module.createGetLocal(thisLocalIndex, nativeSizeType),\r\n this.compileExpression( // reports\r\n initializerNode,\r\n fieldType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n ),\r\n nativeFieldType,\r\n field.memoryOffset\r\n )\r\n );\r\n } else {\r\n let parameterIndex = field.prototype.parameterIndex;\r\n stmts.push(\r\n module.createStore(fieldType.byteSize,\r\n module.createGetLocal(thisLocalIndex, nativeSizeType),\r\n parameterIndex >= 0 // initialized via parameter (here: a local)\r\n ? module.createGetLocal(\r\n isInline\r\n ? assert(flow.lookupLocal(field.name)).index\r\n : 1 + parameterIndex, // this is local 0\r\n nativeFieldType\r\n )\r\n : fieldType.toNativeZero(module),\r\n nativeFieldType,\r\n field.memoryOffset\r\n )\r\n );\r\n }\r\n }\r\n return stmts;\r\n }\r\n\r\n /** Adds the debug location of the specified expression at the specified range to the source map. */\r\n addDebugLocation(expr: ExpressionRef, range: Range): void {\r\n var parentFunction = this.currentFlow.parentFunction;\r\n var source = range.source;\r\n if (source.debugInfoIndex < 0) source.debugInfoIndex = this.module.addDebugInfoFile(source.normalizedPath);\r\n range.debugInfoRef = expr;\r\n parentFunction.debugLocations.push(range);\r\n }\r\n}\r\n\r\n// helpers\r\n\r\nfunction mangleImportName(\r\n element: Element,\r\n declaration: DeclarationStatement\r\n): void {\r\n // by default, use the file name as the module name\r\n mangleImportName_moduleName = declaration.range.source.simplePath;\r\n // and the internal name of the element within that file as the element name\r\n mangleImportName_elementName = mangleInternalName(\r\n element.name, element.parent, element.is(CommonFlags.INSTANCE), true\r\n );\r\n if (!element.hasDecorator(DecoratorFlags.EXTERNAL)) return;\r\n\r\n var program = element.program;\r\n var decorator = assert(findDecorator(DecoratorKind.EXTERNAL, declaration.decorators));\r\n var args = decorator.arguments;\r\n if (args && args.length) {\r\n let arg = args[0];\r\n // if one argument is given, override just the element name\r\n // if two arguments are given, override both module and element name\r\n if (arg.kind == NodeKind.LITERAL && (arg).literalKind == LiteralKind.STRING) {\r\n mangleImportName_elementName = (arg).value;\r\n if (args.length >= 2) {\r\n arg = args[1];\r\n if (arg.kind == NodeKind.LITERAL && (arg).literalKind == LiteralKind.STRING) {\r\n mangleImportName_moduleName = mangleImportName_elementName;\r\n mangleImportName_elementName = (arg).value;\r\n if (args.length > 2) {\r\n program.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n decorator.range, \"2\", args.length.toString()\r\n );\r\n }\r\n } else {\r\n program.error(\r\n DiagnosticCode.String_literal_expected,\r\n arg.range\r\n );\r\n }\r\n }\r\n } else {\r\n program.error(\r\n DiagnosticCode.String_literal_expected,\r\n arg.range\r\n );\r\n }\r\n } else {\r\n program.error(\r\n DiagnosticCode.Expected_at_least_0_arguments_but_got_1,\r\n decorator.range, \"1\", \"0\"\r\n );\r\n }\r\n}\r\n\r\nvar mangleImportName_moduleName: string;\r\nvar mangleImportName_elementName: string;\r\n\r\n/** Special compiler symbols. */\r\nnamespace CompilerSymbols {\r\n /** Module started global. Used if an explicit start function is present. */\r\n export const started = \"~lib/started\";\r\n /** Argument count global. Used to call trampolines for varargs functions. */\r\n export const argc = \"~lib/argc\";\r\n /** Argument count setter. Exported for use by host calls. */\r\n export const setargc = \"~lib/setargc\";\r\n}\r\n","/**\r\n * Generated from diagnosticsMessages.json. Do not edit.\r\n * @module diagnostics\r\n *//***/\r\n\r\n/* tslint:disable:max-line-length */\r\n\r\n/** Enum of available diagnostic codes. */\r\nexport enum DiagnosticCode {\r\n Operation_not_supported = 100,\r\n Operation_is_unsafe = 101,\r\n User_defined_0 = 102,\r\n Conversion_from_type_0_to_1_requires_an_explicit_cast = 200,\r\n Conversion_from_type_0_to_1_will_require_an_explicit_cast_when_switching_between_32_64_bit = 201,\r\n Type_0_cannot_be_changed_to_type_1 = 202,\r\n Type_0_cannot_be_reinterpreted_as_type_1 = 203,\r\n Basic_type_0_cannot_be_nullable = 204,\r\n Cannot_export_a_mutable_global = 205,\r\n Compiling_constant_with_non_constant_initializer_as_mutable = 206,\r\n Unmanaged_classes_cannot_extend_managed_classes_and_vice_versa = 207,\r\n Unmanaged_classes_cannot_implement_interfaces = 208,\r\n Invalid_regular_expression_flags = 209,\r\n Implementation_0_must_match_the_signature_1 = 210,\r\n Class_0_is_sealed_and_cannot_be_extended = 211,\r\n Decorator_0_is_not_valid_here = 212,\r\n Duplicate_decorator = 213,\r\n An_allocator_must_be_declared_to_allocate_memory_Try_importing_allocator_arena_or_allocator_tlsf = 214,\r\n Optional_parameter_must_have_an_initializer = 215,\r\n Constructor_of_class_0_must_not_require_any_arguments = 216,\r\n Function_0_cannot_be_inlined_into_itself = 217,\r\n Cannot_access_method_0_without_calling_it_as_it_requires_this_to_be_set = 218,\r\n Optional_properties_are_not_supported = 219,\r\n Expression_must_be_a_compile_time_constant = 220,\r\n Module_cannot_have_multiple_start_functions = 221,\r\n _0_must_be_a_value_between_1_and_2_inclusive = 222,\r\n _0_must_be_a_power_of_two = 223,\r\n Unterminated_string_literal = 1002,\r\n Identifier_expected = 1003,\r\n _0_expected = 1005,\r\n A_file_cannot_have_a_reference_to_itself = 1006,\r\n Trailing_comma_not_allowed = 1009,\r\n Unexpected_token = 1012,\r\n A_rest_parameter_must_be_last_in_a_parameter_list = 1014,\r\n Parameter_cannot_have_question_mark_and_initializer = 1015,\r\n A_required_parameter_cannot_follow_an_optional_parameter = 1016,\r\n Statements_are_not_allowed_in_ambient_contexts = 1036,\r\n Initializers_are_not_allowed_in_ambient_contexts = 1039,\r\n _0_modifier_cannot_be_used_here = 1042,\r\n A_rest_parameter_cannot_be_optional = 1047,\r\n A_rest_parameter_cannot_have_an_initializer = 1048,\r\n A_set_accessor_must_have_exactly_one_parameter = 1049,\r\n A_set_accessor_parameter_cannot_have_an_initializer = 1052,\r\n A_get_accessor_cannot_have_parameters = 1054,\r\n Enum_member_must_have_initializer = 1061,\r\n Type_parameters_cannot_appear_on_a_constructor_declaration = 1092,\r\n Type_annotation_cannot_appear_on_a_constructor_declaration = 1093,\r\n An_accessor_cannot_have_type_parameters = 1094,\r\n A_set_accessor_cannot_have_a_return_type_annotation = 1095,\r\n Type_parameter_list_cannot_be_empty = 1098,\r\n A_continue_statement_can_only_be_used_within_an_enclosing_iteration_statement = 1104,\r\n A_break_statement_can_only_be_used_within_an_enclosing_iteration_or_switch_statement = 1105,\r\n A_return_statement_can_only_be_used_within_a_function_body = 1108,\r\n Expression_expected = 1109,\r\n Type_expected = 1110,\r\n A_default_clause_cannot_appear_more_than_once_in_a_switch_statement = 1113,\r\n Duplicate_label_0 = 1114,\r\n Octal_literals_are_not_allowed_in_strict_mode = 1121,\r\n Digit_expected = 1124,\r\n Hexadecimal_digit_expected = 1125,\r\n Unexpected_end_of_text = 1126,\r\n Invalid_character = 1127,\r\n _case_or_default_expected = 1130,\r\n _super_must_be_followed_by_an_argument_list_or_member_access = 1034,\r\n A_declare_modifier_cannot_be_used_in_an_already_ambient_context = 1038,\r\n Type_argument_expected = 1140,\r\n String_literal_expected = 1141,\r\n Line_break_not_permitted_here = 1142,\r\n Declaration_expected = 1146,\r\n _const_declarations_must_be_initialized = 1155,\r\n Unterminated_regular_expression_literal = 1161,\r\n Interface_declaration_cannot_have_implements_clause = 1176,\r\n Binary_digit_expected = 1177,\r\n Octal_digit_expected = 1178,\r\n An_implementation_cannot_be_declared_in_ambient_contexts = 1183,\r\n An_extended_Unicode_escape_value_must_be_between_0x0_and_0x10FFFF_inclusive = 1198,\r\n Unterminated_Unicode_escape_sequence = 1199,\r\n Decorators_are_not_valid_here = 1206,\r\n _abstract_modifier_can_only_appear_on_a_class_method_or_property_declaration = 1242,\r\n Method_0_cannot_have_an_implementation_because_it_is_marked_abstract = 1245,\r\n A_definite_assignment_assertion_is_not_permitted_in_this_context = 1255,\r\n A_class_may_only_extend_another_class = 1311,\r\n A_parameter_property_cannot_be_declared_using_a_rest_parameter = 1317,\r\n Duplicate_identifier_0 = 2300,\r\n Cannot_find_name_0 = 2304,\r\n Module_0_has_no_exported_member_1 = 2305,\r\n Generic_type_0_requires_1_type_argument_s = 2314,\r\n Type_0_is_not_generic = 2315,\r\n Type_0_is_not_assignable_to_type_1 = 2322,\r\n Index_signature_is_missing_in_type_0 = 2329,\r\n _this_cannot_be_referenced_in_current_location = 2332,\r\n _super_can_only_be_referenced_in_a_derived_class = 2335,\r\n Super_calls_are_not_permitted_outside_constructors_or_in_nested_functions_inside_constructors = 2337,\r\n Property_0_does_not_exist_on_type_1 = 2339,\r\n Cannot_invoke_an_expression_whose_type_lacks_a_call_signature_Type_0_has_no_compatible_call_signatures = 2349,\r\n Cannot_use_new_with_an_expression_whose_type_lacks_a_construct_signature = 2351,\r\n A_function_whose_declared_type_is_not_void_must_return_a_value = 2355,\r\n The_operand_of_an_increment_or_decrement_operator_must_be_a_variable_or_a_property_access = 2357,\r\n The_left_hand_side_of_an_assignment_expression_must_be_a_variable_or_a_property_access = 2364,\r\n Operator_0_cannot_be_applied_to_types_1_and_2 = 2365,\r\n A_super_call_must_be_the_first_statement_in_the_constructor = 2376,\r\n Constructors_for_derived_classes_must_contain_a_super_call = 2377,\r\n _get_and_set_accessor_must_have_the_same_type = 2380,\r\n Constructor_implementation_is_missing = 2390,\r\n Function_implementation_is_missing_or_not_immediately_following_the_declaration = 2391,\r\n Multiple_constructor_implementations_are_not_allowed = 2392,\r\n Duplicate_function_implementation = 2393,\r\n Individual_declarations_in_merged_declaration_0_must_be_all_exported_or_all_local = 2395,\r\n A_namespace_declaration_cannot_be_located_prior_to_a_class_or_function_with_which_it_is_merged = 2434,\r\n Type_0_has_no_property_1 = 2460,\r\n The_0_operator_cannot_be_applied_to_type_1 = 2469,\r\n In_const_enum_declarations_member_initializer_must_be_constant_expression = 2474,\r\n Export_declaration_conflicts_with_exported_declaration_of_0 = 2484,\r\n Cannot_assign_to_0_because_it_is_a_constant_or_a_read_only_property = 2540,\r\n The_target_of_an_assignment_must_be_a_variable_or_a_property_access = 2541,\r\n Index_signature_in_type_0_only_permits_reading = 2542,\r\n Expected_0_arguments_but_got_1 = 2554,\r\n Expected_at_least_0_arguments_but_got_1 = 2555,\r\n Expected_0_type_arguments_but_got_1 = 2558,\r\n A_member_initializer_in_a_enum_declaration_cannot_reference_members_declared_after_it_including_members_defined_in_other_enums = 2651,\r\n Constructor_of_class_0_is_private_and_only_accessible_within_the_class_declaration = 2673,\r\n Constructor_of_class_0_is_protected_and_only_accessible_within_the_class_declaration = 2674,\r\n Namespace_0_has_no_exported_member_1 = 2694,\r\n Required_type_parameters_may_not_follow_optional_type_parameters = 2706,\r\n Duplicate_property_0 = 2718,\r\n File_0_not_found = 6054,\r\n Numeric_separators_are_not_allowed_here = 6188,\r\n Multiple_consecutive_numeric_separators_are_not_permitted = 6189,\r\n _super_must_be_called_before_accessing_this_in_the_constructor_of_a_derived_class = 17009,\r\n _super_must_be_called_before_accessing_a_property_of_super_in_the_constructor_of_a_derived_class = 17011\r\n}\r\n\r\n/** Translates a diagnostic code to its respective string. */\r\nexport function diagnosticCodeToString(code: DiagnosticCode): string {\r\n switch (code) {\r\n case 100: return \"Operation not supported.\";\r\n case 101: return \"Operation is unsafe.\";\r\n case 102: return \"User-defined: {0}\";\r\n case 200: return \"Conversion from type '{0}' to '{1}' requires an explicit cast.\";\r\n case 201: return \"Conversion from type '{0}' to '{1}' will require an explicit cast when switching between 32/64-bit.\";\r\n case 202: return \"Type '{0}' cannot be changed to type '{1}'.\";\r\n case 203: return \"Type '{0}' cannot be reinterpreted as type '{1}'.\";\r\n case 204: return \"Basic type '{0}' cannot be nullable.\";\r\n case 205: return \"Cannot export a mutable global.\";\r\n case 206: return \"Compiling constant with non-constant initializer as mutable.\";\r\n case 207: return \"Unmanaged classes cannot extend managed classes and vice-versa.\";\r\n case 208: return \"Unmanaged classes cannot implement interfaces.\";\r\n case 209: return \"Invalid regular expression flags.\";\r\n case 210: return \"Implementation '{0}' must match the signature '{1}'.\";\r\n case 211: return \"Class '{0}' is sealed and cannot be extended.\";\r\n case 212: return \"Decorator '{0}' is not valid here.\";\r\n case 213: return \"Duplicate decorator.\";\r\n case 214: return \"An allocator must be declared to allocate memory. Try importing allocator/arena or allocator/tlsf.\";\r\n case 215: return \"Optional parameter must have an initializer.\";\r\n case 216: return \"Constructor of class '{0}' must not require any arguments.\";\r\n case 217: return \"Function '{0}' cannot be inlined into itself.\";\r\n case 218: return \"Cannot access method '{0}' without calling it as it requires 'this' to be set.\";\r\n case 219: return \"Optional properties are not supported.\";\r\n case 220: return \"Expression must be a compile-time constant.\";\r\n case 221: return \"Module cannot have multiple start functions.\";\r\n case 222: return \"'{0}' must be a value between '{1}' and '{2}' inclusive.\";\r\n case 223: return \"'{0}' must be a power of two.\";\r\n case 1002: return \"Unterminated string literal.\";\r\n case 1003: return \"Identifier expected.\";\r\n case 1005: return \"'{0}' expected.\";\r\n case 1006: return \"A file cannot have a reference to itself.\";\r\n case 1009: return \"Trailing comma not allowed.\";\r\n case 1012: return \"Unexpected token.\";\r\n case 1014: return \"A rest parameter must be last in a parameter list.\";\r\n case 1015: return \"Parameter cannot have question mark and initializer.\";\r\n case 1016: return \"A required parameter cannot follow an optional parameter.\";\r\n case 1036: return \"Statements are not allowed in ambient contexts.\";\r\n case 1039: return \"Initializers are not allowed in ambient contexts.\";\r\n case 1042: return \"'{0}' modifier cannot be used here.\";\r\n case 1047: return \"A rest parameter cannot be optional.\";\r\n case 1048: return \"A rest parameter cannot have an initializer.\";\r\n case 1049: return \"A 'set' accessor must have exactly one parameter.\";\r\n case 1052: return \"A 'set' accessor parameter cannot have an initializer.\";\r\n case 1054: return \"A 'get' accessor cannot have parameters.\";\r\n case 1061: return \"Enum member must have initializer.\";\r\n case 1092: return \"Type parameters cannot appear on a constructor declaration.\";\r\n case 1093: return \"Type annotation cannot appear on a constructor declaration.\";\r\n case 1094: return \"An accessor cannot have type parameters.\";\r\n case 1095: return \"A 'set' accessor cannot have a return type annotation.\";\r\n case 1098: return \"Type parameter list cannot be empty.\";\r\n case 1104: return \"A 'continue' statement can only be used within an enclosing iteration statement.\";\r\n case 1105: return \"A 'break' statement can only be used within an enclosing iteration or switch statement.\";\r\n case 1108: return \"A 'return' statement can only be used within a function body.\";\r\n case 1109: return \"Expression expected.\";\r\n case 1110: return \"Type expected.\";\r\n case 1113: return \"A 'default' clause cannot appear more than once in a 'switch' statement.\";\r\n case 1114: return \"Duplicate label '{0}'.\";\r\n case 1121: return \"Octal literals are not allowed in strict mode.\";\r\n case 1124: return \"Digit expected.\";\r\n case 1125: return \"Hexadecimal digit expected.\";\r\n case 1126: return \"Unexpected end of text.\";\r\n case 1127: return \"Invalid character.\";\r\n case 1130: return \"'case' or 'default' expected.\";\r\n case 1034: return \"'super' must be followed by an argument list or member access.\";\r\n case 1038: return \"A 'declare' modifier cannot be used in an already ambient context.\";\r\n case 1140: return \"Type argument expected.\";\r\n case 1141: return \"String literal expected.\";\r\n case 1142: return \"Line break not permitted here.\";\r\n case 1146: return \"Declaration expected.\";\r\n case 1155: return \"'const' declarations must be initialized.\";\r\n case 1161: return \"Unterminated regular expression literal.\";\r\n case 1176: return \"Interface declaration cannot have 'implements' clause.\";\r\n case 1177: return \"Binary digit expected.\";\r\n case 1178: return \"Octal digit expected.\";\r\n case 1183: return \"An implementation cannot be declared in ambient contexts.\";\r\n case 1198: return \"An extended Unicode escape value must be between 0x0 and 0x10FFFF inclusive.\";\r\n case 1199: return \"Unterminated Unicode escape sequence.\";\r\n case 1206: return \"Decorators are not valid here.\";\r\n case 1242: return \"'abstract' modifier can only appear on a class, method, or property declaration.\";\r\n case 1245: return \"Method '{0}' cannot have an implementation because it is marked abstract.\";\r\n case 1255: return \"A definite assignment assertion '!' is not permitted in this context.\";\r\n case 1311: return \"A class may only extend another class.\";\r\n case 1317: return \"A parameter property cannot be declared using a rest parameter.\";\r\n case 2300: return \"Duplicate identifier '{0}'.\";\r\n case 2304: return \"Cannot find name '{0}'.\";\r\n case 2305: return \"Module '{0}' has no exported member '{1}'.\";\r\n case 2314: return \"Generic type '{0}' requires {1} type argument(s).\";\r\n case 2315: return \"Type '{0}' is not generic.\";\r\n case 2322: return \"Type '{0}' is not assignable to type '{1}'.\";\r\n case 2329: return \"Index signature is missing in type '{0}'.\";\r\n case 2332: return \"'this' cannot be referenced in current location.\";\r\n case 2335: return \"'super' can only be referenced in a derived class.\";\r\n case 2337: return \"Super calls are not permitted outside constructors or in nested functions inside constructors.\";\r\n case 2339: return \"Property '{0}' does not exist on type '{1}'.\";\r\n case 2349: return \"Cannot invoke an expression whose type lacks a call signature. Type '{0}' has no compatible call signatures.\";\r\n case 2351: return \"Cannot use 'new' with an expression whose type lacks a construct signature.\";\r\n case 2355: return \"A function whose declared type is not 'void' must return a value.\";\r\n case 2357: return \"The operand of an increment or decrement operator must be a variable or a property access.\";\r\n case 2364: return \"The left-hand side of an assignment expression must be a variable or a property access.\";\r\n case 2365: return \"Operator '{0}' cannot be applied to types '{1}' and '{2}'.\";\r\n case 2376: return \"A 'super' call must be the first statement in the constructor.\";\r\n case 2377: return \"Constructors for derived classes must contain a 'super' call.\";\r\n case 2380: return \"'get' and 'set' accessor must have the same type.\";\r\n case 2390: return \"Constructor implementation is missing.\";\r\n case 2391: return \"Function implementation is missing or not immediately following the declaration.\";\r\n case 2392: return \"Multiple constructor implementations are not allowed.\";\r\n case 2393: return \"Duplicate function implementation.\";\r\n case 2395: return \"Individual declarations in merged declaration '{0}' must be all exported or all local.\";\r\n case 2434: return \"A namespace declaration cannot be located prior to a class or function with which it is merged.\";\r\n case 2460: return \"Type '{0}' has no property '{1}'.\";\r\n case 2469: return \"The '{0}' operator cannot be applied to type '{1}'.\";\r\n case 2474: return \"In 'const' enum declarations member initializer must be constant expression.\";\r\n case 2484: return \"Export declaration conflicts with exported declaration of '{0}'.\";\r\n case 2540: return \"Cannot assign to '{0}' because it is a constant or a read-only property.\";\r\n case 2541: return \"The target of an assignment must be a variable or a property access.\";\r\n case 2542: return \"Index signature in type '{0}' only permits reading.\";\r\n case 2554: return \"Expected {0} arguments, but got {1}.\";\r\n case 2555: return \"Expected at least {0} arguments, but got {1}.\";\r\n case 2558: return \"Expected {0} type arguments, but got {1}.\";\r\n case 2651: return \"A member initializer in a enum declaration cannot reference members declared after it, including members defined in other enums.\";\r\n case 2673: return \"Constructor of class '{0}' is private and only accessible within the class declaration.\";\r\n case 2674: return \"Constructor of class '{0}' is protected and only accessible within the class declaration.\";\r\n case 2694: return \"Namespace '{0}' has no exported member '{1}'.\";\r\n case 2706: return \"Required type parameters may not follow optional type parameters.\";\r\n case 2718: return \"Duplicate property '{0}'.\";\r\n case 6054: return \"File '{0}' not found.\";\r\n case 6188: return \"Numeric separators are not allowed here.\";\r\n case 6189: return \"Multiple consecutive numeric separators are not permitted.\";\r\n case 17009: return \"'super' must be called before accessing 'this' in the constructor of a derived class.\";\r\n case 17011: return \"'super' must be called before accessing a property of 'super' in the constructor of a derived class.\";\r\n default: return \"\";\r\n }\r\n}\r\n","/**\r\n * A control flow analyzer.\r\n * @module flow\r\n *//***/\r\n\r\nimport {\r\n Type,\r\n TypeFlags,\r\n TypeKind\r\n} from \"./types\";\r\n\r\nimport {\r\n Local,\r\n Function,\r\n Element,\r\n ElementKind,\r\n Global\r\n} from \"./program\";\r\n\r\nimport {\r\n NativeType,\r\n ExpressionId,\r\n ExpressionRef,\r\n\r\n getExpressionId,\r\n getGetLocalIndex,\r\n isTeeLocal,\r\n getSetLocalValue,\r\n getGetGlobalName,\r\n getBinaryOp,\r\n BinaryOp,\r\n getBinaryLeft,\r\n getConstValueI32,\r\n getBinaryRight,\r\n getUnaryOp,\r\n UnaryOp,\r\n getExpressionType,\r\n getConstValueI64Low,\r\n getConstValueF32,\r\n getConstValueF64,\r\n getLoadBytes,\r\n isLoadSigned,\r\n getBlockName,\r\n getBlockChildCount,\r\n getBlockChild,\r\n getIfTrue,\r\n getIfFalse,\r\n getSelectThen,\r\n getSelectElse,\r\n getCallTarget\r\n} from \"./module\";\r\n\r\nimport {\r\n CommonFlags\r\n} from \"./common\";\r\n\r\nimport {\r\n DiagnosticCode\r\n} from \"./diagnostics\";\r\n\r\nimport {\r\n Node\r\n} from \"./ast\";\r\n\r\nimport {\r\n bitsetIs,\r\n bitsetSet\r\n} from \"./util\";\r\n\r\n/** Control flow flags indicating specific conditions. */\r\nexport const enum FlowFlags {\r\n /** No specific conditions. */\r\n NONE = 0,\r\n\r\n // categorical\r\n\r\n /** This flow returns. */\r\n RETURNS = 1 << 0,\r\n /** This flow returns a wrapped value. */\r\n RETURNS_WRAPPED = 1 << 1,\r\n /** This flow throws. */\r\n THROWS = 1 << 2,\r\n /** This flow breaks. */\r\n BREAKS = 1 << 3,\r\n /** This flow continues. */\r\n CONTINUES = 1 << 4,\r\n /** This flow allocates. Constructors only. */\r\n ALLOCATES = 1 << 5,\r\n /** This flow calls super. Constructors only. */\r\n CALLS_SUPER = 1 << 6,\r\n\r\n // conditional\r\n\r\n /** This flow conditionally returns in a child flow. */\r\n CONDITIONALLY_RETURNS = 1 << 7,\r\n /** This flow conditionally throws in a child flow. */\r\n CONDITIONALLY_THROWS = 1 << 8,\r\n /** This flow conditionally breaks in a child flow. */\r\n CONDITIONALLY_BREAKS = 1 << 9,\r\n /** This flow conditionally continues in a child flow. */\r\n CONDITIONALLY_CONTINUES = 1 << 10,\r\n /** This flow conditionally allocates in a child flow. Constructors only. */\r\n CONDITIONALLY_ALLOCATES = 1 << 11,\r\n\r\n // special\r\n\r\n /** This is an inlining flow. */\r\n INLINE_CONTEXT = 1 << 12,\r\n /** This is a flow with explicitly disabled bounds checking. */\r\n UNCHECKED_CONTEXT = 1 << 13,\r\n\r\n // masks\r\n\r\n /** Any terminating flag. */\r\n ANY_TERMINATING = FlowFlags.RETURNS\r\n | FlowFlags.THROWS\r\n | FlowFlags.BREAKS\r\n | FlowFlags.CONTINUES,\r\n\r\n /** Any categorical flag. */\r\n ANY_CATEGORICAL = FlowFlags.RETURNS\r\n | FlowFlags.RETURNS_WRAPPED\r\n | FlowFlags.THROWS\r\n | FlowFlags.BREAKS\r\n | FlowFlags.CONTINUES\r\n | FlowFlags.ALLOCATES\r\n | FlowFlags.CALLS_SUPER,\r\n\r\n /** Any conditional flag. */\r\n ANY_CONDITIONAL = FlowFlags.CONDITIONALLY_RETURNS\r\n | FlowFlags.CONDITIONALLY_THROWS\r\n | FlowFlags.CONDITIONALLY_BREAKS\r\n | FlowFlags.CONDITIONALLY_CONTINUES\r\n | FlowFlags.CONDITIONALLY_ALLOCATES\r\n}\r\n\r\n/** A control flow evaluator. */\r\nexport class Flow {\r\n\r\n /** Parent flow. */\r\n parent: Flow | null;\r\n /** Flow flags indicating specific conditions. */\r\n flags: FlowFlags;\r\n /** Function this flow belongs to. */\r\n parentFunction: Function;\r\n /** The label we break to when encountering a continue statement. */\r\n continueLabel: string | null;\r\n /** The label we break to when encountering a break statement. */\r\n breakLabel: string | null;\r\n /** The current return type. */\r\n returnType: Type;\r\n /** The current contextual type arguments. */\r\n contextualTypeArguments: Map | null;\r\n /** Scoped local variables. */\r\n scopedLocals: Map | null = null;\r\n /** Local variable wrap states for the first 64 locals. */\r\n wrappedLocals: I64;\r\n /** Local variable wrap states for locals with index >= 64. */\r\n wrappedLocalsExt: I64[] | null;\r\n /** Function being inlined, when inlining. */\r\n inlineFunction: Function | null;\r\n /** The label we break to when encountering a return statement, when inlining. */\r\n inlineReturnLabel: string | null;\r\n\r\n /** Creates the parent flow of the specified function. */\r\n static create(parentFunction: Function): Flow {\r\n var flow = new Flow();\r\n flow.parent = null;\r\n flow.flags = FlowFlags.NONE;\r\n flow.parentFunction = parentFunction;\r\n flow.continueLabel = null;\r\n flow.breakLabel = null;\r\n flow.returnType = parentFunction.signature.returnType;\r\n flow.contextualTypeArguments = parentFunction.contextualTypeArguments;\r\n flow.wrappedLocals = i64_new(0);\r\n flow.wrappedLocalsExt = null;\r\n flow.inlineFunction = null;\r\n flow.inlineReturnLabel = null;\r\n return flow;\r\n }\r\n\r\n /** Creates an inline flow within `currentFunction`. */\r\n static createInline(parentFunction: Function, inlineFunction: Function): Flow {\r\n var flow = Flow.create(parentFunction);\r\n flow.set(FlowFlags.INLINE_CONTEXT);\r\n flow.inlineFunction = inlineFunction;\r\n flow.inlineReturnLabel = inlineFunction.internalName + \"|inlined.\" + (inlineFunction.nextInlineId++).toString(10);\r\n flow.returnType = inlineFunction.signature.returnType;\r\n flow.contextualTypeArguments = inlineFunction.contextualTypeArguments;\r\n return flow;\r\n }\r\n\r\n private constructor() { }\r\n\r\n /** Gets the actual function being compiled, The inlined function when inlining, otherwise the parent function. */\r\n get actualFunction(): Function {\r\n return this.inlineFunction || this.parentFunction;\r\n }\r\n\r\n /** Tests if this flow has the specified flag or flags. */\r\n is(flag: FlowFlags): bool { return (this.flags & flag) == flag; }\r\n /** Tests if this flow has one of the specified flags. */\r\n isAny(flag: FlowFlags): bool { return (this.flags & flag) != 0; }\r\n /** Sets the specified flag or flags. */\r\n set(flag: FlowFlags): void { this.flags |= flag; }\r\n /** Unsets the specified flag or flags. */\r\n unset(flag: FlowFlags): void { this.flags &= ~flag; }\r\n\r\n /** Forks this flow to a child flow. */\r\n fork(): Flow {\r\n var branch = new Flow();\r\n branch.parent = this;\r\n branch.flags = this.flags;\r\n branch.parentFunction = this.parentFunction;\r\n branch.continueLabel = this.continueLabel;\r\n branch.breakLabel = this.breakLabel;\r\n branch.returnType = this.returnType;\r\n branch.contextualTypeArguments = this.contextualTypeArguments;\r\n branch.wrappedLocals = this.wrappedLocals;\r\n branch.wrappedLocalsExt = this.wrappedLocalsExt ? this.wrappedLocalsExt.slice() : null;\r\n branch.inlineFunction = this.inlineFunction;\r\n branch.inlineReturnLabel = this.inlineReturnLabel;\r\n return branch;\r\n }\r\n\r\n /** Gets a free temporary local of the specified type. */\r\n getTempLocal(type: Type, wrapped: bool = false): Local {\r\n var parentFunction = this.parentFunction;\r\n var temps: Local[] | null;\r\n switch (type.toNativeType()) {\r\n case NativeType.I32: { temps = parentFunction.tempI32s; break; }\r\n case NativeType.I64: { temps = parentFunction.tempI64s; break; }\r\n case NativeType.F32: { temps = parentFunction.tempF32s; break; }\r\n case NativeType.F64: { temps = parentFunction.tempF64s; break; }\r\n case NativeType.V128: { temps = parentFunction.tempV128s; break; }\r\n default: throw new Error(\"concrete type expected\");\r\n }\r\n var local: Local;\r\n if (temps && temps.length) {\r\n local = temps.pop();\r\n local.type = type;\r\n local.flags = CommonFlags.NONE;\r\n } else {\r\n local = parentFunction.addLocal(type);\r\n }\r\n if (type.is(TypeFlags.SHORT | TypeFlags.INTEGER)) this.setLocalWrapped(local.index, wrapped);\r\n return local;\r\n }\r\n\r\n /** Frees the temporary local for reuse. */\r\n freeTempLocal(local: Local): void {\r\n if (local.is(CommonFlags.INLINED)) return;\r\n assert(local.index >= 0);\r\n var parentFunction = this.parentFunction;\r\n var temps: Local[];\r\n assert(local.type != null); // internal error\r\n switch ((local.type).toNativeType()) {\r\n case NativeType.I32: {\r\n temps = parentFunction.tempI32s || (parentFunction.tempI32s = []);\r\n break;\r\n }\r\n case NativeType.I64: {\r\n temps = parentFunction.tempI64s || (parentFunction.tempI64s = []);\r\n break;\r\n }\r\n case NativeType.F32: {\r\n temps = parentFunction.tempF32s || (parentFunction.tempF32s = []);\r\n break;\r\n }\r\n case NativeType.F64: {\r\n temps = parentFunction.tempF64s || (parentFunction.tempF64s = []);\r\n break;\r\n }\r\n case NativeType.V128: {\r\n temps = parentFunction.tempV128s || (parentFunction.tempV128s = []);\r\n break;\r\n }\r\n default: throw new Error(\"concrete type expected\");\r\n }\r\n assert(local.index >= 0);\r\n temps.push(local);\r\n }\r\n\r\n /** Gets and immediately frees a temporary local of the specified type. */\r\n getAndFreeTempLocal(type: Type, wrapped: bool): Local {\r\n var parentFunction = this.parentFunction;\r\n var temps: Local[];\r\n switch (type.toNativeType()) {\r\n case NativeType.I32: {\r\n temps = parentFunction.tempI32s || (parentFunction.tempI32s = []);\r\n break;\r\n }\r\n case NativeType.I64: {\r\n temps = parentFunction.tempI64s || (parentFunction.tempI64s = []);\r\n break;\r\n }\r\n case NativeType.F32: {\r\n temps = parentFunction.tempF32s || (parentFunction.tempF32s = []);\r\n break;\r\n }\r\n case NativeType.F64: {\r\n temps = parentFunction.tempF64s || (parentFunction.tempF64s = []);\r\n break;\r\n }\r\n case NativeType.V128: {\r\n temps = parentFunction.tempV128s || (parentFunction.tempV128s = []);\r\n break;\r\n }\r\n default: throw new Error(\"concrete type expected\");\r\n }\r\n var local: Local;\r\n if (temps.length) {\r\n local = temps[temps.length - 1];\r\n local.type = type;\r\n } else {\r\n local = parentFunction.addLocal(type);\r\n temps.push(local);\r\n }\r\n if (type.is(TypeFlags.SHORT | TypeFlags.INTEGER)) this.setLocalWrapped(local.index, wrapped);\r\n return local;\r\n }\r\n\r\n /** Adds a new scoped local of the specified name. */\r\n addScopedLocal(name: string, type: Type, wrapped: bool, reportNode: Node | null = null): Local {\r\n var scopedLocal = this.getTempLocal(type, false);\r\n if (!this.scopedLocals) this.scopedLocals = new Map();\r\n else {\r\n let existingLocal = this.scopedLocals.get(name);\r\n if (existingLocal) {\r\n if (reportNode) {\r\n this.parentFunction.program.error(\r\n DiagnosticCode.Duplicate_identifier_0,\r\n reportNode.range\r\n );\r\n }\r\n return existingLocal;\r\n }\r\n }\r\n scopedLocal.set(CommonFlags.SCOPED);\r\n this.scopedLocals.set(name, scopedLocal);\r\n if (type.is(TypeFlags.SHORT | TypeFlags.INTEGER)) {\r\n this.setLocalWrapped(scopedLocal.index, wrapped);\r\n }\r\n return scopedLocal;\r\n }\r\n\r\n /** Adds a new scoped alias for the specified local. For example `super` aliased to the `this` local. */\r\n addScopedAlias(name: string, type: Type, index: i32, reportNode: Node | null = null): Local {\r\n if (!this.scopedLocals) this.scopedLocals = new Map();\r\n else {\r\n let existingLocal = this.scopedLocals.get(name);\r\n if (existingLocal) {\r\n if (reportNode) {\r\n this.parentFunction.program.error(\r\n DiagnosticCode.Duplicate_identifier_0,\r\n reportNode.range\r\n );\r\n }\r\n return existingLocal;\r\n }\r\n }\r\n assert(index < this.parentFunction.localsByIndex.length);\r\n var scopedAlias = new Local(\r\n name,\r\n index,\r\n type,\r\n this.parentFunction\r\n );\r\n // not flagged as SCOPED as it must not be free'd when the flow is finalized\r\n this.scopedLocals.set(name, scopedAlias);\r\n return scopedAlias;\r\n }\r\n\r\n /** Frees this flow's scoped variables and returns its parent flow. */\r\n freeScopedLocals(): void {\r\n if (this.scopedLocals) {\r\n for (let scopedLocal of this.scopedLocals.values()) {\r\n if (scopedLocal.is(CommonFlags.SCOPED)) { // otherwise an alias\r\n this.freeTempLocal(scopedLocal);\r\n }\r\n }\r\n this.scopedLocals = null;\r\n }\r\n }\r\n\r\n /** Looks up the local of the specified name in the current scope. */\r\n lookupLocal(name: string): Local | null {\r\n var current: Flow | null = this;\r\n var scope: Map | null;\r\n do if ((scope = current.scopedLocals) && (scope.has(name))) return scope.get(name);\r\n while (current = current.parent);\r\n return this.parentFunction.localsByName.get(name);\r\n }\r\n\r\n /** Looks up the element with the specified name relative to the scope of this flow. */\r\n lookup(name: string): Element | null {\r\n var element = this.lookupLocal(name);\r\n if (element) return element;\r\n return this.actualFunction.lookup(name);\r\n }\r\n\r\n /** Tests if the value of the local at the specified index is considered wrapped. */\r\n isLocalWrapped(index: i32): bool {\r\n if (index < 0) return true; // inlined constant\r\n if (index < 64) return bitsetIs(this.wrappedLocals, index);\r\n var ext = this.wrappedLocalsExt;\r\n var i = ((index - 64) / 64) | 0;\r\n if (!(ext && i < ext.length)) return false;\r\n return bitsetIs(ext[i], index - (i + 1) * 64);\r\n }\r\n\r\n /** Sets if the value of the local at the specified index is considered wrapped. */\r\n setLocalWrapped(index: i32, wrapped: bool): void {\r\n if (index < 0) return; // inlined constant\r\n if (index < 64) {\r\n this.wrappedLocals = bitsetSet(this.wrappedLocals, index, wrapped);\r\n return;\r\n }\r\n var ext = this.wrappedLocalsExt;\r\n var i = ((index - 64) / 64) | 0;\r\n if (!ext) {\r\n this.wrappedLocalsExt = ext = new Array(i + 1);\r\n for (let j = 0; j <= i; ++j) ext[j] = i64_new(0);\r\n } else {\r\n while (ext.length <= i) ext.push(i64_new(0));\r\n }\r\n ext[i] = bitsetSet(ext[i], index - (i + 1) * 64, wrapped);\r\n }\r\n\r\n /** Pushes a new break label to the stack, for example when entering a loop that one can `break` from. */\r\n pushBreakLabel(): string {\r\n var parentFunction = this.parentFunction;\r\n var id = parentFunction.nextBreakId++;\r\n var stack = parentFunction.breakStack;\r\n if (!stack) parentFunction.breakStack = [ id ];\r\n else stack.push(id);\r\n return parentFunction.breakLabel = id.toString(10);\r\n }\r\n\r\n /** Pops the most recent break label from the stack. */\r\n popBreakLabel(): void {\r\n var parentFunction = this.parentFunction;\r\n var stack = assert(parentFunction.breakStack);\r\n var length = assert(stack.length);\r\n stack.pop();\r\n if (length > 1) {\r\n parentFunction.breakLabel = stack[length - 2].toString(10);\r\n } else {\r\n parentFunction.breakLabel = null;\r\n parentFunction.breakStack = null;\r\n }\r\n }\r\n\r\n /** Inherits flags and local wrap states from the specified flow (e.g. blocks). */\r\n inherit(other: Flow): void {\r\n this.flags |= other.flags & (FlowFlags.ANY_CATEGORICAL | FlowFlags.ANY_CONDITIONAL);\r\n this.wrappedLocals = other.wrappedLocals;\r\n this.wrappedLocalsExt = other.wrappedLocalsExt; // no need to slice because other flow is finished\r\n }\r\n\r\n /** Inherits categorical flags as conditional flags from the specified flow (e.g. then without else). */\r\n inheritConditional(other: Flow): void {\r\n if (other.is(FlowFlags.RETURNS)) {\r\n this.set(FlowFlags.CONDITIONALLY_RETURNS);\r\n }\r\n if (other.is(FlowFlags.THROWS)) {\r\n this.set(FlowFlags.CONDITIONALLY_THROWS);\r\n }\r\n if (other.is(FlowFlags.BREAKS) && other.breakLabel == this.breakLabel) {\r\n this.set(FlowFlags.CONDITIONALLY_BREAKS);\r\n }\r\n if (other.is(FlowFlags.CONTINUES) && other.continueLabel == this.continueLabel) {\r\n this.set(FlowFlags.CONDITIONALLY_CONTINUES);\r\n }\r\n if (other.is(FlowFlags.ALLOCATES)) {\r\n this.set(FlowFlags.CONDITIONALLY_ALLOCATES);\r\n }\r\n }\r\n\r\n /** Inherits mutual flags and local wrap states from the specified flows (e.g. then with else). */\r\n inheritMutual(left: Flow, right: Flow): void {\r\n // categorical flags set in both arms\r\n this.flags |= left.flags & right.flags & FlowFlags.ANY_CATEGORICAL;\r\n\r\n // conditional flags set in at least one arm\r\n this.flags |= left.flags & FlowFlags.ANY_CONDITIONAL;\r\n this.flags |= right.flags & FlowFlags.ANY_CONDITIONAL;\r\n\r\n // locals wrapped in both arms\r\n this.wrappedLocals = i64_and(left.wrappedLocals, right.wrappedLocals);\r\n var leftExt = left.wrappedLocalsExt;\r\n var rightExt = right.wrappedLocalsExt;\r\n if (leftExt != null && rightExt != null) {\r\n let thisExt = this.wrappedLocalsExt;\r\n let minLength = min(leftExt.length, rightExt.length);\r\n if (minLength) {\r\n if (!thisExt) thisExt = new Array(minLength);\r\n else while (thisExt.length < minLength) thisExt.push(i64_new(0));\r\n for (let i = 0; i < minLength; ++i) {\r\n thisExt[i] = i64_and(\r\n leftExt[i],\r\n rightExt[i]\r\n );\r\n }\r\n }\r\n }\r\n }\r\n\r\n /**\r\n * Tests if an expression can possibly overflow in the context of this flow. Assumes that the\r\n * expression might already have overflown and returns `false` only if the operation neglects\r\n * any possible combination of garbage bits being present.\r\n */\r\n canOverflow(expr: ExpressionRef, type: Type): bool {\r\n // TODO: the following catches most common and a few uncommon cases, but there are additional\r\n // opportunities here, obviously.\r\n assert(type != Type.void);\r\n\r\n // types other than i8, u8, i16, u16 and bool do not overflow\r\n if (!type.is(TypeFlags.SHORT | TypeFlags.INTEGER)) return false;\r\n\r\n var operand: ExpressionRef;\r\n switch (getExpressionId(expr)) {\r\n\r\n // overflows if the local isn't wrapped or the conversion does\r\n case ExpressionId.GetLocal: {\r\n let local = this.parentFunction.localsByIndex[getGetLocalIndex(expr)];\r\n return !this.isLocalWrapped(local.index)\r\n || canConversionOverflow(local.type, type);\r\n }\r\n\r\n // overflows if the value does\r\n case ExpressionId.SetLocal: { // tee\r\n assert(isTeeLocal(expr));\r\n return this.canOverflow(getSetLocalValue(expr), type);\r\n }\r\n\r\n // overflows if the conversion does (globals are wrapped on set)\r\n case ExpressionId.GetGlobal: {\r\n // TODO: this is inefficient because it has to read a string\r\n let global = assert(this.parentFunction.program.elementsByName.get(assert(getGetGlobalName(expr))));\r\n assert(global.kind == ElementKind.GLOBAL);\r\n return canConversionOverflow(assert((global).type), type);\r\n }\r\n\r\n case ExpressionId.Binary: {\r\n switch (getBinaryOp(expr)) {\r\n\r\n // comparisons do not overflow (result is 0 or 1)\r\n case BinaryOp.EqI32:\r\n case BinaryOp.EqI64:\r\n case BinaryOp.EqF32:\r\n case BinaryOp.EqF64:\r\n case BinaryOp.NeI32:\r\n case BinaryOp.NeI64:\r\n case BinaryOp.NeF32:\r\n case BinaryOp.NeF64:\r\n case BinaryOp.LtI32:\r\n case BinaryOp.LtU32:\r\n case BinaryOp.LtI64:\r\n case BinaryOp.LtU64:\r\n case BinaryOp.LtF32:\r\n case BinaryOp.LtF64:\r\n case BinaryOp.LeI32:\r\n case BinaryOp.LeU32:\r\n case BinaryOp.LeI64:\r\n case BinaryOp.LeU64:\r\n case BinaryOp.LeF32:\r\n case BinaryOp.LeF64:\r\n case BinaryOp.GtI32:\r\n case BinaryOp.GtU32:\r\n case BinaryOp.GtI64:\r\n case BinaryOp.GtU64:\r\n case BinaryOp.GtF32:\r\n case BinaryOp.GtF64:\r\n case BinaryOp.GeI32:\r\n case BinaryOp.GeU32:\r\n case BinaryOp.GeI64:\r\n case BinaryOp.GeU64:\r\n case BinaryOp.GeF32:\r\n case BinaryOp.GeF64: return false;\r\n\r\n // result won't overflow if one side is 0 or if one side is 1 and the other wrapped\r\n case BinaryOp.MulI32: {\r\n return !(\r\n (\r\n getExpressionId(operand = getBinaryLeft(expr)) == ExpressionId.Const &&\r\n (\r\n getConstValueI32(operand) == 0 ||\r\n (\r\n getConstValueI32(operand) == 1 &&\r\n !this.canOverflow(getBinaryRight(expr), type)\r\n )\r\n )\r\n ) || (\r\n getExpressionId(operand = getBinaryRight(expr)) == ExpressionId.Const &&\r\n (\r\n getConstValueI32(operand) == 0 ||\r\n (\r\n getConstValueI32(operand) == 1 &&\r\n !this.canOverflow(getBinaryLeft(expr), type)\r\n )\r\n )\r\n )\r\n );\r\n }\r\n\r\n // result won't overflow if one side is a constant less than this type's mask or one side\r\n // is wrapped\r\n case BinaryOp.AndI32: {\r\n // note that computeSmallIntegerMask returns the mask minus the MSB for signed types\r\n // because signed value garbage bits must be guaranteed to be equal to the MSB.\r\n return !(\r\n (\r\n (\r\n getExpressionId(operand = getBinaryLeft(expr)) == ExpressionId.Const &&\r\n getConstValueI32(operand) <= type.computeSmallIntegerMask(Type.i32)\r\n ) || !this.canOverflow(operand, type)\r\n ) || (\r\n (\r\n getExpressionId(operand = getBinaryRight(expr)) == ExpressionId.Const &&\r\n getConstValueI32(operand) <= type.computeSmallIntegerMask(Type.i32)\r\n ) || !this.canOverflow(operand, type)\r\n )\r\n );\r\n }\r\n\r\n // overflows if the shift doesn't clear potential garbage bits\r\n case BinaryOp.ShlI32: {\r\n let shift = 32 - type.size;\r\n return getExpressionId(operand = getBinaryRight(expr)) != ExpressionId.Const\r\n || getConstValueI32(operand) < shift;\r\n }\r\n\r\n // overflows if the value does and the shift doesn't clear potential garbage bits\r\n case BinaryOp.ShrI32: {\r\n let shift = 32 - type.size;\r\n return this.canOverflow(getBinaryLeft(expr), type) && (\r\n getExpressionId(operand = getBinaryRight(expr)) != ExpressionId.Const ||\r\n getConstValueI32(operand) < shift\r\n );\r\n }\r\n\r\n // overflows if the shift does not clear potential garbage bits. if an unsigned value is\r\n // wrapped, it can't overflow.\r\n case BinaryOp.ShrU32: {\r\n let shift = 32 - type.size;\r\n return type.is(TypeFlags.SIGNED)\r\n ? !(\r\n getExpressionId(operand = getBinaryRight(expr)) == ExpressionId.Const &&\r\n getConstValueI32(operand) > shift // must clear MSB\r\n )\r\n : this.canOverflow(getBinaryLeft(expr), type) && !(\r\n getExpressionId(operand = getBinaryRight(expr)) == ExpressionId.Const &&\r\n getConstValueI32(operand) >= shift // can leave MSB\r\n );\r\n }\r\n\r\n // overflows if any side does\r\n case BinaryOp.DivU32:\r\n case BinaryOp.RemI32:\r\n case BinaryOp.RemU32: {\r\n return this.canOverflow(getBinaryLeft(expr), type)\r\n || this.canOverflow(getBinaryRight(expr), type);\r\n }\r\n }\r\n break;\r\n }\r\n\r\n case ExpressionId.Unary: {\r\n switch (getUnaryOp(expr)) {\r\n\r\n // comparisons do not overflow (result is 0 or 1)\r\n case UnaryOp.EqzI32:\r\n case UnaryOp.EqzI64: return false;\r\n\r\n // overflow if the maximum result (32) cannot be represented in the target type\r\n case UnaryOp.ClzI32:\r\n case UnaryOp.CtzI32:\r\n case UnaryOp.PopcntI32: return type.size < 7;\r\n }\r\n break;\r\n }\r\n\r\n // overflows if the value cannot be represented in the target type\r\n case ExpressionId.Const: {\r\n let value: i32 = 0;\r\n switch (getExpressionType(expr)) {\r\n case NativeType.I32: { value = getConstValueI32(expr); break; }\r\n case NativeType.I64: { value = getConstValueI64Low(expr); break; } // discards upper bits\r\n case NativeType.F32: { value = i32(getConstValueF32(expr)); break; }\r\n case NativeType.F64: { value = i32(getConstValueF64(expr)); break; }\r\n default: assert(false);\r\n }\r\n switch (type.kind) {\r\n case TypeKind.I8: return value < i8.MIN_VALUE || value > i8.MAX_VALUE;\r\n case TypeKind.I16: return value < i16.MIN_VALUE || value > i16.MAX_VALUE;\r\n case TypeKind.U8: return value < 0 || value > u8.MAX_VALUE;\r\n case TypeKind.U16: return value < 0 || value > u16.MAX_VALUE;\r\n case TypeKind.BOOL: return (value & ~1) != 0;\r\n }\r\n break;\r\n }\r\n\r\n // overflows if the conversion does\r\n case ExpressionId.Load: {\r\n let fromType: Type;\r\n switch (getLoadBytes(expr)) {\r\n case 1: { fromType = isLoadSigned(expr) ? Type.i8 : Type.u8; break; }\r\n case 2: { fromType = isLoadSigned(expr) ? Type.i16 : Type.u16; break; }\r\n default: { fromType = isLoadSigned(expr) ? Type.i32 : Type.u32; break; }\r\n }\r\n return canConversionOverflow(fromType, type);\r\n }\r\n\r\n // overflows if the result does, which is either\r\n // - the last expression of the block, by contract, if the block doesn't have a label\r\n // - the last expression or the value of an inner br if the block has a label (TODO)\r\n case ExpressionId.Block: {\r\n if (!getBlockName(expr)) {\r\n let size = assert(getBlockChildCount(expr));\r\n let last = getBlockChild(expr, size - 1);\r\n return this.canOverflow(last, type);\r\n }\r\n break;\r\n }\r\n\r\n // overflows if either side does\r\n case ExpressionId.If: {\r\n return this.canOverflow(getIfTrue(expr), type)\r\n || this.canOverflow(assert(getIfFalse(expr)), type);\r\n }\r\n\r\n // overflows if either side does\r\n case ExpressionId.Select: {\r\n return this.canOverflow(getSelectThen(expr), type)\r\n || this.canOverflow(getSelectElse(expr), type);\r\n }\r\n\r\n // overflows if the call does not return a wrapped value or the conversion does\r\n case ExpressionId.Call: {\r\n let program = this.parentFunction.program;\r\n let instance = assert(program.instancesByName.get(assert(getCallTarget(expr))));\r\n assert(instance.kind == ElementKind.FUNCTION);\r\n let returnType = (instance).signature.returnType;\r\n return !(instance).flow.is(FlowFlags.RETURNS_WRAPPED)\r\n || canConversionOverflow(returnType, type);\r\n }\r\n\r\n // doesn't technically overflow\r\n case ExpressionId.Unreachable: return false;\r\n }\r\n return true;\r\n }\r\n}\r\n\r\n/** Tests if a conversion from one type to another can technically overflow. */\r\nfunction canConversionOverflow(fromType: Type, toType: Type): bool {\r\n return !fromType.is(TypeFlags.INTEGER) // non-i32 locals or returns\r\n || fromType.size > toType.size\r\n || fromType.is(TypeFlags.SIGNED) != toType.is(TypeFlags.SIGNED);\r\n}\r\n","/**\r\n * A decompiler that generates low-level AssemblyScript from WebAssembly binaries.\r\n * @module decompiler\r\n *//***/\r\n\r\nimport {\r\n Module,\r\n NativeType,\r\n ExpressionId,\r\n UnaryOp,\r\n BinaryOp,\r\n HostOp,\r\n FunctionRef,\r\n ExpressionRef,\r\n Index,\r\n getFunctionName,\r\n getFunctionBody,\r\n getFunctionParamCount,\r\n getFunctionParamType,\r\n getFunctionResultType,\r\n getExpressionId,\r\n getExpressionType,\r\n getBlockName,\r\n getBlockChildCount,\r\n getBlockChild,\r\n getIfCondition,\r\n getIfTrue,\r\n getIfFalse,\r\n getLoopName,\r\n getLoopBody,\r\n getBreakName,\r\n getBreakCondition,\r\n getGetLocalIndex,\r\n getSetLocalIndex,\r\n getSetLocalValue,\r\n getLoadOffset,\r\n getLoadPtr,\r\n getStoreOffset,\r\n getStorePtr,\r\n getStoreValue,\r\n getConstValueI32,\r\n getConstValueI64Low,\r\n getConstValueI64High,\r\n getConstValueF32,\r\n getConstValueF64,\r\n getUnaryOp,\r\n getUnaryValue,\r\n getBinaryOp,\r\n getBinaryLeft,\r\n getBinaryRight,\r\n getSelectThen,\r\n getSelectElse,\r\n getSelectCondition,\r\n getDropValue,\r\n getReturnValue,\r\n getHostOp,\r\n getHostOperand\r\n} from \"./module\";\r\n\r\n// TODO :-)\r\n\r\nexport class Decompiler {\r\n\r\n static decompile(module: Module): string {\r\n var decompiler = new Decompiler();\r\n decompiler.decompile(module);\r\n return decompiler.finish();\r\n }\r\n\r\n text: string[] = [];\r\n functionId: i32 = 0;\r\n\r\n constructor() { }\r\n\r\n /** Decompiles a module to an AST that can then be serialized. */\r\n decompile(module: Module): void {\r\n throw new Error(\"not implemented\");\r\n }\r\n\r\n decompileFunction(func: FunctionRef): void {\r\n var name = getFunctionName(func) || \"$\" + this.functionId.toString(10);\r\n var body = getFunctionBody(func);\r\n this.push(\"function \");\r\n this.push(name);\r\n this.push(\"(\");\r\n for (let i: Index = 0, k: Index = getFunctionParamCount(func); i < k; ++i) {\r\n if (i > 0) this.push(\", \");\r\n this.push(\"$\");\r\n this.push(i.toString(10));\r\n this.push(\": \");\r\n this.push(nativeTypeToType(getFunctionParamType(func, i)));\r\n }\r\n this.push(\"): \");\r\n this.push(nativeTypeToType(getFunctionResultType(func)));\r\n this.push(\" \");\r\n if (getExpressionId(body) != ExpressionId.Block) {\r\n this.push(\"{\\n\");\r\n }\r\n this.decompileExpression(body);\r\n if (getExpressionId(body) != ExpressionId.Block) {\r\n this.push(\"\\n}\\n\");\r\n }\r\n ++this.functionId;\r\n }\r\n\r\n decompileExpression(expr: ExpressionRef): void {\r\n var id = getExpressionId(expr);\r\n var type = getExpressionType(expr);\r\n\r\n var nested: ExpressionRef;\r\n var string: string | null;\r\n var i: Index, k: Index;\r\n\r\n switch (id) {\r\n case ExpressionId.Block: { // TODO: magic\r\n if ((string = getBlockName(expr)) != null) {\r\n this.push(string);\r\n this.push(\": \");\r\n }\r\n this.push(\"{\\n\");\r\n k = getBlockChildCount(expr);\r\n for (i = 0; i < k; ++i) {\r\n this.decompileExpression(getBlockChild(expr, i));\r\n }\r\n this.push(\"}\\n\");\r\n return;\r\n }\r\n case ExpressionId.If: {\r\n if (type == NativeType.None) {\r\n this.push(\"if (\");\r\n this.decompileExpression(getIfCondition(expr));\r\n this.push(\") \");\r\n this.decompileExpression(getIfTrue(expr));\r\n if (nested = getIfFalse(expr)) {\r\n this.push(\" else \");\r\n this.decompileExpression(nested);\r\n }\r\n } else {\r\n this.decompileExpression(getIfCondition(expr));\r\n this.push(\" ? \");\r\n this.decompileExpression(getIfTrue(expr));\r\n this.push(\" : \");\r\n this.decompileExpression(getIfFalse(expr));\r\n }\r\n return;\r\n }\r\n case ExpressionId.Loop: {\r\n if ((string = getLoopName(expr)) != null) {\r\n this.push(string);\r\n this.push(\": \");\r\n }\r\n this.push(\"do \");\r\n this.decompileExpression(getLoopBody(expr));\r\n this.push(\"while (0);\\n\");\r\n }\r\n case ExpressionId.Break: {\r\n if (nested = getBreakCondition(expr)) {\r\n this.push(\"if (\");\r\n this.decompileExpression(nested);\r\n this.push(\") \");\r\n }\r\n if ((string = getBreakName(expr)) != null) {\r\n this.push(\"break \");\r\n this.push(string);\r\n this.push(\";\\n\");\r\n } else {\r\n this.push(\"break;\\n\");\r\n }\r\n return;\r\n }\r\n case ExpressionId.Switch:\r\n case ExpressionId.Call:\r\n case ExpressionId.CallIndirect: {\r\n throw new Error(\"not implemented\");\r\n }\r\n case ExpressionId.GetLocal: {\r\n this.push(\"$\");\r\n this.push(getGetLocalIndex(expr).toString(10));\r\n return;\r\n }\r\n case ExpressionId.SetLocal: {\r\n this.push(\"$\");\r\n this.push(getSetLocalIndex(expr).toString(10));\r\n this.push(\" = \");\r\n this.decompileExpression(getSetLocalValue(expr));\r\n return;\r\n }\r\n case ExpressionId.GetGlobal:\r\n case ExpressionId.SetGlobal: {\r\n throw new Error(\"not implemented\");\r\n }\r\n case ExpressionId.Load: {\r\n this.push(\"load<\");\r\n this.push(nativeTypeToType(type));\r\n this.push(\">(\");\r\n this.push(getLoadOffset(expr).toString(10));\r\n this.push(\" + \");\r\n this.decompileExpression(getLoadPtr(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case ExpressionId.Store: {\r\n this.push(\"store<\");\r\n this.push(nativeTypeToType(type));\r\n this.push(\">(\");\r\n this.push(getStoreOffset(expr).toString(10));\r\n this.push(\" + \");\r\n this.decompileExpression(getStorePtr(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getStoreValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case ExpressionId.Const: {\r\n switch (type) {\r\n case NativeType.I32: {\r\n this.push(getConstValueI32(expr).toString(10));\r\n return;\r\n }\r\n case NativeType.I64: {\r\n this.push(\r\n i64_to_string(\r\n i64_new(\r\n getConstValueI64Low(expr),\r\n getConstValueI64High(expr)\r\n )\r\n )\r\n );\r\n return;\r\n }\r\n case NativeType.F32: {\r\n this.push(getConstValueF32(expr).toString(10));\r\n return;\r\n }\r\n case NativeType.F64: {\r\n this.push(getConstValueF64(expr).toString(10));\r\n return;\r\n }\r\n }\r\n break;\r\n }\r\n case ExpressionId.Unary: {\r\n switch (getUnaryOp(expr)) {\r\n case UnaryOp.ClzI32: {\r\n this.push(\"clz(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.CtzI32: {\r\n this.push(\"ctz(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.PopcntI32: {\r\n this.push(\"popcnt(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.NegF32:\r\n case UnaryOp.NegF64: {\r\n this.push(\"-\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.AbsF32: {\r\n this.push(\"abs(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.CeilF32: {\r\n this.push(\"ceil(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.FloorF32: {\r\n this.push(\"floor(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.TruncF32: {\r\n this.push(\"trunc(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.NearestF32: {\r\n this.push(\"nearest(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.SqrtF32: {\r\n this.push(\"sqrt(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.EqzI32:\r\n case UnaryOp.EqzI64: {\r\n this.push(\"!\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ClzI64: {\r\n this.push(\"clz(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.CtzI64: {\r\n this.push(\"ctz(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.PopcntI64: {\r\n this.push(\"popcnt(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.AbsF64: {\r\n this.push(\"abs(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.CeilF64: {\r\n this.push(\"ceil(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.FloorF64: {\r\n this.push(\"floor(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.TruncF64: {\r\n this.push(\"trunc(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.NearestF64: {\r\n this.push(\"nearest(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.SqrtF64: {\r\n this.push(\"sqrt(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.ExtendI32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ExtendU32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.WrapI64: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.TruncF32ToI32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.TruncF32ToI64: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.TruncF32ToU32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.TruncF32ToU64: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.TruncF64ToI32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.TruncF64ToI64: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.TruncF64ToU32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.TruncF64ToU64: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ReinterpretF32: {\r\n this.push(\"reinterpret(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.ReinterpretF64: {\r\n this.push(\"reinterpret(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.ConvertI32ToF32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ConvertI32ToF64: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ConvertU32ToF32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ConvertU32ToF64: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ConvertI64ToF32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ConvertI64ToF64: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ConvertU64ToF32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ConvertU64ToF64: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.PromoteF32: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.DemoteF64: {\r\n this.push(\"\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n return;\r\n }\r\n case UnaryOp.ReinterpretI32: {\r\n this.push(\"reinterpret(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case UnaryOp.ReinterpretI64: {\r\n this.push(\"reinterpret(\");\r\n this.decompileExpression(getUnaryValue(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n }\r\n break;\r\n }\r\n case ExpressionId.Binary: { // TODO: precedence\r\n switch (getBinaryOp(expr)) {\r\n case BinaryOp.AddI32:\r\n case BinaryOp.AddI64:\r\n case BinaryOp.AddF32:\r\n case BinaryOp.AddF64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" + \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.SubI32:\r\n case BinaryOp.SubI64:\r\n case BinaryOp.SubF32:\r\n case BinaryOp.SubF64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" - \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.MulI32:\r\n case BinaryOp.MulI64:\r\n case BinaryOp.MulF32:\r\n case BinaryOp.MulF64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" * \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.DivI32:\r\n case BinaryOp.DivI64:\r\n case BinaryOp.DivF32:\r\n case BinaryOp.DivF64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" / \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.DivU32: {\r\n this.push(\"(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" / \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.RemI32:\r\n case BinaryOp.RemI64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" % \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.RemU32: {\r\n this.push(\"(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" / \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.AndI32:\r\n case BinaryOp.AndI64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" & \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.OrI32:\r\n case BinaryOp.OrI64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" | \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.XorI32:\r\n case BinaryOp.XorI64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" ^ \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.ShlI32:\r\n case BinaryOp.ShlI64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" << \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.ShrU32:\r\n case BinaryOp.ShrU64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" >>> \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.ShrI32:\r\n case BinaryOp.ShrI64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" >> \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.RotlI32: {\r\n this.push(\"rotl(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.RotrI32: {\r\n this.push(\"rotr(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.EqI32:\r\n case BinaryOp.EqI64:\r\n case BinaryOp.EqF32:\r\n case BinaryOp.EqF64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" == \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.NeI32:\r\n case BinaryOp.NeI64:\r\n case BinaryOp.NeF32:\r\n case BinaryOp.NeF64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" != \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.LtI32:\r\n case BinaryOp.LtI64:\r\n case BinaryOp.LtF32:\r\n case BinaryOp.LtF64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" < \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.LtU32: {\r\n this.push(\"\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" < \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.LeI32:\r\n case BinaryOp.LeI64:\r\n case BinaryOp.LeF32:\r\n case BinaryOp.LeF64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" <= \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.LeU32: {\r\n this.push(\"\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" <= \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.GtI32:\r\n case BinaryOp.GtI64:\r\n case BinaryOp.GtF32:\r\n case BinaryOp.GtF64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" > \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.GtU32: {\r\n this.push(\"\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" > \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.GeI32:\r\n case BinaryOp.GeI64:\r\n case BinaryOp.GeF32:\r\n case BinaryOp.GeF64: {\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" >= \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.GeU32: {\r\n this.push(\"\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" >= \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.DivU64: {\r\n this.push(\"\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" / \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.RemU64: {\r\n this.push(\"\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" % \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.RotlI64: {\r\n this.push(\"rotl(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.RotrI64: {\r\n this.push(\"rotr(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.LtU64: {\r\n this.push(\"\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" < \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.LeU64: {\r\n this.push(\"\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" <= \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.GtU64: {\r\n this.push(\"\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" > \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.GeU64: {\r\n this.push(\"\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\" >= \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n return;\r\n }\r\n case BinaryOp.CopysignF32: {\r\n this.push(\"copysign(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.MinF32: {\r\n this.push(\"min(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.MaxF32: {\r\n this.push(\"max(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.CopysignF64: {\r\n this.push(\"copysign(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.MinF64: {\r\n this.push(\"min(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case BinaryOp.MaxF64: {\r\n this.push(\"max(\");\r\n this.decompileExpression(getBinaryLeft(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getBinaryRight(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n }\r\n return;\r\n }\r\n case ExpressionId.Select: {\r\n this.push(\"select<\");\r\n this.push(nativeTypeToType(type));\r\n this.push(\">(\");\r\n this.decompileExpression(getSelectThen(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getSelectElse(expr));\r\n this.push(\", \");\r\n this.decompileExpression(getSelectCondition(expr));\r\n this.push(\")\");\r\n return;\r\n }\r\n case ExpressionId.Drop: {\r\n this.decompileExpression(getDropValue(expr));\r\n this.push(\";\\n\");\r\n return;\r\n }\r\n case ExpressionId.Return: {\r\n if (nested = getReturnValue(expr)) {\r\n this.push(\"return \");\r\n this.decompileExpression(nested);\r\n this.push(\";\\n\");\r\n } else {\r\n this.push(\"return;\\n\");\r\n }\r\n return;\r\n }\r\n case ExpressionId.Host: {\r\n switch (getHostOp(expr)) {\r\n case HostOp.CurrentMemory: {\r\n this.push(\"memory.size()\");\r\n return;\r\n }\r\n case HostOp.GrowMemory: {\r\n this.push(\"memory.grow(\");\r\n this.decompileExpression(getHostOperand(expr, 0));\r\n this.push(\")\");\r\n return;\r\n }\r\n }\r\n break;\r\n }\r\n case ExpressionId.Nop: {\r\n this.push(\";\\n\");\r\n return;\r\n }\r\n case ExpressionId.Unreachable: {\r\n this.push(\"unreachable()\");\r\n return;\r\n }\r\n case ExpressionId.AtomicCmpxchg:\r\n case ExpressionId.AtomicRMW:\r\n case ExpressionId.AtomicWait:\r\n case ExpressionId.AtomicWake:\r\n }\r\n throw new Error(\"not implemented\");\r\n }\r\n\r\n private push(text: string): void {\r\n // mostly here so we can add debugging if necessary\r\n this.text.push(text);\r\n }\r\n\r\n finish(): string {\r\n var ret = this.text.join(\"\");\r\n this.text = [];\r\n return ret;\r\n }\r\n}\r\n\r\nfunction nativeTypeToType(type: NativeType): string {\r\n switch (type) {\r\n case NativeType.None: return \"void\";\r\n case NativeType.I32: return \"i32\";\r\n case NativeType.I64: return \"i64\";\r\n case NativeType.F32: return \"f32\";\r\n case NativeType.F64: return \"f64\";\r\n case NativeType.V128: return \"v128\";\r\n case NativeType.Unreachable: throw new Error(\"unreachable type\");\r\n case NativeType.Auto: throw new Error(\"auto type\");\r\n default: throw new Error(\"unexpected type\");\r\n }\r\n}\r\n","/**\r\n * Definition builders for WebIDL and TypeScript.\r\n * @module definitions\r\n *//***/\r\n\r\nimport {\r\n CommonFlags\r\n} from \"./common\";\r\n\r\nimport {\r\n Program,\r\n Element,\r\n ElementKind,\r\n Global,\r\n Enum,\r\n EnumValue,\r\n Field,\r\n Function,\r\n FunctionPrototype,\r\n Class,\r\n ClassPrototype,\r\n Namespace,\r\n ConstantValueKind,\r\n Interface,\r\n Property,\r\n PropertyPrototype\r\n} from \"./program\";\r\n\r\nimport {\r\n Type,\r\n TypeKind\r\n} from \"./types\";\r\n\r\nimport {\r\n indent\r\n} from \"./util\";\r\n\r\n/** Walker base class. */\r\nabstract class ExportsWalker {\r\n\r\n /** Program reference. */\r\n program: Program;\r\n /** Whether to include private members */\r\n includePrivate: bool;\r\n /** Elements still to do. */\r\n todo: Element[] = [];\r\n /** Already seen elements. */\r\n seen: Set = new Set();\r\n\r\n /** Constructs a new Element walker. */\r\n constructor(program: Program, includePrivate: bool = false) {\r\n this.program = program;\r\n this.includePrivate;\r\n }\r\n\r\n /** Walks all elements and calls the respective handlers. */\r\n walk(): void {\r\n for (let file of this.program.filesByName.values()) {\r\n let members = file.members;\r\n if (!members) continue;\r\n for (let member of members.values()) {\r\n // FIXME: doesn't honor the actual externally visible name\r\n this.visitElement(member);\r\n }\r\n }\r\n var todo = this.todo;\r\n for (let i = 0; i < todo.length; ) this.visitElement(todo[i]);\r\n }\r\n\r\n /** Visits an element.*/\r\n visitElement(element: Element): void {\r\n if (element.is(CommonFlags.PRIVATE) && !this.includePrivate) return;\r\n if (this.seen.has(element)) return;\r\n this.seen.add(element);\r\n switch (element.kind) {\r\n case ElementKind.GLOBAL: {\r\n if (element.is(CommonFlags.COMPILED)) this.visitGlobal(element);\r\n break;\r\n }\r\n case ElementKind.ENUM: {\r\n if (element.is(CommonFlags.COMPILED)) this.visitEnum(element);\r\n break;\r\n }\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n this.visitFunctionInstances(element);\r\n break;\r\n }\r\n case ElementKind.CLASS_PROTOTYPE: {\r\n this.visitClassInstances(element);\r\n break;\r\n }\r\n case ElementKind.FIELD: {\r\n if ((element).is(CommonFlags.COMPILED)) this.visitField(element);\r\n break;\r\n }\r\n case ElementKind.PROPERTY_PROTOTYPE: {\r\n this.visitPropertyInstances(element);\r\n break;\r\n }\r\n case ElementKind.PROPERTY: {\r\n let prop = element;\r\n let getter = prop.getterInstance;\r\n if (getter) this.visitFunction(getter);\r\n let setter = prop.setterInstance;\r\n if (setter) this.visitFunction(setter);\r\n break;\r\n }\r\n case ElementKind.NAMESPACE: {\r\n if (hasCompiledMember(element)) this.visitNamespace(element);\r\n break;\r\n }\r\n case ElementKind.TYPEDEFINITION: break;\r\n default: assert(false);\r\n }\r\n }\r\n\r\n private visitFunctionInstances(element: FunctionPrototype): void {\r\n var instances = element.instances;\r\n if (instances) {\r\n for (let instance of instances.values()) {\r\n if (instance.is(CommonFlags.COMPILED)) this.visitFunction(instance);\r\n }\r\n }\r\n }\r\n\r\n private visitClassInstances(element: ClassPrototype): void {\r\n var instances = element.instances;\r\n if (instances) {\r\n for (let instance of instances.values()) {\r\n if (instance.is(CommonFlags.COMPILED)) this.visitClass(instance);\r\n }\r\n }\r\n }\r\n\r\n private visitPropertyInstances(element: PropertyPrototype): void {\r\n // var instances = element.instances;\r\n // if (instances) {\r\n // for (let instance of instances.values()) {\r\n // if (instance.is(CommonFlags.COMPILED)) this.visitProperty(instance);\r\n // }\r\n // }\r\n assert(false);\r\n }\r\n\r\n abstract visitGlobal(element: Global): void;\r\n abstract visitEnum(element: Enum): void;\r\n abstract visitFunction(element: Function): void;\r\n abstract visitClass(element: Class): void;\r\n abstract visitInterface(element: Interface): void;\r\n abstract visitField(element: Field): void;\r\n abstract visitNamespace(element: Element): void;\r\n}\r\n\r\n/** A WebIDL definitions builder. */\r\nexport class IDLBuilder extends ExportsWalker {\r\n\r\n /** Builds WebIDL definitions for the specified program. */\r\n static build(program: Program): string {\r\n return new IDLBuilder(program).build();\r\n }\r\n\r\n private sb: string[] = [];\r\n private indentLevel: i32 = 0;\r\n\r\n /** Constructs a new WebIDL builder. */\r\n constructor(program: Program, includePrivate: bool = false) {\r\n super(program, includePrivate);\r\n }\r\n\r\n visitGlobal(element: Global): void {\r\n var sb = this.sb;\r\n var isConst = element.is(CommonFlags.INLINED);\r\n indent(sb, this.indentLevel);\r\n if (isConst) sb.push(\"const \");\r\n sb.push(this.typeToString(element.type));\r\n sb.push(\" \");\r\n sb.push(element.name);\r\n if (isConst) {\r\n switch (element.constantValueKind) {\r\n case ConstantValueKind.INTEGER: {\r\n sb.push(\" = \");\r\n sb.push(i64_to_string(element.constantIntegerValue));\r\n break;\r\n }\r\n case ConstantValueKind.FLOAT: {\r\n sb.push(\" = \");\r\n sb.push(element.constantFloatValue.toString());\r\n break;\r\n }\r\n default: assert(false);\r\n }\r\n }\r\n sb.push(\";\\n\");\r\n }\r\n\r\n visitEnum(element: Enum): void {\r\n var sb = this.sb;\r\n indent(sb, this.indentLevel++);\r\n sb.push(\"interface \");\r\n sb.push(element.name);\r\n sb.push(\" {\\n\");\r\n var members = element.members;\r\n if (members) {\r\n for (let [name, member] of members) {\r\n if (member.kind == ElementKind.ENUMVALUE) {\r\n let isConst = (member).is(CommonFlags.INLINED);\r\n indent(sb, this.indentLevel);\r\n if (isConst) sb.push(\"const \");\r\n else sb.push(\"readonly \");\r\n sb.push(\"unsigned long \");\r\n sb.push(name);\r\n if (isConst) {\r\n sb.push(\" = \");\r\n assert((member).constantValueKind == ConstantValueKind.INTEGER);\r\n sb.push(i64_low((member).constantIntegerValue).toString(10));\r\n }\r\n sb.push(\";\\n\");\r\n }\r\n }\r\n for (let member of members.values()) {\r\n if (member.kind != ElementKind.ENUMVALUE) this.visitElement(member);\r\n }\r\n }\r\n indent(sb, --this.indentLevel);\r\n sb.push(\"}\\n\");\r\n }\r\n\r\n visitFunction(element: Function): void {\r\n var sb = this.sb;\r\n var signature = element.signature;\r\n indent(sb, this.indentLevel);\r\n sb.push(this.typeToString(signature.returnType));\r\n sb.push(\" \");\r\n sb.push(element.name);\r\n sb.push(\"(\");\r\n var parameters = signature.parameterTypes;\r\n var numParameters = parameters.length;\r\n // var requiredParameters = signature.requiredParameters;\r\n for (let i = 0; i < numParameters; ++i) {\r\n if (i) sb.push(\", \");\r\n // if (i >= requiredParameters) sb.push(\"optional \");\r\n sb.push(this.typeToString(parameters[i]));\r\n sb.push(\" \");\r\n sb.push(signature.getParameterName(i));\r\n }\r\n sb.push(\");\\n\");\r\n var members = element.members;\r\n if (members && members.size) {\r\n indent(sb, this.indentLevel);\r\n sb.push(\"interface \");\r\n sb.push(element.name);\r\n sb.push(\" {\\n\");\r\n for (let member of members.values()) this.visitElement(member);\r\n indent(sb, --this.indentLevel);\r\n sb.push(\"}\\n\");\r\n }\r\n }\r\n\r\n visitClass(element: Class): void {\r\n var sb = this.sb;\r\n indent(sb, this.indentLevel++);\r\n sb.push(\"interface \");\r\n sb.push(element.name);\r\n sb.push(\" {\\n\");\r\n // TODO\r\n indent(sb, --this.indentLevel);\r\n sb.push(\"}\\n\");\r\n }\r\n\r\n visitInterface(element: Interface): void {\r\n this.visitClass(element);\r\n }\r\n\r\n visitField(element: Field): void {\r\n // TODO\r\n }\r\n\r\n visitNamespace(element: Namespace): void {\r\n var sb = this.sb;\r\n indent(sb, this.indentLevel++);\r\n sb.push(\"interface \");\r\n sb.push(element.name);\r\n sb.push(\" {\\n\");\r\n var members = element.members;\r\n if (members) {\r\n for (let member of members.values()) this.visitElement(member);\r\n }\r\n indent(sb, --this.indentLevel);\r\n sb.push(\"}\\n\");\r\n }\r\n\r\n typeToString(type: Type): string {\r\n switch (type.kind) {\r\n case TypeKind.I8: return \"byte\";\r\n case TypeKind.I16: return \"short\";\r\n case TypeKind.I32: return \"long\";\r\n case TypeKind.I64: return \"long long\";\r\n case TypeKind.ISIZE: return this.program.options.isWasm64 ? \"long long\" : \"long\";\r\n case TypeKind.U8: return \"octet\";\r\n case TypeKind.U16: return \"unsigned short\";\r\n case TypeKind.U32: return \"unsigned long\";\r\n // ^ TODO: function types\r\n case TypeKind.U64: return \"unsigned long long\";\r\n case TypeKind.USIZE: return this.program.options.isWasm64 ? \"unsigned long long\" : \"unsigned long\";\r\n // ^ TODO: class types\r\n case TypeKind.BOOL: return \"boolean\";\r\n case TypeKind.F32: return \"unrestricted float\";\r\n case TypeKind.F64: return \"unrestricted double\";\r\n case TypeKind.VOID: return \"void\";\r\n default: {\r\n assert(false);\r\n return \"\";\r\n }\r\n }\r\n }\r\n\r\n build(): string {\r\n var sb = this.sb;\r\n sb.push(\"interface ASModule {\\n\");\r\n ++this.indentLevel;\r\n this.walk();\r\n --this.indentLevel;\r\n sb.push(\"}\\n\");\r\n return sb.join(\"\");\r\n }\r\n}\r\n\r\n/** A TypeScript definitions builder. */\r\nexport class TSDBuilder extends ExportsWalker {\r\n\r\n /** Builds TypeScript definitions for the specified program. */\r\n static build(program: Program): string {\r\n return new TSDBuilder(program).build();\r\n }\r\n\r\n private sb: string[] = [];\r\n private indentLevel: i32 = 0;\r\n\r\n /** Constructs a new WebIDL builder. */\r\n constructor(program: Program, includePrivate: bool = false) {\r\n super(program, includePrivate);\r\n }\r\n\r\n visitGlobal(element: Global): void {\r\n var sb = this.sb;\r\n var isConst = element.is(CommonFlags.INLINED);\r\n indent(sb, this.indentLevel);\r\n if (element.is(CommonFlags.STATIC)) {\r\n if (isConst) sb.push(\"static readonly \");\r\n else sb.push(\"static \");\r\n } else {\r\n if (isConst) sb.push(\"const \");\r\n else sb.push(\"var \");\r\n }\r\n sb.push(element.name);\r\n sb.push(\": \");\r\n sb.push(this.typeToString(element.type));\r\n sb.push(\";\\n\");\r\n this.visitNamespace(element);\r\n }\r\n\r\n visitEnum(element: Enum): void {\r\n var sb = this.sb;\r\n indent(sb, this.indentLevel++);\r\n sb.push(\"enum \");\r\n sb.push(element.name);\r\n sb.push(\" {\\n\");\r\n var members = element.members;\r\n if (members) {\r\n let numMembers = members.size;\r\n for (let [name, member] of members) {\r\n if (member.kind == ElementKind.ENUMVALUE) {\r\n indent(sb, this.indentLevel);\r\n sb.push(name);\r\n if (member.is(CommonFlags.INLINED)) {\r\n sb.push(\" = \");\r\n assert((member).constantValueKind == ConstantValueKind.INTEGER);\r\n sb.push(i64_low((member).constantIntegerValue).toString(10));\r\n }\r\n sb.push(\",\\n\");\r\n --numMembers;\r\n }\r\n }\r\n if (numMembers) this.visitNamespace(element);\r\n }\r\n indent(sb, --this.indentLevel);\r\n sb.push(\"}\\n\");\r\n }\r\n\r\n visitFunction(element: Function): void {\r\n if (element.isAny(CommonFlags.PRIVATE | CommonFlags.SET)) return;\r\n var sb = this.sb;\r\n var signature = element.signature;\r\n indent(sb, this.indentLevel);\r\n if (element.is(CommonFlags.PROTECTED)) sb.push(\"protected \");\r\n if (element.is(CommonFlags.STATIC)) sb.push(\"static \");\r\n if (element.is(CommonFlags.GET)) {\r\n sb.push(element.identifierNode.text); // 'get:funcName' internally\r\n sb.push(\": \");\r\n sb.push(this.typeToString(signature.returnType));\r\n sb.push(\";\\n\");\r\n return;\r\n } else {\r\n if (!element.isAny(CommonFlags.STATIC | CommonFlags.INSTANCE)) sb.push(\"function \");\r\n sb.push(element.name);\r\n }\r\n sb.push(\"(\");\r\n var parameters = signature.parameterTypes;\r\n var numParameters = parameters.length;\r\n // var requiredParameters = signature.requiredParameters;\r\n for (let i = 0; i < numParameters; ++i) {\r\n if (i) sb.push(\", \");\r\n // if (i >= requiredParameters) sb.push(\"optional \");\r\n sb.push(signature.getParameterName(i));\r\n sb.push(\": \");\r\n sb.push(this.typeToString(parameters[i]));\r\n }\r\n if (element.isAny(CommonFlags.CONSTRUCTOR | CommonFlags.SET)) {\r\n sb.push(\")\");\r\n } else {\r\n sb.push(\"): \");\r\n sb.push(this.typeToString(signature.returnType));\r\n }\r\n sb.push(\";\\n\");\r\n this.visitNamespace(element);\r\n }\r\n\r\n visitClass(element: Class): void {\r\n var sb = this.sb;\r\n var isInterface = element.kind == ElementKind.INTERFACE;\r\n indent(sb, this.indentLevel++);\r\n if (isInterface) {\r\n sb.push(\"interface \");\r\n } else {\r\n if (element.is(CommonFlags.ABSTRACT)) sb.push(\"abstract \");\r\n sb.push(\"class \");\r\n }\r\n sb.push(element.name);\r\n var base = element.base;\r\n if (base && base.is(CommonFlags.COMPILED | CommonFlags.MODULE_EXPORT)) {\r\n sb.push(\" extends \");\r\n sb.push(base.name); // TODO: fqn\r\n }\r\n sb.push(\" {\\n\");\r\n var members = element.parent.members; // static\r\n if (members) {\r\n for (let member of members.values()) {\r\n this.visitElement(member);\r\n }\r\n }\r\n var ctor = element.constructorInstance;\r\n if (ctor) this.visitFunction(ctor);\r\n members = element.members; // instance\r\n if (members) {\r\n for (let member of members.values()) this.visitElement(member);\r\n }\r\n indent(sb, --this.indentLevel);\r\n sb.push(\"}\\n\");\r\n }\r\n\r\n visitInterface(element: Interface): void {\r\n this.visitClass(element);\r\n }\r\n\r\n visitField(element: Field): void {\r\n if (element.is(CommonFlags.PRIVATE)) return;\r\n var sb = this.sb;\r\n indent(sb, this.indentLevel);\r\n if (element.is(CommonFlags.PROTECTED)) sb.push(\"protected \");\r\n if (element.is(CommonFlags.STATIC)) sb.push(\"static \");\r\n if (element.is(CommonFlags.READONLY)) sb.push(\"readonly \");\r\n sb.push(element.name);\r\n sb.push(\": \");\r\n sb.push(this.typeToString(element.type));\r\n sb.push(\";\\n\");\r\n }\r\n\r\n visitNamespace(element: Element): void {\r\n var members = element.members;\r\n if (members && members.size) {\r\n let sb = this.sb;\r\n indent(sb, this.indentLevel++);\r\n sb.push(\"namespace \");\r\n sb.push(element.name);\r\n sb.push(\" {\\n\");\r\n for (let member of members.values()) this.visitElement(member);\r\n indent(sb, --this.indentLevel);\r\n sb.push(\"}\\n\");\r\n }\r\n }\r\n\r\n typeToString(type: Type): string {\r\n switch (type.kind) {\r\n case TypeKind.I8: return \"i8\";\r\n case TypeKind.I16: return \"i16\";\r\n case TypeKind.I32: return \"i32\";\r\n case TypeKind.I64: return \"I64\";\r\n case TypeKind.ISIZE: return this.program.options.isWasm64 ? \"I64\" : \"i32\";\r\n case TypeKind.U8: return \"u8\";\r\n case TypeKind.U16: return \"u16\";\r\n case TypeKind.U32: return \"u32\";\r\n // ^ TODO: function types\r\n case TypeKind.U64: return \"U64\";\r\n case TypeKind.USIZE: return this.program.options.isWasm64 ? \"U64\" : \"u32\";\r\n // ^ TODO: class types\r\n case TypeKind.BOOL: return \"bool\";\r\n case TypeKind.F32: return \"f32\";\r\n case TypeKind.F64: return \"f64\";\r\n case TypeKind.V128: return \"v128\";\r\n case TypeKind.VOID: return \"void\";\r\n default: {\r\n assert(false);\r\n return \"\";\r\n }\r\n }\r\n }\r\n\r\n build(): string {\r\n var sb = this.sb;\r\n sb.push(\"declare module ASModule {\\n\");\r\n sb.push(\" type i8 = number;\\n\");\r\n sb.push(\" type i16 = number;\\n\");\r\n sb.push(\" type i32 = number;\\n\");\r\n sb.push(\" type u8 = number;\\n\");\r\n sb.push(\" type u16 = number;\\n\");\r\n sb.push(\" type u32 = number;\\n\");\r\n sb.push(\" type f32 = number;\\n\");\r\n sb.push(\" type f64 = number;\\n\");\r\n sb.push(\" type bool = any;\\n\");\r\n ++this.indentLevel;\r\n this.walk();\r\n --this.indentLevel;\r\n sb.push(\"}\\n\");\r\n sb.push(\"export default ASModule;\\n\");\r\n return this.sb.join(\"\");\r\n }\r\n}\r\n\r\n// helpers\r\n\r\n/** Tests if a namespace-like element has at least one compiled member. */\r\nfunction hasCompiledMember(element: Element): bool {\r\n var members = element.members;\r\n if (members) {\r\n for (let member of members.values()) {\r\n switch (member.kind) {\r\n case ElementKind.FUNCTION_PROTOTYPE: {\r\n let instances = (member).instances;\r\n if (instances) {\r\n for (let instance of instances.values()) {\r\n if (instance.is(CommonFlags.COMPILED)) return true;\r\n }\r\n }\r\n break;\r\n }\r\n case ElementKind.CLASS_PROTOTYPE: {\r\n let instances = (member).instances;\r\n if (instances) {\r\n for (let instance of instances.values()) {\r\n if (instance.is(CommonFlags.COMPILED)) return true;\r\n }\r\n }\r\n break;\r\n }\r\n default: {\r\n if (member.is(CommonFlags.COMPILED) || hasCompiledMember(member)) return true;\r\n break;\r\n }\r\n }\r\n }\r\n }\r\n return false;\r\n}\r\n","/**\r\n * A TypeScript parser for the AssemblyScript subset.\r\n * @module parser\r\n *//***/\r\n\r\nimport {\r\n CommonFlags,\r\n LIBRARY_PREFIX,\r\n PATH_DELIMITER\r\n} from \"./common\";\r\n\r\nimport {\r\n Program\r\n} from \"./program\";\r\n\r\nimport {\r\n Tokenizer,\r\n Token,\r\n Range,\r\n CommentHandler,\r\n IdentifierHandling\r\n} from \"./tokenizer\";\r\n\r\nimport {\r\n DiagnosticCode,\r\n DiagnosticEmitter\r\n} from \"./diagnostics\";\r\n\r\nimport {\r\n normalizePath\r\n} from \"./util\";\r\n\r\nimport {\r\n Node,\r\n NodeKind,\r\n Source,\r\n SourceKind,\r\n CommonTypeNode,\r\n TypeNode,\r\n SignatureNode,\r\n ArrowKind,\r\n\r\n Expression,\r\n AssertionKind,\r\n CallExpression,\r\n ClassExpression,\r\n FunctionExpression,\r\n IdentifierExpression,\r\n StringLiteralExpression,\r\n\r\n Statement,\r\n BlockStatement,\r\n BreakStatement,\r\n ClassDeclaration,\r\n ContinueStatement,\r\n DeclarationStatement,\r\n DecoratorNode,\r\n DoStatement,\r\n EnumDeclaration,\r\n EnumValueDeclaration,\r\n ExportImportStatement,\r\n ExportMember,\r\n ExportStatement,\r\n ExpressionStatement,\r\n ForStatement,\r\n FunctionDeclaration,\r\n IfStatement,\r\n ImportDeclaration,\r\n ImportStatement,\r\n IndexSignatureDeclaration,\r\n NamespaceDeclaration,\r\n ParameterNode,\r\n ParameterKind,\r\n ReturnStatement,\r\n SwitchCase,\r\n SwitchStatement,\r\n ThrowStatement,\r\n TryStatement,\r\n TypeDeclaration,\r\n TypeParameterNode,\r\n VariableStatement,\r\n VariableDeclaration,\r\n VoidStatement,\r\n WhileStatement,\r\n\r\n mangleInternalPath,\r\n nodeIsCallable,\r\n nodeIsGenericCallable\r\n} from \"./ast\";\r\n\r\n/** Parser interface. */\r\nexport class Parser extends DiagnosticEmitter {\r\n\r\n /** Program being created. */\r\n program: Program;\r\n /** Source file names to be requested next. */\r\n backlog: string[] = new Array();\r\n /** Source file names already seen, that is processed or backlogged. */\r\n seenlog: Set = new Set();\r\n /** Source file names already completely processed. */\r\n donelog: Set = new Set();\r\n /** Optional handler to intercept comments while tokenizing. */\r\n onComment: CommentHandler | null = null;\r\n\r\n /** Constructs a new parser. */\r\n constructor() {\r\n super();\r\n this.program = new Program(this.diagnostics);\r\n }\r\n\r\n /** Parses a file and adds its definitions to the program. */\r\n parseFile(\r\n text: string,\r\n path: string,\r\n isEntry: bool\r\n ): void {\r\n var normalizedPath = normalizePath(path);\r\n var internalPath = mangleInternalPath(normalizedPath);\r\n\r\n // check if already processed\r\n if (this.donelog.has(internalPath)) return;\r\n this.donelog.add(internalPath); // do not parse again\r\n this.seenlog.add(internalPath); // do not request again\r\n\r\n // create the source element\r\n var source = new Source(\r\n normalizedPath,\r\n text,\r\n isEntry\r\n ? SourceKind.ENTRY\r\n : path.startsWith(LIBRARY_PREFIX) && path.indexOf(PATH_DELIMITER, LIBRARY_PREFIX.length) < 0\r\n ? SourceKind.LIBRARY\r\n : SourceKind.DEFAULT\r\n );\r\n var program = this.program;\r\n program.sources.push(source);\r\n\r\n // tokenize and parse\r\n var tn = new Tokenizer(source, program.diagnostics);\r\n tn.onComment = this.onComment;\r\n source.tokenizer = tn;\r\n var statements = source.statements;\r\n while (!tn.skip(Token.ENDOFFILE)) {\r\n let statement = this.parseTopLevelStatement(tn, null);\r\n if (statement) statements.push(statement);\r\n }\r\n tn.finish();\r\n }\r\n\r\n /** Parses a top-level statement. */\r\n parseTopLevelStatement(\r\n tn: Tokenizer,\r\n namespace: NamespaceDeclaration | null = null\r\n ): Statement | null {\r\n var flags = CommonFlags.NONE;\r\n var startPos: i32 = -1;\r\n\r\n // check decorators\r\n var decorators: DecoratorNode[] | null = null;\r\n while (tn.skip(Token.AT)) {\r\n if (startPos < 0) startPos = tn.tokenPos;\r\n let decorator = this.parseDecorator(tn);\r\n if (!decorator) {\r\n this.skipStatement(tn);\r\n continue;\r\n }\r\n if (!decorators) decorators = [];\r\n decorators.push(decorator);\r\n }\r\n\r\n // check modifiers\r\n var exportStart: i32 = 0;\r\n var exportEnd: i32 = 0;\r\n if (tn.skip(Token.EXPORT)) {\r\n if (tn.skip(Token.DEFAULT)) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n tn.range()\r\n );\r\n }\r\n if (startPos < 0) startPos = tn.tokenPos;\r\n flags |= CommonFlags.EXPORT;\r\n exportStart = tn.tokenPos;\r\n exportEnd = tn.pos;\r\n }\r\n\r\n var declareStart: i32 = 0;\r\n var declareEnd: i32 = 0;\r\n var contextIsAmbient = namespace != null && namespace.is(CommonFlags.AMBIENT);\r\n if (tn.skip(Token.DECLARE)) {\r\n if (startPos < 0) startPos = tn.tokenPos;\r\n if (contextIsAmbient) {\r\n this.error(\r\n DiagnosticCode.A_declare_modifier_cannot_be_used_in_an_already_ambient_context,\r\n tn.range()\r\n ); // recoverable\r\n }\r\n flags |= CommonFlags.DECLARE | CommonFlags.AMBIENT;\r\n } else if (contextIsAmbient) {\r\n flags |= CommonFlags.AMBIENT;\r\n }\r\n\r\n // parse the statement\r\n var statement: Statement | null = null;\r\n\r\n // handle declarations\r\n var first = tn.peek();\r\n if (startPos < 0) startPos = tn.nextTokenPos;\r\n switch (first) {\r\n case Token.CONST: {\r\n tn.next();\r\n flags |= CommonFlags.CONST;\r\n if (tn.skip(Token.ENUM)) {\r\n statement = this.parseEnum(tn, flags, decorators, startPos);\r\n } else {\r\n statement = this.parseVariable(tn, flags, decorators, startPos);\r\n }\r\n decorators = null;\r\n break;\r\n }\r\n case Token.LET: flags |= CommonFlags.LET;\r\n case Token.VAR: {\r\n tn.next();\r\n statement = this.parseVariable(tn, flags, decorators, startPos);\r\n decorators = null;\r\n break;\r\n }\r\n case Token.ENUM: {\r\n tn.next();\r\n statement = this.parseEnum(tn, flags, decorators, startPos);\r\n decorators = null;\r\n break;\r\n }\r\n case Token.FUNCTION: {\r\n tn.next();\r\n statement = this.parseFunction(tn, flags, decorators, startPos);\r\n decorators = null;\r\n break;\r\n }\r\n case Token.ABSTRACT: {\r\n let state = tn.mark();\r\n tn.next();\r\n if (!tn.skip(Token.CLASS)) {\r\n tn.reset(state);\r\n statement = this.parseStatement(tn, true);\r\n break;\r\n } else {\r\n tn.discard(state);\r\n }\r\n flags |= CommonFlags.ABSTRACT;\r\n // fall through\r\n }\r\n case Token.CLASS:\r\n case Token.INTERFACE: {\r\n tn.next();\r\n statement = this.parseClassOrInterface(tn, flags, decorators, startPos);\r\n decorators = null;\r\n break;\r\n }\r\n case Token.NAMESPACE: {\r\n let state = tn.mark();\r\n tn.next();\r\n if (tn.peek(false, IdentifierHandling.PREFER) == Token.IDENTIFIER) {\r\n tn.discard(state);\r\n statement = this.parseNamespace(tn, flags, decorators, startPos);\r\n decorators = null;\r\n } else {\r\n tn.reset(state);\r\n statement = this.parseStatement(tn, true);\r\n }\r\n break;\r\n }\r\n case Token.IMPORT: {\r\n tn.next();\r\n flags |= CommonFlags.IMPORT;\r\n if (flags & CommonFlags.EXPORT) {\r\n statement = this.parseExportImport(tn, startPos);\r\n } else {\r\n statement = this.parseImport(tn);\r\n }\r\n break;\r\n }\r\n case Token.TYPE: { // also identifier\r\n let state = tn.mark();\r\n tn.next();\r\n if (tn.peek(false, IdentifierHandling.PREFER) == Token.IDENTIFIER) {\r\n tn.discard(state);\r\n statement = this.parseTypeDeclaration(tn, flags, decorators, startPos);\r\n decorators = null;\r\n } else {\r\n tn.reset(state);\r\n statement = this.parseStatement(tn, true);\r\n }\r\n break;\r\n }\r\n default: {\r\n\r\n // handle plain exports\r\n if (flags & CommonFlags.EXPORT) {\r\n statement = this.parseExport(tn, startPos, (flags & CommonFlags.DECLARE) != 0);\r\n\r\n // handle non-declaration statements\r\n } else {\r\n if (exportEnd) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(exportStart, exportEnd), \"export\"\r\n ); // recoverable\r\n }\r\n if (declareEnd) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(declareStart, declareEnd), \"declare\"\r\n ); // recoverable\r\n }\r\n if (!namespace) {\r\n statement = this.parseStatement(tn, true);\r\n } // TODO: else?\r\n }\r\n break;\r\n }\r\n }\r\n\r\n // check for decorators that weren't consumed\r\n if (decorators) {\r\n for (let i = 0, k = decorators.length; i < k; ++i) {\r\n this.error(\r\n DiagnosticCode.Decorators_are_not_valid_here,\r\n decorators[i].range\r\n );\r\n }\r\n }\r\n return statement;\r\n }\r\n\r\n /** Obtains the next file to parse. */\r\n nextFile(): string | null {\r\n var backlog = this.backlog;\r\n return backlog.length ? backlog.shift() : null;\r\n }\r\n\r\n /** Finishes parsing and returns the program. */\r\n finish(): Program {\r\n if (this.backlog.length) throw new Error(\"backlog is not empty\");\r\n this.backlog = [];\r\n this.seenlog.clear();\r\n this.donelog.clear();\r\n return this.program;\r\n }\r\n\r\n /** Parses a type. */\r\n parseType(\r\n tn: Tokenizer,\r\n acceptParenthesized: bool = true,\r\n suppressErrors: bool = false\r\n ): CommonTypeNode | null {\r\n\r\n // NOTE: this parses our limited subset\r\n var token = tn.next();\r\n var startPos = tn.tokenPos;\r\n\r\n var type: CommonTypeNode;\r\n\r\n // '(' ...\r\n if (token == Token.OPENPAREN) {\r\n\r\n // '(' FunctionSignature ')' '|' 'null'?\r\n let isNullableSignature = tn.skip(Token.OPENPAREN);\r\n // FunctionSignature?\r\n let signature = this.tryParseSignature(tn);\r\n if (signature) {\r\n if (isNullableSignature) {\r\n if (!tn.skip(Token.CLOSEPAREN)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n return null;\r\n }\r\n if (!tn.skip(Token.BAR)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"|\"\r\n );\r\n return null;\r\n }\r\n if (!tn.skip(Token.NULL)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"null\"\r\n );\r\n }\r\n signature.isNullable = true;\r\n }\r\n return signature;\r\n } else if (isNullableSignature || this.tryParseSignatureIsSignature) {\r\n this.error(\r\n DiagnosticCode.Unexpected_token,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n\r\n // Type (',' Type)* ')'\r\n if (acceptParenthesized) {\r\n let innerType = this.parseType(tn, false, suppressErrors);\r\n if (!innerType) return null;\r\n if (!tn.skip(Token.CLOSEPAREN)) {\r\n if (!suppressErrors) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(tn.pos), \"}\"\r\n );\r\n }\r\n return null;\r\n }\r\n type = innerType;\r\n type.range.start = startPos;\r\n type.range.end = tn.pos;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Unexpected_token,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n\r\n // 'void'\r\n } else if (token == Token.VOID) {\r\n type = Node.createType(\r\n Node.createSimpleTypeName(\"void\", tn.range()), [], false, tn.range(startPos, tn.pos)\r\n );\r\n\r\n // 'this'\r\n } else if (token == Token.THIS) {\r\n type = Node.createType(\r\n Node.createSimpleTypeName(\"this\", tn.range()), [], false, tn.range(startPos, tn.pos)\r\n );\r\n\r\n // 'true'\r\n } else if (token == Token.TRUE || token == Token.FALSE) {\r\n type = Node.createType(\r\n Node.createSimpleTypeName(\"bool\", tn.range()), [], false, tn.range(startPos, tn.pos)\r\n );\r\n\r\n // StringLiteral\r\n } else if (token == Token.STRINGLITERAL) {\r\n tn.readString();\r\n type = Node.createType(\r\n Node.createSimpleTypeName(\"string\", tn.range()), [], false, tn.range(startPos, tn.pos)\r\n );\r\n\r\n // Identifier\r\n } else if (token == Token.IDENTIFIER) {\r\n let first = Node.createSimpleTypeName(tn.readIdentifier(), tn.range());\r\n let current = first;\r\n let parameters = new Array();\r\n let nullable = false;\r\n\r\n // Identifier ('.' Identifier)+\r\n while (tn.skip(Token.DOT)) {\r\n if (tn.skip(Token.IDENTIFIER)) {\r\n let next = Node.createSimpleTypeName(tn.readIdentifier(), tn.range());\r\n current.next = next;\r\n current = next;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range(tn.pos)\r\n );\r\n return null;\r\n }\r\n }\r\n\r\n // Name\r\n if (tn.skip(Token.LESSTHAN)) {\r\n do {\r\n let parameter = this.parseType(tn, true, suppressErrors);\r\n if (!parameter) return null;\r\n parameters.push(parameter);\r\n } while (tn.skip(Token.COMMA));\r\n if (!tn.skip(Token.GREATERTHAN)) {\r\n if (!suppressErrors) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(tn.pos), \">\"\r\n );\r\n }\r\n return null;\r\n }\r\n }\r\n // ... | null\r\n while (tn.skip(Token.BAR)) {\r\n if (tn.skip(Token.NULL)) {\r\n nullable = true;\r\n } else {\r\n if (!suppressErrors) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(tn.pos), \"null\"\r\n );\r\n }\r\n return null;\r\n }\r\n }\r\n type = Node.createType(first, parameters, nullable, tn.range(startPos, tn.pos));\r\n\r\n } else {\r\n if (!suppressErrors) {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n // ... [][]\r\n while (tn.skip(Token.OPENBRACKET)) {\r\n let bracketStart = tn.tokenPos;\r\n if (!tn.skip(Token.CLOSEBRACKET)) {\r\n if (!suppressErrors) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"]\"\r\n );\r\n }\r\n return null;\r\n }\r\n let bracketRange = tn.range(bracketStart, tn.pos);\r\n\r\n // ...[] | null\r\n let nullable = false;\r\n if (tn.skip(Token.BAR)) {\r\n if (tn.skip(Token.NULL)) {\r\n nullable = true;\r\n } else {\r\n if (!suppressErrors) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"null\"\r\n );\r\n }\r\n return null;\r\n }\r\n }\r\n type = Node.createType(\r\n Node.createSimpleTypeName(\"Array\", bracketRange),\r\n [ type ],\r\n nullable,\r\n tn.range(startPos, tn.pos)\r\n );\r\n if (nullable) break;\r\n }\r\n\r\n return type;\r\n }\r\n\r\n // Indicates whether tryParseSignature determined that it is handling a Signature\r\n private tryParseSignatureIsSignature: bool = false;\r\n\r\n /** Parses a function signature, as used in type declarations. */\r\n tryParseSignature(\r\n tn: Tokenizer\r\n ): SignatureNode | null {\r\n\r\n // at '(': ('...'? Identifier '?'? ':' Type (',' '...'? Identifier '?'? ':' Type)* )? ')' '=>' Type\r\n\r\n var state = tn.mark();\r\n var startPos = tn.tokenPos;\r\n var parameters: ParameterNode[] | null = null;\r\n var thisType: TypeNode | null = null;\r\n var isSignature: bool = false;\r\n\r\n if (tn.skip(Token.CLOSEPAREN)) {\r\n isSignature = true;\r\n tn.discard(state);\r\n parameters = [];\r\n\r\n } else {\r\n isSignature = false; // not yet known\r\n do {\r\n let kind = ParameterKind.DEFAULT;\r\n if (tn.skip(Token.DOT_DOT_DOT)) {\r\n isSignature = true;\r\n tn.discard(state);\r\n kind = ParameterKind.REST;\r\n }\r\n if (tn.skip(Token.THIS)) {\r\n if (tn.skip(Token.COLON)) {\r\n isSignature = true;\r\n tn.discard(state);\r\n let t = this.parseType(tn, false);\r\n if (!t) return null;\r\n if (t.kind != NodeKind.TYPE) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n t.range\r\n );\r\n this.tryParseSignatureIsSignature = true;\r\n return null;\r\n }\r\n thisType = t;\r\n } else {\r\n tn.reset(state);\r\n this.tryParseSignatureIsSignature = false;\r\n return null;\r\n }\r\n } else if (tn.skipIdentifier()) {\r\n let name = Node.createIdentifierExpression(tn.readIdentifier(), tn.range(tn.tokenPos, tn.pos));\r\n if (tn.skip(Token.QUESTION)) {\r\n isSignature = true;\r\n tn.discard(state);\r\n if (kind == ParameterKind.REST) {\r\n this.error(\r\n DiagnosticCode.A_rest_parameter_cannot_be_optional,\r\n tn.range()\r\n ); // recoverable\r\n } else {\r\n kind = ParameterKind.OPTIONAL;\r\n }\r\n }\r\n if (tn.skip(Token.COLON)) {\r\n isSignature = true;\r\n tn.discard(state);\r\n let type = this.parseType(tn); // not suppressing errors because known\r\n if (!type) {\r\n this.tryParseSignatureIsSignature = isSignature;\r\n return null;\r\n }\r\n let param = new ParameterNode();\r\n param.parameterKind = kind;\r\n param.name = name;\r\n param.type = type;\r\n if (!parameters) parameters = [ param ];\r\n else parameters.push(param);\r\n } else {\r\n if (isSignature) {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n tn.range()\r\n ); // recoverable\r\n }\r\n }\r\n } else {\r\n if (isSignature) {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n } else {\r\n tn.reset(state);\r\n }\r\n this.tryParseSignatureIsSignature = isSignature;\r\n return null;\r\n }\r\n } while (tn.skip(Token.COMMA));\r\n if (!tn.skip(Token.CLOSEPAREN)) {\r\n if (isSignature) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n } else {\r\n tn.reset(state);\r\n }\r\n this.tryParseSignatureIsSignature = isSignature;\r\n return null;\r\n }\r\n }\r\n\r\n var returnType: CommonTypeNode | null;\r\n if (tn.skip(Token.EQUALS_GREATERTHAN)) {\r\n isSignature = true;\r\n tn.discard(state);\r\n returnType = this.parseType(tn);\r\n if (!returnType) {\r\n this.tryParseSignatureIsSignature = isSignature;\r\n return null;\r\n }\r\n } else {\r\n if (isSignature) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"=>\"\r\n );\r\n } else {\r\n tn.reset(state);\r\n }\r\n this.tryParseSignatureIsSignature = isSignature;\r\n return null;\r\n }\r\n this.tryParseSignatureIsSignature = true;\r\n return Node.createSignature(\r\n parameters || [],\r\n returnType,\r\n thisType,\r\n false,\r\n tn.range(startPos, tn.pos)\r\n );\r\n }\r\n\r\n // statements\r\n\r\n parseDecorator(\r\n tn: Tokenizer\r\n ): DecoratorNode | null {\r\n\r\n // at '@': Identifier ('.' Identifier)* '(' Arguments\r\n\r\n var startPos = tn.tokenPos;\r\n if (tn.skipIdentifier()) {\r\n let name = tn.readIdentifier();\r\n let expression: Expression = Node.createIdentifierExpression(name, tn.range(startPos, tn.pos));\r\n while (tn.skip(Token.DOT)) {\r\n if (tn.skipIdentifier()) {\r\n name = tn.readIdentifier();\r\n expression = Node.createPropertyAccessExpression(\r\n expression,\r\n Node.createIdentifierExpression(name, tn.range()),\r\n tn.range(startPos, tn.pos)\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n }\r\n let args: Expression[] | null;\r\n if (tn.skip(Token.OPENPAREN)) {\r\n args = this.parseArguments(tn);\r\n if (args) {\r\n return Node.createDecorator(expression, args, tn.range(startPos, tn.pos));\r\n }\r\n } else {\r\n return Node.createDecorator(expression, null, tn.range(startPos, tn.pos));\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseVariable(\r\n tn: Tokenizer,\r\n flags: CommonFlags,\r\n decorators: DecoratorNode[] | null,\r\n startPos: i32\r\n ): VariableStatement | null {\r\n\r\n // at ('const' | 'let' | 'var'): VariableDeclaration (',' VariableDeclaration)* ';'?\r\n\r\n var members = new Array();\r\n do {\r\n let member = this.parseVariableDeclaration(tn, flags, decorators);\r\n if (!member) return null;\r\n members.push(member);\r\n } while (tn.skip(Token.COMMA));\r\n\r\n var ret = Node.createVariableStatement(members, decorators, tn.range(startPos, tn.pos));\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n }\r\n\r\n parseVariableDeclaration(\r\n tn: Tokenizer,\r\n parentFlags: CommonFlags,\r\n parentDecorators: DecoratorNode[] | null\r\n ): VariableDeclaration | null {\r\n\r\n // before: Identifier (':' Type)? ('=' Expression)?\r\n\r\n if (!tn.skipIdentifier()) {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n var identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n var flags = parentFlags;\r\n if (tn.skip(Token.EXCLAMATION)) {\r\n flags |= CommonFlags.DEFINITE_ASSIGNMENT;\r\n }\r\n\r\n var type: CommonTypeNode | null = null;\r\n if (tn.skip(Token.COLON)) {\r\n type = this.parseType(tn);\r\n }\r\n\r\n var initializer: Expression | null = null;\r\n if (tn.skip(Token.EQUALS)) {\r\n if (flags & CommonFlags.AMBIENT) {\r\n this.error(\r\n DiagnosticCode.Initializers_are_not_allowed_in_ambient_contexts,\r\n tn.range()\r\n ); // recoverable\r\n }\r\n initializer = this.parseExpression(tn, Precedence.COMMA + 1);\r\n if (!initializer) return null;\r\n } else {\r\n if (flags & CommonFlags.CONST) {\r\n if (!(flags & CommonFlags.AMBIENT)) {\r\n this.error(\r\n DiagnosticCode._const_declarations_must_be_initialized,\r\n identifier.range\r\n ); // recoverable\r\n }\r\n } else if (!type) { // neither type nor initializer\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n tn.range(tn.pos)\r\n ); // recoverable\r\n }\r\n }\r\n var range = Range.join(identifier.range, tn.range());\r\n if ((flags & CommonFlags.DEFINITE_ASSIGNMENT) && initializer) {\r\n this.error(\r\n DiagnosticCode.A_definite_assignment_assertion_is_not_permitted_in_this_context,\r\n range);\r\n }\r\n return Node.createVariableDeclaration(\r\n identifier,\r\n type,\r\n initializer,\r\n parentDecorators,\r\n flags,\r\n range\r\n );\r\n }\r\n\r\n parseEnum(\r\n tn: Tokenizer,\r\n flags: CommonFlags,\r\n decorators: DecoratorNode[] | null,\r\n startPos: i32\r\n ): EnumDeclaration | null {\r\n\r\n // at 'enum': Identifier '{' (EnumValueDeclaration (',' EnumValueDeclaration )*)? '}' ';'?\r\n\r\n if (tn.next() != Token.IDENTIFIER) {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n var identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n if (tn.next() != Token.OPENBRACE) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"{\"\r\n );\r\n return null;\r\n }\r\n var members = new Array();\r\n while (!tn.skip(Token.CLOSEBRACE)) {\r\n let member = this.parseEnumValue(tn, CommonFlags.NONE);\r\n if (!member) return null;\r\n members.push(member);\r\n if (!tn.skip(Token.COMMA)) {\r\n if (tn.skip(Token.CLOSEBRACE)) {\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"}\"\r\n );\r\n return null;\r\n }\r\n }\r\n }\r\n var ret = Node.createEnumDeclaration(\r\n identifier,\r\n members,\r\n decorators,\r\n flags,\r\n tn.range(startPos, tn.pos)\r\n );\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n }\r\n\r\n parseEnumValue(\r\n tn: Tokenizer,\r\n parentFlags: CommonFlags\r\n ): EnumValueDeclaration | null {\r\n\r\n // before: Identifier ('=' Expression)?\r\n\r\n if (!tn.skipIdentifier()) {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n var identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n var value: Expression | null = null;\r\n if (tn.skip(Token.EQUALS)) {\r\n value = this.parseExpression(tn, Precedence.COMMA + 1);\r\n if (!value) return null;\r\n }\r\n return Node.createEnumValueDeclaration(\r\n identifier,\r\n value,\r\n parentFlags,\r\n Range.join(identifier.range, tn.range())\r\n );\r\n }\r\n\r\n parseReturn(\r\n tn: Tokenizer\r\n ): ReturnStatement | null {\r\n\r\n // at 'return': Expression | (';' | '}' | ...'\\n')\r\n\r\n var expr: Expression | null = null;\r\n if (\r\n tn.peek(true) != Token.SEMICOLON &&\r\n tn.nextToken != Token.CLOSEBRACE &&\r\n !tn.nextTokenOnNewLine\r\n ) {\r\n if (!(expr = this.parseExpression(tn))) return null;\r\n }\r\n\r\n var ret = Node.createReturnStatement(expr, tn.range());\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n }\r\n\r\n parseTypeParameters(\r\n tn: Tokenizer\r\n ): TypeParameterNode[] | null {\r\n\r\n // at '<': TypeParameter (',' TypeParameter)* '>'\r\n\r\n var typeParameters = new Array();\r\n var seenOptional = false;\r\n while (!tn.skip(Token.GREATERTHAN)) {\r\n let typeParameter = this.parseTypeParameter(tn);\r\n if (!typeParameter) return null;\r\n if (typeParameter.defaultType !== null) {\r\n seenOptional = true;\r\n } else if (seenOptional) {\r\n this.error(\r\n DiagnosticCode.Required_type_parameters_may_not_follow_optional_type_parameters,\r\n typeParameter.range\r\n );\r\n typeParameter.defaultType = null;\r\n }\r\n typeParameters.push(typeParameter);\r\n if (!tn.skip(Token.COMMA)) {\r\n if (tn.skip(Token.GREATERTHAN)) {\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \">\"\r\n );\r\n return null;\r\n }\r\n }\r\n }\r\n if (typeParameters.length === 0) {\r\n this.error(\r\n DiagnosticCode.Type_parameter_list_cannot_be_empty,\r\n tn.range()\r\n ); // recoverable\r\n }\r\n return typeParameters;\r\n }\r\n\r\n parseTypeParameter(\r\n tn: Tokenizer\r\n ): TypeParameterNode | null {\r\n\r\n // before: Identifier ('extends' Type)? ('=' Type)?\r\n\r\n if (tn.next() == Token.IDENTIFIER) {\r\n let identifier = Node.createIdentifierExpression(\r\n tn.readIdentifier(),\r\n tn.range()\r\n );\r\n let extendsType: TypeNode | null = null;\r\n if (tn.skip(Token.EXTENDS)) {\r\n let t = this.parseType(tn);\r\n if (!t) return null;\r\n if (t.kind != NodeKind.TYPE) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n t.range\r\n );\r\n return null;\r\n }\r\n extendsType = t;\r\n }\r\n let defaultType: TypeNode | null = null;\r\n if (tn.skip(Token.EQUALS)) {\r\n let t = this.parseType(tn);\r\n if (!t) return null;\r\n if (t.kind != NodeKind.TYPE) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n t.range\r\n );\r\n return null;\r\n }\r\n defaultType = t;\r\n }\r\n return Node.createTypeParameter(\r\n identifier,\r\n extendsType,\r\n defaultType,\r\n Range.join(identifier.range, tn.range())\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n private parseParametersThis: TypeNode | null = null;\r\n\r\n parseParameters(\r\n tn: Tokenizer,\r\n isConstructor: bool = false\r\n ): ParameterNode[] | null {\r\n\r\n // at '(': (Parameter (',' Parameter)*)? ')'\r\n\r\n var parameters = new Array();\r\n var seenRest: ParameterNode | null = null;\r\n var seenOptional = false;\r\n var reportedRest = false;\r\n var thisType: CommonTypeNode | null = null;\r\n\r\n // check if there is a leading `this` parameter\r\n this.parseParametersThis = null;\r\n if (tn.skip(Token.THIS)) {\r\n if (tn.skip(Token.COLON)) {\r\n thisType = this.parseType(tn); // reports\r\n if (!thisType) return null;\r\n if (thisType.kind == NodeKind.TYPE) {\r\n this.parseParametersThis = thisType;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n thisType.range\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \":\"\r\n );\r\n return null;\r\n }\r\n if (!tn.skip(Token.COMMA)) {\r\n if (tn.skip(Token.CLOSEPAREN)) {\r\n return parameters;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n return null;\r\n }\r\n }\r\n }\r\n\r\n while (!tn.skip(Token.CLOSEPAREN)) {\r\n let param = this.parseParameter(tn, isConstructor); // reports\r\n if (!param) return null;\r\n if (seenRest && !reportedRest) {\r\n this.error(\r\n DiagnosticCode.A_rest_parameter_must_be_last_in_a_parameter_list,\r\n seenRest.name.range\r\n );\r\n reportedRest = true;\r\n }\r\n switch (param.parameterKind) {\r\n default: {\r\n if (seenOptional) {\r\n this.error(\r\n DiagnosticCode.A_required_parameter_cannot_follow_an_optional_parameter,\r\n param.name.range\r\n );\r\n }\r\n break;\r\n }\r\n case ParameterKind.OPTIONAL: {\r\n seenOptional = true;\r\n break;\r\n }\r\n case ParameterKind.REST: {\r\n seenRest = param;\r\n break;\r\n }\r\n }\r\n parameters.push(param);\r\n if (!tn.skip(Token.COMMA)) {\r\n if (tn.skip(Token.CLOSEPAREN)) {\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n return null;\r\n }\r\n }\r\n }\r\n return parameters;\r\n }\r\n\r\n parseParameter(\r\n tn: Tokenizer,\r\n isConstructor: bool = false\r\n ): ParameterNode | null {\r\n\r\n // before: ('public' | 'private' | 'protected' | '...')? Identifier '?'? (':' Type)? ('=' Expression)?\r\n\r\n var isRest = false;\r\n var isOptional = false;\r\n var startRange: Range | null = null;\r\n var accessFlags: CommonFlags = CommonFlags.NONE;\r\n if (isConstructor) {\r\n if (tn.skip(Token.PUBLIC)) {\r\n startRange = tn.range();\r\n accessFlags |= CommonFlags.PUBLIC;\r\n } else if (tn.skip(Token.PROTECTED)) {\r\n startRange = tn.range();\r\n accessFlags |= CommonFlags.PROTECTED;\r\n } else if (tn.skip(Token.PRIVATE)) {\r\n startRange = tn.range();\r\n accessFlags |= CommonFlags.PRIVATE;\r\n }\r\n if (tn.peek() == Token.READONLY) {\r\n let state = tn.mark();\r\n tn.next();\r\n if (tn.peek() != Token.COLON) { // modifier\r\n tn.discard(state);\r\n if (!startRange) startRange = tn.range();\r\n accessFlags |= CommonFlags.READONLY;\r\n } else { // identifier\r\n tn.reset(state);\r\n }\r\n }\r\n }\r\n if (tn.skip(Token.DOT_DOT_DOT)) {\r\n if (accessFlags) {\r\n this.error(\r\n DiagnosticCode.A_parameter_property_cannot_be_declared_using_a_rest_parameter,\r\n tn.range()\r\n );\r\n } else {\r\n startRange = tn.range();\r\n }\r\n isRest = true;\r\n }\r\n if (tn.skipIdentifier()) {\r\n if (!isRest) startRange = tn.range();\r\n let identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n let type: CommonTypeNode | null = null;\r\n if (isOptional = tn.skip(Token.QUESTION)) {\r\n if (isRest) {\r\n this.error(\r\n DiagnosticCode.A_rest_parameter_cannot_be_optional,\r\n identifier.range\r\n );\r\n }\r\n }\r\n if (tn.skip(Token.COLON)) {\r\n type = this.parseType(tn);\r\n if (!type) return null;\r\n } else {\r\n type = Node.createOmittedType(tn.range(tn.pos));\r\n }\r\n let initializer: Expression | null = null;\r\n if (tn.skip(Token.EQUALS)) {\r\n if (isRest) {\r\n this.error(\r\n DiagnosticCode.A_rest_parameter_cannot_have_an_initializer,\r\n identifier.range\r\n );\r\n }\r\n if (isOptional) {\r\n this.error(\r\n DiagnosticCode.Parameter_cannot_have_question_mark_and_initializer,\r\n identifier.range\r\n );\r\n } else {\r\n isOptional = true;\r\n }\r\n initializer = this.parseExpression(tn, Precedence.COMMA + 1);\r\n if (!initializer) return null;\r\n }\r\n let param = Node.createParameter(\r\n identifier,\r\n type,\r\n initializer,\r\n isRest\r\n ? ParameterKind.REST\r\n : isOptional\r\n ? ParameterKind.OPTIONAL\r\n : ParameterKind.DEFAULT,\r\n Range.join(startRange, tn.range())\r\n );\r\n param.flags |= accessFlags;\r\n return param;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseFunction(\r\n tn: Tokenizer,\r\n flags: CommonFlags,\r\n decorators: DecoratorNode[] | null,\r\n startPos: i32\r\n ): FunctionDeclaration | null {\r\n\r\n // at 'function':\r\n // Identifier\r\n // ('<' TypeParameters)?\r\n // '(' Parameters (':' Type)?\r\n // '{' Statement* '}'\r\n // ';'?\r\n\r\n if (!tn.skipIdentifier()) {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range(tn.pos)\r\n );\r\n return null;\r\n }\r\n\r\n var name = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n var signatureStart: i32 = -1;\r\n\r\n var typeParameters: TypeParameterNode[] | null = null;\r\n if (tn.skip(Token.LESSTHAN)) {\r\n signatureStart = tn.tokenPos;\r\n typeParameters = this.parseTypeParameters(tn);\r\n if (!typeParameters) return null;\r\n flags |= CommonFlags.GENERIC;\r\n }\r\n\r\n if (!tn.skip(Token.OPENPAREN)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(tn.pos), \"(\"\r\n );\r\n return null;\r\n }\r\n\r\n if (signatureStart < 0) {\r\n signatureStart = tn.tokenPos;\r\n }\r\n\r\n var parameters = this.parseParameters(tn);\r\n if (!parameters) return null;\r\n var thisType = this.parseParametersThis;\r\n\r\n var isSetter = (flags & CommonFlags.SET) != 0;\r\n if (isSetter) {\r\n if (parameters.length != 1) {\r\n this.error(\r\n DiagnosticCode.A_set_accessor_must_have_exactly_one_parameter,\r\n name.range\r\n ); // recoverable\r\n }\r\n if (parameters.length && parameters[0].initializer) {\r\n this.error(\r\n DiagnosticCode.A_set_accessor_parameter_cannot_have_an_initializer,\r\n name.range\r\n ); // recoverable\r\n }\r\n }\r\n\r\n if (flags & CommonFlags.GET) {\r\n if (parameters.length) {\r\n this.error(\r\n DiagnosticCode.A_get_accessor_cannot_have_parameters,\r\n name.range\r\n ); // recoverable\r\n }\r\n }\r\n\r\n var returnType: CommonTypeNode | null = null;\r\n if (tn.skip(Token.COLON)) {\r\n returnType = this.parseType(tn, true, isSetter);\r\n if (!returnType) return null;\r\n }\r\n\r\n if (!returnType) {\r\n returnType = Node.createOmittedType(\r\n tn.range(tn.pos)\r\n );\r\n if (!isSetter) {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n returnType.range\r\n ); // recoverable\r\n }\r\n }\r\n\r\n var signature = Node.createSignature(\r\n parameters,\r\n returnType,\r\n thisType,\r\n false,\r\n tn.range(signatureStart, tn.pos)\r\n );\r\n\r\n var body: Statement | null = null;\r\n if (tn.skip(Token.OPENBRACE)) {\r\n if (flags & CommonFlags.AMBIENT) {\r\n this.error(\r\n DiagnosticCode.An_implementation_cannot_be_declared_in_ambient_contexts,\r\n tn.range()\r\n ); // recoverable\r\n }\r\n\r\n body = this.parseBlockStatement(tn, false);\r\n if (!body) return null;\r\n } else if (!(flags & CommonFlags.AMBIENT)) {\r\n this.error(\r\n DiagnosticCode.Function_implementation_is_missing_or_not_immediately_following_the_declaration,\r\n tn.range(tn.pos)\r\n );\r\n }\r\n\r\n var ret = Node.createFunctionDeclaration(\r\n name,\r\n typeParameters,\r\n signature,\r\n body,\r\n decorators,\r\n flags,\r\n ArrowKind.NONE,\r\n tn.range(startPos, tn.pos)\r\n );\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n }\r\n\r\n parseFunctionExpression(tn: Tokenizer): FunctionExpression | null {\r\n var startPos = tn.tokenPos;\r\n var name: IdentifierExpression;\r\n var arrowKind = ArrowKind.NONE;\r\n\r\n // either at 'function':\r\n // Identifier?\r\n // '(' Parameters (':' Type)?\r\n // Statement\r\n\r\n if (tn.token == Token.FUNCTION) {\r\n if (tn.skipIdentifier()) {\r\n name = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n } else { // empty name\r\n name = Node.createEmptyIdentifierExpression(tn.range(tn.pos));\r\n }\r\n if (!tn.skip(Token.OPENPAREN)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(tn.pos), \"(\"\r\n );\r\n return null;\r\n }\r\n\r\n // or at '(' of arrow function:\r\n // Parameters (':' Type)?\r\n // Statement\r\n\r\n } else {\r\n arrowKind = ArrowKind.ARROW_PARENTHESIZED;\r\n assert(tn.token == Token.OPENPAREN);\r\n name = Node.createEmptyIdentifierExpression(tn.range(tn.tokenPos));\r\n }\r\n\r\n // TODO: type parameters? doesn't seem worth it.\r\n\r\n var signatureStart = tn.pos;\r\n var parameters = this.parseParameters(tn);\r\n if (!parameters) return null;\r\n\r\n return this.parseFunctionExpressionCommon(tn, name, parameters, arrowKind, startPos, signatureStart);\r\n }\r\n\r\n private parseFunctionExpressionCommon(\r\n tn: Tokenizer,\r\n name: IdentifierExpression,\r\n parameters: ParameterNode[],\r\n arrowKind: ArrowKind,\r\n startPos: i32 = -1,\r\n signatureStart: i32 = -1\r\n ): FunctionExpression | null {\r\n if (startPos < 0) startPos = name.range.start;\r\n if (signatureStart < 0) signatureStart = startPos;\r\n\r\n var returnType: CommonTypeNode | null = null;\r\n if (arrowKind != ArrowKind.ARROW_SINGLE && tn.skip(Token.COLON)) {\r\n returnType = this.parseType(tn);\r\n if (!returnType) return null;\r\n } else {\r\n returnType = Node.createOmittedType(tn.range(tn.pos));\r\n }\r\n\r\n if (arrowKind) {\r\n if (!tn.skip(Token.EQUALS_GREATERTHAN)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(tn.pos), \"=>\"\r\n );\r\n return null;\r\n }\r\n }\r\n\r\n var signature = Node.createSignature(\r\n parameters,\r\n returnType,\r\n null, // TODO?\r\n false,\r\n tn.range(signatureStart, tn.pos)\r\n );\r\n\r\n var body: Statement | null;\r\n if (arrowKind) {\r\n body = this.parseStatement(tn, false);\r\n } else {\r\n if (!tn.skip(Token.OPENBRACE)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(tn.pos), \"{\"\r\n );\r\n return null;\r\n }\r\n body = this.parseBlockStatement(tn, false);\r\n }\r\n if (!body) return null;\r\n\r\n var declaration = Node.createFunctionDeclaration(\r\n name,\r\n null,\r\n signature,\r\n body,\r\n null,\r\n CommonFlags.NONE,\r\n arrowKind,\r\n tn.range(startPos, tn.pos)\r\n );\r\n return Node.createFunctionExpression(declaration);\r\n }\r\n\r\n parseClassOrInterface(\r\n tn: Tokenizer,\r\n flags: CommonFlags,\r\n decorators: DecoratorNode[] | null,\r\n startPos: i32\r\n ): ClassDeclaration | null {\r\n\r\n // at ('class' | 'interface'):\r\n // Identifier\r\n // ('<' TypeParameters)?\r\n // ('extends' Type)?\r\n // ('implements' Type (',' Type)*)?\r\n // '{' ClassMember* '}'\r\n\r\n var isInterface = tn.token == Token.INTERFACE;\r\n\r\n if (!tn.skipIdentifier()) {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n\r\n var identifier = Node.createIdentifierExpression(\r\n tn.readIdentifier(),\r\n tn.range()\r\n );\r\n\r\n var typeParameters: TypeParameterNode[] | null = null;\r\n if (tn.skip(Token.LESSTHAN)) {\r\n typeParameters = this.parseTypeParameters(tn);\r\n if (!typeParameters) return null;\r\n flags |= CommonFlags.GENERIC;\r\n }\r\n\r\n var extendsType: TypeNode | null = null;\r\n if (tn.skip(Token.EXTENDS)) {\r\n let t = this.parseType(tn);\r\n if (!t) return null;\r\n if (t.kind != NodeKind.TYPE) {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n t.range\r\n );\r\n return null;\r\n }\r\n extendsType = t;\r\n }\r\n\r\n var implementsTypes: TypeNode[] | null = null;\r\n if (tn.skip(Token.IMPLEMENTS)) {\r\n if (isInterface) {\r\n this.error(\r\n DiagnosticCode.Interface_declaration_cannot_have_implements_clause,\r\n tn.range()\r\n ); // recoverable\r\n }\r\n do {\r\n let type = this.parseType(tn);\r\n if (!type) return null;\r\n if (!isInterface) {\r\n if (!implementsTypes) implementsTypes = [];\r\n implementsTypes.push(type);\r\n }\r\n } while (tn.skip(Token.COMMA));\r\n }\r\n\r\n if (!tn.skip(Token.OPENBRACE)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"{\"\r\n );\r\n return null;\r\n }\r\n\r\n var members = new Array();\r\n var declaration: ClassDeclaration;\r\n if (isInterface) {\r\n assert(!implementsTypes);\r\n declaration = Node.createInterfaceDeclaration(\r\n identifier,\r\n typeParameters,\r\n extendsType,\r\n members,\r\n decorators,\r\n flags,\r\n tn.range(startPos, tn.pos)\r\n );\r\n } else {\r\n declaration = Node.createClassDeclaration(\r\n identifier,\r\n typeParameters,\r\n extendsType,\r\n implementsTypes,\r\n members,\r\n decorators,\r\n flags,\r\n tn.range(startPos, tn.pos)\r\n );\r\n }\r\n if (!tn.skip(Token.CLOSEBRACE)) {\r\n do {\r\n let member = this.parseClassMember(tn, declaration);\r\n if (member) members.push(member);\r\n } while (!tn.skip(Token.CLOSEBRACE));\r\n }\r\n return declaration;\r\n }\r\n\r\n parseClassExpression(tn: Tokenizer): ClassExpression | null {\r\n\r\n // at 'class': Identifier? '{' ... '}'\r\n\r\n var startPos = tn.tokenPos;\r\n var name: IdentifierExpression;\r\n\r\n if (tn.skipIdentifier()) {\r\n name = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n } else {\r\n name = Node.createEmptyIdentifierExpression(tn.range(tn.pos));\r\n }\r\n\r\n if (!tn.skip(Token.OPENBRACE)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(tn.pos), \"{\"\r\n );\r\n return null;\r\n }\r\n\r\n var members = new Array();\r\n var declaration = Node.createClassDeclaration(\r\n name,\r\n [],\r\n null,\r\n null,\r\n members,\r\n null,\r\n CommonFlags.NONE,\r\n tn.range(startPos, tn.pos)\r\n );\r\n if (!tn.skip(Token.CLOSEBRACE)) {\r\n do {\r\n let member = this.parseClassMember(tn, declaration);\r\n if (member) members.push(member);\r\n } while (!tn.skip(Token.CLOSEBRACE));\r\n }\r\n return Node.createClassExpression(declaration);\r\n }\r\n\r\n parseClassMember(\r\n tn: Tokenizer,\r\n parent: ClassDeclaration\r\n ): DeclarationStatement | null {\r\n\r\n // before:\r\n // ('public' | 'private' | 'protected')?\r\n // ('static' | 'abstract')?\r\n // 'readonly'?\r\n // ('get' | 'set')?\r\n // Identifier ...\r\n\r\n var startPos = tn.pos;\r\n var isInterface = parent.kind == NodeKind.INTERFACEDECLARATION;\r\n\r\n var decorators = new Array();\r\n if (tn.skip(Token.AT)) {\r\n do {\r\n let decorator = this.parseDecorator(tn);\r\n if (!decorator) break;\r\n decorators.push(decorator);\r\n } while (tn.skip(Token.AT));\r\n if (isInterface) {\r\n this.error(\r\n DiagnosticCode.Decorators_are_not_valid_here,\r\n Range.join(decorators[0].range, decorators[decorators.length - 1].range)\r\n );\r\n }\r\n }\r\n\r\n // inherit ambient status\r\n var flags = parent.flags & CommonFlags.AMBIENT;\r\n\r\n // implemented methods are virtual\r\n if (isInterface) flags |= CommonFlags.VIRTUAL;\r\n\r\n var accessStart = 0;\r\n var accessEnd = 0;\r\n if (tn.skip(Token.PUBLIC)) {\r\n if (isInterface) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(), \"public\"\r\n );\r\n }\r\n flags |= CommonFlags.PUBLIC;\r\n accessStart = tn.tokenPos;\r\n accessEnd = tn.pos;\r\n } else if (tn.skip(Token.PRIVATE)) {\r\n if (isInterface) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(), \"private\"\r\n );\r\n }\r\n flags |= CommonFlags.PRIVATE;\r\n accessStart = tn.tokenPos;\r\n accessEnd = tn.pos;\r\n } else if (tn.skip(Token.PROTECTED)) {\r\n if (isInterface) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(), \"protected\"\r\n );\r\n }\r\n flags |= CommonFlags.PROTECTED;\r\n accessStart = tn.tokenPos;\r\n accessEnd = tn.pos;\r\n }\r\n\r\n var staticStart = 0;\r\n var staticEnd = 0;\r\n var abstractStart = 0;\r\n var abstractEnd = 0;\r\n if (tn.skip(Token.STATIC)) {\r\n if (isInterface) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(), \"static\"\r\n );\r\n }\r\n flags |= CommonFlags.STATIC;\r\n staticStart = tn.tokenPos;\r\n staticEnd = tn.pos;\r\n } else {\r\n flags |= CommonFlags.INSTANCE;\r\n if (tn.skip(Token.ABSTRACT)) {\r\n if (isInterface) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(), \"abstract\"\r\n );\r\n }\r\n flags |= CommonFlags.ABSTRACT;\r\n abstractStart = tn.tokenPos;\r\n abstractEnd = tn.pos;\r\n }\r\n if (parent.flags & CommonFlags.GENERIC) flags |= CommonFlags.GENERIC_CONTEXT;\r\n }\r\n\r\n var readonlyStart: i32 = 0;\r\n var readonlyEnd: i32 = 0;\r\n if (tn.skip(Token.READONLY)) {\r\n flags |= CommonFlags.READONLY;\r\n readonlyStart = tn.tokenPos;\r\n readonlyEnd = tn.pos;\r\n }\r\n\r\n // check if accessor: ('get' | 'set') ^\\n Identifier\r\n var state = tn.mark();\r\n var isConstructor = false;\r\n var isGetter = false;\r\n var getStart: i32 = 0;\r\n var getEnd: i32 = 0;\r\n var isSetter = false;\r\n var setStart: i32 = 0;\r\n var setEnd: i32 = 0;\r\n if (!isInterface) {\r\n if (tn.skip(Token.GET)) {\r\n if (tn.peek(true, IdentifierHandling.PREFER) == Token.IDENTIFIER && !tn.nextTokenOnNewLine) {\r\n flags |= CommonFlags.GET;\r\n isGetter = true;\r\n setStart = tn.tokenPos;\r\n setEnd = tn.pos;\r\n if (flags & CommonFlags.READONLY) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(readonlyStart, readonlyEnd), \"readonly\"\r\n ); // recoverable\r\n }\r\n } else {\r\n tn.reset(state);\r\n }\r\n } else if (tn.skip(Token.SET)) {\r\n if (tn.peek(true, IdentifierHandling.PREFER) == Token.IDENTIFIER && !tn.nextTokenOnNewLine) {\r\n flags |= CommonFlags.SET;\r\n isSetter = true;\r\n setStart = tn.tokenPos;\r\n setEnd = tn.pos;\r\n if (flags & CommonFlags.READONLY) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(readonlyStart, readonlyEnd), \"readonly\"\r\n ); // recoverable\r\n }\r\n } else {\r\n tn.reset(state);\r\n }\r\n } else if (tn.skip(Token.CONSTRUCTOR)) {\r\n flags |= CommonFlags.CONSTRUCTOR;\r\n isConstructor = true;\r\n if (flags & CommonFlags.STATIC) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(staticStart, staticEnd), \"static\"\r\n ); // recoverable\r\n }\r\n if (flags & CommonFlags.ABSTRACT) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(abstractStart, abstractEnd), \"abstract\"\r\n ); // recoverable\r\n }\r\n if (flags & CommonFlags.READONLY) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(readonlyStart, readonlyEnd), \"readonly\"\r\n ); // recoverable\r\n }\r\n }\r\n }\r\n\r\n var name: IdentifierExpression;\r\n if (isConstructor) {\r\n name = Node.createConstructorExpression(tn.range());\r\n } else {\r\n if (!(isGetter || isSetter) && tn.skip(Token.OPENBRACKET)) {\r\n // TODO: also handle symbols, which might have some of these modifiers\r\n if (flags & CommonFlags.PUBLIC) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(accessStart, accessEnd), \"public\"\r\n ); // recoverable\r\n } else if (flags & CommonFlags.PROTECTED) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(accessStart, accessEnd), \"protected\"\r\n ); // recoverable\r\n } else if (flags & CommonFlags.PRIVATE) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(accessStart, accessEnd), \"protected\"\r\n ); // recoverable\r\n }\r\n if (flags & CommonFlags.STATIC) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(staticStart, staticEnd), \"static\"\r\n ); // recoverable\r\n }\r\n if (flags & CommonFlags.ABSTRACT) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(abstractStart, abstractEnd), \"abstract\"\r\n ); // recoverable\r\n }\r\n if (flags & CommonFlags.READONLY) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(readonlyStart, readonlyEnd), \"readonly\"\r\n ); // recoverable\r\n }\r\n let retIndex = this.parseIndexSignatureDeclaration(tn, decorators);\r\n if (!retIndex) return null;\r\n tn.skip(Token.SEMICOLON);\r\n return retIndex;\r\n }\r\n if (!tn.skipIdentifier()) {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n name = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n }\r\n var typeParameters: TypeParameterNode[] | null = null;\r\n if (tn.skip(Token.LESSTHAN)) {\r\n let typeParametersStart = tn.tokenPos;\r\n typeParameters = this.parseTypeParameters(tn);\r\n if (!typeParameters) return null;\r\n if (isConstructor) {\r\n this.error(\r\n DiagnosticCode.Type_parameters_cannot_appear_on_a_constructor_declaration,\r\n tn.range(typeParametersStart, tn.pos)\r\n ); // recoverable\r\n } else if (isGetter || isSetter) {\r\n this.error(\r\n DiagnosticCode.An_accessor_cannot_have_type_parameters,\r\n tn.range(typeParametersStart, tn.pos)\r\n ); // recoverable\r\n } else {\r\n flags |= CommonFlags.GENERIC;\r\n }\r\n }\r\n\r\n // method: '(' Parameters (':' Type)? '{' Statement* '}' ';'?\r\n if (tn.skip(Token.OPENPAREN)) {\r\n let signatureStart = tn.tokenPos;\r\n let parameters = this.parseParameters(tn, isConstructor);\r\n if (!parameters) return null;\r\n let thisType = this.parseParametersThis;\r\n if (isConstructor) {\r\n for (let i = 0, k = parameters.length; i < k; ++i) {\r\n let parameter = parameters[i];\r\n if (parameter.isAny(\r\n CommonFlags.PUBLIC |\r\n CommonFlags.PROTECTED |\r\n CommonFlags.PRIVATE |\r\n CommonFlags.READONLY\r\n )) {\r\n let implicitFieldDeclaration = Node.createFieldDeclaration(\r\n parameter.name,\r\n parameter.type,\r\n null, // initialized via parameter\r\n null,\r\n parameter.flags | CommonFlags.INSTANCE,\r\n parameter.range\r\n );\r\n implicitFieldDeclaration.parameterIndex = i;\r\n parameter.implicitFieldDeclaration = implicitFieldDeclaration;\r\n parent.members.push(implicitFieldDeclaration);\r\n }\r\n }\r\n } else if (isGetter) {\r\n if (parameters.length) {\r\n this.error(\r\n DiagnosticCode.A_get_accessor_cannot_have_parameters,\r\n name.range\r\n );\r\n }\r\n } else if (isSetter) {\r\n if (parameters.length != 1) {\r\n this.error(\r\n DiagnosticCode.A_set_accessor_must_have_exactly_one_parameter,\r\n name.range\r\n );\r\n }\r\n if (parameters.length && parameters[0].initializer) {\r\n this.error(\r\n DiagnosticCode.A_set_accessor_parameter_cannot_have_an_initializer,\r\n name.range\r\n );\r\n }\r\n }\r\n\r\n let returnType: CommonTypeNode | null = null;\r\n if (tn.skip(Token.COLON)) {\r\n if (name.kind == NodeKind.CONSTRUCTOR) {\r\n this.error(\r\n DiagnosticCode.Type_annotation_cannot_appear_on_a_constructor_declaration,\r\n tn.range()\r\n );\r\n } else if (isSetter) {\r\n this.error(\r\n DiagnosticCode.A_set_accessor_cannot_have_a_return_type_annotation,\r\n tn.range()\r\n );\r\n }\r\n returnType = this.parseType(tn, name.kind == NodeKind.CONSTRUCTOR || isSetter);\r\n if (!returnType) return null;\r\n } else {\r\n returnType = Node.createOmittedType(tn.range(tn.pos));\r\n if (!isSetter && name.kind != NodeKind.CONSTRUCTOR) {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n returnType.range\r\n ); // recoverable\r\n }\r\n }\r\n\r\n let signature = Node.createSignature(\r\n parameters,\r\n returnType,\r\n thisType,\r\n false,\r\n tn.range(signatureStart, tn.pos)\r\n );\r\n\r\n let body: Statement | null = null;\r\n if (tn.skip(Token.OPENBRACE)) {\r\n if (flags & CommonFlags.AMBIENT) {\r\n this.error(\r\n DiagnosticCode.An_implementation_cannot_be_declared_in_ambient_contexts,\r\n tn.range()\r\n ); // recoverable\r\n } else if (flags & CommonFlags.ABSTRACT) {\r\n this.error(\r\n DiagnosticCode.Method_0_cannot_have_an_implementation_because_it_is_marked_abstract,\r\n tn.range(), name.text\r\n ); // recoverable\r\n }\r\n body = this.parseBlockStatement(tn, false);\r\n if (!body) return null;\r\n } else if (!(flags & CommonFlags.AMBIENT) && !isInterface) {\r\n this.error(\r\n DiagnosticCode.Function_implementation_is_missing_or_not_immediately_following_the_declaration,\r\n tn.range()\r\n ); // recoverable\r\n }\r\n\r\n let retMethod = Node.createMethodDeclaration(\r\n name,\r\n typeParameters,\r\n signature,\r\n body,\r\n decorators,\r\n flags,\r\n tn.range(startPos, tn.pos)\r\n );\r\n tn.skip(Token.SEMICOLON);\r\n return retMethod;\r\n\r\n } else if (isConstructor) {\r\n this.error(\r\n DiagnosticCode.Constructor_implementation_is_missing,\r\n name.range\r\n );\r\n\r\n } else if (isGetter || isSetter) {\r\n this.error(\r\n DiagnosticCode.Function_implementation_is_missing_or_not_immediately_following_the_declaration,\r\n name.range\r\n );\r\n\r\n // field: (':' Type)? ('=' Expression)? ';'?\r\n } else {\r\n if (flags & CommonFlags.ABSTRACT) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(abstractStart, abstractEnd), \"abstract\"\r\n ); // recoverable\r\n }\r\n\r\n if (flags & CommonFlags.GET) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(getStart, getEnd), \"get\"\r\n ); // recoverable\r\n }\r\n\r\n if (flags & CommonFlags.SET) {\r\n this.error(\r\n DiagnosticCode._0_modifier_cannot_be_used_here,\r\n tn.range(setStart, setEnd), \"set\"\r\n ); // recoverable\r\n }\r\n\r\n let type: CommonTypeNode | null = null;\r\n if (tn.skip(Token.QUESTION)) {\r\n this.error(\r\n DiagnosticCode.Optional_properties_are_not_supported,\r\n tn.range(startPos, tn.pos)\r\n );\r\n }\r\n if (tn.skip(Token.EXCLAMATION)) {\r\n flags |= CommonFlags.DEFINITE_ASSIGNMENT;\r\n }\r\n if (tn.skip(Token.COLON)) {\r\n type = this.parseType(tn);\r\n if (!type) return null;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n tn.range()\r\n ); // recoverable\r\n }\r\n let initializer: Expression | null = null;\r\n if (tn.skip(Token.EQUALS)) {\r\n initializer = this.parseExpression(tn);\r\n if (!initializer) return null;\r\n }\r\n let range = tn.range(startPos, tn.pos);\r\n if ((flags & CommonFlags.DEFINITE_ASSIGNMENT) && ((flags & CommonFlags.STATIC) || isInterface || initializer)) {\r\n this.error(\r\n DiagnosticCode.A_definite_assignment_assertion_is_not_permitted_in_this_context,\r\n range\r\n );\r\n }\r\n let retField = Node.createFieldDeclaration(\r\n name,\r\n type,\r\n initializer,\r\n decorators,\r\n flags,\r\n range\r\n );\r\n tn.skip(Token.SEMICOLON);\r\n return retField;\r\n }\r\n return null;\r\n }\r\n\r\n parseIndexSignatureDeclaration(tn: Tokenizer, decorators: DecoratorNode[]): IndexSignatureDeclaration | null {\r\n\r\n // at: '[': 'key' ':' Type ']' ':' Type\r\n\r\n if (decorators.length) {\r\n this.error(\r\n DiagnosticCode.Decorators_are_not_valid_here,\r\n Range.join(decorators[0].range, decorators[decorators.length - 1].range)\r\n ); // recoverable\r\n }\r\n\r\n var start = tn.tokenPos;\r\n if (tn.skipIdentifier()) {\r\n let id = tn.readIdentifier();\r\n if (id == \"key\") {\r\n if (tn.skip(Token.COLON)) {\r\n let keyType = this.parseType(tn);\r\n if (!keyType) return null;\r\n if (keyType.kind != NodeKind.TYPE) {\r\n this.error(\r\n DiagnosticCode.Type_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n if (tn.skip(Token.CLOSEBRACKET)) {\r\n if (tn.skip(Token.COLON)) {\r\n let valueType = this.parseType(tn);\r\n if (!valueType) return null;\r\n return Node.createIndexSignatureDeclaration(keyType, valueType, tn.range(start, tn.pos));\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \":\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"]\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \":\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"key\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseNamespace(\r\n tn: Tokenizer,\r\n flags: CommonFlags,\r\n decorators: DecoratorNode[] | null,\r\n startPos: i32\r\n ): NamespaceDeclaration | null {\r\n\r\n // at 'namespace': Identifier '{' (Variable | Function)* '}'\r\n\r\n if (tn.skipIdentifier()) {\r\n let identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n if (tn.skip(Token.OPENBRACE)) {\r\n let members = new Array();\r\n let ns = Node.createNamespaceDeclaration(\r\n identifier,\r\n members,\r\n decorators,\r\n flags,\r\n tn.range(startPos, tn.pos)\r\n );\r\n while (!tn.skip(Token.CLOSEBRACE)) {\r\n let member = this.parseTopLevelStatement(tn, ns);\r\n if (member) members.push(member);\r\n }\r\n tn.skip(Token.SEMICOLON);\r\n return ns;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"{\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseExport(\r\n tn: Tokenizer,\r\n startPos: i32,\r\n isDeclare: bool\r\n ): ExportStatement | null {\r\n\r\n // at 'export': '{' ExportMember (',' ExportMember)* }' ('from' StringLiteral)? ';'?\r\n\r\n var path: StringLiteralExpression | null = null;\r\n if (tn.skip(Token.OPENBRACE)) {\r\n let members = new Array();\r\n while (!tn.skip(Token.CLOSEBRACE)) {\r\n let member = this.parseExportMember(tn);\r\n if (!member) return null;\r\n members.push(member);\r\n if (!tn.skip(Token.COMMA)) {\r\n if (tn.skip(Token.CLOSEBRACE)) {\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"}\"\r\n );\r\n return null;\r\n }\r\n }\r\n }\r\n if (tn.skip(Token.FROM)) {\r\n if (tn.skip(Token.STRINGLITERAL)) {\r\n path = Node.createStringLiteralExpression(tn.readString(), tn.range());\r\n } else {\r\n this.error(\r\n DiagnosticCode.String_literal_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n }\r\n let ret = Node.createExportStatement(members, path, isDeclare, tn.range(startPos, tn.pos));\r\n let internalPath = ret.internalPath;\r\n if (internalPath !== null && !this.seenlog.has(internalPath)) {\r\n this.backlog.push(internalPath);\r\n this.seenlog.add(internalPath);\r\n }\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n } else if (tn.skip(Token.ASTERISK)) {\r\n if (tn.skip(Token.FROM)) {\r\n if (tn.skip(Token.STRINGLITERAL)) {\r\n path = Node.createStringLiteralExpression(tn.readString(), tn.range());\r\n let ret = Node.createExportStatement(null, path, isDeclare, tn.range(startPos, tn.pos));\r\n let internalPath = assert(ret.internalPath);\r\n let source = tn.source;\r\n if (!source.exportPaths) source.exportPaths = new Set();\r\n source.exportPaths.add(internalPath);\r\n if (!this.seenlog.has(internalPath)) {\r\n this.backlog.push(internalPath);\r\n this.seenlog.add(internalPath);\r\n }\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n } else {\r\n this.error(\r\n DiagnosticCode.String_literal_expected,\r\n tn.range()\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"from\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"{\"\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseExportMember(\r\n tn: Tokenizer\r\n ): ExportMember | null {\r\n\r\n // before: Identifier ('as' Identifier)?\r\n\r\n if (tn.skipIdentifier()) {\r\n let identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n let asIdentifier: IdentifierExpression | null = null;\r\n if (tn.skip(Token.AS)) {\r\n if (tn.skipIdentifier(IdentifierHandling.ALWAYS)) {\r\n asIdentifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n }\r\n return Node.createExportMember(\r\n identifier,\r\n asIdentifier,\r\n asIdentifier\r\n ? Range.join(identifier.range, asIdentifier.range)\r\n : identifier.range\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseImport(\r\n tn: Tokenizer\r\n ): ImportStatement | null {\r\n\r\n // at 'import':\r\n // ('{' (ImportMember (',' ImportMember)* '}') | ('*' 'as' Identifier)?\r\n // 'from' StringLiteral ';'?\r\n\r\n var startPos = tn.tokenPos;\r\n var members: ImportDeclaration[] | null = null;\r\n var namespaceName: IdentifierExpression | null = null;\r\n var skipFrom = false;\r\n if (tn.skip(Token.OPENBRACE)) {\r\n members = new Array();\r\n while (!tn.skip(Token.CLOSEBRACE)) {\r\n let member = this.parseImportDeclaration(tn);\r\n if (!member) return null;\r\n members.push(member);\r\n if (!tn.skip(Token.COMMA)) {\r\n if (tn.skip(Token.CLOSEBRACE)) {\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"}\"\r\n );\r\n return null;\r\n }\r\n }\r\n }\r\n } else if (tn.skip(Token.ASTERISK)) {\r\n if (tn.skip(Token.AS)) {\r\n if (tn.skipIdentifier()) {\r\n namespaceName = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"as\"\r\n );\r\n return null;\r\n }\r\n } else {\r\n skipFrom = true;\r\n }\r\n\r\n if (skipFrom || tn.skip(Token.FROM)) {\r\n if (tn.skip(Token.STRINGLITERAL)) {\r\n let path = Node.createStringLiteralExpression(tn.readString(), tn.range());\r\n let ret: ImportStatement;\r\n if (namespaceName) {\r\n assert(!members);\r\n ret = Node.createImportStatementWithWildcard(namespaceName, path, tn.range(startPos, tn.pos));\r\n } else {\r\n ret = Node.createImportStatement(members, path, tn.range(startPos, tn.pos));\r\n }\r\n let internalPath = ret.internalPath;\r\n if (!this.seenlog.has(internalPath)) {\r\n this.backlog.push(internalPath);\r\n this.seenlog.add(internalPath);\r\n }\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n } else {\r\n this.error(\r\n DiagnosticCode.String_literal_expected,\r\n tn.range()\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"from\"\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseImportDeclaration(\r\n tn: Tokenizer\r\n ): ImportDeclaration | null {\r\n\r\n // before: Identifier ('as' Identifier)?\r\n\r\n if (tn.skipIdentifier(IdentifierHandling.ALWAYS)) {\r\n let identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n let asIdentifier: IdentifierExpression | null = null;\r\n if (tn.skip(Token.AS)) {\r\n if (tn.skipIdentifier()) {\r\n asIdentifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n }\r\n return Node.createImportDeclaration(\r\n identifier,\r\n asIdentifier,\r\n asIdentifier\r\n ? Range.join(identifier.range, asIdentifier.range)\r\n : identifier.range\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseExportImport(\r\n tn: Tokenizer,\r\n startPos: i32\r\n ): ExportImportStatement | null {\r\n\r\n // at 'export' 'import': Identifier ('=' Identifier)? ';'?\r\n\r\n if (tn.skipIdentifier()) {\r\n let asIdentifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n if (tn.skip(Token.EQUALS)) {\r\n if (tn.skipIdentifier()) {\r\n let identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n let ret = Node.createExportImportStatement(identifier, asIdentifier, tn.range(startPos, tn.pos));\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"=\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseStatement(\r\n tn: Tokenizer,\r\n topLevel: bool = false\r\n ): Statement | null {\r\n\r\n // at previous token\r\n\r\n var state = tn.mark();\r\n var token = tn.next();\r\n var statement: Statement | null = null;\r\n switch (token) {\r\n case Token.BREAK: {\r\n statement = this.parseBreak(tn);\r\n break;\r\n }\r\n case Token.CONST: {\r\n statement = this.parseVariable(tn, CommonFlags.CONST, null, tn.tokenPos);\r\n break;\r\n }\r\n case Token.CONTINUE: {\r\n statement = this.parseContinue(tn);\r\n break;\r\n }\r\n case Token.DO: {\r\n statement = this.parseDoStatement(tn);\r\n break;\r\n }\r\n case Token.FOR: {\r\n statement = this.parseForStatement(tn);\r\n break;\r\n }\r\n case Token.IF: {\r\n statement = this.parseIfStatement(tn);\r\n break;\r\n }\r\n case Token.LET: {\r\n statement = this.parseVariable(tn, CommonFlags.LET, null, tn.tokenPos);\r\n break;\r\n }\r\n case Token.VAR: {\r\n statement = this.parseVariable(tn, CommonFlags.NONE, null, tn.tokenPos);\r\n break;\r\n }\r\n case Token.OPENBRACE: {\r\n statement = this.parseBlockStatement(tn, topLevel);\r\n break;\r\n }\r\n case Token.RETURN: {\r\n if (topLevel) {\r\n this.error(\r\n DiagnosticCode.A_return_statement_can_only_be_used_within_a_function_body,\r\n tn.range()\r\n ); // recoverable\r\n }\r\n statement = this.parseReturn(tn);\r\n break;\r\n }\r\n case Token.SEMICOLON: {\r\n return Node.createEmptyStatement(tn.range(tn.tokenPos));\r\n }\r\n case Token.SWITCH: {\r\n statement = this.parseSwitchStatement(tn);\r\n break;\r\n }\r\n case Token.THROW: {\r\n statement = this.parseThrowStatement(tn);\r\n break;\r\n }\r\n case Token.TRY: {\r\n statement = this.parseTryStatement(tn);\r\n break;\r\n }\r\n case Token.VOID: {\r\n statement = this.parseVoidStatement(tn);\r\n break;\r\n }\r\n case Token.WHILE: {\r\n statement = this.parseWhileStatement(tn);\r\n break;\r\n }\r\n case Token.TYPE: { // also identifier\r\n if (tn.peek(false, IdentifierHandling.PREFER) == Token.IDENTIFIER) {\r\n statement = this.parseTypeDeclaration(tn, CommonFlags.NONE, null, tn.tokenPos);\r\n break;\r\n }\r\n // fall-through\r\n }\r\n default: {\r\n tn.reset(state);\r\n statement = this.parseExpressionStatement(tn);\r\n break;\r\n }\r\n }\r\n if (!statement) { // has been reported\r\n tn.reset(state);\r\n this.skipStatement(tn);\r\n } else {\r\n tn.discard(state);\r\n }\r\n return statement;\r\n }\r\n\r\n parseBlockStatement(\r\n tn: Tokenizer,\r\n topLevel: bool\r\n ): BlockStatement | null {\r\n\r\n // at '{': Statement* '}' ';'?\r\n\r\n var startPos = tn.tokenPos;\r\n var statements = new Array();\r\n while (!tn.skip(Token.CLOSEBRACE)) {\r\n let state = tn.mark();\r\n let statement = this.parseStatement(tn, topLevel);\r\n if (!statement) {\r\n if (tn.token == Token.ENDOFFILE) return null;\r\n tn.reset(state);\r\n this.skipStatement(tn);\r\n } else {\r\n tn.discard(state);\r\n statements.push(statement);\r\n }\r\n }\r\n var ret = Node.createBlockStatement(statements, tn.range(startPos, tn.pos));\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n }\r\n\r\n parseBreak(\r\n tn: Tokenizer\r\n ): BreakStatement | null {\r\n\r\n // at 'break': Identifier? ';'?\r\n\r\n var identifier: IdentifierExpression | null = null;\r\n if (tn.peek(true) == Token.IDENTIFIER && !tn.nextTokenOnNewLine) {\r\n tn.next(IdentifierHandling.PREFER);\r\n identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n }\r\n var ret = Node.createBreakStatement(identifier, tn.range());\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n }\r\n\r\n parseContinue(\r\n tn: Tokenizer\r\n ): ContinueStatement | null {\r\n\r\n // at 'continue': Identifier? ';'?\r\n\r\n var identifier: IdentifierExpression | null = null;\r\n if (tn.peek(true) == Token.IDENTIFIER && !tn.nextTokenOnNewLine) {\r\n tn.next(IdentifierHandling.PREFER);\r\n identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n }\r\n var ret = Node.createContinueStatement(identifier, tn.range());\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n }\r\n\r\n parseDoStatement(\r\n tn: Tokenizer\r\n ): DoStatement | null {\r\n\r\n // at 'do': Statement 'while' '(' Expression ')' ';'?\r\n\r\n var startPos = tn.tokenPos;\r\n var statement = this.parseStatement(tn);\r\n if (!statement) return null;\r\n\r\n if (tn.skip(Token.WHILE)) {\r\n\r\n if (tn.skip(Token.OPENPAREN)) {\r\n let condition = this.parseExpression(tn);\r\n if (!condition) return null;\r\n\r\n if (tn.skip(Token.CLOSEPAREN)) {\r\n let ret = Node.createDoStatement(statement, condition, tn.range(startPos, tn.pos));\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"(\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"while\"\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseExpressionStatement(\r\n tn: Tokenizer\r\n ): ExpressionStatement | null {\r\n\r\n // at previous token\r\n\r\n var expr = this.parseExpression(tn);\r\n if (!expr) return null;\r\n\r\n var ret = Node.createExpressionStatement(expr);\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n }\r\n\r\n parseForStatement(\r\n tn: Tokenizer\r\n ): ForStatement | null {\r\n\r\n // at 'for': '(' Statement? Expression? ';' Expression? ')' Statement\r\n\r\n var startPos = tn.tokenPos;\r\n\r\n if (tn.skip(Token.OPENPAREN)) {\r\n let initializer: Statement | null = null;\r\n\r\n if (tn.skip(Token.CONST)) {\r\n initializer = this.parseVariable(tn, CommonFlags.CONST, null, tn.tokenPos);\r\n } else if (tn.skip(Token.LET)) {\r\n initializer = this.parseVariable(tn, CommonFlags.LET, null, tn.tokenPos);\r\n } else if (tn.skip(Token.VAR)) {\r\n initializer = this.parseVariable(tn, CommonFlags.NONE, null, tn.tokenPos);\r\n\r\n } else if (!tn.skip(Token.SEMICOLON)) {\r\n initializer = this.parseExpressionStatement(tn);\r\n if (!initializer) return null;\r\n }\r\n\r\n if (tn.token == Token.SEMICOLON) {\r\n let condition: ExpressionStatement | null = null;\r\n if (!tn.skip(Token.SEMICOLON)) {\r\n condition = this.parseExpressionStatement(tn);\r\n if (!condition) return null;\r\n }\r\n\r\n if (tn.token == Token.SEMICOLON) {\r\n let incrementor: Expression | null = null;\r\n if (!tn.skip(Token.CLOSEPAREN)) {\r\n incrementor = this.parseExpression(tn);\r\n if (!incrementor) return null;\r\n\r\n if (!tn.skip(Token.CLOSEPAREN)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n return null;\r\n }\r\n }\r\n\r\n let statement = this.parseStatement(tn);\r\n if (!statement) return null;\r\n\r\n return Node.createForStatement(\r\n initializer,\r\n condition\r\n ? condition.expression\r\n : null,\r\n incrementor,\r\n statement,\r\n tn.range(startPos, tn.pos)\r\n );\r\n\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \";\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \";\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"(\"\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseIfStatement(\r\n tn: Tokenizer\r\n ): IfStatement | null {\r\n\r\n // at 'if': '(' Expression ')' Statement ('else' Statement)?\r\n\r\n var startPos = tn.tokenPos;\r\n if (tn.skip(Token.OPENPAREN)) {\r\n let condition = this.parseExpression(tn);\r\n if (!condition) return null;\r\n if (tn.skip(Token.CLOSEPAREN)) {\r\n let statement = this.parseStatement(tn);\r\n if (!statement) return null;\r\n let elseStatement: Statement | null = null;\r\n if (tn.skip(Token.ELSE)) {\r\n elseStatement = this.parseStatement(tn);\r\n if (!elseStatement) return null;\r\n }\r\n return Node.createIfStatement(\r\n condition,\r\n statement,\r\n elseStatement,\r\n tn.range(startPos, tn.pos)\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"(\"\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseSwitchStatement(\r\n tn: Tokenizer\r\n ): SwitchStatement | null {\r\n\r\n // at 'switch': '(' Expression ')' '{' SwitchCase* '}' ';'?\r\n\r\n var startPos = tn.tokenPos;\r\n if (tn.skip(Token.OPENPAREN)) {\r\n let condition = this.parseExpression(tn);\r\n if (!condition) return null;\r\n if (tn.skip(Token.CLOSEPAREN)) {\r\n if (tn.skip(Token.OPENBRACE)) {\r\n let cases = new Array();\r\n while (!tn.skip(Token.CLOSEBRACE)) {\r\n let case_ = this.parseSwitchCase(tn);\r\n if (!case_) return null;\r\n cases.push(case_);\r\n }\r\n let ret = Node.createSwitchStatement(condition, cases, tn.range(startPos, tn.pos));\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"{\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"(\"\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseSwitchCase(\r\n tn: Tokenizer\r\n ): SwitchCase | null {\r\n\r\n var startPos = tn.tokenPos;\r\n var statements: Statement[],\r\n statement: Statement | null;\r\n\r\n // 'case' Expression ':' Statement*\r\n\r\n if (tn.skip(Token.CASE)) {\r\n let label = this.parseExpression(tn);\r\n if (!label) return null;\r\n if (tn.skip(Token.COLON)) {\r\n statements = new Array();\r\n while (tn.peek() != Token.CASE && tn.nextToken != Token.DEFAULT && tn.nextToken != Token.CLOSEBRACE) {\r\n statement = this.parseStatement(tn);\r\n if (!statement) return null;\r\n statements.push(statement);\r\n }\r\n return Node.createSwitchCase(label, statements, tn.range(startPos, tn.pos));\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \":\"\r\n );\r\n }\r\n\r\n // 'default' ':' Statement*\r\n\r\n } else if (tn.skip(Token.DEFAULT)) {\r\n if (tn.skip(Token.COLON)) {\r\n statements = new Array();\r\n while (tn.peek() != Token.CASE && tn.nextToken != Token.DEFAULT && tn.nextToken != Token.CLOSEBRACE) {\r\n statement = this.parseStatement(tn);\r\n if (!statement) return null;\r\n statements.push(statement);\r\n }\r\n return Node.createSwitchCase(null, statements, tn.range(startPos, tn.pos));\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \":\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._case_or_default_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseThrowStatement(\r\n tn: Tokenizer\r\n ): ThrowStatement | null {\r\n\r\n // at 'throw': Expression ';'?\r\n\r\n var startPos = tn.tokenPos;\r\n var expression = this.parseExpression(tn);\r\n if (!expression) return null;\r\n var ret = Node.createThrowStatement(expression, tn.range(startPos, tn.pos));\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n }\r\n\r\n parseTryStatement(\r\n tn: Tokenizer\r\n ): TryStatement | null {\r\n\r\n // at 'try':\r\n // '{' Statement* '}'\r\n // ('catch' '(' VariableMember ')' '{' Statement* '}')?\r\n // ('finally' '{' Statement* '}'? ';'?\r\n\r\n var startPos = tn.tokenPos;\r\n var stmt: Statement | null;\r\n if (tn.skip(Token.OPENBRACE)) {\r\n let statements = new Array();\r\n while (!tn.skip(Token.CLOSEBRACE)) {\r\n stmt = this.parseStatement(tn);\r\n if (!stmt) return null;\r\n statements.push(stmt);\r\n }\r\n let catchVariable: IdentifierExpression | null = null;\r\n let catchStatements: Statement[] | null = null;\r\n let finallyStatements: Statement[] | null = null;\r\n if (tn.skip(Token.CATCH)) {\r\n if (!tn.skip(Token.OPENPAREN)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"(\"\r\n );\r\n return null;\r\n }\r\n if (!tn.skipIdentifier()) {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n return null;\r\n }\r\n catchVariable = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n if (!tn.skip(Token.CLOSEPAREN)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n return null;\r\n }\r\n if (!tn.skip(Token.OPENBRACE)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"{\"\r\n );\r\n return null;\r\n }\r\n catchStatements = [];\r\n while (!tn.skip(Token.CLOSEBRACE)) {\r\n stmt = this.parseStatement(tn);\r\n if (!stmt) return null;\r\n catchStatements.push(stmt);\r\n }\r\n }\r\n if (tn.skip(Token.FINALLY)) {\r\n if (!tn.skip(Token.OPENBRACE)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"{\"\r\n );\r\n return null;\r\n }\r\n finallyStatements = [];\r\n while (!tn.skip(Token.CLOSEBRACE)) {\r\n stmt = this.parseStatement(tn);\r\n if (!stmt) return null;\r\n finallyStatements.push(stmt);\r\n }\r\n }\r\n if (!(catchStatements || finallyStatements)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"catch\"\r\n );\r\n return null;\r\n }\r\n let ret = Node.createTryStatement(\r\n statements,\r\n catchVariable,\r\n catchStatements,\r\n finallyStatements,\r\n tn.range(startPos, tn.pos)\r\n );\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"{\"\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseTypeDeclaration(\r\n tn: Tokenizer,\r\n flags: CommonFlags,\r\n decorators: DecoratorNode[] | null,\r\n startPos: i32\r\n ): TypeDeclaration | null {\r\n\r\n // at 'type': Identifier ('<' TypeParameters '>')? '=' Type ';'?\r\n\r\n if (tn.skipIdentifier()) {\r\n let name = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n let typeParameters: TypeParameterNode[] | null = null;\r\n if (tn.skip(Token.LESSTHAN)) {\r\n typeParameters = this.parseTypeParameters(tn);\r\n if (!typeParameters) return null;\r\n flags |= CommonFlags.GENERIC;\r\n }\r\n if (tn.skip(Token.EQUALS)) {\r\n let type = this.parseType(tn);\r\n if (!type) return null;\r\n let ret = Node.createTypeDeclaration(\r\n name,\r\n typeParameters,\r\n type,\r\n decorators,\r\n flags,\r\n tn.range(startPos, tn.pos)\r\n );\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"=\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n parseVoidStatement(\r\n tn: Tokenizer\r\n ): VoidStatement | null {\r\n\r\n // at 'void': Expression ';'?\r\n\r\n var startPos = tn.tokenPos;\r\n var expression = this.parseExpression(tn, Precedence.GROUPING);\r\n if (!expression) return null;\r\n var ret = Node.createVoidStatement(expression, tn.range(startPos, tn.pos));\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n }\r\n\r\n parseWhileStatement(\r\n tn: Tokenizer\r\n ): WhileStatement | null {\r\n\r\n // at 'while': '(' Expression ')' Statement ';'?\r\n\r\n var startPos = tn.tokenPos;\r\n if (tn.skip(Token.OPENPAREN)) {\r\n let expression = this.parseExpression(tn);\r\n if (!expression) return null;\r\n if (tn.skip(Token.CLOSEPAREN)) {\r\n let statement = this.parseStatement(tn);\r\n if (!statement) return null;\r\n let ret = Node.createWhileStatement(expression, statement, tn.range(startPos, tn.pos));\r\n tn.skip(Token.SEMICOLON);\r\n return ret;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n }\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"(\"\r\n );\r\n }\r\n return null;\r\n }\r\n\r\n // expressions\r\n // see: http://www.engr.mun.ca/~theo/Misc/exp_parsing.htm#climbing\r\n\r\n parseExpressionStart(\r\n tn: Tokenizer\r\n ): Expression | null {\r\n\r\n var token = tn.next(IdentifierHandling.PREFER);\r\n var startPos = tn.tokenPos;\r\n var precedence = determinePrecedenceStart(token);\r\n if (precedence != Precedence.NONE) {\r\n let operand: Expression | null;\r\n\r\n // TODO: SpreadExpression, YieldExpression (currently become unsupported UnaryPrefixExpressions)\r\n\r\n // NewExpression\r\n if (token == Token.NEW) {\r\n operand = this.parseExpression(tn, Precedence.CALL);\r\n if (!operand) return null;\r\n if (operand.kind == NodeKind.CALL) {\r\n return Node.createNewExpression(\r\n (operand).expression,\r\n (operand).typeArguments,\r\n (operand).arguments,\r\n tn.range(startPos, tn.pos)\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Operation_not_supported,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n } else {\r\n operand = this.parseExpression(tn, precedence);\r\n if (!operand) return null;\r\n }\r\n\r\n // UnaryPrefixExpression\r\n if (token == Token.PLUS_PLUS || token == Token.MINUS_MINUS) {\r\n if (\r\n operand.kind != NodeKind.IDENTIFIER &&\r\n operand.kind != NodeKind.ELEMENTACCESS &&\r\n operand.kind != NodeKind.PROPERTYACCESS\r\n ) {\r\n this.error(\r\n DiagnosticCode.The_operand_of_an_increment_or_decrement_operator_must_be_a_variable_or_a_property_access,\r\n operand.range\r\n );\r\n }\r\n }\r\n return Node.createUnaryPrefixExpression(token, operand, tn.range(startPos, tn.pos));\r\n }\r\n\r\n var expr: Expression | null = null;\r\n switch (token) {\r\n\r\n case Token.NULL: return Node.createNullExpression(tn.range());\r\n case Token.TRUE: return Node.createTrueExpression(tn.range());\r\n case Token.FALSE: return Node.createFalseExpression(tn.range());\r\n\r\n // ParenthesizedExpression\r\n // FunctionExpression\r\n case Token.OPENPAREN: {\r\n\r\n // determine whether this is a function expression\r\n if (tn.skip(Token.CLOSEPAREN)) { // must be a function expression (fast route)\r\n return this.parseFunctionExpressionCommon(\r\n tn,\r\n Node.createEmptyIdentifierExpression(tn.range(startPos)),\r\n [],\r\n ArrowKind.ARROW_PARENTHESIZED\r\n );\r\n }\r\n let state = tn.mark();\r\n let again = true;\r\n do {\r\n switch (tn.next(IdentifierHandling.PREFER)) {\r\n\r\n // function expression\r\n case Token.DOT_DOT_DOT: {\r\n tn.reset(state);\r\n return this.parseFunctionExpression(tn);\r\n }\r\n // can be both\r\n case Token.IDENTIFIER: {\r\n tn.readIdentifier();\r\n switch (tn.next()) {\r\n\r\n // if we got here, check for arrow\r\n case Token.CLOSEPAREN: {\r\n if (\r\n !tn.skip(Token.COLON) &&\r\n !tn.skip(Token.EQUALS_GREATERTHAN)\r\n ) {\r\n again = false;\r\n break;\r\n }\r\n // fall-through\r\n }\r\n // function expression\r\n case Token.COLON: { // type annotation\r\n tn.reset(state);\r\n return this.parseFunctionExpression(tn);\r\n }\r\n // optional parameter or parenthesized\r\n case Token.QUESTION: {\r\n if (\r\n tn.skip(Token.COLON) || // optional parameter with type\r\n tn.skip(Token.COMMA) || // optional parameter without type\r\n tn.skip(Token.CLOSEPAREN) // last optional parameter without type\r\n ) {\r\n tn.reset(state);\r\n return this.parseFunctionExpression(tn);\r\n }\r\n again = false; // parenthesized\r\n break;\r\n }\r\n case Token.COMMA: {\r\n break; // continue\r\n }\r\n // parenthesized expression\r\n // case Token.EQUALS: // missing type annotation for simplicity\r\n default: {\r\n again = false;\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n // parenthesized expression\r\n default: {\r\n again = false;\r\n break;\r\n }\r\n }\r\n } while (again);\r\n tn.reset(state);\r\n\r\n // parse parenthesized\r\n expr = this.parseExpression(tn);\r\n if (!expr) return null;\r\n if (!tn.skip(Token.CLOSEPAREN)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n return null;\r\n }\r\n return Node.createParenthesizedExpression(expr, tn.range(startPos, tn.pos));\r\n }\r\n // ArrayLiteralExpression\r\n case Token.OPENBRACKET: {\r\n let elementExpressions = new Array();\r\n while (!tn.skip(Token.CLOSEBRACKET)) {\r\n if (tn.peek() == Token.COMMA) {\r\n expr = null; // omitted\r\n } else {\r\n expr = this.parseExpression(tn, Precedence.COMMA + 1);\r\n if (!expr) return null;\r\n }\r\n elementExpressions.push(expr);\r\n if (!tn.skip(Token.COMMA)) {\r\n if (tn.skip(Token.CLOSEBRACKET)) {\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"]\"\r\n );\r\n return null;\r\n }\r\n }\r\n }\r\n return Node.createArrayLiteralExpression(elementExpressions, tn.range(startPos, tn.pos));\r\n }\r\n // ObjectLiteralExpression\r\n case Token.OPENBRACE: {\r\n let startPos = tn.tokenPos;\r\n let names = new Array();\r\n let values = new Array();\r\n let name: IdentifierExpression;\r\n while (!tn.skip(Token.CLOSEBRACE)) {\r\n if (!tn.skipIdentifier()) {\r\n if (!tn.skip(Token.STRINGLITERAL)) {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n tn.range(),\r\n );\r\n return null;\r\n }\r\n name = Node.createIdentifierExpression(tn.readString(), tn.range());\r\n name.isQuoted = true;\r\n } else {\r\n name = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n }\r\n names.push(name);\r\n if (tn.skip(Token.COLON)) {\r\n let value = this.parseExpression(tn, Precedence.COMMA + 1);\r\n if (!value) return null;\r\n values.push(value);\r\n } else if (!name.isQuoted) {\r\n values.push(name);\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \":\"\r\n );\r\n return null;\r\n }\r\n if (!tn.skip(Token.COMMA)) {\r\n if (tn.skip(Token.CLOSEBRACE)) {\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"}\"\r\n );\r\n return null;\r\n }\r\n }\r\n }\r\n return Node.createObjectLiteralExpression(names, values, tn.range(startPos, tn.pos));\r\n }\r\n // AssertionExpression (unary prefix)\r\n case Token.LESSTHAN: {\r\n let toType = this.parseType(tn);\r\n if (!toType) return null;\r\n if (!tn.skip(Token.GREATERTHAN)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \">\"\r\n );\r\n return null;\r\n }\r\n expr = this.parseExpression(tn, Precedence.CALL);\r\n if (!expr) return null;\r\n return Node.createAssertionExpression(\r\n AssertionKind.PREFIX,\r\n expr,\r\n toType,\r\n tn.range(startPos, tn.pos)\r\n );\r\n }\r\n case Token.IDENTIFIER: {\r\n let identifier = Node.createIdentifierExpression(tn.readIdentifier(), tn.range(startPos, tn.pos));\r\n if (tn.peek(true) == Token.EQUALS_GREATERTHAN && !tn.nextTokenOnNewLine) {\r\n return this.parseFunctionExpressionCommon(\r\n tn,\r\n Node.createEmptyIdentifierExpression(tn.range(startPos)),\r\n [\r\n Node.createParameter(\r\n identifier,\r\n Node.createOmittedType(identifier.range.atEnd),\r\n null,\r\n ParameterKind.DEFAULT,\r\n identifier.range\r\n )\r\n ],\r\n ArrowKind.ARROW_SINGLE,\r\n startPos\r\n );\r\n }\r\n return identifier;\r\n }\r\n case Token.THIS: {\r\n return Node.createThisExpression(tn.range(startPos, tn.pos));\r\n }\r\n case Token.CONSTRUCTOR: {\r\n return Node.createConstructorExpression(tn.range(startPos, tn.pos));\r\n }\r\n case Token.SUPER: {\r\n if (tn.peek() != Token.DOT && tn.nextToken != Token.OPENPAREN) {\r\n this.error(\r\n DiagnosticCode._super_must_be_followed_by_an_argument_list_or_member_access,\r\n tn.range()\r\n );\r\n }\r\n return Node.createSuperExpression(tn.range(startPos, tn.pos));\r\n }\r\n case Token.STRINGLITERAL: {\r\n return Node.createStringLiteralExpression(tn.readString(), tn.range(startPos, tn.pos));\r\n }\r\n case Token.INTEGERLITERAL: {\r\n return Node.createIntegerLiteralExpression(tn.readInteger(), tn.range(startPos, tn.pos));\r\n }\r\n case Token.FLOATLITERAL: {\r\n return Node.createFloatLiteralExpression(tn.readFloat(), tn.range(startPos, tn.pos));\r\n }\r\n // RegexpLiteralExpression\r\n // note that this also continues on invalid ones so the surrounding AST remains intact\r\n case Token.SLASH: {\r\n let regexpPattern = tn.readRegexpPattern(); // also reports\r\n if (!tn.skip(Token.SLASH)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"/\"\r\n );\r\n return null;\r\n }\r\n return Node.createRegexpLiteralExpression(\r\n regexpPattern,\r\n tn.readRegexpFlags(), // also reports\r\n tn.range(startPos, tn.pos)\r\n );\r\n }\r\n case Token.FUNCTION: {\r\n return this.parseFunctionExpression(tn);\r\n }\r\n case Token.CLASS: {\r\n return this.parseClassExpression(tn);\r\n }\r\n default: {\r\n if (token == Token.ENDOFFILE) {\r\n this.error(\r\n DiagnosticCode.Unexpected_end_of_text,\r\n tn.range(startPos)\r\n );\r\n } else {\r\n this.error(\r\n DiagnosticCode.Expression_expected,\r\n tn.range()\r\n );\r\n }\r\n return null;\r\n }\r\n }\r\n }\r\n\r\n tryParseTypeArgumentsBeforeArguments(\r\n tn: Tokenizer\r\n ): CommonTypeNode[] | null {\r\n\r\n // at '<': Type (',' Type)* '>' '('\r\n\r\n var state = tn.mark();\r\n if (!tn.skip(Token.LESSTHAN)) return null;\r\n var typeArguments = new Array();\r\n do {\r\n if (tn.peek() === Token.GREATERTHAN) {\r\n break;\r\n }\r\n let type = this.parseType(tn, true, true);\r\n if (!type) {\r\n tn.reset(state);\r\n return null;\r\n }\r\n typeArguments.push(type);\r\n } while (tn.skip(Token.COMMA));\r\n if (tn.skip(Token.GREATERTHAN) && tn.skip(Token.OPENPAREN)) {\r\n return typeArguments;\r\n }\r\n tn.reset(state);\r\n return null;\r\n }\r\n\r\n parseArguments(\r\n tn: Tokenizer\r\n ): Expression[] | null {\r\n\r\n // at '(': (Expression (',' Expression)*)? ')'\r\n\r\n var args = new Array();\r\n while (!tn.skip(Token.CLOSEPAREN)) {\r\n let expr = this.parseExpression(tn, Precedence.COMMA + 1);\r\n if (!expr) return null;\r\n args.push(expr);\r\n if (!tn.skip(Token.COMMA)) {\r\n if (tn.skip(Token.CLOSEPAREN)) {\r\n break;\r\n } else {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \")\"\r\n );\r\n return null;\r\n }\r\n }\r\n }\r\n return args;\r\n }\r\n\r\n parseExpression(\r\n tn: Tokenizer,\r\n precedence: Precedence = Precedence.COMMA\r\n ): Expression | null {\r\n assert(precedence != Precedence.NONE);\r\n\r\n var expr = this.parseExpressionStart(tn);\r\n if (!expr) return null;\r\n expr = this.maybeParseCallExpression(tn, expr); // simple call like on an Identifier\r\n\r\n var startPos = expr.range.start;\r\n var token: Token;\r\n var next: Expression | null = null;\r\n var nextPrecedence: Precedence;\r\n while (\r\n (nextPrecedence = determinePrecedence(token = tn.peek())) >= precedence\r\n ) { // precedence climbing\r\n tn.next();\r\n switch (token) {\r\n // AssertionExpression\r\n case Token.AS: {\r\n let toType = this.parseType(tn); // reports\r\n if (!toType) return null;\r\n expr = Node.createAssertionExpression(\r\n AssertionKind.AS,\r\n expr,\r\n toType,\r\n tn.range(startPos, tn.pos)\r\n );\r\n break;\r\n }\r\n case Token.EXCLAMATION: {\r\n expr = Node.createAssertionExpression(\r\n AssertionKind.NONNULL,\r\n expr,\r\n null,\r\n tn.range(startPos, tn.pos)\r\n );\r\n break;\r\n }\r\n // InstanceOfExpression\r\n case Token.INSTANCEOF: {\r\n let isType = this.parseType(tn); // reports\r\n if (!isType) return null;\r\n expr = Node.createInstanceOfExpression(\r\n expr,\r\n isType,\r\n tn.range(startPos, tn.pos)\r\n );\r\n break;\r\n }\r\n // ElementAccessExpression\r\n case Token.OPENBRACKET: {\r\n next = this.parseExpression(tn); // reports\r\n if (!next) return null;\r\n if (!tn.skip(Token.CLOSEBRACKET)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"]\"\r\n );\r\n return null;\r\n }\r\n expr = Node.createElementAccessExpression(\r\n expr,\r\n next,\r\n tn.range(startPos, tn.pos)\r\n );\r\n break;\r\n }\r\n // UnaryPostfixExpression\r\n case Token.PLUS_PLUS:\r\n case Token.MINUS_MINUS: {\r\n if (\r\n expr.kind != NodeKind.IDENTIFIER &&\r\n expr.kind != NodeKind.ELEMENTACCESS &&\r\n expr.kind != NodeKind.PROPERTYACCESS\r\n ) {\r\n this.error(\r\n DiagnosticCode.The_operand_of_an_increment_or_decrement_operator_must_be_a_variable_or_a_property_access,\r\n expr.range\r\n );\r\n }\r\n expr = Node.createUnaryPostfixExpression(\r\n token,\r\n expr,\r\n tn.range(startPos, tn.pos)\r\n );\r\n break;\r\n }\r\n // TernaryExpression\r\n case Token.QUESTION: {\r\n let ifThen = this.parseExpression(tn);\r\n if (!ifThen) return null;\r\n if (!tn.skip(Token.COLON)) {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \":\"\r\n );\r\n return null;\r\n }\r\n let ifElse = this.parseExpression(tn, precedence > Precedence.COMMA\r\n ? Precedence.COMMA + 1\r\n : Precedence.COMMA\r\n );\r\n if (!ifElse) return null;\r\n expr = Node.createTernaryExpression(\r\n expr,\r\n ifThen,\r\n ifElse,\r\n tn.range(startPos, tn.pos)\r\n );\r\n break;\r\n }\r\n // CommaExpression\r\n case Token.COMMA: {\r\n let commaExprs: Expression[] = [ expr ];\r\n do {\r\n expr = this.parseExpression(tn, Precedence.COMMA + 1);\r\n if (!expr) return null;\r\n commaExprs.push(expr);\r\n } while (tn.skip(Token.COMMA));\r\n expr = Node.createCommaExpression(commaExprs, tn.range(startPos, tn.pos));\r\n break;\r\n }\r\n default: {\r\n\r\n // PropertyAccessExpression\r\n if (token == Token.DOT) {\r\n if (tn.skipIdentifier()) {\r\n next = Node.createIdentifierExpression(tn.readIdentifier(), tn.range());\r\n } else {\r\n next = this.parseExpression(tn,\r\n isRightAssociative(token)\r\n ? nextPrecedence\r\n : nextPrecedence + 1\r\n );\r\n if (!next) return null;\r\n }\r\n if (next.kind == NodeKind.IDENTIFIER) { // expr '.' Identifier\r\n expr = Node.createPropertyAccessExpression(\r\n expr,\r\n next,\r\n tn.range(startPos, tn.pos)\r\n );\r\n } else if (next.kind == NodeKind.CALL) { // expr '.' CallExpression\r\n expr = this.joinPropertyCall(tn, startPos, expr, next);\r\n if (!expr) return null;\r\n } else {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n next.range\r\n );\r\n return null;\r\n }\r\n\r\n // BinaryExpression\r\n } else {\r\n next = this.parseExpression(tn,\r\n isRightAssociative(token)\r\n ? nextPrecedence\r\n : nextPrecedence + 1\r\n );\r\n if (!next) return null;\r\n expr = Node.createBinaryExpression(token, expr, next, tn.range(startPos, tn.pos));\r\n }\r\n break;\r\n }\r\n }\r\n expr = this.maybeParseCallExpression(tn, expr); // compound call like on an ElementAccess\r\n }\r\n return expr;\r\n }\r\n\r\n private joinPropertyCall(\r\n tn: Tokenizer,\r\n startPos: i32,\r\n expr: Expression,\r\n call: CallExpression\r\n ): Expression | null {\r\n var callee = call.expression;\r\n switch (callee.kind) {\r\n case NodeKind.IDENTIFIER: { // join property access and use as call target\r\n call.expression = Node.createPropertyAccessExpression(\r\n expr,\r\n callee,\r\n tn.range(startPos, tn.pos)\r\n );\r\n break;\r\n }\r\n case NodeKind.CALL: { // join call target und wrap the original call around it\r\n let inner = this.joinPropertyCall(tn, startPos, expr, callee);\r\n if (!inner) return null;\r\n call.expression = inner;\r\n call.range = tn.range(startPos, tn.pos);\r\n break;\r\n }\r\n default: {\r\n this.error(\r\n DiagnosticCode.Identifier_expected,\r\n call.range\r\n );\r\n return null;\r\n }\r\n }\r\n return call;\r\n }\r\n\r\n private maybeParseCallExpression(\r\n tn: Tokenizer,\r\n expr: Expression\r\n ): Expression {\r\n if (nodeIsCallable(expr.kind)) {\r\n let typeArguments: CommonTypeNode[] | null = null;\r\n while (\r\n tn.skip(Token.OPENPAREN)\r\n ||\r\n nodeIsGenericCallable(expr.kind) && (typeArguments = this.tryParseTypeArgumentsBeforeArguments(tn)) !== null\r\n ) {\r\n let args = this.parseArguments(tn);\r\n if (!args) break;\r\n expr = Node.createCallExpression( // is again callable\r\n expr,\r\n typeArguments,\r\n args,\r\n tn.range(expr.range.start, tn.pos)\r\n );\r\n }\r\n }\r\n return expr;\r\n }\r\n\r\n /** Skips over a statement on errors in an attempt to reduce unnecessary diagnostic noise. */\r\n skipStatement(tn: Tokenizer): void {\r\n tn.peek(true);\r\n if (tn.nextTokenOnNewLine) tn.next(); // if reset() to the previous line\r\n do {\r\n let nextToken = tn.peek(true);\r\n if (\r\n nextToken == Token.ENDOFFILE || // next step should handle this\r\n nextToken == Token.SEMICOLON // end of the statement for sure\r\n ) {\r\n tn.next();\r\n break;\r\n }\r\n if (tn.nextTokenOnNewLine) break; // end of the statement maybe\r\n switch (tn.next()) {\r\n case Token.IDENTIFIER: {\r\n tn.readIdentifier();\r\n break;\r\n }\r\n case Token.STRINGLITERAL: {\r\n tn.readString();\r\n break;\r\n }\r\n case Token.INTEGERLITERAL: {\r\n tn.readInteger();\r\n break;\r\n }\r\n case Token.FLOATLITERAL: {\r\n tn.readFloat();\r\n break;\r\n }\r\n }\r\n } while (true);\r\n }\r\n\r\n /** Skips over a block on errors in an attempt to reduce unnecessary diagnostic noise. */\r\n skipBlock(tn: Tokenizer): void {\r\n // at '{': ... '}'\r\n var depth = 1;\r\n var again = true;\r\n do {\r\n switch (tn.next()) {\r\n case Token.ENDOFFILE: {\r\n this.error(\r\n DiagnosticCode._0_expected,\r\n tn.range(), \"}\"\r\n );\r\n again = false;\r\n break;\r\n }\r\n case Token.OPENBRACE: {\r\n ++depth;\r\n break;\r\n }\r\n case Token.CLOSEBRACE: {\r\n --depth;\r\n if (!depth) again = false;\r\n break;\r\n }\r\n case Token.IDENTIFIER: {\r\n tn.readIdentifier();\r\n break;\r\n }\r\n case Token.STRINGLITERAL: {\r\n tn.readString();\r\n break;\r\n }\r\n case Token.INTEGERLITERAL: {\r\n tn.readInteger();\r\n break;\r\n }\r\n case Token.FLOATLITERAL: {\r\n tn.readFloat();\r\n break;\r\n }\r\n }\r\n } while (again);\r\n }\r\n}\r\n\r\n/** Operator precedence from least to largest. */\r\nexport const enum Precedence {\r\n NONE,\r\n COMMA,\r\n SPREAD,\r\n YIELD,\r\n ASSIGNMENT,\r\n CONDITIONAL,\r\n LOGICAL_OR,\r\n LOGICAL_AND,\r\n BITWISE_OR,\r\n BITWISE_XOR,\r\n BITWISE_AND,\r\n EQUALITY,\r\n RELATIONAL,\r\n SHIFT,\r\n ADDITIVE,\r\n MULTIPLICATIVE,\r\n EXPONENTIATED,\r\n UNARY_PREFIX,\r\n UNARY_POSTFIX,\r\n CALL,\r\n MEMBERACCESS,\r\n GROUPING\r\n}\r\n\r\n/** Determines the precedence of a starting token. */\r\nfunction determinePrecedenceStart(kind: Token): Precedence {\r\n switch (kind) {\r\n case Token.DOT_DOT_DOT: return Precedence.SPREAD;\r\n case Token.YIELD: return Precedence.YIELD;\r\n case Token.EXCLAMATION:\r\n case Token.TILDE:\r\n case Token.PLUS:\r\n case Token.MINUS:\r\n case Token.PLUS_PLUS:\r\n case Token.MINUS_MINUS:\r\n case Token.TYPEOF:\r\n case Token.VOID:\r\n case Token.DELETE: return Precedence.UNARY_PREFIX;\r\n case Token.NEW: return Precedence.MEMBERACCESS;\r\n }\r\n return Precedence.NONE;\r\n}\r\n\r\n/** Determines the precende of a non-starting token. */\r\nfunction determinePrecedence(kind: Token): Precedence {\r\n switch (kind) {\r\n case Token.COMMA: return Precedence.COMMA;\r\n case Token.EQUALS:\r\n case Token.PLUS_EQUALS:\r\n case Token.MINUS_EQUALS:\r\n case Token.ASTERISK_ASTERISK_EQUALS:\r\n case Token.ASTERISK_EQUALS:\r\n case Token.SLASH_EQUALS:\r\n case Token.PERCENT_EQUALS:\r\n case Token.LESSTHAN_LESSTHAN_EQUALS:\r\n case Token.GREATERTHAN_GREATERTHAN_EQUALS:\r\n case Token.GREATERTHAN_GREATERTHAN_GREATERTHAN_EQUALS:\r\n case Token.AMPERSAND_EQUALS:\r\n case Token.CARET_EQUALS:\r\n case Token.BAR_EQUALS: return Precedence.ASSIGNMENT;\r\n case Token.QUESTION: return Precedence.CONDITIONAL;\r\n case Token.BAR_BAR: return Precedence.LOGICAL_OR;\r\n case Token.AMPERSAND_AMPERSAND: return Precedence.LOGICAL_AND;\r\n case Token.BAR: return Precedence.BITWISE_OR;\r\n case Token.CARET: return Precedence.BITWISE_XOR;\r\n case Token.AMPERSAND: return Precedence.BITWISE_AND;\r\n case Token.EQUALS_EQUALS:\r\n case Token.EXCLAMATION_EQUALS:\r\n case Token.EQUALS_EQUALS_EQUALS:\r\n case Token.EXCLAMATION_EQUALS_EQUALS: return Precedence.EQUALITY;\r\n case Token.AS:\r\n case Token.IN:\r\n case Token.INSTANCEOF:\r\n case Token.LESSTHAN:\r\n case Token.GREATERTHAN:\r\n case Token.LESSTHAN_EQUALS:\r\n case Token.GREATERTHAN_EQUALS: return Precedence.RELATIONAL;\r\n case Token.LESSTHAN_LESSTHAN:\r\n case Token.GREATERTHAN_GREATERTHAN:\r\n case Token.GREATERTHAN_GREATERTHAN_GREATERTHAN: return Precedence.SHIFT;\r\n case Token.PLUS:\r\n case Token.MINUS: return Precedence.ADDITIVE;\r\n case Token.ASTERISK:\r\n case Token.SLASH:\r\n case Token.PERCENT: return Precedence.MULTIPLICATIVE;\r\n case Token.ASTERISK_ASTERISK: return Precedence.EXPONENTIATED;\r\n case Token.PLUS_PLUS:\r\n case Token.MINUS_MINUS: return Precedence.UNARY_POSTFIX;\r\n case Token.DOT:\r\n case Token.NEW:\r\n case Token.OPENBRACKET:\r\n case Token.EXCLAMATION: return Precedence.MEMBERACCESS;\r\n }\r\n return Precedence.NONE;\r\n}\r\n\r\n/** Determines whether a non-starting token is right associative. */\r\nfunction isRightAssociative(kind: Token): bool {\r\n switch (kind) {\r\n case Token.EQUALS:\r\n case Token.PLUS_EQUALS:\r\n case Token.MINUS_EQUALS:\r\n case Token.ASTERISK_ASTERISK_EQUALS:\r\n case Token.ASTERISK_EQUALS:\r\n case Token.SLASH_EQUALS:\r\n case Token.PERCENT_EQUALS:\r\n case Token.LESSTHAN_LESSTHAN_EQUALS:\r\n case Token.GREATERTHAN_GREATERTHAN_EQUALS:\r\n case Token.GREATERTHAN_GREATERTHAN_GREATERTHAN_EQUALS:\r\n case Token.AMPERSAND_EQUALS:\r\n case Token.CARET_EQUALS:\r\n case Token.BAR_EQUALS:\r\n case Token.QUESTION:\r\n case Token.ASTERISK_ASTERISK: return true;\r\n default: return false;\r\n }\r\n}\r\n","/**\r\n * JavaScript glue code.\r\n * @module glue/js\r\n * @preferred\r\n *//***/\r\n\r\n/// \r\n\r\nimport \"./binaryen\"; // must be first so portable can pick up the memory implementation\r\nimport \"../../../std/portable/index\";\r\nimport \"./float\";\r\nimport \"./i64\";\r\n\r\nimport { Module } from \"../../module\";\r\n\r\nModule.prototype.toText = function(this: Module) {\r\n return binaryen.wrapModule(this.ref).emitStackIR();\r\n};\r\n\r\nModule.prototype.toAsmjs = function(this: Module) {\r\n return binaryen.wrapModule(this.ref).emitAsmjs();\r\n};\r\n","// Copy Binaryen exports to global scope\r\n\r\nconst binaryen = global.Binaryen || require(\"binaryen\");\r\nglobal.binaryen = binaryen;\r\n\r\nfor (var key in binaryen) {\r\n if (key.startsWith(\"_Binaryen\") || key.startsWith(\"_Relooper\")) global[key] = binaryen[key];\r\n}\r\n\r\n// Utilize Binaryen's heap\r\n\r\nglobal.__memory_allocate = binaryen._malloc;\r\nglobal.__memory_free = binaryen._free;\r\nglobal.__memory_copy = binaryen._memmove;\r\nglobal.__store = function(ptr, val) { binaryen.HEAPU8[ptr] = val; };\r\nglobal.__load = function(ptr) { return binaryen.HEAPU8[ptr]; };\r\n","module.exports = __WEBPACK_EXTERNAL_MODULE__19__;","/** @module std/portable *//***/\r\n\r\nvar globalScope = typeof window !== \"undefined\" && window || typeof global !== \"undefined\" && global || self;\r\n\r\nglobalScope.ASC_TARGET = 0; // JS\r\nglobalScope.ASC_NO_ASSERT = false;\r\nglobalScope.ASC_MEMORY_BASE = 0;\r\nglobalScope.ASC_OPTIMIZE_LEVEL = 3;\r\nglobalScope.ASC_SHRINK_LEVEL = 0;\r\nglobalScope.ASC_FEATURE_MUTABLE_GLOBAL = false;\r\nglobalScope.ASC_FEATURE_SIGN_EXTENSION = false;\r\nglobalScope.ASC_FEATURE_BULK_MEMORY = false;\r\nglobalScope.ASC_FEATURE_SIMD = false;\r\nglobalScope.ASC_FEATURE_THREADS = false;\r\n\r\nvar F64 = new Float64Array(1);\r\nvar U64 = new Uint32Array(F64.buffer);\r\n\r\nObject.defineProperties(\r\n globalScope[\"i8\"] = function i8(value) { return value << 24 >> 24; }\r\n, {\r\n \"MIN_VALUE\": { value: -128, writable: false },\r\n \"MAX_VALUE\": { value: 127, writable: false }\r\n});\r\n\r\nObject.defineProperties(\r\n globalScope[\"i16\"] = function i16(value) { return value << 16 >> 16; }\r\n, {\r\n \"MIN_VALUE\": { value: -32768, writable: false },\r\n \"MAX_VALUE\": { value: 32767, writable: false }\r\n});\r\n\r\nObject.defineProperties(\r\n globalScope[\"i32\"] = globalScope[\"isize\"] = function i32(value) { return value | 0; }\r\n, {\r\n \"MIN_VALUE\": { value: -2147483648, writable: false },\r\n \"MAX_VALUE\": { value: 2147483647, writable: false }\r\n});\r\n\r\nObject.defineProperties(\r\n globalScope[\"u8\"] = function u8(value) { return value & 0xff; }\r\n, {\r\n \"MIN_VALUE\": { value: 0, writable: false },\r\n \"MAX_VALUE\": { value: 255, writable: false }\r\n});\r\n\r\nObject.defineProperties(\r\n globalScope[\"u16\"] = function u16(value) { return value & 0xffff; }\r\n, {\r\n \"MIN_VALUE\": { value: 0, writable: false },\r\n \"MAX_VALUE\": { value: 65535, writable: false }\r\n});\r\n\r\nObject.defineProperties(\r\n globalScope[\"u32\"] = globalScope[\"usize\"] = function u32(value) { return value >>> 0; }\r\n, {\r\n \"MIN_VALUE\": { value: 0, writable: false },\r\n \"MAX_VALUE\": { value: 4294967295, writable: false }\r\n});\r\n\r\nObject.defineProperties(\r\n globalScope[\"bool\"] = function bool(value) { return !!value; }\r\n, {\r\n \"MIN_VALUE\": { value: false, writable: false },\r\n \"MAX_VALUE\": { value: true, writable: false }\r\n});\r\n\r\nObject.defineProperties(\r\n globalScope[\"f32\"] = function f32(value) { return Math.fround(value); }\r\n, {\r\n \"EPSILON\": { value: Math.fround(1.1920929e-07), writable: false },\r\n \"MIN_VALUE\": { value: Math.fround(1.4012985e-45), writable: false },\r\n \"MAX_VALUE\": { value: Math.fround(3.4028235e+38), writable: false },\r\n \"MIN_NORMAL_VALUE\": { value: Math.fround(1.17549435e-38), writable: false },\r\n \"MIN_SAFE_INTEGER\": { value: -16777215, writable: false },\r\n \"MAX_SAFE_INTEGER\": { value: 16777215, writable: false }\r\n});\r\n\r\nObject.defineProperties(\r\n globalScope[\"f64\"] = function f64(value) { return +value; }\r\n, {\r\n \"EPSILON\": { value: 2.2204460492503131e-16, writable: false },\r\n \"MIN_VALUE\": { value: 5e-324, writable: false },\r\n \"MAX_VALUE\": { value: 1.7976931348623157e+308, writable: false },\r\n \"MIN_NORMAL_VALUE\": { value: 2.2250738585072014e-308 , writable: false },\r\n \"MIN_SAFE_INTEGER\": { value: -9007199254740991, writable: false },\r\n \"MAX_SAFE_INTEGER\": { value: 9007199254740991, writable: false }\r\n});\r\n\r\nglobalScope[\"clz\"] = Math.clz32;\r\n\r\nglobalScope[\"ctz\"] = function ctz(value) {\r\n var c = Math.clz32(value & -value);\r\n return value ? 31 - c : c;\r\n};\r\n\r\nglobalScope[\"popcnt\"] = function popcnt(value) {\r\n value -= value >>> 1 & 0x55555555;\r\n value = (value & 0x33333333) + (value >>> 2 & 0x33333333);\r\n return (((value + (value >>> 4)) & 0x0F0F0F0F) * 0x01010101) >>> 24;\r\n};\r\n\r\nglobalScope[\"rotl\"] = function rotl(value, shift) {\r\n shift &= 31;\r\n return (value << shift) | (value >>> (32 - shift));\r\n};\r\n\r\nglobalScope[\"rotr\"] = function rotr(value, shift) {\r\n shift &= 31;\r\n return (value >>> shift) | (value << (32 - shift));\r\n};\r\n\r\nglobalScope[\"abs\"] = Math.abs;\r\n\r\nglobalScope[\"max\"] = Math.max;\r\n\r\nglobalScope[\"min\"] = Math.min;\r\n\r\nglobalScope[\"ceil\"] = Math.ceil;\r\n\r\nglobalScope[\"floor\"] = Math.floor;\r\n\r\n// Adopt code from https://github.com/rfk/wasm-polyfill\r\nglobalScope[\"nearest\"] = function nearest(value) {\r\n if (Math.abs(value - Math.trunc(value)) === 0.5) {\r\n return 2.0 * Math.round(value * 0.5);\r\n }\r\n return Math.round(value);\r\n};\r\n\r\nglobalScope[\"select\"] = function select(ifTrue, ifFalse, condition) {\r\n return condition ? ifTrue : ifFalse;\r\n};\r\n\r\nglobalScope[\"sqrt\"] = Math.sqrt;\r\n\r\nglobalScope[\"trunc\"] = Math.trunc;\r\n\r\nglobalScope[\"copysign\"] = function copysign(x, y) {\r\n return Math.abs(x) * Math.sign(y);\r\n};\r\n\r\nglobalScope[\"bswap\"] = function bswap(value) {\r\n var a = value >> 8 & 0x00FF00FF;\r\n var b = (value & 0x00FF00FF) << 8;\r\n value = a | b;\r\n a = value >> 16 & 0x0000FFFF;\r\n b = (value & 0x0000FFFF) << 16;\r\n return a | b;\r\n};\r\n\r\nglobalScope[\"bswap16\"] = function bswap16(value) {\r\n return ((value << 8) & 0xFF00) | ((value >> 8) & 0x00FF) | (value & 0xFFFF0000);\r\n};\r\n\r\nfunction UnreachableError() {\r\n if (Error.captureStackTrace) {\r\n Error.captureStackTrace(this, UnreachableError);\r\n } else {\r\n this.stack = this.name + \": \" + this.message + \"\\n\" + new Error().stack;\r\n }\r\n}\r\nUnreachableError.prototype = Object.create(Error.prototype);\r\nUnreachableError.prototype.name = \"UnreachableError\";\r\nUnreachableError.prototype.message = \"unreachable\";\r\n\r\nglobalScope[\"unreachable\"] = function unreachable() {\r\n throw new UnreachableError();\r\n};\r\n\r\nfunction AssertionError(message) {\r\n this.message = message || \"assertion failed\";\r\n if (Error.captureStackTrace) {\r\n Error.captureStackTrace(this, AssertionError);\r\n } else {\r\n this.stack = this.name + \": \" + this.message + \"\\n\" + new Error().stack;\r\n }\r\n}\r\nAssertionError.prototype = Object.create(Error.prototype);\r\nAssertionError.prototype.name = \"AssertionError\";\r\n\r\nglobalScope[\"assert\"] = function assert(isTrueish, message) {\r\n if (isTrueish) return isTrueish;\r\n throw new AssertionError(message);\r\n};\r\n\r\nglobalScope[\"changetype\"] = function changetype(value) {\r\n return value;\r\n};\r\n\r\nglobalScope[\"parseI32\"] = function parseI32(str, radix) {\r\n return parseInt(str, undefined) | 0;\r\n};\r\n\r\nString[\"fromCharCodes\"] = function fromCharCodes(arr) {\r\n return String.fromCharCode.apply(String, arr);\r\n};\r\n\r\nString[\"fromCodePoints\"] = function fromCodePoints(arr) {\r\n return String.fromCodePoint.apply(String, arr);\r\n};\r\n\r\nglobalScope[\"isInteger\"] = Number.isInteger;\r\n\r\nglobalScope[\"isFloat\"] = function isFloat(arg) {\r\n return typeof arg === \"number\";\r\n};\r\n\r\nglobalScope[\"isNullable\"] = function isNullable(arg) {\r\n return true;\r\n}\r\n\r\nglobalScope[\"isReference\"] = function isReference(arg) {\r\n return typeof arg === \"object\" || typeof arg === \"string\";\r\n};\r\n\r\nglobalScope[\"isFunction\"] = function isFunction(arg) {\r\n return typeof arg === \"function\";\r\n}\r\n\r\nglobalScope[\"isString\"] = function isString(arg) {\r\n return typeof arg === \"string\" || arg instanceof String;\r\n};\r\n\r\nglobalScope[\"isArray\"] = Array.isArray;\r\nglobalScope[\"isArrayLike\"] = function isArrayLike(expr) {\r\n return expr\r\n && typeof expr === 'object'\r\n && typeof expr.length === 'number'\r\n && expr.length >= 0\r\n && Math.trunc(expr.length) === expr.length;\r\n}\r\n\r\nglobalScope[\"isDefined\"] = function isDefined(expr) {\r\n return typeof expr !== \"undefined\";\r\n}\r\n\r\nglobalScope[\"isConstant\"] = function isConstant(expr) {\r\n return false;\r\n};\r\n\r\nglobalScope[\"unchecked\"] = function unchecked(expr) {\r\n return expr;\r\n};\r\n\r\nglobalScope[\"fmod\"] = function fmod(x, y) {\r\n return x % y;\r\n};\r\n\r\nglobalScope[\"fmodf\"] = function fmodf(x, y) {\r\n return Math.fround(x % y);\r\n};\r\n\r\nglobalScope[\"JSMath\"] = Math;\r\n\r\nObject.defineProperties(globalScope[\"JSMath\"], {\r\n sincos_sin: { value: 0.0, writable: true },\r\n sincos_cos: { value: 0.0, writable: true },\r\n signbit: {\r\n value: function signbit(x) {\r\n F64[0] = x; return Boolean((U64[1] >>> 31) & (x == x));\r\n }\r\n },\r\n sincos: {\r\n value: function sincos(x) {\r\n this.sincos_sin = Math.sin(x);\r\n this.sincos_cos = Math.cos(x);\r\n }\r\n }\r\n});\r\n\r\nglobalScope[\"memory\"] = (() => {\r\n var HEAP = new Uint8Array(0);\r\n var HEAP_OFFSET = 0;\r\n return {\r\n allocate: globalScope[\"__memory_allocate\"] || function allocate(size) {\r\n if (!(size >>>= 0)) return 0;\r\n if (HEAP_OFFSET + size > HEAP.length) {\r\n var oldHeap = HEAP;\r\n HEAP = new Uint8Array(Math.max(65536, HEAP.length + size, HEAP.length * 2));\r\n HEAP.set(oldHeap);\r\n }\r\n var ptr = HEAP_OFFSET;\r\n if ((HEAP_OFFSET += size) & 7) HEAP_OFFSET = (HEAP_OFFSET | 7) + 1;\r\n return ptr;\r\n },\r\n fill: globalScope[\"__memory_fill\"] || function fill(dest, value, size) {\r\n HEAP.fill(value, dest, dest + size);\r\n },\r\n free: globalScope[\"__memory_free\"] || function free(ptr) { },\r\n copy: globalScope[\"__memory_copy\"] || function copy(dest, src, size) {\r\n HEAP.copyWithin(dest, src, src + size);\r\n },\r\n reset: globalScope[\"__memory_reset\"] || function reset() {\r\n HEAP = new Uint8Array(0);\r\n HEAP_OFFSET = 0;\r\n }\r\n };\r\n})();\r\n\r\nglobalScope[\"store\"] = globalScope[\"__store\"] || function store(ptr, value, offset) {\r\n HEAP[(ptr | 0) + (offset | 0)] = value;\r\n};\r\n\r\nglobalScope[\"load\"] = globalScope[\"__load\"] || function load(ptr, offset) {\r\n return HEAP[(ptr | 0) + (offset | 0)];\r\n};\r\n","const F64 = new Float64Array(1);\r\nconst F32 = new Float32Array(F64.buffer);\r\nconst I32 = new Int32Array(F64.buffer);\r\n\r\nglobal.f32_as_i32 = function(value) {\r\n F32[0] = value;\r\n return I32[0];\r\n};\r\n\r\nglobal.i32_as_f32 = function(value) {\r\n I32[0] = value;\r\n return F32[0];\r\n};\r\n\r\nglobal.f64_as_i64 = function(value) {\r\n F64[0] = value;\r\n return i64_new(I32[0], I32[1]);\r\n};\r\n\r\nglobal.i64_as_f64 = function(value) {\r\n I32[0] = i64_low(value);\r\n I32[1] = i64_high(value);\r\n return F64[0];\r\n};\r\n","const Long = global.Long || require(\"long\");\r\n\r\nglobal.i64_zero = Long.ZERO;\r\n\r\nglobal.i64_one = Long.ONE;\r\n\r\nglobal.i64_new = function(lo, hi) {\r\n return Long.fromBits(lo, hi);\r\n};\r\n\r\nglobal.i64_low = function(value) {\r\n return value.low;\r\n};\r\n\r\nglobal.i64_high = function(value) {\r\n return value.high;\r\n};\r\n\r\nglobal.i64_add = function(left, right) {\r\n return left.add(right);\r\n};\r\n\r\nglobal.i64_sub = function(left, right) {\r\n return left.sub(right);\r\n};\r\n\r\nglobal.i64_mul = function(left, right) {\r\n return left.mul(right);\r\n};\r\n\r\nglobal.i64_div = function(left, right) {\r\n return left.div(right);\r\n};\r\n\r\nglobal.i64_div_u = function(left, right) {\r\n return left.toUnsigned().div(right.toUnsigned()).toSigned();\r\n};\r\n\r\nglobal.i64_rem = function(left, right) {\r\n return left.mod(right);\r\n};\r\n\r\nglobal.i64_rem_u = function(left, right) {\r\n return left.toUnsigned().mod(right.toUnsigned()).toSigned();\r\n};\r\n\r\nglobal.i64_and = function(left, right) {\r\n return left.and(right);\r\n};\r\n\r\nglobal.i64_or = function(left, right) {\r\n return left.or(right);\r\n};\r\n\r\nglobal.i64_xor = function(left, right) {\r\n return left.xor(right);\r\n};\r\n\r\nglobal.i64_shl = function(left, right) {\r\n return left.shl(right);\r\n};\r\n\r\nglobal.i64_shr = function(left, right) {\r\n return left.shr(right);\r\n};\r\n\r\nglobal.i64_shr_u = function(left, right) {\r\n return left.shru(right);\r\n};\r\n\r\nglobal.i64_not = function(value) {\r\n return value.not();\r\n};\r\n\r\nglobal.i64_eq = function(left, right) {\r\n return left.eq(right);\r\n};\r\n\r\nglobal.i64_ne = function(left, right) {\r\n return left.ne(right);\r\n};\r\n\r\nglobal.i64_align = function(value, alignment) {\r\n assert(alignment && (alignment & (alignment - 1)) == 0);\r\n var mask = Long.fromInt(alignment - 1);\r\n return value.add(mask).and(mask.not());\r\n};\r\n\r\nglobal.i64_is_i8 = function(value) {\r\n return value.high === 0 && (value.low >= 0 && value.low <= i8.MAX_VALUE)\r\n || value.high === -1 && (value.low >= i8.MIN_VALUE && value.low < 0);\r\n};\r\n\r\nglobal.i64_is_i16 = function(value) {\r\n return value.high === 0 && (value.low >= 0 && value.low <= i16.MAX_VALUE)\r\n || value.high === -1 && (value.low >= i16.MIN_VALUE && value.low < 0);\r\n};\r\n\r\nglobal.i64_is_i32 = function(value) {\r\n return (value.high === 0 && value.low >= 0)\r\n || (value.high === -1 && value.low < 0);\r\n};\r\n\r\nglobal.i64_is_u8 = function(value) {\r\n return value.high === 0 && value.low >= 0 && value.low <= u8.MAX_VALUE;\r\n};\r\n\r\nglobal.i64_is_u16 = function(value) {\r\n return value.high === 0 && value.low >= 0 && value.low <= u16.MAX_VALUE;\r\n};\r\n\r\nglobal.i64_is_u32 = function(value) {\r\n return value.high === 0;\r\n};\r\n\r\nglobal.i64_is_bool = function(value) {\r\n return value.high === 0 && (value.low === 0 || value.low === 1);\r\n};\r\n\r\nconst minSafeF32 = Long.fromNumber(f32.MIN_SAFE_INTEGER);\r\nconst maxSafeF32 = Long.fromNumber(f32.MAX_SAFE_INTEGER);\r\n\r\nglobal.i64_is_f32 = function(value) {\r\n return value.gte(minSafeF32) && value.lte(maxSafeF32);\r\n};\r\n\r\nconst minSafeF64 = Long.fromNumber(f64.MIN_SAFE_INTEGER);\r\nconst maxSafeF64 = Long.fromNumber(f64.MAX_SAFE_INTEGER);\r\n\r\nglobal.i64_is_f64 = function(value) {\r\n return value.gte(minSafeF64) && value.lte(maxSafeF64);\r\n};\r\n\r\nglobal.i64_to_f32 = function(value) {\r\n return global.Math.fround(value.toNumber());\r\n};\r\n\r\nglobal.i64_to_f64 = function(value) {\r\n return value.toNumber();\r\n};\r\n\r\nglobal.i64_to_string = function(value, unsigned) {\r\n return (unsigned ? value.toUnsigned() : value).toString(10);\r\n};\r\n","module.exports = Long;\r\n\r\n/**\r\n * wasm optimizations, to do native i64 multiplication and divide\r\n */\r\nvar wasm = null;\r\n\r\ntry {\r\n wasm = new WebAssembly.Instance(new WebAssembly.Module(new Uint8Array([\r\n 0, 97, 115, 109, 1, 0, 0, 0, 1, 13, 2, 96, 0, 1, 127, 96, 4, 127, 127, 127, 127, 1, 127, 3, 7, 6, 0, 1, 1, 1, 1, 1, 6, 6, 1, 127, 1, 65, 0, 11, 7, 50, 6, 3, 109, 117, 108, 0, 1, 5, 100, 105, 118, 95, 115, 0, 2, 5, 100, 105, 118, 95, 117, 0, 3, 5, 114, 101, 109, 95, 115, 0, 4, 5, 114, 101, 109, 95, 117, 0, 5, 8, 103, 101, 116, 95, 104, 105, 103, 104, 0, 0, 10, 191, 1, 6, 4, 0, 35, 0, 11, 36, 1, 1, 126, 32, 0, 173, 32, 1, 173, 66, 32, 134, 132, 32, 2, 173, 32, 3, 173, 66, 32, 134, 132, 126, 34, 4, 66, 32, 135, 167, 36, 0, 32, 4, 167, 11, 36, 1, 1, 126, 32, 0, 173, 32, 1, 173, 66, 32, 134, 132, 32, 2, 173, 32, 3, 173, 66, 32, 134, 132, 127, 34, 4, 66, 32, 135, 167, 36, 0, 32, 4, 167, 11, 36, 1, 1, 126, 32, 0, 173, 32, 1, 173, 66, 32, 134, 132, 32, 2, 173, 32, 3, 173, 66, 32, 134, 132, 128, 34, 4, 66, 32, 135, 167, 36, 0, 32, 4, 167, 11, 36, 1, 1, 126, 32, 0, 173, 32, 1, 173, 66, 32, 134, 132, 32, 2, 173, 32, 3, 173, 66, 32, 134, 132, 129, 34, 4, 66, 32, 135, 167, 36, 0, 32, 4, 167, 11, 36, 1, 1, 126, 32, 0, 173, 32, 1, 173, 66, 32, 134, 132, 32, 2, 173, 32, 3, 173, 66, 32, 134, 132, 130, 34, 4, 66, 32, 135, 167, 36, 0, 32, 4, 167, 11\r\n ])), {}).exports;\r\n} catch (e) {\r\n // no wasm support :(\r\n}\r\n\r\n/**\r\n * Constructs a 64 bit two's-complement integer, given its low and high 32 bit values as *signed* integers.\r\n * See the from* functions below for more convenient ways of constructing Longs.\r\n * @exports Long\r\n * @class A Long class for representing a 64 bit two's-complement integer value.\r\n * @param {number} low The low (signed) 32 bits of the long\r\n * @param {number} high The high (signed) 32 bits of the long\r\n * @param {boolean=} unsigned Whether unsigned or not, defaults to signed\r\n * @constructor\r\n */\r\nfunction Long(low, high, unsigned) {\r\n\r\n /**\r\n * The low 32 bits as a signed value.\r\n * @type {number}\r\n */\r\n this.low = low | 0;\r\n\r\n /**\r\n * The high 32 bits as a signed value.\r\n * @type {number}\r\n */\r\n this.high = high | 0;\r\n\r\n /**\r\n * Whether unsigned or not.\r\n * @type {boolean}\r\n */\r\n this.unsigned = !!unsigned;\r\n}\r\n\r\n// The internal representation of a long is the two given signed, 32-bit values.\r\n// We use 32-bit pieces because these are the size of integers on which\r\n// Javascript performs bit-operations. For operations like addition and\r\n// multiplication, we split each number into 16 bit pieces, which can easily be\r\n// multiplied within Javascript's floating-point representation without overflow\r\n// or change in sign.\r\n//\r\n// In the algorithms below, we frequently reduce the negative case to the\r\n// positive case by negating the input(s) and then post-processing the result.\r\n// Note that we must ALWAYS check specially whether those values are MIN_VALUE\r\n// (-2^63) because -MIN_VALUE == MIN_VALUE (since 2^63 cannot be represented as\r\n// a positive number, it overflows back into a negative). Not handling this\r\n// case would often result in infinite recursion.\r\n//\r\n// Common constant values ZERO, ONE, NEG_ONE, etc. are defined below the from*\r\n// methods on which they depend.\r\n\r\n/**\r\n * An indicator used to reliably determine if an object is a Long or not.\r\n * @type {boolean}\r\n * @const\r\n * @private\r\n */\r\nLong.prototype.__isLong__;\r\n\r\nObject.defineProperty(Long.prototype, \"__isLong__\", { value: true });\r\n\r\n/**\r\n * @function\r\n * @param {*} obj Object\r\n * @returns {boolean}\r\n * @inner\r\n */\r\nfunction isLong(obj) {\r\n return (obj && obj[\"__isLong__\"]) === true;\r\n}\r\n\r\n/**\r\n * Tests if the specified object is a Long.\r\n * @function\r\n * @param {*} obj Object\r\n * @returns {boolean}\r\n */\r\nLong.isLong = isLong;\r\n\r\n/**\r\n * A cache of the Long representations of small integer values.\r\n * @type {!Object}\r\n * @inner\r\n */\r\nvar INT_CACHE = {};\r\n\r\n/**\r\n * A cache of the Long representations of small unsigned integer values.\r\n * @type {!Object}\r\n * @inner\r\n */\r\nvar UINT_CACHE = {};\r\n\r\n/**\r\n * @param {number} value\r\n * @param {boolean=} unsigned\r\n * @returns {!Long}\r\n * @inner\r\n */\r\nfunction fromInt(value, unsigned) {\r\n var obj, cachedObj, cache;\r\n if (unsigned) {\r\n value >>>= 0;\r\n if (cache = (0 <= value && value < 256)) {\r\n cachedObj = UINT_CACHE[value];\r\n if (cachedObj)\r\n return cachedObj;\r\n }\r\n obj = fromBits(value, (value | 0) < 0 ? -1 : 0, true);\r\n if (cache)\r\n UINT_CACHE[value] = obj;\r\n return obj;\r\n } else {\r\n value |= 0;\r\n if (cache = (-128 <= value && value < 128)) {\r\n cachedObj = INT_CACHE[value];\r\n if (cachedObj)\r\n return cachedObj;\r\n }\r\n obj = fromBits(value, value < 0 ? -1 : 0, false);\r\n if (cache)\r\n INT_CACHE[value] = obj;\r\n return obj;\r\n }\r\n}\r\n\r\n/**\r\n * Returns a Long representing the given 32 bit integer value.\r\n * @function\r\n * @param {number} value The 32 bit integer in question\r\n * @param {boolean=} unsigned Whether unsigned or not, defaults to signed\r\n * @returns {!Long} The corresponding Long value\r\n */\r\nLong.fromInt = fromInt;\r\n\r\n/**\r\n * @param {number} value\r\n * @param {boolean=} unsigned\r\n * @returns {!Long}\r\n * @inner\r\n */\r\nfunction fromNumber(value, unsigned) {\r\n if (isNaN(value))\r\n return unsigned ? UZERO : ZERO;\r\n if (unsigned) {\r\n if (value < 0)\r\n return UZERO;\r\n if (value >= TWO_PWR_64_DBL)\r\n return MAX_UNSIGNED_VALUE;\r\n } else {\r\n if (value <= -TWO_PWR_63_DBL)\r\n return MIN_VALUE;\r\n if (value + 1 >= TWO_PWR_63_DBL)\r\n return MAX_VALUE;\r\n }\r\n if (value < 0)\r\n return fromNumber(-value, unsigned).neg();\r\n return fromBits((value % TWO_PWR_32_DBL) | 0, (value / TWO_PWR_32_DBL) | 0, unsigned);\r\n}\r\n\r\n/**\r\n * Returns a Long representing the given value, provided that it is a finite number. Otherwise, zero is returned.\r\n * @function\r\n * @param {number} value The number in question\r\n * @param {boolean=} unsigned Whether unsigned or not, defaults to signed\r\n * @returns {!Long} The corresponding Long value\r\n */\r\nLong.fromNumber = fromNumber;\r\n\r\n/**\r\n * @param {number} lowBits\r\n * @param {number} highBits\r\n * @param {boolean=} unsigned\r\n * @returns {!Long}\r\n * @inner\r\n */\r\nfunction fromBits(lowBits, highBits, unsigned) {\r\n return new Long(lowBits, highBits, unsigned);\r\n}\r\n\r\n/**\r\n * Returns a Long representing the 64 bit integer that comes by concatenating the given low and high bits. Each is\r\n * assumed to use 32 bits.\r\n * @function\r\n * @param {number} lowBits The low 32 bits\r\n * @param {number} highBits The high 32 bits\r\n * @param {boolean=} unsigned Whether unsigned or not, defaults to signed\r\n * @returns {!Long} The corresponding Long value\r\n */\r\nLong.fromBits = fromBits;\r\n\r\n/**\r\n * @function\r\n * @param {number} base\r\n * @param {number} exponent\r\n * @returns {number}\r\n * @inner\r\n */\r\nvar pow_dbl = Math.pow; // Used 4 times (4*8 to 15+4)\r\n\r\n/**\r\n * @param {string} str\r\n * @param {(boolean|number)=} unsigned\r\n * @param {number=} radix\r\n * @returns {!Long}\r\n * @inner\r\n */\r\nfunction fromString(str, unsigned, radix) {\r\n if (str.length === 0)\r\n throw Error('empty string');\r\n if (str === \"NaN\" || str === \"Infinity\" || str === \"+Infinity\" || str === \"-Infinity\")\r\n return ZERO;\r\n if (typeof unsigned === 'number') {\r\n // For goog.math.long compatibility\r\n radix = unsigned,\r\n unsigned = false;\r\n } else {\r\n unsigned = !! unsigned;\r\n }\r\n radix = radix || 10;\r\n if (radix < 2 || 36 < radix)\r\n throw RangeError('radix');\r\n\r\n var p;\r\n if ((p = str.indexOf('-')) > 0)\r\n throw Error('interior hyphen');\r\n else if (p === 0) {\r\n return fromString(str.substring(1), unsigned, radix).neg();\r\n }\r\n\r\n // Do several (8) digits each time through the loop, so as to\r\n // minimize the calls to the very expensive emulated div.\r\n var radixToPower = fromNumber(pow_dbl(radix, 8));\r\n\r\n var result = ZERO;\r\n for (var i = 0; i < str.length; i += 8) {\r\n var size = Math.min(8, str.length - i),\r\n value = parseInt(str.substring(i, i + size), radix);\r\n if (size < 8) {\r\n var power = fromNumber(pow_dbl(radix, size));\r\n result = result.mul(power).add(fromNumber(value));\r\n } else {\r\n result = result.mul(radixToPower);\r\n result = result.add(fromNumber(value));\r\n }\r\n }\r\n result.unsigned = unsigned;\r\n return result;\r\n}\r\n\r\n/**\r\n * Returns a Long representation of the given string, written using the specified radix.\r\n * @function\r\n * @param {string} str The textual representation of the Long\r\n * @param {(boolean|number)=} unsigned Whether unsigned or not, defaults to signed\r\n * @param {number=} radix The radix in which the text is written (2-36), defaults to 10\r\n * @returns {!Long} The corresponding Long value\r\n */\r\nLong.fromString = fromString;\r\n\r\n/**\r\n * @function\r\n * @param {!Long|number|string|!{low: number, high: number, unsigned: boolean}} val\r\n * @param {boolean=} unsigned\r\n * @returns {!Long}\r\n * @inner\r\n */\r\nfunction fromValue(val, unsigned) {\r\n if (typeof val === 'number')\r\n return fromNumber(val, unsigned);\r\n if (typeof val === 'string')\r\n return fromString(val, unsigned);\r\n // Throws for non-objects, converts non-instanceof Long:\r\n return fromBits(val.low, val.high, typeof unsigned === 'boolean' ? unsigned : val.unsigned);\r\n}\r\n\r\n/**\r\n * Converts the specified value to a Long using the appropriate from* function for its type.\r\n * @function\r\n * @param {!Long|number|string|!{low: number, high: number, unsigned: boolean}} val Value\r\n * @param {boolean=} unsigned Whether unsigned or not, defaults to signed\r\n * @returns {!Long}\r\n */\r\nLong.fromValue = fromValue;\r\n\r\n// NOTE: the compiler should inline these constant values below and then remove these variables, so there should be\r\n// no runtime penalty for these.\r\n\r\n/**\r\n * @type {number}\r\n * @const\r\n * @inner\r\n */\r\nvar TWO_PWR_16_DBL = 1 << 16;\r\n\r\n/**\r\n * @type {number}\r\n * @const\r\n * @inner\r\n */\r\nvar TWO_PWR_24_DBL = 1 << 24;\r\n\r\n/**\r\n * @type {number}\r\n * @const\r\n * @inner\r\n */\r\nvar TWO_PWR_32_DBL = TWO_PWR_16_DBL * TWO_PWR_16_DBL;\r\n\r\n/**\r\n * @type {number}\r\n * @const\r\n * @inner\r\n */\r\nvar TWO_PWR_64_DBL = TWO_PWR_32_DBL * TWO_PWR_32_DBL;\r\n\r\n/**\r\n * @type {number}\r\n * @const\r\n * @inner\r\n */\r\nvar TWO_PWR_63_DBL = TWO_PWR_64_DBL / 2;\r\n\r\n/**\r\n * @type {!Long}\r\n * @const\r\n * @inner\r\n */\r\nvar TWO_PWR_24 = fromInt(TWO_PWR_24_DBL);\r\n\r\n/**\r\n * @type {!Long}\r\n * @inner\r\n */\r\nvar ZERO = fromInt(0);\r\n\r\n/**\r\n * Signed zero.\r\n * @type {!Long}\r\n */\r\nLong.ZERO = ZERO;\r\n\r\n/**\r\n * @type {!Long}\r\n * @inner\r\n */\r\nvar UZERO = fromInt(0, true);\r\n\r\n/**\r\n * Unsigned zero.\r\n * @type {!Long}\r\n */\r\nLong.UZERO = UZERO;\r\n\r\n/**\r\n * @type {!Long}\r\n * @inner\r\n */\r\nvar ONE = fromInt(1);\r\n\r\n/**\r\n * Signed one.\r\n * @type {!Long}\r\n */\r\nLong.ONE = ONE;\r\n\r\n/**\r\n * @type {!Long}\r\n * @inner\r\n */\r\nvar UONE = fromInt(1, true);\r\n\r\n/**\r\n * Unsigned one.\r\n * @type {!Long}\r\n */\r\nLong.UONE = UONE;\r\n\r\n/**\r\n * @type {!Long}\r\n * @inner\r\n */\r\nvar NEG_ONE = fromInt(-1);\r\n\r\n/**\r\n * Signed negative one.\r\n * @type {!Long}\r\n */\r\nLong.NEG_ONE = NEG_ONE;\r\n\r\n/**\r\n * @type {!Long}\r\n * @inner\r\n */\r\nvar MAX_VALUE = fromBits(0xFFFFFFFF|0, 0x7FFFFFFF|0, false);\r\n\r\n/**\r\n * Maximum signed value.\r\n * @type {!Long}\r\n */\r\nLong.MAX_VALUE = MAX_VALUE;\r\n\r\n/**\r\n * @type {!Long}\r\n * @inner\r\n */\r\nvar MAX_UNSIGNED_VALUE = fromBits(0xFFFFFFFF|0, 0xFFFFFFFF|0, true);\r\n\r\n/**\r\n * Maximum unsigned value.\r\n * @type {!Long}\r\n */\r\nLong.MAX_UNSIGNED_VALUE = MAX_UNSIGNED_VALUE;\r\n\r\n/**\r\n * @type {!Long}\r\n * @inner\r\n */\r\nvar MIN_VALUE = fromBits(0, 0x80000000|0, false);\r\n\r\n/**\r\n * Minimum signed value.\r\n * @type {!Long}\r\n */\r\nLong.MIN_VALUE = MIN_VALUE;\r\n\r\n/**\r\n * @alias Long.prototype\r\n * @inner\r\n */\r\nvar LongPrototype = Long.prototype;\r\n\r\n/**\r\n * Converts the Long to a 32 bit integer, assuming it is a 32 bit integer.\r\n * @returns {number}\r\n */\r\nLongPrototype.toInt = function toInt() {\r\n return this.unsigned ? this.low >>> 0 : this.low;\r\n};\r\n\r\n/**\r\n * Converts the Long to a the nearest floating-point representation of this value (double, 53 bit mantissa).\r\n * @returns {number}\r\n */\r\nLongPrototype.toNumber = function toNumber() {\r\n if (this.unsigned)\r\n return ((this.high >>> 0) * TWO_PWR_32_DBL) + (this.low >>> 0);\r\n return this.high * TWO_PWR_32_DBL + (this.low >>> 0);\r\n};\r\n\r\n/**\r\n * Converts the Long to a string written in the specified radix.\r\n * @param {number=} radix Radix (2-36), defaults to 10\r\n * @returns {string}\r\n * @override\r\n * @throws {RangeError} If `radix` is out of range\r\n */\r\nLongPrototype.toString = function toString(radix) {\r\n radix = radix || 10;\r\n if (radix < 2 || 36 < radix)\r\n throw RangeError('radix');\r\n if (this.isZero())\r\n return '0';\r\n if (this.isNegative()) { // Unsigned Longs are never negative\r\n if (this.eq(MIN_VALUE)) {\r\n // We need to change the Long value before it can be negated, so we remove\r\n // the bottom-most digit in this base and then recurse to do the rest.\r\n var radixLong = fromNumber(radix),\r\n div = this.div(radixLong),\r\n rem1 = div.mul(radixLong).sub(this);\r\n return div.toString(radix) + rem1.toInt().toString(radix);\r\n } else\r\n return '-' + this.neg().toString(radix);\r\n }\r\n\r\n // Do several (6) digits each time through the loop, so as to\r\n // minimize the calls to the very expensive emulated div.\r\n var radixToPower = fromNumber(pow_dbl(radix, 6), this.unsigned),\r\n rem = this;\r\n var result = '';\r\n while (true) {\r\n var remDiv = rem.div(radixToPower),\r\n intval = rem.sub(remDiv.mul(radixToPower)).toInt() >>> 0,\r\n digits = intval.toString(radix);\r\n rem = remDiv;\r\n if (rem.isZero())\r\n return digits + result;\r\n else {\r\n while (digits.length < 6)\r\n digits = '0' + digits;\r\n result = '' + digits + result;\r\n }\r\n }\r\n};\r\n\r\n/**\r\n * Gets the high 32 bits as a signed integer.\r\n * @returns {number} Signed high bits\r\n */\r\nLongPrototype.getHighBits = function getHighBits() {\r\n return this.high;\r\n};\r\n\r\n/**\r\n * Gets the high 32 bits as an unsigned integer.\r\n * @returns {number} Unsigned high bits\r\n */\r\nLongPrototype.getHighBitsUnsigned = function getHighBitsUnsigned() {\r\n return this.high >>> 0;\r\n};\r\n\r\n/**\r\n * Gets the low 32 bits as a signed integer.\r\n * @returns {number} Signed low bits\r\n */\r\nLongPrototype.getLowBits = function getLowBits() {\r\n return this.low;\r\n};\r\n\r\n/**\r\n * Gets the low 32 bits as an unsigned integer.\r\n * @returns {number} Unsigned low bits\r\n */\r\nLongPrototype.getLowBitsUnsigned = function getLowBitsUnsigned() {\r\n return this.low >>> 0;\r\n};\r\n\r\n/**\r\n * Gets the number of bits needed to represent the absolute value of this Long.\r\n * @returns {number}\r\n */\r\nLongPrototype.getNumBitsAbs = function getNumBitsAbs() {\r\n if (this.isNegative()) // Unsigned Longs are never negative\r\n return this.eq(MIN_VALUE) ? 64 : this.neg().getNumBitsAbs();\r\n var val = this.high != 0 ? this.high : this.low;\r\n for (var bit = 31; bit > 0; bit--)\r\n if ((val & (1 << bit)) != 0)\r\n break;\r\n return this.high != 0 ? bit + 33 : bit + 1;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value equals zero.\r\n * @returns {boolean}\r\n */\r\nLongPrototype.isZero = function isZero() {\r\n return this.high === 0 && this.low === 0;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value equals zero. This is an alias of {@link Long#isZero}.\r\n * @returns {boolean}\r\n */\r\nLongPrototype.eqz = LongPrototype.isZero;\r\n\r\n/**\r\n * Tests if this Long's value is negative.\r\n * @returns {boolean}\r\n */\r\nLongPrototype.isNegative = function isNegative() {\r\n return !this.unsigned && this.high < 0;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value is positive.\r\n * @returns {boolean}\r\n */\r\nLongPrototype.isPositive = function isPositive() {\r\n return this.unsigned || this.high >= 0;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value is odd.\r\n * @returns {boolean}\r\n */\r\nLongPrototype.isOdd = function isOdd() {\r\n return (this.low & 1) === 1;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value is even.\r\n * @returns {boolean}\r\n */\r\nLongPrototype.isEven = function isEven() {\r\n return (this.low & 1) === 0;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value equals the specified's.\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.equals = function equals(other) {\r\n if (!isLong(other))\r\n other = fromValue(other);\r\n if (this.unsigned !== other.unsigned && (this.high >>> 31) === 1 && (other.high >>> 31) === 1)\r\n return false;\r\n return this.high === other.high && this.low === other.low;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value equals the specified's. This is an alias of {@link Long#equals}.\r\n * @function\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.eq = LongPrototype.equals;\r\n\r\n/**\r\n * Tests if this Long's value differs from the specified's.\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.notEquals = function notEquals(other) {\r\n return !this.eq(/* validates */ other);\r\n};\r\n\r\n/**\r\n * Tests if this Long's value differs from the specified's. This is an alias of {@link Long#notEquals}.\r\n * @function\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.neq = LongPrototype.notEquals;\r\n\r\n/**\r\n * Tests if this Long's value differs from the specified's. This is an alias of {@link Long#notEquals}.\r\n * @function\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.ne = LongPrototype.notEquals;\r\n\r\n/**\r\n * Tests if this Long's value is less than the specified's.\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.lessThan = function lessThan(other) {\r\n return this.comp(/* validates */ other) < 0;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value is less than the specified's. This is an alias of {@link Long#lessThan}.\r\n * @function\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.lt = LongPrototype.lessThan;\r\n\r\n/**\r\n * Tests if this Long's value is less than or equal the specified's.\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.lessThanOrEqual = function lessThanOrEqual(other) {\r\n return this.comp(/* validates */ other) <= 0;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value is less than or equal the specified's. This is an alias of {@link Long#lessThanOrEqual}.\r\n * @function\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.lte = LongPrototype.lessThanOrEqual;\r\n\r\n/**\r\n * Tests if this Long's value is less than or equal the specified's. This is an alias of {@link Long#lessThanOrEqual}.\r\n * @function\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.le = LongPrototype.lessThanOrEqual;\r\n\r\n/**\r\n * Tests if this Long's value is greater than the specified's.\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.greaterThan = function greaterThan(other) {\r\n return this.comp(/* validates */ other) > 0;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value is greater than the specified's. This is an alias of {@link Long#greaterThan}.\r\n * @function\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.gt = LongPrototype.greaterThan;\r\n\r\n/**\r\n * Tests if this Long's value is greater than or equal the specified's.\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.greaterThanOrEqual = function greaterThanOrEqual(other) {\r\n return this.comp(/* validates */ other) >= 0;\r\n};\r\n\r\n/**\r\n * Tests if this Long's value is greater than or equal the specified's. This is an alias of {@link Long#greaterThanOrEqual}.\r\n * @function\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.gte = LongPrototype.greaterThanOrEqual;\r\n\r\n/**\r\n * Tests if this Long's value is greater than or equal the specified's. This is an alias of {@link Long#greaterThanOrEqual}.\r\n * @function\r\n * @param {!Long|number|string} other Other value\r\n * @returns {boolean}\r\n */\r\nLongPrototype.ge = LongPrototype.greaterThanOrEqual;\r\n\r\n/**\r\n * Compares this Long's value with the specified's.\r\n * @param {!Long|number|string} other Other value\r\n * @returns {number} 0 if they are the same, 1 if the this is greater and -1\r\n * if the given one is greater\r\n */\r\nLongPrototype.compare = function compare(other) {\r\n if (!isLong(other))\r\n other = fromValue(other);\r\n if (this.eq(other))\r\n return 0;\r\n var thisNeg = this.isNegative(),\r\n otherNeg = other.isNegative();\r\n if (thisNeg && !otherNeg)\r\n return -1;\r\n if (!thisNeg && otherNeg)\r\n return 1;\r\n // At this point the sign bits are the same\r\n if (!this.unsigned)\r\n return this.sub(other).isNegative() ? -1 : 1;\r\n // Both are positive if at least one is unsigned\r\n return (other.high >>> 0) > (this.high >>> 0) || (other.high === this.high && (other.low >>> 0) > (this.low >>> 0)) ? -1 : 1;\r\n};\r\n\r\n/**\r\n * Compares this Long's value with the specified's. This is an alias of {@link Long#compare}.\r\n * @function\r\n * @param {!Long|number|string} other Other value\r\n * @returns {number} 0 if they are the same, 1 if the this is greater and -1\r\n * if the given one is greater\r\n */\r\nLongPrototype.comp = LongPrototype.compare;\r\n\r\n/**\r\n * Negates this Long's value.\r\n * @returns {!Long} Negated Long\r\n */\r\nLongPrototype.negate = function negate() {\r\n if (!this.unsigned && this.eq(MIN_VALUE))\r\n return MIN_VALUE;\r\n return this.not().add(ONE);\r\n};\r\n\r\n/**\r\n * Negates this Long's value. This is an alias of {@link Long#negate}.\r\n * @function\r\n * @returns {!Long} Negated Long\r\n */\r\nLongPrototype.neg = LongPrototype.negate;\r\n\r\n/**\r\n * Returns the sum of this and the specified Long.\r\n * @param {!Long|number|string} addend Addend\r\n * @returns {!Long} Sum\r\n */\r\nLongPrototype.add = function add(addend) {\r\n if (!isLong(addend))\r\n addend = fromValue(addend);\r\n\r\n // Divide each number into 4 chunks of 16 bits, and then sum the chunks.\r\n\r\n var a48 = this.high >>> 16;\r\n var a32 = this.high & 0xFFFF;\r\n var a16 = this.low >>> 16;\r\n var a00 = this.low & 0xFFFF;\r\n\r\n var b48 = addend.high >>> 16;\r\n var b32 = addend.high & 0xFFFF;\r\n var b16 = addend.low >>> 16;\r\n var b00 = addend.low & 0xFFFF;\r\n\r\n var c48 = 0, c32 = 0, c16 = 0, c00 = 0;\r\n c00 += a00 + b00;\r\n c16 += c00 >>> 16;\r\n c00 &= 0xFFFF;\r\n c16 += a16 + b16;\r\n c32 += c16 >>> 16;\r\n c16 &= 0xFFFF;\r\n c32 += a32 + b32;\r\n c48 += c32 >>> 16;\r\n c32 &= 0xFFFF;\r\n c48 += a48 + b48;\r\n c48 &= 0xFFFF;\r\n return fromBits((c16 << 16) | c00, (c48 << 16) | c32, this.unsigned);\r\n};\r\n\r\n/**\r\n * Returns the difference of this and the specified Long.\r\n * @param {!Long|number|string} subtrahend Subtrahend\r\n * @returns {!Long} Difference\r\n */\r\nLongPrototype.subtract = function subtract(subtrahend) {\r\n if (!isLong(subtrahend))\r\n subtrahend = fromValue(subtrahend);\r\n return this.add(subtrahend.neg());\r\n};\r\n\r\n/**\r\n * Returns the difference of this and the specified Long. This is an alias of {@link Long#subtract}.\r\n * @function\r\n * @param {!Long|number|string} subtrahend Subtrahend\r\n * @returns {!Long} Difference\r\n */\r\nLongPrototype.sub = LongPrototype.subtract;\r\n\r\n/**\r\n * Returns the product of this and the specified Long.\r\n * @param {!Long|number|string} multiplier Multiplier\r\n * @returns {!Long} Product\r\n */\r\nLongPrototype.multiply = function multiply(multiplier) {\r\n if (this.isZero())\r\n return ZERO;\r\n if (!isLong(multiplier))\r\n multiplier = fromValue(multiplier);\r\n\r\n // use wasm support if present\r\n if (wasm) {\r\n var low = wasm.mul(this.low,\r\n this.high,\r\n multiplier.low,\r\n multiplier.high);\r\n return fromBits(low, wasm.get_high(), this.unsigned);\r\n }\r\n\r\n if (multiplier.isZero())\r\n return ZERO;\r\n if (this.eq(MIN_VALUE))\r\n return multiplier.isOdd() ? MIN_VALUE : ZERO;\r\n if (multiplier.eq(MIN_VALUE))\r\n return this.isOdd() ? MIN_VALUE : ZERO;\r\n\r\n if (this.isNegative()) {\r\n if (multiplier.isNegative())\r\n return this.neg().mul(multiplier.neg());\r\n else\r\n return this.neg().mul(multiplier).neg();\r\n } else if (multiplier.isNegative())\r\n return this.mul(multiplier.neg()).neg();\r\n\r\n // If both longs are small, use float multiplication\r\n if (this.lt(TWO_PWR_24) && multiplier.lt(TWO_PWR_24))\r\n return fromNumber(this.toNumber() * multiplier.toNumber(), this.unsigned);\r\n\r\n // Divide each long into 4 chunks of 16 bits, and then add up 4x4 products.\r\n // We can skip products that would overflow.\r\n\r\n var a48 = this.high >>> 16;\r\n var a32 = this.high & 0xFFFF;\r\n var a16 = this.low >>> 16;\r\n var a00 = this.low & 0xFFFF;\r\n\r\n var b48 = multiplier.high >>> 16;\r\n var b32 = multiplier.high & 0xFFFF;\r\n var b16 = multiplier.low >>> 16;\r\n var b00 = multiplier.low & 0xFFFF;\r\n\r\n var c48 = 0, c32 = 0, c16 = 0, c00 = 0;\r\n c00 += a00 * b00;\r\n c16 += c00 >>> 16;\r\n c00 &= 0xFFFF;\r\n c16 += a16 * b00;\r\n c32 += c16 >>> 16;\r\n c16 &= 0xFFFF;\r\n c16 += a00 * b16;\r\n c32 += c16 >>> 16;\r\n c16 &= 0xFFFF;\r\n c32 += a32 * b00;\r\n c48 += c32 >>> 16;\r\n c32 &= 0xFFFF;\r\n c32 += a16 * b16;\r\n c48 += c32 >>> 16;\r\n c32 &= 0xFFFF;\r\n c32 += a00 * b32;\r\n c48 += c32 >>> 16;\r\n c32 &= 0xFFFF;\r\n c48 += a48 * b00 + a32 * b16 + a16 * b32 + a00 * b48;\r\n c48 &= 0xFFFF;\r\n return fromBits((c16 << 16) | c00, (c48 << 16) | c32, this.unsigned);\r\n};\r\n\r\n/**\r\n * Returns the product of this and the specified Long. This is an alias of {@link Long#multiply}.\r\n * @function\r\n * @param {!Long|number|string} multiplier Multiplier\r\n * @returns {!Long} Product\r\n */\r\nLongPrototype.mul = LongPrototype.multiply;\r\n\r\n/**\r\n * Returns this Long divided by the specified. The result is signed if this Long is signed or\r\n * unsigned if this Long is unsigned.\r\n * @param {!Long|number|string} divisor Divisor\r\n * @returns {!Long} Quotient\r\n */\r\nLongPrototype.divide = function divide(divisor) {\r\n if (!isLong(divisor))\r\n divisor = fromValue(divisor);\r\n if (divisor.isZero())\r\n throw Error('division by zero');\r\n\r\n // use wasm support if present\r\n if (wasm) {\r\n // guard against signed division overflow: the largest\r\n // negative number / -1 would be 1 larger than the largest\r\n // positive number, due to two's complement.\r\n if (!this.unsigned &&\r\n this.high === -0x80000000 &&\r\n divisor.low === -1 && divisor.high === -1) {\r\n // be consistent with non-wasm code path\r\n return this;\r\n }\r\n var low = (this.unsigned ? wasm.div_u : wasm.div_s)(\r\n this.low,\r\n this.high,\r\n divisor.low,\r\n divisor.high\r\n );\r\n return fromBits(low, wasm.get_high(), this.unsigned);\r\n }\r\n\r\n if (this.isZero())\r\n return this.unsigned ? UZERO : ZERO;\r\n var approx, rem, res;\r\n if (!this.unsigned) {\r\n // This section is only relevant for signed longs and is derived from the\r\n // closure library as a whole.\r\n if (this.eq(MIN_VALUE)) {\r\n if (divisor.eq(ONE) || divisor.eq(NEG_ONE))\r\n return MIN_VALUE; // recall that -MIN_VALUE == MIN_VALUE\r\n else if (divisor.eq(MIN_VALUE))\r\n return ONE;\r\n else {\r\n // At this point, we have |other| >= 2, so |this/other| < |MIN_VALUE|.\r\n var halfThis = this.shr(1);\r\n approx = halfThis.div(divisor).shl(1);\r\n if (approx.eq(ZERO)) {\r\n return divisor.isNegative() ? ONE : NEG_ONE;\r\n } else {\r\n rem = this.sub(divisor.mul(approx));\r\n res = approx.add(rem.div(divisor));\r\n return res;\r\n }\r\n }\r\n } else if (divisor.eq(MIN_VALUE))\r\n return this.unsigned ? UZERO : ZERO;\r\n if (this.isNegative()) {\r\n if (divisor.isNegative())\r\n return this.neg().div(divisor.neg());\r\n return this.neg().div(divisor).neg();\r\n } else if (divisor.isNegative())\r\n return this.div(divisor.neg()).neg();\r\n res = ZERO;\r\n } else {\r\n // The algorithm below has not been made for unsigned longs. It's therefore\r\n // required to take special care of the MSB prior to running it.\r\n if (!divisor.unsigned)\r\n divisor = divisor.toUnsigned();\r\n if (divisor.gt(this))\r\n return UZERO;\r\n if (divisor.gt(this.shru(1))) // 15 >>> 1 = 7 ; with divisor = 8 ; true\r\n return UONE;\r\n res = UZERO;\r\n }\r\n\r\n // Repeat the following until the remainder is less than other: find a\r\n // floating-point that approximates remainder / other *from below*, add this\r\n // into the result, and subtract it from the remainder. It is critical that\r\n // the approximate value is less than or equal to the real value so that the\r\n // remainder never becomes negative.\r\n rem = this;\r\n while (rem.gte(divisor)) {\r\n // Approximate the result of division. This may be a little greater or\r\n // smaller than the actual value.\r\n approx = Math.max(1, Math.floor(rem.toNumber() / divisor.toNumber()));\r\n\r\n // We will tweak the approximate result by changing it in the 48-th digit or\r\n // the smallest non-fractional digit, whichever is larger.\r\n var log2 = Math.ceil(Math.log(approx) / Math.LN2),\r\n delta = (log2 <= 48) ? 1 : pow_dbl(2, log2 - 48),\r\n\r\n // Decrease the approximation until it is smaller than the remainder. Note\r\n // that if it is too large, the product overflows and is negative.\r\n approxRes = fromNumber(approx),\r\n approxRem = approxRes.mul(divisor);\r\n while (approxRem.isNegative() || approxRem.gt(rem)) {\r\n approx -= delta;\r\n approxRes = fromNumber(approx, this.unsigned);\r\n approxRem = approxRes.mul(divisor);\r\n }\r\n\r\n // We know the answer can't be zero... and actually, zero would cause\r\n // infinite recursion since we would make no progress.\r\n if (approxRes.isZero())\r\n approxRes = ONE;\r\n\r\n res = res.add(approxRes);\r\n rem = rem.sub(approxRem);\r\n }\r\n return res;\r\n};\r\n\r\n/**\r\n * Returns this Long divided by the specified. This is an alias of {@link Long#divide}.\r\n * @function\r\n * @param {!Long|number|string} divisor Divisor\r\n * @returns {!Long} Quotient\r\n */\r\nLongPrototype.div = LongPrototype.divide;\r\n\r\n/**\r\n * Returns this Long modulo the specified.\r\n * @param {!Long|number|string} divisor Divisor\r\n * @returns {!Long} Remainder\r\n */\r\nLongPrototype.modulo = function modulo(divisor) {\r\n if (!isLong(divisor))\r\n divisor = fromValue(divisor);\r\n\r\n // use wasm support if present\r\n if (wasm) {\r\n var low = (this.unsigned ? wasm.rem_u : wasm.rem_s)(\r\n this.low,\r\n this.high,\r\n divisor.low,\r\n divisor.high\r\n );\r\n return fromBits(low, wasm.get_high(), this.unsigned);\r\n }\r\n\r\n return this.sub(this.div(divisor).mul(divisor));\r\n};\r\n\r\n/**\r\n * Returns this Long modulo the specified. This is an alias of {@link Long#modulo}.\r\n * @function\r\n * @param {!Long|number|string} divisor Divisor\r\n * @returns {!Long} Remainder\r\n */\r\nLongPrototype.mod = LongPrototype.modulo;\r\n\r\n/**\r\n * Returns this Long modulo the specified. This is an alias of {@link Long#modulo}.\r\n * @function\r\n * @param {!Long|number|string} divisor Divisor\r\n * @returns {!Long} Remainder\r\n */\r\nLongPrototype.rem = LongPrototype.modulo;\r\n\r\n/**\r\n * Returns the bitwise NOT of this Long.\r\n * @returns {!Long}\r\n */\r\nLongPrototype.not = function not() {\r\n return fromBits(~this.low, ~this.high, this.unsigned);\r\n};\r\n\r\n/**\r\n * Returns the bitwise AND of this Long and the specified.\r\n * @param {!Long|number|string} other Other Long\r\n * @returns {!Long}\r\n */\r\nLongPrototype.and = function and(other) {\r\n if (!isLong(other))\r\n other = fromValue(other);\r\n return fromBits(this.low & other.low, this.high & other.high, this.unsigned);\r\n};\r\n\r\n/**\r\n * Returns the bitwise OR of this Long and the specified.\r\n * @param {!Long|number|string} other Other Long\r\n * @returns {!Long}\r\n */\r\nLongPrototype.or = function or(other) {\r\n if (!isLong(other))\r\n other = fromValue(other);\r\n return fromBits(this.low | other.low, this.high | other.high, this.unsigned);\r\n};\r\n\r\n/**\r\n * Returns the bitwise XOR of this Long and the given one.\r\n * @param {!Long|number|string} other Other Long\r\n * @returns {!Long}\r\n */\r\nLongPrototype.xor = function xor(other) {\r\n if (!isLong(other))\r\n other = fromValue(other);\r\n return fromBits(this.low ^ other.low, this.high ^ other.high, this.unsigned);\r\n};\r\n\r\n/**\r\n * Returns this Long with bits shifted to the left by the given amount.\r\n * @param {number|!Long} numBits Number of bits\r\n * @returns {!Long} Shifted Long\r\n */\r\nLongPrototype.shiftLeft = function shiftLeft(numBits) {\r\n if (isLong(numBits))\r\n numBits = numBits.toInt();\r\n if ((numBits &= 63) === 0)\r\n return this;\r\n else if (numBits < 32)\r\n return fromBits(this.low << numBits, (this.high << numBits) | (this.low >>> (32 - numBits)), this.unsigned);\r\n else\r\n return fromBits(0, this.low << (numBits - 32), this.unsigned);\r\n};\r\n\r\n/**\r\n * Returns this Long with bits shifted to the left by the given amount. This is an alias of {@link Long#shiftLeft}.\r\n * @function\r\n * @param {number|!Long} numBits Number of bits\r\n * @returns {!Long} Shifted Long\r\n */\r\nLongPrototype.shl = LongPrototype.shiftLeft;\r\n\r\n/**\r\n * Returns this Long with bits arithmetically shifted to the right by the given amount.\r\n * @param {number|!Long} numBits Number of bits\r\n * @returns {!Long} Shifted Long\r\n */\r\nLongPrototype.shiftRight = function shiftRight(numBits) {\r\n if (isLong(numBits))\r\n numBits = numBits.toInt();\r\n if ((numBits &= 63) === 0)\r\n return this;\r\n else if (numBits < 32)\r\n return fromBits((this.low >>> numBits) | (this.high << (32 - numBits)), this.high >> numBits, this.unsigned);\r\n else\r\n return fromBits(this.high >> (numBits - 32), this.high >= 0 ? 0 : -1, this.unsigned);\r\n};\r\n\r\n/**\r\n * Returns this Long with bits arithmetically shifted to the right by the given amount. This is an alias of {@link Long#shiftRight}.\r\n * @function\r\n * @param {number|!Long} numBits Number of bits\r\n * @returns {!Long} Shifted Long\r\n */\r\nLongPrototype.shr = LongPrototype.shiftRight;\r\n\r\n/**\r\n * Returns this Long with bits logically shifted to the right by the given amount.\r\n * @param {number|!Long} numBits Number of bits\r\n * @returns {!Long} Shifted Long\r\n */\r\nLongPrototype.shiftRightUnsigned = function shiftRightUnsigned(numBits) {\r\n if (isLong(numBits))\r\n numBits = numBits.toInt();\r\n numBits &= 63;\r\n if (numBits === 0)\r\n return this;\r\n else {\r\n var high = this.high;\r\n if (numBits < 32) {\r\n var low = this.low;\r\n return fromBits((low >>> numBits) | (high << (32 - numBits)), high >>> numBits, this.unsigned);\r\n } else if (numBits === 32)\r\n return fromBits(high, 0, this.unsigned);\r\n else\r\n return fromBits(high >>> (numBits - 32), 0, this.unsigned);\r\n }\r\n};\r\n\r\n/**\r\n * Returns this Long with bits logically shifted to the right by the given amount. This is an alias of {@link Long#shiftRightUnsigned}.\r\n * @function\r\n * @param {number|!Long} numBits Number of bits\r\n * @returns {!Long} Shifted Long\r\n */\r\nLongPrototype.shru = LongPrototype.shiftRightUnsigned;\r\n\r\n/**\r\n * Returns this Long with bits logically shifted to the right by the given amount. This is an alias of {@link Long#shiftRightUnsigned}.\r\n * @function\r\n * @param {number|!Long} numBits Number of bits\r\n * @returns {!Long} Shifted Long\r\n */\r\nLongPrototype.shr_u = LongPrototype.shiftRightUnsigned;\r\n\r\n/**\r\n * Converts this Long to signed.\r\n * @returns {!Long} Signed long\r\n */\r\nLongPrototype.toSigned = function toSigned() {\r\n if (!this.unsigned)\r\n return this;\r\n return fromBits(this.low, this.high, false);\r\n};\r\n\r\n/**\r\n * Converts this Long to unsigned.\r\n * @returns {!Long} Unsigned long\r\n */\r\nLongPrototype.toUnsigned = function toUnsigned() {\r\n if (this.unsigned)\r\n return this;\r\n return fromBits(this.low, this.high, true);\r\n};\r\n\r\n/**\r\n * Converts this Long to its byte representation.\r\n * @param {boolean=} le Whether little or big endian, defaults to big endian\r\n * @returns {!Array.} Byte representation\r\n */\r\nLongPrototype.toBytes = function toBytes(le) {\r\n return le ? this.toBytesLE() : this.toBytesBE();\r\n};\r\n\r\n/**\r\n * Converts this Long to its little endian byte representation.\r\n * @returns {!Array.} Little endian byte representation\r\n */\r\nLongPrototype.toBytesLE = function toBytesLE() {\r\n var hi = this.high,\r\n lo = this.low;\r\n return [\r\n lo & 0xff,\r\n lo >>> 8 & 0xff,\r\n lo >>> 16 & 0xff,\r\n lo >>> 24 ,\r\n hi & 0xff,\r\n hi >>> 8 & 0xff,\r\n hi >>> 16 & 0xff,\r\n hi >>> 24\r\n ];\r\n};\r\n\r\n/**\r\n * Converts this Long to its big endian byte representation.\r\n * @returns {!Array.} Big endian byte representation\r\n */\r\nLongPrototype.toBytesBE = function toBytesBE() {\r\n var hi = this.high,\r\n lo = this.low;\r\n return [\r\n hi >>> 24 ,\r\n hi >>> 16 & 0xff,\r\n hi >>> 8 & 0xff,\r\n hi & 0xff,\r\n lo >>> 24 ,\r\n lo >>> 16 & 0xff,\r\n lo >>> 8 & 0xff,\r\n lo & 0xff\r\n ];\r\n};\r\n\r\n/**\r\n * Creates a Long from its byte representation.\r\n * @param {!Array.} bytes Byte representation\r\n * @param {boolean=} unsigned Whether unsigned or not, defaults to signed\r\n * @param {boolean=} le Whether little or big endian, defaults to big endian\r\n * @returns {Long} The corresponding Long value\r\n */\r\nLong.fromBytes = function fromBytes(bytes, unsigned, le) {\r\n return le ? Long.fromBytesLE(bytes, unsigned) : Long.fromBytesBE(bytes, unsigned);\r\n};\r\n\r\n/**\r\n * Creates a Long from its little endian byte representation.\r\n * @param {!Array.} bytes Little endian byte representation\r\n * @param {boolean=} unsigned Whether unsigned or not, defaults to signed\r\n * @returns {Long} The corresponding Long value\r\n */\r\nLong.fromBytesLE = function fromBytesLE(bytes, unsigned) {\r\n return new Long(\r\n bytes[0] |\r\n bytes[1] << 8 |\r\n bytes[2] << 16 |\r\n bytes[3] << 24,\r\n bytes[4] |\r\n bytes[5] << 8 |\r\n bytes[6] << 16 |\r\n bytes[7] << 24,\r\n unsigned\r\n );\r\n};\r\n\r\n/**\r\n * Creates a Long from its big endian byte representation.\r\n * @param {!Array.} bytes Big endian byte representation\r\n * @param {boolean=} unsigned Whether unsigned or not, defaults to signed\r\n * @returns {Long} The corresponding Long value\r\n */\r\nLong.fromBytesBE = function fromBytesBE(bytes, unsigned) {\r\n return new Long(\r\n bytes[4] << 24 |\r\n bytes[5] << 16 |\r\n bytes[6] << 8 |\r\n bytes[7],\r\n bytes[0] << 24 |\r\n bytes[1] << 16 |\r\n bytes[2] << 8 |\r\n bytes[3],\r\n unsigned\r\n );\r\n};\r\n","/**\r\n * Built-in elements providing WebAssembly core functionality.\r\n * @module builtins\r\n *//***/\r\n\r\n import {\r\n Compiler,\r\n ConversionKind,\r\n WrapMode,\r\n Feature\r\n} from \"./compiler\";\r\n\r\nimport {\r\n DiagnosticCode\r\n} from \"./diagnostics\";\r\n\r\nimport {\r\n Node,\r\n NodeKind,\r\n Expression,\r\n LiteralKind,\r\n LiteralExpression,\r\n StringLiteralExpression,\r\n CallExpression\r\n} from \"./ast\";\r\n\r\nimport {\r\n Type,\r\n TypeKind,\r\n TypeFlags,\r\n Signature\r\n} from \"./types\";\r\n\r\nimport {\r\n BinaryOp,\r\n UnaryOp,\r\n HostOp,\r\n AtomicRMWOp,\r\n SIMDExtractOp,\r\n SIMDReplaceOp,\r\n SIMDShiftOp,\r\n NativeType,\r\n ExpressionRef,\r\n ExpressionId,\r\n getExpressionId,\r\n getExpressionType,\r\n getConstValueI64High,\r\n getConstValueI64Low,\r\n getConstValueI32,\r\n getConstValueF32,\r\n getConstValueF64\r\n} from \"./module\";\r\n\r\nimport {\r\n ElementKind,\r\n OperatorKind,\r\n FunctionPrototype,\r\n Class,\r\n Field,\r\n Global,\r\n DecoratorFlags,\r\n ClassPrototype\r\n} from \"./program\";\r\n\r\nimport {\r\n FlowFlags\r\n} from \"./flow\";\r\n\r\nimport {\r\n ReportMode\r\n} from \"./resolver\";\r\n\r\nimport {\r\n CommonFlags\r\n} from \"./common\";\r\n\r\nimport {\r\n writeI8,\r\n writeI16,\r\n writeI32,\r\n writeF32,\r\n writeF64,\r\n isPowerOf2\r\n} from \"./util\";\r\n\r\n/** Symbols of various compiler built-ins. */\r\nexport namespace BuiltinSymbols {\r\n // std/builtins.ts\r\n export const isInteger = \"~lib/builtins/isInteger\";\r\n export const isFloat = \"~lib/builtins/isFloat\";\r\n export const isSigned = \"~lib/builtins/isSigned\";\r\n export const isReference = \"~lib/builtins/isReference\";\r\n export const isString = \"~lib/builtins/isString\";\r\n export const isArray = \"~lib/builtins/isArray\";\r\n export const isArrayLike = \"~lib/builtins/isArrayLike\";\r\n export const isFunction = \"~lib/builtins/isFunction\";\r\n export const isNullable = \"~lib/builtins/isNullable\";\r\n export const isDefined = \"~lib/builtins/isDefined\";\r\n export const isConstant = \"~lib/builtins/isConstant\";\r\n export const isManaged = \"~lib/builtins/isManaged\";\r\n\r\n export const clz = \"~lib/builtins/clz\";\r\n export const ctz = \"~lib/builtins/ctz\";\r\n export const popcnt = \"~lib/builtins/popcnt\";\r\n export const rotl = \"~lib/builtins/rotl\";\r\n export const rotr = \"~lib/builtins/rotr\";\r\n export const abs = \"~lib/builtins/abs\";\r\n export const max = \"~lib/builtins/max\";\r\n export const min = \"~lib/builtins/min\";\r\n export const ceil = \"~lib/builtins/ceil\";\r\n export const floor = \"~lib/builtins/floor\";\r\n export const copysign = \"~lib/builtins/copysign\";\r\n export const nearest = \"~lib/builtins/nearest\";\r\n export const reinterpret = \"~lib/builtins/reinterpret\";\r\n export const sqrt = \"~lib/builtins/sqrt\";\r\n export const trunc = \"~lib/builtins/trunc\";\r\n export const load = \"~lib/builtins/load\";\r\n export const store = \"~lib/builtins/store\";\r\n export const atomic_load = \"~lib/builtins/atomic.load\";\r\n export const atomic_store = \"~lib/builtins/atomic.store\";\r\n export const atomic_add = \"~lib/builtins/atomic.add\";\r\n export const atomic_sub = \"~lib/builtins/atomic.sub\";\r\n export const atomic_and = \"~lib/builtins/atomic.and\";\r\n export const atomic_or = \"~lib/builtins/atomic.or\";\r\n export const atomic_xor = \"~lib/builtins/atomic.xor\";\r\n export const atomic_xchg = \"~lib/builtins/atomic.xchg\";\r\n export const atomic_cmpxchg = \"~lib/builtins/atomic.cmpxchg\";\r\n export const atomic_wait = \"~lib/builtins/atomic.wait\";\r\n export const atomic_notify = \"~lib/builtins/atomic.notify\";\r\n\r\n export const sizeof = \"~lib/builtins/sizeof\";\r\n export const alignof = \"~lib/builtins/alignof\";\r\n export const offsetof = \"~lib/builtins/offsetof\";\r\n export const select = \"~lib/builtins/select\";\r\n export const unreachable = \"~lib/builtins/unreachable\";\r\n export const changetype = \"~lib/builtins/changetype\";\r\n export const assert = \"~lib/builtins/assert\";\r\n export const unchecked = \"~lib/builtins/unchecked\";\r\n export const call_indirect = \"~lib/builtins/call_indirect\";\r\n export const instantiate = \"~lib/builtins/instantiate\";\r\n\r\n export const i8 = \"~lib/builtins/i8\";\r\n export const i16 = \"~lib/builtins/i16\";\r\n export const i32 = \"~lib/builtins/i32\";\r\n export const i64 = \"~lib/builtins/i64\";\r\n export const isize = \"~lib/builtins/isize\";\r\n export const u8 = \"~lib/builtins/u8\";\r\n export const u16 = \"~lib/builtins/u16\";\r\n export const u32 = \"~lib/builtins/u32\";\r\n export const u64 = \"~lib/builtins/u64\";\r\n export const usize = \"~lib/builtins/usize\";\r\n export const bool = \"~lib/builtins/bool\";\r\n export const f32 = \"~lib/builtins/f32\";\r\n export const f64 = \"~lib/builtins/f64\";\r\n export const v128 = \"~lib/builtins/v128\";\r\n export const void_ = \"~lib/builtins/void\";\r\n\r\n export const i32_clz = \"~lib/builtins/i32.clz\";\r\n export const i64_clz = \"~lib/builtins/i64.clz\";\r\n export const i32_ctz = \"~lib/builtins/i32.ctz\";\r\n export const i64_ctz = \"~lib/builtins/i64.ctz\";\r\n export const i32_popcnt = \"~lib/builtins/i32.popcnt\";\r\n export const i64_popcnt = \"~lib/builtins/i64.popcnt\";\r\n export const i32_rotl = \"~lib/builtins/i32.rotl\";\r\n export const i64_rotl = \"~lib/builtins/i64.rotl\";\r\n export const i32_rotr = \"~lib/builtins/i32.rotr\";\r\n export const i64_rotr = \"~lib/builtins/i64.rotr\";\r\n\r\n export const f32_abs = \"~lib/builtins/f32.abs\";\r\n export const f64_abs = \"~lib/builtins/f64.abs\";\r\n export const f32_max = \"~lib/builtins/f32.max\";\r\n export const f64_max = \"~lib/builtins/f64.max\";\r\n export const f32_min = \"~lib/builtins/f32.min\";\r\n export const f64_min = \"~lib/builtins/f64.min\";\r\n export const f32_ceil = \"~lib/builtins/f32.ceil\";\r\n export const f64_ceil = \"~lib/builtins/f64.ceil\";\r\n export const f32_floor = \"~lib/builtins/f32.floor\";\r\n export const f64_floor = \"~lib/builtins/f64.floor\";\r\n export const f32_copysign = \"~lib/builtins/f32.copysign\";\r\n export const f64_copysign = \"~lib/builtins/f64.copysign\";\r\n export const f32_nearest = \"~lib/builtins/f32.nearest\";\r\n export const f64_nearest = \"~lib/builtins/f64.nearest\";\r\n export const i32_reinterpret_f32 = \"~lib/builtins/i32.reinterpret_f32\";\r\n export const i64_reinterpret_f64 = \"~lib/builtins/i64.reinterpret_f64\";\r\n export const f32_reinterpret_i32 = \"~lib/builtins/f32.reinterpret_i32\";\r\n export const f64_reinterpret_i64 = \"~lib/builtins/f64.reinterpret_i64\";\r\n export const f32_sqrt = \"~lib/builtins/f32.sqrt\";\r\n export const f64_sqrt = \"~lib/builtins/f64.sqrt\";\r\n export const f32_trunc = \"~lib/builtins/f32.trunc\";\r\n export const f64_trunc = \"~lib/builtins/f64.trunc\";\r\n\r\n export const i32_load8_s = \"~lib/builtins/i32.load8_s\";\r\n export const i32_load8_u = \"~lib/builtins/i32.load8_u\";\r\n export const i32_load16_s = \"~lib/builtins/i32.load16_s\";\r\n export const i32_load16_u = \"~lib/builtins/i32.load16_u\";\r\n export const i32_load = \"~lib/builtins/i32.load\";\r\n export const i64_load8_s = \"~lib/builtins/i64.load8_s\";\r\n export const i64_load8_u = \"~lib/builtins/i64.load8_u\";\r\n export const i64_load16_s = \"~lib/builtins/i64.load16_s\";\r\n export const i64_load16_u = \"~lib/builtins/i64.load16_u\";\r\n export const i64_load32_s = \"~lib/builtins/i64.load32_s\";\r\n export const i64_load32_u = \"~lib/builtins/i64.load32_u\";\r\n export const i64_load = \"~lib/builtins/i64.load\";\r\n export const f32_load = \"~lib/builtins/f32.load\";\r\n export const f64_load = \"~lib/builtins/f64.load\";\r\n export const i32_store8 = \"~lib/builtins/i32.store8\";\r\n export const i32_store16 = \"~lib/builtins/i32.store16\";\r\n export const i32_store = \"~lib/builtins/i32.store\";\r\n export const i64_store8 = \"~lib/builtins/i64.store8\";\r\n export const i64_store16 = \"~lib/builtins/i64.store16\";\r\n export const i64_store32 = \"~lib/builtins/i64.store32\";\r\n export const i64_store = \"~lib/builtins/i64.store\";\r\n export const f32_store = \"~lib/builtins/f32.store\";\r\n export const f64_store = \"~lib/builtins/f64.store\";\r\n\r\n export const i32_atomic_load8_u = \"~lib/builtins/i32.atomic.load8_u\";\r\n export const i32_atomic_load16_u = \"~lib/builtins/i32.atomic.load16_u\";\r\n export const i32_atomic_load = \"~lib/builtins/i32.atomic.load\";\r\n export const i64_atomic_load8_u = \"~lib/builtins/i64.atomic.load8_u\";\r\n export const i64_atomic_load16_u = \"~lib/builtins/i64.atomic.load16_u\";\r\n export const i64_atomic_load32_u = \"~lib/builtins/i64.atomic.load32_u\";\r\n export const i64_atomic_load = \"~lib/builtins/i64.atomic.load\";\r\n export const i32_atomic_store8 = \"~lib/builtins/i32.atomic.store8\";\r\n export const i32_atomic_store16 = \"~lib/builtins/i32.atomic.store16\";\r\n export const i32_atomic_store = \"~lib/builtins/i32.atomic.store\";\r\n export const i64_atomic_store8 = \"~lib/builtins/i64.atomic.store8\";\r\n export const i64_atomic_store16 = \"~lib/builtins/i64.atomic.store16\";\r\n export const i64_atomic_store32 = \"~lib/builtins/i64.atomic.store32\";\r\n export const i64_atomic_store = \"~lib/builtins/i64.atomic.store\";\r\n export const i32_atomic_rmw8_add_u = \"~lib/builtins/i32.atomic.rmw8.add_u\";\r\n export const i32_atomic_rmw16_add_u = \"~lib/builtins/i32.atomic.rmw16.add_u\";\r\n export const i32_atomic_rmw_add = \"~lib/builtins/i32.atomic.rmw.add\";\r\n export const i64_atomic_rmw8_add_u = \"~lib/builtins/i64.atomic.rmw8.add_u\";\r\n export const i64_atomic_rmw16_add_u = \"~lib/builtins/i64.atomic.rmw16.add_u\";\r\n export const i64_atomic_rmw32_add_u = \"~lib/builtins/i64.atomic.rmw32.add_u\";\r\n export const i64_atomic_rmw_add = \"~lib/builtins/i64.atomic.rmw.add\";\r\n export const i32_atomic_rmw8_sub_u = \"~lib/builtins/i32.atomic.rmw8.sub_u\";\r\n export const i32_atomic_rmw16_sub_u = \"~lib/builtins/i32.atomic.rmw16.sub_u\";\r\n export const i32_atomic_rmw_sub = \"~lib/builtins/i32.atomic.rmw.sub\";\r\n export const i64_atomic_rmw8_sub_u = \"~lib/builtins/i64.atomic.rmw8.sub_u\";\r\n export const i64_atomic_rmw16_sub_u = \"~lib/builtins/i64.atomic.rmw16.sub_u\";\r\n export const i64_atomic_rmw32_sub_u = \"~lib/builtins/i64.atomic.rmw32.sub_u\";\r\n export const i64_atomic_rmw_sub = \"~lib/builtins/i64.atomic.rmw.sub\";\r\n export const i32_atomic_rmw8_and_u = \"~lib/builtins/i32.atomic.rmw8.and_u\";\r\n export const i32_atomic_rmw16_and_u = \"~lib/builtins/i32.atomic.rmw16.and_u\";\r\n export const i32_atomic_rmw_and = \"~lib/builtins/i32.atomic.rmw.and\";\r\n export const i64_atomic_rmw8_and_u = \"~lib/builtins/i64.atomic.rmw8.and_u\";\r\n export const i64_atomic_rmw16_and_u = \"~lib/builtins/i64.atomic.rmw16.and_u\";\r\n export const i64_atomic_rmw32_and_u = \"~lib/builtins/i64.atomic.rmw32.and_u\";\r\n export const i64_atomic_rmw_and = \"~lib/builtins/i64.atomic.rmw.and\";\r\n export const i32_atomic_rmw8_or_u = \"~lib/builtins/i32.atomic.rmw8.or_u\";\r\n export const i32_atomic_rmw16_or_u = \"~lib/builtins/i32.atomic.rmw16.or_u\";\r\n export const i32_atomic_rmw_or = \"~lib/builtins/i32.atomic.rmw.or\";\r\n export const i64_atomic_rmw8_or_u = \"~lib/builtins/i64.atomic.rmw8.or_u\";\r\n export const i64_atomic_rmw16_or_u = \"~lib/builtins/i64.atomic.rmw16.or_u\";\r\n export const i64_atomic_rmw32_or_u = \"~lib/builtins/i64.atomic.rmw32.or_u\";\r\n export const i64_atomic_rmw_or = \"~lib/builtins/i64.atomic.rmw.or\";\r\n export const i32_atomic_rmw8_u_xor = \"~lib/builtins/i32.atomic.rmw8.xor_u\";\r\n export const i32_atomic_rmw16_u_xor = \"~lib/builtins/i32.atomic.rmw16.xor_u\";\r\n export const i32_atomic_rmw_xor = \"~lib/builtins/i32.atomic.rmw.xor\";\r\n export const i64_atomic_rmw8_xor_u = \"~lib/builtins/i64.atomic.rmw8.xor_u\";\r\n export const i64_atomic_rmw16_xor_u = \"~lib/builtins/i64.atomic.rmw16.xor_u\";\r\n export const i64_atomic_rmw32_xor_u = \"~lib/builtins/i64.atomic.rmw32.xor_u\";\r\n export const i64_atomic_rmw_xor = \"~lib/builtins/i64.atomic.rmw.xor\";\r\n export const i32_atomic_rmw8_xchg_u = \"~lib/builtins/i32.atomic.rmw8.xchg_u\";\r\n export const i32_atomic_rmw16_xchg_u = \"~lib/builtins/i32.atomic.rmw16.xchg_u\";\r\n export const i32_atomic_rmw_xchg = \"~lib/builtins/i32.atomic.rmw.xchg\";\r\n export const i64_atomic_rmw8_xchg_u = \"~lib/builtins/i64.atomic.rmw8.xchg_u\";\r\n export const i64_atomic_rmw16_xchg_u = \"~lib/builtins/i64.atomic.rmw16.xchg_u\";\r\n export const i64_atomic_rmw32_xchg_u = \"~lib/builtins/i64.atomic.rmw32.xchg_u\";\r\n export const i64_atomic_rmw_xchg = \"~lib/builtins/i64.atomic.rmw.xchg\";\r\n export const i32_atomic_rmw8_cmpxchg_u = \"~lib/builtins/i32.atomic.rmw8.cmpxchg_u\";\r\n export const i32_atomic_rmw16_cmpxchg_u = \"~lib/builtins/i32.atomic.rmw16.cmpxchg_u\";\r\n export const i32_atomic_rmw_cmpxchg = \"~lib/builtins/i32.atomic.rmw.cmpxchg\";\r\n export const i64_atomic_rmw8_cmpxchg_u = \"~lib/builtins/i64.atomic.rmw8.cmpxchg_u\";\r\n export const i64_atomic_rmw16_cmpxchg_u = \"~lib/builtins/i64.atomic.rmw16.cmpxchg_u\";\r\n export const i64_atomic_rmw32_cmpxchg_u = \"~lib/builtins/i64.atomic.rmw32.cmpxchg_u\";\r\n export const i64_atomic_rmw_cmpxchg = \"~lib/builtins/i64.atomic.rmw.cmpxchg\";\r\n export const i32_wait = \"~lib/builtins/i32.wait\";\r\n export const i64_wait = \"~lib/builtins/i64.wait\";\r\n export const i32_notify = \"~lib/builtins/i32.notify\";\r\n export const i64_notify = \"~lib/builtins/i64.notify\";\r\n\r\n export const v128_splat = \"~lib/builtins/v128.splat\";\r\n export const v128_extract_lane = \"~lib/builtins/v128.extract_lane\";\r\n export const v128_replace_lane = \"~lib/builtins/v128.replace_lane\";\r\n export const v128_shuffle = \"~lib/builtins/v128.shuffle\";\r\n export const v128_load = \"~lib/builtins/v128.load\";\r\n export const v128_store = \"~lib/builtins/v128.store\";\r\n export const v128_add = \"~lib/builtins/v128.add\";\r\n export const v128_sub = \"~lib/builtins/v128.sub\";\r\n export const v128_mul = \"~lib/builtins/v128.mul\";\r\n export const v128_div = \"~lib/builtins/v128.div\";\r\n export const v128_neg = \"~lib/builtins/v128.neg\";\r\n export const v128_add_saturate = \"~lib/builtins/v128.add_saturate\";\r\n export const v128_sub_saturate = \"~lib/builtins/v128.sub_saturate\";\r\n export const v128_shl = \"~lib/builtins/v128.shl\";\r\n export const v128_shr = \"~lib/builtins/v128.shr\";\r\n export const v128_and = \"~lib/builtins/v128.and\";\r\n export const v128_or = \"~lib/builtins/v128.or\";\r\n export const v128_xor = \"~lib/builtins/v128.xor\";\r\n export const v128_not = \"~lib/builtins/v128.not\";\r\n export const v128_bitselect = \"~lib/builtins/v128.bitselect\";\r\n export const v128_any_true = \"~lib/builtins/v128.any_true\";\r\n export const v128_all_true = \"~lib/builtins/v128.all_true\";\r\n export const v128_min = \"~lib/builtins/v128.min\";\r\n export const v128_max = \"~lib/builtins/v128.max\";\r\n export const v128_abs = \"~lib/builtins/v128.abs\";\r\n export const v128_sqrt = \"~lib/builtins/v128.sqrt\";\r\n export const v128_eq = \"~lib/builtins/v128.eq\";\r\n export const v128_ne = \"~lib/builtins/v128.ne\";\r\n export const v128_lt = \"~lib/builtins/v128.lt\";\r\n export const v128_le = \"~lib/builtins/v128.le\";\r\n export const v128_gt = \"~lib/builtins/v128.gt\";\r\n export const v128_ge = \"~lib/builtins/v128.ge\";\r\n export const v128_convert = \"~lib/builtins/v128.convert\";\r\n export const v128_trunc = \"~lib/builtins/v128.trunc\";\r\n\r\n export const i8x16 = \"~lib/builtins/i8x16\";\r\n export const i16x8 = \"~lib/builtins/i16x8\";\r\n export const i32x4 = \"~lib/builtins/i32x4\";\r\n export const i64x2 = \"~lib/builtins/i64x2\";\r\n export const f32x4 = \"~lib/builtins/f32x4\";\r\n export const f64x2 = \"~lib/builtins/f64x2\";\r\n\r\n export const i8x16_splat = \"~lib/builtins/i8x16.splat\";\r\n export const i8x16_extract_lane_s = \"~lib/builtins/i8x16.extract_lane_s\";\r\n export const i8x16_extract_lane_u = \"~lib/builtins/i8x16.extract_lane_u\";\r\n export const i8x16_replace_lane = \"~lib/builtins/i8x16.replace_lane\";\r\n export const i8x16_add = \"~lib/builtins/i8x16.add\";\r\n export const i8x16_sub = \"~lib/builtins/i8x16.sub\";\r\n export const i8x16_mul = \"~lib/builtins/i8x16.mul\";\r\n export const i8x16_neg = \"~lib/builtins/i8x16.neg\";\r\n export const i8x16_add_saturate_s = \"~lib/builtins/i8x16.add_saturate_s\";\r\n export const i8x16_add_saturate_u = \"~lib/builtins/i8x16.add_saturate_u\";\r\n export const i8x16_sub_saturate_s = \"~lib/builtins/i8x16.sub_saturate_s\";\r\n export const i8x16_sub_saturate_u = \"~lib/builtins/i8x16.sub_saturate_u\";\r\n export const i8x16_shl = \"~lib/builtins/i8x16.shl\";\r\n export const i8x16_shr_s = \"~lib/builtins/i8x16.shr_s\";\r\n export const i8x16_shr_u = \"~lib/builtins/i8x16.shr_u\";\r\n export const i8x16_any_true = \"~lib/builtins/i8x16.any_true\";\r\n export const i8x16_all_true = \"~lib/builtins/i8x16.all_true\";\r\n export const i8x16_eq = \"~lib/builtins/i8x16.eq\";\r\n export const i8x16_ne = \"~lib/builtins/i8x16.ne\";\r\n export const i8x16_lt_s = \"~lib/builtins/i8x16.lt_s\";\r\n export const i8x16_lt_u = \"~lib/builtins/i8x16.lt_u\";\r\n export const i8x16_le_s = \"~lib/builtins/i8x16.le_s\";\r\n export const i8x16_le_u = \"~lib/builtins/i8x16.le_u\";\r\n export const i8x16_gt_s = \"~lib/builtins/i8x16.gt_s\";\r\n export const i8x16_gt_u = \"~lib/builtins/i8x16.gt_u\";\r\n export const i8x16_ge_s = \"~lib/builtins/i8x16.ge_s\";\r\n export const i8x16_ge_u = \"~lib/builtins/i8x16.ge_u\";\r\n\r\n export const i16x8_splat = \"~lib/builtins/i16x8.splat\";\r\n export const i16x8_extract_lane_s = \"~lib/builtins/i16x8.extract_lane_s\";\r\n export const i16x8_extract_lane_u = \"~lib/builtins/i16x8.extract_lane_u\";\r\n export const i16x8_replace_lane = \"~lib/builtins/i16x8.replace_lane\";\r\n export const i16x8_add = \"~lib/builtins/i16x8.add\";\r\n export const i16x8_sub = \"~lib/builtins/i16x8.sub\";\r\n export const i16x8_mul = \"~lib/builtins/i16x8.mul\";\r\n export const i16x8_neg = \"~lib/builtins/i16x8.neg\";\r\n export const i16x8_add_saturate_s = \"~lib/builtins/i16x8.add_saturate_s\";\r\n export const i16x8_add_saturate_u = \"~lib/builtins/i16x8.add_saturate_u\";\r\n export const i16x8_sub_saturate_s = \"~lib/builtins/i16x8.sub_saturate_s\";\r\n export const i16x8_sub_saturate_u = \"~lib/builtins/i16x8.sub_saturate_u\";\r\n export const i16x8_shl = \"~lib/builtins/i16x8.shl\";\r\n export const i16x8_shr_s = \"~lib/builtins/i16x8.shr_s\";\r\n export const i16x8_shr_u = \"~lib/builtins/i16x8.shr_u\";\r\n export const i16x8_any_true = \"~lib/builtins/i16x8.any_true\";\r\n export const i16x8_all_true = \"~lib/builtins/i16x8.all_true\";\r\n export const i16x8_eq = \"~lib/builtins/i16x8.eq\";\r\n export const i16x8_ne = \"~lib/builtins/i16x8.ne\";\r\n export const i16x8_lt_s = \"~lib/builtins/i16x8.lt_s\";\r\n export const i16x8_lt_u = \"~lib/builtins/i16x8.lt_u\";\r\n export const i16x8_le_s = \"~lib/builtins/i16x8.le_s\";\r\n export const i16x8_le_u = \"~lib/builtins/i16x8.le_u\";\r\n export const i16x8_gt_s = \"~lib/builtins/i16x8.gt_s\";\r\n export const i16x8_gt_u = \"~lib/builtins/i16x8.gt_u\";\r\n export const i16x8_ge_s = \"~lib/builtins/i16x8.ge_s\";\r\n export const i16x8_ge_u = \"~lib/builtins/i16x8.ge_u\";\r\n\r\n export const i32x4_splat = \"~lib/builtins/i32x4.splat\";\r\n export const i32x4_extract_lane = \"~lib/builtins/i32x4.extract_lane\";\r\n export const i32x4_replace_lane = \"~lib/builtins/i32x4.replace_lane\";\r\n export const i32x4_add = \"~lib/builtins/i32x4.add\";\r\n export const i32x4_sub = \"~lib/builtins/i32x4.sub\";\r\n export const i32x4_mul = \"~lib/builtins/i32x4.mul\";\r\n export const i32x4_neg = \"~lib/builtins/i32x4.neg\";\r\n export const i32x4_shl = \"~lib/builtins/i32x4.shl\";\r\n export const i32x4_shr_s = \"~lib/builtins/i32x4.shr_s\";\r\n export const i32x4_shr_u = \"~lib/builtins/i32x4.shr_u\";\r\n export const i32x4_any_true = \"~lib/builtins/i32x4.any_true\";\r\n export const i32x4_all_true = \"~lib/builtins/i32x4.all_true\";\r\n export const i32x4_eq = \"~lib/builtins/i32x4.eq\";\r\n export const i32x4_ne = \"~lib/builtins/i32x4.ne\";\r\n export const i32x4_lt_s = \"~lib/builtins/i32x4.lt_s\";\r\n export const i32x4_lt_u = \"~lib/builtins/i32x4.lt_u\";\r\n export const i32x4_le_s = \"~lib/builtins/i32x4.le_s\";\r\n export const i32x4_le_u = \"~lib/builtins/i32x4.le_u\";\r\n export const i32x4_gt_s = \"~lib/builtins/i32x4.gt_s\";\r\n export const i32x4_gt_u = \"~lib/builtins/i32x4.gt_u\";\r\n export const i32x4_ge_s = \"~lib/builtins/i32x4.ge_s\";\r\n export const i32x4_ge_u = \"~lib/builtins/i32x4.ge_u\";\r\n export const i32x4_trunc_s_f32x4_sat = \"~lib/builtins/i32x4.trunc_s_f32x4_sat\";\r\n export const i32x4_trunc_u_f32x4_sat = \"~lib/builtins/i32x4.trunc_u_f32x4_sat\";\r\n\r\n export const i64x2_splat = \"~lib/builtins/i64x2.splat\";\r\n export const i64x2_extract_lane = \"~lib/builtins/i64x2.extract_lane\";\r\n export const i64x2_replace_lane = \"~lib/builtins/i64x2.replace_lane\";\r\n export const i64x2_add = \"~lib/builtins/i64x2.add\";\r\n export const i64x2_sub = \"~lib/builtins/i64x2.sub\"; // i64x2 has no .mul\r\n export const i64x2_neg = \"~lib/builtins/i64x2.neg\";\r\n export const i64x2_shl = \"~lib/builtins/i64x2.shl\";\r\n export const i64x2_shr_s = \"~lib/builtins/i64x2.shr_s\";\r\n export const i64x2_shr_u = \"~lib/builtins/i64x2.shr_u\";\r\n export const i64x2_any_true = \"~lib/builtins/i64x2.any_true\";\r\n export const i64x2_all_true = \"~lib/builtins/i64x2.all_true\"; // i64x2 has no .eq etc.\r\n export const i64x2_trunc_s_f64x2_sat = \"~lib/builtins/i64x2.trunc_s_f64x2_sat\";\r\n export const i64x2_trunc_u_f64x2_sat = \"~lib/builtins/i64x2.trunc_u_f64x2_sat\";\r\n\r\n export const f32x4_splat = \"~lib/builtins/f32x4.splat\";\r\n export const f32x4_extract_lane = \"~lib/builtins/f32x4.extract_lane\";\r\n export const f32x4_replace_lane = \"~lib/builtins/f32x4.replace_lane\";\r\n export const f32x4_add = \"~lib/builtins/f32x4.add\";\r\n export const f32x4_sub = \"~lib/builtins/f32x4.sub\";\r\n export const f32x4_mul = \"~lib/builtins/f32x4.mul\";\r\n export const f32x4_div = \"~lib/builtins/f32x4.div\";\r\n export const f32x4_neg = \"~lib/builtins/f32x4.neg\";\r\n export const f32x4_min = \"~lib/builtins/f32x4.min\";\r\n export const f32x4_max = \"~lib/builtins/f32x4.max\";\r\n export const f32x4_abs = \"~lib/builtins/f32x4.abs\";\r\n export const f32x4_sqrt = \"~lib/builtins/f32x4.sqrt\";\r\n export const f32x4_eq = \"~lib/builtins/f32x4.eq\";\r\n export const f32x4_ne = \"~lib/builtins/f32x4.ne\";\r\n export const f32x4_lt = \"~lib/builtins/f32x4.lt\";\r\n export const f32x4_le = \"~lib/builtins/f32x4.le\";\r\n export const f32x4_gt = \"~lib/builtins/f32x4.gt\";\r\n export const f32x4_ge = \"~lib/builtins/f32x4.ge\";\r\n export const f32x4_convert_s_i32x4 = \"~lib/builtins/f32x4.convert_s_i32x4\";\r\n export const f32x4_convert_u_i32x4 = \"~lib/builtins/f32x4.convert_u_i32x4\";\r\n\r\n export const f64x2_splat = \"~lib/builtins/f64x2.splat\";\r\n export const f64x2_extract_lane = \"~lib/builtins/f64x2.extract_lane\";\r\n export const f64x2_replace_lane = \"~lib/builtins/f64x2.replace_lane\";\r\n export const f64x2_add = \"~lib/builtins/f64x2.add\";\r\n export const f64x2_sub = \"~lib/builtins/f64x2.sub\";\r\n export const f64x2_mul = \"~lib/builtins/f64x2.mul\";\r\n export const f64x2_div = \"~lib/builtins/f64x2.div\";\r\n export const f64x2_neg = \"~lib/builtins/f64x2.neg\";\r\n export const f64x2_min = \"~lib/builtins/f64x2.min\";\r\n export const f64x2_max = \"~lib/builtins/f64x2.max\";\r\n export const f64x2_abs = \"~lib/builtins/f64x2.abs\";\r\n export const f64x2_sqrt = \"~lib/builtins/f64x2.sqrt\";\r\n export const f64x2_eq = \"~lib/builtins/f64x2.eq\";\r\n export const f64x2_ne = \"~lib/builtins/f64x2.ne\";\r\n export const f64x2_lt = \"~lib/builtins/f64x2.lt\";\r\n export const f64x2_le = \"~lib/builtins/f64x2.le\";\r\n export const f64x2_gt = \"~lib/builtins/f64x2.gt\";\r\n export const f64x2_ge = \"~lib/builtins/f64x2.ge\";\r\n export const f64x2_convert_s_i64x2 = \"~lib/builtins/f64x2.convert_s_i64x2\";\r\n export const f64x2_convert_u_i64x2 = \"~lib/builtins/f64x2.convert_u_i64x2\";\r\n\r\n export const v8x16_shuffle = \"~lib/builtins/v8x16.shuffle\";\r\n\r\n // std/diagnostics.ts\r\n export const ERROR = \"~lib/diagnostics/ERROR\";\r\n export const WARNING = \"~lib/diagnostics/WARNING\";\r\n export const INFO = \"~lib/diagnostics/INFO\";\r\n // std/memory.ts\r\n export const HEAP_BASE = \"~lib/memory/HEAP_BASE\";\r\n export const memory_size = \"~lib/memory/memory.size\";\r\n export const memory_grow = \"~lib/memory/memory.grow\";\r\n export const memory_copy = \"~lib/memory/memory.copy\";\r\n export const memory_fill = \"~lib/memory/memory.fill\";\r\n // std/gc.ts\r\n export const iterateRoots = \"~lib/gc/iterateRoots\";\r\n}\r\n\r\n/** Compiles a call to a built-in function. */\r\nexport function compileCall(\r\n /* Compiler reference. */\r\n compiler: Compiler,\r\n /** Respective function prototype. */\r\n prototype: FunctionPrototype,\r\n /** Pre-resolved type arguments. */\r\n typeArguments: Type[] | null,\r\n /** Operand expressions. */\r\n operands: Expression[],\r\n /** Contextual type. */\r\n contextualType: Type,\r\n /** Respective call expression. */\r\n reportNode: CallExpression,\r\n /** Indicates that contextual type is ASM type. */\r\n isAsm: bool = false\r\n): ExpressionRef {\r\n var module = compiler.module;\r\n\r\n // NOTE that some implementations below make use of the select expression where straight-forward.\r\n // whether worth or not should probably be tested once it's known if/how embedders handle it.\r\n // search: createSelect\r\n\r\n // NOTE that consolidation of individual instructions into a single case isn't exactly scientific\r\n // below, but rather done to make this file easier to work with. If there was a general rule it'd\r\n // most likely be \"three or more instructions that only differ in their actual opcode\".\r\n\r\n switch (prototype.internalName) {\r\n\r\n // === Static type evaluation =================================================================\r\n\r\n case BuiltinSymbols.isInteger: { // isInteger() / isInteger(value: T) -> bool\r\n let type = evaluateConstantType(compiler, typeArguments, operands, reportNode);\r\n compiler.currentType = Type.bool;\r\n if (!type) return module.createUnreachable();\r\n return type.is(TypeFlags.INTEGER) && !type.is(TypeFlags.REFERENCE)\r\n ? module.createI32(1)\r\n : module.createI32(0);\r\n }\r\n case BuiltinSymbols.isFloat: { // isFloat() / isFloat(value: T) -> bool\r\n let type = evaluateConstantType(compiler, typeArguments, operands, reportNode);\r\n compiler.currentType = Type.bool;\r\n if (!type) return module.createUnreachable();\r\n return type.is(TypeFlags.FLOAT)\r\n ? module.createI32(1)\r\n : module.createI32(0);\r\n }\r\n case BuiltinSymbols.isSigned: { // isSigned() / isSigned(value: T) -> bool\r\n let type = evaluateConstantType(compiler, typeArguments, operands, reportNode);\r\n compiler.currentType = Type.bool;\r\n if (!type) return module.createUnreachable();\r\n return type.is(TypeFlags.SIGNED)\r\n ? module.createI32(1)\r\n : module.createI32(0);\r\n }\r\n case BuiltinSymbols.isReference: { // isReference() / isReference(value: T) -> bool\r\n let type = evaluateConstantType(compiler, typeArguments, operands, reportNode);\r\n compiler.currentType = Type.bool;\r\n if (!type) return module.createUnreachable();\r\n return type.is(TypeFlags.REFERENCE)\r\n ? module.createI32(1)\r\n : module.createI32(0);\r\n }\r\n case BuiltinSymbols.isString: { // isString() / isString(value: T) -> bool\r\n let type = evaluateConstantType(compiler, typeArguments, operands, reportNode);\r\n compiler.currentType = Type.bool;\r\n if (!type) return module.createUnreachable();\r\n let classType = type.classReference;\r\n if (classType) {\r\n let stringInstance = compiler.program.stringInstance;\r\n if (stringInstance && classType.isAssignableTo(stringInstance)) return module.createI32(1);\r\n }\r\n return module.createI32(0);\r\n }\r\n case BuiltinSymbols.isArray: { // isArray() / isArray(value: T) -> bool\r\n let type = evaluateConstantType(compiler, typeArguments, operands, reportNode);\r\n compiler.currentType = Type.bool;\r\n if (!type) return module.createUnreachable();\r\n let classReference = type.classReference;\r\n if (!classReference) return module.createI32(0);\r\n let classPrototype = classReference.prototype;\r\n return module.createI32(\r\n (classPrototype).extends(compiler.program.arrayPrototype)\r\n ? 1\r\n : 0\r\n );\r\n }\r\n case BuiltinSymbols.isArrayLike: { // isArrayLike() / isArrayLike(value: T) -> bool\r\n let type = evaluateConstantType(compiler, typeArguments, operands, reportNode);\r\n compiler.currentType = Type.bool;\r\n if (!type) return module.createUnreachable();\r\n let classReference = type.classReference;\r\n if (!classReference) return module.createI32(0);\r\n return module.createI32(\r\n classReference.lookupInSelf(\"length\") && (\r\n classReference.lookupOverload(OperatorKind.INDEXED_GET) ||\r\n classReference.lookupOverload(OperatorKind.UNCHECKED_INDEXED_GET)\r\n ) ? 1 : 0\r\n );\r\n }\r\n case BuiltinSymbols.isFunction: { // isFunction / isFunction(value: T) -> bool\r\n let type = evaluateConstantType(compiler, typeArguments, operands, reportNode);\r\n compiler.currentType = Type.bool;\r\n if (!type) return module.createUnreachable();\r\n return module.createI32(type.signatureReference ? 1 : 0);\r\n }\r\n case BuiltinSymbols.isNullable: { // isNullable / isNullable(value: T) -> bool\r\n let type = evaluateConstantType(compiler, typeArguments, operands, reportNode);\r\n compiler.currentType = Type.bool;\r\n if (!type) return module.createUnreachable();\r\n return module.createI32(type.is(TypeFlags.NULLABLE) ? 1 : 0);\r\n }\r\n case BuiltinSymbols.isDefined: { // isDefined(expression) -> bool\r\n compiler.currentType = Type.bool;\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let element = compiler.resolver.resolveExpression(\r\n operands[0],\r\n compiler.currentFlow,\r\n Type.void,\r\n ReportMode.SWALLOW\r\n );\r\n return module.createI32(element ? 1 : 0);\r\n }\r\n case BuiltinSymbols.isConstant: { // isConstant(expression) -> bool\r\n compiler.currentType = Type.bool;\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let expr = compiler.compileExpressionRetainType(operands[0], Type.i32, WrapMode.NONE);\r\n compiler.currentType = Type.bool;\r\n return module.createI32(getExpressionId(expr) == ExpressionId.Const ? 1 : 0);\r\n }\r\n case BuiltinSymbols.isManaged: { // isManaged() -> bool\r\n if (!compiler.program.hasGC) {\r\n compiler.currentType = Type.bool;\r\n return module.createI32(0);\r\n }\r\n let type = evaluateConstantType(compiler, typeArguments, operands, reportNode);\r\n compiler.currentType = Type.bool;\r\n if (!type) return module.createUnreachable();\r\n let classType = type.classReference;\r\n return classType !== null && !classType.hasDecorator(DecoratorFlags.UNMANAGED)\r\n ? module.createI32(1)\r\n : module.createI32(0);\r\n }\r\n case BuiltinSymbols.sizeof: { // sizeof() -> usize\r\n compiler.currentType = compiler.options.usizeType;\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler) |\r\n checkArgsRequired(operands, 0, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let byteSize = (typeArguments)[0].byteSize;\r\n let expr: ExpressionRef;\r\n if (compiler.options.isWasm64) {\r\n // implicitly wrap if contextual type is a 32-bit integer\r\n if (contextualType.is(TypeFlags.INTEGER) && contextualType.size <= 32) {\r\n compiler.currentType = Type.u32;\r\n expr = module.createI32(byteSize);\r\n } else {\r\n expr = module.createI64(byteSize, 0);\r\n }\r\n } else {\r\n // implicitly extend if contextual type is a 64-bit integer\r\n if (contextualType.is(TypeFlags.INTEGER) && contextualType.size == 64) {\r\n compiler.currentType = Type.u64;\r\n expr = module.createI64(byteSize, 0);\r\n } else {\r\n expr = module.createI32(byteSize);\r\n }\r\n }\r\n return expr;\r\n }\r\n case BuiltinSymbols.alignof: { // alignof() -> usize\r\n compiler.currentType = compiler.options.usizeType;\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler) |\r\n checkArgsRequired(operands, 0, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let byteSize = (typeArguments)[0].byteSize;\r\n assert(isPowerOf2(byteSize));\r\n let alignLog2 = ctz(byteSize);\r\n let expr: ExpressionRef;\r\n if (compiler.options.isWasm64) {\r\n // implicitly wrap if contextual type is a 32-bit integer\r\n if (contextualType.is(TypeFlags.INTEGER) && contextualType.size <= 32) {\r\n compiler.currentType = Type.u32;\r\n expr = module.createI32(alignLog2);\r\n } else {\r\n expr = module.createI64(alignLog2, 0);\r\n }\r\n } else {\r\n // implicitly extend if contextual type is a 64-bit integer\r\n if (contextualType.is(TypeFlags.INTEGER) && contextualType.size == 64) {\r\n compiler.currentType = Type.u64;\r\n expr = module.createI64(alignLog2, 0);\r\n } else {\r\n expr = module.createI32(alignLog2);\r\n }\r\n }\r\n return expr;\r\n }\r\n case BuiltinSymbols.offsetof: { // offsetof(fieldName?: string) -> usize\r\n compiler.currentType = compiler.options.usizeType;\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler) |\r\n checkArgsOptional(operands, 0, 1, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let classType = typeArguments![0].classReference;\r\n if (!classType) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n let offset: i32;\r\n if (operands.length) {\r\n if (\r\n operands[0].kind != NodeKind.LITERAL ||\r\n (operands[0]).literalKind != LiteralKind.STRING\r\n ) {\r\n compiler.error(\r\n DiagnosticCode.String_literal_expected,\r\n operands[0].range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let fieldName = (operands[0]).value;\r\n let field = classType.members ? classType.members.get(fieldName) : null;\r\n if (!(field && field.kind == ElementKind.FIELD)) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_has_no_property_1,\r\n operands[0].range, classType.internalName, fieldName\r\n );\r\n return module.createUnreachable();\r\n }\r\n offset = (field).memoryOffset;\r\n } else {\r\n offset = classType.currentMemoryOffset;\r\n }\r\n if (compiler.options.isWasm64) {\r\n // implicitly wrap if contextual type is a 32-bit integer\r\n if (contextualType.is(TypeFlags.INTEGER) && contextualType.size <= 32) {\r\n compiler.currentType = Type.u32;\r\n return module.createI32(offset);\r\n } else {\r\n return module.createI64(offset);\r\n }\r\n } else {\r\n // implicitly extend if contextual type is a 64-bit integer\r\n if (contextualType.is(TypeFlags.INTEGER) && contextualType.size == 64) {\r\n compiler.currentType = Type.u64;\r\n return module.createI64(offset);\r\n } else {\r\n return module.createI32(offset);\r\n }\r\n }\r\n }\r\n\r\n // === Math ===================================================================================\r\n\r\n case BuiltinSymbols.clz: // any_bitcount(value: T) -> T\r\n case BuiltinSymbols.ctz:\r\n case BuiltinSymbols.popcnt: {\r\n if (\r\n checkTypeOptional(typeArguments, reportNode, compiler, true) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let arg0 = typeArguments\r\n ? compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.WRAP)\r\n : compiler.compileExpression(operands[0], Type.i32, ConversionKind.NONE, WrapMode.WRAP);\r\n let type = compiler.currentType;\r\n if (type.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: UnaryOp = -1;\r\n switch (prototype.internalName) {\r\n case BuiltinSymbols.clz: {\r\n switch (type.kind) {\r\n case TypeKind.BOOL:\r\n case TypeKind.I8:\r\n case TypeKind.U8:\r\n case TypeKind.I16:\r\n case TypeKind.U16:\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = UnaryOp.ClzI32; break; }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n op = compiler.options.isWasm64\r\n ? UnaryOp.ClzI64\r\n : UnaryOp.ClzI32;\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = UnaryOp.ClzI64; break; }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.ctz: {\r\n switch (type.kind) {\r\n case TypeKind.BOOL:\r\n case TypeKind.I8:\r\n case TypeKind.U8:\r\n case TypeKind.I16:\r\n case TypeKind.U16:\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = UnaryOp.CtzI32; break; }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n op = compiler.options.isWasm64\r\n ? UnaryOp.CtzI64\r\n : UnaryOp.CtzI32;\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = UnaryOp.CtzI64; break; }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.popcnt: {\r\n switch (compiler.currentType.kind) {\r\n case TypeKind.BOOL:\r\n case TypeKind.I8:\r\n case TypeKind.U8:\r\n case TypeKind.I16:\r\n case TypeKind.U16:\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = UnaryOp.PopcntI32; break; }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n op = compiler.options.isWasm64\r\n ? UnaryOp.PopcntI64\r\n : UnaryOp.PopcntI32;\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = UnaryOp.PopcntI64; break; }\r\n }\r\n break;\r\n }\r\n }\r\n if (op == -1) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n return module.createUnary(op, arg0);\r\n }\r\n case BuiltinSymbols.rotl: { // rotl(value: T, shift: T) -> T\r\n if (\r\n checkTypeOptional(typeArguments, reportNode, compiler, true) |\r\n checkArgsRequired(operands, 2, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let arg0 = typeArguments\r\n ? compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.WRAP)\r\n : compiler.compileExpression(operands[0], Type.i32, ConversionKind.NONE, WrapMode.WRAP);\r\n let type = compiler.currentType;\r\n if (type.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n let arg1 = compiler.compileExpression(operands[1], type, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n let expr: ExpressionRef;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n expr = compiler.ensureSmallIntegerWrap(\r\n module.createBinary(BinaryOp.RotlI32, arg0, arg1),\r\n type\r\n );\r\n // fall-through\r\n }\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.RotlI32, arg0, arg1);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n compiler.options.isWasm64\r\n ? BinaryOp.RotlI64\r\n : BinaryOp.RotlI32,\r\n arg0, arg1\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.RotlI64, arg0, arg1);\r\n break;\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return expr; // possibly overflows\r\n }\r\n case BuiltinSymbols.rotr: { // rotr(value: T, shift: T) -> T\r\n if (\r\n checkTypeOptional(typeArguments, reportNode, compiler, true) |\r\n checkArgsRequired(operands, 2, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let arg0 = typeArguments\r\n ? compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.WRAP)\r\n : compiler.compileExpression(operands[0], Type.i32, ConversionKind.NONE, WrapMode.WRAP);\r\n let type = compiler.currentType;\r\n if (type.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n let arg1 = compiler.compileExpression(operands[1], type, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n let expr: ExpressionRef;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.BOOL: {\r\n expr = compiler.ensureSmallIntegerWrap(\r\n module.createBinary(BinaryOp.RotrI32, arg0, arg1),\r\n type\r\n );\r\n break;\r\n }\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n expr = module.createBinary(BinaryOp.RotrI32, arg0, arg1);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.ISIZE: {\r\n expr = module.createBinary(\r\n compiler.options.isWasm64\r\n ? BinaryOp.RotrI64\r\n : BinaryOp.RotrI32,\r\n arg0, arg1\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createBinary(BinaryOp.RotrI64, arg0, arg1);\r\n break;\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return expr; // possibly overflowws\r\n }\r\n case BuiltinSymbols.abs: { // abs(value: T) -> T\r\n if (\r\n checkTypeOptional(typeArguments, reportNode, compiler, true) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let arg0 = typeArguments\r\n ? compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.WRAP)\r\n : compiler.compileExpression(operands[0], Type.f64, ConversionKind.NONE, WrapMode.WRAP);\r\n let type = compiler.currentType;\r\n if (type.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n let expr: ExpressionRef;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32: {\r\n let flow = compiler.currentFlow;\r\n\r\n // possibly overflows, e.g. abs(-128) == 128\r\n let tempLocal1 = flow.getTempLocal(Type.i32, false);\r\n let tempLocalIndex2 = flow.getAndFreeTempLocal(Type.i32, false).index;\r\n let tempLocalIndex1 = tempLocal1.index;\r\n\r\n // (x + (x >> 31)) ^ (x >> 31)\r\n expr = module.createBinary(BinaryOp.XorI32,\r\n module.createBinary(BinaryOp.AddI32,\r\n module.createTeeLocal(\r\n tempLocalIndex2,\r\n module.createBinary(BinaryOp.ShrI32,\r\n module.createTeeLocal(tempLocalIndex1, arg0),\r\n module.createI32(31)\r\n )\r\n ),\r\n module.createGetLocal(tempLocalIndex1, NativeType.I32)\r\n ),\r\n module.createGetLocal(tempLocalIndex2, NativeType.I32)\r\n );\r\n\r\n flow.freeTempLocal(tempLocal1);\r\n break;\r\n }\r\n case TypeKind.ISIZE: {\r\n let options = compiler.options;\r\n let flow = compiler.currentFlow;\r\n let wasm64 = options.isWasm64;\r\n\r\n let tempLocal1 = flow.getTempLocal(options.usizeType, false);\r\n let tempLocalIndex2 = flow.getAndFreeTempLocal(options.usizeType, false).index;\r\n let tempLocalIndex1 = tempLocal1.index;\r\n\r\n expr = module.createBinary(wasm64 ? BinaryOp.XorI64 : BinaryOp.XorI32,\r\n module.createBinary(wasm64 ? BinaryOp.AddI64 : BinaryOp.AddI32,\r\n module.createTeeLocal(\r\n tempLocalIndex2,\r\n module.createBinary(wasm64 ? BinaryOp.ShrI64 : BinaryOp.ShrI32,\r\n module.createTeeLocal(tempLocalIndex1, arg0),\r\n wasm64 ? module.createI64(63) : module.createI32(31)\r\n )\r\n ),\r\n module.createGetLocal(tempLocalIndex1, options.nativeSizeType)\r\n ),\r\n module.createGetLocal(tempLocalIndex2, options.nativeSizeType)\r\n );\r\n\r\n flow.freeTempLocal(tempLocal1);\r\n break;\r\n }\r\n case TypeKind.I64: {\r\n let flow = compiler.currentFlow;\r\n\r\n let tempLocal1 = flow.getTempLocal(Type.i64, false);\r\n let tempLocalIndex2 = flow.getAndFreeTempLocal(Type.i64, false).index;\r\n let tempLocalIndex1 = tempLocal1.index;\r\n\r\n // (x + (x >> 63)) ^ (x >> 63)\r\n expr = module.createBinary(BinaryOp.XorI64,\r\n module.createBinary(BinaryOp.AddI64,\r\n module.createTeeLocal(\r\n tempLocalIndex2,\r\n module.createBinary(BinaryOp.ShrI64,\r\n module.createTeeLocal(tempLocalIndex1, arg0),\r\n module.createI64(63)\r\n )\r\n ),\r\n module.createGetLocal(tempLocalIndex1, NativeType.I64)\r\n ),\r\n module.createGetLocal(tempLocalIndex2, NativeType.I64)\r\n );\r\n\r\n flow.freeTempLocal(tempLocal1);\r\n break;\r\n }\r\n case TypeKind.USIZE:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.U64:\r\n case TypeKind.BOOL: {\r\n expr = arg0;\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createUnary(UnaryOp.AbsF32, arg0);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createUnary(UnaryOp.AbsF64, arg0);\r\n break;\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return expr;\r\n }\r\n case BuiltinSymbols.max: { // max(left: T, right: T) -> T\r\n if (\r\n checkTypeOptional(typeArguments, reportNode, compiler, true) |\r\n checkArgsRequired(operands, 2, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let arg0 = typeArguments\r\n ? compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.WRAP)\r\n : compiler.compileExpression(operands[0], Type.f64, ConversionKind.NONE, WrapMode.WRAP);\r\n let type = compiler.currentType;\r\n if (type.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n let arg1 = compiler.compileExpression(operands[1], type, ConversionKind.IMPLICIT, WrapMode.WRAP);\r\n let op: BinaryOp;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32: { op = BinaryOp.GtI32; break; }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: { op = BinaryOp.GtU32; break; }\r\n case TypeKind.I64: { op = BinaryOp.GtI64; break; }\r\n case TypeKind.U64: { op = BinaryOp.GtU64; break; }\r\n case TypeKind.ISIZE: {\r\n op = compiler.options.isWasm64\r\n ? BinaryOp.GtI64\r\n : BinaryOp.GtI32;\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? BinaryOp.GtU64\r\n : BinaryOp.GtU32;\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n return module.createBinary(BinaryOp.MaxF32, arg0, arg1);\r\n }\r\n case TypeKind.F64: {\r\n return module.createBinary(BinaryOp.MaxF64, arg0, arg1);\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n let flow = compiler.currentFlow;\r\n let nativeType = type.toNativeType();\r\n let tempLocal0 = flow.getTempLocal(type, true);\r\n let tempLocal1 = flow.getAndFreeTempLocal(type, true);\r\n flow.freeTempLocal(tempLocal0);\r\n return module.createSelect(\r\n module.createTeeLocal(tempLocal0.index, arg0),\r\n module.createTeeLocal(tempLocal1.index, arg1),\r\n module.createBinary(op,\r\n module.createGetLocal(tempLocal0.index, nativeType),\r\n module.createGetLocal(tempLocal1.index, nativeType)\r\n )\r\n );\r\n }\r\n case BuiltinSymbols.min: { // min(left: T, right: T) -> T\r\n if (\r\n checkTypeOptional(typeArguments, reportNode, compiler, true) |\r\n checkArgsRequired(operands, 2, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let arg0 = typeArguments\r\n ? compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.WRAP)\r\n : compiler.compileExpression(operands[0], Type.f64, ConversionKind.NONE, WrapMode.WRAP);\r\n let type = compiler.currentType;\r\n if (type.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n let arg1 = compiler.compileExpression(operands[1], type, ConversionKind.IMPLICIT, WrapMode.WRAP);\r\n let op: BinaryOp;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32: { op = BinaryOp.LtI32; break; }\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: { op = BinaryOp.LtU32; break; }\r\n case TypeKind.I64: { op = BinaryOp.LtI64; break; }\r\n case TypeKind.U64: { op = BinaryOp.LtU64; break; }\r\n case TypeKind.ISIZE: {\r\n op = compiler.options.isWasm64\r\n ? BinaryOp.LtI64\r\n : BinaryOp.LtI32;\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? BinaryOp.LtU64\r\n : BinaryOp.LtU32;\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n return module.createBinary(BinaryOp.MinF32, arg0, arg1);\r\n }\r\n case TypeKind.F64: {\r\n return module.createBinary(BinaryOp.MinF64, arg0, arg1);\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n let flow = compiler.currentFlow;\r\n let nativeType = type.toNativeType();\r\n let tempLocal0 = flow.getTempLocal(type, true);\r\n let tempLocal1 = flow.getAndFreeTempLocal(type, true);\r\n flow.freeTempLocal(tempLocal0);\r\n return module.createSelect(\r\n module.createTeeLocal(tempLocal0.index, arg0),\r\n module.createTeeLocal(tempLocal1.index, arg1),\r\n module.createBinary(op,\r\n module.createGetLocal(tempLocal0.index, nativeType),\r\n module.createGetLocal(tempLocal1.index, nativeType)\r\n )\r\n );\r\n }\r\n case BuiltinSymbols.ceil: // any_rounding(value: T) -> T\r\n case BuiltinSymbols.floor: {\r\n if (\r\n checkTypeOptional(typeArguments, reportNode, compiler, true) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let arg0 = typeArguments\r\n ? compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.NONE)\r\n : compiler.compileExpression(operands[0], Type.f64, ConversionKind.NONE, WrapMode.NONE);\r\n let type = compiler.currentType;\r\n if (type.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: UnaryOp;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.I64:\r\n case TypeKind.ISIZE:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.U64:\r\n case TypeKind.USIZE:\r\n case TypeKind.BOOL: return arg0; // considered rounded\r\n case TypeKind.F32: {\r\n op = prototype.internalName == BuiltinSymbols.ceil\r\n ? UnaryOp.CeilF32\r\n : UnaryOp.FloorF32;\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n op = prototype.internalName == BuiltinSymbols.ceil\r\n ? UnaryOp.CeilF64\r\n : UnaryOp.FloorF64;\r\n break;\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n return module.createUnary(op, arg0);\r\n }\r\n case BuiltinSymbols.copysign: { // copysign(left: T, right: T) -> T\r\n if (\r\n checkTypeOptional(typeArguments, reportNode, compiler, true) |\r\n checkArgsRequired(operands, 2, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let arg0 = typeArguments\r\n ? compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.NONE)\r\n : compiler.compileExpression(operands[0], Type.f64, ConversionKind.NONE, WrapMode.NONE);\r\n let type = compiler.currentType;\r\n if (type.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n let arg1 = compiler.compileExpression(operands[1], type, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n let op: BinaryOp;\r\n switch (type.kind) {\r\n // TODO: does an integer version make sense?\r\n case TypeKind.F32: { op = BinaryOp.CopysignF32; break; }\r\n case TypeKind.F64: { op = BinaryOp.CopysignF64; break; }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n }\r\n return module.createBinary(op, arg0, arg1);\r\n }\r\n case BuiltinSymbols.nearest: { // nearest(value: T) -> T\r\n if (\r\n checkTypeOptional(typeArguments, reportNode, compiler, true) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let arg0 = typeArguments\r\n ? compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.NONE)\r\n : compiler.compileExpression(operands[0], Type.f64, ConversionKind.NONE, WrapMode.NONE);\r\n let type = compiler.currentType;\r\n if (type.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n let expr: ExpressionRef;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.I64:\r\n case TypeKind.ISIZE:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.U64:\r\n case TypeKind.USIZE:\r\n case TypeKind.BOOL: {\r\n expr = arg0;\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n expr = module.createUnary(UnaryOp.NearestF32, arg0);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createUnary(UnaryOp.NearestF64, arg0);\r\n break;\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return expr;\r\n }\r\n case BuiltinSymbols.reinterpret: { // reinterpret(value: *) -> T\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler, true) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let type = typeArguments![0];\r\n if (type.is(TypeFlags.REFERENCE)) {\r\n compiler.currentType = type;\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n let expr: ExpressionRef;\r\n switch (type.kind) {\r\n case TypeKind.I32:\r\n case TypeKind.U32: {\r\n let arg0 = compiler.compileExpression(operands[0], Type.f32, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n expr = module.createUnary(UnaryOp.ReinterpretF32, arg0);\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n let arg0 = compiler.compileExpression(operands[0], Type.f64, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n expr = module.createUnary(UnaryOp.ReinterpretF64, arg0);\r\n break;\r\n }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n let arg0 = compiler.compileExpression(\r\n operands[0],\r\n compiler.options.isWasm64\r\n ? Type.f64\r\n : Type.f32,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n expr = module.createUnary(\r\n compiler.options.isWasm64\r\n ? UnaryOp.ReinterpretF64\r\n : UnaryOp.ReinterpretF32,\r\n arg0\r\n );\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n let arg0 = compiler.compileExpression(operands[0], Type.i32, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n expr = module.createUnary(UnaryOp.ReinterpretI32, arg0);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n let arg0 = compiler.compileExpression(operands[0], Type.i64, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n expr = module.createUnary(UnaryOp.ReinterpretI64, arg0);\r\n break;\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n compiler.currentType = type;\r\n return expr;\r\n }\r\n case BuiltinSymbols.sqrt: { // sqrt(value: T) -> T\r\n if (\r\n checkTypeOptional(typeArguments, reportNode, compiler, true) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let arg0 = typeArguments\r\n ? compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.NONE)\r\n : compiler.compileExpression(operands[0], Type.f64, ConversionKind.NONE, WrapMode.NONE);\r\n let type = compiler.currentType;\r\n if (type.is(TypeFlags.REFERENCE)) {\r\n compiler.currentType = type;\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n let expr: ExpressionRef;\r\n switch (type.kind) { // TODO: integer versions (that return f64 or convert)?\r\n case TypeKind.F32: {\r\n expr = module.createUnary(UnaryOp.SqrtF32, arg0);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createUnary(UnaryOp.SqrtF64, arg0);\r\n break;\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return expr;\r\n }\r\n case BuiltinSymbols.trunc: { // trunc(value: T) -> T\r\n if (\r\n checkTypeOptional(typeArguments, reportNode, compiler, true) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let arg0 = typeArguments\r\n ? compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.NONE)\r\n : compiler.compileExpression(operands[0], Type.f64, ConversionKind.NONE, WrapMode.NONE);\r\n let type = compiler.currentType;\r\n if (type.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let expr: ExpressionRef;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.I64:\r\n case TypeKind.ISIZE:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.U64:\r\n case TypeKind.USIZE:\r\n case TypeKind.BOOL: {\r\n expr = arg0;\r\n break;\r\n }\r\n // TODO: truncate to contextual type directly (if not void etc.)?\r\n case TypeKind.F32: {\r\n expr = module.createUnary(UnaryOp.TruncF32, arg0);\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createUnary(UnaryOp.TruncF64, arg0);\r\n break;\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n expr = module.createUnreachable();\r\n break;\r\n }\r\n }\r\n return expr;\r\n }\r\n\r\n // === Memory access ==========================================================================\r\n\r\n case BuiltinSymbols.load: { // load(offset: usize, immOffset?: usize, immAlign?: usize) -> T*\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler, true) |\r\n checkArgsOptional(operands, 1, 3, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let type = typeArguments![0];\r\n let outType = (\r\n type.is(TypeFlags.INTEGER) &&\r\n contextualType.is(TypeFlags.INTEGER) &&\r\n contextualType.size > type.size\r\n ) ? contextualType : type;\r\n let arg0 = compiler.compileExpression(\r\n operands[0],\r\n compiler.options.usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let numOperands = operands.length;\r\n let immOffset = numOperands >= 2 ? evaluateImmediateOffset(operands[1], compiler) : 0; // reports\r\n if (immOffset < 0) {\r\n compiler.currentType = outType;\r\n return module.createUnreachable();\r\n }\r\n let immAlign: i32;\r\n let naturalAlign = type.byteSize;\r\n if (numOperands == 3) {\r\n immAlign = evaluateImmediateOffset(operands[2], compiler);\r\n if (immAlign < 0) {\r\n compiler.currentType = outType;\r\n return module.createUnreachable();\r\n }\r\n if (immAlign > naturalAlign) {\r\n compiler.error(\r\n DiagnosticCode._0_must_be_a_value_between_1_and_2_inclusive,\r\n operands[2].range, \"Alignment\", \"0\", naturalAlign.toString()\r\n );\r\n compiler.currentType = outType;\r\n return module.createUnreachable();\r\n }\r\n if (!isPowerOf2(immAlign)) {\r\n compiler.error(\r\n DiagnosticCode._0_must_be_a_power_of_two,\r\n operands[2].range, \"Alignment\"\r\n );\r\n compiler.currentType = outType;\r\n return module.createUnreachable();\r\n }\r\n } else {\r\n immAlign = naturalAlign;\r\n }\r\n compiler.currentType = outType;\r\n return module.createLoad(\r\n type.byteSize,\r\n type.is(TypeFlags.SIGNED | TypeFlags.INTEGER),\r\n arg0,\r\n outType.toNativeType(),\r\n immOffset,\r\n immAlign\r\n );\r\n }\r\n case BuiltinSymbols.store: { // store(offset: usize, value: T*, offset?: usize, align?: usize) -> void\r\n compiler.currentType = Type.void;\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler) |\r\n checkArgsOptional(operands, 2, 4, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let type = typeArguments![0];\r\n let arg0 = compiler.compileExpression(\r\n operands[0],\r\n compiler.options.usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let arg1 = isAsm\r\n ? compiler.compileExpression(\r\n operands[1],\r\n contextualType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n )\r\n : compiler.compileExpression(\r\n operands[1],\r\n type,\r\n type.is(TypeFlags.INTEGER)\r\n ? ConversionKind.NONE // no need to convert to small int (but now might result in a float)\r\n : ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let inType = compiler.currentType;\r\n if (\r\n type.is(TypeFlags.INTEGER) &&\r\n (\r\n !inType.is(TypeFlags.INTEGER) || // float to int\r\n inType.size < type.size // int to larger int (clear garbage bits)\r\n )\r\n ) {\r\n arg1 = compiler.convertExpression(\r\n arg1,\r\n inType, type,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE, // still clears garbage bits\r\n operands[1]\r\n );\r\n inType = type;\r\n }\r\n let immOffset = operands.length >= 3 ? evaluateImmediateOffset(operands[2], compiler) : 0; // reports\r\n if (immOffset < 0) {\r\n compiler.currentType = Type.void;\r\n return module.createUnreachable();\r\n }\r\n let immAlign: i32;\r\n let naturalAlign = type.byteSize;\r\n if (operands.length == 4) {\r\n immAlign = evaluateImmediateOffset(operands[3], compiler);\r\n if (immAlign < 0) {\r\n compiler.currentType = Type.void;\r\n return module.createUnreachable();\r\n }\r\n if (immAlign > naturalAlign) {\r\n compiler.error(\r\n DiagnosticCode._0_must_be_a_value_between_1_and_2_inclusive,\r\n operands[3].range, \"Alignment\", \"0\", naturalAlign.toString()\r\n );\r\n compiler.currentType = Type.void;\r\n return module.createUnreachable();\r\n }\r\n if (!isPowerOf2(immAlign)) {\r\n compiler.error(\r\n DiagnosticCode._0_must_be_a_power_of_two,\r\n operands[3].range, \"Alignment\"\r\n );\r\n compiler.currentType = Type.void;\r\n return module.createUnreachable();\r\n }\r\n } else {\r\n immAlign = naturalAlign;\r\n }\r\n compiler.currentType = Type.void;\r\n return module.createStore(type.byteSize, arg0, arg1, inType.toNativeType(), immOffset, immAlign);\r\n }\r\n\r\n // === Atomics ================================================================================\r\n\r\n case BuiltinSymbols.atomic_load: { // load(offset: usize, immOffset?: usize) -> T*\r\n if (!compiler.options.hasFeature(Feature.THREADS)) break;\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler, true) |\r\n checkArgsOptional(operands, 1, 2, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let type = typeArguments![0];\r\n let outType = (\r\n type.is(TypeFlags.INTEGER) &&\r\n contextualType.is(TypeFlags.INTEGER) &&\r\n contextualType.size > type.size\r\n ) ? contextualType : type;\r\n if (!type.is(TypeFlags.INTEGER)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n compiler.currentType = outType;\r\n return module.createUnreachable();\r\n }\r\n let arg0 = compiler.compileExpression(\r\n operands[0],\r\n compiler.options.usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let immOffset = operands.length == 2 ? evaluateImmediateOffset(operands[1], compiler) : 0; // reports\r\n if (immOffset < 0) {\r\n compiler.currentType = outType;\r\n return module.createUnreachable();\r\n }\r\n compiler.currentType = outType;\r\n return module.createAtomicLoad(\r\n type.byteSize,\r\n arg0,\r\n outType.toNativeType(),\r\n immOffset\r\n );\r\n }\r\n case BuiltinSymbols.atomic_store: { // store(offset: usize, value: T*, immOffset?: usize) -> void\r\n if (!compiler.options.hasFeature(Feature.THREADS)) break;\r\n compiler.currentType = Type.void;\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler) |\r\n checkArgsOptional(operands, 2, 3, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let type = typeArguments![0];\r\n if (!type.is(TypeFlags.INTEGER) || type.size < 8) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n let arg0 = compiler.compileExpression(\r\n operands[0],\r\n compiler.options.usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let arg1 = isAsm\r\n ? compiler.compileExpression(\r\n operands[1],\r\n contextualType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n )\r\n : compiler.compileExpression(\r\n operands[1],\r\n type,\r\n type.is(TypeFlags.INTEGER)\r\n ? ConversionKind.NONE // no need to convert to small int (but now might result in a float)\r\n : ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let inType = compiler.currentType;\r\n if (\r\n type.is(TypeFlags.INTEGER) &&\r\n (\r\n !inType.is(TypeFlags.INTEGER) || // float to int\r\n inType.size < type.size // int to larger int (clear garbage bits)\r\n )\r\n ) {\r\n arg1 = compiler.convertExpression(\r\n arg1,\r\n inType, type,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE, // still clears garbage bits\r\n operands[1]\r\n );\r\n inType = type;\r\n }\r\n let immOffset = operands.length == 3 ? evaluateImmediateOffset(operands[2], compiler) : 0; // reports\r\n if (immOffset < 0) {\r\n compiler.currentType = Type.void;\r\n return module.createUnreachable();\r\n }\r\n compiler.currentType = Type.void;\r\n return module.createAtomicStore(type.byteSize, arg0, arg1, inType.toNativeType(), immOffset);\r\n }\r\n case BuiltinSymbols.atomic_add: // any_atomic_binary(ptr, value: T, immOffset?: usize) -> T\r\n case BuiltinSymbols.atomic_sub:\r\n case BuiltinSymbols.atomic_and:\r\n case BuiltinSymbols.atomic_or:\r\n case BuiltinSymbols.atomic_xor:\r\n case BuiltinSymbols.atomic_xchg: {\r\n if (!compiler.options.hasFeature(Feature.THREADS)) break;\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler, true) |\r\n checkArgsOptional(operands, 2, 3, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let type = typeArguments![0];\r\n if (!type.is(TypeFlags.INTEGER) || type.size < 8) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n let arg0 = compiler.compileExpression(\r\n operands[0],\r\n compiler.options.usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let arg1 = isAsm\r\n ? compiler.compileExpression(\r\n operands[1],\r\n contextualType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n )\r\n : compiler.compileExpression(\r\n operands[1],\r\n type,\r\n type.is(TypeFlags.INTEGER)\r\n ? ConversionKind.NONE // no need to convert to small int (but now might result in a float)\r\n : ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let inType = compiler.currentType;\r\n if (\r\n type.is(TypeFlags.INTEGER) &&\r\n (\r\n !inType.is(TypeFlags.INTEGER) || // float to int\r\n inType.size < type.size // int to larger int (clear garbage bits)\r\n )\r\n ) {\r\n arg1 = compiler.convertExpression(\r\n arg1,\r\n inType, type,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE, // still clears garbage bits\r\n operands[1]\r\n );\r\n inType = type;\r\n }\r\n let immOffset = operands.length == 3 ? evaluateImmediateOffset(operands[2], compiler) : 0; // reports\r\n if (immOffset < 0) {\r\n compiler.currentType = inType;\r\n return module.createUnreachable();\r\n }\r\n let op: AtomicRMWOp;\r\n switch (prototype.internalName) {\r\n default: assert(false);\r\n case BuiltinSymbols.atomic_add: { op = AtomicRMWOp.Add; break; }\r\n case BuiltinSymbols.atomic_sub: { op = AtomicRMWOp.Sub; break; }\r\n case BuiltinSymbols.atomic_and: { op = AtomicRMWOp.And; break; }\r\n case BuiltinSymbols.atomic_or: { op = AtomicRMWOp.Or; break; }\r\n case BuiltinSymbols.atomic_xor: { op = AtomicRMWOp.Xor; break; }\r\n case BuiltinSymbols.atomic_xchg: { op = AtomicRMWOp.Xchg; break; }\r\n }\r\n compiler.currentType = inType;\r\n return module.createAtomicRMW(\r\n op, type.byteSize, immOffset, arg0, arg1, inType.toNativeType()\r\n );\r\n }\r\n case BuiltinSymbols.atomic_cmpxchg: { // cmpxchg(ptr: usize, expected: T, replacement: T, off?: usize): T\r\n if (!compiler.options.hasFeature(Feature.THREADS)) break;\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler, true) |\r\n checkArgsOptional(operands, 3, 4, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let type = typeArguments![0];\r\n if (!type.is(TypeFlags.INTEGER) || type.size < 8) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n let arg0 = compiler.compileExpression(\r\n operands[0],\r\n compiler.options.usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let arg1 = isAsm\r\n ? compiler.compileExpression(\r\n operands[1],\r\n contextualType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n )\r\n : compiler.compileExpression(\r\n operands[1],\r\n type,\r\n type.is(TypeFlags.INTEGER)\r\n ? ConversionKind.NONE // no need to convert to small int (but now might result in a float)\r\n : ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let inType = compiler.currentType;\r\n let arg2 = compiler.compileExpression(\r\n operands[2],\r\n inType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n if (\r\n type.is(TypeFlags.INTEGER) &&\r\n (\r\n !inType.is(TypeFlags.INTEGER) || // float to int\r\n inType.size < type.size // int to larger int (clear garbage bits)\r\n )\r\n ) {\r\n arg1 = compiler.convertExpression(\r\n arg1,\r\n inType, type,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE, // still clears garbage bits\r\n operands[1]\r\n );\r\n arg2 = compiler.convertExpression(\r\n arg2,\r\n inType, type,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE, // still clears garbage bits\r\n operands[2]\r\n );\r\n inType = type;\r\n }\r\n let immOffset = operands.length == 4 ? evaluateImmediateOffset(operands[3], compiler) : 0; // reports\r\n if (immOffset < 0) {\r\n compiler.currentType = inType;\r\n return module.createUnreachable();\r\n }\r\n compiler.currentType = inType;\r\n return module.createAtomicCmpxchg(\r\n type.byteSize, immOffset, arg0, arg1, arg2, inType.toNativeType()\r\n );\r\n }\r\n case BuiltinSymbols.atomic_wait: { // wait(ptr: usize, expected: T, timeout: i64): i32;\r\n if (!compiler.options.hasFeature(Feature.THREADS)) break;\r\n compiler.currentType = Type.i32;\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler) |\r\n checkArgsRequired(operands, 3, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let type = typeArguments![0];\r\n if (!type.is(TypeFlags.INTEGER) || type.size < 32) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n let arg0 = compiler.compileExpression(\r\n operands[0],\r\n compiler.options.usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let arg1 = compiler.compileExpression(\r\n operands[1],\r\n type,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let arg2 = compiler.compileExpression(\r\n operands[2],\r\n Type.i64,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n compiler.currentType = Type.i32;\r\n return module.createAtomicWait(arg0, arg1, arg2, type.toNativeType());\r\n }\r\n case BuiltinSymbols.atomic_notify: { // notify(ptr: usize, count: i32): i32;\r\n if (!compiler.options.hasFeature(Feature.THREADS)) break;\r\n compiler.currentType = Type.i32;\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler) |\r\n checkArgsRequired(operands, 2, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let type = typeArguments![0];\r\n if (!type.is(TypeFlags.INTEGER) || type.size < 32) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n let arg0 = compiler.compileExpression(\r\n operands[0],\r\n compiler.options.usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let arg1 = compiler.compileExpression(\r\n operands[1],\r\n type,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n compiler.currentType = Type.i32;\r\n return module.createAtomicWake(arg0, arg1);\r\n }\r\n\r\n // === Control flow ===========================================================================\r\n\r\n case BuiltinSymbols.select: { // select(ifTrue: T, ifFalse: T, condition: bool) -> T\r\n if (\r\n checkTypeOptional(typeArguments, reportNode, compiler, true) |\r\n checkArgsRequired(operands, 3, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let arg0 = typeArguments\r\n ? compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.NONE)\r\n : compiler.compileExpressionRetainType(operands[0], Type.i32, WrapMode.NONE);\r\n let type = compiler.currentType;\r\n if (!type.isAny(TypeFlags.VALUE | TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n let arg1 = compiler.compileExpression(operands[1], type, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n let arg2 = compiler.makeIsTrueish(\r\n compiler.compileExpressionRetainType(operands[2], Type.bool, WrapMode.NONE),\r\n compiler.currentType // ^\r\n );\r\n compiler.currentType = type;\r\n return module.createSelect(arg0, arg1, arg2);\r\n }\r\n case BuiltinSymbols.unreachable: { // unreachable() -> *\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.typeArgumentsRange, prototype.internalName\r\n );\r\n }\r\n checkArgsRequired(operands, 0, reportNode, compiler);\r\n return module.createUnreachable();\r\n }\r\n\r\n // === Memory =================================================================================\r\n\r\n case BuiltinSymbols.memory_size: { // memory.size() -> i32\r\n compiler.currentType = Type.i32;\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 0, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n return module.createHost(HostOp.CurrentMemory);\r\n }\r\n case BuiltinSymbols.memory_grow: { // memory.grow(pages: i32) -> i32\r\n compiler.currentType = Type.i32;\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n return module.createHost(HostOp.GrowMemory, null, [\r\n compiler.compileExpression(operands[0], Type.i32, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n ]);\r\n }\r\n case BuiltinSymbols.memory_copy: { // memory.copy(dest: usize, src: usize: n: usize) -> void\r\n compiler.currentType = Type.void;\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 3, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n if (!compiler.options.hasFeature(Feature.BULK_MEMORY)) {\r\n let instance = compiler.resolver.resolveFunction(prototype, null); // reports\r\n compiler.currentType = Type.void;\r\n if (!instance) return module.createUnreachable();\r\n return compiler.compileCallDirect(instance, operands, reportNode);\r\n }\r\n let usizeType = compiler.options.usizeType;\r\n let arg0 = compiler.compileExpression(\r\n operands[0],\r\n usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let arg1 = compiler.compileExpression(\r\n operands[1],\r\n usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let arg2 = compiler.compileExpression(\r\n operands[2],\r\n usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n compiler.currentType = Type.void;\r\n return module.createMemoryCopy(arg0, arg1, arg2);\r\n }\r\n case BuiltinSymbols.memory_fill: { // memory.fill(dest: usize, value: u8, n: usize) -> void\r\n compiler.currentType = Type.void;\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 3, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n if (!compiler.options.hasFeature(Feature.BULK_MEMORY)) {\r\n let instance = compiler.resolver.resolveFunction(prototype, null); // reports\r\n compiler.currentType = Type.void;\r\n if (!instance) return module.createUnreachable();\r\n return compiler.compileCallDirect(instance, operands, reportNode);\r\n }\r\n let usizeType = compiler.options.usizeType;\r\n let arg0 = compiler.compileExpression(\r\n operands[0],\r\n usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let arg1 = compiler.compileExpression(\r\n operands[1],\r\n Type.u8,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n let arg2 = compiler.compileExpression(\r\n operands[2],\r\n usizeType,\r\n ConversionKind.IMPLICIT,\r\n WrapMode.NONE\r\n );\r\n compiler.currentType = Type.void;\r\n return module.createMemoryFill(arg0, arg1, arg2);\r\n }\r\n\r\n // === Helpers ================================================================================\r\n\r\n case BuiltinSymbols.changetype: { // changetype(value: *) -> T\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler, true) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let toType = typeArguments![0];\r\n let arg0 = compiler.compileExpressionRetainType(\r\n operands[0],\r\n toType,\r\n WrapMode.NONE\r\n );\r\n let fromType = compiler.currentType;\r\n compiler.currentType = toType;\r\n if (fromType.size != toType.size) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n return module.createUnreachable();\r\n }\r\n return arg0;\r\n }\r\n case BuiltinSymbols.assert: { // assert(isTrueish: T, message?: string) -> T{!= null}\r\n if (\r\n checkTypeOptional(typeArguments, reportNode, compiler) |\r\n checkArgsOptional(operands, 1, 2, reportNode, compiler)\r\n ) {\r\n if (typeArguments) {\r\n assert(typeArguments.length); // otherwise invalid, should not been set at all\r\n compiler.currentType = typeArguments[0].nonNullableType;\r\n }\r\n return module.createUnreachable();\r\n }\r\n let arg0 = typeArguments\r\n ? compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.WRAP)\r\n : compiler.compileExpressionRetainType(operands[0], Type.bool, WrapMode.WRAP);\r\n let type = compiler.currentType;\r\n compiler.currentType = type.nonNullableType;\r\n\r\n // return ifTrueish if assertions are disabled\r\n if (compiler.options.noAssert) {\r\n if (contextualType == Type.void) { // simplify if dropped anyway\r\n compiler.currentType = Type.void;\r\n return module.createNop();\r\n }\r\n return arg0;\r\n }\r\n\r\n // otherwise call abort if the assertion is false-ish\r\n let abort = compileAbort(compiler, operands.length == 2 ? operands[1] : null, reportNode);\r\n compiler.currentType = type.nonNullableType;\r\n let expr: ExpressionRef;\r\n if (contextualType == Type.void) { // simplify if dropped anyway\r\n compiler.currentType = Type.void;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n expr = module.createIf(\r\n module.createUnary(UnaryOp.EqzI32, arg0),\r\n abort\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n expr = module.createIf(\r\n module.createUnary(UnaryOp.EqzI64, arg0),\r\n abort\r\n );\r\n break;\r\n }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n expr = module.createIf(\r\n module.createUnary(\r\n compiler.options.isWasm64\r\n ? UnaryOp.EqzI64\r\n : UnaryOp.EqzI32,\r\n arg0\r\n ),\r\n abort\r\n );\r\n break;\r\n }\r\n // TODO: also check for NaN in float assertions, as in `Boolean(NaN) -> false`?\r\n case TypeKind.F32: {\r\n expr = module.createIf(\r\n module.createBinary(BinaryOp.EqF32,\r\n arg0,\r\n module.createF32(0)\r\n ),\r\n abort\r\n );\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n expr = module.createIf(\r\n module.createBinary(BinaryOp.EqF64,\r\n arg0,\r\n module.createF64(0)\r\n ),\r\n abort\r\n );\r\n break;\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n expr = abort;\r\n break;\r\n }\r\n }\r\n } else {\r\n compiler.currentType = type.nonNullableType;\r\n switch (compiler.currentType.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.BOOL: {\r\n let tempLocal = compiler.currentFlow.getAndFreeTempLocal(type, true /* arg0 is wrapped */);\r\n expr = module.createIf(\r\n module.createTeeLocal(tempLocal.index, arg0),\r\n module.createGetLocal(tempLocal.index, NativeType.I32),\r\n abort\r\n );\r\n break;\r\n }\r\n case TypeKind.I64:\r\n case TypeKind.U64: {\r\n let tempLocal = compiler.currentFlow.getAndFreeTempLocal(Type.i64, false);\r\n expr = module.createIf(\r\n module.createUnary(UnaryOp.EqzI64,\r\n module.createTeeLocal(tempLocal.index, arg0)\r\n ),\r\n abort,\r\n module.createGetLocal(tempLocal.index, NativeType.I64)\r\n );\r\n break;\r\n }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n let tempLocal = compiler.currentFlow.getAndFreeTempLocal(compiler.options.usizeType, false);\r\n expr = module.createIf(\r\n module.createUnary(\r\n compiler.options.isWasm64\r\n ? UnaryOp.EqzI64\r\n : UnaryOp.EqzI32,\r\n module.createTeeLocal(tempLocal.index, arg0)\r\n ),\r\n abort,\r\n module.createGetLocal(tempLocal.index, compiler.options.nativeSizeType)\r\n );\r\n break;\r\n }\r\n case TypeKind.F32: {\r\n let tempLocal = compiler.currentFlow.getAndFreeTempLocal(Type.f32, false);\r\n expr = module.createIf(\r\n module.createBinary(BinaryOp.EqF32,\r\n module.createTeeLocal(tempLocal.index, arg0),\r\n module.createF32(0)\r\n ),\r\n abort,\r\n module.createGetLocal(tempLocal.index, NativeType.F32)\r\n );\r\n break;\r\n }\r\n case TypeKind.F64: {\r\n let tempLocal = compiler.currentFlow.getAndFreeTempLocal(Type.f64, false);\r\n expr = module.createIf(\r\n module.createBinary(BinaryOp.EqF64,\r\n module.createTeeLocal(tempLocal.index, arg0),\r\n module.createF64(0)\r\n ),\r\n abort,\r\n module.createGetLocal(tempLocal.index, NativeType.F64)\r\n );\r\n break;\r\n }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n expr = abort;\r\n break;\r\n }\r\n }\r\n }\r\n return expr;\r\n }\r\n case BuiltinSymbols.unchecked: { // unchecked(expr: *) -> *\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let flow = compiler.currentFlow;\r\n let alreadyUnchecked = flow.is(FlowFlags.UNCHECKED_CONTEXT);\r\n flow.set(FlowFlags.UNCHECKED_CONTEXT);\r\n let expr = compiler.compileExpressionRetainType(operands[0], contextualType, WrapMode.NONE);\r\n if (!alreadyUnchecked) flow.unset(FlowFlags.UNCHECKED_CONTEXT);\r\n return expr;\r\n }\r\n case BuiltinSymbols.call_indirect: { // call_indirect(target: Function | u32, ...args: *[]) -> T\r\n if (\r\n checkTypeOptional(typeArguments, reportNode, compiler, true) |\r\n checkArgsOptional(operands, 1, i32.MAX_VALUE, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let returnType = typeArguments ? typeArguments[0] : contextualType;\r\n let arg0 = compiler.compileExpressionRetainType(operands[0], Type.u32, WrapMode.NONE);\r\n let arg0Type = compiler.currentType;\r\n if (!(\r\n arg0Type == Type.u32 || // either plain index\r\n arg0Type.kind == TypeKind.U32 && arg0Type.signatureReference // or function reference\r\n )) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n operands[0].range\r\n );\r\n return module.createUnreachable();\r\n }\r\n let numOperands = operands.length - 1;\r\n let operandExprs = new Array(numOperands);\r\n let nativeReturnType = returnType.toNativeType();\r\n let parameterTypes = new Array(numOperands);\r\n let nativeParamTypes = new Array(numOperands);\r\n for (let i = 0; i < numOperands; ++i) {\r\n operandExprs[i] = compiler.compileExpressionRetainType(operands[1 + i], Type.i32, WrapMode.NONE);\r\n let operandType = compiler.currentType;\r\n parameterTypes[i] = operandType;\r\n nativeParamTypes[i] = operandType.toNativeType();\r\n }\r\n let typeName = Signature.makeSignatureString(parameterTypes, returnType);\r\n let typeRef = module.getFunctionTypeBySignature(nativeReturnType, nativeParamTypes);\r\n if (!typeRef) typeRef = module.addFunctionType(typeName, nativeReturnType, nativeParamTypes);\r\n compiler.currentType = returnType;\r\n // of course this can easily result in a 'RuntimeError: function signature mismatch' trap and\r\n // thus must be used with care. it exists because it *might* be useful in specific scenarios.\r\n return module.createCallIndirect(arg0, operandExprs, typeName);\r\n }\r\n case BuiltinSymbols.instantiate: { // instantiate(...args: *[]) -> T\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler, true)\r\n ) return module.createUnreachable();\r\n let classInstance = typeArguments![0].classReference;\r\n if (!classInstance) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n compiler.currentType = classInstance.type;\r\n return compiler.compileInstantiate(classInstance, operands, reportNode);\r\n }\r\n\r\n // === User-defined diagnostics ===============================================================\r\n\r\n case BuiltinSymbols.ERROR: {\r\n checkTypeAbsent(typeArguments, reportNode, prototype);\r\n compiler.error(\r\n DiagnosticCode.User_defined_0,\r\n reportNode.range, (operands.length ? operands[0] : reportNode).range.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n case BuiltinSymbols.WARNING: {\r\n checkTypeAbsent(typeArguments, reportNode, prototype);\r\n compiler.warning(\r\n DiagnosticCode.User_defined_0,\r\n reportNode.range, (operands.length ? operands[0] : reportNode).range.toString()\r\n );\r\n return module.createNop();\r\n }\r\n case BuiltinSymbols.INFO: {\r\n checkTypeAbsent(typeArguments, reportNode, prototype);\r\n compiler.info(\r\n DiagnosticCode.User_defined_0,\r\n reportNode.range, (operands.length ? operands[0] : reportNode).range.toString()\r\n );\r\n return module.createNop();\r\n }\r\n\r\n // === Portable type conversions ==============================================================\r\n\r\n case BuiltinSymbols.i8: {\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.i8;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(operands[0], Type.i8, ConversionKind.EXPLICIT, WrapMode.NONE);\r\n }\r\n case BuiltinSymbols.i16: {\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.i16;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(operands[0], Type.i16, ConversionKind.EXPLICIT, WrapMode.NONE);\r\n }\r\n case BuiltinSymbols.i32: {\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.i32;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(operands[0], Type.i32, ConversionKind.EXPLICIT, WrapMode.NONE);\r\n }\r\n case BuiltinSymbols.i64: {\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.i64;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(operands[0], Type.i64, ConversionKind.EXPLICIT, WrapMode.NONE);\r\n }\r\n case BuiltinSymbols.isize: {\r\n let isizeType = compiler.options.isizeType;\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) {\r\n compiler.currentType = isizeType;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(operands[0], isizeType, ConversionKind.EXPLICIT, WrapMode.NONE);\r\n }\r\n case BuiltinSymbols.u8: {\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.u8;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(operands[0], Type.u8, ConversionKind.EXPLICIT, WrapMode.NONE);\r\n }\r\n case BuiltinSymbols.u16: {\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.u16;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(operands[0], Type.u16, ConversionKind.EXPLICIT, WrapMode.NONE);\r\n }\r\n case BuiltinSymbols.u32: {\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.u32;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(operands[0], Type.u32, ConversionKind.EXPLICIT, WrapMode.NONE);\r\n }\r\n case BuiltinSymbols.u64: {\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.u64;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(operands[0], Type.u64, ConversionKind.EXPLICIT, WrapMode.NONE);\r\n }\r\n case BuiltinSymbols.usize: {\r\n let usizeType = compiler.options.usizeType;\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) {\r\n compiler.currentType = usizeType;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(operands[0], usizeType, ConversionKind.EXPLICIT, WrapMode.NONE);\r\n }\r\n case BuiltinSymbols.bool: {\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.bool;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(operands[0], Type.bool, ConversionKind.EXPLICIT, WrapMode.NONE);\r\n }\r\n case BuiltinSymbols.f32: {\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.f32;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(operands[0], Type.f32, ConversionKind.EXPLICIT, WrapMode.NONE);\r\n }\r\n case BuiltinSymbols.f64: {\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.f64;\r\n return module.createUnreachable();\r\n }\r\n return compiler.compileExpression(operands[0], Type.f64, ConversionKind.EXPLICIT, WrapMode.NONE);\r\n }\r\n\r\n // === SIMD ===================================================================================\r\n\r\n case BuiltinSymbols.v128: // alias for now\r\n case BuiltinSymbols.i8x16: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 16, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let bytes = new Uint8Array(16);\r\n for (let i = 0; i < 16; ++i) {\r\n let value = operands[i];\r\n if (value) {\r\n let expr = module.precomputeExpression(\r\n compiler.compileExpression(value, Type.i8, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n );\r\n if (getExpressionId(expr) != ExpressionId.Const) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n value.range\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n assert(getExpressionType(expr) == NativeType.I32);\r\n writeI8(getConstValueI32(expr), bytes, i);\r\n }\r\n }\r\n compiler.currentType = Type.v128;\r\n return module.createV128(bytes);\r\n }\r\n case BuiltinSymbols.i16x8: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 8, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let bytes = new Uint8Array(16);\r\n for (let i = 0; i < 8; ++i) {\r\n let value = operands[i];\r\n if (value) {\r\n let expr = module.precomputeExpression(\r\n compiler.compileExpression(value, Type.i16, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n );\r\n if (getExpressionId(expr) != ExpressionId.Const) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n value.range\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n assert(getExpressionType(expr) == NativeType.I32);\r\n writeI16(getConstValueI32(expr), bytes, i << 1);\r\n }\r\n }\r\n compiler.currentType = Type.v128;\r\n return module.createV128(bytes);\r\n }\r\n case BuiltinSymbols.i32x4: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 4, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let bytes = new Uint8Array(16);\r\n for (let i = 0; i < 4; ++i) {\r\n let value = operands[i];\r\n if (value) {\r\n let expr = module.precomputeExpression(\r\n compiler.compileExpression(value, Type.i32, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n );\r\n if (getExpressionId(expr) != ExpressionId.Const) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n value.range\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n assert(getExpressionType(expr) == NativeType.I32);\r\n writeI32(getConstValueI32(expr), bytes, i << 2);\r\n }\r\n }\r\n compiler.currentType = Type.v128;\r\n return module.createV128(bytes);\r\n }\r\n case BuiltinSymbols.i64x2: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 2, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let bytes = new Uint8Array(16);\r\n for (let i = 0; i < 2; ++i) {\r\n let value = operands[i];\r\n if (value) {\r\n let expr = module.precomputeExpression(\r\n compiler.compileExpression(value, Type.i64, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n );\r\n if (getExpressionId(expr) != ExpressionId.Const) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n value.range\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n assert(getExpressionType(expr) == NativeType.I64);\r\n let off = i << 3;\r\n writeI32(getConstValueI64Low(expr), bytes, off);\r\n writeI32(getConstValueI64High(expr), bytes, off + 4);\r\n }\r\n }\r\n compiler.currentType = Type.v128;\r\n return module.createV128(bytes);\r\n }\r\n case BuiltinSymbols.f32x4: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 4, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let bytes = new Uint8Array(16);\r\n for (let i = 0; i < 4; ++i) {\r\n let value = operands[i];\r\n if (value) {\r\n let expr = module.precomputeExpression(\r\n compiler.compileExpression(value, Type.f32, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n );\r\n if (getExpressionId(expr) != ExpressionId.Const) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n value.range\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n assert(getExpressionType(expr) == NativeType.F32);\r\n writeF32(getConstValueF32(expr), bytes, i << 2);\r\n }\r\n }\r\n compiler.currentType = Type.v128;\r\n return module.createV128(bytes);\r\n }\r\n case BuiltinSymbols.f64x2: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 2, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let bytes = new Uint8Array(16);\r\n for (let i = 0; i < 2; ++i) {\r\n let value = operands[i];\r\n if (value) {\r\n let expr = module.precomputeExpression(\r\n compiler.compileExpression(value, Type.f64, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n );\r\n if (getExpressionId(expr) != ExpressionId.Const) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n value.range\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n assert(getExpressionType(expr) == NativeType.F64);\r\n writeF64(getConstValueF64(expr), bytes, i << 3);\r\n }\r\n }\r\n compiler.currentType = Type.v128;\r\n return module.createV128(bytes);\r\n }\r\n case BuiltinSymbols.v128_splat: { // splat(x: T) -> v128\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments![0];\r\n if (type.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let op: UnaryOp;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = UnaryOp.SplatVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = UnaryOp.SplatVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = UnaryOp.SplatVecI32x4; break; }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = UnaryOp.SplatVecI64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? UnaryOp.SplatVecI64x2\r\n : UnaryOp.SplatVecI32x4;\r\n break;\r\n }\r\n case TypeKind.F32: { op = UnaryOp.SplatVecF32x4; break; }\r\n case TypeKind.F64: { op = UnaryOp.SplatVecF64x2; break; }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n }\r\n let arg0 = compiler.compileExpression(operands[0], type, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createUnary(op, arg0);\r\n }\r\n case BuiltinSymbols.v128_extract_lane: { // extract_lane(x: v128, idx: u8) -> T\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler, true) |\r\n checkArgsRequired(operands, 2, reportNode, compiler)\r\n ) return module.createUnreachable();\r\n let type = typeArguments![0];\r\n if (type.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n compiler.currentType = type;\r\n return module.createUnreachable();\r\n }\r\n let op: SIMDExtractOp;\r\n switch (type.kind) {\r\n case TypeKind.I8: { op = SIMDExtractOp.ExtractLaneSVecI8x16; break; }\r\n case TypeKind.U8: { op = SIMDExtractOp.ExtractLaneUVecI8x16; break; }\r\n case TypeKind.I16: { op = SIMDExtractOp.ExtractLaneSVecI16x8; break; }\r\n case TypeKind.U16: { op = SIMDExtractOp.ExtractLaneUVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = SIMDExtractOp.ExtractLaneVecI32x4; break; }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = SIMDExtractOp.ExtractLaneVecI64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? SIMDExtractOp.ExtractLaneVecI64x2\r\n : SIMDExtractOp.ExtractLaneVecI32x4;\r\n break;\r\n }\r\n case TypeKind.F32: { op = SIMDExtractOp.ExtractLaneVecF32x4; break; }\r\n case TypeKind.F64: { op = SIMDExtractOp.ExtractLaneVecF64x2; break; }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n compiler.currentType = type;\r\n return module.createUnreachable();\r\n }\r\n }\r\n let arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n let arg1 = module.precomputeExpression(\r\n compiler.compileExpression(operands[1], Type.u8, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n );\r\n compiler.currentType = type;\r\n if (getExpressionId(arg1) != ExpressionId.Const) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n operands[1].range\r\n );\r\n return module.createUnreachable();\r\n }\r\n assert(getExpressionType(arg1) == NativeType.I32);\r\n let maxIdx = (16 / type.byteSize) - 1;\r\n let idx = getConstValueI32(arg1);\r\n if (idx < 0 || idx > maxIdx) {\r\n compiler.error(\r\n DiagnosticCode._0_must_be_a_value_between_1_and_2_inclusive,\r\n operands[1].range, \"Lane index\", \"0\", maxIdx.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n return module.createSIMDExtract(op, arg0, idx);\r\n }\r\n case BuiltinSymbols.v128_replace_lane: { // replace_lane(x: v128, idx: u8, value: T) -> v128\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler) |\r\n checkArgsRequired(operands, 3, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments![0];\r\n if (type.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let op: SIMDReplaceOp;\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = SIMDReplaceOp.ReplaceLaneVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = SIMDReplaceOp.ReplaceLaneVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = SIMDReplaceOp.ReplaceLaneVecI32x4; break; }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = SIMDReplaceOp.ReplaceLaneVecI64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? SIMDReplaceOp.ReplaceLaneVecI64x2\r\n : SIMDReplaceOp.ReplaceLaneVecI32x4;\r\n break;\r\n }\r\n case TypeKind.F32: { op = SIMDReplaceOp.ReplaceLaneVecF32x4; break; }\r\n case TypeKind.F64: { op = SIMDReplaceOp.ReplaceLaneVecF64x2; break; }\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n }\r\n let arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n let arg1 = module.precomputeExpression(\r\n compiler.compileExpression(operands[1], Type.u8, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n );\r\n if (getExpressionId(arg1) != ExpressionId.Const) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n operands[1].range\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n assert(getExpressionType(arg1) == NativeType.I32);\r\n let maxIdx = (16 / type.byteSize) - 1;\r\n let idx = getConstValueI32(arg1);\r\n if (idx < 0 || idx > maxIdx) {\r\n compiler.error(\r\n DiagnosticCode._0_must_be_a_value_between_1_and_2_inclusive,\r\n operands[1].range, \"Lane index\", \"0\", maxIdx.toString()\r\n );\r\n return module.createUnreachable();\r\n }\r\n let arg2 = compiler.compileExpression(operands[2], type, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createSIMDReplace(op, arg0, idx, arg2);\r\n }\r\n case BuiltinSymbols.v128_shuffle: { // shuffle(a: v128, b: v128, ...lanes: u8[]) -> v128\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments![0];\r\n if (type.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let laneWidth = type.byteSize;\r\n let laneCount = 16 / laneWidth;\r\n assert(isInteger(laneCount) && isPowerOf2(laneCount));\r\n if (\r\n checkArgsRequired(operands, 2 + laneCount, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.I16:\r\n case TypeKind.I32:\r\n case TypeKind.I64:\r\n case TypeKind.ISIZE:\r\n case TypeKind.U8:\r\n case TypeKind.U16:\r\n case TypeKind.U32:\r\n case TypeKind.U64:\r\n case TypeKind.USIZE:\r\n case TypeKind.F32:\r\n case TypeKind.F64: break;\r\n default: {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n }\r\n let arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n let arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n let mask = new Uint8Array(16);\r\n let maxIdx = (laneCount << 1) - 1;\r\n for (let i = 0; i < laneCount; ++i) {\r\n let operand = operands[2 + i];\r\n let argN = module.precomputeExpression(\r\n compiler.compileExpression(operand, Type.u8, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n );\r\n if (getExpressionId(argN) != ExpressionId.Const) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n operand.range\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n assert(getExpressionType(argN) == NativeType.I32);\r\n let idx = getConstValueI32(argN);\r\n if (idx < 0 || idx > maxIdx) {\r\n compiler.error(\r\n DiagnosticCode._0_must_be_a_value_between_1_and_2_inclusive,\r\n operand.range, \"Lane index\", \"0\", maxIdx.toString()\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n switch (laneWidth) {\r\n case 1: {\r\n writeI8(idx, mask, i);\r\n break;\r\n }\r\n case 2: {\r\n let off8 = i << 1;\r\n let idx8 = idx << 1;\r\n writeI8(idx8 , mask, off8);\r\n writeI8(idx8 + 1, mask, off8 + 1);\r\n break;\r\n }\r\n case 4: {\r\n let off8 = i << 2;\r\n let idx8 = idx << 2;\r\n writeI8(idx8 , mask, off8);\r\n writeI8(idx8 + 1, mask, off8 + 1);\r\n writeI8(idx8 + 2, mask, off8 + 2);\r\n writeI8(idx8 + 3, mask, off8 + 3);\r\n break;\r\n }\r\n case 8: {\r\n let off8 = i << 3;\r\n let idx8 = idx << 3;\r\n writeI8(idx8 , mask, off8);\r\n writeI8(idx8 + 1, mask, off8 + 1);\r\n writeI8(idx8 + 2, mask, off8 + 2);\r\n writeI8(idx8 + 3, mask, off8 + 3);\r\n writeI8(idx8 + 4, mask, off8 + 4);\r\n writeI8(idx8 + 5, mask, off8 + 5);\r\n writeI8(idx8 + 6, mask, off8 + 6);\r\n writeI8(idx8 + 7, mask, off8 + 7);\r\n break;\r\n }\r\n default: assert(false);\r\n }\r\n }\r\n compiler.currentType = Type.v128;\r\n return module.createSIMDShuffle(arg0, arg1, mask);\r\n }\r\n case BuiltinSymbols.v128_add: // any_binary(a: v128, b: v128) -> v128\r\n case BuiltinSymbols.v128_sub:\r\n case BuiltinSymbols.v128_mul:\r\n case BuiltinSymbols.v128_div:\r\n case BuiltinSymbols.v128_add_saturate:\r\n case BuiltinSymbols.v128_sub_saturate:\r\n case BuiltinSymbols.v128_min:\r\n case BuiltinSymbols.v128_max:\r\n case BuiltinSymbols.v128_eq:\r\n case BuiltinSymbols.v128_ne:\r\n case BuiltinSymbols.v128_lt:\r\n case BuiltinSymbols.v128_le:\r\n case BuiltinSymbols.v128_gt:\r\n case BuiltinSymbols.v128_ge: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler) |\r\n checkArgsRequired(operands, 2, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments![0];\r\n if (type.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let op: BinaryOp = -1;\r\n switch (prototype.internalName) {\r\n case BuiltinSymbols.v128_add: {\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = BinaryOp.AddVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = BinaryOp.AddVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = BinaryOp.AddVecI32x4; break; }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = BinaryOp.AddVecI64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? BinaryOp.AddVecI64x2\r\n : BinaryOp.AddVecI32x4;\r\n break;\r\n }\r\n case TypeKind.F32: { op = BinaryOp.AddVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.AddVecF64x2; break; }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.v128_sub: {\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = BinaryOp.SubVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = BinaryOp.SubVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = BinaryOp.SubVecI32x4; break; }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = BinaryOp.SubVecI64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? BinaryOp.SubVecI64x2\r\n : BinaryOp.SubVecI32x4;\r\n break;\r\n }\r\n case TypeKind.F32: { op = BinaryOp.SubVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.SubVecF64x2; break; }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.v128_mul: {\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = BinaryOp.MulVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = BinaryOp.MulVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = BinaryOp.MulVecI32x4; break; }\r\n case TypeKind.F32: { op = BinaryOp.MulVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.MulVecF64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n if (!compiler.options.isWasm64) op = BinaryOp.MulVecI32x4;\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.v128_div: {\r\n switch (type.kind) {\r\n case TypeKind.F32: { op = BinaryOp.DivVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.DivVecF64x2; break; }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.v128_add_saturate: {\r\n switch (type.kind) {\r\n case TypeKind.I8: { op = BinaryOp.AddSatSVecI8x16; break; }\r\n case TypeKind.U8: { op = BinaryOp.AddSatUVecI8x16; break; }\r\n case TypeKind.I16: { op = BinaryOp.AddSatSVecI16x8; break; }\r\n case TypeKind.U16: { op = BinaryOp.AddSatUVecI16x8; break; }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.v128_sub_saturate: {\r\n switch (type.kind) {\r\n case TypeKind.I8: { op = BinaryOp.SubSatSVecI8x16; break; }\r\n case TypeKind.U8: { op = BinaryOp.SubSatUVecI8x16; break; }\r\n case TypeKind.I16: { op = BinaryOp.SubSatSVecI16x8; break; }\r\n case TypeKind.U16: { op = BinaryOp.SubSatUVecI16x8; break; }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.v128_min: {\r\n switch (type.kind) {\r\n case TypeKind.F32: { op = BinaryOp.MinVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.MinVecF64x2; break; }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.v128_max: {\r\n switch (type.kind) {\r\n case TypeKind.F32: { op = BinaryOp.MaxVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.MaxVecF64x2; break; }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.v128_eq: {\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = BinaryOp.EqVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = BinaryOp.EqVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = BinaryOp.EqVecI32x4; break; }\r\n case TypeKind.F32: { op = BinaryOp.EqVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.EqVecF64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n if (!compiler.options.isWasm64) op = BinaryOp.EqVecI32x4;\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.v128_ne: {\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = BinaryOp.NeVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = BinaryOp.NeVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = BinaryOp.NeVecI32x4; break; }\r\n case TypeKind.F32: { op = BinaryOp.NeVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.NeVecF64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n if (!compiler.options.isWasm64) op = BinaryOp.NeVecI32x4;\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.v128_lt: {\r\n switch (type.kind) {\r\n case TypeKind.I8: { op = BinaryOp.LtSVecI8x16; break; }\r\n case TypeKind.U8: { op = BinaryOp.LtUVecI8x16; break; }\r\n case TypeKind.I16: { op = BinaryOp.LtSVecI16x8; break; }\r\n case TypeKind.U16: { op = BinaryOp.LtUVecI16x8; break; }\r\n case TypeKind.I32: { op = BinaryOp.LtSVecI32x4; break; }\r\n case TypeKind.U32: { op = BinaryOp.LtUVecI32x4; break; }\r\n case TypeKind.F32: { op = BinaryOp.LtVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.LtVecF64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n if (!compiler.options.isWasm64) {\r\n op = type.kind == TypeKind.ISIZE\r\n ? BinaryOp.LtSVecI32x4\r\n : BinaryOp.LtUVecI32x4;\r\n }\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.v128_le: {\r\n switch (type.kind) {\r\n case TypeKind.I8: { op = BinaryOp.LeSVecI8x16; break; }\r\n case TypeKind.U8: { op = BinaryOp.LeUVecI8x16; break; }\r\n case TypeKind.I16: { op = BinaryOp.LeSVecI16x8; break; }\r\n case TypeKind.U16: { op = BinaryOp.LeUVecI16x8; break; }\r\n case TypeKind.I32: { op = BinaryOp.LeSVecI32x4; break; }\r\n case TypeKind.U32: { op = BinaryOp.LeUVecI32x4; break; }\r\n case TypeKind.F32: { op = BinaryOp.LeVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.LeVecF64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n if (!compiler.options.isWasm64) {\r\n op = type.kind == TypeKind.ISIZE\r\n ? BinaryOp.LeSVecI32x4\r\n : BinaryOp.LeUVecI32x4;\r\n }\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.v128_gt: {\r\n switch (type.kind) {\r\n case TypeKind.I8: { op = BinaryOp.GtSVecI8x16; break; }\r\n case TypeKind.U8: { op = BinaryOp.GtUVecI8x16; break; }\r\n case TypeKind.I16: { op = BinaryOp.GtSVecI16x8; break; }\r\n case TypeKind.U16: { op = BinaryOp.GtUVecI16x8; break; }\r\n case TypeKind.I32: { op = BinaryOp.GtSVecI32x4; break; }\r\n case TypeKind.U32: { op = BinaryOp.GtUVecI32x4; break; }\r\n case TypeKind.F32: { op = BinaryOp.GtVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.GtVecF64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n if (!compiler.options.isWasm64) {\r\n op = type.kind == TypeKind.ISIZE\r\n ? BinaryOp.GtSVecI32x4\r\n : BinaryOp.GtUVecI32x4;\r\n }\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.v128_ge: {\r\n switch (type.kind) {\r\n case TypeKind.I8: { op = BinaryOp.GeSVecI8x16; break; }\r\n case TypeKind.U8: { op = BinaryOp.GeUVecI8x16; break; }\r\n case TypeKind.I16: { op = BinaryOp.GeSVecI16x8; break; }\r\n case TypeKind.U16: { op = BinaryOp.GeUVecI16x8; break; }\r\n case TypeKind.I32: { op = BinaryOp.GeSVecI32x4; break; }\r\n case TypeKind.U32: { op = BinaryOp.GeUVecI32x4; break; }\r\n case TypeKind.F32: { op = BinaryOp.GeVecF32x4; break; }\r\n case TypeKind.F64: { op = BinaryOp.GeVecF64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n if (!compiler.options.isWasm64) {\r\n op = type.kind == TypeKind.ISIZE\r\n ? BinaryOp.GeSVecI32x4\r\n : BinaryOp.GeUVecI32x4;\r\n }\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n }\r\n if (op == -1) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n let arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createBinary(op, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_neg: // any_unary(a: v128) -> v128\r\n case BuiltinSymbols.v128_abs:\r\n case BuiltinSymbols.v128_sqrt:\r\n case BuiltinSymbols.v128_convert:\r\n case BuiltinSymbols.v128_trunc: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments![0];\r\n if (type.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let op: UnaryOp = -1;\r\n switch (prototype.internalName) {\r\n case BuiltinSymbols.v128_neg: {\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = UnaryOp.NegVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = UnaryOp.NegVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = UnaryOp.NegVecI32x4; break; }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = UnaryOp.NegVecI64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? UnaryOp.NegVecI64x2\r\n : UnaryOp.NegVecI32x4;\r\n break;\r\n }\r\n case TypeKind.F32: { op = UnaryOp.NegVecF32x4; break; }\r\n case TypeKind.F64: { op = UnaryOp.NegVecF64x2; break; }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.v128_abs: {\r\n switch (type.kind) {\r\n case TypeKind.F32: { op = UnaryOp.AbsVecF32x4; break; }\r\n case TypeKind.F64: { op = UnaryOp.AbsVecF64x2; break; }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.v128_sqrt: {\r\n switch (type.kind) {\r\n case TypeKind.F32: { op = UnaryOp.SqrtVecF32x4; break; }\r\n case TypeKind.F64: { op = UnaryOp.SqrtVecF64x2; break; }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.v128_convert: {\r\n switch (type.kind) {\r\n case TypeKind.I32: { op = UnaryOp.ConvertSVecI32x4ToVecF32x4; break; }\r\n case TypeKind.U32: { op = UnaryOp.ConvertUVecI32x4ToVecF32x4; break; }\r\n case TypeKind.I64: { op = UnaryOp.ConvertSVecI64x2ToVecF64x2; break; }\r\n case TypeKind.U64: { op = UnaryOp.ConvertUVecI64x2ToVecF64x2; break; }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.v128_trunc: {\r\n switch (type.kind) {\r\n case TypeKind.I32: { op = UnaryOp.TruncSatSVecF32x4ToVecI32x4; break; }\r\n case TypeKind.U32: { op = UnaryOp.TruncSatUVecF32x4ToVecI32x4; break; }\r\n case TypeKind.I64: { op = UnaryOp.TruncSatSVecF64x2ToVecI64x2; break; }\r\n case TypeKind.U64: { op = UnaryOp.TruncSatUVecF64x2ToVecI64x2; break; }\r\n }\r\n break;\r\n }\r\n }\r\n if (op == -1) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createUnary(op, arg0);\r\n }\r\n case BuiltinSymbols.v128_shl: // any_shift(a: v128, b: i32) -> v128\r\n case BuiltinSymbols.v128_shr: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler) |\r\n checkArgsRequired(operands, 2, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments![0];\r\n if (type.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let op: SIMDShiftOp = -1;\r\n switch (prototype.internalName) {\r\n case BuiltinSymbols.v128_shl: {\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = SIMDShiftOp.ShlVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = SIMDShiftOp.ShlVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = SIMDShiftOp.ShlVecI32x4; break; }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = SIMDShiftOp.ShlVecI64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? SIMDShiftOp.ShlVecI64x2\r\n : SIMDShiftOp.ShlVecI32x4;\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.v128_shr: {\r\n switch (type.kind) {\r\n case TypeKind.I8: { op = SIMDShiftOp.ShrSVecI8x16; break; }\r\n case TypeKind.U8: { op = SIMDShiftOp.ShrUVecI8x16; break; }\r\n case TypeKind.I16: { op = SIMDShiftOp.ShrSVecI16x8; break; }\r\n case TypeKind.U16: { op = SIMDShiftOp.ShrUVecI16x8; break; }\r\n case TypeKind.I32: { op = SIMDShiftOp.ShrSVecI32x4; break; }\r\n case TypeKind.U32: { op = SIMDShiftOp.ShrUVecI32x4; break; }\r\n case TypeKind.I64: { op = SIMDShiftOp.ShrSVecI64x2; break; }\r\n case TypeKind.U64: { op = SIMDShiftOp.ShrUVecI64x2; break; }\r\n case TypeKind.ISIZE: {\r\n op = compiler.options.isWasm64\r\n ? SIMDShiftOp.ShrSVecI64x2\r\n : SIMDShiftOp.ShrSVecI32x4;\r\n break;\r\n }\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? SIMDShiftOp.ShrUVecI64x2\r\n : SIMDShiftOp.ShrUVecI32x4;\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n }\r\n if (op == -1) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.range\r\n );\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n let arg1 = compiler.compileExpression(operands[1], Type.i32, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.v128;\r\n return module.createSIMDShift(op, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_and: // any_bitwise_binary(a: v128, b: v128) -> v128\r\n case BuiltinSymbols.v128_or:\r\n case BuiltinSymbols.v128_xor: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 2, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let op: BinaryOp = -1;\r\n switch (prototype.internalName) {\r\n default: assert(false);\r\n case BuiltinSymbols.v128_and: { op = BinaryOp.AndVec128; break; }\r\n case BuiltinSymbols.v128_or: { op = BinaryOp.OrVec128; break; }\r\n case BuiltinSymbols.v128_xor: { op = BinaryOp.XorVec128; break; }\r\n }\r\n let arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n let arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n return module.createBinary(op, arg0, arg1);\r\n }\r\n case BuiltinSymbols.v128_not: { // any_bitwise_unary(a: v128) -> v128\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n return module.createUnary(UnaryOp.NotVec128, arg0);\r\n }\r\n case BuiltinSymbols.v128_bitselect: { // bitselect(v1: v128, v2: v128, c: v128) -> v128\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 3, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.v128;\r\n return module.createUnreachable();\r\n }\r\n let arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n let arg1 = compiler.compileExpression(operands[1], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n let arg2 = compiler.compileExpression(operands[2], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n return module.createSIMDBitselect(arg0, arg1, arg2);\r\n }\r\n case BuiltinSymbols.v128_any_true: // any_test(a: v128) -> bool\r\n case BuiltinSymbols.v128_all_true: {\r\n if (!compiler.options.hasFeature(Feature.SIMD)) break;\r\n if (\r\n checkTypeRequired(typeArguments, reportNode, compiler) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.bool;\r\n return module.createUnreachable();\r\n }\r\n let type = typeArguments![0];\r\n if (type.is(TypeFlags.REFERENCE)) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n return module.createUnreachable();\r\n }\r\n let op: UnaryOp = -1;\r\n switch (prototype.internalName) {\r\n default: assert(false);\r\n case BuiltinSymbols.v128_any_true: {\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = UnaryOp.AnyTrueVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = UnaryOp.AnyTrueVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = UnaryOp.AnyTrueVecI32x4; break; }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = UnaryOp.AnyTrueVecI64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? UnaryOp.AnyTrueVecI64x2\r\n : UnaryOp.AnyTrueVecI32x4;\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n case BuiltinSymbols.v128_all_true: {\r\n switch (type.kind) {\r\n case TypeKind.I8:\r\n case TypeKind.U8: { op = UnaryOp.AllTrueVecI8x16; break; }\r\n case TypeKind.I16:\r\n case TypeKind.U16: { op = UnaryOp.AllTrueVecI16x8; break; }\r\n case TypeKind.I32:\r\n case TypeKind.U32: { op = UnaryOp.AllTrueVecI32x4; break; }\r\n case TypeKind.I64:\r\n case TypeKind.U64: { op = UnaryOp.AllTrueVecI64x2; break; }\r\n case TypeKind.ISIZE:\r\n case TypeKind.USIZE: {\r\n op = compiler.options.isWasm64\r\n ? UnaryOp.AllTrueVecI64x2\r\n : UnaryOp.AllTrueVecI32x4;\r\n break;\r\n }\r\n }\r\n break;\r\n }\r\n }\r\n if (op == -1) {\r\n compiler.error(\r\n DiagnosticCode.Operation_not_supported,\r\n reportNode.typeArgumentsRange\r\n );\r\n compiler.currentType = Type.bool;\r\n return module.createUnreachable();\r\n }\r\n let arg0 = compiler.compileExpression(operands[0], Type.v128, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n compiler.currentType = Type.bool;\r\n return module.createUnary(op, arg0);\r\n }\r\n\r\n // === GC integration =========================================================================\r\n\r\n case BuiltinSymbols.iterateRoots: {\r\n if (\r\n checkTypeAbsent(typeArguments, reportNode, prototype) |\r\n checkArgsRequired(operands, 1, reportNode, compiler)\r\n ) {\r\n compiler.currentType = Type.void;\r\n return module.createUnreachable();\r\n }\r\n let expr = compiler.compileExpressionRetainType(operands[0], Type.u32, WrapMode.NONE);\r\n let type = compiler.currentType;\r\n let signatureReference = type.signatureReference;\r\n if (\r\n !type.is(TypeFlags.REFERENCE) ||\r\n !signatureReference ||\r\n signatureReference.parameterTypes.length != 1 ||\r\n signatureReference.parameterTypes[0] != compiler.options.usizeType\r\n ) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_assignable_to_type_1,\r\n reportNode.range, type.toString(), \"(ref: usize) => void\"\r\n );\r\n compiler.currentType = Type.void;\r\n return module.createUnreachable();\r\n }\r\n // just emit a call even if the function doesn't yet exist\r\n compiler.needsIterateRoots = true;\r\n compiler.currentType = Type.void;\r\n return module.createCall(\"~iterateRoots\", [ expr ], NativeType.None);\r\n }\r\n }\r\n\r\n // try to defer inline asm to a concrete built-in\r\n {\r\n let expr = tryDeferASM(compiler, prototype, operands, reportNode);\r\n if (expr) {\r\n if (typeArguments) {\r\n compiler.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.typeArgumentsRange, prototype.internalName\r\n );\r\n }\r\n return expr;\r\n }\r\n }\r\n compiler.error(\r\n DiagnosticCode.Cannot_find_name_0,\r\n reportNode.expression.range, prototype.internalName\r\n );\r\n return module.createUnreachable();\r\n}\r\n\r\n/** Tries to defer an inline-assembler-like call to a built-in function. */\r\nfunction tryDeferASM(\r\n compiler: Compiler,\r\n prototype: FunctionPrototype,\r\n operands: Expression[],\r\n reportNode: CallExpression\r\n): ExpressionRef {\r\n /* tslint:disable:max-line-length */\r\n switch (prototype.internalName) {\r\n\r\n // TODO: Operators can't be just deferred (don't have a corresponding generic built-in)\r\n // add, sub, mul, div_s, div_u, rem_s, rem_u\r\n // and, or, xor, shl, shr_u, shr_s\r\n // eq, eqz, ne, lt_s, lt_u, le_s, le_u, gt_s, gt_u, ge_s, ge_u\r\n\r\n case BuiltinSymbols.i32_clz: return deferASM(BuiltinSymbols.clz, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_clz: return deferASM(BuiltinSymbols.clz, compiler, Type.i64, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i32_ctz: return deferASM(BuiltinSymbols.ctz, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_ctz: return deferASM(BuiltinSymbols.ctz, compiler, Type.i64, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i32_popcnt: return deferASM(BuiltinSymbols.popcnt, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_popcnt: return deferASM(BuiltinSymbols.popcnt, compiler, Type.i64, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i32_rotl: return deferASM(BuiltinSymbols.rotl, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_rotl: return deferASM(BuiltinSymbols.rotl, compiler, Type.i64, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i32_rotr: return deferASM(BuiltinSymbols.rotr, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_rotr: return deferASM(BuiltinSymbols.rotr, compiler, Type.i64, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.f32_abs: return deferASM(BuiltinSymbols.abs, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_abs: return deferASM(BuiltinSymbols.abs, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.f32_max: return deferASM(BuiltinSymbols.max, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_max: return deferASM(BuiltinSymbols.max, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.f32_min: return deferASM(BuiltinSymbols.min, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_min: return deferASM(BuiltinSymbols.min, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.f32_ceil: return deferASM(BuiltinSymbols.ceil, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_ceil: return deferASM(BuiltinSymbols.ceil, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.f32_floor: return deferASM(BuiltinSymbols.floor, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_floor: return deferASM(BuiltinSymbols.floor, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.f32_copysign: return deferASM(BuiltinSymbols.copysign, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_copysign: return deferASM(BuiltinSymbols.copysign, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.f32_nearest: return deferASM(BuiltinSymbols.nearest, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_nearest: return deferASM(BuiltinSymbols.nearest, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.i32_reinterpret_f32: return deferASM(BuiltinSymbols.reinterpret, compiler, Type.i32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.i64_reinterpret_f64: return deferASM(BuiltinSymbols.reinterpret, compiler, Type.i64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.f32_reinterpret_i32: return deferASM(BuiltinSymbols.reinterpret, compiler, Type.f32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.f64_reinterpret_i64: return deferASM(BuiltinSymbols.reinterpret, compiler, Type.f64, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.f32_sqrt: return deferASM(BuiltinSymbols.sqrt, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_sqrt: return deferASM(BuiltinSymbols.sqrt, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.f32_trunc: return deferASM(BuiltinSymbols.trunc, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_trunc: return deferASM(BuiltinSymbols.trunc, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.i32_load8_s: return deferASM(BuiltinSymbols.load, compiler, Type.i8, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_load8_u: return deferASM(BuiltinSymbols.load, compiler, Type.u8, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_load16_s: return deferASM(BuiltinSymbols.load, compiler, Type.i16, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_load16_u: return deferASM(BuiltinSymbols.load, compiler, Type.u16, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_load: return deferASM(BuiltinSymbols.load, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_load8_s: return deferASM(BuiltinSymbols.load, compiler, Type.i8, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_load8_u: return deferASM(BuiltinSymbols.load, compiler, Type.u8, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_load16_s: return deferASM(BuiltinSymbols.load, compiler, Type.i16, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_load16_u: return deferASM(BuiltinSymbols.load, compiler, Type.u16, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_load32_s: return deferASM(BuiltinSymbols.load, compiler, Type.i32, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_load32_u: return deferASM(BuiltinSymbols.load, compiler, Type.u32, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_load: return deferASM(BuiltinSymbols.load, compiler, Type.i64, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.f32_load: return deferASM(BuiltinSymbols.load, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_load: return deferASM(BuiltinSymbols.load, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.i32_store8: return deferASM(BuiltinSymbols.store, compiler, Type.i8, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_store16: return deferASM(BuiltinSymbols.store, compiler, Type.i16, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_store: return deferASM(BuiltinSymbols.store, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_store8: return deferASM(BuiltinSymbols.store, compiler, Type.i8, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_store16: return deferASM(BuiltinSymbols.store, compiler, Type.i16, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_store32: return deferASM(BuiltinSymbols.store, compiler, Type.i32, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_store: return deferASM(BuiltinSymbols.store, compiler, Type.i64, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.f32_store: return deferASM(BuiltinSymbols.store, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f64_store: return deferASM(BuiltinSymbols.store, compiler, Type.f64, operands, Type.f64, reportNode);\r\n }\r\n if (compiler.options.hasFeature(Feature.THREADS)) {\r\n switch (prototype.internalName) {\r\n\r\n case BuiltinSymbols.i32_atomic_load8_u: return deferASM(BuiltinSymbols.atomic_load, compiler, Type.u8, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_atomic_load16_u: return deferASM(BuiltinSymbols.atomic_load, compiler, Type.u16, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_atomic_load: return deferASM(BuiltinSymbols.atomic_load, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_atomic_load8_u: return deferASM(BuiltinSymbols.atomic_load, compiler, Type.u8, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_load16_u: return deferASM(BuiltinSymbols.atomic_load, compiler, Type.u16, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_load32_u: return deferASM(BuiltinSymbols.atomic_load, compiler, Type.u32, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_load: return deferASM(BuiltinSymbols.atomic_load, compiler, Type.i64, operands, Type.i64, reportNode);\r\n\r\n case BuiltinSymbols.i32_atomic_store8: return deferASM(BuiltinSymbols.atomic_store, compiler, Type.u8, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_atomic_store16: return deferASM(BuiltinSymbols.atomic_store, compiler, Type.u16, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_atomic_store: return deferASM(BuiltinSymbols.atomic_store, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_atomic_store8: return deferASM(BuiltinSymbols.atomic_store, compiler, Type.u8, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_store16: return deferASM(BuiltinSymbols.atomic_store, compiler, Type.u16, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_store32: return deferASM(BuiltinSymbols.atomic_store, compiler, Type.u32, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_store: return deferASM(BuiltinSymbols.atomic_store, compiler, Type.i64, operands, Type.i64, reportNode);\r\n\r\n case BuiltinSymbols.i32_atomic_rmw8_add_u: return deferASM(BuiltinSymbols.atomic_add, compiler, Type.u8, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw16_add_u: return deferASM(BuiltinSymbols.atomic_add, compiler, Type.u16, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw_add: return deferASM(BuiltinSymbols.atomic_add, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw8_add_u: return deferASM(BuiltinSymbols.atomic_add, compiler, Type.u8, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw16_add_u: return deferASM(BuiltinSymbols.atomic_add, compiler, Type.u16, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw32_add_u: return deferASM(BuiltinSymbols.atomic_add, compiler, Type.u32, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw_add: return deferASM(BuiltinSymbols.atomic_add, compiler, Type.i64, operands, Type.i64, reportNode);\r\n\r\n case BuiltinSymbols.i32_atomic_rmw8_sub_u: return deferASM(BuiltinSymbols.atomic_sub, compiler, Type.u8, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw16_sub_u: return deferASM(BuiltinSymbols.atomic_sub, compiler, Type.u16, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw_sub: return deferASM(BuiltinSymbols.atomic_sub, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw8_sub_u: return deferASM(BuiltinSymbols.atomic_sub, compiler, Type.u8, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw16_sub_u: return deferASM(BuiltinSymbols.atomic_sub, compiler, Type.u16, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw32_sub_u: return deferASM(BuiltinSymbols.atomic_sub, compiler, Type.u32, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw_sub: return deferASM(BuiltinSymbols.atomic_sub, compiler, Type.i64, operands, Type.i64, reportNode);\r\n\r\n case BuiltinSymbols.i32_atomic_rmw8_and_u: return deferASM(BuiltinSymbols.atomic_and, compiler, Type.u8, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw16_and_u: return deferASM(BuiltinSymbols.atomic_and, compiler, Type.u16, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw_and: return deferASM(BuiltinSymbols.atomic_and, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw8_and_u: return deferASM(BuiltinSymbols.atomic_and, compiler, Type.u8, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw16_and_u: return deferASM(BuiltinSymbols.atomic_and, compiler, Type.u16, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw32_and_u: return deferASM(BuiltinSymbols.atomic_and, compiler, Type.u32, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw_and: return deferASM(BuiltinSymbols.atomic_and, compiler, Type.i64, operands, Type.i64, reportNode);\r\n\r\n case BuiltinSymbols.i32_atomic_rmw8_or_u: return deferASM(BuiltinSymbols.atomic_or, compiler, Type.u8, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw16_or_u: return deferASM(BuiltinSymbols.atomic_or, compiler, Type.u16, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw_or: return deferASM(BuiltinSymbols.atomic_or, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw8_or_u: return deferASM(BuiltinSymbols.atomic_or, compiler, Type.u8, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw16_or_u: return deferASM(BuiltinSymbols.atomic_or, compiler, Type.u16, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw32_or_u: return deferASM(BuiltinSymbols.atomic_or, compiler, Type.u32, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw_or: return deferASM(BuiltinSymbols.atomic_or, compiler, Type.i64, operands, Type.i64, reportNode);\r\n\r\n case BuiltinSymbols.i32_atomic_rmw8_u_xor: return deferASM(BuiltinSymbols.atomic_xor, compiler, Type.u8, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw16_u_xor: return deferASM(BuiltinSymbols.atomic_xor, compiler, Type.u16, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw_xor: return deferASM(BuiltinSymbols.atomic_xor, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw8_xor_u: return deferASM(BuiltinSymbols.atomic_xor, compiler, Type.u8, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw16_xor_u: return deferASM(BuiltinSymbols.atomic_xor, compiler, Type.u16, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw32_xor_u: return deferASM(BuiltinSymbols.atomic_xor, compiler, Type.u32, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw_xor: return deferASM(BuiltinSymbols.atomic_xor, compiler, Type.i64, operands, Type.i64, reportNode);\r\n\r\n case BuiltinSymbols.i32_atomic_rmw8_xchg_u: return deferASM(BuiltinSymbols.atomic_xchg, compiler, Type.u8, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw16_xchg_u: return deferASM(BuiltinSymbols.atomic_xchg, compiler, Type.u16, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw_xchg: return deferASM(BuiltinSymbols.atomic_xchg, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw8_xchg_u: return deferASM(BuiltinSymbols.atomic_xchg, compiler, Type.u8, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw16_xchg_u: return deferASM(BuiltinSymbols.atomic_xchg, compiler, Type.u16, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw32_xchg_u: return deferASM(BuiltinSymbols.atomic_xchg, compiler, Type.u32, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw_xchg: return deferASM(BuiltinSymbols.atomic_xchg, compiler, Type.i64, operands, Type.i64, reportNode);\r\n\r\n case BuiltinSymbols.i32_atomic_rmw8_cmpxchg_u: return deferASM(BuiltinSymbols.atomic_cmpxchg, compiler, Type.u8, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw16_cmpxchg_u: return deferASM(BuiltinSymbols.atomic_cmpxchg, compiler, Type.u16, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_atomic_rmw_cmpxchg: return deferASM(BuiltinSymbols.atomic_cmpxchg, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw8_cmpxchg_u: return deferASM(BuiltinSymbols.atomic_cmpxchg, compiler, Type.u8, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw16_cmpxchg_u: return deferASM(BuiltinSymbols.atomic_cmpxchg, compiler, Type.u16, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw32_cmpxchg_u: return deferASM(BuiltinSymbols.atomic_cmpxchg, compiler, Type.u32, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64_atomic_rmw_cmpxchg: return deferASM(BuiltinSymbols.atomic_cmpxchg, compiler, Type.i64, operands, Type.i64, reportNode);\r\n\r\n case BuiltinSymbols.i32_wait: return deferASM(BuiltinSymbols.atomic_wait, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_wait: return deferASM(BuiltinSymbols.atomic_wait, compiler, Type.i64, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32_notify: return deferASM(BuiltinSymbols.atomic_notify, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64_notify: return deferASM(BuiltinSymbols.atomic_notify, compiler, Type.i64, operands, Type.i32, reportNode);\r\n }\r\n }\r\n if (compiler.options.hasFeature(Feature.SIMD)) {\r\n switch (prototype.internalName) {\r\n\r\n case BuiltinSymbols.v128_load: return deferASM(BuiltinSymbols.load, compiler, Type.v128, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.v128_store: return deferASM(BuiltinSymbols.store, compiler, Type.v128, operands, Type.void, reportNode);\r\n\r\n case BuiltinSymbols.i8x16_splat: return deferASM(BuiltinSymbols.v128_splat, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_extract_lane_s: return deferASM(BuiltinSymbols.v128_extract_lane, compiler, Type.i8, operands, Type.i8, reportNode);\r\n case BuiltinSymbols.i8x16_extract_lane_u: return deferASM(BuiltinSymbols.v128_extract_lane, compiler, Type.u8, operands, Type.u8, reportNode);\r\n case BuiltinSymbols.i8x16_replace_lane: return deferASM(BuiltinSymbols.v128_replace_lane, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_add: return deferASM(BuiltinSymbols.v128_add, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_sub: return deferASM(BuiltinSymbols.v128_sub, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_mul: return deferASM(BuiltinSymbols.v128_mul, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_neg: return deferASM(BuiltinSymbols.v128_neg, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_add_saturate_s: return deferASM(BuiltinSymbols.v128_add_saturate, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_add_saturate_u: return deferASM(BuiltinSymbols.v128_add_saturate, compiler, Type.u8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_sub_saturate_s: return deferASM(BuiltinSymbols.v128_sub_saturate, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_sub_saturate_u: return deferASM(BuiltinSymbols.v128_sub_saturate, compiler, Type.u8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_shl: return deferASM(BuiltinSymbols.v128_shl, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_shr_s: return deferASM(BuiltinSymbols.v128_shr, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_shr_u: return deferASM(BuiltinSymbols.v128_shr, compiler, Type.u8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_any_true: return deferASM(BuiltinSymbols.v128_any_true, compiler, Type.i8, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i8x16_all_true: return deferASM(BuiltinSymbols.v128_all_true, compiler, Type.i8, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i8x16_eq: return deferASM(BuiltinSymbols.v128_eq, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_ne: return deferASM(BuiltinSymbols.v128_ne, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_lt_s: return deferASM(BuiltinSymbols.v128_lt, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_lt_u: return deferASM(BuiltinSymbols.v128_lt, compiler, Type.u8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_le_s: return deferASM(BuiltinSymbols.v128_le, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_le_u: return deferASM(BuiltinSymbols.v128_le, compiler, Type.u8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_gt_s: return deferASM(BuiltinSymbols.v128_gt, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_gt_u: return deferASM(BuiltinSymbols.v128_gt, compiler, Type.u8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_ge_s: return deferASM(BuiltinSymbols.v128_ge, compiler, Type.i8, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i8x16_ge_u: return deferASM(BuiltinSymbols.v128_ge, compiler, Type.u8, operands, Type.v128, reportNode);\r\n\r\n case BuiltinSymbols.i16x8_splat: return deferASM(BuiltinSymbols.v128_splat, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_extract_lane_s: return deferASM(BuiltinSymbols.v128_extract_lane, compiler, Type.i16, operands, Type.i16, reportNode);\r\n case BuiltinSymbols.i16x8_extract_lane_u: return deferASM(BuiltinSymbols.v128_extract_lane, compiler, Type.u16, operands, Type.u16, reportNode);\r\n case BuiltinSymbols.i16x8_replace_lane: return deferASM(BuiltinSymbols.v128_replace_lane, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_add: return deferASM(BuiltinSymbols.v128_add, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_sub: return deferASM(BuiltinSymbols.v128_sub, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_mul: return deferASM(BuiltinSymbols.v128_mul, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_neg: return deferASM(BuiltinSymbols.v128_neg, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_add_saturate_s: return deferASM(BuiltinSymbols.v128_add_saturate, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_add_saturate_u: return deferASM(BuiltinSymbols.v128_add_saturate, compiler, Type.u16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_sub_saturate_s: return deferASM(BuiltinSymbols.v128_sub_saturate, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_sub_saturate_u: return deferASM(BuiltinSymbols.v128_sub_saturate, compiler, Type.u16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_shl: return deferASM(BuiltinSymbols.v128_shl, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_shr_s: return deferASM(BuiltinSymbols.v128_shr, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_shr_u: return deferASM(BuiltinSymbols.v128_shr, compiler, Type.u16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_any_true: return deferASM(BuiltinSymbols.v128_any_true, compiler, Type.i16, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i16x8_all_true: return deferASM(BuiltinSymbols.v128_all_true, compiler, Type.i16, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i16x8_eq: return deferASM(BuiltinSymbols.v128_eq, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_ne: return deferASM(BuiltinSymbols.v128_ne, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_lt_s: return deferASM(BuiltinSymbols.v128_lt, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_lt_u: return deferASM(BuiltinSymbols.v128_lt, compiler, Type.u16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_le_s: return deferASM(BuiltinSymbols.v128_le, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_le_u: return deferASM(BuiltinSymbols.v128_le, compiler, Type.u16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_gt_s: return deferASM(BuiltinSymbols.v128_gt, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_gt_u: return deferASM(BuiltinSymbols.v128_gt, compiler, Type.u16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_ge_s: return deferASM(BuiltinSymbols.v128_ge, compiler, Type.i16, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i16x8_ge_u: return deferASM(BuiltinSymbols.v128_ge, compiler, Type.u16, operands, Type.v128, reportNode);\r\n\r\n case BuiltinSymbols.i32x4_splat: return deferASM(BuiltinSymbols.v128_splat, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_extract_lane: return deferASM(BuiltinSymbols.v128_extract_lane, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32x4_replace_lane: return deferASM(BuiltinSymbols.v128_replace_lane, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_add: return deferASM(BuiltinSymbols.v128_add, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_sub: return deferASM(BuiltinSymbols.v128_sub, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_mul: return deferASM(BuiltinSymbols.v128_mul, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_neg: return deferASM(BuiltinSymbols.v128_neg, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_shl: return deferASM(BuiltinSymbols.v128_shl, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_shr_s: return deferASM(BuiltinSymbols.v128_shr, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_shr_u: return deferASM(BuiltinSymbols.v128_shr, compiler, Type.u32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_any_true: return deferASM(BuiltinSymbols.v128_any_true, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32x4_all_true: return deferASM(BuiltinSymbols.v128_all_true, compiler, Type.i32, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i32x4_eq: return deferASM(BuiltinSymbols.v128_eq, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_ne: return deferASM(BuiltinSymbols.v128_ne, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_lt_s: return deferASM(BuiltinSymbols.v128_lt, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_lt_u: return deferASM(BuiltinSymbols.v128_lt, compiler, Type.u32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_le_s: return deferASM(BuiltinSymbols.v128_le, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_le_u: return deferASM(BuiltinSymbols.v128_le, compiler, Type.u32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_gt_s: return deferASM(BuiltinSymbols.v128_gt, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_gt_u: return deferASM(BuiltinSymbols.v128_gt, compiler, Type.u32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_ge_s: return deferASM(BuiltinSymbols.v128_ge, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_ge_u: return deferASM(BuiltinSymbols.v128_ge, compiler, Type.u32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_trunc_s_f32x4_sat: return deferASM(BuiltinSymbols.v128_trunc, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i32x4_trunc_u_f32x4_sat: return deferASM(BuiltinSymbols.v128_trunc, compiler, Type.u32, operands, Type.v128, reportNode);\r\n\r\n case BuiltinSymbols.i64x2_splat: return deferASM(BuiltinSymbols.v128_splat, compiler, Type.i64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i64x2_extract_lane: return deferASM(BuiltinSymbols.v128_extract_lane, compiler, Type.i64, operands, Type.i64, reportNode);\r\n case BuiltinSymbols.i64x2_replace_lane: return deferASM(BuiltinSymbols.v128_replace_lane, compiler, Type.i64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i64x2_add: return deferASM(BuiltinSymbols.v128_add, compiler, Type.i64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i64x2_sub: return deferASM(BuiltinSymbols.v128_sub, compiler, Type.i64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i64x2_neg: return deferASM(BuiltinSymbols.v128_neg, compiler, Type.i64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i64x2_shl: return deferASM(BuiltinSymbols.v128_shl, compiler, Type.i64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i64x2_shr_s: return deferASM(BuiltinSymbols.v128_shr, compiler, Type.i64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i64x2_shr_u: return deferASM(BuiltinSymbols.v128_shr, compiler, Type.u64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i64x2_any_true: return deferASM(BuiltinSymbols.v128_any_true, compiler, Type.i64, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64x2_all_true: return deferASM(BuiltinSymbols.v128_all_true, compiler, Type.i64, operands, Type.i32, reportNode);\r\n case BuiltinSymbols.i64x2_trunc_s_f64x2_sat: return deferASM(BuiltinSymbols.v128_trunc, compiler, Type.i64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.i64x2_trunc_u_f64x2_sat: return deferASM(BuiltinSymbols.v128_trunc, compiler, Type.u64, operands, Type.v128, reportNode);\r\n\r\n case BuiltinSymbols.f32x4_splat: return deferASM(BuiltinSymbols.v128_splat, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_extract_lane: return deferASM(BuiltinSymbols.v128_extract_lane, compiler, Type.f32, operands, Type.f32, reportNode);\r\n case BuiltinSymbols.f32x4_replace_lane: return deferASM(BuiltinSymbols.v128_replace_lane, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_add: return deferASM(BuiltinSymbols.v128_add, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_sub: return deferASM(BuiltinSymbols.v128_sub, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_mul: return deferASM(BuiltinSymbols.v128_mul, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_div: return deferASM(BuiltinSymbols.v128_div, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_neg: return deferASM(BuiltinSymbols.v128_neg, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_min: return deferASM(BuiltinSymbols.v128_min, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_max: return deferASM(BuiltinSymbols.v128_max, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_abs: return deferASM(BuiltinSymbols.v128_abs, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_sqrt: return deferASM(BuiltinSymbols.v128_sqrt, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_eq: return deferASM(BuiltinSymbols.v128_eq, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_ne: return deferASM(BuiltinSymbols.v128_ne, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_lt: return deferASM(BuiltinSymbols.v128_lt, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_le: return deferASM(BuiltinSymbols.v128_le, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_gt: return deferASM(BuiltinSymbols.v128_gt, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_ge: return deferASM(BuiltinSymbols.v128_ge, compiler, Type.f32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_convert_s_i32x4: return deferASM(BuiltinSymbols.v128_convert, compiler, Type.i32, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f32x4_convert_u_i32x4: return deferASM(BuiltinSymbols.v128_convert, compiler, Type.u32, operands, Type.v128, reportNode);\r\n\r\n case BuiltinSymbols.f64x2_splat: return deferASM(BuiltinSymbols.v128_splat, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_extract_lane: return deferASM(BuiltinSymbols.v128_extract_lane, compiler, Type.f64, operands, Type.f64, reportNode);\r\n case BuiltinSymbols.f64x2_replace_lane: return deferASM(BuiltinSymbols.v128_replace_lane, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_add: return deferASM(BuiltinSymbols.v128_add, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_sub: return deferASM(BuiltinSymbols.v128_sub, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_mul: return deferASM(BuiltinSymbols.v128_mul, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_div: return deferASM(BuiltinSymbols.v128_div, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_neg: return deferASM(BuiltinSymbols.v128_neg, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_min: return deferASM(BuiltinSymbols.v128_min, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_max: return deferASM(BuiltinSymbols.v128_max, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_abs: return deferASM(BuiltinSymbols.v128_abs, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_sqrt: return deferASM(BuiltinSymbols.v128_sqrt, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_eq: return deferASM(BuiltinSymbols.v128_eq, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_ne: return deferASM(BuiltinSymbols.v128_ne, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_lt: return deferASM(BuiltinSymbols.v128_lt, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_le: return deferASM(BuiltinSymbols.v128_le, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_gt: return deferASM(BuiltinSymbols.v128_gt, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_ge: return deferASM(BuiltinSymbols.v128_ge, compiler, Type.f64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_convert_s_i64x2: return deferASM(BuiltinSymbols.v128_convert, compiler, Type.i64, operands, Type.v128, reportNode);\r\n case BuiltinSymbols.f64x2_convert_u_i64x2: return deferASM(BuiltinSymbols.v128_convert, compiler, Type.u64, operands, Type.v128, reportNode);\r\n\r\n case BuiltinSymbols.v8x16_shuffle: return deferASM(BuiltinSymbols.v128_shuffle, compiler, Type.i8, operands, Type.v128, reportNode);\r\n }\r\n }\r\n /* tslint:enable:max-line-length */\r\n return 0;\r\n}\r\n\r\n/** A helper for deferring inline-assembler-like calls to built-in functions. */\r\nfunction deferASM(\r\n name: string,\r\n compiler: Compiler,\r\n typeArgument: Type,\r\n operands: Expression[],\r\n contextualType: Type,\r\n reportNode: CallExpression\r\n): ExpressionRef {\r\n assert(compiler.program.elementsByName.has(name));\r\n var prototype = compiler.program.elementsByName.get(name)!;\r\n assert(prototype.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n return compileCall(\r\n compiler,\r\n prototype,\r\n [ typeArgument ],\r\n operands,\r\n contextualType,\r\n reportNode,\r\n /* isAsm */ true\r\n );\r\n}\r\n\r\n/** Compiles an abort wired to the conditionally imported 'abort' function. */\r\nexport function compileAbort(\r\n compiler: Compiler,\r\n message: Expression | null,\r\n reportNode: Node\r\n): ExpressionRef {\r\n var program = compiler.program;\r\n var module = compiler.module;\r\n\r\n var stringInstance = compiler.program.stringInstance;\r\n if (!stringInstance) return module.createUnreachable();\r\n\r\n var abortInstance = program.abortInstance;\r\n if (!(abortInstance && compiler.compileFunction(abortInstance))) return module.createUnreachable();\r\n\r\n var messageArg = message != null\r\n ? compiler.compileExpression(message, stringInstance.type, ConversionKind.IMPLICIT, WrapMode.NONE)\r\n : stringInstance.type.toNativeZero(module);\r\n\r\n var filenameArg = compiler.ensureStaticString(reportNode.range.source.normalizedPath);\r\n\r\n compiler.currentType = Type.void;\r\n return module.createBlock(null, [\r\n module.createCall(\r\n abortInstance.internalName, [\r\n messageArg,\r\n filenameArg,\r\n module.createI32(reportNode.range.line),\r\n module.createI32(reportNode.range.column)\r\n ],\r\n NativeType.None\r\n ),\r\n module.createUnreachable()\r\n ]);\r\n}\r\n\r\n/** Compiles the iterateRoots function if required. */\r\nexport function compileIterateRoots(compiler: Compiler): void {\r\n var module = compiler.module;\r\n var exprs = new Array();\r\n var typeName = Signature.makeSignatureString([ Type.i32 ], Type.void);\r\n var typeRef = compiler.ensureFunctionType([ Type.i32 ], Type.void);\r\n\r\n for (let element of compiler.program.elementsByName.values()) {\r\n if (element.kind != ElementKind.GLOBAL) continue;\r\n let global = element;\r\n let classReference = global.type.classReference;\r\n if (\r\n global.is(CommonFlags.COMPILED) &&\r\n classReference !== null &&\r\n !classReference.hasDecorator(DecoratorFlags.UNMANAGED)\r\n ) {\r\n if (global.is(CommonFlags.INLINED)) {\r\n let value = global.constantIntegerValue;\r\n exprs.push(\r\n module.createCallIndirect(\r\n module.createGetLocal(0, NativeType.I32),\r\n [\r\n compiler.options.isWasm64\r\n ? module.createI64(i64_low(value), i64_high(value))\r\n : module.createI32(i64_low(value))\r\n ],\r\n typeName\r\n )\r\n );\r\n } else {\r\n exprs.push(\r\n module.createCallIndirect(\r\n module.createGetLocal(0, NativeType.I32),\r\n [\r\n module.createGetGlobal(\r\n global.internalName,\r\n compiler.options.nativeSizeType\r\n )\r\n ],\r\n typeName\r\n )\r\n );\r\n }\r\n }\r\n }\r\n module.addFunction(\"~iterateRoots\", typeRef, [],\r\n exprs.length\r\n ? module.createBlock(null, exprs)\r\n : module.createNop()\r\n );\r\n}\r\n\r\n/** Ensures that the specified class's GC hook exists and returns its function table index. */\r\nexport function ensureGCHook(\r\n compiler: Compiler,\r\n classInstance: Class\r\n): u32 {\r\n var program = compiler.program;\r\n assert(classInstance.type.isManaged(program));\r\n\r\n // check if the GC hook has already been created\r\n {\r\n let existingIndex = classInstance.gcHookIndex;\r\n if (existingIndex != -1) return existingIndex;\r\n }\r\n\r\n // check if the class implements a custom GC function (only valid for library elements)\r\n var members = classInstance.members;\r\n if (classInstance.isDeclaredInLibrary) {\r\n if (members !== null && members.has(\"__gc\")) {\r\n let gcPrototype = assert(members.get(\"__gc\"));\r\n assert(gcPrototype.kind == ElementKind.FUNCTION_PROTOTYPE);\r\n let gcInstance = assert(program.resolver.resolveFunction(gcPrototype, null));\r\n assert(gcInstance.is(CommonFlags.PRIVATE | CommonFlags.INSTANCE));\r\n assert(!gcInstance.isAny(CommonFlags.AMBIENT | CommonFlags.VIRTUAL));\r\n assert(gcInstance.signature.parameterTypes.length == 0);\r\n assert(gcInstance.signature.returnType == Type.void);\r\n gcInstance.internalName = classInstance.internalName + \"~gc\";\r\n assert(compiler.compileFunction(gcInstance));\r\n let index = compiler.ensureFunctionTableEntry(gcInstance);\r\n classInstance.gcHookIndex = index;\r\n return index;\r\n }\r\n }\r\n\r\n var module = compiler.module;\r\n var options = compiler.options;\r\n var nativeSizeType = options.nativeSizeType;\r\n var nativeSizeSize = options.usizeType.byteSize;\r\n var body = new Array();\r\n\r\n // nothing to mark if 'this' is null\r\n body.push(\r\n module.createIf(\r\n module.createUnary(\r\n options.isWasm64\r\n ? UnaryOp.EqzI64\r\n : UnaryOp.EqzI32,\r\n module.createGetLocal(0, nativeSizeType)\r\n ),\r\n module.createReturn()\r\n )\r\n );\r\n\r\n // remember the function index so we don't recurse infinitely\r\n var functionTable = compiler.functionTable;\r\n var gcHookIndex = functionTable.length;\r\n functionTable.push(\"\");\r\n classInstance.gcHookIndex = gcHookIndex;\r\n\r\n // if the class extends a base class, call its hook first (calls mark)\r\n var baseInstance = classInstance.base;\r\n if (baseInstance) {\r\n assert(baseInstance.type.isManaged(program));\r\n body.push(\r\n module.createCallIndirect(\r\n module.createI32(\r\n ensureGCHook(compiler, baseInstance.type.classReference)\r\n ),\r\n [\r\n module.createGetLocal(0, nativeSizeType)\r\n ],\r\n \"FUNCSIG$\" + (nativeSizeType == NativeType.I64 ? \"vj\" : \"vi\")\r\n )\r\n );\r\n\r\n // if this class is the top-most base class, mark the instance\r\n } else {\r\n body.push(\r\n module.createCall(assert(program.gcMarkInstance).internalName, [\r\n module.createGetLocal(0, nativeSizeType)\r\n ], NativeType.None)\r\n );\r\n }\r\n\r\n // mark instances assigned to own fields that are again references\r\n if (members) {\r\n for (let member of members.values()) {\r\n if (member.kind == ElementKind.FIELD) {\r\n if ((member).parent === classInstance) {\r\n let type = (member).type;\r\n if (type.isManaged(program)) {\r\n let offset = (member).memoryOffset;\r\n assert(offset >= 0);\r\n body.push(\r\n module.createCall(assert(program.gcMarkInstance).internalName, [\r\n module.createLoad(\r\n nativeSizeSize,\r\n false,\r\n module.createGetLocal(0, nativeSizeType),\r\n nativeSizeType,\r\n offset\r\n )\r\n ], NativeType.None)\r\n );\r\n }\r\n }\r\n }\r\n }\r\n }\r\n\r\n // add the function to the module and return its table index\r\n var funcName = classInstance.internalName + \"~gc\";\r\n module.addFunction(\r\n funcName,\r\n compiler.ensureFunctionType(null, Type.void, options.usizeType),\r\n null,\r\n module.createBlock(null, body)\r\n );\r\n functionTable[gcHookIndex] = funcName;\r\n return gcHookIndex;\r\n}\r\n\r\n// Helpers\r\n\r\n/** Evaluates the constant type of a type argument *or* expression. */\r\nfunction evaluateConstantType(\r\n compiler: Compiler,\r\n typeArguments: Type[] | null,\r\n operands: Expression[],\r\n reportNode: CallExpression\r\n): Type | null {\r\n if (operands.length == 0) { // requires type argument\r\n if (!typeArguments || typeArguments.length != 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.typeArgumentsRange, \"1\", typeArguments ? typeArguments.length.toString(10) : \"0\"\r\n );\r\n return null;\r\n }\r\n return typeArguments[0];\r\n }\r\n if (operands.length == 1) { // optional type argument\r\n if (typeArguments) {\r\n if (typeArguments.length == 1) {\r\n compiler.compileExpression(operands[0], typeArguments[0], ConversionKind.IMPLICIT, WrapMode.NONE);\r\n } else {\r\n if (typeArguments.length) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.typeArgumentsRange, \"1\", typeArguments.length.toString(10)\r\n );\r\n return null;\r\n }\r\n compiler.compileExpressionRetainType(operands[0], Type.i32, WrapMode.NONE);\r\n }\r\n } else {\r\n compiler.compileExpressionRetainType(operands[0], Type.i32, WrapMode.NONE);\r\n }\r\n return compiler.currentType;\r\n }\r\n if (typeArguments && typeArguments.length > 1) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.typeArgumentsRange, \"1\", typeArguments.length.toString(10)\r\n );\r\n }\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.argumentsRange, \"1\", operands.length.toString(10)\r\n );\r\n return null;\r\n}\r\n\r\n/** Evaluates a compile-time constant immediate offset argument.*/\r\nfunction evaluateImmediateOffset(expression: Expression, compiler: Compiler): i32 {\r\n var expr: ExpressionRef;\r\n var value: i32;\r\n if (compiler.options.isWasm64) {\r\n expr = compiler.precomputeExpression(expression, Type.usize64, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n if (\r\n getExpressionId(expr) != ExpressionId.Const ||\r\n getExpressionType(expr) != NativeType.I64 ||\r\n getConstValueI64High(expr) != 0 ||\r\n (value = getConstValueI64Low(expr)) < 0\r\n ) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n expression.range\r\n );\r\n value = -1;\r\n }\r\n } else {\r\n expr = compiler.precomputeExpression(expression, Type.usize32, ConversionKind.IMPLICIT, WrapMode.NONE);\r\n if (\r\n getExpressionId(expr) != ExpressionId.Const ||\r\n getExpressionType(expr) != NativeType.I32 ||\r\n (value = getConstValueI32(expr)) < 0\r\n ) {\r\n compiler.error(\r\n DiagnosticCode.Expression_must_be_a_compile_time_constant,\r\n expression.range\r\n );\r\n value = -1;\r\n }\r\n }\r\n return value;\r\n}\r\n\r\n/** Checks a call with a single required type argument. Returns `1` on error. */\r\nfunction checkTypeRequired(\r\n typeArguments: Type[] | null,\r\n reportNode: CallExpression,\r\n compiler: Compiler,\r\n setCurrentTypeOnError: bool = false\r\n): i32 {\r\n if (typeArguments) {\r\n let numTypeArguments = typeArguments.length;\r\n if (numTypeArguments == 1) return 0;\r\n assert(numTypeArguments); // invalid if 0, must not be set at all instead\r\n if (setCurrentTypeOnError) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.typeArgumentsRange, \"1\", numTypeArguments.toString()\r\n );\r\n } else {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.range, \"1\", \"0\"\r\n );\r\n }\r\n return 1;\r\n}\r\n\r\n/** Checks a call with a single optional type argument. Returns `1` on error. */\r\nfunction checkTypeOptional(\r\n typeArguments: Type[] | null,\r\n reportNode: CallExpression,\r\n compiler: Compiler,\r\n setCurrentTypeOnError: bool = false\r\n): i32 {\r\n if (typeArguments) {\r\n let numTypeArguments = typeArguments.length;\r\n if (numTypeArguments == 1) return 0;\r\n assert(numTypeArguments); // invalid if 0, must not be set at all instead\r\n if (setCurrentTypeOnError) compiler.currentType = typeArguments[0];\r\n compiler.error(\r\n DiagnosticCode.Expected_0_type_arguments_but_got_1,\r\n reportNode.typeArgumentsRange, \"1\", numTypeArguments.toString()\r\n );\r\n return 1;\r\n }\r\n return 0;\r\n}\r\n\r\n/** Checks a call that is not generic. Returns `1` on error. */\r\nfunction checkTypeAbsent(\r\n typeArguments: Type[] | null,\r\n reportNode: CallExpression,\r\n prototype: FunctionPrototype\r\n): i32 {\r\n if (typeArguments) {\r\n prototype.program.error(\r\n DiagnosticCode.Type_0_is_not_generic,\r\n reportNode.typeArgumentsRange, prototype.internalName\r\n );\r\n return 1;\r\n }\r\n return 0;\r\n}\r\n\r\n/** Checks a call that requires a fixed number of arguments. Returns `1` on error. */\r\nfunction checkArgsRequired(\r\n operands: Expression[],\r\n expected: i32,\r\n reportNode: CallExpression,\r\n compiler: Compiler\r\n): i32 {\r\n if (operands.length != expected) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, expected.toString(), operands.length.toString()\r\n );\r\n return 1;\r\n }\r\n return 0;\r\n}\r\n\r\n/** Checks a call that requires a variable number of arguments. Returns `1` on error. */\r\nfunction checkArgsOptional(\r\n operands: Expression[],\r\n expectedMinimum: i32,\r\n expectedMaximum: i32,\r\n reportNode: CallExpression,\r\n compiler: Compiler\r\n): i32 {\r\n var numOperands = operands.length;\r\n if (numOperands < expectedMinimum) {\r\n compiler.error(\r\n DiagnosticCode.Expected_at_least_0_arguments_but_got_1,\r\n reportNode.range, expectedMinimum.toString(), numOperands.toString()\r\n );\r\n return 1;\r\n } else if (numOperands > expectedMaximum) {\r\n compiler.error(\r\n DiagnosticCode.Expected_0_arguments_but_got_1,\r\n reportNode.range, expectedMaximum.toString(), numOperands.toString()\r\n );\r\n return 1;\r\n }\r\n return 0;\r\n}\r\n","/** @module util *//***/\r\n\r\n/** Tests if the bit at the specified index is set within a 64-bit map. */\r\nexport function bitsetIs(map: I64, index: i32): bool {\r\n assert(index >= 0 && index < 64);\r\n return i64_ne(\r\n i64_and(\r\n map,\r\n i64_shl(\r\n i64_one,\r\n i64_new(index)\r\n )\r\n ),\r\n i64_zero\r\n );\r\n}\r\n\r\n/** Sets or unsets the bit at the specified index within a 64-bit map and returns the new map. */\r\nexport function bitsetSet(map: I64, index: i32, isSet: bool): I64 {\r\n assert(index >= 0 && index < 64);\r\n return isSet\r\n ? i64_or(\r\n map,\r\n i64_shl(\r\n i64_one,\r\n i64_new(index)\r\n )\r\n )\r\n : i64_and(\r\n map,\r\n i64_not(\r\n i64_shl(\r\n i64_one,\r\n i64_new(index)\r\n )\r\n )\r\n );\r\n}\r\n","/** @module util *//***/\r\n\r\n/** An enum of named character codes. */\r\nexport const enum CharCode {\r\n\r\n NULL = 0,\r\n LINEFEED = 0x0A,\r\n CARRIAGERETURN = 0x0D,\r\n LINESEPARATOR = 0x2028,\r\n PARAGRAPHSEPARATOR = 0x2029,\r\n NEXTLINE = 0x0085,\r\n\r\n SPACE = 0x20,\r\n NONBREAKINGSPACE = 0xA0,\r\n ENQUAD = 0x2000,\r\n EMQUAD = 0x2001,\r\n ENSPACE = 0x2002,\r\n EMSPACE = 0x2003,\r\n THREEPEREMSPACE = 0x2004,\r\n FOURPEREMSPACE = 0x2005,\r\n SIXPEREMSPACE = 0x2006,\r\n FIGURESPACE = 0x2007,\r\n PUNCTUATIONSPACE = 0x2008,\r\n THINSPACE = 0x2009,\r\n HAIRSPACE = 0x200A,\r\n ZEROWIDTHSPACE = 0x200B,\r\n NARROWNOBREAKSPACE = 0x202F,\r\n IDEOGRAPHICSPACE = 0x3000,\r\n MATHEMATICALSPACE = 0x205F,\r\n OGHAM = 0x1680,\r\n\r\n _ = 0x5F,\r\n\r\n _0 = 0x30,\r\n _1 = 0x31,\r\n _2 = 0x32,\r\n _3 = 0x33,\r\n _4 = 0x34,\r\n _5 = 0x35,\r\n _6 = 0x36,\r\n _7 = 0x37,\r\n _8 = 0x38,\r\n _9 = 0x39,\r\n\r\n a = 0x61,\r\n b = 0x62,\r\n c = 0x63,\r\n d = 0x64,\r\n e = 0x65,\r\n f = 0x66,\r\n g = 0x67,\r\n h = 0x68,\r\n i = 0x69,\r\n j = 0x6A,\r\n k = 0x6B,\r\n l = 0x6C,\r\n m = 0x6D,\r\n n = 0x6E,\r\n o = 0x6F,\r\n p = 0x70,\r\n q = 0x71,\r\n r = 0x72,\r\n s = 0x73,\r\n t = 0x74,\r\n u = 0x75,\r\n v = 0x76,\r\n w = 0x77,\r\n x = 0x78,\r\n y = 0x79,\r\n z = 0x7A,\r\n\r\n A = 0x41,\r\n B = 0x42,\r\n C = 0x43,\r\n D = 0x44,\r\n E = 0x45,\r\n F = 0x46,\r\n G = 0x47,\r\n H = 0x48,\r\n I = 0x49,\r\n J = 0x4A,\r\n K = 0x4B,\r\n L = 0x4C,\r\n M = 0x4D,\r\n N = 0x4E,\r\n O = 0x4F,\r\n P = 0x50,\r\n Q = 0x51,\r\n R = 0x52,\r\n S = 0x53,\r\n T = 0x54,\r\n U = 0x55,\r\n V = 0x56,\r\n W = 0x57,\r\n X = 0x58,\r\n Y = 0x59,\r\n Z = 0x5a,\r\n\r\n AMPERSAND = 0x26,\r\n ASTERISK = 0x2A,\r\n AT = 0x40,\r\n BACKSLASH = 0x5C,\r\n BACKTICK = 0x60,\r\n BAR = 0x7C,\r\n CARET = 0x5E,\r\n CLOSEBRACE = 0x7D,\r\n CLOSEBRACKET = 0x5D,\r\n CLOSEPAREN = 0x29,\r\n COLON = 0x3A,\r\n COMMA = 0x2C,\r\n DOLLAR = 0x24,\r\n DOT = 0x2E,\r\n DOUBLEQUOTE = 0x22,\r\n EQUALS = 0x3D,\r\n EXCLAMATION = 0x21,\r\n GREATERTHAN = 0x3E,\r\n HASH = 0x23,\r\n LESSTHAN = 0x3C,\r\n MINUS = 0x2D,\r\n OPENBRACE = 0x7B,\r\n OPENBRACKET = 0x5B,\r\n OPENPAREN = 0x28,\r\n PERCENT = 0x25,\r\n PLUS = 0x2B,\r\n QUESTION = 0x3F,\r\n SEMICOLON = 0x3B,\r\n SINGLEQUOTE = 0x27,\r\n SLASH = 0x2F,\r\n TILDE = 0x7E,\r\n\r\n BACKSPACE = 0x08,\r\n FORMFEED = 0x0C,\r\n BYTEORDERMARK = 0xFEFF,\r\n TAB = 0x09,\r\n VERTICALTAB = 0x0B\r\n}\r\n\r\n/** Tests if the specified character code is some sort of line break. */\r\nexport function isLineBreak(c: CharCode): bool {\r\n switch (c) {\r\n case CharCode.LINEFEED:\r\n case CharCode.CARRIAGERETURN:\r\n case CharCode.LINESEPARATOR:\r\n case CharCode.PARAGRAPHSEPARATOR: {\r\n return true;\r\n }\r\n default: {\r\n return false;\r\n }\r\n }\r\n}\r\n\r\n/** Tests if the specified character code is some sort of white space. */\r\nexport function isWhiteSpace(c: i32): bool {\r\n switch (c) {\r\n case CharCode.SPACE:\r\n case CharCode.TAB:\r\n case CharCode.VERTICALTAB:\r\n case CharCode.FORMFEED:\r\n case CharCode.NONBREAKINGSPACE:\r\n case CharCode.NEXTLINE:\r\n case CharCode.OGHAM:\r\n case CharCode.NARROWNOBREAKSPACE:\r\n case CharCode.MATHEMATICALSPACE:\r\n case CharCode.IDEOGRAPHICSPACE:\r\n case CharCode.BYTEORDERMARK: {\r\n return true;\r\n }\r\n default: {\r\n return c >= CharCode.ENQUAD && c <= CharCode.ZEROWIDTHSPACE;\r\n }\r\n }\r\n}\r\n\r\n/** Tests if the specified character code is a valid decimal digit. */\r\nexport function isDecimalDigit(c: i32): bool {\r\n return c >= CharCode._0 && c <= CharCode._9;\r\n}\r\n\r\n/** Tests if the specified character code is a valid octal digit. */\r\nexport function isOctalDigit(c: i32): bool {\r\n return c >= CharCode._0 && c <= CharCode._7;\r\n}\r\n\r\n/** Tests if the specified character code is a valid start of an identifier. */\r\nexport function isIdentifierStart(c: i32): bool {\r\n return c >= CharCode.a && c <= CharCode.z\r\n || c >= CharCode.A && c <= CharCode.Z\r\n || c == CharCode._\r\n || c == CharCode.DOLLAR\r\n || c > 0x7f && isUnicodeIdentifierStart(c);\r\n}\r\n\r\n/** Tests if the specified character code is a valid keyword character. */\r\nexport function isKeywordCharacter(c: i32): bool {\r\n return c >= CharCode.a && c <= CharCode.z;\r\n}\r\n\r\n/** Tests if the specified character code is a valid part of an identifier. */\r\nexport function isIdentifierPart(c: i32): bool {\r\n return c >= CharCode.a && c <= CharCode.z\r\n || c >= CharCode.A && c <= CharCode.Z\r\n || c >= CharCode._0 && c <= CharCode._9\r\n || c == CharCode._\r\n || c == CharCode.DOLLAR\r\n || c > 0x7f && isUnicodeIdentifierPart(c);\r\n}\r\n\r\n// storing as u16 to save memory\r\nconst unicodeIdentifierStart: u16[] = [\r\n 170, 170, 181, 181, 186, 186, 192, 214, 216, 246, 248, 705, 710, 721, 736,\r\n 740, 748, 748, 750, 750, 880, 884, 886, 887, 890, 893, 902, 902, 904, 906,\r\n 908, 908, 910, 929, 931,\r\n 1013, 1015, 1153, 1162, 1319, 1329, 1366, 1369, 1369, 1377, 1415, 1488, 1514,\r\n 1520, 1522, 1568, 1610, 1646, 1647, 1649, 1747, 1749, 1749, 1765, 1766, 1774,\r\n 1775, 1786, 1788, 1791, 1791, 1808, 1808, 1810, 1839, 1869, 1957, 1969, 1969,\r\n 1994, 2026, 2036, 2037, 2042, 2042, 2048, 2069, 2074, 2074, 2084, 2084, 2088,\r\n 2088, 2112, 2136, 2208, 2208, 2210, 2220, 2308, 2361, 2365, 2365, 2384, 2384,\r\n 2392, 2401, 2417, 2423, 2425, 2431, 2437, 2444, 2447, 2448, 2451, 2472, 2474,\r\n 2480, 2482, 2482, 2486, 2489, 2493, 2493, 2510, 2510, 2524, 2525, 2527, 2529,\r\n 2544, 2545, 2565, 2570, 2575, 2576, 2579, 2600, 2602, 2608, 2610, 2611, 2613,\r\n 2614, 2616, 2617, 2649, 2652, 2654, 2654, 2674, 2676, 2693, 2701, 2703, 2705,\r\n 2707, 2728, 2730, 2736, 2738, 2739, 2741, 2745, 2749, 2749, 2768, 2768, 2784,\r\n 2785, 2821, 2828, 2831, 2832, 2835, 2856, 2858, 2864, 2866, 2867, 2869, 2873,\r\n 2877, 2877, 2908, 2909, 2911, 2913, 2929, 2929, 2947, 2947, 2949, 2954, 2958,\r\n 2960, 2962, 2965, 2969, 2970, 2972, 2972, 2974, 2975, 2979, 2980, 2984, 2986,\r\n 2990, 3001, 3024, 3024, 3077, 3084, 3086, 3088, 3090, 3112, 3114, 3123, 3125,\r\n 3129, 3133, 3133, 3160, 3161, 3168, 3169, 3205, 3212, 3214, 3216, 3218, 3240,\r\n 3242, 3251, 3253, 3257, 3261, 3261, 3294, 3294, 3296, 3297, 3313, 3314, 3333,\r\n 3340, 3342, 3344, 3346, 3386, 3389, 3389, 3406, 3406, 3424, 3425, 3450, 3455,\r\n 3461, 3478, 3482, 3505, 3507, 3515, 3517, 3517, 3520, 3526, 3585, 3632, 3634,\r\n 3635, 3648, 3654, 3713, 3714, 3716, 3716, 3719, 3720, 3722, 3722, 3725, 3725,\r\n 3732, 3735, 3737, 3743, 3745, 3747, 3749, 3749, 3751, 3751, 3754, 3755, 3757,\r\n 3760, 3762, 3763, 3773, 3773, 3776, 3780, 3782, 3782, 3804, 3807, 3840, 3840,\r\n 3904, 3911, 3913, 3948, 3976, 3980, 4096, 4138, 4159, 4159, 4176, 4181, 4186,\r\n 4189, 4193, 4193, 4197, 4198, 4206, 4208, 4213, 4225, 4238, 4238, 4256, 4293,\r\n 4295, 4295, 4301, 4301, 4304, 4346, 4348, 4680, 4682, 4685, 4688, 4694, 4696,\r\n 4696, 4698, 4701, 4704, 4744, 4746, 4749, 4752, 4784, 4786, 4789, 4792, 4798,\r\n 4800, 4800, 4802, 4805, 4808, 4822, 4824, 4880, 4882, 4885, 4888, 4954, 4992,\r\n 5007, 5024, 5108, 5121, 5740, 5743, 5759, 5761, 5786, 5792, 5866, 5870, 5872,\r\n 5888, 5900, 5902, 5905, 5920, 5937, 5952, 5969, 5984, 5996, 5998, 6000, 6016,\r\n 6067, 6103, 6103, 6108, 6108, 6176, 6263, 6272, 6312, 6314, 6314, 6320, 6389,\r\n 6400, 6428, 6480, 6509, 6512, 6516, 6528, 6571, 6593, 6599, 6656, 6678, 6688,\r\n 6740, 6823, 6823, 6917, 6963, 6981, 6987, 7043, 7072, 7086, 7087, 7098, 7141,\r\n 7168, 7203, 7245, 7247, 7258, 7293, 7401, 7404, 7406, 7409, 7413, 7414, 7424,\r\n 7615, 7680, 7957, 7960, 7965, 7968, 8005, 8008, 8013, 8016, 8023, 8025, 8025,\r\n 8027, 8027, 8029, 8029, 8031, 8061, 8064, 8116, 8118, 8124, 8126, 8126, 8130,\r\n 8132, 8134, 8140, 8144, 8147, 8150, 8155, 8160, 8172, 8178, 8180, 8182, 8188,\r\n 8305, 8305, 8319, 8319, 8336, 8348, 8450, 8450, 8455, 8455, 8458, 8467, 8469,\r\n 8469, 8473, 8477, 8484, 8484, 8486, 8486, 8488, 8488, 8490, 8493, 8495, 8505,\r\n 8508, 8511, 8517, 8521, 8526, 8526, 8544, 8584,\r\n 11264, 11310, 11312, 11358, 11360, 11492, 11499, 11502, 11506, 11507, 11520,\r\n 11557, 11559, 11559, 11565, 11565, 11568, 11623, 11631, 11631, 11648, 11670,\r\n 11680, 11686, 11688, 11694, 11696, 11702, 11704, 11710, 11712, 11718, 11720,\r\n 11726, 11728, 11734, 11736, 11742, 11823, 11823, 12293, 12295, 12321, 12329,\r\n 12337, 12341, 12344, 12348, 12353, 12438, 12445, 12447, 12449, 12538, 12540,\r\n 12543, 12549, 12589, 12593, 12686, 12704, 12730, 12784, 12799, 13312, 19893,\r\n 19968, 40908, 40960, 42124, 42192, 42237, 42240, 42508, 42512, 42527, 42538,\r\n 42539, 42560, 42606, 42623, 42647, 42656, 42735, 42775, 42783, 42786, 42888,\r\n 42891, 42894, 42896, 42899, 42912, 42922, 43000, 43009, 43011, 43013, 43015,\r\n 43018, 43020, 43042, 43072, 43123, 43138, 43187, 43250, 43255, 43259, 43259,\r\n 43274, 43301, 43312, 43334, 43360, 43388, 43396, 43442, 43471, 43471, 43520,\r\n 43560, 43584, 43586, 43588, 43595, 43616, 43638, 43642, 43642, 43648, 43695,\r\n 43697, 43697, 43701, 43702, 43705, 43709, 43712, 43712, 43714, 43714, 43739,\r\n 43741, 43744, 43754, 43762, 43764, 43777, 43782, 43785, 43790, 43793, 43798,\r\n 43808, 43814, 43816, 43822, 43968, 44002, 44032, 55203, 55216, 55238, 55243,\r\n 55291, 63744, 64109, 64112, 64217, 64256, 64262, 64275, 64279, 64285, 64285,\r\n 64287, 64296, 64298, 64310, 64312, 64316, 64318, 64318, 64320, 64321, 64323,\r\n 64324, 64326, 64433, 64467, 64829, 64848, 64911, 64914, 64967, 65008, 65019,\r\n 65136, 65140, 65142, 65276, 65313, 65338, 65345, 65370, 65382, 65470, 65474,\r\n 65479, 65482, 65487, 65490, 65495, 65498, 65500,\r\n];\r\nconst unicodeIdentifierPart: u16[] = [\r\n 170, 170, 181, 181, 186, 186, 192, 214, 216, 246, 248, 705, 710, 721, 736,\r\n 740, 748, 748, 750, 750, 768, 884, 886, 887, 890, 893, 902, 902, 904, 906,\r\n 908, 908, 910, 929, 931,\r\n 1013, 1015, 1153, 1155, 1159, 1162, 1319, 1329, 1366, 1369, 1369, 1377, 1415,\r\n 1425, 1469, 1471, 1471, 1473, 1474, 1476, 1477, 1479, 1479, 1488, 1514, 1520,\r\n 1522, 1552, 1562, 1568, 1641, 1646, 1747, 1749, 1756, 1759, 1768, 1770, 1788,\r\n 1791, 1791, 1808, 1866, 1869, 1969, 1984, 2037, 2042, 2042, 2048, 2093, 2112,\r\n 2139, 2208, 2208, 2210, 2220, 2276, 2302, 2304, 2403, 2406, 2415, 2417, 2423,\r\n 2425, 2431, 2433, 2435, 2437, 2444, 2447, 2448, 2451, 2472, 2474, 2480, 2482,\r\n 2482, 2486, 2489, 2492, 2500, 2503, 2504, 2507, 2510, 2519, 2519, 2524, 2525,\r\n 2527, 2531, 2534, 2545, 2561, 2563, 2565, 2570, 2575, 2576, 2579, 2600, 2602,\r\n 2608, 2610, 2611, 2613, 2614, 2616, 2617, 2620, 2620, 2622, 2626, 2631, 2632,\r\n 2635, 2637, 2641, 2641, 2649, 2652, 2654, 2654, 2662, 2677, 2689, 2691, 2693,\r\n 2701, 2703, 2705, 2707, 2728, 2730, 2736, 2738, 2739, 2741, 2745, 2748, 2757,\r\n 2759, 2761, 2763, 2765, 2768, 2768, 2784, 2787, 2790, 2799, 2817, 2819, 2821,\r\n 2828, 2831, 2832, 2835, 2856, 2858, 2864, 2866, 2867, 2869, 2873, 2876, 2884,\r\n 2887, 2888, 2891, 2893, 2902, 2903, 2908, 2909, 2911, 2915, 2918, 2927, 2929,\r\n 2929, 2946, 2947, 2949, 2954, 2958, 2960, 2962, 2965, 2969, 2970, 2972, 2972,\r\n 2974, 2975, 2979, 2980, 2984, 2986, 2990, 3001, 3006, 3010, 3014, 3016, 3018,\r\n 3021, 3024, 3024, 3031, 3031, 3046, 3055, 3073, 3075, 3077, 3084, 3086, 3088,\r\n 3090, 3112, 3114, 3123, 3125, 3129, 3133, 3140, 3142, 3144, 3146, 3149, 3157,\r\n 3158, 3160, 3161, 3168, 3171, 3174, 3183, 3202, 3203, 3205, 3212, 3214, 3216,\r\n 3218, 3240, 3242, 3251, 3253, 3257, 3260, 3268, 3270, 3272, 3274, 3277, 3285,\r\n 3286, 3294, 3294, 3296, 3299, 3302, 3311, 3313, 3314, 3330, 3331, 3333, 3340,\r\n 3342, 3344, 3346, 3386, 3389, 3396, 3398, 3400, 3402, 3406, 3415, 3415, 3424,\r\n 3427, 3430, 3439, 3450, 3455, 3458, 3459, 3461, 3478, 3482, 3505, 3507, 3515,\r\n 3517, 3517, 3520, 3526, 3530, 3530, 3535, 3540, 3542, 3542, 3544, 3551, 3570,\r\n 3571, 3585, 3642, 3648, 3662, 3664, 3673, 3713, 3714, 3716, 3716, 3719, 3720,\r\n 3722, 3722, 3725, 3725, 3732, 3735, 3737, 3743, 3745, 3747, 3749, 3749, 3751,\r\n 3751, 3754, 3755, 3757, 3769, 3771, 3773, 3776, 3780, 3782, 3782, 3784, 3789,\r\n 3792, 3801, 3804, 3807, 3840, 3840, 3864, 3865, 3872, 3881, 3893, 3893, 3895,\r\n 3895, 3897, 3897, 3902, 3911, 3913, 3948, 3953, 3972, 3974, 3991, 3993, 4028,\r\n 4038, 4038, 4096, 4169, 4176, 4253, 4256, 4293, 4295, 4295, 4301, 4301, 4304,\r\n 4346, 4348, 4680, 4682, 4685, 4688, 4694, 4696, 4696, 4698, 4701, 4704, 4744,\r\n 4746, 4749, 4752, 4784, 4786, 4789, 4792, 4798, 4800, 4800, 4802, 4805, 4808,\r\n 4822, 4824, 4880, 4882, 4885, 4888, 4954, 4957, 4959, 4992, 5007, 5024, 5108,\r\n 5121, 5740, 5743, 5759, 5761, 5786, 5792, 5866, 5870, 5872, 5888, 5900, 5902,\r\n 5908, 5920, 5940, 5952, 5971, 5984, 5996, 5998, 6000, 6002, 6003, 6016, 6099,\r\n 6103, 6103, 6108, 6109, 6112, 6121, 6155, 6157, 6160, 6169, 6176, 6263, 6272,\r\n 6314, 6320, 6389, 6400, 6428, 6432, 6443, 6448, 6459, 6470, 6509, 6512, 6516,\r\n 6528, 6571, 6576, 6601, 6608, 6617, 6656, 6683, 6688, 6750, 6752, 6780, 6783,\r\n 6793, 6800, 6809, 6823, 6823, 6912, 6987, 6992, 7001, 7019, 7027, 7040, 7155,\r\n 7168, 7223, 7232, 7241, 7245, 7293, 7376, 7378, 7380, 7414, 7424, 7654, 7676,\r\n 7957, 7960, 7965, 7968, 8005, 8008, 8013, 8016, 8023, 8025, 8025, 8027, 8027,\r\n 8029, 8029, 8031, 8061, 8064, 8116, 8118, 8124, 8126, 8126, 8130, 8132, 8134,\r\n 8140, 8144, 8147, 8150, 8155, 8160, 8172, 8178, 8180, 8182, 8188, 8204, 8205,\r\n 8255, 8256, 8276, 8276, 8305, 8305, 8319, 8319, 8336, 8348, 8400, 8412, 8417,\r\n 8417, 8421, 8432, 8450, 8450, 8455, 8455, 8458, 8467, 8469, 8469, 8473, 8477,\r\n 8484, 8484, 8486, 8486, 8488, 8488, 8490, 8493, 8495, 8505, 8508, 8511, 8517,\r\n 8521, 8526, 8526, 8544, 8584,\r\n 11264, 11310, 11312, 11358, 11360, 11492, 11499, 11507, 11520, 11557, 11559,\r\n 11559, 11565, 11565, 11568, 11623, 11631, 11631, 11647, 11670, 11680, 11686,\r\n 11688, 11694, 11696, 11702, 11704, 11710, 11712, 11718, 11720, 11726, 11728,\r\n 11734, 11736, 11742, 11744, 11775, 11823, 11823, 12293, 12295, 12321, 12335,\r\n 12337, 12341, 12344, 12348, 12353, 12438, 12441, 12442, 12445, 12447, 12449,\r\n 12538, 12540, 12543, 12549, 12589, 12593, 12686, 12704, 12730, 12784, 12799,\r\n 13312, 19893, 19968, 40908, 40960, 42124, 42192, 42237, 42240, 42508, 42512,\r\n 42539, 42560, 42607, 42612, 42621, 42623, 42647, 42655, 42737, 42775, 42783,\r\n 42786, 42888, 42891, 42894, 42896, 42899, 42912, 42922, 43000, 43047, 43072,\r\n 43123, 43136, 43204, 43216, 43225, 43232, 43255, 43259, 43259, 43264, 43309,\r\n 43312, 43347, 43360, 43388, 43392, 43456, 43471, 43481, 43520, 43574, 43584,\r\n 43597, 43600, 43609, 43616, 43638, 43642, 43643, 43648, 43714, 43739, 43741,\r\n 43744, 43759, 43762, 43766, 43777, 43782, 43785, 43790, 43793, 43798, 43808,\r\n 43814, 43816, 43822, 43968, 44010, 44012, 44013, 44016, 44025, 44032, 55203,\r\n 55216, 55238, 55243, 55291, 63744, 64109, 64112, 64217, 64256, 64262, 64275,\r\n 64279, 64285, 64296, 64298, 64310, 64312, 64316, 64318, 64318, 64320, 64321,\r\n 64323, 64324, 64326, 64433, 64467, 64829, 64848, 64911, 64914, 64967, 65008,\r\n 65019, 65024, 65039, 65056, 65062, 65075, 65076, 65101, 65103, 65136, 65140,\r\n 65142, 65276, 65296, 65305, 65313, 65338, 65343, 65343, 65345, 65370, 65382,\r\n 65470, 65474, 65479, 65482, 65487, 65490, 65495, 65498, 65500,\r\n];\r\n\r\nfunction lookupInUnicodeMap(code: u16, map: u16[]): bool {\r\n if (code < map[0]) return false;\r\n\r\n var lo = 0;\r\n var hi = map.length;\r\n var mid: i32;\r\n var midVal: u16;\r\n\r\n while (lo + 1 < hi) {\r\n mid = lo + ((hi - lo) >> 1);\r\n mid -= (mid & 1);\r\n midVal = map[mid];\r\n if (midVal <= code && code <= map[mid + 1]) {\r\n return true;\r\n }\r\n if (code < midVal) {\r\n hi = mid;\r\n } else {\r\n lo = mid + 2;\r\n }\r\n }\r\n return false;\r\n}\r\n\r\nfunction isUnicodeIdentifierStart(code: i32): bool {\r\n return code < 0 || code > 0xffff ? false\r\n : lookupInUnicodeMap(code as u16, unicodeIdentifierStart);\r\n}\r\n\r\nfunction isUnicodeIdentifierPart(code: i32): bool {\r\n return code < 0 || code > 0xffff ? false\r\n : lookupInUnicodeMap(code as u16, unicodeIdentifierPart);\r\n}\r\n","export function makeArray(original: Array | null = null): Array {\r\n if (original) {\r\n let cloned = new Array(original.length);\r\n for (let i = 0, k = original.length; i < k; ++i) unchecked(cloned[i] = original[i]);\r\n return cloned;\r\n }\r\n return new Array();\r\n}\r\n\r\nexport function makeSet(original: Set | null = null): Set {\r\n if (original) {\r\n let cloned = new Set();\r\n for (let v of original) cloned.add(v);\r\n return cloned;\r\n }\r\n return new Set();\r\n}\r\n\r\nexport function makeMap(original: Map | null = null, overrides: Map | null = null): Map {\r\n var cloned = new Map();\r\n if (original) {\r\n for (let [k, v] of original) cloned.set(k, v);\r\n if (overrides) for (let [k, v] of overrides) cloned.set(k, v);\r\n } else if (overrides) {\r\n for (let [k, v] of overrides) cloned.set(k, v);\r\n }\r\n return cloned;\r\n}\r\n","/** @module util *//***/\r\n\r\nimport {\r\n CharCode\r\n} from \"./charcode\";\r\n\r\nimport {\r\n PATH_DELIMITER\r\n} from \"../common\";\r\n\r\nconst separator = CharCode.SLASH;\r\n\r\n/**\r\n * Normalizes the specified path, removing interior placeholders.\r\n * Expects a posix-compatible relative path (not Windows compatible).\r\n */\r\nexport function normalizePath(path: string): string {\r\n var pos = 0;\r\n var len = path.length;\r\n\r\n // trim leading './'\r\n while (pos + 1 < len &&\r\n path.charCodeAt(pos) == CharCode.DOT &&\r\n path.charCodeAt(pos + 1) == separator\r\n ) {\r\n pos += 2;\r\n }\r\n\r\n if (pos > 0 || len < path.length) {\r\n path = path.substring(pos, len);\r\n len -= pos;\r\n pos = 0;\r\n }\r\n\r\n var atEnd: bool;\r\n while (pos + 1 < len) {\r\n atEnd = false;\r\n\r\n // we are only interested in '/.' sequences ...\r\n if (\r\n path.charCodeAt(pos) == separator &&\r\n path.charCodeAt(pos + 1) == CharCode.DOT\r\n ) {\r\n // '/.' ( '/' | $ )\r\n atEnd = pos + 2 == len;\r\n if (atEnd ||\r\n pos + 2 < len &&\r\n path.charCodeAt(pos + 2) == separator\r\n ) {\r\n path = atEnd\r\n ? path.substring(0, pos)\r\n : path.substring(0, pos) + path.substring(pos + 2);\r\n len -= 2;\r\n continue;\r\n }\r\n\r\n // '/.' ( './' | '.' $ )\r\n atEnd = pos + 3 == len;\r\n if (atEnd && path.charCodeAt(pos + 2) == CharCode.DOT ||\r\n pos + 3 < len &&\r\n path.charCodeAt(pos + 2) == CharCode.DOT &&\r\n path.charCodeAt(pos + 3) == separator\r\n ) {\r\n // find preceeding '/'\r\n let ipos = pos;\r\n while (--ipos >= 0) {\r\n if (path.charCodeAt(ipos) == separator) {\r\n if (pos - ipos != 3 ||\r\n path.charCodeAt(ipos + 1) != CharCode.DOT ||\r\n path.charCodeAt(ipos + 2) != CharCode.DOT\r\n ) { // exclude '..' itself\r\n path = atEnd\r\n ? path.substring(0, ipos)\r\n : path.substring(0, ipos) + path.substring(pos + 3);\r\n len -= pos + 3 - ipos;\r\n pos = ipos - 1; // incremented again at end of loop\r\n }\r\n break;\r\n }\r\n }\r\n\r\n // if there's no preceeding '/', trim start if non-empty\r\n if (ipos < 0 && pos > 0) {\r\n if (pos != 2 ||\r\n path.charCodeAt(0) != CharCode.DOT ||\r\n path.charCodeAt(1) != CharCode.DOT\r\n ) { // exclude '..' itself\r\n path = path.substring(pos + 4);\r\n len = path.length;\r\n continue;\r\n }\r\n }\r\n }\r\n }\r\n pos++;\r\n }\r\n return len > 0 ? path : \".\";\r\n}\r\n\r\n/** Resolves the specified path relative to the specified origin. */\r\nexport function resolvePath(normalizedPath: string, origin: string): string {\r\n if (normalizedPath.startsWith(\"std/\")) {\r\n return normalizedPath;\r\n }\r\n return normalizePath(\r\n dirname(origin) + PATH_DELIMITER + normalizedPath\r\n );\r\n}\r\n\r\n/** Obtains the directory portion of a normalized path. */\r\nexport function dirname(normalizedPath: string): string {\r\n var pos = normalizedPath.length;\r\n if (pos <= 1) {\r\n if (pos == 0) return \".\";\r\n if (normalizedPath.charCodeAt(0) == separator) {\r\n return normalizedPath;\r\n }\r\n }\r\n while (--pos > 0) {\r\n if (normalizedPath.charCodeAt(pos) == separator) {\r\n return normalizedPath.substring(0, pos);\r\n }\r\n }\r\n return \".\";\r\n}\r\n","/** @module util *//***/\r\n\r\nconst indentX1 = \" \";\r\nconst indentX2 = \" \";\r\nconst indentX4 = \" \";\r\n\r\n/** Creates an indentation matching the number of specified levels. */\r\nexport function indent(sb: string[], level: i32): void {\r\n while (level >= 4) {\r\n sb.push(indentX4);\r\n level -= 4;\r\n }\r\n if (level >= 2) {\r\n sb.push(indentX2);\r\n level -= 2;\r\n }\r\n if (level) {\r\n sb.push(indentX1);\r\n }\r\n}\r\n","/** @module util *//***/\r\n\r\n/** Reads an 8-bit integer from the specified buffer. */\r\nexport function readI8(buffer: Uint8Array, offset: i32): i32 {\r\n return buffer[offset];\r\n}\r\n\r\n/** Writes an 8-bit integer to the specified buffer. */\r\nexport function writeI8(value: i32, buffer: Uint8Array, offset: i32): void {\r\n buffer[offset] = value;\r\n}\r\n\r\n/** Reads a 16-bit integer from the specified buffer. */\r\nexport function readI16(buffer: Uint8Array, offset: i32): i32 {\r\n return buffer[offset ]\r\n | buffer[offset + 1] << 8;\r\n}\r\n\r\n/** Writes a 16-bit integer to the specified buffer. */\r\nexport function writeI16(value: i32, buffer: Uint8Array, offset: i32): void {\r\n buffer[offset ] = value;\r\n buffer[offset + 1] = value >>> 8;\r\n}\r\n\r\n/** Reads a 32-bit integer from the specified buffer. */\r\nexport function readI32(buffer: Uint8Array, offset: i32): i32 {\r\n return buffer[offset ]\r\n | buffer[offset + 1] << 8\r\n | buffer[offset + 2] << 16\r\n | buffer[offset + 3] << 24;\r\n}\r\n\r\n/** Writes a 32-bit integer to the specified buffer. */\r\nexport function writeI32(value: i32, buffer: Uint8Array, offset: i32): void {\r\n buffer[offset ] = value;\r\n buffer[offset + 1] = value >>> 8;\r\n buffer[offset + 2] = value >>> 16;\r\n buffer[offset + 3] = value >>> 24;\r\n}\r\n\r\n/** Reads a 64-bit integer from the specified buffer. */\r\nexport function readI64(buffer: Uint8Array, offset: i32): I64 {\r\n var lo = readI32(buffer, offset);\r\n var hi = readI32(buffer, offset + 4);\r\n return i64_new(lo, hi);\r\n}\r\n\r\n/** Writes a 64-bit integer to the specified buffer. */\r\nexport function writeI64(value: I64, buffer: Uint8Array, offset: i32): void {\r\n writeI32(i64_low(value), buffer, offset);\r\n writeI32(i64_high(value), buffer, offset + 4);\r\n}\r\n\r\n/** Reads a 32-bit float from the specified buffer. */\r\nexport function readF32(buffer: Uint8Array, offset: i32): f32 {\r\n return i32_as_f32(readI32(buffer, offset));\r\n}\r\n\r\n/** Writes a 32-bit float to the specified buffer. */\r\nexport function writeF32(value: f32, buffer: Uint8Array, offset: i32): void {\r\n writeI32(f32_as_i32(value), buffer, offset);\r\n}\r\n\r\n/** Reads a 64-bit float from the specified buffer. */\r\nexport function readF64(buffer: Uint8Array, offset: i32): f64 {\r\n return i64_as_f64(readI64(buffer, offset));\r\n}\r\n\r\n/** Writes a 64-bit float to the specified buffer. */\r\nexport function writeF64(value: f64, buffer: Uint8Array, offset: i32): void {\r\n var valueI64 = f64_as_i64(value);\r\n writeI32(i64_low(valueI64), buffer, offset);\r\n writeI32(i64_high(valueI64), buffer, offset + 4);\r\n}\r\n","/**\r\n * Low-level C-like compiler API.\r\n * @module index\r\n *//***/\r\n\r\nimport {\r\n Compiler,\r\n Options,\r\n Target,\r\n Feature\r\n} from \"./compiler\";\r\n\r\nimport {\r\n Decompiler\r\n} from \"./decompiler\";\r\n\r\nimport {\r\n IDLBuilder,\r\n TSDBuilder\r\n} from \"./definitions\";\r\n\r\nimport {\r\n DiagnosticMessage,\r\n DiagnosticCategory,\r\n formatDiagnosticMessage\r\n} from \"./diagnostics\";\r\n\r\nimport {\r\n Module\r\n} from \"./module\";\r\n\r\nimport {\r\n Parser\r\n} from \"./parser\";\r\n\r\nimport {\r\n Program\r\n} from \"./program\";\r\n\r\n/** Parses a source file. If `parser` has been omitted a new one is created. */\r\nexport function parseFile(text: string, path: string, isEntry: bool = false,\r\n parser: Parser | null = null\r\n): Parser {\r\n if (!parser) parser = new Parser();\r\n parser.parseFile(text, path, isEntry);\r\n return parser;\r\n}\r\n\r\n/** Obtains the next required file's path. Returns `null` once complete. */\r\nexport function nextFile(parser: Parser): string | null {\r\n return parser.nextFile();\r\n}\r\n\r\n/** Obtains the next diagnostic message. Returns `null` once complete. */\r\nexport function nextDiagnostic(parser: Parser): DiagnosticMessage | null {\r\n var program = parser.program;\r\n return program.diagnosticsOffset < program.diagnostics.length\r\n ? program.diagnostics[program.diagnosticsOffset++]\r\n : null;\r\n}\r\n\r\n/** Formats a diagnostic message to a string. */\r\nexport { formatDiagnosticMessage as formatDiagnostic };\r\n\r\n/** Tests whether a diagnostic is informatory. */\r\nexport function isInfo(message: DiagnosticMessage): bool {\r\n return message.category == DiagnosticCategory.INFO;\r\n}\r\n\r\n/** Tests whether a diagnostic is a warning. */\r\nexport function isWarning(message: DiagnosticMessage): bool {\r\n return message.category == DiagnosticCategory.WARNING;\r\n}\r\n\r\n/** Tests whether a diagnostic is an error. */\r\nexport function isError(message: DiagnosticMessage): bool {\r\n return message.category == DiagnosticCategory.ERROR;\r\n}\r\n\r\n/** Creates a new set of compiler options. */\r\nexport function createOptions(): Options {\r\n return new Options();\r\n}\r\n\r\n/** Sets the `target` option. */\r\nexport function setTarget(options: Options, target: Target): void {\r\n options.target = target;\r\n}\r\n\r\n/** Sets the `noAssert` option. */\r\nexport function setNoAssert(options: Options, noAssert: bool): void {\r\n options.noAssert = noAssert;\r\n}\r\n\r\n/** Sets the `importMemory` option. */\r\nexport function setImportMemory(options: Options, importMemory: bool): void {\r\n options.importMemory = importMemory;\r\n}\r\n\r\n/** Sets the `sharedMemory` option. */\r\nexport function setSharedMemory(options: Options, sharedMemory: i32): void {\r\n options.sharedMemory = sharedMemory;\r\n}\r\n\r\n/** Sets the `importTable` option. */\r\nexport function setImportTable(options: Options, importTable: bool): void {\r\n options.importTable = importTable;\r\n}\r\n\r\n/** Sets the `sourceMap` option. */\r\nexport function setSourceMap(options: Options, sourceMap: bool): void {\r\n options.sourceMap = sourceMap;\r\n}\r\n\r\n/** Sets the `memoryBase` option. */\r\nexport function setMemoryBase(options: Options, memoryBase: u32): void {\r\n options.memoryBase = memoryBase;\r\n}\r\n\r\n/** Sets a 'globalAliases' value. */\r\nexport function setGlobalAlias(options: Options, name: string, alias: string): void {\r\n var globalAliases = options.globalAliases;\r\n if (!globalAliases) options.globalAliases = globalAliases = new Map();\r\n globalAliases.set(name, alias);\r\n}\r\n\r\n/** Sign extension operations. */\r\nexport const FEATURE_SIGN_EXTENSION = Feature.SIGN_EXTENSION;\r\n/** Mutable global imports and exports. */\r\nexport const FEATURE_MUTABLE_GLOBAL = Feature.MUTABLE_GLOBAL;\r\n/** Bulk memory operations. */\r\nexport const FEATURE_BULK_MEMORY = Feature.BULK_MEMORY;\r\n/** SIMD types and operations. */\r\nexport const FEATURE_SIMD = Feature.SIMD;\r\n/** Threading and atomic operations. */\r\nexport const FEATURE_THREADS = Feature.THREADS;\r\n\r\n/** Enables a specific feature. */\r\nexport function enableFeature(options: Options, feature: Feature): void {\r\n options.features |= feature;\r\n}\r\n\r\n/** Gives the compiler a hint at the optimize levels that will be used later on. */\r\nexport function setOptimizeLevelHints(options: Options, optimizeLevel: i32, shrinkLevel: i32): void {\r\n options.optimizeLevelHint = optimizeLevel;\r\n options.shrinkLevelHint = shrinkLevel;\r\n}\r\n\r\n/** Finishes parsing. */\r\nexport function finishParsing(parser: Parser): Program {\r\n return parser.finish();\r\n}\r\n\r\n/** Compiles the sources computed by the parser to a module. */\r\nexport function compileProgram(program: Program, options: Options | null = null): Module {\r\n return new Compiler(program, options).compile();\r\n}\r\n\r\n/** Decompiles a module to its (low level) source. */\r\nexport function decompileModule(module: Module): string {\r\n var decompiler = new Decompiler();\r\n decompiler.decompile(module);\r\n return decompiler.finish();\r\n}\r\n\r\n/** Builds WebIDL definitions for the specified program. */\r\nexport function buildIDL(program: Program): string {\r\n return IDLBuilder.build(program);\r\n}\r\n\r\n/** Builds TypeScript definitions for the specified program. */\r\nexport function buildTSD(program: Program): string {\r\n return TSDBuilder.build(program);\r\n}\r\n\r\n/** Prefix indicating a library file. */\r\nexport { LIBRARY_PREFIX } from \"./common\";\r\n\r\n// Full API\r\nexport * from \"./ast\";\r\n// export * from \"./binary\";\r\nexport * from \"./common\";\r\nexport * from \"./compiler\";\r\nexport * from \"./decompiler\";\r\nexport * from \"./definitions\";\r\nexport * from \"./diagnosticMessages.generated\";\r\nexport * from \"./diagnostics\";\r\nexport * from \"./flow\";\r\nexport * from \"./module\";\r\nexport * from \"./parser\";\r\nexport * from \"./program\";\r\nexport * from \"./resolver\";\r\nexport * from \"./tokenizer\";\r\nexport * from \"./types\";\r\nexport * from \"./util\";\r\n"],"sourceRoot":""} \ No newline at end of file diff --git a/package-lock.json b/package-lock.json index ed8363eb..265443c2 100644 --- a/package-lock.json +++ b/package-lock.json @@ -66,9 +66,9 @@ "dev": true }, "@types/node": { - "version": "11.9.5", - "resolved": "https://registry.npmjs.org/@types/node/-/node-11.9.5.tgz", - "integrity": "sha512-vVjM0SVzgaOUpflq4GYBvCpozes8OgIIS5gVXVka+OfK3hvnkC1i93U8WiY2OtNE4XUWyyy/86Kf6e0IHTQw1Q==", + "version": "11.10.5", + "resolved": "https://registry.npmjs.org/@types/node/-/node-11.10.5.tgz", + "integrity": "sha512-DuIRlQbX4K+d5I+GMnv+UfnGh+ist0RdlvOp+JZ7ePJ6KQONCFQv/gKYSU1ZzbVdFSUCKZOltjmpFAGGv5MdYA==", "dev": true }, "@types/shelljs": { @@ -567,9 +567,9 @@ "dev": true }, "binaryen": { - "version": "69.0.0-nightly.20190228", - "resolved": "https://registry.npmjs.org/binaryen/-/binaryen-69.0.0-nightly.20190228.tgz", - "integrity": "sha512-rF3UuWKyYc0+PX+HteNKB3rl5FIcwIfmCldFp2PShJ9lwUvTLqvMaGfco6/QhFSP0Q0iLdHxBFDn9LHief8FPg==" + "version": "71.0.0-nightly.20190305", + "resolved": "https://registry.npmjs.org/binaryen/-/binaryen-71.0.0-nightly.20190305.tgz", + "integrity": "sha512-I9APly0/Cih0voj/94FU15RJIY32spsqP95kjRdMcBrr3wk24GeSrjeiFEZB6TVNPvh8AiF7rdzlRhiQMBmkzg==" }, "bluebird": { "version": "3.5.3", @@ -4091,9 +4091,9 @@ "dev": true }, "tslint": { - "version": "5.13.0", - "resolved": "https://registry.npmjs.org/tslint/-/tslint-5.13.0.tgz", - "integrity": "sha512-ECOOQRxXCYnUUePG5h/+Z1Zouobk3KFpIHA9aKBB/nnMxs97S1JJPDGt5J4cGm1y9U9VmVlfboOxA8n1kSNzGw==", + "version": "5.13.1", + "resolved": "https://registry.npmjs.org/tslint/-/tslint-5.13.1.tgz", + "integrity": "sha512-fplQqb2miLbcPhyHoMV4FU9PtNRbgmm/zI5d3SZwwmJQM6V0eodju+hplpyfhLWpmwrDNfNYU57uYRb8s0zZoQ==", "dev": true, "requires": { "babel-code-frame": "^6.22.0", diff --git a/package.json b/package.json index 4d672f9b..c53ca8fd 100644 --- a/package.json +++ b/package.json @@ -12,19 +12,19 @@ }, "dependencies": { "@protobufjs/utf8": "^1.1.0", - "binaryen": "69.0.0-nightly.20190228", + "binaryen": "71.0.0-nightly.20190305", "glob": "^7.1.3", "long": "^4.0.0", - "source-map-support": "^0.5.10", - "opencollective-postinstall": "^2.0.0" + "opencollective-postinstall": "^2.0.0", + "source-map-support": "^0.5.10" }, "devDependencies": { - "@types/node": "^11.9.5", + "@types/node": "^11.10.5", "browser-process-hrtime": "^1.0.0", "diff": "^4.0.1", "ts-loader": "^5.3.3", "ts-node": "^6.2.0", - "tslint": "^5.13.0", + "tslint": "^5.13.1", "typedoc": "^0.14.0", "typedoc-plugin-external-module-name": "^2.0.0", "typescript": "^3.3.3333",