assemblyscript/std/assembly/runtime.ts

import { AL_MASK, MAX_SIZE_32 } from "./util/allocator";
import { HEAP_BASE, memory } from "./memory";

/** Whether the memory manager interface is implemented. */
// @ts-ignore: decorator, stub
@lazy export const MM_IMPLEMENTED: bool = isDefined(__memory_allocate);

/** Whether the garbage collector interface is implemented. */
// @ts-ignore: decorator, stub
@lazy export const GC_IMPLEMENTED: bool = isDefined(__gc_register);

/** Common runtime header. Each managed object has one. */
@unmanaged export class HEADER {
  /** Unique id of the respective class or a magic value if not yet registered.*/
  classId: u32;
  /** Size of the allocated payload. */
  payloadSize: u32;
  /** Reserved field for use by GC. Only present if GC is. */
  gc1: usize; // itcm: tagged next
  /** Reserved field for use by GC. Only present if GC is. */
  gc2: usize; // itcm: prev
}

/** Common runtime header size. */
export const HEADER_SIZE: usize = GC_IMPLEMENTED
  ? (offsetof<HEADER>(     ) + AL_MASK) & ~AL_MASK  // full header if GC is present
  : (offsetof<HEADER>("gc1") + AL_MASK) & ~AL_MASK; // half header if GC is absent

/** Common runtime header magic. Used to assert registered/unregistered status. */
export const HEADER_MAGIC: u32 = 0xA55E4B17;

/** Gets the computed unique class id of a class type. */
// @ts-ignore: decorator
@unsafe @builtin
export declare function CLASSID<T>(): u32;

/** Iterates over all root objects of a reference type. */
// @ts-ignore: decorator
@unsafe @builtin
export declare function ITERATEROOTS(fn: (ref: usize) => void): void;

/** Adjusts an allocation to actual block size. Primarily targets TLSF. */
export function ADJUST(payloadSize: usize): usize {
  // round up to power of 2, e.g. with HEADER_SIZE=8:
  // 0            -> 2^3  = 8
  // 1..8         -> 2^4  = 16
  // 9..24        -> 2^5  = 32
  // ...
  // MAX_LENGTH   -> 2^30 = 0x40000000 (MAX_SIZE_32)
  return <usize>1 << <usize>(<u32>32 - clz<u32>(payloadSize + HEADER_SIZE - 1));
}

/** Allocates a new object and returns a pointer to its payload. Does not fill. */
// @ts-ignore: decorator
@unsafe
export function ALLOCATE(payloadSize: usize): usize {
  var header = changetype<HEADER>(memory.allocate(ADJUST(payloadSize)));
  header.classId = HEADER_MAGIC;
  header.payloadSize = payloadSize;
  if (GC_IMPLEMENTED) {
    header.gc1 = 0;
    header.gc2 = 0;
  }
  return changetype<usize>(header) + HEADER_SIZE;
}

/** Reallocates an object if necessary. Returns a pointer to its (moved) payload. */
// @ts-ignore: decorator
@unsafe
export function REALLOCATE(ref: usize, newPayloadSize: usize): usize {
  // Background: When managed objects are allocated these aren't immediately registered with GC
  // but can be used as scratch objects while unregistered. This is useful in situations where
  // the object must be reallocated multiple times because its final size isn't known beforehand,
  // e.g. in Array#filter, with only the final object making it into GC'ed userland.
  var header = changetype<HEADER>(ref - HEADER_SIZE);
  var payloadSize = header.payloadSize;
  if (payloadSize < newPayloadSize) {
    let newAdjustedSize = ADJUST(newPayloadSize);
    if (select(ADJUST(payloadSize), 0, ref > HEAP_BASE) < newAdjustedSize) {
      // move if the allocation isn't large enough or not a heap object
      let newHeader = changetype<HEADER>(memory.allocate(newAdjustedSize));
      newHeader.classId = header.classId;
      if (GC_IMPLEMENTED) {
        newHeader.gc1 = 0;
        newHeader.gc2 = 0;
      }
      let newRef = changetype<usize>(newHeader) + HEADER_SIZE;
      memory.copy(newRef, ref, payloadSize);
      memory.fill(newRef + payloadSize, 0, newPayloadSize - payloadSize);
      if (header.classId == HEADER_MAGIC) {
        // free right away if not registered yet
        assert(ref > HEAP_BASE); // static objects aren't scratch objects
        memory.free(changetype<usize>(header));
      } else if (GC_IMPLEMENTED) {
        // if previously registered, register again
        // @ts-ignore: stub
        __gc_register(ref);
      }
      header = newHeader;
      ref = newRef;
    } else {
      // otherwise just clear additional memory within this block
      memory.fill(ref + payloadSize, 0, newPayloadSize - payloadSize);
    }
  } else {
    // if the size is the same or less, just update the header accordingly.
    // unused space is cleared when grown, so no need to do this here.
  }
  header.payloadSize = newPayloadSize;
  return ref;
}

/** Registers a managed object to be tracked by the garbage collector, if present. */
// @ts-ignore: decorator
@unsafe @inline
export function REGISTER<T>(ref: usize): T {
  ASSERT_UNREGISTERED(ref);
  changetype<HEADER>(ref - HEADER_SIZE).classId = CLASSID<T>();
  // @ts-ignore: stub
  if (GC_IMPLEMENTED) __gc_register(ref);
  return changetype<T>(ref);
}

/** Links a registered object with the (registered) object now referencing it. */
// @ts-ignore: decorator
@unsafe @inline
export function LINK<T,TParent>(ref: T, parentRef: TParent): void {
  ASSERT_REGISTERED(changetype<usize>(ref));
  ASSERT_REGISTERED(changetype<usize>(parentRef));
  // @ts-ignore: stub
  if (GC_IMPLEMENTED) __gc_link(changetype<usize>(ref), changetype<usize>(parentRef));
}

/** Discards an unregistered object that turned out to be unnecessary. */
// @ts-ignore: decorator
export function DISCARD(ref: usize): void {
  ASSERT_UNREGISTERED(ref);
  memory.free(changetype<usize>(ref - HEADER_SIZE));
}

// Helpers

/** Asserts that a managed object is still unregistered. */
function ASSERT_UNREGISTERED(ref: usize): void {
  assert(ref > HEAP_BASE); // must be a heap object
  assert(changetype<HEADER>(ref - HEADER_SIZE).classId == HEADER_MAGIC);
}

/** Asserts that a managed object has already been registered. */
function ASSERT_REGISTERED(ref: usize): void {
  assert(ref > HEAP_BASE); // must be a heap object
  assert(changetype<HEADER>(ref - HEADER_SIZE).classId != HEADER_MAGIC);
}

import { ArrayBuffer } from "./arraybuffer";

/** Maximum byte length of any buffer. */
// @ts-ignore: decorator
@lazy
export const MAX_BYTELENGTH: i32 = MAX_SIZE_32 - HEADER_SIZE;

/** Hard wired ArrayBufferView interface. */
export abstract class ArrayBufferView {
  [key: number]: number;

  // @ts-ignore: decorator
  @unsafe
  data: ArrayBuffer;

  // @ts-ignore: decorator
  @unsafe
  dataStart: usize;

  // @ts-ignore: decorator
  @unsafe
  dataEnd: usize;

  constructor(length: i32, alignLog2: i32) {
    if (<u32>length > <u32>MAX_BYTELENGTH >>> alignLog2) throw new RangeError("Invalid length");
    var buffer = new ArrayBuffer(length << alignLog2);
    this.data = buffer;
    this.dataStart = changetype<usize>(buffer);
    this.dataEnd = changetype<usize>(buffer) + <usize>length;
  }

  get byteOffset(): i32 {
    return <i32>(this.dataStart - changetype<usize>(this.data));
  }

  get byteLength(): i32 {
    return <i32>(this.dataEnd - this.dataStart);
  }

  get length(): i32 {
    ERROR("missing implementation: subclasses must implement ArrayBufferView#length");
    return unreachable();
  }
}
more 2019-03-13 03:09:24 +01:00			`import { AL_MASK, MAX_SIZE_32 } from "./util/allocator";`
take a step back 2019-03-14 04:33:58 +01:00			`import { HEAP_BASE, memory } from "./memory";`
unsafe, stub 2019-03-10 21:38:15 +01:00
decisions 2019-03-15 09:26:31 +01:00			`/** Whether the memory manager interface is implemented. */`
			`// @ts-ignore: decorator, stub`
			`@lazy export const MM_IMPLEMENTED: bool = isDefined(__memory_allocate);`

			`/** Whether the garbage collector interface is implemented. */`
			`// @ts-ignore: decorator, stub`
			`@lazy export const GC_IMPLEMENTED: bool = isDefined(__gc_register);`

			`/** Common runtime header. Each managed object has one. */`
			`@unmanaged export class HEADER {`
			`/** Unique id of the respective class or a magic value if not yet registered.*/`
			`classId: u32;`
			`/** Size of the allocated payload. */`
			`payloadSize: u32;`
			`/** Reserved field for use by GC. Only present if GC is. */`
			`gc1: usize; // itcm: tagged next`
			`/** Reserved field for use by GC. Only present if GC is. */`
			`gc2: usize; // itcm: prev`
			`}`
Runtime experiment 2019-03-08 22:04:20 +01:00
decisions 2019-03-15 09:26:31 +01:00			`/** Common runtime header size. */`
			`export const HEADER_SIZE: usize = GC_IMPLEMENTED`
			`? (offsetof<HEADER>( ) + AL_MASK) & ~AL_MASK // full header if GC is present`
			`: (offsetof<HEADER>("gc1") + AL_MASK) & ~AL_MASK; // half header if GC is absent`

			`/** Common runtime header magic. Used to assert registered/unregistered status. */`
			`export const HEADER_MAGIC: u32 = 0xA55E4B17;`

			`/** Gets the computed unique class id of a class type. */`
			`// @ts-ignore: decorator`
			`@unsafe @builtin`
			`export declare function CLASSID<T>(): u32;`

			`/** Iterates over all root objects of a reference type. */`
			`// @ts-ignore: decorator`
			`@unsafe @builtin`
			`export declare function ITERATEROOTS(fn: (ref: usize) => void): void;`

			`/** Adjusts an allocation to actual block size. Primarily targets TLSF. */`
			`export function ADJUST(payloadSize: usize): usize {`
			`// round up to power of 2, e.g. with HEADER_SIZE=8:`
			`// 0 -> 2^3 = 8`
			`// 1..8 -> 2^4 = 16`
			`// 9..24 -> 2^5 = 32`
			`// ...`
			`// MAX_LENGTH -> 2^30 = 0x40000000 (MAX_SIZE_32)`
			`return <usize>1 << <usize>(<u32>32 - clz<u32>(payloadSize + HEADER_SIZE - 1));`
			`}`

			`/** Allocates a new object and returns a pointer to its payload. Does not fill. */`
			`// @ts-ignore: decorator`
			`@unsafe`
			`export function ALLOCATE(payloadSize: usize): usize {`
			`var header = changetype<HEADER>(memory.allocate(ADJUST(payloadSize)));`
			`header.classId = HEADER_MAGIC;`
			`header.payloadSize = payloadSize;`
			`if (GC_IMPLEMENTED) {`
			`header.gc1 = 0;`
			`header.gc2 = 0;`
simplify more 2019-03-08 22:50:30 +01:00			`}`
decisions 2019-03-15 09:26:31 +01:00			`return changetype<usize>(header) + HEADER_SIZE;`
			`}`
arraybufferview 2019-03-11 07:45:47 +01:00
decisions 2019-03-15 09:26:31 +01:00			`/** Reallocates an object if necessary. Returns a pointer to its (moved) payload. */`
			`// @ts-ignore: decorator`
			`@unsafe`
			`export function REALLOCATE(ref: usize, newPayloadSize: usize): usize {`
			`// Background: When managed objects are allocated these aren't immediately registered with GC`
			`// but can be used as scratch objects while unregistered. This is useful in situations where`
			`// the object must be reallocated multiple times because its final size isn't known beforehand,`
			`// e.g. in Array#filter, with only the final object making it into GC'ed userland.`
			`var header = changetype<HEADER>(ref - HEADER_SIZE);`
			`var payloadSize = header.payloadSize;`
			`if (payloadSize < newPayloadSize) {`
			`let newAdjustedSize = ADJUST(newPayloadSize);`
			`if (select(ADJUST(payloadSize), 0, ref > HEAP_BASE) < newAdjustedSize) {`
			`// move if the allocation isn't large enough or not a heap object`
			`let newHeader = changetype<HEADER>(memory.allocate(newAdjustedSize));`
			`newHeader.classId = header.classId;`
			`if (GC_IMPLEMENTED) {`
			`newHeader.gc1 = 0;`
			`newHeader.gc2 = 0;`
			`}`
			`let newRef = changetype<usize>(newHeader) + HEADER_SIZE;`
			`memory.copy(newRef, ref, payloadSize);`
			`memory.fill(newRef + payloadSize, 0, newPayloadSize - payloadSize);`
			`if (header.classId == HEADER_MAGIC) {`
			`// free right away if not registered yet`
			`assert(ref > HEAP_BASE); // static objects aren't scratch objects`
			`memory.free(changetype<usize>(header));`
			`} else if (GC_IMPLEMENTED) {`
			`// if previously registered, register again`
			`// @ts-ignore: stub`
			`__gc_register(ref);`
refactor 2019-03-09 02:37:05 +01:00			`}`
decisions 2019-03-15 09:26:31 +01:00			`header = newHeader;`
			`ref = newRef;`
Runtime experiment 2019-03-08 22:04:20 +01:00			`} else {`
decisions 2019-03-15 09:26:31 +01:00			`// otherwise just clear additional memory within this block`
			`memory.fill(ref + payloadSize, 0, newPayloadSize - payloadSize);`
Runtime experiment 2019-03-08 22:04:20 +01:00			`}`
decisions 2019-03-15 09:26:31 +01:00			`} else {`
			`// if the size is the same or less, just update the header accordingly.`
			`// unused space is cleared when grown, so no need to do this here.`
Runtime experiment 2019-03-08 22:04:20 +01:00			`}`
decisions 2019-03-15 09:26:31 +01:00			`header.payloadSize = newPayloadSize;`
			`return ref;`
			`}`
Runtime experiment 2019-03-08 22:04:20 +01:00
decisions 2019-03-15 09:26:31 +01:00			`/** Registers a managed object to be tracked by the garbage collector, if present. */`
			`// @ts-ignore: decorator`
			`@unsafe @inline`
			`export function REGISTER<T>(ref: usize): T {`
			`ASSERT_UNREGISTERED(ref);`
			`changetype<HEADER>(ref - HEADER_SIZE).classId = CLASSID<T>();`
			`// @ts-ignore: stub`
			`if (GC_IMPLEMENTED) __gc_register(ref);`
			`return changetype<T>(ref);`
			`}`
Runtime experiment 2019-03-08 22:04:20 +01:00
decisions 2019-03-15 09:26:31 +01:00			`/** Links a registered object with the (registered) object now referencing it. */`
			`// @ts-ignore: decorator`
			`@unsafe @inline`
			`export function LINK<T,TParent>(ref: T, parentRef: TParent): void {`
			`ASSERT_REGISTERED(changetype<usize>(ref));`
			`ASSERT_REGISTERED(changetype<usize>(parentRef));`
			`// @ts-ignore: stub`
			`if (GC_IMPLEMENTED) __gc_link(changetype<usize>(ref), changetype<usize>(parentRef));`
Runtime experiment 2019-03-08 22:04:20 +01:00			`}`

decisions 2019-03-15 09:26:31 +01:00			`/** Discards an unregistered object that turned out to be unnecessary. */`
			`// @ts-ignore: decorator`
			`export function DISCARD(ref: usize): void {`
			`ASSERT_UNREGISTERED(ref);`
			`memory.free(changetype<usize>(ref - HEADER_SIZE));`
			`}`
take a step back 2019-03-14 04:33:58 +01:00
decisions 2019-03-15 09:26:31 +01:00			`// Helpers`
if that's what's necessary 2019-03-14 06:09:49 +01:00
decisions 2019-03-15 09:26:31 +01:00			`/** Asserts that a managed object is still unregistered. */`
			`function ASSERT_UNREGISTERED(ref: usize): void {`
			`assert(ref > HEAP_BASE); // must be a heap object`
			`assert(changetype<HEADER>(ref - HEADER_SIZE).classId == HEADER_MAGIC);`
			`}`

			`/** Asserts that a managed object has already been registered. */`
			`function ASSERT_REGISTERED(ref: usize): void {`
			`assert(ref > HEAP_BASE); // must be a heap object`
			`assert(changetype<HEADER>(ref - HEADER_SIZE).classId != HEADER_MAGIC);`
			`}`
I'm lost 2019-03-12 02:14:30 +01:00
decisions 2019-03-15 09:26:31 +01:00			`import { ArrayBuffer } from "./arraybuffer";`

			`/** Maximum byte length of any buffer. */`
			`// @ts-ignore: decorator`
			`@lazy`
			`export const MAX_BYTELENGTH: i32 = MAX_SIZE_32 - HEADER_SIZE;`

			`/** Hard wired ArrayBufferView interface. */`
			`export abstract class ArrayBufferView {`
arraybufferview 2019-03-11 07:45:47 +01:00			`[key: number]: number;`
it's all broken 2019-03-11 23:34:20 +01:00
srsly 2019-03-14 05:11:03 +01:00			`// @ts-ignore: decorator`
if that's what's necessary 2019-03-14 06:09:49 +01:00			`@unsafe`
			`data: ArrayBuffer;`

srsly 2019-03-14 05:11:03 +01:00			`// @ts-ignore: decorator`
if that's what's necessary 2019-03-14 06:09:49 +01:00			`@unsafe`
			`dataStart: usize;`

srsly 2019-03-14 05:11:03 +01:00			`// @ts-ignore: decorator`
if that's what's necessary 2019-03-14 06:09:49 +01:00			`@unsafe`
			`dataEnd: usize;`
arraybufferview 2019-03-11 07:45:47 +01:00
			`constructor(length: i32, alignLog2: i32) {`
decisions 2019-03-15 09:26:31 +01:00			`if (<u32>length > <u32>MAX_BYTELENGTH >>> alignLog2) throw new RangeError("Invalid length");`
more 2019-03-13 22:35:47 +01:00			`var buffer = new ArrayBuffer(length << alignLog2);`
I'm lost 2019-03-12 02:14:30 +01:00			`this.data = buffer;`
arraybufferview 2019-03-11 07:45:47 +01:00			`this.dataStart = changetype<usize>(buffer);`
more 2019-03-13 03:09:24 +01:00			`this.dataEnd = changetype<usize>(buffer) + <usize>length;`
arraybufferview 2019-03-11 07:45:47 +01:00			`}`

I'm lost 2019-03-12 02:14:30 +01:00			`get byteOffset(): i32 {`
			`return <i32>(this.dataStart - changetype<usize>(this.data));`
arraybufferview 2019-03-11 07:45:47 +01:00			`}`

I'm lost 2019-03-12 02:14:30 +01:00			`get byteLength(): i32 {`
			`return <i32>(this.dataEnd - this.dataStart);`
arraybufferview 2019-03-11 07:45:47 +01:00			`}`
more 2019-03-13 03:09:24 +01:00
			`get length(): i32 {`
decisions 2019-03-15 09:26:31 +01:00			`ERROR("missing implementation: subclasses must implement ArrayBufferView#length");`
more 2019-03-13 03:09:24 +01:00			`return unreachable();`
			`}`
Runtime experiment 2019-03-08 22:04:20 +01:00			`}`