import { compareImpl } from "./string";
// @ts-ignore: decorator
@inline
export function COMPARATOR<T>(): (a: T, b: T) => i32 {
if (isInteger<T>()) {
if (isSigned<T>() && sizeof<T>() <= 4) {
return (a: T, b: T): i32 => (i32(a) - i32(b));
} else {
return (a: T, b: T): i32 => (i32(a > b) - i32(a < b));
}
} else if (isFloat<T>()) {
if (sizeof<T>() == 4) {
return (a: T, b: T): i32 => {
var ia = reinterpret<i32>(f32(a));
var ib = reinterpret<i32>(f32(b));
ia ^= (ia >> 31) >>> 1;
ib ^= (ib >> 31) >>> 1;
return i32(ia > ib) - i32(ia < ib);
};
} else {
return (a: T, b: T): i32 => {
var ia = reinterpret<i64>(f64(a));
var ib = reinterpret<i64>(f64(b));
ia ^= (ia >> 63) >>> 1;
ib ^= (ib >> 63) >>> 1;
return i32(ia > ib) - i32(ia < ib);
};
}
} else if (isString<T>()) {
return (a: T, b: T): i32 => {
if (a === b || a === null || b === null) return 0;
var alen = changetype<string>(a).length;
var blen = changetype<string>(b).length;
if (!alen && !blen) return 0;
if (!alen) return -1;
if (!blen) return 1;
return compareImpl(changetype<string>(a), 0, changetype<string>(b), 0, <usize>min(alen, blen));
};
} else {
return (a: T, b: T): i32 => (i32(a > b) - i32(a < b));
}
}
// @ts-ignore: decorator
@inline
export function SORT<T>(
dataStart: usize,
length: i32,
comparator: (a: T, b: T) => i32
): void {
if (isReference<T>()) {
// TODO replace this to faster stable sort (TimSort) when it implemented
insertionSort<T>(dataStart, length, comparator);
} else {
if (length < 256) {
insertionSort<T>(dataStart, length, comparator);
} else {
weakHeapSort<T>(dataStart, length, comparator);
}
}
}
function insertionSort<T>(
dataStart: usize,
length: i32,
comparator: (a: T, b: T) => i32
): void {
for (let i = 0; i < length; i++) {
let a: T = load<T>(dataStart + (<usize>i << alignof<T>())); // a = arr[i]
let j = i - 1;
while (j >= 0) {
let b: T = load<T>(dataStart + (<usize>j << alignof<T>())); // b = arr[j]
if (comparator(a, b) < 0) {
store<T>(dataStart + (<usize>(j-- + 1) << alignof<T>()), b); // arr[j + 1] = b
} else break;
}
store<T>(dataStart + (<usize>(j + 1) << alignof<T>()), a); // arr[j + 1] = a
}
}
function weakHeapSort<T>(
dataStart: usize,
length: i32,
comparator: (a: T, b: T) => i32
): void {
const shift32 = alignof<u32>();
var bitsetSize = (length + 31) >> 5 << shift32;
var bitset = __alloc(bitsetSize, 0); // indexed in 32-bit chunks below
memory.fill(bitset, 0, bitsetSize);
// see: http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.21.1863&rep=rep1&type=pdf
for (let i = length - 1; i > 0; i--) {
let j = i;
while ((j & 1) == (load<u32>(bitset + (j >> 6 << shift32)) >> (j >> 1 & 31) & 1)) j >>= 1;
let p = j >> 1;
let a: T = load<T>(dataStart + (<usize>p << alignof<T>())); // a = arr[p]
let b: T = load<T>(dataStart + (<usize>i << alignof<T>())); // b = arr[i]
if (comparator(a, b) < 0) {
store<u32>(
bitset + (i >> 5 << shift32),
load<u32>(bitset + (i >> 5 << shift32)) ^ (1 << (i & 31))
);
store<T>(dataStart + (<usize>i << alignof<T>()), a); // arr[i] = a
store<T>(dataStart + (<usize>p << alignof<T>()), b); // arr[p] = b
}
}
for (let i = length - 1; i >= 2; i--) {
let a: T = load<T>(dataStart); // a = arr[0]
store<T>(dataStart, load<T>(dataStart + (<usize>i << alignof<T>()))); // arr[0] = arr[i]
store<T>(dataStart + (<usize>i << alignof<T>()), a); // arr[i] = a
let x = 1, y: i32;
while ((y = (x << 1) + ((load<u32>(bitset + (x >> 5 << shift32)) >> (x & 31)) & 1)) < i) x = y;
while (x > 0) {
a = load<T>(dataStart); // a = arr[0]
let b: T = load<T>(dataStart + (<usize>x << alignof<T>())); // b = arr[x]
if (comparator(a, b) < 0) {
store<u32>(
bitset + (x >> 5 << shift32),
load<u32>(bitset + (x >> 5 << shift32)) ^ (1 << (x & 31))
);
store<T>(dataStart + (<usize>x << alignof<T>()), a); // arr[x] = a
store<T>(dataStart, b); // arr[0] = b
}
x >>= 1;
}
}
__free(bitset);
var t: T = load<T>(dataStart, sizeof<T>()); // t = arr[1]
store<T>(dataStart, load<T>(dataStart), sizeof<T>()); // arr[1] = arr[0]
store<T>(dataStart, t); // arr[0] = t
}