I have implemented a very naive quicksort in pure Javascript and in C, the later being exported as a WebAssembly module.

I am sorting the 2 same arrays of 10^{6} integers in the range [0;1000].
The pure javascript implementation takes on average 780ms, while the WebAssembly based takes 935ms (1020ms when no optimization flags set).

Why is the pure javascript implementation the fastest?

Below the 2 implementations in question:

JS:

```
function swap(array, swapy1, swapy2) {
let tmp = array[swapy1];
array[swapy1] = array[swapy2];
array[swapy2] = tmp;
}
function partition(array, lo, hi) {
const pivot = array[hi];
let i = lo - 1;
for (let j = lo; j < hi; j++) {
if (array[j] < pivot) {
if (i !== j) {
i++;
swap(array, i, j)
}
}
}
i++;
swap(array, i, hi);
return i;
}
export default function sort(array, lo, hi) {
if (lo < hi) {
const p = partition(array, lo, hi);
sort(array, lo, p - 1);
sort(array, p + 1, hi);
}
}
```

C:

```
void swap(int *array, int swapy1, int swapy2) {
int tmp = array[swapy1];
array[swapy1] = array[swapy2];
array[swapy2] = tmp;
}
int partition(int *array, int lo, int hi) {
int pivot = array[hi];
int i = lo - 1;
for (int j = lo; j < hi; j++) {
if (array[j] < pivot) {
if (i != j) {
i++;
swap(array, i, j);
}
}
}
i++;
swap(array, i, hi);
return i;
}
void sort(int *array, int lo, int hi) {
if (lo < hi) {
int p = partition(array, lo, hi);
sort(array, lo, p - 1);
sort(array, p + 1, hi);
}
}
void quicksort(int *array, int lo, int hi, char *exp) {
struct timeval t1, t2;
double elapsedTime;
gettimeofday(&t1, NULL);
sort(array, lo, hi);
gettimeofday(&t2, NULL);
// compute and print the elapsed time in millisec
elapsedTime = (t2.tv_sec - t1.tv_sec) * 1000.0; // sec to ms
elapsedTime += (t2.tv_usec - t1.tv_usec) / 1000.0; // us to ms
printf(" - 10%s entries sorted in %.0f ms\n", exp, elapsedTime);
}
```

Caller code (through emscripten Module object):

```
WasmModule().then(wasm => {
console.log("Monothreaded Lomuto Quicksort, WebAssembly");
function callWasm(array, exponant) {
let heapBuf = wasm._malloc(array.length * Uint32Array.BYTES_PER_ELEMENT);
wasm.HEAP32.set(array, heapBuf / 4);
wasm.ccall('quicksort', null, ['number', 'number', 'number', 'string'], [heapBuf, 0, array.length - 1, exponant]);
wasm._free(heapBuf);
}
millionIntCopy = millionInt.slice();
tenMillionIntCopy = tenMillionIntCopy.slice();
callWasm(millionIntCopy, "\u2076");
// callWasm(tenMillionIntCopy, "\u2077"); // stack overflow
// callWasm(hundredMillionInt, "\u2078"); stackoverflow
})
```

Full project may be found here