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denoland-deno/runtime/js/12_io.js
Aapo Alasuutari 2164f6b1eb
perf(ops): Monomorphic sync op calls (#15337)
Welcome to better optimised op calls! Currently opSync is called with parameters of every type and count. This most definitely makes the call megamorphic. Additionally, it seems that spread params leads to V8 not being able to optimise the calls quite as well (apparently Fast Calls cannot be used with spread params).

Monomorphising op calls should lead to some improved performance. Now that unwrapping of sync ops results is done on Rust side, this is pretty simple:

```
opSync("op_foo", param1, param2);
// -> turns to
ops.op_foo(param1, param2);
```

This means sync op calls are now just directly calling the native binding function. When V8 Fast API Calls are enabled, this will enable those to be called on the optimised path.

Monomorphising async ops likely requires using callbacks and is left as an exercise to the reader.
2022-08-11 15:56:56 +02:00

239 lines
5.2 KiB
JavaScript

// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license.
// Interfaces 100% copied from Go.
// Documentation liberally lifted from them too.
// Thank you! We love Go! <3
"use strict";
((window) => {
const core = window.Deno.core;
const ops = core.ops;
const {
Uint8Array,
ArrayPrototypePush,
MathMin,
TypedArrayPrototypeSubarray,
TypedArrayPrototypeSet,
} = window.__bootstrap.primordials;
const DEFAULT_BUFFER_SIZE = 32 * 1024;
// Seek whence values.
// https://golang.org/pkg/io/#pkg-constants
const SeekMode = {
0: "Start",
1: "Current",
2: "End",
Start: 0,
Current: 1,
End: 2,
};
async function copy(
src,
dst,
options,
) {
let n = 0;
const bufSize = options?.bufSize ?? DEFAULT_BUFFER_SIZE;
const b = new Uint8Array(bufSize);
let gotEOF = false;
while (gotEOF === false) {
const result = await src.read(b);
if (result === null) {
gotEOF = true;
} else {
let nwritten = 0;
while (nwritten < result) {
nwritten += await dst.write(
TypedArrayPrototypeSubarray(b, nwritten, result),
);
}
n += nwritten;
}
}
return n;
}
async function* iter(
r,
options,
) {
const bufSize = options?.bufSize ?? DEFAULT_BUFFER_SIZE;
const b = new Uint8Array(bufSize);
while (true) {
const result = await r.read(b);
if (result === null) {
break;
}
yield TypedArrayPrototypeSubarray(b, 0, result);
}
}
function* iterSync(
r,
options,
) {
const bufSize = options?.bufSize ?? DEFAULT_BUFFER_SIZE;
const b = new Uint8Array(bufSize);
while (true) {
const result = r.readSync(b);
if (result === null) {
break;
}
yield TypedArrayPrototypeSubarray(b, 0, result);
}
}
function readSync(rid, buffer) {
if (buffer.length === 0) {
return 0;
}
const nread = ops.op_read_sync(rid, buffer);
return nread === 0 ? null : nread;
}
async function read(rid, buffer) {
if (buffer.length === 0) {
return 0;
}
const nread = await core.read(rid, buffer);
return nread === 0 ? null : nread;
}
function writeSync(rid, data) {
return ops.op_write_sync(rid, data);
}
function write(rid, data) {
return core.write(rid, data);
}
const READ_PER_ITER = 64 * 1024; // 64kb
function readAll(r) {
return readAllInner(r);
}
async function readAllInner(r, options) {
const buffers = [];
const signal = options?.signal ?? null;
while (true) {
signal?.throwIfAborted();
const buf = new Uint8Array(READ_PER_ITER);
const read = await r.read(buf);
if (typeof read == "number") {
ArrayPrototypePush(buffers, new Uint8Array(buf.buffer, 0, read));
} else {
break;
}
}
signal?.throwIfAborted();
return concatBuffers(buffers);
}
function readAllSync(r) {
const buffers = [];
while (true) {
const buf = new Uint8Array(READ_PER_ITER);
const read = r.readSync(buf);
if (typeof read == "number") {
ArrayPrototypePush(buffers, buf.subarray(0, read));
} else {
break;
}
}
return concatBuffers(buffers);
}
function concatBuffers(buffers) {
let totalLen = 0;
for (const buf of buffers) {
totalLen += buf.byteLength;
}
const contents = new Uint8Array(totalLen);
let n = 0;
for (const buf of buffers) {
TypedArrayPrototypeSet(contents, buf, n);
n += buf.byteLength;
}
return contents;
}
function readAllSyncSized(r, size) {
const buf = new Uint8Array(size + 1); // 1B to detect extended files
let cursor = 0;
while (cursor < size) {
const sliceEnd = MathMin(size + 1, cursor + READ_PER_ITER);
const slice = buf.subarray(cursor, sliceEnd);
const read = r.readSync(slice);
if (typeof read == "number") {
cursor += read;
} else {
break;
}
}
// Handle truncated or extended files during read
if (cursor > size) {
// Read remaining and concat
return concatBuffers([buf, readAllSync(r)]);
} else { // cursor == size
return buf.subarray(0, cursor);
}
}
async function readAllInnerSized(r, size, options) {
const buf = new Uint8Array(size + 1); // 1B to detect extended files
let cursor = 0;
const signal = options?.signal ?? null;
while (cursor < size) {
signal?.throwIfAborted();
const sliceEnd = MathMin(size + 1, cursor + READ_PER_ITER);
const slice = buf.subarray(cursor, sliceEnd);
const read = await r.read(slice);
if (typeof read == "number") {
cursor += read;
} else {
break;
}
}
signal?.throwIfAborted();
// Handle truncated or extended files during read
if (cursor > size) {
// Read remaining and concat
return concatBuffers([buf, await readAllInner(r, options)]);
} else {
return buf.subarray(0, cursor);
}
}
window.__bootstrap.io = {
iterSync,
iter,
copy,
SeekMode,
read,
readSync,
write,
writeSync,
readAll,
readAllInner,
readAllSync,
readAllSyncSized,
readAllInnerSized,
};
})(this);