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denoland-deno/cli/bench/deno_common.js

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// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license.
// Run with: deno run -A ./cli/bench/deno_common.js
function benchSync(name, n, innerLoop) {
const t1 = Date.now();
for (let i = 0; i < n; i++) {
innerLoop(i);
}
const t2 = Date.now();
console.log(benchStats(name, n, t1, t2));
}
async function benchAsync(name, n, innerLoop) {
const t1 = Date.now();
for (let i = 0; i < n; i++) {
await innerLoop(i);
}
const t2 = Date.now();
console.log(benchStats(name, n, t1, t2));
}
// Parallel version benchAsync
async function benchAsyncP(name, n, p, innerLoop) {
const range = new Array(p).fill(null);
const t1 = Date.now();
for (let i = 0; i < n / p; i++) {
await Promise.all(range.map(() => innerLoop()));
}
const t2 = Date.now();
console.log(benchStats(name, n, t1, t2));
}
function benchStats(name, n, t1, t2) {
const dt = (t2 - t1) / 1e3;
const r = n / dt;
const ns = Math.floor(dt / n * 1e9);
return `${name}:${" ".repeat(20 - name.length)}\t` +
`n = ${n}, dt = ${dt.toFixed(3)}s, r = ${r.toFixed(0)}/s, t = ${ns}ns/op`;
}
function benchB64RtLong() {
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const input = "long-string".repeat(99999);
benchSync("b64_rt_long", 100, () => {
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atob(btoa(input));
});
}
function benchB64RtShort() {
benchSync("b64_rt_short", 1e6, () => {
atob(btoa("123"));
});
}
function benchUrlParse() {
benchSync("url_parse", 5e4, (i) => {
new URL(`http://www.google.com/${i}`);
});
}
function benchLargeBlobText() {
const input = "long-string".repeat(999_999);
benchSync("blob_text_large", 100, () => {
new Blob([input]).text();
});
}
function benchDateNow() {
benchSync("date_now", 5e5, () => {
Date.now();
});
}
function benchPerfNow() {
benchSync("perf_now", 5e5, () => {
performance.now();
});
}
function benchWriteNull() {
// Not too large since we want to measure op-overhead not sys IO
const dataChunk = new Uint8Array(100);
const file = Deno.openSync("/dev/null", { write: true });
benchSync("write_null", 5e5, () => {
Deno.writeSync(file.rid, dataChunk);
});
Deno.close(file.rid);
}
function benchReadZero() {
const buf = new Uint8Array(100);
const file = Deno.openSync("/dev/zero");
benchSync("read_zero", 5e5, () => {
Deno.readSync(file.rid, buf);
});
Deno.close(file.rid);
}
function benchRead128k() {
return benchAsync(
"read_128k",
5e4,
() => Deno.readFile("./cli/bench/testdata/128k.bin"),
);
}
function benchRequestNew() {
return benchSync("request_new", 5e5, () => new Request("https://deno.land"));
}
function benchOpVoidSync() {
return benchSync("op_void_sync", 1e7, () => Deno.core.opSync("op_void_sync"));
}
function benchOpVoidAsync() {
return benchAsyncP(
"op_void_async",
1e6,
1e3,
() => Deno.core.opAsync("op_void_async"),
);
}
async function main() {
// v8 builtin that's close to the upper bound non-NOPs
benchDateNow();
// Void ops measure op-overhead
benchOpVoidSync();
await benchOpVoidAsync();
// A very lightweight op, that should be highly optimizable
benchPerfNow();
// A common "language feature", that should be fast
// also a decent representation of a non-trivial JSON-op
benchUrlParse();
benchLargeBlobText();
benchB64RtLong();
benchB64RtShort();
// IO ops
benchReadZero();
benchWriteNull();
await benchRead128k();
benchRequestNew();
}
await main();