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denoland-deno/cli/js/40_bench.js
Ian Bull 939c23f9fe
refactor(cli/js): align error messages (#25406)
Aligns the error messages in the cli/js folder to be in-line with the
Deno style guide.
2024-09-04 09:19:55 +02:00

465 lines
12 KiB
JavaScript

// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
// deno-lint-ignore-file
import { core, primordials } from "ext:core/mod.js";
import {
escapeName,
pledgePermissions,
restorePermissions,
} from "ext:cli/40_test_common.js";
import { Console } from "ext:deno_console/01_console.js";
import { setExitHandler } from "ext:runtime/30_os.js";
const {
op_register_bench,
op_bench_get_origin,
op_dispatch_bench_event,
op_bench_now,
} = core.ops;
const {
ArrayPrototypePush,
Error,
MathCeil,
SymbolToStringTag,
TypeError,
} = primordials;
/** @type {number | null} */
let currentBenchId = null;
// These local variables are used to track time measurements at
// `BenchContext::{start,end}` calls. They are global instead of using a state
// map to minimise the overhead of assigning them.
/** @type {number | null} */
let currentBenchUserExplicitStart = null;
/** @type {number | null} */
let currentBenchUserExplicitEnd = null;
let registeredWarmupBench = false;
const registerBenchIdRetBuf = new Uint32Array(1);
const registerBenchIdRetBufU8 = new Uint8Array(registerBenchIdRetBuf.buffer);
// As long as we're using one isolate per test, we can cache the origin since it won't change
let cachedOrigin = undefined;
// Main bench function provided by Deno.
function bench(
nameOrFnOrOptions,
optionsOrFn,
maybeFn,
) {
// No-op if we're not running in `deno bench` subcommand.
if (typeof op_register_bench !== "function") {
return;
}
if (!registeredWarmupBench) {
registeredWarmupBench = true;
const warmupBenchDesc = {
name: "<warmup>",
fn: function warmup() {},
async: false,
ignore: false,
baseline: false,
only: false,
sanitizeExit: true,
permissions: null,
warmup: true,
};
if (cachedOrigin == undefined) {
cachedOrigin = op_bench_get_origin();
}
warmupBenchDesc.fn = wrapBenchmark(warmupBenchDesc);
op_register_bench(
warmupBenchDesc.fn,
warmupBenchDesc.name,
warmupBenchDesc.baseline,
warmupBenchDesc.group,
warmupBenchDesc.ignore,
warmupBenchDesc.only,
warmupBenchDesc.warmup,
registerBenchIdRetBufU8,
);
warmupBenchDesc.id = registerBenchIdRetBufU8[0];
warmupBenchDesc.origin = cachedOrigin;
}
let benchDesc;
const defaults = {
ignore: false,
baseline: false,
only: false,
sanitizeExit: true,
permissions: null,
};
if (typeof nameOrFnOrOptions === "string") {
if (!nameOrFnOrOptions) {
throw new TypeError("The bench name can't be empty");
}
if (typeof optionsOrFn === "function") {
benchDesc = { fn: optionsOrFn, name: nameOrFnOrOptions, ...defaults };
} else {
if (!maybeFn || typeof maybeFn !== "function") {
throw new TypeError("Missing bench function");
}
if (optionsOrFn.fn != undefined) {
throw new TypeError(
"Unexpected 'fn' field in options, bench function is already provided as the third argument",
);
}
if (optionsOrFn.name != undefined) {
throw new TypeError(
"Unexpected 'name' field in options, bench name is already provided as the first argument",
);
}
benchDesc = {
...defaults,
...optionsOrFn,
fn: maybeFn,
name: nameOrFnOrOptions,
};
}
} else if (typeof nameOrFnOrOptions === "function") {
if (!nameOrFnOrOptions.name) {
throw new TypeError("The bench function must have a name");
}
if (optionsOrFn != undefined) {
throw new TypeError("Unexpected second argument to Deno.bench()");
}
if (maybeFn != undefined) {
throw new TypeError("Unexpected third argument to Deno.bench()");
}
benchDesc = {
...defaults,
fn: nameOrFnOrOptions,
name: nameOrFnOrOptions.name,
};
} else {
let fn;
let name;
if (typeof optionsOrFn === "function") {
fn = optionsOrFn;
if (nameOrFnOrOptions.fn != undefined) {
throw new TypeError(
"Unexpected 'fn' field in options, bench function is already provided as the second argument",
);
}
name = nameOrFnOrOptions.name ?? fn.name;
} else {
if (
!nameOrFnOrOptions.fn || typeof nameOrFnOrOptions.fn !== "function"
) {
throw new TypeError(
"Expected 'fn' field in the first argument to be a bench function",
);
}
fn = nameOrFnOrOptions.fn;
name = nameOrFnOrOptions.name ?? fn.name;
}
if (!name) {
throw new TypeError("The bench name can't be empty");
}
benchDesc = { ...defaults, ...nameOrFnOrOptions, fn, name };
}
const AsyncFunction = (async () => {}).constructor;
benchDesc.async = AsyncFunction === benchDesc.fn.constructor;
benchDesc.fn = wrapBenchmark(benchDesc);
benchDesc.warmup = false;
benchDesc.name = escapeName(benchDesc.name);
if (cachedOrigin == undefined) {
cachedOrigin = op_bench_get_origin();
}
op_register_bench(
benchDesc.fn,
benchDesc.name,
benchDesc.baseline,
benchDesc.group,
benchDesc.ignore,
benchDesc.only,
false,
registerBenchIdRetBufU8,
);
benchDesc.id = registerBenchIdRetBufU8[0];
benchDesc.origin = cachedOrigin;
}
function compareMeasurements(a, b) {
if (a > b) return 1;
if (a < b) return -1;
return 0;
}
function benchStats(
n,
highPrecision,
usedExplicitTimers,
avg,
min,
max,
all,
) {
return {
n,
min,
max,
p75: all[MathCeil(n * (75 / 100)) - 1],
p99: all[MathCeil(n * (99 / 100)) - 1],
p995: all[MathCeil(n * (99.5 / 100)) - 1],
p999: all[MathCeil(n * (99.9 / 100)) - 1],
avg: !highPrecision ? (avg / n) : MathCeil(avg / n),
highPrecision,
usedExplicitTimers,
};
}
async function benchMeasure(timeBudget, fn, async, context) {
let n = 0;
let avg = 0;
let wavg = 0;
let usedExplicitTimers = false;
const all = [];
let min = Infinity;
let max = -Infinity;
const lowPrecisionThresholdInNs = 1e4;
// warmup step
let c = 0;
let iterations = 20;
let budget = 10 * 1e6;
if (!async) {
while (budget > 0 || iterations-- > 0) {
const t1 = benchNow();
fn(context);
const t2 = benchNow();
const totalTime = t2 - t1;
if (currentBenchUserExplicitStart !== null) {
currentBenchUserExplicitStart = null;
usedExplicitTimers = true;
}
if (currentBenchUserExplicitEnd !== null) {
currentBenchUserExplicitEnd = null;
usedExplicitTimers = true;
}
c++;
wavg += totalTime;
budget -= totalTime;
}
} else {
while (budget > 0 || iterations-- > 0) {
const t1 = benchNow();
await fn(context);
const t2 = benchNow();
const totalTime = t2 - t1;
if (currentBenchUserExplicitStart !== null) {
currentBenchUserExplicitStart = null;
usedExplicitTimers = true;
}
if (currentBenchUserExplicitEnd !== null) {
currentBenchUserExplicitEnd = null;
usedExplicitTimers = true;
}
c++;
wavg += totalTime;
budget -= totalTime;
}
}
wavg /= c;
// measure step
if (wavg > lowPrecisionThresholdInNs) {
let iterations = 10;
let budget = timeBudget * 1e6;
if (!async) {
while (budget > 0 || iterations-- > 0) {
const t1 = benchNow();
fn(context);
const t2 = benchNow();
const totalTime = t2 - t1;
let measuredTime = totalTime;
if (currentBenchUserExplicitStart !== null) {
measuredTime -= currentBenchUserExplicitStart - t1;
currentBenchUserExplicitStart = null;
}
if (currentBenchUserExplicitEnd !== null) {
measuredTime -= t2 - currentBenchUserExplicitEnd;
currentBenchUserExplicitEnd = null;
}
n++;
avg += measuredTime;
budget -= totalTime;
ArrayPrototypePush(all, measuredTime);
if (measuredTime < min) min = measuredTime;
if (measuredTime > max) max = measuredTime;
}
} else {
while (budget > 0 || iterations-- > 0) {
const t1 = benchNow();
await fn(context);
const t2 = benchNow();
const totalTime = t2 - t1;
let measuredTime = totalTime;
if (currentBenchUserExplicitStart !== null) {
measuredTime -= currentBenchUserExplicitStart - t1;
currentBenchUserExplicitStart = null;
}
if (currentBenchUserExplicitEnd !== null) {
measuredTime -= t2 - currentBenchUserExplicitEnd;
currentBenchUserExplicitEnd = null;
}
n++;
avg += measuredTime;
budget -= totalTime;
ArrayPrototypePush(all, measuredTime);
if (measuredTime < min) min = measuredTime;
if (measuredTime > max) max = measuredTime;
}
}
} else {
context.start = function start() {};
context.end = function end() {};
let iterations = 10;
let budget = timeBudget * 1e6;
if (!async) {
while (budget > 0 || iterations-- > 0) {
const t1 = benchNow();
for (let c = 0; c < lowPrecisionThresholdInNs; c++) {
fn(context);
}
const iterationTime = (benchNow() - t1) / lowPrecisionThresholdInNs;
n++;
avg += iterationTime;
ArrayPrototypePush(all, iterationTime);
if (iterationTime < min) min = iterationTime;
if (iterationTime > max) max = iterationTime;
budget -= iterationTime * lowPrecisionThresholdInNs;
}
} else {
while (budget > 0 || iterations-- > 0) {
const t1 = benchNow();
for (let c = 0; c < lowPrecisionThresholdInNs; c++) {
await fn(context);
currentBenchUserExplicitStart = null;
currentBenchUserExplicitEnd = null;
}
const iterationTime = (benchNow() - t1) / lowPrecisionThresholdInNs;
n++;
avg += iterationTime;
ArrayPrototypePush(all, iterationTime);
if (iterationTime < min) min = iterationTime;
if (iterationTime > max) max = iterationTime;
budget -= iterationTime * lowPrecisionThresholdInNs;
}
}
}
all.sort(compareMeasurements);
return benchStats(
n,
wavg > lowPrecisionThresholdInNs,
usedExplicitTimers,
avg,
min,
max,
all,
);
}
/** @param desc {BenchDescription} */
function createBenchContext(desc) {
return {
[SymbolToStringTag]: "BenchContext",
name: desc.name,
origin: desc.origin,
start() {
if (currentBenchId !== desc.id) {
throw new TypeError(
"The benchmark which this context belongs to is not being executed",
);
}
if (currentBenchUserExplicitStart != null) {
throw new TypeError(
"BenchContext::start() has already been invoked",
);
}
currentBenchUserExplicitStart = benchNow();
},
end() {
const end = benchNow();
if (currentBenchId !== desc.id) {
throw new TypeError(
"The benchmark which this context belongs to is not being executed",
);
}
if (currentBenchUserExplicitEnd != null) {
throw new TypeError("BenchContext::end() has already been invoked");
}
currentBenchUserExplicitEnd = end;
},
};
}
/** Wrap a user benchmark function in one which returns a structured result. */
function wrapBenchmark(desc) {
const fn = desc.fn;
return async function outerWrapped() {
let token = null;
const originalConsole = globalThis.console;
currentBenchId = desc.id;
try {
globalThis.console = new Console((s) => {
op_dispatch_bench_event({ output: s });
});
if (desc.permissions) {
token = pledgePermissions(desc.permissions);
}
if (desc.sanitizeExit) {
setExitHandler((exitCode) => {
throw new Error(
`Bench attempted to exit with exit code: ${exitCode}`,
);
});
}
const benchTimeInMs = 500;
const context = createBenchContext(desc);
const stats = await benchMeasure(
benchTimeInMs,
fn,
desc.async,
context,
);
return { ok: stats };
} catch (error) {
return { failed: core.destructureError(error) };
} finally {
globalThis.console = originalConsole;
currentBenchId = null;
currentBenchUserExplicitStart = null;
currentBenchUserExplicitEnd = null;
if (bench.sanitizeExit) setExitHandler(null);
if (token !== null) restorePermissions(token);
}
};
}
function benchNow() {
return op_bench_now();
}
globalThis.Deno.bench = bench;