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denoland-deno/benching/mod.ts

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// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
const { exit, noColor } = Deno;
interface BenchmarkClock {
start: number;
stop: number;
}
/** Provides methods for starting and stopping a benchmark clock. */
export interface BenchmarkTimer {
start: () => void;
stop: () => void;
}
/** Defines a benchmark through a named function. */
export interface BenchmarkFunction {
(b: BenchmarkTimer): void | Promise<void>;
name: string;
}
/** Defines a benchmark definition with configurable runs. */
export interface BenchmarkDefinition {
func: BenchmarkFunction;
name: string;
runs?: number;
}
/** Defines runBenchmark's run constraints by matching benchmark names. */
export interface BenchmarkRunOptions {
only?: RegExp;
skip?: RegExp;
}
function red(text: string): string {
return noColor ? text : `\x1b[31m${text}\x1b[0m`;
}
function blue(text: string): string {
return noColor ? text : `\x1b[34m${text}\x1b[0m`;
}
function verifyOr1Run(runs?: number): number {
return runs && runs >= 1 && runs !== Infinity ? Math.floor(runs) : 1;
}
function assertTiming(clock: BenchmarkClock): void {
// NaN indicates that a benchmark has not been timed properly
if (!clock.stop) {
throw new Error("The benchmark timer's stop method must be called");
} else if (!clock.start) {
throw new Error("The benchmark timer's start method must be called");
} else if (clock.start > clock.stop) {
throw new Error(
"The benchmark timer's start method must be called before its " +
"stop method"
);
}
}
function createBenchmarkTimer(clock: BenchmarkClock): BenchmarkTimer {
return {
start(): void {
clock.start = Date.now();
},
stop(): void {
clock.stop = Date.now();
}
};
}
const candidates: BenchmarkDefinition[] = [];
/** Registers a benchmark as a candidate for the runBenchmarks executor. */
export function bench(
benchmark: BenchmarkDefinition | BenchmarkFunction
): void {
if (!benchmark.name) {
throw new Error("The benchmark function must not be anonymous");
}
if (typeof benchmark === "function") {
candidates.push({ name: benchmark.name, runs: 1, func: benchmark });
} else {
candidates.push({
name: benchmark.name,
runs: verifyOr1Run(benchmark.runs),
func: benchmark.func
});
}
}
/** Runs all registered and non-skipped benchmarks serially. */
export async function runBenchmarks({
only = /[^\s]/,
skip = /^\s*$/
}: BenchmarkRunOptions = {}): Promise<void> {
// Filtering candidates by the "only" and "skip" constraint
const benchmarks: BenchmarkDefinition[] = candidates.filter(
({ name }) => only.test(name) && !skip.test(name)
);
// Init main counters and error flag
const filtered = candidates.length - benchmarks.length;
let measured = 0;
let failed = false;
// Setting up a shared benchmark clock and timer
const clock: BenchmarkClock = { start: NaN, stop: NaN };
const b = createBenchmarkTimer(clock);
// Iterating given benchmark definitions (await-in-loop)
console.log(
"running",
benchmarks.length,
`benchmark${benchmarks.length === 1 ? " ..." : "s ..."}`
);
for (const { name, runs = 0, func } of benchmarks) {
// See https://github.com/denoland/deno/pull/1452 about groupCollapsed
console.groupCollapsed(`benchmark ${name} ... `);
// Trying benchmark.func
let result = "";
try {
if (runs === 1) {
// b is a benchmark timer interfacing an unset (NaN) benchmark clock
await func(b);
// Making sure the benchmark was started/stopped properly
assertTiming(clock);
result = `${clock.stop - clock.start}ms`;
} else if (runs > 1) {
// Averaging runs
let pendingRuns = runs;
let totalMs = 0;
// Would be better 2 not run these serially
while (true) {
// b is a benchmark timer interfacing an unset (NaN) benchmark clock
await func(b);
// Making sure the benchmark was started/stopped properly
assertTiming(clock);
// Summing up
totalMs += clock.stop - clock.start;
// Resetting the benchmark clock
clock.start = clock.stop = NaN;
// Once all ran
if (!--pendingRuns) {
result = `${runs} runs avg: ${totalMs / runs}ms`;
break;
}
}
}
} catch (err) {
failed = true;
console.groupEnd();
console.error(red(err.stack));
break;
}
// Reporting
console.log(blue(result));
console.groupEnd();
measured++;
// Resetting the benchmark clock
clock.start = clock.stop = NaN;
}
// Closing results
console.log(
`benchmark result: ${failed ? red("FAIL") : blue("DONE")}. ` +
`${measured} measured; ${filtered} filtered`
);
// Making sure the program exit code is not zero in case of failure
if (failed) {
setTimeout(() => exit(1), 0);
}
}