// 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; 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*$/ }: BenchmarkRunOptions = {}): Promise { // Filtering candidates by the "only" and "skip" constraint const benchmarks: BenchmarkDefinition[] = candidates.filter( ({ name }) => only.test(name) && !skip.test(name) ); // Init main counters and error flag const filtered = candidates.length - benchmarks.length; let measured = 0; let failed = false; // Setting up a shared benchmark clock and timer const clock: BenchmarkClock = { start: NaN, stop: NaN }; const b = createBenchmarkTimer(clock); // Iterating given benchmark definitions (await-in-loop) console.log( "running", benchmarks.length, `benchmark${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); } }