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denoland-deno/std/testing/bench_test.ts
2020-09-21 08:26:41 -04:00

379 lines
11 KiB
TypeScript

// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license.
import {
bench,
runBenchmarks,
BenchmarkRunError,
clearBenchmarks,
BenchmarkRunProgress,
ProgressState,
} from "./bench.ts";
import {
assertEquals,
assert,
assertThrows,
assertThrowsAsync,
} from "./asserts.ts";
Deno.test({
name: "benching",
fn: async function (): Promise<void> {
bench(function forIncrementX1e3(b): void {
b.start();
for (let i = 0; i < 1e3; i++);
b.stop();
});
bench(function forDecrementX1e3(b): void {
b.start();
for (let i = 1e3; i > 0; i--);
b.stop();
});
bench(async function forAwaitFetchDenolandX10(b): Promise<void> {
b.start();
for (let i = 0; i < 10; i++) {
const r = await fetch("https://deno.land/");
await r.text();
}
b.stop();
});
bench(async function promiseAllFetchDenolandX10(b): Promise<void> {
const urls = new Array(10).fill("https://deno.land/");
b.start();
await Promise.all(
urls.map(
async (denoland: string): Promise<void> => {
const r = await fetch(denoland);
await r.text();
},
),
);
b.stop();
});
bench({
name: "runs100ForIncrementX1e6",
runs: 100,
func(b): void {
b.start();
for (let i = 0; i < 1e6; i++);
b.stop();
},
});
bench(function throwing(b): void {
b.start();
// Throws bc the timer's stop method is never called
});
const benchResult = await runBenchmarks({ skip: /throw/ });
assertEquals(benchResult.filtered, 1);
assertEquals(benchResult.results.length, 5);
const resultWithSingleRunsFiltered = benchResult.results.filter(
({ name }) => name === "forDecrementX1e3",
);
assertEquals(resultWithSingleRunsFiltered.length, 1);
const resultWithSingleRuns = resultWithSingleRunsFiltered[0];
assert(!!resultWithSingleRuns.runsCount);
assert(!!resultWithSingleRuns.measuredRunsAvgMs);
assert(!!resultWithSingleRuns.measuredRunsMs);
assertEquals(resultWithSingleRuns.runsCount, 1);
assertEquals(resultWithSingleRuns.measuredRunsMs.length, 1);
const resultWithMultipleRunsFiltered = benchResult.results.filter(
({ name }) => name === "runs100ForIncrementX1e6",
);
assertEquals(resultWithMultipleRunsFiltered.length, 1);
const resultWithMultipleRuns = resultWithMultipleRunsFiltered[0];
assert(!!resultWithMultipleRuns.runsCount);
assert(!!resultWithMultipleRuns.measuredRunsAvgMs);
assert(!!resultWithMultipleRuns.measuredRunsMs);
assertEquals(resultWithMultipleRuns.runsCount, 100);
assertEquals(resultWithMultipleRuns.measuredRunsMs.length, 100);
clearBenchmarks();
},
});
Deno.test({
name: "Bench without name should throw",
fn() {
assertThrows(
(): void => {
bench(() => {});
},
Error,
"The benchmark function must not be anonymous",
);
},
});
Deno.test({
name: "Bench without stop should throw",
fn: async function (): Promise<void> {
await assertThrowsAsync(
async (): Promise<void> => {
bench(function benchWithoutStop(b): void {
b.start();
// Throws bc the timer's stop method is never called
});
await runBenchmarks({ only: /benchWithoutStop/, silent: true });
},
BenchmarkRunError,
"The benchmark timer's stop method must be called",
);
},
});
Deno.test({
name: "Bench without start should throw",
fn: async function (): Promise<void> {
await assertThrowsAsync(
async (): Promise<void> => {
bench(function benchWithoutStart(b): void {
b.stop();
// Throws bc the timer's start method is never called
});
await runBenchmarks({ only: /benchWithoutStart/, silent: true });
},
BenchmarkRunError,
"The benchmark timer's start method must be called",
);
},
});
Deno.test({
name: "Bench with stop before start should throw",
fn: async function (): Promise<void> {
await assertThrowsAsync(
async (): Promise<void> => {
bench(function benchStopBeforeStart(b): void {
b.stop();
b.start();
// Throws bc the timer's stop is called before start
});
await runBenchmarks({ only: /benchStopBeforeStart/, silent: true });
},
BenchmarkRunError,
"The benchmark timer's start method must be called before its stop method",
);
},
});
Deno.test({
name: "clearBenchmarks should clear all candidates",
fn: async function (): Promise<void> {
dummyBench("test");
clearBenchmarks();
const benchingResults = await runBenchmarks({ silent: true });
assertEquals(benchingResults.filtered, 0);
assertEquals(benchingResults.results.length, 0);
},
});
Deno.test({
name: "clearBenchmarks with only as option",
fn: async function (): Promise<void> {
// to reset candidates
clearBenchmarks();
dummyBench("test");
dummyBench("onlyclear");
clearBenchmarks({ only: /only/ });
const benchingResults = await runBenchmarks({ silent: true });
assertEquals(benchingResults.filtered, 0);
assertEquals(benchingResults.results.length, 1);
assertEquals(benchingResults.results[0].name, "test");
},
});
Deno.test({
name: "clearBenchmarks with skip as option",
fn: async function (): Promise<void> {
// to reset candidates
clearBenchmarks();
dummyBench("test");
dummyBench("skipclear");
clearBenchmarks({ skip: /skip/ });
const benchingResults = await runBenchmarks({ silent: true });
assertEquals(benchingResults.filtered, 0);
assertEquals(benchingResults.results.length, 1);
assertEquals(benchingResults.results[0].name, "skipclear");
},
});
Deno.test({
name: "clearBenchmarks with only and skip as option",
fn: async function (): Promise<void> {
// to reset candidates
clearBenchmarks();
dummyBench("test");
dummyBench("clearonly");
dummyBench("clearskip");
dummyBench("clearonly");
clearBenchmarks({ only: /clear/, skip: /skip/ });
const benchingResults = await runBenchmarks({ silent: true });
assertEquals(benchingResults.filtered, 0);
assertEquals(benchingResults.results.length, 2);
assert(!!benchingResults.results.find(({ name }) => name === "test"));
assert(!!benchingResults.results.find(({ name }) => name === "clearskip"));
},
});
Deno.test({
name: "progressCallback of runBenchmarks",
fn: async function (): Promise<void> {
clearBenchmarks();
dummyBench("skip");
dummyBench("single");
dummyBench("multiple", 2);
const progressCallbacks: BenchmarkRunProgress[] = [];
const benchingResults = await runBenchmarks(
{ skip: /skip/, silent: true },
(progress) => {
progressCallbacks.push(progress);
},
);
let pc = 0;
// Assert initial progress before running
let progress = progressCallbacks[pc++];
assert(progress.queued);
assertEquals(progress.state, ProgressState.BenchmarkingStart);
assertEquals(progress.filtered, 1);
assertEquals(progress.queued.length, 2);
assertEquals(progress.running, undefined);
assertEquals(progress.results, []);
// Assert start of bench "single"
progress = progressCallbacks[pc++];
assertEquals(progress.state, ProgressState.BenchStart);
assertEquals(progress.filtered, 1);
assert(progress.queued);
assertEquals(progress.queued.length, 1);
assert(!!progress.queued.find(({ name }) => name == "multiple"));
assertEquals(progress.running, {
name: "single",
runsCount: 1,
measuredRunsMs: [],
});
assertEquals(progress.results, []);
// Assert running result of bench "single"
progress = progressCallbacks[pc++];
assertEquals(progress.state, ProgressState.BenchPartialResult);
assert(progress.queued);
assertEquals(progress.queued.length, 1);
assertEquals(progress.running!.measuredRunsMs.length, 1);
assertEquals(progress.results.length, 0);
// Assert result of bench "single"
progress = progressCallbacks[pc++];
assertEquals(progress.state, ProgressState.BenchResult);
assert(progress.queued);
assertEquals(progress.queued.length, 1);
assertEquals(progress.running, undefined);
assertEquals(progress.results.length, 1);
assert(!!progress.results.find(({ name }) => name == "single"));
// Assert start of bench "multiple"
progress = progressCallbacks[pc++];
assertEquals(progress.state, ProgressState.BenchStart);
assert(progress.queued);
assertEquals(progress.queued.length, 0);
assertEquals(progress.running, {
name: "multiple",
runsCount: 2,
measuredRunsMs: [],
});
assertEquals(progress.results.length, 1);
// Assert first result of bench "multiple"
progress = progressCallbacks[pc++];
assertEquals(progress.state, ProgressState.BenchPartialResult);
assert(progress.queued);
assertEquals(progress.queued.length, 0);
assertEquals(progress.running!.measuredRunsMs.length, 1);
assertEquals(progress.results.length, 1);
// Assert second result of bench "multiple"
progress = progressCallbacks[pc++];
assertEquals(progress.state, ProgressState.BenchPartialResult);
assert(progress.queued);
assertEquals(progress.queued.length, 0);
assertEquals(progress.running!.measuredRunsMs.length, 2);
assertEquals(progress.results.length, 1);
// Assert finish of bench "multiple"
progress = progressCallbacks[pc++];
assertEquals(progress.state, ProgressState.BenchResult);
assert(progress.queued);
assertEquals(progress.queued.length, 0);
assertEquals(progress.running, undefined);
assertEquals(progress.results.length, 2);
assert(!!progress.results.find(({ name }) => name == "single"));
const resultOfMultiple = progress.results.filter(
({ name }) => name == "multiple",
);
assertEquals(resultOfMultiple.length, 1);
assert(!!resultOfMultiple[0].measuredRunsMs);
assert(!isNaN(resultOfMultiple[0].measuredRunsAvgMs));
assertEquals(resultOfMultiple[0].measuredRunsMs.length, 2);
// The last progress should equal the final result from promise except the state property
progress = progressCallbacks[pc++];
assertEquals(progress.state, ProgressState.BenchmarkingEnd);
delete progress.state;
assertEquals(progress, benchingResults);
},
});
Deno.test({
name: "async progressCallback",
fn: async function (): Promise<void> {
clearBenchmarks();
dummyBench("single");
const asyncCallbacks = [];
await runBenchmarks({ silent: true }, (progress) => {
return new Promise((resolve) => {
queueMicrotask(() => {
asyncCallbacks.push(progress);
resolve();
});
});
});
assertEquals(asyncCallbacks.length, 5);
},
});
function dummyBench(name: string, runs = 1): void {
bench({
name,
runs,
func(b) {
b.start();
b.stop();
},
});
}