// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license. import { green, red } from "../colors/mod.ts"; export type TestFunction = () => void | Promise; export interface TestDefinition { fn: TestFunction; name: string; } let filterRegExp: RegExp | null; const candidates: TestDefinition[] = []; let filtered = 0; // Must be called before any test() that needs to be filtered. export function setFilter(s: string): void { filterRegExp = new RegExp(s, "i"); } function filter(name: string): boolean { if (filterRegExp) { return filterRegExp.test(name); } else { return true; } } export function test(t: TestDefinition | TestFunction): void { const fn: TestFunction = typeof t === "function" ? t : t.fn; const name: string = t.name; if (!name) { throw new Error("Test function may not be anonymous"); } if (filter(name)) { candidates.push({ fn, name }); } else { filtered++; } } const RED_FAILED = red("FAILED"); const GREEN_OK = green("ok"); interface TestStats { filtered: number; ignored: number; measured: number; passed: number; failed: number; } interface TestResult { name: string; error?: Error; ok: boolean; printed: boolean; } interface TestResults { keys: Map; cases: Map; } function createTestResults(tests: TestDefinition[]): TestResults { return tests.reduce( (acc: TestResults, { name }: TestDefinition, i: number): TestResults => { acc.keys.set(name, i); acc.cases.set(i, { name, printed: false, ok: false, error: undefined }); return acc; }, { cases: new Map(), keys: new Map() } ); } function report(result: TestResult): void { if (result.ok) { console.log(`test ${result.name} ... ${GREEN_OK}`); } else if (result.error) { console.error( `test ${result.name} ... ${RED_FAILED}\n${result.error.stack}` ); } else { console.log(`test ${result.name} ... unresolved`); } result.printed = true; } function printResults( stats: TestStats, results: TestResults, flush: boolean, exitOnFail: boolean ): void { if (flush) { for (const result of results.cases.values()) { if (!result.printed) { report(result); if (result.error && exitOnFail) { break; } } } } // Attempting to match the output of Rust's test runner. console.log( `\ntest result: ${stats.failed ? RED_FAILED : GREEN_OK}. ` + `${stats.passed} passed; ${stats.failed} failed; ` + `${stats.ignored} ignored; ${stats.measured} measured; ` + `${stats.filtered} filtered out\n` ); } function previousPrinted(name: string, results: TestResults): boolean { const curIndex: number = results.keys.get(name)!; if (curIndex === 0) { return true; } return results.cases.get(curIndex - 1)!.printed; } async function createTestCase( stats: TestStats, results: TestResults, exitOnFail: boolean, { fn, name }: TestDefinition ): Promise { const result: TestResult = results.cases.get(results.keys.get(name)!)!; try { await fn(); stats.passed++; result.ok = true; } catch (err) { stats.failed++; result.error = err; if (exitOnFail) { throw err; } } if (previousPrinted(name, results)) { report(result); } } function initTestCases( stats: TestStats, results: TestResults, tests: TestDefinition[], exitOnFail: boolean ): Array> { return tests.map(createTestCase.bind(null, stats, results, exitOnFail)); } async function runTestsParallel( stats: TestStats, results: TestResults, tests: TestDefinition[], exitOnFail: boolean ): Promise { try { await Promise.all(initTestCases(stats, results, tests, exitOnFail)); } catch (_) { // The error was thrown to stop awaiting all promises if exitOnFail === true // stats.failed has been incremented and the error stored in results } } async function runTestsSerial( stats: TestStats, tests: TestDefinition[], exitOnFail: boolean ): Promise { for (const { fn, name } of tests) { // See https://github.com/denoland/deno/pull/1452 // about this usage of groupCollapsed console.groupCollapsed(`test ${name} `); try { await fn(); stats.passed++; console.log("...", GREEN_OK); console.groupEnd(); } catch (err) { console.log("...", RED_FAILED); console.groupEnd(); console.error(err.stack); stats.failed++; if (exitOnFail) { break; } } } } /** Defines options for controlling execution details of a test suite. */ export interface RunOptions { parallel?: boolean; exitOnFail?: boolean; only?: RegExp; skip?: RegExp; } /** * Runs specified test cases. * Parallel execution can be enabled via the boolean option; default: serial. */ export async function runTests({ parallel = false, exitOnFail = false, only = /[^\s]/, skip = /^\s*$/ }: RunOptions = {}): Promise { const tests: TestDefinition[] = candidates.filter( ({ name }): boolean => only.test(name) && !skip.test(name) ); const stats: TestStats = { measured: 0, ignored: candidates.length - tests.length, filtered: filtered, passed: 0, failed: 0 }; const results: TestResults = createTestResults(tests); console.log(`running ${tests.length} tests`); if (parallel) { await runTestsParallel(stats, results, tests, exitOnFail); } else { await runTestsSerial(stats, tests, exitOnFail); } printResults(stats, results, parallel, exitOnFail); if (stats.failed) { // Use setTimeout to avoid the error being ignored due to unhandled // promise rejections being swallowed. setTimeout((): void => { console.error(`There were ${stats.failed} test failures.`); Deno.exit(1); }, 0); } } /** * Runs specified test cases if the enclosing script is main. * Execution mode is toggleable via opts.parallel, defaults to false. */ export async function runIfMain( meta: ImportMeta, opts?: RunOptions ): Promise { if (meta.main) { return runTests(opts); } }