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deno/std/testing/mod.ts

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// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
import {
bgRed,
white,
bold,
green,
red,
gray,
yellow,
italic
} from "../fmt/colors.ts";
export type TestFunction = () => void | Promise<void>;
export interface TestDefinition {
fn: TestFunction;
name: string;
}
// Replacement of the global `console` function to be in silent mode
const noop = function(): void {};
// Clear the current line of the console.
// see: http://ascii-table.com/ansi-escape-sequences-vt-100.php
const CLEAR_LINE = "\x1b[2K\r";
// Save Object of the global `console` in case of silent mode
type Console = typeof window.console;
// ref https://console.spec.whatwg.org/#console-namespace
// For historical web-compatibility reasons, the namespace object for
// console must have as its [[Prototype]] an empty object, created as if
// by ObjectCreate(%ObjectPrototype%), instead of %ObjectPrototype%.
const disabledConsole = Object.create({}) as Console;
Object.assign(disabledConsole, {
log: noop,
debug: noop,
info: noop,
dir: noop,
warn: noop,
error: noop,
assert: noop,
count: noop,
countReset: noop,
table: noop,
time: noop,
timeLog: noop,
timeEnd: noop,
group: noop,
groupCollapsed: noop,
groupEnd: noop,
clear: noop
});
const originalConsole = window.console;
function enableConsole(): void {
window.console = originalConsole;
}
function disableConsole(): void {
window.console = disabledConsole;
}
const encoder = new TextEncoder();
function print(txt: string, newline = true): void {
if (newline) {
txt += "\n";
}
Deno.stdout.writeSync(encoder.encode(`${txt}`));
}
declare global {
interface Window {
/**
* A global property to collect all registered test cases.
*
* It is required because user's code can import multiple versions
* of `testing` module.
*
* If test cases aren't registered in a globally shared
* object, then imports from different versions would register test cases
* to registry from it's respective version of `testing` module.
*/
__DENO_TEST_REGISTRY: TestDefinition[];
}
}
let candidates: TestDefinition[] = [];
if (window["__DENO_TEST_REGISTRY"]) {
candidates = window.__DENO_TEST_REGISTRY as TestDefinition[];
} else {
window["__DENO_TEST_REGISTRY"] = candidates;
}
let filterRegExp: RegExp | null;
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): void;
export function test(fn: TestFunction): void;
export function test(name: string, fn: TestFunction): void;
export function test(
t: string | TestDefinition | TestFunction,
fn?: TestFunction
): void {
let name: string;
if (typeof t === "string") {
if (!fn) {
throw new Error("Missing test function");
}
name = t;
} else {
fn = typeof t === "function" ? t : t.fn;
name = 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");
const RED_BG_FAIL = bgRed(" FAIL ");
interface TestStats {
filtered: number;
ignored: number;
measured: number;
passed: number;
failed: number;
}
interface TestResult {
timeElapsed?: number;
name: string;
error?: Error;
ok: boolean;
printed: boolean;
}
interface TestResults {
keys: Map<string, number>;
cases: Map<number, TestResult>;
}
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 formatTestTime(time = 0): string {
return `${time.toFixed(2)}ms`;
}
function promptTestTime(time = 0, displayWarning = false): string {
// if time > 5s we display a warning
// only for test time, not the full runtime
if (displayWarning && time >= 5000) {
return bgRed(white(bold(`(${formatTestTime(time)})`)));
} else {
return gray(italic(`(${formatTestTime(time)})`));
}
}
function report(result: TestResult): void {
if (result.ok) {
print(
`${GREEN_OK} ${result.name} ${promptTestTime(
result.timeElapsed,
true
)}`
);
} else if (result.error) {
print(`${RED_FAILED} ${result.name}\n${result.error.stack}`);
} else {
print(`test ${result.name} ... unresolved`);
}
result.printed = true;
}
function printFailedSummary(results: TestResults): void {
results.cases.forEach((v): void => {
if (!v.ok) {
console.error(`${RED_BG_FAIL} ${red(v.name)}`);
console.error(v.error);
}
});
}
function printResults(
stats: TestStats,
results: TestResults,
flush: boolean,
exitOnFail: boolean,
timeElapsed: number
): 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.
print(
`\ntest result: ${stats.failed ? RED_BG_FAIL : GREEN_OK} ` +
`${stats.passed} passed; ${stats.failed} failed; ` +
`${stats.ignored} ignored; ${stats.measured} measured; ` +
`${stats.filtered} filtered out ` +
`${promptTestTime(timeElapsed)}\n`
);
}
function previousPrinted(name: string, results: TestResults): boolean {
const curIndex: number = results.keys.get(name)!;
if (curIndex === 0) {
return true;
}
return results.cases.get(curIndex - 1)!.printed;
}
async function createTestCase(
stats: TestStats,
results: TestResults,
exitOnFail: boolean,
{ fn, name }: TestDefinition
): Promise<void> {
const result: TestResult = results.cases.get(results.keys.get(name)!)!;
try {
const start = performance.now();
await fn();
const end = performance.now();
stats.passed++;
result.ok = true;
result.timeElapsed = end - start;
} catch (err) {
stats.failed++;
result.error = err;
if (exitOnFail) {
throw err;
}
}
if (previousPrinted(name, results)) {
report(result);
}
}
function initTestCases(
stats: TestStats,
results: TestResults,
tests: TestDefinition[],
exitOnFail: boolean
): Array<Promise<void>> {
return tests.map(createTestCase.bind(null, stats, results, exitOnFail));
}
async function runTestsParallel(
stats: TestStats,
results: TestResults,
tests: TestDefinition[],
exitOnFail: boolean
): Promise<void> {
try {
await Promise.all(initTestCases(stats, results, tests, exitOnFail));
} catch (_) {
// The error was thrown to stop awaiting all promises if exitOnFail === true
// stats.failed has been incremented and the error stored in results
}
}
async function runTestsSerial(
stats: TestStats,
results: TestResults,
tests: TestDefinition[],
exitOnFail: boolean,
disableLog: boolean
): Promise<void> {
for (const { fn, name } of tests) {
// Displaying the currently running test if silent mode
if (disableLog) {
print(`${yellow("RUNNING")} ${name}`, false);
}
try {
const start = performance.now();
await fn();
const end = performance.now();
if (disableLog) {
// Rewriting the current prompt line to erase `running ....`
print(CLEAR_LINE, false);
}
stats.passed++;
print(
GREEN_OK + " " + name + " " + promptTestTime(end - start, true)
);
results.cases.forEach((v): void => {
if (v.name === name) {
v.ok = true;
v.printed = true;
}
});
} catch (err) {
if (disableLog) {
print(CLEAR_LINE, false);
}
print(`${RED_FAILED} ${name}`);
print(err.stack);
stats.failed++;
results.cases.forEach((v): void => {
if (v.name === name) {
v.error = err;
v.ok = false;
v.printed = true;
}
});
if (exitOnFail) {
break;
}
}
}
}
/** Defines options for controlling execution details of a test suite. */
export interface RunTestsOptions {
parallel?: boolean;
exitOnFail?: boolean;
only?: RegExp;
skip?: RegExp;
disableLog?: boolean;
}
/**
* Runs specified test cases.
* Parallel execution can be enabled via the boolean option; default: serial.
*/
// TODO: change return type to `Promise<boolean>` - ie. don't
// exit but return value
export async function runTests({
parallel = false,
exitOnFail = false,
only = /[^\s]/,
skip = /^\s*$/,
disableLog = false
}: RunTestsOptions = {}): Promise<void> {
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);
print(`running ${tests.length} tests`);
const start = performance.now();
if (Deno.args.includes("--quiet")) {
disableLog = true;
}
if (disableLog) {
disableConsole();
}
if (parallel) {
await runTestsParallel(stats, results, tests, exitOnFail);
} else {
await runTestsSerial(stats, results, tests, exitOnFail, disableLog);
}
const end = performance.now();
if (disableLog) {
enableConsole();
}
printResults(stats, results, parallel, exitOnFail, end - start);
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.`);
printFailedSummary(results);
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?: RunTestsOptions
): Promise<void> {
if (meta.main) {
return runTests(opts);
}
}
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