forked from M3-Academy/challenge-algorithms-v2.0
289 lines
8.7 KiB
JavaScript
289 lines
8.7 KiB
JavaScript
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'use strict';
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Object.defineProperty(exports, '__esModule', {
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value: true
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});
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exports.default = void 0;
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function crypto() {
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const data = _interopRequireWildcard(require('crypto'));
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crypto = function () {
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return data;
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};
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return data;
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}
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function path() {
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const data = _interopRequireWildcard(require('path'));
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path = function () {
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return data;
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};
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return data;
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}
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function fs() {
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const data = _interopRequireWildcard(require('graceful-fs'));
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fs = function () {
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return data;
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};
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return data;
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}
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function _slash() {
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const data = _interopRequireDefault(require('slash'));
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_slash = function () {
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return data;
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};
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return data;
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}
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function _jestHasteMap() {
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const data = _interopRequireDefault(require('jest-haste-map'));
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_jestHasteMap = function () {
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return data;
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};
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return data;
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}
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function _interopRequireDefault(obj) {
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return obj && obj.__esModule ? obj : {default: obj};
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}
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function _getRequireWildcardCache(nodeInterop) {
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if (typeof WeakMap !== 'function') return null;
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var cacheBabelInterop = new WeakMap();
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var cacheNodeInterop = new WeakMap();
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return (_getRequireWildcardCache = function (nodeInterop) {
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return nodeInterop ? cacheNodeInterop : cacheBabelInterop;
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})(nodeInterop);
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}
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function _interopRequireWildcard(obj, nodeInterop) {
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if (!nodeInterop && obj && obj.__esModule) {
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return obj;
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}
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if (obj === null || (typeof obj !== 'object' && typeof obj !== 'function')) {
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return {default: obj};
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}
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var cache = _getRequireWildcardCache(nodeInterop);
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if (cache && cache.has(obj)) {
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return cache.get(obj);
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}
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var newObj = {};
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var hasPropertyDescriptor =
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Object.defineProperty && Object.getOwnPropertyDescriptor;
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for (var key in obj) {
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if (key !== 'default' && Object.prototype.hasOwnProperty.call(obj, key)) {
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var desc = hasPropertyDescriptor
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? Object.getOwnPropertyDescriptor(obj, key)
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: null;
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if (desc && (desc.get || desc.set)) {
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Object.defineProperty(newObj, key, desc);
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} else {
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newObj[key] = obj[key];
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}
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}
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}
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newObj.default = obj;
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if (cache) {
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cache.set(obj, newObj);
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}
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return newObj;
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}
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/**
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* Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved.
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*
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* This source code is licensed under the MIT license found in the
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* LICENSE file in the root directory of this source tree.
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*/
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const FAIL = 0;
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const SUCCESS = 1;
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/**
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* The TestSequencer will ultimately decide which tests should run first.
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* It is responsible for storing and reading from a local cache
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* map that stores context information for a given test, such as how long it
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* took to run during the last run and if it has failed or not.
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* Such information is used on:
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* TestSequencer.sort(tests: Array<Test>)
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* to sort the order of the provided tests.
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*
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* After the results are collected,
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* TestSequencer.cacheResults(tests: Array<Test>, results: AggregatedResult)
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* is called to store/update this information on the cache map.
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*/
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class TestSequencer {
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_cache = new Map();
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_getCachePath(testContext) {
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const {config} = testContext;
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const HasteMapClass = _jestHasteMap().default.getStatic(config);
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return HasteMapClass.getCacheFilePath(
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config.cacheDirectory,
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`perf-cache-${config.id}`
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);
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}
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_getCache(test) {
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const {context} = test;
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if (!this._cache.has(context) && context.config.cache) {
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const cachePath = this._getCachePath(context);
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if (fs().existsSync(cachePath)) {
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try {
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this._cache.set(
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context,
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JSON.parse(fs().readFileSync(cachePath, 'utf8'))
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);
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} catch {}
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}
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}
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let cache = this._cache.get(context);
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if (!cache) {
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cache = {};
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this._cache.set(context, cache);
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}
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return cache;
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}
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_shardPosition(options) {
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const shardRest = options.suiteLength % options.shardCount;
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const ratio = options.suiteLength / options.shardCount;
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return new Array(options.shardIndex)
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.fill(true)
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.reduce((acc, _, shardIndex) => {
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const dangles = shardIndex < shardRest;
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const shardSize = dangles ? Math.ceil(ratio) : Math.floor(ratio);
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return acc + shardSize;
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}, 0);
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}
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/**
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* Select tests for shard requested via --shard=shardIndex/shardCount
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* Sharding is applied before sorting
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*
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* @param tests All tests
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* @param options shardIndex and shardIndex to select
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*
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* @example
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* ```typescript
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* class CustomSequencer extends Sequencer {
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* shard(tests, { shardIndex, shardCount }) {
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* const shardSize = Math.ceil(tests.length / options.shardCount);
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* const shardStart = shardSize * (options.shardIndex - 1);
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* const shardEnd = shardSize * options.shardIndex;
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* return [...tests]
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* .sort((a, b) => (a.path > b.path ? 1 : -1))
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* .slice(shardStart, shardEnd);
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* }
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* }
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* ```
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*/
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shard(tests, options) {
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const shardStart = this._shardPosition({
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shardCount: options.shardCount,
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shardIndex: options.shardIndex - 1,
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suiteLength: tests.length
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});
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const shardEnd = this._shardPosition({
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shardCount: options.shardCount,
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shardIndex: options.shardIndex,
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suiteLength: tests.length
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});
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return tests
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.map(test => {
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const relativeTestPath = path().posix.relative(
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(0, _slash().default)(test.context.config.rootDir),
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(0, _slash().default)(test.path)
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);
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return {
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hash: crypto()
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.createHash('sha1')
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.update(relativeTestPath)
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.digest('hex'),
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test
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};
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})
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.sort((a, b) => (a.hash < b.hash ? -1 : a.hash > b.hash ? 1 : 0))
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.slice(shardStart, shardEnd)
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.map(result => result.test);
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}
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/**
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* Sort test to determine order of execution
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* Sorting is applied after sharding
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* @param tests
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*
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* ```typescript
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* class CustomSequencer extends Sequencer {
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* sort(tests) {
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* const copyTests = Array.from(tests);
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* return [...tests].sort((a, b) => (a.path > b.path ? 1 : -1));
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* }
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* }
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* ```
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*/
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sort(tests) {
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/**
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* Sorting tests is very important because it has a great impact on the
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* user-perceived responsiveness and speed of the test run.
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*
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* If such information is on cache, tests are sorted based on:
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* -> Has it failed during the last run ?
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* Since it's important to provide the most expected feedback as quickly
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* as possible.
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* -> How long it took to run ?
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* Because running long tests first is an effort to minimize worker idle
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* time at the end of a long test run.
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* And if that information is not available they are sorted based on file size
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* since big test files usually take longer to complete.
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*
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* Note that a possible improvement would be to analyse other information
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* from the file other than its size.
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*
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*/
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const stats = {};
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const fileSize = ({path, context: {hasteFS}}) =>
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stats[path] || (stats[path] = hasteFS.getSize(path) ?? 0);
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tests.forEach(test => {
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test.duration = this.time(test);
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});
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return tests.sort((testA, testB) => {
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const failedA = this.hasFailed(testA);
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const failedB = this.hasFailed(testB);
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const hasTimeA = testA.duration != null;
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if (failedA !== failedB) {
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return failedA === true ? -1 : 1;
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} else if (hasTimeA != (testB.duration != null)) {
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// If only one of two tests has timing information, run it last
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return hasTimeA ? 1 : -1;
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} else if (testA.duration != null && testB.duration != null) {
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return testA.duration < testB.duration ? 1 : -1;
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} else {
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return fileSize(testA) < fileSize(testB) ? 1 : -1;
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}
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});
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}
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allFailedTests(tests) {
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const hasFailed = (cache, test) => cache[test.path]?.[0] === FAIL;
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return this.sort(
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tests.filter(test => hasFailed(this._getCache(test), test))
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);
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}
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cacheResults(tests, results) {
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const map = Object.create(null);
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tests.forEach(test => (map[test.path] = test));
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results.testResults.forEach(testResult => {
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const test = map[testResult.testFilePath];
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if (test != null && !testResult.skipped) {
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const cache = this._getCache(test);
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const perf = testResult.perfStats;
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cache[testResult.testFilePath] = [
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testResult.numFailingTests ? FAIL : SUCCESS,
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perf.runtime || 0
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];
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}
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});
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this._cache.forEach((cache, context) =>
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fs().writeFileSync(this._getCachePath(context), JSON.stringify(cache))
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);
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}
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hasFailed(test) {
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const cache = this._getCache(test);
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return cache[test.path]?.[0] === FAIL;
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}
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time(test) {
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const cache = this._getCache(test);
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return cache[test.path]?.[1];
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}
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}
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exports.default = TestSequencer;
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