'use strict'; Object.defineProperty(exports, '__esModule', { value: true }); exports.default = void 0; function fs() { const data = _interopRequireWildcard(require('fs')); fs = function () { return data; }; return data; } function _jestHasteMap() { const data = require('jest-haste-map'); _jestHasteMap = function () { return data; }; return data; } function _getRequireWildcardCache() { if (typeof WeakMap !== 'function') return null; var cache = new WeakMap(); _getRequireWildcardCache = function () { return cache; }; return cache; } function _interopRequireWildcard(obj) { if (obj && obj.__esModule) { return obj; } if (obj === null || (typeof obj !== 'object' && typeof obj !== 'function')) { return {default: obj}; } var cache = _getRequireWildcardCache(); if (cache && cache.has(obj)) { return cache.get(obj); } var newObj = {}; var hasPropertyDescriptor = Object.defineProperty && Object.getOwnPropertyDescriptor; for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key)) { var desc = hasPropertyDescriptor ? Object.getOwnPropertyDescriptor(obj, key) : null; if (desc && (desc.get || desc.set)) { Object.defineProperty(newObj, key, desc); } else { newObj[key] = obj[key]; } } } newObj.default = obj; if (cache) { cache.set(obj, newObj); } return newObj; } function _defineProperty(obj, key, value) { if (key in obj) { Object.defineProperty(obj, key, { value: value, enumerable: true, configurable: true, writable: true }); } else { obj[key] = value; } return obj; } const FAIL = 0; const SUCCESS = 1; /** * The TestSequencer will ultimately decide which tests should run first. * It is responsible for storing and reading from a local cache * map that stores context information for a given test, such as how long it * took to run during the last run and if it has failed or not. * Such information is used on: * TestSequencer.sort(tests: Array) * to sort the order of the provided tests. * * After the results are collected, * TestSequencer.cacheResults(tests: Array, results: AggregatedResult) * is called to store/update this information on the cache map. */ class TestSequencer { constructor() { _defineProperty(this, '_cache', new Map()); } _getCachePath(context) { const {config} = context; return (0, _jestHasteMap().getCacheFilePath)( config.cacheDirectory, 'perf-cache-' + config.name ); } _getCache(test) { const {context} = test; if (!this._cache.has(context) && context.config.cache) { const cachePath = this._getCachePath(context); if (fs().existsSync(cachePath)) { try { this._cache.set( context, JSON.parse(fs().readFileSync(cachePath, 'utf8')) ); } catch (e) {} } } let cache = this._cache.get(context); if (!cache) { cache = {}; this._cache.set(context, cache); } return cache; } /** * Sorting tests is very important because it has a great impact on the * user-perceived responsiveness and speed of the test run. * * If such information is on cache, tests are sorted based on: * -> Has it failed during the last run ? * Since it's important to provide the most expected feedback as quickly * as possible. * -> How long it took to run ? * Because running long tests first is an effort to minimize worker idle * time at the end of a long test run. * And if that information is not available they are sorted based on file size * since big test files usually take longer to complete. * * Note that a possible improvement would be to analyse other information * from the file other than its size. * */ sort(tests) { const stats = {}; const fileSize = ({path, context: {hasteFS}}) => stats[path] || (stats[path] = hasteFS.getSize(path) || 0); const hasFailed = (cache, test) => cache[test.path] && cache[test.path][0] === FAIL; const time = (cache, test) => cache[test.path] && cache[test.path][1]; tests.forEach(test => (test.duration = time(this._getCache(test), test))); return tests.sort((testA, testB) => { const cacheA = this._getCache(testA); const cacheB = this._getCache(testB); const failedA = hasFailed(cacheA, testA); const failedB = hasFailed(cacheB, testB); const hasTimeA = testA.duration != null; if (failedA !== failedB) { return failedA ? -1 : 1; } else if (hasTimeA != (testB.duration != null)) { // If only one of two tests has timing information, run it last return hasTimeA ? 1 : -1; } else if (testA.duration != null && testB.duration != null) { return testA.duration < testB.duration ? 1 : -1; } else { return fileSize(testA) < fileSize(testB) ? 1 : -1; } }); } cacheResults(tests, results) { const map = Object.create(null); tests.forEach(test => (map[test.path] = test)); results.testResults.forEach(testResult => { if (testResult && map[testResult.testFilePath] && !testResult.skipped) { const cache = this._getCache(map[testResult.testFilePath]); const perf = testResult.perfStats; cache[testResult.testFilePath] = [ testResult.numFailingTests ? FAIL : SUCCESS, perf.end - perf.start || 0 ]; } }); this._cache.forEach((cache, context) => fs().writeFileSync(this._getCachePath(context), JSON.stringify(cache)) ); } } exports.default = TestSequencer;