'use strict'; function path() { const data = _interopRequireWildcard(require('path')); path = function() { return data; }; return data; } function _vm() { const data = require('vm'); _vm = function() { return data; }; return data; } function _url() { const data = require('url'); _url = function() { return data; }; return data; } function _jestMock() { const data = _interopRequireDefault(require('jest-mock')); _jestMock = function() { return data; }; return data; } function _jestHasteMap() { const data = _interopRequireDefault(require('jest-haste-map')); _jestHasteMap = function() { return data; }; return data; } function _jestMessageUtil() { const data = require('jest-message-util'); _jestMessageUtil = function() { return data; }; return data; } function _jestResolve() { const data = _interopRequireDefault(require('jest-resolve')); _jestResolve = function() { return data; }; return data; } function _jestUtil() { const data = require('jest-util'); _jestUtil = function() { return data; }; return data; } function _jestRegexUtil() { const data = require('jest-regex-util'); _jestRegexUtil = function() { return data; }; return data; } function _jestSnapshot() { const data = _interopRequireDefault(require('jest-snapshot')); _jestSnapshot = function() { return data; }; return data; } function _transform() { const data = require('@jest/transform'); _transform = function() { return data; }; return data; } function _collectV8Coverage() { const data = require('collect-v8-coverage'); _collectV8Coverage = function() { return data; }; return data; } function fs() { const data = _interopRequireWildcard(require('graceful-fs')); fs = function() { return data; }; return data; } function _stripBom() { const data = _interopRequireDefault(require('strip-bom')); _stripBom = function() { return data; }; return data; } var _cli = require('./cli'); var _args = require('./cli/args'); var _helpers = require('./helpers'); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : {default: obj}; } 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 ownKeys(object, enumerableOnly) { var keys = Object.keys(object); if (Object.getOwnPropertySymbols) { var symbols = Object.getOwnPropertySymbols(object); if (enumerableOnly) symbols = symbols.filter(function(sym) { return Object.getOwnPropertyDescriptor(object, sym).enumerable; }); keys.push.apply(keys, symbols); } return keys; } function _objectSpread(target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i] != null ? arguments[i] : {}; if (i % 2) { ownKeys(Object(source), true).forEach(function(key) { _defineProperty(target, key, source[key]); }); } else if (Object.getOwnPropertyDescriptors) { Object.defineProperties(target, Object.getOwnPropertyDescriptors(source)); } else { ownKeys(Object(source)).forEach(function(key) { Object.defineProperty( target, key, Object.getOwnPropertyDescriptor(source, key) ); }); } } return target; } 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 testTimeoutSymbol = Symbol.for('TEST_TIMEOUT_SYMBOL'); const retryTimesSymbol = Symbol.for('RETRY_TIMES'); const NODE_MODULES = path().sep + 'node_modules' + path().sep; const getModuleNameMapper = config => { if ( Array.isArray(config.moduleNameMapper) && config.moduleNameMapper.length ) { return config.moduleNameMapper.map(([regex, moduleName]) => ({ moduleName, regex: new RegExp(regex) })); } return null; }; const unmockRegExpCache = new WeakMap(); const EVAL_RESULT_VARIABLE = 'Object.'; /* eslint-disable-next-line no-redeclare */ class Runtime { constructor(config, environment, resolver, cacheFS, coverageOptions) { _defineProperty(this, '_cacheFS', void 0); _defineProperty(this, '_config', void 0); _defineProperty(this, '_coverageOptions', void 0); _defineProperty(this, '_currentlyExecutingModulePath', void 0); _defineProperty(this, '_environment', void 0); _defineProperty(this, '_explicitShouldMock', void 0); _defineProperty(this, '_internalModuleRegistry', void 0); _defineProperty(this, '_isCurrentlyExecutingManualMock', void 0); _defineProperty(this, '_mockFactories', void 0); _defineProperty(this, '_mockMetaDataCache', void 0); _defineProperty(this, '_mockRegistry', void 0); _defineProperty(this, '_isolatedMockRegistry', void 0); _defineProperty(this, '_moduleMocker', void 0); _defineProperty(this, '_isolatedModuleRegistry', void 0); _defineProperty(this, '_moduleRegistry', void 0); _defineProperty(this, '_needsCoverageMapped', void 0); _defineProperty(this, '_resolver', void 0); _defineProperty(this, '_shouldAutoMock', void 0); _defineProperty(this, '_shouldMockModuleCache', void 0); _defineProperty(this, '_shouldUnmockTransitiveDependenciesCache', void 0); _defineProperty(this, '_sourceMapRegistry', void 0); _defineProperty(this, '_scriptTransformer', void 0); _defineProperty(this, '_fileTransforms', void 0); _defineProperty(this, '_v8CoverageInstrumenter', void 0); _defineProperty(this, '_v8CoverageResult', void 0); _defineProperty(this, '_transitiveShouldMock', void 0); _defineProperty(this, '_unmockList', void 0); _defineProperty(this, '_virtualMocks', void 0); this._cacheFS = cacheFS || Object.create(null); this._config = config; this._coverageOptions = coverageOptions || { changedFiles: undefined, collectCoverage: false, collectCoverageFrom: [], collectCoverageOnlyFrom: undefined, coverageProvider: 'babel' }; this._currentlyExecutingModulePath = ''; this._environment = environment; this._explicitShouldMock = Object.create(null); this._internalModuleRegistry = new Map(); this._isCurrentlyExecutingManualMock = null; this._mockFactories = Object.create(null); this._mockRegistry = new Map(); // during setup, this cannot be null (and it's fine to explode if it is) this._moduleMocker = this._environment.moduleMocker; this._isolatedModuleRegistry = null; this._isolatedMockRegistry = null; this._moduleRegistry = new Map(); this._needsCoverageMapped = new Set(); this._resolver = resolver; this._scriptTransformer = new (_transform().ScriptTransformer)(config); this._shouldAutoMock = config.automock; this._sourceMapRegistry = Object.create(null); this._fileTransforms = new Map(); this._virtualMocks = Object.create(null); this._mockMetaDataCache = Object.create(null); this._shouldMockModuleCache = Object.create(null); this._shouldUnmockTransitiveDependenciesCache = Object.create(null); this._transitiveShouldMock = Object.create(null); this._unmockList = unmockRegExpCache.get(config); if (!this._unmockList && config.unmockedModulePathPatterns) { this._unmockList = new RegExp( config.unmockedModulePathPatterns.join('|') ); unmockRegExpCache.set(config, this._unmockList); } if (config.automock) { config.setupFiles.forEach(filePath => { if (filePath && filePath.includes(NODE_MODULES)) { const moduleID = this._resolver.getModuleID( this._virtualMocks, filePath ); this._transitiveShouldMock[moduleID] = false; } }); } this.resetModules(); if (config.setupFiles.length) { for (let i = 0; i < config.setupFiles.length; i++) { this.requireModule(config.setupFiles[i]); } } } static createContext(config, options) { (0, _jestUtil().createDirectory)(config.cacheDirectory); const instance = Runtime.createHasteMap(config, { console: options.console, maxWorkers: options.maxWorkers, resetCache: !config.cache, watch: options.watch, watchman: options.watchman }); return instance.build().then( hasteMap => ({ config, hasteFS: hasteMap.hasteFS, moduleMap: hasteMap.moduleMap, resolver: Runtime.createResolver(config, hasteMap.moduleMap) }), error => { throw error; } ); } static createHasteMap(config, options) { const ignorePatternParts = [ ...config.modulePathIgnorePatterns, ...(options && options.watch ? config.watchPathIgnorePatterns : []), config.cacheDirectory.startsWith(config.rootDir + path().sep) && config.cacheDirectory ].filter(Boolean); const ignorePattern = ignorePatternParts.length > 0 ? new RegExp(ignorePatternParts.join('|')) : undefined; return new (_jestHasteMap().default)({ cacheDirectory: config.cacheDirectory, computeSha1: config.haste.computeSha1, console: options && options.console, dependencyExtractor: config.dependencyExtractor, extensions: [_jestSnapshot().default.EXTENSION].concat( config.moduleFileExtensions ), hasteImplModulePath: config.haste.hasteImplModulePath, ignorePattern, maxWorkers: (options && options.maxWorkers) || 1, mocksPattern: (0, _jestRegexUtil().escapePathForRegex)( path().sep + '__mocks__' + path().sep ), name: config.name, platforms: config.haste.platforms || ['ios', 'android'], providesModuleNodeModules: config.haste.providesModuleNodeModules, resetCache: options && options.resetCache, retainAllFiles: false, rootDir: config.rootDir, roots: config.roots, throwOnModuleCollision: config.haste.throwOnModuleCollision, useWatchman: options && options.watchman, watch: options && options.watch }); } static createResolver(config, moduleMap) { return new (_jestResolve().default)(moduleMap, { browser: config.browser, defaultPlatform: config.haste.defaultPlatform, extensions: config.moduleFileExtensions.map(extension => '.' + extension), hasCoreModules: true, moduleDirectories: config.moduleDirectories, moduleNameMapper: getModuleNameMapper(config), modulePaths: config.modulePaths, platforms: config.haste.platforms, resolver: config.resolver, rootDir: config.rootDir }); } static runCLI(args, info) { return (0, _cli.run)(args, info); } static getCLIOptions() { return _args.options; } requireModule(from, moduleName, options, isRequireActual) { const moduleID = this._resolver.getModuleID( this._virtualMocks, from, moduleName ); let modulePath; // Some old tests rely on this mocking behavior. Ideally we'll change this // to be more explicit. const moduleResource = moduleName && this._resolver.getModule(moduleName); const manualMock = moduleName && this._resolver.getMockModule(from, moduleName); if ( (!options || !options.isInternalModule) && !isRequireActual && !moduleResource && manualMock && manualMock !== this._isCurrentlyExecutingManualMock && this._explicitShouldMock[moduleID] !== false ) { modulePath = manualMock; } if (moduleName && this._resolver.isCoreModule(moduleName)) { return this._requireCoreModule(moduleName); } if (!modulePath) { modulePath = this._resolveModule(from, moduleName); } let moduleRegistry; if (!options || !options.isInternalModule) { if ( this._moduleRegistry.get(modulePath) || !this._isolatedModuleRegistry ) { moduleRegistry = this._moduleRegistry; } else { moduleRegistry = this._isolatedModuleRegistry; } } else { moduleRegistry = this._internalModuleRegistry; } const module = moduleRegistry.get(modulePath); if (module) { return module.exports; } // We must register the pre-allocated module object first so that any // circular dependencies that may arise while evaluating the module can // be satisfied. const localModule = { children: [], exports: {}, filename: modulePath, id: modulePath, loaded: false }; moduleRegistry.set(modulePath, localModule); this._loadModule( localModule, from, moduleName, modulePath, options, moduleRegistry ); return localModule.exports; } requireInternalModule(from, to) { return this.requireModule(from, to, { isInternalModule: true }); } requireActual(from, moduleName) { return this.requireModule(from, moduleName, undefined, true); } requireMock(from, moduleName) { const moduleID = this._resolver.getModuleID( this._virtualMocks, from, moduleName ); if ( this._isolatedMockRegistry && this._isolatedMockRegistry.get(moduleID) ) { return this._isolatedMockRegistry.get(moduleID); } else if (this._mockRegistry.get(moduleID)) { return this._mockRegistry.get(moduleID); } const mockRegistry = this._isolatedMockRegistry || this._mockRegistry; if (moduleID in this._mockFactories) { const module = this._mockFactories[moduleID](); mockRegistry.set(moduleID, module); return module; } const manualMockOrStub = this._resolver.getMockModule(from, moduleName); let modulePath; if (manualMockOrStub) { modulePath = this._resolveModule(from, manualMockOrStub); } else { modulePath = this._resolveModule(from, moduleName); } let isManualMock = manualMockOrStub && !this._resolver.resolveStubModuleName(from, moduleName); if (!isManualMock) { // If the actual module file has a __mocks__ dir sitting immediately next // to it, look to see if there is a manual mock for this file. // // subDir1/my_module.js // subDir1/__mocks__/my_module.js // subDir2/my_module.js // subDir2/__mocks__/my_module.js // // Where some other module does a relative require into each of the // respective subDir{1,2} directories and expects a manual mock // corresponding to that particular my_module.js file. const moduleDir = path().dirname(modulePath); const moduleFileName = path().basename(modulePath); const potentialManualMock = path().join( moduleDir, '__mocks__', moduleFileName ); if (fs().existsSync(potentialManualMock)) { isManualMock = true; modulePath = potentialManualMock; } } if (isManualMock) { const localModule = { children: [], exports: {}, filename: modulePath, id: modulePath, loaded: false }; this._loadModule( localModule, from, moduleName, modulePath, undefined, mockRegistry ); mockRegistry.set(moduleID, localModule.exports); } else { // Look for a real module to generate an automock from mockRegistry.set(moduleID, this._generateMock(from, moduleName)); } return mockRegistry.get(moduleID); } _loadModule( localModule, from, moduleName, modulePath, options, moduleRegistry ) { if (path().extname(modulePath) === '.json') { const text = (0, _stripBom().default)( fs().readFileSync(modulePath, 'utf8') ); const transformedFile = this._scriptTransformer.transformJson( modulePath, this._getFullTransformationOptions(options), text ); localModule.exports = this._environment.global.JSON.parse( transformedFile ); } else if (path().extname(modulePath) === '.node') { localModule.exports = require(modulePath); } else { // Only include the fromPath if a moduleName is given. Else treat as root. const fromPath = moduleName ? from : null; this._execModule(localModule, options, moduleRegistry, fromPath); } localModule.loaded = true; } _getFullTransformationOptions(options) { return _objectSpread({}, options, { changedFiles: this._coverageOptions.changedFiles, collectCoverage: this._coverageOptions.collectCoverage, collectCoverageFrom: this._coverageOptions.collectCoverageFrom, collectCoverageOnlyFrom: this._coverageOptions.collectCoverageOnlyFrom, coverageProvider: this._coverageOptions.coverageProvider }); } requireModuleOrMock(from, moduleName) { try { if (this._shouldMock(from, moduleName)) { return this.requireMock(from, moduleName); } else { return this.requireModule(from, moduleName); } } catch (e) { if (e.code === 'MODULE_NOT_FOUND') { const appendedMessage = (0, _helpers.findSiblingsWithFileExtension)( this._config.moduleFileExtensions, from, moduleName ); if (appendedMessage) { e.message += appendedMessage; } } throw e; } } isolateModules(fn) { if (this._isolatedModuleRegistry || this._isolatedMockRegistry) { throw new Error( 'isolateModules cannot be nested inside another isolateModules.' ); } this._isolatedModuleRegistry = new Map(); this._isolatedMockRegistry = new Map(); fn(); this._isolatedModuleRegistry = null; this._isolatedMockRegistry = null; } resetModules() { this._isolatedModuleRegistry = null; this._isolatedMockRegistry = null; this._mockRegistry.clear(); this._moduleRegistry.clear(); if (this._environment) { if (this._environment.global) { const envGlobal = this._environment.global; Object.keys(envGlobal).forEach(key => { const globalMock = envGlobal[key]; if ( ((typeof globalMock === 'object' && globalMock !== null) || typeof globalMock === 'function') && globalMock._isMockFunction === true ) { globalMock.mockClear(); } }); } if (this._environment.fakeTimers) { this._environment.fakeTimers.clearAllTimers(); } } } async collectV8Coverage() { this._v8CoverageInstrumenter = new (_collectV8Coverage().CoverageInstrumenter)(); await this._v8CoverageInstrumenter.startInstrumenting(); } async stopCollectingV8Coverage() { if (!this._v8CoverageInstrumenter) { throw new Error('You need to call `collectV8Coverage` first.'); } this._v8CoverageResult = await this._v8CoverageInstrumenter.stopInstrumenting(); } getAllCoverageInfoCopy() { return (0, _jestUtil().deepCyclicCopy)( this._environment.global.__coverage__ ); } getAllV8CoverageInfoCopy() { if (!this._v8CoverageResult) { throw new Error('You need to `stopCollectingV8Coverage` first'); } return this._v8CoverageResult .filter(res => res.url.startsWith('file://')) .map(res => _objectSpread({}, res, { url: (0, _url().fileURLToPath)(res.url) }) ) .filter( ( res // TODO: will this work on windows? It might be better if `shouldInstrument` deals with it anyways ) => res.url.startsWith(this._config.rootDir) && this._fileTransforms.has(res.url) && (0, _transform().shouldInstrument)( res.url, this._coverageOptions, this._config ) ) .map(result => { const transformedFile = this._fileTransforms.get(result.url); return { codeTransformResult: transformedFile, result }; }); } getSourceMapInfo(coveredFiles) { return Object.keys(this._sourceMapRegistry).reduce((result, sourcePath) => { if ( coveredFiles.has(sourcePath) && this._needsCoverageMapped.has(sourcePath) && fs().existsSync(this._sourceMapRegistry[sourcePath]) ) { result[sourcePath] = this._sourceMapRegistry[sourcePath]; } return result; }, {}); } getSourceMaps() { return this._sourceMapRegistry; } setMock(from, moduleName, mockFactory, options) { if (options && options.virtual) { const mockPath = this._resolver.getModulePath(from, moduleName); this._virtualMocks[mockPath] = true; } const moduleID = this._resolver.getModuleID( this._virtualMocks, from, moduleName ); this._explicitShouldMock[moduleID] = true; this._mockFactories[moduleID] = mockFactory; } restoreAllMocks() { this._moduleMocker.restoreAllMocks(); } resetAllMocks() { this._moduleMocker.resetAllMocks(); } clearAllMocks() { this._moduleMocker.clearAllMocks(); } _resolveModule(from, to) { return to ? this._resolver.resolveModule(from, to) : from; } _requireResolve(from, moduleName, options = {}) { if (moduleName == null) { throw new Error( 'The first argument to require.resolve must be a string. Received null or undefined.' ); } const {paths} = options; if (paths) { for (const p of paths) { const absolutePath = path().resolve(from, '..', p); const module = this._resolver.resolveModuleFromDirIfExists( absolutePath, moduleName, // required to also resolve files without leading './' directly in the path { paths: [absolutePath] } ); if (module) { return module; } } throw new (_jestResolve().default.ModuleNotFoundError)( `Cannot resolve module '${moduleName}' from paths ['${paths.join( "', '" )}'] from ${from}` ); } try { return this._resolveModule(from, moduleName); } catch (err) { const module = this._resolver.getMockModule(from, moduleName); if (module) { return module; } else { throw err; } } } _requireResolvePaths(from, moduleName) { if (moduleName == null) { throw new Error( 'The first argument to require.resolve.paths must be a string. Received null or undefined.' ); } if (!moduleName.length) { throw new Error( 'The first argument to require.resolve.paths must not be the empty string.' ); } if (moduleName[0] === '.') { return [path().resolve(from, '..')]; } if (this._resolver.isCoreModule(moduleName)) { return null; } return this._resolver.getModulePaths(path().resolve(from, '..')); } _execModule(localModule, options, moduleRegistry, from) { // If the environment was disposed, prevent this module from being executed. if (!this._environment.global) { return; } const filename = localModule.filename; const lastExecutingModulePath = this._currentlyExecutingModulePath; this._currentlyExecutingModulePath = filename; const origCurrExecutingManualMock = this._isCurrentlyExecutingManualMock; this._isCurrentlyExecutingManualMock = filename; const dirname = path().dirname(filename); localModule.children = []; Object.defineProperty(localModule, 'parent', { enumerable: true, get() { const key = from || ''; return moduleRegistry.get(key) || null; } }); localModule.paths = this._resolver.getModulePaths(dirname); Object.defineProperty(localModule, 'require', { value: this._createRequireImplementation(localModule, options) }); const transformedFile = this._scriptTransformer.transform( filename, this._getFullTransformationOptions(options), this._cacheFS[filename] ); // we only care about non-internal modules if (!options || !options.isInternalModule) { this._fileTransforms.set(filename, transformedFile); } if (transformedFile.sourceMapPath) { this._sourceMapRegistry[filename] = transformedFile.sourceMapPath; if (transformedFile.mapCoverage) { this._needsCoverageMapped.add(filename); } } let compiledFunction = null; // Use this if available instead of deprecated `JestEnvironment.runScript` if (typeof this._environment.getVmContext === 'function') { const vmContext = this._environment.getVmContext(); if (vmContext) { if (typeof _vm().compileFunction === 'function') { try { compiledFunction = (0, _vm().compileFunction)( transformedFile.code, this.constructInjectedModuleParameters(), { filename, parsingContext: vmContext } ); } catch (e) { throw (0, _transform().handlePotentialSyntaxError)(e); } } else { const script = this.createScriptFromCode( transformedFile.code, filename ); const runScript = script.runInContext(vmContext); if (runScript === null) { compiledFunction = null; } else { compiledFunction = runScript[EVAL_RESULT_VARIABLE]; } } } } else { const script = this.createScriptFromCode(transformedFile.code, filename); const runScript = this._environment.runScript(script); if (runScript === null) { compiledFunction = null; } else { compiledFunction = runScript[EVAL_RESULT_VARIABLE]; } } if (compiledFunction === null) { this._logFormattedReferenceError( 'You are trying to `import` a file after the Jest environment has been torn down.' ); process.exitCode = 1; return; } compiledFunction.call( localModule.exports, localModule, // module object localModule.exports, // module exports localModule.require, // require implementation dirname, // __dirname filename, // __filename this._environment.global, // global object this._createJestObjectFor(filename, localModule.require), // jest object ...this._config.extraGlobals.map(globalVariable => { if (this._environment.global[globalVariable]) { return this._environment.global[globalVariable]; } throw new Error( `You have requested '${globalVariable}' as a global variable, but it was not present. Please check your config or your global environment.` ); }) ); this._isCurrentlyExecutingManualMock = origCurrExecutingManualMock; this._currentlyExecutingModulePath = lastExecutingModulePath; } createScriptFromCode(scriptSource, filename) { try { return new (_vm().Script)(this.wrapCodeInModuleWrapper(scriptSource), { displayErrors: true, filename: this._resolver.isCoreModule(filename) ? `jest-nodejs-core-${filename}` : filename }); } catch (e) { throw (0, _transform().handlePotentialSyntaxError)(e); } } _requireCoreModule(moduleName) { if (moduleName === 'process') { return this._environment.global.process; } return require(moduleName); } _generateMock(from, moduleName) { const modulePath = this._resolver.resolveStubModuleName(from, moduleName) || this._resolveModule(from, moduleName); if (!(modulePath in this._mockMetaDataCache)) { // This allows us to handle circular dependencies while generating an // automock this._mockMetaDataCache[modulePath] = this._moduleMocker.getMetadata({}) || {}; // In order to avoid it being possible for automocking to potentially // cause side-effects within the module environment, we need to execute // the module in isolation. This could cause issues if the module being // mocked has calls into side-effectful APIs on another module. const origMockRegistry = this._mockRegistry; const origModuleRegistry = this._moduleRegistry; this._mockRegistry = new Map(); this._moduleRegistry = new Map(); const moduleExports = this.requireModule(from, moduleName); // Restore the "real" module/mock registries this._mockRegistry = origMockRegistry; this._moduleRegistry = origModuleRegistry; const mockMetadata = this._moduleMocker.getMetadata(moduleExports); if (mockMetadata == null) { throw new Error( `Failed to get mock metadata: ${modulePath}\n\n` + `See: https://jestjs.io/docs/manual-mocks.html#content` ); } this._mockMetaDataCache[modulePath] = mockMetadata; } return this._moduleMocker.generateFromMetadata( this._mockMetaDataCache[modulePath] ); } _shouldMock(from, moduleName) { const explicitShouldMock = this._explicitShouldMock; const moduleID = this._resolver.getModuleID( this._virtualMocks, from, moduleName ); const key = from + path().delimiter + moduleID; if (moduleID in explicitShouldMock) { return explicitShouldMock[moduleID]; } if ( !this._shouldAutoMock || this._resolver.isCoreModule(moduleName) || this._shouldUnmockTransitiveDependenciesCache[key] ) { return false; } if (moduleID in this._shouldMockModuleCache) { return this._shouldMockModuleCache[moduleID]; } let modulePath; try { modulePath = this._resolveModule(from, moduleName); } catch (e) { const manualMock = this._resolver.getMockModule(from, moduleName); if (manualMock) { this._shouldMockModuleCache[moduleID] = true; return true; } throw e; } if (this._unmockList && this._unmockList.test(modulePath)) { this._shouldMockModuleCache[moduleID] = false; return false; } // transitive unmocking for package managers that store flat packages (npm3) const currentModuleID = this._resolver.getModuleID( this._virtualMocks, from ); if ( this._transitiveShouldMock[currentModuleID] === false || (from.includes(NODE_MODULES) && modulePath.includes(NODE_MODULES) && ((this._unmockList && this._unmockList.test(from)) || explicitShouldMock[currentModuleID] === false)) ) { this._transitiveShouldMock[moduleID] = false; this._shouldUnmockTransitiveDependenciesCache[key] = true; return false; } return (this._shouldMockModuleCache[moduleID] = true); } _createRequireImplementation(from, options) { // TODO: somehow avoid having to type the arguments - they should come from `NodeRequire/LocalModuleRequire.resolve` const resolve = (moduleName, options) => this._requireResolve(from.filename, moduleName, options); resolve.paths = moduleName => this._requireResolvePaths(from.filename, moduleName); const moduleRequire = options && options.isInternalModule ? moduleName => this.requireInternalModule(from.filename, moduleName) : this.requireModuleOrMock.bind(this, from.filename); moduleRequire.cache = Object.create(null); moduleRequire.extensions = Object.create(null); moduleRequire.requireActual = this.requireActual.bind(this, from.filename); moduleRequire.requireMock = this.requireMock.bind(this, from.filename); moduleRequire.resolve = resolve; Object.defineProperty(moduleRequire, 'main', { enumerable: true, get() { let mainModule = from.parent; while ( mainModule && mainModule.parent && mainModule.id !== mainModule.parent.id ) { mainModule = mainModule.parent; } return mainModule; } }); return moduleRequire; } _createJestObjectFor(from, localRequire) { const disableAutomock = () => { this._shouldAutoMock = false; return jestObject; }; const enableAutomock = () => { this._shouldAutoMock = true; return jestObject; }; const unmock = moduleName => { const moduleID = this._resolver.getModuleID( this._virtualMocks, from, moduleName ); this._explicitShouldMock[moduleID] = false; return jestObject; }; const deepUnmock = moduleName => { const moduleID = this._resolver.getModuleID( this._virtualMocks, from, moduleName ); this._explicitShouldMock[moduleID] = false; this._transitiveShouldMock[moduleID] = false; return jestObject; }; const mock = (moduleName, mockFactory, options) => { if (mockFactory !== undefined) { return setMockFactory(moduleName, mockFactory, options); } const moduleID = this._resolver.getModuleID( this._virtualMocks, from, moduleName ); this._explicitShouldMock[moduleID] = true; return jestObject; }; const setMockFactory = (moduleName, mockFactory, options) => { this.setMock(from, moduleName, mockFactory, options); return jestObject; }; const clearAllMocks = () => { this.clearAllMocks(); return jestObject; }; const resetAllMocks = () => { this.resetAllMocks(); return jestObject; }; const restoreAllMocks = () => { this.restoreAllMocks(); return jestObject; }; const useFakeTimers = () => { _getFakeTimers().useFakeTimers(); return jestObject; }; const useRealTimers = () => { _getFakeTimers().useRealTimers(); return jestObject; }; const resetModules = () => { this.resetModules(); return jestObject; }; const isolateModules = fn => { this.isolateModules(fn); return jestObject; }; const fn = this._moduleMocker.fn.bind(this._moduleMocker); const spyOn = this._moduleMocker.spyOn.bind(this._moduleMocker); const setTimeout = timeout => { if (this._environment.global.jasmine) { this._environment.global.jasmine._DEFAULT_TIMEOUT_INTERVAL = timeout; } else { // @ts-ignore: https://github.com/Microsoft/TypeScript/issues/24587 this._environment.global[testTimeoutSymbol] = timeout; } return jestObject; }; const retryTimes = numTestRetries => { // @ts-ignore: https://github.com/Microsoft/TypeScript/issues/24587 this._environment.global[retryTimesSymbol] = numTestRetries; return jestObject; }; const _getFakeTimers = () => { if (!this._environment.fakeTimers) { this._logFormattedReferenceError( 'You are trying to access a property or method of the Jest environment after it has been torn down.' ); process.exitCode = 1; } // We've logged a user message above, so it doesn't matter if we return `null` here return this._environment.fakeTimers; }; const jestObject = { addMatchers: matchers => this._environment.global.jasmine.addMatchers(matchers), advanceTimersByTime: msToRun => _getFakeTimers().advanceTimersByTime(msToRun), advanceTimersToNextTimer: steps => _getFakeTimers().advanceTimersToNextTimer(steps), autoMockOff: disableAutomock, autoMockOn: enableAutomock, clearAllMocks, clearAllTimers: () => _getFakeTimers().clearAllTimers(), deepUnmock, disableAutomock, doMock: mock, dontMock: unmock, enableAutomock, fn, genMockFromModule: moduleName => this._generateMock(from, moduleName), getTimerCount: () => _getFakeTimers().getTimerCount(), isMockFunction: this._moduleMocker.isMockFunction, isolateModules, mock, requireActual: localRequire.requireActual, requireMock: localRequire.requireMock, resetAllMocks, resetModuleRegistry: resetModules, resetModules, restoreAllMocks, retryTimes, runAllImmediates: () => _getFakeTimers().runAllImmediates(), runAllTicks: () => _getFakeTimers().runAllTicks(), runAllTimers: () => _getFakeTimers().runAllTimers(), runOnlyPendingTimers: () => _getFakeTimers().runOnlyPendingTimers(), runTimersToTime: msToRun => _getFakeTimers().advanceTimersByTime(msToRun), setMock: (moduleName, mock) => setMockFactory(moduleName, () => mock), setTimeout, spyOn, unmock, useFakeTimers, useRealTimers }; return jestObject; } _logFormattedReferenceError(errorMessage) { const originalStack = new ReferenceError(errorMessage).stack .split('\n') // Remove this file from the stack (jest-message-utils will keep one line) .filter(line => line.indexOf(__filename) === -1) .join('\n'); const {message, stack} = (0, _jestMessageUtil().separateMessageFromStack)( originalStack ); console.error( `\n${message}\n` + (0, _jestMessageUtil().formatStackTrace)(stack, this._config, { noStackTrace: false }) ); } wrapCodeInModuleWrapper(content) { const args = this.constructInjectedModuleParameters(); return ( '({"' + EVAL_RESULT_VARIABLE + `":function(${args.join(',')}){` + content + '\n}});' ); } constructInjectedModuleParameters() { return [ 'module', 'exports', 'require', '__dirname', '__filename', 'global', 'jest', ...this._config.extraGlobals ]; } } _defineProperty(Runtime, 'shouldInstrument', _transform().shouldInstrument); module.exports = Runtime;