'use strict'; Object.defineProperty(exports, '__esModule', { value: true }); var _jestMessageUtil; function _load_jestMessageUtil() { return (_jestMessageUtil = require('jest-message-util')); } var _set_global; function _load_set_global() { return (_set_global = _interopRequireDefault(require('./set_global'))); } function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : {default: obj}; } /** * We don't know the type of arguments for a callback ahead of time which is why * we are disabling the flowtype/no-weak-types rule here. */ /* eslint-disable flowtype/no-weak-types */ /* eslint-enable flowtype/no-weak-types */ const MS_IN_A_YEAR = 31536000000; /** * Copyright (c) 2014-present, Facebook, Inc. All rights reserved. * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. * * */ class FakeTimers { constructor(_ref) { let global = _ref.global, moduleMocker = _ref.moduleMocker, timerConfig = _ref.timerConfig, config = _ref.config, maxLoops = _ref.maxLoops; this._global = global; this._timerConfig = timerConfig; this._config = config; this._maxLoops = maxLoops || 100000; this._uuidCounter = 1; this._moduleMocker = moduleMocker; // Store original timer APIs for future reference this._timerAPIs = { clearImmediate: global.clearImmediate, clearInterval: global.clearInterval, clearTimeout: global.clearTimeout, nextTick: global.process && global.process.nextTick, setImmediate: global.setImmediate, setInterval: global.setInterval, setTimeout: global.setTimeout }; this.reset(); this._createMocks(); // These globally-accessible function are now deprecated! // They will go away very soon, so do not use them! // Instead, use the versions available on the `jest` object global.mockRunTicksRepeatedly = this.runAllTicks.bind(this); global.mockRunTimersOnce = this.runOnlyPendingTimers.bind(this); global.mockAdvanceTimersByTime = this.advanceTimersByTime.bind(this); global.mockRunTimersRepeatedly = this.runAllTimers.bind(this); global.mockClearTimers = this.clearAllTimers.bind(this); global.mockGetTimersCount = () => Object.keys(this._timers).length; } clearAllTimers() { this._immediates.forEach(immediate => this._fakeClearImmediate(immediate.uuid) ); for (const uuid in this._timers) { delete this._timers[uuid]; } } dispose() { this._disposed = true; this.clearAllTimers(); } reset() { this._cancelledTicks = {}; this._cancelledImmediates = {}; this._now = 0; this._ticks = []; this._immediates = []; this._timers = {}; } runAllTicks() { this._checkFakeTimers(); // Only run a generous number of ticks and then bail. // This is just to help avoid recursive loops let i; for (i = 0; i < this._maxLoops; i++) { const tick = this._ticks.shift(); if (tick === undefined) { break; } if (!this._cancelledTicks.hasOwnProperty(tick.uuid)) { // Callback may throw, so update the map prior calling. this._cancelledTicks[tick.uuid] = true; tick.callback(); } } if (i === this._maxLoops) { throw new Error( 'Ran ' + this._maxLoops + ' ticks, and there are still more! ' + "Assuming we've hit an infinite recursion and bailing out..." ); } } runAllImmediates() { this._checkFakeTimers(); // Only run a generous number of immediates and then bail. let i; for (i = 0; i < this._maxLoops; i++) { const immediate = this._immediates.shift(); if (immediate === undefined) { break; } this._runImmediate(immediate); } if (i === this._maxLoops) { throw new Error( 'Ran ' + this._maxLoops + ' immediates, and there are still more! Assuming ' + "we've hit an infinite recursion and bailing out..." ); } } _runImmediate(immediate) { if (!this._cancelledImmediates.hasOwnProperty(immediate.uuid)) { // Callback may throw, so update the map prior calling. this._cancelledImmediates[immediate.uuid] = true; immediate.callback(); } } runAllTimers() { this._checkFakeTimers(); this.runAllTicks(); this.runAllImmediates(); // Only run a generous number of timers and then bail. // This is just to help avoid recursive loops let i; for (i = 0; i < this._maxLoops; i++) { const nextTimerHandle = this._getNextTimerHandle(); // If there are no more timer handles, stop! if (nextTimerHandle === null) { break; } this._runTimerHandle(nextTimerHandle); // Some of the immediate calls could be enqueued // during the previous handling of the timers, we should // run them as well. if (this._immediates.length) { this.runAllImmediates(); } if (this._ticks.length) { this.runAllTicks(); } } if (i === this._maxLoops) { throw new Error( 'Ran ' + this._maxLoops + ' timers, and there are still more! ' + "Assuming we've hit an infinite recursion and bailing out..." ); } } runOnlyPendingTimers() { const timers = Object.assign({}, this._timers); this._checkFakeTimers(); this._immediates.forEach(this._runImmediate, this); Object.keys(timers) .sort((left, right) => timers[left].expiry - timers[right].expiry) .forEach(this._runTimerHandle, this); } advanceTimersByTime(msToRun) { this._checkFakeTimers(); // Only run a generous number of timers and then bail. // This is just to help avoid recursive loops let i; for (i = 0; i < this._maxLoops; i++) { const timerHandle = this._getNextTimerHandle(); // If there are no more timer handles, stop! if (timerHandle === null) { break; } const nextTimerExpiry = this._timers[timerHandle].expiry; if (this._now + msToRun < nextTimerExpiry) { // There are no timers between now and the target we're running to, so // adjust our time cursor and quit this._now += msToRun; break; } else { msToRun -= nextTimerExpiry - this._now; this._now = nextTimerExpiry; this._runTimerHandle(timerHandle); } } if (i === this._maxLoops) { throw new Error( 'Ran ' + this._maxLoops + ' timers, and there are still more! ' + "Assuming we've hit an infinite recursion and bailing out..." ); } } runWithRealTimers(cb) { const prevClearImmediate = this._global.clearImmediate; const prevClearInterval = this._global.clearInterval; const prevClearTimeout = this._global.clearTimeout; const prevNextTick = this._global.process.nextTick; const prevSetImmediate = this._global.setImmediate; const prevSetInterval = this._global.setInterval; const prevSetTimeout = this._global.setTimeout; this.useRealTimers(); let cbErr = null; let errThrown = false; try { cb(); } catch (e) { errThrown = true; cbErr = e; } this._global.clearImmediate = prevClearImmediate; this._global.clearInterval = prevClearInterval; this._global.clearTimeout = prevClearTimeout; this._global.process.nextTick = prevNextTick; this._global.setImmediate = prevSetImmediate; this._global.setInterval = prevSetInterval; this._global.setTimeout = prevSetTimeout; if (errThrown) { throw cbErr; } } useRealTimers() { const global = this._global; (0, (_set_global || _load_set_global()).default)( global, 'clearImmediate', this._timerAPIs.clearImmediate ); (0, (_set_global || _load_set_global()).default)( global, 'clearInterval', this._timerAPIs.clearInterval ); (0, (_set_global || _load_set_global()).default)( global, 'clearTimeout', this._timerAPIs.clearTimeout ); (0, (_set_global || _load_set_global()).default)( global, 'setImmediate', this._timerAPIs.setImmediate ); (0, (_set_global || _load_set_global()).default)( global, 'setInterval', this._timerAPIs.setInterval ); (0, (_set_global || _load_set_global()).default)( global, 'setTimeout', this._timerAPIs.setTimeout ); global.process.nextTick = this._timerAPIs.nextTick; } useFakeTimers() { this._createMocks(); const global = this._global; (0, (_set_global || _load_set_global()).default)( global, 'clearImmediate', this._fakeTimerAPIs.clearImmediate ); (0, (_set_global || _load_set_global()).default)( global, 'clearInterval', this._fakeTimerAPIs.clearInterval ); (0, (_set_global || _load_set_global()).default)( global, 'clearTimeout', this._fakeTimerAPIs.clearTimeout ); (0, (_set_global || _load_set_global()).default)( global, 'setImmediate', this._fakeTimerAPIs.setImmediate ); (0, (_set_global || _load_set_global()).default)( global, 'setInterval', this._fakeTimerAPIs.setInterval ); (0, (_set_global || _load_set_global()).default)( global, 'setTimeout', this._fakeTimerAPIs.setTimeout ); global.process.nextTick = this._fakeTimerAPIs.nextTick; } _checkFakeTimers() { if (this._global.setTimeout !== this._fakeTimerAPIs.setTimeout) { this._global.console.warn( `A function to advance timers was called but the timers API is not ` + `mocked with fake timers. Call \`jest.useFakeTimers()\` in this ` + `test or enable fake timers globally by setting ` + `\`"timers": "fake"\` in ` + `the configuration file. This warning is likely a result of a ` + `default configuration change in Jest 15.\n\n` + `Release Blog Post: https://jestjs.io/blog/2016/09/01/jest-15.html\n` + `Stack Trace:\n` + (0, (_jestMessageUtil || _load_jestMessageUtil()).formatStackTrace)( new Error().stack, this._config, { noStackTrace: false } ) ); } } _createMocks() { const fn = impl => this._moduleMocker.fn().mockImplementation(impl); this._fakeTimerAPIs = { clearImmediate: fn(this._fakeClearImmediate.bind(this)), clearInterval: fn(this._fakeClearTimer.bind(this)), clearTimeout: fn(this._fakeClearTimer.bind(this)), nextTick: fn(this._fakeNextTick.bind(this)), setImmediate: fn(this._fakeSetImmediate.bind(this)), setInterval: fn(this._fakeSetInterval.bind(this)), setTimeout: fn(this._fakeSetTimeout.bind(this)) }; } _fakeClearTimer(timerRef) { const uuid = this._timerConfig.refToId(timerRef); if (uuid && this._timers.hasOwnProperty(uuid)) { delete this._timers[String(uuid)]; } } _fakeClearImmediate(uuid) { this._cancelledImmediates[uuid] = true; } _fakeNextTick(callback) { if (this._disposed) { return; } const args = []; for (let ii = 1, ll = arguments.length; ii < ll; ii++) { args.push(arguments[ii]); } const uuid = String(this._uuidCounter++); this._ticks.push({ callback: () => callback.apply(null, args), uuid: uuid }); const cancelledTicks = this._cancelledTicks; this._timerAPIs.nextTick(() => { if (!cancelledTicks.hasOwnProperty(uuid)) { // Callback may throw, so update the map prior calling. cancelledTicks[uuid] = true; callback.apply(null, args); } }); } _fakeSetImmediate(callback) { if (this._disposed) { return null; } const args = []; for (let ii = 1, ll = arguments.length; ii < ll; ii++) { args.push(arguments[ii]); } const uuid = this._uuidCounter++; this._immediates.push({ callback: () => callback.apply(null, args), uuid: String(uuid) }); const cancelledImmediates = this._cancelledImmediates; this._timerAPIs.setImmediate(() => { if (!cancelledImmediates.hasOwnProperty(uuid)) { // Callback may throw, so update the map prior calling. cancelledImmediates[String(uuid)] = true; callback.apply(null, args); } }); return uuid; } _fakeSetInterval(callback, intervalDelay) { if (this._disposed) { return null; } if (intervalDelay == null) { intervalDelay = 0; } const args = []; for (let ii = 2, ll = arguments.length; ii < ll; ii++) { args.push(arguments[ii]); } const uuid = this._uuidCounter++; this._timers[String(uuid)] = { callback: () => callback.apply(null, args), expiry: this._now + intervalDelay, interval: intervalDelay, type: 'interval' }; return this._timerConfig.idToRef(uuid); } _fakeSetTimeout(callback, delay) { if (this._disposed) { return null; } // eslint-disable-next-line no-bitwise delay = Number(delay) | 0; const args = []; for (let ii = 2, ll = arguments.length; ii < ll; ii++) { args.push(arguments[ii]); } const uuid = this._uuidCounter++; this._timers[String(uuid)] = { callback: () => callback.apply(null, args), expiry: this._now + delay, interval: null, type: 'timeout' }; return this._timerConfig.idToRef(uuid); } _getNextTimerHandle() { let nextTimerHandle = null; let uuid; let soonestTime = MS_IN_A_YEAR; let timer; for (uuid in this._timers) { timer = this._timers[uuid]; if (timer.expiry < soonestTime) { soonestTime = timer.expiry; nextTimerHandle = uuid; } } return nextTimerHandle; } _runTimerHandle(timerHandle) { const timer = this._timers[timerHandle]; if (!timer) { return; } switch (timer.type) { case 'timeout': const callback = timer.callback; delete this._timers[timerHandle]; callback(); break; case 'interval': timer.expiry = this._now + timer.interval; timer.callback(); break; default: throw new Error('Unexpected timer type: ' + timer.type); } } } exports.default = FakeTimers;