'use strict'; /** * @license Angular v12.0.0-next.0 * (c) 2010-2020 Google LLC. https://angular.io/ * License: MIT */ /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ /** * @fileoverview * @suppress {globalThis} */ const NEWLINE = '\n'; const IGNORE_FRAMES = {}; const creationTrace = '__creationTrace__'; const ERROR_TAG = 'STACKTRACE TRACKING'; const SEP_TAG = '__SEP_TAG__'; let sepTemplate = SEP_TAG + '@[native]'; class LongStackTrace { constructor() { this.error = getStacktrace(); this.timestamp = new Date(); } } function getStacktraceWithUncaughtError() { return new Error(ERROR_TAG); } function getStacktraceWithCaughtError() { try { throw getStacktraceWithUncaughtError(); } catch (err) { return err; } } // Some implementations of exception handling don't create a stack trace if the exception // isn't thrown, however it's faster not to actually throw the exception. const error = getStacktraceWithUncaughtError(); const caughtError = getStacktraceWithCaughtError(); const getStacktrace = error.stack ? getStacktraceWithUncaughtError : (caughtError.stack ? getStacktraceWithCaughtError : getStacktraceWithUncaughtError); function getFrames(error) { return error.stack ? error.stack.split(NEWLINE) : []; } function addErrorStack(lines, error) { let trace = getFrames(error); for (let i = 0; i < trace.length; i++) { const frame = trace[i]; // Filter out the Frames which are part of stack capturing. if (!IGNORE_FRAMES.hasOwnProperty(frame)) { lines.push(trace[i]); } } } function renderLongStackTrace(frames, stack) { const longTrace = [stack ? stack.trim() : '']; if (frames) { let timestamp = new Date().getTime(); for (let i = 0; i < frames.length; i++) { const traceFrames = frames[i]; const lastTime = traceFrames.timestamp; let separator = `____________________Elapsed ${timestamp - lastTime.getTime()} ms; At: ${lastTime}`; separator = separator.replace(/[^\w\d]/g, '_'); longTrace.push(sepTemplate.replace(SEP_TAG, separator)); addErrorStack(longTrace, traceFrames.error); timestamp = lastTime.getTime(); } } return longTrace.join(NEWLINE); } // if Error.stackTraceLimit is 0, means stack trace // is disabled, so we don't need to generate long stack trace // this will improve performance in some test(some test will // set stackTraceLimit to 0, https://github.com/angular/zone.js/issues/698 function stackTracesEnabled() { // Cast through any since this property only exists on Error in the nodejs // typings. return Error.stackTraceLimit > 0; } Zone['longStackTraceZoneSpec'] = { name: 'long-stack-trace', longStackTraceLimit: 10, // add a getLongStackTrace method in spec to // handle handled reject promise error. getLongStackTrace: function (error) { if (!error) { return undefined; } const trace = error[Zone.__symbol__('currentTaskTrace')]; if (!trace) { return error.stack; } return renderLongStackTrace(trace, error.stack); }, onScheduleTask: function (parentZoneDelegate, currentZone, targetZone, task) { if (stackTracesEnabled()) { const currentTask = Zone.currentTask; let trace = currentTask && currentTask.data && currentTask.data[creationTrace] || []; trace = [new LongStackTrace()].concat(trace); if (trace.length > this.longStackTraceLimit) { trace.length = this.longStackTraceLimit; } if (!task.data) task.data = {}; if (task.type === 'eventTask') { // Fix issue https://github.com/angular/zone.js/issues/1195, // For event task of browser, by default, all task will share a // singleton instance of data object, we should create a new one here // The cast to `any` is required to workaround a closure bug which wrongly applies // URL sanitization rules to .data access. task.data = Object.assign({}, task.data); } task.data[creationTrace] = trace; } return parentZoneDelegate.scheduleTask(targetZone, task); }, onHandleError: function (parentZoneDelegate, currentZone, targetZone, error) { if (stackTracesEnabled()) { const parentTask = Zone.currentTask || error.task; if (error instanceof Error && parentTask) { const longStack = renderLongStackTrace(parentTask.data && parentTask.data[creationTrace], error.stack); try { error.stack = error.longStack = longStack; } catch (err) { } } } return parentZoneDelegate.handleError(targetZone, error); } }; function captureStackTraces(stackTraces, count) { if (count > 0) { stackTraces.push(getFrames((new LongStackTrace()).error)); captureStackTraces(stackTraces, count - 1); } } function computeIgnoreFrames() { if (!stackTracesEnabled()) { return; } const frames = []; captureStackTraces(frames, 2); const frames1 = frames[0]; const frames2 = frames[1]; for (let i = 0; i < frames1.length; i++) { const frame1 = frames1[i]; if (frame1.indexOf(ERROR_TAG) == -1) { let match = frame1.match(/^\s*at\s+/); if (match) { sepTemplate = match[0] + SEP_TAG + ' (http://localhost)'; break; } } } for (let i = 0; i < frames1.length; i++) { const frame1 = frames1[i]; const frame2 = frames2[i]; if (frame1 === frame2) { IGNORE_FRAMES[frame1] = true; } else { break; } } } computeIgnoreFrames(); /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ class ProxyZoneSpec { constructor(defaultSpecDelegate = null) { this.defaultSpecDelegate = defaultSpecDelegate; this.name = 'ProxyZone'; this._delegateSpec = null; this.properties = { 'ProxyZoneSpec': this }; this.propertyKeys = null; this.lastTaskState = null; this.isNeedToTriggerHasTask = false; this.tasks = []; this.setDelegate(defaultSpecDelegate); } static get() { return Zone.current.get('ProxyZoneSpec'); } static isLoaded() { return ProxyZoneSpec.get() instanceof ProxyZoneSpec; } static assertPresent() { if (!ProxyZoneSpec.isLoaded()) { throw new Error(`Expected to be running in 'ProxyZone', but it was not found.`); } return ProxyZoneSpec.get(); } setDelegate(delegateSpec) { const isNewDelegate = this._delegateSpec !== delegateSpec; this._delegateSpec = delegateSpec; this.propertyKeys && this.propertyKeys.forEach((key) => delete this.properties[key]); this.propertyKeys = null; if (delegateSpec && delegateSpec.properties) { this.propertyKeys = Object.keys(delegateSpec.properties); this.propertyKeys.forEach((k) => this.properties[k] = delegateSpec.properties[k]); } // if a new delegateSpec was set, check if we need to trigger hasTask if (isNewDelegate && this.lastTaskState && (this.lastTaskState.macroTask || this.lastTaskState.microTask)) { this.isNeedToTriggerHasTask = true; } } getDelegate() { return this._delegateSpec; } resetDelegate() { const delegateSpec = this.getDelegate(); this.setDelegate(this.defaultSpecDelegate); } tryTriggerHasTask(parentZoneDelegate, currentZone, targetZone) { if (this.isNeedToTriggerHasTask && this.lastTaskState) { // last delegateSpec has microTask or macroTask // should call onHasTask in current delegateSpec this.isNeedToTriggerHasTask = false; this.onHasTask(parentZoneDelegate, currentZone, targetZone, this.lastTaskState); } } removeFromTasks(task) { if (!this.tasks) { return; } for (let i = 0; i < this.tasks.length; i++) { if (this.tasks[i] === task) { this.tasks.splice(i, 1); return; } } } getAndClearPendingTasksInfo() { if (this.tasks.length === 0) { return ''; } const taskInfo = this.tasks.map((task) => { const dataInfo = task.data && Object.keys(task.data) .map((key) => { return key + ':' + task.data[key]; }) .join(','); return `type: ${task.type}, source: ${task.source}, args: {${dataInfo}}`; }); const pendingTasksInfo = '--Pending async tasks are: [' + taskInfo + ']'; // clear tasks this.tasks = []; return pendingTasksInfo; } onFork(parentZoneDelegate, currentZone, targetZone, zoneSpec) { if (this._delegateSpec && this._delegateSpec.onFork) { return this._delegateSpec.onFork(parentZoneDelegate, currentZone, targetZone, zoneSpec); } else { return parentZoneDelegate.fork(targetZone, zoneSpec); } } onIntercept(parentZoneDelegate, currentZone, targetZone, delegate, source) { if (this._delegateSpec && this._delegateSpec.onIntercept) { return this._delegateSpec.onIntercept(parentZoneDelegate, currentZone, targetZone, delegate, source); } else { return parentZoneDelegate.intercept(targetZone, delegate, source); } } onInvoke(parentZoneDelegate, currentZone, targetZone, delegate, applyThis, applyArgs, source) { this.tryTriggerHasTask(parentZoneDelegate, currentZone, targetZone); if (this._delegateSpec && this._delegateSpec.onInvoke) { return this._delegateSpec.onInvoke(parentZoneDelegate, currentZone, targetZone, delegate, applyThis, applyArgs, source); } else { return parentZoneDelegate.invoke(targetZone, delegate, applyThis, applyArgs, source); } } onHandleError(parentZoneDelegate, currentZone, targetZone, error) { if (this._delegateSpec && this._delegateSpec.onHandleError) { return this._delegateSpec.onHandleError(parentZoneDelegate, currentZone, targetZone, error); } else { return parentZoneDelegate.handleError(targetZone, error); } } onScheduleTask(parentZoneDelegate, currentZone, targetZone, task) { if (task.type !== 'eventTask') { this.tasks.push(task); } if (this._delegateSpec && this._delegateSpec.onScheduleTask) { return this._delegateSpec.onScheduleTask(parentZoneDelegate, currentZone, targetZone, task); } else { return parentZoneDelegate.scheduleTask(targetZone, task); } } onInvokeTask(parentZoneDelegate, currentZone, targetZone, task, applyThis, applyArgs) { if (task.type !== 'eventTask') { this.removeFromTasks(task); } this.tryTriggerHasTask(parentZoneDelegate, currentZone, targetZone); if (this._delegateSpec && this._delegateSpec.onInvokeTask) { return this._delegateSpec.onInvokeTask(parentZoneDelegate, currentZone, targetZone, task, applyThis, applyArgs); } else { return parentZoneDelegate.invokeTask(targetZone, task, applyThis, applyArgs); } } onCancelTask(parentZoneDelegate, currentZone, targetZone, task) { if (task.type !== 'eventTask') { this.removeFromTasks(task); } this.tryTriggerHasTask(parentZoneDelegate, currentZone, targetZone); if (this._delegateSpec && this._delegateSpec.onCancelTask) { return this._delegateSpec.onCancelTask(parentZoneDelegate, currentZone, targetZone, task); } else { return parentZoneDelegate.cancelTask(targetZone, task); } } onHasTask(delegate, current, target, hasTaskState) { this.lastTaskState = hasTaskState; if (this._delegateSpec && this._delegateSpec.onHasTask) { this._delegateSpec.onHasTask(delegate, current, target, hasTaskState); } else { delegate.hasTask(target, hasTaskState); } } } // Export the class so that new instances can be created with proper // constructor params. Zone['ProxyZoneSpec'] = ProxyZoneSpec; /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ class SyncTestZoneSpec { constructor(namePrefix) { this.runZone = Zone.current; this.name = 'syncTestZone for ' + namePrefix; } onScheduleTask(delegate, current, target, task) { switch (task.type) { case 'microTask': case 'macroTask': throw new Error(`Cannot call ${task.source} from within a sync test.`); case 'eventTask': task = delegate.scheduleTask(target, task); break; } return task; } } // Export the class so that new instances can be created with proper // constructor params. Zone['SyncTestZoneSpec'] = SyncTestZoneSpec; /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ Zone.__load_patch('jasmine', (global, Zone, api) => { const __extends = function (d, b) { for (const p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : ((__.prototype = b.prototype), new __()); }; // Patch jasmine's describe/it/beforeEach/afterEach functions so test code always runs // in a testZone (ProxyZone). (See: angular/zone.js#91 & angular/angular#10503) if (!Zone) throw new Error('Missing: zone.js'); if (typeof jest !== 'undefined') { // return if jasmine is a light implementation inside jest // in this case, we are running inside jest not jasmine return; } if (typeof jasmine == 'undefined' || jasmine['__zone_patch__']) { return; } jasmine['__zone_patch__'] = true; const SyncTestZoneSpec = Zone['SyncTestZoneSpec']; const ProxyZoneSpec = Zone['ProxyZoneSpec']; if (!SyncTestZoneSpec) throw new Error('Missing: SyncTestZoneSpec'); if (!ProxyZoneSpec) throw new Error('Missing: ProxyZoneSpec'); const ambientZone = Zone.current; // Create a synchronous-only zone in which to run `describe` blocks in order to raise an // error if any asynchronous operations are attempted inside of a `describe` but outside of // a `beforeEach` or `it`. const syncZone = ambientZone.fork(new SyncTestZoneSpec('jasmine.describe')); const symbol = Zone.__symbol__; // whether patch jasmine clock when in fakeAsync const disablePatchingJasmineClock = global[symbol('fakeAsyncDisablePatchingClock')] === true; // the original variable name fakeAsyncPatchLock is not accurate, so the name will be // fakeAsyncAutoFakeAsyncWhenClockPatched and if this enablePatchingJasmineClock is false, we also // automatically disable the auto jump into fakeAsync feature const enableAutoFakeAsyncWhenClockPatched = !disablePatchingJasmineClock && ((global[symbol('fakeAsyncPatchLock')] === true) || (global[symbol('fakeAsyncAutoFakeAsyncWhenClockPatched')] === true)); const ignoreUnhandledRejection = global[symbol('ignoreUnhandledRejection')] === true; if (!ignoreUnhandledRejection) { const globalErrors = jasmine.GlobalErrors; if (globalErrors && !jasmine[symbol('GlobalErrors')]) { jasmine[symbol('GlobalErrors')] = globalErrors; jasmine.GlobalErrors = function () { const instance = new globalErrors(); const originalInstall = instance.install; if (originalInstall && !instance[symbol('install')]) { instance[symbol('install')] = originalInstall; instance.install = function () { const originalHandlers = process.listeners('unhandledRejection'); const r = originalInstall.apply(this, arguments); process.removeAllListeners('unhandledRejection'); if (originalHandlers) { originalHandlers.forEach(h => process.on('unhandledRejection', h)); } return r; }; } return instance; }; } } // Monkey patch all of the jasmine DSL so that each function runs in appropriate zone. const jasmineEnv = jasmine.getEnv(); ['describe', 'xdescribe', 'fdescribe'].forEach(methodName => { let originalJasmineFn = jasmineEnv[methodName]; jasmineEnv[methodName] = function (description, specDefinitions) { return originalJasmineFn.call(this, description, wrapDescribeInZone(specDefinitions)); }; }); ['it', 'xit', 'fit'].forEach(methodName => { let originalJasmineFn = jasmineEnv[methodName]; jasmineEnv[symbol(methodName)] = originalJasmineFn; jasmineEnv[methodName] = function (description, specDefinitions, timeout) { arguments[1] = wrapTestInZone(specDefinitions); return originalJasmineFn.apply(this, arguments); }; }); ['beforeEach', 'afterEach', 'beforeAll', 'afterAll'].forEach(methodName => { let originalJasmineFn = jasmineEnv[methodName]; jasmineEnv[symbol(methodName)] = originalJasmineFn; jasmineEnv[methodName] = function (specDefinitions, timeout) { arguments[0] = wrapTestInZone(specDefinitions); return originalJasmineFn.apply(this, arguments); }; }); if (!disablePatchingJasmineClock) { // need to patch jasmine.clock().mockDate and jasmine.clock().tick() so // they can work properly in FakeAsyncTest const originalClockFn = (jasmine[symbol('clock')] = jasmine['clock']); jasmine['clock'] = function () { const clock = originalClockFn.apply(this, arguments); if (!clock[symbol('patched')]) { clock[symbol('patched')] = symbol('patched'); const originalTick = (clock[symbol('tick')] = clock.tick); clock.tick = function () { const fakeAsyncZoneSpec = Zone.current.get('FakeAsyncTestZoneSpec'); if (fakeAsyncZoneSpec) { return fakeAsyncZoneSpec.tick.apply(fakeAsyncZoneSpec, arguments); } return originalTick.apply(this, arguments); }; const originalMockDate = (clock[symbol('mockDate')] = clock.mockDate); clock.mockDate = function () { const fakeAsyncZoneSpec = Zone.current.get('FakeAsyncTestZoneSpec'); if (fakeAsyncZoneSpec) { const dateTime = arguments.length > 0 ? arguments[0] : new Date(); return fakeAsyncZoneSpec.setFakeBaseSystemTime.apply(fakeAsyncZoneSpec, dateTime && typeof dateTime.getTime === 'function' ? [dateTime.getTime()] : arguments); } return originalMockDate.apply(this, arguments); }; // for auto go into fakeAsync feature, we need the flag to enable it if (enableAutoFakeAsyncWhenClockPatched) { ['install', 'uninstall'].forEach(methodName => { const originalClockFn = (clock[symbol(methodName)] = clock[methodName]); clock[methodName] = function () { const FakeAsyncTestZoneSpec = Zone['FakeAsyncTestZoneSpec']; if (FakeAsyncTestZoneSpec) { jasmine[symbol('clockInstalled')] = 'install' === methodName; return; } return originalClockFn.apply(this, arguments); }; }); } } return clock; }; } // monkey patch createSpyObj to make properties enumerable to true if (!jasmine[Zone.__symbol__('createSpyObj')]) { const originalCreateSpyObj = jasmine.createSpyObj; jasmine[Zone.__symbol__('createSpyObj')] = originalCreateSpyObj; jasmine.createSpyObj = function () { const args = Array.prototype.slice.call(arguments); const propertyNames = args.length >= 3 ? args[2] : null; let spyObj; if (propertyNames) { const defineProperty = Object.defineProperty; Object.defineProperty = function (obj, p, attributes) { return defineProperty.call(this, obj, p, Object.assign(Object.assign({}, attributes), { configurable: true, enumerable: true })); }; try { spyObj = originalCreateSpyObj.apply(this, args); } finally { Object.defineProperty = defineProperty; } } else { spyObj = originalCreateSpyObj.apply(this, args); } return spyObj; }; } /** * Gets a function wrapping the body of a Jasmine `describe` block to execute in a * synchronous-only zone. */ function wrapDescribeInZone(describeBody) { return function () { return syncZone.run(describeBody, this, arguments); }; } function runInTestZone(testBody, applyThis, queueRunner, done) { const isClockInstalled = !!jasmine[symbol('clockInstalled')]; const testProxyZoneSpec = queueRunner.testProxyZoneSpec; const testProxyZone = queueRunner.testProxyZone; if (isClockInstalled && enableAutoFakeAsyncWhenClockPatched) { // auto run a fakeAsync const fakeAsyncModule = Zone[Zone.__symbol__('fakeAsyncTest')]; if (fakeAsyncModule && typeof fakeAsyncModule.fakeAsync === 'function') { testBody = fakeAsyncModule.fakeAsync(testBody); } } if (done) { return testProxyZone.run(testBody, applyThis, [done]); } else { return testProxyZone.run(testBody, applyThis); } } /** * Gets a function wrapping the body of a Jasmine `it/beforeEach/afterEach` block to * execute in a ProxyZone zone. * This will run in `testProxyZone`. The `testProxyZone` will be reset by the `ZoneQueueRunner` */ function wrapTestInZone(testBody) { // The `done` callback is only passed through if the function expects at least one argument. // Note we have to make a function with correct number of arguments, otherwise jasmine will // think that all functions are sync or async. return (testBody && (testBody.length ? function (done) { return runInTestZone(testBody, this, this.queueRunner, done); } : function () { return runInTestZone(testBody, this, this.queueRunner); })); } const QueueRunner = jasmine.QueueRunner; jasmine.QueueRunner = (function (_super) { __extends(ZoneQueueRunner, _super); function ZoneQueueRunner(attrs) { if (attrs.onComplete) { attrs.onComplete = (fn => () => { // All functions are done, clear the test zone. this.testProxyZone = null; this.testProxyZoneSpec = null; ambientZone.scheduleMicroTask('jasmine.onComplete', fn); })(attrs.onComplete); } const nativeSetTimeout = global[Zone.__symbol__('setTimeout')]; const nativeClearTimeout = global[Zone.__symbol__('clearTimeout')]; if (nativeSetTimeout) { // should run setTimeout inside jasmine outside of zone attrs.timeout = { setTimeout: nativeSetTimeout ? nativeSetTimeout : global.setTimeout, clearTimeout: nativeClearTimeout ? nativeClearTimeout : global.clearTimeout }; } // create a userContext to hold the queueRunner itself // so we can access the testProxy in it/xit/beforeEach ... if (jasmine.UserContext) { if (!attrs.userContext) { attrs.userContext = new jasmine.UserContext(); } attrs.userContext.queueRunner = this; } else { if (!attrs.userContext) { attrs.userContext = {}; } attrs.userContext.queueRunner = this; } // patch attrs.onException const onException = attrs.onException; attrs.onException = function (error) { if (error && error.message === 'Timeout - Async callback was not invoked within timeout specified by jasmine.DEFAULT_TIMEOUT_INTERVAL.') { // jasmine timeout, we can make the error message more // reasonable to tell what tasks are pending const proxyZoneSpec = this && this.testProxyZoneSpec; if (proxyZoneSpec) { const pendingTasksInfo = proxyZoneSpec.getAndClearPendingTasksInfo(); try { // try catch here in case error.message is not writable error.message += pendingTasksInfo; } catch (err) { } } } if (onException) { onException.call(this, error); } }; _super.call(this, attrs); } ZoneQueueRunner.prototype.execute = function () { let zone = Zone.current; let isChildOfAmbientZone = false; while (zone) { if (zone === ambientZone) { isChildOfAmbientZone = true; break; } zone = zone.parent; } if (!isChildOfAmbientZone) throw new Error('Unexpected Zone: ' + Zone.current.name); // This is the zone which will be used for running individual tests. // It will be a proxy zone, so that the tests function can retroactively install // different zones. // Example: // - In beforeEach() do childZone = Zone.current.fork(...); // - In it() try to do fakeAsync(). The issue is that because the beforeEach forked the // zone outside of fakeAsync it will be able to escape the fakeAsync rules. // - Because ProxyZone is parent fo `childZone` fakeAsync can retroactively add // fakeAsync behavior to the childZone. this.testProxyZoneSpec = new ProxyZoneSpec(); this.testProxyZone = ambientZone.fork(this.testProxyZoneSpec); if (!Zone.currentTask) { // if we are not running in a task then if someone would register a // element.addEventListener and then calling element.click() the // addEventListener callback would think that it is the top most task and would // drain the microtask queue on element.click() which would be incorrect. // For this reason we always force a task when running jasmine tests. Zone.current.scheduleMicroTask('jasmine.execute().forceTask', () => QueueRunner.prototype.execute.call(this)); } else { _super.prototype.execute.call(this); } }; return ZoneQueueRunner; })(QueueRunner); }); /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ Zone.__load_patch('jest', (context, Zone, api) => { if (typeof jest === 'undefined' || jest['__zone_patch__']) { return; } jest['__zone_patch__'] = true; const ProxyZoneSpec = Zone['ProxyZoneSpec']; const SyncTestZoneSpec = Zone['SyncTestZoneSpec']; if (!ProxyZoneSpec) { throw new Error('Missing ProxyZoneSpec'); } const rootZone = Zone.current; const syncZone = rootZone.fork(new SyncTestZoneSpec('jest.describe')); const proxyZoneSpec = new ProxyZoneSpec(); const proxyZone = rootZone.fork(proxyZoneSpec); function wrapDescribeFactoryInZone(originalJestFn) { return function (...tableArgs) { const originalDescribeFn = originalJestFn.apply(this, tableArgs); return function (...args) { args[1] = wrapDescribeInZone(args[1]); return originalDescribeFn.apply(this, args); }; }; } function wrapTestFactoryInZone(originalJestFn) { return function (...tableArgs) { return function (...args) { args[1] = wrapTestInZone(args[1]); return originalJestFn.apply(this, tableArgs).apply(this, args); }; }; } /** * Gets a function wrapping the body of a jest `describe` block to execute in a * synchronous-only zone. */ function wrapDescribeInZone(describeBody) { return function (...args) { return syncZone.run(describeBody, this, args); }; } /** * Gets a function wrapping the body of a jest `it/beforeEach/afterEach` block to * execute in a ProxyZone zone. * This will run in the `proxyZone`. */ function wrapTestInZone(testBody, isTestFunc = false) { if (typeof testBody !== 'function') { return testBody; } const wrappedFunc = function () { if (Zone[api.symbol('useFakeTimersCalled')] === true && testBody && !testBody.isFakeAsync) { // jest.useFakeTimers is called, run into fakeAsyncTest automatically. const fakeAsyncModule = Zone[Zone.__symbol__('fakeAsyncTest')]; if (fakeAsyncModule && typeof fakeAsyncModule.fakeAsync === 'function') { testBody = fakeAsyncModule.fakeAsync(testBody); } } proxyZoneSpec.isTestFunc = isTestFunc; return proxyZone.run(testBody, null, arguments); }; // Update the length of wrappedFunc to be the same as the length of the testBody // So jest core can handle whether the test function has `done()` or not correctly Object.defineProperty(wrappedFunc, 'length', { configurable: true, writable: true, enumerable: false }); wrappedFunc.length = testBody.length; return wrappedFunc; } ['describe', 'xdescribe', 'fdescribe'].forEach(methodName => { let originalJestFn = context[methodName]; if (context[Zone.__symbol__(methodName)]) { return; } context[Zone.__symbol__(methodName)] = originalJestFn; context[methodName] = function (...args) { args[1] = wrapDescribeInZone(args[1]); return originalJestFn.apply(this, args); }; context[methodName].each = wrapDescribeFactoryInZone(originalJestFn.each); }); context.describe.only = context.fdescribe; context.describe.skip = context.xdescribe; ['it', 'xit', 'fit', 'test', 'xtest'].forEach(methodName => { let originalJestFn = context[methodName]; if (context[Zone.__symbol__(methodName)]) { return; } context[Zone.__symbol__(methodName)] = originalJestFn; context[methodName] = function (...args) { args[1] = wrapTestInZone(args[1], true); return originalJestFn.apply(this, args); }; context[methodName].each = wrapTestFactoryInZone(originalJestFn.each); context[methodName].todo = originalJestFn.todo; }); context.it.only = context.fit; context.it.skip = context.xit; context.test.only = context.fit; context.test.skip = context.xit; ['beforeEach', 'afterEach', 'beforeAll', 'afterAll'].forEach(methodName => { let originalJestFn = context[methodName]; if (context[Zone.__symbol__(methodName)]) { return; } context[Zone.__symbol__(methodName)] = originalJestFn; context[methodName] = function (...args) { args[0] = wrapTestInZone(args[0]); return originalJestFn.apply(this, args); }; }); Zone.patchJestObject = function patchJestObject(Timer, isModern = false) { // check whether currently the test is inside fakeAsync() function isPatchingFakeTimer() { const fakeAsyncZoneSpec = Zone.current.get('FakeAsyncTestZoneSpec'); return !!fakeAsyncZoneSpec; } // check whether the current function is inside `test/it` or other methods // such as `describe/beforeEach` function isInTestFunc() { const proxyZoneSpec = Zone.current.get('ProxyZoneSpec'); return proxyZoneSpec && proxyZoneSpec.isTestFunc; } if (Timer[api.symbol('fakeTimers')]) { return; } Timer[api.symbol('fakeTimers')] = true; // patch jest fakeTimer internal method to make sure no console.warn print out api.patchMethod(Timer, '_checkFakeTimers', delegate => { return function (self, args) { if (isPatchingFakeTimer()) { return true; } else { return delegate.apply(self, args); } }; }); // patch useFakeTimers(), set useFakeTimersCalled flag, and make test auto run into fakeAsync api.patchMethod(Timer, 'useFakeTimers', delegate => { return function (self, args) { Zone[api.symbol('useFakeTimersCalled')] = true; if (isModern || isInTestFunc()) { return delegate.apply(self, args); } return self; }; }); // patch useRealTimers(), unset useFakeTimers flag api.patchMethod(Timer, 'useRealTimers', delegate => { return function (self, args) { Zone[api.symbol('useFakeTimersCalled')] = false; if (isModern || isInTestFunc()) { return delegate.apply(self, args); } return self; }; }); // patch setSystemTime(), call setCurrentRealTime() in the fakeAsyncTest api.patchMethod(Timer, 'setSystemTime', delegate => { return function (self, args) { const fakeAsyncZoneSpec = Zone.current.get('FakeAsyncTestZoneSpec'); if (fakeAsyncZoneSpec && isPatchingFakeTimer()) { fakeAsyncZoneSpec.setFakeBaseSystemTime(args[0]); } else { return delegate.apply(self, args); } }; }); // patch getSystemTime(), call getCurrentRealTime() in the fakeAsyncTest api.patchMethod(Timer, 'getRealSystemTime', delegate => { return function (self, args) { const fakeAsyncZoneSpec = Zone.current.get('FakeAsyncTestZoneSpec'); if (fakeAsyncZoneSpec && isPatchingFakeTimer()) { return fakeAsyncZoneSpec.getRealSystemTime(); } else { return delegate.apply(self, args); } }; }); // patch runAllTicks(), run all microTasks inside fakeAsync api.patchMethod(Timer, 'runAllTicks', delegate => { return function (self, args) { const fakeAsyncZoneSpec = Zone.current.get('FakeAsyncTestZoneSpec'); if (fakeAsyncZoneSpec) { fakeAsyncZoneSpec.flushMicrotasks(); } else { return delegate.apply(self, args); } }; }); // patch runAllTimers(), run all macroTasks inside fakeAsync api.patchMethod(Timer, 'runAllTimers', delegate => { return function (self, args) { const fakeAsyncZoneSpec = Zone.current.get('FakeAsyncTestZoneSpec'); if (fakeAsyncZoneSpec) { fakeAsyncZoneSpec.flush(100, true); } else { return delegate.apply(self, args); } }; }); // patch advanceTimersByTime(), call tick() in the fakeAsyncTest api.patchMethod(Timer, 'advanceTimersByTime', delegate => { return function (self, args) { const fakeAsyncZoneSpec = Zone.current.get('FakeAsyncTestZoneSpec'); if (fakeAsyncZoneSpec) { fakeAsyncZoneSpec.tick(args[0]); } else { return delegate.apply(self, args); } }; }); // patch runOnlyPendingTimers(), call flushOnlyPendingTimers() in the fakeAsyncTest api.patchMethod(Timer, 'runOnlyPendingTimers', delegate => { return function (self, args) { const fakeAsyncZoneSpec = Zone.current.get('FakeAsyncTestZoneSpec'); if (fakeAsyncZoneSpec) { fakeAsyncZoneSpec.flushOnlyPendingTimers(); } else { return delegate.apply(self, args); } }; }); // patch advanceTimersToNextTimer(), call tickToNext() in the fakeAsyncTest api.patchMethod(Timer, 'advanceTimersToNextTimer', delegate => { return function (self, args) { const fakeAsyncZoneSpec = Zone.current.get('FakeAsyncTestZoneSpec'); if (fakeAsyncZoneSpec) { fakeAsyncZoneSpec.tickToNext(args[0]); } else { return delegate.apply(self, args); } }; }); // patch clearAllTimers(), call removeAllTimers() in the fakeAsyncTest api.patchMethod(Timer, 'clearAllTimers', delegate => { return function (self, args) { const fakeAsyncZoneSpec = Zone.current.get('FakeAsyncTestZoneSpec'); if (fakeAsyncZoneSpec) { fakeAsyncZoneSpec.removeAllTimers(); } else { return delegate.apply(self, args); } }; }); // patch getTimerCount(), call getTimerCount() in the fakeAsyncTest api.patchMethod(Timer, 'getTimerCount', delegate => { return function (self, args) { const fakeAsyncZoneSpec = Zone.current.get('FakeAsyncTestZoneSpec'); if (fakeAsyncZoneSpec) { return fakeAsyncZoneSpec.getTimerCount(); } else { return delegate.apply(self, args); } }; }); }; }); /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ Zone.__load_patch('mocha', (global, Zone) => { const Mocha = global.Mocha; if (typeof Mocha === 'undefined') { // return if Mocha is not available, because now zone-testing // will load mocha patch with jasmine/jest patch return; } if (typeof Zone === 'undefined') { throw new Error('Missing Zone.js'); } const ProxyZoneSpec = Zone['ProxyZoneSpec']; const SyncTestZoneSpec = Zone['SyncTestZoneSpec']; if (!ProxyZoneSpec) { throw new Error('Missing ProxyZoneSpec'); } if (Mocha['__zone_patch__']) { throw new Error('"Mocha" has already been patched with "Zone".'); } Mocha['__zone_patch__'] = true; const rootZone = Zone.current; const syncZone = rootZone.fork(new SyncTestZoneSpec('Mocha.describe')); let testZone = null; const suiteZone = rootZone.fork(new ProxyZoneSpec()); const mochaOriginal = { after: Mocha.after, afterEach: Mocha.afterEach, before: Mocha.before, beforeEach: Mocha.beforeEach, describe: Mocha.describe, it: Mocha.it }; function modifyArguments(args, syncTest, asyncTest) { for (let i = 0; i < args.length; i++) { let arg = args[i]; if (typeof arg === 'function') { // The `done` callback is only passed through if the function expects at // least one argument. // Note we have to make a function with correct number of arguments, // otherwise mocha will // think that all functions are sync or async. args[i] = (arg.length === 0) ? syncTest(arg) : asyncTest(arg); // Mocha uses toString to view the test body in the result list, make sure we return the // correct function body args[i].toString = function () { return arg.toString(); }; } } return args; } function wrapDescribeInZone(args) { const syncTest = function (fn) { return function () { return syncZone.run(fn, this, arguments); }; }; return modifyArguments(args, syncTest); } function wrapTestInZone(args) { const asyncTest = function (fn) { return function (done) { return testZone.run(fn, this, [done]); }; }; const syncTest = function (fn) { return function () { return testZone.run(fn, this); }; }; return modifyArguments(args, syncTest, asyncTest); } function wrapSuiteInZone(args) { const asyncTest = function (fn) { return function (done) { return suiteZone.run(fn, this, [done]); }; }; const syncTest = function (fn) { return function () { return suiteZone.run(fn, this); }; }; return modifyArguments(args, syncTest, asyncTest); } global.describe = global.suite = Mocha.describe = function () { return mochaOriginal.describe.apply(this, wrapDescribeInZone(arguments)); }; global.xdescribe = global.suite.skip = Mocha.describe.skip = function () { return mochaOriginal.describe.skip.apply(this, wrapDescribeInZone(arguments)); }; global.describe.only = global.suite.only = Mocha.describe.only = function () { return mochaOriginal.describe.only.apply(this, wrapDescribeInZone(arguments)); }; global.it = global.specify = global.test = Mocha.it = function () { return mochaOriginal.it.apply(this, wrapTestInZone(arguments)); }; global.xit = global.xspecify = Mocha.it.skip = function () { return mochaOriginal.it.skip.apply(this, wrapTestInZone(arguments)); }; global.it.only = global.test.only = Mocha.it.only = function () { return mochaOriginal.it.only.apply(this, wrapTestInZone(arguments)); }; global.after = global.suiteTeardown = Mocha.after = function () { return mochaOriginal.after.apply(this, wrapSuiteInZone(arguments)); }; global.afterEach = global.teardown = Mocha.afterEach = function () { return mochaOriginal.afterEach.apply(this, wrapTestInZone(arguments)); }; global.before = global.suiteSetup = Mocha.before = function () { return mochaOriginal.before.apply(this, wrapSuiteInZone(arguments)); }; global.beforeEach = global.setup = Mocha.beforeEach = function () { return mochaOriginal.beforeEach.apply(this, wrapTestInZone(arguments)); }; ((originalRunTest, originalRun) => { Mocha.Runner.prototype.runTest = function (fn) { Zone.current.scheduleMicroTask('mocha.forceTask', () => { originalRunTest.call(this, fn); }); }; Mocha.Runner.prototype.run = function (fn) { this.on('test', (e) => { testZone = rootZone.fork(new ProxyZoneSpec()); }); this.on('fail', (test, err) => { const proxyZoneSpec = testZone && testZone.get('ProxyZoneSpec'); if (proxyZoneSpec && err) { try { // try catch here in case err.message is not writable err.message += proxyZoneSpec.getAndClearPendingTasksInfo(); } catch (error) { } } }); return originalRun.call(this, fn); }; })(Mocha.Runner.prototype.runTest, Mocha.Runner.prototype.run); }); /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ (function (_global) { class AsyncTestZoneSpec { constructor(finishCallback, failCallback, namePrefix) { this.finishCallback = finishCallback; this.failCallback = failCallback; this._pendingMicroTasks = false; this._pendingMacroTasks = false; this._alreadyErrored = false; this._isSync = false; this.runZone = Zone.current; this.unresolvedChainedPromiseCount = 0; this.supportWaitUnresolvedChainedPromise = false; this.name = 'asyncTestZone for ' + namePrefix; this.properties = { 'AsyncTestZoneSpec': this }; this.supportWaitUnresolvedChainedPromise = _global[Zone.__symbol__('supportWaitUnResolvedChainedPromise')] === true; } isUnresolvedChainedPromisePending() { return this.unresolvedChainedPromiseCount > 0; } _finishCallbackIfDone() { if (!(this._pendingMicroTasks || this._pendingMacroTasks || (this.supportWaitUnresolvedChainedPromise && this.isUnresolvedChainedPromisePending()))) { // We do this because we would like to catch unhandled rejected promises. this.runZone.run(() => { setTimeout(() => { if (!this._alreadyErrored && !(this._pendingMicroTasks || this._pendingMacroTasks)) { this.finishCallback(); } }, 0); }); } } patchPromiseForTest() { if (!this.supportWaitUnresolvedChainedPromise) { return; } const patchPromiseForTest = Promise[Zone.__symbol__('patchPromiseForTest')]; if (patchPromiseForTest) { patchPromiseForTest(); } } unPatchPromiseForTest() { if (!this.supportWaitUnresolvedChainedPromise) { return; } const unPatchPromiseForTest = Promise[Zone.__symbol__('unPatchPromiseForTest')]; if (unPatchPromiseForTest) { unPatchPromiseForTest(); } } onScheduleTask(delegate, current, target, task) { if (task.type !== 'eventTask') { this._isSync = false; } if (task.type === 'microTask' && task.data && task.data instanceof Promise) { // check whether the promise is a chained promise if (task.data[AsyncTestZoneSpec.symbolParentUnresolved] === true) { // chained promise is being scheduled this.unresolvedChainedPromiseCount--; } } return delegate.scheduleTask(target, task); } onInvokeTask(delegate, current, target, task, applyThis, applyArgs) { if (task.type !== 'eventTask') { this._isSync = false; } return delegate.invokeTask(target, task, applyThis, applyArgs); } onCancelTask(delegate, current, target, task) { if (task.type !== 'eventTask') { this._isSync = false; } return delegate.cancelTask(target, task); } // Note - we need to use onInvoke at the moment to call finish when a test is // fully synchronous. TODO(juliemr): remove this when the logic for // onHasTask changes and it calls whenever the task queues are dirty. // updated by(JiaLiPassion), only call finish callback when no task // was scheduled/invoked/canceled. onInvoke(parentZoneDelegate, currentZone, targetZone, delegate, applyThis, applyArgs, source) { try { this._isSync = true; return parentZoneDelegate.invoke(targetZone, delegate, applyThis, applyArgs, source); } finally { const afterTaskCounts = parentZoneDelegate._taskCounts; if (this._isSync) { this._finishCallbackIfDone(); } } } onHandleError(parentZoneDelegate, currentZone, targetZone, error) { // Let the parent try to handle the error. const result = parentZoneDelegate.handleError(targetZone, error); if (result) { this.failCallback(error); this._alreadyErrored = true; } return false; } onHasTask(delegate, current, target, hasTaskState) { delegate.hasTask(target, hasTaskState); if (hasTaskState.change == 'microTask') { this._pendingMicroTasks = hasTaskState.microTask; this._finishCallbackIfDone(); } else if (hasTaskState.change == 'macroTask') { this._pendingMacroTasks = hasTaskState.macroTask; this._finishCallbackIfDone(); } } } AsyncTestZoneSpec.symbolParentUnresolved = Zone.__symbol__('parentUnresolved'); // Export the class so that new instances can be created with proper // constructor params. Zone['AsyncTestZoneSpec'] = AsyncTestZoneSpec; })(typeof window !== 'undefined' && window || typeof self !== 'undefined' && self || global); Zone.__load_patch('asynctest', (global, Zone, api) => { /** * Wraps a test function in an asynchronous test zone. The test will automatically * complete when all asynchronous calls within this zone are done. */ Zone[api.symbol('asyncTest')] = function asyncTest(fn) { // If we're running using the Jasmine test framework, adapt to call the 'done' // function when asynchronous activity is finished. if (global.jasmine) { // Not using an arrow function to preserve context passed from call site return function (done) { if (!done) { // if we run beforeEach in @angular/core/testing/testing_internal then we get no done // fake it here and assume sync. done = function () { }; done.fail = function (e) { throw e; }; } runInTestZone(fn, this, done, (err) => { if (typeof err === 'string') { return done.fail(new Error(err)); } else { done.fail(err); } }); }; } // Otherwise, return a promise which will resolve when asynchronous activity // is finished. This will be correctly consumed by the Mocha framework with // it('...', async(myFn)); or can be used in a custom framework. // Not using an arrow function to preserve context passed from call site return function () { return new Promise((finishCallback, failCallback) => { runInTestZone(fn, this, finishCallback, failCallback); }); }; }; function runInTestZone(fn, context, finishCallback, failCallback) { const currentZone = Zone.current; const AsyncTestZoneSpec = Zone['AsyncTestZoneSpec']; if (AsyncTestZoneSpec === undefined) { throw new Error('AsyncTestZoneSpec is needed for the async() test helper but could not be found. ' + 'Please make sure that your environment includes zone.js/dist/async-test.js'); } const ProxyZoneSpec = Zone['ProxyZoneSpec']; if (!ProxyZoneSpec) { throw new Error('ProxyZoneSpec is needed for the async() test helper but could not be found. ' + 'Please make sure that your environment includes zone.js/dist/proxy.js'); } const proxyZoneSpec = ProxyZoneSpec.get(); ProxyZoneSpec.assertPresent(); // We need to create the AsyncTestZoneSpec outside the ProxyZone. // If we do it in ProxyZone then we will get to infinite recursion. const proxyZone = Zone.current.getZoneWith('ProxyZoneSpec'); const previousDelegate = proxyZoneSpec.getDelegate(); proxyZone.parent.run(() => { const testZoneSpec = new AsyncTestZoneSpec(() => { // Need to restore the original zone. if (proxyZoneSpec.getDelegate() == testZoneSpec) { // Only reset the zone spec if it's // sill this one. Otherwise, assume // it's OK. proxyZoneSpec.setDelegate(previousDelegate); } testZoneSpec.unPatchPromiseForTest(); currentZone.run(() => { finishCallback(); }); }, (error) => { // Need to restore the original zone. if (proxyZoneSpec.getDelegate() == testZoneSpec) { // Only reset the zone spec if it's sill this one. Otherwise, assume it's OK. proxyZoneSpec.setDelegate(previousDelegate); } testZoneSpec.unPatchPromiseForTest(); currentZone.run(() => { failCallback(error); }); }, 'test'); proxyZoneSpec.setDelegate(testZoneSpec); testZoneSpec.patchPromiseForTest(); }); return Zone.current.runGuarded(fn, context); } }); /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ (function (global) { const OriginalDate = global.Date; // Since when we compile this file to `es2015`, and if we define // this `FakeDate` as `class FakeDate`, and then set `FakeDate.prototype` // there will be an error which is `Cannot assign to read only property 'prototype'` // so we need to use function implementation here. function FakeDate() { if (arguments.length === 0) { const d = new OriginalDate(); d.setTime(FakeDate.now()); return d; } else { const args = Array.prototype.slice.call(arguments); return new OriginalDate(...args); } } FakeDate.now = function () { const fakeAsyncTestZoneSpec = Zone.current.get('FakeAsyncTestZoneSpec'); if (fakeAsyncTestZoneSpec) { return fakeAsyncTestZoneSpec.getFakeSystemTime(); } return OriginalDate.now.apply(this, arguments); }; FakeDate.UTC = OriginalDate.UTC; FakeDate.parse = OriginalDate.parse; // keep a reference for zone patched timer function const timers = { setTimeout: global.setTimeout, setInterval: global.setInterval, clearTimeout: global.clearTimeout, clearInterval: global.clearInterval }; class Scheduler { constructor() { // Scheduler queue with the tuple of end time and callback function - sorted by end time. this._schedulerQueue = []; // Current simulated time in millis. this._currentTickTime = 0; // Current fake system base time in millis. this._currentFakeBaseSystemTime = OriginalDate.now(); // track requeuePeriodicTimer this._currentTickRequeuePeriodicEntries = []; } getCurrentTickTime() { return this._currentTickTime; } getFakeSystemTime() { return this._currentFakeBaseSystemTime + this._currentTickTime; } setFakeBaseSystemTime(fakeBaseSystemTime) { this._currentFakeBaseSystemTime = fakeBaseSystemTime; } getRealSystemTime() { return OriginalDate.now(); } scheduleFunction(cb, delay, options) { options = Object.assign({ args: [], isPeriodic: false, isRequestAnimationFrame: false, id: -1, isRequeuePeriodic: false }, options); let currentId = options.id < 0 ? Scheduler.nextId++ : options.id; let endTime = this._currentTickTime + delay; // Insert so that scheduler queue remains sorted by end time. let newEntry = { endTime: endTime, id: currentId, func: cb, args: options.args, delay: delay, isPeriodic: options.isPeriodic, isRequestAnimationFrame: options.isRequestAnimationFrame }; if (options.isRequeuePeriodic) { this._currentTickRequeuePeriodicEntries.push(newEntry); } let i = 0; for (; i < this._schedulerQueue.length; i++) { let currentEntry = this._schedulerQueue[i]; if (newEntry.endTime < currentEntry.endTime) { break; } } this._schedulerQueue.splice(i, 0, newEntry); return currentId; } removeScheduledFunctionWithId(id) { for (let i = 0; i < this._schedulerQueue.length; i++) { if (this._schedulerQueue[i].id == id) { this._schedulerQueue.splice(i, 1); break; } } } removeAll() { this._schedulerQueue = []; } getTimerCount() { return this._schedulerQueue.length; } tickToNext(step = 1, doTick, tickOptions) { if (this._schedulerQueue.length < step) { return; } // Find the last task currently queued in the scheduler queue and tick // till that time. const startTime = this._currentTickTime; const targetTask = this._schedulerQueue[step - 1]; this.tick(targetTask.endTime - startTime, doTick, tickOptions); } tick(millis = 0, doTick, tickOptions) { let finalTime = this._currentTickTime + millis; let lastCurrentTime = 0; tickOptions = Object.assign({ processNewMacroTasksSynchronously: true }, tickOptions); // we need to copy the schedulerQueue so nested timeout // will not be wrongly called in the current tick // https://github.com/angular/angular/issues/33799 const schedulerQueue = tickOptions.processNewMacroTasksSynchronously ? this._schedulerQueue : this._schedulerQueue.slice(); if (schedulerQueue.length === 0 && doTick) { doTick(millis); return; } while (schedulerQueue.length > 0) { // clear requeueEntries before each loop this._currentTickRequeuePeriodicEntries = []; let current = schedulerQueue[0]; if (finalTime < current.endTime) { // Done processing the queue since it's sorted by endTime. break; } else { // Time to run scheduled function. Remove it from the head of queue. let current = schedulerQueue.shift(); if (!tickOptions.processNewMacroTasksSynchronously) { const idx = this._schedulerQueue.indexOf(current); if (idx >= 0) { this._schedulerQueue.splice(idx, 1); } } lastCurrentTime = this._currentTickTime; this._currentTickTime = current.endTime; if (doTick) { doTick(this._currentTickTime - lastCurrentTime); } let retval = current.func.apply(global, current.isRequestAnimationFrame ? [this._currentTickTime] : current.args); if (!retval) { // Uncaught exception in the current scheduled function. Stop processing the queue. break; } // check is there any requeue periodic entry is added in // current loop, if there is, we need to add to current loop if (!tickOptions.processNewMacroTasksSynchronously) { this._currentTickRequeuePeriodicEntries.forEach(newEntry => { let i = 0; for (; i < schedulerQueue.length; i++) { const currentEntry = schedulerQueue[i]; if (newEntry.endTime < currentEntry.endTime) { break; } } schedulerQueue.splice(i, 0, newEntry); }); } } } lastCurrentTime = this._currentTickTime; this._currentTickTime = finalTime; if (doTick) { doTick(this._currentTickTime - lastCurrentTime); } } flushOnlyPendingTimers(doTick) { if (this._schedulerQueue.length === 0) { return 0; } // Find the last task currently queued in the scheduler queue and tick // till that time. const startTime = this._currentTickTime; const lastTask = this._schedulerQueue[this._schedulerQueue.length - 1]; this.tick(lastTask.endTime - startTime, doTick, { processNewMacroTasksSynchronously: false }); return this._currentTickTime - startTime; } flush(limit = 20, flushPeriodic = false, doTick) { if (flushPeriodic) { return this.flushPeriodic(doTick); } else { return this.flushNonPeriodic(limit, doTick); } } flushPeriodic(doTick) { if (this._schedulerQueue.length === 0) { return 0; } // Find the last task currently queued in the scheduler queue and tick // till that time. const startTime = this._currentTickTime; const lastTask = this._schedulerQueue[this._schedulerQueue.length - 1]; this.tick(lastTask.endTime - startTime, doTick); return this._currentTickTime - startTime; } flushNonPeriodic(limit, doTick) { const startTime = this._currentTickTime; let lastCurrentTime = 0; let count = 0; while (this._schedulerQueue.length > 0) { count++; if (count > limit) { throw new Error('flush failed after reaching the limit of ' + limit + ' tasks. Does your code use a polling timeout?'); } // flush only non-periodic timers. // If the only remaining tasks are periodic(or requestAnimationFrame), finish flushing. if (this._schedulerQueue.filter(task => !task.isPeriodic && !task.isRequestAnimationFrame) .length === 0) { break; } const current = this._schedulerQueue.shift(); lastCurrentTime = this._currentTickTime; this._currentTickTime = current.endTime; if (doTick) { // Update any secondary schedulers like Jasmine mock Date. doTick(this._currentTickTime - lastCurrentTime); } const retval = current.func.apply(global, current.args); if (!retval) { // Uncaught exception in the current scheduled function. Stop processing the queue. break; } } return this._currentTickTime - startTime; } } // Next scheduler id. Scheduler.nextId = 1; class FakeAsyncTestZoneSpec { constructor(namePrefix, trackPendingRequestAnimationFrame = false, macroTaskOptions) { this.trackPendingRequestAnimationFrame = trackPendingRequestAnimationFrame; this.macroTaskOptions = macroTaskOptions; this._scheduler = new Scheduler(); this._microtasks = []; this._lastError = null; this._uncaughtPromiseErrors = Promise[Zone.__symbol__('uncaughtPromiseErrors')]; this.pendingPeriodicTimers = []; this.pendingTimers = []; this.patchDateLocked = false; this.properties = { 'FakeAsyncTestZoneSpec': this }; this.name = 'fakeAsyncTestZone for ' + namePrefix; // in case user can't access the construction of FakeAsyncTestSpec // user can also define macroTaskOptions by define a global variable. if (!this.macroTaskOptions) { this.macroTaskOptions = global[Zone.__symbol__('FakeAsyncTestMacroTask')]; } } static assertInZone() { if (Zone.current.get('FakeAsyncTestZoneSpec') == null) { throw new Error('The code should be running in the fakeAsync zone to call this function'); } } _fnAndFlush(fn, completers) { return (...args) => { fn.apply(global, args); if (this._lastError === null) { // Success if (completers.onSuccess != null) { completers.onSuccess.apply(global); } // Flush microtasks only on success. this.flushMicrotasks(); } else { // Failure if (completers.onError != null) { completers.onError.apply(global); } } // Return true if there were no errors, false otherwise. return this._lastError === null; }; } static _removeTimer(timers, id) { let index = timers.indexOf(id); if (index > -1) { timers.splice(index, 1); } } _dequeueTimer(id) { return () => { FakeAsyncTestZoneSpec._removeTimer(this.pendingTimers, id); }; } _requeuePeriodicTimer(fn, interval, args, id) { return () => { // Requeue the timer callback if it's not been canceled. if (this.pendingPeriodicTimers.indexOf(id) !== -1) { this._scheduler.scheduleFunction(fn, interval, { args, isPeriodic: true, id, isRequeuePeriodic: true }); } }; } _dequeuePeriodicTimer(id) { return () => { FakeAsyncTestZoneSpec._removeTimer(this.pendingPeriodicTimers, id); }; } _setTimeout(fn, delay, args, isTimer = true) { let removeTimerFn = this._dequeueTimer(Scheduler.nextId); // Queue the callback and dequeue the timer on success and error. let cb = this._fnAndFlush(fn, { onSuccess: removeTimerFn, onError: removeTimerFn }); let id = this._scheduler.scheduleFunction(cb, delay, { args, isRequestAnimationFrame: !isTimer }); if (isTimer) { this.pendingTimers.push(id); } return id; } _clearTimeout(id) { FakeAsyncTestZoneSpec._removeTimer(this.pendingTimers, id); this._scheduler.removeScheduledFunctionWithId(id); } _setInterval(fn, interval, args) { let id = Scheduler.nextId; let completers = { onSuccess: null, onError: this._dequeuePeriodicTimer(id) }; let cb = this._fnAndFlush(fn, completers); // Use the callback created above to requeue on success. completers.onSuccess = this._requeuePeriodicTimer(cb, interval, args, id); // Queue the callback and dequeue the periodic timer only on error. this._scheduler.scheduleFunction(cb, interval, { args, isPeriodic: true }); this.pendingPeriodicTimers.push(id); return id; } _clearInterval(id) { FakeAsyncTestZoneSpec._removeTimer(this.pendingPeriodicTimers, id); this._scheduler.removeScheduledFunctionWithId(id); } _resetLastErrorAndThrow() { let error = this._lastError || this._uncaughtPromiseErrors[0]; this._uncaughtPromiseErrors.length = 0; this._lastError = null; throw error; } getCurrentTickTime() { return this._scheduler.getCurrentTickTime(); } getFakeSystemTime() { return this._scheduler.getFakeSystemTime(); } setFakeBaseSystemTime(realTime) { this._scheduler.setFakeBaseSystemTime(realTime); } getRealSystemTime() { return this._scheduler.getRealSystemTime(); } static patchDate() { if (!!global[Zone.__symbol__('disableDatePatching')]) { // we don't want to patch global Date // because in some case, global Date // is already being patched, we need to provide // an option to let user still use their // own version of Date. return; } if (global['Date'] === FakeDate) { // already patched return; } global['Date'] = FakeDate; FakeDate.prototype = OriginalDate.prototype; // try check and reset timers // because jasmine.clock().install() may // have replaced the global timer FakeAsyncTestZoneSpec.checkTimerPatch(); } static resetDate() { if (global['Date'] === FakeDate) { global['Date'] = OriginalDate; } } static checkTimerPatch() { if (global.setTimeout !== timers.setTimeout) { global.setTimeout = timers.setTimeout; global.clearTimeout = timers.clearTimeout; } if (global.setInterval !== timers.setInterval) { global.setInterval = timers.setInterval; global.clearInterval = timers.clearInterval; } } lockDatePatch() { this.patchDateLocked = true; FakeAsyncTestZoneSpec.patchDate(); } unlockDatePatch() { this.patchDateLocked = false; FakeAsyncTestZoneSpec.resetDate(); } tickToNext(steps = 1, doTick, tickOptions = { processNewMacroTasksSynchronously: true }) { if (steps <= 0) { return; } FakeAsyncTestZoneSpec.assertInZone(); this.flushMicrotasks(); this._scheduler.tickToNext(steps, doTick, tickOptions); if (this._lastError !== null) { this._resetLastErrorAndThrow(); } } tick(millis = 0, doTick, tickOptions = { processNewMacroTasksSynchronously: true }) { FakeAsyncTestZoneSpec.assertInZone(); this.flushMicrotasks(); this._scheduler.tick(millis, doTick, tickOptions); if (this._lastError !== null) { this._resetLastErrorAndThrow(); } } flushMicrotasks() { FakeAsyncTestZoneSpec.assertInZone(); const flushErrors = () => { if (this._lastError !== null || this._uncaughtPromiseErrors.length) { // If there is an error stop processing the microtask queue and rethrow the error. this._resetLastErrorAndThrow(); } }; while (this._microtasks.length > 0) { let microtask = this._microtasks.shift(); microtask.func.apply(microtask.target, microtask.args); } flushErrors(); } flush(limit, flushPeriodic, doTick) { FakeAsyncTestZoneSpec.assertInZone(); this.flushMicrotasks(); const elapsed = this._scheduler.flush(limit, flushPeriodic, doTick); if (this._lastError !== null) { this._resetLastErrorAndThrow(); } return elapsed; } flushOnlyPendingTimers(doTick) { FakeAsyncTestZoneSpec.assertInZone(); this.flushMicrotasks(); const elapsed = this._scheduler.flushOnlyPendingTimers(doTick); if (this._lastError !== null) { this._resetLastErrorAndThrow(); } return elapsed; } removeAllTimers() { FakeAsyncTestZoneSpec.assertInZone(); this._scheduler.removeAll(); this.pendingPeriodicTimers = []; this.pendingTimers = []; } getTimerCount() { return this._scheduler.getTimerCount() + this._microtasks.length; } onScheduleTask(delegate, current, target, task) { switch (task.type) { case 'microTask': let args = task.data && task.data.args; // should pass additional arguments to callback if have any // currently we know process.nextTick will have such additional // arguments let additionalArgs; if (args) { let callbackIndex = task.data.cbIdx; if (typeof args.length === 'number' && args.length > callbackIndex + 1) { additionalArgs = Array.prototype.slice.call(args, callbackIndex + 1); } } this._microtasks.push({ func: task.invoke, args: additionalArgs, target: task.data && task.data.target }); break; case 'macroTask': switch (task.source) { case 'setTimeout': task.data['handleId'] = this._setTimeout(task.invoke, task.data['delay'], Array.prototype.slice.call(task.data['args'], 2)); break; case 'setImmediate': task.data['handleId'] = this._setTimeout(task.invoke, 0, Array.prototype.slice.call(task.data['args'], 1)); break; case 'setInterval': task.data['handleId'] = this._setInterval(task.invoke, task.data['delay'], Array.prototype.slice.call(task.data['args'], 2)); break; case 'XMLHttpRequest.send': throw new Error('Cannot make XHRs from within a fake async test. Request URL: ' + task.data['url']); case 'requestAnimationFrame': case 'webkitRequestAnimationFrame': case 'mozRequestAnimationFrame': // Simulate a requestAnimationFrame by using a setTimeout with 16 ms. // (60 frames per second) task.data['handleId'] = this._setTimeout(task.invoke, 16, task.data['args'], this.trackPendingRequestAnimationFrame); break; default: // user can define which macroTask they want to support by passing // macroTaskOptions const macroTaskOption = this.findMacroTaskOption(task); if (macroTaskOption) { const args = task.data && task.data['args']; const delay = args && args.length > 1 ? args[1] : 0; let callbackArgs = macroTaskOption.callbackArgs ? macroTaskOption.callbackArgs : args; if (!!macroTaskOption.isPeriodic) { // periodic macroTask, use setInterval to simulate task.data['handleId'] = this._setInterval(task.invoke, delay, callbackArgs); task.data.isPeriodic = true; } else { // not periodic, use setTimeout to simulate task.data['handleId'] = this._setTimeout(task.invoke, delay, callbackArgs); } break; } throw new Error('Unknown macroTask scheduled in fake async test: ' + task.source); } break; case 'eventTask': task = delegate.scheduleTask(target, task); break; } return task; } onCancelTask(delegate, current, target, task) { switch (task.source) { case 'setTimeout': case 'requestAnimationFrame': case 'webkitRequestAnimationFrame': case 'mozRequestAnimationFrame': return this._clearTimeout(task.data['handleId']); case 'setInterval': return this._clearInterval(task.data['handleId']); default: // user can define which macroTask they want to support by passing // macroTaskOptions const macroTaskOption = this.findMacroTaskOption(task); if (macroTaskOption) { const handleId = task.data['handleId']; return macroTaskOption.isPeriodic ? this._clearInterval(handleId) : this._clearTimeout(handleId); } return delegate.cancelTask(target, task); } } onInvoke(delegate, current, target, callback, applyThis, applyArgs, source) { try { FakeAsyncTestZoneSpec.patchDate(); return delegate.invoke(target, callback, applyThis, applyArgs, source); } finally { if (!this.patchDateLocked) { FakeAsyncTestZoneSpec.resetDate(); } } } findMacroTaskOption(task) { if (!this.macroTaskOptions) { return null; } for (let i = 0; i < this.macroTaskOptions.length; i++) { const macroTaskOption = this.macroTaskOptions[i]; if (macroTaskOption.source === task.source) { return macroTaskOption; } } return null; } onHandleError(parentZoneDelegate, currentZone, targetZone, error) { this._lastError = error; return false; // Don't propagate error to parent zone. } } // Export the class so that new instances can be created with proper // constructor params. Zone['FakeAsyncTestZoneSpec'] = FakeAsyncTestZoneSpec; })(typeof window === 'object' && window || typeof self === 'object' && self || global); Zone.__load_patch('fakeasync', (global, Zone, api) => { const FakeAsyncTestZoneSpec = Zone && Zone['FakeAsyncTestZoneSpec']; function getProxyZoneSpec() { return Zone && Zone['ProxyZoneSpec']; } let _fakeAsyncTestZoneSpec = null; /** * Clears out the shared fake async zone for a test. * To be called in a global `beforeEach`. * * @experimental */ function resetFakeAsyncZone() { if (_fakeAsyncTestZoneSpec) { _fakeAsyncTestZoneSpec.unlockDatePatch(); } _fakeAsyncTestZoneSpec = null; // in node.js testing we may not have ProxyZoneSpec in which case there is nothing to reset. getProxyZoneSpec() && getProxyZoneSpec().assertPresent().resetDelegate(); } /** * Wraps a function to be executed in the fakeAsync zone: * - microtasks are manually executed by calling `flushMicrotasks()`, * - timers are synchronous, `tick()` simulates the asynchronous passage of time. * * If there are any pending timers at the end of the function, an exception will be thrown. * * Can be used to wrap inject() calls. * * ## Example * * {@example core/testing/ts/fake_async.ts region='basic'} * * @param fn * @returns The function wrapped to be executed in the fakeAsync zone * * @experimental */ function fakeAsync(fn) { // Not using an arrow function to preserve context passed from call site const fakeAsyncFn = function (...args) { const ProxyZoneSpec = getProxyZoneSpec(); if (!ProxyZoneSpec) { throw new Error('ProxyZoneSpec is needed for the async() test helper but could not be found. ' + 'Please make sure that your environment includes zone.js/dist/proxy.js'); } const proxyZoneSpec = ProxyZoneSpec.assertPresent(); if (Zone.current.get('FakeAsyncTestZoneSpec')) { throw new Error('fakeAsync() calls can not be nested'); } try { // in case jasmine.clock init a fakeAsyncTestZoneSpec if (!_fakeAsyncTestZoneSpec) { if (proxyZoneSpec.getDelegate() instanceof FakeAsyncTestZoneSpec) { throw new Error('fakeAsync() calls can not be nested'); } _fakeAsyncTestZoneSpec = new FakeAsyncTestZoneSpec(); } let res; const lastProxyZoneSpec = proxyZoneSpec.getDelegate(); proxyZoneSpec.setDelegate(_fakeAsyncTestZoneSpec); _fakeAsyncTestZoneSpec.lockDatePatch(); try { res = fn.apply(this, args); flushMicrotasks(); } finally { proxyZoneSpec.setDelegate(lastProxyZoneSpec); } if (_fakeAsyncTestZoneSpec.pendingPeriodicTimers.length > 0) { throw new Error(`${_fakeAsyncTestZoneSpec.pendingPeriodicTimers.length} ` + `periodic timer(s) still in the queue.`); } if (_fakeAsyncTestZoneSpec.pendingTimers.length > 0) { throw new Error(`${_fakeAsyncTestZoneSpec.pendingTimers.length} timer(s) still in the queue.`); } return res; } finally { resetFakeAsyncZone(); } }; fakeAsyncFn.isFakeAsync = true; return fakeAsyncFn; } function _getFakeAsyncZoneSpec() { if (_fakeAsyncTestZoneSpec == null) { _fakeAsyncTestZoneSpec = Zone.current.get('FakeAsyncTestZoneSpec'); if (_fakeAsyncTestZoneSpec == null) { throw new Error('The code should be running in the fakeAsync zone to call this function'); } } return _fakeAsyncTestZoneSpec; } /** * Simulates the asynchronous passage of time for the timers in the fakeAsync zone. * * The microtasks queue is drained at the very start of this function and after any timer callback * has been executed. * * ## Example * * {@example core/testing/ts/fake_async.ts region='basic'} * * @experimental */ function tick(millis = 0, ignoreNestedTimeout = false) { _getFakeAsyncZoneSpec().tick(millis, null, ignoreNestedTimeout); } /** * Simulates the asynchronous passage of time for the timers in the fakeAsync zone by * draining the macrotask queue until it is empty. The returned value is the milliseconds * of time that would have been elapsed. * * @param maxTurns * @returns The simulated time elapsed, in millis. * * @experimental */ function flush(maxTurns) { return _getFakeAsyncZoneSpec().flush(maxTurns); } /** * Discard all remaining periodic tasks. * * @experimental */ function discardPeriodicTasks() { const zoneSpec = _getFakeAsyncZoneSpec(); const pendingTimers = zoneSpec.pendingPeriodicTimers; zoneSpec.pendingPeriodicTimers.length = 0; } /** * Flush any pending microtasks. * * @experimental */ function flushMicrotasks() { _getFakeAsyncZoneSpec().flushMicrotasks(); } Zone[api.symbol('fakeAsyncTest')] = { resetFakeAsyncZone, flushMicrotasks, discardPeriodicTasks, tick, flush, fakeAsync }; }, true); /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ /** * Promise for async/fakeAsync zoneSpec test * can support async operation which not supported by zone.js * such as * it ('test jsonp in AsyncZone', async() => { * new Promise(res => { * jsonp(url, (data) => { * // success callback * res(data); * }); * }).then((jsonpResult) => { * // get jsonp result. * * // user will expect AsyncZoneSpec wait for * // then, but because jsonp is not zone aware * // AsyncZone will finish before then is called. * }); * }); */ Zone.__load_patch('promisefortest', (global, Zone, api) => { const symbolState = api.symbol('state'); const UNRESOLVED = null; const symbolParentUnresolved = api.symbol('parentUnresolved'); // patch Promise.prototype.then to keep an internal // number for tracking unresolved chained promise // we will decrease this number when the parent promise // being resolved/rejected and chained promise was // scheduled as a microTask. // so we can know such kind of chained promise still // not resolved in AsyncTestZone Promise[api.symbol('patchPromiseForTest')] = function patchPromiseForTest() { let oriThen = Promise[Zone.__symbol__('ZonePromiseThen')]; if (oriThen) { return; } oriThen = Promise[Zone.__symbol__('ZonePromiseThen')] = Promise.prototype.then; Promise.prototype.then = function () { const chained = oriThen.apply(this, arguments); if (this[symbolState] === UNRESOLVED) { // parent promise is unresolved. const asyncTestZoneSpec = Zone.current.get('AsyncTestZoneSpec'); if (asyncTestZoneSpec) { asyncTestZoneSpec.unresolvedChainedPromiseCount++; chained[symbolParentUnresolved] = true; } } return chained; }; }; Promise[api.symbol('unPatchPromiseForTest')] = function unpatchPromiseForTest() { // restore origin then const oriThen = Promise[Zone.__symbol__('ZonePromiseThen')]; if (oriThen) { Promise.prototype.then = oriThen; Promise[Zone.__symbol__('ZonePromiseThen')] = undefined; } }; });