'use strict'; /** * @license Angular v * (c) 2010-2022 Google LLC. https://angular.io/ * License: MIT */ ((function (global) { const performance = global['performance']; function mark(name) { performance && performance['mark'] && performance['mark'](name); } function performanceMeasure(name, label) { performance && performance['measure'] && performance['measure'](name, label); } mark('Zone'); // Initialize before it's accessed below. // __Zone_symbol_prefix global can be used to override the default zone // symbol prefix with a custom one if needed. const symbolPrefix = global['__Zone_symbol_prefix'] || '__zone_symbol__'; function __symbol__(name) { return symbolPrefix + name; } const checkDuplicate = global[__symbol__('forceDuplicateZoneCheck')] === true; if (global['Zone']) { // if global['Zone'] already exists (maybe zone.js was already loaded or // some other lib also registered a global object named Zone), we may need // to throw an error, but sometimes user may not want this error. // For example, // we have two web pages, page1 includes zone.js, page2 doesn't. // and the 1st time user load page1 and page2, everything work fine, // but when user load page2 again, error occurs because global['Zone'] already exists. // so we add a flag to let user choose whether to throw this error or not. // By default, if existing Zone is from zone.js, we will not throw the error. if (checkDuplicate || typeof global['Zone'].__symbol__ !== 'function') { throw new Error('Zone already loaded.'); } else { return global['Zone']; } } class Zone { // tslint:disable-next-line:require-internal-with-underscore static { this.__symbol__ = __symbol__; } static assertZonePatched() { if (global['Promise'] !== patches['ZoneAwarePromise']) { throw new Error('Zone.js has detected that ZoneAwarePromise `(window|global).Promise` ' + 'has been overwritten.\n' + 'Most likely cause is that a Promise polyfill has been loaded ' + 'after Zone.js (Polyfilling Promise api is not necessary when zone.js is loaded. ' + 'If you must load one, do so before loading zone.js.)'); } } static get root() { let zone = Zone.current; while (zone.parent) { zone = zone.parent; } return zone; } static get current() { return _currentZoneFrame.zone; } static get currentTask() { return _currentTask; } // tslint:disable-next-line:require-internal-with-underscore static __load_patch(name, fn, ignoreDuplicate = false) { if (patches.hasOwnProperty(name)) { // `checkDuplicate` option is defined from global variable // so it works for all modules. // `ignoreDuplicate` can work for the specified module if (!ignoreDuplicate && checkDuplicate) { throw Error('Already loaded patch: ' + name); } } else if (!global['__Zone_disable_' + name]) { const perfName = 'Zone:' + name; mark(perfName); patches[name] = fn(global, Zone, _api); performanceMeasure(perfName, perfName); } } get parent() { return this._parent; } get name() { return this._name; } constructor(parent, zoneSpec) { this._parent = parent; this._name = zoneSpec ? zoneSpec.name || 'unnamed' : ''; this._properties = zoneSpec && zoneSpec.properties || {}; this._zoneDelegate = new _ZoneDelegate(this, this._parent && this._parent._zoneDelegate, zoneSpec); } get(key) { const zone = this.getZoneWith(key); if (zone) return zone._properties[key]; } getZoneWith(key) { let current = this; while (current) { if (current._properties.hasOwnProperty(key)) { return current; } current = current._parent; } return null; } fork(zoneSpec) { if (!zoneSpec) throw new Error('ZoneSpec required!'); return this._zoneDelegate.fork(this, zoneSpec); } wrap(callback, source) { if (typeof callback !== 'function') { throw new Error('Expecting function got: ' + callback); } const _callback = this._zoneDelegate.intercept(this, callback, source); const zone = this; return function () { return zone.runGuarded(_callback, this, arguments, source); }; } run(callback, applyThis, applyArgs, source) { _currentZoneFrame = { parent: _currentZoneFrame, zone: this }; try { return this._zoneDelegate.invoke(this, callback, applyThis, applyArgs, source); } finally { _currentZoneFrame = _currentZoneFrame.parent; } } runGuarded(callback, applyThis = null, applyArgs, source) { _currentZoneFrame = { parent: _currentZoneFrame, zone: this }; try { try { return this._zoneDelegate.invoke(this, callback, applyThis, applyArgs, source); } catch (error) { if (this._zoneDelegate.handleError(this, error)) { throw error; } } } finally { _currentZoneFrame = _currentZoneFrame.parent; } } runTask(task, applyThis, applyArgs) { if (task.zone != this) { throw new Error('A task can only be run in the zone of creation! (Creation: ' + (task.zone || NO_ZONE).name + '; Execution: ' + this.name + ')'); } // https://github.com/angular/zone.js/issues/778, sometimes eventTask // will run in notScheduled(canceled) state, we should not try to // run such kind of task but just return if (task.state === notScheduled && (task.type === eventTask || task.type === macroTask)) { return; } const reEntryGuard = task.state != running; reEntryGuard && task._transitionTo(running, scheduled); task.runCount++; const previousTask = _currentTask; _currentTask = task; _currentZoneFrame = { parent: _currentZoneFrame, zone: this }; try { if (task.type == macroTask && task.data && !task.data.isPeriodic) { task.cancelFn = undefined; } try { return this._zoneDelegate.invokeTask(this, task, applyThis, applyArgs); } catch (error) { if (this._zoneDelegate.handleError(this, error)) { throw error; } } } finally { // if the task's state is notScheduled or unknown, then it has already been cancelled // we should not reset the state to scheduled if (task.state !== notScheduled && task.state !== unknown) { if (task.type == eventTask || (task.data && task.data.isPeriodic)) { reEntryGuard && task._transitionTo(scheduled, running); } else { task.runCount = 0; this._updateTaskCount(task, -1); reEntryGuard && task._transitionTo(notScheduled, running, notScheduled); } } _currentZoneFrame = _currentZoneFrame.parent; _currentTask = previousTask; } } scheduleTask(task) { if (task.zone && task.zone !== this) { // check if the task was rescheduled, the newZone // should not be the children of the original zone let newZone = this; while (newZone) { if (newZone === task.zone) { throw Error(`can not reschedule task to ${this.name} which is descendants of the original zone ${task.zone.name}`); } newZone = newZone.parent; } } task._transitionTo(scheduling, notScheduled); const zoneDelegates = []; task._zoneDelegates = zoneDelegates; task._zone = this; try { task = this._zoneDelegate.scheduleTask(this, task); } catch (err) { // should set task's state to unknown when scheduleTask throw error // because the err may from reschedule, so the fromState maybe notScheduled task._transitionTo(unknown, scheduling, notScheduled); // TODO: @JiaLiPassion, should we check the result from handleError? this._zoneDelegate.handleError(this, err); throw err; } if (task._zoneDelegates === zoneDelegates) { // we have to check because internally the delegate can reschedule the task. this._updateTaskCount(task, 1); } if (task.state == scheduling) { task._transitionTo(scheduled, scheduling); } return task; } scheduleMicroTask(source, callback, data, customSchedule) { return this.scheduleTask(new ZoneTask(microTask, source, callback, data, customSchedule, undefined)); } scheduleMacroTask(source, callback, data, customSchedule, customCancel) { return this.scheduleTask(new ZoneTask(macroTask, source, callback, data, customSchedule, customCancel)); } scheduleEventTask(source, callback, data, customSchedule, customCancel) { return this.scheduleTask(new ZoneTask(eventTask, source, callback, data, customSchedule, customCancel)); } cancelTask(task) { if (task.zone != this) throw new Error('A task can only be cancelled in the zone of creation! (Creation: ' + (task.zone || NO_ZONE).name + '; Execution: ' + this.name + ')'); if (task.state !== scheduled && task.state !== running) { return; } task._transitionTo(canceling, scheduled, running); try { this._zoneDelegate.cancelTask(this, task); } catch (err) { // if error occurs when cancelTask, transit the state to unknown task._transitionTo(unknown, canceling); this._zoneDelegate.handleError(this, err); throw err; } this._updateTaskCount(task, -1); task._transitionTo(notScheduled, canceling); task.runCount = 0; return task; } _updateTaskCount(task, count) { const zoneDelegates = task._zoneDelegates; if (count == -1) { task._zoneDelegates = null; } for (let i = 0; i < zoneDelegates.length; i++) { zoneDelegates[i]._updateTaskCount(task.type, count); } } } const DELEGATE_ZS = { name: '', onHasTask: (delegate, _, target, hasTaskState) => delegate.hasTask(target, hasTaskState), onScheduleTask: (delegate, _, target, task) => delegate.scheduleTask(target, task), onInvokeTask: (delegate, _, target, task, applyThis, applyArgs) => delegate.invokeTask(target, task, applyThis, applyArgs), onCancelTask: (delegate, _, target, task) => delegate.cancelTask(target, task) }; class _ZoneDelegate { constructor(zone, parentDelegate, zoneSpec) { this._taskCounts = { 'microTask': 0, 'macroTask': 0, 'eventTask': 0 }; this.zone = zone; this._parentDelegate = parentDelegate; this._forkZS = zoneSpec && (zoneSpec && zoneSpec.onFork ? zoneSpec : parentDelegate._forkZS); this._forkDlgt = zoneSpec && (zoneSpec.onFork ? parentDelegate : parentDelegate._forkDlgt); this._forkCurrZone = zoneSpec && (zoneSpec.onFork ? this.zone : parentDelegate._forkCurrZone); this._interceptZS = zoneSpec && (zoneSpec.onIntercept ? zoneSpec : parentDelegate._interceptZS); this._interceptDlgt = zoneSpec && (zoneSpec.onIntercept ? parentDelegate : parentDelegate._interceptDlgt); this._interceptCurrZone = zoneSpec && (zoneSpec.onIntercept ? this.zone : parentDelegate._interceptCurrZone); this._invokeZS = zoneSpec && (zoneSpec.onInvoke ? zoneSpec : parentDelegate._invokeZS); this._invokeDlgt = zoneSpec && (zoneSpec.onInvoke ? parentDelegate : parentDelegate._invokeDlgt); this._invokeCurrZone = zoneSpec && (zoneSpec.onInvoke ? this.zone : parentDelegate._invokeCurrZone); this._handleErrorZS = zoneSpec && (zoneSpec.onHandleError ? zoneSpec : parentDelegate._handleErrorZS); this._handleErrorDlgt = zoneSpec && (zoneSpec.onHandleError ? parentDelegate : parentDelegate._handleErrorDlgt); this._handleErrorCurrZone = zoneSpec && (zoneSpec.onHandleError ? this.zone : parentDelegate._handleErrorCurrZone); this._scheduleTaskZS = zoneSpec && (zoneSpec.onScheduleTask ? zoneSpec : parentDelegate._scheduleTaskZS); this._scheduleTaskDlgt = zoneSpec && (zoneSpec.onScheduleTask ? parentDelegate : parentDelegate._scheduleTaskDlgt); this._scheduleTaskCurrZone = zoneSpec && (zoneSpec.onScheduleTask ? this.zone : parentDelegate._scheduleTaskCurrZone); this._invokeTaskZS = zoneSpec && (zoneSpec.onInvokeTask ? zoneSpec : parentDelegate._invokeTaskZS); this._invokeTaskDlgt = zoneSpec && (zoneSpec.onInvokeTask ? parentDelegate : parentDelegate._invokeTaskDlgt); this._invokeTaskCurrZone = zoneSpec && (zoneSpec.onInvokeTask ? this.zone : parentDelegate._invokeTaskCurrZone); this._cancelTaskZS = zoneSpec && (zoneSpec.onCancelTask ? zoneSpec : parentDelegate._cancelTaskZS); this._cancelTaskDlgt = zoneSpec && (zoneSpec.onCancelTask ? parentDelegate : parentDelegate._cancelTaskDlgt); this._cancelTaskCurrZone = zoneSpec && (zoneSpec.onCancelTask ? this.zone : parentDelegate._cancelTaskCurrZone); this._hasTaskZS = null; this._hasTaskDlgt = null; this._hasTaskDlgtOwner = null; this._hasTaskCurrZone = null; const zoneSpecHasTask = zoneSpec && zoneSpec.onHasTask; const parentHasTask = parentDelegate && parentDelegate._hasTaskZS; if (zoneSpecHasTask || parentHasTask) { // If we need to report hasTask, than this ZS needs to do ref counting on tasks. In such // a case all task related interceptors must go through this ZD. We can't short circuit it. this._hasTaskZS = zoneSpecHasTask ? zoneSpec : DELEGATE_ZS; this._hasTaskDlgt = parentDelegate; this._hasTaskDlgtOwner = this; this._hasTaskCurrZone = zone; if (!zoneSpec.onScheduleTask) { this._scheduleTaskZS = DELEGATE_ZS; this._scheduleTaskDlgt = parentDelegate; this._scheduleTaskCurrZone = this.zone; } if (!zoneSpec.onInvokeTask) { this._invokeTaskZS = DELEGATE_ZS; this._invokeTaskDlgt = parentDelegate; this._invokeTaskCurrZone = this.zone; } if (!zoneSpec.onCancelTask) { this._cancelTaskZS = DELEGATE_ZS; this._cancelTaskDlgt = parentDelegate; this._cancelTaskCurrZone = this.zone; } } } fork(targetZone, zoneSpec) { return this._forkZS ? this._forkZS.onFork(this._forkDlgt, this.zone, targetZone, zoneSpec) : new Zone(targetZone, zoneSpec); } intercept(targetZone, callback, source) { return this._interceptZS ? this._interceptZS.onIntercept(this._interceptDlgt, this._interceptCurrZone, targetZone, callback, source) : callback; } invoke(targetZone, callback, applyThis, applyArgs, source) { return this._invokeZS ? this._invokeZS.onInvoke(this._invokeDlgt, this._invokeCurrZone, targetZone, callback, applyThis, applyArgs, source) : callback.apply(applyThis, applyArgs); } handleError(targetZone, error) { return this._handleErrorZS ? this._handleErrorZS.onHandleError(this._handleErrorDlgt, this._handleErrorCurrZone, targetZone, error) : true; } scheduleTask(targetZone, task) { let returnTask = task; if (this._scheduleTaskZS) { if (this._hasTaskZS) { returnTask._zoneDelegates.push(this._hasTaskDlgtOwner); } // clang-format off returnTask = this._scheduleTaskZS.onScheduleTask(this._scheduleTaskDlgt, this._scheduleTaskCurrZone, targetZone, task); // clang-format on if (!returnTask) returnTask = task; } else { if (task.scheduleFn) { task.scheduleFn(task); } else if (task.type == microTask) { scheduleMicroTask(task); } else { throw new Error('Task is missing scheduleFn.'); } } return returnTask; } invokeTask(targetZone, task, applyThis, applyArgs) { return this._invokeTaskZS ? this._invokeTaskZS.onInvokeTask(this._invokeTaskDlgt, this._invokeTaskCurrZone, targetZone, task, applyThis, applyArgs) : task.callback.apply(applyThis, applyArgs); } cancelTask(targetZone, task) { let value; if (this._cancelTaskZS) { value = this._cancelTaskZS.onCancelTask(this._cancelTaskDlgt, this._cancelTaskCurrZone, targetZone, task); } else { if (!task.cancelFn) { throw Error('Task is not cancelable'); } value = task.cancelFn(task); } return value; } hasTask(targetZone, isEmpty) { // hasTask should not throw error so other ZoneDelegate // can still trigger hasTask callback try { this._hasTaskZS && this._hasTaskZS.onHasTask(this._hasTaskDlgt, this._hasTaskCurrZone, targetZone, isEmpty); } catch (err) { this.handleError(targetZone, err); } } // tslint:disable-next-line:require-internal-with-underscore _updateTaskCount(type, count) { const counts = this._taskCounts; const prev = counts[type]; const next = counts[type] = prev + count; if (next < 0) { throw new Error('More tasks executed then were scheduled.'); } if (prev == 0 || next == 0) { const isEmpty = { microTask: counts['microTask'] > 0, macroTask: counts['macroTask'] > 0, eventTask: counts['eventTask'] > 0, change: type }; this.hasTask(this.zone, isEmpty); } } } class ZoneTask { constructor(type, source, callback, options, scheduleFn, cancelFn) { // tslint:disable-next-line:require-internal-with-underscore this._zone = null; this.runCount = 0; // tslint:disable-next-line:require-internal-with-underscore this._zoneDelegates = null; // tslint:disable-next-line:require-internal-with-underscore this._state = 'notScheduled'; this.type = type; this.source = source; this.data = options; this.scheduleFn = scheduleFn; this.cancelFn = cancelFn; if (!callback) { throw new Error('callback is not defined'); } this.callback = callback; const self = this; // TODO: @JiaLiPassion options should have interface if (type === eventTask && options && options.useG) { this.invoke = ZoneTask.invokeTask; } else { this.invoke = function () { return ZoneTask.invokeTask.call(global, self, this, arguments); }; } } static invokeTask(task, target, args) { if (!task) { task = this; } _numberOfNestedTaskFrames++; try { task.runCount++; return task.zone.runTask(task, target, args); } finally { if (_numberOfNestedTaskFrames == 1) { drainMicroTaskQueue(); } _numberOfNestedTaskFrames--; } } get zone() { return this._zone; } get state() { return this._state; } cancelScheduleRequest() { this._transitionTo(notScheduled, scheduling); } // tslint:disable-next-line:require-internal-with-underscore _transitionTo(toState, fromState1, fromState2) { if (this._state === fromState1 || this._state === fromState2) { this._state = toState; if (toState == notScheduled) { this._zoneDelegates = null; } } else { throw new Error(`${this.type} '${this.source}': can not transition to '${toState}', expecting state '${fromState1}'${fromState2 ? ' or \'' + fromState2 + '\'' : ''}, was '${this._state}'.`); } } toString() { if (this.data && typeof this.data.handleId !== 'undefined') { return this.data.handleId.toString(); } else { return Object.prototype.toString.call(this); } } // add toJSON method to prevent cyclic error when // call JSON.stringify(zoneTask) toJSON() { return { type: this.type, state: this.state, source: this.source, zone: this.zone.name, runCount: this.runCount }; } } ////////////////////////////////////////////////////// ////////////////////////////////////////////////////// /// MICROTASK QUEUE ////////////////////////////////////////////////////// ////////////////////////////////////////////////////// const symbolSetTimeout = __symbol__('setTimeout'); const symbolPromise = __symbol__('Promise'); const symbolThen = __symbol__('then'); let _microTaskQueue = []; let _isDrainingMicrotaskQueue = false; let nativeMicroTaskQueuePromise; function nativeScheduleMicroTask(func) { if (!nativeMicroTaskQueuePromise) { if (global[symbolPromise]) { nativeMicroTaskQueuePromise = global[symbolPromise].resolve(0); } } if (nativeMicroTaskQueuePromise) { let nativeThen = nativeMicroTaskQueuePromise[symbolThen]; if (!nativeThen) { // native Promise is not patchable, we need to use `then` directly // issue 1078 nativeThen = nativeMicroTaskQueuePromise['then']; } nativeThen.call(nativeMicroTaskQueuePromise, func); } else { global[symbolSetTimeout](func, 0); } } function scheduleMicroTask(task) { // if we are not running in any task, and there has not been anything scheduled // we must bootstrap the initial task creation by manually scheduling the drain if (_numberOfNestedTaskFrames === 0 && _microTaskQueue.length === 0) { // We are not running in Task, so we need to kickstart the microtask queue. nativeScheduleMicroTask(drainMicroTaskQueue); } task && _microTaskQueue.push(task); } function drainMicroTaskQueue() { if (!_isDrainingMicrotaskQueue) { _isDrainingMicrotaskQueue = true; while (_microTaskQueue.length) { const queue = _microTaskQueue; _microTaskQueue = []; for (let i = 0; i < queue.length; i++) { const task = queue[i]; try { task.zone.runTask(task, null, null); } catch (error) { _api.onUnhandledError(error); } } } _api.microtaskDrainDone(); _isDrainingMicrotaskQueue = false; } } ////////////////////////////////////////////////////// ////////////////////////////////////////////////////// /// BOOTSTRAP ////////////////////////////////////////////////////// ////////////////////////////////////////////////////// const NO_ZONE = { name: 'NO ZONE' }; const notScheduled = 'notScheduled', scheduling = 'scheduling', scheduled = 'scheduled', running = 'running', canceling = 'canceling', unknown = 'unknown'; const microTask = 'microTask', macroTask = 'macroTask', eventTask = 'eventTask'; const patches = {}; const _api = { symbol: __symbol__, currentZoneFrame: () => _currentZoneFrame, onUnhandledError: noop, microtaskDrainDone: noop, scheduleMicroTask: scheduleMicroTask, showUncaughtError: () => !Zone[__symbol__('ignoreConsoleErrorUncaughtError')], patchEventTarget: () => [], patchOnProperties: noop, patchMethod: () => noop, bindArguments: () => [], patchThen: () => noop, patchMacroTask: () => noop, patchEventPrototype: () => noop, isIEOrEdge: () => false, getGlobalObjects: () => undefined, ObjectDefineProperty: () => noop, ObjectGetOwnPropertyDescriptor: () => undefined, ObjectCreate: () => undefined, ArraySlice: () => [], patchClass: () => noop, wrapWithCurrentZone: () => noop, filterProperties: () => [], attachOriginToPatched: () => noop, _redefineProperty: () => noop, patchCallbacks: () => noop, nativeScheduleMicroTask: nativeScheduleMicroTask }; let _currentZoneFrame = { parent: null, zone: new Zone(null, null) }; let _currentTask = null; let _numberOfNestedTaskFrames = 0; function noop() { } performanceMeasure('Zone', 'Zone'); return global['Zone'] = Zone; }))(typeof window !== 'undefined' && window || typeof self !== 'undefined' && self || global); /** * Suppress closure compiler errors about unknown 'Zone' variable * @fileoverview * @suppress {undefinedVars,globalThis,missingRequire} */ /// // issue #989, to reduce bundle size, use short name /** Object.getOwnPropertyDescriptor */ const ObjectGetOwnPropertyDescriptor = Object.getOwnPropertyDescriptor; /** Object.defineProperty */ const ObjectDefineProperty = Object.defineProperty; /** Object.getPrototypeOf */ const ObjectGetPrototypeOf = Object.getPrototypeOf; /** Array.prototype.slice */ const ArraySlice = Array.prototype.slice; /** addEventListener string const */ const ADD_EVENT_LISTENER_STR = 'addEventListener'; /** removeEventListener string const */ const REMOVE_EVENT_LISTENER_STR = 'removeEventListener'; /** zoneSymbol addEventListener */ Zone.__symbol__(ADD_EVENT_LISTENER_STR); /** zoneSymbol removeEventListener */ Zone.__symbol__(REMOVE_EVENT_LISTENER_STR); /** true string const */ const TRUE_STR = 'true'; /** false string const */ const FALSE_STR = 'false'; /** Zone symbol prefix string const. */ const ZONE_SYMBOL_PREFIX = Zone.__symbol__(''); function wrapWithCurrentZone(callback, source) { return Zone.current.wrap(callback, source); } function scheduleMacroTaskWithCurrentZone(source, callback, data, customSchedule, customCancel) { return Zone.current.scheduleMacroTask(source, callback, data, customSchedule, customCancel); } const zoneSymbol = Zone.__symbol__; const isWindowExists = typeof window !== 'undefined'; const internalWindow = isWindowExists ? window : undefined; const _global = isWindowExists && internalWindow || typeof self === 'object' && self || global; const REMOVE_ATTRIBUTE = 'removeAttribute'; function bindArguments(args, source) { for (let i = args.length - 1; i >= 0; i--) { if (typeof args[i] === 'function') { args[i] = wrapWithCurrentZone(args[i], source + '_' + i); } } return args; } function isPropertyWritable(propertyDesc) { if (!propertyDesc) { return true; } if (propertyDesc.writable === false) { return false; } return !(typeof propertyDesc.get === 'function' && typeof propertyDesc.set === 'undefined'); } const isWebWorker = (typeof WorkerGlobalScope !== 'undefined' && self instanceof WorkerGlobalScope); // Make sure to access `process` through `_global` so that WebPack does not accidentally browserify // this code. const isNode = (!('nw' in _global) && typeof _global.process !== 'undefined' && {}.toString.call(_global.process) === '[object process]'); const isBrowser = !isNode && !isWebWorker && !!(isWindowExists && internalWindow['HTMLElement']); // we are in electron of nw, so we are both browser and nodejs // Make sure to access `process` through `_global` so that WebPack does not accidentally browserify // this code. const isMix = typeof _global.process !== 'undefined' && {}.toString.call(_global.process) === '[object process]' && !isWebWorker && !!(isWindowExists && internalWindow['HTMLElement']); const zoneSymbolEventNames$1 = {}; const wrapFn = function (event) { // https://github.com/angular/zone.js/issues/911, in IE, sometimes // event will be undefined, so we need to use window.event event = event || _global.event; if (!event) { return; } let eventNameSymbol = zoneSymbolEventNames$1[event.type]; if (!eventNameSymbol) { eventNameSymbol = zoneSymbolEventNames$1[event.type] = zoneSymbol('ON_PROPERTY' + event.type); } const target = this || event.target || _global; const listener = target[eventNameSymbol]; let result; if (isBrowser && target === internalWindow && event.type === 'error') { // window.onerror have different signature // https://developer.mozilla.org/en-US/docs/Web/API/GlobalEventHandlers/onerror#window.onerror // and onerror callback will prevent default when callback return true const errorEvent = event; result = listener && listener.call(this, errorEvent.message, errorEvent.filename, errorEvent.lineno, errorEvent.colno, errorEvent.error); if (result === true) { event.preventDefault(); } } else { result = listener && listener.apply(this, arguments); if (result != undefined && !result) { event.preventDefault(); } } return result; }; function patchProperty(obj, prop, prototype) { let desc = ObjectGetOwnPropertyDescriptor(obj, prop); if (!desc && prototype) { // when patch window object, use prototype to check prop exist or not const prototypeDesc = ObjectGetOwnPropertyDescriptor(prototype, prop); if (prototypeDesc) { desc = { enumerable: true, configurable: true }; } } // if the descriptor not exists or is not configurable // just return if (!desc || !desc.configurable) { return; } const onPropPatchedSymbol = zoneSymbol('on' + prop + 'patched'); if (obj.hasOwnProperty(onPropPatchedSymbol) && obj[onPropPatchedSymbol]) { return; } // A property descriptor cannot have getter/setter and be writable // deleting the writable and value properties avoids this error: // // TypeError: property descriptors must not specify a value or be writable when a // getter or setter has been specified delete desc.writable; delete desc.value; const originalDescGet = desc.get; const originalDescSet = desc.set; // slice(2) cuz 'onclick' -> 'click', etc const eventName = prop.slice(2); let eventNameSymbol = zoneSymbolEventNames$1[eventName]; if (!eventNameSymbol) { eventNameSymbol = zoneSymbolEventNames$1[eventName] = zoneSymbol('ON_PROPERTY' + eventName); } desc.set = function (newValue) { // in some of windows's onproperty callback, this is undefined // so we need to check it let target = this; if (!target && obj === _global) { target = _global; } if (!target) { return; } const previousValue = target[eventNameSymbol]; if (typeof previousValue === 'function') { target.removeEventListener(eventName, wrapFn); } // issue #978, when onload handler was added before loading zone.js // we should remove it with originalDescSet originalDescSet && originalDescSet.call(target, null); target[eventNameSymbol] = newValue; if (typeof newValue === 'function') { target.addEventListener(eventName, wrapFn, false); } }; // The getter would return undefined for unassigned properties but the default value of an // unassigned property is null desc.get = function () { // in some of windows's onproperty callback, this is undefined // so we need to check it let target = this; if (!target && obj === _global) { target = _global; } if (!target) { return null; } const listener = target[eventNameSymbol]; if (listener) { return listener; } else if (originalDescGet) { // result will be null when use inline event attribute, // such as // because the onclick function is internal raw uncompiled handler // the onclick will be evaluated when first time event was triggered or // the property is accessed, https://github.com/angular/zone.js/issues/525 // so we should use original native get to retrieve the handler let value = originalDescGet.call(this); if (value) { desc.set.call(this, value); if (typeof target[REMOVE_ATTRIBUTE] === 'function') { target.removeAttribute(prop); } return value; } } return null; }; ObjectDefineProperty(obj, prop, desc); obj[onPropPatchedSymbol] = true; } function patchOnProperties(obj, properties, prototype) { if (properties) { for (let i = 0; i < properties.length; i++) { patchProperty(obj, 'on' + properties[i], prototype); } } else { const onProperties = []; for (const prop in obj) { if (prop.slice(0, 2) == 'on') { onProperties.push(prop); } } for (let j = 0; j < onProperties.length; j++) { patchProperty(obj, onProperties[j], prototype); } } } zoneSymbol('originalInstance'); function copySymbolProperties(src, dest) { if (typeof Object.getOwnPropertySymbols !== 'function') { return; } const symbols = Object.getOwnPropertySymbols(src); symbols.forEach((symbol) => { const desc = Object.getOwnPropertyDescriptor(src, symbol); Object.defineProperty(dest, symbol, { get: function () { return src[symbol]; }, set: function (value) { if (desc && (!desc.writable || typeof desc.set !== 'function')) { // if src[symbol] is not writable or not have a setter, just return return; } src[symbol] = value; }, enumerable: desc ? desc.enumerable : true, configurable: desc ? desc.configurable : true }); }); } let shouldCopySymbolProperties = false; function setShouldCopySymbolProperties(flag) { shouldCopySymbolProperties = flag; } function patchMethod(target, name, patchFn) { let proto = target; while (proto && !proto.hasOwnProperty(name)) { proto = ObjectGetPrototypeOf(proto); } if (!proto && target[name]) { // somehow we did not find it, but we can see it. This happens on IE for Window properties. proto = target; } const delegateName = zoneSymbol(name); let delegate = null; if (proto && (!(delegate = proto[delegateName]) || !proto.hasOwnProperty(delegateName))) { delegate = proto[delegateName] = proto[name]; // check whether proto[name] is writable // some property is readonly in safari, such as HtmlCanvasElement.prototype.toBlob const desc = proto && ObjectGetOwnPropertyDescriptor(proto, name); if (isPropertyWritable(desc)) { const patchDelegate = patchFn(delegate, delegateName, name); proto[name] = function () { return patchDelegate(this, arguments); }; attachOriginToPatched(proto[name], delegate); if (shouldCopySymbolProperties) { copySymbolProperties(delegate, proto[name]); } } } return delegate; } // TODO: @JiaLiPassion, support cancel task later if necessary function patchMacroTask(obj, funcName, metaCreator) { let setNative = null; function scheduleTask(task) { const data = task.data; data.args[data.cbIdx] = function () { task.invoke.apply(this, arguments); }; setNative.apply(data.target, data.args); return task; } setNative = patchMethod(obj, funcName, (delegate) => function (self, args) { const meta = metaCreator(self, args); if (meta.cbIdx >= 0 && typeof args[meta.cbIdx] === 'function') { return scheduleMacroTaskWithCurrentZone(meta.name, args[meta.cbIdx], meta, scheduleTask); } else { // cause an error by calling it directly. return delegate.apply(self, args); } }); } function patchMicroTask(obj, funcName, metaCreator) { let setNative = null; function scheduleTask(task) { const data = task.data; data.args[data.cbIdx] = function () { task.invoke.apply(this, arguments); }; setNative.apply(data.target, data.args); return task; } setNative = patchMethod(obj, funcName, (delegate) => function (self, args) { const meta = metaCreator(self, args); if (meta.cbIdx >= 0 && typeof args[meta.cbIdx] === 'function') { return Zone.current.scheduleMicroTask(meta.name, args[meta.cbIdx], meta, scheduleTask); } else { // cause an error by calling it directly. return delegate.apply(self, args); } }); } function attachOriginToPatched(patched, original) { patched[zoneSymbol('OriginalDelegate')] = original; } Zone.__load_patch('ZoneAwarePromise', (global, Zone, api) => { const ObjectGetOwnPropertyDescriptor = Object.getOwnPropertyDescriptor; const ObjectDefineProperty = Object.defineProperty; function readableObjectToString(obj) { if (obj && obj.toString === Object.prototype.toString) { const className = obj.constructor && obj.constructor.name; return (className ? className : '') + ': ' + JSON.stringify(obj); } return obj ? obj.toString() : Object.prototype.toString.call(obj); } const __symbol__ = api.symbol; const _uncaughtPromiseErrors = []; const isDisableWrappingUncaughtPromiseRejection = global[__symbol__('DISABLE_WRAPPING_UNCAUGHT_PROMISE_REJECTION')] === true; const symbolPromise = __symbol__('Promise'); const symbolThen = __symbol__('then'); const creationTrace = '__creationTrace__'; api.onUnhandledError = (e) => { if (api.showUncaughtError()) { const rejection = e && e.rejection; if (rejection) { console.error('Unhandled Promise rejection:', rejection instanceof Error ? rejection.message : rejection, '; Zone:', e.zone.name, '; Task:', e.task && e.task.source, '; Value:', rejection, rejection instanceof Error ? rejection.stack : undefined); } else { console.error(e); } } }; api.microtaskDrainDone = () => { while (_uncaughtPromiseErrors.length) { const uncaughtPromiseError = _uncaughtPromiseErrors.shift(); try { uncaughtPromiseError.zone.runGuarded(() => { if (uncaughtPromiseError.throwOriginal) { throw uncaughtPromiseError.rejection; } throw uncaughtPromiseError; }); } catch (error) { handleUnhandledRejection(error); } } }; const UNHANDLED_PROMISE_REJECTION_HANDLER_SYMBOL = __symbol__('unhandledPromiseRejectionHandler'); function handleUnhandledRejection(e) { api.onUnhandledError(e); try { const handler = Zone[UNHANDLED_PROMISE_REJECTION_HANDLER_SYMBOL]; if (typeof handler === 'function') { handler.call(this, e); } } catch (err) { } } function isThenable(value) { return value && value.then; } function forwardResolution(value) { return value; } function forwardRejection(rejection) { return ZoneAwarePromise.reject(rejection); } const symbolState = __symbol__('state'); const symbolValue = __symbol__('value'); const symbolFinally = __symbol__('finally'); const symbolParentPromiseValue = __symbol__('parentPromiseValue'); const symbolParentPromiseState = __symbol__('parentPromiseState'); const source = 'Promise.then'; const UNRESOLVED = null; const RESOLVED = true; const REJECTED = false; const REJECTED_NO_CATCH = 0; function makeResolver(promise, state) { return (v) => { try { resolvePromise(promise, state, v); } catch (err) { resolvePromise(promise, false, err); } // Do not return value or you will break the Promise spec. }; } const once = function () { let wasCalled = false; return function wrapper(wrappedFunction) { return function () { if (wasCalled) { return; } wasCalled = true; wrappedFunction.apply(null, arguments); }; }; }; const TYPE_ERROR = 'Promise resolved with itself'; const CURRENT_TASK_TRACE_SYMBOL = __symbol__('currentTaskTrace'); // Promise Resolution function resolvePromise(promise, state, value) { const onceWrapper = once(); if (promise === value) { throw new TypeError(TYPE_ERROR); } if (promise[symbolState] === UNRESOLVED) { // should only get value.then once based on promise spec. let then = null; try { if (typeof value === 'object' || typeof value === 'function') { then = value && value.then; } } catch (err) { onceWrapper(() => { resolvePromise(promise, false, err); })(); return promise; } // if (value instanceof ZoneAwarePromise) { if (state !== REJECTED && value instanceof ZoneAwarePromise && value.hasOwnProperty(symbolState) && value.hasOwnProperty(symbolValue) && value[symbolState] !== UNRESOLVED) { clearRejectedNoCatch(value); resolvePromise(promise, value[symbolState], value[symbolValue]); } else if (state !== REJECTED && typeof then === 'function') { try { then.call(value, onceWrapper(makeResolver(promise, state)), onceWrapper(makeResolver(promise, false))); } catch (err) { onceWrapper(() => { resolvePromise(promise, false, err); })(); } } else { promise[symbolState] = state; const queue = promise[symbolValue]; promise[symbolValue] = value; if (promise[symbolFinally] === symbolFinally) { // the promise is generated by Promise.prototype.finally if (state === RESOLVED) { // the state is resolved, should ignore the value // and use parent promise value promise[symbolState] = promise[symbolParentPromiseState]; promise[symbolValue] = promise[symbolParentPromiseValue]; } } // record task information in value when error occurs, so we can // do some additional work such as render longStackTrace if (state === REJECTED && value instanceof Error) { // check if longStackTraceZone is here const trace = Zone.currentTask && Zone.currentTask.data && Zone.currentTask.data[creationTrace]; if (trace) { // only keep the long stack trace into error when in longStackTraceZone ObjectDefineProperty(value, CURRENT_TASK_TRACE_SYMBOL, { configurable: true, enumerable: false, writable: true, value: trace }); } } for (let i = 0; i < queue.length;) { scheduleResolveOrReject(promise, queue[i++], queue[i++], queue[i++], queue[i++]); } if (queue.length == 0 && state == REJECTED) { promise[symbolState] = REJECTED_NO_CATCH; let uncaughtPromiseError = value; try { // Here we throws a new Error to print more readable error log // and if the value is not an error, zone.js builds an `Error` // Object here to attach the stack information. throw new Error('Uncaught (in promise): ' + readableObjectToString(value) + (value && value.stack ? '\n' + value.stack : '')); } catch (err) { uncaughtPromiseError = err; } if (isDisableWrappingUncaughtPromiseRejection) { // If disable wrapping uncaught promise reject // use the value instead of wrapping it. uncaughtPromiseError.throwOriginal = true; } uncaughtPromiseError.rejection = value; uncaughtPromiseError.promise = promise; uncaughtPromiseError.zone = Zone.current; uncaughtPromiseError.task = Zone.currentTask; _uncaughtPromiseErrors.push(uncaughtPromiseError); api.scheduleMicroTask(); // to make sure that it is running } } } // Resolving an already resolved promise is a noop. return promise; } const REJECTION_HANDLED_HANDLER = __symbol__('rejectionHandledHandler'); function clearRejectedNoCatch(promise) { if (promise[symbolState] === REJECTED_NO_CATCH) { // if the promise is rejected no catch status // and queue.length > 0, means there is a error handler // here to handle the rejected promise, we should trigger // windows.rejectionhandled eventHandler or nodejs rejectionHandled // eventHandler try { const handler = Zone[REJECTION_HANDLED_HANDLER]; if (handler && typeof handler === 'function') { handler.call(this, { rejection: promise[symbolValue], promise: promise }); } } catch (err) { } promise[symbolState] = REJECTED; for (let i = 0; i < _uncaughtPromiseErrors.length; i++) { if (promise === _uncaughtPromiseErrors[i].promise) { _uncaughtPromiseErrors.splice(i, 1); } } } } function scheduleResolveOrReject(promise, zone, chainPromise, onFulfilled, onRejected) { clearRejectedNoCatch(promise); const promiseState = promise[symbolState]; const delegate = promiseState ? (typeof onFulfilled === 'function') ? onFulfilled : forwardResolution : (typeof onRejected === 'function') ? onRejected : forwardRejection; zone.scheduleMicroTask(source, () => { try { const parentPromiseValue = promise[symbolValue]; const isFinallyPromise = !!chainPromise && symbolFinally === chainPromise[symbolFinally]; if (isFinallyPromise) { // if the promise is generated from finally call, keep parent promise's state and value chainPromise[symbolParentPromiseValue] = parentPromiseValue; chainPromise[symbolParentPromiseState] = promiseState; } // should not pass value to finally callback const value = zone.run(delegate, undefined, isFinallyPromise && delegate !== forwardRejection && delegate !== forwardResolution ? [] : [parentPromiseValue]); resolvePromise(chainPromise, true, value); } catch (error) { // if error occurs, should always return this error resolvePromise(chainPromise, false, error); } }, chainPromise); } const ZONE_AWARE_PROMISE_TO_STRING = 'function ZoneAwarePromise() { [native code] }'; const noop = function () { }; const AggregateError = global.AggregateError; class ZoneAwarePromise { static toString() { return ZONE_AWARE_PROMISE_TO_STRING; } static resolve(value) { return resolvePromise(new this(null), RESOLVED, value); } static reject(error) { return resolvePromise(new this(null), REJECTED, error); } static any(values) { if (!values || typeof values[Symbol.iterator] !== 'function') { return Promise.reject(new AggregateError([], 'All promises were rejected')); } const promises = []; let count = 0; try { for (let v of values) { count++; promises.push(ZoneAwarePromise.resolve(v)); } } catch (err) { return Promise.reject(new AggregateError([], 'All promises were rejected')); } if (count === 0) { return Promise.reject(new AggregateError([], 'All promises were rejected')); } let finished = false; const errors = []; return new ZoneAwarePromise((resolve, reject) => { for (let i = 0; i < promises.length; i++) { promises[i].then(v => { if (finished) { return; } finished = true; resolve(v); }, err => { errors.push(err); count--; if (count === 0) { finished = true; reject(new AggregateError(errors, 'All promises were rejected')); } }); } }); } ; static race(values) { let resolve; let reject; let promise = new this((res, rej) => { resolve = res; reject = rej; }); function onResolve(value) { resolve(value); } function onReject(error) { reject(error); } for (let value of values) { if (!isThenable(value)) { value = this.resolve(value); } value.then(onResolve, onReject); } return promise; } static all(values) { return ZoneAwarePromise.allWithCallback(values); } static allSettled(values) { const P = this && this.prototype instanceof ZoneAwarePromise ? this : ZoneAwarePromise; return P.allWithCallback(values, { thenCallback: (value) => ({ status: 'fulfilled', value }), errorCallback: (err) => ({ status: 'rejected', reason: err }) }); } static allWithCallback(values, callback) { let resolve; let reject; let promise = new this((res, rej) => { resolve = res; reject = rej; }); // Start at 2 to prevent prematurely resolving if .then is called immediately. let unresolvedCount = 2; let valueIndex = 0; const resolvedValues = []; for (let value of values) { if (!isThenable(value)) { value = this.resolve(value); } const curValueIndex = valueIndex; try { value.then((value) => { resolvedValues[curValueIndex] = callback ? callback.thenCallback(value) : value; unresolvedCount--; if (unresolvedCount === 0) { resolve(resolvedValues); } }, (err) => { if (!callback) { reject(err); } else { resolvedValues[curValueIndex] = callback.errorCallback(err); unresolvedCount--; if (unresolvedCount === 0) { resolve(resolvedValues); } } }); } catch (thenErr) { reject(thenErr); } unresolvedCount++; valueIndex++; } // Make the unresolvedCount zero-based again. unresolvedCount -= 2; if (unresolvedCount === 0) { resolve(resolvedValues); } return promise; } constructor(executor) { const promise = this; if (!(promise instanceof ZoneAwarePromise)) { throw new Error('Must be an instanceof Promise.'); } promise[symbolState] = UNRESOLVED; promise[symbolValue] = []; // queue; try { const onceWrapper = once(); executor && executor(onceWrapper(makeResolver(promise, RESOLVED)), onceWrapper(makeResolver(promise, REJECTED))); } catch (error) { resolvePromise(promise, false, error); } } get [Symbol.toStringTag]() { return 'Promise'; } get [Symbol.species]() { return ZoneAwarePromise; } then(onFulfilled, onRejected) { // We must read `Symbol.species` safely because `this` may be anything. For instance, `this` // may be an object without a prototype (created through `Object.create(null)`); thus // `this.constructor` will be undefined. One of the use cases is SystemJS creating // prototype-less objects (modules) via `Object.create(null)`. The SystemJS creates an empty // object and copies promise properties into that object (within the `getOrCreateLoad` // function). The zone.js then checks if the resolved value has the `then` method and invokes // it with the `value` context. Otherwise, this will throw an error: `TypeError: Cannot read // properties of undefined (reading 'Symbol(Symbol.species)')`. let C = this.constructor?.[Symbol.species]; if (!C || typeof C !== 'function') { C = this.constructor || ZoneAwarePromise; } const chainPromise = new C(noop); const zone = Zone.current; if (this[symbolState] == UNRESOLVED) { this[symbolValue].push(zone, chainPromise, onFulfilled, onRejected); } else { scheduleResolveOrReject(this, zone, chainPromise, onFulfilled, onRejected); } return chainPromise; } catch(onRejected) { return this.then(null, onRejected); } finally(onFinally) { // See comment on the call to `then` about why thee `Symbol.species` is safely accessed. let C = this.constructor?.[Symbol.species]; if (!C || typeof C !== 'function') { C = ZoneAwarePromise; } const chainPromise = new C(noop); chainPromise[symbolFinally] = symbolFinally; const zone = Zone.current; if (this[symbolState] == UNRESOLVED) { this[symbolValue].push(zone, chainPromise, onFinally, onFinally); } else { scheduleResolveOrReject(this, zone, chainPromise, onFinally, onFinally); } return chainPromise; } } // Protect against aggressive optimizers dropping seemingly unused properties. // E.g. Closure Compiler in advanced mode. ZoneAwarePromise['resolve'] = ZoneAwarePromise.resolve; ZoneAwarePromise['reject'] = ZoneAwarePromise.reject; ZoneAwarePromise['race'] = ZoneAwarePromise.race; ZoneAwarePromise['all'] = ZoneAwarePromise.all; const NativePromise = global[symbolPromise] = global['Promise']; global['Promise'] = ZoneAwarePromise; const symbolThenPatched = __symbol__('thenPatched'); function patchThen(Ctor) { const proto = Ctor.prototype; const prop = ObjectGetOwnPropertyDescriptor(proto, 'then'); if (prop && (prop.writable === false || !prop.configurable)) { // check Ctor.prototype.then propertyDescriptor is writable or not // in meteor env, writable is false, we should ignore such case return; } const originalThen = proto.then; // Keep a reference to the original method. proto[symbolThen] = originalThen; Ctor.prototype.then = function (onResolve, onReject) { const wrapped = new ZoneAwarePromise((resolve, reject) => { originalThen.call(this, resolve, reject); }); return wrapped.then(onResolve, onReject); }; Ctor[symbolThenPatched] = true; } api.patchThen = patchThen; function zoneify(fn) { return function (self, args) { let resultPromise = fn.apply(self, args); if (resultPromise instanceof ZoneAwarePromise) { return resultPromise; } let ctor = resultPromise.constructor; if (!ctor[symbolThenPatched]) { patchThen(ctor); } return resultPromise; }; } if (NativePromise) { patchThen(NativePromise); patchMethod(global, 'fetch', delegate => zoneify(delegate)); } // This is not part of public API, but it is useful for tests, so we expose it. Promise[Zone.__symbol__('uncaughtPromiseErrors')] = _uncaughtPromiseErrors; return ZoneAwarePromise; }); // override Function.prototype.toString to make zone.js patched function // look like native function Zone.__load_patch('toString', (global) => { // patch Func.prototype.toString to let them look like native const originalFunctionToString = Function.prototype.toString; const ORIGINAL_DELEGATE_SYMBOL = zoneSymbol('OriginalDelegate'); const PROMISE_SYMBOL = zoneSymbol('Promise'); const ERROR_SYMBOL = zoneSymbol('Error'); const newFunctionToString = function toString() { if (typeof this === 'function') { const originalDelegate = this[ORIGINAL_DELEGATE_SYMBOL]; if (originalDelegate) { if (typeof originalDelegate === 'function') { return originalFunctionToString.call(originalDelegate); } else { return Object.prototype.toString.call(originalDelegate); } } if (this === Promise) { const nativePromise = global[PROMISE_SYMBOL]; if (nativePromise) { return originalFunctionToString.call(nativePromise); } } if (this === Error) { const nativeError = global[ERROR_SYMBOL]; if (nativeError) { return originalFunctionToString.call(nativeError); } } } return originalFunctionToString.call(this); }; newFunctionToString[ORIGINAL_DELEGATE_SYMBOL] = originalFunctionToString; Function.prototype.toString = newFunctionToString; // patch Object.prototype.toString to let them look like native const originalObjectToString = Object.prototype.toString; const PROMISE_OBJECT_TO_STRING = '[object Promise]'; Object.prototype.toString = function () { if (typeof Promise === 'function' && this instanceof Promise) { return PROMISE_OBJECT_TO_STRING; } return originalObjectToString.call(this); }; }); Zone.__load_patch('node_util', (global, Zone, api) => { api.patchOnProperties = patchOnProperties; api.patchMethod = patchMethod; api.bindArguments = bindArguments; api.patchMacroTask = patchMacroTask; setShouldCopySymbolProperties(true); }); /** * @fileoverview * @suppress {missingRequire} */ let passiveSupported = false; if (typeof window !== 'undefined') { try { const options = Object.defineProperty({}, 'passive', { get: function () { passiveSupported = true; } }); // Note: We pass the `options` object as the event handler too. This is not compatible with the // signature of `addEventListener` or `removeEventListener` but enables us to remove the handler // without an actual handler. window.addEventListener('test', options, options); window.removeEventListener('test', options, options); } catch (err) { passiveSupported = false; } } // an identifier to tell ZoneTask do not create a new invoke closure const OPTIMIZED_ZONE_EVENT_TASK_DATA = { useG: true }; const zoneSymbolEventNames = {}; const globalSources = {}; const EVENT_NAME_SYMBOL_REGX = new RegExp('^' + ZONE_SYMBOL_PREFIX + '(\\w+)(true|false)$'); const IMMEDIATE_PROPAGATION_SYMBOL = zoneSymbol('propagationStopped'); function prepareEventNames(eventName, eventNameToString) { const falseEventName = (eventNameToString ? eventNameToString(eventName) : eventName) + FALSE_STR; const trueEventName = (eventNameToString ? eventNameToString(eventName) : eventName) + TRUE_STR; const symbol = ZONE_SYMBOL_PREFIX + falseEventName; const symbolCapture = ZONE_SYMBOL_PREFIX + trueEventName; zoneSymbolEventNames[eventName] = {}; zoneSymbolEventNames[eventName][FALSE_STR] = symbol; zoneSymbolEventNames[eventName][TRUE_STR] = symbolCapture; } function patchEventTarget(_global, api, apis, patchOptions) { const ADD_EVENT_LISTENER = (patchOptions && patchOptions.add) || ADD_EVENT_LISTENER_STR; const REMOVE_EVENT_LISTENER = (patchOptions && patchOptions.rm) || REMOVE_EVENT_LISTENER_STR; const LISTENERS_EVENT_LISTENER = (patchOptions && patchOptions.listeners) || 'eventListeners'; const REMOVE_ALL_LISTENERS_EVENT_LISTENER = (patchOptions && patchOptions.rmAll) || 'removeAllListeners'; const zoneSymbolAddEventListener = zoneSymbol(ADD_EVENT_LISTENER); const ADD_EVENT_LISTENER_SOURCE = '.' + ADD_EVENT_LISTENER + ':'; const PREPEND_EVENT_LISTENER = 'prependListener'; const PREPEND_EVENT_LISTENER_SOURCE = '.' + PREPEND_EVENT_LISTENER + ':'; const invokeTask = function (task, target, event) { // for better performance, check isRemoved which is set // by removeEventListener if (task.isRemoved) { return; } const delegate = task.callback; if (typeof delegate === 'object' && delegate.handleEvent) { // create the bind version of handleEvent when invoke task.callback = (event) => delegate.handleEvent(event); task.originalDelegate = delegate; } // invoke static task.invoke // need to try/catch error here, otherwise, the error in one event listener // will break the executions of the other event listeners. Also error will // not remove the event listener when `once` options is true. let error; try { task.invoke(task, target, [event]); } catch (err) { error = err; } const options = task.options; if (options && typeof options === 'object' && options.once) { // if options.once is true, after invoke once remove listener here // only browser need to do this, nodejs eventEmitter will cal removeListener // inside EventEmitter.once const delegate = task.originalDelegate ? task.originalDelegate : task.callback; target[REMOVE_EVENT_LISTENER].call(target, event.type, delegate, options); } return error; }; function globalCallback(context, event, isCapture) { // https://github.com/angular/zone.js/issues/911, in IE, sometimes // event will be undefined, so we need to use window.event event = event || _global.event; if (!event) { return; } // event.target is needed for Samsung TV and SourceBuffer // || global is needed https://github.com/angular/zone.js/issues/190 const target = context || event.target || _global; const tasks = target[zoneSymbolEventNames[event.type][isCapture ? TRUE_STR : FALSE_STR]]; if (tasks) { const errors = []; // invoke all tasks which attached to current target with given event.type and capture = false // for performance concern, if task.length === 1, just invoke if (tasks.length === 1) { const err = invokeTask(tasks[0], target, event); err && errors.push(err); } else { // https://github.com/angular/zone.js/issues/836 // copy the tasks array before invoke, to avoid // the callback will remove itself or other listener const copyTasks = tasks.slice(); for (let i = 0; i < copyTasks.length; i++) { if (event && event[IMMEDIATE_PROPAGATION_SYMBOL] === true) { break; } const err = invokeTask(copyTasks[i], target, event); err && errors.push(err); } } // Since there is only one error, we don't need to schedule microTask // to throw the error. if (errors.length === 1) { throw errors[0]; } else { for (let i = 0; i < errors.length; i++) { const err = errors[i]; api.nativeScheduleMicroTask(() => { throw err; }); } } } } // global shared zoneAwareCallback to handle all event callback with capture = false const globalZoneAwareCallback = function (event) { return globalCallback(this, event, false); }; // global shared zoneAwareCallback to handle all event callback with capture = true const globalZoneAwareCaptureCallback = function (event) { return globalCallback(this, event, true); }; function patchEventTargetMethods(obj, patchOptions) { if (!obj) { return false; } let useGlobalCallback = true; if (patchOptions && patchOptions.useG !== undefined) { useGlobalCallback = patchOptions.useG; } const validateHandler = patchOptions && patchOptions.vh; let checkDuplicate = true; if (patchOptions && patchOptions.chkDup !== undefined) { checkDuplicate = patchOptions.chkDup; } let returnTarget = false; if (patchOptions && patchOptions.rt !== undefined) { returnTarget = patchOptions.rt; } let proto = obj; while (proto && !proto.hasOwnProperty(ADD_EVENT_LISTENER)) { proto = ObjectGetPrototypeOf(proto); } if (!proto && obj[ADD_EVENT_LISTENER]) { // somehow we did not find it, but we can see it. This happens on IE for Window properties. proto = obj; } if (!proto) { return false; } if (proto[zoneSymbolAddEventListener]) { return false; } const eventNameToString = patchOptions && patchOptions.eventNameToString; // a shared global taskData to pass data for scheduleEventTask // so we do not need to create a new object just for pass some data const taskData = {}; const nativeAddEventListener = proto[zoneSymbolAddEventListener] = proto[ADD_EVENT_LISTENER]; const nativeRemoveEventListener = proto[zoneSymbol(REMOVE_EVENT_LISTENER)] = proto[REMOVE_EVENT_LISTENER]; const nativeListeners = proto[zoneSymbol(LISTENERS_EVENT_LISTENER)] = proto[LISTENERS_EVENT_LISTENER]; const nativeRemoveAllListeners = proto[zoneSymbol(REMOVE_ALL_LISTENERS_EVENT_LISTENER)] = proto[REMOVE_ALL_LISTENERS_EVENT_LISTENER]; let nativePrependEventListener; if (patchOptions && patchOptions.prepend) { nativePrependEventListener = proto[zoneSymbol(patchOptions.prepend)] = proto[patchOptions.prepend]; } /** * This util function will build an option object with passive option * to handle all possible input from the user. */ function buildEventListenerOptions(options, passive) { if (!passiveSupported && typeof options === 'object' && options) { // doesn't support passive but user want to pass an object as options. // this will not work on some old browser, so we just pass a boolean // as useCapture parameter return !!options.capture; } if (!passiveSupported || !passive) { return options; } if (typeof options === 'boolean') { return { capture: options, passive: true }; } if (!options) { return { passive: true }; } if (typeof options === 'object' && options.passive !== false) { return { ...options, passive: true }; } return options; } const customScheduleGlobal = function (task) { // if there is already a task for the eventName + capture, // just return, because we use the shared globalZoneAwareCallback here. if (taskData.isExisting) { return; } return nativeAddEventListener.call(taskData.target, taskData.eventName, taskData.capture ? globalZoneAwareCaptureCallback : globalZoneAwareCallback, taskData.options); }; const customCancelGlobal = function (task) { // if task is not marked as isRemoved, this call is directly // from Zone.prototype.cancelTask, we should remove the task // from tasksList of target first if (!task.isRemoved) { const symbolEventNames = zoneSymbolEventNames[task.eventName]; let symbolEventName; if (symbolEventNames) { symbolEventName = symbolEventNames[task.capture ? TRUE_STR : FALSE_STR]; } const existingTasks = symbolEventName && task.target[symbolEventName]; if (existingTasks) { for (let i = 0; i < existingTasks.length; i++) { const existingTask = existingTasks[i]; if (existingTask === task) { existingTasks.splice(i, 1); // set isRemoved to data for faster invokeTask check task.isRemoved = true; if (existingTasks.length === 0) { // all tasks for the eventName + capture have gone, // remove globalZoneAwareCallback and remove the task cache from target task.allRemoved = true; task.target[symbolEventName] = null; } break; } } } } // if all tasks for the eventName + capture have gone, // we will really remove the global event callback, // if not, return if (!task.allRemoved) { return; } return nativeRemoveEventListener.call(task.target, task.eventName, task.capture ? globalZoneAwareCaptureCallback : globalZoneAwareCallback, task.options); }; const customScheduleNonGlobal = function (task) { return nativeAddEventListener.call(taskData.target, taskData.eventName, task.invoke, taskData.options); }; const customSchedulePrepend = function (task) { return nativePrependEventListener.call(taskData.target, taskData.eventName, task.invoke, taskData.options); }; const customCancelNonGlobal = function (task) { return nativeRemoveEventListener.call(task.target, task.eventName, task.invoke, task.options); }; const customSchedule = useGlobalCallback ? customScheduleGlobal : customScheduleNonGlobal; const customCancel = useGlobalCallback ? customCancelGlobal : customCancelNonGlobal; const compareTaskCallbackVsDelegate = function (task, delegate) { const typeOfDelegate = typeof delegate; return (typeOfDelegate === 'function' && task.callback === delegate) || (typeOfDelegate === 'object' && task.originalDelegate === delegate); }; const compare = (patchOptions && patchOptions.diff) ? patchOptions.diff : compareTaskCallbackVsDelegate; const unpatchedEvents = Zone[zoneSymbol('UNPATCHED_EVENTS')]; const passiveEvents = _global[zoneSymbol('PASSIVE_EVENTS')]; const makeAddListener = function (nativeListener, addSource, customScheduleFn, customCancelFn, returnTarget = false, prepend = false) { return function () { const target = this || _global; let eventName = arguments[0]; if (patchOptions && patchOptions.transferEventName) { eventName = patchOptions.transferEventName(eventName); } let delegate = arguments[1]; if (!delegate) { return nativeListener.apply(this, arguments); } if (isNode && eventName === 'uncaughtException') { // don't patch uncaughtException of nodejs to prevent endless loop return nativeListener.apply(this, arguments); } // don't create the bind delegate function for handleEvent // case here to improve addEventListener performance // we will create the bind delegate when invoke let isHandleEvent = false; if (typeof delegate !== 'function') { if (!delegate.handleEvent) { return nativeListener.apply(this, arguments); } isHandleEvent = true; } if (validateHandler && !validateHandler(nativeListener, delegate, target, arguments)) { return; } const passive = passiveSupported && !!passiveEvents && passiveEvents.indexOf(eventName) !== -1; const options = buildEventListenerOptions(arguments[2], passive); if (unpatchedEvents) { // check unpatched list for (let i = 0; i < unpatchedEvents.length; i++) { if (eventName === unpatchedEvents[i]) { if (passive) { return nativeListener.call(target, eventName, delegate, options); } else { return nativeListener.apply(this, arguments); } } } } const capture = !options ? false : typeof options === 'boolean' ? true : options.capture; const once = options && typeof options === 'object' ? options.once : false; const zone = Zone.current; let symbolEventNames = zoneSymbolEventNames[eventName]; if (!symbolEventNames) { prepareEventNames(eventName, eventNameToString); symbolEventNames = zoneSymbolEventNames[eventName]; } const symbolEventName = symbolEventNames[capture ? TRUE_STR : FALSE_STR]; let existingTasks = target[symbolEventName]; let isExisting = false; if (existingTasks) { // already have task registered isExisting = true; if (checkDuplicate) { for (let i = 0; i < existingTasks.length; i++) { if (compare(existingTasks[i], delegate)) { // same callback, same capture, same event name, just return return; } } } } else { existingTasks = target[symbolEventName] = []; } let source; const constructorName = target.constructor['name']; const targetSource = globalSources[constructorName]; if (targetSource) { source = targetSource[eventName]; } if (!source) { source = constructorName + addSource + (eventNameToString ? eventNameToString(eventName) : eventName); } // do not create a new object as task.data to pass those things // just use the global shared one taskData.options = options; if (once) { // if addEventListener with once options, we don't pass it to // native addEventListener, instead we keep the once setting // and handle ourselves. taskData.options.once = false; } taskData.target = target; taskData.capture = capture; taskData.eventName = eventName; taskData.isExisting = isExisting; const data = useGlobalCallback ? OPTIMIZED_ZONE_EVENT_TASK_DATA : undefined; // keep taskData into data to allow onScheduleEventTask to access the task information if (data) { data.taskData = taskData; } const task = zone.scheduleEventTask(source, delegate, data, customScheduleFn, customCancelFn); // should clear taskData.target to avoid memory leak // issue, https://github.com/angular/angular/issues/20442 taskData.target = null; // need to clear up taskData because it is a global object if (data) { data.taskData = null; } // have to save those information to task in case // application may call task.zone.cancelTask() directly if (once) { options.once = true; } if (!(!passiveSupported && typeof task.options === 'boolean')) { // if not support passive, and we pass an option object // to addEventListener, we should save the options to task task.options = options; } task.target = target; task.capture = capture; task.eventName = eventName; if (isHandleEvent) { // save original delegate for compare to check duplicate task.originalDelegate = delegate; } if (!prepend) { existingTasks.push(task); } else { existingTasks.unshift(task); } if (returnTarget) { return target; } }; }; proto[ADD_EVENT_LISTENER] = makeAddListener(nativeAddEventListener, ADD_EVENT_LISTENER_SOURCE, customSchedule, customCancel, returnTarget); if (nativePrependEventListener) { proto[PREPEND_EVENT_LISTENER] = makeAddListener(nativePrependEventListener, PREPEND_EVENT_LISTENER_SOURCE, customSchedulePrepend, customCancel, returnTarget, true); } proto[REMOVE_EVENT_LISTENER] = function () { const target = this || _global; let eventName = arguments[0]; if (patchOptions && patchOptions.transferEventName) { eventName = patchOptions.transferEventName(eventName); } const options = arguments[2]; const capture = !options ? false : typeof options === 'boolean' ? true : options.capture; const delegate = arguments[1]; if (!delegate) { return nativeRemoveEventListener.apply(this, arguments); } if (validateHandler && !validateHandler(nativeRemoveEventListener, delegate, target, arguments)) { return; } const symbolEventNames = zoneSymbolEventNames[eventName]; let symbolEventName; if (symbolEventNames) { symbolEventName = symbolEventNames[capture ? TRUE_STR : FALSE_STR]; } const existingTasks = symbolEventName && target[symbolEventName]; if (existingTasks) { for (let i = 0; i < existingTasks.length; i++) { const existingTask = existingTasks[i]; if (compare(existingTask, delegate)) { existingTasks.splice(i, 1); // set isRemoved to data for faster invokeTask check existingTask.isRemoved = true; if (existingTasks.length === 0) { // all tasks for the eventName + capture have gone, // remove globalZoneAwareCallback and remove the task cache from target existingTask.allRemoved = true; target[symbolEventName] = null; // in the target, we have an event listener which is added by on_property // such as target.onclick = function() {}, so we need to clear this internal // property too if all delegates all removed if (typeof eventName === 'string') { const onPropertySymbol = ZONE_SYMBOL_PREFIX + 'ON_PROPERTY' + eventName; target[onPropertySymbol] = null; } } existingTask.zone.cancelTask(existingTask); if (returnTarget) { return target; } return; } } } // issue 930, didn't find the event name or callback // from zone kept existingTasks, the callback maybe // added outside of zone, we need to call native removeEventListener // to try to remove it. return nativeRemoveEventListener.apply(this, arguments); }; proto[LISTENERS_EVENT_LISTENER] = function () { const target = this || _global; let eventName = arguments[0]; if (patchOptions && patchOptions.transferEventName) { eventName = patchOptions.transferEventName(eventName); } const listeners = []; const tasks = findEventTasks(target, eventNameToString ? eventNameToString(eventName) : eventName); for (let i = 0; i < tasks.length; i++) { const task = tasks[i]; let delegate = task.originalDelegate ? task.originalDelegate : task.callback; listeners.push(delegate); } return listeners; }; proto[REMOVE_ALL_LISTENERS_EVENT_LISTENER] = function () { const target = this || _global; let eventName = arguments[0]; if (!eventName) { const keys = Object.keys(target); for (let i = 0; i < keys.length; i++) { const prop = keys[i]; const match = EVENT_NAME_SYMBOL_REGX.exec(prop); let evtName = match && match[1]; // in nodejs EventEmitter, removeListener event is // used for monitoring the removeListener call, // so just keep removeListener eventListener until // all other eventListeners are removed if (evtName && evtName !== 'removeListener') { this[REMOVE_ALL_LISTENERS_EVENT_LISTENER].call(this, evtName); } } // remove removeListener listener finally this[REMOVE_ALL_LISTENERS_EVENT_LISTENER].call(this, 'removeListener'); } else { if (patchOptions && patchOptions.transferEventName) { eventName = patchOptions.transferEventName(eventName); } const symbolEventNames = zoneSymbolEventNames[eventName]; if (symbolEventNames) { const symbolEventName = symbolEventNames[FALSE_STR]; const symbolCaptureEventName = symbolEventNames[TRUE_STR]; const tasks = target[symbolEventName]; const captureTasks = target[symbolCaptureEventName]; if (tasks) { const removeTasks = tasks.slice(); for (let i = 0; i < removeTasks.length; i++) { const task = removeTasks[i]; let delegate = task.originalDelegate ? task.originalDelegate : task.callback; this[REMOVE_EVENT_LISTENER].call(this, eventName, delegate, task.options); } } if (captureTasks) { const removeTasks = captureTasks.slice(); for (let i = 0; i < removeTasks.length; i++) { const task = removeTasks[i]; let delegate = task.originalDelegate ? task.originalDelegate : task.callback; this[REMOVE_EVENT_LISTENER].call(this, eventName, delegate, task.options); } } } } if (returnTarget) { return this; } }; // for native toString patch attachOriginToPatched(proto[ADD_EVENT_LISTENER], nativeAddEventListener); attachOriginToPatched(proto[REMOVE_EVENT_LISTENER], nativeRemoveEventListener); if (nativeRemoveAllListeners) { attachOriginToPatched(proto[REMOVE_ALL_LISTENERS_EVENT_LISTENER], nativeRemoveAllListeners); } if (nativeListeners) { attachOriginToPatched(proto[LISTENERS_EVENT_LISTENER], nativeListeners); } return true; } let results = []; for (let i = 0; i < apis.length; i++) { results[i] = patchEventTargetMethods(apis[i], patchOptions); } return results; } function findEventTasks(target, eventName) { if (!eventName) { const foundTasks = []; for (let prop in target) { const match = EVENT_NAME_SYMBOL_REGX.exec(prop); let evtName = match && match[1]; if (evtName && (!eventName || evtName === eventName)) { const tasks = target[prop]; if (tasks) { for (let i = 0; i < tasks.length; i++) { foundTasks.push(tasks[i]); } } } } return foundTasks; } let symbolEventName = zoneSymbolEventNames[eventName]; if (!symbolEventName) { prepareEventNames(eventName); symbolEventName = zoneSymbolEventNames[eventName]; } const captureFalseTasks = target[symbolEventName[FALSE_STR]]; const captureTrueTasks = target[symbolEventName[TRUE_STR]]; if (!captureFalseTasks) { return captureTrueTasks ? captureTrueTasks.slice() : []; } else { return captureTrueTasks ? captureFalseTasks.concat(captureTrueTasks) : captureFalseTasks.slice(); } } Zone.__load_patch('EventEmitter', (global, Zone, api) => { // For EventEmitter const EE_ADD_LISTENER = 'addListener'; const EE_PREPEND_LISTENER = 'prependListener'; const EE_REMOVE_LISTENER = 'removeListener'; const EE_REMOVE_ALL_LISTENER = 'removeAllListeners'; const EE_LISTENERS = 'listeners'; const EE_ON = 'on'; const EE_OFF = 'off'; const compareTaskCallbackVsDelegate = function (task, delegate) { // same callback, same capture, same event name, just return return task.callback === delegate || task.callback.listener === delegate; }; const eventNameToString = function (eventName) { if (typeof eventName === 'string') { return eventName; } if (!eventName) { return ''; } return eventName.toString().replace('(', '_').replace(')', '_'); }; function patchEventEmitterMethods(obj) { const result = patchEventTarget(global, api, [obj], { useG: false, add: EE_ADD_LISTENER, rm: EE_REMOVE_LISTENER, prepend: EE_PREPEND_LISTENER, rmAll: EE_REMOVE_ALL_LISTENER, listeners: EE_LISTENERS, chkDup: false, rt: true, diff: compareTaskCallbackVsDelegate, eventNameToString: eventNameToString }); if (result && result[0]) { obj[EE_ON] = obj[EE_ADD_LISTENER]; obj[EE_OFF] = obj[EE_REMOVE_LISTENER]; } } // EventEmitter let events; try { events = require('events'); } catch (err) { } if (events && events.EventEmitter) { patchEventEmitterMethods(events.EventEmitter.prototype); } }); Zone.__load_patch('fs', () => { let fs; try { fs = require('fs'); } catch (err) { } // watch, watchFile, unwatchFile has been patched // because EventEmitter has been patched const TO_PATCH_MACROTASK_METHODS = [ 'access', 'appendFile', 'chmod', 'chown', 'close', 'exists', 'fchmod', 'fchown', 'fdatasync', 'fstat', 'fsync', 'ftruncate', 'futimes', 'lchmod', 'lchown', 'link', 'lstat', 'mkdir', 'mkdtemp', 'open', 'read', 'readdir', 'readFile', 'readlink', 'realpath', 'rename', 'rmdir', 'stat', 'symlink', 'truncate', 'unlink', 'utimes', 'write', 'writeFile', ]; if (fs) { TO_PATCH_MACROTASK_METHODS.filter(name => !!fs[name] && typeof fs[name] === 'function') .forEach(name => { patchMacroTask(fs, name, (self, args) => { return { name: 'fs.' + name, args: args, cbIdx: args.length > 0 ? args.length - 1 : -1, target: self }; }); }); } }); /** * @fileoverview * @suppress {missingRequire} */ function patchQueueMicrotask(global, api) { api.patchMethod(global, 'queueMicrotask', (delegate) => { return function (self, args) { Zone.current.scheduleMicroTask('queueMicrotask', args[0]); }; }); } /** * @fileoverview * @suppress {missingRequire} */ const taskSymbol = zoneSymbol('zoneTask'); function patchTimer(window, setName, cancelName, nameSuffix) { let setNative = null; let clearNative = null; setName += nameSuffix; cancelName += nameSuffix; const tasksByHandleId = {}; function scheduleTask(task) { const data = task.data; data.args[0] = function () { return task.invoke.apply(this, arguments); }; data.handleId = setNative.apply(window, data.args); return task; } function clearTask(task) { return clearNative.call(window, task.data.handleId); } setNative = patchMethod(window, setName, (delegate) => function (self, args) { if (typeof args[0] === 'function') { const options = { isPeriodic: nameSuffix === 'Interval', delay: (nameSuffix === 'Timeout' || nameSuffix === 'Interval') ? args[1] || 0 : undefined, args: args }; const callback = args[0]; args[0] = function timer() { try { return callback.apply(this, arguments); } finally { // issue-934, task will be cancelled // even it is a periodic task such as // setInterval // https://github.com/angular/angular/issues/40387 // Cleanup tasksByHandleId should be handled before scheduleTask // Since some zoneSpec may intercept and doesn't trigger // scheduleFn(scheduleTask) provided here. if (!(options.isPeriodic)) { if (typeof options.handleId === 'number') { // in non-nodejs env, we remove timerId // from local cache delete tasksByHandleId[options.handleId]; } else if (options.handleId) { // Node returns complex objects as handleIds // we remove task reference from timer object options.handleId[taskSymbol] = null; } } } }; const task = scheduleMacroTaskWithCurrentZone(setName, args[0], options, scheduleTask, clearTask); if (!task) { return task; } // Node.js must additionally support the ref and unref functions. const handle = task.data.handleId; if (typeof handle === 'number') { // for non nodejs env, we save handleId: task // mapping in local cache for clearTimeout tasksByHandleId[handle] = task; } else if (handle) { // for nodejs env, we save task // reference in timerId Object for clearTimeout handle[taskSymbol] = task; } // check whether handle is null, because some polyfill or browser // may return undefined from setTimeout/setInterval/setImmediate/requestAnimationFrame if (handle && handle.ref && handle.unref && typeof handle.ref === 'function' && typeof handle.unref === 'function') { task.ref = handle.ref.bind(handle); task.unref = handle.unref.bind(handle); } if (typeof handle === 'number' || handle) { return handle; } return task; } else { // cause an error by calling it directly. return delegate.apply(window, args); } }); clearNative = patchMethod(window, cancelName, (delegate) => function (self, args) { const id = args[0]; let task; if (typeof id === 'number') { // non nodejs env. task = tasksByHandleId[id]; } else { // nodejs env. task = id && id[taskSymbol]; // other environments. if (!task) { task = id; } } if (task && typeof task.type === 'string') { if (task.state !== 'notScheduled' && (task.cancelFn && task.data.isPeriodic || task.runCount === 0)) { if (typeof id === 'number') { delete tasksByHandleId[id]; } else if (id) { id[taskSymbol] = null; } // Do not cancel already canceled functions task.zone.cancelTask(task); } } else { // cause an error by calling it directly. delegate.apply(window, args); } }); } const set = 'set'; const clear = 'clear'; Zone.__load_patch('node_timers', (global, Zone) => { // Timers let globalUseTimeoutFromTimer = false; try { const timers = require('timers'); let globalEqualTimersTimeout = global.setTimeout === timers.setTimeout; if (!globalEqualTimersTimeout && !isMix) { // 1. if isMix, then we are in mix environment such as Electron // we should only patch timers.setTimeout because global.setTimeout // have been patched // 2. if global.setTimeout not equal timers.setTimeout, check // whether global.setTimeout use timers.setTimeout or not const originSetTimeout = timers.setTimeout; timers.setTimeout = function () { globalUseTimeoutFromTimer = true; return originSetTimeout.apply(this, arguments); }; const detectTimeout = global.setTimeout(() => { }, 100); clearTimeout(detectTimeout); timers.setTimeout = originSetTimeout; } patchTimer(timers, set, clear, 'Timeout'); patchTimer(timers, set, clear, 'Interval'); patchTimer(timers, set, clear, 'Immediate'); } catch (error) { // timers module not exists, for example, when we using nativeScript // timers is not available } if (isMix) { // if we are in mix environment, such as Electron, // the global.setTimeout has already been patched, // so we just patch timers.setTimeout return; } if (!globalUseTimeoutFromTimer) { // 1. global setTimeout equals timers setTimeout // 2. or global don't use timers setTimeout(maybe some other library patch setTimeout) // 3. or load timers module error happens, we should patch global setTimeout patchTimer(global, set, clear, 'Timeout'); patchTimer(global, set, clear, 'Interval'); patchTimer(global, set, clear, 'Immediate'); } else { // global use timers setTimeout, but not equals // this happens when use nodejs v0.10.x, global setTimeout will // use a lazy load version of timers setTimeout // we should not double patch timer's setTimeout // so we only store the __symbol__ for consistency global[Zone.__symbol__('setTimeout')] = global.setTimeout; global[Zone.__symbol__('setInterval')] = global.setInterval; global[Zone.__symbol__('setImmediate')] = global.setImmediate; } }); // patch process related methods Zone.__load_patch('nextTick', () => { // patch nextTick as microTask patchMicroTask(process, 'nextTick', (self, args) => { return { name: 'process.nextTick', args: args, cbIdx: (args.length > 0 && typeof args[0] === 'function') ? 0 : -1, target: process }; }); }); Zone.__load_patch('handleUnhandledPromiseRejection', (global, Zone, api) => { Zone[api.symbol('unhandledPromiseRejectionHandler')] = findProcessPromiseRejectionHandler('unhandledRejection'); Zone[api.symbol('rejectionHandledHandler')] = findProcessPromiseRejectionHandler('rejectionHandled'); // handle unhandled promise rejection function findProcessPromiseRejectionHandler(evtName) { return function (e) { const eventTasks = findEventTasks(process, evtName); eventTasks.forEach(eventTask => { // process has added unhandledrejection event listener // trigger the event listener if (evtName === 'unhandledRejection') { eventTask.invoke(e.rejection, e.promise); } else if (evtName === 'rejectionHandled') { eventTask.invoke(e.promise); } }); }; } }); // Crypto Zone.__load_patch('crypto', () => { let crypto; try { crypto = require('crypto'); } catch (err) { } // use the generic patchMacroTask to patch crypto if (crypto) { const methodNames = ['randomBytes', 'pbkdf2']; methodNames.forEach(name => { patchMacroTask(crypto, name, (self, args) => { return { name: 'crypto.' + name, args: args, cbIdx: (args.length > 0 && typeof args[args.length - 1] === 'function') ? args.length - 1 : -1, target: crypto }; }); }); } }); Zone.__load_patch('console', (global, Zone) => { const consoleMethods = ['dir', 'log', 'info', 'error', 'warn', 'assert', 'debug', 'timeEnd', 'trace']; consoleMethods.forEach((m) => { const originalMethod = console[Zone.__symbol__(m)] = console[m]; if (originalMethod) { console[m] = function () { const args = ArraySlice.call(arguments); if (Zone.current === Zone.root) { return originalMethod.apply(this, args); } else { return Zone.root.run(originalMethod, this, args); } }; } }); }); Zone.__load_patch('queueMicrotask', (global, Zone, api) => { patchQueueMicrotask(global, api); }); /** * @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 = { ...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(); class ProxyZoneSpec { 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(); } 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); } 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() { 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; 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 ${task.source} from within a sync test (${this.name}).`); 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; /// 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; 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 isNode = typeof process !== 'undefined' && !!process.on; // Note: Jasmine checks internally if `process` and `process.on` is defined. Otherwise, // it installs the browser rejection handler through the `global.addEventListener`. // This code may be run in the browser environment where `process` is not defined, and // this will lead to a runtime exception since Webpack 5 removed automatic Node.js // polyfills. Note, that events are named differently, it's `unhandledRejection` in // Node.js and `unhandledrejection` in the browser. const originalHandlers = isNode ? process.listeners('unhandledRejection') : global.eventListeners('unhandledrejection'); const result = originalInstall.apply(this, arguments); isNode ? process.removeAllListeners('unhandledRejection') : global.removeAllListeners('unhandledrejection'); if (originalHandlers) { originalHandlers.forEach(handler => { if (isNode) { process.on('unhandledRejection', handler); } else { global.addEventListener('unhandledrejection', handler); } }); } return result; }; } 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(description, 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, { ...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(description, describeBody) { return function () { // 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`. const syncZone = ambientZone.fork(new SyncTestZoneSpec(`jasmine.describe#${description}`)); return syncZone.run(describeBody, this, arguments); }; } function runInTestZone(testBody, applyThis, queueRunner, done) { const isClockInstalled = !!jasmine[symbol('clockInstalled')]; 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); }); Zone.__load_patch('jest', (context, Zone, api) => { if (typeof jest === 'undefined' || jest['__zone_patch__']) { return; } // From jest 29 and jest-preset-angular v13, the module transform logic // changed, and now jest-preset-angular use the use the tsconfig target // other than the hardcoded one, https://github.com/thymikee/jest-preset-angular/issues/2010 // But jest-angular-preset doesn't introduce the @babel/plugin-transform-async-to-generator // which is needed by angular since `async/await` still need to be transformed // to promise for ES2017+ target. // So for now, we disable to output the uncaught error console log for a temp solution, // until jest-preset-angular find a proper solution. Zone[api.symbol('ignoreConsoleErrorUncaughtError')] = true; 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); } }; }); }; }); 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: global.after, afterEach: global.afterEach, before: global.before, beforeEach: global.beforeEach, describe: global.describe, it: global.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 = function () { return mochaOriginal.describe.apply(this, wrapDescribeInZone(arguments)); }; global.xdescribe = global.suite.skip = global.describe.skip = function () { return mochaOriginal.describe.skip.apply(this, wrapDescribeInZone(arguments)); }; global.describe.only = global.suite.only = function () { return mochaOriginal.describe.only.apply(this, wrapDescribeInZone(arguments)); }; global.it = global.specify = global.test = function () { return mochaOriginal.it.apply(this, wrapTestInZone(arguments)); }; global.xit = global.xspecify = global.it.skip = function () { return mochaOriginal.it.skip.apply(this, wrapTestInZone(arguments)); }; global.it.only = global.test.only = function () { return mochaOriginal.it.only.apply(this, wrapTestInZone(arguments)); }; global.after = global.suiteTeardown = function () { return mochaOriginal.after.apply(this, wrapSuiteInZone(arguments)); }; global.afterEach = global.teardown = function () { return mochaOriginal.afterEach.apply(this, wrapTestInZone(arguments)); }; global.before = global.suiteSetup = function () { return mochaOriginal.before.apply(this, wrapSuiteInZone(arguments)); }; global.beforeEach = global.setup = 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); }); (function (_global) { class AsyncTestZoneSpec { static { this.symbolParentUnresolved = Zone.__symbol__('parentUnresolved'); } constructor(finishCallback, failCallback, namePrefix) { this.finishCallback = finishCallback; this.failCallback = failCallback; this._pendingMicroTasks = false; this._pendingMacroTasks = false; this._alreadyErrored = false; this._isSync = false; this._existingFinishTimer = null; this.entryFunction = null; 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() { // NOTE: Technically the `onHasTask` could fire together with the initial synchronous // completion in `onInvoke`. `onHasTask` might call this method when it captured e.g. // microtasks in the proxy zone that now complete as part of this async zone run. // Consider the following scenario: // 1. A test `beforeEach` schedules a microtask in the ProxyZone. // 2. An actual empty `it` spec executes in the AsyncTestZone` (using e.g. `waitForAsync`). // 3. The `onInvoke` invokes `_finishCallbackIfDone` because the spec runs synchronously. // 4. We wait the scheduled timeout (see below) to account for unhandled promises. // 5. The microtask from (1) finishes and `onHasTask` is invoked. // --> We register a second `_finishCallbackIfDone` even though we have scheduled a timeout. // If the finish timeout from below is already scheduled, terminate the existing scheduled // finish invocation, avoiding calling `jasmine` `done` multiple times. *Note* that we would // want to schedule a new finish callback in case the task state changes again. if (this._existingFinishTimer !== null) { clearTimeout(this._existingFinishTimer); this._existingFinishTimer = null; } if (!(this._pendingMicroTasks || this._pendingMacroTasks || (this.supportWaitUnresolvedChainedPromise && this.isUnresolvedChainedPromisePending()))) { // We wait until the next tick because we would like to catch unhandled promises which could // cause test logic to be executed. In such cases we cannot finish with tasks pending then. this.runZone.run(() => { this._existingFinishTimer = 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) { if (!this.entryFunction) { this.entryFunction = delegate; } try { this._isSync = true; return parentZoneDelegate.invoke(targetZone, delegate, applyThis, applyArgs, source); } finally { // We need to check the delegate is the same as entryFunction or not. // Consider the following case. // // asyncTestZone.run(() => { // Here the delegate will be the entryFunction // Zone.current.run(() => { // Here the delegate will not be the entryFunction // }); // }); // // We only want to check whether there are async tasks scheduled // for the entry function. if (this._isSync && this.entryFunction === delegate) { 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); // We should only trigger finishCallback when the target zone is the AsyncTestZone // Consider the following cases. // // const childZone = asyncTestZone.fork({ // name: 'child', // onHasTask: ... // }); // // So we have nested zones declared the onHasTask hook, in this case, // the onHasTask will be triggered twice, and cause the finishCallbackIfDone() // is also be invoked twice. So we need to only trigger the finishCallbackIfDone() // when the current zone is the same as the target zone. if (current !== target) { return; } if (hasTaskState.change == 'microTask') { this._pendingMicroTasks = hasTaskState.microTask; this._finishCallbackIfDone(); } else if (hasTaskState.change == 'macroTask') { this._pendingMacroTasks = hasTaskState.macroTask; this._finishCallbackIfDone(); } } } // 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/plugins/async-test'); } 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/plugins/proxy'); } 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 // still 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); } }); (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 { // Next scheduler id. static { this.nextId = 1; } 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 = { ...{ 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; } } class FakeAsyncTestZoneSpec { static assertInZone() { if (Zone.current.get('FakeAsyncTestZoneSpec') == null) { throw new Error('The code should be running in the fakeAsync zone to call this function'); } } 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')]; } } _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/plugins/proxy'); } 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(); 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); /** * 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; } }; });