'use strict'; /** * @license Angular v * (c) 2010-2022 Google LLC. https://angular.io/ * License: MIT */ (function (factory) { typeof define === 'function' && define.amd ? define(factory) : factory(); })((function () { 'use strict'; (function (_global) { var _a; var AsyncTestZoneSpec = /** @class */ (function () { function AsyncTestZoneSpec(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; } AsyncTestZoneSpec.prototype.isUnresolvedChainedPromisePending = function () { return this.unresolvedChainedPromiseCount > 0; }; AsyncTestZoneSpec.prototype._finishCallbackIfDone = function () { var _this = this; // 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(function () { _this._existingFinishTimer = setTimeout(function () { if (!_this._alreadyErrored && !(_this._pendingMicroTasks || _this._pendingMacroTasks)) { _this.finishCallback(); } }, 0); }); } }; AsyncTestZoneSpec.prototype.patchPromiseForTest = function () { if (!this.supportWaitUnresolvedChainedPromise) { return; } var patchPromiseForTest = Promise[Zone.__symbol__('patchPromiseForTest')]; if (patchPromiseForTest) { patchPromiseForTest(); } }; AsyncTestZoneSpec.prototype.unPatchPromiseForTest = function () { if (!this.supportWaitUnresolvedChainedPromise) { return; } var unPatchPromiseForTest = Promise[Zone.__symbol__('unPatchPromiseForTest')]; if (unPatchPromiseForTest) { unPatchPromiseForTest(); } }; AsyncTestZoneSpec.prototype.onScheduleTask = function (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[_a.symbolParentUnresolved] === true) { // chained promise is being scheduled this.unresolvedChainedPromiseCount--; } } return delegate.scheduleTask(target, task); }; AsyncTestZoneSpec.prototype.onInvokeTask = function (delegate, current, target, task, applyThis, applyArgs) { if (task.type !== 'eventTask') { this._isSync = false; } return delegate.invokeTask(target, task, applyThis, applyArgs); }; AsyncTestZoneSpec.prototype.onCancelTask = function (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. AsyncTestZoneSpec.prototype.onInvoke = function (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(); } } }; AsyncTestZoneSpec.prototype.onHandleError = function (parentZoneDelegate, currentZone, targetZone, error) { // Let the parent try to handle the error. var result = parentZoneDelegate.handleError(targetZone, error); if (result) { this.failCallback(error); this._alreadyErrored = true; } return false; }; AsyncTestZoneSpec.prototype.onHasTask = function (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(); } }; return AsyncTestZoneSpec; }()); _a = AsyncTestZoneSpec; (function () { _a.symbolParentUnresolved = Zone.__symbol__('parentUnresolved'); })(); // Export the class so that new instances can be created with proper // constructor params. Zone['AsyncTestZoneSpec'] = AsyncTestZoneSpec; })(typeof window !== 'undefined' && window || typeof self !== 'undefined' && self || global); Zone.__load_patch('asynctest', function (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, function (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 () { var _this = this; return new Promise(function (finishCallback, failCallback) { runInTestZone(fn, _this, finishCallback, failCallback); }); }; }; function runInTestZone(fn, context, finishCallback, failCallback) { var currentZone = Zone.current; var 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'); } var 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'); } var 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. var proxyZone = Zone.current.getZoneWith('ProxyZoneSpec'); var previousDelegate = proxyZoneSpec.getDelegate(); proxyZone.parent.run(function () { var testZoneSpec = new AsyncTestZoneSpec(function () { // 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(function () { finishCallback(); }); }, function (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(function () { failCallback(error); }); }, 'test'); proxyZoneSpec.setDelegate(testZoneSpec); testZoneSpec.patchPromiseForTest(); }); return Zone.current.runGuarded(fn, context); } }); }));