/** * @license * Copyright Google Inc. All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ import {EventEmitter} from '@angular/core'; import {Injectable} from '@angular/core/src/di'; import {Testability, TestabilityRegistry} from '@angular/core/src/testability/testability'; import {NgZone} from '@angular/core/src/zone/ng_zone'; import {AsyncTestCompleter, SpyObject, beforeEach, describe, expect, inject, it} from '@angular/core/testing/src/testing_internal'; import {scheduleMicroTask} from '../../src/util'; // Schedules a microtasks (using a resolved promise .then()) function microTask(fn: Function): void { scheduleMicroTask(() => { // We do double dispatch so that we can wait for scheduleMicrotask in the Testability when // NgZone becomes stable. scheduleMicroTask(fn); }); } @Injectable() class MockNgZone extends NgZone { /** @internal */ onUnstable: EventEmitter; /** @internal */ onStable: EventEmitter; constructor() { super({enableLongStackTrace: false}); this.onUnstable = new EventEmitter(false); this.onStable = new EventEmitter(false); } unstable(): void { this.onUnstable.emit(null); } stable(): void { this.onStable.emit(null); } } export function main() { describe('Testability', () => { let testability: Testability; let execute: any; let execute2: any; let ngZone: MockNgZone; beforeEach(() => { ngZone = new MockNgZone(); testability = new Testability(ngZone); execute = new SpyObject().spy('execute'); execute2 = new SpyObject().spy('execute'); }); describe('Pending count logic', () => { it('should start with a pending count of 0', () => { expect(testability.getPendingRequestCount()).toEqual(0); }); it('should fire whenstable callbacks if pending count is 0', inject([AsyncTestCompleter], (async: AsyncTestCompleter) => { testability.whenStable(execute); microTask(() => { expect(execute).toHaveBeenCalled(); async.done(); }); })); it('should not fire whenstable callbacks synchronously if pending count is 0', () => { testability.whenStable(execute); expect(execute).not.toHaveBeenCalled(); }); it('should not call whenstable callbacks when there are pending counts', inject([AsyncTestCompleter], (async: AsyncTestCompleter) => { testability.increasePendingRequestCount(); testability.increasePendingRequestCount(); testability.whenStable(execute); microTask(() => { expect(execute).not.toHaveBeenCalled(); testability.decreasePendingRequestCount(); microTask(() => { expect(execute).not.toHaveBeenCalled(); async.done(); }); }); })); it('should fire whenstable callbacks when pending drops to 0', inject([AsyncTestCompleter], (async: AsyncTestCompleter) => { testability.increasePendingRequestCount(); testability.whenStable(execute); microTask(() => { expect(execute).not.toHaveBeenCalled(); testability.decreasePendingRequestCount(); microTask(() => { expect(execute).toHaveBeenCalled(); async.done(); }); }); })); it('should not fire whenstable callbacks synchronously when pending drops to 0', () => { testability.increasePendingRequestCount(); testability.whenStable(execute); testability.decreasePendingRequestCount(); expect(execute).not.toHaveBeenCalled(); }); it('should fire whenstable callbacks with didWork if pending count is 0', inject([AsyncTestCompleter], (async: AsyncTestCompleter) => { testability.whenStable(execute); microTask(() => { expect(execute).toHaveBeenCalledWith(false); async.done(); }); })); it('should fire whenstable callbacks with didWork when pending drops to 0', inject([AsyncTestCompleter], (async: AsyncTestCompleter) => { testability.increasePendingRequestCount(); testability.whenStable(execute); microTask(() => { testability.decreasePendingRequestCount(); microTask(() => { expect(execute).toHaveBeenCalledWith(true); testability.whenStable(execute2); microTask(() => { expect(execute2).toHaveBeenCalledWith(false); async.done(); }); }); }); })); }); describe('NgZone callback logic', () => { it('should fire whenstable callback if event is already finished', inject([AsyncTestCompleter], (async: AsyncTestCompleter) => { ngZone.unstable(); ngZone.stable(); testability.whenStable(execute); microTask(() => { expect(execute).toHaveBeenCalled(); async.done(); }); })); it('should not fire whenstable callbacks synchronously if event is already finished', () => { ngZone.unstable(); ngZone.stable(); testability.whenStable(execute); expect(execute).not.toHaveBeenCalled(); }); it('should fire whenstable callback when event finishes', inject([AsyncTestCompleter], (async: AsyncTestCompleter) => { ngZone.unstable(); testability.whenStable(execute); microTask(() => { expect(execute).not.toHaveBeenCalled(); ngZone.stable(); microTask(() => { expect(execute).toHaveBeenCalled(); async.done(); }); }); })); it('should not fire whenstable callbacks synchronously when event finishes', () => { ngZone.unstable(); testability.whenStable(execute); ngZone.stable(); expect(execute).not.toHaveBeenCalled(); }); it('should not fire whenstable callback when event did not finish', inject([AsyncTestCompleter], (async: AsyncTestCompleter) => { ngZone.unstable(); testability.increasePendingRequestCount(); testability.whenStable(execute); microTask(() => { expect(execute).not.toHaveBeenCalled(); testability.decreasePendingRequestCount(); microTask(() => { expect(execute).not.toHaveBeenCalled(); ngZone.stable(); microTask(() => { expect(execute).toHaveBeenCalled(); async.done(); }); }); }); })); it('should not fire whenstable callback when there are pending counts', inject([AsyncTestCompleter], (async: AsyncTestCompleter) => { ngZone.unstable(); testability.increasePendingRequestCount(); testability.increasePendingRequestCount(); testability.whenStable(execute); microTask(() => { expect(execute).not.toHaveBeenCalled(); ngZone.stable(); microTask(() => { expect(execute).not.toHaveBeenCalled(); testability.decreasePendingRequestCount(); microTask(() => { expect(execute).not.toHaveBeenCalled(); testability.decreasePendingRequestCount(); microTask(() => { expect(execute).toHaveBeenCalled(); async.done(); }); }); }); }); })); it('should fire whenstable callback with didWork if event is already finished', inject([AsyncTestCompleter], (async: AsyncTestCompleter) => { ngZone.unstable(); ngZone.stable(); testability.whenStable(execute); microTask(() => { expect(execute).toHaveBeenCalledWith(true); testability.whenStable(execute2); microTask(() => { expect(execute2).toHaveBeenCalledWith(false); async.done(); }); }); })); it('should fire whenstable callback with didwork when event finishes', inject([AsyncTestCompleter], (async: AsyncTestCompleter) => { ngZone.unstable(); testability.whenStable(execute); microTask(() => { ngZone.stable(); microTask(() => { expect(execute).toHaveBeenCalledWith(true); testability.whenStable(execute2); microTask(() => { expect(execute2).toHaveBeenCalledWith(false); async.done(); }); }); }); })); }); }); describe('TestabilityRegistry', () => { let testability1: Testability; let testability2: Testability; let resgitry: TestabilityRegistry; let ngZone: MockNgZone; beforeEach(() => { ngZone = new MockNgZone(); testability1 = new Testability(ngZone); testability2 = new Testability(ngZone); resgitry = new TestabilityRegistry(); }); describe('unregister testability', () => { it('should remove the testability when unregistering an existing testability', () => { resgitry.registerApplication('testability1', testability1); resgitry.registerApplication('testability2', testability2); resgitry.unregisterApplication('testability2'); expect(resgitry.getAllTestabilities().length).toEqual(1); expect(resgitry.getTestability('testability1')).toEqual(testability1); }); it('should remain the same when unregistering a non-existing testability', () => { expect(resgitry.getAllTestabilities().length).toEqual(0); resgitry.registerApplication('testability1', testability1); resgitry.registerApplication('testability2', testability2); resgitry.unregisterApplication('testability3'); expect(resgitry.getAllTestabilities().length).toEqual(2); expect(resgitry.getTestability('testability1')).toEqual(testability1); expect(resgitry.getTestability('testability2')).toEqual(testability2); }); it('should remove all the testability when unregistering all testabilities', () => { resgitry.registerApplication('testability1', testability1); resgitry.registerApplication('testability2', testability2); resgitry.unregisterAllApplications(); expect(resgitry.getAllTestabilities().length).toEqual(0); }); }); }); }