import { OpaqueToken, ComponentRef, ComponentFactory, ComponentResolver, Injector, Injectable, ViewMetadata, ElementRef, ChangeDetectorRef, NgZone, NgZoneError, DebugElement, getDebugNode } from '@angular/core'; import {DirectiveResolver, ViewResolver} from '../index'; import {BaseException} from '../src/facade/exceptions'; import {Type, isPresent, isBlank, IS_DART} from '../src/facade/lang'; import {PromiseWrapper, ObservableWrapper, PromiseCompleter} from '../src/facade/async'; import {ListWrapper, MapWrapper} from '../src/facade/collection'; import {tick} from '@angular/core/testing'; /** * An abstract class for inserting the root test component element in a platform independent way. */ export class TestComponentRenderer { insertRootElement(rootElementId: string) {} } export var ComponentFixtureAutoDetect = new OpaqueToken("ComponentFixtureAutoDetect"); export var ComponentFixtureNoNgZone = new OpaqueToken("ComponentFixtureNoNgZone"); /** * Fixture for debugging and testing a component. */ export class ComponentFixture { /** * The DebugElement associated with the root element of this component. */ debugElement: DebugElement; /** * The instance of the root component class. */ componentInstance: any; /** * The native element at the root of the component. */ nativeElement: any; /** * The ElementRef for the element at the root of the component. */ elementRef: ElementRef; /** * The ComponentRef for the component */ componentRef: ComponentRef; /** * The ChangeDetectorRef for the component */ changeDetectorRef: ChangeDetectorRef; /** * The NgZone in which this component was instantiated. */ ngZone: NgZone; private _autoDetect: boolean; private _isStable: boolean = true; private _completer: PromiseCompleter = null; private _onUnstableSubscription = null; private _onStableSubscription = null; private _onMicrotaskEmptySubscription = null; private _onErrorSubscription = null; constructor(componentRef: ComponentRef, ngZone: NgZone, autoDetect: boolean) { this.changeDetectorRef = componentRef.changeDetectorRef; this.elementRef = componentRef.location; this.debugElement = getDebugNode(this.elementRef.nativeElement); this.componentInstance = componentRef.instance; this.nativeElement = this.elementRef.nativeElement; this.componentRef = componentRef; this.ngZone = ngZone; this._autoDetect = autoDetect; if (ngZone != null) { this._onUnstableSubscription = ObservableWrapper.subscribe(ngZone.onUnstable, (_) => { this._isStable = false; }); this._onMicrotaskEmptySubscription = ObservableWrapper.subscribe(ngZone.onMicrotaskEmpty, (_) => { if (this._autoDetect) { // Do a change detection run with checkNoChanges set to true to check // there are no changes on the second run. this.detectChanges(true); } }); this._onStableSubscription = ObservableWrapper.subscribe(ngZone.onStable, (_) => { this._isStable = true; if (this._completer != null) { this._completer.resolve(true); this._completer = null; } }); this._onErrorSubscription = ObservableWrapper.subscribe( ngZone.onError, (error: NgZoneError) => { throw error.error; }); } } private _tick(checkNoChanges: boolean) { this.changeDetectorRef.detectChanges(); if (checkNoChanges) { this.checkNoChanges(); } } /** * Trigger a change detection cycle for the component. */ detectChanges(checkNoChanges: boolean = true): void { if (this.ngZone != null) { // Run the change detection inside the NgZone so that any async tasks as part of the change // detection are captured by the zone and can be waited for in isStable. this.ngZone.run(() => { this._tick(checkNoChanges); }); } else { // Running without zone. Just do the change detection. this._tick(checkNoChanges); } } /** * Do a change detection run to make sure there were no changes. */ checkNoChanges(): void { this.changeDetectorRef.checkNoChanges(); } /** * Set whether the fixture should autodetect changes. * * Also runs detectChanges once so that any existing change is detected. */ autoDetectChanges(autoDetect: boolean = true) { if (this.ngZone == null) { throw new BaseException('Cannot call autoDetectChanges when ComponentFixtureNoNgZone is set'); } this._autoDetect = autoDetect; this.detectChanges(); } /** * Return whether the fixture is currently stable or has async tasks that have not been completed * yet. */ isStable(): boolean { return this._isStable; } /** * Get a promise that resolves when the fixture is stable. * * This can be used to resume testing after events have triggered asynchronous activity or * asynchronous change detection. */ whenStable(): Promise { if (this._isStable) { return PromiseWrapper.resolve(false); } else { this._completer = new PromiseCompleter(); return this._completer.promise; } } /** * Trigger component destruction. */ destroy(): void { this.componentRef.destroy(); if (this._onUnstableSubscription != null) { ObservableWrapper.dispose(this._onUnstableSubscription); this._onUnstableSubscription = null; } if (this._onStableSubscription != null) { ObservableWrapper.dispose(this._onStableSubscription); this._onStableSubscription = null; } if (this._onMicrotaskEmptySubscription != null) { ObservableWrapper.dispose(this._onMicrotaskEmptySubscription); this._onMicrotaskEmptySubscription = null; } if (this._onErrorSubscription != null) { ObservableWrapper.dispose(this._onErrorSubscription); this._onErrorSubscription = null; } } } var _nextRootElementId = 0; /** * Builds a ComponentFixture for use in component level tests. */ @Injectable() export class TestComponentBuilder { /** @internal */ _bindingsOverrides = new Map(); /** @internal */ _directiveOverrides = new Map>(); /** @internal */ _templateOverrides = new Map(); /** @internal */ _viewBindingsOverrides = new Map(); /** @internal */ _viewOverrides = new Map(); constructor(private _injector: Injector) {} /** @internal */ _clone(): TestComponentBuilder { let clone = new TestComponentBuilder(this._injector); clone._viewOverrides = MapWrapper.clone(this._viewOverrides); clone._directiveOverrides = MapWrapper.clone(this._directiveOverrides); clone._templateOverrides = MapWrapper.clone(this._templateOverrides); clone._bindingsOverrides = MapWrapper.clone(this._bindingsOverrides); clone._viewBindingsOverrides = MapWrapper.clone(this._viewBindingsOverrides); return clone; } /** * Overrides only the html of a {@link ComponentMetadata}. * All the other properties of the component's {@link ViewMetadata} are preserved. * * @param {Type} component * @param {string} html * * @return {TestComponentBuilder} */ overrideTemplate(componentType: Type, template: string): TestComponentBuilder { let clone = this._clone(); clone._templateOverrides.set(componentType, template); return clone; } /** * Overrides a component's {@link ViewMetadata}. * * @param {Type} component * @param {view} View * * @return {TestComponentBuilder} */ overrideView(componentType: Type, view: ViewMetadata): TestComponentBuilder { let clone = this._clone(); clone._viewOverrides.set(componentType, view); return clone; } /** * Overrides the directives from the component {@link ViewMetadata}. * * @param {Type} component * @param {Type} from * @param {Type} to * * @return {TestComponentBuilder} */ overrideDirective(componentType: Type, from: Type, to: Type): TestComponentBuilder { let clone = this._clone(); let overridesForComponent = clone._directiveOverrides.get(componentType); if (!isPresent(overridesForComponent)) { clone._directiveOverrides.set(componentType, new Map()); overridesForComponent = clone._directiveOverrides.get(componentType); } overridesForComponent.set(from, to); return clone; } /** * Overrides one or more injectables configured via `providers` metadata property of a directive * or * component. * Very useful when certain providers need to be mocked out. * * The providers specified via this method are appended to the existing `providers` causing the * duplicated providers to * be overridden. * * @param {Type} component * @param {any[]} providers * * @return {TestComponentBuilder} */ overrideProviders(type: Type, providers: any[]): TestComponentBuilder { let clone = this._clone(); clone._bindingsOverrides.set(type, providers); return clone; } /** * @deprecated */ overrideBindings(type: Type, providers: any[]): TestComponentBuilder { return this.overrideProviders(type, providers); } /** * Overrides one or more injectables configured via `providers` metadata property of a directive * or * component. * Very useful when certain providers need to be mocked out. * * The providers specified via this method are appended to the existing `providers` causing the * duplicated providers to * be overridden. * * @param {Type} component * @param {any[]} providers * * @return {TestComponentBuilder} */ overrideViewProviders(type: Type, providers: any[]): TestComponentBuilder { let clone = this._clone(); clone._viewBindingsOverrides.set(type, providers); return clone; } /** * @deprecated */ overrideViewBindings(type: Type, providers: any[]): TestComponentBuilder { return this.overrideViewProviders(type, providers); } private _create(ngZone: NgZone, componentFactory: ComponentFactory): ComponentFixture { let rootElId = `root${_nextRootElementId++}`; var testComponentRenderer: TestComponentRenderer = this._injector.get(TestComponentRenderer); testComponentRenderer.insertRootElement(rootElId); var componentRef = componentFactory.create(this._injector, [], `#${rootElId}`); let autoDetect: boolean = this._injector.get(ComponentFixtureAutoDetect, false); return new ComponentFixture(componentRef, ngZone, autoDetect); } /** * Builds and returns a ComponentFixture. * * @return {Promise} */ createAsync(rootComponentType: Type): Promise> { let noNgZone = IS_DART || this._injector.get(ComponentFixtureNoNgZone, false); let ngZone: NgZone = noNgZone ? null : this._injector.get(NgZone, null); let initComponent = () => { let mockDirectiveResolver = this._injector.get(DirectiveResolver); let mockViewResolver = this._injector.get(ViewResolver); this._viewOverrides.forEach((view, type) => mockViewResolver.setView(type, view)); this._templateOverrides.forEach((template, type) => mockViewResolver.setInlineTemplate(type, template)); this._directiveOverrides.forEach((overrides, component) => { overrides.forEach( (to, from) => { mockViewResolver.overrideViewDirective(component, from, to); }); }); this._bindingsOverrides.forEach( (bindings, type) => mockDirectiveResolver.setBindingsOverride(type, bindings)); this._viewBindingsOverrides.forEach( (bindings, type) => mockDirectiveResolver.setViewBindingsOverride(type, bindings)); let promise: Promise> = this._injector.get(ComponentResolver).resolveComponent(rootComponentType); return promise.then(componentFactory => this._create(ngZone, componentFactory)); }; return ngZone == null ? initComponent() : ngZone.run(initComponent); } createFakeAsync(rootComponentType: Type): ComponentFixture { let result; let error; PromiseWrapper.then(this.createAsync(rootComponentType), (_result) => { result = _result; }, (_error) => { error = _error; }); tick(); if (isPresent(error)) { throw error; } return result; } createSync(componentFactory: ComponentFactory): ComponentFixture { let noNgZone = IS_DART || this._injector.get(ComponentFixtureNoNgZone, false); let ngZone: NgZone = noNgZone ? null : this._injector.get(NgZone, null); let initComponent = () => this._create(ngZone, componentFactory); return ngZone == null ? initComponent() : ngZone.run(initComponent); } }