380 lines
14 KiB
Markdown
380 lines
14 KiB
Markdown
# Basics of testing components
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A component, unlike all other parts of an Angular application,
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combines an HTML template and a TypeScript class.
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The component truly is the template and the class _working together_. To adequately test a component, you should test that they work together
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as intended.
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Such tests require creating the component's host element in the browser DOM,
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as Angular does, and investigating the component class's interaction with
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the DOM as described by its template.
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The Angular `TestBed` facilitates this kind of testing as you'll see in the sections below.
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But in many cases, _testing the component class alone_, without DOM involvement,
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can validate much of the component's behavior in an easier, more obvious way.
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<div class="alert is-helpful">
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For a hands-on experience you can <live-example name="testing" stackblitz="specs" noDownload>run tests and explore the test code</live-example> in your browser as your read this guide.
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If you'd like to experiment with the application that this guide describes, you can <live-example name="testing" noDownload>run it in your browser</live-example> or <live-example name="testing" downloadOnly>download and run it locally</live-example>.
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</div>
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{@a component-class-testing}
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## Component class testing
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Test a component class on its own as you would test a service class.
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Component class testing should be kept very clean and simple.
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It should test only a single unit.
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At first glance, you should be able to understand
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what the test is testing.
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Consider this `LightswitchComponent` which toggles a light on and off
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(represented by an on-screen message) when the user clicks the button.
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<code-example
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path="testing/src/app/demo/demo.ts"
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region="LightswitchComp"
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header="app/demo/demo.ts (LightswitchComp)"></code-example>
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You might decide only to test that the `clicked()` method
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toggles the light's _on/off_ state and sets the message appropriately.
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This component class has no dependencies. To test these types of classes, follow the same steps as you would for a service that has no dependencies:
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1. Create a component using the new keyword.
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2. Poke at its API.
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3. Assert expectations on its public state.
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<code-example
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path="testing/src/app/demo/demo.spec.ts"
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region="Lightswitch"
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header="app/demo/demo.spec.ts (Lightswitch tests)"></code-example>
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Here is the `DashboardHeroComponent` from the _Tour of Heroes_ tutorial.
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<code-example
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path="testing/src/app/dashboard/dashboard-hero.component.ts"
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region="class"
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header="app/dashboard/dashboard-hero.component.ts (component)"></code-example>
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It appears within the template of a parent component,
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which binds a _hero_ to the `@Input` property and
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listens for an event raised through the _selected_ `@Output` property.
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You can test that the class code works without creating the `DashboardHeroComponent`
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or its parent component.
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<code-example
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path="testing/src/app/dashboard/dashboard-hero.component.spec.ts"
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region="class-only"
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header="app/dashboard/dashboard-hero.component.spec.ts (class tests)"></code-example>
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When a component has dependencies, you may want to use the `TestBed` to both
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create the component and its dependencies.
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The following `WelcomeComponent` depends on the `UserService` to know the name of the user to greet.
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<code-example
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path="testing/src/app/welcome/welcome.component.ts"
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region="class"
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header="app/welcome/welcome.component.ts"></code-example>
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You might start by creating a mock of the `UserService` that meets the minimum needs of this component.
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<code-example
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path="testing/src/app/welcome/welcome.component.spec.ts"
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region="mock-user-service"
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header="app/welcome/welcome.component.spec.ts (MockUserService)"></code-example>
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Then provide and inject _both the_ **component** _and the service_ in the `TestBed` configuration.
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<code-example
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path="testing/src/app/welcome/welcome.component.spec.ts"
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region="class-only-before-each"
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header="app/welcome/welcome.component.spec.ts (class-only setup)"></code-example>
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Then exercise the component class, remembering to call the [lifecycle hook methods](guide/lifecycle-hooks) as Angular does when running the application.
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<code-example
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path="testing/src/app/welcome/welcome.component.spec.ts"
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region="class-only-tests"
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header="app/welcome/welcome.component.spec.ts (class-only tests)"></code-example>
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## Component DOM testing
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Testing the component _class_ is as easy as [testing a service](guide/testing-services).
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But a component is more than just its class.
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A component interacts with the DOM and with other components.
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The _class-only_ tests can tell you about class behavior.
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They cannot tell you if the component is going to render properly,
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respond to user input and gestures, or integrate with its parent and child components.
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None of the _class-only_ tests above can answer key questions about how the
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components actually behave on screen.
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- Is `Lightswitch.clicked()` bound to anything such that the user can invoke it?
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- Is the `Lightswitch.message` displayed?
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- Can the user actually select the hero displayed by `DashboardHeroComponent`?
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- Is the hero name displayed as expected (i.e, in uppercase)?
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- Is the welcome message displayed by the template of `WelcomeComponent`?
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These may not be troubling questions for the simple components illustrated above.
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But many components have complex interactions with the DOM elements
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described in their templates, causing HTML to appear and disappear as
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the component state changes.
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To answer these kinds of questions, you have to create the DOM elements associated
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with the components, you must examine the DOM to confirm that component state
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displays properly at the appropriate times, and you must simulate user interaction
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with the screen to determine whether those interactions cause the component to
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behave as expected.
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To write these kinds of test, you'll use additional features of the `TestBed`
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as well as other testing helpers.
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### CLI-generated tests
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The CLI creates an initial test file for you by default when you ask it to
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generate a new component.
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For example, the following CLI command generates a `BannerComponent` in the `app/banner` folder (with inline template and styles):
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<code-example language="sh">
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ng generate component banner --inline-template --inline-style --module app
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</code-example>
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It also generates an initial test file for the component, `banner-external.component.spec.ts`, that looks like this:
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<code-example
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path="testing/src/app/banner/banner-initial.component.spec.ts"
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region="v1"
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header="app/banner/banner-external.component.spec.ts (initial)"></code-example>
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<div class="alert is-helpful">
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Because `compileComponents` is asynchronous, it uses
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the [`waitForAsync`](api/core/testing/waitForAsync) utility
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function imported from `@angular/core/testing`.
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Refer to the [waitForAsync](guide/testing-components-scenarios#waitForAsync) section for more details.
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</div>
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### Reduce the setup
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Only the last three lines of this file actually test the component
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and all they do is assert that Angular can create the component.
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The rest of the file is boilerplate setup code anticipating more advanced tests that _might_ become necessary if the component evolves into something substantial.
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You'll learn about these advanced test features below.
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For now, you can radically reduce this test file to a more manageable size:
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<code-example
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path="testing/src/app/banner/banner-initial.component.spec.ts"
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region="v2"
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header="app/banner/banner-initial.component.spec.ts (minimal)"></code-example>
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In this example, the metadata object passed to `TestBed.configureTestingModule`
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simply declares `BannerComponent`, the component to test.
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<code-example
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path="testing/src/app/banner/banner-initial.component.spec.ts"
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region="configureTestingModule">
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</code-example>
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<div class="alert is-helpful">
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There's no need to declare or import anything else.
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The default test module is pre-configured with
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something like the `BrowserModule` from `@angular/platform-browser`.
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Later you'll call `TestBed.configureTestingModule()` with
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imports, providers, and more declarations to suit your testing needs.
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Optional `override` methods can further fine-tune aspects of the configuration.
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</div>
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{@a create-component}
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### _createComponent()_
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After configuring `TestBed`, you call its `createComponent()` method.
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<code-example
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path="testing/src/app/banner/banner-initial.component.spec.ts"
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region="createComponent">
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</code-example>
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`TestBed.createComponent()` creates an instance of the `BannerComponent`,
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adds a corresponding element to the test-runner DOM,
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and returns a [`ComponentFixture`](#component-fixture).
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<div class="alert is-important">
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Do not re-configure `TestBed` after calling `createComponent`.
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The `createComponent` method freezes the current `TestBed` definition,
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closing it to further configuration.
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You cannot call any more `TestBed` configuration methods, not `configureTestingModule()`,
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nor `get()`, nor any of the `override...` methods.
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If you try, `TestBed` throws an error.
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</div>
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{@a component-fixture}
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### _ComponentFixture_
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The [ComponentFixture](api/core/testing/ComponentFixture) is a test harness for interacting with the created component and its corresponding element.
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Access the component instance through the fixture and confirm it exists with a Jasmine expectation:
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<code-example
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path="testing/src/app/banner/banner-initial.component.spec.ts"
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region="componentInstance">
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</code-example>
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### _beforeEach()_
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You will add more tests as this component evolves.
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Rather than duplicate the `TestBed` configuration for each test,
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you refactor to pull the setup into a Jasmine `beforeEach()` and some supporting variables:
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<code-example
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path="testing/src/app/banner/banner-initial.component.spec.ts"
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region="v3"
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></code-example>
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Now add a test that gets the component's element from `fixture.nativeElement` and
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looks for the expected text.
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<code-example
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path="testing/src/app/banner/banner-initial.component.spec.ts"
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region="v4-test-2">
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</code-example>
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{@a native-element}
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### _nativeElement_
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The value of `ComponentFixture.nativeElement` has the `any` type.
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Later you'll encounter the `DebugElement.nativeElement` and it too has the `any` type.
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Angular can't know at compile time what kind of HTML element the `nativeElement` is or
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if it even is an HTML element.
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The application might be running on a _non-browser platform_, such as the server or a
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[Web Worker](https://developer.mozilla.org/en-US/docs/Web/API/Web_Workers_API),
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where the element may have a diminished API or not exist at all.
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The tests in this guide are designed to run in a browser so a
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`nativeElement` value will always be an `HTMLElement` or
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one of its derived classes.
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Knowing that it is an `HTMLElement` of some sort, you can use
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the standard HTML `querySelector` to dive deeper into the element tree.
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Here's another test that calls `HTMLElement.querySelector` to get the paragraph element and look for the banner text:
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<code-example
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path="testing/src/app/banner/banner-initial.component.spec.ts"
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region="v4-test-3">
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</code-example>
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{@a debug-element}
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### _DebugElement_
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The Angular _fixture_ provides the component's element directly through the `fixture.nativeElement`.
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<code-example
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path="testing/src/app/banner/banner-initial.component.spec.ts"
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region="nativeElement">
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</code-example>
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This is actually a convenience method, implemented as `fixture.debugElement.nativeElement`.
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<code-example
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path="testing/src/app/banner/banner-initial.component.spec.ts"
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region="debugElement-nativeElement">
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</code-example>
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There's a good reason for this circuitous path to the element.
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The properties of the `nativeElement` depend upon the runtime environment.
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You could be running these tests on a _non-browser_ platform that doesn't have a DOM or
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whose DOM-emulation doesn't support the full `HTMLElement` API.
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Angular relies on the `DebugElement` abstraction to work safely across _all supported platforms_.
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Instead of creating an HTML element tree, Angular creates a `DebugElement` tree that wraps the _native elements_ for the runtime platform.
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The `nativeElement` property unwraps the `DebugElement` and returns the platform-specific element object.
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Because the sample tests for this guide are designed to run only in a browser,
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a `nativeElement` in these tests is always an `HTMLElement`
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whose familiar methods and properties you can explore within a test.
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Here's the previous test, re-implemented with `fixture.debugElement.nativeElement`:
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<code-example
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path="testing/src/app/banner/banner-initial.component.spec.ts"
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region="v4-test-4">
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</code-example>
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The `DebugElement` has other methods and properties that
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are useful in tests, as you'll see elsewhere in this guide.
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You import the `DebugElement` symbol from the Angular core library.
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<code-example
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path="testing/src/app/banner/banner-initial.component.spec.ts"
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region="import-debug-element">
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</code-example>
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{@a by-css}
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### _By.css()_
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Although the tests in this guide all run in the browser,
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some applications might run on a different platform at least some of the time.
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For example, the component might render first on the server as part of a strategy to make the application launch faster on poorly connected devices. The server-side renderer might not support the full HTML element API.
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If it doesn't support `querySelector`, the previous test could fail.
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The `DebugElement` offers query methods that work for all supported platforms.
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These query methods take a _predicate_ function that returns `true` when a node in the `DebugElement` tree matches the selection criteria.
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You create a _predicate_ with the help of a `By` class imported from a
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library for the runtime platform. Here's the `By` import for the browser platform:
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<code-example
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path="testing/src/app/banner/banner-initial.component.spec.ts"
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region="import-by">
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</code-example>
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The following example re-implements the previous test with
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`DebugElement.query()` and the browser's `By.css` method.
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<code-example
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path="testing/src/app/banner/banner-initial.component.spec.ts"
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region="v4-test-5">
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</code-example>
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Some noteworthy observations:
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- The `By.css()` static method selects `DebugElement` nodes
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with a [standard CSS selector](https://developer.mozilla.org/en-US/docs/Web/Guide/CSS/Getting_started/Selectors 'CSS selectors').
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- The query returns a `DebugElement` for the paragraph.
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- You must unwrap that result to get the paragraph element.
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When you're filtering by CSS selector and only testing properties of a browser's _native element_, the `By.css` approach may be overkill.
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It's often easier and more clear to filter with a standard `HTMLElement` method
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such as `querySelector()` or `querySelectorAll()`.
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