1189 lines
42 KiB
Markdown
1189 lines
42 KiB
Markdown
# Hierarchical injectors
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Injectors in Angular have rules that you can leverage to
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achieve the desired visibility of injectables in your apps.
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By understanding these rules, you can determine in which
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NgModule, Component or Directive you should declare a provider.
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## Two injector hierarchies
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There are two injector hierarchies in Angular:
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1. `ModuleInjector` hierarchy—configure a `ModuleInjector`
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in this hierarchy using an `@NgModule()` or `@Injectable()` annotation.
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1. `ElementInjector` hierarchy—created implicitly at each
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DOM element. An `ElementInjector` is empty by default
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unless you configure it in the `providers` property on
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`@Directive()` or `@Component()`.
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{@a register-providers-injectable}
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### `ModuleInjector`
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The `ModuleInjector` can be configured in one of two ways:
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* Using the `@Injectable()` `providedIn` property to
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refer to `@NgModule()`, or `root`.
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* Using the `@NgModule()` `providers` array.
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<div class="is-helpful alert">
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<h4>Tree-shaking and <code>@Injectable()</code></h4>
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Using the `@Injectable()` `providedIn` property is preferable
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to the `@NgModule()` `providers`
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array because with `@Injectable()` `providedIn`, optimization
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tools can perform
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tree-shaking, which removes services that your app isn't
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using and results in smaller bundle sizes.
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Tree-shaking is especially useful for a library
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because the application which uses the library may not have
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a need to inject it. Read more
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about [tree-shakable providers](guide/architecture-services#providing-services)
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in [Introduction to services and dependency injection](guide/architecture-services).
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</div>
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`ModuleInjector` is configured by the `@NgModule.providers` and
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`NgModule.imports` property. `ModuleInjector` is a flattening of
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all of the providers arrays which can be reached by following the
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`NgModule.imports` recursively.
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Child `ModuleInjector`s are created when lazy loading other `@NgModules`.
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Provide services with the `providedIn` property of `@Injectable()` as follows:
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```ts
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import { Injectable } from '@angular/core';
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@Injectable({
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providedIn: 'root' // <--provides this service in the root ModuleInjector
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})
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export class ItemService {
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name = 'telephone';
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}
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```
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The `@Injectable()` decorator identifies a service class.
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The `providedIn` property configures a specific `ModuleInjector`,
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here `root`, which makes the service available in the `root` `ModuleInjector`.
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#### Platform injector
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There are two more injectors above `root`, an
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additional `ModuleInjector` and `NullInjector()`.
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Consider how Angular bootstraps the app with the
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following in `main.ts`:
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```javascript
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platformBrowserDynamic().bootstrapModule(AppModule).then(ref => {...})
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```
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The `bootstrapModule()` method creates a child injector of
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the platform injector which is configured by the `AppModule`.
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This is the `root` `ModuleInjector`.
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The `platformBrowserDynamic()` method creates an injector
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configured by a `PlatformModule`, which contains platform-specific
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dependencies. This allows multiple apps to share a platform
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configuration.
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For example, a browser has only one URL bar, no matter how
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many apps you have running.
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You can configure additional platform-specific providers at the
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platform level by supplying `extraProviders` using the `platformBrowser()` function.
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The next parent injector in the hierarchy is the `NullInjector()`,
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which is the top of the tree. If you've gone so far up the tree
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that you are looking for a service in the `NullInjector()`, you'll
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get an error unless you've used `@Optional()` because ultimately,
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everything ends at the `NullInjector()` and it returns an error or,
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in the case of `@Optional()`, `null`. For more information on
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`@Optional()`, see the [`@Optional()` section](guide/hierarchical-dependency-injection#optional) of this guide.
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The following diagram represents the relationship between the
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`root` `ModuleInjector` and its parent injectors as the
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previous paragraphs describe.
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<div class="lightbox">
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<img src="generated/images/guide/dependency-injection/injectors.svg" alt="NullInjector, ModuleInjector, root injector">
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</div>
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While the name `root` is a special alias, other `ModuleInjector`s
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don't have aliases. You have the option to create `ModuleInjector`s
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whenever a dynamically loaded component is created, such as with
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the Router, which will create child `ModuleInjector`s.
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All requests forward up to the root injector, whether you configured it
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with the `bootstrapModule()` method, or registered all providers
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with `root` in their own services.
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<div class="alert is-helpful">
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<h4><code>@Injectable()</code> vs. <code>@NgModule()</code></h4>
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If you configure an app-wide provider in the `@NgModule()` of
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`AppModule`, it overrides one configured for `root` in the
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`@Injectable()` metadata. You can do this to configure a
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non-default provider of a service that is shared with multiple apps.
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Here is an example of the case where the component router
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configuration includes
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a non-default [location strategy](guide/router#location-strategy)
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by listing its provider
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in the `providers` list of the `AppModule`.
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<code-example path="dependency-injection-in-action/src/app/app.module.ts" region="providers" header="src/app/app.module.ts (providers)">
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</code-example>
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</div>
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### `ElementInjector`
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Angular creates `ElementInjector`s implicitly for each DOM element.
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Providing a service in the `@Component()` decorator using
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its `providers` or `viewProviders`
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property configures an `ElementInjector`.
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For example, the following `TestComponent` configures the `ElementInjector`
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by providing the service as follows:
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```ts
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@Component({
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...
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providers: [{ provide: ItemService, useValue: { name: 'lamp' } }]
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})
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export class TestComponent
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```
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<div class="alert is-helpful">
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**Note:** Please see the
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[resolution rules](guide/hierarchical-dependency-injection#resolution-rules)
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section to understand the relationship between the `ModuleInjector` tree and
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the `ElementInjector` tree.
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</div>
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When you provide services in a component, that service is available via
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the `ElementInjector` at that component instance.
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It may also be visible at
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child component/directives based on visibility rules described in the [resolution rules](guide/hierarchical-dependency-injection#resolution-rules) section.
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When the component instance is destroyed, so is that service instance.
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#### `@Directive()` and `@Component()`
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A component is a special type of directive, which means that
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just as `@Directive()` has a `providers` property, `@Component()` does too.
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This means that directives as well as components can configure
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providers, using the `providers` property.
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When you configure a provider for a component or directive
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using the `providers` property,
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that provider belongs to the `ElementInjector` of that component or
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directive.
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Components and directives on the same element share an injector.
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{@a resolution-rules}
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## Resolution rules
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When resolving a token for a component/directive, Angular
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resolves it in two phases:
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1. Against the `ElementInjector` hierarchy (its parents)
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1. Against the `ModuleInjector` hierarchy (its parents)
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When a component declares a dependency, Angular tries to satisfy that
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dependency with its own `ElementInjector`.
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If the component's injector lacks the provider, it passes the request
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up to its parent component's `ElementInjector`.
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The requests keep forwarding up until Angular finds an injector that can
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handle the request or runs out of ancestor `ElementInjector`s.
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If Angular doesn't find the provider in any `ElementInjector`s,
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it goes back to the element where the request originated and looks
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in the `ModuleInjector` hierarchy.
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If Angular still doesn't find the provider, it throws an error.
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If you have registered a provider for the same DI token at
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different levels, the first one Angular encounters is the one
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it uses to resolve the dependency. If, for example, a provider
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is registered locally in the component that needs a service,
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Angular doesn't look for another provider of the same service.
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## Resolution modifiers
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Angular's resolution behavior can be modified with `@Optional()`, `@Self()`,
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`@SkipSelf()` and `@Host()`. Import each of them from `@angular/core`
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and use each in the component class constructor when you inject your service.
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For a working app showcasing the resolution modifiers that
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this section covers, see the <live-example name="resolution-modifiers">resolution modifiers example</live-example>.
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### Types of modifiers
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Resolution modifiers fall into three categories:
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1. What to do if Angular doesn't find what you're
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looking for, that is `@Optional()`
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2. Where to start looking, that is `@SkipSelf()`
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3. Where to stop looking, `@Host()` and `@Self()`
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By default, Angular always starts at the current `Injector` and keeps
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searching all the way up. Modifiers allow you to change the starting
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(self) or ending location.
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Additionally, you can combine all of the modifiers except `@Host()` and `@Self()` and of course `@SkipSelf()` and `@Self()`.
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{@a optional}
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### `@Optional()`
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`@Optional()` allows Angular to consider a service you inject to be optional.
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This way, if it can't be resolved at runtime, Angular simply
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resolves the service as `null`, rather than throwing an error. In
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the following example, the service, `OptionalService`, isn't provided in
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the service, `@NgModule()`, or component class, so it isn't available
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anywhere in the app.
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<code-example path="resolution-modifiers/src/app/optional/optional.component.ts" header="resolution-modifiers/src/app/optional/optional.component.ts" region="optional-component">
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</code-example>
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### `@Self()`
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Use `@Self()` so that Angular will only look at the `ElementInjector` for the current component or directive.
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A good use case for `@Self()` is to inject a service but only if it is
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available on the current host element. To avoid errors in this situation,
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combine `@Self()` with `@Optional()`.
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For example, in the following `SelfComponent`, notice
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the injected `LeafService` in
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the constructor.
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<code-example path="resolution-modifiers/src/app/self-no-data/self-no-data.component.ts" header="resolution-modifiers/src/app/self-no-data/self-no-data.component.ts" region="self-no-data-component">
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</code-example>
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In this example, there is a parent provider and injecting the
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service will return the value, however, injecting the service
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with `@Self()` and `@Optional()` will return `null` because
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`@Self()` tells the injector to stop searching in the current
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host element.
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Another example shows the component class with a provider
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for `FlowerService`. In this case, the injector looks no further
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than the current `ElementInjector` because it finds the `FlowerService` and returns the yellow flower 🌼.
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<code-example path="resolution-modifiers/src/app/self/self.component.ts" header="resolution-modifiers/src/app/self/self.component.ts" region="self-component">
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</code-example>
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### `@SkipSelf()`
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`@SkipSelf()` is the opposite of `@Self()`. With `@SkipSelf()`, Angular
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starts its search for a service in the parent `ElementInjector`, rather than
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in the current one. So if the parent `ElementInjector` were using the value `🌿` (fern)
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for `emoji` , but you had `🍁` (maple leaf) in the component's `providers` array,
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Angular would ignore `🍁` (maple leaf) and use `🌿` (fern).
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To see this in code, assume that the following value for `emoji` is what the parent component were using, as in this service:
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<code-example path="resolution-modifiers/src/app/leaf.service.ts" header="resolution-modifiers/src/app/leaf.service.ts" region="leafservice">
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</code-example>
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Imagine that in the child component, you had a different value, `🍁` (maple leaf) but you wanted to use the parent's value instead. This is when you'd use `@SkipSelf()`:
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<code-example path="resolution-modifiers/src/app/skipself/skipself.component.ts" header="resolution-modifiers/src/app/skipself/skipself.component.ts" region="skipself-component">
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</code-example>
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In this case, the value you'd get for `emoji` would be `🌿` (fern), not `🍁` (maple leaf).
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#### `@SkipSelf()` with `@Optional()`
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Use `@SkipSelf()` with `@Optional()` to prevent an error if the value is `null`. In the following example, the `Person` service is injected in the constructor. `@SkipSelf()` tells Angular to skip the current injector and `@Optional()` will prevent an error should the `Person` service be `null`.
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``` ts
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class Person {
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constructor(@Optional() @SkipSelf() parent?: Person) {}
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}
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```
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### `@Host()`
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`@Host()` lets you designate a component as the last stop in the injector tree when searching for providers. Even if there is a service instance further up the tree, Angular won't continue looking. Use `@Host()` as follows:
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<code-example path="resolution-modifiers/src/app/host/host.component.ts" header="resolution-modifiers/src/app/host/host.component.ts" region="host-component">
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</code-example>
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Since `HostComponent` has `@Host()` in its constructor, no
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matter what the parent of `HostComponent` might have as a
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`flower.emoji` value,
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the `HostComponent` will use `🌼` (yellow flower).
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## Logical structure of the template
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When you provide services in the component class, services are
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visible within the `ElementInjector` tree relative to where
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and how you provide those services.
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Understanding the underlying logical structure of the Angular
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template will give you a foundation for configuring services
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and in turn control their visibility.
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Components are used in your templates, as in the following example:
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```
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<app-root>
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<app-child></app-child>
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</app-root>
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```
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<div class="alert is-helpful">
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**Note:** Usually, you declare the components and their
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templates in separate files. For the purposes of understanding
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how the injection system works, it is useful to look at them
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from the point of view of a combined logical tree. The term
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logical distinguishes it from the render tree (your application
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DOM tree). To mark the locations of where the component
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templates are located, this guide uses the `<#VIEW>`
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pseudo element, which doesn't actually exist in the render tree
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and is present for mental model purposes only.
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</div>
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The following is an example of how the `<app-root>` and `<app-child>` view trees are combined into a single logical tree:
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```
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<app-root>
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<#VIEW>
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<app-child>
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<#VIEW>
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...content goes here...
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</#VIEW>
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</app-child>
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<#VIEW>
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</app-root>
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```
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Understanding the idea of the `<#VIEW>` demarcation is especially significant when you configure services in the component class.
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## Providing services in `@Component()`
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How you provide services via an `@Component()` (or `@Directive()`)
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decorator determines their visibility. The following sections
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demonstrate `providers` and `viewProviders` along with ways to
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modify service visibility with `@SkipSelf()` and `@Host()`.
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A component class can provide services in two ways:
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1. with a `providers` array
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```typescript=
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@Component({
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...
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providers: [
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{provide: FlowerService, useValue: {emoji: '🌺'}}
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]
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})
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```
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2. with a `viewProviders` array
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```typescript=
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@Component({
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...
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viewProviders: [
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{provide: AnimalService, useValue: {emoji: '🐶'}}
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]
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})
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```
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To understand how the `providers` and `viewProviders` influence service
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visibility differently, the following sections build
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a <live-example name="providers-viewproviders"></live-example>
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step-by-step and compare the use of `providers` and `viewProviders`
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in code and a logical tree.
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<div class="alert is-helpful">
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**NOTE:** In the logical tree, you'll see `@Provide`, `@Inject`, and
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`@NgModule`, which are not real HTML attributes but are here to demonstrate
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what is going on under the hood.
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- `@Inject(Token)=>Value` demonstrates that if `Token` is injected at
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this location in the logical tree its value would be `Value`.
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- `@Provide(Token=Value)` demonstrates that there is a declaration of
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`Token` provider with value `Value` at this location in the logical tree.
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- `@NgModule(Token)` demonstrates that a fallback `NgModule` injector
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should be used at this location.
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</div>
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### Example app structure
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The example app has a `FlowerService` provided in `root` with an `emoji`
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value of `🌺` (red hibiscus).
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<code-example path="providers-viewproviders/src/app/flower.service.ts" header="providers-viewproviders/src/app/flower.service.ts" region="flowerservice">
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</code-example>
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Consider a simple app with only an `AppComponent` and a `ChildComponent`.
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The most basic rendered view would look like nested HTML elements such as
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the following:
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```
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<app-root> <!-- AppComponent selector -->
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<app-child> <!-- ChildComponent selector -->
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</app-child>
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</app-root>
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```
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However, behind the scenes, Angular uses a logical view
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representation as follows when resolving injection requests:
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```
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<app-root> <!-- AppComponent selector -->
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<#VIEW>
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<app-child> <!-- ChildComponent selector -->
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<#VIEW>
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</#VIEW>
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</app-child>
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</#VIEW>
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</app-root>
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```
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The `<#VIEW>` here represents an instance of a template.
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Notice that each component has its own `<#VIEW>`.
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Knowledge of this structure can inform how you provide and
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inject your services, and give you complete control of service visibility.
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Now, consider that `<app-root>` simply injects the `FlowerService`:
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<code-example path="providers-viewproviders/src/app/app.component.1.ts" header="providers-viewproviders/src/app/app.component.ts" region="injection">
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</code-example>
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Add a binding to the `<app-root>` template to visualize the result:
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<code-example path="providers-viewproviders/src/app/app.component.html" header="providers-viewproviders/src/app/app.component.html" region="binding-flower">
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</code-example>
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The output in the view would be:
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```
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Emoji from FlowerService: 🌺
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```
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In the logical tree, this would be represented as follows:
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```
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<app-root @NgModule(AppModule)
|
|
@Inject(FlowerService) flower=>"🌺">
|
|
<#VIEW>
|
|
<p>Emoji from FlowerService: {{flower.emoji}} (🌺)</p>
|
|
<app-child>
|
|
<#VIEW>
|
|
</#VIEW>
|
|
</app-child>
|
|
</#VIEW>
|
|
</app-root>
|
|
```
|
|
|
|
When `<app-root>` requests the `FlowerService`, it is the injector's job
|
|
to resolve the `FlowerService` token. The resolution of the token happens
|
|
in two phases:
|
|
|
|
1. The injector determines the starting location in the logical tree and
|
|
an ending location of the search. The injector begins with the starting
|
|
location and looks for the token at each level in the logical tree. If
|
|
the token is found it is returned.
|
|
2. If the token is not found, the injector looks for the closest
|
|
parent `@NgModule()` to delegate the request to.
|
|
|
|
In the example case, the constraints are:
|
|
|
|
1. Start with `<#VIEW>` belonging to `<app-root>` and end with `<app-root>`.
|
|
|
|
- Normally the starting point for search is at the point
|
|
of injection. However, in this case `<app-root>` `@Component`s
|
|
are special in that they also include their own `viewProviders`,
|
|
which is why the search starts at `<#VIEW>` belonging to `<app-root>`.
|
|
(This would not be the case for a directive matched at the same location).
|
|
- The ending location just happens to be the same as the component
|
|
itself, because it is the topmost component in this application.
|
|
|
|
2. The `AppModule` acts as the fallback injector when the
|
|
injection token can't be found in the `ElementInjector`s.
|
|
|
|
### Using the `providers` array
|
|
|
|
Now, in the `ChildComponent` class, add a provider for `FlowerService`
|
|
to demonstrate more complex resolution rules in the upcoming sections:
|
|
|
|
<code-example path="providers-viewproviders/src/app/child/child.component.1.ts" header="providers-viewproviders/src/app/child.component.ts" region="flowerservice">
|
|
|
|
</code-example>
|
|
|
|
Now that the `FlowerService` is provided in the `@Component()` decorator,
|
|
when the `<app-child>` requests the service, the injector has only to look
|
|
as far as the `<app-child>`'s own `ElementInjector`. It won't have to
|
|
continue the search any further through the injector tree.
|
|
|
|
The next step is to add a binding to the `ChildComponent` template.
|
|
|
|
<code-example path="providers-viewproviders/src/app/child/child.component.html" header="providers-viewproviders/src/app/child.component.html" region="flower-binding">
|
|
|
|
</code-example>
|
|
|
|
To render the new values, add `<app-child>` to the bottom of
|
|
the `AppComponent` template so the view also displays the sunflower:
|
|
|
|
```
|
|
Child Component
|
|
Emoji from FlowerService: 🌻
|
|
```
|
|
|
|
In the logical tree, this would be represented as follows:
|
|
|
|
```
|
|
<app-root @NgModule(AppModule)
|
|
@Inject(FlowerService) flower=>"🌺">
|
|
<#VIEW>
|
|
<p>Emoji from FlowerService: {{flower.emoji}} (🌺)</p>
|
|
<app-child @Provide(FlowerService="🌻")
|
|
@Inject(FlowerService)=>"🌻"> <!-- search ends here -->
|
|
<#VIEW> <!-- search starts here -->
|
|
<h2>Parent Component</h2>
|
|
<p>Emoji from FlowerService: {{flower.emoji}} (🌻)</p>
|
|
</#VIEW>
|
|
</app-child>
|
|
</#VIEW>
|
|
</app-root>
|
|
```
|
|
|
|
When `<app-child>` requests the `FlowerService`, the injector begins
|
|
its search at the `<#VIEW>` belonging to `<app-child>` (`<#VIEW>` is
|
|
included because it is injected from `@Component()`) and ends with
|
|
`<app-child>`. In this case, the `FlowerService` is resolved in the
|
|
`<app-child>`'s `providers` array with sunflower 🌻. The injector doesn't
|
|
have to look any further in the injector tree. It stops as soon as it
|
|
finds the `FlowerService` and never sees the 🌺 (red hibiscus).
|
|
|
|
|
|
{@a use-view-providers}
|
|
|
|
### Using the `viewProviders` array
|
|
|
|
Use the `viewProviders` array as another way to provide services in the
|
|
`@Component()` decorator. Using `viewProviders` makes services
|
|
visible in the `<#VIEW>`.
|
|
|
|
<div class="is-helpful alert">
|
|
|
|
The steps are the same as using the `providers` array,
|
|
with the exception of using the `viewProviders` array instead.
|
|
|
|
For step-by-step instructions, continue with this section. If you can
|
|
set it up on your own, skip ahead to [Modifying service availability](guide/hierarchical-dependency-injection#modify-visibility).
|
|
|
|
</div>
|
|
|
|
|
|
The example app features a second service, the `AnimalService` to
|
|
demonstrate `viewProviders`.
|
|
|
|
First, create an `AnimalService` with an `emoji` property of 🐳 (whale):
|
|
|
|
<code-example path="providers-viewproviders/src/app/animal.service.ts" header="providers-viewproviders/src/app/animal.service.ts" region="animal-service">
|
|
|
|
</code-example>
|
|
|
|
|
|
Following the same pattern as with the `FlowerService`, inject the
|
|
`AnimalService` in the `AppComponent` class:
|
|
|
|
<code-example path="providers-viewproviders/src/app/app.component.ts" header="providers-viewproviders/src/app/app.component.ts" region="inject-animal-service">
|
|
|
|
</code-example>
|
|
|
|
<div class="alert is-helpful">
|
|
|
|
**Note:** You can leave all the `FlowerService` related code in place
|
|
as it will allow a comparison with the `AnimalService`.
|
|
|
|
</div>
|
|
|
|
Add a `viewProviders` array and inject the `AnimalService` in the
|
|
`<app-child>` class, too, but give `emoji` a different value. Here,
|
|
it has a value of 🐶 (puppy).
|
|
|
|
|
|
<code-example path="providers-viewproviders/src/app/child/child.component.ts" header="providers-viewproviders/src/app/child.component.ts" region="provide-animal-service">
|
|
|
|
</code-example>
|
|
|
|
Add bindings to the `ChildComponent` and the `AppComponent` templates.
|
|
In the `ChildComponent` template, add the following binding:
|
|
|
|
<code-example path="providers-viewproviders/src/app/child/child.component.html" header="providers-viewproviders/src/app/child.component.html" region="animal-binding">
|
|
|
|
</code-example>
|
|
|
|
Additionally, add the same to the `AppComponent` template:
|
|
|
|
<code-example path="providers-viewproviders/src/app/app.component.html" header="providers-viewproviders/src/app/app.component.html" region="binding-animal">
|
|
|
|
</code-example>
|
|
|
|
Now you should see both values in the browser:
|
|
|
|
```
|
|
AppComponent
|
|
Emoji from AnimalService: 🐳
|
|
|
|
Child Component
|
|
Emoji from AnimalService: 🐶
|
|
|
|
```
|
|
|
|
The logic tree for this example of `viewProviders` is as follows:
|
|
|
|
|
|
```
|
|
<app-root @NgModule(AppModule)
|
|
@Inject(AnimalService) animal=>"🐳">
|
|
<#VIEW>
|
|
<app-child>
|
|
<#VIEW
|
|
@Provide(AnimalService="🐶")
|
|
@Inject(AnimalService=>"🐶")>
|
|
<!-- ^^using viewProviders means AnimalService is available in <#VIEW>-->
|
|
<p>Emoji from AnimalService: {{animal.emoji}} (🐶)</p>
|
|
</#VIEW>
|
|
</app-child>
|
|
</#VIEW>
|
|
</app-root>
|
|
```
|
|
|
|
Just as with the `FlowerService` example, the `AnimalService` is provided
|
|
in the `<app-child>` `@Component()` decorator. This means that since the
|
|
injector first looks in the `ElementInjector` of the component, it finds the
|
|
`AnimalService` value of 🐶 (puppy). It doesn't need to continue searching the
|
|
`ElementInjector` tree, nor does it need to search the `ModuleInjector`.
|
|
|
|
### `providers` vs. `viewProviders`
|
|
|
|
To see the difference between using `providers` and `viewProviders`, add
|
|
another component to the example and call it `InspectorComponent`.
|
|
`InspectorComponent` will be a child of the `ChildComponent`. In
|
|
`inspector.component.ts`, inject the `FlowerService` and `AnimalService` in
|
|
the constructor:
|
|
|
|
|
|
<code-example path="providers-viewproviders/src/app/inspector/inspector.component.ts" header="providers-viewproviders/src/app/inspector/inspector.component.ts" region="injection">
|
|
|
|
</code-example>
|
|
|
|
You do not need a `providers` or `viewProviders` array. Next, in
|
|
`inspector.component.html`, add the same markup from previous components:
|
|
|
|
<code-example path="providers-viewproviders/src/app/inspector/inspector.component.html" header="providers-viewproviders/src/app/inspector/inspector.component.html" region="binding">
|
|
|
|
</code-example>
|
|
|
|
Remember to add the `InspectorComponent` to the `AppModule` `declarations` array.
|
|
|
|
<code-example path="providers-viewproviders/src/app/app.module.ts" header="providers-viewproviders/src/app/app.module.ts" region="appmodule">
|
|
|
|
</code-example>
|
|
|
|
|
|
Next, make sure your `child.component.html` contains the following:
|
|
|
|
<code-example path="providers-viewproviders/src/app/child/child.component.html" header="providers-viewproviders/src/app/child/child.component.html" region="child-component">
|
|
|
|
</code-example>
|
|
|
|
The first two lines, with the bindings, are there from previous steps. The
|
|
new parts are `<ng-content>` and `<app-inspector>`. `<ng-content>` allows
|
|
you to project content, and `<app-inspector>` inside the `ChildComponent`
|
|
template makes the `InspectorComponent` a child component of
|
|
`ChildComponent`.
|
|
|
|
Next, add the following to `app.component.html` to take advantage of content projection.
|
|
|
|
<code-example path="providers-viewproviders/src/app/app.component.html" header="providers-viewproviders/src/app/app.component.html" region="content-projection">
|
|
|
|
</code-example>
|
|
|
|
The browser now renders the following, omitting the previous examples
|
|
for brevity:
|
|
|
|
```
|
|
|
|
//...Omitting previous examples. The following applies to this section.
|
|
|
|
Content projection: This is coming from content. Doesn't get to see
|
|
puppy because the puppy is declared inside the view only.
|
|
|
|
Emoji from FlowerService: 🌻
|
|
Emoji from AnimalService: 🐳
|
|
|
|
Emoji from FlowerService: 🌻
|
|
Emoji from AnimalService: 🐶
|
|
|
|
```
|
|
|
|
These four bindings demonstrate the difference between `providers`
|
|
and `viewProviders`. Since the 🐶 (puppy) is declared inside the <#VIEW>,
|
|
it isn't visible to the projected content. Instead, the projected
|
|
content sees the 🐳 (whale).
|
|
|
|
The next section though, where `InspectorComponent` is a child component
|
|
of `ChildComponent`, `InspectorComponent` is inside the `<#VIEW>`, so
|
|
when it asks for the `AnimalService`, it sees the 🐶 (puppy).
|
|
|
|
The `AnimalService` in the logical tree would look like this:
|
|
|
|
```
|
|
<app-root @NgModule(AppModule)
|
|
@Inject(AnimalService) animal=>"🐳">
|
|
<#VIEW>
|
|
<app-child>
|
|
<#VIEW
|
|
@Provide(AnimalService="🐶")
|
|
@Inject(AnimalService=>"🐶")>
|
|
<!-- ^^using viewProviders means AnimalService is available in <#VIEW>-->
|
|
<p>Emoji from AnimalService: {{animal.emoji}} (🐶)</p>
|
|
<app-inspector>
|
|
<p>Emoji from AnimalService: {{animal.emoji}} (🐶)</p>
|
|
</app-inspector>
|
|
</#VIEW>
|
|
<app-inspector>
|
|
<#VIEW>
|
|
<p>Emoji from AnimalService: {{animal.emoji}} (🐳)</p>
|
|
</#VIEW>
|
|
</app-inspector>
|
|
</app-child>
|
|
</#VIEW>
|
|
</app-root>
|
|
```
|
|
|
|
The projected content of `<app-inspector>` sees the 🐳 (whale), not
|
|
the 🐶 (puppy), because the
|
|
🐶 (puppy) is inside the `<app-child>` `<#VIEW>`. The `<app-inspector>` can
|
|
only see the 🐶 (puppy)
|
|
if it is also within the `<#VIEW>`.
|
|
|
|
{@a modify-visibility}
|
|
|
|
## Modifying service visibility
|
|
|
|
This section describes how to limit the scope of the beginning and
|
|
ending `ElementInjector` using the visibility decorators `@Host()`,
|
|
`@Self()`, and `@SkipSelf()`.
|
|
|
|
### Visibility of provided tokens
|
|
|
|
Visibility decorators influence where the search for the injection
|
|
token begins and ends in the logic tree. To do this, place
|
|
visibility decorators at the point of injection, that is, the
|
|
`constructor()`, rather than at a point of declaration.
|
|
|
|
To alter where the injector starts looking for `FlowerService`, add
|
|
`@SkipSelf()` to the `<app-child>` `@Inject` declaration for the
|
|
`FlowerService`. This declaration is in the `<app-child>` constructor
|
|
as shown in `child.component.ts`:
|
|
|
|
```typescript=
|
|
constructor(@SkipSelf() public flower : FlowerService) { }
|
|
```
|
|
|
|
With `@SkipSelf()`, the `<app-child>` injector doesn't look to itself for
|
|
the `FlowerService`. Instead, the injector starts looking for the
|
|
`FlowerService` at the `<app-root>`'s `ElementInjector`, where it finds
|
|
nothing. Then, it goes back to the `<app-child>` `ModuleInjector` and finds
|
|
the 🌺 (red hibiscus) value, which is available because the `<app-child>`
|
|
`ModuleInjector` and the `<app-root>` `ModuleInjector` are flattened into one
|
|
`ModuleInjector`. Thus, the UI renders the following:
|
|
|
|
```
|
|
Emoji from FlowerService: 🌺
|
|
```
|
|
|
|
In a logical tree, this same idea might look like this:
|
|
|
|
```
|
|
<app-root @NgModule(AppModule)
|
|
@Inject(FlowerService) flower=>"🌺">
|
|
<#VIEW>
|
|
<app-child @Provide(FlowerService="🌻")>
|
|
<#VIEW @Inject(FlowerService, SkipSelf)=>"🌺">
|
|
<!-- With SkipSelf, the injector looks to the next injector up the tree -->
|
|
</#VIEW>
|
|
</app-child>
|
|
</#VIEW>
|
|
</app-root>
|
|
```
|
|
|
|
Though `<app-child>` provides the 🌻 (sunflower), the app renders
|
|
the 🌺 (red hibiscus) because `@SkipSelf()` causes the current
|
|
injector to skip
|
|
itself and look to its parent.
|
|
|
|
If you now add `@Host()` (in addition to the `@SkipSelf()`) to the
|
|
`@Inject` of the `FlowerService`, the result will be `null`. This is
|
|
because `@Host()` limits the upper bound of the search to the
|
|
`<#VIEW>`. Here's the idea in the logical tree:
|
|
|
|
```
|
|
<app-root @NgModule(AppModule)
|
|
@Inject(FlowerService) flower=>"🌺">
|
|
<#VIEW> <!-- end search here with null-->
|
|
<app-child @Provide(FlowerService="🌻")> <!-- start search here -->
|
|
<#VIEW @Inject(FlowerService, @SkipSelf, @Host, @Optional)=>null>
|
|
</#VIEW>
|
|
</app-parent>
|
|
</#VIEW>
|
|
</app-root>
|
|
```
|
|
|
|
Here, the services and their values are the same, but `@Host()`
|
|
stops the injector from looking any further than the `<#VIEW>`
|
|
for `FlowerService`, so it doesn't find it and returns `null`.
|
|
|
|
<div class="alert is-helpful">
|
|
|
|
**Note:** The example app uses `@Optional()` so the app does
|
|
not throw an error, but the principles are the same.
|
|
|
|
</div>
|
|
|
|
### `@SkipSelf()` and `viewProviders`
|
|
|
|
The `<app-child>` currently provides the `AnimalService` in
|
|
the `viewProviders` array with the value of 🐶 (puppy). Because
|
|
the injector has only to look at the `<app-child>`'s `ElementInjector`
|
|
for the `AnimalService`, it never sees the 🐳 (whale).
|
|
|
|
Just as in the `FlowerService` example, if you add `@SkipSelf()`
|
|
to the constructor for the `AnimalService`, the injector won't
|
|
look in the current `<app-child>`'s `ElementInjector` for the
|
|
`AnimalService`.
|
|
|
|
```typescript=
|
|
export class ChildComponent {
|
|
|
|
// add @SkipSelf()
|
|
constructor(@SkipSelf() public animal : AnimalService) { }
|
|
|
|
}
|
|
```
|
|
|
|
Instead, the injector will begin at the `<app-root>`
|
|
`ElementInjector`. Remember that the `<app-child>` class
|
|
provides the `AnimalService` in the `viewProviders` array
|
|
with a value of 🐶 (puppy):
|
|
|
|
```ts
|
|
@Component({
|
|
selector: 'app-child',
|
|
...
|
|
viewProviders:
|
|
[{ provide: AnimalService, useValue: { emoji: '🐶' } }]
|
|
})
|
|
```
|
|
|
|
The logical tree looks like this with `@SkipSelf()` in `<app-child>`:
|
|
|
|
```
|
|
<app-root @NgModule(AppModule)
|
|
@Inject(AnimalService=>"🐳")>
|
|
<#VIEW><!-- search begins here -->
|
|
<app-child>
|
|
<#VIEW
|
|
@Provide(AnimalService="🐶")
|
|
@Inject(AnimalService, SkipSelf=>"🐳")>
|
|
<!--Add @SkipSelf -->
|
|
</#VIEW>
|
|
</app-child>
|
|
</#VIEW>
|
|
</app-root>
|
|
```
|
|
|
|
With `@SkipSelf()` in the `<app-child>`, the injector begins its
|
|
search for the `AnimalService` in the `<app-root>` `ElementInjector`
|
|
and finds 🐳 (whale).
|
|
|
|
### `@Host()` and `viewProviders`
|
|
|
|
If you add `@Host()` to the constructor for `AnimalService`, the
|
|
result is 🐶 (puppy) because the injector finds the `AnimalService`
|
|
in the `<app-child>` `<#VIEW>`. Here is the `viewProviders` array
|
|
in the `<app-child>` class and `@Host()` in the constructor:
|
|
|
|
```typescript=
|
|
@Component({
|
|
selector: 'app-child',
|
|
...
|
|
viewProviders:
|
|
[{ provide: AnimalService, useValue: { emoji: '🐶' } }]
|
|
|
|
})
|
|
export class ChildComponent {
|
|
constructor(@Host() public animal : AnimalService) { }
|
|
}
|
|
```
|
|
|
|
`@Host()` causes the injector to look until it encounters the edge of the `<#VIEW>`.
|
|
|
|
```
|
|
<app-root @NgModule(AppModule)
|
|
@Inject(AnimalService=>"🐳")>
|
|
<#VIEW>
|
|
<app-child>
|
|
<#VIEW
|
|
@Provide(AnimalService="🐶")
|
|
@Inject(AnimalService, @Host=>"🐶")> <!-- @Host stops search here -->
|
|
</#VIEW>
|
|
</app-child>
|
|
</#VIEW>
|
|
</app-root>
|
|
```
|
|
|
|
Add a `viewProviders` array with a third animal, 🦔 (hedgehog), to the
|
|
`app.component.ts` `@Component()` metadata:
|
|
|
|
```typescript
|
|
@Component({
|
|
selector: 'app-root',
|
|
templateUrl: './app.component.html',
|
|
styleUrls: [ './app.component.css' ],
|
|
viewProviders: [{ provide: AnimalService, useValue: { emoji: '🦔' } }]
|
|
})
|
|
```
|
|
|
|
Next, add `@SkipSelf()` along with `@Host()` to the constructor for the
|
|
`Animal Service` in `child.component.ts`. Here are `@Host()`
|
|
and `@SkipSelf()` in the `<app-child>`
|
|
constructor :
|
|
|
|
```ts
|
|
export class ChildComponent {
|
|
|
|
constructor(
|
|
@Host() @SkipSelf() public animal : AnimalService) { }
|
|
|
|
}
|
|
```
|
|
|
|
When `@Host()` and `SkipSelf()` were applied to the `FlowerService`,
|
|
which is in the `providers` array, the result was `null` because
|
|
`@SkipSelf()` starts its search in the `<app-child>` injector, but
|
|
`@Host()` stops searching at `<#VIEW>`—where there is no
|
|
`FlowerService`. In the logical tree, you can see that the
|
|
`FlowerService` is visible in `<app-child>`, not its `<#VIEW>`.
|
|
|
|
However, the `AnimalService`, which is provided in the
|
|
`AppComponent` `viewProviders` array, is visible.
|
|
|
|
The logical tree representation shows why this is:
|
|
|
|
```html
|
|
<app-root @NgModule(AppModule)
|
|
@Inject(AnimalService=>"🐳")>
|
|
<#VIEW @Provide(AnimalService="🦔")
|
|
@Inject(AnimalService, @SkipSelf, @Host, @Optional)=>"🦔">
|
|
<!-- ^^@SkipSelf() starts here, @Host() stops here^^ -->
|
|
<app-child>
|
|
<#VIEW @Provide(AnimalService="🐶")
|
|
@Inject(AnimalService, @SkipSelf, @Host, @Optional)=>"🐶">
|
|
<!-- Add @SkipSelf ^^-->
|
|
</#VIEW>
|
|
</app-child>
|
|
</#VIEW>
|
|
</app-root>
|
|
```
|
|
|
|
`@SkipSelf()`, causes the injector to start its search for
|
|
the `AnimalService` at the `<app-root>`, not the `<app-child>`,
|
|
where the request originates, and `@Host()` stops the search
|
|
at the `<app-root>` `<#VIEW>`. Since `AnimalService` is
|
|
provided via the `viewProviders` array, the injector finds 🦔
|
|
(hedgehog) in the `<#VIEW>`.
|
|
|
|
|
|
{@a component-injectors}
|
|
|
|
## `ElementInjector` use case examples
|
|
|
|
The ability to configure one or more providers at different levels
|
|
opens up useful possibilities.
|
|
For a look at the following scenarios in a working app, see the <live-example>heroes use case examples</live-example>.
|
|
|
|
### Scenario: service isolation
|
|
|
|
Architectural reasons may lead you to restrict access to a service to the application domain where it belongs.
|
|
For example, the guide sample includes a `VillainsListComponent` that displays a list of villains.
|
|
It gets those villains from a `VillainsService`.
|
|
|
|
If you provided `VillainsService` in the root `AppModule`
|
|
(where you registered the `HeroesService`),
|
|
that would make the `VillainsService` visible everywhere in the
|
|
application, including the _Hero_ workflows. If you later
|
|
modified the `VillainsService`, you could break something in a
|
|
hero component somewhere.
|
|
|
|
Instead, you can provide the `VillainsService` in the `providers` metadata of the `VillainsListComponent` like this:
|
|
|
|
|
|
<code-example path="hierarchical-dependency-injection/src/app/villains-list.component.ts" header="src/app/villains-list.component.ts (metadata)" region="metadata">
|
|
|
|
</code-example>
|
|
|
|
By providing `VillainsService` in the `VillainsListComponent` metadata and nowhere else,
|
|
the service becomes available only in the `VillainsListComponent` and its sub-component tree.
|
|
|
|
`VillainService` is a singleton with respect to `VillainsListComponent`
|
|
because that is where it is declared. As long as `VillainsListComponent`
|
|
does not get destroyed it will be the same instance of `VillainService`
|
|
but if there are multilple instances of `VillainsListComponent`, then each
|
|
instance of `VillainsListComponent` will have its own instance of `VillainService`.
|
|
|
|
|
|
|
|
### Scenario: multiple edit sessions
|
|
|
|
Many applications allow users to work on several open tasks at the same time.
|
|
For example, in a tax preparation application, the preparer could be working on several tax returns,
|
|
switching from one to the other throughout the day.
|
|
|
|
This guide demonstrates that scenario with an example in the Tour of Heroes theme.
|
|
Imagine an outer `HeroListComponent` that displays a list of super heroes.
|
|
|
|
To open a hero's tax return, the preparer clicks on a hero name, which opens a component for editing that return.
|
|
Each selected hero tax return opens in its own component and multiple returns can be open at the same time.
|
|
|
|
Each tax return component has the following characteristics:
|
|
|
|
* Is its own tax return editing session.
|
|
* Can change a tax return without affecting a return in another component.
|
|
* Has the ability to save the changes to its tax return or cancel them.
|
|
|
|
<div class="lightbox">
|
|
<img src="generated/images/guide/dependency-injection/hid-heroes-anim.gif" alt="Heroes in action">
|
|
</div>
|
|
|
|
Suppose that the `HeroTaxReturnComponent` had logic to manage and restore changes.
|
|
That would be a pretty easy task for a simple hero tax return.
|
|
In the real world, with a rich tax return data model, the change management would be tricky.
|
|
You could delegate that management to a helper service, as this example does.
|
|
|
|
The `HeroTaxReturnService` caches a single `HeroTaxReturn`, tracks changes to that return, and can save or restore it.
|
|
It also delegates to the application-wide singleton `HeroService`, which it gets by injection.
|
|
|
|
|
|
<code-example path="hierarchical-dependency-injection/src/app/hero-tax-return.service.ts" header="src/app/hero-tax-return.service.ts">
|
|
|
|
</code-example>
|
|
|
|
Here is the `HeroTaxReturnComponent` that makes use of `HeroTaxReturnService`.
|
|
|
|
|
|
<code-example path="hierarchical-dependency-injection/src/app/hero-tax-return.component.ts" header="src/app/hero-tax-return.component.ts">
|
|
|
|
</code-example>
|
|
|
|
|
|
The _tax-return-to-edit_ arrives via the `@Input()` property, which is implemented with getters and setters.
|
|
The setter initializes the component's own instance of the `HeroTaxReturnService` with the incoming return.
|
|
The getter always returns what that service says is the current state of the hero.
|
|
The component also asks the service to save and restore this tax return.
|
|
|
|
This won't work if the service is an application-wide singleton.
|
|
Every component would share the same service instance, and each component would overwrite the tax return that belonged to another hero.
|
|
|
|
To prevent this, configure the component-level injector of `HeroTaxReturnComponent` to provide the service, using the `providers` property in the component metadata.
|
|
|
|
|
|
|
|
<code-example path="hierarchical-dependency-injection/src/app/hero-tax-return.component.ts" header="src/app/hero-tax-return.component.ts (providers)" region="providers">
|
|
|
|
</code-example>
|
|
|
|
The `HeroTaxReturnComponent` has its own provider of the `HeroTaxReturnService`.
|
|
Recall that every component _instance_ has its own injector.
|
|
Providing the service at the component level ensures that _every_ instance of the component gets its own, private instance of the service, and no tax return gets overwritten.
|
|
|
|
|
|
<div class="alert is-helpful">
|
|
|
|
The rest of the scenario code relies on other Angular features and techniques that you can learn about elsewhere in the documentation.
|
|
You can review it and download it from the <live-example></live-example>.
|
|
|
|
</div>
|
|
|
|
|
|
|
|
### Scenario: specialized providers
|
|
|
|
Another reason to re-provide a service at another level is to substitute a _more specialized_ implementation of that service, deeper in the component tree.
|
|
|
|
Consider a Car component that depends on several services.
|
|
Suppose you configured the root injector (marked as A) with _generic_ providers for
|
|
`CarService`, `EngineService` and `TiresService`.
|
|
|
|
You create a car component (A) that displays a car constructed from these three generic services.
|
|
|
|
Then you create a child component (B) that defines its own, _specialized_ providers for `CarService` and `EngineService`
|
|
that have special capabilities suitable for whatever is going on in component (B).
|
|
|
|
Component (B) is the parent of another component (C) that defines its own, even _more specialized_ provider for `CarService`.
|
|
|
|
|
|
<div class="lightbox">
|
|
<img src="generated/images/guide/dependency-injection/car-components.png" alt="car components">
|
|
</div>
|
|
|
|
Behind the scenes, each component sets up its own injector with zero, one, or more providers defined for that component itself.
|
|
|
|
When you resolve an instance of `Car` at the deepest component (C),
|
|
its injector produces an instance of `Car` resolved by injector (C) with an `Engine` resolved by injector (B) and
|
|
`Tires` resolved by the root injector (A).
|
|
|
|
|
|
<div class="lightbox">
|
|
<img src="generated/images/guide/dependency-injection/injector-tree.png" alt="car injector tree">
|
|
</div>
|
|
|
|
|
|
## More on dependency injection
|
|
|
|
For more information on Angular dependency injection, see the [DI Providers](guide/dependency-injection-providers) and [DI in Action](guide/dependency-injection-in-action) guides.
|