Service is a broad category encompassing any value, function, or feature that an application needs. A service is typically a class with a narrow, well-defined purpose. It should do something specific and do it well.
Angular distinguishes components from services to increase modularity and reusability.
Ideally, a component's job is to enable only the user experience. A component should present properties and methods for data binding to mediate between the view and the application logic. The view is what the template renders and the application logic is what includes the notion of a model.
A component should use services for tasks that don't involve the view or application logic. Services are good for tasks such as fetching data from the server, validating user input, or logging directly to the console. By defining such processing tasks in an injectable service class, you make those tasks available to any component. You can also make your application more adaptable by injecting different providers of the same kind of service, as appropriate in different circumstances.
Angular doesn't enforce these principles. Instead, Angular helps you follow these principles by making it easy to factor your application logic into services. In Angular, dependency injection makes those services available to components.
Here's an example of a service class that logs to the browser console.
export class Logger { log(msg: any) { console.log(msg); } error(msg: any) { console.error(msg); } warn(msg: any) { console.warn(msg); } }
Services can depend on other services. For example, here's a HeroService
that depends on the Logger
service, and also uses BackendService
to get heroes. That service in turn might depend on the HttpClient
service to fetch heroes asynchronously from a server.
export class HeroService { private heroes: Hero[] = []; constructor( private backend: BackendService, private logger: Logger) { } getHeroes() { this.backend.getAll(Hero).then( (heroes: Hero[]) => { this.logger.log(`Fetched ${heroes.length} heroes.`); this.heroes.push(...heroes); // fill cache }); return this.heroes; } }
Dependency injection (DI) is the part of the Angular framework that provides components with access to services and other resources. Angular provides the ability for you to inject a service into a component to give that component access to the service.
The @Injectable()
decorator defines a class as a service in Angular and allows Angular to inject it into a component as a dependency. Likewise, the @Injectable()
decorator indicates that a component, class, pipe, or NgModule has a dependency on a service.
The injector is the main mechanism. Angular creates an application-wide injector for you during the bootstrap process, and additional injectors as needed. You don't have to create injectors.
An injector creates dependencies and maintains a container of dependency instances that it reuses, if possible.
A provider is an object that tells an injector how to obtain or create a dependency
For any dependency that you need in your app, you must register a provider with the application's injector, so that the injector can use the provider to create new instances. For a service, the provider is typically the service class itself.
A dependency doesn't have to be a service —it could be a function, for example, or a value.
When Angular creates a new instance of a component class, it determines which services or other dependencies that component needs by looking at the constructor parameter types. For example, the constructor of HeroListComponent
needs HeroService
.
constructor(private service: HeroService) { }
When Angular discovers that a component depends on a service, it first checks if the injector has any existing instances of that service. If a requested service instance doesn't yet exist, the injector makes one using the registered provider and adds it to the injector before returning the service to Angular.
When all requested services have been resolved and returned, Angular can call the component's constructor with those services as arguments.
The process of HeroService
injection looks something like this.
You must register at least one provider of any service you are going to use. The provider can be part of the service's own metadata, making that service available everywhere, or you can register providers with specific modules or components. You register providers in the metadata of the service (in the @Injectable()
decorator), or in the @NgModule()
or @Component()
metadata
By default, the Angular CLI command ng generate service
registers a provider with the root injector for your service by including provider metadata in the @Injectable()
decorator. The tutorial uses this method to register the provider of HeroService class definition.
@Injectable({ providedIn: 'root', })
When you provide the service at the root level, Angular creates a single, shared instance of HeroService
and injects it into any class that asks for it. Registering the provider in the @Injectable()
metadata also allows Angular to optimize an app by removing the service from the compiled application if it isn't used, a process known as tree-shaking.
When you register a provider with a specific NgModule, the same instance of a service is available to all components in that NgModule. To register at this level, use the providers
property of the @NgModule()
decorator.
@NgModule({ providers: [ BackendService, Logger ], … })
When you register a provider at the component level, you get a new instance of the service with each new instance of that component. At the component level, register a service provider in the providers
property of the @Component()
metadata.
@Component({ selector: 'app-hero-list', templateUrl: './hero-list.component.html', providers: [ HeroService ] })
For more detailed information, see the Dependency Injection section.
© 2010–2023 Google, Inc.
Licensed under the Creative Commons Attribution License 4.0.
https://angular.io/guide/architecture-services