Introduction to Angular Dependency Injection

The Angular dependency injection is now the core part of the Angular. It allows us to inject dependencies into the Component, Directives, Pipes, or Services. In this tutorial, we will learn what is Angular Dependency Injection is and how to inject dependency into a Component, Directives, Pipes, or a Service by using an example

What is Dependency

We built an ProductService in the Angular Services tutorial. The AppComponent depends on the ProductService to provide the list of Products to display. You can view the code from StackBlitz

In short, the AppComponent has a dependency on ProductService.

What is Angular Dependency Injection

Dependency Injection (DI) is a technique in which a class receives its dependencies from external sources rather than creating them itself.

Let us look at the ProductService, which we created in our Angular Services tutorial. You can refer to the code from StackBlitz.

Our ProductService returns the hard-coded products when getProduct method invoked.

product.service.ts

StackBlitz

If you used ng generate or VSCode “Generate Service”, it will add the following code. Please remove it. We will explain it at the end of the chapter.

@Injectable({ providedIn: 'root' })

We instantiated the productService directly in our Component as shown below.

app.component.ts

StackBlitz

The ProductService Instance is local to the Component. The AppComponent is now tightly coupled to the ProductService, This tight coupling brings a lot of Issues.

The ProductService hardcoded in our AppComponent. What if we want to use BetterProductService. We need to change wherever the ProductService is used and rename it to BetterProductService.

What if ProductService depends on another Service. And then we decide to change the service to some other service. Again we need to search and replace the code manually

It is hard to test this Component as it is difficult to provide the Mock for the ProductService. For Instance, what if we wanted to substitute out the implementation of ProductService with MockProductService during testing.

Our Component Class has now tied one particular implementation of ProductService. It will make it difficult to reuse our components.

We would also like to make our ProductService singleton so that we can use it across our application.

How to solve all these problems. Move the creation of ProductService to the constructor the AppComponent class as shown below.

Our AppComponent does not create the instance of the ProductService. It just asks for it in its Constructor. The responsibility of Creating the ProductService falls on the creator of the AppComponent.

The above pattern is the Dependency Injection Pattern.

Benefits of Dependency Injection

loosely coupled

Our Component is now loosely coupled to the ProductService.

AppComponent does not know how to create the ProductService.  Actually, it does not know anything about the ProductService. It just works with the ProductService passed onto it. You can pass ProductService, BetterProductService or MockProductService. The AppComponent does not care.

Easier to Test

AppComponent is now easier to Test. Our AppComponent is not dependent on a particular implementation of ProductService anymore. It will work with any implementation of ProductService that is passed on to it. You can just create a mockProductService Class and pass it while testing.

Reusing the Component

Reusing of the component is becomes easier. Our Component will now work with any ProductService as long as the interface is honored.

Dependency injection pattern made our AppComponent testable, maintainable, etc.

But does it solve all our Problem ?. No, we just moved the Problem out of Component to the Creator of the Component.

How do we create an instance of ProductService and pass it to the AppComponent? That is what Angular Dependency Injection does.

Angular Dependency Injection Framework

Angular Dependency Injection framework implements the Dependency Injection in Angular. It creates & maintains the Dependencies and injects them into the Components, Directives, or Services.

There are five main players in the Angular Dependency injection Framework.

Consumer

The Consumer is the class (Component, Directive, or Service) that needs the Dependency. In the above example, the AppComponent is the Consumer.

Dependency

The Service that we want to in our consumer. In the above example the ProductService is the Dependency

Injection Token (DI Token)

The Injection Token (DI Token) uniquely identifies a Dependency. We use DI Token when we register dependency

Provider

The Providers Maintain the list of Dependencies along with their Injection Token. It uses the Injection Token is to identify the Dependency.  

Injector

Injector holds the Providers and is responsible for resolving the dependencies and injecting the instance of the Dependency to the Consumer

The Injector uses Injection Token to search for Dependency in the Providers. It then creates an instance of the dependency and injects it into the consumer

Using Dependency Injection

Registering the Dependency with the Injector

Angular Provides an instance of Injector & Provider to every component & directive in the application ( Consumers). It also creates an Injector instance at the module level and also at the root of the application. Basically, it creates a Tree of Injectors with parent-child relationship 

The dependencies are registered with the Provider. This is done in the Providers metadata of the Injector.

For Example, in the following code ProductService is registered with the Injector of the AppComponent

We can also add the Services to Providers array of the @NgModule. Then they will be available for use in all the components & Services of the application. The ProductService in this case added to the Injector instance at the module level.

Asking for Dependency in the Constructor

The Components, Directives & Services (Consumers) declare the dependencies that they need in their constructor.

Injector reads the dependencies from the constructor of the Consumer. It then looks for that dependency in the provider. The Provider provides the instance and injector, then injects it into the consumer.

If the instance of the Dependency already exists, then it will reuse it. This will make the dependency singleton.

Angular Dependency Injection Example

We had created a simple ProductService in our last tutorial. Let us now update it to use Dependency Injection. 

First, we need to register the dependencies with the provider. This is done in the providers metadata array of @Component decorator.

Next, we need to tell angular that our component needs dependency injection. This is done by using the @Injectable() decorator.

@Injectable() decorator is not needed if the class already has other Angular decorators like @Component, @pipe or @directive etc. Because all these are a subtype of Injectible.

Since our AppComponent is already decorated with @Component, we do not need to decorate with the @Injectable

Next, our AppComponent needs to ask for the dependencies. We do that in the constructor of the Component.

That’s it.

When AppComponent is instantiated it gets its own Injector instance. The Injector knows that AppComponent requires ProductService by looking at its constructor. It then looks at the Providers for a match and Provides an instance of ProductService to the AppComponent

The Complete AppComponent is as follows. You can refer to the Stackblitz for the source code.

Injecting Service into Another Service

We looked at how to inject ProductService to a component. Now let us look at how to inject service into another service.

Let us build loggerService, which logs every operation into a console window and inject it into our ProductService.

Logger Service

Create the logger.service.ts and add the following code

The LoggerService has just one method log, which takes a message and writes it to the console.

We are also using @Injectible metadata to decorate our logger class. Technically, we do not have to do that as the logger service does not have any external dependencies.

We do not have to use the @Injectible if the class does not have any dependencies.

However, it is best practice is to decorate every service class with @Injectable(), even those that don’t have dependencies for the following reasons

Future proofing: No need to remember @Injectable() when we add a dependency later.

Consistency: All services follow the same rules, and we don’t have to wonder why a decorator is missing.

Product Service

Now we want to inject this into our ProductService class

The ProductService needs loggerService to be injected. Hence the class requires @Injectible metadata

Next, In the constructor of the ProductService ask for the loggerService.

And update the GetProducts method to use the Logger Service.

Finally, we need to register LoggerService with the Providers metadata.

Angular does not have any options add providers in the Service Class. The Providers must be added to the Component, Directive, or in the Module.

Open the AppComponent update the providers array to include LoggerService

That’s it. As you click on the Get Products button, you will see the Console window updated with the Log messages

Providing Dependency from Angular Module

In the above example, we registered the dependencies in the Providers array of the component class. The dependencies are only available to the component where we register them and to its child components.

To Make the dependencies available to the entire application, we need to register it in the root module.

Remove the providers: [ProductService,LoggerService], from the AppComponent and move it to the  AppModule as shown below

Stackblitz

Providing the service in the root module will create a single, shared instance of service and injects into any class that asks for it.

The above code works because Angular creates the Tree of Injectors with parent-child relationship similar to the Component Tree. We will cover it in the next tutorial.

ProvidedIn

Instead of adding ProductService to providers of the AppModule, you can also add it in the providedIn metadata with the value root.

In fact, using the ProvidedIn is the preferred way to provide a service in a module

Service Scope

The services that we provide at the root module are app-scoped, which means that we can access them from every component/service within the app.

Any service provided in the other Modules (Other than the Lazy Loaded Module) is also available for the entire application.

The services that are provided in a Lazy Loaded Module are module scoped and available only in the Lazy loaded module.

The services provided at the Component level are available only to the Component & and to the child components.

References

dependency-injection

17 thoughts on “Introduction to Angular Dependency Injection”

  1. TBH I have tried to understand DI and their uses, but unable to understand. You have provided the best explanation of DI. Thanks a ton!

  2. Thank you for your article!

    When you comment on the benefit of flexibility provided by DI pattern, you mention that the AppCompoment class
    “does not know anything about the ProductService. It just works with the ProductService passed onto it. You can pass ProductService, BetterProductService or MockProductService. The AppComponent does not care.”

    But how come this is the case? The constructor of AppComponent only accepts a parameter of type ProductService, not BetterProductService. Could you elaborate on that?

    It seems to me like you wouldn’t be able to provide instances other than instances from ProductService into the constructor of AppComponent. However, I understand that you can configure different instances of ProductService and then pass that into the parameter of the constructor of AppComponent. Is that what you are suggesting instead?

    1. TekTutorialsHub

      Refer to the tutorial Angular Providers

      You can switch between providers while registering the service
      providers :[{ provide: ProductService, useClass: ProductService }]
      OR
      providers :[{ provide: ProductService, useClass: fakeProductService }]

      Or Use factory.

      providers: [
      { provide: LoggerService, useClass: LoggerService },

      { provide: 'USE_FAKE', useValue: true },

      {
      provide: ProductService,
      useFactory: (USE_FAKE, LoggerService) =>
      USE_FAKE ? new FakeProductService() : new ProductService(LoggerService),
      deps: ['USE_FAKE', LoggerService]
      }
      ]

  3. For those who are generating their service via VSCode “Generate Service” or terminal’s ng generate service, and are wondering why the service works without having to indicate providers in the component:
    The generator creates the service with the lines:

    @Injectable({
    providedIn: 'root'
    })

    Which seems equivalent to adding the service in app.module.ts > providers.

    If you remove this providedIn key in both services, you’ll get an error that goes away when you add the providers manually in the component.

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