I am reading the source code for Dagger2 Component Scopes Test on GitHub, and I've seen a "custom scope" defined for activities called @ActivityScope, but I've seen it in other projects including the 4-module CleanArchitecture that has its @PerActivity scope.

But literally, the code for the @ActivityScope annotation is the following:

import java.lang.annotation.Retention;
import java.lang.annotation.RetentionPolicy;

import javax.inject.Scope;

/**
 * Created by joesteele on 2/15/15.
 */
@Scope
@Retention(RetentionPolicy.RUNTIME)
public @interface ActivityScope {
}

And it is "magically" usable in Modules:

@Module
public class ActivityModule {
  @Provides @ActivityScope Picasso providePicasso(ComponentTest app, OkHttpClient client) {
    return new Picasso.Builder(app)
        .downloader(new OkHttpDownloader(client))
        .listener(new Picasso.Listener() {
          @Override public void onImageLoadFailed(Picasso picasso, Uri uri, Exception e) {
            Log.e("Picasso", "Failed to load image: " + uri.toString(), e);
          }
        })
        .build();
  }
}

Or the CleanArchitecture example:

@Scope
@Retention(RUNTIME)
public @interface PerActivity {}

@PerActivity
@Component(dependencies = ApplicationComponent.class, modules = ActivityModule.class)
public interface ActivityComponent {
  //Exposed to sub-graphs.
  Activity activity();
}

@Module
public class ActivityModule {
  private final Activity activity;

  public ActivityModule(Activity activity) {
    this.activity = activity;
  }

  /**
  * Expose the activity to dependents in the graph.
  */
  @Provides @PerActivity Activity activity() {
    return this.activity;
  }
}

I can clearly see that this has to do with JSR-330 custom scopes, but I really don't understand what exactly is happening here to make it so that this code enables the given module and/or what is provided by a given module to depend on the actual Activity lifecycle, and for there to exist only a single instance but only if that given activity is active.

The docs say this:

Scope

Dagger 1 only supported a single scope: @Singleton. 
Dagger 2 allows users to any well-formed scope annotation. 
The Component docs describe the details of 
    how to properly apply scope to a component.

It says to look at the Component docs page, but that gives me 404. I also saw this, but...

May I ask for some help in clarifying why specifying this custom scope magically makes Activity-level scopes work without an issue?

(The answer is, a subscope can receive dependencies from its superscope, and a subscope exists as long as the component does. And that you need to specify the scopes on your modules, and you need to specify your component dependencies to subscope one superscope.)

Actually there is no magic. Custom scope annotations are just annotations. They can have any name. Scope annotations serve as a tool for static analysis of dependencies that modules provide and components inject. That's why using @ActivityScope dependency in non-@ActivityScope component will fire a compilation error.

How to define the actual scope is your prerogative. Define the livecycle of your scope component, what time it's created and what time it destroyed - this is your scope. E.g. @ActivityScope is tied to Activity livecycle and defined like that:

private ActivityComponent component;

@Override
protected void onCreate(Bundle savedInstanceState) {
    component = DaggerActivityComponent.builder().build();
    component.inject(this);
}

@Override
protected void onDestroy() {
    component = null;
    super.onDestroy();
}

So there is no magic. Define your scopes by the semantics of using them. You may also find useful this answer and these examples.

  • Oh. So that's for static analysis. I understand now, thank you. – EpicPandaForce Apr 29 '15 at 12:29
  • 5
    Why is it necessary to set component = null? – Igor Ganapolsky Apr 30 '15 at 18:39
  • @IgorGanapolsky I don't think it's necessary but it defines scope pretty clear. – Kirill Boyarshinov May 1 '15 at 5:46
  • I kinda wonder if it's smarter to store a scope like this in a headless fragment, because it is attached to the activity lifecycle, but doesn't get destroyed on configuration change. – EpicPandaForce May 15 '15 at 7:13
  • Here is some thinking which suggests a solution to custom scope handling on android doridori.github.io/Android-Architecture-Pilot – Dori Oct 5 '15 at 14:56
up vote 12 down vote accepted

It is worth noting that apparently Dagger2 creates a single instance per scoped provider in a module per component.

So in order to get a scoped provider in a module, you need to specify the scope for your module's provider method.

@Module
public class YourModule {
    @Provides
    @YourScope //one per component
    public Something something() { return new SomethingImpl(); }

    @Provides //new instance per injection
    public Otherthing otherthing() { return new OtherthingImpl(); }
}

@Component
@YourScope
public interface YourComponent {
    Something something();
    Otherthing otherthing();

    void inject(YourThing yourThing);
}

Afterwards, refer to Kirill's answer; essentially a "scope" by itself only determines that it is a different scope from the other one. Using component dependencies (or subcomponents) creates a subscope.

@Module
public class SubModule {
    @Provides
    @SubScope
    public ThatThing thatThing() { return new ThatThingImpl(); }
}

@Component(dependencies={YourComponent.class}, modules={SubModule.class})
@SubScope
public interface SubComponent extends YourComponent {
    ThatThing thatThing();

    void inject(SubThing subThing);
}

A component can depend on only one other scoped component.

  • So writing @YourScope once on top of @Module is equals to writing @YourScope to each method separately inside Module right? – Jemshit Iskenderov Dec 21 '15 at 13:12
  • @JemshitIskenderov I'll be honest, I've never tried that before; you'd need to see if it generates scoped providers or not. – EpicPandaForce Dec 21 '15 at 14:32
  • After a long time (too long) wrestling with the idea of custom scopes, and exactly what they are, do and mean, I found your question and answer - thanks! – Mark Keen Nov 18 '16 at 0:20
  • Why do you think your answer is correct? I think Kirill Boyarshinov provided a correct answer too. You're accepting your own answers. – sam_k Sep 15 at 23:00
  • @sam_k because "Scope annotations serve as a tool for static analysis of dependencies" isn't really true. Adding a scope on a @Provides method makes it generate a scoped provider and this distinction is very important; though it is true that components themselves require it for validation purposes, and you manage the lifecycle yourself. But scopes really do a bit more than that. Also I should probably mention scoped class with @Inject constructor in this answer for completion's sake. Also, I don't get any points for accepting my answer, feel free to upvote other answers too. – EpicPandaForce Sep 16 at 10:19

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