I'm trying to learn DI through Dagger 2 and apply it to our product. The Application-level things annotated with @Singleton are straightforward enough (e.g. SharedPreferences). In thinking of our architecture, there are several dependencies that are asynchronous in nature which I've imagined scoped at a @ForSession scoping.

  • Our authentication token/account info, acquired from the Android AccountManager. Could be synchronous in the case of an existing, valid session. Could be asynchronous if no existing session and the AccountManager has to show the complete the login flow.
  • Once we have a valid session token and session information:
    • Provide an Endpoint to fulfil dependencies so that our networking layer knows where to find the API.
    • acquire our "user" information from a network API.
    • pull additional supporting information from a network API (or local cache).
    • pull localized back-end strings from a network API (or local cache).
    • Get a component going that relies on a bound Service. Provide that component asynchronously only when the bound Service binding is complete.

The presentation layer should be gated on the receipt of the collection of these items. Aside from some sort of "loading" display, there's not much it can do without any of the above.

It feels like these dependencies fit the use-case for @ProducerModule and @Produces. I feel like I could have @Produces ListenableFuture<> methods for each of these dependencies, with perhaps a SettableFuture<> as the implementation. Perform whatever work is required, call set() on that future, dependency is met.

Where I get antsy is with this quote from the Producers guide.

As in the above example, producer modules can be used seamlessly with ordinary modules, subject to the restriction that provided types cannot depend on produced types.

For the "gate presentation on everything being available" I can envision a composite object that could get @Inject with the unwrapped T of the futures. But is that even legal?

This is the closest I've come but it's explicitly calling the constructor of the composite, not injecting it. Is there a way to do this cleaner?

public class SessionModule {
static ListenableFuture<User> produceSignedInUser(SessionManager sessionManager) {
    return sessionManager.getSignedInUserFuture();

static ListenableFuture<BoundService> produceBoundService(SessionManager sessionManager) {
    return sessionManager.getBoundServiceFuture();

static CompositeSessionInfo produceComposite(User user, BoundService service) {
    return new CompositeSessionInfo(user, service);

Then the component:

@ProductionComponent(modules = SessionModule.class)
public interface SessionComponent {
    ListenableFuture<CompositeSessionInfo> getCompsiteSessionInfoFuture();

And somewhere I want to gate I can do something like:

SessionComponent component = Dagger_SessionComponent.builder()

   new FutureCallback<CompositeSessionInfo> {
       public void onSuccess(CompositeSessionInfo result) {
       public void onFailure(Throwable t) {

Am I way off on my understanding of this part of it? And an aside: why are the @Produces methods declared static? Is this required? (EDIT: the static sure isn't required, but I'm unsure what the intent was other than to not have instance fields in the Module).


I decided to create a proof of concept project to abstract out my ideas from my actual project. Everything works as I'd like except that I'm unable to @Inject any of my @Produced items, either the end result "composite" data or intermediate results. If I expose a getter in the component, I can get them so that's what I've done.

My current plan is to have this @Producer based asynchronous stuff off in a separate injectable module, then have the resultant dependencies get fed into a @Provides style module that feeds elsewhere so that they can be @Injected.


Updated the proof of concept to have a common precursor dependency to more closely mimic my needs. Still can't @Inject. I believe this about as good as I'll get.

up vote 1 down vote accepted

Alright, since it appears I'm going it alone I'll post my final conclusions as my own answer to hopefully help out someone else looking to do something similar.

I updated my proof of concept project one more time. Now, once all of the asynchronous dependencies are met the new single composite dependency is an actual @Module, @Produced by the newly renamed SessionProductionComponent, then that module is registered as a component called the SessionProvisionComponent. This component is a standard @Component with @Provide methods to provide dependencies through the standard @Inject mechanism.

public SessionProvisionModule produceSessionProvisionModule(Application app, SomeAsyncDependency someAsyncDependency, AnotherAsyncDependency anotherAsyncDependency) {
    SessionProvisionModule module = new SessionProvisionModule(someAsyncDependency, anotherAsyncDependency);
    ((App) app).createSessionProvisionComponent(module);
    return module;

Now in the MainActivity, when I need to acquire the session information it looks like so:

    App app = (App) getApplication();
    sessionProductionComponent = app.getSessionProductionComponent();
    if (app.getSessionProductionComponent() == null) {
        sessionProductionComponent = app.createSessionProductionComponent(new SessionProductionModule());

            new FutureCallback<SessionProvisionModule>() {
                public void onSuccess(SessionProvisionModule result) {

                public void onFailure(Throwable t) {
                    // handle failure

Once the Future succeeds I can inject() the MainActivity and any annotated fields get @Injected with dependencies as one would expect. In this way, I can actually have @Inject after @Produce.

Not as clean as I'd like, but still better than without DI. Now any number of asynchronous dependencies, operating on whatever timeframe, can be satisfied in any order and once all of them are ready a single Future is set and a SessionProvisionComponent is made ready to inject dependencies with those @Produced dependencies.

Mostly happy.

Your Answer

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.