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I have a use case where it appears that referencing a Guice injector from multiple locations is the only solution—though this is generally discouraged.

My application is built on top of Talend, an open source ETL platform. Most of my actual application is in Java classes that are called by Talend components. These components include Java snippets that I write and that, in turn, instantiate/invoke my classes.

Now I intend to use Guice throughout my Java classes but there is absolutely no way for me to inject dependencies into the Talend components (so that they would be available to the Java snippets). Instead, I need to actually create these dependencies. I’d like to at least have Guice control the instantiation, which means that instead of using new, it appears that the only way I can instantiate my classes (the ones with @Inject constructors) is to call injector.getInstance. This, in turn, implies that I need to keep the injector around, presumably using an old-fashioned factory that creates it in the first place and makes it available as a singleton.

I just can’t see any other way to handle this but perhaps I’m missing something.

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2 Answers 2

up vote 2 down vote accepted

Consider static injection. This will still hide persistent references to your injector across your app, but it will save you from having to pepper your code with injector.getInstance(...) calls. In any case you can inject Injector if you really need to.

class TalendDependencyModule extends AbstractModule {
  @Override public void configure() {
    requestStaticInjection(ExtractorDependencies.class);
    requestStaticInjection(ProcessorDependencies.class);
  }
}

public class ExtractorDependencies {
  @Inject private static Provider<ParserService> parserServiceProvider;
  @Inject private static Provider<SomethingElse> somethingElseProvider;

  private ExtractorDependencies() { }

  static ParserService getParserService() {
    return parserServiceProvider.get();
  }

  /* ... */
}
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Once again, Jeff, your reply is spot on. I am extremely grateful; your assistance is making a palpable difference in my ability to plan the Guice migration, which must happen quickly. I confess that after reading about static injection a week or so back, I mentally discarded it as something I wouldn’t sully my code with. That’ll teach me to refrain from geek snobbery :-) –  Rob Oaks Dec 14 '12 at 16:19
    
I do want to confirm one thing. Consider the statically injected provider, parserServiceProvider, that you invented above. ExtractorDependencies.getParserService() will be called downstream in the policy conversion process. Indeed, ParserService may have injected dependencies, such as PolicyContext (see <stackoverflow.com/questions/13847558/…), that are batch scoped and won’t actually be available until what I’ll call the PolicyScope is seeded. I just want to confirm that those injected dependencies will honor that scope. –  Rob Oaks Dec 14 '12 at 16:22
    
Whenever you call "get" on that Provider, that's when the object will actually be instantiated (assuming the object being provided isn't actually a singleton). When you inject an instance of something rather than a Provider, Guice will implicitly call the Provider for you, so the logic still holds. You can think of a Scope as a centrally-configured Provider decorator, and the Provider that your scope returns (as in SimpleScope) happens to be an anonymous inner class--which should protect you from accidentally saving the wrong PolicyContext where it doesn't belong. –  Jeff Bowman Dec 14 '12 at 22:11
    
Valid approach but I would personally not use static injection. I'd prefer to set these providers manually as part of the application's bootstrap process. This creates more visibility on what is really happening. –  RobbieV Jan 3 '13 at 17:13
    
@RobbieV Fair enough, though part of the point of Guice is to reduce the (very visible) boilerplate--after all, setting them manually is very visible, but is also more of a maintenance burden. Just a matter of style, and of balancing complexity. –  Jeff Bowman Jan 3 '13 at 17:38

I don't know how many Talend objects you have but you might want to consider using providers. For instance suppose you have your own class that you want Guice to manage creation of:

public interface INotTalendControlled {}
public class NotTalendControlled implements INotTalendControlled {}

This will be added to a Talend object whose dependencies cannot be injected via Guice (although I assume there is some manual process for doing so either constructor or setter):

public class TalendControlled {
        private INotTalendControlled notTalendControlled;

        private TalendControlled(INotTalendControlled notTalendControlled) {
            this.notTalendControlled = notTalendControlled;
        }

        public INotTalendControlled getValue() {
            return notTalendControlled;
        }
    }

If you want Guice to manage these lifecycles and the lifecycle of Talend controlled objects you can use a provider like so:

public static class TestModule extends AbstractModule {
            @Override
            protected void configure() {
                bind(INotTalendControlled.class).to(NotTalendControlled.class);
            }

            @Provides
            public TalendControlled provideInjectsToTalendObject(INotTalendControlled notTalendControlled) {
                return new TalendControlled(notTalendControlled);
            }
        }

The @Provides method will hide of the use of new for all objects as you can now directly inject TalendControlled objects (@Inject TalenControlled talendControlled) and an explicit injector is not needed to construct their dependencies.

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Thanks for your response @Ryan. Unfortunately, I have no ability to employ @Inject annotations in the Talend controlled code. I don’t even have reliable access to the name of the underlying Talend component class into which my Java code is inserted. In all cases, the Talend Java code I write is simply treated as a code fragment that is executed by Talend in accordance with my job design. Because this is so limiting, most of my Talend Java code (i.e. Java code in Talend components) is extremely concise, simply calling into the actual Java classes that have the bulk of my application logic. –  Rob Oaks Dec 15 '12 at 14:58

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