4

I want to create a dynamic proxy, which can delegate its methods to different implementations (each method invocation chooses a potentially different object). And I want to achieve the polymorphic effect, like when some proxied method calls another proxied method, the object selection mechanism does apply again.

Okay, enough confusion, here is an example:

interface IService {
  void a();
  void b();
}

class HappyService implements IService {
  public void a() {
    System.out.println("Happy a");
    b();
  }

  public void b() {
    System.out.println("Happy b");
  }
}

class SadService implements IService {
  public void a() {
    System.out.println("Sad a");
    b();
  }

  public void b() {
    System.out.println("Sad b");
  }
}

Now, I want to create a proxy for IService which always chooses HappyService for invocations of method a() and SadService for invocations of method b(). Here is what comes to my mind at first:

InvocationHandler h = new InvocationHandler() {
  @Override
  public Object invoke( final Object proxy, final Method method, final Object[] args ) throws Throwable {
    Object impl;
    if (method.getName().equals("a")) {
      impl = new HappyService();
    } else if (method.getName().equals("b")) {
      impl = new SadService();
    } else {
      throw new IllegalArgumentException("Unsupported method: " + method.getName());
    }
    return method.invoke(impl, args);
  }
};
IService service = (IService)Proxy.newProxyInstance( IService.class.getClassLoader(), new Class[]{ IService.class }, h );
service.a();

This prints:

Happy a
Happy b

Yeah, that's because the invocation of b() inside of a() does not know anything about the dynamic proxy.

So, how do I best achieve my goal? My desired output is:

Happy a
Sad b

I could probably replace my new HappyService() inside the invocation handler with yet another proxy, which passes only method a() to HappyService, and redirects all other methods back to the original proxy. But maybe there is a better/easier solution?

2

1 Answer 1

3

A proxy can only be used to intercept inter-object calls, when the caller has a reference to the proxy instead of the "real" implementation. Here, both your implementations of a() call b() directly, so of course they call it on this. What you want to do cannot be achieved by proxies.

However, you can do it using AOP, for example using AspectJ and either compile-time weaving (also available with the aspectj-maven-plugin) or load-time weaving. Roughly, you create an aspect with pointcuts on the calling sites of the a() and b() methods in the IService implementations, and you advise the execution, which might be to replace the original call by another. Untested code, but it looks like this:

public aspect IServiceAspect {
    private IService happy = new HappyService(); // Assuming these are stateless services
    private IService sad = new SadService();     // that can be shared.

    // The pointcut is inside an IService implementation, and is a call to the a() method
    pointcut aCall(): within(IService+) && call(* IService.a());

    pointcut bCall(): within(IService+) && call(* IService.b());

    around(): aCall() && !within(HappyService) { // To avoid infinite recursion
        return happy.a();
    }

    around(): bCall() && !within(SadService) {
        return sad.b();
    }
}

You can then provide directly an HappyService or SadService implementation as an IService, both have been modified. You can also create a single pointcut matching all the methods of IService, and do the routing dynamically based on the method name (using thisJoinPoint in the advice), like in your example.

Aspects can also be declared using annotations.

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  • Thanks for your answer, Frank! I'm afraid I can't introduce AspectJ in the project. Do you know of any aspect tools capable of solving this problem, but which don't introduce new syntax beyond Java?
    – vadipp
    Oct 22, 2012 at 5:11
  • 1
    There's an AspectJ syntax using annotations, but they themselves contain bits of AspectJ syntax, obviousky. However, I don't see how that can be avoided (using AspectJ or equivalent), short of doing the job yourself using asm or javassist, which would be a lot more error-prone. Oct 22, 2012 at 6:08

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