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Suppose I have these interfaces:

public interface I1 {
  void foo();
}

public interface I2 {
  void bar();
}

and the classes:

public class A extends AParent implements I1, I2 {
   // code for foo and bar methods here
}

public class B extends BParent implements I1, I2 {
  // code for foo and bar methods here
}

public class C extends CParent implements I1 {
  // code for foo method here
}

Now, with generics I can have a method like:

public <T extends I1 & I2> void method(T param) {
  param.foo();
  param.bar();
}

and I can call it with both A and B as parameters, but not with C (it doesn't implement I2).

Was there a way of achieving this type of type safety pre generics (java < 1.5).

Consider that A, B and C have different inheritance trees, and it's not really an option to do something like AParent and BParent having a common parent themselves.

I know you could do:

public void method(I1 param) {
  param.foo();
  ((I2)param).bar();
}

but then you could also call method(new C()) which doesn't implement I2, so you get into trouble.

So are there any other ways you could have done this?

P.S. : I don't really need to do this, it's mostly out of curiosity that I ask.

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3 Answers 3

up vote 10 down vote accepted

Create a third interface I3 extends I1 and I2. Then class A and B both implement I3, and the generic method accepts I3.

That's perhaps the only way to do it.

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2  
I sort of realized this after I asked the question, though if you have more than two interfaces, and you want to mix and match those for different methods, it may become a pain creating a child interface for every combination you want to use. I was thinking more along the lines of having a method like method (I1 & I2 param) or some other way of saying the parameter implements multiple interfaces on the go (without creating a new class/interface) –  Andrei Fierbinteanu Jun 24 '10 at 8:22

Before Java 1.5 there is IMO no solution to achieve such type-sefety at compile-time. But there is a soultion at runtime using "instanceof".

public void method(Object o) {
  if (!(o instanceof I1))
    throw new RuntimeException("o is not instance of I1");

  if (!(o instanceof I2))
    throw new RuntimeException("o is not instance of I2");

  // go ahead ...
}
share|improve this answer
    
Well if you call method(new C()) for my non-generic example in the question you'll get a ClassCastException when casting to I2 to call bar(), so there's not much improvement here. –  Andrei Fierbinteanu Jun 24 '10 at 8:27
    
Nope, you will get a RuntimeException before, because the check of "(o instanceof I2)" evaluates to false ;) Well I guess the suggestion of sri maybe much more better :) Because you won't get the risk of a runtime exception as with my suggestion because the compiler will fail before. –  VuuRWerK Jun 24 '10 at 8:45

sri is the best answer if you had permission to change the signature of A and B. However, if you did not have permission, then you could have done:

public void method(I1 param1 , I2 param2) { // unpopular classes that do not implement I3 must use this method
  param1.foo();
  param2.bar();
}
public void method(I3 param){ // I hope everybody implements I3 when appropriate
  param.foo();
  param.bar();
}
public void method(A param){// A is a popular class
  method(param,param);
}
public void method(B param){// B is a popular class
  method(param,param);
}

Of course, now just use generics.

share|improve this answer
    
Yes this would work, but if I1 is something like Comparable, I2 something like Serializable which are widely used, having a method for each Type that implements both (that calls the private one) might be a bit of a challenge. When I thought about the question, I just gave A and B as examples, I wouldn't really care what they are when calling the method (the only thing that mattered was that they implement those interfaces). And in fact if method() might be an API method, exposed for others to use, hard coding the classes that can use it like that would be a problem. –  Andrei Fierbinteanu Jun 24 '10 at 11:22
    
Then a better choice would be to make the private method public and then some convenience methods for the classes of most interest - which could include the interface sri's I3 interface. –  emory Jun 24 '10 at 12:10

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