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I have the following code in an abstract java class:

protected abstract <E extends HasText & IsWidget> E createNewDisplayWidget();

Which compiles fine. However if I call it anywhere, the compiler complains:

Bound mismatch: The generic method createNewDisplayWidget() of type DemoClass is not applicable for the arguments (). The inferred type HasText is not a valid substitute for the bounded parameter <E extends HasText & IsWidget>

Is there a way to require an abstract method to return something that should implement multiple interfaces?

Note: No, I cannot create a special interface that implements the two I like. GWT has widgets like Label which already implement said interfaces and I would like to use said widget.

Edit: I got the idea to do this from here (page 22):

http://java.sun.com/j2se/1.5/pdf/generics-tutorial.pdf

share|improve this question
    
Have you tried with a comma instead of an and? –  sp00m May 9 '12 at 22:21
    
a comma would mean that the bound ends at IsWidget. HasText then gets ignored. The compiler throws a warning saying that the second type is 'hidden'. –  McTrafik May 9 '12 at 22:25
4  
Can you show us one/some of your call sites? –  Mike Daniels May 9 '12 at 22:26
    
@McTrafik Ok, good to know :) –  sp00m May 9 '12 at 22:28
    
I don't believe this is actually possible. Return an actual class in that intersection. –  Louis Wasserman May 9 '12 at 23:18

4 Answers 4

up vote 2 down vote accepted

The problem was in Eclipse. I upgraded from 3.7 to 3.7.2 and the compiler error went away.

I don't know the details of what effect this had. If someone has a clue please feel free to update my answer.

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Yes, that makes sense. The release notes of Eclipse 3.7.1 lists the fixed Bug 341795, which describes the same situation, with exactly the error message you saw! –  Chris Lercher May 12 '12 at 16:07

I have given a try on the basis of your question and i was able to get through without an error. Please check the classes that i have created.

TestClass

public abstract class TestClass {

    protected abstract <E extends HasText & IsWidget > E createNewDisplayWidget();

}

HasText class

public class HasText {

}

IsWidget

public interface IsWidget {

}

DemoClass

 public class DemoClass extends HasText implements IsWidget{

    }

TestClass1

public class TestClass1 extends TestClass{

    @Override
    protected DemoClass createNewDisplayWidget() {
        // TODO Auto-generated method stub
        DemoClass type = new DemoClass();
        return type;
    }

    public void checkOut(){
        if(createNewDisplayWidget() instanceof HasText || createNewDisplayWidget() instanceof IsWidget){
            System.out.println("Yes it works");
        }
        else{
            System.out.println("It doesnt");
        }
    }

    public static void main(String[] args){
        TestClass1 check = new TestClass1();
        check.checkOut();

    }

}

When i run my main program i always get "Yes it works". Please let me know am i missing something.

share|improve this answer
    
You're calling createNewDisplayWidget() from the same class where you gave it a more concrete return type. I tried calling it from DemoClass but couldn't reproduce the OP's error. Maybe it's a GWT-specific problem. –  mpartel May 10 '12 at 0:08
    
Yes. The problem I was trying to get around was not having to create another type like "DemoClass". It's actually the solution I went with, but it's not what I was looking for because now I have to create custom types for every class from GWT I wanted to use. –  McTrafik May 10 '12 at 7:09

So I tried doing the complete code to generate the error, but for some reason it didn't give an error. Will look into it in a bit:

import java.util.LinkedList;

public abstract class DemoClass {

    public static void main(String[] args) {
        DemoClass dc = new DemoClassImpl();
        dc.createNewLivingAndDying().live();
        dc.killAll();
    }

    LinkedList<Dies> dying = new LinkedList<Dies>();

    public Lives createNewLivingAndDying() {
        Lives ab = newLivingAndDying(); // This is where I expected an error
        dying.add((Dies) ab);
        return ab;
    }

    public void killAll() {
        for (Dies dead : dying)
            dead.die();
    }

    protected abstract <E extends Lives & Dies> E newLivingAndDying();

}

class DemoClassImpl extends DemoClass {

    @SuppressWarnings("unchecked")
    @Override
    protected <E extends Lives & Dies> E newLivingAndDying() {
        return (E) new SomePrivateClass(); // This is what I don't understand
    }

}

interface Lives {
    public void live();
};

interface Dies { 
    public void die();
};

class SomePrivateClass implements Lives, Dies {

    @Override
    public void die() {
        System.out.println("Object Dies");
    }

    @Override
    public void live() {
        System.out.println("Object Lives");
    }
}

This code compiles and runs fine on my home computer but giver the error on my work computer.

Bound mismatch: The generic method newLivingAndDying() of type DemoClass is not applicable for the arguments (). The inferred type Lives is not a valid substitute for the bounded parameter <E extends Lives & Dies>

At this point I think it's a project setup issue but I don't know what it is. JRE 1.6 both.

share|improve this answer
    
In other words, you bypass the error by using Object (implicitly) as the type argument and then casting to either one interface. Put differently if you only need a Lives somewhere, Lives lives = newLivingAndDying() would fail to compile, but Lives lives = (Lives) this.<Object>newLivingAndDying() would compile (and work!) –  Thomas Broyer May 10 '12 at 13:19
    
@ThomasBroyer <Object>newLivingAndDying() won't compile:) the reason why Object ab = newLivingAndDying(); compiles is complicated, arguably due to quirks in type inference. –  irreputable May 10 '12 at 15:38
    
@McTrafik, by casting, an implementation can return anything, regardless of declared return type. that's fine, but you lose compiler type checking. you may as well declare Object newLivingAndDying(). –  irreputable May 10 '12 at 15:43
    
@irreputable I'm writing a library, and my goal is not let developers implement the method without implementing proper interfaces or using classes that do. Perhaps I should have been more clear about that. –  McTrafik May 10 '12 at 17:06
    
@ThomasBroyer Eum, no. I didn't have to use Object. I could have just as easily said Lives ab = newLivingAndDying(); without any casts. –  McTrafik May 10 '12 at 17:14

What you want to do is only possible if Java supports interception type directly, then you can simply

   HasText&IsWidget createNewDisplayWidget();

any implementation must return an object that's a subtype of the type HasText&IsWidget; in another word, the returned type must be a subtype of both HasText and IsWidget

Unfortunately, Java does not support that.

The problem of your attempted solution can be understood from two angles:

1) constraints on a type variable are constraints on the caller; caller supplies the actual type argument, and it must satisfy the constraints. What you really want is constraints on the callee.

2) if a type variable only appears in the return type, but not types of method parameters, it is usually a sign of problem. In Java, due to the evil type erasure, the method body cannot know the runtime type argument, therefore it cannot return a value of proper type desired by caller, except for some trivial values like null; another classic example of trivial return value is

java.util.Collections  
    <T> Set<T> emptySet()
share|improve this answer
    
The answer is not correct, and you shouldn't accept it. What is correct is, that such a method signature may be a sign of a problem. But for a factory that creates a certain set of subtypes, this may be ok (for convenience), and it works in Java (just add the `@SuppressWarnings("unchecked"), if you like. You may get ClassCastExceptions at Runtime, and it may not always be the nicest approach, but this does not explain the compiler error you are getting! –  Chris Lercher May 10 '12 at 7:31
    
To me In Java, due to the evil type erasure, the method body cannot know the runtime type argument, therefore it cannot return a value of proper type desired by caller made sense as the reason. I tried adding a parameter of type E to the signature and the compiler stopped complaining. Of course then the method becomes unusable. –  McTrafik May 10 '12 at 17:25

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