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public class TestCase {
    public static String compiles() {
        return getAction();
    }

    /*
    public static String doesntCompile1() {
        return (String) getAction();
    }

    public static String doesntCompile2() {
        return TestCase.<String> getAction();
    }
    */

    public static <T extends javax.swing.Action> T getAction() {
        return (T) null;
    }
}

Should this be considered a bug in javac v1.6.0_22 and jdt v3.7.1? To me it seems that way since in the other cases, the compiler actually finds the potential ClassCastException. In the compiles method, this will throw at ClassCastException at runtime.

The original code that brought this exemple didn't compile in javac, printing the following exception. Unfortunately, the exemple code I provided for some reason will not generate this error.

type parameters of <T>T cannot be determined;
no unique maximal instance exists for type variable T with upper bounds
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1  
I'am not getting your question –  Sleiman Jneidi Jan 19 '12 at 20:54
    
So the original code not shown had a syntax error? What is the question? –  AJG85 Jan 19 '12 at 20:55
    
The code as is compiles but throws ClassCastException at run-time. I think OP's question is why compiler cannot deduce that, which it can in the second (commented out) case. –  Miserable Variable Jan 19 '12 at 20:58
    
Let's wait if someone else's knows the answer. –  SHiRKiT Jan 19 '12 at 21:00
    
I am very surprised by the fact that the first method compiles... –  Louis Wasserman Jan 19 '12 at 22:07

2 Answers 2

up vote 2 down vote accepted

I would expect a good compiler to be able to detect the error, but as an optimization. You present a specific case of a more general case like this:

public class TestCase {
    public static TypeA methodA() {
        return methodB();
    }

    public static <T extends TypeB> T methodB() {
        return (T) null;
    }
}

Now, in general there's nothing wrong with that, provided:

  1. If TypeA and TypeB are both classes then TypeB is a superclass of TypeA.
  2. TypeA or one of TypeA's subtypes inherits from TypeB.

Now the key thing that the compiler isn't checking is #2, when it can in this case. But that is only because String is a final class. If the class isn't final, #2 will always be true because the potential subclasses aren't known at compile time.

Imagine that instead of String, you used CharSequence. Then I would expect all three to compile. However, I cannot explain why in your example the second and third method do not compile.

Edit

And now I have tried it with javac, and have found that the first method does not compile either. The above accepts the premise of your question which seems to be false. I get the misleading compile error

Incompatible types. Required: java.lang.String. Found: T.

This answer doesn't answer the full question, but rather explains why it doesn't work but something like this:

public static CharSequence compiles() {
    return (CharSequence)getAction();
}

does.

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I think I understand your answer, but would just like a little clarification. Why is it that casting the return type in methodA or specificaly typing <TypeA> methodB() would trigger the compiler error? I am assuming this since I don't have my workstation close by. –  ebelanger Jan 20 '12 at 3:49
    
@ebelanger: It doesn't trigger the compile error for me; for me all three of the methods you give fail to compile. However, the first and second methods do give different error messages (the second fails because it detects that a String can never be an Action, while the first fails for what appears to be an inference problem). I assume that this is a limitation on the inference engine. If I do String val = getAction(); return val; I get the same error as the first which makes me think the limitation is inferring from assignment vs inferring from an expression. –  Mark Peters Jan 20 '12 at 3:53
    
I think I clearly understand what you are getting to and I thank for for your elaborations. My last question would be that would it be pertinent to report the compiled method behavior as a bug to the respective compilers? –  ebelanger Jan 20 '12 at 13:49
    
@ebelanger: What would you say is the bug? It doesn't compile, and shouldn't. Yes it has a hard-to-understand message but maybe that's defined in the JLS. I would do a bit more research. If you were going to submit it as a bug, I think a much more interesting case is when you swap out String for another interface such as CharSequence. Then the second compiles but the first still doesn't. Using String is a red herring. If it compiles in the JDT I would report that as a bug to Eclipse; at the very least they'll analyze the case and say whether it conforms to the spec or not. –  Mark Peters Jan 20 '12 at 14:03

I don't understand what the problem/question is here. The errors you are getting are both obvious and expected.

For the doesntCompile1 method, my compiler tells me

Cannot cast from Action to String

which is totally expected - we know the method returns a T which is an Action and we know an Action can't be cast to a String.

For the doesntCompile2 method, my compiler tells me

Bound mismatch: The generic method getAction() of type TestCase is not applicable for the arguments (). The inferred type String is not a valid substitute for the bounded parameter

which is basically the same reason as above

What did you expect it to do?

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Why the downvote? –  Bohemian Jan 20 '12 at 4:28
    
it's actually the method that compiles that troubles me since this will cause a runtime exception. –  ebelanger Jan 20 '12 at 13:43
    
I executed it and it didn't cause an exception for me. I am running standard java 1.6 –  Bohemian Jan 20 '12 at 14:58

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