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The following little Java example won't compile for unclear reasoning:

package genericsissue;

import java.util.ArrayList;
import java.util.List;

interface Attribute<V> {}

interface ListAttribute extends Attribute<List<?>> {}

public class Context {
    public <T, A extends Attribute<T>> void put(Class<A> attribute, T value) {
        // implementation does not matter for the issue
    }

    public static void main(String[] args) {
        Context ctx = new Context();
        List<?> list = new ArrayList<String>();
        ctx.put(ListAttribute.class, list);
    }
}

The line with ctx.put produces following error:

Context.java:18: <T,A>put(java.lang.Class<A>,T) in genericsissue.Context cannot be applied to (java.lang.Class<genericsissue.ListAttribute>,java.util.List<capture#35 of ?>)

If working without wildcards the attribute pattern works fine.

Is there any explanation why the compiler does not accept the value with wildcard typing?

share|improve this question
1  
It's probably a limitation of the type inference system. Try: ctx.<List<?>, ListAttribute>put(ListAttribute.class, list). –  Bhesh Gurung May 17 '13 at 15:53
1  
Excellent formulation of your question! SSCCE, error message, etc. –  erickson May 17 '13 at 18:16
1  
Related question from last week: stackoverflow.com/questions/16449799/… –  Mark Peters May 17 '13 at 20:02

2 Answers 2

up vote 3 down vote accepted

Replace

public <T, A extends Attribute<T>>

With

public <T, A extends Attribute<? super T>>
share|improve this answer
    
How can you assume this is okay, given we don't know the implementation of put? –  Paul Bellora May 17 '13 at 18:05
    
Is it then typesafe? Because to me it looks then like I can put all instances from the super type hierarchy as values which is not what I want to allow. –  iterator May 17 '13 at 19:48
2  
I think we can assume this is OK because you have to keep in mind that value could be any subclass of T already. So if value is a String, A could be Attribute<String>, Attribute<CharSequence>, or Attribute<Object> as it stands now. The only thing this will prevent is producing a T from the A, and that seems reasonable. –  Mark Peters May 17 '13 at 20:19
    
Sounds reasonable after thinking for a while. So that really is the solution and it IS typesafe because the Attribute type can stand higher in the type hierarchy. It works like a charm now. –  iterator May 17 '13 at 21:04

The problem is, the argument type of list is not really List<?>. Compiler does a "wildcard capture" first to convert its type to List<x> for some x. Usually this is more informative and helpful. But not in your case. It drives type inference to think that T=List<x>, but ListAttribute does not extend Attribute<List<x>>

You can provide explicit type arguments to work around it

ctx.<List<?>, ListAttribute>put(ListAttribute.class, list);
      (T)      (A)
share|improve this answer
    
This solution satisfies the compiler but not the pattern which was initially created to avoid verbose hints like type casts and explicit type argument. –  iterator May 17 '13 at 19:47

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