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interface A {
    String n();
}
class B implements A {
    @Override
    public String n() { return "asdf"; }
}
interface C<T extends A> {
    T m(T t);
}
class D implements C<B> {
    @Override
    public B m(B b) {
        return b;
    }
}

Class<C<? extends A>> x = D.class;

there is an error on the last line

Type mismatch: cannot convert from Class<D> to Class<C<? extends A>>

this looks perfectly fine to me, but maybe i am missing some subtlety on how type wildcards work. Is there a way i can change the type on the last line? i need this reference because i plan on doing this later:

B b = new B();
A y = x.newInstance().m(b);

this also has an error

The method m(capture#1-of ? extends A) in the type C<capture#1-of ? extends A> is not applicable for the arguments (B)

however, if i use it without the wildcards and capture, it works fine:

A z = D.class.newInstance().m(b);

unfortunately im kinda stuck with this for now, any help would be appreciated.

edit: removed this. references

edit: changed x to be

Class<? extends C<? extends A>> x = D.class;

and it works. however still getting errors on x.newInstance().m(b)

The method m(capture#2-of ? extends A) in the type Test.C<capture#2-of ? extends A> is not applicable for the arguments (B)
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2 Answers 2

up vote 6 down vote accepted

Right, focusing just on the last part:

however still getting errors on x.newInstance().m(b)

The method m(capture#2-of ? extends A) in the type
Test.C<capture#2-of ? extends A is not applicable for the arguments (B)

Indeed - and that makes perfect sense. Because nothing in your code indicates that you've actually got a C<B>. All the compiler knows is that newInstance has returned an instance of some type which implements C<X> for some type X which implements A. How would it know that that's B?

If you want to call m(b), you'll need a C<B>, which means that your declaration would need to be

Class<? extends C<B>> x = D.class;

At that point, the method invocation compiles cleanly. It's not really clear what you're trying to achieve, or whether this will be good enough for you - but hopefully it explains why you're getting the error you're getting...

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doesnt B implement A though? i have a B in this example, but i want the library work with A's. The library is a preference or configuration library. A is HasPreferences, and C is the serializeable Preference class. so there will be subtypes of each, with subclasses of C<A> meaning C is the preference object for A. –  aepurniet Nov 18 '12 at 10:08
    
C will get A's to grab configuration info out of. and will also apply the configuration on them. there can be multiple C's for an A. (which is why i templatized it that way, rather than the other way around) –  aepurniet Nov 18 '12 at 10:12
    
@aepurniet: B implements A, but the parameter to C.m isn't of type A - it's of type T. D can rely on getting an instance of B, not of some other implementation of A. That's why it's causing a problem. There's nothing in the declaration of Class<? extends C<? extends A>> which mentions B... –  Jon Skeet Nov 18 '12 at 10:15
    
i agree, but changing everything to B is not an option, since this library needs to deal with the interface A, not the concrete class B that it knows nothing about. there will be many classes that extend A. –  aepurniet Nov 18 '12 at 11:33
1  
@aepurniet: Yes, x.newInstance() returns a C<? extends A> - which means that all the compiler knows about the T there is that it's something which extends A. That doesn't mean you can use any A as the argument. It's hard to know exactly what your situation is, but I strongly suspect you're not going to be able to express this relationship in a type-safe way at this point. –  Jon Skeet Nov 18 '12 at 14:03

its type unsafe (i think, have those warnings turned off to avoid annotation pollution)

    Class<? extends C> x = D.class;
    B b = new B();
    A y = x.newInstance().m(b);
    A z = D.class.newInstance().m(b);

but it works.

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