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I would like some variant of this code to compile in java.

class X
    List<X> getvalue(){...};

class Y extends X
    List<Y> getvalue(){...};

Javac (1.6) returns an error because List<Y> and List<X> are not compatible.

The point is that I would like the compiler to recognize that List<Y> is a compatible return type to List<X> if Y is a subtype of X. The reason I want this is to simplify the use of a user-defined factory class.

Note: This question is somewhat like this question but for java.

share|improve this question
Please format the code so that it is readable. – Carlos Sep 10 '10 at 19:50
Fixed it for him :) Just took me four tries... lol. – Skurmedel Sep 10 '10 at 19:54

In Java, the return type of the overriding method has to be covariant with that of the method being overridden.

The class java.util.List is not covariant (In fact, no Java class is. This happens because of the lack of declaration-site variance annotations). In other words, B <: A doesn't imply List<B> <: List<A> (read <: as is-subtype-of). Hence your code doesn't typecheck.

In Java, you have definition-site variance. The following therefore typechecks:

import java.util.List;

class X {
  List<? extends X> getvalue() { return null; }

class Y extends X {
  List<Y> getvalue() { return null; }
share|improve this answer

No, it's not a compatible type. You can't convert from List<Y> to List<X> just because Y is a subclass of X. Consider:

List<Banana> bananas = new ArrayList<Banana>();
List<Fruit> fruit = bananas;
fruit.add(new Apple());
Banana banana = fruit.get(0); // But it's an apple!

You can use bounded wildcards in Java to express limited variance, giving something which is valid:

List<? extends Fruit> fruit = bananas;

because that will prevent you (at compile-time) from trying to add any extra fruit - the compiler knows it might be invalid.

I would recommend Angelika Langer's Java Generics FAQ for further reading about this sort of thing.

share|improve this answer is recommended for anyone who needs to understand how Java generics work. – Carlos Sep 10 '10 at 19:53
Thanks, that is a good pointer. – Dennis Heimbigner Sep 10 '10 at 19:55
The sentence "You can use variance in Java ..." doesn't seem right (if you consider the definition of variance). Maybe you should say "You can use bounded wildcards in Java ..." instead. You could also add that bounded wildcards let you specify the covariance/contravariance constraints on a type-parameter at use-site. – one-zero-zero-one Sep 14 '10 at 10:34
@one-zero-zero-one: bounded wildcards give a form of variance... I'll clarify a bit though. – Jon Skeet Sep 14 '10 at 11:06
@Carlos's link is now at There is also a more updated tutorial here: – Joshua Goldberg Jan 5 at 0:22

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