No, it is not feasible to say this.
Or to put it that way: It does make sense to have such an interface.
Imagine the following
Collection<? extends T> next();
class FooInteger implements Foo<Number>
private final List<Integer> integers = new ArrayList<Integer>();
Integer i = integers.get(0);
public Collection<? extends Number> next()
// Using it:
Foo<Number> foo = new FooInteger();
Collection<? extends Number> next = foo.next();
Number n = next.iterator().next();
If you wrote the return type as
Collection<T>, you could not return a collection containing a subtype of
Whether or not it is desirable to have such a return type depends on the application case. In some cases, it may simply be necessary. But if it is easy to avoid, then you can do this.
EDIT: Edited the code to point out the difference, namely that you might not always be able to choose the type internally. However, in most cases returning something that involves a wildcard can be avoided - and as I said, if possible, it should be avoided.
The example sketched above should still be considered as an example to emphasize the key point. Although, of course, such an implementation would be a bad practice, because it is exposing an internal state.
In this and similar cases, one can often return something like a
and by this, declare the return type as
unmodifiableList method solves the problem of the exposed internal state, and has the neat property that it allows changing the type parameter to a supertype, because the list is then... well, unmodifiable anyhow.