It's a lower-bounded wildcard.
Wildcards are useful in situations where only partial knowledge about the type parameter is required. [...] An upper bound is signified by the syntax:
? extends B
B is the upper bound. [...] it is permissible to declare lower bounds on a wildcard, using the syntax:
? super B
B is a lower bound.
List<? super Integer>, for example, includes
Wildcards are used to make generics more powerful and flexible; bounds are used to maintain type safety.
As to how this is useful in
<T extends Comparable<? super T>>, it's when you have something like
Cat extends Animal implements Comparable<Animal>.
Look at the signature of
public static <T extends Comparable<? super T>> void sort(List<T> list)
Therefore, with a
List<Cat> listOfCat, you can now
Had it been declared as follows:
public static <T extends Comparable<T>> void sort(List<T> list)
then you'd have to have
Cat implements Comparable<Cat> to use
sort. By using the
? super T bounded wildcard,
Collections.sort becomes more flexible.
- Effective Java 2nd Edition, Item 28: Use bounded wildcards to increase API flexibility
- Also, PECS principle: "producer