For best results you should use
public static <T extends Comparable<? super T>> T max(T a, T b).
The problem with
<T extends Comparable<?>> is that this says that the type T is comparable to some type, but you don't know what that type is. Of course, common sense would dictate that a class which implements Comparable should be able to be comparable to at least itself (i.e. be able to compare to objects of its own type), but there is technically nothing preventing class A from implementing
Comparable<B>, where A and B have nothing to do with each other.
<T extends Comparable<T>> solves this problem.
But there's a subtle problem with that. Suppose class X implements
Comparable<X>, and I have a class Y that extends X. So class Y automatically implements
Comparable<X> by inheritance. Class Y can't also implement
Comparable<Y> because a class cannot implement an interface twice with different type parameters. This is not really a problem, since instances of Y are instances of X, so Y is comparable to all instances of Y. But the problem is that you cannot use the type Y with your
<T extends Comparable<T>> T max(T a, T b) function, because Y doesn't implement
Comparable<Y>. The bounds are too strict.
<T extends Comparable<? super T>> fixes the problem, because it is sufficient for T to be comparable to some supertype of T (which would include all T instances). Recall the rule PECS - producer
super - in this case,
Comparable is a consumer (it takes in an object to compare against), so
super makes sense.
This is the type bounds used by all of the sorting and ordering functions in the Java library.