Understanding upper and lower bounds on ? in Java Generics

First of all T or E or K or whatever are not fixed names. They are just type variables, and you decide the name for them. T, E, K are just examples but you could call it Foo or whatever.

Now going to your first question: since the wildcard ? represents the "any and unknown" type, the unspecified one, it doesn't make any sense to declare a class generic over an unspecified type. It's useful to have wildcard in parameters of methods or in variables when you don't care about the type.

Now regarding your second question: the lower bound gives even more flexibility to your generic methods. both extends and super are the opposite:

  • ? extends T: an unknown type which is a subtype of T
  • ? super T: an unknown type which is a super type of T

The latter can be useful when you want to accept a type that is compatible with T (so that T is-a that type). A practical example can be found here.


? as a type parameter can only be used in methods. eg: printAll(MyList<? extends Serializable>) I cannot define classes with ? as type parameter.

A wildcard (?) isn't a formal type parameter, but rather can be used as a type argument. In the example you give, ? extends Serializable is given as a type argument to the generic type MyList, of the printAll method's parameter.

Methods can also declare type parameters like classes, for example:

static <T extends Serializable> void printAll(MyList<T> myList)

I understand the upper bound on ?. printAll(MyList<? extends Serializable>) means printAll will print MyList if it has objects that implement the Serialzable interface

More accurately, it means a call to printAll will compile only if it is passed a MyList with some generic type that is or implements Serializable. In this case it would accept a MyList<Serializable>, MyList<Integer>, etc.

I have a bit of an issue with the super. printAll(MyList<? super MyClass>) means printAll will print MyList if it has objects of MyClass or any class which extends MyClass (the descendants of MyClass)

A wildcard bounded with super is a lower bound. So we could say a call to printAll will compile only if it is passed a MyList with some generic type that is MyClass or some super-type of MyClass. So in this case it would accept MyList<MyClass>, e.g. MyList<MyParentClass>, or MyList<Object>.

So, say if MyClass looks like:

public class MyClass extends Thread implements ActionListener{
    // whatever
}

then, printAll() will print if

  1. There are objects of MyClass in the list
  2. There are objects of Thread or ActionListener in the list

You're on the right track. But I think saying e.g. "it will print if there are objects of MyClass in the list" is problematic. That makes it sound like you're defining runtime behavior - generics are all about compile time checks. For example wouldn't be able to pass a MyList<MySubclass> as an argument for MyList<? super MyClass>, even though it might contain instances of MyClass, by inheritance. I would reword it to:

A call to printAll(MyList<? super MyClass>) will compile only if it is passed a:

  1. MyList<MyClass>
  2. MyList<Thread>
  3. MyList<Runnable>
  4. MyList<ActionListener>
  5. MyList<EventListener>
  6. MyList<Object>
  7. MyList<? super X> where X is MyClass, Thread, Runnable, ActionListener, EventListener, or Object.

So, after having read the many answers to the question, here is my understanding:

? extends T means any class which extends T. Thus, we are referring to the children of T. Hence, T is the upper bound. The upper-most class in the inheritance hierarchy

? super T means any class / interface which is super of T. Thus we are referring to all the parents of T. T is thus the lower bound. The lower-most class in the inheritance hierarchy

Close, but I wouldn't say "children of T" or "parents of T", since these bounds are inclusive - it would be more accurate to say "T or its subtypes", and "T or its supertypes".