Consider I have the following interface:

public interface A { public void b(); }

However I want each of the classes that implement it to have a different return type for the method b().


public class C { 
  public C b() {} 

public class D { 
  public D b() {} 

How would I define my interface so that this was possible?

3 Answers 3


If the return type must be the type of the class that implements the interface, then what you want is called an F-bounded type:

public interface A<T extends A<T>>{ public T b(); }

public class C implements A<C>{
  public C b() { ... }

public class D implements A<D>{
  public D b() { ... }

In words, A is declaring a type parameter T that will take on the value of each concrete type that implements A. This is typically used to declare things like clone() or copy() methods that are well-typed. As another example, it's used by java.lang.Enum to declare that each enum's inherited compareTo(E) method applies only to other enums of that particular type.

If you use this pattern often enough, you'll run into scenarios where you need this to be of type T. At first glance it might seem obvious that it is1, but you'll actually need to declare an abstract T getThis() method which implementers will have to trivially implement as return this.

[1] As commenters have pointed out, it is possible to do something sneaky like X implements A<Y> if X and Y cooperate properly. The presence of a T getThis() method makes it even clearer that X is circumventing the intentions of the author of the A interface.

  • 1
    Good answer (and a great example of the power of generics), but this doesn't prevent the programmer from doing C implements A<D> (see my second answer).
    – Cam
    Mar 10, 2010 at 22:32
  • 3
    @Matt McHenry: Any specific reason, why you are doing A<T extends A<T>> rather than just A<T>?
    – ARK
    Nov 12, 2015 at 15:11
  • 1
    @MattMcHenry What if I declare interface A as public interface A<T extends A> ? It seems that it still works well with your example. So what's the difference here?
    – Jian Guo
    Aug 31, 2017 at 3:40
  • 1
    That last reference to A is a raw type. That should be avoided in anything except legacy code. Aug 31, 2017 at 16:15
  • 1
    @ARK @JianGuo I believe the self-referencial notation is to constrain T as much as possible. Consider that if we only had A<T>, something like class Cat implements A<String> { ... } would be allowed. The inention is to have T close in as much as possible to the type that implements A. What little amount of info do we have on T? ... well we know that it at least extends/implements A<T>, so we can add that to the constraints.
    – init_js
    Mar 24, 2022 at 1:38


public interface A<E>{
    public E b();

public class C implements A<C>{
    public C b(){
        return new C();

public class D implements A<D>{
    public D b(){
        return new D();

Search up generics for more details, but (very) basically, what's happening is that A leaves E's type up to the implementing clases (C and D).

So basically A doesn't know (and doesn't have to know) what E might be in any given implementation.

  • 3
    I like that one more than the one marked as "the" answer, because you don't have to rely on the fact that the implementors will actually include their class name in the generified declaration. Thumbs up from me on that one.
    – dimitarvp
    Mar 10, 2010 at 9:18

Since Java supports covariant return types (since Java 1.5), you can do:

public interface A { public Object b(); }
  • 8
    Not great. You want your interface to leave as little room for accidental misuse as possible. With a method like that, it would be very easy for the programer to make a mistake when implementing A.
    – Cam
    Mar 10, 2010 at 1:37
  • The question did not explicitly specify any restrictions on the overriding types. Of course, if such restrictions exist, one should enforce them with the interface where feasible.
    – meriton
    Mar 11, 2010 at 0:10

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