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public class A {
    public A() {

    private void foo() {
        System.out.print("A::foo ");

    public void goo() {
        System.out.print("A::goo ");

public class B extends A {
public B() {

public void foo() {
    System.out.print("B::foo ");

public void goo() {
    System.out.print("B::goo ");

    public static void main(String[] args) {

A b = new B() {
        public void foo() {System.out.print("Anonymous::foo ");}
        public void goo() {((B)this).foo();}


I'd like your help with understanding why does the program print A::foo Anonymous::foo Anonymous::foo. Is this anonymous class replace the former B? overrides its methods?

As I see it, it should go to A's default constructor, run A's foo- print "A::foo", than run B's goo, since it was properly overrided, but now B's goo is the one in the Anonymous class, so it casts this to B (Which does nothing), and run its foo, which is the foo above, of B, so it should print "Anonymous:foo". What do I get wrong?

Thanks a lot.

share|improve this question
up vote 4 down vote accepted

Your question isn't all that clear, but let me just say that the the answer would be exactly the same if instead of an anonymous class extending B, you had a top-level class C extending B. Nothing about anonymous classes makes them behave differently with respect to polymorphism and inheritance. When B's constructor calls foo(), the overriding version in the most-derived class -- here the anonymous class -- is invoked.

share|improve this answer
Hi Ernest.Your'e saying that writing this anonymous class is like writing a class that extends from B? and it will be the dynamic type of b? – Numerator Sep 13 '11 at 14:14
Yes, exactly. And what nutcase downvoted this answer? – Ernest Friedman-Hill Sep 13 '11 at 14:16
If you are going to down-vote, please provide comment. – John B Sep 13 '11 at 14:18
upvoted, because the questioner specifically asked about anonymous inner classes, and this addresses that. – Nathan Hughes Sep 13 '11 at 14:19

I think the confusing thing here is you have two foo methods. One is private so it's not eligible for overriding, the other is public so it can be overridden. B is calling foo in its constructor but that's overridden by its subclass.

share|improve this answer
This one i actually realized. thanks. – Numerator Sep 13 '11 at 14:21
@Nir: I agree with EFH, I'm unclear what you are asking. – Nathan Hughes Sep 13 '11 at 14:28
I didn't understand why does it print what being printed, I wrote what I think it should do, and hoped for your corrections and explanations. I was misunderstood this anonymous class in this syntax. – Numerator Sep 13 '11 at 14:35
@Nir: is EFH's point helpful, that refactoring to give a name to the anonymous subclass produces the same result? i'd guess the anonymous inner class syntax is confusing the issue. – Nathan Hughes Sep 13 '11 at 14:39

A's constuctor calls (A::foo) because it is private and so not overloaded. calls goo() which was overridden by B and then by Anonymous so you get -> (Anonymous::foo). Then B's constructor calls foo which is overridden by Anonymous so (Anonymous::foo)

share|improve this answer

Using that kind of anonymous construction in fact creates a subclass of B. You have overridden B's methods with the ones you provide in the anonymous class so those will be used instead.

share|improve this answer
Jonathan Weatherhead, On my own experience and suffering you are right, that is exactly what’s going on. But I could not find this behavior explained anywhere on the “official” documentation. Could you help finding it? Where did you get this piece of information from? – Legna Oct 18 '11 at 19:09

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