I have an interface:

public static interface Consumer<T> {
    void consume(T t);

And I want to be able to have:

public static class Foo implements Consumer<String>, Consumer<Integer> {
    public void consume(String t) {..}
    public void consume(Integer i) {..}

It doesn't work - the compiler doesn't let you implement the same interface twice.

The question is: Why?

People have asked similar questions here, but the answer was always "type erasure", i.e. you cannot do it because the types are erased at runtime.

And they aren't - some types are retained at runtime. And they are retained in this particular case:

public static void main(String[] args) throws Exception {
    ParameterizedType type = (ParameterizedType) Foo.class.getGenericInterfaces()[0];

This prints class java.lang.String (if I only keep Consumer<String> in order to compile)

So, erasure, in its simplest explanation, is not the reason, or at least it needs elaboration - the type is there, and also, you don't care about the type resolution, because you already have two methods with distinct signature. Or at least it seems so.

  • (I have an answer that I'm almost sure about, but I'd like to know is there a 'canonical' one :) )
    – Bozho
    Apr 2, 2014 at 9:22
  • What would you count as a "canonical" answer? A quote from the JLS gospel precluding that possibility? I wouldn't find that satisfying at all. The answer you have in mind is probably better than that. Apr 2, 2014 at 9:26
  • About it written in many books. Apr 3, 2014 at 9:36

2 Answers 2


The answer is still "type erasure", but it's not that simple. The keywords are: raw types

Imagine the following:

Consumer c = new Foo();

What would that do? It appears that consume(String s) is not actually consume(String s) - it is still consume(Object o), even though it is defined to take String.

So, the above code is ambiguous - the runtime can't know which of the two consume(..) methods to invoke.

A funny follow-up example is to remove Consumer<Integer>, but keep the consume(Integer i) method. Then invoking the c.consume(1) on a raw Consumer. throws ClassCastException - unable to cast from Integer to String. The curious thing about this exception is that it happens on line 1.

The reason is the use of bridge methods. The compiler generates the bridge method:

public void consume(Object o) {
    consume((String) o);

The generated bytecode is:

public void consume(java.lang.String);

public void consume(java.lang.Integer);

public void consume(java.lang.Object);
     0: aload_0
     1: aload_1
     2: checkcast     #39                 // class java/lang/String
     5: invokevirtual #41                 // Method consume:(Ljava/lang/String;)V

So even if the methods you have defined keep their signatures, each of them has a corresponding bridge method that is actually invoked when working with the class (regardless whether it's raw or parameterized).

  • 5
    Another level of answer would be that, even if raw types were precluded, supporting this would completely break the existing method invocation machinery. The Consumer interface has consume(Object) and the implementing class must have the same. So the primary goal of keeping backward compatibility would be defeated. Apr 2, 2014 at 9:36

@Bozho: Thanks for your profound question and your own answer. Even I was at this doubt at some stage.

Plus to add more to your answer, I'd disagree with you on this point in your question:

"some types are retained at runtime".

Answer is NO because of type erasure (which you already pointed it out). Nothing is retained.

Now to answer this key doubt, "how does it then knows the exact type after erasure ?", check out the very definition of ParameterizedType.

When a parameterized type p is created, the generic type declaration that p instantiates is resolved

May be this resolution of exact TypeVariable is obtained through what you specified as bridge methods

  • 4
    From the bytecode: public class ClassTest$Foo extends ClassTest$ConsumerClass<java.lang.String> it is retained :)
    – Bozho
    Apr 2, 2014 at 10:47
  • Ahh... then that means, type erasure is not exactly what actually we used to think, just a sort of cover up to support backward compatibility to Java without Generics.
    – Lokesh
    Apr 2, 2014 at 11:14

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