I wonder why the following code executes the method with Object parameter instead of int:

public class Main {
    public static void main(String[] args) {
        java.util.function.Consumer bla = new Bla()::shake;

class Bla {
    void shake(int i) {
        System.out.println("shake called with i " + i);

    void shake(Object o) {
        System.out.println("shake called with o " + o);


shake called with o 6


The point is: you are not calling that shake() method directly.

You are going through the Consumer interface!

And that interface says accept(T t) where T is an reference type generic! But you are using a raw type, therefore T turns into Object! And unfortunately, even with the "correct" generic type Integer, it wouldn't work!

So, yes, the solution, as pointed out first by Eran is to use the IntConsumer interface instaed!

  • 1
    Note that even with Consumer<Integer> this would call the object overload since you can do consumer.accept(null);. – Minn Jan 3 '20 at 9:41
  • @Minn Updated accordingly. – GhostCat Jan 3 '20 at 9:45

That's because you are using a raw Consumer type, which consumes an Object.

Use Consumer<Integer>:

Consumer<Integer> bla = new Bla()::shake;

but you'll have to change the first method signature to void shake(Integer i) in order for it to match the Consumer<Integer> functional interface.

If you want to consume an int with your original void shake(int i) method, use an IntConsumer:

java.util.function.IntConsumer bla = new Bla()::shake;
Consumer bla = new Bla()::shake;

is equivalent to

Consumer<Object> bla = new Bla()::shake;

which is equivalent to (*)

Consumer<Object> bla = (Object x) -> new Bla().shake(x);

Even if you had specified the intended generic type parameter Integer, i.e.

Consumer<Integer> bla = new Bla()::shake;

it is equivalent to

Consumer<Integer> bla = (Integer x) -> new Bla().shake(x);

Java method resolution is a 3-step search:

  1. Match without using boxing, unboxing, or var-args.

  2. Match using boxing and unboxing, but no var-args.

  3. Match all.

Since shake(Object) matches in the first step, that is the method used, even for Integer type parameter.

To get the shake(int) overload, you must either remove the shake(Object) overload, or pass a primitive integer value (byte, short, char, or int), which means you can make it work one of these ways:

Consumer<Integer> bla = x -> new Bla().shake((int) x);

Consumer<Integer> bla = x -> new Bla().shake(x.intValue());

IntConsumer bla = new Bla()::shake;    // Recommended solution

(*) It's not quite equivalent: it's more like:

Bla instance = new Bla();
Consumer<Object> bla = (Object x) -> instance.shake(x);

This detail is omitted above to focus on method signature resolution.

  • There are some differences between using raw types and <Object>. I don't remember offhand, but they come up on SO from time to time. – matt Jan 3 '20 at 9:57
  • @matt Raw types disable type parameter matching in the compiler, so e.g. Consumer<Object> and Consumer<Integer> are not assignment compatible with each other, but Consumer is assignment compatible with both, even though all 3 of them are technically compiled to the same bytecode (as a local variable). – Andreas Jan 3 '20 at 10:01
  • "is equivalent to ... -> new Bla().shake(x)" all of these should have new Bla() outside the lambda. – Andy Turner Jan 3 '20 at 10:16
  • @AndyTurner True. I was trying to keep it simple, focusing on the method signature resolution. – Andreas Jan 3 '20 at 15:49
  • @Andreas added a footnote. – Andy Turner Jan 3 '20 at 15:54

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.