5

In class MyClass that I test I have:

public void execute(){
    service.call(ThisClass::method1);
}

And following:

void method1(){do 1;}
void method2(){do 2;}

And in test:

@Mock
Service service;

@Test
public void testCallMethod1()
{
     MyClass myClass = new MyClass();
     myClass.execute();

     service.verify(any(Runnable.class));
}

And it works, but, how do I verify that parameter instead of any Runnable was method1 and not method2?

I'm looking for solution that will look like (For example, not really works):

service.verify(eq(MyClass::method1.getRunnable()))
9
  • What do you mean by how do I specify that parameter was ... If you need to know which method was called, this might not be the best implementation
    – AxelH
    Commented Nov 9, 2016 at 12:25
  • Which instead of that, sorry for my poor English, editing the question to clarify.
    – Anton
    Commented Nov 9, 2016 at 12:26
  • 2
    Ok, this is just for testing purposes... missed that part. This is a bit strange to test this because the result is important, the way to achieve it is a bit hard to check. Without any update in the method#(), I doubt there is a way.
    – AxelH
    Commented Nov 9, 2016 at 12:39
  • 2
    You can say that functions are almost first-class citizens, but the functional interface implementations created for them have an unspecified equality. Likewise, value types might become first class citizens in a future version, but the object identity of their boxed representation will be unspecified. The outcome of Integer.valueOf(0xcafebabe) == Integer.valueOf(0xcafebabe) is also unspecified. That doesn’t mean that Integer objects aren’t first class citizens…
    – Holger
    Commented Nov 9, 2016 at 12:53
  • 2
    Can't you call run on the Runnable and verify it has the desired effect? Then you are testing an outcome rather than an implementation detail Commented Nov 9, 2016 at 19:38

1 Answer 1

1

The following works for me:

public class MyTest {

public static class X{
    static void method1() {};
    static void method2() {};
}

@Test
public void throwAway() {
  ExecutorService service = mock(ExecutorService.class);
  Runnable command1 = X::method1;
  Runnable command2 = X::method2;
  service.execute(command1);
  verify(service).execute(command1);
  verify(service, never()).execute(command2);
}

}

The key was extracting the method reference lambda and using it in both the execution and the verify. Otherwise, each "::" operator produces a distinct lambda instance which doesn't work with equality testing, as some of the comments above discussed the semantics of lambda equality.

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