Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

The matcher IsIterableContainingInAnyOrder has two overloads for the static factory method containsInAnyOrder (both have the return type Matcher<java.lang.Iterable<? extends T>>):

  1. containsInAnyOrder(java.util.Collection<Matcher<? super T>> itemMatchers)
  2. containsInAnyOrder(Matcher<? super T>... itemMatchers)

Now consider the following program:

import static org.hamcrest.collection.IsIterableContainingInAnyOrder.containsInAnyOrder;
import static org.hamcrest.core.IsEqual.equalTo;
import static org.junit.Assert.assertThat;

import java.util.Arrays;

import org.junit.Test;

public class SomeTest {

    @SuppressWarnings("unchecked")
    @Test
    public void foo() {
        assertThat(Arrays.asList("foo","bar"), 
                       containsInAnyOrder(equalTo("foo"), equalTo("bar")));
    }

}

When executing this as a JUnit test, it passes, as expected. It uses the second overload of containsInAnyOrder shown above.

Now, when I change the assertion to this (which exactly matches the example given in the documentation of the first overload):

assertThat(Arrays.asList("foo","bar"), 
           containsInAnyOrder(Arrays.asList(equalTo("foo"), equalTo("bar"))));
                              ^^^^^^^^^^^^^^

it doesn't compile anymore, because now the compiler infers the return type of containsInAnyOrder to be

Matcher<Iterable<? extends List<Matcher<String>>>>

It seems like the compiler still chooses the second overload. If it used the first one, the example should work. Why does it behave like this? How can I make this work?

I am using Hamcrest 1.3 and Oracle Java 1.7.

share|improve this question

2 Answers 2

It actually matches both overloaded methods. I'm not sure why exactly the first one is chosen, but you can provide a hint to make it choose the correct method.

By casting the argument to Collection:

assertThat(Arrays.asList("foo","bar"),
        containsInAnyOrder((Collection)Arrays.asList(equalTo("foo"), equalTo("bar"))));

or by specifying the generic type T as <String> (don't work with static import, though):

assertThat(Arrays.asList("foo","bar"),
        IsIterableContainingInAnyOrder.<String>containsInAnyOrder(Arrays.asList(equalTo("foo"), equalTo("bar"))));
share|improve this answer
    
I recommend the second version for type safety. Additionally you can write Matchers.<String>containsInAnyOrder instead of IsIterableContainingInAnyOrder.<String>containsInAnyOrder. –  eee Oct 23 at 5:20

This is even a bit harder when you are matching your own objects, rather than simple strings, to get the generics to work out. If you are using the varargs containsInAnyOrder(Matcher<? super T>... itemMatchers) as in the question's first example you will get a Unchecked generics array creation for varargs parameter warning. For example:

assertThat(myDTOList, 
    containsInAnyOrder(sameStateAs(expectedMyDTO1), sameStateAs(expectedMyDTO2));

One way to then solve the problem the OP stated in the question, is to define your collection of matchers as follows:

Collection<Matcher<? super MyDTO>> expectedMyDTOs = 
    Arrays.<Matcher<? super MyDTO>>asList(sameStateAs(expectedMyDTO1), sameStateAs(expectedMyDTO2));

// Use like this:
assertThat(myDTOList, 
    containsInAnyOrder(expectedMyDTOs);
share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

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