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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 {

    public void foo() {
                       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):

           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.

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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:

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

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

        IsIterableContainingInAnyOrder.<String>containsInAnyOrder(Arrays.asList(equalTo("foo"), equalTo("bar"))));
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I recommend the second version for type safety. Additionally you can write Matchers.<String>containsInAnyOrder instead of IsIterableContainingInAnyOrder.<String>containsInAnyOrder. –  eee Oct 23 '14 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:

    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:
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