108

I had some tests working fine. Then, I moved it to a different package, and am now getting errors. Here is the code:

import static org.junit.Assert.*;
import java.util.HashSet;
import java.util.Map;
import java.util.Set;

import org.jgrapht.Graphs;
import org.jgrapht.WeightedGraph;
import org.jgrapht.graph.DefaultWeightedEdge;
import org.jgrapht.graph.SimpleWeightedGraph;
import org.junit.*; 

@Test
    public void testEccentricity() {
        WeightedGraph<String, DefaultWeightedEdge> g = generateSimpleCaseGraph();
        Map<String, Double> eccen = JGraphtUtilities.eccentricities(g);

        assertEquals(70, eccen.get("alpha"));
        assertEquals(80, eccen.get("l"));
        assertEquals(130, eccen.get("l-0"));
        assertEquals(100, eccen.get("l-1"));
        assertEquals(90, eccen.get("r"));
        assertEquals(120, eccen.get("r-0"));
        assertEquals(130, eccen.get("r-1"));
    }

The error message is this:

The method assertEquals(Object, Object) is ambiguous for the type JGraphtUtilitiesTest

How can I fix this? Why did this problem occur as I moved the class to a different package?

2
  • tell us how your class is declared. Looks to me as if you've inherited from JUnit3 and then tried to statically import from JUnit4.
    – bmargulies
    Nov 28, 2009 at 0:32
  • yeah, actually, I had JUnit3 in package A, and used JUnit4 in package B, where I originally wrote these tests. Then I switched from Package B to Package A, and the problem arose. But I don't see anything in this class that would indicate JUnit 3. Where is that declared? Nov 28, 2009 at 0:38

3 Answers 3

225

The method assertEquals(Object, Object) is ambiguous for the type ...

What this error means is that you're passing a double and and Double into a method that has two different signatures: assertEquals(Object, Object) and assertEquals(double, double) both of which could be called, thanks to autoboxing.

To avoid the ambiguity, make sure that you either call assertEquals(Object, Object) (by passing two Doubles) or assertEquals(double, double) (by passing two doubles).

So, in your case, you should use:

assertEquals(Double.valueOf(70), eccen.get("alpha"));

Or:

assertEquals(70.0d, eccen.get("alpha").doubleValue());
7
  • ok, or I could just switch it to use JUnit 4 instead of JUnit 3. How do I do that? Nov 28, 2009 at 1:38
  • 8
    The solution is not really to switch from one version to the other. Instead, help the compiler and remove the ambiguity as I suggested. Nov 28, 2009 at 2:55
  • 1
    Anyway, shouldn't it be assertEquals(70.0d, eccen.get("alpha")); ?
    – mhaller
    Nov 28, 2009 at 3:06
  • 4
    @mahller Not sure who you are talking to but, even if it's more correct than the OP's code, it still ambiguous if the version of JUnit has both assertEquals(Object, Object) and assertEquals(double, double) which is the case of JUnit 4.4, 4.5. But as I said, changing the version of JUnit is not the real solution, just fix the problem. Nov 28, 2009 at 5:58
  • 2
    @Rosarch For this particular case, it isn't a problem in JUnit 3.8.1, it isn't a problem in JUnit 4.3, it is a problem in JUnit 4.4, it is a problem in JUnit 4.5 (but the method taking 2 doubles is deprecated), it isn't a problem in JUnit 4.6 (the method has been removed). So, make your choice, but you should fix the code. Nov 28, 2009 at 5:59
4

The simplest solution to this problem is just cast the second parameter into a primitive:

assertEquals(70, (double)eccen.get("alpha"));

Ambiguity removed.

This is valid for any of the Number subclasses, for example:

assertEquals(70, (int)new Integer(70));

Would solve an ambiguity too.

However, assertEquals(double, double) is deprecated as of now and for good reasons, so I encourage you to use the method with a delta as others have suggested already.

By good reasons I mean that, given the inner representation of double numbers, two apparently equal double numbers can differ in an irrelevant infinitesimal fraction and wouldn't pass a test, but that doesn't mean that there's anything wrong with your code.

2

You can use the method

assertEquals(double expected, double actual, double delta)

Which will take into account rounding error that are hinerent to floating point (see this post for example). You can write

assertEquals(70, eccen.get("alpha"), 0.0001);

This mean that as long as the two values differ for less than 0.0001 they are considered to be equals. This has two advantages:

  • Compares floating point values as they are supposed to
  • No need to cast, as the three argument assert only applyes to doubles, not to generic Objects

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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