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Is there any way to pass generic types using a TestCase to a test in NUnit?

This is what I would like to do but the syntax is not correct...

[Test]
[TestCase<IMyInterface, MyConcreteClass>]
public void MyMethod_GenericCall_MakesGenericCall<TInterface, TConcreteClass>()
{
    // Arrange

    // Act
    var response = MyClassUnderTest.MyMethod<TInterface>();

    // Assert
    Assert.IsInstanceOf<TConcreteClass>(response);
}

Or if not, what is the best way to achieve the same functionality (obviously I'll have multiple TestCases in the real code)?

Update with another example...

Here is another example with a single generic type passed...

[Test]
[TestCase<MyClass>("Some response")]
public void MyMethod_GenericCall_MakesGenericCall<T>(string expectedResponse)
{
    // Arrange

    // Act
    var response = MyClassUnderTest.MyMethod<T>();

    // Assert
    Assert.AreEqual(expectedResponse, response);
}
share|improve this question
    
Could you be more specific about what you want to test? From the sample above, it looks like you're writing unit tests for .NET infrastructure rather than your code. –  Jeff Sternal Mar 2 '10 at 16:58
    
Sorry, I was trying to make the example as simple as possible and I may have gone a bit too far. I am writing tests to test that certain classes have been registered against certain interfaces in an IoC container. I understand that this is pushing the limits of what should be tested from a logical point of view. There are plenty of other instances though where I would like to test passing in different types to a generic method. –  Russell Giddings Mar 2 '10 at 17:07
2  
NUnit TestCase can of course be abbreviated as NUTCase. –  T.E.D. Mar 2 '10 at 17:26

5 Answers 5

up vote 4 down vote accepted

I had occasion to do something similar today, and wasn't happy with using reflection.

I decided to leverage [TestCaseSource] instead by delegating the test logic as a test context to a generic testing class, pinned on a non-generic interface, and called the interface from individual tests (my real tests have many more methods in the interface, and use AutoFixture to set up the context):

class Sut<T>
{
    public string ReverseName()
    {
        return new string(typeof(T).Name.Reverse().ToArray());
    }
}

[TestFixture]
class TestingGenerics
{
    public IEnumerable<ITester> TestCases()
    {
        yield return new Tester<string> { Expectation = "gnirtS"};
        yield return new Tester<int> { Expectation = "23tnI" };
        yield return new Tester<List<string>> { Expectation = "1`tsiL" };
    }

    [TestCaseSource("TestCases")]
    public void TestReverse(ITester tester)
    {
        tester.TestReverse();
    }

    public interface ITester
    {
        void TestReverse();
    }

    public class Tester<T> : ITester
    {
        private Sut<T> _sut;

        public string Expectation { get; set; }

        public Tester()
        {
            _sut=new Sut<T>();
        }

        public void TestReverse()
        {
            Assert.AreEqual(Expectation,_sut.ReverseName());
        }

    }
}
share|improve this answer

As might be testing with generic functions that return objects?. Example:

public Empleado TestObjetoEmpleado(Empleado objEmpleado) 
{
    return objEmpleado; 
}

Thanks

share|improve this answer

I did something similar last week. Here's what I ended up with:

internal interface ITestRunner
{
    void RunTest(object _param, object _expectedValue);
}

internal class TestRunner<T> : ITestRunner
{
    public void RunTest(object _param, T _expectedValue)
    {
        T result = MakeGenericCall<T>();

        Assert.AreEqual(_expectedValue, result);
    }
    public void RunTest(object _param, object _expectedValue)
    {
        RunTest(_param, (T)_expectedValue);
    }
}

And then the test itself:

[Test]
[TestCase(typeof(int), "my param", 20)]
[TestCase(typeof(double), "my param", 123.456789)]
public void TestParse(Type _type, object _param, object _expectedValue)
{
    Type runnerType = typeof(TestRunner<>);
    var runner = Activator.CreateInstance(runnerType.MakeGenericType(_type));
    ((ITestRunner)runner).RunTest(_param, _expectedValue);
}
share|improve this answer
    
Yep, in a similar vein to kvb's response this is as near as you can get in terms of the TestCase attribute and then using reflection to run the test. Like I said to kvb though, it makes it slightly taxing to understand what's being tested. –  Russell Giddings Mar 2 '10 at 22:27
    
@Russell: Definitely. In my actual code, I mitigated the readability problem slightly by using clear names for the classes and methods involved. –  Anna Lear Mar 3 '10 at 14:11

Attributes in C# cannot be generic, so you won't be able to do things exactly as you'd like. Perhaps the easiest thing would be to put TestCase attributes onto a helper method which uses reflection to call the real method. Something like this might work (note, untested):

    [TestCase(typeof(MyClass), "SomeResponse")]
    public void TestWrapper(Type t, string s)
    {
        typeof(MyClassUnderTest).GetMethod("MyMethod_GenericCall_MakesGenericCall").MakeGenericMethod(t).Invoke(null, new [] { s });
    }
share|improve this answer
    
Why didn't I think of this? Very clever @kvb. Thanks! –  Bomboca May 12 at 8:08

Start with the test first--even when testing. What do you want to do? Probably something like this:

[Test]
public void Test_GenericCalls()
{
    MyMethod_GenericCall_MakesGenericCall<int>("an int response");
    MyMethod_GenericCall_MakesGenericCall<string>("a string response");
      :
}

Then you can just make your test a plain old function test. No [Test] marker.

public void MyMethod_GenericCall_MakesGenericCall<T>(string expectedResponse)
{
    // Arrange

    // Act
    var response = MyClassUnderTest.MyMethod<T>();

    // Assert
    Assert.AreEqual(expectedResponse, response);
}
share|improve this answer
    
Although it doesn't use TestCases this seems the most appropriate way to structure this code from a readability perspective. Then downside though is that one failing instance will cause the entire test to fail and therefore won't pinpoint an error. –  Russell Giddings Mar 2 '10 at 22:31
    
To help with pinpointing the error, you could always insert a description as another parameter on the MyMethod_GenericCall_MakesGenericCall method and use it in the Assert.AreEqual method. –  Gary Brunton Jun 16 '11 at 18:25

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