4

I am having an issue with polymorphism in C#. I have an object that implements an interface, however I cannot represent a collection of the objects as a collection of interfaces. This flies in the face of my understanding of polymorphism. So I was wondering where I have gone wrong.

[TestFixture]
class Tester
{
    [Test]
    public void Polymorphism()
    {
        var list = new List<Foo> {new Foo {Name = "Item"}};

        Assert.That(list, Is.InstanceOf<IList>());
        Assert.That(list[0], Is.InstanceOf<Foo>());
        Assert.That(list[0], Is.InstanceOf<IBar>());

        // why are the rest true but this false?
        Assert.That(list, Is.InstanceOf<IList<IBar>>());
    }
}

internal interface IBar
{
}

internal class Foo : IBar
{
    public string Name { get; set; }
}
5

3 Answers 3

4

This is a question of variance, not polymorphism.

If a List-of-Foo was also an IList-of-IBar, the following would work:

class Another : IBar {}
IList<IBar> list = new List<Foo>();
list.Add(new Another());

Then we've added an Another to a list of Foo. Which is an error. The compiler stopped you making a mistake.

Note that recent compilers / .net versions support variance via "in"/"out". So a List-of-Foo is fine as an IEnumerable-of-IBar. Because that is guaranteed to only return Foo (not accept them), and all Foo are also IBar - hence it is safe.

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  • Why Assert.That(list, Is.InstanceOf<IList<Foo>>()); returns false? Shouldn't it be true?
    – Rohit Vats
    Jul 21, 2013 at 15:03
  • Thanks Marc. That IEmumerable being covariant really helped me out.
    – baynezy
    Jul 21, 2013 at 15:09
  • @Rohit the question is about IList-of-IBar, not IList-of-Foo Jul 21, 2013 at 15:27
  • Yeah. I was just curious so thought of asking you. Should i post a seperate question for this?
    – Rohit Vats
    Jul 21, 2013 at 15:44
  • 1
    @Rohit no need; a List-of-Foo is trivially assignable to IList-of-Foo Jul 21, 2013 at 16:00
1

I'll throw my two cents in as well. The issue you're encountering can be understood better if you increase your understanding of covariance and contravariance (see http://blogs.msdn.com/b/csharpfaq/archive/2010/02/16/covariance-and-contravariance-faq.aspx).

I modified your code a bit and came up with this working test method:

public void TestMethod1()
{
var list = new List<Foo> { new Foo { Name = "Item" } };
Assert.IsNotNull(list as IList);
Assert.IsNotNull(list[0] as Foo);
Assert.IsNotNull(list[0] as IBar);
Assert.IsNotNull(list as IList<Foo>);
Assert.IsNotNull((IList<Foo>)list);
}
0
var list = new List<Foo>

The list is a List<Foo>, not a List<IBar>. Even though Foo implements IBar, the list itself it still a list of Foo.

So you cannot add any other type that implements IBar to that list. Only Foo's, which obviously is a Foo or any type that derives from Foo too, as that would also be a Foo. I've said Foo too much.

If you wish to add any type that implements IBar, then you can make the list a collection of IBar instead:

var list = new List<IBar> { new Foo { Name = "Item" } };
2
  • You should just explain why a list of Foo is not also a list of IBar (see the comments for the question). You are taking that for granted even though that's exactly what OP is asking for.
    – Esailija
    Jul 21, 2013 at 14:51
  • The question was why does the assert fail
    – devdigital
    Jul 21, 2013 at 14:57

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