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Quite simply, why does this code fail to compile?

public interface IWorld { }
public class Foo<T> where T : IWorld { }
public void Hello<T>(T t) where T : IWorld
    Foo<IWorld> bar1 = new Foo<T>(); //fails implicit cast
    Foo<IWorld> bar2 = (Foo<IWorld>)new Foo<T>(); //fails explicit cast

Since every T implements IWorld, every instance of Foo<T> should match Foo<IWorld>. Why not? Is there any way around this? I really don't want to resort to generics to accomplish this.

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Value Types can implement interfaces. Each Value type gets its own implementation of generic code. A Foo<IWorld> would use the reference type implementation. So there's a type mismatch there. –  Damien_The_Unbeliever Dec 21 '12 at 10:05
Even if T was an interface-implementing value type, Foo<T> is still a class, and therefore a reference type. –  Allan Rempel Dec 21 '12 at 10:28

4 Answers 4

up vote 1 down vote accepted
T : IWorld

means that T has been implemented IWorld and does not mean that it ONLY has implemented IWorld and EXACTLY is IWorld. It may also has been implemented other interfaces.

However, C# supports this cast in it's later versions. Please see http://msdn.microsoft.com/en-us/library/dd799517.aspx (Covariance and Contravariance in Generics)

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Does it? It supports covariance\contrvariance of interfaces and delegates actually... –  horgh Dec 21 '12 at 10:09
Thanks, I was unaware of covariance and contravariance. –  Allan Rempel Dec 23 '12 at 0:21

You can cast to object first

Foo<IWorld> bar2 = (Foo<IWorld>)(object)new Foo<T>();
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An even simpler objection - imagine that instead of Foo, this was, say List.

Having converted your List<T> to a List<IWorld>, I can now add some other IWorld implementing object (say of type T2) to a list that is constrained to only contain objects of type T. That shouldn't be valid.

So back to your Foo object - if it contains any methods that expect to be called with objects of type T, I can now call them with any object that implements IWorld - even if (imagine an additional type constraint of Foo) that object would not be an eligible type for Foo.

My point in the comments re: value types. Again, this may be easier if we talk in terms of List<T> - a List<T> for value types contains the value types without boxing. If you want a List<IWorld> of these same values, each value has to be boxed before it's added to the list.

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What is the problem with following

 Foo<IWorld> bar1 = new Foo<IWorld>(); 

What are you trying to achieve?

If you need to pass IWorld instance, you can safely pass T, but that is not the case in your code.

EDIT (Based on comments)

To cast to Foo<Array of something> you can use Cast or OfType depending on your requirement(whether you want to throw or ignore incompatible matches).

If it is .NET 4, it should work automatically due to CoVariance feature.

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Foo is a wrapper around an array of whatever generic it is passed. I would like this instance of Foo to wrap a T[] array rather than the base IWorld[] array. –  Allan Rempel Dec 21 '12 at 10:35
updated answer for array type. –  Tilak Dec 21 '12 at 11:07

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