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Referring to this test code compiled for C# in Visual Studio 2010 express

public class Test
    class Base { }
    class Derived : Base { }

    void Test1(IEnumerable<Derived> derived)
        IEnumerable<Base> b = derived; //This works fine using covariance on IEnumerable

    void Test2<TDerived, TBase>(TDerived derived) where TDerived : TBase
        TBase b = derived; //This works fine because TDerived is constrained to derive from TBase

    void Test3<TDerived, TBase>(IEnumerable<TDerived> derived) where TDerived : TBase
        IEnumerable<TBase> b = derived; //ERROR: paraphrased: Cannot implicitly convert type IEnumerable<TDerived> to IEnumerable<TBase>

I am attempting to utilize the covariance of IEnumerable to store an enumerable of a generic type parameter within an enumerable of a class that that type parameter is constrained to inherit from. This is exemplified by Test3. Note that Test1 and Test2 (demonstrating covariance on compile time types and assignment of constrained types respectively) both compile fine. It is the combination of the two language features which isn't working for me.

I am able to use IEnumerable<TBase> b = derived.Cast<TBase>() and be 100% confident that no cast will fail if my understanding is not flawed so I do have a workaround available. My question is, why does the compiler not allow this? Is this forbidden for some logical reason, an oversight in the compiler, or something else I haven't thought of?

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Jon Skeet already gave the answer. IEnumerable<out T> is covariant, but covariance only works with reference types in C#. For example if der is an IEnumerable<int>, then the assignment IEnumerable<IFormattable> b = der; won't be allowed. So Test3<int, IFormattable>(der); would be a problem, even if an int is an IFormattable. – Jeppe Stig Nielsen Aug 24 '13 at 11:29

1 Answer 1

up vote 8 down vote accepted

Answer to initial question

You're currently trying to convert a single element of type TDerived to a sequence of type Base. I wouldn't expect your Cast call to work either, as TDerived doesn't implement IEnumerable - I suspect you've actually got that to work in a different situation instead.

I suspect you actually meant:

void Test3<TDerived>(IEnumerable<TDerived> derived) where TDerived : Base
    IEnumerable<Base> b = derived;

That compiles with no problems.

Answer to edited question

Okay, now we've got the real problem between two type parameters, the issue is that the compiler doesn't know that they're reference types - which is required for generic variance. You can fix that with a class constraint on TDerived:

void Test3<TDerived, TBase>(IEnumerable<TDerived> derived)
    where TDerived : class, TBase
    IEnumerable<TBase> b = derived;
share|improve this answer
You're absolutely correct. However I actually made that mistake in trying to boil my problem down to its simplest form. I've revised my question to reflect the more complicated case which is still failing for me. This is the case where the base and derived classes are both generic type parameters. – Shane Tapp Aug 24 '13 at 10:57
@ShaneTapp: This is why it's important to be careful when asking questions, so you don't waste people's time. (Not just me, but everyone else who looked at the question before the edit.) I've edited my answer to reflect the change to the question. – Jon Skeet Aug 24 '13 at 11:07

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