How can I make the following code work? I don't think I quite understand C# generics. Perhaps, someone can point me in the right direction.

    public abstract class A

    public class B : A

    public class C : A

    public static List<C> GetCList()
        return new List<C>();

    static void Main(string[] args)
        List<A> listA = new List<A>();

        listA.Add(new B());
        listA.Add(new C());

        // Compiler cannot implicitly convert
        List<A> listB = new List<B>();

        // Compiler cannot implicitly convert
        List<A> listC = GetCList();

        // However, copying each element is fine
        // It has something to do with generics (I think)
        List<B> listD = new List<B>();
        foreach (B b in listD)

It's probably a simple answer.

Update: First, this is not possible in C# 3.0, but will be possible in C# 4.0.

To get it running in C# 3.0, which is just a workaround until 4.0, use the following:

        // Compiler is happy
        List<A> listB = new List<B>().OfType<A>().ToList();

        // Compiler is happy
        List<A> listC = GetCList().OfType<A>().ToList();
  • This isn't actually inherent to generics, but Spence's answer is about as good as you'll get. C# 4.0 will add "duck typing", where you can get away with exactly this kind of thing. – womp May 20 '09 at 2:29
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    This is incorrect. We are NOT adding duck typing, and covariance and contravariance only applies to interfaces; List<T> is a class. – Eric Lippert May 20 '09 at 5:58

you could always do this

List<A> testme = new List<B>().OfType<A>().ToList();

As "Bojan Resnik" pointed out, you could also do...

List<A> testme = new List<B>().Cast<A>().ToList();

A difference to note is that Cast<T>() will fail if one or more of the types does not match. Where OfType<T>() will return an IEnumerable<T> containing only the objects that are convertible

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  • Thanks. That makes it possible in C# 3.0. However, is there any extra processing/overhead with the extra calls? – kevindaub May 20 '09 at 2:50
  • Yes ... but if you were to make it IEnumerable or IQueryable it wouldn't be as bad. – Matthew Whited May 20 '09 at 2:56
  • oftype requires you to enumerate the list though doesn't it? If you have contravariance then method calls can be bound by the type system not via the enum and will be significantly faster provided you don't need the cast? – Spence May 20 '09 at 3:07
  • Yes but it looks like he was asking how he could do this in C# 3.0/.Net 3.5 – Matthew Whited May 20 '09 at 3:12
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    Also, OfType<A> might be more suitable when you need to filter some elements from the list. CastTo<A> would more closely match the intent of the code. – Bojan Resnik May 20 '09 at 8:23

The reason this does not work is because it cannot be determined to be safe. Suppose you have

List<Giraffe> giraffes = new List<Giraffe>();
List<Animal> animals = giraffes; // suppose this were legal.
// animals is now a reference to a list of giraffes, 
// but the type system doesn't know that.
// You can put a turtle into a list of animals...
animals.Add(new Turtle());  

And hey, you just put a turtle into a list of giraffes, and the type system integrity has now been violated. That's why this is illegal.

The key here is that "animals" and "giraffes" refer to the SAME OBJECT, and that object is a list of giraffes. But a list of giraffes cannot do as much as a list of animals can do; in particular, it cannot contain a turtle.

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  • I guess I just don't understand why it is illegal to be placing B and C into their abstract base class. – kevindaub May 20 '09 at 12:42
  • I have trouble to understand this as well:you put a Turtle in an animal list that thusfar happened only to contain giraffes. Why should that be a problem? Both Turtles and Giraffes will share the Animal members, right? The compiler should complain when you try to cast the animal list to a giraffe list. – Dabblernl May 20 '09 at 12:56
  • This would be different than just trying to get a collection of animals so you can call the .Walk() abstract method on all of them. If you want to do common work and not mix the types it's not an issue. Which is why it is probably best to just create a new list or to only use the list as IEnumerable<> – Matthew Whited May 20 '09 at 13:07
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    @Dabblernl: first you have a list of giraffes, say in variable L1. Then you have the same list as a list of animals, say in variable L2. You do L2.Add(new Turtle()). That added it to the list itself, so the list that both L1 and L2 point at has a turtle at the end. Now you do L1[32].LongNeck(), which the compiler thinks should be ok: L1 is a list of giraffes. But, item 32 is that turtle, which doesn't have a long neck. So, you get a runtime error that shouldn't happen according to the guarantees that the C# type system makes. – Zach Snow May 20 '09 at 13:33
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    @Dabblernl: Because giraffes is a list of giraffes. Making a new reference to it doesn't change the type! – mqp May 20 '09 at 13:34

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