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When I have two non-generic Type objects a and b, I can easily verify whether a is assignable from b by using the a.IsAssignableFrom(b) function.

class ClassBase { }
class ClassDerived : ClassBase { }
...
typeof(ClassBase).IsAssignableFrom(typeof(ClassDerived)) //returns true

Now say I have two generic interfaces:

interface IBase<T> { }
interface IDerived<T> : IBase<T> { }

If I close them down, I can do the same thing as before, with exactly the same behaviour, e.g.

typeof(IBase<object>).IsAssignableFrom(typeof(IDerived<object>)) //returns true

In fact, any T that can be used to close down IDerived can also be used to close down IBase and IBase<T> is assignable from IDerived<T> (for that particular T).

However,

typeof(IBase<>).IsAssignableFrom(typeof(IDerived<>)) //returns false

I sort of have an idea why that might be so (they can be closed down on different types and thus get inconvertible?). I understand that a function that does return true in this case is thus somewhat different. The question is: "Is IBase<T> assignable from IDerived<T> for every valid T?" (thanks to hvd)

What I thought of doing is closing the generics and then asking whether they are assignable. But to be general, I would need to close down under the most generic type(s) b can take and that could be a) ugly, b) quite hard to do.

Another approach is to go up the implementation/inheritance tree on b and try comparing it to a.

My question is whether there is an easier way of doing this even in general cases.

Motivation: general interest, as I don't actually need this at the end. However, the initial need for this came while I was using Ninject with open and closed generics and I needed to resolve whether an open generic class can be cast to an open generic interface (class).

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1  
I'm not sure it even makes sense to ask that question for two open generic types such as IBase<>. –  Marc Gravell Aug 6 '12 at 11:08
    
"Another approach is to go up the implementation/inheritance tree on b and try comparing it to a." -- that's what I would do, if I really needed this. –  hvd Aug 6 '12 at 11:11
3  
@MarcGravell "Is IBase<T> assignable from IDerived<T> for every valid T" is a sensible question, and I think that's the question that's asked. –  hvd Aug 6 '12 at 11:13
    
@hvd yes, but that is not the same as asking about IBase<> and IDerived<>; there is not implicit "for the same T" there. –  Marc Gravell Aug 6 '12 at 11:17
2  
@MarcGravell put it like this: when we write IDerived<T> : Base<T> { } we are expressing a certain fact about these two interfaces. What this fact is is obvious to human eyes; but how can we determine at runtime if this fact is true, given the open types? What does 'writing it manually' look like? –  AakashM Aug 6 '12 at 12:32
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2 Answers

As you've already found out, typeof(IBase<>).IsAssignableFrom(typeof(IDerived<>)) will never return true, since the two open generic types aren't in each others inheritance hierarchies.

My question is whether there is an easier way of doing this even in general cases.

No, not easier, but...

If T doesn't have any constraints (where T: ...) for either of the two generic types you're checking assignability for I think you might be able to construct the closed generic types by using object as type parameter, and then using IsAssignableFrom on the constructed types.

If T is constrained on any of the generic types, you will have to use reflection to find those constraints (Type.GetGenericArguments, Type.GetGenericParameterConstraints), and then construct the generic types using that information. In this scenario, the constraining types must still be the same because of the A<T> : B<T> inheritance (the same T) in order to have the possibility of assignability between the two generic types. Note that if one constraining type is inheriting the other, you will find assignability of the generic types if you construct them both with the most derived of the two constraining types.

Here are some examples:

    public class A<T> {}
    public class B<T> : A<T> {}

    public class C<T> where T: E {}
    public class D<T> : C<T> where T: F {}

    public class E {}
    public class F : E {}
    public class G : F {}

    typeof(A<>).IsAssignableFrom(typeof(B<>))              // false
    typeof(A<object>).IsAssignableFrom(typeof(B<object>))  // true
    typeof(A<string>).IsAssignableFrom(typeof(B<string>))  // true
    typeof(C<E>).IsAssignableFrom(typeof(D<F>))            // false
    typeof(C<F>).IsAssignableFrom(typeof(D<F>))            // true
    typeof(C<G>).IsAssignableFrom(typeof(D<G>))            // true
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I think it's sufficient to look at the constraints of the most specialized type, isn't it? Surely, the more generalized type cannot be more constrained if it receives its actual generic argument from the specialized type in the inheritance chain. –  O. R. Mapper Aug 6 '12 at 14:51
    
Yes, if the two generic types are related. If they are, it would be a compile time error for the more specialized type to have a less specialized constraint. –  Christoffer Lette Aug 6 '12 at 14:56
    
Ah, you're correct. Somehow, I was assuming that it's at least known which one of the types is suspected to be assignable to which one, but of course that's not guaranteed. –  O. R. Mapper Aug 6 '12 at 15:06
    
Well, you're correct too. And you made me think - that's a good thing! Thanks. –  Christoffer Lette Aug 6 '12 at 15:13
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The example you provided of an generic interface inheriting directly from another generic masks the complexity in resolving compatibility between open generics. For more on that, read Eric Lippert's recent blog entry: Why not automatically infer constraints?.

Deferring to Eric's notes in the linked article, I will not attempt to solve the general case of determining if generic interfaces are assignable from each other in all cases. A substantial part of that solution would require determining if the constraints (if any) on the two types intersect at all. You would also have to decide what you want your hypothetical method to return when one open generic interface is assignable to the other in some cases but not others, which would happen if there are overlapping but not coincident constraints.

Updated

For comparing direct inheritance "walking up the tree" as you suggest is pretty easy if you package it in an extension method. However, for actually determining whether two open generic types are equal you will have to define your own comparison, as the built in equality comparison doesn't work on the type definitions retrieved by GetInterfaces or BaseType called on a generic type:

typeof(Base<>) == typeof(Derived<>).BaseType; // Returns false
typeof(IBase<>) == typeof(Base<>).GetInterfaces()[0]; // Returns false

This probably derives from the fact that open generic types retrieved from BaseType or GetInterfaces() have null FullName properties, even though the Namespace and Name properties are populated. I therefoe defined by own GetFullName() extension method as well, with an optional strongName parameter to determin whether to include the full assembly name.

So, here is fairly compact implementation for comparing direct ineheritance or implementation between open generic types:

public static class TypeExtensions {
    public static bool OpenIsAssignableFrom(this Type baseType, Type c, bool strongName = true) {
        if (!baseType.IsGenericTypeDefinition || !c.IsGenericTypeDefinition) return false;
        if (baseType.IsInterface)
            return c.ImplementsOpenInterface(baseType);
        Type testBaseType = c;
        while (testBaseType != null) {
            if (baseType.GetFullName(strongName) == testBaseType.GetFullName(strongName)) return true;
            testBaseType = testBaseType.BaseType;
        }
        return false;
    }

    public static bool ImplementsOpenInterface(this Type sourceType, Type ifaceType, bool strongName = true) {
        if (!ifaceType.IsInterface) return false;
        return sourceType.GetInterfaces().Any(I => I.GetFullName(strongName) == ifaceType.GetFullName(strongName));
    }

    public static string GetFullName(this Type type, bool strongName = false) {
        string name = type.FullName ?? "";
        if (name.Length == 0)
            name = type.Namespace + "." + type.Name;
        if (strongName)
            name += ", " + type.Assembly.FullName;
        return name;
    }
}

Given the following open generic interfaces:

namespace TypeExample {
    public interface IBase<T> { }
    public interface IDerived<T> : IBase<T> { }
    public interface IDerived2<T> : IDerived<T> { }

    public class Base<T> : IBase<T> { }
    public class Derived<T> : Base<T>, IDerived<T> { }
    public class Derived2<T> : Derived<T>, IDerived2<T> { }
}

All of the following will return true:

typeof(IBase<>).OpenIsAssignableFrom(typeof(Base<>));
typeof(IBase<>).OpenIsAssignableFrom(typeof(Derived2<>));
typeof(Base<>).OpenIsAssignableFrom(typeof(Derived2<>));
typeof(IBase<>).OpenIsAssignableFrom(typeof(IDerived2<>));

Which is the inituitive identical result as the following using constructed generic types and the built in IsAssignableFrom:

typeof(IBase<string>).IsAssignableFrom(typeof(Base<string>));
typeof(IBase<string>).IsAssignableFrom(typeof(Derived2<string>));
typeof(Base<string>).IsAssignableFrom(typeof(Derived2<string>));
typeof(IBase<string>).IsAssignableFrom(typeof(IDerived2<string>));
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Now let's add to the complexity... What does your OpenIsAssignableFrom return for typeof(IBase<,>).OpenIsAssignableFrom(typeof(IDerived<,>)), where IDerived<T,U> implements IBase<U,T> instead of IBase<T,U>? What should it return? (I don't have an answer for that last question either.) –  hvd Aug 6 '12 at 18:22
    
@hvd It would return true, as it does not take any constraints into account. After all, IBase<U, T> can be assignable from IDerived<T, U> when T and U are the same type. –  Joshua Honig Aug 6 '12 at 18:55
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