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When we have something like this:

interface ISomething<U,V> { ... }
class Something<U,V> : ISomething<U,V> { ... }

typeof(ISomething<,>) and typeof(Something<,>) will result in a "Generic type definition". But if we get to the interface type as the interface implemented by the class, it will be a constructed type, that none of its type parameters are actually bound:


MSDN specifically mentions this. What I want, is to construct the same type (constructed type) of ISomething<,> directly (without sub-classing and them looking for the base type), and I could not find any way to do so.

Additional info:

I even tried this:

Type t1 = typeof(ISomething<,>);
Type t2 = t1.MakeGenericType(t1.GetGenericArguments()) // Yields a generic type definition

Type t3 = typeof(Something<,>).GetInterfaces().SingleOrDefault();

In the above code:

t1.Equals(t2) is true, but t1.Equals(t3) is false, obviously because t3 is constructed.

Surprisingly, t1.GetGenericArguments()[0].Equals(t3.GetGenericArguments()[0]) is false, although both are open (IsGenericParameter = true), and I couldn't find any difference in their properties.

And here's why I need to do this: I need a canonical form of storing Type objects in a list. The objects sometimes come from base classes / interfaces (such as t3 above) and sometimes directly (such as t1). I will need to be able to compare these to each other. I can't store the generic type definition (using .GetGenericTypeDefinition()) because sometimes I will have a partially open constructed generic type (like ISomething), and GetGenericTypeDefinition will give me a type without any type arguments specified.

The only way for making the types canonical that I've thought might work, is to check if all of the type arguments are unbound, and do a GetGenericTypeDefinition. Otherwise keep the constructed type.

share|improve this question
I don't think this works: "check if all of the type arguments are unbound, and do a GetGenericTypeDefinition. Otherwise keep the constructed type." Suppose the type you have is I<U, U>. All the type arguments are unbound type parameters, but that is a different type than I<U, V>. –  Eric Lippert Jul 15 '11 at 17:52
Re: "Surprisingly..." -- this is not surprising at all. I suspect that part of the confusion of all of this is that you have two completely different types called "U" and two completely different types called "V". Of course I<,> is different from the I<U, V> in the implemented interface list; the former is parameterized with the <U, V> declared by I, and the other is parameterized with the <U, V> declared by Something. Just because the type parameters have the same names does not make them the same type. –  Eric Lippert Jul 15 '11 at 17:55
If I have a constructed I<U,U>, and call GetGenericTypeDefinition() on it, will it give me typeof(I<U,V>)? –  Iravanchi Jul 15 '11 at 17:56
That's right, I was confusing the two. Actually, I just got why the base types are constructed! I need to think about my original problem more,... but I think I still need some way to compare (or look up the types in a list) –  Iravanchi Jul 15 '11 at 17:59
Some jargon might help. A generic type constructed with its own generic type parameters in the right order is called the "instance type". So if you have interface I<S, T>{ I<S, T> M(); } then typeof(I<,>) and typeof(I<,>).GetMethod("M").ReturnType are the same type; they are both the instance type. That is, they are the type object for I<,> constructed with its own declared type parameters S and T. –  Eric Lippert Jul 15 '11 at 18:14

1 Answer 1

up vote 1 down vote accepted

You are getting yourself all messed up here. Examine the output of this program and make sure that you understand it. Here I've alpha-renamed the type parameters so that there is no unclarity due to two things both named U:

interface I<S, T>
    I<S, T> M();

class C<U, V> : I<U, V>
    public I<U, V> M() {return null;}
    public C<U, V> N() {return null;}

public class MainClass
    public static void Main()
        var i1 = typeof(I<,>);
        var i2 = typeof(I<int, int>);
        var i3 = i2.GetGenericTypeDefinition();
        var i4 = i1.GetMethod("M").ReturnType;

        var c1 = typeof(C<,>);
        var c2 = typeof(C<int, int>);
        var c3 = c2.GetGenericTypeDefinition();
        var c4 = c1.GetMethod("N").ReturnType;

        var i5 = c1.GetMethod("M").ReturnType;
        var i6 = c1.GetInterfaces()[0];

        System.Console.WriteLine(i1 == i2); // false -- I<,> is not I<int, int>
        System.Console.WriteLine(i1 == i3); // true  -- I<int,int>'s decl is I<,>
        System.Console.WriteLine(i1 == i4); // true  -- I<,> is I<S, T>
        System.Console.WriteLine(i1 == i5); // false -- I<S, T> is not I<U, V>
        System.Console.WriteLine(i1 == i6); // false -- I<S, T> is not I<U, V>

        System.Console.WriteLine(c1 == c2); // false -- C<,> is not C<int, int>
        System.Console.WriteLine(c1 == c3); // true  -- C<int,int>'s decl is C<,>
        System.Console.WriteLine(c1 == c4); // true  -- C<,> is C<U,V>
share|improve this answer
Thanks Eric, you're awesome. I realized my mistake, but your sample code is great. I guess I can make the type I want by passing generic args of the class for making GenericType out of the interface - i.e. t1.MakeGenericType(typeof(Something<,>).GetGenericArguments()). Am I right? - Although, I know that this won't help me in my original problem. –  Iravanchi Jul 15 '11 at 18:14
@You're welcome. You wouldn't believe the sorts of problems like this we have to solve in the compiler. It can get very confusing! –  Eric Lippert Jul 15 '11 at 18:16
Can I ask one question? So far I havent done much around Genrics, so I would like to know what they are good for? Whats the point in them (creating, using...)? thx for the answer –  Mitja Bonca Jul 15 '11 at 18:29
@Mitja: Of course you can ask a question. Do so by posting a question. That's what this whole site is for! –  Eric Lippert Jul 15 '11 at 18:36
Try googling your question, there's a lot of material for you out there. The answer would be longer than what SO allows for comments :) –  Iravanchi Jul 15 '11 at 18:37

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