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Suppose we have a nested generic class:

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

Here, typeof(A<int>.B<>) is in essence a generic class with two parameters where only the first is bound.

If I have a single class with two parameters

public class AB<T, U> { }

Is there a way to refer to "AB with T=int and U staying open"? If not, is this a C# limitation, or a CLR limitation?

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1  
Can this be done with types in F#? –  GregC Apr 8 '11 at 23:45
    
If you're asking me, I have no idea... I've never actually used F# for any length of time. –  configurator Apr 8 '11 at 23:47
1  
By "curried", you mean "partially closed"? –  Gabe Apr 9 '11 at 1:15
    
@Gabe: Yes, I do. –  configurator Apr 9 '11 at 3:18
    
Following up by Googling, i found this blog post: lostechies.com/jimmybogard/2009/09/01/… –  GregC Apr 9 '11 at 17:03
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2 Answers

up vote 6 down vote accepted

Apparently it can't be done in C#, you have to specify either both type parameters, or none.

And it doesn't seem to be supported by the CLR either, A<int>.B<> and A<string>.B<> refer to the same type:

Type t1 = typeof(A<int>).GetNestedType("B`1");
Type t2 = typeof(A<string>).GetNestedType("B`1");
// t1.Equals(t2) is true

The enclosing type of both types is A<> (open generic type)

EDIT: further testing shows that typeof(A<int>.B<string>) is actually a generic type of arity 2, not a nested generic type of arity 1... typeof(A<int>.B<string>).GetGenericArguments() returns an array with typeof(int) and typeof(string). So typeof(A<int>.B<>) would actually be equivalent to (A.B)<int, >, which isn't supported (a generic type can't be partially closed)

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4  
Your observation is correct. Under the covers, C<T>.D<U> is just "C.D"<T, U>. The C# way of conceiving of it as C<T>.D<U> is just a convenient fiction. –  Eric Lippert Apr 9 '11 at 1:22
1  
@Eric, thanks for the confirmation. I was hoping you would see this question and shed some light on it... It could be a good subject for a blog post if you're out of ideas ;) –  Thomas Levesque Apr 9 '11 at 1:29
    
You're right, of course. My mistake was assuming that typeof(A<int>.B<>) would be legal - I knew that A<T>.B<U> is implemented as A.B<T, U>, meaning that typeof(A<int>.B<>) would actually be A.B<int, > which didn't seem like it should be legal. –  configurator Apr 9 '11 at 3:24
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Is this what you have in mind?

   class AB<T, U>
   {
      protected T t;
      U u;
   }

   class C<U> : AB<int, U>
   {
      public void Foo()
      {
         t = 5;
      }
   }
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1  
@downvoter: talk to me. Would you like to see reflector output, C# specification excerpt, something else? –  GregC Apr 9 '11 at 0:01
1  
It looks like the OP is asking for an instance of a Type object that expresses something like typeof(AB<int,>). –  Gabe Apr 9 '11 at 1:15
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