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Is this possible in any other syntax???

interface IFoo<T<U>> where U: Bar, new() where T<U>: class, IFoo<T<U>>, new()

It is a way to force the generic argument for IFoo to be a generic type

class MyFoo<U>: IFoo<MyFoo<U>> where U: Bar, new()

Edited to illustrate some points:

  • U is Bar... it would be a Customer entity
  • T is IFoo... it would be a Customer business object
  • IFoo is interface for some business objects
  • IFoo defines List<U> GetList(int compareToCustomerProperty)

Edited to illustrate usability:

interface IFoo<T<U>> where U: Bar, new() where T<U>: class, IFoo<T<U>>, new()
    T<U> DoOnce();

class MyFoo<U>: IFoo<MyFoo<U>> where U: Bar, new()
    MyFoo<U> DoOnce(){return this;}
    MyFoo<U> DoAgain(){return this;}//this is not in interface

class Test{
    public Test(){
        IFoo<MyFoo<Bar>> x = new MyFoo<Bar>();//Generics can come as parameters
          DoOnce()//this is from interface
          DoAgain();//Can access this x's method cause of generic in IFoo

I can currently implement it but I lose generic U.

Can live without it??? Totally
Will I miss this approach at some point in my code??? nah!

I just came to a point where I saw this would be nice to have in my code (method chaining between abstract & concrete, more freedom in generics)

Thanks for the answers!

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Why should IFoo care how U is constrained? What's the use case? –  M.Babcock Mar 7 '12 at 2:44
Hi @M.Babcock answered in the 4th point of the edit –  Rafael Enriquez Mar 7 '12 at 3:16
Understood, but shouldn't IFoo delegate the responsibility of instantiating U to T<U>? –  M.Babcock Mar 7 '12 at 3:21
@M.Babcock I'm playing with code contracts... let me see what can I get from it –  Rafael Enriquez Mar 7 '12 at 5:18

2 Answers 2

The only thing that comes close to what I think you are trying to do is

public interface IBaz<U> 

public class Baz<U> : IBaz<U>

public interface IFoo<T, U> where T : IBaz<U> where U: Bar, new()

public class Foo<U> : IFoo<Baz<U>, U>
    where U: Bar, new()
share|improve this answer
Hi @user375487 please see the relationship between IFoo & T –  Rafael Enriquez Mar 7 '12 at 3:17
yes, I saw that. What you wrote is pretty much impossible though. You can't specify constraints by referring to the constrained argument and you can't implement interface which has a reference to the type you declare. –  Primary Key Mar 7 '12 at 3:43
I see... thanks @user375487 –  Rafael Enriquez Mar 7 '12 at 5:19

No, you can't do that in the .Net framework.

See it doesn't make much sense to restrain a generic type argument to being a generic itself. Consider the following type:

public class StringList : List<string> { }

StringList and List<string> are pretty much the same type. But you would be able to write


and not


The fact that List<string> has been created from a generic type definition List<> is not really relevant to most of the usage unless you're working on some kind of high fly Reflection-oriented behavior.

I can see for instance that you may want this kind of features if you wanted to do something like this:

public interface GenericTypeConverter<T> where T : <>
    T<V> Convert<U,V>(T<U> thing);

If you wanted to create a Converter interface that declares functions to convert from T<U> to T<V>, for any arbitrary generic type T. But I can only imagine this happening if you work on complex code generation / code analysis.

And if it's the case and you really need that, you can always check at runtime if the type T is generic, by calling typeof(T).IsGenericType

share|improve this answer
Thanks @d-b I just wrote an example of what I was trying to do –  Rafael Enriquez Mar 7 '12 at 5:20

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