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Some code to replicate the issue:

using System;

public abstract class Response { }
public abstract class Request<T> where T : Response { }
public class LoginResponse : Response { }
public class LoginRequest : Request<LoginResponse> { }

public class Program
{
    static void Main(string[] args)
    {
        LoginRequest login = new LoginRequest();


        /* Error: Cannot implicitly convert type 'LoginRequest' to 'Request' */
        Request<Response> castTest = login;


        /* No Error */
        Request<LoginResponse> castTest2 = login;
    }
}

As far as i can tell the LoginRequest class is a Request<Response> because is inherits from Request<T> and LoginResponse inherits from Response so can anybody enlighten me as to why i get the compiler error?

note: i have also tried an explicit cast

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4 Answers 4

up vote 7 down vote accepted

You're getting the error because Request<Response> and Request<LoginResponse> are not covariant.

Just because LoginResponse inherits from Response doesn't mean that Request<LoginResponse> can be treated the same as Request<Response>. Give this article a read:

MSDN - Covariance and Contravariance in Generics

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Thanks, my understanding of covariance is a bit thin i need to do more reading. –  Robert Jan 23 '12 at 16:14

Because your generic parameter is implicitly invariant - the two types, Request<LoginResponse> and Request<Response> are completely distinct. C# 4.0 introduced variance in delegate types and interfaces and can provide a solution for you here:

public interface IResponse<out T> where T : Response {}

Here we have declared the generic type T as Covariant.

Eric Lippert has written many good blog posts on the topic of variance in C#, I'd highly recommend reading them.

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This is because C# generic classes are not covariant. C# is trying to keep you from doing the following:

Request<Response> castTest = login;
castTest.Response = someOtherKindOfResponse;

This example is perhaps more clear with Lists. Imagine if the following worked:

var someStringList = new List<String>();
var someObjectList = ((List<Object>)someStringList; // This throws a compile exception, thankfully
someObjectList.Add(1); // If the above worked, then this would compile, but would throw a runtime exception
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I like the list example it makes it simpler to understand. –  Robert Jan 23 '12 at 16:18

LoginRequest does not derive from Request<Response>, it derives from Request<LoginResponse>.

A generic type is a type in itself once compiled. The templated parameter hierarchy is irrelevant.

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