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I was looking at this question and i was curious why this deosn't compile.

Given this code, can anyone explain why the call to IBase.Test() doesn't resolve to the correct extension method?

public interface IBase { }

public interface IChildA : IBase { }

public interface IChildB : IBase { }

public static class BaseExtensions
    public static IBase Test(this IBase self) { return self; }
    public static T Test<T>(this T self) where T : IChildB { return self; }

public static class TestClass
    public static void Test()
        IChildA a = null; //Yeh i know its null but just testing for compile here..
        IBase firstTry = a.Test();  //Cannot resolve to BaseExtensions.Test(this IBase obj)
        IBase secondTry = ((IBase)a).Test();  //Resolves to BaseExtensions.Test(this IBase obj)

        IChildB b = null;
        IChildB touchedB = b.Test();

The error i get is

Error 166 The type 'IChildA' cannot be used as type parameter 'T' in the generic type or method 'BaseExtensions.Test<T>(T)'. There is no implicit reference conversion from 'IChildA' to 'IChildB'.

I had a feeling it is because it would be ambigous for anything that implements IChildB and wouldn't know which extension method to use, but the error message doesn't moan about that side of it and if you remove the IBase firstTry = a.Test(); line then it compiles fine..

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Your compiler error doesn't match the code you've posted (Test vs Touch). Please post the exact error from the exact code you've posted - otherwise we won't know what other subtle changes you may have made. – Jon Skeet Mar 23 '11 at 9:55
apologies.. fixed – Richard Friend Mar 23 '11 at 9:56
See also… for about a hundred people telling me I'm wrong that this is a sensible rule. – Eric Lippert Sep 23 '13 at 21:33
up vote 5 down vote accepted

Okay, the problem is that in the overload resolution process, the compiler finds all applicable candidate methods without checking the generic constraints specified in the method, picks the most specific one, and then checks the generic constraints.

In this case, the generic method is more specific than the non-generic one (as after type parameter substitution, it's effectively a method with an IChildA parameter instead of an IBase parameter) - but it then fails the constraints.

I have a blog post explaining this in more detail, and another one using it in a horrible way.

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Aha, makes sense now, i was having a wtf moment :) – Richard Friend Mar 23 '11 at 10:09
I had a look through the second link. Just a question; Why is the argument defined as T? ignored = default(T?) instead of T ignored = default(T)? Am I overlooking something, or do they do something different? The reason I ask, is because at a quick glance one might assume that a nullable parameter is valid because of the ? – Rob Mar 23 '11 at 10:34
@Rob: Yes, the point is that T is the non-nullable type, whereas T? is the nullable version... the T : struct constraint on Nullable<T> is what forces T to be invalid when it's a non-struct... because the parameter types (after substitution) are checked for constraints, even though the type parameters themselves aren't. When I'm writing evil code blog posts, "at a quick glance" is never a good starting point :) – Jon Skeet Mar 23 '11 at 10:42
Ah right, that makes sense now. Thanks for clearing it up :) – Rob Mar 23 '11 at 10:49

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