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I have been writing some code passing through delegates to perform the actual work, but sadly now need to deduce the delegate's parameterised type, so used overloaded functions for the types I'm interested in, but was surprised to see ambiguity as in the example below.

I realise I could cast the delegate parameter to resolve the ambiguity, but why is this ambiguity there, and is there any other way to resolve it without explicitly instantiating/casting a delegate prior the call to CallGotTParam ?

namespace ConversionAmbiguous
{
    class IntShortDelegate
    {
        delegate void GotTParam<T> (T t);

        static void GotInt32Param(System.Int32 t)
        {
            Console.WriteLine("GotInt32Param: {0}", t);
        }
        static void GotInt16Param(System.Int16 t)
        {
            Console.WriteLine("GotInt16Param: {0}", t);
        }

        void CallGotTParam(GotTParam<System.Int32> dcall)
        {
            dcall(1);
        }

        void CallGotTParam(GotTParam<System.Int16> dcall)
        {
            dcall(2);
        }

        static public void Test()
        {
            IntShortDelegate test = new IntShortDelegate();
            // error CS0121: The call is ambiguous between the following methods or properties: 
            // 'ConversionAmbiguous.IntShortDelegate.CallGotTParam(Quickie.ConversionAmbiguous.IntShortDelegate.GotTParam<int>)' and
            // 'ConversionAmbiguous.IntShortDelegate.CallGotTParam(Quickie.ConversionAmbiguous.IntShortDelegate.GotTParam<short>)'
            test.CallGotTParam(IntShortDelegate.GotInt32Param);

            GotTParam<System.Int32> d32 = IntShortDelegate.GotInt32Param;
            test.CallGotTParam(d32); // This is fine
            test.CallGotTParam(IntShortDelegate.GotInt16Param); // This is fine
        }
    }  // class IntShortDelegate
} // Ends namespace ConversionAmbiguous

Compiled against .Net 3.5

Had a brief look at the csharp language specification version 4.0 sections 7.5.2 Type Inference and 7.5.3. Overload resolution, but haven't had time to study them.

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1  
You should use C# specific type names (int, short...) instead of CLS type names, since these could change overtime, while language-specific synonyms should maintain "as is" in the long-term. –  Matías Fidemraizer Jan 20 '12 at 10:07
4  
@MatíasFidemraizer I don't believe that type names like Int32 will change meaning any time soon! In fact, int could change its number of bits sooner than that. –  Mr Lister Jan 20 '12 at 10:14
    
@MrLister I never understood that fear either. –  Baboon Jan 20 '12 at 10:15
    
@MatíasFidemraizer It's for a library which handles different primitive types. i.e. 32 bit integer will be treated one way, 16 bit integer another. Changing to int/short would break if they didn't map exactly. –  WaffleSouffle Jan 20 '12 at 10:18
    
@WaffleSouffle You're wrong, since int = System.32, short = System.16. It's exactly the same, but using language-specific aliases. –  Matías Fidemraizer Jan 20 '12 at 10:58
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1 Answer

Not an answer per se, but if the following code is fine

GotTParam<System.Int32> d32 = IntShortDelegate.GotInt32Param;             
test.CallGotTParam(d32); // This is fine 

could you also try this?

var typeDelegate = IntShortDelegate.GotInt32Param;             
test.CallGotTParam(typeDelegate); 

If this works you could maintain the generic type-agnostic aspect of your code while working around a compiler quirk.

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@dr-andrew-burnett-thompson // error CS0815: Cannot assign method group to an implicitly-typed local variable var v32 = IntShortDelegate.GotInt32Param; –  WaffleSouffle Jan 20 '12 at 10:49
    
@WaffleSouffle super lame. Ok sorry I couldn't be of help. I'll go have a think about this. –  Dr. ABT Jan 20 '12 at 10:50
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