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I know that I can call a generic extension method

public static object Convert<U>(this U value) 

Like this (no <Class1> required):


But is there a way to call :

public static T Convert<U, T>(this U value) 
  where T : Class1, Interface1, new()
  where U : Class1, Interface2, new()

With Class1Instance.Convert<Class2>() "only", instead of Class1Instance.Convert<Class1, Class2>()



Reformulation / simplification : Is there a way to have :

Result result = Convert<Result>(input); 

Where we know input of type Input, instead of having to say

Result result = Convert<Input, Result>(input)

With an extension method which looks like this :

static TResult Convert<TResult, TInput>(this TInput Input)
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Did you mean where T : Class1, IClass1, new() where U : Class2, IClass2, new() ? – gabba Sep 24 '12 at 16:01
I believe that what he's asking is a way to call Convert and only have to specify the "result" type parameter and have the compiler infer the "input" type parameter, i.e. Result result = Convert<Result>(input); where we know input if of type Input, instead of having to say Result result = Convert<Input, Result>(input). – Daniel Joseph Sep 24 '12 at 16:16
If my inference is right, check this question for your answer:… – Daniel Joseph Sep 24 '12 at 16:17
Why would you need the new() constraint on the type you're converting from? Also, I assume Class1 implements IClass1, so that constraint is redundant on both T and U. – David Yaw Sep 24 '12 at 17:16
So Class1 doesn't implement IClass1? OK, the generic constraints make sense then. (The names imply that Class1 does implement IClass1, do consider using different example names next time.) – David Yaw Sep 25 '12 at 15:58

There's no way to call Convert<U, T> by specifying Convert<Class2> in your calling code. However, if you really want the calling code to look like that, there is a possibility.

public static T Convert<T>(this Class1 value) 
  where T : Class1, IClass1, new()
{ ... }

Instead of being generic on the input type, just specify the parent class of the input type. This will give you the calling code you want, but it will make the method more complex. For example, if the conversion process involves creating a new U object (making use of the new() generic constraint in the old method definition), then you'll have to do it with reflection in the new method.

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I understand what you mean, but it's not possible in my specific case. Thanks anyway for confirming to me that it's not achievable this way. – Nicolas Voron Sep 25 '12 at 7:04
up vote 0 down vote accepted

According to this post, generic parameter inference works only with input parameters. In my case, one of the generic parameter is a return type.

As it is required that generic types inference provides all of them, I have to specify each parameter explicitly.

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