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Generic constraints, where T : struct and where T : class

Is there a particular reason that you cannot overload generic methods using mutually exclusive Type constraints in C#? For instance, take these methods:

T DoSomething<T>(T arg) where T : class
{ /* Do something */ }

T DoSomething<T>(T arg) where T : struct
{ /* Do something */ }

and try to invoke them with


The way I see it, the DoSomething() methods are mutually exclusive as far as the parameters that they will take - the first one takes a reference type, the second takes a value type. The compiler should be able to tell that the DoSomething call with a string argument goes to the first method and the DoSomething call with an int argument goes to the second method.

Am I missing something conceptually with generics here? Or is this just a feature that wasn't implemented in C#?

marked as duplicate by casperOne Aug 9 '12 at 13:48

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  • 1
    This duplicate text could be improved by adding a link to the duplicate answer. It's really frustrating if you can't find a solution and searching doesn't return any results, or way, way too many results. – John Paquin Feb 16 '17 at 5:58

Generic constraints are not part of the method signature

See this answer Generic contraints on method overloads

Jon Skeet blog post on the topic

  • The links provided in this answer are currently broken (as of 4/26/2015). – devinbost Apr 26 '15 at 23:22
  • @bostIT Huh. I wonder what happened to Jon's blog. I'll see if I can find an updated link. – asawyer Apr 27 '15 at 11:42
  • @bostIT Found the update and fixed the link – asawyer Apr 27 '15 at 11:45
  • I personally believe that generic constriaints are stupid, the clr should be able to figure out the semantics automatically based on T. – Jay May 5 '16 at 2:37

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