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I would like to differentiate between following cases:

  1. A plain value type (e.g. int)
  2. A nullable value type (e.g. int?)
  3. A reference type (e.g. string) - optionally, I would not care if this mapped to (1) or (2) above

I have come up with the following code, which works fine for cases (1) and (2):

static void Foo<T>(T a) where T : struct { } // 1

static void Foo<T>(T? a) where T : struct { } // 2

However, if I try to detect case (3) like this, it does not compile:

static void Foo<T>(T a) where T : class { } // 3

The error message is Type 'X' already defines a member called 'Foo' with the same parameter types. Well, somehow I cannot make a difference between where T : struct and where T : class.

If I remove the third function (3), the following code does not compile either:

int x = 1;
int? y = 2;
string z = "a";

Foo (x); // OK, calls (1)
Foo (y); // OK, calls (2)
Foo (z); // error: the type 'string' must be a non-nullable value type ...

How can I get Foo(z) to compile, mapping it to one of the above functions (or a third one with another constraint, which I have not thought of)?

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For reference types there is : new(), however this has odd behaviour with nullable value types. –  Adam Houldsworth Jun 4 '10 at 15:26

4 Answers 4

up vote 15 down vote accepted

You cannot differentiate the type of method to call based only on the constraints, unfortunately.

So you need to define a method in a different class or with a different name instead.

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1  
+1. Of course, the first and second work because T and T? are different arguments. (T and Nullable<T>) –  Powerlord Jun 4 '10 at 13:28
    
    
Thank you for your quick reply; if I cannot differentiate the types, is there some way to get my last example to compile, by relaxing some constraint? –  Pierre Arnaud Jun 4 '10 at 13:43
    
Ah, simply drop the where T : struct for method (1) and my example compiles. That's enough for me. –  Pierre Arnaud Jun 4 '10 at 13:44

Further to your comment on Marnix's answer, you can achieve what you want by using a bit of reflection.

In the example below, the unconstrained Foo<T> method uses reflection to farm out calls to the appropriate constrained method - either FooWithStruct<T> or FooWithClass<T>. For performance reasons we'll create and cache a strongly-typed delegate rather than using plain reflection every time the Foo<T> method is called.

int x = 42;
MyClass.Foo(x);    // displays "Non-Nullable Struct"

int? y = 123;
MyClass.Foo(y);    // displays "Nullable Struct"

string z = "Test";
MyClass.Foo(z);    // displays "Class"

// ...

public static class MyClass
{
    public static void Foo<T>(T? a) where T : struct
    {
        Console.WriteLine("Nullable Struct");
    }

    public static void Foo<T>(T a)
    {
        Type t = typeof(T);

        Delegate action;
        if (!FooDelegateCache.TryGetValue(t, out action))
        {
            MethodInfo mi = t.IsValueType ? FooWithStructInfo : FooWithClassInfo;
            action = Delegate.CreateDelegate(typeof(Action<T>), mi.MakeGenericMethod(t));
            FooDelegateCache.Add(t, action);
        }
        ((Action<T>)action)(a);
    }

    private static void FooWithStruct<T>(T a) where T : struct
    {
        Console.WriteLine("Non-Nullable Struct");
    }

    private static void FooWithClass<T>(T a) where T : class
    {
        Console.WriteLine("Class");
    }

    private static readonly MethodInfo FooWithStructInfo = typeof(MyClass).GetMethod("FooWithStruct", BindingFlags.NonPublic | BindingFlags.Static);
    private static readonly MethodInfo FooWithClassInfo = typeof(MyClass).GetMethod("FooWithClass", BindingFlags.NonPublic | BindingFlags.Static);
    private static readonly Dictionary<Type, Delegate> FooDelegateCache = new Dictionary<Type, Delegate>();
}

(Note that this example is not threadsafe. If you require thread-safety then you'll either need to use some sort of locking around all access to the cache dictionary, or -- if you're able to target .NET4 -- use ConcurrentDictionary<K,V> instead.)

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Nicely done. I like your solution. Thank you very much. –  Pierre Arnaud Jun 4 '10 at 21:40
1  
Could one improve things by using an approach similar to Comparer<T>.Default, e.g. create a private static generic class FooInvoker<T> with a public field FooMethod of type Action<T> (since FooInvoker<T> would be inaccessible outside MyClass there would be no risk of outside code abusing the public field)? If class constructor for FooInvoker<T> sets FooMethod appropriately, I think that would might avoid the need for a dictionary look-up at runtime (I don't know whether .net would need to perform one internally every time Foo<T> was called). –  supercat Feb 22 '12 at 18:09
1  
See my posted answer for an outline of how one would use a static class. I probably made some syntax errors, since I'm typing from memory (and mostly program in vb.net), but there should be enough of an outline to get you going. –  supercat Feb 26 '12 at 18:45

Drop the struct contraint on the first method. If you need to differentiate between value types and classes you can use the type of the argument to do so.

      static void Foo( T? a ) where T : struct
      {
         // nullable stuff here
      }

      static void Foo( T a )
      {
         if( a is ValueType )
         {
            // ValueType stuff here
         }
         else
         {
            // class stuff
         }
      }
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2  
@Maxim: Thank you. The problem I am facing is that in the non nullable method, I have to be able to invoke other functions which take and return T?, and this is not valid without the where T : struct constraint. –  Pierre Arnaud Jun 4 '10 at 14:05

Amplifying my comment to LukeH, a useful pattern if one will need to use Reflection to invoke different actions based upon a type parameter (as distinct from the type of an object instance) is to create a private generic static class something like the following (this exact code is untested, but I've done this sort of thing before):

static class FooInvoker<T>
{
  public Action<Foo> theAction = configureAction;
  void ActionForOneKindOfThing<TT>(TT param) where TT:thatKindOfThing,T
  {
    ...
  }
  void ActionForAnotherKindOfThing<TT>(TT param) where TT:thatOtherKindOfThing,T
  {
    ...
  }
  void configureAction(T param)
  {
    ... Determine which kind of thing T is, and set `theAction` to one of the
    ... above methods.  Then end with ...
    theAction(param);
  }
}

Note that Reflection will throw an exception if one attempts to create a delegate for ActionForOneKindOfThing<TT>(TT param) when TT does not comply with that method's constraints. Because the system validated the type of TT when the delegate was created, one can safely invoke theAction without further type-checking. Note also that if outside code does:

  FooInvoker<T>.theAction(param);

only the first call will require any Reflection. Subsequent calls will simply invoke the delegate directly.

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