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I have a problem with the is operator comparing generic types.

 public interface ISomeInterface<T> where T : SomeBaseClass{
 }

 public class SomeClass : SomeBaseClass{
 }

Now we want to check the type with is operator. We have an instance of a class implementing interface ISomeInterface.

Unfortunatly we are facing following problem:

 // someObject is an Instance of a class implementing interface ISomeInterface<SomeClass>
 bool isSomeBaseClass = someObject is ISomeInterface<SomeBaseClass>; // false
 bool isSomeClass = someObject is ISomeInterface<SomeClass>; // true

Is it possible to check a variable generic type?

Thanks in advance, Tobi

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Please clean up your C&P a bit - both of your tests are the same. A declaration for someObject would also be good. –  Damien_The_Unbeliever Jun 25 '12 at 9:21
2  
The reason the operator returns false is because ISomeInterface<SomeClass> is not a subtype of ISomeInterface<SomeBaseClass>. It's easy to imagine an example where upcasting the first to the second would cause type safety bugs. (For example, casting an IList<string> to an IList<object>, then adding an integer to it.) –  millimoose Jun 25 '12 at 9:26
    
@millimoose thats exactly the problem. But how can I check it, if i want to get true for a object of IList<string> is IList<object>? –  Tobias Jun 25 '12 at 9:38
    
@Tobias Kek's solution might work for that, but I'm not sure when this would be useful. If the interface isn't covariant over T, the two types don't have any meaningful relationship to one another.\ –  millimoose Jun 25 '12 at 9:42

3 Answers 3

up vote 8 down vote accepted

This is called generic covariance and is supported in C# 4.0. You could mark the generic T parameter with the out keyword:

public interface ISomeInterface<out T> where T : SomeBaseClass

This has a limitation though. The T parameter can only appear as return type of the methods in the interface.

Eric Lippert has a series of blog posts on this subject that I invite you to read.

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Yes you can exploit the covariance and contravariance using the in and out keyword:

public interface ISomeInterface<in T> where T : SomeBaseClass{

}

Or:

public interface ISomeInterface<out T> where T : SomeBaseClass{

}

But remember that using the keyword in you can use T as a parameter, else using out you can use T as a return type.

Covariance:

A type is covariant when you can convert from X<S> to X<B>.

Contravariance:

A type is contravariant when you can convert from X<B> to X<S>.

- where S is the subclass and B the baseclass.


An interesting example that I learn when I was reading my book of C# 4.0 was about the Stack.

class Stack<T>{
   int i;
   T[] array = new T[1000];
   public void Push(T element){
       array[i++] = element;
   }
}

class BaseClass{
}

class SubClass : BaseClass{
}

Infact it explains that the contravariance could be used in this case, when Stack implements this interface:

interface IPushable<in T>{
    void Push(T element);
}

Then:

IPushable<BaseClass> stackB = new Stack<BaseClass>();
IPushable<SubClass> stackS = stackB;
stackS.Push(new SubClass());

While the covariance int this case, when Stack implement the following interface:

interface IPoppable<in T>{
    T Pop();
}

So then:

IPoppable<SubClass> stackS = new Stack<SubClass>();
IPoppable<BaseClass> stackB = stackB;
BaseClass baseClass = stackB.Pop();

This is really helpful because it allows upcasts and downcasts without any problem and Compile-Time errors.

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Not sure I understood your question correctly, but you may need something like answered in Check if a class is derived from a generic class :

public static bool IsSubclassOfRawGeneric(Type generic, Type toCheck)
{
   while (toCheck != null && toCheck != typeof(object))
   {
      var cur = toCheck.IsGenericType ? toCheck.GetGenericTypeDefinition() : toCheck;
      if (generic == cur)
            return true;
      toCheck = toCheck.BaseType;
   }
   return false;
}
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