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Consider the following class:

public class GenericClass<T>
{
   public T Argument;                
}

And a second class that references and uses the GenericClass:

public class ClientClass
{
    GenericClass<T> genclass = new GenericClass<T>();
}

My problem is that I don't know the type of T at compile time. I am using reflection during runtime to obtain the type of T. Is it possible somehow to use a parametrized expression while instantiating the GenericClass?

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Have you considered adding a restriction on T, where T : IMyInterface. That way you won't need to rely on reflection. –  Candide Oct 18 '11 at 12:01
    
@Ingenu Not for use, but he would still need a concrete type to instantiate his class to include the proper T. –  David Pfeffer Oct 18 '11 at 12:03
    
Yeap I m afraid that David is right –  panipsilos Oct 18 '11 at 12:05
    
@DavidPfeffer Well, adding T: new() will allow you to call new T(). –  Candide Oct 18 '11 at 12:06
    
@Ingenu You would only be able to call new T() inside of GenericClass<T>. Outside, T has no defined meaning. Either way it won't help him directly manipulate his open generic. –  David Pfeffer Oct 18 '11 at 12:13

1 Answer 1

up vote 4 down vote accepted

Yes, but you'll have to use reflection to build the actual type for which you're looking.

You first need to get the open generic, by using the typeof operator:

var openType = typeof(GenericClass<>);

Next, you need to build the specific generic you want. Say your desired type T is stored in a variable, type:

var closedType = openType.MakeGenericType(type);

Finally, use reflection to create an instance of that type.

object instance = Activator.CreateInstance(closedType);

As noted by xanatos in the comments, however, you should be aware that this results in a member of type object. To be able to manipulate the object without reflection, you have two choices.

  1. You can create a parent class, GenericClass, from which GenericClass<T> derives, and include methods on it that are common to all. (i.e. GenericClass contains members that don't need to use T.
  2. As Ingenu had mentioned in the comments on the question, you can create an interface IInterface, and then add a restriction on T, where T : IInterface. Then, you can cast instance to GenericClass<IInterface> and manipulate it that way. Obviously, type must implement IInterface in this case.

You can of course also just keep the object reference and manipulate it using reflection only, or use dynamic to late-bind any method calls -- this uses reflection under the hood, however.

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2  
+1 And then discover that you can't use it without reflection :-) And you can't even pass it around without reflection or casting to object. It's a sad sad world. You should write object closeType to make it evident. –  xanatos Oct 18 '11 at 12:02
    
Thnx for your reply I ll investigate it and maybe get back to you for further explanation :) –  panipsilos Oct 18 '11 at 12:06
    
@xanatos Good idea. I've updated the code and added some more helpful hints. –  David Pfeffer Oct 18 '11 at 12:11
    
@panipsilos If I've solved your question, please mark the answer as accepted by clicking the check mark next to the answer. And, welcome to StackOverflow! –  David Pfeffer Oct 18 '11 at 12:12

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