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The title is kind of obscure. What I want to know is if this is possible:

string typeName = <read type name from somwhere>;
Type myType = Type.GetType(typeName);

MyGenericClass<myType> myGenericClass = new MyGenericClass<myType>();

Obviously, MyGenericClass is described as:

public class MyGenericClass<T>

Right now, the compiler complains that 'The type or namespace 'myType' could not be found." There has got to be a way to do this.

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Generics != templates. All generic type variables are resolved at compile time and not at runtime. This is one of those situations where the 'dynamic' type of 4.0 may be useful. –  Will Nov 5 '08 at 18:43
1  
@Will - in what way? When used with generics, under the current CTP you essentially end up calling the <object> versions (unless I'm missing a trick...) –  Marc Gravell Nov 5 '08 at 20:34
    
@MarcGravell you can use foo.Method((dynamic)myGenericClass) for run time method binding, effectively the service locator pattern for a type's method overloads. –  Chris Marisic Oct 14 at 18:53
    
@ChrisMarisic yes, for some generic public void Method<T>(T obj) - a trick I've used more than a few times in the last 6 years since that comment ;p –  Marc Gravell Oct 14 at 19:00

3 Answers 3

up vote 93 down vote accepted

You can't do this without reflection. However, you can do it with reflection. Here's a complete example:

using System;
using System.Reflection;

public class Generic<T>
{
    public Generic()
    {
        Console.WriteLine("T={0}", typeof(T));
    }
}

class Test
{
    static void Main()
    {
        string typeName = "System.String";
        Type typeArgument = Type.GetType(typeName);

        Type genericClass = typeof(Generic<>);
        // MakeGenericType is badly named
        Type constructedClass = genericClass.MakeGenericType(typeArgument);

        object created = Activator.CreateInstance(constructedClass);
    }
}
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OK, this is good, but how does one go about calling methods on created? More reflection? –  Robert C. Barth Nov 5 '08 at 20:38
1  
Well, if you can get away with making your generic type implement a non-generic interface, you can cast to that interface. Alternatively, you could write your own generic method which does all of the work you want to do with the generic, and call that with reflection. –  Jon Skeet Nov 5 '08 at 21:30
1  
@RobertC.Barth You can also make the "created" object in the example type "dynamic" instead of "object". That way you can call methods on it, and evaluation will be deferred until runtime. –  McGarnagle Apr 22 '12 at 5:35
6  
Everytime I upvote Jon Skeet I feel I've been robbed of a tiny piece of my soul. :( –  canon Sep 19 '12 at 14:02
1  
@balanza: You use MakeGenericMethod. –  Jon Skeet May 9 '13 at 7:37

Unfortunately no there is not. Generic arguments must be resolvable at Compile time as either 1) a valid type or 2) another generic parameter. There is no way to create generic instances based on runtime values without the big hammer of using reflection.

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Some additional how to run with scissors code. Suppose you have a class similar to

public class Encoder() {
public void Markdown(IEnumerable<FooContent> contents) { do magic }
public void Markdown(IEnumerable<BarContent> contents) { do magic2 }
}

Suppose at runtime you have a FooContent

If you were able to bind at compile time you would want

var fooContents = new List<FooContent>(fooContent)
new Encoder().Markdown(fooContents)

However you cannot do this at runtime. To do this at runtime you would do along the lines of:

var listType = typeof(List<>).MakeGenericType(myType);
var dynamicList = Activator.CreateInstance(listType);
((IList)dynamicList).Add(fooContent);

To dynamically invoke Markdown(IEnumerable<FooContent> contents)

new Encoder().Markdown( (dynamic) dynamicList)

Note the usage of dynamic in the method call. At runtime dynamicList will be List<FooContent> (additionally also being IEnumerable<FooContent>) since even usage of dynamic is still rooted to a strongly typed language the run time binder will select the appropriate Markdown method. If there is no exact type matches, it will look for an object parameter method and if neither match a runtime binder exception will be raised alerting that no method matches.

The obvious draw back to this approach is a huge loss of type safety at compile time. Nevertheless code along these lines will let you operate in a very dynamic sense that at runtime is still fully typed as you expect it to be.

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