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I have the following class:

public class GenericClass<T> : IGenericClass<T> where T : class
    public GenericClass()

    public GenericClass(Entity e)

    public IQueryable<T> GenericMethod1()

    public IEnumerable<T> GenericMethod2()

    public T NonGenericMethod1(T t)

The class works great; however I'm starting to run into issues where I have to instantiate another instance of GenericClass for every type T I want to use, and it's getting a little crazy. Is there some sort of abstraction I can create to simplify this?

I was heading in this direction, but I can't tell if this is the right choice or if there is a better design pattern I could use; plus, the two invoke calls are not working correctlly at all.

public class TestClass
    private Type type;

    public object Invoke(string method, object obj)
        type = obj.GetType();

        MethodInfo m = typeof(GenericClass<>).GetMethod(method);

        var result = new object();

        if(m.IsGenericMethod == true)
            result = m.MakeGenericMethod(type).Invoke(null, new object[] { obj });
            result = m.Invoke(null, new object[] { obj });

        return result;


share|improve this question
It may be obvious to you, but it's completely unclear to me: what are you doing? – dtb May 25 '11 at 23:23
Is object obj an instance of GenericClass<T> or of T? – dlev May 25 '11 at 23:23
@dlev - obj is an instance of T. @dtb - I'm trying to have a single class which I can instantiate once, and then call any of the methods in GenericClass, setting the type by passing it in instead of having to instantiate a different instance of GenericClass for every type I need. I'm not sure if it's possible, but it would certainly make my life easier if I could at this point in my code base... – morganpdx May 25 '11 at 23:31
Have you considered using a dependency injection framework? This is what DI does. A good framework will search your code on startup and auto-magically register everything. – Chuck Conway May 26 '11 at 0:10
@Chuck - Wish I could. – morganpdx May 27 '11 at 16:13
up vote 2 down vote accepted

however I'm starting to run into issues where I have to instantiate another instance of GenericClass for every type T I want to use, and it's getting a little crazy

It's hard to guess without some implementation of GenericClass... but I see constructors and methods - no properties (and no fields?).

If that's the case, you may want to make GenericClass a static class with static methods. Then you aren't allowed to instantiate it and you can call the methods directly from the type:

public static class GenericClass
  public static IQueryable<T> GenericMethod1<T>() where T:class

  public static IEnumerable<T> GenericMethod2<T>() where T:class

  public static object NonGenericMethod1(object t)

Called by

IQueryable<Customer> query = GenericClass.GenericMethod1<Customer>();
IEnumerable<Customer> items = GenericClass.GenericMethod2<Customer>();
Customer c = (Customer) GenericClass.NonGenericMethod1(customerInstance);

Or perhaps there are properties or fields, but they aren't dependent on T, then you can move the Generic responsibility to the methods instead of the class.

Now you can have an instance, and that instance can handle all of the T's you want to throw at it.

public class GenericClass : IGenericClass
  public IQueryable<T> GenericMethod1<T>() where T:class

  public IEnumerable<T> GenericMethod2<T>() where T:class

  public object NonGenericMethod1(object t)

I apologize for the generic-ness of this answer, however that is due to the generic-ness of the question.

share|improve this answer
I like moving the generic responsibility to the methods instead of the class...I think that'll work. I'll give it a shot...thanks! – morganpdx May 25 '11 at 23:51

I don't think this approach will work. The main issue is that you are trying to create the generic method based on the type in order to avoid instantiating an instance of the appropriate GenericClass<T>. But the reason your Invokes are failing is that you are passing in null as the target object, even though they are instance methods. The way to get them to work is to construct an instance of the appropriate GenericClass<T>, but of course this is what you want to avoid.

If you wanted to go this reflaction route (so you'd still have the centralized construction location,) you can do this via reflection with the following code:

Type specificType = typeof(GenericClass<>).MakeGenericType(new Type[] { type });
var specificInstance = Activator.CreateInstance(specificType);

You can then pass in specificInstance as the first parameter to Invoke().

share|improve this answer
Thanks @dlev! I'm going to give David B's answer a shot, but if it doesn't work I'll try this next. thanks! – morganpdx May 25 '11 at 23:52

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