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Let's consider a method in an interface :

public Interface IA {
    T[] Get<T>() where T : IB;
}

In another place I would like to call this method n times for n types which are known at compile time. The following code ilustrates my intention.

foreach(Type t in new Type[] { typeof(X), typeof(Y), typeof(Z) }) 
{
    InterfaceXYZImplement[] arr = c.Resolve<IA>().Get<t>();
    //...more here
}

Now, the foreach loop obviously makes the type become a run-time value so I would have to use MakeGenericMethod.

Is there a way to write the code in such a way that I can have the code executed for X,Y and Z, but call the method written only once?

Wrapping the code in a method would only move the problem upwards (which is a partial solution but not the ultimate one, heh).

Thanks in advance
Tymek

share|improve this question
    
How big is n? –  LukeH May 3 '12 at 9:32
2  
Why not just call them one by one? Are the types known at compile time every changing? –  leppie May 3 '12 at 10:15
    
I'm not realy clear on what "call the method written only once" means, and what's wrong with @mrtofigh's solution - could you elaborate? What's wrong with using MakeGenericMethod ? –  AakashM May 4 '12 at 8:20
    
@LukeH: less than 10 –  Tymek May 10 '12 at 3:12
    
@leppie Because the list may be used somewhere else as in: a have a list of types store in file and different pieces of the system do things for these types. When add a type I need find all the places where I 'call them one by one'. –  Tymek May 10 '12 at 3:14

2 Answers 2

You could achieve this using some helper method that makes quite a few assumptions and uses the new dynamic keyword in .NET4.

Basically, the solution makes use of the feature of the DLR to correctly infer the type to be used for a generic method, when the parameter that uses the type is a dynamic. For this to work, you will need two helper methods:

IB[] Get(IA a, Type t)
{
    dynamic dummy = Activator.CreateInstance(t);
    return Get(a, dummy);
}

T[] Get<T>(IA a, T dummy) where T : IB
{
    return a.Get<T>();
}

And your code would call the first of those helper methods:

foreach(var t in new Type[] { typeof(X), typeof(Y), typeof(Z) })
{
    IB[] arr = Get(c.Resolve<IA>(), t);
    // do more stuff here
}

As you can see, this approach has several draw backs:

  1. For each type in the loop, a new instance is created via Activator.CreateInstance(t). This line makes the assumption that there exists a public parameterless constructor that can be used and that this constructor doesn't do anything heavy.
  2. If any of the types in the loop doesn't implement IB this code will throw an exception at runtime. There will be no compile error.
  3. The result is always an array of IB instances, not an array of the specific type.
share|improve this answer
    
@mrtofigh: No, that's not possible. Look again. –  Daniel Hilgarth May 3 '12 at 12:34

Define an extension method:

public static class Extensions
{
    public static void Get<T>(this IA a, Action<T[]> action, params Type[] types) where T : IB
    {
        foreach (var type in types)
        {
            var method = a.GetType().GetMethod("Get").MakeGenericMethod(type);
            var ts = (T[])method.Invoke(a, null);
            action(ts);
        }
    }
}

Use:

a.Get(arr => { 
   // work on result
}, typeof(X), typeof(Y), typeof(Z));
share|improve this answer
1  
An the OP mentions he does not want to go this route... –  leppie May 3 '12 at 10:14
    
Magic string! Aaaaaah! Casting! Aaaah! –  Tymek May 10 '12 at 3:17

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