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I'm looking for a way to define "MethodA" below, such that it returns a class definition (System.Type), of which an instance of said type implements "InterfaceB"

interface IMyInterface
  TType MethodA<TType, TInterface>() 
    : where TType : System.Type
    : where [instanceOf(TType)] : TInterface

(Note: instanceOf is not real, of course...)

I suspect it's not possible to get this kind of verification at compile time. I'm hoping someone out there will prove me wrong.

Thanks in advance for any guidance.

EDIT: I've updated this in hopes of being more specific that what is returned is a System.Type, of which this later code can execute:

var classType = myInterface.MethodA<(something, ISomeInterface)>();
ISomeInterface = new classType();  //--Assuming default constructor

I haven't really focused on this part yet, just more curious about the theoretical construction of my primary quesiton.

share|improve this question
Change the return type to TInterface – asawyer Jul 25 '12 at 22:21
Are you using "Type" to mean System.Type, or to mean some type that you have defined? In the former case, what you're trying to do is impossible for obvious reasons, and you should almost certainly not be deriving from System.Type anyway. – Michael Graczyk Jul 25 '12 at 22:30
Yes, I mean System.Type. I'm trying to see if I can get the class definition of something that implements the TInterface, of which I'll be 'newing' up later. I'm trying to avoid having to new it up w/in this particular method. – Eric Jul 26 '12 at 14:10
up vote 0 down vote accepted

In this situation:

// We have an interface...
interface InterfaceB {}

// And this class implements the interface.
class ImplementsB : InterfaceB {}

// But this class does not.
class DoesNotImplementB {}

You could define MethodA as:

static Type MethodA<TClass, TInterface>()
    where TClass : TInterface
    return typeof(TClass);

Then the following will work:

Type t = MethodA<ImplementsB, InterfaceB>();

But this gives a compile-time error:

Type t = MethodA<DoesNotImplementB, InterfaceB>();

The type 'DoesNotImplementB' cannot be used as type parameter 'TClass' in the generic type or method 'MethodA<TClass,TInterface>()'. There is no implicit reference conversion from 'DoesNotImplementB' to 'InterfaceB'.

So, this way you are sure that the result of MethodA is a Type of a class that implements TInterface. Given that Type object, you can instantate it later like this:

public object Instantiate(Type type)
    // Call the default constructor.
    // You can change this to call any constructor you want.
    var constructor = type.GetConstructor(Type.EmptyTypes);
    var instance = constructor.Invoke(new object[0]);
    return instance;

If you know that your Type is compatible with some interface TInterface, then you can avoid a cast with an additional method like this:

public TInterface Instantiate<TInterface>(Type type)
    return (TInterface)Instantiate(type);

However, if type is a Type that somehow does not implement TInterface, you'll get an InvalidCastException at run-time. There is no way to constrain Type to be a type that implements a particular interface at compile-time. However, at run-time you can check it to avoid the InvalidCastException exception:

public TInterface Instantiate<TInterface>(Type type)
    if (!typeof(TInterface).IsAssignableFrom(type))
        throw new Exception("Wrong type!");
    return (TInterface)Instantiate(type);

Note that typeof(TType) is an expression that results in a Type object, so everywhere you see typeof() you could replace it with any Type variable and vice versa.

Is this what you wanted to know?

share|improve this answer
Close, but I'm trying to avoid actually instantiating the object at this point. I want to return the class definition itself, of which I can use to instantiate the object later. My problem is I can't figure out a way to guarantee the (System.Type) returned, when instantiated, actually implements TInterface. At least, not until I try to instantiate it and cast it to TInterface. But that's a run-time solution, not a compile-time solution. – Eric Jul 26 '12 at 14:17
I updated my post. Is this closer to what you wanted to know? – Virtlink Jul 26 '12 at 14:45
I haven't forgotten about this, I just haven't had time to apply your ideas. They sound good, maybe I'll get a chance to try them out this weekend, and update this comment block about it when I can. – Eric Jul 27 '12 at 20:35

There are two interpretations of your question; one would be trivial, one impossible, so I'll go forward and cover both.

  1. You want to return an instance of a type which implements both System.Type and TInterface.

    This is trivial: Just use where TType : Type and where TType : TInterface.

  2. You want to return an instance of System.Type that represents a type which inherits from TInterface.

    This is impossible to specify in the .NET (and C#) type-system.

    The type system can only resolve information from the type hierarchy themselves, but not enforce "contracts" like restricted run-time property values. There are a few hacks regarding default-constructors etc., but as far as I know not even testing for existing methods is possible (unlike C++ templates, for instance, not to speak of Qi et al.).


Please check the comment from Michael Graczyk.

Also: I just found out that there are code-contract checkers (static and run-time) for .NET: Microsoft DevLabs Code-Contracts for .NET. I have never used them, not even new about them, but that looks interesting!

However, even without looking, I'm quite sure that overload-resolution etc. will not be able to use such information.

share|improve this answer
3. He is using the word "Type" for something other than System.Type. – Michael Graczyk Jul 25 '12 at 22:31
You are so goddamn right about this. Ouch. For other readers: falls into class 2.) checking property-values won't work. – gimpf Jul 25 '12 at 22:33
For #1, I'd simplify it as where TType : Type, TInterface – Eric Jul 26 '12 at 14:12

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