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I've got two classes:

public abstract class Uniform<T>
public class UniformMatrix4 : Uniform<Matrix4>

(So far....there will be more that implement different types)

And now lets say I want to write a function that will accept any uniform object... but I can't do that because there is no class called Uniform, only the generic Uniform<T>. So what's the best approach to solving this problem?

  1. Make Uniform<T> implement IUniform
  2. Make Uniform<T> extend Uniform
  3. Make all my functions that accept a Uniform to be generic too so that they can take a Uniform<T> directly?
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Which version of C# are you using? Have you considered the Dynamic type? –  Matthew Patrick Cashatt Dec 31 '11 at 23:02
    
When there is no class called Uniform, how can exist a Uniform object? –  Reza ArabQaeni Dec 31 '11 at 23:23
    
Without knowing anything about the class's purpose, or it's abstract method signatures, it's difficult to give a proper answer here. #3 seems the obvious answer though. –  Mark H Dec 31 '11 at 23:29
    
@MatthewPatrickCashatt: C# 4. No.. I didn't consider dynamic. Will read that blog post, but I prefer type safety wherever possible. –  Mark Dec 31 '11 at 23:51
    
@RezaArab: By "Uniform object" I was referring to the concept of a uniform object, not any specific type defined in C#. –  Mark Dec 31 '11 at 23:53

3 Answers 3

up vote 5 down vote accepted

Make your methods generic as well, and you're good.

Note that you always have the choice of using all generic type arguments on the function if needed, like this:

public void MyMethod<TUniform, T>(TUniform uniform) where TUniform: Uniform<T> {...}

The compiler will usually infer the type arguments on his own whenever you have a parameter, so that the call in fact looks like a normal method invocation in the C# source code:

UniformMatrix4 uniform;
MyMethod(uniform); // the types of the generic functions are inferred
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This is what I'd do. In Mono under Ubuntu 11.10, I couldn't get it to infer pretty simple argument types and ended up with an ugly invocation: Run<Uniform<String>, String>(someClass); –  Jim Schubert Jan 1 '12 at 0:11
1  
Hang on... why would you want to declare it like this instead of what Domenic suggests in his answer? This seems more verbose -- what's the benefit? –  Mark Jan 1 '12 at 0:54
1  
@Mark, you get the exact type at compile time. This enables additional scenarios such as adding a new type constraint to create new instances, or use it as strongly typed return value or out argument. –  Lucero Jan 1 '12 at 9:25
1  
@Mark, no, in your example Uniform<Matrix4> is a supertype of UniformMatrix4. Take the example with the method returning that: UniformMatrix4 uniform = MyMethod() will only work if the method returns a UniformMatrix4, but not when it returns a Uniform<Matrix4>, because you can have any number of other types deriving from Uniform<Matrix4> - or you could also directly instantiate that if it isn't abstract. Therefore Uniform<T> is not good enough, it cannot exactly represent any type inherited from Uniform<> - which is what I mean by "exact type". –  Lucero Jan 1 '12 at 21:38
1  
@JimSchubert, I had issues with generics in Mono before (type constraints using other generic type parameters, so-called naked type constraints don't work properly) as well. On the MS stack this all works very well. –  Lucero Jan 2 '12 at 12:06

Admittedly intimidated to post this answer, but think it may be correct:

 public static Uniform<dynamic> MyMethod(dynamic myObject) { 
      //do stuff    
      return uniform;
    }

Here is a Dino Esposito blog on the topic:

http://msdn.microsoft.com/en-us/magazine/ff796227.aspx

Cheers,

Matt

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I probably just don't get it, but how is this relevant? Maybe expanding on //do stuff would help me? –  Kieren Johnstone Dec 31 '11 at 23:57
    
Oh hang on, if you refer to the myObject fields by name, you reconstruct them into a Uniform<dynamic>? If that's the case (or not) perhaps you could expand this answer, I'm quite curious? –  Kieren Johnstone Dec 31 '11 at 23:58
    
Well, again--a little intimidated contributing to a conversation with all of you uber reputation folks, but what I have been doing is something like this: let's say that I want to use a generic method to construct an object of unknown type at runtime, I would create a new ExpandoObject (dynamic myObject = new ExpandoObject();) and then either populate it's properties explicitly (myObject.Name = "Matt";) or, in the case of a Linq query, I instantiate an IDictionary when looping through the data returned (var item = myObject as IDictionary<String, object>; item[SomeKey] = SomeValue;). Thanks. –  Matthew Patrick Cashatt Jan 1 '12 at 0:09
    
I don't believe that Uniform<dynamic> can be casted to or from a specific type, say, Uniform<Matrix4> from the example here. One could use dynamic everywhere, but one of the benefits of a pure generic solution compared to a solution involving dynamic is that you have full type safety, checking and efficiency at compile time. –  Lucero Jan 1 '12 at 0:09
    
BUT as Mark says, he wants to stick with type-safe methods, so my answer, which uses duck-typing, won't work for him. –  Matthew Patrick Cashatt Jan 1 '12 at 0:10
public void MyMethod<T>(Uniform<T> uniform) { ... }
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Yes... that's option #3. Can you explain why this is preferable? The thing I don't like about this is that you're introducing T which is only used once in the function signature and then never again. It won't be used for anything else –  Mark Jan 1 '12 at 0:12
2  
@Mark, the type variable T here is scoped to the method, not to the class. It doesn't hurt at all and has typically no additional runtime cost associated to it (assuming that T is always a reference type). –  Lucero Jan 1 '12 at 0:19
    
I know it's scoped to the method..just saying though. There's 3 options here and I'm trying to figure out which is best. –  Mark Jan 1 '12 at 0:21
1  
@Mark, unless you need that non-generic base class or interface anyways I'd go for the generic approach. Non-generic base classes or an interface is for instance required if you want to have a strongly typed collection of those which may hold different closed Uniform<> type instances. –  Lucero Jan 1 '12 at 0:25
2  
This is preferable because it is the idiomatic, straightforward, type-safe approach. Why would you do anything different? –  Domenic Jan 1 '12 at 0:33

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