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I am trying to provide an interface to an abstract generic base class. I want to have a method exposed on the interface that consumes the generic type, but whose implementation is ultimately handled by the classes that inherit from my abstract generic base.

However I don't want the subclasses to have to downcast to work with the generic type (as they already know what the type should be).

Here is a simple version of the only way I can see to get it to work at the moment.

public interface IFoo
{
    void Process(Bar_base bar);
}

public abstract class FooBase<T> : IFoo 
    where T : Bar_base
{
    abstract void Process(T bar);

    // Explicit IFoo Implementation
    void IFoo.Process(Bar_base bar)
    {
        if (bar == null) throw new ArgumentNullException();

        // Downcast here in base class (less for subclasses to worry about)
        T downcasted_bar = bar as T;
        if (downcasted_bar == null)
        {
            throw new InvalidOperationException(
                          string.Format("Expected type '{0}', not type '{1}'",
                                        T.ToString(), bar.GetType().ToString());
        }

        //Process downcasted object.
        Process(downcasted_bar);            
    }

}

Then subclasses of FooBase would look like this...

public class Foo_impl1 : FooBase<Bar_impl1>
{
     void override Process(Bar_impl1 bar)
     {
         //No need to downcast here!
     } 
}

Obviously this won't provide me compile time Type Checking, but I think it will get the job done...

Questions:
1. Will this function as I think it will?
2. Is this the best way to do this?
3. What are the issues with doing it this way?
4. Can you suggest a different approach?

Thanks!


Edit: In Response to many answers, It is a requirement that IFoo is not Generic. I need to be able to manipulate a collection of IFoo objects regardless of the generic Types they use.


Edit: In an effort to clarify the reasoning for this...

Bar_base contains a reference to type IFoo. And must call the process method to validate the data it contains. Think of IFoo as an object that contains validation logic for the Bar_base derived objects. When the validity of Bar_base object is questioned, it calls Process on its IFoo reference to validate itself.

The reason IFoo can't be generic is that I need to be able to reference a collection of IFoo independent of the Bar_base classes.

I am going to try the approach of having two interfaces a Generic one that contains the Process method, and non-generic one that doesn't.

share|improve this question
    
if you override the Process(...) function how do you plan to execute the code in the base class? How do you see code flow in the usage? –  galford13x Apr 9 '10 at 1:09
    
@galford13x - I am under the impression that the explicit implementation of the IFoo.Process method will get called when called on a reference to the interface. Otherwise, the base class Process method is abstract so I want my inheriting classes to implement. –  Nate Heinrich Apr 9 '10 at 1:18
    
Can you explain why a non generic IFoo is a requirement? –  Ian Mercer Apr 9 '10 at 1:22
    
With the generic/non-generic interface pair, I've used List<IFoo> successfully with a heterogenous mix of IFoo<T> members. Clients of the list can only use the methods defined in the non-generic interface. Class Foo<T> may need to get rather tricky in managing this, though. –  Cylon Cat Apr 9 '10 at 1:47
    
yeah, it seems like this will probably work, because the only objects that need access to the Process method are in fact the Bar_base derived objects when they need to validate themselves. Will give it a try tomorrow. –  Nate Heinrich Apr 9 '10 at 1:50

4 Answers 4

up vote 1 down vote accepted

In the case where IFoo cannot be generic, it's very typical in a case like this to have two interfaces, IFoo<T> and IFoo, where IFoo uses the most base class supported. Think IEnumerable<T> and IEnumerable. The non-generic version is usually hidden as an interface overload, so it only comes into play when accessing the class via the non-generic interface.

share|improve this answer
    
+1 going to try out the two interface approach and see if it will work for me. –  Nate Heinrich Apr 9 '10 at 1:45

Given your constraint that T is of type Bar_base, and (in your example) only using T for Process(T bar), I'm not sure why you're using generics at all. If

abstract Process(Bar_base bar)

is all you need, then that should be sufficient for class overriding with

void override Process(Bar_impl1 bar)

and your abstract class Bar_base is a sufficient type constraint.

Unless I'm missing something....

Another useful trick is to provide both generic and non-generic interface definitions, where the non-generic provides non-generic access methods and properties, and the generic interface provides only the additional methods and/or properties that requires a generic type. Clients can specify either interface, depending on whether they're in a position to share the generic type.

interface IFoo
{
...
}

interface IFoo<T> : IFoo where T : Bar_base
{
...
}

But I'm not sure that this would satisfy your needs in this case.

share|improve this answer
    
+1 going to try out the two interface approach and see if it will work for me. –  Nate Heinrich Apr 9 '10 at 1:44
    
Had to accept Dan's answer as he posted his first. But thanks for your help! –  Nate Heinrich Apr 9 '10 at 19:51

You could just make IFoo generic:

public interface IFoo<T> where T : Bar_base
{
    void Process(T bar);
}
share|improve this answer

Any reason you don't just use a generic interface:-

public interface IFoo<T>
  where T:Bar_base
{
    void Process(T bar);
}
share|improve this answer

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