Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I have an interesting problem that I keep circling around, but I never seem to quiet find a solution.

I tend to be a defensive programmer, so I try to write code that prevents problems from happening rather than reacting to problems once they've occurred. To that end, I have the following situation. Take the following code:

public class Base {}
public Interface IBase {}

public class Derived : Base, IBase {}
public class Derived2 : Base, IBase {}
...
public class DerivedN : Base, IBase {}

public class X : Base {}
public class Y : IBase {}

I need to pass a list of objects that derive from Base and implement IBase to a collection, and I need to make sure that only objects that have both are added to the list. Additionally, there can be an arbitrary number of classes that have both, so I cannot use the derived classes as constraints.

If I make the list of type Base, then I could add a Y object. If I make it of type IBase, then objects of type X can be added (neither of which are permitted).

I could, of course create my own generic collection class that has both types and has constraints for both. But, I don't want to have to do this for all possible collection types, and it's a lot of effort to duplicate all that functionality (even if you just forward the method calls to a contained class).

I could also create a BaseWithIBase class, which derives from both Base and IBase, and use that as my collection type, but I really don't want to force another abstraction if I don't have to.

I don't want this to be a runtime check, so walking the tree and throwing exceptions is not acceptable.

Can anyone suggest a better approach to this problem?

NOTE: Base and IBase are not related, just pointing out they are both base items of different types.

EDIT:

It seems that everyone wants to insist that "you don't need to do that" and that it's "not OOP". Nothing could be further from the truth. I was attempting to remove the specific from the question to prevent these kinds of questions and comments, so I will include my real situation.

The code is an implement of a Windows Service framework, based on the .NET Frameworks ServiceProcess.ServiceBase class. I am adding my own framework on top of this, that is intended to be heavily Dependency Injection based, and highly testable.

The collection must contain objects that derive from both ServiceBase and IService. IService is my framework extension that is used in my code, and for testing. It is basically just this:

public interface IService 
{
    void Start();
    void Stop();
}

In addition, I have a number of other interfaces:

public interface IRestartableService
{
    void Restart();
}

public interface IConfigurableService
{
    void Configure();
}

etc.. etc.. and a service may look like this:

public class MyService : ServiceBase, IService, IConfigurableService {}

My code requires IService, Windows requires ServiceBase, thus both are needed because I work with IService, and windows works with ServiceBase. I only require IService, the other interfaces are optional.

share|improve this question
1  
Can you give a more specific example of Base and IBase? – Andrey Shchekin Jun 11 '13 at 5:59
up vote 8 down vote accepted

You can create your own wrapper collection simply:

// TODO: Work out which collection interfaces you want to implement
public class BaseList
{
    // Or use List<IBase>, if that's how you'll be using it more often.
    private List<Base> list = new List<Base>();

    public void Add<T>(T item) where T : Base, IBase
    {
        list.Add(item);
    }
}

By using a generic method with both constraints, you can be sure that Add can only be called with an appropriate type argument.

You could have two methods to expose the data as IEnumerable<T> - one returning IEnumerable<IBase> (using Cast<T>) and one returning IEnumerable<Base>... that would let you use LINQ on either type, but not both at the same time of course.

I suspect you may find this awkward elsewhere, however - you may find yourself littering your code with generic methods which you wouldn't typically need. While there may well be a good reason for wanting both the class part and the interface part, it would be worth taking a step back and considering whether they're really both necessary. Is there something extra you could add to the interface so that you could do away with the class constraint, for example?

share|improve this answer
    
Yes, I already mentioned I could do that.. but I don't want to have to do all that work, particularly because I want to use Linq, and IEnumerables, and basically have the ability to do things like .AsReadOnlyList(), etc.. Making all that work a lot of effort. That means implementing all the collection extension methods as well... – Erik Funkenbusch Jun 11 '13 at 5:48
1  
@MystereMan: What I described didn't sound like any of the alternatives you suggested. Apologies if it's what you had in mind for one of them, but it really wasn't clear. If you're wanting to use a single List<T>, how do you expect to get values out of them? I'm afraid that you're probably not going to be able to satisfy your requirements without extra code. – Jon Skeet Jun 11 '13 at 5:51
    
The part where I said "Of course I could create my own generic collection class" is where I thought I was being pretty unambiguous about it. I'm not against writing extra code, i'm against writing a metric boatload of extra code in order to recreate all the functionality provided by the various collection classes, extension methods, and interfaces they all support. This is intended to be a utility item in a framework class, so I can't skimp and only implement what i'm currently using. – Erik Funkenbusch Jun 11 '13 at 5:54
    
@MystereMan: But my answer isn't a generic collection class. It's a non-generic class with generic methods, which isn't the same thing. And you don't have to rewrite all the functionality provided by extension methods - if you're happy to treat it as a sequence of just one of the types at a time, you can just expose a view on the sequence, and let LINQ do the rest. But you really can't treat it as a single collection type which is both... it's just not going to work. You'll either need to do something like I've shown, or rethink your design. – Jon Skeet Jun 11 '13 at 6:07
    
I'm not treating it as both, I'm requiring that they be both. The reason is that the .NET Framework requires the base class, my code requires the interface. I can't change the framework (well, not without reverse engineering the ServiceBase class) so I have to pass it objects that derive from ServiceBase, but I need to work with interfaces. See my edit to my question. – Erik Funkenbusch Jun 11 '13 at 6:20

There is no good answer to your question because the design itself is not really fitting OOP as implemented in C#/.NET.

If you absolutely need a collection where each element statically provides two independent interfaces, either a wrapper collection or some wrapper class like Wrapper<TFirst, TSecond, T> : IBoth<TFirst, TSecond> would solve your problem.

Example:

public interface IBoth<TFirst, TSecond> {
    TFirst AsFirst();
    TSecond AsSecond();
}

public class Wrapper<T, TFirst, TSecond> : IBoth<TFirst, TSecond>
   where T : TFirst, TSecond
{
    private readonly T _value;

    public Wrapper(T value) {
        _value = value;
    }

    public TFirst AsFirst() {
        return _value;
    }

    public TSecond AsSecond() {
        return _value;
    }
}

However the real question is why do you need that. Not to say that standard OOP model is perfect, but quite often a problem can be solved much easier if original design decisions are reviewed.

share|improve this answer
    
The real code actually has a number of different interfaces and a specific base class (based around Windows Services and ServiceBase). The idea is to allow mix-in interfaces to provide different functionality, without requiring a leaky single interface, much like how the collection classes themselves already implement a number of different interfaces with different functionality. – Erik Funkenbusch Jun 11 '13 at 6:00
    
Regarding your edit, I also already mentioned that I could do this, but did not want to introduce another abstraction if I didn't have to. I realize I may have to, but I'd rather try not to. – Erik Funkenbusch Jun 11 '13 at 6:04
    
Why make those interfaces mandatory? Also, if the ServiceBase API is mandatory, can you just include these methods into the relevant interfaces. – Andrey Shchekin Jun 11 '13 at 6:05
    
ServiceBase is mandatory, because that's the .NET implementation of a Windows Service. I have to pass a collection of ServiceBase objects to the ServiceBase.Run() method. I cannot pass a different abstraction to the .NET framework. – Erik Funkenbusch Jun 11 '13 at 6:07
    
Fair enough -- but I do not think you will find a perfect solution to this. In some languages it would be as simple as Collection<Base&IBase>, but not in C#. – Andrey Shchekin Jun 11 '13 at 6:08

Another option is to completely ignore ServiceBase in most of the code and create a ServiceBaseAdapter for communication with the code that is not interface friendly. Such adapter can just call your interface methods when its method are called.

share|improve this answer
    
Perhaps i'm misunderstanding you, but if you mean what I think, then that doesn't really work here because of the tight OS integration of ServiceBase, and the way services have to be run by the framework. – Erik Funkenbusch Jun 12 '13 at 6:04
    
What I mean is basically ServiceBase.Run(services.Select(s => new ServiceBaseAdapter(s)).ToArray()). – Andrey Shchekin Jun 12 '13 at 6:55

Try something like this:

List<object> collection = new List<object>();
foreach(var obj in collection.OfType<Base>().OfType<IBase>())
{
// Do what ever you want
}
share|improve this answer
    
That does not solve the problem. – Erik Funkenbusch Jun 11 '13 at 5:58

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.