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I am trying to pass messages between several classes that communicate through interface. However, as I like to go as generic as possible, I ran into problems because the message type of incoming messages may be different from the outgoing type. I pasted some code to make it clearer.

The code below does not compile because the interface implementation passes a different type than the type of the blocking collection to which it is supposed to add incoming messages. I want to be able to send types potentially different from incoming types (incoming types obviously always match the type of the elements in the blocking collection). Can I somehow get around any sort of casting or parsing even if that means I need to redesign my interface or class?

I am still quite fresh when it comes to working with interfaces and struggled with recursions, stack overflow errors, and the like. So, if you have suggestions what I can improve design wise or just a quick fix then please help me to learn. Am very eager to understand how to implement a better pattern.

Thanks

public interface IClientMessaging
{
    void MessagePassing<U>(U message);
}

public class InProcessMessaging<T> : IClientMessaging
{
    private Dictionary<Type, List<IClientMessaging>> Subscriptions;
    public BlockingCollection<T> MessageBuffer;

    public InProcessMessaging(Dictionary<Type, List<IClientMessaging>> subscriptions)
    {
        //Setup Message Buffer
        MessageBuffer = new BlockingCollection<T>();

        //Subscribe
        Type type = typeof(T);
        if (subscriptions.Keys.Contains(type))
        {
            subscriptions[type].Add(this);
        }
        else
        {
            subscriptions.Add(type, new List<IClientMessaging>());
            subscriptions[type].Add(this);
        }

        Subscriptions = subscriptions;
    }

    public void SendMessage<U>(U message)
    {
        //Send message to each subscribed Client
        List<IClientMessaging> typeSubscriptions = Subscriptions[typeof(U)];
        foreach (IClientMessaging subscriber in typeSubscriptions)
        {
            subscriber.MessagePassing<U>(message);
        } 
    }

    public T ReceiveMessage()
    {
        return MessageBuffer.Take();
    }

    public bool ReceiveMessage(out T item)
    {
        return MessageBuffer.TryTake(out item);
    }

    //Interface Implementation
    public void MessagePassing<U>(U message)
    {
        MessageBuffer.Add(message); //<-"Cannot convert from U to T" [this is because I want
                                    //to send messages of a different type than the receiving type]
    }
}
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1  
Why does InProcessMessaging both implement IClientMessaging and manage subscriber lists of IClientMessaging? –  uosɐſ Apr 28 '12 at 3:28
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1 Answer

up vote 1 down vote accepted

I'm struggling to understand your goal here, but perhaps MessagePassing<U>(U message) should be MessagePassing(U message) and interface IClientMessaging should be interface IClientMessaging<U>.

Then InProcessMessaging<T, U> : IClientMessaging<U> - but I don't see why InProcessMessaging implements IClientMessaging AND manages subscriber lists of IClientMessaging. Seems to me that one class would manage the subscribers and another IS a subscriber (IClientMessaging).

You say U and T are different types. Well - are they related? Is one wrapper for the other? Sounds like maybe U is either a wrapper for T, a generic class itself that contains the T but adds extra info. In that case, void MessagePassing<T>(Wrapper<T> message);

UPDATES

Based on the comments so far ...

interface IClientMessage {}

interface IClientMessage<U> : IClientMessage { /* ... */ }

But rename those to:

interface IConsumer {} // (Or ISubscriber?)

interface IConsumer<TConsumed> : IConsumer{ /* ... */ }

and add:

interface IGenerator { }

interface IGenerator <TGenerated> : IGenerator { 
    event EventHandler<TGenerated> ItemGenerated; 
}

Then:

class Manager
{
    Dictionary<TConsumed, IConsumer> consumers = new ...

    /* Code for attaching ItemGenerated event handlers to clients */
}

class MyClient : IGenerator<string>, IConsumer<Foo>, IConsumer<Bar>
{
    event IGenerator<string>.ItemGenerated ...

    void IConsumer<Foo>.Consume(...) ...

    void IConsumer<Bar>.Consume(...) ...
}

Yes, this would use reflection to invoke IConsumer<TConsumed>.Consume(). Or you can leave off the generics and just use object as your types. Better yet, IClientMessage can have a Consume(object message) which in your implementation can ensure that object is a TConsumed before attempting to process it.

You could otherwise create direct client-to-client links through C# events, but you seem intent on a central dispatcher. It is the central dispatchers need to keep track of these different and unbounded number of types that is either going to require reflection OR be unaware of the types being passed (as described in the previous paragraph)

You should look at Reactive Extensions and the Observer pattern for ideas as well.

I removed my comments because it was getting too chatty.

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I believe your idea does not get around reflection? I look for a solution that adheres to strong typing and I don't see how your answer addresses that. Please correct me if I am wrong. As described messages can be type safe passed to the blocking collections the only reason I ever thought about using interfaces was to hold all the clients/message recipients in one collection in order to pass certain message types to matching clients that implemented blocking collections that match such types. Under no circumstances do I want to give up strong typing. –  Matt Wolf Apr 28 '12 at 19:30
1  
No it does not. Unless you don't like is and as either. I think the "Better yet" part avoids reflection. –  uosɐſ Apr 29 '12 at 10:42
1  
I don't see anything in here that would be described as parsing or unboxing. Reflection, perhaps, but minimally. If per channel you have one sender and one receiver, I would look at C# events and using the threadpool to process the event handlers asynchronously. –  uosɐſ Apr 30 '12 at 14:51
1  
Also, and I hate to be so petty but it will be helpful for you in the long run - strive to be generous with your upvotes. Your graciousness is good too but your upvotes are free for you to give out and I believe they encourage people to participate. ;-) –  uosɐſ Apr 30 '12 at 14:53
1  
If you're changing direction, you should probably start a new question once you've consolidated your thoughts on that new direction. –  uosɐſ Apr 30 '12 at 14:55
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