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I am working on a mini-framework for "runnable" things. (They are experiments, tests, tasks, etc.)

// Something that "runs" (in some coordinated way) multiple "runnable" things.
interface IRunnableOf<T> where : IRunnable

// Provide base-class functionality for a "runner"
abstract class RunnerBase<T> : IRunnableOf<T>

class SequentialRunner<T> : RunnerBase<T>  // Same interface, different behavior.
class ConcurrentRunner<T> : RunnerBase<T>
// other types of runners.

class ConcurrentBlockRunner : SequentialRunner<Block>
class SequentialBlockRunner : ConcurrentRunner<Block>

Now, how can I reconcile ConcurrentBlockRunner and SequentialBlockRunner? By this I mean:

  1. Refer to them by a common ancestor, for use in a collection. (IEnuerable<T> where T = ??)

  2. Provide additional base class functionality. (Add a property, for example).

I remedied #1 by adding another interface that just specified a type parameter to IA<T>:

interface IBlockRunner : IRunnableOf<Block> { }

And modified my ConcurrentBlockRunner and SequentialBlockRunner definitions to be:

class ConcurrentBlockRunner : SequentialRunner<Block>, IBlockRunner
class SequentialBlockRunner : ConcurrentRunner<Block>, IBlockRunner

Since ConcurrentBlockRunner and SequentialBlockRunner both use Block for their type parameter, this seems to be a correct solution. However, I can't help but feel "weird" about it, because well, I just tacked that interface on.

For #2, I want to add a couple pieces of common data to ConcurrentBlockRunner and SequentialBlockRunner. There are several properties that apply to them, but not to their only common base class, which is all the way up at RunnerBase<T>.

This is the first time while using C# that I've felt multiple inheritance would help. If I could do:

abstract class BlockRunnerBase {
   int Prop1 { get; set; }
   int Prop2 { get; set; }

class ConcurrentBlockRunner : SequentialRunner<Block>, BlockRunnerBase
class SequentialBlockRunner : ConcurrentRunner<Block>, BlockRunnerBase

Then I could simply add these extra properties to BlockRunnerBase, and everything would just work. Is there a better way?

I know I will be recommended immediately to consider composition, which I began to work with:

class BlockRunner : IBlockRunner  {
   IBlockRunner _member;

   int Prop1 { get; set; }    // Wish I could put these in some base class
   int Prop2 { get; set; }       

   // Lots of proxy calls, and proxy events into _member
   void Method() { _member.Method(); }
   event SomeEvent
      add { _member.SomeEvent += value; }
      remove { _member.SomeEvent -= value; }

The problem I encountered (driving me to write this question) was that once you compose, you lose type compatibility. In my case, _member was firing an event, so the sender parameter was of type SequentialBlockRunner. However, the event handler was trying to cast it to type BlockRunner, which of course failed. The solution there is not use add/remove to proxy the events, but actually handle them, and raise an event of my own. So much work just to add a couple properties...

share|improve this question
If you need multiple inheritances - your design is bad. What is your actual case, without A, B, and other code names? – SimpleVar Jun 11 '12 at 23:26
There are valid use cases for multiple inheritance in other languages...C++, for example. But C++ doesn't have interfaces and extension methods. – cHao Jun 11 '12 at 23:28
@Yorye, blanket dismissal of a request for multiple inheritance as "bad design" simple shows that you don't understand. The C++ designers added MI support for a reason, and I am confident that Bjarne is much smarter than you are. Same thing is true in other languages. MI is difficult to do right, but also highly useful. – Ben Voigt Jun 12 '12 at 0:40
Have you considered approaching this problem differently, and perhaps rather than coming at it from a traditional OOP point of view, consider something entirely different, such as AOP? So, you can inject 'BlockRunner' behaviour to some IRunnable<T> using aspects? When I hit an MI problem these days, I am starting to automatically think 'aspect' instead of 'object'. – RJ Lohan Jun 12 '12 at 0:48
@Yorye: There is a big difference between the programmers C# caters to and the ones C++ is designed for. C# discards many features, not because they aren't useful, but because they're difficult to do right (sometimes for the programmer, more often for the compiler writers). For example, C# offers nothing approaching the capability of C++ templates. This isn't "we learned something in 20 years of experience", this is "programmers skilled enough to deal with templates and their error messages aren't looking for a new language, let's make a simpler language for the programmers who aren't." – Ben Voigt Jun 12 '12 at 1:12
up vote 2 down vote accepted

Composition over Inheritance, FTW!

To be more explicit:

class SequentialRunner<T> : RunnerBase<T>

should implement IRunnableOf<T> and proxy the RunnerBase<T> without inheriting it.

class SequentialRunner<T> : IRunnableOf<T>
   private readonly RunnerBase<T> _runnerBase;

share|improve this answer
I agree, and am changing a lot around to make this work. However, there are two big drawbacks: 1) Code duplication (for proxying of methods and events) 2) Loss of "base" type compatibility. – Jonathon Reinhart Jun 12 '12 at 0:34
Jonathon - extension methods – Mark Sowul Jun 12 '12 at 0:48
Extension methods and mix-ins sort of miss the mark, though. The consumers of @JonathonReinhart's API should be encouraged to program against the most abstract thing they can. Which means hiding the guts inside a nice shiny shell. Not using Microsoft's syntactic sugar hack (as nice as they are) around the sealed string class problem. – bluevector Jun 12 '12 at 0:50
@MarkSowul how do you extension-method your way into adding properties? – Jonathon Reinhart Jun 12 '12 at 0:53
A property with complicated-enough logic that you would want to avoid duplicating it is almost certainly more suited to being a method.… – Mark Sowul Jun 13 '12 at 3:45

You can use extension methods to create mixin-like constructs, even with property-like elements.

I've also created an experiment with trait-like constructs in C#, NRoles.

But, all of these require non-standard coding, and will not be ideal for APIs that are meant to be exposed to third parties. I think you should try to rearrange your classes and use composition with delegation using interfaces if possible.

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