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Kind of a verbose title, but here goes:

I have a situation where I want to prevent two classes from being derived by the same class or any class of a family. In code:

    class A;
    class B;

    class C: public A; //Yes.
    class D: public B; //Yes.

    class E: public A, public B; //Yes.
    class F: public C, public B; //Yes.

    class G: public A /*Disallow inheritance of B at this point somehow*/;
    class H: public G, public B; //Error at this point...

    class I;
    class J: public G, public I; //...but not at this point.

It's a situation where the private members of A and B are to remain private from any derived classes, and friendship would ruin that design. How would I be able to do this?

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What problem are you solving where this design is the solution? –  GManNickG Jun 14 '13 at 23:25
    
You should consider templated interfaces, type traits and concept checks to solve problems of such kind. Interface implementations may collide as ambiguous error messages. –  πάντα ῥεῖ Jun 14 '13 at 23:28
    
@GManNickG I'm making a real time audio library that mimics concepts used in DAWs - I have two abstract classes Input and Output, and then I have another abstract class AudioSource, which is a template for classes that generate an audio output but take no input (like a sine wave generator or an audio file). If I derive AudioSource and Input at the same time by accident (or someone else does), that goes against the definition of the class (and may have some bad effects down the road). I could just document this, but it's even better if I can forcibly prevent it from happening. –  NmdMystery Jun 14 '13 at 23:44
    
@g-makulik I thought templates might solve this, but the result would be kind of confusing looking unless I could hide it in the cpp somehow. Does boost have something like this made already? –  NmdMystery Jun 14 '13 at 23:51
    
@user2228070: I see. Perhaps a class could be both an Input and Output provider? It might not make sense to model things like that but I think it might not be a fundamental problem to want to disallow. –  GManNickG Jun 14 '13 at 23:56
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1 Answer

up vote 2 down vote accepted

Without really looking deeper, it looks like a typical problem that's used to be solved using static (compile time resolved) polymorphism. The basic approach for such frameworks is the CRTP meta programming pattern (simply because you introduce a strong policy for your inheriting class in how your parent/base classes can be used or combined).

Have a look at how to provide

  • type traits (there are some libs available to support this before C++11 stdandard compliance)
  • concept checks (several libs support this, e.g. boost::concept_check)
  • SFINAE and/or explicit (compile time) error conditions

You might consider various discrete client helper (API) classes to aggregate interface implementations for your final classes; this refers to hiding certain implementations in compilation units and eventually necessary factories for creation of concrete instances.

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