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Given legacy code, the system has the following hierarchy of classes:

          Base
          ^
          |
----------+---------------
^      ^     ^     ^     ^ 
|      |     |     |     |
A1     B1    C1    D1    E1
^      ^     ^     ^     ^ 
|      |     |     |     |
A2     B2    C2    D2    E2
.......
^      ^     ^     ^     ^ 
|      |     |     |     |
An     Bn    Cn    Dn    En

The hierarchy represents messages in some specific domain.

Base class is of course base class of all messages. A1..E1 are messages belonging to version 1 of the domain, A2..E2 to version 2, and so on. Please note that An must inherit directly from An-1, since An overrides specific methods of An-1.

There's some functionality that is common to all messages, so it's defined as Base::PerformFunctionality. Some part of the functionality is specific to version n only, so there's virtual function Base::SpecificPartOfFunctionality, which is called by Base::PerformFunctionality.

So my problem is how to override Base::SpecificPartOfFunctionality by all An..En.

I see 2 possible solutions, which I don't like too much:

  1. Implement Base::SpecificPartOfFunctionality in each and each An..En.

    The problem with this solution is that the implementation should be exactly same for each class, so I just repeat the code.

    Additional problem is that if a new class Fn is introduced, developer may forget to implement SpecificPartOfFunctionality.

  2. Introduce BaseN class deriving from Base, while each An..En derive from BaseN too:

    class BaseN : public Base {
       //...
       SpecificPartOfFunctionality() { ...}
    };
    
    class An: public An-1, public BaseN { .. }
    

    The problem with this solution is that it introduces diamond problem.

    Additional problem is what will happen if some other version m needs to override Base::SpecificPartOfFunctionality too. Following the solution we'll introduce BaseM, which will override Base::SpecificPartOfFunctionality. So which SpecificPartOfFunctionality will be called for An - of BaseN or of BaseN. It's complete mess.

Any suggestions?

share|improve this question
    
Are you allowed to change the classes A1..E1? If so, why not implement SpecificBase which implements SpecificPartsOfFunctionality from which A1..E1 derive, in a single inheritance scheme. SpecificBase derives from Base, of course. –  Constantinius May 14 '11 at 21:02
    
I'm allowed to change A1...E1. I think you're describing solution 2 proposed by me. –  dimba May 14 '11 at 21:07
    
not exactly, since you are using multiple inheritance (hm... your syntax seems incorrect.) –  Constantinius May 14 '11 at 21:10
    
@Constantinius thanks, fixed. An must inherit directly from An-1. I can not insert SpoecificN between them. –  dimba May 14 '11 at 21:15
    
Yes I understand. But if you change the roots, namely A1..E1 to inherit from SpecificBase all descendends also have SpecificBase in their inheritance hierarchy. So no multiple inheritance is necessary. –  Constantinius May 14 '11 at 21:17

2 Answers 2

up vote 3 down vote accepted
struct Base {
  virtual void PerformFunctionality() {
    stuff();
    SpecificPartOfFunctionality();
    more_stuff();
  }
private:
  virtual void SpecificPartOfFunctionality() {}
};

template<class Prev>
struct Version3 : Prev {
protected:  // Not private if v4's override might need to call this.
  virtual void SpecificPartOfFunctionality() {
    v3_specific_stuff();
  }
};

struct A1 : Base {};
struct A2 : A1 {};
struct A3 : Version3<A2> {};

struct B1 : Base {};
struct B2 : B1 {};
struct B3 : Version3<B2> {};

The only downside is you can't easily forward constructors in current C++, and are probably going to always use the default constructor for A2 and B2 just for simplicity.

In C++0x, however, you can forward constructors:

template<class Prev>
struct Version3 : Prev {
  using Prev::Prev;
  //...
};

struct C2 : C1 {
  C2(int);  // No default constructor.
};
struct C3 : Version3<C2> {
  C3() : Version3<C2>(42) {}
};

Please note that An must inherit directly from An-1, since An overrides specific methods of An-1.

You have misunderstood something. An does not need to inherit directly from An-1. For example, this works just fine:

struct Example {
  virtual void f();
};

template<class B>
struct Intermediate : B {};

struct Concrete : Intermediate<Example> {
  virtual void f();  // Overrides Example::f.
};

Remember that if this didn't work, then your An couldn't override SpecificPartOfFunctionality from your Base class in the first place! An doesn't directly inherit from Base in any of your examples.

share|improve this answer
    
The fact that An should derive directly from An-1 doesn't related to my question. An is a subtype of An-1 and as such An-1 defines some virtual functions overrided by An. –  dimba May 14 '11 at 22:17
1  
But then his above code still works. The directly is just the wrong term. An should derive from An-1 (not neccessarily directly). –  Christian Rau May 14 '11 at 22:45
    
@ChristianRau, yep, you're right –  dimba May 15 '11 at 4:04
    
It's mixin? If so, maybe it's worth to mention this in the answer. –  dimba May 15 '11 at 5:34

Define a friend function at global scope which implements the functionality, and have SpecificPartsOfFunctionality do nothing more than call it. E.g.

void FunctionalityN(Base* b)
{
    b->DoThings();
    ...
}

class An : public Base
{
    friend void FunctionalityN();
    virtual void SpecificPartOfFunctionality() { FunctionalityN(this); }
    ....
};

Strictly speaking FunctionalityN wouldn't even have to be a friend, though it would make things easier. This makes extending to Fn, Gn, etc. straightforward and subsequently replacing FunctionalityN with NewFunctionalityN pretty easy, too.

share|improve this answer
    
+1 @Matt. This is improved variation of solution 1, while it have one implementation for SpecificPartOfFunctionality() within An..En. –  dimba May 14 '11 at 21:29
    
@dimba Right. This doesn't completely eliminate code duplication, though it does minimize it, and so it might be an acceptable compromise since there is an inherent tension between generality (one method for all) and scalability (may be subsequently overridden), and the fact you can't change Base (I assume). I note that if you can declare SpecificPartOfFunctionality pure virtual in Base or elsewhere, then you avoid the problem of future developers forgetting to override it. –  Matt Phillips May 14 '11 at 21:41
    
No, that wouldn't avoid the problem of future developers forgetting to override it. Because 1) later versions, e.g. A9 where you first override SpecificPart in A3, must consider whether they need to override it, with no compile error if they don't, but 2) if it's pure virtual, then A1 and A2, which don't need SpecificPart, can't be instantiated! –  Fred Nurk May 14 '11 at 22:02
    
@Fred Re 1), I was thinking really of Fn, Gn, etc., indeed that's not going to help for An+1. Re 2), OP is able to modify A1, B1, etc. so he could define it in those classes too (vacuously). So you're certainly right that there's no gain w.r.t. the A1, 2, 3, hierarchy in making it virtual, rather a cost in added code. But if it's very important to make sure it gets defined in future F, G, etc. hierarchies, it might be worth it, for that. –  Matt Phillips May 14 '11 at 22:14

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