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I got these virtual classes from a library that implement an algorithm in the form of abstract classes

class A{
    public : 
    virtual void foo() = 0 ;

class B{
        void setA(A * a) { m_a = a ;}

        virtual void f() = 0;
        void g() {m_a->foo();}
        A * m_a ;

To use the library you just have to derive the classes and implement the pure virtual functions, like foo(), and provide other methods specific to the implementation as well (bar()).

class dA : public A {
    public :
         void foo() {/* ... */}
         void bar() {/* ... */}

class dB : public B {
     public :
          void f() ;

I would typically use these class by calling

dB * mydB = new dB() ;
mydB->setA(new dA() );
mydB->f() ;
mydB->g() ;

But I have a design problem when implementing dB::f(), because I need to call dA::bar() which is specific to dB. But in the class, I only keep a reference to dB trough a B*. Then I have thought of two options :

  • use a dynamic_cast each time f()is called to cast B::m_a into a dB*
  • add a m_dA member to dB which stores the same pointer as m_a, but can be used to access dB specific functions.

Of course I can't change the the base classes.

I would like to know if there is a more elegant solution to this problem (like a design pattern I did not thought of). If not, which one should I choose ?

share|improve this question
If bar() gets called a lot I'd just go with the second option you've listed. – Praetorian Jul 26 '11 at 16:22
The Visitor Pattern (en.wikipedia.org/wiki/Visitor_pattern) may be of use to you. It's hard to give concrete recommendations with such an abstract description of your problem. – Emile Cormier Jul 26 '11 at 16:30
Public inheritance might not be the right solution here in the first place... dB places restrictions on its use that do not exist in B, so an instance of dB can not be safely treated as a B. – Dennis Zickefoose Jul 26 '11 at 17:32
@Dennis : would that be a case where private inheritance can be used ? – Louen Jul 27 '11 at 7:58
up vote 2 down vote accepted

You've a third solution. Add a function setA() in the dB. Of course, this function will hide B::setA() which is good for you if dB::setA() is implemeted as:

class dB : public B 
     dA *m_dA ; //add this member also!
     public :
          void f()
             m_dA->bar(); //fast forward : no cast here!
          void setA(A *a) //this hides B::setA()
             m_dA= dynamic_cast<dA*>(a); //just one time dynamic cast!
             if ( m_dA == 0 )
                 throw std::runtime_error("invalid argument");
             B::setA(a); //now call the hidden function in the base!

In this way, you don't need to dynamic_cast each time you call dB::f(), which makes the call fast!

share|improve this answer
But if you have a B* b = new dB; and call b->setA(new dA);, the wrong function will be called, and db::m_dA will not be updated properly. – Dennis Zickefoose Jul 26 '11 at 17:26
@Dennis: In that case, you've to call the function as dynamic_cast<dB*>(b)->setA(new dA); – Nawaz Jul 26 '11 at 17:35
@Dennis: Yeah I realized that, and so edited my comment.Read it again. – Nawaz Jul 26 '11 at 17:37

dB as a concrete class should not call methods on dA an unrelated concrete class. Even with reinterpret_cast this is bad design which couples the unrelated objects uneccessarily. The common functionality should be put in a common base class or interface.

For example class A can be considered an interface as it has nothing but pure virtual methods. Therefore it would be safe to use multiple inheritance if you wanted that interface on dB as well. You of course would then have to implement your own foo in that case.

class dB : public B, public A {
     public :
          void f();
          void foo();

If bar() is the one you want and for some reason you can change the interface A then make your own interface which provides a pure virtual function bar() and then make both dA and dB inherit from your new interface and implement bar() accordingly and use interface pointers to that.

If you must use one in terms of the other then composition is the way to go but not of the ambiguous base pointer which may fail a dynamic cast. Make a concrete dA member within dB perhaps.

share|improve this answer

Your dB can only work if the A it has is actually a dA. You need to make sure that this is always the case.

Hence over-ride the setA method to use a dynamic_cast to check that it really is a dA. Now whether you then at that point save the result in m_dA or dynamic cast again later is unimportant. There's less possibility of having an incorrectly initialised dB, whose dynamic cast may fail later.

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