2

I quite often confront myself to this problem. Let's say I have these classes:

class B
{
  public:
    virtual std::string className(){return "B";}
};

class A
{
  public:
    A()
    : _B(new B)
    {}

    virtual std::string className(){return "A";}

    virtual void desc()
    {
      std::cout << "I am " << className() << 
        " and I own: " << _B->className() << std::endl;
    }

  protected:
    B * _B;
};

Then, I want to extend A and B with new information. I am sure that SuperA and SuperB have a "is-a" relationship with A and B, respectively. The straightforward way would be to do try inheritance:

class SuperB: public B
{
  public:
    virtual std::string className(){return "SuperB";}
}

class SuperA: public A
{
  public:
    SuperA()
    : A()
    , _superB(new SuperB)
    {}

    virtual std::string className(){return "SuperA";}

    virtual void desc()
    {
      std::cout << "I am " << className() << 
        " and I own: " << _superB->className() << std::endl;
    }
  protected:
    SuperB * _superB;
};

But this is obviously not good, since SuperA would have actually two Bs: the one from the A class, and the other from its SuperB class. And the override of desc is not so elegant.

I can see that I could have setters and getters on B* in A and override them in SuperA to use a SuperB instead of a B, and never refer to to B* directly and always use the getter, but this seems a bit intrusive for A.

Trying to compose, i.e. having SuperA owning an A* instance does not look better either.

And it gets even harder if A owns not a single B* but a say std::vector<B*>.

Is this a common problem? Is there an elegant solution that I don't see for it?

6
  • Why can't you have a protected c'tor in A that accepts a B pointer? Then use it to construct the A sub-object of superA with a superB? Dec 30, 2014 at 16:41
  • You could use static_cast or dynamic_cast wherever you use _superB in SuperA. Not elegant, but maybe enough for your purposes?
    – anatolyg
    Dec 30, 2014 at 16:43
  • @StoryTeller This is a solution. This is a bit intrusive for A though.
    – RedWark
    Dec 30, 2014 at 16:49
  • I think one way to formulate the problem is that classes A and SuperA have two responsibilities: They adapt a B or SuperB respectively to some other interface, and they manage the lifetime of a B or SuperB object. You could split those responsibilities by only providing the converting ctor A(B*) etc., then another type that manages the lifetime of those objects.
    – dyp
    Dec 30, 2014 at 16:50
  • @RedWark, that may be, but IMHO it's no more intrusive than having a protected memeber to begin with. Dec 30, 2014 at 16:50

1 Answer 1

5

You could just have A have a protected constructor that takes a B*:

class A {
public:
    A()
    : _B(new B)
    { }

protected:
    A(B* b)
    : _B(b)
    { }
};

So that:

class SuperA : public A {
public:
    SuperA()
    : A(new SuperB)
    { }
};
1
  • I did not think of that. This solution is actually not that intrusive and supports the vector that I evoked in the latter part of my question! Thanks!
    – RedWark
    Dec 30, 2014 at 17:00

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