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What happens if a class has a "has-a" relationship with another class, and also it derives this same class?

class A
{
   friend classB;
   // here lots of things might be , but i just try to understand how should I think.
};

class B : public A
{
   // here again might be couple lines  of codes.

   protected:
      A d;
};

What is really going on here? How should I think about that?

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2  
What's your problem? My wife is-a mother and has-a mother. Is it hard to imagine? – Tadeusz Kopec May 7 '13 at 9:51
up vote 1 down vote accepted

Nothing particularly special with this. You have a member variable of class A called d, and your class B also contains everything that class A contains, and anything extra added to it.

I can't really see much useful from this at a glance, but I'm sure there are circumstances when it may come in handy - having a pointer to an A object would make more sense, in that it would make it a linked list (or similar).

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Why there is an friend classB; line in class A, I've already reach everything in A thanks to classB:public A. Am I wrong ? – L-caesar May 7 '13 at 9:54
    
Ok, so I didn't take that into account as "important" (your question wasn't clear in that respect). It allows B to access the content of d without going through accessor functions in A. Same as if you didn't have inheritance. – Mats Petersson May 7 '13 at 9:57
    
it refers to "friend classB;" ? – L-caesar May 7 '13 at 9:58
1  
@L-caesar friend classes can access private members while derived classes cannot, so no you haven't "reached" everything in A only with class B : public A. – zakinster May 7 '13 at 9:59
    
Yes, so B is a friend of A, which means that B can access all of "any" A object without the class A itself knowing about it. So if you have class B { void doSomething(A a) { int x = a.private_int; cout <<< x; }, this would work. – Mats Petersson May 7 '13 at 10:01

Consider:

struct Human {};

struct Superhuman : Human
{
    Human mentor;
};

Or perhaps a slightly less direct example:

struct Human
{
    virtual ~Human() {}
};

struct Girl : Human
{
    unique_ptr<Human> ptrToGirlfriendOrBoyfriend;
};

struct Boy : Human
{
    unique_ptr<Human> ptrToGirlfriendOrBoyfriend;
};

(Replace unique_ptr with shared_ptr as necessary…)

So there are times when composing the same type used for inheritance does make sense, though I'd suggest that it's fairly rare.

Lose the friend declaration, though, unless you really, really need it.

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I can't see why you would ever want to use 'friend' here. By stating in A that B is a friend class, you're saying that A trusts B to access its private members. However, B derives from A, so if you want to access members in A from B, but not allow anything else access, then those members just need to be 'protected', instead of 'private'.

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Like I said in my comment, the friend B declaration in A allows B to access, for example, private and protected fields of the d object inside B without need for A's accessor functions. – Mats Petersson May 7 '13 at 10:03
    
Ah, that makes sense. I answered before your comment and failed to notice the instance of A! I still can't think of a design where you'd actually want to do this though. – TheDarkKnight May 7 '13 at 10:24
    
No, I don't believe I've ever had to use this model either, but I'm sure there's some use for it in some bizarre part of the universe. – Mats Petersson May 7 '13 at 10:25
    
@Merlin069 maybe in real life there is no place for such an code but ,theorical you should know how piece of code like that act. – L-caesar May 7 '13 at 10:27
    
@L-caesar, I don't dispute that, but would be interested if anyone could provide such a case. – TheDarkKnight May 7 '13 at 10:44

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