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Let's say we have three class: A, B, C. Both A and B own a pointer to class C. It should never happens that two instance of class A share the same pointer to an object C, but, at the same time, object C is free to be pointed by an instance of class B.

Is there a way to implement this in c++(11)?

======EDIT======

Ok, so let's go more in details. When I create objects C I add their pointers into a container in object B. Objects A may own or not a pointer to C. The important is that no more than one A is pointing to the same C which may actually happen due to user's mistake. Once A is pointing to C a priori it should keep pointing that C for all it's life.

I would have gone for unique pointers, but I need copies of them into the container of B!

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closed as not a real question by BЈовић, Peter Wood, p.s.w.g, david99world, Jayamohan Mar 19 '13 at 11:12

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There are lots of different ways. Do the pointers change? Are they assigned at construction? Is a C created every time an A is created? What should happen when code tries to assign the same pointer to two As? –  Drew Dormann Mar 18 '13 at 15:16
    
Yes, but it's not trivial. –  metal Mar 18 '13 at 15:16
    
B could just use a normal pointer. This design is dubious though as it doesn't sound like unique ownership. –  Pubby Mar 18 '13 at 15:18
    
Does an A just own a pointer to a C, or is A the owner of a C and B is just referencing it? That is, is the lifetime of a C bound to the lifetime of an A? Btw, this doesn't sound like anything C++11 smart pointers are supposed to solve. –  Cubic Mar 18 '13 at 15:18
    
I think the best solution to this is for A to hold a unique_ptr to C, and B store a raw pointer to C. However then objects of type B don't "own" the C, so this may not be acceptable. –  bstamour Mar 18 '13 at 15:20

2 Answers 2

up vote 1 down vote accepted

It sounds like you want an exception to be thrown if the same pointer is assigned to more than one instance of A.

This solution can track used pointers to prevent reassignment. It is not thread safe...you will have to modify this to add synchronization if you need it.

class A
{
  // The pointers used by all instances of A
  static std::set<C*> used_ptrs;

  // The pointer used by this instance of A
  C* the_c;

  // Sets the pointer if it is valid
  void set_c( C* c )
  {
    if ( the_c )
      throw std::runtime_error( "C pointer is already set in this A" );

    if ( used_ptrs.count( c ) )
      throw std::runtime_error( "C pointer is already set in another A" );

    the_c = c;
    used_ptrs.insert( c );
  }

  // The pointer is presumed to be unassigned at construction
  A() : the_c(NULL) {}

  // The pointer is removed from the set at destruction
  ~A()
  {
    if( the_c );
      used_ptrs.erase( the_c );
  }

  // Copying A is invalid by your description
  A( const A& ) = delete;
  A& operator= ( const A& ) = delete;
}
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Nice and clean, congrats! –  DarioP Mar 19 '13 at 13:34

I think you need to do a bit of bookkeeping internally in your class, perhaps using a static unordered_map member. I have tested the below code to work:

using namespace std;

struct C;

struct A
{
  void SetPointerToC(C & aC)
  {
    if ( mAllC.find(&aC) != mAllC.end() )
      assert(false); // multiple instances of A should not point to the same C

    mAllC[&aC] = this;
    mC = &aC;
  }

  ~A()
  {
    mAllC.erase(mC);
  }

private:

  // A is not copyable as to prevent multiple A instances having 
  // mC with the same value
  A(const A &);
  A & operator=(const A &);

  static unordered_map<C*, A*> mAllC;
  C * mC;
};

unordered_map<C*, A*> A::mAllC;

struct C
{

};

int _tmain(int argc, _TCHAR* argv[])
{
  A a;    
  A a2;
  C c;
  a.SetPointerToC(c); // works
  a2.SetPointerToC(c); // assert!

  return 0;
}
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