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I have an Object A that contains a shared resource (shared_ptr) r, A is the creator/owner of r upon construction the object "registers" its r with another object B. Object B holds a reference to A's r in a std::set. Object A is used as a Boost::asio::handler.

I need to unregister r from B when A is being destructed, and when A holds unique access to r, as A is r's creator it is responsible for destroying it. Note: A is copy constructed multiple times when it is used as an boost::asio handler. Holding unque acces here means that no asio operations are taking place (because if they were the reference count would be > 2, as copies were made of A).

At the moment unique access is testible by r.use_count() == 2 since A and B both have access to the object when no asynchronous operations are taking place. However, I do not find this test logically sensible.

I think I should change B's container from std::set<boost::shared_ptr<r> > to std:set<boost::weak_ptr<r> > so that r.unique() is logically true when no asynchronous operations are taking place. Is this a sensible use of a weak_ptr ?

The constructor and destructor of A (in_process_invoker) and the register(connect) and unregister(disconect) events look as follows in my code:

in_process_invoker(BackEnd & b_in)
  : client_data(new ClientData()),
    b(b_in),               
    notification_object(new notification_object_()) 
{
  b.connect(client_data);  
} 

~in_process_invoker()      
{
  if(client_data.unique()) 
  {
    b.disconect(client_data);       
  }

}

EDIT

I changed my design to use raw pointers, the default constructor marks the invoker as the primary invoker and copies of it as not-primary. When the primary is destroyed it frees up the memory.

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You should make it an answer, both comments are viable answers :D – Hassan Syed Aug 10 '11 at 14:08
    
OK, I wasn't sure how applicable my comments are to your setup, but I'll try to cover all options in an answer... – Steve Jessop Aug 10 '11 at 14:33

If you know for sure that the reference held by B will still be there when A performs the test of reference count, then why use any kind of smart pointer in B, why not a raw pointer? And if you don't know that B will still hold a reference then the current == 2 test isn't just non-sensible, it's incorrect.

The only advantage I see of a weak_ptr over a raw pointer is that if you change things in future so that A doesn't unregister with B, hence the reference might dangle, then a weak_ptr becomes useful to tell B what's happened. That might not even be possible depending how B uses r: if the design relies heavily on the fact that the reference is always valid then there's no point half-assing an attempt to cover the case that it isn't.

You could stick with shared_ptr everywhere, though, if A holds the reference to r via a shared_ptr to a proxy object, while B holds the reference with a shared_ptr directly to r. Then make it the responsibility of the proxy object to unregister from B. That way, the last copy of A to be destroyed will destroy the proxy, and the proxy will unregister with B and then destroy r. No need for anyone to check use_count.

A similar option is for B to hold a raw pointer, and have r unregister itself with B in its destructor. It might be harder to make that thread-safe, I'm not sure.

Ideally you'd use the "right" pointer type for the ownership semantics. If B co-owns r, then it should have a shared_ptr, so that r can safely outlive A. If B doesn't own r then use a weak_ptr if r might not be unregistered from B prior to destruction (and make sure B does the right thing when the weak_ptr has expired), or a raw pointer if B has a guarantee from someone else to ensure the validity of the pointer.

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It is not safe to mix smart and raw pointers. The whole point of using smart pointers is to have a way to manage object deallocation, and raw pointers undermine that, since there is no way to know whether a non-NULL raw pointer is valid or not.

Your solution using weak pointers seems sound to me --- it clearly distinguishes owning from non-owning references. I have made extensive use of this approach, where some object A is owned by one other object B, which holds it through a long-lived shared pointer, and the same object A is also referenced from any number of other objects C-Z through weak pointers. See my answer to a related question: shared_ptr: what's it used for

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1  
"It is not safe to mix smart and raw pointers." It is unsafe to use pointers, to use delete, to use arithmetic (overflow has UB), it is unsafe to program in C++ in general. Java is unsafe in other ways (notably data races can give surprising results, even Sun has had bugs with data races in Java). You might want to avoid programming in general, as it is unsafe. – curiousguy Oct 14 '11 at 3:10

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