I have a situation where I need to know when the user of a shared_ptr is done, that is, when the user has finally released all copies of it. Normally one just uses a deleter here, but there is a small catch in this case. The underlying object is already a shared_ptr!

That is, in pseudo-code:

shared_ptr<T> a( new T );
shared_ptr<T> b( a, bind( delete_func, id ) );

I'm spawning a new branch of sorts from the original shared_ptr. This new shared_ptr b may be copied and used like a normal shared_ptr but the delete_func must be called when this particular branch is done. Now, I can't just use a.get() here either since this new shared_ptr must retain the underlying object as well (it may be the last shared_ptr for it).

I'm looking for some way to do this without having to drastically change the framework. Does anybody see a good simple solution?

I'm using the boost library for smart pointers and bind.


I came up with one possible solution.

Create a deleter function like this:

void delete_func( int id, shared_ptr<T> underlying );

Then to chain the shared_ptr do this:

shared_ptr<T> b( a.get(), bind( &delete_func, id, a ) );

This creates a new unattached shared_ptr with a custom deleter (my branch). One of the parameters is the original shared_ptr, thus this should maintain the underlying shared_ptr object as well. Now I just need to test this a bit.

  • 1
    Wouldn't this call the deleter when the last copy of b goes out of scope. Copies of a may well be in scope at the time. - Why not just add a custom deleter to a when it is created in the first place?
    – visitor
    Oct 28 '11 at 9:42
  • @visitor, that is exactly what is desired. Essentially b is supposed to have its own lifetime, which when it ends unregisters itself via a deleter. Oct 28 '11 at 11:48

I don't quite understand why you want to have the two separate layers of shared_ptr, why not just provide the appropriate deleter that will notify you and then call checked_deleter on the pointer? That way you only need a single deleter and you are back at the simple problem of providing one deleter to shared_ptr.

  • Consider that a is part of some internal module. A function is called and needs access to a as well, but the system has to know when this external caller is done using it. Thus it can't return a directly since it would never know then, so in some way it must hook into the lifetime of this new copy of the variable. Oct 28 '11 at 11:51

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