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I want a pointer where I can tell when the reference count is one. Essentially the pointer works like a weak_ptr, but the cleanup needs to be manual. That is, every so often the program goes through a loop of its pointers and checks which ones have only one reference remaining. Some it will clean, others it will retain a while longer (in case somebody needs it again).

Now, I know how to do this using a combination of a custom cleanup function and weak_ptr. I just think the same thing could be accomplished, with simpler code, if I could simply figure out when only one user of the shared_ptr remains.

I know that shared_ptr has a use_count function, but it has this ominous note in the docs: "...not necessarily efficient. Use only for debugging and testing purposes..." Naturally I'm not so keen on using something with such a warning. I don't really need the count anyway, just a way to detect when there is only one left.

Is there some boost wrapper that achieves what I want (can be in any library)? Or must I use the technique I already know of custom cleanup function combined with a weak_ptr?

share|improve this question
What's magic about a reference count of one? Why would you potentially want to "clean up" an object when potentially one client is still holding on to it, isn't that going to cause problems for the client? – Charles Bailey Sep 25 '11 at 7:09
Sounds like you're doing some sort of cache manager...? – bdonlan Sep 25 '11 at 7:12
@CharlesBailey, as bdonlan says, it is a kind of a cache manager. The significance of 1 remaining is that the only copy remaining is the one in the cache itself. – edA-qa mort-ora-y Sep 25 '11 at 7:24
Then is it not possible for the cache to hold weak_ptrs instead? – Luc Danton Sep 25 '11 at 7:44
@edA-qamort-ora-y: If the one remaining reference is to the cash itself then I think that this may be your design issue. You could (should?) use shared_ptr to record only external references to the object and hold on to a raw pointer or weak_ptr in the cache itself, then use a custom deleter to either pass the pointer back to the cache or merely to signal to the cache that the object no longer has external references rather than actually deleting the object. – Charles Bailey Sep 25 '11 at 7:51
up vote 2 down vote accepted

You cannot in general accurately determine the number of references. But you can tell when it is exactly one - use unique().

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Well, let's hope this is faster than use_count. I didn't notice this function, although it is right beside it in the docs. Thanks. – edA-qa mort-ora-y Sep 26 '11 at 8:40

Destructively transform your shared_ptrs into weak_ptrs and then to shared_ptrs back again, except that some of those will be null. Of course there's no telling how that fares for performance, but given the interface we have it's either that or use_count.

Could look like:

std::for_each(begin, end, [](element_type& pointer)
    std::weak_ptr<element_type::element_type> weak = element_type(std::move(pointer));
    pointer = weak.lock();
auto predicate = [](element_type& pointer) { return !pointer; };
container.erase(std::remove_if(begin, end, predicate), end);
share|improve this answer

When you're doing something complex that can't quite be represented with the normal shared_ptr system, you might want to consider using intrusive_ptr instead - your implementation of intrusive_ptr_release can then queue objects up for later destruction instead of deleting them immediately. Note that intrusive_ptr can't be directly used with weak_ptr, although you can construct your own variant of weak_ptr if you prefer. Keep in mind, though, that if you are using multiple threads the reference counting may get a bit tricky.

If you can't use an intrusive pointer, and it's acceptable to invalidate existing weak_ptrs when the last shared_ptr is lost, you can have the destructor for the shared_ptr put the raw pointer back into your cache (or whatever) marked for eventual cleanup. You can rewrap it in a shared_ptr the next time it is retrieved. However, again, this has the downside of losing all weak_ptrs to the object at the moment of pseudo-destruction.

If you can't use an intrusive pointer, you may be best off simply designing your own smart pointer implementation. Unfortunately, shared_ptr does not have the kind of hooks needed to implement your goals efficiently, so you may be working from scratch.

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I don't think the intrusive pointer will work for me. The issue is that intrusive_ptr_add_ref is a free function, meaning essentially that each pointer of type belongs to the same global set. In my case it doesn't, and I think working around this would be as much work as a custom destructor, but less clean. – edA-qa mort-ora-y Sep 25 '11 at 7:29
@edA-qamort-ora-y, added some other suggestions – bdonlan Sep 25 '11 at 7:47
Yes, that's coming back to the method I know, of combining custom delete functions and weak_ptrs. I was just hoping for some other easier implementation of this pattern -- I know it isn't hard though. – edA-qa mort-ora-y Sep 25 '11 at 8:24

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