I'm trying to understand the unique_ptr, shared_ptr, and weak_ptr that came in with c++11.

I've heard that weak_ptr's would be nice for things like caching, and breaking cycles, and so on. I've heard that they work well with shared_ptrs.

But in this regard, what's the difference between shared_ptrs and unique_ptrs? Why does weak_ptr only get to be used with one and not the other? Why wouldn't I want to have a weak reference to something owned by someone else?


A weak_ptr is technically a means to hang on to the reference counter of a set of shared_ptrs that manage some shared object. When the last shared_ptr is destroyed the object is destroyed, but its reference counter lives on as long as there are weak_ptrs to it. Thus via any still exising weak_ptr you can check whether the object still exists, or has been destroyed.

If it still exists then from the weak_ptr you can obtain a shared_ptr that lets you reference the object.

The main usage of this is to break cycles.

In particular, an object can contain a weak_ptr holding on to its own reference counter, which allows you to obtain a shared_ptr to the object from the object itself. That is, a shared_ptr that uses the same reference counter as other shared_ptrs to this object. Which is how enable_shared_from_this works.

unique_ptr doesn't have any reference counter, so it doesn't make sense to hang on to that non-existent reference counter.

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    "The main usage of this is to break cycles." I disagree with this. The main use of weak_ptr is to access an object that you don't need to own, but might be deleted when you're not looking at it. There's a notion that the object may or may not still exist, that you have to check. – Nicol Bolas Mar 17 '13 at 6:25
  • Thanks, I never really understood what the point of a weak pointer was, this made it clearer. – Matt Phillips Mar 17 '13 at 6:35

The major point of a weak pointer is that you can try to make the pointer strong, that is owning:

auto strongPtr = weakPtr.lock();

if (strongPtr)
    // still existed, now have another reference to the resource
    // didn't still exist

Note the first path: making a weak pointer stronger requires we take ownership of the object.

This is why it doesn't make sense with unique_ptr: the only way to make the weak pointer strong is to take the resource from somewhere else, and for unique_ptr that would mean leaving that somewhere else with an unexpected null pointer. shared_ptr gets a pass because taking it really means sharing it.

  • Can't someone use a pointer without owning it? Why can't someone have a unique_ptr to something to say that they own it, and then give others somekindof_ptr's that will assert that it still exists? It seems like a common use case, and so I assumed unique_ptr would handle it, but why doesn't it? – Verdagon Mar 17 '13 at 6:10
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    @Verdagon: We already have a non-owning kind of pointer. It's called a pointer. We don't need a special type or syntax for it; it's built into the language. Smart pointers are all about ownership relationships. So if you don't want someone to own the pointer, pass a pointer. – Nicol Bolas Mar 17 '13 at 6:23
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    oh! i thought the new types of pointers would almost completely make obsolete regular pointers. its interesting to see that they fit into the new scheme! – Verdagon Mar 17 '13 at 6:26
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    @Verdagon: For what it's worth, the closest in between idea I can think would be sensible is some sort of "watched" pointer, which is a pointer that has a single unique owner (like unique_ptr) but also has "watched" references (like weak_ptr) that can tell if the uniquely owned resource is still around. But without a way of actually getting to that resource, I can't see the use. – GManNickG Mar 17 '13 at 7:21
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    @Verdagon: That would work, but I wouldn't create it or recommend it because it would be woefully easy to make mistakes. Imagine you call get(), get a non-null pointer, but by some side effect on your next line that original unique_ptr releases its resource. Now your pointer is bad. Sounds like it could be easy to avoid but it requires some very careful walking! You'd effectively have to make sure every operation operates directly on get() and doesn't store it, but that's impossible to enforce and still not even safe. Much simpler to simply use shared_ptr/weak_ptr. – GManNickG Mar 17 '13 at 8:05

I'm new to C++11 as well, so if someone knows better I would appreciate any corrections.

I think that there wouldn't be much of a reason to, otherwise, you'd use a shared_ptr since it would defeat the whole purpose of a unique_ptr. A unique_ptr has implied semantics that it has complete control over the object to which it points.

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