According to the first answer in this article: Explicitly deleting a shared_ptr

Is it possible to force delete a std::shared_ptr and the object it manages like below code?

do {
} while (!ptr.unique());

ptr.reset();  // To eliminate the last reference

Technically, this should try calling std::shared_ptr::reset if the pointer has more than 1 reference count, unless it reaches to one. Any thoughts on this?

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    std::weak_ptr ? – KIIV Jan 25 at 19:54
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    This is definitely an XY problem. What exactly are you trying to do that you think that you need to do this? – Nicol Bolas Jan 25 at 19:58
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    the "shared" in shared_ptrrefers to "shared ownership" not "shared resource". Your ownership isnt really shared but there is a single owner and others only hold pointers (aka weak_ptr). – user463035818 Jan 25 at 20:16
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    @RezaHajianpour: Then your code is incoherent. You say that this "engine" should be solely responsible for destroying the object, but this get_model function explicitly shares that responsibility with others. You cannot have it both ways. Repair the contradiction in your code, and it should be fine. – Nicol Bolas Jan 25 at 20:21
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    @RezaHajianpour why not use std::unique_ptr inside the engine to maintain exclusive ownership of the Model object, and then have get_model() return a raw Model* pointer that does not transfer/share ownership? – Remy Lebeau Jan 25 at 20:41

This code doesn't make any sense.

Once you reset ptr, it doesn't manage an object anymore. If ptr was the only shared_ptr sharing ownership, then you're done. If it wasn't... well, you don't have access to all those other ones. Calling reset() on a disengaged shared_ptr is effectively a noop - there's nothing more to reset.

Imagine a simple scenario:

std::shared_ptr<int> a = std::make_shared<int>(42);
std::shared_ptr<int> b = a; // a and b are sharing ownership of an int

do {
} while (!a.unique());

The only way to reset b is to reset b - this code will reset a only, it cannot possibly reach b.

Also note that unique() was deprecated in C++17 and is removed entirely in C++20. But if even if you use use_count() instead, once you do a.reset(), a.use_count() will be equal to 0 because a no longer points to an object.

  • Thank you. Is the reference count saved statically in the memory then? – Reza Hajianpour Jan 25 at 20:12
  • @RezaHajianpour What do you mean by "saved statically"? The reference count is in memory. – Barry Jan 25 at 20:16
  • I mean it's not part of the object instance of std::shared_ptr? Where is it exactly saved? – Reza Hajianpour Jan 25 at 20:18
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    @RezaHajianpour Each object managed by shared_ptrs also has a seperate control block allocated for it that each shared_ptr and weak_ptr for that object refer to. It contains the counters. – François Andrieux Jan 25 at 20:23
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    @RezaHajianpour It cannot be part of the object instance. Think about how that would work - When I create a b above, a's destruction can't free the object. – Barry Jan 25 at 20:24

No this is not possible (or desirable). The point of a shared pointer is that if you have one you can guarantee the object it points to (if any) will not disappear from under you until (at least) you have finished with it.

Calling ptr.reset() will only reduce the reference count by 1 - being your shared pointer's reference. It will never affect other references from other shared pointers that are sharing your object.

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