5

In one episode (35:00) of Advanced STL series, Stephan T Lavavej showed that _Weaks, the counter whose value of 0 determines when to delete the _Ref_count structure, equals the number of alive weak_ptr, plus 1 if there are alive shared_ptrs. He explained that it is necessary because of thread safety: if _Weaks only equaled the number of weak_ptr then when last weak_ptr would go out of scope it would be also necessary to check _Uses, the counter of alive shared_ptrs, to check if _Ref_count can be deleted. And this is unacceptable because of lack of atomicity.

Assuming that _Uses = number of alive shared_ptrs, _Weaks = number of alive weak_ptrs, imagine we have the following scenario:

  • (_Uses = 0, _Weaks = 1): last weak_ptr goes out of scope, decrement _Weaks

  • (_Uses = 0, _Weaks = 0): if _Uses is equal to 0, delete _Ref_count structure

What, in multithreaded application, can go wrong, which forces us to use _Weak = number of alive weak_ptr + (number of shared_ptr ? 1 : 0) implementation?

4

Imagine the following scenario. Thread A holds a shared_ptr, thread B holds a corresponding weak_ptr. So in your implementation, we have _Uses == 1 and _Weaks == 1.

There are two possible implementations for the smart pointer destructors, both with problems.

Implementation 1: decrement, then check

B's weak_ptr is destroyed. Decrements _Weaks. We have _Uses == 1, _Weaks == 0. B prepares to check _Uses, but ...

Context switch.

A's shared_ptr is destroyed. Decrements _Uses. We have _Uses == 0, _Weaks == 0. Begin destruction of _Ref_count.

Context switch.

B now get round to checking _Uses. It's 0. Begin destruction of _Ref_count.

Both threads are now in the process of destroying _Ref_count. Not good.

Implementation 2: check, then decrement

B's weak_ptr is destroyed. Check _Uses. It's 1, no destruction will happen. B prepares to decrement _Weaks, but ...

Contex switch.

A's shared_ptr is destroyed. Checks _Weaks. It's 1, no destruction will happen. Decrement _Uses. We have _Uses == 0, _Weaks == 1. Done.

Context switch.

B now gets round to decrement _Weaks. We have _Uses == 0, _Weaks == 0. Nothing else to do.

We have leaked the _Ref_count. Not good.

  • 1
    Ok, I see now. It is resolved by delegating of removing _Ref_count only to scenario when _Weaks == 1 -> 0. – user2551229 Apr 8 '17 at 17:02
  • 1
    @user2551229 Yes. The point is that you only have one variable controlling the lifetime, not two. – Angew Apr 8 '17 at 17:05
  • " B now gets round to decrement _Weaks. We have _Uses == 0, _Weaks == 0. Nothing else to do". -> it should be " _Uses == 1, _Weaks == 0". – city Mar 23 at 4:02
  • @Angew Using _Weak = number of alive weak_ptr + (number of shared_ptr ? 1 : 0) could make Implementation 1: decrement, then check work, but couldn't make Implementation 2 work, right? – city Mar 23 at 4:18

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