From C++ Concurrency in Action:

difference between std::atomic and std::atomic_flag is that std::atomic may not be lock-free; the implementation may have to acquire a mutex internally in order to ensure the atomicity of the operations

I wonder why. If atomic_flag is guaranteed to be lock-free, why isn't it guaranteed for atomic<bool> as well? Is this because of the member function compare_exchange_weak? I know that some machines lack a single compare-and-exchange instruction, is that the reason?

  • 2
    Because std::atomic<T> has a type argument, std::atomic_flag does not. Whether T updates are atomic depends on the processor architecture. The library writer can pick any suitable type for atomic_flag. – Hans Passant May 15 '15 at 10:07
  • Okay. However my question is rather about this essential difference between std::atomic<bool> and std::atomic_flag – Gabor Marton May 15 '15 at 10:12
  • I think no difference – t3ft3l--i May 15 '15 at 10:16

First of all, you are perfectly allowed to have something like std::atomic<very_nontrivial_large_structure>, so std::atomic as such cannot generally be guaranteed to be lock-free (although most specializations for trivial types like bool or int probably could, on most systems). But that is somewhat unrelated.

The exact reasoning why atomic_flag and nothing else must be lock-free is given in the Note in N2427/29.3:

Hence the operations must be address-free. No other type requires lock-free operations, and hence the atomic_flag type is the minimum hardware-implemented type needed to conform to this standard. The remaining types can be emulated with atomic_flag, though with less than ideal properties.

In other words, it's the minimum thing that must be guaranteed on every platform, so it's possible to implement the standard correctly.


The standard does not garantee atomic objects are lock-free. On a platform that doesn't provide lock-free atomic operations for a type T, std::atomic<T> objects may be implemented using a mutex, which wouldn't be lock-free. In that case, any containers using these objects in their implementation would not be lock-free either.

The standard provide an opportunity to check if an std::atomic<T> variable is lock-free: you can use var.is_lock_free() or atomic_is_lock_free(&var). For basic types such as int, there is also macros provided (e.g. ATOMIC_INT_LOCK_FREE) which specify if lock-free atomic access to that type is available.

std::atomic_flag is an atomic boolean type. Almost always for boolean type it's not needed to use mutex or another way for synchronization.

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