4

Looking at std::atomic and it's default specializations I read:

These specializations have standard layout, trivial default constructors, and trivial destructors.

I also read for is_lock_free:

All atomic types except for std::atomic_flag may be implemented using mutexes or other locking operations, rather than using the lock-free atomic CPU instructions. Atomic types are also allowed to be sometimes lock-free, e.g. if only aligned memory accesses are naturally atomic on a given architecture, misaligned objects of the same type have to use locks.

Now here's the catch that I don't get:

How can any atomic type where the Standard prescribes trivial ctor/dtor ever be using any kind of mutex -- all mutexes I ever came across required non-trivial initialization.

This leads to the following questions:

  • Do major platforms provide any locking operation (like a mutex) that is "initalization free" per object. (That would be the "other locking operations".)
  • Is there any known implementation today for default std::atomic specializations that isn't lock free (and still fulfills the trivial ctor/dtor requirement)?
  • Am I simply confusing something here? :-)

It seems to me that even the simplest spin lock (see atomic_flag) needs non-trivial initialization, so I fail to see how this could be implemented.

Disclaimer: Purely out of academic interest, as this kinda jumped out on me while reading these docs.

4

Here is a possible solution: if an atomic operation uses a lock but has a trivial constructor and destructor, the mutex may be a global mutex shared between many atomic values.

This, I believe, is the case that the standard authors were allowing. It is possible to use trivial constructors and destructors for mutexes with static duration on some common platforms (such as POSIX).

// This is copied plain C here, not C++
// So nothing fancy
#include <pthread.h>
pthread_mutex_t my_mutex = PTHREAD_MUTEX_INITIALIZER;

If the std::atomic default constructors were permitted to be non-trivial, then it would be difficult to use them during initialization.

std::atomic<int> my_flag;

Because my_flaghas a trivial constructor, it is static-initialized. Static initialization happens before dynamic initialization. So you can be sure that all the global std::atomic variables are initialized before your constructors run.

  • Ha! Yes, it seems this would fulfill the standard requirements. Seems kinda insane for most real world use cases though! – Martin Ba Dec 23 '16 at 22:17
  • Yes, it seems insane. But people want to write C++ code that runs on insane architectures, and the standards authors oblige. – Dietrich Epp Dec 23 '16 at 22:18
  • Wrt. your edit: The code isn't trivial initalization, since it sets the (static) object to a value. (?) Of course, any object using this wouldn't need to do anything so could have a trivial ctor. – Martin Ba Dec 23 '16 at 22:21
  • What I find rather odd is to allow locking implementations (OK, so what) but require trivial construction/destruction. For an architecture where I'd need a mutex to implement std::atomic_int it would still seem better to me to have this type to have non-trivial initialization (because it has to carry a mutex) that to have all atomic_int objects share the same mutex. I guess it's a design question, so whatever. – Martin Ba Dec 23 '16 at 22:25
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    @MartinBa: Using a nontrivial constructor would mean that the initialization of any top-level static atomic variables would be "indeterminately sequenced" and that would be especially problematic for code that needs atomic synchronization during initialization. This is a fairly common situation, so it makes sense that the standard committee would require a trivial constructor/destructor, especially since common platforms would have a trivial constructor/destructor anyway. – Dietrich Epp Dec 23 '16 at 23:30

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