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c++ - std::atomic | compare_exchange_weak vs. compare_exchange_strong

I'm unsure if it's me not understanding or the documentation isn't clearly formulated.

The following excerpt has been taken from the newest draft (N3126, section 29.6):

bool atomic_compare_exchange_weak(volatile A* object, C * expected, C desired);
bool atomic_compare_exchange_weak(A* object, C * expected, C desired);
bool atomic_compare_exchange_strong(volatile A* object, C * expected, C desired);
bool atomic_compare_exchange_strong(A* object, C * expected, C desired);
bool atomic_compare_exchange_weak_explicit(volatile A* object, C * expected, C desired, memory_order success, memory_order failure);
bool atomic_compare_exchange_weak_explicit(A* object, C * expected, C desired, memory_order success, memory_order failure);
bool atomic_compare_exchange_strong_explicit(volatile A* object, C * expected, C desired, memory_order success, memory_order failure);
bool atomic_compare_exchange_strong_explicit(A* object, C * expected, C desired, memory_order success, memory_order failure);
bool A::compare_exchange_weak(C & expected, C desired, memory_order success, memory_order failure) volatile;
bool A::compare_exchange_weak(C & expected, C desired, memory_order success, memory_order failure);
bool A::compare_exchange_strong(C & expected, C desired, memory_order success, memory_order failure) volatile;
bool A::compare_exchange_strong(C & expected, C desired, memory_order success, memory_order failure);
bool A::compare_exchange_weak(C & expected, C desired, memory_order order = memory_order_seq_cst) volatile;
bool A::compare_exchange_weak(C & expected, C desired, memory_order order = memory_order_seq_cst);
bool A::compare_exchange_strong(C & expected, C desired, memory_order order = memory_order_seq_cst) volatile;
bool A::compare_exchange_strong(C & expected, C desired, memory_order order = memory_order_seq_cst);

Remark: The weak compare-and-exchange operations may fail spuriously, that is, return false while leaving the contents of memory pointed to by expected before the operation is the same that same as that of the object and the same as that of expected after the operation. [ Note: This spurious failure enables implementation of compare-and-exchange on a broader class of machines, e.g., loadlocked store-conditional machines. A consequence of spurious failure is that nearly all uses of weak compare-and-exchange will be in a loop.

So, what does this mean?

Firstly, it 'may' fail spuriously?! Why would it fail? And how do they define 'may'?

Secondly, I still have no idea what's the difference between the functions with "_strong" and "_weak" suffix. Could someone explain the difference?

EDIT: That's what I've found in libstdc++-implementation (atomic_0.h):

bool compare_exchange_weak(
    __integral_type& __i1,
    __integral_type __i2,
    memory_order __m1,
    memory_order __m2
)
{
    __glibcxx_assert(__m2 != memory_order_release);
    __glibcxx_assert(__m2 != memory_order_acq_rel);
    __glibcxx_assert(__m2 <= __m1);
    return _ATOMIC_CMPEXCHNG_(this, &__i1, __i2, __m1);
}

bool compare_exchange_strong(
    __integral_type& __i1,
    __integral_type __i2,
    memory_order __m1,
    memory_order __m2
)
{
    __glibcxx_assert(__m2 != memory_order_release);
    __glibcxx_assert(__m2 != memory_order_acq_rel);
    __glibcxx_assert(__m2 <= __m1);
    return _ATOMIC_CMPEXCHNG_(this, &__i1, __i2, __m1);
}
question from:https://stackoverflow.com/questions/4944771/stdatomic-compare-exchange-weak-vs-compare-exchange-strong

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It has to do with the shared memory consistency model that the hardware implements. For those hardware architectures that implement some kind of relaxed consistency model (e.g. release semantics), the strong operations you refer to above can have a high overhead, and thus experts can use the weaker forms to implement algorithms that perform well also on those relaxed consistency architectures.

For more info, see e.g.

http://www.hpl.hp.com/techreports/Compaq-DEC/WRL-95-7.pdf

Chapter 12 and Appendix C in http://kernel.org/pub/linux/kernel/people/paulmck/perfbook/perfbook.html


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