The x86 architecture supports additional memory ordering flags to mark critical sections for hardware lock elision. These must be specified in addition to an existing memory order to atomic intrinsics.
__ATOMIC_HLE_ACQUIREStart lock elision on a lock variable. Memory order must be __ATOMIC_ACQUIRE or stronger.
__ATOMIC_HLE_RELEASEEnd lock elision on a lock variable. Memory order must be __ATOMIC_RELEASE or stronger.
When a lock acquire fails, it is required for good performance to abort the transaction quickly. This can be done with a _mm_pause.
#include <immintrin.h> // For _mm_pause
int lockvar;
/* Acquire lock with lock elision */
while (__atomic_exchange_n(&lockvar, 1, __ATOMIC_ACQUIRE|__ATOMIC_HLE_ACQUIRE))
_mm_pause(); /* Abort failed transaction */
...
/* Free lock with lock elision */
__atomic_store_n(&lockvar, 0, __ATOMIC_RELEASE|__ATOMIC_HLE_RELEASE);
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https://gcc.gnu.org/onlinedocs/gcc-9.2.0/gcc/x86-specific-memory-model-extensions-for-transactional-memory.html