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I implemented simple lock pattern based on TATAS-lock extended by signed counter. It's looks like RWLock, but it's not TRUE RWLock. Writers do not block each other, but block readers. Same for readers. Writers and readers have the same priorities. (I do not know the name of this pattern.) I used new built-ins __atomic, which implemented in gcc-4.7 or clang. 6.52 Built-in functions for memory model aware atomic operations

 void lock1(int *lock_ptr) {
        int lock;
        do {
            lock = *lock_ptr;
            if(lock > 0)
                continue;
        } while(false == __atomic_compare_exchange_n(lock_ptr, &lock, lock - 1, false, __ATOMIC_ACQ_REL, __ATOMIC_RELAXED));
    }

    void unlock1(int *lock_ptr) {
        __atomic_add_fetch (lock_ptr, 1, __ATOMIC_ACQ_REL);
    }

    void lock2(int *lock_ptr) {
        int lock;
        do {
            lock = *lock_ptr;
            if(lock < 0)
                continue;
        } while(false == __atomic_compare_exchange_n(lock_ptr, &lock, lock + 1, false, __ATOMIC_ACQ_REL, __ATOMIC_RELAXED));
    }

    void unlock2(int *lock_ptr) {
        __atomic_sub_fetch (lock_ptr, 1, __ATOMIC_ACQ_REL);
    }

It's looks correct but i am not sure about memory models. Is it correct to use __ATOMIC_RELAXED for failure_memmodel and __ATOMIC_ACQ_REL for success_memmodel at __atomic_compare_exchange or it's must be strong __ATOMIC_SEQ_CST even at __atomic_sub_fetch and __atomic_add_fetch or another model?

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possible duplicate of Example for boost shared_mutex (multiple reads/one write)? –  Hans Passant Dec 3 '13 at 15:42
    
Sorry, but i didn't ask about mutual-based RWLock example. Code in my question is lock-free algorithm based on atomic operations. So, my question - how use memory models for __atomic built-ins to get better performance. –  dali Dec 3 '13 at 20:00

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