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Stores are release operations and loads are acquire operations for both. I know that memory_order_seq_cst is meant to impose an additional total ordering for all operations, but I'm failing to build an example where it isn't the case if all the memory_order_seq_cst are replaced by memory_order_acq_rel.

Do I miss something, or the difference is just a documentation effect, i.e. one should use memory_order_seq_cst if one intend not to play with a more relaxed model and use memory_order_acq_rel when constraining the relaxed model?

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1 Answer 1

up vote 7 down vote accepted

http://en.cppreference.com/w/cpp/atomic/memory_order has a good example at the bottom that only works with memory_order_seq_cst. Essentially memory_order_acq_rel provides read and write orderings relative to the atomic variable, while memory_order_seq_cst provides read and write ordering globally. That is, the sequentially consistent operations are visible in the same order across all threads.

The example boils down to this:

bool x= false;
bool y= false;
bool z= 0;

a() { x= true; }
b() { y= true; }
c() { while (!x); if (y) z++; }
d() { while (!y); if (x) z++; }

// kick off a, b, c, d, join all threads
assert(z!=0);

Operations on z are guarded by two atomic variables, not one, so you can't use acquire-release semantics to enforce that z is always incremented.

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I don't understand why x=true;y=true;c();d() isn't possible? That should cause it to be 0. Also I don't know why i get 2 a lot as the results. –  acidzombie24 Sep 10 '12 at 9:49
    
@acidzombie24, even in that case, z will be 2. –  MSN Sep 10 '12 at 20:40
    
I messed up, i misread the code. That makes perfect sense now –  acidzombie24 Sep 11 '12 at 8:53

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