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I am trying to use boost::atomic to do multithreading synchronization on linux.

But, the result is not consistent.

Any help will be appreciated.


#include <boost/bind.hpp>
#include <boost/threadpool.hpp>
#include <boost/thread/mutex.hpp>
#include <boost/thread.hpp>
#include <boost/atomic.hpp>

boost::atomic<int> g(0) ;

void f()

    g.fetch_add(1, boost::memory_order_relaxed);

    return ;
 const int threadnum = 10;
 int main()
    boost::threadpool::fifo_pool tp(threadnum);
    for (int i = 0 ; i < threadnum ; ++i)
    std::cout << g << std::endl ;
    return 0 ;
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We don't know your hardware, but memory_order_relaxed isn't exactly the most portable option. It will certainly give inconsistent results on some types of CPUs. –  Bo Persson Jun 10 '12 at 9:15

2 Answers 2

up vote 2 down vote accepted

I'm not familiar with the boost thread library specifically, or boost::threadpool, but it looks to me like the threads have not necessarily completed when you access the value of g, so you will get some value between zero and 10.

Here's your program, modified to use the standard library, with joins inserted so that the fetch adds happen before the output of g.

std::atomic<int> g(0);

void f() {
    g.fetch_add(1, std::memory_order_relaxed);

int main() {
    const int threadnum = 10;
    std::vector<std::thread> v;

    for (int i = 0 ; i < threadnum ; ++i)

    for (auto &th : v)

    std::cout << g << '\n';


If your program still isn't consistent even with the added tp.wait() then that is puzzling. The adds should happen before the threads end, and I would think that the threads ending would synchronize with the tp.wait(), which happens before the read. So all the adds should happen before g is printed, even though you use memory_order_relaxed, so the printed value should be 10.

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You could also assume a defect in the library at this point. It is not an official/accepted boost library. –  edA-qa mort-ora-y Jun 10 '12 at 8:01
You can try to spin on g to see if it ever reaches 10. –  jxh Jun 10 '12 at 9:31
thanks, it has been solved, a typo, sorry ! –  user1000107 Jun 10 '12 at 15:11

Here are some examples that might help:

Basically, you're trying to "protect" a "critical region" with a "lock".

You can set or unset a semaphore.

Or you can "exchange" a boost "atomic" variable. For example (from the above link):

class spinlock {
  typedef enum {Locked, Unlocked} LockState;
  boost::atomic<LockState> state_;

  spinlock() : state_(Unlocked) {}

    while (state_.exchange(Locked, boost::memory_order_acquire) == Locked) {
      /* busy-wait */
    state_.store(Unlocked, boost::memory_order_release);
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