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I've been using volatile bool for years for thread execution control and it worked fine

// in my class declaration
volatile bool stop_;


// In the thread function
while (!stop_)

Now, since c++11 added support for atomic operations, I decided to try that instead

// in my class declaration
std::atomic<bool> stop_;


// In the thread function
while (!stop_)

But it's several orders of magnitude slower than the volatile bool!

Simple test case I've written takes about 1 second to complete with volatile bool approach. With std::atomic<bool> however I've been waiting for about 10 minutes and gave up!

I tried to use memory_order_relaxed flag with load and store to the same effect.

My platform: Windows 7 64 bit MinGW gcc 4.6.x

What I'm doing wrong?


Yes, I know that volatile does not make a variable thread safe. My question is not about volatile, it's about why atomic is ridiculously slow.

UPD2 @all, thank you for your comments - I will try all the suggested when I get to my machine tonight.

share|improve this question
You're misunderstanding what volatile really does. volatile doesn't make things thread-safe nor is it an atomic operation. – Mysticial Oct 30 '12 at 9:17
assert(your_atomic_variable.is_lock_free())? – R. Martinho Fernandes Oct 30 '12 at 9:19
Your old code is incorrect, it "worked fine" by chance. Which is better: correct or fast? – Dietrich Epp Oct 30 '12 at 9:19
Please post your simple test case (if you want meaningful comments). – Charles Bailey Oct 30 '12 at 9:19
@Mysticial: Unfortunately volatile by accident happens to make store and load atomic on x86. – Jan Hudec Oct 30 '12 at 9:20
up vote 24 down vote accepted

Code from "Olaf Dietsche"

 real   0m1.958s
 user   0m1.957s
 sys    0m0.000s

 real   0m1.966s
 user   0m1.953s
 sys    0m0.010s


Support for atomic operations specifying the C++11/C11 memory model has been added. These new __atomic routines replace the existing __sync built-in routines.

Atomic support is also available for memory blocks. Lock-free instructions will be used if a memory block is the same size and alignment as a supported integer type. Atomic operations which do not have lock-free support are left as function calls. A set of library functions is available on the GCC atomic wiki in the "External Atomics Library" section.

So yeah .. only solution is to upgrade to GCC 4.7

share|improve this answer
Your modification doesn't change anything on my machine: USE ATOMIC real 0m36.207s, USE VOLATILE real 0m3.246s – Olaf Dietsche Oct 30 '12 at 11:46
Try the "volatile" should be "slower" now – KoKuToru Oct 30 '12 at 11:46
What I'm driving at is, the magnitudes remain the same. – Olaf Dietsche Oct 30 '12 at 11:50
Well then, your atomic is not "lock-free" mingw + windows is probably the problem. It works right at g++(4.7) + linx. As long as you benchmark right ! Your loop with volatile won't exists with "-O3" if you don't make something like "anti_optimization" – KoKuToru Oct 30 '12 at 11:53
Well I found the problem (see update), you need to have GCC 4.7+ to have lock-free atomics – KoKuToru Oct 30 '12 at 11:58

My guess is that this is an hardware question. When you write volatile you tell the compiler to not assume anything about the variable but as I understand it the hardware will still treat it as a normal variable. This means that the variable will be in the cache the whole time. When you use atomic you use special hardware instructions that probably means that the variable is fetch from the main memory each time it is used. The difference in timing is consistent with this explanation.

share|improve this answer

Since I'm curious about this, I tested it myself on Ubuntu 12.04, AMD 2.3 GHz, gcc 4.6.3.

#if 1
#include <atomic>
std::atomic<bool> stop_(false);
volatile bool stop_ = false;

int main(int argc, char **argv)
    long n = 1000000000;
    while (!stop_) {
        if (--n < 0)
            stop_ = true;

    return 0;

Compiled with g++ -g -std=c++0x -O3 a.cpp

Although, same conclusion as @aleguna:

  • just bool:

    real 0m0.004s
    user 0m0.000s
    sys 0m0.004s

  • volatile bool:

    $ time ./a.out
    real 0m1.413s
    user 0m1.368s
    sys 0m0.008s

  • std::atomic<bool>:

    $ time ./a.out
    real 0m32.550s
    user 0m32.466s
    sys 0m0.008s

  • std::atomic<int>:

    $ time ./a.out
    real 0m32.091s
    user 0m31.958s
    sys 0m0.012s

share|improve this answer
gcc 4.6 atomics are not lock free. Upgrade to gcc 4.7+ – mchiasson Dec 22 '14 at 20:08

volatile keyword tell compiler to avoid optimization in your while. But in generally you should avoid to using such code for thread synchronization. I think std::atomic use more complex portable behavior

share|improve this answer
I'm sorry did you read my question? You deserved a downvote. – user1773602 Oct 30 '12 at 10:30
try to use int instead bool. I think std::atomic<bool> is not implemented yet in your compiler by build in fast API functions like InterlockedExchange – Вадим Сущенко Oct 30 '12 at 11:10

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