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I heard people say that statements such as var++ and ++var are not threads safe, so I wrote an application to have the test. Code is as below:

   unsigned long gCounter = 0;
   const unsigned long WORKS = 1048576;  // pow(2, 20)
   const unsigned long MAX_THREADS = 100;
   const unsigned long WORKER_THREADS = 2;

   unsigned long GetCounter(){
           return gCounter++;

   void *WorkerThread(void *){
           unsigned long items = 0;
           do {
           } while(items < WORKS);

           printf("Exiting thread: %lu\n", pthread_self());
           return NULL;

    int main(int argc, char* argv[]){
         pthread_t workers[MAX_THREADS];

         //create two threads
         for (int i = 0; i < WORKER_THREADS; i++){
            pthread_create(&workers[i], NULL, WorkerThread, NULL);

         //wait for above threads to exit
         for (int i = 0; i < WORKER_THREADS; i++){
               pthread_join(workers[i], NULL);

         assert( gCounter == (WORKER_THREADS * WORKS));
         return 0;

If the post-increment operation is not thread safe, then above test application will fail sometimes (might be successful). But to my surprise, it always succeeds during 200 tests when running on our server, while on my PC it never succeeds.

Why would this happen? Why would above appcation succeed all the time on our server? Below is information about the Server and my PC:

     Server machine:
     System: Redhat 3.4.2 - 6.FC3  Kernel: LINUX.2.6.10 
     GCC Version: 3.4.2 20041017   
     CPU: AMD Opteron Processor 144 X86_64

     My PC:
     System: ubuntu 3.2.0-40-generic  Kernel: LINUX.3.4
     GCC Version: 4.6.3 (Ubuntu/Linaro )    
     CPU: Intel(R) Pentium(R) Dual  CPU  T2370        

     Build Command (both are the same, turn off optimization)
     g++ -O0 -o test test.cpp -lpthread

Today I found that the server whose CPU is AMD Opteron 144 is a single-cpu-single-core machine, maybe it is the reason why this test application never fails on it. As my understanding, a single-cpu-single-core machine doesn't support real thread Parallelism, the threads run in order in a very fast pace that they seem to run parallelly, but they really are not and some thread synchronization problems are not likely to occur easily on this kind of machines.

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The problem with any "unsafe" code (here it is even Undefined Behaviour, at least in C++11) is that it is allowed to do anything including appearing to work. It's futile to try to reason about it, because there is nothing to reason about. –  syam May 31 '13 at 0:20
@MitchWheat: not necessarily. In fact, an increment is really load/modify/store and nothing forbids another CPU to grab the bus and modify the value during the modify part (unless the increment specifically locks the bus, which is generally not the case). –  syam May 31 '13 at 0:29
@MitchWheat, no, it is not safe. As syam noted, you have a load/modify/store. Optimistically, that's 2 clock cycles (likely more). Even if it was a single clock cycle, you could have 2 threads do the exact same operation at the exact same time (theoretically do 2 increments), and the result would appear as 1. The problem is there is no memory barrier that forces synchronization. –  Nathan Ernst May 31 '13 at 2:56
updated the post, please have a look –  Steve May 31 '13 at 10:46

1 Answer 1

Your code has undefined behaviour since it contains a data race.

[intro.multithread]/21 The execution of a program contains a data race if it contains two conflicting actions in dierent threads, at least one of which is not atomic, and neither happens before the other. Any such data race results in undefined behavior.

[intro.multithread]/4 Two expression evaluations conflict if one of them modifies a memory location (1.7) and the other one accesses or modifies the same memory location.

Since your code has undefined behaviour, you cannot rely on it having any behaviour in particular. Don't be surprised that it always "works" on one platform and never works on another.

[defns.undefined] Undefined Behavior: Behavior for which this International Standard imposes no requirements.

share|improve this answer
I come to the conclusion, please see my update –  Steve May 31 '13 at 10:35
@StevePeng: I cannot see any update. Are you sure you posted it correctly? –  Mankarse May 31 '13 at 10:37
oh sorry, i thought this time you might be offline, so I made the comment before delivering the update. but now you can see it:_) –  Steve May 31 '13 at 10:42
@StevePeng: Yep, now I can see the update :). It certainly would make sense that a single-core machine would not be as well suited to demonstrating threading bugs as a multi-core machine. Even so, the real problem with the code is simply that it has undefined behaviour, and there is very little point in thinking further on the matter. –  Mankarse May 31 '13 at 11:18

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