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Please consider the following code snippet. Using GCC 4.6.1, x becomes 0 and y becomes 1.

Why do I get different results with and without using a separate thread? How should I modify the code so that both versions yield the same result (i.e. the integer value is incremented by 1?)


struct functor{
    void operator()(int & x){

void tfunc(functor & f, int & x){

int main(){
    functor f;
    int x = 0, y = 0;
    std::thread t = std::thread(tfunc, f, x);
    std::cout << "with thread " << x << std::endl;    
    std::cout << "without thread " << y << std::endl;
share|improve this question
Try making x volatile. It is legal for the compiler to fetch its value after std::thread is created but before join returns. – spraff Jan 25 '12 at 12:03
@spraff: volatile is not a replacement for proper synchronization (and this is not a synchronization issue to begin with). – n.m. Jan 25 '12 at 12:25
UPDATE. It works if int * is passed to tfunc instead of int &. Tres bizarre. – user92382 Jan 25 '12 at 12:35
up vote 2 down vote accepted

It's easy to see what's going on. Just replace int with a noncopyable type (one with a private copy constructor) and the compiler will pinpoint you the exact place where libstdc++ tries to copy the argument instead of using the reference. In my case it's line 138 in the <tuple> standard header.

Whether or not this is correct implementation of the standard, I cannot tell at the moment.

UPDATE The standard says that each argument of std::thread::thread should satisfy the MoveConstructible requirement, and that the actual arguments that passed to the thread function are move-constructed from std::thread::thread arguments. This means that

  1. the thread function gets copies of the arguments, and
  2. the originals may well be destroyed in process.

So passing stuff by reference won't work.

share|improve this answer
In that case, I guess the fix is for std::thread's implementation to add overloads to wrap reference arguments in std::ref, right? – spraff Jan 25 '12 at 12:45
@spraff: See update. – n.m. Jan 25 '12 at 12:49
@spraff: no need for a fix -- std::thread already handles std::ref. If you change the program to std::thread t = std::thread(tfunc, f, std::ref(x));, it just works. This is precisely the sort of situation std::ref exists for. – Chris Dodd Jan 25 '12 at 18:54

It looks like when std::thread(tfunc, f, x) is called, x is being copied and the reference to the temporary value is passed into the functor, thus the call to the functor will not change the value of x. I think in general STL algorithms / functions always copy arguments. If you want your functor call to change the x, you may consider using pointer, as even a pointer is copied, the copy still points to the same address.

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