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I need to set a flag for another thread to exit. That other thread checks the exit flag from time to time. Do I have to use atomic for the flag or just a plain bool is enough and why (with an example of what exactly may go wrong if I use plain bool)?

#include <future>
bool exit = false;
void thread_fn()
        //do stuff
        if(exit) break;
        //do stuff
int main()
    auto f = std::async(std::launch::async, thread_fn);
    //do stuff
    exit = true;
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up vote 15 down vote accepted

Do I have to use atomic for “exit” bool variable?


Either use atomic<bool>, or use manual synchronization through (for instance) an std::mutex. Your program currently contains a data race, with one thread potentially reading a variable while another thread is writing it. This is Undefined Behavior.

Per Paragraph 1.10/21 of the C++11 Standard:

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

The definition of "conflicting" is given in Paragraph 1.10/4:

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.

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I can hardly see how accessing a bool can be anything but atomic in practice (though I agree in formal standardese it's a whole other matter). Anyway, aside from the race condition itself, I believe one also needs a memory barrier (which is provided by atomic<> or std::mutex) to ensure the compiler doesn't cache the data or reorder the instructions. However I lack the theoretical knowledge to explain that correctly (even though I know how to use it in practice), care to enlighten me if you can? Or should I create a new question? – syam Apr 19 '13 at 19:12
To elaborate (narrowly), the data-race condition in the standard isn't just about what one thread can do that is visible to another thread. It's also about optimizations or code reordering. A compiler can assume no data races, so it can assume that if one thread reads a variable but doesn't modify it, the value can't change between synchronizing points. Your thread may never exit. Or if a thread sets a flag without using it, the modification may be re-ordered to come before any other code (after the last synchronizing point). I'm even ignoring cache coherency. This is why atomics exist. – Adam H. Peterson Apr 19 '13 at 19:13
@Andy Quotes precisely to the point - enough for me to go use atomic<bool>. Hopefully Pete in his answer will clarify description of actual problems in my example code that can arise from using plain bool. – PowerGamer Apr 19 '13 at 19:43
@PowerGamer: Glad it helped :) – Andy Prowl Apr 19 '13 at 19:44
@PowerGamer: This "I'm doing what I want, against the normal advice, unless proven wrong" approach is a habit you should probably try to break... – GManNickG Apr 19 '13 at 20:46

Yes, you must have some synchronization. The easiest way is, as you say, with atomic<bool>.

Formally, as @AndyProwl says, the language definition says that not using an atomic here gives undefined behavior. There are good reasons for that.

First, a read or write of a variable can be interrupted halfway through by a thread switch; the other thread may see a partly-written value, or if it modifies the value, the original thread will see a mixed value. Second, when two threads run on different cores, they have separate caches; writing a value stores it in the cache, but doesn't update other caches, so a thread might not see a value written by another thread. Third, the compiler can reorganize code based on what it sees; in the example code, if nothing inside the loop changes the value of exit, the compiler doesn't have any reason to suspect that the value will change; it can turn the loop into while(1).

Atomics address all three of these problems.

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Can you please elaborate on your answer a bit more: How exactly 1st issue can be a problem for bool variable with only two values: 0 or 1 (there are no "half" values)? 2nd issue: are you saying that the thread writing into "exit" var can write into cache and the value from cache will never go into the memory where "exit" var is located? 3rd issue: you mean that compiler can (theoretically) be so smart as to see that a) before call to thread_fn() "exit" is always true and b) nothing that thread_fn() calls changes "exit" - that's what gives compiler the right to change the loop, correct? – PowerGamer Apr 19 '13 at 19:31
@PowerGamer - yes, tearing of a bool variable is unlikely. I won't go through perverse scenarios where it hypothetically could happen. For other types it can and will happen if you don't take steps to prevent it. – Pete Becker Apr 19 '13 at 19:38

actually, nothing goes wrong with plain bool in this particular example. the only notice is to declare bool exit variable as volatile to keep it in memory. both CISC and RISC architectures implement bool read/write as strictly atomic processor instruction. also modern multocore processors have advanced smart cache implementstion. so, any memory barriers are not necessary. the Standard citation is not appropriate for this particular case because it deals with the only one writing and the reading from the only one thread.

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x86 doesn't even define a bool type, so it cannot be atomic either. – MSalters Apr 6 at 12:22

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