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I have a worker std::thread and I want its main loop to check if some other thread tells it to stop looping and exit.
What is a good cross platform way to do this? Does boost provide some event object for it?
Is using just a bool considered thread-safe?

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What do you mean by “using” here? Generally, the answer is always “no”: no type except for atomic is inherently thread-safe. –  Konrad Rudolph Jun 2 '11 at 12:13
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@Tomalak: Please explain the problem with using a mutex. It seems the easiest and most obvious solution. –  Nicholas Knight Jun 2 '11 at 12:31
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@Tomalak: Sorry, but that's hand-wavy academic nonsense, not a technical argument. The behaviour of a mutex is well-understood and not going to change, and it solves the problem very nicely. The history of programming and, indeed, the world, is replete with new and unexpected uses of old tools. I'd also argue that mutexes inherently are signals -- normally a signal to a thread not to do something. –  Nicholas Knight Jun 2 '11 at 12:38
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@Nicholas: *shrug* I'm not an academic, and I'm pretty happy with the quality of code that results from my technical arguments during spec meetings. You're of course welcome to disagree. –  Lightness Races in Orbit Jun 2 '11 at 12:57
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A bool isn't guaranteed to be thread safe. Assuming you have c++11 you probably want to look at std::atomic_flag which is designed ot be thread safe for exactly this kind of cross thread flag. –  jcoder Apr 25 '13 at 7:31

4 Answers 4

up vote 6 down vote accepted

.. well it depends. What is the thread doing? Does it block on anything, I/O, sleep, or some other API?

If it's just CPU-looping all the time and it does not matter about exactly when it stops and it stops and exits, then just use a boolean. There's no point, in this case, in locking up a 'stopAndExit' boolean.

If the work thread does not read it as true on one loop when perhaps it should, because of some lack of atomicity, it will get it next time round. Why perform locks/API calls when you don't have to? A kernel level call from user to acquire/release a synchronisation object will take ages compared with a simple 'if (stop) exit;', wasting time on each loop that could have been used for calculation, or whatever you do in your CPU-bound thread.

It is cross-platform

Regards, Martin

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+1 For making people think if expensive synchronization methods are really neccessary all the time. –  Christian Rau Jun 2 '11 at 13:30
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I don't see how this could be guaranteed to work. Isn't it a valid optimization for a compiler to cache the value of a variable in a register if there is no memory barrier or volatile read semantics? In that case, it will never see the update. I can tell you that this type of problem definitely exists in .NET (it's possible for a multi-threaded program to get into an infinite loop if it constantly checks a bool condition, even if it the value is actually now true because it was updated from another thread). –  bobbymcr Dec 25 '11 at 20:28
    
@bobbymcr - try it with anything except a grossly trivial thread, designed specifically to show up this issue. It won't happen on Intel, I won't happen on Spark, it won't happen on anything I've ever used. It won't happen because the registers get spilled out into L1 cache on a driver interrupt, on a function call, if you breathe too loudly. –  Martin James Apr 7 '13 at 22:33

What you could have is a std::mutex that is shared between primary and your worker thread.

Your worker thread can acquire std::mutex::try_lock before commencing any work and release it intermittently . The main thread can lock this mutex when it wants your worker thread to shut down. Your worker thread can detect this using try_lock and exit

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Possible performance benefit to reversing it? main thread holds on to the lock, worker thread tries (non-blockingly) to acquire it at the start of the loop, exits on success. Saves cycles from releasing every time, and main thread doesn't have to sit around waiting for a loop to finish if it's got other stuff to do. –  Nicholas Knight Jun 2 '11 at 12:29

std::mutex and it's relatives are the core mechanisms. std::lock_guard and unique_lock build on this, and std::condition_variable are good for this purpose.

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As you mentioned boost, there is boost::thread you can use.

In your case, after starting a thread, you could interrupt it by using the interrupt() method. The receiver thread can check for interrupt requests with the boost::this_thread::interruption_point() method. This will cause the thread to exit if there is an interruption request, otherwise, it will ignore it.

You can check the documentation here: Boost Thread Documentation

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Note that std::thread is based on the Boost threads design [link]open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2184.html - so arguably the std will be more portable (although currently there's probably little difference in supported platforms.) –  holtavolt Jun 2 '11 at 13:03
    
The std::thread had interrupt removed from it. :-( –  Howard Hinnant Jun 2 '11 at 13:52

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