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A simple situation here, If I got three threads, and one for window application, and I want them to quit when the window application is closed, so is it thread-safe if I use one global variable, so that three threads will quit if only the global variable is true, otherwise continue its work? Does the volatile help in this situation? C++ programming.

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up vote 3 down vote accepted

If you only want to "read" from the shared variable from the other threads, then it's ok in the situation you describe.

Yes the volatile hint is required or the compiler might "optimize out" the variable.

Waiting for the threads to finish (i.e. join) would be good too: this way, any clean-up (by the application) that should occur will have a chance to get done.

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Actually only window thread will write there, when it will quit, changing the value to true. Is that ok? – Daniel Mar 1 '10 at 16:05
@Daniel: yes it is OK. – jldupont Mar 1 '10 at 16:05
Thank you very much!) – Daniel Mar 1 '10 at 16:10
You really need the volatile keyword - it's not just a helpful hint. Although the processor won't ignore another core's accesses (merely reorder them), the compiler might remove the variable reference entirely if it detects that it cannot change - which, since it's set in another thread, it doesn't appear to. – Eamon Nerbonne Mar 1 '10 at 16:38
I thought some compilers were smart enough to detect this condition. As far as I am concerned, I always use the volatile hint in such situation... embedded software background helping. – jldupont Mar 1 '10 at 17:12

Theoretically, volatile is not enough. There are two abstraction layers:

  • between the source code actions and the actual opcodes;
  • between what a core/processor sees and what the other cores/processors see.

The compiler is free to cache data in register and reorder read and writes. By using volatile you instruct the compiler to produce opcodes which perform the read and writes exactly in the order you specify in your source code. But this handles only the first layer. The hardware system which manages communication between the processor cores may also delay and reorder reads and writes.

It so happens that on x86 hardware, cores propagate writes to main memory fairly fast, and other cores are automatically notified that memory has changed. So that volatile appears to be enough: it makes sure that the compiler will not play funky games with registers, and the memory system is kind enough to handle things from that point. Note, though, that this is not true on all systems (I think that at least some Sparc systems could delay write propagation for arbitrary delays -- possibly hours) and I have read in one of the AMD manuals that AMD explicitly reserves the right to propagate writes less promptly in some future processors.

So the clean solution is to use a mutex (pthread_mutex_lock() on Unix, EnterCriticalSection() on Windows) whenever accessing your global variable (both for reading and for writing). Mutex primitives include a special operation known as a memory barrier, which is like a volatile on steroids (it acts as a volatile for both abstraction layers).

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If your memory system plays funky games with cache coherence is it not the responcability of the compiler then to plant the appropriate code to force the cache into coherence in the situation where volatile is used? – Loki Astari Mar 2 '10 at 13:58
Memory barriers are expensive, so compilers are wary of using them. volatile was initially meant for interaction with memory-mapped I/O devices, and with signal handlers (signal handlers are asynchronous but happen on the same core). There is plenty of code which uses volatile for that, and which would be penalized by a volatile-with-a-barrier. volatile was not designed to be a barrier. Note that other languages do differently. Java's volatile includes a memory barrier (it even ensures atomic read and writes, even for "big" value types such as long and double). – Thomas Pornin Mar 2 '10 at 14:27

No, this is risky because of memory visibility issues. On a multi-processor, writing to memory on one processor does not mean a different processor will see that change immediately. Furthermore, without using mutex's, it's possible that it can take quite a long time before the change is propagated to the other processors.

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Certainly on x86, and AFAIK on every shared-memory architecture under the sun a remote write will invalidate a local cache. So, this works fine - you may see the "exit" flag at a slight delay, and you may see the exit flag's write reordered with other side effects, but you will see it eventually. – Eamon Nerbonne Mar 1 '10 at 16:34
A bigger risk is that the compiler might not even write to memory if the variable is not volatile – erikkallen Mar 1 '10 at 16:45

Yes this is a common technique.

But you should also wait for all child threads to exit before the main thread exits main().
In most thread implementations if the main thread exits main() all currently live child threads are repeated (see your threading documentation for details) without the benefit of allowing their stacks to unwind correctly. Thus all the nice benefits of RAII will be lost.

So set your global variable, but then wait (most threading systems have a join method to allow you to wait (for threads in a non busy state) to die) for all children to exit cleanly before allowing the main() thread to exit.

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That is what I was planning to do, set the variable to true, and wait the threads ending. Thanks for the answer! – Daniel Mar 2 '10 at 12:52

It's safe right up to the point that you change the variable's value to get the threads to quit. At that point 1) you need to synchronize access, and 2) you need to do something (sorry, volatile isn't enough) to assure that the new value gets propagated to the other threads correctly.

The former part is pretty easy. The latter substantially more difficult -- to the point that you'll almost certainly need to use some sort of library- or OS-provided mechanism.

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Volatile should be enough. It tells the compiler that the variable may be updated from an unexpected (or non-deterministic) source and thus it can not be cached or optimized away. – Loki Astari Mar 1 '10 at 16:15
@MartinYork - volatile may not be enough as it does not provide visibility semantics: – R Samuel Klatchko Mar 1 '10 at 16:18
@Martin: Volatile is basically enough to tell the compiler that the variable can't just sit in a register. It does nothing, however, about a variable just sitting in the cache. Some hardware (x86, for example) maintain strict cache coherence, so with them it's enough. Other hardware doesn't, and with them volatile isn't enough. In general volatile isn't a very good tool for threading -- it's too restrictive in some ways, but not restrictive enough in others. – Jerry Coffin Mar 1 '10 at 16:52
@R Samuel Klatchko: I disagree with your interpretation of that paper. It is questioning the ability of volatile to gurantee the ordering of read/write to a volatile variable. since we have only one writter and multiple readers of a state flag, in this case it is not a big deal as the thread will just do another iteration of work before seeing the updated flag and thus exit as expected. – Loki Astari Mar 2 '10 at 13:49
@Martin:Perhaps the compiler should include instructions to flush the cache, but in fact, 1) most compilers don't, and 2) I don't see anything in the standard that requires them to do so. We don't know enough to say there won't be problems with access ordering -- after killing the other threads, the main thread will (quite rightly) be written assuming synchronized access is no longer needed. If all it does is exit, that may not be a problem -- but cleaning up is likely to involve destroying data that was shared. That will cause problems if another thread remains active. – Jerry Coffin Mar 2 '10 at 15:28

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