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From what I've read from Herb Sutter and others you would think that volatile and concurrent programming were completely orthogonal concepts, at least as far as C/C++ are concerned.

However, in GCC c++0x extension all of std::atomic's member functions have the volatile qualifier. The same is true in Anthony Williams's implementation of std::atomic.

So what's deal, do my atomic<> variables need be volatile or not?

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+1 Mr. Williams is here on SO, maybe he can show up and give an answer :) – AraK Mar 19 '10 at 16:55
I've seen a question on comp.std.c++ about that. Remember that volatile guarants that reads and writes in a single thread are done in order and that a volatile object cannot have any non-volatile member functions being called on it (just like const). But further than that, i have no clue about threads in C++. Everytime i try to read about it in the Standard, i'm starting to give up, not being able to grasp the sheer amount of indirections and logics in the text xD – Johannes Schaub - litb Mar 19 '10 at 17:08
up vote 49 down vote accepted

So that volatile objects can also be atomic. See here:

The relevant quote is

The functions and operations are defined to work with volatile objects, so that variables that should be volatile can also be atomic. The volatile qualifier, however, is not required for atomicity.

And no, atomic objects don't have to be volatile.

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Ah, nice find. Hope you don't mind I inserted the specific quote from that paper. – jalf Mar 19 '10 at 17:22
@jalf: perfect, thanks. – stephan Mar 19 '10 at 17:26
Note: This is technically same as platform specific… – Suma Nov 22 '10 at 10:54

To summarize what others have correctly written:

C/C++ volatile is for hardware access and interrupts. C++11 atomic<> is for inter-thread communication (e.g., in lock-free code). Those two concepts/uses are orthogonal, but they have overlapping requirements and that is why people have often confused the two.

The reason that atomic<> has volatile-qualified functions is the same reason it has const-qualified functions, because it's possible in principle for an object be both atomic<> and also const and/or volatile.

Of course, as my article pointed out, a further source of confusion is that C/C++ volatile isn't the same as C#/Java volatile (the latter is basically equivalent to C++11 atomic<>).

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I am going to abuse the fact that you are here to ask your opinion about an article by Alexandrescu on using the volatile flag to produce compile-time errors on thread-unsafe code (using volatile instances to lock the use of the interface and const_cast to remove the volatile when a mutex is acquire). Could it make sense adding a type qualifier 'threadsafe' or the like for this purpose in the language (I am just thinking out loud) The article is here:… – David Rodríguez - dribeas Mar 22 '10 at 10:27
I have added it as a question here: – David Rodríguez - dribeas Mar 22 '10 at 10:55
In some of Andrei's articles, what he was really doing was to hijack (er, I mean, "reuse") the volatile keyword as a handy mostly-unused tag in the type system he could use as a hook to overload and get other effects, which was a little confusing because it wasn't stated quite that way. – Herb Sutter Mar 23 '10 at 14:10
See also Dr. Alexandrescu's (I'm not on a first name basis) follow-up comments and not-quite-retractions on that volatile article (as it were): – metal Jan 14 '13 at 14:33

As const, volatile is transitive. If you declare a method as volatile then you cannot call any non-volatile method on it or any of its member attributes. By having std::atomic methods volatile you allow calls from volatile member methods in classes that contain the std::atomic variables.

I am not having a good day... so confusing... maybe a little example helps:

struct element {
   void op1() volatile;
   void op2();
struct container {
   void foo() volatile {
      e.op1();  // correct
      //e.op2();  // compile time error
   element e;
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