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I found a 2001 article on Dr Dobbs: volatile - Multithreaded Programmer's Best Friend. I've always found 'volatile' somewhat useless - at least as a qualifier on variables - as access to variables shared between threads always go through some kind of library layer anyway.

Nonetheless, marking class instances, and methods, as 'volatile' to indicate their degree of thread safety as presented in the article seems very compelling.

To summarize the article quickly, the core idea is could declare a class like this:

struct SomeObject {
  void SingleThreadedMethod();
  void Method();
  void Method() volatile;

And then, instances of the class, like this:

// An object that will only be accessed from a single thread.
SomeObject singleThreaded;
// An objecect that will be accessed from multiple threads.
volatile SomeObject sharedObject;

sharedObject.SingleThreadedMethod(); //this will be an compile error
sharedObject.Method(); // will call the volatile overload of Method
singleThreaded.Method(); // would call the non volatile overload of Method.

The idea being that methods like "Method() volatile" would be implemented:

void SomeObject::Method() volatile {

Obviously smart pointers can automate the atomic-lock-and-cast-to-non-volatile process - the point is that the volatile qualifier can be used, in its intended usage, to mark class members and instances to indicate how they're going to be used from multiple threads and hence get the compiler to either tell the developer when single threaded (non volatile) methods are being called on a volatile object, or even to pick the threadsafe version automatically.

My question about this approach is: What are the performance implications of 'volatile' qualified methods? Is the compiler forced to assume that all variables accessed in a volatile function need to be treated as volatile and thus excluded from optimization opportunities? Will local variables be excluded from optimization? That could be a big performance drag on any volatile qualified member function if so.

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"Is the compiler forced to assume that all variables accessed in a volatile function need to be treated as volatile and thus excluded from optimization opportunities" I think so: the compiler is required to load from memory the this pointer every time the object is touched. However, local variables should not be affected. – Alexandre C. Dec 13 '10 at 11:59
Some related posts:, – ronag Dec 13 '10 at 12:20
I dont "favorite" many questions, but I favorited this one. Excellent question. – John Dibling Dec 13 '10 at 18:48
up vote 10 down vote accepted
  • No, local variables will not be assumed as volatile in a volatile method, pretty much the same way as the local variables are not assumed const in a const method.
  • All the members of the class will be treated as volatile within the volatile method, pretty much the same way as all nonmutable members are treated const in a const method. There is no equivalent of mutable for volatile.
  • this won't be a volatile pointer, so accessing it won't load it from memory every time. However this will be a pointer to volatile, meaning that *this is treated as volatile
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This does seem to be the most consistent interpretation of the rules. – Chris Becke Dec 13 '10 at 19:48

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