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C++0x specifies the std::atomic template for thread safe atomic access to variables. This template has, among others, a member function std::atomic::exchange that atomically stores a new value in "this" and retrieves the existing value of "this".

Win32 has a similar function: InterlockedExchange

Now, what these operations do is simple: atomic read-modify.

What I do not understand is what the point of this operation is. The value read that is returned is "meaningless", because once I can inspect the return value, another thread may already have overwritten it.

So what's the use case for this? What can the information of which value was there just before I wrote my new value into the variable tell me?

Note: The compare_exchange / InterlockedCompareExchange semantics do make sense to me, but not the simple exchange semantics.

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how would you implement lock-less swap without it? – Gene Bushuyev Aug 10 '11 at 17:16
up vote 7 down vote accepted

Your typical spinlock:

std::atomic<bool> lock;  // initialize to false

{ // some critical section, trying to get the lock:

  while ( { }  // now we have the lock

  /* do stuff */

  lock = false; // release lock

See Herb Sutter's wait-free queue for a real-world application.

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nvm that last bit (wasn't thinking :P), but just be careful with Herb's older Dr Dobbs articles, some where found to have serious flaws (found by Herb himself) – Necrolis Aug 10 '11 at 8:31
@Necrolis: Indeed, that article itself is a follow-up to a correction of a previous article by someone else that got it wrong. (Then again, some people have even tried to argue that you don't need atomics at all and can just fake a mutex with a standard bool, maybe made volatile :-) .) – Kerrek SB Aug 10 '11 at 8:46
according to intels x86 manuals, you can/could (see Vol 3A Sec 8.1), but using proper atomics is the only way to go :) – Necrolis Aug 10 '11 at 8:58
@Necrolis: I'm not convinced. Suppose lock is false. You say while(!lock); and move past that point. Simultaneously, another thread does the same. Only now do you get to setting lock to true. Now two threads have moved into the same critical section at once. – Kerrek SB Aug 10 '11 at 14:25
@Necrolis: what if your thread is pre-empted after exiting the loop, but before the assignment? Another waiting thread can now also exit the loop and have "acquired" the lock. – R. Martinho Fernandes Aug 10 '11 at 14:28

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