To be precise, I only need to increase a double by another double and want it to be thread safe. I don't want to use mutex for that since the execution speed would dramatically decrease.


2 Answers 2


As a rule, the C++ standard library tries to provide only operations that can be implemented efficiently. For std::atomic, that means operations that can be performed lock-free in an instruction or two on "common" architectures. "Common" architectures have atomic fetch-and-add instructions for integers, but not for floating point types.

If you want to implement math operations for atomic floating point types, you'll have to do so yourself with a CAS (compare and swap) loop (Live at Coliru):

std::atomic<double> foo{0};

void add_to_foo(double bar) {
  auto current = foo.load();
  while (!foo.compare_exchange_weak(current, current + bar))
  • Thank You for the answer, I didn't realize that in order to do that (add two doubles thread safely) I would need such dirty (or at least it looks like it to me) workaround.
    – Noozen
    Apr 16, 2014 at 18:12
  • 1
    I am a little confused. Why will this code not go into an infinite loop if foo != current due to foo being modified by another thread between the load and the CAS?
    – Joe
    Nov 17, 2015 at 1:55
  • 2
    @Joe compare_exchange_weak takes its first argument by reference, and updates it to the observed value on failure. So if the CAS fails becayse foo != current the loop calculates a new current + bar from the updated current and tries again.
    – Casey
    Nov 17, 2015 at 3:26
  • @Casey Thanks for the clarification.
    – Joe
    Nov 18, 2015 at 18:45

So use the integral atomic as a memory barrier. Here's a page with source and explanation: http://preshing.com/20121019/this-is-why-they-call-it-a-weakly-ordered-cpu/

  • A memory barrier only helps with ordering, not atomicity. This is why you need a CAS (or LL/SC) to make the entire read-modify-write atomic. Sep 4, 2017 at 5:04

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