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Say we have two threads, one is reading a bool in a loop and another can toggle it at certain times. Personally I think this should be atomic because sizeof(bool) in C++ is 1 byte and you don't read/write bytes partially but I want to be 100% sure.

So yes or no?

EDIT:

Also for future reference, does the same apply to int?

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Isn't anything less than a word size of the underlying architecture both atomic and also less efficient than possible? –  Cris Stringfellow Jan 31 '13 at 11:37
    
stackoverflow.com/questions/8037289/… suggests it's non-atomic. –  Lightness Races in Orbit Jan 31 '13 at 11:37
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By the way, I'm not aware of any requirement in the standard that mandates sizeof(bool). –  Lightness Races in Orbit Jan 31 '13 at 11:42
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@LightnessRacesinOrbit: 5.3.3 even has a note about how they are implementation defined. –  PlasmaHH Jan 31 '13 at 11:46
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Yes, sizeof(bool) is implementation defined. I have worked on architectures where sizeof(bool) == 4. –  Brian Neal May 1 '13 at 15:33

4 Answers 4

up vote 6 down vote accepted

It all depends on what you actually mean by the word "atomic".

Do you mean "the final value will be updated in one go" (yes, on x86 that's definitely guaranteed for a byte value - and any correctly aligned value up to 64 bits at least), or "if I set this to true (or false), no other thread will read a different value after I've set it" (that's not quite such a certainty - you need a "lock" prefix to guarantee that).

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There are three separate issues that "atomic" types in C++11 address:

  1. tearing: a read or write involves multiple bus cycles, and a thread switch occurs in the middle of the operation; this can produce incorrect values.

  2. cache coherence: a write from one thread updates its processor's cache, but does not update global memory; a read from a different thread reads global memory, and doesn't see the updated value in the other processor's cache.

  3. compiler optimization: the compiler shuffles the order of reads and writes under the assumption that the values are not accessed from another thread, resulting in chaos.

Using std::atomic<bool> ensures that all three of these issues are managed correctly. Not using std::atomic<bool> leaves you guessing, with, at best, non-portable code.

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x86 only guarantees word-aligned reads and writes of word size. It does not guarantee any other operations, unless explicitly atomic. Plus, of course, you have to convince your compiler to actually issue the relevant reads and writes in the first place.

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It' generally non-atomic.

Problem 1: Compiler: Unless you declare the int / bool as volatile, the optimizer will likely eliminate reads and writes that are unnecessary from a single-threaded perspective.

Problem 2: CPU-Architecture, Cache-Coherency, etc. x86 is relatively un-problematic since it gives strong coherency guarantees by default, but other architecutres guarantee very little unless special memory-barrier instructions are used.

Word-sizes are not a problem: Coherency protocols work on cache-lines. Any aligned access smaller or equal the CPU's native word-size is atomic as in 'all bits simultaneously written', but subject to above restrictions.

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