Is it possible to coax std::atomic to output CMPXCHG16B for types where I'm not interested in using the atomic interlocked operations on Windows x64, or do I just have to suck it up and do the atomic operations by hand? I can get GCC/Clang to do this on Linux so I suspect its just an issue with the Microsoft Standard Library.

struct Byte16
    int64_t a, b;

std::atomic<Byte16> atm;
Byte16 a = { 1, 2 };
atm.compare_exchange_strong(...); // This has a lock on Windows, not on Linux version of code
  • Processor compatibility? Some older CPUs don't have that instruction: maybe you need to compile for a narrower target? Jan 26 '15 at 2:38
  • @Yakk I've considered that, however I'm having trouble identifying what flags to pass into ICC. .
    – BlamKiwi
    Jan 26 '15 at 2:54
  • Tried these options? Start with the most "powerful" and see if it solves your problem? I am just guessing and googling here. Jan 26 '15 at 2:58
  • 3
    It looks like it is indeed a Microsoft Standard Library issue. Going through the headers there are only specializations up to 8Byte atomics.
    – BlamKiwi
    Jan 26 '15 at 3:38
  • 2
    For future readers, here's pure C++ std::atomic<struct> code that compiles to lock cmpxchg16b with gcc or clang with -mcx16 to enable use of that instruction (which is unfortunately not baseline for x86-64: missing from the earliest CPUs). Dec 16 '16 at 19:09

use __m128 in windows

#include <emmintrin.h>
  std::atomic<__m128> a, c;
  __m128 b;
  • std::atomic<__m128> atom; assert(atom.is_lock_free()); fails.
    – BlamKiwi
    Jan 29 '15 at 10:40
  • then you need to use win32 API InterlockedCompareExchange128.
    – DU Jiaen
    Jan 29 '15 at 14:52
  • I know. I was asking if there was a way avoid having to do all that jazz manually.
    – BlamKiwi
    Jan 29 '15 at 19:33

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