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When debugging some code using AVX, I was getting results which made no sense. I reduced my program to the following:

#include <iostream>
#include <immintrin.h>

int main()
{
    while (1)
    {
        static float v[] = {1, 2, 3, 4, 5, 6, 7, 8};
        __m256 v8 = _mm256_load_ps(v);
        std::cout << v8.m256_f32[2] << v8.m256_f32[5];
    }
}

When I run this program, it prints 36 endlessly, which is correct (it prints 3, and then 6). If I set a breakpoint in a debugger inside the loop, and do single-step, it prints 30. If I remove the breakpoint and continue the program, it starts printing 36 again. I see the same behavior in Release/Debug, Win32/x86 (4 combinations).

To be able to use AVX, I set "Enable Enhanced Instruction Set" to "Advanced Vector Extensions (/arch:AVX)" in Configuration Properties - C/C++ - Code Generation. Did I forget to set some other configuration?

As a result of this behavior, I cannot use the debugger to debug my real program (not included here). This is annoying.

Did I do anything wrong? Can I fix this behavior?

My Visual Studio is: MS Visual Studio Professional 2017, version 15.9.3.

8
  • FWIW, I am not observing that behavior on MSVC2019, x64 Debug/Release. I get 36 both when running or stepping through.
    – user4442671
    Aug 9, 2021 at 6:41
  • If you look at the asm code-gen, MSVC with those options should be generating normal AVX instructions with proper vzeroupper usage, like on godbolt.org/z/YMobhKK56. (Using -O2, we see VS19.28 keeping the vector on the stack and doing a YMM load + shuffle for each union-element access, not taking advantage of call-preserved xmm5..15). Are you building for 32-bit or x86-64? Certainly sounds like a debugger problem, though; that code is legal and should be well-defined on MSVC, and changing the behaviour when single-stepping or not is a huge red flag. Aug 9, 2021 at 6:47
  • 1
    I see the same behavior in Release/Debug, Win32/x86 (4 combinations). I do see vzeroupper in the disassembly, but it's in a funny location inside the loop. I'll go tweak my code some more to see if I can make sense of it.
    – anatolyg
    Aug 9, 2021 at 6:56
  • Possibly OT: Doesn't _mm256_load_ps require 32-byte boundary alignment? Which doesn't seem to be guaranteed in your case. Aug 9, 2021 at 7:21
  • 1
    @DanielLangr: MSVC (and ICC) always use alignment-not-required AVX loads/stores like vmovups, even when you use the alignment-required intrinsic. So they remove the possibility of finding misaligned data by intentionally using alignment-required loads/stores in a debug build (where they won't get folded into memory source operands for other instructions that don't require alignment.) Aug 9, 2021 at 8:12

1 Answer 1

2

Visual studio 2017 15.9.7 fixes a bug which corrupts AVX/MPX/AVX512 registers while Debugging, you should update to the latest version, 15.9.3 is nearly 3 years old.

2
  • Didn't try it (updating Visual Studio is a separate nightmare) but this must be the answer!
    – anatolyg
    Aug 9, 2021 at 9:28
  • @anatolyg Updating within the current release has never caused me any problems, it mainly just contains bug fixes and more importantly for your code security fixes Aug 9, 2021 at 9:38

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