7

I'm looking for the fastest way to test if a 128 NEON register contains all zeros, using NEON intrinsics. I'm currently using 3 OR operations, and 2 MOVs:

uint32x4_t vr = vorrq_u32(vcmp0, vcmp1);

uint64x2_t v0 = vreinterpretq_u64_u32(vr);
uint64x1_t v0or = vorr_u64(vget_high_u64(v0), vget_low_u64(v0));

uint32x2_t v1 = vreinterpret_u32_u64 (v0or);
uint32_t r = vget_lane_u32(v1, 0) | vget_lane_u32(v1, 1);

if (r == 0) { // do stuff }

This translates by gcc to the following assembly code:

VORR     q9, q9, q10
VORR     d16, d18, d19
VMOV.32  r3, d16[0]
VMOV.32  r2, d16[1]
VORRS    r2, r2, r3
BEQ      ...

Does anyone have an idea of a faster way?

5 Answers 5

8

While this answer may be a bit late, there is a simple way to do the test with only 3 instructions and no extra registers:

inline uint32_t is_not_zero(uint32x4_t v)
{
    uint32x2_t tmp = vorr_u32(vget_low_u32(v), vget_high_u32(v));
    return vget_lane_u32(vpmax_u32(tmp, tmp), 0);
}

The return value will be nonzero if any bit in the 128-bit NEON register was set.

1
  • instead of the second line, you could simply convert tmp to uint64_t. return (uint64_t)tmp; should work.
    – Rémi
    Jul 6, 2023 at 14:47
3

If you're targeting AArch64 NEON, you can use the following to get a value to test with just two instructions:

inline uint64_t is_not_zero(uint32x4_t v)
{
    uint64x2_t v64 = vreinterpretq_u64_u32(v);
    uint32x2_t v32 = vqmovn_u64(v64);
    uint64x1_t result = vreinterpret_u64_u32(v32);
    return result[0];
}
1

You seem to be looking for intrinsics and this is the way:

inline bool is_zero(int32x4_t v) noexcept
{
  v = v == int32x4{};

  return !int32x2_t(
    vtbl2_s8(
      int8x8x2_t{
        int8x8_t(vget_low_s32(v)),
        int8x8_t(vget_high_s32(v))
      },
      int8x8_t{0, 4, 8, 12}
    )
  )[0];
}

Nils Pipenbrinck's answer has a flaw in that he assumes the QC, cumulative saturation flag to be clear.

1

If you have AArch64 you can do it even easier. They have a new instruction for designed for this.

inline uint32_t is_not_zero(uint32x4_t v)
{
    return vaddvq_u32(v);
}
3
  • 1
    This seems vulnerable to overflows, though.
    – wolfv
    Mar 9, 2018 at 13:59
  • If you are using the full 32 bit, yes, it can wrap around and cause a false positive, but if you know your numbers are smaller than 2³²/4 it is safe. Apr 7, 2018 at 20:20
  • 5
    Probably better though to just use vmaxvq_u32 then. A similar reduction instruction, but one returning the maximum value instead of the sum. Apr 7, 2018 at 20:24
1

I'd avoid functions returning integer values that should only be interpreted as bool. A better way would be, for instance, defining a helper function to return maximum unsigned value of 4 lanes:

inline uint32_t max_lane_value_u32(const uint32x4_t& v)
{
#if defined(_WIN32) && defined(_ARM64_)
    // Windows 64-bit
    return neon_umaxvq32(v);
#elif defined(__LP64__)
    // Linux/Android 64-bit
    return vmaxvq_u32(v);
#else
    // Windows/Linux/Android 32-bit
    uint32x2_t result = vmax_u32(vget_low_u32(v), vget_high_u32(v));
    return vget_lane_u32(vpmax_u32(result, result), 0);
#endif
}

you can then use:

if (0 == max_lane_value_u32(v))
{
    ...
}

in your code, and such function might also be useful elsewhere. Alternatively, you can use the exact same code to write a is_not_zero() function, but then it's best form to return a bool.

Note that the only reason you'd need to define a helper function is because vmaxvq_u32() is not available on 32-bit, and may not be aliased from neon_umaxvq32() in arm64_neon.h on Windows.

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