Quelle  xop.h   Sprache: C

/* SPDX-License-Identifier: MIT
 *
 * Permission is hereby granted, free of charge, to any person
 * obtaining a copy of this software and associated documentation
 * files (the "Software"), to deal in the Software without
 * restriction, including without limitation the rights to use, copy,
 * modify, merge, publish, distribute, sublicense, and/or sell copies
 * of the Software, and to permit persons to whom the Software is
 * furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be
 * included in all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
 * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
 * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
 * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
 * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
 * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
 * SOFTWARE.
 *
 * Copyright:
 *   2020      Evan Nemerson <evan@nemerson.com>
 */

#if !defined(SIMDE_X86_XOP_H)
#define SIMDE_X86_XOP_H

#include "avx2.h"

#if !defined(SIMDE_X86_XOP_NATIVE) && defined(SIMDE_ENABLE_NATIVE_ALIASES)
#  define SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES
#endif

HEDLEY_DIAGNOSTIC_PUSH
SIMDE_DISABLE_UNWANTED_DIAGNOSTICS
SIMDE_BEGIN_DECLS_

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_cmov_si128 (simde__m128i a, simde__m128i b, simde__m128i c) {
  #if defined(SIMDE_X86_XOP_NATIVE)
    return _mm_cmov_si128(a, b, c);
  #elif defined(SIMDE_X86_AVX512VL_NATIVE)
    return _mm_ternarylogic_epi32(a, b, c, 0xe4);
  #elif defined(SIMDE_X86_SSE2_NATIVE)
    return _mm_or_si128(_mm_and_si128(c, a), _mm_andnot_si128(c, b));
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b),
      c_ = simde__m128i_to_private(c);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_i8 = vbslq_s8(c_.neon_u8, a_.neon_i8, b_.neon_i8);
    #elif defined(SIMDE_WASM_SIMD128_NATIVE)
      r_.wasm_v128 = wasm_v128_bitselect(a_.wasm_v128, b_.wasm_v128, c_.wasm_v128);
    #elif defined(SIMDE_POWER_ALTIVEC_P7_NATIVE)
      r_.altivec_i32 = vec_sel(b_.altivec_i32, a_.altivec_i32, c_.altivec_u32);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i32f = (c_.i32f & a_.i32f) | (~c_.i32f & b_.i32f);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i32f) / sizeof(r_.i32f[0])) ; i++) {
        r_.i32f[i] = (c_.i32f[i] & a_.i32f[i]) | (~c_.i32f[i] & b_.i32f[i]);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_cmov_si128(a, b, c) simde_mm_cmov_si128((a), (b), (c))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m256i
simde_mm256_cmov_si256 (simde__m256i a, simde__m256i b, simde__m256i c) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(SIMDE_X86_AVX_NATIVE) && !defined(SIMDE_BUG_GCC_98521) && !defined(SIMDE_BUG_MCST_LCC_MISSING_CMOV_M256)
    return _mm256_cmov_si256(a, b, c);
  #elif defined(SIMDE_X86_AVX512VL_NATIVE)
    return _mm256_ternarylogic_epi32(a, b, c, 0xe4);
  #elif defined(SIMDE_X86_AVX2_NATIVE)
    return _mm256_or_si256(_mm256_and_si256(c, a), _mm256_andnot_si256(c, b));
  #else
    simde__m256i_private
      r_,
      a_ = simde__m256i_to_private(a),
      b_ = simde__m256i_to_private(b),
      c_ = simde__m256i_to_private(c);

    #if SIMDE_NATURAL_VECTOR_SIZE_LE(128)
      for (size_t i = 0 ; i < (sizeof(r_.m128i) / sizeof(r_.m128i[0])) ; i++) {
        r_.m128i[i] = simde_mm_cmov_si128(a_.m128i[i], b_.m128i[i], c_.m128i[i]);
      }
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i32f) / sizeof(r_.i32f[0])) ; i++) {
        r_.i32f[i] = (c_.i32f[i] & a_.i32f[i]) | (~c_.i32f[i] & b_.i32f[i]);
      }
    #endif

    return simde__m256i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm256_cmov_si256(a, b, c) simde_mm256_cmov_si256((a), (b), (c))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comeq_epi8 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_EQ)
    return _mm_com_epi8(a, b, _MM_PCOMCTRL_EQ);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comeq_epi8(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u8 = vceqq_s8(a_.neon_i8, b_.neon_i8);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i8 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i8), a_.i8 == b_.i8);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i8) / sizeof(r_.i8[0])) ; i++) {
        r_.i8[i] = (a_.i8[i] == b_.i8[i]) ? ~INT8_C(0) : INT8_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comeq_epi8(a, b) simde_mm_comeq_epi8((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comeq_epi16 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_EQ)
    return _mm_com_epi16(a, b, _MM_PCOMCTRL_EQ);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comeq_epi16(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u16 = vceqq_s16(a_.neon_i16, b_.neon_i16);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i16 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i16), a_.i16 == b_.i16);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i16) / sizeof(r_.i16[0])) ; i++) {
        r_.i16[i] = (a_.i16[i] == b_.i16[i]) ? ~INT16_C(0) : INT16_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comeq_epi16(a, b) simde_mm_comeq_epi16((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comeq_epi32 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_EQ)
    return _mm_com_epi32(a, b, _MM_PCOMCTRL_EQ);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comeq_epi32(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u32 = vceqq_s32(a_.neon_i32, b_.neon_i32);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i32 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i32), a_.i32 == b_.i32);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i32) / sizeof(r_.i32[0])) ; i++) {
        r_.i32[i] = (a_.i32[i] == b_.i32[i]) ? ~INT32_C(0) : INT32_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comeq_epi32(a, b) simde_mm_comeq_epi32((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comeq_epi64 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_EQ)
    return _mm_com_epi64(a, b, _MM_PCOMCTRL_EQ);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comeq_epi64(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A64V8_NATIVE)
      r_.neon_u64 = vceqq_s64(a_.neon_i64, b_.neon_i64);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i64 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i64), a_.i64 == b_.i64);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i64) / sizeof(r_.i64[0])) ; i++) {
        r_.i64[i] = (a_.i64[i] == b_.i64[i]) ? ~INT64_C(0) : INT64_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comeq_epi64(a, b) simde_mm_comeq_epi64((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comeq_epu8 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_EQ)
    return _mm_com_epu8(a, b, _MM_PCOMCTRL_EQ);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comeq_epu8(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u8 = vceqq_u8(a_.neon_u8, b_.neon_u8);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u8 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u8), a_.u8 == b_.u8);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u8) / sizeof(r_.u8[0])) ; i++) {
        r_.u8[i] = (a_.u8[i] == b_.u8[i]) ? ~INT8_C(0) : INT8_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comeq_epu8(a, b) simde_mm_comeq_epu8((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comeq_epu16 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_EQ)
    return _mm_com_epu16(a, b, _MM_PCOMCTRL_EQ);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comeq_epu16(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u16 = vceqq_u16(a_.neon_u16, b_.neon_u16);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u16 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u16), a_.u16 == b_.u16);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u16) / sizeof(r_.u16[0])) ; i++) {
        r_.u16[i] = (a_.u16[i] == b_.u16[i]) ? ~INT16_C(0) : INT16_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comeq_epu16(a, b) simde_mm_comeq_epu16((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comeq_epu32 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_EQ)
    return _mm_com_epu32(a, b, _MM_PCOMCTRL_EQ);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comeq_epu32(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u32 = vceqq_u32(a_.neon_u32, b_.neon_u32);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u32 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u32), a_.u32 == b_.u32);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u32) / sizeof(r_.u32[0])) ; i++) {
        r_.u32[i] = (a_.u32[i] == b_.u32[i]) ? ~INT32_C(0) : INT32_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comeq_epu32(a, b) simde_mm_comeq_epu32((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comeq_epu64 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_EQ)
    return _mm_com_epu64(a, b, _MM_PCOMCTRL_EQ);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comeq_epu64(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A64V8_NATIVE)
      r_.neon_u64 = vceqq_u64(a_.neon_u64, b_.neon_u64);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u64 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u64), a_.u64 == b_.u64);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u64) / sizeof(r_.u64[0])) ; i++) {
        r_.u64[i] = (a_.u64[i] == b_.u64[i]) ? ~INT64_C(0) : INT64_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comeq_epu64(a, b) simde_mm_comeq_epu64((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comge_epi8 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_GE)
    return _mm_com_epi8(a, b, _MM_PCOMCTRL_GE);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comge_epi8(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u8 = vcgeq_s8(a_.neon_i8, b_.neon_i8);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i8 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i8), a_.i8 >= b_.i8);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i8) / sizeof(r_.i8[0])) ; i++) {
        r_.i8[i] = (a_.i8[i] >= b_.i8[i]) ? ~INT8_C(0) : INT8_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comge_epi8(a, b) simde_mm_comge_epi8((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comge_epi16 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_GE)
    return _mm_com_epi16(a, b, _MM_PCOMCTRL_GE);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comge_epi16(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u16 = vcgeq_s16(a_.neon_i16, b_.neon_i16);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i16 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i16), a_.i16 >= b_.i16);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i16) / sizeof(r_.i16[0])) ; i++) {
        r_.i16[i] = (a_.i16[i] >= b_.i16[i]) ? ~INT16_C(0) : INT16_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comge_epi16(a, b) simde_mm_comge_epi16((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comge_epi32 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_GE)
    return _mm_com_epi32(a, b, _MM_PCOMCTRL_GE);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comge_epi32(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u32 = vcgeq_s32(a_.neon_i32, b_.neon_i32);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i32 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i32), a_.i32 >= b_.i32);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i32) / sizeof(r_.i32[0])) ; i++) {
        r_.i32[i] = (a_.i32[i] >= b_.i32[i]) ? ~INT32_C(0) : INT32_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comge_epi32(a, b) simde_mm_comge_epi32((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comge_epi64 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_GE)
    return _mm_com_epi64(a, b, _MM_PCOMCTRL_GE);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comge_epi64(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A64V8_NATIVE)
      r_.neon_u64 = vcgeq_s64(a_.neon_i64, b_.neon_i64);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i64 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i64), a_.i64 >= b_.i64);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i64) / sizeof(r_.i64[0])) ; i++) {
        r_.i64[i] = (a_.i64[i] >= b_.i64[i]) ? ~INT64_C(0) : INT64_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comge_epi64(a, b) simde_mm_comge_epi64((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comge_epu8 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_GE)
    return _mm_com_epu8(a, b, _MM_PCOMCTRL_GE);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comge_epu8(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u8 = vcgeq_u8(a_.neon_u8, b_.neon_u8);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u8 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u8), a_.u8 >= b_.u8);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u8) / sizeof(r_.u8[0])) ; i++) {
        r_.u8[i] = (a_.u8[i] >= b_.u8[i]) ? ~INT8_C(0) : INT8_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comge_epu8(a, b) simde_mm_comge_epu8((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comge_epu16 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_GE)
    return _mm_com_epu16(a, b, _MM_PCOMCTRL_GE);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comge_epu16(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u16 = vcgeq_u16(a_.neon_u16, b_.neon_u16);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u16 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u16), a_.u16 >= b_.u16);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u16) / sizeof(r_.u16[0])) ; i++) {
        r_.u16[i] = (a_.u16[i] >= b_.u16[i]) ? ~INT16_C(0) : INT16_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comge_epu16(a, b) simde_mm_comge_epu16((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comge_epu32 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_GE)
    return _mm_com_epu32(a, b, _MM_PCOMCTRL_GE);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comge_epu32(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u32 = vcgeq_u32(a_.neon_u32, b_.neon_u32);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u32 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u32), a_.u32 >= b_.u32);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u32) / sizeof(r_.u32[0])) ; i++) {
        r_.u32[i] = (a_.u32[i] >= b_.u32[i]) ? ~INT32_C(0) : INT32_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comge_epu32(a, b) simde_mm_comge_epu32((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comge_epu64 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_GE)
    return _mm_com_epu64(a, b, _MM_PCOMCTRL_GE);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comge_epu64(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A64V8_NATIVE)
      r_.neon_u64 = vcgeq_u64(a_.neon_u64, b_.neon_u64);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u64 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u64), a_.u64 >= b_.u64);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u64) / sizeof(r_.u64[0])) ; i++) {
        r_.u64[i] = (a_.u64[i] >= b_.u64[i]) ? ~INT64_C(0) : INT64_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comge_epu64(a, b) simde_mm_comge_epu64((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comgt_epi8 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_GT)
    return _mm_com_epi8(a, b, _MM_PCOMCTRL_GT);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comgt_epi8(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u8 = vcgtq_s8(a_.neon_i8, b_.neon_i8);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i8 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i8), a_.i8 > b_.i8);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i8) / sizeof(r_.i8[0])) ; i++) {
        r_.i8[i] = (a_.i8[i] > b_.i8[i]) ? ~INT8_C(0) : INT8_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comgt_epi8(a, b) simde_mm_comgt_epi8((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comgt_epi16 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_GT)
    return _mm_com_epi16(a, b, _MM_PCOMCTRL_GT);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comgt_epi16(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u16 = vcgtq_s16(a_.neon_i16, b_.neon_i16);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i16 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i16), a_.i16 > b_.i16);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i16) / sizeof(r_.i16[0])) ; i++) {
        r_.i16[i] = (a_.i16[i] > b_.i16[i]) ? ~INT16_C(0) : INT16_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comgt_epi16(a, b) simde_mm_comgt_epi16((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comgt_epi32 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_GT)
    return _mm_com_epi32(a, b, _MM_PCOMCTRL_GT);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comgt_epi32(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u32 = vcgtq_s32(a_.neon_i32, b_.neon_i32);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i32 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i32), a_.i32 > b_.i32);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i32) / sizeof(r_.i32[0])) ; i++) {
        r_.i32[i] = (a_.i32[i] > b_.i32[i]) ? ~INT32_C(0) : INT32_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comgt_epi32(a, b) simde_mm_comgt_epi32((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comgt_epi64 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_GT)
    return _mm_com_epi64(a, b, _MM_PCOMCTRL_GT);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comgt_epi64(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A64V8_NATIVE)
      r_.neon_u64 = vcgtq_s64(a_.neon_i64, b_.neon_i64);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i64 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i64), a_.i64 > b_.i64);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i64) / sizeof(r_.i64[0])) ; i++) {
        r_.i64[i] = (a_.i64[i] > b_.i64[i]) ? ~INT64_C(0) : INT64_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comgt_epi64(a, b) simde_mm_comgt_epi64((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comgt_epu8 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_GT)
    return _mm_com_epu8(a, b, _MM_PCOMCTRL_GT);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comgt_epu8(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u8 = vcgtq_u8(a_.neon_u8, b_.neon_u8);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u8 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u8), a_.u8 > b_.u8);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u8) / sizeof(r_.u8[0])) ; i++) {
        r_.u8[i] = (a_.u8[i] > b_.u8[i]) ? ~INT8_C(0) : INT8_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comgt_epu8(a, b) simde_mm_comgt_epu8((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comgt_epu16 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_GT)
    return _mm_com_epu16(a, b, _MM_PCOMCTRL_GT);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comgt_epu16(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u16 = vcgtq_u16(a_.neon_u16, b_.neon_u16);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u16 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u16), a_.u16 > b_.u16);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u16) / sizeof(r_.u16[0])) ; i++) {
        r_.u16[i] = (a_.u16[i] > b_.u16[i]) ? ~INT16_C(0) : INT16_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comgt_epu16(a, b) simde_mm_comgt_epu16((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comgt_epu32 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_GT)
    return _mm_com_epu32(a, b, _MM_PCOMCTRL_GT);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comgt_epu32(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u32 = vcgtq_u32(a_.neon_u32, b_.neon_u32);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u32 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u32), a_.u32 > b_.u32);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u32) / sizeof(r_.u32[0])) ; i++) {
        r_.u32[i] = (a_.u32[i] > b_.u32[i]) ? ~INT32_C(0) : INT32_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comgt_epu32(a, b) simde_mm_comgt_epu32((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comgt_epu64 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_GT)
    return _mm_com_epu64(a, b, _MM_PCOMCTRL_GT);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comgt_epu64(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A64V8_NATIVE)
      r_.neon_u64 = vcgtq_u64(a_.neon_u64, b_.neon_u64);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u64 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u64), a_.u64 > b_.u64);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u64) / sizeof(r_.u64[0])) ; i++) {
        r_.u64[i] = (a_.u64[i] > b_.u64[i]) ? ~INT64_C(0) : INT64_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comgt_epu64(a, b) simde_mm_comgt_epu64((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comle_epi8 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_LE)
    return _mm_com_epi8(a, b, _MM_PCOMCTRL_LE);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comle_epi8(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u8 = vcleq_s8(a_.neon_i8, b_.neon_i8);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i8 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i8), a_.i8 <= b_.i8);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i8) / sizeof(r_.i8[0])) ; i++) {
        r_.i8[i] = (a_.i8[i] <= b_.i8[i]) ? ~INT8_C(0) : INT8_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comle_epi8(a, b) simde_mm_comle_epi8((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comle_epi16 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_LE)
    return _mm_com_epi16(a, b, _MM_PCOMCTRL_LE);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comle_epi16(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i16 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i16), a_.i16 <= b_.i16);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i16) / sizeof(r_.i16[0])) ; i++) {
        r_.i16[i] = (a_.i16[i] <= b_.i16[i]) ? ~INT16_C(0) : INT16_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comle_epi16(a, b) simde_mm_comle_epi16((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comle_epi32 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_LE)
    return _mm_com_epi32(a, b, _MM_PCOMCTRL_LE);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comle_epi32(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u32 = vcleq_s32(a_.neon_i32, b_.neon_i32);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i32 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i32), a_.i32 <= b_.i32);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i32) / sizeof(r_.i32[0])) ; i++) {
        r_.i32[i] = (a_.i32[i] <= b_.i32[i]) ? ~INT32_C(0) : INT32_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comle_epi32(a, b) simde_mm_comle_epi32((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comle_epi64 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_LE)
    return _mm_com_epi64(a, b, _MM_PCOMCTRL_LE);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comle_epi64(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A64V8_NATIVE)
      r_.neon_u64 = vcleq_s64(a_.neon_i64, b_.neon_i64);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i64 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i64), a_.i64 <= b_.i64);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i64) / sizeof(r_.i64[0])) ; i++) {
        r_.i64[i] = (a_.i64[i] <= b_.i64[i]) ? ~INT64_C(0) : INT64_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comle_epi64(a, b) simde_mm_comle_epi64((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comle_epu8 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_LE)
    return _mm_com_epu8(a, b, _MM_PCOMCTRL_LE);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comle_epu8(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u8 = vcleq_u8(a_.neon_u8, b_.neon_u8);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u8 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u8), a_.u8 <= b_.u8);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u8) / sizeof(r_.u8[0])) ; i++) {
        r_.u8[i] = (a_.u8[i] <= b_.u8[i]) ? ~INT8_C(0) : INT8_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comle_epu8(a, b) simde_mm_comle_epu8((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comle_epu16 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_LE)
    return _mm_com_epu16(a, b, _MM_PCOMCTRL_LE);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comle_epu16(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u16 = vcleq_u16(a_.neon_u16, b_.neon_u16);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u16 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u16), a_.u16 <= b_.u16);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u16) / sizeof(r_.u16[0])) ; i++) {
        r_.u16[i] = (a_.u16[i] <= b_.u16[i]) ? ~INT16_C(0) : INT16_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comle_epu16(a, b) simde_mm_comle_epu16((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comle_epu32 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_LE)
    return _mm_com_epu32(a, b, _MM_PCOMCTRL_LE);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comle_epu32(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u32 = vcleq_u32(a_.neon_u32, b_.neon_u32);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u32 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u32), a_.u32 <= b_.u32);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u32) / sizeof(r_.u32[0])) ; i++) {
        r_.u32[i] = (a_.u32[i] <= b_.u32[i]) ? ~INT32_C(0) : INT32_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comle_epu32(a, b) simde_mm_comle_epu32((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comle_epu64 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_LE)
    return _mm_com_epu64(a, b, _MM_PCOMCTRL_LE);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comle_epu64(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A64V8_NATIVE)
      r_.neon_u64 = vcleq_u64(a_.neon_u64, b_.neon_u64);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u64 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u64), a_.u64 <= b_.u64);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u64) / sizeof(r_.u64[0])) ; i++) {
        r_.u64[i] = (a_.u64[i] <= b_.u64[i]) ? ~INT64_C(0) : INT64_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comle_epu64(a, b) simde_mm_comle_epu64((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comlt_epi8 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_LT)
    return _mm_com_epi8(a, b, _MM_PCOMCTRL_LT);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comlt_epi8(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u8 = vcltq_s8(a_.neon_i8, b_.neon_i8);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i8 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i8), a_.i8 < b_.i8);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i8) / sizeof(r_.i8[0])) ; i++) {
        r_.i8[i] = (a_.i8[i] < b_.i8[i]) ? ~INT8_C(0) : INT8_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comlt_epi8(a, b) simde_mm_comlt_epi8((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comlt_epi16 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_LT)
    return _mm_com_epi16(a, b, _MM_PCOMCTRL_LT);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comlt_epi16(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u16 = vcltq_s16(a_.neon_i16, b_.neon_i16);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i16 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i16), a_.i16 < b_.i16);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i16) / sizeof(r_.i16[0])) ; i++) {
        r_.i16[i] = (a_.i16[i] < b_.i16[i]) ? ~INT16_C(0) : INT16_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comlt_epi16(a, b) simde_mm_comlt_epi16((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comlt_epi32 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_LT)
    return _mm_com_epi32(a, b, _MM_PCOMCTRL_LT);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comlt_epi32(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u32 = vcltq_s32(a_.neon_i32, b_.neon_i32);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i32 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i32), a_.i32 < b_.i32);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i32) / sizeof(r_.i32[0])) ; i++) {
        r_.i32[i] = (a_.i32[i] < b_.i32[i]) ? ~INT32_C(0) : INT32_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comlt_epi32(a, b) simde_mm_comlt_epi32((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comlt_epi64 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_LT)
    return _mm_com_epi64(a, b, _MM_PCOMCTRL_LT);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comlt_epi64(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A64V8_NATIVE)
      r_.neon_u64 = vcltq_s64(a_.neon_i64, b_.neon_i64);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i64 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i64), a_.i64 < b_.i64);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i64) / sizeof(r_.i64[0])) ; i++) {
        r_.i64[i] = (a_.i64[i] < b_.i64[i]) ? ~INT64_C(0) : INT64_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comlt_epi64(a, b) simde_mm_comlt_epi64((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comlt_epu8 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_LT)
    return _mm_com_epu8(a, b, _MM_PCOMCTRL_LT);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comlt_epu8(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u8 = vcltq_u8(a_.neon_u8, b_.neon_u8);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u8 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u8), a_.u8 < b_.u8);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u8) / sizeof(r_.u8[0])) ; i++) {
        r_.u8[i] = (a_.u8[i] < b_.u8[i]) ? ~INT8_C(0) : INT8_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comlt_epu8(a, b) simde_mm_comlt_epu8((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comlt_epu16 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_LT)
    return _mm_com_epu16(a, b, _MM_PCOMCTRL_LT);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comlt_epu16(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u16 = vcltq_u16(a_.neon_u16, b_.neon_u16);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u16 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u16), a_.u16 < b_.u16);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u16) / sizeof(r_.u16[0])) ; i++) {
        r_.u16[i] = (a_.u16[i] < b_.u16[i]) ? ~INT16_C(0) : INT16_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comlt_epu16(a, b) simde_mm_comlt_epu16((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comlt_epu32 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_LT)
    return _mm_com_epu32(a, b, _MM_PCOMCTRL_LT);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comlt_epu32(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u32 = vcltq_u32(a_.neon_u32, b_.neon_u32);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u32 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u32), a_.u32 < b_.u32);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u32) / sizeof(r_.u32[0])) ; i++) {
        r_.u32[i] = (a_.u32[i] < b_.u32[i]) ? ~INT32_C(0) : INT32_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comlt_epu32(a, b) simde_mm_comlt_epu32((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comlt_epu64 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_LT)
    return _mm_com_epu64(a, b, _MM_PCOMCTRL_LT);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comlt_epu64(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A64V8_NATIVE)
      r_.neon_u64 = vcltq_u64(a_.neon_u64, b_.neon_u64);
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u64 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u64), a_.u64 < b_.u64);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u64) / sizeof(r_.u64[0])) ; i++) {
        r_.u64[i] = (a_.u64[i] < b_.u64[i]) ? ~INT64_C(0) : INT64_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comlt_epu64(a, b) simde_mm_comlt_epu64((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comneq_epi8 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_NEQ)
    return _mm_com_epi8(a, b, _MM_PCOMCTRL_NEQ);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comneq_epi8(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u8 = vmvnq_u8(vceqq_s8(a_.neon_i8, b_.neon_i8));
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i8 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i8), a_.i8 != b_.i8);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i8) / sizeof(r_.i8[0])) ; i++) {
        r_.i8[i] = (a_.i8[i] != b_.i8[i]) ? ~INT8_C(0) : INT8_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comneq_epi8(a, b) simde_mm_comneq_epi8((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comneq_epi16 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_NEQ)
    return _mm_com_epi16(a, b, _MM_PCOMCTRL_NEQ);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comneq_epi16(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u16 = vmvnq_u16(vceqq_s16(a_.neon_i16, b_.neon_i16));
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i16 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i16), a_.i16 != b_.i16);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i16) / sizeof(r_.i16[0])) ; i++) {
        r_.i16[i] = (a_.i16[i] != b_.i16[i]) ? ~INT16_C(0) : INT16_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comneq_epi16(a, b) simde_mm_comneq_epi16((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comneq_epi32 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_NEQ)
    return _mm_com_epi32(a, b, _MM_PCOMCTRL_NEQ);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comneq_epi32(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u32 = vmvnq_u32(vceqq_s32(a_.neon_i32, b_.neon_i32));
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i32 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i32), a_.i32 != b_.i32);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i32) / sizeof(r_.i32[0])) ; i++) {
        r_.i32[i] = (a_.i32[i] != b_.i32[i]) ? ~INT32_C(0) : INT32_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comneq_epi32(a, b) simde_mm_comneq_epi32((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comneq_epi64 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_NEQ)
    return _mm_com_epi64(a, b, _MM_PCOMCTRL_NEQ);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comneq_epi64(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A64V8_NATIVE)
      r_.neon_u32 = vmvnq_u32(vreinterpretq_u32_u64(vceqq_s64(a_.neon_i64, b_.neon_i64)));
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.i64 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.i64), a_.i64 != b_.i64);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.i64) / sizeof(r_.i64[0])) ; i++) {
        r_.i64[i] = (a_.i64[i] != b_.i64[i]) ? ~INT64_C(0) : INT64_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comneq_epi64(a, b) simde_mm_comneq_epi64((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comneq_epu8 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_NEQ)
    return _mm_com_epu8(a, b, _MM_PCOMCTRL_NEQ);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comneq_epu8(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u8 = vmvnq_u8(vceqq_u8(a_.neon_u8, b_.neon_u8));
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u8 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u8), a_.u8 != b_.u8);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u8) / sizeof(r_.u8[0])) ; i++) {
        r_.u8[i] = (a_.u8[i] != b_.u8[i]) ? ~INT8_C(0) : INT8_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comneq_epu8(a, b) simde_mm_comneq_epu8((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comneq_epu16 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_NEQ)
    return _mm_com_epu16(a, b, _MM_PCOMCTRL_NEQ);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comneq_epu16(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u16 = vmvnq_u16(vceqq_u16(a_.neon_u16, b_.neon_u16));
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u16 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u16), a_.u16 != b_.u16);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u16) / sizeof(r_.u16[0])) ; i++) {
        r_.u16[i] = (a_.u16[i] != b_.u16[i]) ? ~INT16_C(0) : INT16_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comneq_epu16(a, b) simde_mm_comneq_epu16((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comneq_epu32 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_NEQ)
    return _mm_com_epu32(a, b, _MM_PCOMCTRL_NEQ);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comneq_epu32(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A32V7_NATIVE)
      r_.neon_u32 = vmvnq_u32(vceqq_u32(a_.neon_u32, b_.neon_u32));
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u32 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u32), a_.u32 != b_.u32);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u32) / sizeof(r_.u32[0])) ; i++) {
        r_.u32[i] = (a_.u32[i] != b_.u32[i]) ? ~INT32_C(0) : INT32_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comneq_epu32(a, b) simde_mm_comneq_epu32((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comneq_epu64 (simde__m128i a, simde__m128i b) {
  #if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_NEQ)
    return _mm_com_epu64(a, b, _MM_PCOMCTRL_NEQ);
  #elif defined(SIMDE_X86_XOP_NATIVE)
    return _mm_comneq_epu64(a, b);
  #else
    simde__m128i_private
      r_,
      a_ = simde__m128i_to_private(a),
      b_ = simde__m128i_to_private(b);

    #if defined(SIMDE_ARM_NEON_A64V8_NATIVE)
      r_.neon_u32 = vmvnq_u32(vreinterpretq_u32_u64(vceqq_u64(a_.neon_u64, b_.neon_u64)));
    #elif defined(SIMDE_VECTOR_SUBSCRIPT_OPS)
      r_.u64 = HEDLEY_REINTERPRET_CAST(__typeof__(r_.u64), a_.u64 != b_.u64);
    #else
      SIMDE_VECTORIZE
      for (size_t i = 0 ; i < (sizeof(r_.u64) / sizeof(r_.u64[0])) ; i++) {
        r_.u64[i] = (a_.u64[i] != b_.u64[i]) ? ~INT64_C(0) : INT64_C(0);
      }
    #endif

    return simde__m128i_from_private(r_);
  #endif
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comneq_epu64(a, b) simde_mm_comneq_epu64((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comfalse_epi8 (simde__m128i a, simde__m128i b) {
  (void) a;
  (void) b;
  return simde_mm_setzero_si128();
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comfalse_epi8(a, b) simde_mm_comfalse_epi8((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comfalse_epi16 (simde__m128i a, simde__m128i b) {
  (void) a;
  (void) b;
  return simde_mm_setzero_si128();
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comfalse_epi16(a, b) simde_mm_comfalse_epi16((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comfalse_epi32 (simde__m128i a, simde__m128i b) {
  (void) a;
  (void) b;
  return simde_mm_setzero_si128();
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comfalse_epi32(a, b) simde_mm_comfalse_epi32((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comfalse_epi64 (simde__m128i a, simde__m128i b) {
  (void) a;
  (void) b;
  return simde_mm_setzero_si128();
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comfalse_epi64(a, b) simde_mm_comfalse_epi64((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comfalse_epu8 (simde__m128i a, simde__m128i b) {
  (void) a;
  (void) b;
  return simde_mm_setzero_si128();
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comfalse_epu8(a, b) simde_mm_comfalse_epu8((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comfalse_epu16 (simde__m128i a, simde__m128i b) {
  (void) a;
  (void) b;
  return simde_mm_setzero_si128();
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comfalse_epu16(a, b) simde_mm_comfalse_epu16((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comfalse_epu32 (simde__m128i a, simde__m128i b) {
  (void) a;
  (void) b;
  return simde_mm_setzero_si128();
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comfalse_epu32(a, b) simde_mm_comfalse_epu32((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comfalse_epu64 (simde__m128i a, simde__m128i b) {
  (void) a;
  (void) b;
  return simde_mm_setzero_si128();
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comfalse_epu64(a, b) simde_mm_comfalse_epu64((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comtrue_epi8 (simde__m128i a, simde__m128i b) {
  (void) a;
  (void) b;
  return simde_x_mm_setone_si128();
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comtrue_epi8(a, b) simde_mm_comtrue_epi8((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comtrue_epi16 (simde__m128i a, simde__m128i b) {
  (void) a;
  (void) b;
  return simde_x_mm_setone_si128();
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comtrue_epi16(a, b) simde_mm_comtrue_epi16((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comtrue_epi32 (simde__m128i a, simde__m128i b) {
  (void) a;
  (void) b;
  return simde_x_mm_setone_si128();
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comtrue_epi32(a, b) simde_mm_comtrue_epi32((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comtrue_epi64 (simde__m128i a, simde__m128i b) {
  (void) a;
  (void) b;
  return simde_x_mm_setone_si128();
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comtrue_epi64(a, b) simde_mm_comtrue_epi64((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comtrue_epu8 (simde__m128i a, simde__m128i b) {
  (void) a;
  (void) b;
  return simde_x_mm_setone_si128();
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comtrue_epu8(a, b) simde_mm_comtrue_epu8((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comtrue_epu16 (simde__m128i a, simde__m128i b) {
  (void) a;
  (void) b;
  return simde_x_mm_setone_si128();
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comtrue_epu16(a, b) simde_mm_comtrue_epu16((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comtrue_epu32 (simde__m128i a, simde__m128i b) {
  (void) a;
  (void) b;
  return simde_x_mm_setone_si128();
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comtrue_epu32(a, b) simde_mm_comtrue_epu32((a), (b))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_comtrue_epu64 (simde__m128i a, simde__m128i b) {
  (void) a;
  (void) b;
  return simde_x_mm_setone_si128();
}
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_comtrue_epu64(a, b) simde_mm_comtrue_epu64((a), (b))
#endif

#if defined(SIMDE_X86_XOP_NATIVE) && defined(_MM_PCOMCTRL_LT)
  #define SIMDE_X86_XOP_HAVE_COM_ 1
  #define SIMDE_MM_PCOMCTRL_LT    _MM_PCOMCTRL_LT
  #define SIMDE_MM_PCOMCTRL_LE    _MM_PCOMCTRL_LE
  #define SIMDE_MM_PCOMCTRL_GT    _MM_PCOMCTRL_GT
  #define SIMDE_MM_PCOMCTRL_GE    _MM_PCOMCTRL_GE
  #define SIMDE_MM_PCOMCTRL_EQ    _MM_PCOMCTRL_EQ
  #define SIMDE_MM_PCOMCTRL_NEQ   _MM_PCOMCTRL_NEQ
  #define SIMDE_MM_PCOMCTRL_FALSE _MM_PCOMCTRL_FALSE
  #define SIMDE_MM_PCOMCTRL_TRUE  _MM_PCOMCTRL_TRUE
#else
  #define SIMDE_MM_PCOMCTRL_LT    0
  #define SIMDE_MM_PCOMCTRL_LE    1
  #define SIMDE_MM_PCOMCTRL_GT    2
  #define SIMDE_MM_PCOMCTRL_GE    3
  #define SIMDE_MM_PCOMCTRL_EQ    4
  #define SIMDE_MM_PCOMCTRL_NEQ   5
  #define SIMDE_MM_PCOMCTRL_FALSE 6
  #define SIMDE_MM_PCOMCTRL_TRUE  7

  #if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
    #define _MM_PCOMCTRL_LT    SIMDE_MM_PCOMCTRL_LT
    #define _MM_PCOMCTRL_LE    SIMDE_MM_PCOMCTRL_LE
    #define _MM_PCOMCTRL_GT    SIMDE_MM_PCOMCTRL_GT
    #define _MM_PCOMCTRL_GE    SIMDE_MM_PCOMCTRL_GE
    #define _MM_PCOMCTRL_EQ    SIMDE_MM_PCOMCTRL_EQ
    #define _MM_PCOMCTRL_NEQ   SIMDE_MM_PCOMCTRL_NEQ
    #define _MM_PCOMCTRL_FALSE SIMDE_MM_PCOMCTRL_FALSE
    #define _MM_PCOMCTRL_TRUE  SIMDE_MM_PCOMCTRL_TRUE
  #endif
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_com_epi8 (simde__m128i a, simde__m128i b, const int imm8)
    SIMDE_REQUIRE_CONSTANT_RANGE(imm8, 0, 7) {
  switch (imm8) {
    case SIMDE_MM_PCOMCTRL_LT:
      return simde_mm_comlt_epi8(a, b);
    case SIMDE_MM_PCOMCTRL_LE:
      return simde_mm_comle_epi8(a, b);
    case SIMDE_MM_PCOMCTRL_GT:
      return simde_mm_comgt_epi8(a, b);
    case SIMDE_MM_PCOMCTRL_GE:
      return simde_mm_comge_epi8(a, b);
    case SIMDE_MM_PCOMCTRL_EQ:
      return simde_mm_comeq_epi8(a, b);
    case SIMDE_MM_PCOMCTRL_NEQ:
      return simde_mm_comneq_epi8(a, b);
    case SIMDE_MM_PCOMCTRL_FALSE:
      return simde_mm_comfalse_epi8(a, b);
    case SIMDE_MM_PCOMCTRL_TRUE:
      return simde_mm_comtrue_epi8(a, b);
    default:
      HEDLEY_UNREACHABLE_RETURN(simde_mm_setzero_si128());
  }
}
#if defined(SIMDE_X86_XOP_NATIVE) && defined(SIMDE_X86_XOP_HAVE_COM_)
  #define simde_mm_com_epi8(a, b, imm8) _mm_com_epi8((a), (b), (imm8))
#endif
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_com_epi8(a, b, imm8) simde_mm_com_epi8((a), (b), (imm8))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_com_epi16 (simde__m128i a, simde__m128i b, const int imm8)
    SIMDE_REQUIRE_CONSTANT_RANGE(imm8, 0, 7) {
  switch (imm8) {
    case SIMDE_MM_PCOMCTRL_LT:
      return simde_mm_comlt_epi16(a, b);
    case SIMDE_MM_PCOMCTRL_LE:
      return simde_mm_comle_epi16(a, b);
    case SIMDE_MM_PCOMCTRL_GT:
      return simde_mm_comgt_epi16(a, b);
    case SIMDE_MM_PCOMCTRL_GE:
      return simde_mm_comge_epi16(a, b);
    case SIMDE_MM_PCOMCTRL_EQ:
      return simde_mm_comeq_epi16(a, b);
    case SIMDE_MM_PCOMCTRL_NEQ:
      return simde_mm_comneq_epi16(a, b);
    case SIMDE_MM_PCOMCTRL_FALSE:
      return simde_mm_comfalse_epi16(a, b);
    case SIMDE_MM_PCOMCTRL_TRUE:
      return simde_mm_comtrue_epi16(a, b);
    default:
      HEDLEY_UNREACHABLE_RETURN(simde_mm_setzero_si128());
  }
}
#if defined(SIMDE_X86_XOP_NATIVE) && defined(SIMDE_X86_XOP_HAVE_COM_)
  #define simde_mm_com_epi16(a, b, imm8) _mm_com_epi16((a), (b), (imm8))
#endif
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_com_epi16(a, b, imm8) simde_mm_com_epi16((a), (b), (imm8))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_com_epi32 (simde__m128i a, simde__m128i b, const int imm8)
    SIMDE_REQUIRE_CONSTANT_RANGE(imm8, 0, 7) {
  switch (imm8) {
    case SIMDE_MM_PCOMCTRL_LT:
      return simde_mm_comlt_epi32(a, b);
    case SIMDE_MM_PCOMCTRL_LE:
      return simde_mm_comle_epi32(a, b);
    case SIMDE_MM_PCOMCTRL_GT:
      return simde_mm_comgt_epi32(a, b);
    case SIMDE_MM_PCOMCTRL_GE:
      return simde_mm_comge_epi32(a, b);
    case SIMDE_MM_PCOMCTRL_EQ:
      return simde_mm_comeq_epi32(a, b);
    case SIMDE_MM_PCOMCTRL_NEQ:
      return simde_mm_comneq_epi32(a, b);
    case SIMDE_MM_PCOMCTRL_FALSE:
      return simde_mm_comfalse_epi32(a, b);
    case SIMDE_MM_PCOMCTRL_TRUE:
      return simde_mm_comtrue_epi32(a, b);
    default:
      HEDLEY_UNREACHABLE_RETURN(simde_mm_setzero_si128());
  }
}
#if defined(SIMDE_X86_XOP_NATIVE) && defined(SIMDE_X86_XOP_HAVE_COM_)
  #define simde_mm_com_epi32(a, b, imm8) _mm_com_epi32((a), (b), (imm8))
#endif
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_com_epi32(a, b, imm8) simde_mm_com_epi32((a), (b), (imm8))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_com_epi64 (simde__m128i a, simde__m128i b, const int imm8)
    SIMDE_REQUIRE_CONSTANT_RANGE(imm8, 0, 7) {
  switch (imm8) {
    case SIMDE_MM_PCOMCTRL_LT:
      return simde_mm_comlt_epi64(a, b);
    case SIMDE_MM_PCOMCTRL_LE:
      return simde_mm_comle_epi64(a, b);
    case SIMDE_MM_PCOMCTRL_GT:
      return simde_mm_comgt_epi64(a, b);
    case SIMDE_MM_PCOMCTRL_GE:
      return simde_mm_comge_epi64(a, b);
    case SIMDE_MM_PCOMCTRL_EQ:
      return simde_mm_comeq_epi64(a, b);
    case SIMDE_MM_PCOMCTRL_NEQ:
      return simde_mm_comneq_epi64(a, b);
    case SIMDE_MM_PCOMCTRL_FALSE:
      return simde_mm_comfalse_epi64(a, b);
    case SIMDE_MM_PCOMCTRL_TRUE:
      return simde_mm_comtrue_epi64(a, b);
    default:
      HEDLEY_UNREACHABLE_RETURN(simde_mm_setzero_si128());
  }
}
#if defined(SIMDE_X86_XOP_NATIVE) && defined(SIMDE_X86_XOP_HAVE_COM_)
  #define simde_mm_com_epi64(a, b, imm8) _mm_com_epi64((a), (b), (imm8))
#endif
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_com_epi64(a, b, imm8) simde_mm_com_epi64((a), (b), (imm8))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_com_epu8 (simde__m128i a, simde__m128i b, const int imm8)
    SIMDE_REQUIRE_CONSTANT_RANGE(imm8, 0, 7) {
  switch (imm8) {
    case SIMDE_MM_PCOMCTRL_LT:
      return simde_mm_comlt_epu8(a, b);
    case SIMDE_MM_PCOMCTRL_LE:
      return simde_mm_comle_epu8(a, b);
    case SIMDE_MM_PCOMCTRL_GT:
      return simde_mm_comgt_epu8(a, b);
    case SIMDE_MM_PCOMCTRL_GE:
      return simde_mm_comge_epu8(a, b);
    case SIMDE_MM_PCOMCTRL_EQ:
      return simde_mm_comeq_epu8(a, b);
    case SIMDE_MM_PCOMCTRL_NEQ:
      return simde_mm_comneq_epu8(a, b);
    case SIMDE_MM_PCOMCTRL_FALSE:
      return simde_mm_comfalse_epu8(a, b);
    case SIMDE_MM_PCOMCTRL_TRUE:
      return simde_mm_comtrue_epu8(a, b);
    default:
      HEDLEY_UNREACHABLE_RETURN(simde_mm_setzero_si128());
  }
}
#if defined(SIMDE_X86_XOP_NATIVE) && defined(SIMDE_X86_XOP_HAVE_COM_)
  #define simde_mm_com_epu8(a, b, imm8) _mm_com_epu8((a), (b), (imm8))
#endif
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_com_epu8(a, b, imm8) simde_mm_com_epu8((a), (b), (imm8))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_com_epu16 (simde__m128i a, simde__m128i b, const int imm8)
    SIMDE_REQUIRE_CONSTANT_RANGE(imm8, 0, 7) {
  switch (imm8) {
    case SIMDE_MM_PCOMCTRL_LT:
      return simde_mm_comlt_epu16(a, b);
    case SIMDE_MM_PCOMCTRL_LE:
      return simde_mm_comle_epu16(a, b);
    case SIMDE_MM_PCOMCTRL_GT:
      return simde_mm_comgt_epu16(a, b);
    case SIMDE_MM_PCOMCTRL_GE:
      return simde_mm_comge_epu16(a, b);
    case SIMDE_MM_PCOMCTRL_EQ:
      return simde_mm_comeq_epu16(a, b);
    case SIMDE_MM_PCOMCTRL_NEQ:
      return simde_mm_comneq_epu16(a, b);
    case SIMDE_MM_PCOMCTRL_FALSE:
      return simde_mm_comfalse_epu16(a, b);
    case SIMDE_MM_PCOMCTRL_TRUE:
      return simde_mm_comtrue_epu16(a, b);
    default:
      HEDLEY_UNREACHABLE_RETURN(simde_mm_setzero_si128());
  }
}
#if defined(SIMDE_X86_XOP_NATIVE) && defined(SIMDE_X86_XOP_HAVE_COM_)
  #define simde_mm_com_epu16(a, b, imm8) _mm_com_epu16((a), (b), (imm8))
#endif
#if defined(SIMDE_X86_XOP_ENABLE_NATIVE_ALIASES)
  #define _mm_com_epu16(a, b, imm8) simde_mm_com_epu16((a), (b), (imm8))
#endif

SIMDE_FUNCTION_ATTRIBUTES
simde__m128i
simde_mm_com_epu32 (simde__m128i a, simde__m128i b, const int imm8)
    SIMDE_REQUIRE_CONSTANT_RANGE(imm8, 0, 7) {
  switch (imm8) {
    case SIMDE_MM_PCOMCTRL_LT:
      return simde_mm_comlt_epu32(a, b);
    case SIMDE_MM_PCOMCTRL_LE:
      return simde_mm_comle_epu32(a, b);
    case SIMDE_MM_PCOMCTRL_GT:
      return simde_mm_comgt_epu32(a, b);
    case SIMDE_MM_PCOMCTRL_GE:
      return simde_mm_comge_epu32(a, b);
    case SIMDE_MM_PCOMCTRL_EQ:
      return simde_mm_comeq_epu32(a, b);
    case SIMDE_MM_PCOMCTRL_NEQ:
      return simde_mm_comneq_epu32(a, b);
    case SIMDE_MM_PCOMCTRL_FALSE:
      return simde_mm_comfalse_epu32(a, b);
    case SIMDE_MM_PCOMCTRL_TRUE:
      return simde_mm_comtrue_epu32(a, b);
    default:
      HEDLEY_UNREACHABLE_RETURN(simde_mm_setzero_si128());
  }
}
#if defined(SIMDE_X86_XOP_NATIVE) && defined(SIMDE_X86_XOP_HAVE_COM_)
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