/* 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 * 2020 Christopher Moore */ #if !defined(SIMDE_ARM_NEON_CLE_H) #define SIMDE_ARM_NEON_CLE_H #include "types.h" HEDLEY_DIAGNOSTIC_PUSH SIMDE_DISABLE_UNWANTED_DIAGNOSTICS SIMDE_BEGIN_DECLS_ SIMDE_FUNCTION_ATTRIBUTES simde_uint32x4_t simde_vcleq_f32(simde_float32x4_t a, simde_float32x4_t b) { #if defined(SIMDE_ARM_NEON_A32V7_NATIVE) return vcleq_f32(a, b); #elif defined(SIMDE_X86_SSE2_NATIVE) return _mm_castps_si128(_mm_cmple_ps(a, b)); #elif defined(SIMDE_POWER_ALTIVEC_P7_NATIVE) return HEDLEY_REINTERPRET_CAST(SIMDE_POWER_ALTIVEC_VECTOR(unsigned int), vec_cmple(a, b)); #elif defined(SIMDE_WASM_SIMD128_NATIVE) return wasm_f32x4_le(a, b); #else simde_float32x4_private a_ = simde_float32x4_to_private(a), b_ = simde_float32x4_to_private(b); simde_uint32x4_private r_; #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS) r_.values = HEDLEY_REINTERPRET_CAST(__typeof__(r_.values), a_.values <= b_.values); #else SIMDE_VECTORIZE for (size_t i = 0 ; i < (sizeof(r_.values) / sizeof(r_.values[0])) ; i++) { r_.values[i] = (a_.values[i] <= b_.values[i]) ? UINT32_MAX : 0; } #endif return simde_uint32x4_from_private(r_); #endif } #if defined(SIMDE_ARM_NEON_A32V7_ENABLE_NATIVE_ALIASES) #undef vcleq_f32 #define vcleq_f32(a, b) simde_vcleq_f32((a), (b)) #endif SIMDE_FUNCTION_ATTRIBUTES simde_uint64x2_t simde_vcleq_f64(simde_float64x2_t a, simde_float64x2_t b) { #if defined(SIMDE_ARM_NEON_A64V8_NATIVE) return vcleq_f64(a, b); #elif defined(SIMDE_X86_SSE2_NATIVE) return _mm_castpd_si128(_mm_cmple_pd(a, b)); #elif defined(SIMDE_POWER_ALTIVEC_P7_NATIVE) return HEDLEY_REINTERPRET_CAST(SIMDE_POWER_ALTIVEC_VECTOR(unsigned long long), vec_cmple(a, b)); #elif defined(SIMDE_WASM_SIMD128_NATIVE) return wasm_f64x2_le(a, b); #else simde_float64x2_private a_ = simde_float64x2_to_private(a), b_ = simde_float64x2_to_private(b); simde_uint64x2_private r_; #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS) r_.values = HEDLEY_REINTERPRET_CAST(__typeof__(r_.values), a_.values <= b_.values); #else SIMDE_VECTORIZE for (size_t i = 0 ; i < (sizeof(r_.values) / sizeof(r_.values[0])) ; i++) { r_.values[i] = (a_.values[i] <= b_.values[i]) ? UINT64_MAX : 0; } #endif return simde_uint64x2_from_private(r_); #endif } #if defined(SIMDE_ARM_NEON_A64V8_ENABLE_NATIVE_ALIASES) #undef vcleq_f64 #define vcleq_f64(a, b) simde_vcleq_f64((a), (b)) #endif SIMDE_FUNCTION_ATTRIBUTES simde_uint8x16_t simde_vcleq_s8(simde_int8x16_t a, simde_int8x16_t b) { #if defined(SIMDE_ARM_NEON_A32V7_NATIVE) return vcleq_s8(a, b); #elif defined(SIMDE_X86_SSE2_NATIVE) return _mm_or_si128(_mm_cmpgt_epi8(b, a), _mm_cmpeq_epi8(a, b)); #elif defined(SIMDE_POWER_ALTIVEC_P7_NATIVE) return HEDLEY_REINTERPRET_CAST(SIMDE_POWER_ALTIVEC_VECTOR(unsigned char), vec_cmple(a, b)); #elif defined(SIMDE_WASM_SIMD128_NATIVE) return wasm_i8x16_le(a, b); #else simde_int8x16_private a_ = simde_int8x16_to_private(a), b_ = simde_int8x16_to_private(b); simde_uint8x16_private r_; #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS) r_.values = HEDLEY_REINTERPRET_CAST(__typeof__(r_.values), a_.values <= b_.values); #else SIMDE_VECTORIZE for (size_t i = 0 ; i < (sizeof(r_.values) / sizeof(r_.values[0])) ; i++) { r_.values[i] = (a_.values[i] <= b_.values[i]) ? UINT8_MAX : 0; } #endif return simde_uint8x16_from_private(r_); #endif } #if defined(SIMDE_ARM_NEON_A32V7_ENABLE_NATIVE_ALIASES) #undef vcleq_s8 #define vcleq_s8(a, b) simde_vcleq_s8((a), (b)) #endif SIMDE_FUNCTION_ATTRIBUTES simde_uint16x8_t simde_vcleq_s16(simde_int16x8_t a, simde_int16x8_t b) { #if defined(SIMDE_ARM_NEON_A32V7_NATIVE) return vcleq_s16(a, b); #elif defined(SIMDE_X86_SSE2_NATIVE) return _mm_or_si128(_mm_cmpgt_epi16(b, a), _mm_cmpeq_epi16(a, b)); #elif defined(SIMDE_POWER_ALTIVEC_P7_NATIVE) return HEDLEY_REINTERPRET_CAST(SIMDE_POWER_ALTIVEC_VECTOR(unsigned short), vec_cmple(a, b)); #elif defined(SIMDE_WASM_SIMD128_NATIVE) return wasm_i16x8_le(a, b); #else simde_int16x8_private a_ = simde_int16x8_to_private(a), b_ = simde_int16x8_to_private(b); simde_uint16x8_private r_; #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS) r_.values = HEDLEY_REINTERPRET_CAST(__typeof__(r_.values), a_.values <= b_.values); #else SIMDE_VECTORIZE for (size_t i = 0 ; i < (sizeof(r_.values) / sizeof(r_.values[0])) ; i++) { r_.values[i] = (a_.values[i] <= b_.values[i]) ? UINT16_MAX : 0; } #endif return simde_uint16x8_from_private(r_); #endif } #if defined(SIMDE_ARM_NEON_A32V7_ENABLE_NATIVE_ALIASES) #undef vcleq_s16 #define vcleq_s16(a, b) simde_vcleq_s16((a), (b)) #endif SIMDE_FUNCTION_ATTRIBUTES simde_uint32x4_t simde_vcleq_s32(simde_int32x4_t a, simde_int32x4_t b) { #if defined(SIMDE_ARM_NEON_A32V7_NATIVE) return vcleq_s32(a, b); #elif defined(SIMDE_X86_SSE2_NATIVE) return _mm_or_si128(_mm_cmpgt_epi32(b, a), _mm_cmpeq_epi32(a, b)); #elif defined(SIMDE_POWER_ALTIVEC_P7_NATIVE) return HEDLEY_REINTERPRET_CAST(SIMDE_POWER_ALTIVEC_VECTOR(unsigned int), vec_cmple(a, b)); #elif defined(SIMDE_WASM_SIMD128_NATIVE) return wasm_i32x4_le(a, b); #else simde_int32x4_private a_ = simde_int32x4_to_private(a), b_ = simde_int32x4_to_private(b); simde_uint32x4_private r_; #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS) r_.values = HEDLEY_REINTERPRET_CAST(__typeof__(r_.values), a_.values <= b_.values); #else SIMDE_VECTORIZE for (size_t i = 0 ; i < (sizeof(r_.values) / sizeof(r_.values[0])) ; i++) { r_.values[i] = (a_.values[i] <= b_.values[i]) ? UINT32_MAX : 0; } #endif return simde_uint32x4_from_private(r_); #endif } #if defined(SIMDE_ARM_NEON_A32V7_ENABLE_NATIVE_ALIASES) #undef vcleq_s32 #define vcleq_s32(a, b) simde_vcleq_s32((a), (b)) #endif SIMDE_FUNCTION_ATTRIBUTES simde_uint64x2_t simde_vcleq_s64(simde_int64x2_t a, simde_int64x2_t b) { #if defined(SIMDE_ARM_NEON_A64V8_NATIVE) return vcleq_s64(a, b); #elif defined(SIMDE_ARM_NEON_A32V7_NATIVE) return vreinterpretq_u64_s32(vmvnq_s32(vreinterpretq_s32_s64(vshrq_n_s64(vqsubq_s64(b, a), 63)))); #elif defined(SIMDE_X86_SSE4_2_NATIVE) return _mm_or_si128(_mm_cmpgt_epi64(b, a), _mm_cmpeq_epi64(a, b)); #elif defined(SIMDE_POWER_ALTIVEC_P8_NATIVE) return HEDLEY_REINTERPRET_CAST(SIMDE_POWER_ALTIVEC_VECTOR(unsigned long long), vec_cmple(a, b)); #else simde_int64x2_private a_ = simde_int64x2_to_private(a), b_ = simde_int64x2_to_private(b); simde_uint64x2_private r_; #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS) r_.values = HEDLEY_REINTERPRET_CAST(__typeof__(r_.values), a_.values <= b_.values); #else SIMDE_VECTORIZE for (size_t i = 0 ; i < (sizeof(r_.values) / sizeof(r_.values[0])) ; i++) { r_.values[i] = (a_.values[i] <= b_.values[i]) ? UINT64_MAX : 0; } #endif return simde_uint64x2_from_private(r_); #endif } #if defined(SIMDE_ARM_NEON_A64V8_ENABLE_NATIVE_ALIASES) #undef vcleq_s64 #define vcleq_s64(a, b) simde_vcleq_s64((a), (b)) #endif SIMDE_FUNCTION_ATTRIBUTES simde_uint8x16_t simde_vcleq_u8(simde_uint8x16_t a, simde_uint8x16_t b) { #if defined(SIMDE_ARM_NEON_A32V7_NATIVE) return vcleq_u8(a, b); #elif defined(SIMDE_X86_SSE2_NATIVE) __m128i sign_bits = _mm_set1_epi8(INT8_MIN); return _mm_or_si128(_mm_cmpgt_epi8(_mm_xor_si128(b, sign_bits), _mm_xor_si128(a, sign_bits)), _mm_cmpeq_epi8(a, b)); #elif defined(SIMDE_POWER_ALTIVEC_P7_NATIVE) return HEDLEY_REINTERPRET_CAST(SIMDE_POWER_ALTIVEC_VECTOR(unsigned char), vec_cmple(a, b)); #elif defined(SIMDE_WASM_SIMD128_NATIVE) return wasm_u8x16_le(a, b); #else simde_uint8x16_private r_, a_ = simde_uint8x16_to_private(a), b_ = simde_uint8x16_to_private(b); #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS) r_.values = HEDLEY_REINTERPRET_CAST(__typeof__(r_.values), a_.values <= b_.values); #else SIMDE_VECTORIZE for (size_t i = 0 ; i < (sizeof(r_.values) / sizeof(r_.values[0])) ; i++) { r_.values[i] = (a_.values[i] <= b_.values[i]) ? UINT8_MAX : 0; } #endif return simde_uint8x16_from_private(r_); #endif } #if defined(SIMDE_ARM_NEON_A32V7_ENABLE_NATIVE_ALIASES) #undef vcleq_u8 #define vcleq_u8(a, b) simde_vcleq_u8((a), (b)) #endif SIMDE_FUNCTION_ATTRIBUTES simde_uint16x8_t simde_vcleq_u16(simde_uint16x8_t a, simde_uint16x8_t b) { #if defined(SIMDE_ARM_NEON_A32V7_NATIVE) return vcleq_u16(a, b); #elif defined(SIMDE_X86_SSE2_NATIVE) __m128i sign_bits = _mm_set1_epi16(INT16_MIN); return _mm_or_si128(_mm_cmpgt_epi16(_mm_xor_si128(b, sign_bits), _mm_xor_si128(a, sign_bits)), _mm_cmpeq_epi16(a, b)); #elif defined(SIMDE_POWER_ALTIVEC_P7_NATIVE) return HEDLEY_REINTERPRET_CAST(SIMDE_POWER_ALTIVEC_VECTOR(unsigned short), vec_cmple(a, b)); #elif defined(SIMDE_WASM_SIMD128_NATIVE) return wasm_u16x8_le(a, b); #else simde_uint16x8_private r_, a_ = simde_uint16x8_to_private(a), b_ = simde_uint16x8_to_private(b); #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS) r_.values = HEDLEY_REINTERPRET_CAST(__typeof__(r_.values), a_.values <= b_.values); #else SIMDE_VECTORIZE for (size_t i = 0 ; i < (sizeof(r_.values) / sizeof(r_.values[0])) ; i++) { r_.values[i] = (a_.values[i] <= b_.values[i]) ? UINT16_MAX : 0; } #endif return simde_uint16x8_from_private(r_); #endif } #if defined(SIMDE_ARM_NEON_A32V7_ENABLE_NATIVE_ALIASES) #undef vcleq_u16 #define vcleq_u16(a, b) simde_vcleq_u16((a), (b)) #endif SIMDE_FUNCTION_ATTRIBUTES simde_uint32x4_t simde_vcleq_u32(simde_uint32x4_t a, simde_uint32x4_t b) { #if defined(SIMDE_ARM_NEON_A32V7_NATIVE) return vcleq_u32(a, b); #elif defined(SIMDE_X86_SSE2_NATIVE) __m128i sign_bits = _mm_set1_epi32(INT32_MIN); return _mm_or_si128(_mm_cmpgt_epi32(_mm_xor_si128(b, sign_bits), _mm_xor_si128(a, sign_bits)), _mm_cmpeq_epi32(a, b)); #elif defined(SIMDE_POWER_ALTIVEC_P7_NATIVE) return HEDLEY_REINTERPRET_CAST(SIMDE_POWER_ALTIVEC_VECTOR(unsigned int), vec_cmple(a, b)); #elif defined(SIMDE_WASM_SIMD128_NATIVE) return wasm_u32x4_le(a, b); #else simde_uint32x4_private r_, a_ = simde_uint32x4_to_private(a), b_ = simde_uint32x4_to_private(b); #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS) r_.values = HEDLEY_REINTERPRET_CAST(__typeof__(r_.values), a_.values <= b_.values); #else SIMDE_VECTORIZE for (size_t i = 0 ; i < (sizeof(r_.values) / sizeof(r_.values[0])) ; i++) { r_.values[i] = (a_.values[i] <= b_.values[i]) ? UINT32_MAX : 0; } #endif return simde_uint32x4_from_private(r_); #endif } #if defined(SIMDE_ARM_NEON_A32V7_ENABLE_NATIVE_ALIASES) #undef vcleq_u32 #define vcleq_u32(a, b) simde_vcleq_u32((a), (b)) #endif SIMDE_FUNCTION_ATTRIBUTES simde_uint64x2_t simde_vcleq_u64(simde_uint64x2_t a, simde_uint64x2_t b) { #if defined(SIMDE_ARM_NEON_A64V8_NATIVE) return vcleq_u64(a, b); #elif defined(SIMDE_X86_SSE4_2_NATIVE) __m128i sign_bits = _mm_set1_epi64x(INT64_MIN); return _mm_or_si128(_mm_cmpgt_epi64(_mm_xor_si128(b, sign_bits), _mm_xor_si128(a, sign_bits)), _mm_cmpeq_epi64(a, b)); #elif defined(SIMDE_POWER_ALTIVEC_P8_NATIVE) return HEDLEY_REINTERPRET_CAST(SIMDE_POWER_ALTIVEC_VECTOR(unsigned long long), vec_cmple(a, b)); #else simde_uint64x2_private r_, a_ = simde_uint64x2_to_private(a), b_ = simde_uint64x2_to_private(b); #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS) r_.values = HEDLEY_REINTERPRET_CAST(__typeof__(r_.values), a_.values <= b_.values); #else SIMDE_VECTORIZE for (size_t i = 0 ; i < (sizeof(r_.values) / sizeof(r_.values[0])) ; i++) { r_.values[i] = (a_.values[i] <= b_.values[i]) ? UINT64_MAX : 0; } #endif return simde_uint64x2_from_private(r_); #endif } #if defined(SIMDE_ARM_NEON_A64V8_ENABLE_NATIVE_ALIASES) #undef vcleq_u64 #define vcleq_u64(a, b) simde_vcleq_u64((a), (b)) #endif SIMDE_FUNCTION_ATTRIBUTES simde_uint32x2_t simde_vcle_f32(simde_float32x2_t a, simde_float32x2_t b) { #if defined(SIMDE_ARM_NEON_A32V7_NATIVE) return vcle_f32(a, b); #else simde_float32x2_private a_ = simde_float32x2_to_private(a), b_ = simde_float32x2_to_private(b); simde_uint32x2_private r_; #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS) r_.values = HEDLEY_REINTERPRET_CAST(__typeof__(r_.values), a_.values <= b_.values); #else SIMDE_VECTORIZE for (size_t i = 0 ; i < (sizeof(r_.values) / sizeof(r_.values[0])) ; i++) { r_.values[i] = (a_.values[i] <= b_.values[i]) ? UINT32_MAX : 0; } #endif return simde_uint32x2_from_private(r_); #endif } #if defined(SIMDE_ARM_NEON_A32V7_ENABLE_NATIVE_ALIASES) #undef vcle_f32 #define vcle_f32(a, b) simde_vcle_f32((a), (b)) #endif SIMDE_FUNCTION_ATTRIBUTES simde_uint64x1_t simde_vcle_f64(simde_float64x1_t a, simde_float64x1_t b) { #if defined(SIMDE_ARM_NEON_A64V8_NATIVE) return vcle_f64(a, b); #else simde_float64x1_private a_ = simde_float64x1_to_private(a), b_ = simde_float64x1_to_private(b); simde_uint64x1_private r_; #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS) r_.values = HEDLEY_REINTERPRET_CAST(__typeof__(r_.values), a_.values <= b_.values); #else SIMDE_VECTORIZE for (size_t i = 0 ; i < (sizeof(r_.values) / sizeof(r_.values[0])) ; i++) { r_.values[i] = (a_.values[i] <= b_.values[i]) ? UINT64_MAX : 0; } #endif return simde_uint64x1_from_private(r_); #endif } #if defined(SIMDE_ARM_NEON_A64V8_ENABLE_NATIVE_ALIASES) #undef vcle_f64 #define vcle_f64(a, b) simde_vcle_f64((a), (b)) #endif SIMDE_FUNCTION_ATTRIBUTES simde_uint8x8_t simde_vcle_s8(simde_int8x8_t a, simde_int8x8_t b) { #if defined(SIMDE_ARM_NEON_A32V7_NATIVE) return vcle_s8(a, b); #elif defined(SIMDE_X86_MMX_NATIVE) return _mm_or_si64(_mm_cmpgt_pi8(b, a), _mm_cmpeq_pi8(a, b)); #else simde_int8x8_private a_ = simde_int8x8_to_private(a), b_ = simde_int8x8_to_private(b); simde_uint8x8_private r_; #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS) r_.values = HEDLEY_REINTERPRET_CAST(__typeof__(r_.values), a_.values <= b_.values); #else SIMDE_VECTORIZE for (size_t i = 0 ; i < (sizeof(r_.values) / sizeof(r_.values[0])) ; i++) { r_.values[i] = (a_.values[i] <= b_.values[i]) ? UINT8_MAX : 0; } #endif return simde_uint8x8_from_private(r_); #endif } #if defined(SIMDE_ARM_NEON_A32V7_ENABLE_NATIVE_ALIASES) #undef vcle_s8 #define vcle_s8(a, b) simde_vcle_s8((a), (b)) #endif SIMDE_FUNCTION_ATTRIBUTES simde_uint16x4_t simde_vcle_s16(simde_int16x4_t a, simde_int16x4_t b) { #if defined(SIMDE_ARM_NEON_A32V7_NATIVE) return vcle_s16(a, b); #elif defined(SIMDE_X86_MMX_NATIVE) return _mm_or_si64(_mm_cmpgt_pi16(b, a), _mm_cmpeq_pi16(a, b)); #else simde_int16x4_private a_ = simde_int16x4_to_private(a), b_ = simde_int16x4_to_private(b); simde_uint16x4_private r_; #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS) r_.values = HEDLEY_REINTERPRET_CAST(__typeof__(r_.values), a_.values <= b_.values); #else SIMDE_VECTORIZE for (size_t i = 0 ; i < (sizeof(r_.values) / sizeof(r_.values[0])) ; i++) { r_.values[i] = (a_.values[i] <= b_.values[i]) ? UINT16_MAX : 0; } #endif return simde_uint16x4_from_private(r_); #endif } #if defined(SIMDE_ARM_NEON_A32V7_ENABLE_NATIVE_ALIASES) #undef vcle_s16 #define vcle_s16(a, b) simde_vcle_s16((a), (b)) #endif SIMDE_FUNCTION_ATTRIBUTES simde_uint32x2_t simde_vcle_s32(simde_int32x2_t a, simde_int32x2_t b) { #if defined(SIMDE_ARM_NEON_A32V7_NATIVE) return vcle_s32(a, b); #elif defined(SIMDE_X86_MMX_NATIVE) return _mm_or_si64(_mm_cmpgt_pi32(b, a), _mm_cmpeq_pi32(a, b)); #else simde_int32x2_private a_ = simde_int32x2_to_private(a), b_ = simde_int32x2_to_private(b); simde_uint32x2_private r_; #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS) r_.values = HEDLEY_REINTERPRET_CAST(__typeof__(r_.values), a_.values <= b_.values); #else SIMDE_VECTORIZE for (size_t i = 0 ; i < (sizeof(r_.values) / sizeof(r_.values[0])) ; i++) { r_.values[i] = (a_.values[i] <= b_.values[i]) ? UINT32_MAX : 0; } #endif return simde_uint32x2_from_private(r_); #endif } #if defined(SIMDE_ARM_NEON_A32V7_ENABLE_NATIVE_ALIASES) #undef vcle_s32 #define vcle_s32(a, b) simde_vcle_s32((a), (b)) #endif SIMDE_FUNCTION_ATTRIBUTES simde_uint64x1_t simde_vcle_s64(simde_int64x1_t a, simde_int64x1_t b) { #if defined(SIMDE_ARM_NEON_A64V8_NATIVE) return vcle_s64(a, b); #else simde_int64x1_private a_ = simde_int64x1_to_private(a), b_ = simde_int64x1_to_private(b); simde_uint64x1_private r_; #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS) r_.values = HEDLEY_REINTERPRET_CAST(__typeof__(r_.values), a_.values <= b_.values); #else SIMDE_VECTORIZE for (size_t i = 0 ; i < (sizeof(r_.values) / sizeof(r_.values[0])) ; i++) { r_.values[i] = (a_.values[i] <= b_.values[i]) ? UINT64_MAX : 0; } #endif return simde_uint64x1_from_private(r_); #endif } #if defined(SIMDE_ARM_NEON_A64V8_ENABLE_NATIVE_ALIASES) #undef vcle_s64 #define vcle_s64(a, b) simde_vcle_s64((a), (b)) #endif SIMDE_FUNCTION_ATTRIBUTES simde_uint8x8_t simde_vcle_u8(simde_uint8x8_t a, simde_uint8x8_t b) { #if defined(SIMDE_ARM_NEON_A32V7_NATIVE) return vcle_u8(a, b); #elif defined(SIMDE_X86_MMX_NATIVE) __m64 sign_bits = _mm_set1_pi8(INT8_MIN); return _mm_or_si64(_mm_cmpgt_pi8(_mm_xor_si64(b, sign_bits), _mm_xor_si64(a, sign_bits)), _mm_cmpeq_pi8(a, b)); #else simde_uint8x8_private r_, a_ = simde_uint8x8_to_private(a), b_ = simde_uint8x8_to_private(b); #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS) r_.values = HEDLEY_REINTERPRET_CAST(__typeof__(r_.values), a_.values <= b_.values); #else SIMDE_VECTORIZE for (size_t i = 0 ; i < (sizeof(r_.values) / sizeof(r_.values[0])) ; i++) { r_.values[i] = (a_.values[i] <= b_.values[i]) ? UINT8_MAX : 0; } #endif return simde_uint8x8_from_private(r_); #endif } #if defined(SIMDE_ARM_NEON_A32V7_ENABLE_NATIVE_ALIASES) #undef vcle_u8 #define vcle_u8(a, b) simde_vcle_u8((a), (b)) #endif SIMDE_FUNCTION_ATTRIBUTES simde_uint16x4_t simde_vcle_u16(simde_uint16x4_t a, simde_uint16x4_t b) { #if defined(SIMDE_ARM_NEON_A32V7_NATIVE) return vcle_u16(a, b); #elif defined(SIMDE_X86_MMX_NATIVE) __m64 sign_bits = _mm_set1_pi16(INT16_MIN); return _mm_or_si64(_mm_cmpgt_pi16(_mm_xor_si64(b, sign_bits), _mm_xor_si64(a, sign_bits)), _mm_cmpeq_pi16(a, b)); #else simde_uint16x4_private r_, a_ = simde_uint16x4_to_private(a), b_ = simde_uint16x4_to_private(b); #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS) r_.values = HEDLEY_REINTERPRET_CAST(__typeof__(r_.values), a_.values <= b_.values); #else SIMDE_VECTORIZE for (size_t i = 0 ; i < (sizeof(r_.values) / sizeof(r_.values[0])) ; i++) { r_.values[i] = (a_.values[i] <= b_.values[i]) ? UINT16_MAX : 0; } #endif return simde_uint16x4_from_private(r_); #endif } #if defined(SIMDE_ARM_NEON_A32V7_ENABLE_NATIVE_ALIASES) #undef vcle_u16 #define vcle_u16(a, b) simde_vcle_u16((a), (b)) #endif SIMDE_FUNCTION_ATTRIBUTES simde_uint32x2_t simde_vcle_u32(simde_uint32x2_t a, simde_uint32x2_t b) { #if defined(SIMDE_ARM_NEON_A32V7_NATIVE) return vcle_u32(a, b); #elif defined(SIMDE_X86_MMX_NATIVE) __m64 sign_bits = _mm_set1_pi32(INT32_MIN); return _mm_or_si64(_mm_cmpgt_pi32(_mm_xor_si64(b, sign_bits), _mm_xor_si64(a, sign_bits)), _mm_cmpeq_pi32(a, b)); #else simde_uint32x2_private r_, a_ = simde_uint32x2_to_private(a), b_ = simde_uint32x2_to_private(b); #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS) r_.values = HEDLEY_REINTERPRET_CAST(__typeof__(r_.values), a_.values <= b_.values); #else SIMDE_VECTORIZE for (size_t i = 0 ; i < (sizeof(r_.values) / sizeof(r_.values[0])) ; i++) { r_.values[i] = (a_.values[i] <= b_.values[i]) ? UINT32_MAX : 0; } #endif return simde_uint32x2_from_private(r_); #endif } #if defined(SIMDE_ARM_NEON_A32V7_ENABLE_NATIVE_ALIASES) #undef vcle_u32 #define vcle_u32(a, b) simde_vcle_u32((a), (b)) #endif SIMDE_FUNCTION_ATTRIBUTES simde_uint64x1_t simde_vcle_u64(simde_uint64x1_t a, simde_uint64x1_t b) { #if defined(SIMDE_ARM_NEON_A64V8_NATIVE) return vcle_u64(a, b); #else simde_uint64x1_private r_, a_ = simde_uint64x1_to_private(a), b_ = simde_uint64x1_to_private(b); #if defined(SIMDE_VECTOR_SUBSCRIPT_OPS) r_.values = HEDLEY_REINTERPRET_CAST(__typeof__(r_.values), a_.values <= b_.values); #else SIMDE_VECTORIZE for (size_t i = 0 ; i < (sizeof(r_.values) / sizeof(r_.values[0])) ; i++) { r_.values[i] = (a_.values[i] <= b_.values[i]) ? UINT64_MAX : 0; } #endif return simde_uint64x1_from_private(r_); #endif } #if defined(SIMDE_ARM_NEON_A64V8_ENABLE_NATIVE_ALIASES) #undef vcle_u64 #define vcle_u64(a, b) simde_vcle_u64((a), (b)) #endif SIMDE_END_DECLS_ HEDLEY_DIAGNOSTIC_POP #endif /* !defined(SIMDE_ARM_NEON_CLE_H) */