ammintrin.h头文件，Windows SDK 7.1安装KB2519277补丁后必备

/**** * Copyright (C) 2007-2008 Advanced Micro Devices Inc. All rights reserved. * * The information and source code contained herein is the exclusive * property of Advanced Micro Devices and may not be disclosed, examined * or reproduced in whole or in part without explicit written authorization * from the company. * * ammintrin.h - Definitions for AMD-specific intrinsics * ****/ #pragma once #ifndef __midl #ifndef _INCLUDED_AMM #define _INCLUDED_AMM #if defined(_M_CEE_PURE) #error ERROR: This file is not supported in the pure mode! #else #if defined __cplusplus extern "C" { /* Intrinsics use C name-mangling. */ #endif /* * Vector integer comparison control macros */ #define _MM_PCOMCTRL_LT 0 #define _MM_PCOMCTRL_LE 1 #define _MM_PCOMCTRL_GT 2 #define _MM_PCOMCTRL_GE 3 #define _MM_PCOMCTRL_EQ 4 #define _MM_PCOMCTRL_NEQ 5 #define _MM_PCOMCTRL_FALSE 6 #define _MM_PCOMCTRL_TRUE 7 /* * MACRO functions for vector integer comparisons */ #define _mm_comlt_epu8(v1, v2) _mm_com_epu8(v1, v2, _MM_PCOMCTRL_LT) #define _mm_comle_epu8(v1, v2) _mm_com_epu8(v1, v2, _MM_PCOMCTRL_LE) #define _mm_comgt_epu8(v1, v2) _mm_com_epu8(v1, v2, _MM_PCOMCTRL_GT) #define _mm_comge_epu8(v1, v2) _mm_com_epu8(v1, v2, _MM_PCOMCTRL_GE) #define _mm_comeq_epu8(v1, v2) _mm_com_epu8(v1, v2, _MM_PCOMCTRL_EQ) #define _mm_comneq_epu8(v1, v2) _mm_com_epu8(v1, v2, _MM_PCOMCTRL_NEQ) #define _mm_comfalse_epu8(v1, v2) _mm_com_epu8(v1, v2, _MM_PCOMCTRL_FALSE) #define _mm_comtrue_epu8(v1, v2) _mm_com_epu8(v1, v2, _MM_PCOMCTRL_TRUE) #define _mm_comlt_epu16(v1, v2) _mm_com_epu16(v1, v2, _MM_PCOMCTRL_LT) #define _mm_comle_epu16(v1, v2) _mm_com_epu16(v1, v2, _MM_PCOMCTRL_LE) #define _mm_comgt_epu16(v1, v2) _mm_com_epu16(v1, v2, _MM_PCOMCTRL_GT) #define _mm_comge_epu16(v1, v2) _mm_com_epu16(v1, v2, _MM_PCOMCTRL_GE) #define _mm_comeq_epu16(v1, v2) _mm_com_epu16(v1, v2, _MM_PCOMCTRL_EQ) #define _mm_comneq_epu16(v1, v2) _mm_com_epu16(v1, v2, _MM_PCOMCTRL_NEQ) #define _mm_comfalse_epu16(v1, v2) _mm_com_epu16(v1, v2, _MM_PCOMCTRL_FALSE) #define _mm_comtrue_epu16(v1, v2) _mm_com_epu16(v1, v2, _MM_PCOMCTRL_TRUE) #define _mm_comlt_epu32(v1, v2) _mm_com_epu32(v1, v2, _MM_PCOMCTRL_LT) #define _mm_comle_epu32(v1, v2) _mm_com_epu32(v1, v2, _MM_PCOMCTRL_LE) #define _mm_comgt_epu32(v1, v2) _mm_com_epu32(v1, v2, _MM_PCOMCTRL_GT) #define _mm_comge_epu32(v1, v2) _mm_com_epu32(v1, v2, _MM_PCOMCTRL_GE) #define _mm_comeq_epu32(v1, v2) _mm_com_epu32(v1, v2, _MM_PCOMCTRL_EQ) #define _mm_comneq_epu32(v1, v2) _mm_com_epu32(v1, v2, _MM_PCOMCTRL_NEQ) #define _mm_comfalse_epu32(v1, v2) _mm_com_epu32(v1, v2, _MM_PCOMCTRL_FALSE) #define _mm_comtrue_epu32(v1, v2) _mm_com_epu32(v1, v2, _MM_PCOMCTRL_TRUE) #define _mm_comlt_epu64(v1, v2) _mm_com_epu64(v1, v2, _MM_PCOMCTRL_LT) #define _mm_comle_epu64(v1, v2) _mm_com_epu64(v1, v2, _MM_PCOMCTRL_LE) #define _mm_comgt_epu64(v1, v2) _mm_com_epu64(v1, v2, _MM_PCOMCTRL_GT) #define _mm_comge_epu64(v1, v2) _mm_com_epu64(v1, v2, _MM_PCOMCTRL_GE) #define _mm_comeq_epu64(v1, v2) _mm_com_epu64(v1, v2, _MM_PCOMCTRL_EQ) #define _mm_comneq_epu64(v1, v2) _mm_com_epu64(v1, v2, _MM_PCOMCTRL_NEQ) #define _mm_comfalse_epu64(v1, v2) _mm_com_epu64(v1, v2, _MM_PCOMCTRL_FALSE) #define _mm_comtrue_epu64(v1, v2) _mm_com_epu64(v1, v2, _MM_PCOMCTRL_TRUE) #define _mm_comlt_epi8(v1, v2) _mm_com_epi8(v1, v2, _MM_PCOMCTRL_LT) #define _mm_comle_epi8(v1, v2) _mm_com_epi8(v1, v2, _MM_PCOMCTRL_LE) #define _mm_comgt_epi8(v1, v2) _mm_com_epi8(v1, v2, _MM_PCOMCTRL_GT) #define _mm_comge_epi8(v1, v2) _mm_com_epi8(v1, v2, _MM_PCOMCTRL_GE) #define _mm_comeq_epi8(v1, v2) _mm_com_epi8(v1, v2, _MM_PCOMCTRL_EQ) #define _mm_comneq_epi8(v1, v2) _mm_com_epi8(v1, v2, _MM_PCOMCTRL_NEQ) #define _mm_comfalse_epi8(v1, v2) _mm_com_epi8(v1, v2, _MM_PCOMCTRL_FALSE) #define _mm_comtrue_epi8(v1, v2) _mm_com_epi8(v1, v2, _MM_PCOMCTRL_TRUE) #define _mm_comlt_epi16(v1, v2) _mm_com_epi16(v1, v2, _MM_PCOMCTRL_LT) #define _mm_comle_epi16(v1, v2) _mm_com_epi16(v1, v2, _MM_PCOMCTRL_LE) #define _mm_comgt_epi16(v1, v2) _mm_com_epi16(v1, v2, _MM_PCOMCTRL_GT) #define _mm_comge_epi16(v1, v2) _mm_com_epi16(v1, v2, _MM_PCOMCTRL_GE) #define _mm_comeq_epi16(v1, v2) _mm_com_epi16(v1, v2, _MM_PCOMCTRL_EQ) #define _mm_comneq_epi16(v1, v2) _mm_com_epi16(v1, v2, _MM_PCOMCTRL_NEQ) #define _mm_comfalse_epi16(v1, v2) _mm_com_epi16(v1, v2, _MM_PCOMCTRL_FALSE) #define _mm_comtrue_epi16(v1, v2) _mm_com_epi16(v1, v2, _MM_PCOMCTRL_TRUE) #define _mm_comlt_epi32(v1, v2) _mm_com_epi32(v1, v2, _MM_PCOMCTRL_LT) #define _mm_comle_epi32(v1, v2) _mm_com_epi32(v1, v2, _MM_PCOMCTRL_LE) #define _mm_comgt_epi32(v1, v2) _mm_com_epi32(v1, v2, _MM_PCOMCTRL_GT) #define _mm_comge_epi32(v1, v2) _mm_com_epi32(v1, v2, _MM_PCOMCTRL_GE) #define _mm_comeq_epi32(v1, v2) _mm_com_epi32(v1, v2, _MM_PCOMCTRL_EQ) #define _mm_comneq_epi32(v1, v2) _mm_com_epi32(v1, v2, _MM_PCOMCTRL_NEQ) #define _mm_comfalse_epi32(v1, v2) _mm_com_epi32(v1, v2, _MM_PCOMCTRL_FALSE) #define _mm_comtrue_epi32(v1, v2) _mm_com_epi32(v1, v2, _MM_PCOMCTRL_TRUE) #define _mm_comlt_epi64(v1, v2) _mm_com_epi64(v1, v2, _MM_PCOMCTRL_LT) #define _mm_comle_epi64(v1, v2) _mm_com_epi64(v1, v2, _MM_PCOMCTRL_LE) #define _mm_comgt_epi64(v1, v2) _mm_com_epi64(v1, v2, _MM_PCOMCTRL_GT) #define _mm_comge_epi64(v1, v2) _mm_com_epi64(v1, v2, _MM_PCOMCTRL_GE) #define _mm_comeq_epi64(v1, v2) _mm_com_epi64(v1, v2, _MM_PCOMCTRL_EQ) #define _mm_comneq_epi64(v1, v2) _mm_com_epi64(v1, v2, _MM_PCOMCTRL_NEQ) #define _mm_comfalse_epi64(v1, v2) _mm_com_epi64(v1, v2, _MM_PCOMCTRL_FALSE) #define _mm_comtrue_epi64(v1, v2) _mm_com_epi64(v1, v2, _MM_PCOMCTRL_TRUE) /* SSE5 intrinsics */ /* Float/double multiply-accumulate * / __m128 _mm_macc_ps(__m128, __m128, __m128); __m128d _mm_macc_pd(__m128d, __m128d, __m128d); __m128 _mm_macc_ss(__m128, __m128, __m128); __m128d _mm_macc_sd(__m128d, __m128d, __m128d); __m128 _mm_maddsub_ps(__m128, __m128, __m128); __m128d _mm_maddsub_pd(__m128d, __m128d, __m128d); __m128 _mm_msubadd_ps(__m128, __m128, __m128); __m128d _mm_msubadd_pd(__m128d, __m128d, __m128d); __m128 _mm_msub_ps(__m128, __m128, __m128); __m128d _mm_msub_pd(__m128d, __m128d, __m128d); __m128 _mm_msub_ss(__m128, __m128, __m128); __m128d _mm_msub_sd(__m128d, __m128d, __m128d); __m128 _mm_nmacc_ps(__m128, __m128, __m128); __m128d _mm_nmacc_pd(__m128d, __m128d, __m128d); __m128 _mm_nmacc_ss(__m128, __m128, __m128); __m128d _mm_nmacc_sd(__m128d, __m128d, __m128d); __m128 _mm_nmsub_ps(__m128, __m128, __m128); __m128d _mm_nmsub_pd(__m128d, __m128d, __m128d); __m128 _mm_nmsub_ss(__m128, __m128, __m128); __m128d _mm_nmsub_sd(__m128d, __m128d, __m128d); /* Integer multiply-accumulate */ __m128i _mm_maccs_epi16(__m128i, __m128i, __m128i); __m128i _mm_macc_epi16(__m128i, __m128i, __m128i); __m128i _mm_maccsd_epi16(__m128i, __m128i, __m128i); __m128i _mm_maccd_epi16(__m128i, __m128i, __m128i); __m128i _mm_maccs_epi32(__m128i, __m128i, __m128i); __m128i _mm_macc_epi32(__m128i, __m128i, __m128i); __m128i _mm_maccslo_epi32(__m128i, __m128i, __m128i); __m128i _mm_macclo_epi32(__m128i, __m128i, __m128i); __m128i _mm_maccshi_epi32(__m128i, __m128i, __m128i); __m128i _mm_macchi_epi32(__m128i, __m128i, __m128i); __m128i _mm_maddsd_epi16(__m128i, __m128i, __m128i); __m128i _mm_maddd_epi16(__m128i, __m128i, __m128i); /* Horizontal add/subtract */ __m128i _mm_haddw_epi8(__m128i); __m128i _mm_haddd_epi8(__m128i); __m128i _mm_haddq_epi8(__m128i); __m128i _mm_haddd_epi16(__m128i); __m128i _mm_haddq_epi16(__m128i); __m128i _mm_haddq_epi32(__m128i); __m128i _mm_haddw_epu8(__m128i); __m128i _mm_haddd_epu8(__m128i); __m128i _mm_haddq_epu8(__m128i); __m128i _mm_haddd_epu16(__m128i); __m128i _mm_haddq_epu16(__m128i); __m128i _mm_haddq_epu32(__m128i); __m128i _mm_hsubw_epi8(__m128i); __m128i _mm_hsubd_epi16(__m128i); __m128i _mm_hsubq_epi32(__m128i); /* Vector conditional moves */ __m128i _mm_cmov_si128(__m128i, __m128i, __m128i); __m128i _mm_perm_epi8(__m128i, __m128i, __m128i); /* Vector shifts and rotates */ __m128i _mm_rot_epi8(__m128i, __m128i); __m128i _mm_rot_epi16(__m128i, __m128i); __m128i _mm_rot_epi32(__m128i, __m128i); __m128i _mm_rot_epi64(__m128i, __m128i); __m128i _mm_roti_epi8(__m128i, int); __m128i _mm_roti_epi16(__m128i, int); __m128i _mm_roti_epi32(__m128i, int); __m128i _mm_roti_epi64(__m128i, int); __m128i _mm_shl_epi8(__m128i, __m128i); __m128i _mm_shl_epi16(__m128i, __m128i); __m128i _mm_shl_epi32(__m128i, __m128i); __m128i _mm_shl_epi64(__m128i, __m128i); __m128i _mm_sha_epi8(__m128i, __m128i); __m128i _mm_sha_epi16(__m128i, __m128i); __m128i _mm_sha_epi32(__m128i, __m128i); __m128i _mm_sha_epi64 (__m128i, __m128i); /* Vector integer comparisons */ __m128i _mm_com_epu8(__m128i, __m128i, int); __m128i _mm_com_epu16(__m128i, __m128i, int); __m128i _mm_com_epu32(__m128i, __m128i, int); __m128i _mm_com_epu64(__m128i, __m128i, int); __m128i _mm_com_epi8(__m128i, __m128i, int); __m128i _mm_com_epi16(__m128i, __m128i, int); __m128i _mm_com_epi32(__m128i, __m128i, int); __m128i _mm_com_epi64(__m128i, __m128i, int); /* Precision control */ __m128 _mm_frcz_ps(__m128); __m128d _mm_frcz_pd(__m128d); __m128 _mm_frcz_ss(__m128, __m128); __m128d _mm_frcz_sd(__m128d, __m128d); /* Control values for permute2 intrinsics */ #define _MM_PERMUTE2_COPY 0 /* just copy the selected value */ /* Note that using the constant 1 would have the same effect as 0 */ #define _MM_PERMUTE2_ZEROIF1 2 /* zero selected value if src3 bit is 1 */ #define _MM_PERMUTE2_ZEROIF0 3 /* zero selected value if src3 bit is 3 */ /* Permutation */ __m128 _mm_permute2_ps(__m128, __m128, __m128i, int); __m128d _mm_permute2_pd(__m128d, __m128d, __m128i, int); /* YMM versions */ __m256 _mm256_macc_ps(__m256, __m256, __m256); __m256d _mm256_macc_pd(__m256d, __m256d, __m256d); __m256 _mm256_maddsub_ps(__m256, __m256, __m256); __m256d _mm256_maddsub_pd(__m256d, __m256d, __m256d); __m256 _mm256_msubadd_ps(__m256, __m256, __m256); __m256d _mm256_msubadd_pd(__m256d, __m256d, __m256d); __m256 _mm256_msub_ps(__m256, __m256, __m256); __m256d _mm256_msub_pd(__m256d, __m256d, __m256d); __m256 _mm256_nmacc_ps(__m256, __m256, __m256); __m256d _mm256_nmacc_pd(__m256d, __m256d, __m256d); __m256 _mm256_nmsub_ps(__m256, __m256, __m256); __m256d _mm256_nmsub_pd(__m256d, __m256d, __m256d); __m256i _mm256_cmov_si256(__m256i, __m256i, __m256i); __m256 _mm256_frcz_ps(__m256); __m256d _mm256_frcz_pd(__m256d); __m256 _mm256_permute2_ps(__m256, __m256, __m256i, int); __m256d _mm256_permute2_pd(__m256d, __m256d, __m256i, int); /* LWP intrinsics */ void __llwpcb(void *); void *__slwpcb(); void __lwpval32(unsigned int, unsigned int, unsigned int); void __lwpval64(unsigned __int64, unsigned int, unsigned int); unsigned char __lwpins32(unsigned int, unsigned int, unsigned int); unsigned char __lwpins64(unsigned __int64, unsigned int, unsigned int); #if defined __cplusplus }; /* End "C" */ #endif /* __cplusplus */ #endif /* _M_CEE_PURE */ #endif /* INCLUDED_AMM */ #endif /* __midl */