📄 mmintrin.h
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{ return (__m64) __builtin_arm_wminsb ((__v8qi)__A, (__v8qi)__B);}/* Compute the element-wise minimum of signed 16-bit values. */static __inline __m64_mm_min_pi16 (__m64 __A, __m64 __B){ return (__m64) __builtin_arm_wminsh ((__v4hi)__A, (__v4hi)__B);}/* Compute the element-wise minimum of signed 32-bit values. */static __inline __m64_mm_min_pi32 (__m64 __A, __m64 __B){ return (__m64) __builtin_arm_wminsw ((__v2si)__A, (__v2si)__B);}/* Compute the element-wise minimum of unsigned 16-bit values. */static __inline __m64_mm_min_pu8 (__m64 __A, __m64 __B){ return (__m64) __builtin_arm_wminub ((__v8qi)__A, (__v8qi)__B);}/* Compute the element-wise minimum of unsigned 16-bit values. */static __inline __m64_mm_min_pu16 (__m64 __A, __m64 __B){ return (__m64) __builtin_arm_wminuh ((__v4hi)__A, (__v4hi)__B);}/* Compute the element-wise minimum of unsigned 32-bit values. */static __inline __m64_mm_min_pu32 (__m64 __A, __m64 __B){ return (__m64) __builtin_arm_wminuw ((__v2si)__A, (__v2si)__B);}/* Create an 8-bit mask of the signs of 8-bit values. */static __inline int_mm_movemask_pi8 (__m64 __A){ return __builtin_arm_tmovmskb ((__v8qi)__A);}/* Create an 8-bit mask of the signs of 16-bit values. */static __inline int_mm_movemask_pi16 (__m64 __A){ return __builtin_arm_tmovmskh ((__v4hi)__A);}/* Create an 8-bit mask of the signs of 32-bit values. */static __inline int_mm_movemask_pi32 (__m64 __A){ return __builtin_arm_tmovmskw ((__v2si)__A);}/* Return a combination of the four 16-bit values in A. The selector must be an immediate. */#define _mm_shuffle_pi16(A, N) \ ((__m64) __builtin_arm_wshufh ((__v4hi)(A), (N)))/* Compute the rounded averages of the unsigned 8-bit values in A and B. */static __inline __m64_mm_avg_pu8 (__m64 __A, __m64 __B){ return (__m64) __builtin_arm_wavg2br ((__v8qi)__A, (__v8qi)__B);}/* Compute the rounded averages of the unsigned 16-bit values in A and B. */static __inline __m64_mm_avg_pu16 (__m64 __A, __m64 __B){ return (__m64) __builtin_arm_wavg2hr ((__v4hi)__A, (__v4hi)__B);}/* Compute the averages of the unsigned 8-bit values in A and B. */static __inline __m64_mm_avg2_pu8 (__m64 __A, __m64 __B){ return (__m64) __builtin_arm_wavg2b ((__v8qi)__A, (__v8qi)__B);}/* Compute the averages of the unsigned 16-bit values in A and B. */static __inline __m64_mm_avg2_pu16 (__m64 __A, __m64 __B){ return (__m64) __builtin_arm_wavg2h ((__v4hi)__A, (__v4hi)__B);}/* Compute the sum of the absolute differences of the unsigned 8-bit values in A and B. Return the value in the lower 16-bit word; the upper words are cleared. */static __inline __m64_mm_sad_pu8 (__m64 __A, __m64 __B){ return (__m64) __builtin_arm_wsadb ((__v8qi)__A, (__v8qi)__B);}/* Compute the sum of the absolute differences of the unsigned 16-bit values in A and B. Return the value in the lower 32-bit word; the upper words are cleared. */static __inline __m64_mm_sad_pu16 (__m64 __A, __m64 __B){ return (__m64) __builtin_arm_wsadh ((__v4hi)__A, (__v4hi)__B);}/* Compute the sum of the absolute differences of the unsigned 8-bit values in A and B. Return the value in the lower 16-bit word; the upper words are cleared. */static __inline __m64_mm_sadz_pu8 (__m64 __A, __m64 __B){ return (__m64) __builtin_arm_wsadbz ((__v8qi)__A, (__v8qi)__B);}/* Compute the sum of the absolute differences of the unsigned 16-bit values in A and B. Return the value in the lower 32-bit word; the upper words are cleared. */static __inline __m64_mm_sadz_pu16 (__m64 __A, __m64 __B){ return (__m64) __builtin_arm_wsadhz ((__v4hi)__A, (__v4hi)__B);}static __inline __m64_mm_align_si64 (__m64 __A, __m64 __B, int __C){ return (__m64) __builtin_arm_walign ((__v8qi)__A, (__v8qi)__B, __C);}/* Creates a 64-bit zero. */static __inline __m64_mm_setzero_si64 (void){ return __builtin_arm_wzero ();}/* Set and Get arbitrary iWMMXt Control registers. Note only registers 0-3 and 8-11 are currently defined, the rest are reserved. */static __inline void_mm_setwcx (const int __regno, const int __value){ switch (__regno) { case 0: __builtin_arm_setwcx (0, __value); break; case 1: __builtin_arm_setwcx (1, __value); break; case 2: __builtin_arm_setwcx (2, __value); break; case 3: __builtin_arm_setwcx (3, __value); break; case 8: __builtin_arm_setwcx (8, __value); break; case 9: __builtin_arm_setwcx (9, __value); break; case 10: __builtin_arm_setwcx (10, __value); break; case 11: __builtin_arm_setwcx (11, __value); break; default: break; }}static __inline int_mm_getwcx (const int __regno){ switch (__regno) { case 0: return __builtin_arm_getwcx (0); case 1: return __builtin_arm_getwcx (1); case 2: return __builtin_arm_getwcx (2); case 3: return __builtin_arm_getwcx (3); case 8: return __builtin_arm_getwcx (8); case 9: return __builtin_arm_getwcx (9); case 10: return __builtin_arm_getwcx (10); case 11: return __builtin_arm_getwcx (11); default: return 0; }}/* Creates a vector of two 32-bit values; I0 is least significant. */static __inline __m64_mm_set_pi32 (int __i1, int __i0){ union { __m64 __q; struct { unsigned int __i0; unsigned int __i1; } __s; } __u; __u.__s.__i0 = __i0; __u.__s.__i1 = __i1; return __u.__q;}/* Creates a vector of four 16-bit values; W0 is least significant. */static __inline __m64_mm_set_pi16 (short __w3, short __w2, short __w1, short __w0){ unsigned int __i1 = (unsigned short)__w3 << 16 | (unsigned short)__w2; unsigned int __i0 = (unsigned short)__w1 << 16 | (unsigned short)__w0; return _mm_set_pi32 (__i1, __i0); }/* Creates a vector of eight 8-bit values; B0 is least significant. */static __inline __m64_mm_set_pi8 (char __b7, char __b6, char __b5, char __b4, char __b3, char __b2, char __b1, char __b0){ unsigned int __i1, __i0; __i1 = (unsigned char)__b7; __i1 = __i1 << 8 | (unsigned char)__b6; __i1 = __i1 << 8 | (unsigned char)__b5; __i1 = __i1 << 8 | (unsigned char)__b4; __i0 = (unsigned char)__b3; __i0 = __i0 << 8 | (unsigned char)__b2; __i0 = __i0 << 8 | (unsigned char)__b1; __i0 = __i0 << 8 | (unsigned char)__b0; return _mm_set_pi32 (__i1, __i0);}/* Similar, but with the arguments in reverse order. */static __inline __m64_mm_setr_pi32 (int __i0, int __i1){ return _mm_set_pi32 (__i1, __i0);}static __inline __m64_mm_setr_pi16 (short __w0, short __w1, short __w2, short __w3){ return _mm_set_pi16 (__w3, __w2, __w1, __w0);}static __inline __m64_mm_setr_pi8 (char __b0, char __b1, char __b2, char __b3, char __b4, char __b5, char __b6, char __b7){ return _mm_set_pi8 (__b7, __b6, __b5, __b4, __b3, __b2, __b1, __b0);}/* Creates a vector of two 32-bit values, both elements containing I. */static __inline __m64_mm_set1_pi32 (int __i){ return _mm_set_pi32 (__i, __i);}/* Creates a vector of four 16-bit values, all elements containing W. */static __inline __m64_mm_set1_pi16 (short __w){ unsigned int __i = (unsigned short)__w << 16 | (unsigned short)__w; return _mm_set1_pi32 (__i);}/* Creates a vector of four 16-bit values, all elements containing B. */static __inline __m64_mm_set1_pi8 (char __b){ unsigned int __w = (unsigned char)__b << 8 | (unsigned char)__b; unsigned int __i = __w << 16 | __w; return _mm_set1_pi32 (__i);}/* Convert an integer to a __m64 object. */static __inline __m64_m_from_int (int __a){ return (__m64)__a;}#define _m_packsswb _mm_packs_pi16#define _m_packssdw _mm_packs_pi32#define _m_packuswb _mm_packs_pu16#define _m_packusdw _mm_packs_pu32#define _m_packssqd _mm_packs_pi64#define _m_packusqd _mm_packs_pu64#define _mm_packs_si64 _mm_packs_pi64#define _mm_packs_su64 _mm_packs_pu64#define _m_punpckhbw _mm_unpackhi_pi8#define _m_punpckhwd _mm_unpackhi_pi16#define _m_punpckhdq _mm_unpackhi_pi32#define _m_punpcklbw _mm_unpacklo_pi8#define _m_punpcklwd _mm_unpacklo_pi16#define _m_punpckldq _mm_unpacklo_pi32#define _m_punpckehsbw _mm_unpackeh_pi8#define _m_punpckehswd _mm_unpackeh_pi16#define _m_punpckehsdq _mm_unpackeh_pi32#define _m_punpckehubw _mm_unpackeh_pu8#define _m_punpckehuwd _mm_unpackeh_pu16#define _m_punpckehudq _mm_unpackeh_pu32#define _m_punpckelsbw _mm_unpackel_pi8#define _m_punpckelswd _mm_unpackel_pi16#define _m_punpckelsdq _mm_unpackel_pi32#define _m_punpckelubw _mm_unpackel_pu8#define _m_punpckeluwd _mm_unpackel_pu16#define _m_punpckeludq _mm_unpackel_pu32#define _m_paddb _mm_add_pi8#define _m_paddw _mm_add_pi16#define _m_paddd _mm_add_pi32#define _m_paddsb _mm_adds_pi8#define _m_paddsw _mm_adds_pi16#define _m_paddsd _mm_adds_pi32#define _m_paddusb _mm_adds_pu8#define _m_paddusw _mm_adds_pu16#define _m_paddusd _mm_adds_pu32#define _m_psubb _mm_sub_pi8#define _m_psubw _mm_sub_pi16#define _m_psubd _mm_sub_pi32#define _m_psubsb _mm_subs_pi8#define _m_psubsw _mm_subs_pi16#define _m_psubuw _mm_subs_pi32#define _m_psubusb _mm_subs_pu8#define _m_psubusw _mm_subs_pu16#define _m_psubusd _mm_subs_pu32#define _m_pmaddwd _mm_madd_pi16#define _m_pmadduwd _mm_madd_pu16#define _m_pmulhw _mm_mulhi_pi16#define _m_pmulhuw _mm_mulhi_pu16#define _m_pmullw _mm_mullo_pi16#define _m_pmacsw _mm_mac_pi16#define _m_pmacuw _mm_mac_pu16#define _m_pmacszw _mm_macz_pi16#define _m_pmacuzw _mm_macz_pu16#define _m_paccb _mm_acc_pu8#define _m_paccw _mm_acc_pu16#define _m_paccd _mm_acc_pu32#define _m_pmia _mm_mia_si64#define _m_pmiaph _mm_miaph_si64#define _m_pmiabb _mm_miabb_si64#define _m_pmiabt _mm_miabt_si64#define _m_pmiatb _mm_miatb_si64#define _m_pmiatt _mm_miatt_si64#define _m_psllw _mm_sll_pi16#define _m_psllwi _mm_slli_pi16#define _m_pslld _mm_sll_pi32#define _m_pslldi _mm_slli_pi32#define _m_psllq _mm_sll_si64#define _m_psllqi _mm_slli_si64#define _m_psraw _mm_sra_pi16#define _m_psrawi _mm_srai_pi16#define _m_psrad _mm_sra_pi32#define _m_psradi _mm_srai_pi32#define _m_psraq _mm_sra_si64#define _m_psraqi _mm_srai_si64#define _m_psrlw _mm_srl_pi16#define _m_psrlwi _mm_srli_pi16#define _m_psrld _mm_srl_pi32#define _m_psrldi _mm_srli_pi32#define _m_psrlq _mm_srl_si64#define _m_psrlqi _mm_srli_si64#define _m_prorw _mm_ror_pi16#define _m_prorwi _mm_rori_pi16#define _m_prord _mm_ror_pi32#define _m_prordi _mm_rori_pi32#define _m_prorq _mm_ror_si64#define _m_prorqi _mm_rori_si64#define _m_pand _mm_and_si64#define _m_pandn _mm_andnot_si64#define _m_por _mm_or_si64#define _m_pxor _mm_xor_si64#define _m_pcmpeqb _mm_cmpeq_pi8#define _m_pcmpeqw _mm_cmpeq_pi16#define _m_pcmpeqd _mm_cmpeq_pi32#define _m_pcmpgtb _mm_cmpgt_pi8#define _m_pcmpgtub _mm_cmpgt_pu8#define _m_pcmpgtw _mm_cmpgt_pi16#define _m_pcmpgtuw _mm_cmpgt_pu16#define _m_pcmpgtd _mm_cmpgt_pi32#define _m_pcmpgtud _mm_cmpgt_pu32#define _m_pextrb _mm_extract_pi8#define _m_pextrw _mm_extract_pi16#define _m_pextrd _mm_extract_pi32#define _m_pextrub _mm_extract_pu8#define _m_pextruw _mm_extract_pu16#define _m_pextrud _mm_extract_pu32#define _m_pinsrb _mm_insert_pi8#define _m_pinsrw _mm_insert_pi16#define _m_pinsrd _mm_insert_pi32#define _m_pmaxsb _mm_max_pi8#define _m_pmaxsw _mm_max_pi16#define _m_pmaxsd _mm_max_pi32#define _m_pmaxub _mm_max_pu8#define _m_pmaxuw _mm_max_pu16#define _m_pmaxud _mm_max_pu32#define _m_pminsb _mm_min_pi8#define _m_pminsw _mm_min_pi16#define _m_pminsd _mm_min_pi32#define _m_pminub _mm_min_pu8#define _m_pminuw _mm_min_pu16#define _m_pminud _mm_min_pu32#define _m_pmovmskb _mm_movemask_pi8#define _m_pmovmskw _mm_movemask_pi16#define _m_pmovmskd _mm_movemask_pi32#define _m_pshufw _mm_shuffle_pi16#define _m_pavgb _mm_avg_pu8#define _m_pavgw _mm_avg_pu16#define _m_pavg2b _mm_avg2_pu8#define _m_pavg2w _mm_avg2_pu16#define _m_psadbw _mm_sad_pu8#define _m_psadwd _mm_sad_pu16#define _m_psadzbw _mm_sadz_pu8#define _m_psadzwd _mm_sadz_pu16#define _m_paligniq _mm_align_si64#define _m_cvt_si2pi _mm_cvtsi64_m64#define _m_cvt_pi2si _mm_cvtm64_si64#endif /* _MMINTRIN_H_INCLUDED */⌨️ 快捷键说明
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