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author | Filip Gawin <filip.gawin@zoho.com> | 2020-12-29 18:53:36 +0100 |
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committer | Filip Gawin <filip.gawin@zoho.com> | 2020-12-29 18:53:36 +0100 |
commit | bffaceb579ba66ba675f5b99e93258423b3c97ab (patch) | |
tree | f1e0e8ef4002d2e5b444678c4c98dd8785cbe980 /sdk/rwsdk/include/d3d8/rtintel.h | |
parent | Reorder CEntity functions into their original order (diff) | |
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Diffstat (limited to 'sdk/rwsdk/include/d3d8/rtintel.h')
-rw-r--r-- | sdk/rwsdk/include/d3d8/rtintel.h | 1206 |
1 files changed, 0 insertions, 1206 deletions
diff --git a/sdk/rwsdk/include/d3d8/rtintel.h b/sdk/rwsdk/include/d3d8/rtintel.h deleted file mode 100644 index c11329df..00000000 --- a/sdk/rwsdk/include/d3d8/rtintel.h +++ /dev/null @@ -1,1206 +0,0 @@ -/** - * Intel specific support toolkit - */ - -/********************************************************************** - * - * File : rtintel.h - * - * Abstract : Intel specific support/emulation - * - ********************************************************************** - * - * This file is a product of Criterion Software Ltd. - * - * This file is provided as is with no warranties of any kind and is - * provided without any obligation on Criterion Software Ltd. or - * Canon Inc. to assist in its use or modification. - * - * Criterion Software Ltd. will not, under any - * circumstances, be liable for any lost revenue or other damages arising - * from the use of this file. - * - * Copyright (c) 1998 Criterion Software Ltd. - * All Rights Reserved. - * - * RenderWare is a trademark of Canon Inc. - * - ************************************************************************/ - -#ifndef RTINTEL_H -#define RTINTEL_H - -/** - * \defgroup rtintel RtIntel - * \ingroup rttool - * - * Intel CPU Toolkit for RenderWare. - */ - -/**************************************************************************** - Include files - */ - -/* - * Pick up - * typedef struct _rwResEntryTag RwResEntry; - * from baresour.h (internal) / rwcore.h (external) - */ - -/**************************************************************************** - Global Types - */ - -#include "rtintel.rpe" /* automatically generated header file */ - -#if (!defined(RW_FIXED_64)) -typedef struct RwFixed64 RwFixed64; -struct RwFixed64 -{ - RwInt32 msb; - RwUInt32 lsb; -}; - -#define RW_FIXED_64 -#endif /* (!defined(RW_FIXED_64)) */ - -#define doubleFromRwFixed64(x) \ - ( ((double)((x).msb))*((double)(1<<16))*((double)(1<<16)) \ - + ((double)((x).lsb)) ) - -#if (!defined(RPINTELTIMEFUNCTION)) -typedef RwBool(*RtIntelTimeFunction) (void *data); - -#define RPINTELTIMEFUNCTION -#endif /* (!defined(RPINTELTIMEFUNCTION)) */ - -typedef struct RtIntelOverload RtIntelOverload; - -typedef void (*RwTransformFunction) (RwResEntry * repEntry); - -struct RtIntelOverload -{ - rwMatrixMultFn MatrixMultiplyFunction; - rwVectorMultFn VectorMultPointFunction; - rwVectorMultFn VectorMultVectorFunction; - RwTransformFunction TransformFunction; -}; - -#if (defined(__ICL)) -#define DEFINED__ICL " __ICL" -#define UNDEFINED__ICL "" -#else /* (defined(__ICL)) */ -#define DEFINED__ICL "" -#define UNDEFINED__ICL " __ICL" -#endif /* (defined(__ICL)) */ - -#if (defined(_MSC_VER)) - -# pragma comment ( user, "comment:" __FILE__ "(" RW_STRINGIFY_EXPANDED(__LINE__) ") : " "DEFINED " DEFINED__ICL " ; UNDEFINED " UNDEFINED__ICL ) -/* # pragma message (__FILE__ "(" RW_STRINGIFY_EXPANDED(__LINE__) ") : " "DEFINED " DEFINED__ICL " ; UNDEFINED " UNDEFINED__ICL ) */ -/* # pragma comment ( user, "comment:" __FILE__ "(" RW_STRINGIFY_EXPANDED(__LINE__) ") : " "DEFINED " DEFINED__ICL " ; UNDEFINED " UNDEFINED__ICL ) */ -#if (! (defined(__ICL) || defined(XBOX_DRVMODEL_H)) ) -#pragma message (__DATE__ " " __TIME__ " " __FILE__ "(" RW_STRINGIFY_EXPANDED(__LINE__) ") : No MMX intrinsics - defaulting to software emulation") -#pragma message (__DATE__ " " __TIME__ " " __FILE__ "(" RW_STRINGIFY_EXPANDED(__LINE__) ") : No SSE intrinsics - defaulting to software emulation") -#pragma comment ( user, "comment:" __FILE__ "(" RW_STRINGIFY_EXPANDED(__LINE__) ") : No MMX intrinsics - defaulting to software emulation") -#endif /* (! (defined(__ICL) || defined(XBOX_DRVMODEL_H)) ) */ -#endif /* (defined(_MSC_VER)) */ - -/* - * MMX - */ - -#if (defined(__ICL)) - -#if (!defined(MMINTRIN_H)) -#include "mmintrin.h" -#define MMINTRIN_H -#endif /* (!defined(MMINTRIN_H)) */ - -#else /* (defined(__ICL)) */ - -#if (defined(_MSC_VER)) - -#if (!defined(__M64)) -typedef __int64 Rt_m64; - -#define __M64 -#endif /* (!defined(__M64)) */ - -#else /* (defined(_MSC_VER)) -- e.g. __GNUC__ */ - -#if (!defined(__M64)) - -typedef RwInt64 Rt_m64; - -#define __M64 - -#endif /* (!defined(__M64)) */ - -#endif /* (defined(_MSC_VER)) */ - -#endif /* (defined(__ICL)) */ - -/* - * SSE - */ - -/* - * From - * ccomp.pdf - * 12 Intel C/C++ Compiler User's Guide - * for Win32 Systems With Katmai New Instruction Support - * -------------------------------------------------------- - * Functionality Intrinsics Usage - * You need only define one preprocessor symbol and include the header file - * xmmintrin.h in your application to use the following functionality - * intrinsics: - * #define _MM_FUNCTIONALITY - * #include "xmmintrin.h" - * To encourage the compiler to inline the functionality intrinsic functions for - * better performance, consider using the -Qip and -Qipo compiler switches. - */ - -#if (defined(__ICL)) - -/* #define _MM2_FUNCTIONALITY */ - -/* #define _MM_FUNCTIONALITY */ - -/* #define _MM_NO_ABORT */ - -/* #define _MM_NO_ACCURACY */ - -/* #define _MM_NO_ALIGN_CHECK */ - -/* #define _MM_NO_INLINE */ - -/* - * Undefine "or", since this is valid assembler; e.g. in - * SDK10/include/xmm_func.h - * _asm { - * push eax - * fld f - * fstcw saved_cw - * mov eax, saved_cw - * or eax, 3072 - * mov new_cw, eax - * fldcw new_cw - * fistp ret - * fldcw saved_cw - * pop eax - * } - */ - -#if (!defined(XMMINTRIN_H)) -#include "xmmintrin.h" -#define XMMINTRIN_H -#endif /* (!defined(XMMINTRIN_H)) */ - -typedef __m64 Rt_m64; -typedef __m128 Rt_m128; - -#if (450 <= __ICL) -#if (!defined(EMMINTRIN_H)) -#include "emmintrin.h" -#define EMMINTRIN_H -typedef __m128d Rt_m128d; -typedef __m128i Rt_m128i; -#endif /* (!defined(EMMINTRIN_H)) */ -#else /* (450 <= __ICL) */ -typedef __m128 Rt_m128d; -typedef __m128 Rt_m128i; -#endif /* (450 <= __ICL) */ - -/* - * Report SSE options as compiler messages and object file comments - */ - -#ifdef _MM2_FUNCTIONALITY -#define DEFINED__MM2_FUNCTIONALITY " _MM2_FUNCTIONALITY" -#define UNDEFINED__MM2_FUNCTIONALITY "" -#else /* _MM2_FUNCTIONALITY */ -#define DEFINED__MM2_FUNCTIONALITY "" -#define UNDEFINED__MM2_FUNCTIONALITY " _MM2_FUNCTIONALITY" -#endif /* _MM2_FUNCTIONALITY */ - -#ifdef _MM_FUNCTIONALITY -#define DEFINED__MM_FUNCTIONALITY DEFINED__MM2_FUNCTIONALITY ## " _MM_FUNCTIONALITY" -#define UNDEFINED__MM_FUNCTIONALITY UNDEFINED__MM2_FUNCTIONALITY -#else /* _MM_FUNCTIONALITY */ -#define DEFINED__MM_FUNCTIONALITY DEFINED__MM2_FUNCTIONALITY -#define UNDEFINED__MM_FUNCTIONALITY UNDEFINED__MM2_FUNCTIONALITY ## " _MM_FUNCTIONALITY" -#endif /* _MM_FUNCTIONALITY */ - -#ifdef _MM_NO_ABORT -#define DEFINED__MM_NO_ABORT DEFINED__MM_FUNCTIONALITY ## " _MM_NO_ABORT" -#define UNDEFINED__MM_NO_ABORT UNDEFINED__MM_FUNCTIONALITY -#else /* _MM_NO_ABORT */ -#define DEFINED__MM_NO_ABORT DEFINED__MM_FUNCTIONALITY -#define UNDEFINED__MM_NO_ABORT UNDEFINED__MM_FUNCTIONALITY ## " _MM_NO_ABORT" -#endif /* _MM_NO_ABORT */ - -#ifdef _MM_NO_ACCURACY -#define DEFINED__MM_NO_ACCURACY DEFINED__MM_NO_ABORT ## " _MM_NO_ACCURACY" -#define UNDEFINED__MM_NO_ACCURACY UNDEFINED__MM_NO_ABORT -#else /* _MM_NO_ACCURACY */ -#define DEFINED__MM_NO_ACCURACY DEFINED__MM_NO_ABORT -#define UNDEFINED__MM_NO_ACCURACY UNDEFINED__MM_NO_ABORT ## " _MM_NO_ACCURACY" -#endif /* _MM_NO_ACCURACY */ - -#ifdef _MM_NO_ALIGN_CHECK -#define DEFINED__MM_NO_ALIGN_CHECK DEFINED__MM_NO_ACCURACY ## " _MM_NO_ALIGN_CHECK" -#define UNDEFINED__MM_NO_ALIGN_CHECK UNDEFINED__MM_NO_ACCURACY -#else /* _MM_NO_ALIGN_CHECK */ -#define DEFINED__MM_NO_ALIGN_CHECK DEFINED__MM_NO_ACCURACY -#define UNDEFINED__MM_NO_ALIGN_CHECK UNDEFINED__MM_NO_ACCURACY ## " _MM_NO_ALIGN_CHECK" -#endif /* _MM_NO_ALIGN_CHECK */ - -#ifdef _MM_NO_INLINE -#define DEFINED__MM_NO_INLINE DEFINED__MM_NO_ALIGN_CHECK ## " _MM_NO_INLINE" -#define UNDEFINED__MM_NO_INLINE UNDEFINED__MM_NO_ALIGN_CHECK -#else /* _MM_NO_INLINE */ -#define DEFINED__MM_NO_INLINE DEFINED__MM_NO_ALIGN_CHECK -#define UNDEFINED__MM_NO_INLINE UNDEFINED__MM_NO_ALIGN_CHECK ## " _MM_NO_INLINE" -#endif /* _MM_NO_INLINE */ - -#pragma comment ( user, "comment:" __DATE__" " __TIME__ " - " __FILE__ ":" RW_STRINGIFY_EXPANDED(__LINE__) ) -#pragma comment ( user, "comment:" "DEFINED :" DEFINED__MM_NO_INLINE ) -#pragma comment ( user, "comment:" "UNDEFINED:" UNDEFINED__MM_NO_INLINE ) - -#pragma message (__DATE__" " __TIME__ " - " __FILE__ ":" RW_STRINGIFY_EXPANDED(__LINE__) ) -#pragma message ("DEFINED :" DEFINED__MM_NO_INLINE ) -#pragma message ("UNDEFINED:" UNDEFINED__MM_NO_INLINE ) - -#else /* (defined(__ICL)) */ - -#define _MM_HINT_T0 1 -#define _MM_HINT_T1 2 -#define _MM_HINT_T2 3 -#define _MM_HINT_NTA 0 - -#if (defined(__R5900__)) -typedef RwInt128 Rt_m128; -#else /* (defined(__R5900__)) */ -#if (!defined(_PAIR__M64)) -struct Rt_m128 -{ - Rt_m64 lo; - Rt_m64 hi; -}; -#define _PAIR__M64 -typedef struct Rt_m128 Rt_m128; -#endif /* (!defined(_PAIR__M64)) */ -#endif /* (defined(__R5900__)) */ - -typedef Rt_m128 Rt_m128d; -typedef Rt_m128 Rt_m128i; -#endif /* (defined(__ICL)) */ - -typedef struct RtIntelV4d RtIntelV4d; -struct RtIntelV4d -{ - RwReal w; - RwV3d v3d; -}; - -typedef union _RpSSEOverlayM128 RpSSEOverlayM128; - -union _RpSSEOverlayM128 -{ - float _f[4]; - RwInt32 _d[4]; - RwUInt32 ud[4]; - RwInt16 _w[8]; - RwUInt16 uw[8]; - RwInt8 _b[16]; - RwUInt8 ub[16]; - Rt_m64 m64[2]; - Rt_m128 m128; - RtIntelV4d v4d; - RwSplitBits bits[4]; -}; - -typedef RpSSEOverlayM128 RpWNIOverlayM128; - -typedef union _RpWNIOverlayM128d RpWNIOverlayM128d; - -union _RpWNIOverlayM128d -{ - double df[2]; - float _f[4]; - RwInt32 _d[4]; - RwUInt32 ud[4]; - RwInt16 _w[8]; - RwUInt16 uw[8]; - RwInt8 _b[16]; - RwUInt8 ub[16]; - Rt_m64 m64[2]; - Rt_m128d m128d; - RtIntelV4d v4d; - RwSplitBits bits[4]; -}; - -typedef union _RpWNIOverlayM128i RpWNIOverlayM128i; - -union _RpWNIOverlayM128i -{ - double df[2]; - float _f[4]; - RwInt32 _d[4]; - RwUInt32 ud[4]; - RwInt16 _w[8]; - RwUInt16 uw[8]; - RwInt8 _b[16]; - RwUInt8 ub[16]; - Rt_m64 m64[2]; - Rt_m128i m128i; - RtIntelV4d v4d; - RwSplitBits bits[4]; -}; - -#define RWUNALIGNED16BYTE(ptr) (0x0000000FUL & ((RwUInt32)(ptr))) - -/*--- Plugin API Functions ---*/ - -#ifdef __cplusplus -extern "C" -{ -#endif /* __cplusplus */ - -/* - * MMX - */ - -/* General support intrinsics */ -extern void Rt_m_empty(void); -extern Rt_m64 Rt_m_from_int(int i); -extern int Rt_m_to_int(Rt_m64 m); -extern Rt_m64 Rt_m_packsswb(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_packssdw(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_packuswb(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_punpckhbw(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_punpckhwd(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_punpckhdq(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_punpcklbw(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_punpcklwd(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_punpckldq(Rt_m64 m1, Rt_m64 m2); - -/* Packed arithmetic intrinsics */ -extern Rt_m64 Rt_m_paddb(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_paddw(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_paddd(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_paddsb(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_paddsw(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_paddusb(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_paddusw(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_psubb(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_psubw(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_psubd(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_psubsb(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_psubsw(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_psubusb(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_psubusw(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_pmaddwd(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_pmulhw(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_pmullw(Rt_m64 m1, Rt_m64 m2); - -/* Shift intrinsics */ -extern Rt_m64 Rt_m_psllw(Rt_m64 m, Rt_m64 count); -extern Rt_m64 Rt_m_psllwi(Rt_m64 m, int count); -extern Rt_m64 Rt_m_pslld(Rt_m64 m, Rt_m64 count); -extern Rt_m64 Rt_m_pslldi(Rt_m64 m, int count); -extern Rt_m64 Rt_m_psllq(Rt_m64 m, Rt_m64 count); -extern Rt_m64 Rt_m_psllqi(Rt_m64 m, int count); -extern Rt_m64 Rt_m_psraw(Rt_m64 m, Rt_m64 count); -extern Rt_m64 Rt_m_psrawi(Rt_m64 m, int count); -extern Rt_m64 Rt_m_psrad(Rt_m64 m, Rt_m64 count); -extern Rt_m64 Rt_m_psradi(Rt_m64 m, int count); -extern Rt_m64 Rt_m_psrlw(Rt_m64 m, Rt_m64 count); -extern Rt_m64 Rt_m_psrlwi(Rt_m64 m, int count); -extern Rt_m64 Rt_m_psrld(Rt_m64 m, Rt_m64 count); -extern Rt_m64 Rt_m_psrldi(Rt_m64 m, int count); -extern Rt_m64 Rt_m_psrlq(Rt_m64 m, Rt_m64 count); -extern Rt_m64 Rt_m_psrlqi(Rt_m64 m, int count); - -/* Logical intrinsics */ -extern Rt_m64 Rt_m_pand(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_pandn(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_por(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_pxor(Rt_m64 m1, Rt_m64 m2); - -/* Comparision intrinsics */ -extern Rt_m64 Rt_m_pcmpeqb(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_pcmpeqw(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_pcmpeqd(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_pcmpgtb(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_pcmpgtw(Rt_m64 m1, Rt_m64 m2); -extern Rt_m64 Rt_m_pcmpgtd(Rt_m64 m1, Rt_m64 m2); - -/* - * SSE - */ - -/* - * Arithmetic Operations - */ - -extern Rt_m128 Rt_mm_add_ss(Rt_m128 a, Rt_m128 b) /* ADDSS */ ; -extern Rt_m128 Rt_mm_add_ps(Rt_m128 a, Rt_m128 b) /* ADDPS */ ; -extern Rt_m128 Rt_mm_sub_ss(Rt_m128 a, Rt_m128 b) /* SUBSS */ ; -extern Rt_m128 Rt_mm_sub_ps(Rt_m128 a, Rt_m128 b) /* SUBPS */ ; -extern Rt_m128 Rt_mm_mul_ss(Rt_m128 a, Rt_m128 b) /* MULSS */ ; -extern Rt_m128 Rt_mm_mul_ps(Rt_m128 a, Rt_m128 b) /* MULPS */ ; -extern Rt_m128 Rt_mm_div_ss(Rt_m128 a, Rt_m128 b) /* DIVSS */ ; -extern Rt_m128 Rt_mm_div_ps(Rt_m128 a, Rt_m128 b) /* DIVPS */ ; -extern Rt_m128 Rt_mm_sqrt_ss(Rt_m128 a) /* SQRTSS */ ; -extern Rt_m128 Rt_mm_sqrt_ps(Rt_m128 a) /* SQRTPS */ ; -extern Rt_m128 Rt_mm_rcp_ss(Rt_m128 a) /* RCPSS */ ; -extern Rt_m128 Rt_mm_rcp_ps(Rt_m128 a) /* RCPPS */ ; -extern Rt_m128 Rt_mm_rsqrt_ss(Rt_m128 a) /* RSQRTSS */ ; -extern Rt_m128 Rt_mm_rsqrt_ps(Rt_m128 a) /* RSQRTPS */ ; -extern Rt_m128 Rt_mm_min_ss(Rt_m128 a, Rt_m128 b) /* MINSS */ ; -extern Rt_m128 Rt_mm_min_ps(Rt_m128 a, Rt_m128 b) /* MINPS */ ; -extern Rt_m128 Rt_mm_max_ss(Rt_m128 a, Rt_m128 b) /* MAXSS */ ; -extern Rt_m128 Rt_mm_max_ps(Rt_m128 a, Rt_m128 b) /* MAXPS */ ; - -/* - * Logical Operations - */ - -extern Rt_m128 Rt_mm_and_ps(Rt_m128 a, Rt_m128 b) /* ANDPS */ ; -extern Rt_m128 Rt_mm_andnot_ps(Rt_m128 a, - Rt_m128 b) /* ANDNPS */ ; -extern Rt_m128 Rt_mm_or_ps(Rt_m128 a, Rt_m128 b) /* ORPS */ ; -extern Rt_m128 Rt_mm_xor_ps(Rt_m128 a, Rt_m128 b) /* XORPS */ ; - -/* - * Comparisons - */ - -extern Rt_m128 Rt_mm_cmpeq_ss(Rt_m128 a, - Rt_m128 b) /* CMPEQSS */ ; -extern Rt_m128 Rt_mm_cmpeq_ps(Rt_m128 a, - Rt_m128 b) /* CMPEQPS */ ; -extern Rt_m128 Rt_mm_cmplt_ss(Rt_m128 a, - Rt_m128 b) /* CMPLTSS */ ; -extern Rt_m128 Rt_mm_cmplt_ps(Rt_m128 a, - Rt_m128 b) /* CMPLTPS */ ; -extern Rt_m128 Rt_mm_cmple_ss(Rt_m128 a, - Rt_m128 b) /* CMPLESS */ ; -extern Rt_m128 Rt_mm_cmple_ps(Rt_m128 a, - Rt_m128 b) /* CMPLEPS */ ; -extern Rt_m128 Rt_mm_cmpgt_ss(Rt_m128 a, Rt_m128 b) /* CMPLTSS r */ - ; -extern Rt_m128 Rt_mm_cmpgt_ps(Rt_m128 a, Rt_m128 b) /* CMPLTPS r */ - ; -extern Rt_m128 Rt_mm_cmpge_ss(Rt_m128 a, Rt_m128 b) /* CMPLESS r */ - ; -extern Rt_m128 Rt_mm_cmpge_ps(Rt_m128 a, Rt_m128 b) /* CMPLEPS r */ - ; -extern Rt_m128 Rt_mm_cmpneq_ss(Rt_m128 a, - Rt_m128 b) /* CMPNEQSS */ ; -extern Rt_m128 Rt_mm_cmpneq_ps(Rt_m128 a, - Rt_m128 b) /* CMPNEQPS */ ; -extern Rt_m128 Rt_mm_cmpnlt_ss(Rt_m128 a, - Rt_m128 b) /* CMPNLTSS */ ; -extern Rt_m128 Rt_mm_cmpnlt_ps(Rt_m128 a, - Rt_m128 b) /* CMPNLTPS */ ; -extern Rt_m128 Rt_mm_cmpnle_ss(Rt_m128 a, - Rt_m128 b) /* CMPNLESS */ ; -extern Rt_m128 Rt_mm_cmpnle_ps(Rt_m128 a, - Rt_m128 b) /* CMPNLEPS */ ; -extern Rt_m128 Rt_mm_cmpngt_ss(Rt_m128 a, Rt_m128 b) - /* CMPNLTSS r */ ; -extern Rt_m128 Rt_mm_cmpngt_ps(Rt_m128 a, Rt_m128 b) - /* CMPNLTPS r */ ; -extern Rt_m128 Rt_mm_cmpnge_ss(Rt_m128 a, Rt_m128 b) - /* CMPNLESS r */ ; -extern Rt_m128 Rt_mm_cmpnge_ps(Rt_m128 a, Rt_m128 b) - /* CMPNLEPS r */ ; -extern Rt_m128 Rt_mm_cmpord_ss(Rt_m128 a, - Rt_m128 b) /* CMPORDSS */ ; -extern Rt_m128 Rt_mm_cmpord_ps(Rt_m128 a, - Rt_m128 b) /* CMPORDPS */ ; -extern Rt_m128 Rt_mm_cmpunord_ss(Rt_m128 a, - Rt_m128 b) /* CMPUNORDSS */ ; -extern Rt_m128 Rt_mm_cmpunord_ps(Rt_m128 a, - Rt_m128 b) /* CMPUNORDPS */ ; -extern int Rt_mm_comieq_ss(Rt_m128 a, - Rt_m128 b) /* COMISS */ ; -extern int Rt_mm_comilt_ss(Rt_m128 a, - Rt_m128 b) /* COMISS */ ; -extern int Rt_mm_comile_ss(Rt_m128 a, - Rt_m128 b) /* COMISS */ ; -extern int Rt_mm_comigt_ss(Rt_m128 a, - Rt_m128 b) /* COMISS */ ; -extern int Rt_mm_comige_ss(Rt_m128 a, - Rt_m128 b) /* COMISS */ ; -extern int Rt_mm_comineq_ss(Rt_m128 a, - Rt_m128 b) /* COMISS */ ; -extern int Rt_mm_ucomieq_ss(Rt_m128 a, - Rt_m128 b) /* UCOMISS */ ; -extern int Rt_mm_ucomilt_ss(Rt_m128 a, - Rt_m128 b) /* UCOMISS */ ; -extern int Rt_mm_ucomile_ss(Rt_m128 a, - Rt_m128 b) /* UCOMISS */ ; -extern int Rt_mm_ucomigt_ss(Rt_m128 a, - Rt_m128 b) /* UCOMISS */ ; -extern int Rt_mm_ucomige_ss(Rt_m128 a, - Rt_m128 b) /* UCOMISS */ ; -extern int Rt_mm_ucomineq_ss(Rt_m128 a, - Rt_m128 b) /* UCOMISS */ ; - -/* - * Conversion Operations - */ - -extern int Rt_mm_cvt_ss2si(Rt_m128 a) /* CVTSS2SI */ ; -extern Rt_m64 Rt_mm_cvt_ps2pi(Rt_m128 a) /* CVTPS2PI */ ; -extern int Rt_mm_cvtt_ss2si(Rt_m128 a) /* CVTTSS2SI */ ; -extern Rt_m64 Rt_mm_cvtt_ps2pi(Rt_m128 a) /* CVTTPS2PI */ ; -extern Rt_m128 Rt_mm_cvt_si2ss(Rt_m128 a, - int b) /* CVTSI2SS */ ; -extern Rt_m128 Rt_mm_cvt_pi2ps(Rt_m128 a, - Rt_m64 b) /* CVTPI2PS */ ; - -/* - * Miscellaneous - */ - -extern Rt_m128 Rt_mm_shuffle_ps(Rt_m128 a, Rt_m128 b, - int i) /* SHUFPS */ ; -extern Rt_m128 Rt_mm_unpackhi_ps(Rt_m128 a, - Rt_m128 b) /* UNPCKHPS */ ; -extern Rt_m128 Rt_mm_unpacklo_ps(Rt_m128 a, - Rt_m128 b) /* UNPCKLPS */ ; -extern Rt_m128 Rt_mm_loadh_pi(Rt_m128 a, Rt_m64 * p) /* MOVHPS reg, mem */ - ; -extern void Rt_mm_storeh_pi(Rt_m64 * p, Rt_m128 a) /* MOVHPS mem, reg */ - ; -extern Rt_m128 Rt_mm_movehl_ps(Rt_m128 a, - Rt_m128 b) /* MOVHLPS */ ; -extern Rt_m128 Rt_mm_movelh_ps(Rt_m128 a, - Rt_m128 b) /* MOVLHPS */ ; -extern Rt_m128 Rt_mm_loadl_pi(Rt_m128 a, Rt_m64 * p) - /* MOVLPS reg, mem */ ; -extern void Rt_mm_storel_pi(Rt_m64 * p, Rt_m128 a) /* MOVLPS mem, reg */ - ; -extern int Rt_mm_movemask_ps(Rt_m128 a) /* MOVMSKPS */ ; -extern unsigned int Rt_mm_getcsr(void) /* STMXCSR */ ; -extern void Rt_mm_setcsr(unsigned int i) /* LDMXCSR */ ; - -/* - * Load Operations - */ - -extern Rt_m128 Rt_mm_load_ss(float *p) /* MOVSS */ ; -extern Rt_m128 Rt_mm_load_ps1(float *p) /* MOVSS + shuffling */ - ; -extern Rt_m128 Rt_mm_load_ps(float *p) /* MOVAPS */ ; -extern Rt_m128 Rt_mm_loadu_ps(float *p) /* MOVUPS */ ; -extern Rt_m128 Rt_mm_loadr_ps(float *p) - /* MOVAPS + shuffling */ ; - -/* - * Set Operations - */ - -extern Rt_m128 Rt_mm_set_ss(float w) /* (composite) */ ; -extern Rt_m128 Rt_mm_set_ps1(float w) /* (composite) */ ; -extern Rt_m128 Rt_mm_set_ps(float z, float y, float x, - float w) /* (composite) */ ; -extern Rt_m128 Rt_mm_setr_ps(float z, float y, float x, - float w) /* (composite) */ ; -extern Rt_m128 Rt_mm_setzero_ps(void) /* (composite) */ ; - -/* - * Store Operations - */ - -extern void Rt_mm_store_ss(float *p, - Rt_m128 a) /* MOVSS */ ; -extern void Rt_mm_store_ps1(float *p, Rt_m128 a) - /* MOVSS + shuffling */ ; -extern void Rt_mm_store_ps(float *p, - Rt_m128 a) /* MOVAPS */ ; -extern void Rt_mm_storeu_ps(float *p, - Rt_m128 a) /* MOVUPS */ ; -extern void Rt_mm_storer_ps(float *p, Rt_m128 a) - /* MOVAPS + shuffling */ ; -extern Rt_m128 Rt_mm_move_ss(Rt_m128 a, - Rt_m128 b) /* MOVSS */ ; - -/* - * Integer Intrinsics - */ - -extern int Rt_m_pextrw(Rt_m64 a, int n) /* PEXTRW */ ; -extern Rt_m64 Rt_m_pinsrw(Rt_m64 a, int d, - int n) /* PINSRW */ ; -extern Rt_m64 Rt_m_pmaxsw(Rt_m64 a, Rt_m64 b) /* PMAXSW */ ; -extern Rt_m64 Rt_m_pmaxub(Rt_m64 a, Rt_m64 b) /* PMAXUB */ ; -extern Rt_m64 Rt_m_pminsw(Rt_m64 a, Rt_m64 b) /* PMINSW */ ; -extern Rt_m64 Rt_m_pminub(Rt_m64 a, Rt_m64 b) /* PMINUB */ ; -extern int Rt_m_pmovmskb(Rt_m64 a) /* PMOVMSKB */ ; -extern Rt_m64 Rt_m_pmulhuw(Rt_m64 a, Rt_m64 b) /* PMULHUW */ ; -extern Rt_m64 Rt_m_pshufw(Rt_m64 a, int n) /* PSHUFW */ ; -extern void Rt_m_lwmaskmovq(Rt_m64 d, Rt_m64 n, - char *p) /* MASKMOVQ */ ; - -/* - * Cacheability Support - */ - -extern void Rt_mm_prefetch(char *p, int i) /* PREFETCH */ ; -extern void Rt_mm_stream_pi(Rt_m64 * p, - Rt_m64 a) /* MOVNTQ */ ; -extern void Rt_mm_stream_ps(float *p, - Rt_m128 a) /* MOVNTPS */ ; -extern void Rt_mm_sfence(void) /* SFENCE */ ; - -/* - * WNI - */ - -/* Arithmetic Operations */ - -extern Rt_m128d Rt_mm_add_sd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_add_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_div_sd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_div_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_max_sd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_max_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_min_sd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_min_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_mul_sd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_mul_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_sqrt_sd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_sqrt_pd(Rt_m128d a); -extern Rt_m128d Rt_mm_sub_sd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_sub_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_andnot_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_and_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_or_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_xor_pd(Rt_m128d a, Rt_m128d b); - -/* Comparisons */ - -extern Rt_m128d Rt_mm_cmpeq_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmplt_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmple_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmpgt_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmpge_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmpord_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmpunord_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmpneq_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmpnlt_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmpnle_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmpngt_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmpnge_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmpeq_sd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmplt_sd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmple_sd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmpgt_sd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmpge_sd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmpord_sd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmpunord_sd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmpneq_sd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmpnlt_sd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmpnle_sd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmpngt_sd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_cmpnge_sd(Rt_m128d a, Rt_m128d b); -extern int Rt_mm_comieq_sd(Rt_m128d a, Rt_m128d b); -extern int Rt_mm_comilt_sd(Rt_m128d a, Rt_m128d b); -extern int Rt_mm_comile_sd(Rt_m128d a, Rt_m128d b); -extern int Rt_mm_comigt_sd(Rt_m128d a, Rt_m128d b); -extern int Rt_mm_comige_sd(Rt_m128d a, Rt_m128d b); -extern int Rt_mm_comineq_sd(Rt_m128d a, Rt_m128d b); -extern int Rt_mm_ucomieq_sd(Rt_m128d a, Rt_m128d b); -extern int Rt_mm_ucomilt_sd(Rt_m128d a, Rt_m128d b); -extern int Rt_mm_ucomile_sd(Rt_m128d a, Rt_m128d b); -extern int Rt_mm_ucomigt_sd(Rt_m128d a, Rt_m128d b); -extern int Rt_mm_ucomige_sd(Rt_m128d a, Rt_m128d b); -extern int Rt_mm_ucomineq_sd(Rt_m128d a, Rt_m128d b); - -/* Conversion Operations */ - -extern Rt_m128 Rt_mm_cvtpd_ps(Rt_m128d a); -extern Rt_m128d Rt_mm_cvtps_pd(Rt_m128 a); -extern Rt_m128d Rt_mm_cvtepi32_pd(Rt_m128i a); -extern Rt_m128i Rt_mm_cvtpd_epi32(Rt_m128d a); -extern int Rt_mm_cvtsd_si32(Rt_m128d a); -extern Rt_m128 Rt_mm_cvtsd_ss(Rt_m128 a, Rt_m128d b); -extern Rt_m128d Rt_mm_cvtsi32_sd(Rt_m128d a, int b); -extern Rt_m128d Rt_mm_cvtss_sd(Rt_m128d a, Rt_m128 b); -extern Rt_m128i Rt_mm_cvttpd_epi32(Rt_m128d a); -extern int Rt_mm_cvttsd_si32(Rt_m128d a); -extern Rt_m128 Rt_mm_cvtepi32_ps(Rt_m128i a); -extern Rt_m128i Rt_mm_cvtps_epi32(Rt_m128 a); -extern Rt_m128i Rt_mm_cvttps_epi32(Rt_m128 a); -extern Rt_m64 Rt_mm_cvtpd_pi32(Rt_m128d a); -extern Rt_m64 Rt_mm_cvttpd_pi32(Rt_m128d a); -extern Rt_m128d Rt_mm_cvtpi32_pd(Rt_m64 a); - -/* Miscellaneous Operations */ - -extern Rt_m128d Rt_mm_unpackhi_pd(Rt_m128d a, Rt_m128d b); -extern Rt_m128d Rt_mm_unpacklo_pd(Rt_m128d a, Rt_m128d b); -extern int Rt_mm_movemask_pd(Rt_m128d a); -extern Rt_m128d Rt_mm_shuffle_pd(Rt_m128d a, Rt_m128d b, int i); -extern Rt_m128d Rt_mm_load_pd(const double *p); -extern Rt_m128d Rt_mm_load1_pd(const double *p); -extern Rt_m128d Rt_mm_loadr_pd(const double *p); -extern Rt_m128d Rt_mm_loadu_pd(const double *p); -extern Rt_m128d Rt_mm_load_sd(const double *p); -extern Rt_m128d Rt_mm_loadh_pd(Rt_m128d a, const double *p); -extern Rt_m128d Rt_mm_loadl_pd(Rt_m128d a, const double *p); -extern Rt_m128d Rt_mm_set_sd(double w); -extern Rt_m128d Rt_mm_set1_pd(double w); -extern Rt_m128d Rt_mm_set_pd(double w, double x); -extern Rt_m128d Rt_mm_setr_pd(double w, double x); -extern Rt_m128d Rt_mm_setzero_pd(void); -extern Rt_m128d Rt_mm_move_sd(Rt_m128d a, Rt_m128d b); -extern void Rt_mm_stream_pd(double *p, Rt_m128d a); -extern void Rt_mm_store_sd(double *p, Rt_m128d a); -extern void Rt_mm_store1_pd(double *p, Rt_m128d a); -extern void Rt_mm_store_pd(double *p, Rt_m128d a); -extern void Rt_mm_storeu_pd(double *p, Rt_m128d a); -extern void Rt_mm_storer_pd(double *p, Rt_m128d a); -extern void Rt_mm_storeh_pd(double *p, Rt_m128d a); -extern void Rt_mm_storel_pd(double *p, Rt_m128d a); -extern Rt_m128i Rt_mm_add_epi8(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_add_epi16(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_add_epi32(Rt_m128i a, Rt_m128i b); -extern Rt_m64 Rt_mm_add_si64(Rt_m64 a, Rt_m64 b); -extern Rt_m128i Rt_mm_add_epi64(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_adds_epi8(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_adds_epi16(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_adds_epu8(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_adds_epu16(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_avg_epu8(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_avg_epu16(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_madd_epi16(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_max_epi16(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_max_epu8(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_min_epi16(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_min_epu8(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_mulhi_epi16(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_mulhi_epu16(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_mullo_epi16(Rt_m128i a, Rt_m128i b); -extern Rt_m64 Rt_mm_mul_su32(Rt_m64 a, Rt_m64 b); -extern Rt_m128i Rt_mm_mul_epu32(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_sad_epu8(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_sub_epi8(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_sub_epi16(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_sub_epi32(Rt_m128i a, Rt_m128i b); -extern Rt_m64 Rt_mm_sub_si64(Rt_m64 a, Rt_m64 b); -extern Rt_m128i Rt_mm_sub_epi64(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_subs_epi8(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_subs_epi16(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_subs_epu8(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_subs_epu16(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_and_si128(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_andnot_si128(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_or_si128(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_xor_si128(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_slli_si128(Rt_m128i a, int imm); -extern Rt_m128i Rt_mm_slli_epi16(Rt_m128i a, int count); -extern Rt_m128i Rt_mm_sll_epi16(Rt_m128i a, Rt_m128i count); -extern Rt_m128i Rt_mm_slli_epi32(Rt_m128i a, int count); -extern Rt_m128i Rt_mm_sll_epi32(Rt_m128i a, Rt_m128i count); -extern Rt_m128i Rt_mm_slli_epi64(Rt_m128i a, int count); -extern Rt_m128i Rt_mm_sll_epi64(Rt_m128i a, Rt_m128i count); -extern Rt_m128i Rt_mm_srai_epi16(Rt_m128i a, int count); -extern Rt_m128i Rt_mm_sra_epi16(Rt_m128i a, Rt_m128i count); -extern Rt_m128i Rt_mm_srai_epi32(Rt_m128i a, int count); -extern Rt_m128i Rt_mm_sra_epi32(Rt_m128i a, Rt_m128i count); -extern Rt_m128i Rt_mm_srli_si128(Rt_m128i a, int imm); -extern Rt_m128i Rt_mm_srli_epi16(Rt_m128i a, int count); -extern Rt_m128i Rt_mm_srl_epi16(Rt_m128i a, Rt_m128i count); -extern Rt_m128i Rt_mm_srli_epi32(Rt_m128i a, int count); -extern Rt_m128i Rt_mm_srl_epi32(Rt_m128i a, Rt_m128i count); -extern Rt_m128i Rt_mm_srli_epi64(Rt_m128i a, int count); -extern Rt_m128i Rt_mm_srl_epi64(Rt_m128i a, Rt_m128i count); -extern Rt_m128i Rt_mm_cmpeq_epi8(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_cmpeq_epi16(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_cmpeq_epi32(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_cmpgt_epi8(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_cmpgt_epi16(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_cmpgt_epi32(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_cmplt_epi8(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_cmplt_epi16(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_cmplt_epi32(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_cvtsi32_si128(int a); -extern int Rt_mm_cvtsi128_si32(Rt_m128i a); - -/* Miscellaneous Operations */ - -extern Rt_m64 Rt_mm_movepi64_pi64(Rt_m128i a); -extern Rt_m128i Rt_mm_movpi64_epi64(Rt_m64 a); -extern Rt_m128i Rt_mm_move_epi64(Rt_m128i a); -extern Rt_m128i Rt_mm_packs_epi16(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_packs_epi32(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_packus_epi16(Rt_m128i a, Rt_m128i b); -extern int Rt_mm_extract_epi16(Rt_m128i a, int imm); -extern Rt_m128i Rt_mm_insert_epi16(Rt_m128i a, int b, int imm); -extern int Rt_mm_movemask_epi8(Rt_m128i a); -extern Rt_m128i Rt_mm_shuffle_epi32(Rt_m128i a, int imm); -extern Rt_m128i Rt_mm_shufflehi_epi16(Rt_m128i a, int imm); -extern Rt_m128i Rt_mm_shufflelo_epi16(Rt_m128i a, int imm); -extern Rt_m128i Rt_mm_unpackhi_epi8(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_unpackhi_epi16(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_unpackhi_epi32(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_unpackhi_epi64(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_unpacklo_epi8(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_unpacklo_epi16(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_unpacklo_epi32(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_unpacklo_epi64(Rt_m128i a, Rt_m128i b); -extern Rt_m128i Rt_mm_loadl_epi64(Rt_m128i const *p); -extern Rt_m128i Rt_mm_load_si128(const Rt_m128i * p); -extern Rt_m128i Rt_mm_loadu_si128(const Rt_m128i * p); -extern Rt_m128i Rt_mm_set_epi64(Rt_m64 q1, Rt_m64 q0); -extern Rt_m128i Rt_mm_set_epi32(int i3, int i2, int i1, int i0); -extern Rt_m128i - Rt_mm_set_epi16(short w7, short w6, - short w5, short w4, short w3, short w2, - short w1, short w0); -extern Rt_m128i Rt_mm_set_epi8(char b15, char b14, - char b13, char b12, - char b11, char b10, - char b9, char b8, - char b7, char b6, - char b5, char b4, - char b3, char b2, - char b1, char b0); -extern Rt_m128i Rt_mm_set1_epi64(Rt_m64 q); -extern Rt_m128i Rt_mm_set1_epi32(int i); -extern Rt_m128i Rt_mm_set1_epi16(short w); -extern Rt_m128i Rt_mm_set1_epi8(char b); -extern Rt_m128i Rt_mm_setr_epi64(Rt_m64 q0, Rt_m64 q1); -extern Rt_m128i Rt_mm_setr_epi32(int i0, int i1, int i2, - int i3); -extern Rt_m128i Rt_mm_setr_epi16(short w0, short w1, - short w2, short w3, - short w4, short w5, - short w6, short w7); -extern Rt_m128i Rt_mm_setr_epi8(char b0, char b1, - char b2, char b3, - char b4, char b5, - char b6, char b7, - char b8, char b9, - char b10, char b11, - char b12, char b13, - char b14, char b15); -extern Rt_m128i Rt_mm_setzero_si128(void); - -/* Store Operations */ - -extern void Rt_mm_store_si128(Rt_m128i * p, Rt_m128i a); -extern void Rt_mm_storeu_si128(Rt_m128i * p, Rt_m128i a); -extern void Rt_mm_maskmoveu_si128(Rt_m128i s, Rt_m128i n, - char *p); -extern void Rt_mm_storel_epi64(Rt_m128i * p, Rt_m128i a); -extern void Rt_mm_stream_si128(Rt_m128i * p, Rt_m128i a); -extern void Rt_mm_stream_si32(int *p, int a); -extern void Rt_mm_clflush(void const *p); -extern void Rt_mm_lfence(void); -extern void Rt_mm_mfence(void); - -/* - * API - */ -extern RwUInt32 RtIntelRDTSC(void); -extern RwUInt32 RtIntelToggleEFLAGS(int mask); -extern RwUInt32 RtIntelCPUID(RwUInt32 level, - void *pb, void *pc, void *pd); -extern RwUInt32 RtIntelHaveCPUID(void); -extern RwUInt32 RtIntelHaveRDTSC(void); -extern RwUInt32 RtIntelHaveMMX(void); -extern RwUInt32 RtIntelHaveSSE(void); -extern RwUInt32 RtIntelHaveWNI(void); -extern RwUInt32 RtIntelCpuType(void); - -extern RwBool RtIntelStartTiming(void * data); -extern RwBool RtIntelStopTiming(void *data); -extern RwBool RtIntelTime(RwFixed64 * result, - RtIntelTimeFunction func, - void *data); - -extern RwBool RtIntelPluginAttach(void); - -extern RtIntelOverload *_rtIntelOverloadGetHandle(void); - -extern RxNodeDefinition *RxNodeDefinitionGetSSETransformCSL(void); - - -#ifdef __cplusplus -} -#endif /* __cplusplus */ - -/* - * LEGACY-SUPPORT -- e.g. - * rwsdk/driver/d3d/baintd3d.c - * is locked at time of writing - */ - -#define RpIntelRDTSC() RtIntelRDTSC() -#define RpIntelToggleEFLAGS(_mask) RtIntelToggleEFLAGS(_mask) -#define RpIntelCPUID(_level, _pb, _pc, _pd) \ - RtIntelCPUID(_level, _pb, _pc, _pd) -#define RpIntelHaveCPUID() RtIntelHaveCPUID() -#define RpIntelHaveRDTSC() RtIntelHaveRDTSC() -#define RpIntelHaveMMX() RtIntelHaveMMX() -#define RpIntelHaveSSE() RtIntelHaveSSE() -#define RpIntelHaveWNI() RtIntelHaveWNI() -#define RpIntelCpuType() RtIntelCpuType() -#define RpIntelStartTiming(_data) RtIntelStartTiming(_data) -#define RpIntelStopTiming(_data) RtIntelStopTiming(_data) -#define RpIntelTime(_result, _func, _data) \ - RtIntelTime(_result, _func, _data) -#define RpIntelPluginAttach() RtIntelPluginAttach() -#define RpNodeDefinitionGetSSETransformCSL() \ - RxNodeDefinitionGetSSETransformCSL() - -typedef RtIntelOverload RwIntelOverload; -typedef RtIntelOverload RpIntelOverload; - -#define _rwIntelOverloadGetHandle() _rtIntelOverloadGetHandle() -#define _rpIntelOverloadGetHandle() _rtIntelOverloadGetHandle() -#define RwIntelHaveSSE() RtIntelHaveSSE() -#define RpIntelHaveSSE() RtIntelHaveSSE() - -#if (defined(RWEMULATEINTELSIMD) || !defined(__ICL)) - -/* - * MMX - */ - -/* General support intrinsics */ -#define _m_empty() Rt_m_empty() -#define _m_from_int(i) Rt_m_from_int(i) -#define _m_to_int(m) Rt_m_to_int(m) -#define _m_packsswb(m1, m2) Rt_m_packsswb(m1, m2) -#define _m_packssdw(m1, m2) Rt_m_packssdw(m1, m2) -#define _m_packuswb(m1, m2) Rt_m_packuswb(m1, m2) -#define _m_punpckhbw(m1, m2) Rt_m_punpckhbw(m1, m2) -#define _m_punpckhwd(m1, m2) Rt_m_punpckhwd(m1, m2) -#define _m_punpckhdq(m1, m2) Rt_m_punpckhdq(m1, m2) -#define _m_punpcklbw(m1, m2) Rt_m_punpcklbw(m1, m2) -#define _m_punpcklwd(m1, m2) Rt_m_punpcklwd(m1, m2) -#define _m_punpckldq(m1, m2) Rt_m_punpckldq(m1, m2) - -/* Packed arithmetic intrinsics */ -#define _m_paddb(m1, m2) Rt_m_paddb(m1, m2) -#define _m_paddw(m1, m2) Rt_m_paddw(m1, m2) -#define _m_paddd(m1, m2) Rt_m_paddd(m1, m2) -#define _m_paddsb(m1, m2) Rt_m_paddsb(m1, m2) -#define _m_paddsw(m1, m2) Rt_m_paddsw(m1, m2) -#define _m_paddusb(m1, m2) Rt_m_paddusb(m1, m2) -#define _m_paddusw(m1, m2) Rt_m_paddusw(m1, m2) -#define _m_psubb(m1, m2) Rt_m_psubb(m1, m2) -#define _m_psubw(m1, m2) Rt_m_psubw(m1, m2) -#define _m_psubd(m1, m2) Rt_m_psubd(m1, m2) -#define _m_psubsb(m1, m2) Rt_m_psubsb(m1, m2) -#define _m_psubsw(m1, m2) Rt_m_psubsw(m1, m2) -#define _m_psubusb(m1, m2) Rt_m_psubusb(m1, m2) -#define _m_psubusw(m1, m2) Rt_m_psubusw(m1, m2) -#define _m_pmaddwd(m1, m2) Rt_m_pmaddwd(m1, m2) -#define _m_pmulhw(m1, m2) Rt_m_pmulhw(m1, m2) -#define _m_pmullw(m1, m2) Rt_m_pmullw(m1, m2) - -/* Shift intrinsics */ -#define _m_psllw(m, count) Rt_m_psllw(m, count) -#define _m_psllwi(m, count) Rt_m_psllwi(m, count) -#define _m_pslld(m, count) Rt_m_pslld(m, count) -#define _m_pslldi(m, count) Rt_m_pslldi(m, count) -#define _m_psllq(m, count) Rt_m_psllq(m, count) -#define _m_psllqi(m, count) Rt_m_psllqi(m, count) -#define _m_psraw(m, count) Rt_m_psraw(m, count) -#define _m_psrawi(m, count) Rt_m_psrawi(m, count) -#define _m_psrad(m, count) Rt_m_psrad(m, count) -#define _m_psradi(m, count) Rt_m_psradi(m, count) -#define _m_psrlw(m, count) Rt_m_psrlw(m, count) -#define _m_psrlwi(m, count) Rt_m_psrlwi(m, count) -#define _m_psrld(m, count) Rt_m_psrld(m, count) -#define _m_psrldi(m, count) Rt_m_psrldi(m, count) -#define _m_psrlq(m, count) Rt_m_psrlq(m, count) -#define _m_psrlqi(m, count) Rt_m_psrlqi(m, count) - -/* Logical intrinsics */ -#define _m_pand(m1, m2) Rt_m_pand(m1, m2) -#define _m_pandn(m1, m2) Rt_m_pandn(m1, m2) -#define _m_por(m1, m2) Rt_m_por(m1, m2) -#define _m_pxor(m1, m2) Rt_m_pxor(m1, m2) - -/* Comparison intrinsics */ -#define _m_pcmpeqb(m1, m2) Rt_m_pcmpeqb(m1, m2) -#define _m_pcmpeqw(m1, m2) Rt_m_pcmpeqw(m1, m2) -#define _m_pcmpeqd(m1, m2) Rt_m_pcmpeqd(m1, m2) -#define _m_pcmpgtb(m1, m2) Rt_m_pcmpgtb(m1, m2) -#define _m_pcmpgtw(m1, m2) Rt_m_pcmpgtw(m1, m2) -#define _m_pcmpgtd(m1, m2) Rt_m_pcmpgtd(m1, m2) - -/* - * SSE - */ - -/* - * Arithmetic Operations - */ - -#define _mm_add_ss(a, b) Rt_mm_add_ss(a, b) -#define _mm_add_ps(a, b) Rt_mm_add_ps(a, b) -#define _mm_sub_ss(a, b) Rt_mm_sub_ss(a, b) -#define _mm_sub_ps(a, b) Rt_mm_sub_ps(a, b) -#define _mm_mul_ss(a, b) Rt_mm_mul_ss(a, b) -#define _mm_mul_ps(a, b) Rt_mm_mul_ps(a, b) -#define _mm_div_ss(a, b) Rt_mm_div_ss(a, b) -#define _mm_div_ps(a, b) Rt_mm_div_ps(a, b) -#define _mm_sqrt_ss(a) Rt_mm_sqrt_ss(a) -#define _mm_sqrt_ps(a) Rt_mm_sqrt_ps(a) -#define _mm_rcp_ss(a) Rt_mm_rcp_ss(a) -#define _mm_rcp_ps(a) Rt_mm_rcp_ps(a) -#define _mm_rsqrt_ss(a) Rt_mm_rsqrt_ss(a) -#define _mm_rsqrt_ps(a) Rt_mm_rsqrt_ps(a) -#define _mm_min_ss(a, b) Rt_mm_min_ss(a, b) -#define _mm_min_ps(a, b) Rt_mm_min_ps(a, b) -#define _mm_max_ss(a, b) Rt_mm_max_ss(a, b) -#define _mm_max_ps(a, b) Rt_mm_max_ps(a, b) - -/* - * Logical Operations - */ - -#define _mm_and_ps(a, b) Rt_mm_and_ps(a, b) -#define _mm_andnot_ps(a, b) Rt_mm_andnot_ps(a, b) -#define _mm_or_ps(a, b) Rt_mm_or_ps(a, b) -#define _mm_xor_ps(a, b) Rt_mm_xor_ps(a, b) - -/* - * Comparisons - */ - -#define _mm_cmpeq_ss(a, b) Rt_mm_cmpeq_ss(a, b) -#define _mm_cmpeq_ps(a, b) Rt_mm_cmpeq_ps(a, b) -#define _mm_cmplt_ss(a, b) Rt_mm_cmplt_ss(a, b) -#define _mm_cmplt_ps(a, b) Rt_mm_cmplt_ps(a, b) -#define _mm_cmple_ss(a, b) Rt_mm_cmple_ss(a, b) -#define _mm_cmple_ps(a, b) Rt_mm_cmple_ps(a, b) -#define _mm_cmpgt_ss(a, b) Rt_mm_cmpgt_ss(a, b) -#define _mm_cmpgt_ps(a, b) Rt_mm_cmpgt_ps(a, b) -#define _mm_cmpge_ss(a, b) Rt_mm_cmpge_ss(a, b) -#define _mm_cmpge_ps(a, b) Rt_mm_cmpge_ps(a, b) -#define _mm_cmpneq_ss(a, b) Rt_mm_cmpneq_ss(a, b) -#define _mm_cmpneq_ps(a, b) Rt_mm_cmpneq_ps(a, b) -#define _mm_cmpnlt_ss(a, b) Rt_mm_cmpnlt_ss(a, b) -#define _mm_cmpnlt_ps(a, b) Rt_mm_cmpnlt_ps(a, b) -#define _mm_cmpnle_ss(a, b) Rt_mm_cmpnle_ss(a, b) -#define _mm_cmpnle_ps(a, b) Rt_mm_cmpnle_ps(a, b) -#define _mm_cmpngt_ss(a, b) Rt_mm_cmpngt_ss(a, b) -#define _mm_cmpngt_ps(a, b) Rt_mm_cmpngt_ps(a, b) -#define _mm_cmpnge_ss(a, b) Rt_mm_cmpnge_ss(a, b) -#define _mm_cmpnge_ps(a, b) Rt_mm_cmpnge_ps(a, b) -#define _mm_cmpord_ss(a, b) Rt_mm_cmpord_ss(a, b) -#define _mm_cmpord_ps(a, b) Rt_mm_cmpord_ps(a, b) -#define _mm_cmpunord_ss(a, b) Rt_mm_cmpunord_ss(a, b) -#define _mm_cmpunord_ps(a, b) Rt_mm_cmpunord_ps(a, b) -#define _mm_comieq_ss(a, b) Rt_mm_comieq_ss(a, b) -#define _mm_comilt_ss(a, b) Rt_mm_comilt_ss(a, b) -#define _mm_comile_ss(a, b) Rt_mm_comile_ss(a, b) -#define _mm_comigt_ss(a, b) Rt_mm_comigt_ss(a, b) -#define _mm_comige_ss(a, b) Rt_mm_comige_ss(a, b) -#define _mm_comineq_ss(a, b) Rt_mm_comineq_ss(a, b) -#define _mm_ucomieq_ss(a, b) Rt_mm_ucomieq_ss(a, b) -#define _mm_ucomilt_ss(a, b) Rt_mm_ucomilt_ss(a, b) -#define _mm_ucomile_ss(a, b) Rt_mm_ucomile_ss(a, b) -#define _mm_ucomigt_ss(a, b) Rt_mm_ucomigt_ss(a, b) -#define _mm_ucomige_ss(a, b) Rt_mm_ucomige_ss(a, b) -#define _mm_ucomineq_ss(a, b) Rt_mm_ucomineq_ss(a, b) - -/* - * Conversion Operations - */ - -#define _mm_cvt_ss2si(a) Rt_mm_cvt_ss2si(a) -#define _mm_cvt_ps2pi(a) Rt_mm_cvt_ps2pi(a) -#define _mm_cvtt_ss2si(a) Rt_mm_cvtt_ss2si(a) -#define _mm_cvtt_ps2pi(a) Rt_mm_cvtt_ps2pi(a) -#define _mm_cvt_si2ss(a, b) Rt_mm_cvt_si2ss(a, b) -#define _mm_cvt_pi2ps(a, b) Rt_mm_cvt_pi2ps(a, b) - -/* - * Miscellaneous - */ - -#define _mm_shuffle_ps(a, b, i) Rt_mm_shuffle_ps(a, b, i) -#define _mm_unpackhi_ps(a, b) Rt_mm_unpackhi_ps(a, b) -#define _mm_unpacklo_ps(a, b) Rt_mm_unpacklo_ps(a, b) -#define _mm_loadh_pi(a, p) Rt_mm_loadh_pi(a, p) -#define _mm_storeh_pi(p, a) Rt_mm_storeh_pi(p, a) -#define _mm_movehl_ps(a, b) Rt_mm_movehl_ps(a, b) -#define _mm_movelh_ps(a, b) Rt_mm_movelh_ps(a, b) -#define _mm_loadl_pi(a, p) Rt_mm_loadl_pi(a, p) -#define _mm_storel_pi(p, a) Rt_mm_storel_pi(p, a) -#define _mm_movemask_ps(a) Rt_mm_movemask_ps(a) -#define _mm_getcsr() Rt_mm_getcsr() -#define _mm_setcsr(i) Rt_mm_setcsr(i) - -/* - *Load Operations - */ - -#define _mm_load_ss(p) Rt_mm_load_ss(p) -#define _mm_load_ps1(p) Rt_mm_load_ps1(p) -#define _mm_load_ps(p) Rt_mm_load_ps(p) -#define _mm_loadu_ps(p) Rt_mm_loadu_ps(p) -#define _mm_loadr_ps(p) Rt_mm_loadr_ps(p) - -/* - * Set Operations - */ - -#define _mm_set_ss(w) Rt_mm_set_ss(w) -#define _mm_set_ps1(w) Rt_mm_set_ps1(w) -#define _mm_set_ps(z, y, x, w) Rt_mm_set_ps(z, y, x, w) -#define _mm_setr_ps(z, y, x, w) Rt_mm_setr_ps(z, y, x, w) -#define _mm_setzero_ps() Rt_mm_setzero_ps() - -/* - * Store Operations - */ - -#define _mm_store_ss(p, a) Rt_mm_store_ss(p, a) -#define _mm_store_ps1(p, a) Rt_mm_store_ps1(p, a) -#define _mm_store_ps(p, a) Rt_mm_store_ps(p, a) -#define _mm_storeu_ps(p, a) Rt_mm_storeu_ps(p, a) -#define _mm_storer_ps(p, a) Rt_mm_storer_ps(p, a) -#define _mm_move_ss(a, b) Rt_mm_move_ss(a, b) - -/* - * Integer Intrinsics - */ - -#define _m_pextrw(a, n) Rt_m_pextrw(a, n) -#define _m_pinsrw(a, d, n) Rt_m_pinsrw(a, d, n) -#define _m_pmaxsw(a, b) Rt_m_pmaxsw(a, b) -#define _m_pmaxub(a, b) Rt_m_pmaxub(a, b) -#define _m_pminsw(a, b) Rt_m_pminsw(a, b) -#define _m_pminub(a, b) Rt_m_pminub(a, b) -#define _m_pmovmskb(a) Rt_m_pmovmskb(a) -#define _m_pmulhuw(a, b) Rt_m_pmulhuw(a, b) -#define _m_pshufw(a, n) Rt_m_pshufw(a, n) -#define _m_lwmaskmovq(d, n, p) Rt_m_lwmaskmovq(d, n, p) - -/* - * Cacheability Support - */ - -#define _mm_prefetch(p, i) Rt_mm_prefetch(p, i) -#define _mm_stream_pi(p, a) Rt_mm_stream_pi(p, a) -#define _mm_stream_ps(p, a) Rt_mm_stream_ps(p, a) -#define _mm_sfence() Rt_mm_sfence() - -#endif /* (defined(RWEMULATEINTELSIMD) || !defined(__ICL)) */ - -#endif /* RTINTEL_H */ |