2011-11-22 21:28:15 +00:00
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/*
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===========================================================================
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Doom 3 GPL Source Code
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2011-12-06 18:20:15 +00:00
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Copyright (C) 1999-2011 id Software LLC, a ZeniMax Media company.
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2011-11-22 21:28:15 +00:00
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2011-12-06 16:14:59 +00:00
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This file is part of the Doom 3 GPL Source Code ("Doom 3 Source Code").
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2011-11-22 21:28:15 +00:00
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Doom 3 Source Code is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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Doom 3 Source Code is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with Doom 3 Source Code. If not, see <http://www.gnu.org/licenses/>.
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In addition, the Doom 3 Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Doom 3 Source Code. If not, please request a copy in writing from id Software at the address below.
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If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA.
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===========================================================================
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*/
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#ifndef __MATH_SIMD_H__
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#define __MATH_SIMD_H__
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2011-12-16 22:28:29 +00:00
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#include "sys/sys_public.h"
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2011-11-22 21:28:15 +00:00
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/*
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===============================================================================
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Single Instruction Multiple Data (SIMD)
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For optimal use data should be aligned on a 16 byte boundary.
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All idSIMDProcessor routines are thread safe.
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===============================================================================
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*/
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class idSIMD {
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public:
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static void Init( void );
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static void InitProcessor( const char *module, bool forceGeneric );
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static void Shutdown( void );
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static void Test_f( const class idCmdArgs &args );
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};
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/*
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===============================================================================
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virtual base class for different SIMD processors
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===============================================================================
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*/
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#ifdef _WIN32
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#define VPCALL __fastcall
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#else
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#define VPCALL
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#endif
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class idVec2;
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class idVec3;
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class idVec4;
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class idVec5;
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class idVec6;
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class idVecX;
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class idMat2;
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class idMat3;
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class idMat4;
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class idMat5;
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class idMat6;
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class idMatX;
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class idPlane;
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class idDrawVert;
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class idJointQuat;
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class idJointMat;
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struct dominantTri_s;
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const int MIXBUFFER_SAMPLES = 4096;
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typedef enum {
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SPEAKER_LEFT = 0,
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SPEAKER_RIGHT,
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SPEAKER_CENTER,
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SPEAKER_LFE,
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SPEAKER_BACKLEFT,
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SPEAKER_BACKRIGHT
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} speakerLabel;
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class idSIMDProcessor {
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public:
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idSIMDProcessor( void ) { cpuid = CPUID_NONE; }
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2011-12-13 16:14:07 +00:00
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virtual ~idSIMDProcessor() { };
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2011-11-22 21:28:15 +00:00
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2011-12-12 22:24:06 +00:00
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int cpuid;
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2011-11-22 21:28:15 +00:00
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virtual const char * VPCALL GetName( void ) const = 0;
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virtual void VPCALL Add( float *dst, const float constant, const float *src, const int count ) = 0;
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virtual void VPCALL Add( float *dst, const float *src0, const float *src1, const int count ) = 0;
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virtual void VPCALL Sub( float *dst, const float constant, const float *src, const int count ) = 0;
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virtual void VPCALL Sub( float *dst, const float *src0, const float *src1, const int count ) = 0;
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virtual void VPCALL Mul( float *dst, const float constant, const float *src, const int count ) = 0;
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virtual void VPCALL Mul( float *dst, const float *src0, const float *src1, const int count ) = 0;
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virtual void VPCALL Div( float *dst, const float constant, const float *src, const int count ) = 0;
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virtual void VPCALL Div( float *dst, const float *src0, const float *src1, const int count ) = 0;
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virtual void VPCALL MulAdd( float *dst, const float constant, const float *src, const int count ) = 0;
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virtual void VPCALL MulAdd( float *dst, const float *src0, const float *src1, const int count ) = 0;
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virtual void VPCALL MulSub( float *dst, const float constant, const float *src, const int count ) = 0;
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virtual void VPCALL MulSub( float *dst, const float *src0, const float *src1, const int count ) = 0;
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virtual void VPCALL Dot( float *dst, const idVec3 &constant, const idVec3 *src, const int count ) = 0;
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virtual void VPCALL Dot( float *dst, const idVec3 &constant, const idPlane *src, const int count ) = 0;
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virtual void VPCALL Dot( float *dst, const idVec3 &constant, const idDrawVert *src, const int count ) = 0;
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virtual void VPCALL Dot( float *dst, const idPlane &constant,const idVec3 *src, const int count ) = 0;
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virtual void VPCALL Dot( float *dst, const idPlane &constant,const idPlane *src, const int count ) = 0;
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virtual void VPCALL Dot( float *dst, const idPlane &constant,const idDrawVert *src, const int count ) = 0;
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virtual void VPCALL Dot( float *dst, const idVec3 *src0, const idVec3 *src1, const int count ) = 0;
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virtual void VPCALL Dot( float &dot, const float *src1, const float *src2, const int count ) = 0;
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virtual void VPCALL CmpGT( byte *dst, const float *src0, const float constant, const int count ) = 0;
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virtual void VPCALL CmpGT( byte *dst, const byte bitNum, const float *src0, const float constant, const int count ) = 0;
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virtual void VPCALL CmpGE( byte *dst, const float *src0, const float constant, const int count ) = 0;
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virtual void VPCALL CmpGE( byte *dst, const byte bitNum, const float *src0, const float constant, const int count ) = 0;
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virtual void VPCALL CmpLT( byte *dst, const float *src0, const float constant, const int count ) = 0;
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virtual void VPCALL CmpLT( byte *dst, const byte bitNum, const float *src0, const float constant, const int count ) = 0;
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virtual void VPCALL CmpLE( byte *dst, const float *src0, const float constant, const int count ) = 0;
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virtual void VPCALL CmpLE( byte *dst, const byte bitNum, const float *src0, const float constant, const int count ) = 0;
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virtual void VPCALL MinMax( float &min, float &max, const float *src, const int count ) = 0;
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virtual void VPCALL MinMax( idVec2 &min, idVec2 &max, const idVec2 *src, const int count ) = 0;
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virtual void VPCALL MinMax( idVec3 &min, idVec3 &max, const idVec3 *src, const int count ) = 0;
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virtual void VPCALL MinMax( idVec3 &min, idVec3 &max, const idDrawVert *src, const int count ) = 0;
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virtual void VPCALL MinMax( idVec3 &min, idVec3 &max, const idDrawVert *src, const int *indexes, const int count ) = 0;
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virtual void VPCALL Clamp( float *dst, const float *src, const float min, const float max, const int count ) = 0;
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virtual void VPCALL ClampMin( float *dst, const float *src, const float min, const int count ) = 0;
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virtual void VPCALL ClampMax( float *dst, const float *src, const float max, const int count ) = 0;
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virtual void VPCALL Memcpy( void *dst, const void *src, const int count ) = 0;
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virtual void VPCALL Memset( void *dst, const int val, const int count ) = 0;
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// these assume 16 byte aligned and 16 byte padded memory
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virtual void VPCALL Zero16( float *dst, const int count ) = 0;
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virtual void VPCALL Negate16( float *dst, const int count ) = 0;
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virtual void VPCALL Copy16( float *dst, const float *src, const int count ) = 0;
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virtual void VPCALL Add16( float *dst, const float *src1, const float *src2, const int count ) = 0;
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virtual void VPCALL Sub16( float *dst, const float *src1, const float *src2, const int count ) = 0;
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virtual void VPCALL Mul16( float *dst, const float *src1, const float constant, const int count ) = 0;
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virtual void VPCALL AddAssign16( float *dst, const float *src, const int count ) = 0;
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virtual void VPCALL SubAssign16( float *dst, const float *src, const int count ) = 0;
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virtual void VPCALL MulAssign16( float *dst, const float constant, const int count ) = 0;
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// idMatX operations
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virtual void VPCALL MatX_MultiplyVecX( idVecX &dst, const idMatX &mat, const idVecX &vec ) = 0;
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virtual void VPCALL MatX_MultiplyAddVecX( idVecX &dst, const idMatX &mat, const idVecX &vec ) = 0;
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virtual void VPCALL MatX_MultiplySubVecX( idVecX &dst, const idMatX &mat, const idVecX &vec ) = 0;
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virtual void VPCALL MatX_TransposeMultiplyVecX( idVecX &dst, const idMatX &mat, const idVecX &vec ) = 0;
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virtual void VPCALL MatX_TransposeMultiplyAddVecX( idVecX &dst, const idMatX &mat, const idVecX &vec ) = 0;
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virtual void VPCALL MatX_TransposeMultiplySubVecX( idVecX &dst, const idMatX &mat, const idVecX &vec ) = 0;
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virtual void VPCALL MatX_MultiplyMatX( idMatX &dst, const idMatX &m1, const idMatX &m2 ) = 0;
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virtual void VPCALL MatX_TransposeMultiplyMatX( idMatX &dst, const idMatX &m1, const idMatX &m2 ) = 0;
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virtual void VPCALL MatX_LowerTriangularSolve( const idMatX &L, float *x, const float *b, const int n, int skip = 0 ) = 0;
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virtual void VPCALL MatX_LowerTriangularSolveTranspose( const idMatX &L, float *x, const float *b, const int n ) = 0;
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virtual bool VPCALL MatX_LDLTFactor( idMatX &mat, idVecX &invDiag, const int n ) = 0;
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// rendering
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virtual void VPCALL BlendJoints( idJointQuat *joints, const idJointQuat *blendJoints, const float lerp, const int *index, const int numJoints ) = 0;
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virtual void VPCALL ConvertJointQuatsToJointMats( idJointMat *jointMats, const idJointQuat *jointQuats, const int numJoints ) = 0;
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virtual void VPCALL ConvertJointMatsToJointQuats( idJointQuat *jointQuats, const idJointMat *jointMats, const int numJoints ) = 0;
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virtual void VPCALL TransformJoints( idJointMat *jointMats, const int *parents, const int firstJoint, const int lastJoint ) = 0;
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virtual void VPCALL UntransformJoints( idJointMat *jointMats, const int *parents, const int firstJoint, const int lastJoint ) = 0;
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virtual void VPCALL TransformVerts( idDrawVert *verts, const int numVerts, const idJointMat *joints, const idVec4 *weights, const int *index, const int numWeights ) = 0;
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virtual void VPCALL TracePointCull( byte *cullBits, byte &totalOr, const float radius, const idPlane *planes, const idDrawVert *verts, const int numVerts ) = 0;
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virtual void VPCALL DecalPointCull( byte *cullBits, const idPlane *planes, const idDrawVert *verts, const int numVerts ) = 0;
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virtual void VPCALL OverlayPointCull( byte *cullBits, idVec2 *texCoords, const idPlane *planes, const idDrawVert *verts, const int numVerts ) = 0;
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virtual void VPCALL DeriveTriPlanes( idPlane *planes, const idDrawVert *verts, const int numVerts, const int *indexes, const int numIndexes ) = 0;
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virtual void VPCALL DeriveTangents( idPlane *planes, idDrawVert *verts, const int numVerts, const int *indexes, const int numIndexes ) = 0;
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virtual void VPCALL DeriveUnsmoothedTangents( idDrawVert *verts, const dominantTri_s *dominantTris, const int numVerts ) = 0;
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virtual void VPCALL NormalizeTangents( idDrawVert *verts, const int numVerts ) = 0;
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virtual void VPCALL CreateTextureSpaceLightVectors( idVec3 *lightVectors, const idVec3 &lightOrigin, const idDrawVert *verts, const int numVerts, const int *indexes, const int numIndexes ) = 0;
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virtual void VPCALL CreateSpecularTextureCoords( idVec4 *texCoords, const idVec3 &lightOrigin, const idVec3 &viewOrigin, const idDrawVert *verts, const int numVerts, const int *indexes, const int numIndexes ) = 0;
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virtual int VPCALL CreateShadowCache( idVec4 *vertexCache, int *vertRemap, const idVec3 &lightOrigin, const idDrawVert *verts, const int numVerts ) = 0;
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virtual int VPCALL CreateVertexProgramShadowCache( idVec4 *vertexCache, const idDrawVert *verts, const int numVerts ) = 0;
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// sound mixing
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virtual void VPCALL UpSamplePCMTo44kHz( float *dest, const short *pcm, const int numSamples, const int kHz, const int numChannels ) = 0;
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virtual void VPCALL UpSampleOGGTo44kHz( float *dest, const float * const *ogg, const int numSamples, const int kHz, const int numChannels ) = 0;
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virtual void VPCALL MixSoundTwoSpeakerMono( float *mixBuffer, const float *samples, const int numSamples, const float lastV[2], const float currentV[2] ) = 0;
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virtual void VPCALL MixSoundTwoSpeakerStereo( float *mixBuffer, const float *samples, const int numSamples, const float lastV[2], const float currentV[2] ) = 0;
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virtual void VPCALL MixSoundSixSpeakerMono( float *mixBuffer, const float *samples, const int numSamples, const float lastV[6], const float currentV[6] ) = 0;
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virtual void VPCALL MixSoundSixSpeakerStereo( float *mixBuffer, const float *samples, const int numSamples, const float lastV[6], const float currentV[6] ) = 0;
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virtual void VPCALL MixedSoundToSamples( short *samples, const float *mixBuffer, const int numSamples ) = 0;
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};
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// pointer to SIMD processor
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extern idSIMDProcessor *SIMDProcessor;
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#endif /* !__MATH_SIMD_H__ */
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