//========= Copyright Valve Corporation, All rights reserved. ============// // // Purpose: 3DNow Math primitives. // //=====================================================================================// #include #include // Needed for FLT_EPSILON #include "basetypes.h" #include #include "tier0/dbg.h" #include "mathlib/mathlib.h" #include "mathlib/amd3dx.h" #include "mathlib/vector.h" // memdbgon must be the last include file in a .cpp file!!! #include "tier0/memdbgon.h" #if !defined(COMPILER_MSVC64) && !defined(LINUX) && !defined(OSX) // Implement for 64-bit Windows if needed. // Clang hits "fatal error: error in backend:" and other errors when trying // to compile the inline assembly below. 3DNow support is highly unlikely to // be useful/used, so it's not worth spending time on fixing. #pragma warning(disable:4244) // "conversion from 'const int' to 'float', possible loss of data" #pragma warning(disable:4730) // "mixing _m64 and floating point expressions may result in incorrect code" //----------------------------------------------------------------------------- // 3D Now Implementations of optimized routines: //----------------------------------------------------------------------------- float _3DNow_Sqrt(float x) { Assert( s_bMathlibInitialized ); float root = 0.f; #ifdef _WIN32 _asm { femms movd mm0, x PFRSQRT (mm1,mm0) punpckldq mm0, mm0 PFMUL (mm0, mm1) movd root, mm0 femms } #elif LINUX __asm __volatile__( "femms" ); __asm __volatile__ ( "pfrsqrt %y0, %y1 \n\t" "punpckldq %y1, %y1 \n\t" "pfmul %y1, %y0 \n\t" : "=y" (root), "=y" (x) :"0" (x) ); __asm __volatile__( "femms" ); #else #error #endif return root; } // NJS FIXME: Need to test Recripricol squareroot performance and accuraccy // on AMD's before using the specialized instruction. float _3DNow_RSqrt(float x) { Assert( s_bMathlibInitialized ); return 1.f / _3DNow_Sqrt(x); } float FASTCALL _3DNow_VectorNormalize (Vector& vec) { Assert( s_bMathlibInitialized ); float *v = &vec[0]; float radius = 0.f; if ( v[0] || v[1] || v[2] ) { #ifdef _WIN32 _asm { mov eax, v femms movq mm0, QWORD PTR [eax] movd mm1, DWORD PTR [eax+8] movq mm2, mm0 movq mm3, mm1 PFMUL (mm0, mm0) PFMUL (mm1, mm1) PFACC (mm0, mm0) PFADD (mm1, mm0) PFRSQRT (mm0, mm1) punpckldq mm1, mm1 PFMUL (mm1, mm0) PFMUL (mm2, mm0) PFMUL (mm3, mm0) movq QWORD PTR [eax], mm2 movd DWORD PTR [eax+8], mm3 movd radius, mm1 femms } #elif LINUX long long a,c; int b,d; memcpy(&a,&vec[0],sizeof(a)); memcpy(&b,&vec[2],sizeof(b)); memcpy(&c,&vec[0],sizeof(c)); memcpy(&d,&vec[2],sizeof(d)); __asm __volatile__( "femms" ); __asm __volatile__ ( "pfmul %y3, %y3\n\t" "pfmul %y0, %y0 \n\t" "pfacc %y3, %y3 \n\t" "pfadd %y3, %y0 \n\t" "pfrsqrt %y0, %y3 \n\t" "punpckldq %y0, %y0 \n\t" "pfmul %y3, %y0 \n\t" "pfmul %y3, %y2 \n\t" "pfmul %y3, %y1 \n\t" : "=y" (radius), "=y" (c), "=y" (d) : "y" (a), "0" (b), "1" (c), "2" (d) ); memcpy(&vec[0],&c,sizeof(c)); memcpy(&vec[2],&d,sizeof(d)); __asm __volatile__( "femms" ); #else #error #endif } return radius; } void FASTCALL _3DNow_VectorNormalizeFast (Vector& vec) { _3DNow_VectorNormalize( vec ); } // JAY: This complains with the latest processor pack #pragma warning(disable: 4730) float _3DNow_InvRSquared(const float* v) { Assert( s_bMathlibInitialized ); float r2 = 1.f; #ifdef _WIN32 _asm { // AMD 3DNow only routine mov eax, v femms movq mm0, QWORD PTR [eax] movd mm1, DWORD PTR [eax+8] movd mm2, [r2] PFMUL (mm0, mm0) PFMUL (mm1, mm1) PFACC (mm0, mm0) PFADD (mm1, mm0) PFMAX (mm1, mm2) PFRCP (mm0, mm1) movd [r2], mm0 femms } #elif LINUX long long a,c; int b; memcpy(&a,&v[0],sizeof(a)); memcpy(&b,&v[2],sizeof(b)); memcpy(&c,&v[0],sizeof(c)); __asm __volatile__( "femms" ); __asm __volatile__ ( "PFMUL %y2, %y2 \n\t" "PFMUL %y3, %y3 \n\t" "PFACC %y2, %y2 \n\t" "PFADD %y2, %y3 \n\t" "PFMAX %y3, %y4 \n\t" "PFRCP %y3, %y2 \n\t" "movq %y2, %y0 \n\t" : "=y" (r2) : "0" (r2), "y" (a), "y" (b), "y" (c) ); __asm __volatile__( "femms" ); #else #error #endif return r2; } #endif // COMPILER_MSVC64