217 lines
7.5 KiB
C++
217 lines
7.5 KiB
C++
// This file is part of the uSTL library, an STL implementation.
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//
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// Copyright (c) 2005 by Mike Sharov <msharov@users.sourceforge.net>
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// This file is free software, distributed under the MIT License.
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#pragma once
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#include "umatrix.h"
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#include "simd.h"
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namespace ustl {
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/// \brief Creates an identity matrix in \p m
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/// \ingroup NumericAlgorithms
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template <size_t NX, size_t NY, typename T>
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void load_identity (matrix<NX,NY,T>& m)
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{
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fill_n (m.begin(), NX * NY, 0);
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for (typename matrix<NX,NY,T>::iterator i = m.begin(); i < m.end(); i += NX + 1)
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*i = 1;
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}
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/// \brief Multiplies two matrices
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/// \ingroup NumericAlgorithms
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template <size_t NX, size_t NY, typename T>
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matrix<NY,NY,T> operator* (const matrix<NX,NY,T>& m1, const matrix<NY,NX,T>& m2)
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{
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matrix<NY,NY,T> mr;
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for (uoff_t ry = 0; ry < NY; ++ ry) {
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for (uoff_t rx = 0; rx < NY; ++ rx) {
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T dpv (0);
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for (uoff_t x = 0; x < NX; ++ x)
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dpv += m1[ry][x] * m2[x][rx];
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mr[ry][rx] = dpv;
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}
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}
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return (mr);
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}
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/// \brief Transforms vector \p t with matrix \p m
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/// \ingroup NumericAlgorithms
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template <size_t NX, size_t NY, typename T>
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tuple<NX,T> operator* (const tuple<NY,T>& t, const matrix<NX,NY,T>& m)
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{
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tuple<NX,T> tr;
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for (uoff_t x = 0; x < NX; ++ x) {
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T dpv (0);
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for (uoff_t y = 0; y < NY; ++ y)
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dpv += t[y] * m[y][x];
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tr[x] = dpv;
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}
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return (tr);
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}
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/// \brief Transposes (exchanges rows and columns) matrix \p m.
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/// \ingroup NumericAlgorithms
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template <size_t N, typename T>
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void transpose (matrix<N,N,T>& m)
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{
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for (uoff_t x = 0; x < N; ++ x)
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for (uoff_t y = x; y < N; ++ y)
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swap (m[x][y], m[y][x]);
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}
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#if WANT_UNROLLED_COPY
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#if CPU_HAS_SSE
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#if linux // Non-linux gcc versions (BSD, Solaris) can't handle "x" constraint and provide no alternative.
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template <>
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inline void load_identity (matrix<4,4,float>& m)
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{
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asm (
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"movaps %4, %%xmm1 \n\t" // 1 0 0 0
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"movups %4, %0 \n\t" // 1 0 0 0
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"shufps $0xB1,%%xmm1,%%xmm1 \n\t" // 0 1 0 0
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"movups %%xmm1, %1 \n\t" // 0 1 0 0
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"shufps $0x4F,%4,%%xmm1 \n\t" // 0 0 1 0
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"shufps $0x1B,%4,%4 \n\t" // 0 0 0 1
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"movups %%xmm1, %2 \n\t" // 0 0 1 0
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"movups %4, %3" // 0 0 0 1
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: "=m"(m[0][0]), "=m"(m[1][0]), "=m"(m[2][0]), "=m"(m[3][0])
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: "x"(1.0f)
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: "xmm1", "memory"
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);
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asm ("":::"memory");
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}
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#endif
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inline void _sse_load_matrix (const float* m)
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{
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asm (
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"movups %0, %%xmm4 \n\t" // xmm4 = m[1 2 3 4]
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"movups %1, %%xmm5 \n\t" // xmm5 = m[1 2 3 4]
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"movups %2, %%xmm6 \n\t" // xmm6 = m[1 2 3 4]
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"movups %3, %%xmm7" // xmm7 = m[1 2 3 4]
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: : "m"(m[0]), "m"(m[4]), "m"(m[8]), "m"(m[12])
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: "xmm4", "xmm5", "xmm6", "xmm7", "memory"
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);
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}
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inline void _sse_transform_to_vector (float* result)
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{
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asm (
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"movaps %%xmm0, %%xmm1 \n\t" // xmm1 = t[0 1 2 3]
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"movaps %%xmm0, %%xmm2 \n\t" // xmm1 = t[0 1 2 3]
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"movaps %%xmm0, %%xmm3 \n\t" // xmm1 = t[0 1 2 3]
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"shufps $0x00, %%xmm0, %%xmm0 \n\t" // xmm0 = t[0 0 0 0]
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"shufps $0x66, %%xmm1, %%xmm1 \n\t" // xmm1 = t[1 1 1 1]
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"shufps $0xAA, %%xmm2, %%xmm2 \n\t" // xmm2 = t[2 2 2 2]
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"shufps $0xFF, %%xmm3, %%xmm3 \n\t" // xmm3 = t[3 3 3 3]
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"mulps %%xmm4, %%xmm0 \n\t" // xmm0 = t[0 0 0 0] * m[0 1 2 3]
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"mulps %%xmm5, %%xmm1 \n\t" // xmm1 = t[1 1 1 1] * m[0 1 2 3]
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"addps %%xmm1, %%xmm0 \n\t" // xmm0 = xmm0 + xmm1
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"mulps %%xmm6, %%xmm2 \n\t" // xmm2 = t[2 2 2 2] * m[0 1 2 3]
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"mulps %%xmm7, %%xmm3 \n\t" // xmm3 = t[3 3 3 3] * m[0 1 2 3]
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"addps %%xmm3, %%xmm2 \n\t" // xmm2 = xmm2 + xmm3
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"addps %%xmm2, %%xmm0 \n\t" // xmm0 = result
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"movups %%xmm0, %0"
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: "=m"(result[0]), "=m"(result[1]), "=m"(result[2]), "=m"(result[3]) :
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: "xmm0", "xmm1", "xmm2", "xmm3", "xmm4", "xmm5", "xmm6", "xmm7", "memory"
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);
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}
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template <>
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inline tuple<4,float> operator* (const tuple<4,float>& t, const matrix<4,4,float>& m)
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{
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tuple<4,float> result;
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_sse_load_matrix (m.begin());
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asm ("movups %0, %%xmm0" : : "m"(t[0]), "m"(t[1]), "m"(t[2]), "m"(t[3]) : "xmm0", "memory");
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_sse_transform_to_vector (result.begin());
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return (result);
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}
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template <>
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inline matrix<4,4,float> operator* (const matrix<4,4,float>& m1, const matrix<4,4,float>& m2)
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{
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matrix<4,4,float> result;
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_sse_load_matrix (m2.begin());
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for (uoff_t r = 0; r < 4; ++ r) {
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asm ("movups %0, %%xmm0" : : "m"(m1[r][0]), "m"(m1[r][1]), "m"(m1[r][2]), "m"(m1[r][3]) : "xmm0", "memory");
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_sse_transform_to_vector (result[r]);
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}
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return (result);
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}
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#elif CPU_HAS_3DNOW
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/// Specialization for 4-component vector transform, the slow part of 3D graphics.
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template <>
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static tuple<4,float> operator* (const tuple<4,float>& t, const matrix<4,4,float>& m)
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{
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tuple<4,float> result;
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// This is taken from "AMD Athlon Code Optimization Guide" from AMD. 18 cycles!
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// If you are writing a 3D engine, you may want to copy it instead of calling it
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// because of the femms instruction at the end, which takes 2 cycles.
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asm (
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"movq %2, %%mm0 \n\t" // y | x
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"movq %3, %%mm1 \n\t" // w | z
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"movq %%mm0, %%mm2 \n\t" // y | x
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"movq %4, %%mm3 \n\t" // m[0][1] | m[0][0]
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"punpckldq %%mm0, %%mm0 \n\t" // x | x
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"movq %6, %%mm4 \n\t" // m[1][1] | m[1][0]
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"pfmul %%mm0, %%mm3 \n\t" // x*m[0][1] | x*m[0][0]
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"punpckhdq %%mm2, %%mm2 \n\t" // y | y
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"pfmul %%mm2, %%mm4 \n\t" // y*m[1][1] | y*m[1][0]
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"movq %5, %%mm5 \n\t" // m[0][3] | m[0][2]
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"movq %7, %%mm7 \n\t" // m[1][3] | m[1][2]
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"movq %%mm1, %%mm6 \n\t" // w | z
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"pfmul %%mm0, %%mm5 \n\t" // x*m[0][3] | v0>x*m[0][2]
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"movq %8, %%mm0 \n\t" // m[2][1] | m[2][0]
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"punpckldq %%mm1, %%mm1 \n\t" // z | z
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"pfmul %%mm2, %%mm7 \n\t" // y*m[1][3] | y*m[1][2]
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"movq %9, %%mm2 \n\t" // m[2][3] | m[2][2]
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"pfmul %%mm1, %%mm0 \n\t" // z*m[2][1] | z*m[2][0]
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"pfadd %%mm4, %%mm3 \n\t" // x*m[0][1]+y*m[1][1] | x*m[0][0]+y*m[1][0]
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"movq %10, %%mm4 \n\t" // m[3][1] | m[3][0]
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"pfmul %%mm1, %%mm2 \n\t" // z*m[2][3] | z*m[2][2]
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"pfadd %%mm7, %%mm5 \n\t" // x*m[0][3]+y*m[1][3] | x*m[0][2]+y*m[1][2]
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"movq %11, %%mm1 \n\t" // m[3][3] | m[3][2]
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"punpckhdq %%mm6, %%mm6 \n\t" // w | w
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"pfadd %%mm0, %%mm3 \n\t" // x*m[0][1]+y*m[1][1]+z*m[2][1] | x*m[0][0]+y*m[1][0]+z*m[2][0]
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"pfmul %%mm6, %%mm4 \n\t" // w*m[3][1] | w*m[3][0]
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"pfmul %%mm6, %%mm1 \n\t" // w*m[3][3] | w*m[3][2]
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"pfadd %%mm2, %%mm5 \n\t" // x*m[0][3]+y*m[1][3]+z*m[2][3] | x*m[0][2]+y*m[1][2]+z*m[2][2]
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"pfadd %%mm4, %%mm3 \n\t" // x*m[0][1]+y*m[1][1]+z*m[2][1]+w*m[3][1] | x*m[0][0]+y*m[1][0]+z*m[2][0]+w*m[3][0]
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"movq %%mm3, %0 \n\t" // store result->y | result->x
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"pfadd %%mm1, %%mm5 \n\t" // x*m[0][3]+y*m[1][3]+z*m[2][3]+w*m[3][3] | x*m[0][2]+y*m[1][2]+z*m[2][2]+w*m[3][2]
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"movq %%mm5, %1" // store result->w | result->z
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: "=m"(result[0]), "=m"(result[2])
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: "m"(t[0]), "m"(t[2]),
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"m"(m[0][0]), "m"(m[0][2]),
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"m"(m[1][0]), "m"(m[1][2]),
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"m"(m[2][0]), "m"(m[2][2]),
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"m"(m[3][0]), "m"(m[3][2])
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: ALL_MMX_REGS_CHANGELIST, "memory"
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);
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asm ("":::"memory");
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simd::reset_mmx();
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return (result);
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}
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#else // If no processor extensions, just unroll the multiplication
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/// Specialization for 4-component vector transform, the slow part of 3D graphics.
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template <> inline tuple<4,float> operator* (const tuple<4,float>& t, const matrix<4,4,float>& m)
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{
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tuple<4,float> tr;
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for (uoff_t i = 0; i < 4; ++ i)
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tr[i] = t[0] * m[0][i] + t[1] * m[1][i] + t[2] * m[2][i] + t[3] * m[3][i];
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return (tr);
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}
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#endif // CPU_HAS_3DNOW
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#endif // WANT_UNROLLED_COPY
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} // namespace ustl
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