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00001 // This file is part of Eigen, a lightweight C++ template library
00002 // for linear algebra.
00003 //
00004 // Copyright (C) 2009 Rohit Garg <rpg.314@gmail.com>
00005 // Copyright (C) 2009-2010 Gael Guennebaud <gael.guennebaud@inria.fr>
00006 //
00007 // Eigen is free software; you can redistribute it and/or
00008 // modify it under the terms of the GNU Lesser General Public
00009 // License as published by the Free Software Foundation; either
00010 // version 3 of the License, or (at your option) any later version.
00011 //
00012 // Alternatively, you can redistribute it and/or
00013 // modify it under the terms of the GNU General Public License as
00014 // published by the Free Software Foundation; either version 2 of
00015 // the License, or (at your option) any later version.
00016 //
00017 // Eigen is distributed in the hope that it will be useful, but WITHOUT ANY
00018 // WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
00019 // FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License or the
00020 // GNU General Public License for more details.
00021 //
00022 // You should have received a copy of the GNU Lesser General Public
00023 // License and a copy of the GNU General Public License along with
00024 // Eigen. If not, see <http://www.gnu.org/licenses/>.
00025 
00026 #ifndef EIGEN_GEOMETRY_SSE_H
00027 #define EIGEN_GEOMETRY_SSE_H
00028 
00029 namespace internal {
00030 
00031 template<class Derived, class OtherDerived>
00032 struct quat_product<Architecture::SSE, Derived, OtherDerived, float, Aligned>
00033 {
00034   inline static Quaternion<float> run(const QuaternionBase<Derived>& _a, const QuaternionBase<OtherDerived>& _b)
00035   {
00036     const __m128 mask = _mm_castsi128_ps(_mm_setr_epi32(0,0,0,0x80000000));
00037     Quaternion<float> res;
00038     __m128 a = _a.coeffs().template packet<Aligned>(0);
00039     __m128 b = _b.coeffs().template packet<Aligned>(0);
00040     __m128 flip1 = _mm_xor_ps(_mm_mul_ps(vec4f_swizzle1(a,1,2,0,2),
00041                                          vec4f_swizzle1(b,2,0,1,2)),mask);
00042     __m128 flip2 = _mm_xor_ps(_mm_mul_ps(vec4f_swizzle1(a,3,3,3,1),
00043                                          vec4f_swizzle1(b,0,1,2,1)),mask);
00044     pstore(&res.x(),
00045               _mm_add_ps(_mm_sub_ps(_mm_mul_ps(a,vec4f_swizzle1(b,3,3,3,3)),
00046                                     _mm_mul_ps(vec4f_swizzle1(a,2,0,1,0),
00047                                                vec4f_swizzle1(b,1,2,0,0))),
00048                          _mm_add_ps(flip1,flip2)));
00049     return res;
00050   }
00051 };
00052 
00053 template<typename VectorLhs,typename VectorRhs>
00054 struct cross3_impl<Architecture::SSE,VectorLhs,VectorRhs,float,true>
00055 {
00056   inline static typename plain_matrix_type<VectorLhs>::type
00057   run(const VectorLhs& lhs, const VectorRhs& rhs)
00058   {
00059     __m128 a = lhs.template packet<VectorLhs::Flags&AlignedBit ? Aligned : Unaligned>(0);
00060     __m128 b = rhs.template packet<VectorRhs::Flags&AlignedBit ? Aligned : Unaligned>(0);
00061     __m128 mul1=_mm_mul_ps(vec4f_swizzle1(a,1,2,0,3),vec4f_swizzle1(b,2,0,1,3));
00062     __m128 mul2=_mm_mul_ps(vec4f_swizzle1(a,2,0,1,3),vec4f_swizzle1(b,1,2,0,3));
00063     typename plain_matrix_type<VectorLhs>::type res;
00064     pstore(&res.x(),_mm_sub_ps(mul1,mul2));
00065     return res;
00066   }
00067 };
00068 
00069 
00070 
00071 
00072 template<class Derived, class OtherDerived>
00073 struct quat_product<Architecture::SSE, Derived, OtherDerived, double, Aligned>
00074 {
00075   inline static Quaternion<double> run(const QuaternionBase<Derived>& _a, const QuaternionBase<OtherDerived>& _b)
00076   {
00077   const Packet2d mask = _mm_castsi128_pd(_mm_set_epi32(0x0,0x0,0x80000000,0x0));
00078 
00079   Quaternion<double> res;
00080 
00081   const double* a = _a.coeffs().data();
00082   Packet2d b_xy = _b.coeffs().template packet<Aligned>(0);
00083   Packet2d b_zw = _b.coeffs().template packet<Aligned>(2);
00084   Packet2d a_xx = pset1<Packet2d>(a[0]);
00085   Packet2d a_yy = pset1<Packet2d>(a[1]);
00086   Packet2d a_zz = pset1<Packet2d>(a[2]);
00087   Packet2d a_ww = pset1<Packet2d>(a[3]);
00088 
00089   // two temporaries:
00090   Packet2d t1, t2;
00091 
00092   /*
00093    * t1 = ww*xy + yy*zw
00094    * t2 = zz*xy - xx*zw
00095    * res.xy = t1 +/- swap(t2)
00096    */
00097   t1 = padd(pmul(a_ww, b_xy), pmul(a_yy, b_zw));
00098   t2 = psub(pmul(a_zz, b_xy), pmul(a_xx, b_zw));
00099 #ifdef __SSE3__
00100   EIGEN_UNUSED_VARIABLE(mask)
00101   pstore(&res.x(), _mm_addsub_pd(t1, preverse(t2)));
00102 #else
00103   pstore(&res.x(), padd(t1, pxor(mask,preverse(t2))));
00104 #endif
00105   
00106   /*
00107    * t1 = ww*zw - yy*xy
00108    * t2 = zz*zw + xx*xy
00109    * res.zw = t1 -/+ swap(t2) = swap( swap(t1) +/- t2)
00110    */
00111   t1 = psub(pmul(a_ww, b_zw), pmul(a_yy, b_xy));
00112   t2 = padd(pmul(a_zz, b_zw), pmul(a_xx, b_xy));
00113 #ifdef __SSE3__
00114   EIGEN_UNUSED_VARIABLE(mask)
00115   pstore(&res.z(), preverse(_mm_addsub_pd(preverse(t1), t2)));
00116 #else
00117   pstore(&res.z(), psub(t1, pxor(mask,preverse(t2))));
00118 #endif
00119 
00120   return res;
00121 }
00122 };
00123 
00124 } // end namespace internal
00125 
00126 #endif // EIGEN_GEOMETRY_SSE_H
/home/hauberg/Dokumenter/Capture/humim-tracker-0.1/src/ntk/geometry/Eigen/src/Geometry/arch/Geometry_SSE.h
