SolveTriangular.h
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00001 // This file is part of Eigen, a lightweight C++ template library
00002 // for linear algebra.
00003 //
00004 // Copyright (C) 2008-2009 Gael Guennebaud <gael.guennebaud@inria.fr>
00005 //
00006 // This Source Code Form is subject to the terms of the Mozilla
00007 // Public License v. 2.0. If a copy of the MPL was not distributed
00008 // with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
00009 
00010 #ifndef EIGEN_SOLVETRIANGULAR_H
00011 #define EIGEN_SOLVETRIANGULAR_H
00012 
00013 namespace Eigen { 
00014 
00015 namespace internal {
00016 
00017 // Forward declarations:
00018 // The following two routines are implemented in the products/TriangularSolver*.h files
00019 template<typename LhsScalar, typename RhsScalar, typename Index, int Side, int Mode, bool Conjugate, int StorageOrder>
00020 struct triangular_solve_vector;
00021 
00022 template <typename Scalar, typename Index, int Side, int Mode, bool Conjugate, int TriStorageOrder, int OtherStorageOrder>
00023 struct triangular_solve_matrix;
00024 
00025 // small helper struct extracting some traits on the underlying solver operation
00026 template<typename Lhs, typename Rhs, int Side>
00027 class trsolve_traits
00028 {
00029   private:
00030     enum {
00031       RhsIsVectorAtCompileTime = (Side==OnTheLeft ? Rhs::ColsAtCompileTime : Rhs::RowsAtCompileTime)==1
00032     };
00033   public:
00034     enum {
00035       Unrolling   = (RhsIsVectorAtCompileTime && Rhs::SizeAtCompileTime != Dynamic && Rhs::SizeAtCompileTime <= 8)
00036                   ? CompleteUnrolling : NoUnrolling,
00037       RhsVectors  = RhsIsVectorAtCompileTime ? 1 : Dynamic
00038     };
00039 };
00040 
00041 template<typename Lhs, typename Rhs,
00042   int Side, // can be OnTheLeft/OnTheRight
00043   int Mode, // can be Upper/Lower | UnitDiag
00044   int Unrolling = trsolve_traits<Lhs,Rhs,Side>::Unrolling,
00045   int RhsVectors = trsolve_traits<Lhs,Rhs,Side>::RhsVectors
00046   >
00047 struct triangular_solver_selector;
00048 
00049 template<typename Lhs, typename Rhs, int Side, int Mode>
00050 struct triangular_solver_selector<Lhs,Rhs,Side,Mode,NoUnrolling,1>
00051 {
00052   typedef typename Lhs::Scalar LhsScalar;
00053   typedef typename Rhs::Scalar RhsScalar;
00054   typedef blas_traits<Lhs> LhsProductTraits;
00055   typedef typename LhsProductTraits::ExtractType ActualLhsType;
00056   typedef Map<Matrix<RhsScalar,Dynamic,1>, Aligned> MappedRhs;
00057   static void run(const Lhs& lhs, Rhs& rhs)
00058   {
00059     ActualLhsType actualLhs = LhsProductTraits::extract(lhs);
00060 
00061     // FIXME find a way to allow an inner stride if packet_traits<Scalar>::size==1
00062 
00063     bool useRhsDirectly = Rhs::InnerStrideAtCompileTime==1 || rhs.innerStride()==1;
00064 
00065     ei_declare_aligned_stack_constructed_variable(RhsScalar,actualRhs,rhs.size(),
00066                                                   (useRhsDirectly ? rhs.data() : 0));
00067                                                   
00068     if(!useRhsDirectly)
00069       MappedRhs(actualRhs,rhs.size()) = rhs;
00070 
00071     triangular_solve_vector<LhsScalar, RhsScalar, typename Lhs::Index, Side, Mode, LhsProductTraits::NeedToConjugate,
00072                             (int(Lhs::Flags) & RowMajorBit) ? RowMajor : ColMajor>
00073       ::run(actualLhs.cols(), actualLhs.data(), actualLhs.outerStride(), actualRhs);
00074 
00075     if(!useRhsDirectly)
00076       rhs = MappedRhs(actualRhs, rhs.size());
00077   }
00078 };
00079 
00080 // the rhs is a matrix
00081 template<typename Lhs, typename Rhs, int Side, int Mode>
00082 struct triangular_solver_selector<Lhs,Rhs,Side,Mode,NoUnrolling,Dynamic>
00083 {
00084   typedef typename Rhs::Scalar Scalar;
00085   typedef typename Rhs::Index Index;
00086   typedef blas_traits<Lhs> LhsProductTraits;
00087   typedef typename LhsProductTraits::DirectLinearAccessType ActualLhsType;
00088 
00089   static void run(const Lhs& lhs, Rhs& rhs)
00090   {
00091     typename internal::add_const_on_value_type<ActualLhsType>::type actualLhs = LhsProductTraits::extract(lhs);
00092 
00093     const Index size = lhs.rows();
00094     const Index othersize = Side==OnTheLeft? rhs.cols() : rhs.rows();
00095 
00096     typedef internal::gemm_blocking_space<(Rhs::Flags&RowMajorBit) ? RowMajor : ColMajor,Scalar,Scalar,
00097               Rhs::MaxRowsAtCompileTime, Rhs::MaxColsAtCompileTime, Lhs::MaxRowsAtCompileTime,4> BlockingType;
00098 
00099     BlockingType blocking(rhs.rows(), rhs.cols(), size);
00100 
00101     triangular_solve_matrix<Scalar,Index,Side,Mode,LhsProductTraits::NeedToConjugate,(int(Lhs::Flags) & RowMajorBit) ? RowMajor : ColMajor,
00102                                (Rhs::Flags&RowMajorBit) ? RowMajor : ColMajor>
00103       ::run(size, othersize, &actualLhs.coeffRef(0,0), actualLhs.outerStride(), &rhs.coeffRef(0,0), rhs.outerStride(), blocking);
00104   }
00105 };
00106 
00107 /***************************************************************************
00108 * meta-unrolling implementation
00109 ***************************************************************************/
00110 
00111 template<typename Lhs, typename Rhs, int Mode, int Index, int Size,
00112          bool Stop = Index==Size>
00113 struct triangular_solver_unroller;
00114 
00115 template<typename Lhs, typename Rhs, int Mode, int Index, int Size>
00116 struct triangular_solver_unroller<Lhs,Rhs,Mode,Index,Size,false> {
00117   enum {
00118     IsLower = ((Mode&Lower)==Lower),
00119     I = IsLower ? Index : Size - Index - 1,
00120     S = IsLower ? 0     : I+1
00121   };
00122   static void run(const Lhs& lhs, Rhs& rhs)
00123   {
00124     if (Index>0)
00125       rhs.coeffRef(I) -= lhs.row(I).template segment<Index>(S).transpose()
00126                          .cwiseProduct(rhs.template segment<Index>(S)).sum();
00127 
00128     if(!(Mode & UnitDiag))
00129       rhs.coeffRef(I) /= lhs.coeff(I,I);
00130 
00131     triangular_solver_unroller<Lhs,Rhs,Mode,Index+1,Size>::run(lhs,rhs);
00132   }
00133 };
00134 
00135 template<typename Lhs, typename Rhs, int Mode, int Index, int Size>
00136 struct triangular_solver_unroller<Lhs,Rhs,Mode,Index,Size,true> {
00137   static void run(const Lhs&, Rhs&) {}
00138 };
00139 
00140 template<typename Lhs, typename Rhs, int Mode>
00141 struct triangular_solver_selector<Lhs,Rhs,OnTheLeft,Mode,CompleteUnrolling,1> {
00142   static void run(const Lhs& lhs, Rhs& rhs)
00143   { triangular_solver_unroller<Lhs,Rhs,Mode,0,Rhs::SizeAtCompileTime>::run(lhs,rhs); }
00144 };
00145 
00146 template<typename Lhs, typename Rhs, int Mode>
00147 struct triangular_solver_selector<Lhs,Rhs,OnTheRight,Mode,CompleteUnrolling,1> {
00148   static void run(const Lhs& lhs, Rhs& rhs)
00149   {
00150     Transpose<const Lhs> trLhs(lhs);
00151     Transpose<Rhs> trRhs(rhs);
00152     
00153     triangular_solver_unroller<Transpose<const Lhs>,Transpose<Rhs>,
00154                               ((Mode&Upper)==Upper ? Lower : Upper) | (Mode&UnitDiag),
00155                               0,Rhs::SizeAtCompileTime>::run(trLhs,trRhs);
00156   }
00157 };
00158 
00159 } // end namespace internal
00160 
00161 /***************************************************************************
00162 * TriangularView methods
00163 ***************************************************************************/
00164 
00172 template<typename MatrixType, unsigned int Mode>
00173 template<int Side, typename OtherDerived>
00174 void TriangularView<MatrixType,Mode>::solveInPlace(const MatrixBase<OtherDerived>& _other) const
00175 {
00176   OtherDerived& other = _other.const_cast_derived();
00177   eigen_assert( cols() == rows() && ((Side==OnTheLeft && cols() == other.rows()) || (Side==OnTheRight && cols() == other.cols())) );
00178   eigen_assert((!(Mode & ZeroDiag)) && bool(Mode & (Upper|Lower)));
00179 
00180   enum { copy = internal::traits<OtherDerived>::Flags & RowMajorBit  && OtherDerived::IsVectorAtCompileTime };
00181   typedef typename internal::conditional<copy,
00182     typename internal::plain_matrix_type_column_major<OtherDerived>::type, OtherDerived&>::type OtherCopy;
00183   OtherCopy otherCopy(other);
00184 
00185   internal::triangular_solver_selector<MatrixType, typename internal::remove_reference<OtherCopy>::type,
00186     Side, Mode>::run(nestedExpression(), otherCopy);
00187 
00188   if (copy)
00189     other = otherCopy;
00190 }
00191 
00213 template<typename Derived, unsigned int Mode>
00214 template<int Side, typename Other>
00215 const internal::triangular_solve_retval<Side,TriangularView<Derived,Mode>,Other>
00216 TriangularView<Derived,Mode>::solve(const MatrixBase<Other>& other) const
00217 {
00218   return internal::triangular_solve_retval<Side,TriangularView,Other>(*this, other.derived());
00219 }
00220 
00221 namespace internal {
00222 
00223 
00224 template<int Side, typename TriangularType, typename Rhs>
00225 struct traits<triangular_solve_retval<Side, TriangularType, Rhs> >
00226 {
00227   typedef typename internal::plain_matrix_type_column_major<Rhs>::type ReturnType;
00228 };
00229 
00230 template<int Side, typename TriangularType, typename Rhs> struct triangular_solve_retval
00231  : public ReturnByValue<triangular_solve_retval<Side, TriangularType, Rhs> >
00232 {
00233   typedef typename remove_all<typename Rhs::Nested>::type RhsNestedCleaned;
00234   typedef ReturnByValue<triangular_solve_retval> Base;
00235   typedef typename Base::Index Index;
00236 
00237   triangular_solve_retval(const TriangularType& tri, const Rhs& rhs)
00238     : m_triangularMatrix(tri), m_rhs(rhs)
00239   {}
00240 
00241   inline Index rows() const { return m_rhs.rows(); }
00242   inline Index cols() const { return m_rhs.cols(); }
00243 
00244   template<typename Dest> inline void evalTo(Dest& dst) const
00245   {
00246     if(!(is_same<RhsNestedCleaned,Dest>::value && extract_data(dst) == extract_data(m_rhs)))
00247       dst = m_rhs;
00248     m_triangularMatrix.template solveInPlace<Side>(dst);
00249   }
00250 
00251   protected:
00252     const TriangularType& m_triangularMatrix;
00253     typename Rhs::Nested m_rhs;
00254 };
00255 
00256 } // namespace internal
00257 
00258 } // end namespace Eigen
00259 
00260 #endif // EIGEN_SOLVETRIANGULAR_H


acado
Author(s): Milan Vukov, Rien Quirynen
autogenerated on Sat Jun 8 2019 19:39:18