Eigen/src/SparseCore/TriangularSolver.h - eigen - Git at Google

 // This file is part of Eigen, a lightweight C++ template library
 // for linear algebra.
 //
 // Copyright (C) 2008 Gael Guennebaud <gael.guennebaud@inria.fr>
 //
 // This Source Code Form is subject to the terms of the Mozilla
 // Public License v. 2.0. If a copy of the MPL was not distributed
 // with this file, You can obtain one at http://mozilla.org/MPL/2.0/.

 #ifndef EIGEN_SPARSETRIANGULARSOLVER_H
 #define EIGEN_SPARSETRIANGULARSOLVER_H

 // IWYU pragma: private
 #include "./InternalHeaderCheck.h"

 namespace Eigen {

 namespace internal {

 template <typename Lhs, typename Rhs, int Mode,
           int UpLo = (Mode & Lower)   ? Lower
                      : (Mode & Upper) ? Upper
                                       : -1,
           int StorageOrder = int(traits<Lhs>::Flags) & RowMajorBit>
 struct sparse_solve_triangular_selector;

 // forward substitution, row-major
 template <typename Lhs, typename Rhs, int Mode>
 struct sparse_solve_triangular_selector<Lhs, Rhs, Mode, Lower, RowMajor> {
   typedef typename Rhs::Scalar Scalar;
   typedef evaluator<Lhs> LhsEval;
   typedef typename evaluator<Lhs>::InnerIterator LhsIterator;
   static void run(const Lhs& lhs, Rhs& other) {
     LhsEval lhsEval(lhs);
     for (Index col = 0; col < other.cols(); ++col) {
       for (Index i = 0; i < lhs.rows(); ++i) {
         Scalar tmp = other.coeff(i, col);
         Scalar lastVal(0);
         Index lastIndex = 0;
         for (LhsIterator it(lhsEval, i); it; ++it) {
           lastVal = it.value();
           lastIndex = it.index();
           if (lastIndex == i) break;
           tmp -= lastVal * other.coeff(lastIndex, col);
         }
         if (Mode & UnitDiag)
           other.coeffRef(i, col) = tmp;
         else {
           eigen_assert(lastIndex == i);
           other.coeffRef(i, col) = tmp / lastVal;
         }
       }
     }
   }
 };

 // backward substitution, row-major
 template <typename Lhs, typename Rhs, int Mode>
 struct sparse_solve_triangular_selector<Lhs, Rhs, Mode, Upper, RowMajor> {
   typedef typename Rhs::Scalar Scalar;
   typedef evaluator<Lhs> LhsEval;
   typedef typename evaluator<Lhs>::InnerIterator LhsIterator;
   static void run(const Lhs& lhs, Rhs& other) {
     LhsEval lhsEval(lhs);
     for (Index col = 0; col < other.cols(); ++col) {
       for (Index i = lhs.rows() - 1; i >= 0; --i) {
         Scalar tmp = other.coeff(i, col);
         Scalar l_ii(0);
         LhsIterator it(lhsEval, i);
         while (it && it.index() < i) ++it;
         if (!(Mode & UnitDiag)) {
           eigen_assert(it && it.index() == i);
           l_ii = it.value();
           ++it;
         } else if (it && it.index() == i)
           ++it;
         for (; it; ++it) {
           tmp -= it.value() * other.coeff(it.index(), col);
         }

         if (Mode & UnitDiag)
           other.coeffRef(i, col) = tmp;
         else
           other.coeffRef(i, col) = tmp / l_ii;
       }
     }
   }
 };

 // forward substitution, col-major
 template <typename Lhs, typename Rhs, int Mode>
 struct sparse_solve_triangular_selector<Lhs, Rhs, Mode, Lower, ColMajor> {
   typedef typename Rhs::Scalar Scalar;
   typedef evaluator<Lhs> LhsEval;
   typedef typename evaluator<Lhs>::InnerIterator LhsIterator;
   static void run(const Lhs& lhs, Rhs& other) {
     LhsEval lhsEval(lhs);
     for (Index col = 0; col < other.cols(); ++col) {
       for (Index i = 0; i < lhs.cols(); ++i) {
         Scalar& tmp = other.coeffRef(i, col);
         if (!numext::is_exactly_zero(tmp))  // optimization when other is actually sparse
         {
           LhsIterator it(lhsEval, i);
           while (it && it.index() < i) ++it;
           if (!(Mode & UnitDiag)) {
             eigen_assert(it && it.index() == i);
             tmp /= it.value();
           }
           if (it && it.index() == i) ++it;
           for (; it; ++it) other.coeffRef(it.index(), col) -= tmp * it.value();
         }
       }
     }
   }
 };

 // backward substitution, col-major
 template <typename Lhs, typename Rhs, int Mode>
 struct sparse_solve_triangular_selector<Lhs, Rhs, Mode, Upper, ColMajor> {
   typedef typename Rhs::Scalar Scalar;
   typedef evaluator<Lhs> LhsEval;
   typedef typename evaluator<Lhs>::InnerIterator LhsIterator;
   static void run(const Lhs& lhs, Rhs& other) {
     LhsEval lhsEval(lhs);
     for (Index col = 0; col < other.cols(); ++col) {
       for (Index i = lhs.cols() - 1; i >= 0; --i) {
         Scalar& tmp = other.coeffRef(i, col);
         if (!numext::is_exactly_zero(tmp))  // optimization when other is actually sparse
         {
           if (!(Mode & UnitDiag)) {
             // TODO replace this by a binary search. make sure the binary search is safe for partially sorted elements
             LhsIterator it(lhsEval, i);
             while (it && it.index() != i) ++it;
             eigen_assert(it && it.index() == i);
             other.coeffRef(i, col) /= it.value();
           }
           LhsIterator it(lhsEval, i);
           for (; it && it.index() < i; ++it) other.coeffRef(it.index(), col) -= tmp * it.value();
         }
       }
     }
   }
 };

 }  // end namespace internal

 #ifndef EIGEN_PARSED_BY_DOXYGEN

 template <typename ExpressionType, unsigned int Mode>
 template <typename OtherDerived>
 void TriangularViewImpl<ExpressionType, Mode, Sparse>::solveInPlace(MatrixBase<OtherDerived>& other) const {
   eigen_assert(derived().cols() == derived().rows() && derived().cols() == other.rows());
   eigen_assert((!(Mode & ZeroDiag)) && bool(Mode & (Upper | Lower)));

   enum { copy = internal::traits<OtherDerived>::Flags & RowMajorBit };

   typedef std::conditional_t<copy, typename internal::plain_matrix_type_column_major<OtherDerived>::type, OtherDerived&>
       OtherCopy;
   OtherCopy otherCopy(other.derived());

   internal::sparse_solve_triangular_selector<ExpressionType, std::remove_reference_t<OtherCopy>, Mode>::run(
       derived().nestedExpression(), otherCopy);

   if (copy) other = otherCopy;
 }
 #endif

 // pure sparse path

 namespace internal {

 template <typename Lhs, typename Rhs, int Mode,
           int UpLo = (Mode & Lower)   ? Lower
                      : (Mode & Upper) ? Upper
                                       : -1,
           int StorageOrder = int(Lhs::Flags) & (RowMajorBit)>
 struct sparse_solve_triangular_sparse_selector;

 // forward substitution, col-major
 template <typename Lhs, typename Rhs, int Mode, int UpLo>
 struct sparse_solve_triangular_sparse_selector<Lhs, Rhs, Mode, UpLo, ColMajor> {
   typedef typename Rhs::Scalar Scalar;
   typedef typename promote_index_type<typename traits<Lhs>::StorageIndex, typename traits<Rhs>::StorageIndex>::type
       StorageIndex;
   static void run(const Lhs& lhs, Rhs& other) {
     const bool IsLower = (UpLo == Lower);
     AmbiVector<Scalar, StorageIndex> tempVector(other.rows() * 2);
     tempVector.setBounds(0, other.rows());

     Rhs res(other.rows(), other.cols());
     res.reserve(other.nonZeros());

     for (Index col = 0; col < other.cols(); ++col) {
       // FIXME estimate number of non zeros
       tempVector.init(.99 /*float(other.col(col).nonZeros())/float(other.rows())*/);
       tempVector.setZero();
       tempVector.restart();
       for (typename Rhs::InnerIterator rhsIt(other, col); rhsIt; ++rhsIt) {
         tempVector.coeffRef(rhsIt.index()) = rhsIt.value();
       }

       for (Index i = IsLower ? 0 : lhs.cols() - 1; IsLower ? i < lhs.cols() : i >= 0; i += IsLower ? 1 : -1) {
         tempVector.restart();
         Scalar& ci = tempVector.coeffRef(i);
         if (!numext::is_exactly_zero(ci)) {
           // find
           typename Lhs::InnerIterator it(lhs, i);
           if (!(Mode & UnitDiag)) {
             if (IsLower) {
               eigen_assert(it.index() == i);
               ci /= it.value();
             } else
               ci /= lhs.coeff(i, i);
           }
           tempVector.restart();
           if (IsLower) {
             if (it.index() == i) ++it;
             for (; it; ++it) tempVector.coeffRef(it.index()) -= ci * it.value();
           } else {
             for (; it && it.index() < i; ++it) tempVector.coeffRef(it.index()) -= ci * it.value();
           }
         }
       }

       //       Index count = 0;
       // FIXME compute a reference value to filter zeros
       for (typename AmbiVector<Scalar, StorageIndex>::Iterator it(tempVector /*,1e-12*/); it; ++it) {
         //         ++ count;
         //         std::cerr << "fill " << it.index() << ", " << col << "\n";
         //         std::cout << it.value() << "  ";
         // FIXME use insertBack
         res.insert(it.index(), col) = it.value();
       }
       //       std::cout << "tempVector.nonZeros() == " << int(count) << " / " << (other.rows()) << "\n";
     }
     res.finalize();
     other = res.markAsRValue();
   }
 };

 }  // end namespace internal

 #ifndef EIGEN_PARSED_BY_DOXYGEN
 template <typename ExpressionType, unsigned int Mode>
 template <typename OtherDerived>
 void TriangularViewImpl<ExpressionType, Mode, Sparse>::solveInPlace(SparseMatrixBase<OtherDerived>& other) const {
   eigen_assert(derived().cols() == derived().rows() && derived().cols() == other.rows());
   eigen_assert((!(Mode & ZeroDiag)) && bool(Mode & (Upper | Lower)));

   //   enum { copy = internal::traits<OtherDerived>::Flags & RowMajorBit };

   //   typedef std::conditional_t<copy,
   //     typename internal::plain_matrix_type_column_major<OtherDerived>::type, OtherDerived&> OtherCopy;
   //   OtherCopy otherCopy(other.derived());

   internal::sparse_solve_triangular_sparse_selector<ExpressionType, OtherDerived, Mode>::run(
       derived().nestedExpression(), other.derived());

   //   if (copy)
   //     other = otherCopy;
 }
 #endif

 }  // end namespace Eigen

 #endif  // EIGEN_SPARSETRIANGULARSOLVER_H
	// This file is part of Eigen, a lightweight C++ template library
	// for linear algebra.
	//
	// Copyright (C) 2008 Gael Guennebaud <gael.guennebaud@inria.fr>
	//
	// This Source Code Form is subject to the terms of the Mozilla
	// Public License v. 2.0. If a copy of the MPL was not distributed
	// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.

	#ifndef EIGEN_SPARSETRIANGULARSOLVER_H
	#define EIGEN_SPARSETRIANGULARSOLVER_H

	// IWYU pragma: private
	#include "./InternalHeaderCheck.h"

	namespace Eigen {

	namespace internal {

	template <typename Lhs, typename Rhs, int Mode,
	int UpLo = (Mode & Lower) ? Lower
	: (Mode & Upper) ? Upper
	: -1,
	int StorageOrder = int(traits<Lhs>::Flags) & RowMajorBit>
	struct sparse_solve_triangular_selector;

	// forward substitution, row-major
	template <typename Lhs, typename Rhs, int Mode>
	struct sparse_solve_triangular_selector<Lhs, Rhs, Mode, Lower, RowMajor> {
	typedef typename Rhs::Scalar Scalar;
	typedef evaluator<Lhs> LhsEval;
	typedef typename evaluator<Lhs>::InnerIterator LhsIterator;
	static void run(const Lhs& lhs, Rhs& other) {
	LhsEval lhsEval(lhs);
	for (Index col = 0; col < other.cols(); ++col) {
	for (Index i = 0; i < lhs.rows(); ++i) {
	Scalar tmp = other.coeff(i, col);
	Scalar lastVal(0);
	Index lastIndex = 0;
	for (LhsIterator it(lhsEval, i); it; ++it) {
	lastVal = it.value();
	lastIndex = it.index();
	if (lastIndex == i) break;
	tmp -= lastVal * other.coeff(lastIndex, col);
	}
	if (Mode & UnitDiag)
	other.coeffRef(i, col) = tmp;
	else {
	eigen_assert(lastIndex == i);
	other.coeffRef(i, col) = tmp / lastVal;
	}
	}
	}
	}
	};

	// backward substitution, row-major
	template <typename Lhs, typename Rhs, int Mode>
	struct sparse_solve_triangular_selector<Lhs, Rhs, Mode, Upper, RowMajor> {
	typedef typename Rhs::Scalar Scalar;
	typedef evaluator<Lhs> LhsEval;
	typedef typename evaluator<Lhs>::InnerIterator LhsIterator;
	static void run(const Lhs& lhs, Rhs& other) {
	LhsEval lhsEval(lhs);
	for (Index col = 0; col < other.cols(); ++col) {
	for (Index i = lhs.rows() - 1; i >= 0; --i) {
	Scalar tmp = other.coeff(i, col);
	Scalar l_ii(0);
	LhsIterator it(lhsEval, i);
	while (it && it.index() < i) ++it;
	if (!(Mode & UnitDiag)) {
	eigen_assert(it && it.index() == i);
	l_ii = it.value();
	++it;
	} else if (it && it.index() == i)
	++it;
	for (; it; ++it) {
	tmp -= it.value() * other.coeff(it.index(), col);
	}

	if (Mode & UnitDiag)
	other.coeffRef(i, col) = tmp;
	else
	other.coeffRef(i, col) = tmp / l_ii;
	}
	}
	}
	};

	// forward substitution, col-major
	template <typename Lhs, typename Rhs, int Mode>
	struct sparse_solve_triangular_selector<Lhs, Rhs, Mode, Lower, ColMajor> {
	typedef typename Rhs::Scalar Scalar;
	typedef evaluator<Lhs> LhsEval;
	typedef typename evaluator<Lhs>::InnerIterator LhsIterator;
	static void run(const Lhs& lhs, Rhs& other) {
	LhsEval lhsEval(lhs);
	for (Index col = 0; col < other.cols(); ++col) {
	for (Index i = 0; i < lhs.cols(); ++i) {
	Scalar& tmp = other.coeffRef(i, col);
	if (!numext::is_exactly_zero(tmp)) // optimization when other is actually sparse
	{
	LhsIterator it(lhsEval, i);
	while (it && it.index() < i) ++it;
	if (!(Mode & UnitDiag)) {
	eigen_assert(it && it.index() == i);
	tmp /= it.value();
	}
	if (it && it.index() == i) ++it;
	for (; it; ++it) other.coeffRef(it.index(), col) -= tmp * it.value();
	}
	}
	}
	}
	};

	// backward substitution, col-major
	template <typename Lhs, typename Rhs, int Mode>
	struct sparse_solve_triangular_selector<Lhs, Rhs, Mode, Upper, ColMajor> {
	typedef typename Rhs::Scalar Scalar;
	typedef evaluator<Lhs> LhsEval;
	typedef typename evaluator<Lhs>::InnerIterator LhsIterator;
	static void run(const Lhs& lhs, Rhs& other) {
	LhsEval lhsEval(lhs);
	for (Index col = 0; col < other.cols(); ++col) {
	for (Index i = lhs.cols() - 1; i >= 0; --i) {
	Scalar& tmp = other.coeffRef(i, col);
	if (!numext::is_exactly_zero(tmp)) // optimization when other is actually sparse
	{
	if (!(Mode & UnitDiag)) {
	// TODO replace this by a binary search. make sure the binary search is safe for partially sorted elements
	LhsIterator it(lhsEval, i);
	while (it && it.index() != i) ++it;
	eigen_assert(it && it.index() == i);
	other.coeffRef(i, col) /= it.value();
	}
	LhsIterator it(lhsEval, i);
	for (; it && it.index() < i; ++it) other.coeffRef(it.index(), col) -= tmp * it.value();
	}
	}
	}
	}
	};

	} // end namespace internal

	#ifndef EIGEN_PARSED_BY_DOXYGEN

	template <typename ExpressionType, unsigned int Mode>
	template <typename OtherDerived>
	void TriangularViewImpl<ExpressionType, Mode, Sparse>::solveInPlace(MatrixBase<OtherDerived>& other) const {
	eigen_assert(derived().cols() == derived().rows() && derived().cols() == other.rows());
	eigen_assert((!(Mode & ZeroDiag)) && bool(Mode & (Upper \| Lower)));

	enum { copy = internal::traits<OtherDerived>::Flags & RowMajorBit };

	typedef std::conditional_t<copy, typename internal::plain_matrix_type_column_major<OtherDerived>::type, OtherDerived&>
	OtherCopy;
	OtherCopy otherCopy(other.derived());

	internal::sparse_solve_triangular_selector<ExpressionType, std::remove_reference_t<OtherCopy>, Mode>::run(
	derived().nestedExpression(), otherCopy);

	if (copy) other = otherCopy;
	}
	#endif

	// pure sparse path

	namespace internal {

	template <typename Lhs, typename Rhs, int Mode,
	int UpLo = (Mode & Lower) ? Lower
	: (Mode & Upper) ? Upper
	: -1,
	int StorageOrder = int(Lhs::Flags) & (RowMajorBit)>
	struct sparse_solve_triangular_sparse_selector;

	// forward substitution, col-major
	template <typename Lhs, typename Rhs, int Mode, int UpLo>
	struct sparse_solve_triangular_sparse_selector<Lhs, Rhs, Mode, UpLo, ColMajor> {
	typedef typename Rhs::Scalar Scalar;
	typedef typename promote_index_type<typename traits<Lhs>::StorageIndex, typename traits<Rhs>::StorageIndex>::type
	StorageIndex;
	static void run(const Lhs& lhs, Rhs& other) {
	const bool IsLower = (UpLo == Lower);
	AmbiVector<Scalar, StorageIndex> tempVector(other.rows() * 2);
	tempVector.setBounds(0, other.rows());

	Rhs res(other.rows(), other.cols());
	res.reserve(other.nonZeros());

	for (Index col = 0; col < other.cols(); ++col) {
	// FIXME estimate number of non zeros
	tempVector.init(.99 /float(other.col(col).nonZeros())/float(other.rows())/);
	tempVector.setZero();
	tempVector.restart();
	for (typename Rhs::InnerIterator rhsIt(other, col); rhsIt; ++rhsIt) {
	tempVector.coeffRef(rhsIt.index()) = rhsIt.value();
	}

	for (Index i = IsLower ? 0 : lhs.cols() - 1; IsLower ? i < lhs.cols() : i >= 0; i += IsLower ? 1 : -1) {
	tempVector.restart();
	Scalar& ci = tempVector.coeffRef(i);
	if (!numext::is_exactly_zero(ci)) {
	// find
	typename Lhs::InnerIterator it(lhs, i);
	if (!(Mode & UnitDiag)) {
	if (IsLower) {
	eigen_assert(it.index() == i);
	ci /= it.value();
	} else
	ci /= lhs.coeff(i, i);
	}
	tempVector.restart();
	if (IsLower) {
	if (it.index() == i) ++it;
	for (; it; ++it) tempVector.coeffRef(it.index()) -= ci * it.value();
	} else {
	for (; it && it.index() < i; ++it) tempVector.coeffRef(it.index()) -= ci * it.value();
	}
	}
	}

	// Index count = 0;
	// FIXME compute a reference value to filter zeros
	for (typename AmbiVector<Scalar, StorageIndex>::Iterator it(tempVector /,1e-12/); it; ++it) {
	// ++ count;
	// std::cerr << "fill " << it.index() << ", " << col << "\n";
	// std::cout << it.value() << " ";
	// FIXME use insertBack
	res.insert(it.index(), col) = it.value();
	}
	// std::cout << "tempVector.nonZeros() == " << int(count) << " / " << (other.rows()) << "\n";
	}
	res.finalize();
	other = res.markAsRValue();
	}
	};

	} // end namespace internal

	#ifndef EIGEN_PARSED_BY_DOXYGEN
	template <typename ExpressionType, unsigned int Mode>
	template <typename OtherDerived>
	void TriangularViewImpl<ExpressionType, Mode, Sparse>::solveInPlace(SparseMatrixBase<OtherDerived>& other) const {
	eigen_assert(derived().cols() == derived().rows() && derived().cols() == other.rows());
	eigen_assert((!(Mode & ZeroDiag)) && bool(Mode & (Upper \| Lower)));

	// enum { copy = internal::traits<OtherDerived>::Flags & RowMajorBit };

	// typedef std::conditional_t<copy,
	// typename internal::plain_matrix_type_column_major<OtherDerived>::type, OtherDerived&> OtherCopy;
	// OtherCopy otherCopy(other.derived());

	internal::sparse_solve_triangular_sparse_selector<ExpressionType, OtherDerived, Mode>::run(
	derived().nestedExpression(), other.derived());

	// if (copy)
	// other = otherCopy;
	}
	#endif

	} // end namespace Eigen

	#endif // EIGEN_SPARSETRIANGULARSOLVER_H