Eigen/src/Sparse/SparseDiagonalProduct.h - mirror - Git at Google

 // This file is part of Eigen, a lightweight C++ template library
 // for linear algebra.
 //
 // Copyright (C) 2009 Gael Guennebaud <g.gael@free.fr>
 //
 // Eigen is free software; you can redistribute it and/or
 // modify it under the terms of the GNU Lesser General Public
 // License as published by the Free Software Foundation; either
 // version 3 of the License, or (at your option) any later version.
 //
 // Alternatively, you can redistribute it and/or
 // modify it under the terms of the GNU General Public License as
 // published by the Free Software Foundation; either version 2 of
 // the License, or (at your option) any later version.
 //
 // Eigen is distributed in the hope that it will be useful, but WITHOUT ANY
 // WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
 // FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License or the
 // GNU General Public License for more details.
 //
 // You should have received a copy of the GNU Lesser General Public
 // License and a copy of the GNU General Public License along with
 // Eigen. If not, see <http://www.gnu.org/licenses/>.

 #ifndef EIGEN_SPARSE_DIAGONAL_PRODUCT_H
 #define EIGEN_SPARSE_DIAGONAL_PRODUCT_H

 // The product of a diagonal matrix with a sparse matrix can be easily
 // implemented using expression template.
 // We have two consider very different cases:
 // 1 - diag * row-major sparse
 //     => each inner vector <=> scalar * sparse vector product
 //     => so we can reuse CwiseUnaryOp::InnerIterator
 // 2 - diag * col-major sparse
 //     => each inner vector <=> densevector * sparse vector cwise product
 //     => again, we can reuse specialization of CwiseBinaryOp::InnerIterator
 //        for that particular case
 // The two other cases are symmetric.

 template<typename Lhs, typename Rhs>
 struct ei_traits<SparseDiagonalProduct<Lhs, Rhs> >
 {
   typedef typename ei_cleantype<Lhs>::type _Lhs;
   typedef typename ei_cleantype<Rhs>::type _Rhs;
   typedef typename _Lhs::Scalar Scalar;
   typedef Sparse StorageKind;
   typedef MatrixXpr XprKind;
   enum {
     RowsAtCompileTime = _Lhs::RowsAtCompileTime,
     ColsAtCompileTime = _Rhs::ColsAtCompileTime,

     MaxRowsAtCompileTime = _Lhs::MaxRowsAtCompileTime,
     MaxColsAtCompileTime = _Rhs::MaxColsAtCompileTime,

     SparseFlags = ei_is_diagonal<_Lhs>::ret ? int(_Rhs::Flags) : int(_Lhs::Flags),
     Flags = (SparseFlags&RowMajorBit),
     CoeffReadCost = Dynamic
   };
 };

 enum {SDP_IsDiagonal, SDP_IsSparseRowMajor, SDP_IsSparseColMajor};
 template<typename Lhs, typename Rhs, typename SparseDiagonalProductType, int RhsMode, int LhsMode>
 class ei_sparse_diagonal_product_inner_iterator_selector;

 template<typename Lhs, typename Rhs>
 class SparseDiagonalProduct
   : public SparseMatrixBase<SparseDiagonalProduct<Lhs,Rhs> >,
     ei_no_assignment_operator
 {
     typedef typename Lhs::Nested LhsNested;
     typedef typename Rhs::Nested RhsNested;

     typedef typename ei_cleantype<LhsNested>::type _LhsNested;
     typedef typename ei_cleantype<RhsNested>::type _RhsNested;

     enum {
       LhsMode = ei_is_diagonal<_LhsNested>::ret ? SDP_IsDiagonal
               : (_LhsNested::Flags&RowMajorBit) ? SDP_IsSparseRowMajor : SDP_IsSparseColMajor,
       RhsMode = ei_is_diagonal<_RhsNested>::ret ? SDP_IsDiagonal
               : (_RhsNested::Flags&RowMajorBit) ? SDP_IsSparseRowMajor : SDP_IsSparseColMajor
     };

   public:

     EIGEN_SPARSE_GENERIC_PUBLIC_INTERFACE(SparseDiagonalProduct)

     typedef ei_sparse_diagonal_product_inner_iterator_selector
                 <_LhsNested,_RhsNested,SparseDiagonalProduct,LhsMode,RhsMode> InnerIterator;

     EIGEN_STRONG_INLINE SparseDiagonalProduct(const Lhs& lhs, const Rhs& rhs)
       : m_lhs(lhs), m_rhs(rhs)
     {
       ei_assert(lhs.cols() == rhs.rows() && "invalid sparse matrix * diagonal matrix product");
     }

     EIGEN_STRONG_INLINE int rows() const { return m_lhs.rows(); }
     EIGEN_STRONG_INLINE int cols() const { return m_rhs.cols(); }

     EIGEN_STRONG_INLINE const _LhsNested& lhs() const { return m_lhs; }
     EIGEN_STRONG_INLINE const _RhsNested& rhs() const { return m_rhs; }

   protected:
     LhsNested m_lhs;
     RhsNested m_rhs;
 };


 template<typename Lhs, typename Rhs, typename SparseDiagonalProductType>
 class ei_sparse_diagonal_product_inner_iterator_selector
 <Lhs,Rhs,SparseDiagonalProductType,SDP_IsDiagonal,SDP_IsSparseRowMajor>
   : public CwiseUnaryOp<ei_scalar_multiple_op<typename Lhs::Scalar>,Rhs>::InnerIterator
 {
     typedef typename CwiseUnaryOp<ei_scalar_multiple_op<typename Lhs::Scalar>,Rhs>::InnerIterator Base;
   public:
     inline ei_sparse_diagonal_product_inner_iterator_selector(
               const SparseDiagonalProductType& expr, int outer)
       : Base(expr.rhs()*(expr.lhs().diagonal().coeff(outer)), outer)
     {}
 };

 template<typename Lhs, typename Rhs, typename SparseDiagonalProductType>
 class ei_sparse_diagonal_product_inner_iterator_selector
 <Lhs,Rhs,SparseDiagonalProductType,SDP_IsDiagonal,SDP_IsSparseColMajor>
   : public CwiseBinaryOp<
       ei_scalar_product_op<typename Lhs::Scalar>,
       SparseInnerVectorSet<Rhs,1>,
       typename Lhs::DiagonalVectorType>::InnerIterator
 {
     typedef typename CwiseBinaryOp<
       ei_scalar_product_op<typename Lhs::Scalar>,
       SparseInnerVectorSet<Rhs,1>,
       typename Lhs::DiagonalVectorType>::InnerIterator Base;
   public:
     inline ei_sparse_diagonal_product_inner_iterator_selector(
               const SparseDiagonalProductType& expr, int outer)
       : Base(expr.rhs().innerVector(outer) .cwiseProduct(expr.lhs().diagonal()), 0)
     {}
 };

 template<typename Lhs, typename Rhs, typename SparseDiagonalProductType>
 class ei_sparse_diagonal_product_inner_iterator_selector
 <Lhs,Rhs,SparseDiagonalProductType,SDP_IsSparseColMajor,SDP_IsDiagonal>
   : public CwiseUnaryOp<ei_scalar_multiple_op<typename Rhs::Scalar>,Lhs>::InnerIterator
 {
     typedef typename CwiseUnaryOp<ei_scalar_multiple_op<typename Rhs::Scalar>,Lhs>::InnerIterator Base;
   public:
     inline ei_sparse_diagonal_product_inner_iterator_selector(
               const SparseDiagonalProductType& expr, int outer)
       : Base(expr.lhs()*expr.rhs().diagonal().coeff(outer), outer)
     {}
 };

 template<typename Lhs, typename Rhs, typename SparseDiagonalProductType>
 class ei_sparse_diagonal_product_inner_iterator_selector
 <Lhs,Rhs,SparseDiagonalProductType,SDP_IsSparseRowMajor,SDP_IsDiagonal>
   : public CwiseBinaryOp<
       ei_scalar_product_op<typename Rhs::Scalar>,
       SparseInnerVectorSet<Lhs,1>,
       Transpose<typename Rhs::DiagonalVectorType> >::InnerIterator
 {
     typedef typename CwiseBinaryOp<
       ei_scalar_product_op<typename Rhs::Scalar>,
       SparseInnerVectorSet<Lhs,1>,
       Transpose<typename Rhs::DiagonalVectorType> >::InnerIterator Base;
   public:
     inline ei_sparse_diagonal_product_inner_iterator_selector(
               const SparseDiagonalProductType& expr, int outer)
       : Base(expr.lhs().innerVector(outer) .cwiseProduct(expr.rhs().diagonal().transpose()), 0)
     {}
 };

 // SparseMatrixBase functions

 template<typename Derived>
 template<typename OtherDerived>
 const SparseDiagonalProduct<Derived,OtherDerived>
 SparseMatrixBase<Derived>::operator*(const DiagonalBase<OtherDerived> &other) const
 {
   return SparseDiagonalProduct<Derived,OtherDerived>(this->derived(), other.derived());
 }

 #endif // EIGEN_SPARSE_DIAGONAL_PRODUCT_H
	// This file is part of Eigen, a lightweight C++ template library
	// for linear algebra.
	//
	// Copyright (C) 2009 Gael Guennebaud <g.gael@free.fr>
	//
	// Eigen is free software; you can redistribute it and/or
	// modify it under the terms of the GNU Lesser General Public
	// License as published by the Free Software Foundation; either
	// version 3 of the License, or (at your option) any later version.
	//
	// Alternatively, you can redistribute it and/or
	// modify it under the terms of the GNU General Public License as
	// published by the Free Software Foundation; either version 2 of
	// the License, or (at your option) any later version.
	//
	// Eigen is distributed in the hope that it will be useful, but WITHOUT ANY
	// WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
	// FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License or the
	// GNU General Public License for more details.
	//
	// You should have received a copy of the GNU Lesser General Public
	// License and a copy of the GNU General Public License along with
	// Eigen. If not, see <http://www.gnu.org/licenses/>.

	#ifndef EIGEN_SPARSE_DIAGONAL_PRODUCT_H
	#define EIGEN_SPARSE_DIAGONAL_PRODUCT_H

	// The product of a diagonal matrix with a sparse matrix can be easily
	// implemented using expression template.
	// We have two consider very different cases:
	// 1 - diag * row-major sparse
	// => each inner vector <=> scalar * sparse vector product
	// => so we can reuse CwiseUnaryOp::InnerIterator
	// 2 - diag * col-major sparse
	// => each inner vector <=> densevector * sparse vector cwise product
	// => again, we can reuse specialization of CwiseBinaryOp::InnerIterator
	// for that particular case
	// The two other cases are symmetric.

	template<typename Lhs, typename Rhs>
	struct ei_traits<SparseDiagonalProduct<Lhs, Rhs> >
	{
	typedef typename ei_cleantype<Lhs>::type _Lhs;
	typedef typename ei_cleantype<Rhs>::type _Rhs;
	typedef typename _Lhs::Scalar Scalar;
	typedef Sparse StorageKind;
	typedef MatrixXpr XprKind;
	enum {
	RowsAtCompileTime = _Lhs::RowsAtCompileTime,
	ColsAtCompileTime = _Rhs::ColsAtCompileTime,

	MaxRowsAtCompileTime = _Lhs::MaxRowsAtCompileTime,
	MaxColsAtCompileTime = _Rhs::MaxColsAtCompileTime,

	SparseFlags = ei_is_diagonal<_Lhs>::ret ? int(_Rhs::Flags) : int(_Lhs::Flags),
	Flags = (SparseFlags&RowMajorBit),
	CoeffReadCost = Dynamic
	};
	};

	enum {SDP_IsDiagonal, SDP_IsSparseRowMajor, SDP_IsSparseColMajor};
	template<typename Lhs, typename Rhs, typename SparseDiagonalProductType, int RhsMode, int LhsMode>
	class ei_sparse_diagonal_product_inner_iterator_selector;

	template<typename Lhs, typename Rhs>
	class SparseDiagonalProduct
	: public SparseMatrixBase<SparseDiagonalProduct<Lhs,Rhs> >,
	ei_no_assignment_operator
	{
	typedef typename Lhs::Nested LhsNested;
	typedef typename Rhs::Nested RhsNested;

	typedef typename ei_cleantype<LhsNested>::type _LhsNested;
	typedef typename ei_cleantype<RhsNested>::type _RhsNested;

	enum {
	LhsMode = ei_is_diagonal<_LhsNested>::ret ? SDP_IsDiagonal
	: (_LhsNested::Flags&RowMajorBit) ? SDP_IsSparseRowMajor : SDP_IsSparseColMajor,
	RhsMode = ei_is_diagonal<_RhsNested>::ret ? SDP_IsDiagonal
	: (_RhsNested::Flags&RowMajorBit) ? SDP_IsSparseRowMajor : SDP_IsSparseColMajor
	};

	public:

	EIGEN_SPARSE_GENERIC_PUBLIC_INTERFACE(SparseDiagonalProduct)

	typedef ei_sparse_diagonal_product_inner_iterator_selector
	<_LhsNested,_RhsNested,SparseDiagonalProduct,LhsMode,RhsMode> InnerIterator;

	EIGEN_STRONG_INLINE SparseDiagonalProduct(const Lhs& lhs, const Rhs& rhs)
	: m_lhs(lhs), m_rhs(rhs)
	{
	ei_assert(lhs.cols() == rhs.rows() && "invalid sparse matrix * diagonal matrix product");
	}

	EIGEN_STRONG_INLINE int rows() const { return m_lhs.rows(); }
	EIGEN_STRONG_INLINE int cols() const { return m_rhs.cols(); }

	EIGEN_STRONG_INLINE const _LhsNested& lhs() const { return m_lhs; }
	EIGEN_STRONG_INLINE const _RhsNested& rhs() const { return m_rhs; }

	protected:
	LhsNested m_lhs;
	RhsNested m_rhs;
	};


	template<typename Lhs, typename Rhs, typename SparseDiagonalProductType>
	class ei_sparse_diagonal_product_inner_iterator_selector
	<Lhs,Rhs,SparseDiagonalProductType,SDP_IsDiagonal,SDP_IsSparseRowMajor>
	: public CwiseUnaryOp<ei_scalar_multiple_op<typename Lhs::Scalar>,Rhs>::InnerIterator
	{
	typedef typename CwiseUnaryOp<ei_scalar_multiple_op<typename Lhs::Scalar>,Rhs>::InnerIterator Base;
	public:
	inline ei_sparse_diagonal_product_inner_iterator_selector(
	const SparseDiagonalProductType& expr, int outer)
	: Base(expr.rhs()*(expr.lhs().diagonal().coeff(outer)), outer)
	{}
	};

	template<typename Lhs, typename Rhs, typename SparseDiagonalProductType>
	class ei_sparse_diagonal_product_inner_iterator_selector
	<Lhs,Rhs,SparseDiagonalProductType,SDP_IsDiagonal,SDP_IsSparseColMajor>
	: public CwiseBinaryOp<
	ei_scalar_product_op<typename Lhs::Scalar>,
	SparseInnerVectorSet<Rhs,1>,
	typename Lhs::DiagonalVectorType>::InnerIterator
	{
	typedef typename CwiseBinaryOp<
	ei_scalar_product_op<typename Lhs::Scalar>,
	SparseInnerVectorSet<Rhs,1>,
	typename Lhs::DiagonalVectorType>::InnerIterator Base;
	public:
	inline ei_sparse_diagonal_product_inner_iterator_selector(
	const SparseDiagonalProductType& expr, int outer)
	: Base(expr.rhs().innerVector(outer) .cwiseProduct(expr.lhs().diagonal()), 0)
	{}
	};

	template<typename Lhs, typename Rhs, typename SparseDiagonalProductType>
	class ei_sparse_diagonal_product_inner_iterator_selector
	<Lhs,Rhs,SparseDiagonalProductType,SDP_IsSparseColMajor,SDP_IsDiagonal>
	: public CwiseUnaryOp<ei_scalar_multiple_op<typename Rhs::Scalar>,Lhs>::InnerIterator
	{
	typedef typename CwiseUnaryOp<ei_scalar_multiple_op<typename Rhs::Scalar>,Lhs>::InnerIterator Base;
	public:
	inline ei_sparse_diagonal_product_inner_iterator_selector(
	const SparseDiagonalProductType& expr, int outer)
	: Base(expr.lhs()*expr.rhs().diagonal().coeff(outer), outer)
	{}
	};

	template<typename Lhs, typename Rhs, typename SparseDiagonalProductType>
	class ei_sparse_diagonal_product_inner_iterator_selector
	<Lhs,Rhs,SparseDiagonalProductType,SDP_IsSparseRowMajor,SDP_IsDiagonal>
	: public CwiseBinaryOp<
	ei_scalar_product_op<typename Rhs::Scalar>,
	SparseInnerVectorSet<Lhs,1>,
	Transpose<typename Rhs::DiagonalVectorType> >::InnerIterator
	{
	typedef typename CwiseBinaryOp<
	ei_scalar_product_op<typename Rhs::Scalar>,
	SparseInnerVectorSet<Lhs,1>,
	Transpose<typename Rhs::DiagonalVectorType> >::InnerIterator Base;
	public:
	inline ei_sparse_diagonal_product_inner_iterator_selector(
	const SparseDiagonalProductType& expr, int outer)
	: Base(expr.lhs().innerVector(outer) .cwiseProduct(expr.rhs().diagonal().transpose()), 0)
	{}
	};

	// SparseMatrixBase functions

	template<typename Derived>
	template<typename OtherDerived>
	const SparseDiagonalProduct<Derived,OtherDerived>
	SparseMatrixBase<Derived>::operator*(const DiagonalBase<OtherDerived> &other) const
	{
	return SparseDiagonalProduct<Derived,OtherDerived>(this->derived(), other.derived());
	}

	#endif // EIGEN_SPARSE_DIAGONAL_PRODUCT_H