| // This file is part of Eigen, a lightweight C++ template library |
| // for linear algebra. |
| // |
| // Copyright (C) 2015 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_SPARSE_MAP_H |
| #define EIGEN_SPARSE_MAP_H |
| |
| namespace Eigen { |
| |
| namespace internal { |
| |
| template<typename MatScalar, int MatOptions, typename MatIndex, int Options, typename StrideType> |
| struct traits<Map<SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> > |
| : public traits<SparseMatrix<MatScalar,MatOptions,MatIndex> > |
| { |
| typedef SparseMatrix<MatScalar,MatOptions,MatIndex> PlainObjectType; |
| typedef traits<PlainObjectType> TraitsBase; |
| enum { |
| Flags = TraitsBase::Flags & (~NestByRefBit) |
| }; |
| }; |
| |
| template<typename MatScalar, int MatOptions, typename MatIndex, int Options, typename StrideType> |
| struct traits<Map<const SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> > |
| : public traits<SparseMatrix<MatScalar,MatOptions,MatIndex> > |
| { |
| typedef SparseMatrix<MatScalar,MatOptions,MatIndex> PlainObjectType; |
| typedef traits<PlainObjectType> TraitsBase; |
| enum { |
| Flags = TraitsBase::Flags & (~ (NestByRefBit | LvalueBit)) |
| }; |
| }; |
| |
| } // end namespace internal |
| |
| template<typename Derived, |
| int Level = internal::accessors_level<Derived>::has_write_access ? WriteAccessors : ReadOnlyAccessors |
| > class SparseMapBase; |
| |
| /** \ingroup SparseCore_Module |
| * class SparseMapBase |
| * \brief Common base class for Map and Ref instance of sparse matrix and vector. |
| */ |
| template<typename Derived> |
| class SparseMapBase<Derived,ReadOnlyAccessors> |
| : public SparseCompressedBase<Derived> |
| { |
| public: |
| typedef SparseCompressedBase<Derived> Base; |
| typedef typename Base::Scalar Scalar; |
| typedef typename Base::StorageIndex StorageIndex; |
| enum { IsRowMajor = Base::IsRowMajor }; |
| using Base::operator=; |
| protected: |
| |
| typedef typename internal::conditional< |
| bool(internal::is_lvalue<Derived>::value), |
| Scalar *, const Scalar *>::type ScalarPointer; |
| typedef typename internal::conditional< |
| bool(internal::is_lvalue<Derived>::value), |
| StorageIndex *, const StorageIndex *>::type IndexPointer; |
| |
| Index m_outerSize; |
| Index m_innerSize; |
| Array<StorageIndex,2,1> m_zero_nnz; |
| IndexPointer m_outerIndex; |
| IndexPointer m_innerIndices; |
| ScalarPointer m_values; |
| IndexPointer m_innerNonZeros; |
| |
| public: |
| |
| /** \copydoc SparseMatrixBase::rows() */ |
| inline Index rows() const { return IsRowMajor ? m_outerSize : m_innerSize; } |
| /** \copydoc SparseMatrixBase::cols() */ |
| inline Index cols() const { return IsRowMajor ? m_innerSize : m_outerSize; } |
| /** \copydoc SparseMatrixBase::innerSize() */ |
| inline Index innerSize() const { return m_innerSize; } |
| /** \copydoc SparseMatrixBase::outerSize() */ |
| inline Index outerSize() const { return m_outerSize; } |
| /** \copydoc SparseCompressedBase::nonZeros */ |
| inline Index nonZeros() const { return m_zero_nnz[1]; } |
| |
| /** \copydoc SparseCompressedBase::isCompressed */ |
| bool isCompressed() const { return m_innerNonZeros==0; } |
| |
| //---------------------------------------- |
| // direct access interface |
| /** \copydoc SparseMatrix::valuePtr */ |
| inline const Scalar* valuePtr() const { return m_values; } |
| /** \copydoc SparseMatrix::innerIndexPtr */ |
| inline const StorageIndex* innerIndexPtr() const { return m_innerIndices; } |
| /** \copydoc SparseMatrix::outerIndexPtr */ |
| inline const StorageIndex* outerIndexPtr() const { return m_outerIndex; } |
| /** \copydoc SparseMatrix::innerNonZeroPtr */ |
| inline const StorageIndex* innerNonZeroPtr() const { return m_innerNonZeros; } |
| //---------------------------------------- |
| |
| /** \copydoc SparseMatrix::coeff */ |
| inline Scalar coeff(Index row, Index col) const |
| { |
| const Index outer = IsRowMajor ? row : col; |
| const Index inner = IsRowMajor ? col : row; |
| |
| Index start = m_outerIndex[outer]; |
| Index end = isCompressed() ? m_outerIndex[outer+1] : start + m_innerNonZeros[outer]; |
| if (start==end) |
| return Scalar(0); |
| else if (end>0 && inner==m_innerIndices[end-1]) |
| return m_values[end-1]; |
| // ^^ optimization: let's first check if it is the last coefficient |
| // (very common in high level algorithms) |
| |
| const StorageIndex* r = std::lower_bound(&m_innerIndices[start],&m_innerIndices[end-1],inner); |
| const Index id = r-&m_innerIndices[0]; |
| return ((*r==inner) && (id<end)) ? m_values[id] : Scalar(0); |
| } |
| |
| inline SparseMapBase(Index rows, Index cols, Index nnz, IndexPointer outerIndexPtr, IndexPointer innerIndexPtr, |
| ScalarPointer valuePtr, IndexPointer innerNonZerosPtr = 0) |
| : m_outerSize(IsRowMajor?rows:cols), m_innerSize(IsRowMajor?cols:rows), m_zero_nnz(0,internal::convert_index<StorageIndex>(nnz)), m_outerIndex(outerIndexPtr), |
| m_innerIndices(innerIndexPtr), m_values(valuePtr), m_innerNonZeros(innerNonZerosPtr) |
| {} |
| |
| // for vectors |
| inline SparseMapBase(Index size, Index nnz, IndexPointer innerIndexPtr, ScalarPointer valuePtr) |
| : m_outerSize(1), m_innerSize(size), m_zero_nnz(0,internal::convert_index<StorageIndex>(nnz)), m_outerIndex(m_zero_nnz.data()), |
| m_innerIndices(innerIndexPtr), m_values(valuePtr), m_innerNonZeros(0) |
| {} |
| |
| /** Empty destructor */ |
| inline ~SparseMapBase() {} |
| |
| protected: |
| inline SparseMapBase() {} |
| }; |
| |
| /** \ingroup SparseCore_Module |
| * class SparseMapBase |
| * \brief Common base class for writable Map and Ref instance of sparse matrix and vector. |
| */ |
| template<typename Derived> |
| class SparseMapBase<Derived,WriteAccessors> |
| : public SparseMapBase<Derived,ReadOnlyAccessors> |
| { |
| typedef MapBase<Derived, ReadOnlyAccessors> ReadOnlyMapBase; |
| |
| public: |
| typedef SparseMapBase<Derived, ReadOnlyAccessors> Base; |
| typedef typename Base::Scalar Scalar; |
| typedef typename Base::StorageIndex StorageIndex; |
| enum { IsRowMajor = Base::IsRowMajor }; |
| |
| using Base::operator=; |
| |
| public: |
| |
| //---------------------------------------- |
| // direct access interface |
| using Base::valuePtr; |
| using Base::innerIndexPtr; |
| using Base::outerIndexPtr; |
| using Base::innerNonZeroPtr; |
| /** \copydoc SparseMatrix::valuePtr */ |
| inline Scalar* valuePtr() { return Base::m_values; } |
| /** \copydoc SparseMatrix::innerIndexPtr */ |
| inline StorageIndex* innerIndexPtr() { return Base::m_innerIndices; } |
| /** \copydoc SparseMatrix::outerIndexPtr */ |
| inline StorageIndex* outerIndexPtr() { return Base::m_outerIndex; } |
| /** \copydoc SparseMatrix::innerNonZeroPtr */ |
| inline StorageIndex* innerNonZeroPtr() { return Base::m_innerNonZeros; } |
| //---------------------------------------- |
| |
| /** \copydoc SparseMatrix::coeffRef */ |
| inline Scalar& coeffRef(Index row, Index col) |
| { |
| const Index outer = IsRowMajor ? row : col; |
| const Index inner = IsRowMajor ? col : row; |
| |
| Index start = Base::m_outerIndex[outer]; |
| Index end = Base::isCompressed() ? Base::m_outerIndex[outer+1] : start + Base::m_innerNonZeros[outer]; |
| eigen_assert(end>=start && "you probably called coeffRef on a non finalized matrix"); |
| eigen_assert(end>start && "coeffRef cannot be called on a zero coefficient"); |
| StorageIndex* r = std::lower_bound(&Base::m_innerIndices[start],&Base::m_innerIndices[end],inner); |
| const Index id = r - &Base::m_innerIndices[0]; |
| eigen_assert((*r==inner) && (id<end) && "coeffRef cannot be called on a zero coefficient"); |
| return const_cast<Scalar*>(Base::m_values)[id]; |
| } |
| |
| inline SparseMapBase(Index rows, Index cols, Index nnz, StorageIndex* outerIndexPtr, StorageIndex* innerIndexPtr, |
| Scalar* valuePtr, StorageIndex* innerNonZerosPtr = 0) |
| : Base(rows, cols, nnz, outerIndexPtr, innerIndexPtr, valuePtr, innerNonZerosPtr) |
| {} |
| |
| // for vectors |
| inline SparseMapBase(Index size, Index nnz, StorageIndex* innerIndexPtr, Scalar* valuePtr) |
| : Base(size, nnz, innerIndexPtr, valuePtr) |
| {} |
| |
| /** Empty destructor */ |
| inline ~SparseMapBase() {} |
| |
| protected: |
| inline SparseMapBase() {} |
| }; |
| |
| /** \ingroup SparseCore_Module |
| * |
| * \brief Specialization of class Map for SparseMatrix-like storage. |
| * |
| * \tparam SparseMatrixType the equivalent sparse matrix type of the referenced data, it must be a template instance of class SparseMatrix. |
| * |
| * \sa class Map, class SparseMatrix, class Ref<SparseMatrixType,Options> |
| */ |
| #ifndef EIGEN_PARSED_BY_DOXYGEN |
| template<typename MatScalar, int MatOptions, typename MatIndex, int Options, typename StrideType> |
| class Map<SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> |
| : public SparseMapBase<Map<SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> > |
| #else |
| template<typename SparseMatrixType> |
| class Map<SparseMatrixType> |
| : public SparseMapBase<Derived,WriteAccessors> |
| #endif |
| { |
| public: |
| typedef SparseMapBase<Map> Base; |
| EIGEN_SPARSE_PUBLIC_INTERFACE(Map) |
| enum { IsRowMajor = Base::IsRowMajor }; |
| |
| public: |
| |
| /** Constructs a read-write Map to a sparse matrix of size \a rows x \a cols, containing \a nnz non-zero coefficients, |
| * stored as a sparse format as defined by the pointers \a outerIndexPtr, \a innerIndexPtr, and \a valuePtr. |
| * If the optional parameter \a innerNonZerosPtr is the null pointer, then a standard compressed format is assumed. |
| * |
| * This constructor is available only if \c SparseMatrixType is non-const. |
| * |
| * More details on the expected storage schemes are given in the \ref TutorialSparse "manual pages". |
| */ |
| inline Map(Index rows, Index cols, Index nnz, StorageIndex* outerIndexPtr, |
| StorageIndex* innerIndexPtr, Scalar* valuePtr, StorageIndex* innerNonZerosPtr = 0) |
| : Base(rows, cols, nnz, outerIndexPtr, innerIndexPtr, valuePtr, innerNonZerosPtr) |
| {} |
| #ifndef EIGEN_PARSED_BY_DOXYGEN |
| /** Empty destructor */ |
| inline ~Map() {} |
| }; |
| |
| template<typename MatScalar, int MatOptions, typename MatIndex, int Options, typename StrideType> |
| class Map<const SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> |
| : public SparseMapBase<Map<const SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> > |
| { |
| public: |
| typedef SparseMapBase<Map> Base; |
| EIGEN_SPARSE_PUBLIC_INTERFACE(Map) |
| enum { IsRowMajor = Base::IsRowMajor }; |
| |
| public: |
| #endif |
| /** This is the const version of the above constructor. |
| * |
| * This constructor is available only if \c SparseMatrixType is const, e.g.: |
| * \code Map<const SparseMatrix<double> > \endcode |
| */ |
| inline Map(Index rows, Index cols, Index nnz, const StorageIndex* outerIndexPtr, |
| const StorageIndex* innerIndexPtr, const Scalar* valuePtr, const StorageIndex* innerNonZerosPtr = 0) |
| : Base(rows, cols, nnz, outerIndexPtr, innerIndexPtr, valuePtr, innerNonZerosPtr) |
| {} |
| |
| /** Empty destructor */ |
| inline ~Map() {} |
| }; |
| |
| namespace internal { |
| |
| template<typename MatScalar, int MatOptions, typename MatIndex, int Options, typename StrideType> |
| struct evaluator<Map<SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> > |
| : evaluator<SparseCompressedBase<Map<SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> > > |
| { |
| typedef evaluator<SparseCompressedBase<Map<SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> > > Base; |
| typedef Map<SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> XprType; |
| evaluator() : Base() {} |
| explicit evaluator(const XprType &mat) : Base(mat) {} |
| }; |
| |
| template<typename MatScalar, int MatOptions, typename MatIndex, int Options, typename StrideType> |
| struct evaluator<Map<const SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> > |
| : evaluator<SparseCompressedBase<Map<const SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> > > |
| { |
| typedef evaluator<SparseCompressedBase<Map<const SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> > > Base; |
| typedef Map<const SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> XprType; |
| evaluator() : Base() {} |
| explicit evaluator(const XprType &mat) : Base(mat) {} |
| }; |
| |
| } |
| |
| } // end namespace Eigen |
| |
| #endif // EIGEN_SPARSE_MAP_H |