A versatible sparse matrix representation. More...

#include <SparseMatrix.h>

Inheritance diagram for Eigen::SparseMatrix< _Scalar, _Options, _Index >:

Classes
class	SingletonVector

Public Types
enum	{ Options = _Options }

typedef MappedSparseMatrix< Scalar, Flags >	Map

typedef Diagonal< SparseMatrix >	DiagonalReturnType

typedef Diagonal< const SparseMatrix >	ConstDiagonalReturnType

typedef Base::InnerIterator	InnerIterator

typedef Base::ReverseInnerIterator	ReverseInnerIterator

typedef internal::CompressedStorage< Scalar, StorageIndex >	Storage

typedef Base::IndexVector	IndexVector

typedef Base::ScalarVector	ScalarVector

Public Types inherited from Eigen::SparseCompressedBase< SparseMatrix< _Scalar, _Options, _Index > >
typedef SparseMatrixBase< SparseMatrix< _Scalar, _Options, _Index > >	Base

Public Types inherited from Eigen::SparseMatrixBase< SparseMatrix< _Scalar, _Options, _Index > >
enum

typedef internal::traits< SparseMatrix< _Scalar, _Options, _Index > >::Scalar	Scalar

typedef Scalar	value_type
	The numeric type of the expression' coefficients, e.g. More...

typedef internal::packet_traits< Scalar >::type	PacketScalar

typedef internal::traits< SparseMatrix< _Scalar, _Options, _Index > >::StorageKind	StorageKind

typedef internal::traits< SparseMatrix< _Scalar, _Options, _Index > >::StorageIndex	StorageIndex

typedef internal::add_const_on_value_type_if_arithmetic< typename internal::packet_traits< Scalar >::type >::type	PacketReturnType

typedef SparseMatrixBase	StorageBaseType

typedef Matrix< StorageIndex, Dynamic, 1 >	IndexVector

typedef Matrix< Scalar, Dynamic, 1 >	ScalarVector

typedef internal::conditional< NumTraits< Scalar >::IsComplex, CwiseUnaryOp< internal::scalar_conjugate_op< Scalar >, Eigen::Transpose< const SparseMatrix< _Scalar, _Options, _Index > > >, Transpose< const SparseMatrix< _Scalar, _Options, _Index > > >::type	AdjointReturnType

typedef Transpose< SparseMatrix< _Scalar, _Options, _Index > >	TransposeReturnType

typedef internal::add_const< Transpose< const SparseMatrix< _Scalar, _Options, _Index > > >::type	ConstTransposeReturnType

typedef SparseMatrix< Scalar, Flags &RowMajorBit ? RowMajor :ColMajor, StorageIndex >	PlainObject

typedef NumTraits< Scalar >::Real	RealScalar
	This is the "real scalar" type; if the Scalar type is already real numbers (e.g. More...

typedef internal::conditional< _HasDirectAccess, const Scalar &, Scalar >::type	CoeffReturnType

typedef CwiseNullaryOp< internal::scalar_constant_op< Scalar >, Matrix< Scalar, Dynamic, Dynamic > >	ConstantReturnType

typedef Matrix< Scalar, RowsAtCompileTime, ColsAtCompileTime >	DenseMatrixType
	type of the equivalent dense matrix

typedef Matrix< Scalar, EIGEN_SIZE_MAX(RowsAtCompileTime, ColsAtCompileTime), EIGEN_SIZE_MAX(RowsAtCompileTime, ColsAtCompileTime)>	SquareMatrixType
	type of the equivalent square matrix

typedef EigenBase< SparseMatrix< _Scalar, _Options, _Index > >	Base

typedef internal::conditional< NumTraits< Scalar >::IsComplex, const CwiseUnaryOp< internal::scalar_conjugate_op< Scalar >, const SparseMatrix< _Scalar, _Options, _Index > >, const SparseMatrix< _Scalar, _Options, _Index > & >::type	ConjugateReturnType

typedef internal::conditional< NumTraits< Scalar >::IsComplex, const CwiseUnaryOp< internal::scalar_real_op< Scalar >, const SparseMatrix< _Scalar, _Options, _Index > >, const SparseMatrix< _Scalar, _Options, _Index > & >::type	RealReturnType

typedef internal::conditional< NumTraits< Scalar >::IsComplex, CwiseUnaryView< internal::scalar_real_ref_op< Scalar >, SparseMatrix< _Scalar, _Options, _Index > >, SparseMatrix< _Scalar, _Options, _Index > & >::type	NonConstRealReturnType

typedef CwiseUnaryOp< internal::scalar_imag_op< Scalar >, const SparseMatrix< _Scalar, _Options, _Index > >	ImagReturnType

typedef CwiseUnaryView< internal::scalar_imag_ref_op< Scalar >, SparseMatrix< _Scalar, _Options, _Index > >	NonConstImagReturnType

typedef CwiseUnaryOp< internal::scalar_opposite_op< Scalar >, const SparseMatrix< _Scalar, _Options, _Index > >	NegativeReturnType

typedef CwiseUnaryOp< internal::scalar_abs_op< Scalar >, const SparseMatrix< _Scalar, _Options, _Index > >	CwiseAbsReturnType

typedef CwiseUnaryOp< internal::scalar_abs2_op< Scalar >, const SparseMatrix< _Scalar, _Options, _Index > >	CwiseAbs2ReturnType

typedef CwiseUnaryOp< internal::scalar_sqrt_op< Scalar >, const SparseMatrix< _Scalar, _Options, _Index > >	CwiseSqrtReturnType

typedef CwiseUnaryOp< internal::scalar_sign_op< Scalar >, const SparseMatrix< _Scalar, _Options, _Index > >	CwiseSignReturnType

typedef CwiseUnaryOp< internal::scalar_inverse_op< Scalar >, const SparseMatrix< _Scalar, _Options, _Index > >	CwiseInverseReturnType

typedef CwiseBinaryOp< internal::scalar_cmp_op< Scalar, Scalar, internal::cmp_EQ >, const SparseMatrix< _Scalar, _Options, _Index >, const ConstantReturnType >	CwiseScalarEqualReturnType

typedef Block< SparseMatrix< _Scalar, _Options, _Index >, internal::traits< SparseMatrix< _Scalar, _Options, _Index > >::RowsAtCompileTime, 1, !IsRowMajor >	ColXpr

typedef const Block< const SparseMatrix< _Scalar, _Options, _Index >, internal::traits< SparseMatrix< _Scalar, _Options, _Index > >::RowsAtCompileTime, 1, !IsRowMajor >	ConstColXpr

typedef Block< SparseMatrix< _Scalar, _Options, _Index >, 1, internal::traits< SparseMatrix< _Scalar, _Options, _Index > >::ColsAtCompileTime, IsRowMajor >	RowXpr

typedef const Block< const SparseMatrix< _Scalar, _Options, _Index >, 1, internal::traits< SparseMatrix< _Scalar, _Options, _Index > >::ColsAtCompileTime, IsRowMajor >	ConstRowXpr

typedef Block< SparseMatrix< _Scalar, _Options, _Index >, internal::traits< SparseMatrix< _Scalar, _Options, _Index > >::RowsAtCompileTime, Dynamic, !IsRowMajor >	ColsBlockXpr

typedef const Block< const SparseMatrix< _Scalar, _Options, _Index >, internal::traits< SparseMatrix< _Scalar, _Options, _Index > >::RowsAtCompileTime, Dynamic, !IsRowMajor >	ConstColsBlockXpr

typedef Block< SparseMatrix< _Scalar, _Options, _Index >, Dynamic, internal::traits< SparseMatrix< _Scalar, _Options, _Index > >::ColsAtCompileTime, IsRowMajor >	RowsBlockXpr

typedef const Block< const SparseMatrix< _Scalar, _Options, _Index >, Dynamic, internal::traits< SparseMatrix< _Scalar, _Options, _Index > >::ColsAtCompileTime, IsRowMajor >	ConstRowsBlockXpr

typedef Block< SparseMatrix< _Scalar, _Options, _Index > >	BlockXpr

typedef const Block< const SparseMatrix< _Scalar, _Options, _Index > >	ConstBlockXpr

typedef VectorBlock< SparseMatrix< _Scalar, _Options, _Index > >	SegmentReturnType

typedef const VectorBlock< const SparseMatrix< _Scalar, _Options, _Index > >	ConstSegmentReturnType

typedef Block< SparseMatrix< _Scalar, _Options, _Index >, IsRowMajor?1:Dynamic, IsRowMajor?Dynamic:1, true >	InnerVectorReturnType

typedef Block< const SparseMatrix< _Scalar, _Options, _Index >, IsRowMajor?1:Dynamic, IsRowMajor?Dynamic:1, true >	ConstInnerVectorReturnType

typedef Block< SparseMatrix< _Scalar, _Options, _Index >, Dynamic, Dynamic, true >	InnerVectorsReturnType

typedef Block< const SparseMatrix< _Scalar, _Options, _Index >, Dynamic, Dynamic, true >	ConstInnerVectorsReturnType

Public Types inherited from Eigen::EigenBase< Derived >
typedef Eigen::Index	Index
	The interface type of indices. More...

typedef internal::traits< Derived >::StorageKind	StorageKind

Public Member Functions
Index	rows () const

Index	cols () const

Index	innerSize () const

Index	outerSize () const

const Scalar *	valuePtr () const

Scalar *	valuePtr ()

const StorageIndex *	innerIndexPtr () const

StorageIndex *	innerIndexPtr ()

const StorageIndex *	outerIndexPtr () const

StorageIndex *	outerIndexPtr ()

const StorageIndex *	innerNonZeroPtr () const

StorageIndex *	innerNonZeroPtr ()

Storage &	data ()

const Storage &	data () const

Scalar	coeff (Index row, Index col) const

Scalar &	coeffRef (Index row, Index col)

Scalar &	insert (Index row, Index col)

void	setZero ()
	Removes all non zeros but keep allocated memory. More...

void	reserve (Index reserveSize)
	Preallocates reserveSize non zeros. More...

template<class SizesType >
void	reserve (const SizesType &reserveSizes, const typename SizesType::value_type &enableif=typename SizesType::value_type())

Scalar &	insertBack (Index row, Index col)

Scalar &	insertBackByOuterInner (Index outer, Index inner)

Scalar &	insertBackByOuterInnerUnordered (Index outer, Index inner)

void	startVec (Index outer)

void	finalize ()

template<typename InputIterators >
void	setFromTriplets (const InputIterators &begin, const InputIterators &end)
	Fill the matrix `this` with the list of triplets* defined by the iterator range begin - end. More...

template<typename InputIterators , typename DupFunctor >
void	setFromTriplets (const InputIterators &begin, const InputIterators &end, DupFunctor dup_func)
	The same as setFromTriplets but when duplicates are met the functor dup_func is applied: More...

void	sumupDuplicates ()

template<typename DupFunctor >
void	collapseDuplicates (DupFunctor dup_func=DupFunctor())

Scalar &	insertByOuterInner (Index j, Index i)

void	makeCompressed ()
	Turns the matrix into the compressed format.

void	uncompress ()
	Turns the matrix into the uncompressed mode.

void	prune (const Scalar &reference, const RealScalar &epsilon=NumTraits< RealScalar >::dummy_precision())
	Suppresses all nonzeros which are much smaller than reference under the tolerence epsilon.

template<typename KeepFunc >
void	prune (const KeepFunc &keep=KeepFunc())
	Turns the matrix into compressed format, and suppresses all nonzeros which do not satisfy the predicate keep. More...

void	conservativeResize (Index rows, Index cols)
	Resizes the matrix to a rows x cols matrix leaving old values untouched. More...

void	resize (Index rows, Index cols)
	Resizes the matrix to a rows x cols matrix and initializes it to zero. More...

void	resizeNonZeros (Index size)

const ConstDiagonalReturnType	diagonal () const

DiagonalReturnType	diagonal ()

	SparseMatrix ()
	Default constructor yielding an empty `0` `x` `0` matrix.

	SparseMatrix (Index rows, Index cols)
	Constructs a rows `x` cols empty matrix.

template<typename OtherDerived >
	SparseMatrix (const SparseMatrixBase< OtherDerived > &other)
	Constructs a sparse matrix from the sparse expression other.

template<typename OtherDerived , unsigned int UpLo>
	SparseMatrix (const SparseSelfAdjointView< OtherDerived, UpLo > &other)
	Constructs a sparse matrix from the sparse selfadjoint view other.

	SparseMatrix (const SparseMatrix &other)
	Copy constructor (it performs a deep copy)

template<typename OtherDerived >
	SparseMatrix (const ReturnByValue< OtherDerived > &other)
	Copy constructor with in-place evaluation.

template<typename OtherDerived >
	SparseMatrix (const DiagonalBase< OtherDerived > &other)
	Copy constructor with in-place evaluation.

void	swap (SparseMatrix &other)
	Swaps the content of two sparse matrices of the same type. More...

void	setIdentity ()
	Sets *this to the identity matrix. More...

SparseMatrix &	operator= (const SparseMatrix &other)

template<typename OtherDerived >
SparseMatrix &	operator= (const EigenBase< OtherDerived > &other)

template<typename OtherDerived >
EIGEN_DONT_INLINE SparseMatrix &	operator= (const SparseMatrixBase< OtherDerived > &other)

	~SparseMatrix ()
	Destructor.

Scalar	sum () const
	Overloaded for performance.

EIGEN_STRONG_INLINE Scalar &	insertBackUncompressed (Index row, Index col)

template<typename OtherDerived >
EIGEN_DONT_INLINE SparseMatrix< Scalar, _Options, _Index > &	operator= (const SparseMatrixBase< OtherDerived > &other)

Public Member Functions inherited from Eigen::SparseCompressedBase< SparseMatrix< _Scalar, _Options, _Index > >
Index	nonZeros () const

const Scalar *	valuePtr () const

Scalar *	valuePtr ()

const StorageIndex *	innerIndexPtr () const

StorageIndex *	innerIndexPtr ()

const StorageIndex *	outerIndexPtr () const

StorageIndex *	outerIndexPtr ()

const StorageIndex *	innerNonZeroPtr () const

StorageIndex *	innerNonZeroPtr ()

bool	isCompressed () const

const Map< const Array< Scalar, Dynamic, 1 > >	coeffs () const

Map< Array< Scalar, Dynamic, 1 > >	coeffs ()

Public Member Functions inherited from Eigen::SparseMatrixBase< SparseMatrix< _Scalar, _Options, _Index > >
SparseMatrix< _Scalar, _Options, _Index > &	operator= (const EigenBase< OtherDerived > &other)

SparseMatrix< _Scalar, _Options, _Index > &	operator= (const ReturnByValue< OtherDerived > &other)

SparseMatrix< _Scalar, _Options, _Index > &	operator= (const SparseMatrixBase< OtherDerived > &other)

SparseMatrix< _Scalar, _Options, _Index > &	operator= (const SparseMatrix< _Scalar, _Options, _Index > &other)

const SparseMatrix< _Scalar, _Options, _Index > &	derived () const

SparseMatrix< _Scalar, _Options, _Index > &	derived ()

SparseMatrix< _Scalar, _Options, _Index > &	const_cast_derived () const

EIGEN_DEVICE_FUNC const NegativeReturnType	operator- () const

EIGEN_DEVICE_FUNC CastXpr< NewType >::Type	cast () const

EIGEN_DEVICE_FUNC ConjugateReturnType	conjugate () const

EIGEN_DEVICE_FUNC RealReturnType	real () const

EIGEN_DEVICE_FUNC NonConstRealReturnType	real ()

EIGEN_DEVICE_FUNC const ImagReturnType	imag () const

EIGEN_DEVICE_FUNC NonConstImagReturnType	imag ()

EIGEN_DEVICE_FUNC const CwiseUnaryOp< CustomUnaryOp, const SparseMatrix< _Scalar, _Options, _Index > >	unaryExpr (const CustomUnaryOp &func=CustomUnaryOp()) const
	Apply a unary operator coefficient-wise. More...

EIGEN_DEVICE_FUNC const CwiseUnaryView< CustomViewOp, const SparseMatrix< _Scalar, _Options, _Index > >	unaryViewExpr (const CustomViewOp &func=CustomViewOp()) const

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const CwiseBinaryOp< CustomBinaryOp, const SparseMatrix< _Scalar, _Options, _Index >, const OtherDerived >	binaryExpr (const EIGEN_CURRENT_STORAGE_BASE_CLASS< OtherDerived > &other, const CustomBinaryOp &func=CustomBinaryOp()) const

EIGEN_DEVICE_FUNC const CwiseBinaryOp< internal::scalar_boolean_and_op, const SparseMatrix< _Scalar, _Options, _Index >, const OtherDerived >	operator&& (const EIGEN_CURRENT_STORAGE_BASE_CLASS< OtherDerived > &other) const

EIGEN_DEVICE_FUNC const CwiseBinaryOp< internal::scalar_boolean_or_op, const SparseMatrix< _Scalar, _Options, _Index >, const OtherDerived >	operator\|\| (const EIGEN_CURRENT_STORAGE_BASE_CLASS< OtherDerived > &other) const

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const CwiseAbsReturnType	cwiseAbs () const

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const CwiseAbs2ReturnType	cwiseAbs2 () const

EIGEN_DEVICE_FUNC const CwiseSqrtReturnType	cwiseSqrt () const

EIGEN_DEVICE_FUNC const CwiseSignReturnType	cwiseSign () const

EIGEN_DEVICE_FUNC const CwiseInverseReturnType	cwiseInverse () const

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const	EIGEN_CWISE_BINARY_RETURN_TYPE (SparseMatrix< _Scalar, _Options, _Index >, OtherDerived, product) cwiseProduct(const EIGEN_CURRENT_STORAGE_BASE_CLASS< OtherDerived > &other) const

EIGEN_DEVICE_FUNC const CwiseBinaryOp< std::equal_to< Scalar >, const SparseMatrix< _Scalar, _Options, _Index >, const OtherDerived >	cwiseEqual (const EIGEN_CURRENT_STORAGE_BASE_CLASS< OtherDerived > &other) const

EIGEN_DEVICE_FUNC const CwiseScalarEqualReturnType	cwiseEqual (const Scalar &s) const

EIGEN_DEVICE_FUNC const CwiseBinaryOp< std::not_equal_to< Scalar >, const SparseMatrix< _Scalar, _Options, _Index >, const OtherDerived >	cwiseNotEqual (const EIGEN_CURRENT_STORAGE_BASE_CLASS< OtherDerived > &other) const

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const CwiseBinaryOp< internal::scalar_min_op< Scalar, Scalar >, const SparseMatrix< _Scalar, _Options, _Index >, const OtherDerived >	cwiseMin (const EIGEN_CURRENT_STORAGE_BASE_CLASS< OtherDerived > &other) const

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const CwiseBinaryOp< internal::scalar_min_op< Scalar, Scalar >, const SparseMatrix< _Scalar, _Options, _Index >, const ConstantReturnType >	cwiseMin (const Scalar &other) const

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const CwiseBinaryOp< internal::scalar_max_op< Scalar, Scalar >, const SparseMatrix< _Scalar, _Options, _Index >, const OtherDerived >	cwiseMax (const EIGEN_CURRENT_STORAGE_BASE_CLASS< OtherDerived > &other) const

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const CwiseBinaryOp< internal::scalar_max_op< Scalar, Scalar >, const SparseMatrix< _Scalar, _Options, _Index >, const ConstantReturnType >	cwiseMax (const Scalar &other) const

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const CwiseBinaryOp< internal::scalar_quotient_op< Scalar >, const SparseMatrix< _Scalar, _Options, _Index >, const OtherDerived >	cwiseQuotient (const EIGEN_CURRENT_STORAGE_BASE_CLASS< OtherDerived > &other) const

EIGEN_DOC_BLOCK_ADDONS_NOT_INNER_PANEL EIGEN_DEVICE_FUNC BlockXpr	block (Index startRow, Index startCol, Index blockRows, Index blockCols)

EIGEN_DEVICE_FUNC const ConstBlockXpr	block (Index startRow, Index startCol, Index blockRows, Index blockCols) const
	This is the const version of block(Index,Index,Index,Index). */.

EIGEN_DOC_BLOCK_ADDONS_NOT_INNER_PANEL EIGEN_DEVICE_FUNC FixedBlockXpr< NRows, NCols >::Type	block (Index startRow, Index startCol)

EIGEN_DEVICE_FUNC const ConstFixedBlockXpr< NRows, NCols >::Type	block (Index startRow, Index startCol) const
	This is the const version of block<>(Index, Index). */.

EIGEN_DOC_BLOCK_ADDONS_NOT_INNER_PANEL FixedBlockXpr< NRows, NCols >::Type	block (Index startRow, Index startCol, Index blockRows, Index blockCols)

const ConstFixedBlockXpr< NRows, NCols >::Type	block (Index startRow, Index startCol, Index blockRows, Index blockCols) const
	This is the const version of block<>(Index, Index, Index, Index). */.

EIGEN_DOC_BLOCK_ADDONS_NOT_INNER_PANEL EIGEN_DEVICE_FUNC BlockXpr	topRightCorner (Index cRows, Index cCols)

EIGEN_DEVICE_FUNC const ConstBlockXpr	topRightCorner (Index cRows, Index cCols) const
	This is the const version of topRightCorner(Index, Index).

EIGEN_DOC_BLOCK_ADDONS_NOT_INNER_PANEL EIGEN_DEVICE_FUNC FixedBlockXpr< CRows, CCols >::Type	topRightCorner ()

EIGEN_DEVICE_FUNC const ConstFixedBlockXpr< CRows, CCols >::Type	topRightCorner () const
	This is the const version of topRightCorner<int, int>().

EIGEN_DOC_BLOCK_ADDONS_NOT_INNER_PANEL FixedBlockXpr< CRows, CCols >::Type	topRightCorner (Index cRows, Index cCols)

const ConstFixedBlockXpr< CRows, CCols >::Type	topRightCorner (Index cRows, Index cCols) const
	This is the const version of topRightCorner<int, int>(Index, Index).

EIGEN_DOC_BLOCK_ADDONS_NOT_INNER_PANEL EIGEN_DEVICE_FUNC BlockXpr	topLeftCorner (Index cRows, Index cCols)

EIGEN_DEVICE_FUNC const ConstBlockXpr	topLeftCorner (Index cRows, Index cCols) const
	This is the const version of topLeftCorner(Index, Index).

EIGEN_DOC_BLOCK_ADDONS_NOT_INNER_PANEL EIGEN_DEVICE_FUNC FixedBlockXpr< CRows, CCols >::Type	topLeftCorner ()

EIGEN_DEVICE_FUNC const ConstFixedBlockXpr< CRows, CCols >::Type	topLeftCorner () const
	This is the const version of topLeftCorner<int, int>().

EIGEN_DOC_BLOCK_ADDONS_NOT_INNER_PANEL FixedBlockXpr< CRows, CCols >::Type	topLeftCorner (Index cRows, Index cCols)

const ConstFixedBlockXpr< CRows, CCols >::Type	topLeftCorner (Index cRows, Index cCols) const
	This is the const version of topLeftCorner<int, int>(Index, Index).

EIGEN_DOC_BLOCK_ADDONS_NOT_INNER_PANEL EIGEN_DEVICE_FUNC BlockXpr	bottomRightCorner (Index cRows, Index cCols)

EIGEN_DEVICE_FUNC const ConstBlockXpr	bottomRightCorner (Index cRows, Index cCols) const
	This is the const version of bottomRightCorner(Index, Index).

EIGEN_DOC_BLOCK_ADDONS_NOT_INNER_PANEL EIGEN_DEVICE_FUNC FixedBlockXpr< CRows, CCols >::Type	bottomRightCorner ()

EIGEN_DEVICE_FUNC const ConstFixedBlockXpr< CRows, CCols >::Type	bottomRightCorner () const
	This is the const version of bottomRightCorner<int, int>().

EIGEN_DOC_BLOCK_ADDONS_NOT_INNER_PANEL FixedBlockXpr< CRows, CCols >::Type	bottomRightCorner (Index cRows, Index cCols)

const ConstFixedBlockXpr< CRows, CCols >::Type	bottomRightCorner (Index cRows, Index cCols) const
	This is the const version of bottomRightCorner<int, int>(Index, Index).

EIGEN_DOC_BLOCK_ADDONS_NOT_INNER_PANEL EIGEN_DEVICE_FUNC BlockXpr	bottomLeftCorner (Index cRows, Index cCols)

EIGEN_DEVICE_FUNC const ConstBlockXpr	bottomLeftCorner (Index cRows, Index cCols) const
	This is the const version of bottomLeftCorner(Index, Index).

EIGEN_DOC_BLOCK_ADDONS_NOT_INNER_PANEL EIGEN_DEVICE_FUNC FixedBlockXpr< CRows, CCols >::Type	bottomLeftCorner ()

EIGEN_DEVICE_FUNC const ConstFixedBlockXpr< CRows, CCols >::Type	bottomLeftCorner () const
	This is the const version of bottomLeftCorner<int, int>().

EIGEN_DOC_BLOCK_ADDONS_NOT_INNER_PANEL FixedBlockXpr< CRows, CCols >::Type	bottomLeftCorner (Index cRows, Index cCols)

const ConstFixedBlockXpr< CRows, CCols >::Type	bottomLeftCorner (Index cRows, Index cCols) const
	This is the const version of bottomLeftCorner<int, int>(Index, Index).

EIGEN_DEVICE_FUNC RowsBlockXpr	topRows (Index n)

EIGEN_DEVICE_FUNC ConstRowsBlockXpr	topRows (Index n) const
	This is the const version of topRows(Index).

EIGEN_DEVICE_FUNC NRowsBlockXpr< N >::Type	topRows (Index n=N)

EIGEN_DEVICE_FUNC ConstNRowsBlockXpr< N >::Type	topRows (Index n=N) const
	This is the const version of topRows<int>().

EIGEN_DEVICE_FUNC RowsBlockXpr	bottomRows (Index n)

EIGEN_DEVICE_FUNC ConstRowsBlockXpr	bottomRows (Index n) const
	This is the const version of bottomRows(Index).

EIGEN_DEVICE_FUNC NRowsBlockXpr< N >::Type	bottomRows (Index n=N)

EIGEN_DEVICE_FUNC ConstNRowsBlockXpr< N >::Type	bottomRows (Index n=N) const
	This is the const version of bottomRows<int>().

EIGEN_DEVICE_FUNC RowsBlockXpr	middleRows (Index startRow, Index n)

EIGEN_DEVICE_FUNC ConstRowsBlockXpr	middleRows (Index startRow, Index n) const
	This is the const version of middleRows(Index,Index).

EIGEN_DEVICE_FUNC NRowsBlockXpr< N >::Type	middleRows (Index startRow, Index n=N)

EIGEN_DEVICE_FUNC ConstNRowsBlockXpr< N >::Type	middleRows (Index startRow, Index n=N) const
	This is the const version of middleRows<int>().

EIGEN_DEVICE_FUNC ColsBlockXpr	leftCols (Index n)

EIGEN_DEVICE_FUNC ConstColsBlockXpr	leftCols (Index n) const
	This is the const version of leftCols(Index).

EIGEN_DEVICE_FUNC NColsBlockXpr< N >::Type	leftCols (Index n=N)

EIGEN_DEVICE_FUNC ConstNColsBlockXpr< N >::Type	leftCols (Index n=N) const
	This is the const version of leftCols<int>().

EIGEN_DEVICE_FUNC ColsBlockXpr	rightCols (Index n)

EIGEN_DEVICE_FUNC ConstColsBlockXpr	rightCols (Index n) const
	This is the const version of rightCols(Index).

EIGEN_DEVICE_FUNC NColsBlockXpr< N >::Type	rightCols (Index n=N)

EIGEN_DEVICE_FUNC ConstNColsBlockXpr< N >::Type	rightCols (Index n=N) const
	This is the const version of rightCols<int>().

EIGEN_DEVICE_FUNC ColsBlockXpr	middleCols (Index startCol, Index numCols)

EIGEN_DEVICE_FUNC ConstColsBlockXpr	middleCols (Index startCol, Index numCols) const
	This is the const version of middleCols(Index,Index).

EIGEN_DEVICE_FUNC NColsBlockXpr< N >::Type	middleCols (Index startCol, Index n=N)

EIGEN_DEVICE_FUNC ConstNColsBlockXpr< N >::Type	middleCols (Index startCol, Index n=N) const
	This is the const version of middleCols<int>().

EIGEN_DEVICE_FUNC ColXpr	col (Index i)

EIGEN_DEVICE_FUNC ConstColXpr	col (Index i) const
	This is the const version of col(). */.

EIGEN_DEVICE_FUNC RowXpr	row (Index i)

EIGEN_DEVICE_FUNC ConstRowXpr	row (Index i) const
	This is the const version of row(). */.

EIGEN_DEVICE_FUNC SegmentReturnType	segment (Index start, Index n)

EIGEN_DEVICE_FUNC ConstSegmentReturnType	segment (Index start, Index n) const
	This is the const version of segment(Index,Index).

EIGEN_DEVICE_FUNC FixedSegmentReturnType< N >::Type	segment (Index start, Index n=N)

EIGEN_DEVICE_FUNC ConstFixedSegmentReturnType< N >::Type	segment (Index start, Index n=N) const
	This is the const version of segment<int>(Index).

EIGEN_DEVICE_FUNC SegmentReturnType	head (Index n)

EIGEN_DEVICE_FUNC ConstSegmentReturnType	head (Index n) const
	This is the const version of head(Index).

EIGEN_DEVICE_FUNC FixedSegmentReturnType< N >::Type	head (Index n=N)

EIGEN_DEVICE_FUNC ConstFixedSegmentReturnType< N >::Type	head (Index n=N) const
	This is the const version of head<int>().

EIGEN_DEVICE_FUNC SegmentReturnType	tail (Index n)

EIGEN_DEVICE_FUNC ConstSegmentReturnType	tail (Index n) const
	This is the const version of tail(Index).

EIGEN_DEVICE_FUNC FixedSegmentReturnType< N >::Type	tail (Index n=N)

EIGEN_DEVICE_FUNC ConstFixedSegmentReturnType< N >::Type	tail (Index n=N) const
	This is the const version of tail<int>.

Index	rows () const

Index	cols () const

Index	size () const

bool	isVector () const

Index	outerSize () const

Index	innerSize () const

bool	isRValue () const

SparseMatrix< _Scalar, _Options, _Index > &	markAsRValue ()

SparseMatrix< _Scalar, _Options, _Index > &	operator+= (const SparseMatrixBase< OtherDerived > &other)

SparseMatrix< _Scalar, _Options, _Index > &	operator+= (const DiagonalBase< OtherDerived > &other)

EIGEN_STRONG_INLINE SparseMatrix< _Scalar, _Options, _Index > &	operator+= (const SparseMatrixBase< OtherDerived > &other)

SparseMatrix< _Scalar, _Options, _Index > &	operator-= (const SparseMatrixBase< OtherDerived > &other)

SparseMatrix< _Scalar, _Options, _Index > &	operator-= (const DiagonalBase< OtherDerived > &other)

EIGEN_STRONG_INLINE SparseMatrix< _Scalar, _Options, _Index > &	operator-= (const SparseMatrixBase< OtherDerived > &other)

SparseMatrix< _Scalar, _Options, _Index > &	*operator=** (const Scalar &other)

SparseMatrix< _Scalar, _Options, _Index > &	*operator=** (const SparseMatrixBase< OtherDerived > &other)

SparseMatrix< _Scalar, _Options, _Index > &	operator/= (const Scalar &other)

EIGEN_STRONG_INLINE const CwiseProductDenseReturnType< OtherDerived >::Type	cwiseProduct (const MatrixBase< OtherDerived > &other) const

EIGEN_STRONG_INLINE const SparseMatrixBase< SparseMatrix< _Scalar, _Options, _Index > >::template CwiseProductDenseReturnType< OtherDerived >::Type	cwiseProduct (const MatrixBase< OtherDerived > &other) const

const Product< SparseMatrix< _Scalar, _Options, _Index >, OtherDerived >	operator* (const DiagonalBase< OtherDerived > &other) const

const Product< SparseMatrix< _Scalar, _Options, _Index >, OtherDerived, AliasFreeProduct >	operator* (const SparseMatrixBase< OtherDerived > &other) const

const Product< SparseMatrix< _Scalar, _Options, _Index >, OtherDerived >	operator* (const MatrixBase< OtherDerived > &other) const

SparseSymmetricPermutationProduct< SparseMatrix< _Scalar, _Options, _Index >, Upper\|Lower >	twistedBy (const PermutationMatrix< Dynamic, Dynamic, StorageIndex > &perm) const

const TriangularView< const SparseMatrix< _Scalar, _Options, _Index >, Mode >	triangularView () const

ConstSelfAdjointViewReturnType< UpLo >::Type	selfadjointView () const

SelfAdjointViewReturnType< UpLo >::Type	selfadjointView ()

SparseMatrixBase< SparseMatrix< _Scalar, _Options, _Index > >::template ConstSelfAdjointViewReturnType< UpLo >::Type	selfadjointView () const

SparseMatrixBase< SparseMatrix< _Scalar, _Options, _Index > >::template SelfAdjointViewReturnType< UpLo >::Type	selfadjointView ()

Scalar	dot (const MatrixBase< OtherDerived > &other) const

Scalar	dot (const SparseMatrixBase< OtherDerived > &other) const

internal::traits< SparseMatrix< _Scalar, _Options, _Index > >::Scalar	dot (const MatrixBase< OtherDerived > &other) const

internal::traits< SparseMatrix< _Scalar, _Options, _Index > >::Scalar	dot (const SparseMatrixBase< OtherDerived > &other) const

RealScalar	squaredNorm () const

RealScalar	norm () const

RealScalar	blueNorm () const

TransposeReturnType	transpose ()

const ConstTransposeReturnType	transpose () const

const AdjointReturnType	adjoint () const

InnerVectorReturnType	innerVector (Index outer)

const ConstInnerVectorReturnType	innerVector (Index outer) const

InnerVectorsReturnType	innerVectors (Index outerStart, Index outerSize)

const ConstInnerVectorsReturnType	innerVectors (Index outerStart, Index outerSize) const

DenseMatrixType	toDense () const

bool	isApprox (const SparseMatrixBase< OtherDerived > &other, const RealScalar &prec=NumTraits< Scalar >::dummy_precision()) const

bool	isApprox (const MatrixBase< OtherDerived > &other, const RealScalar &prec=NumTraits< Scalar >::dummy_precision()) const

const internal::eval< SparseMatrix< _Scalar, _Options, _Index > >::type	eval () const

Scalar	sum () const

const SparseView< SparseMatrix< _Scalar, _Options, _Index > >	pruned (const Scalar &reference=Scalar(0), const RealScalar &epsilon=NumTraits< Scalar >::dummy_precision()) const

Public Member Functions inherited from Eigen::EigenBase< Derived >
EIGEN_DEVICE_FUNC Derived &	derived ()

EIGEN_DEVICE_FUNC const Derived &	derived () const

EIGEN_DEVICE_FUNC Derived &	const_cast_derived () const

EIGEN_DEVICE_FUNC const Derived &	const_derived () const

EIGEN_DEVICE_FUNC Index	rows () const

EIGEN_DEVICE_FUNC Index	cols () const

EIGEN_DEVICE_FUNC Index	size () const

template<typename Dest >
EIGEN_DEVICE_FUNC void	evalTo (Dest &dst) const

template<typename Dest >
EIGEN_DEVICE_FUNC void	addTo (Dest &dst) const

template<typename Dest >
EIGEN_DEVICE_FUNC void	subTo (Dest &dst) const

template<typename Dest >
EIGEN_DEVICE_FUNC void	applyThisOnTheRight (Dest &dst) const

template<typename Dest >
EIGEN_DEVICE_FUNC void	applyThisOnTheLeft (Dest &dst) const

Protected Types
typedef SparseMatrix< Scalar,(Flags &~RowMajorBit)\|(IsRowMajor?RowMajorBit:0)>	TransposedSparseMatrix

Protected Types inherited from Eigen::SparseCompressedBase< SparseMatrix< _Scalar, _Options, _Index > >
typedef Base::IndexVector	IndexVector

Protected Member Functions
template<class SizesType >
void	reserveInnerVectors (const SizesType &reserveSizes)

template<typename Other >
void	initAssignment (const Other &other)

EIGEN_DONT_INLINE Scalar &	insertCompressed (Index row, Index col)

EIGEN_DONT_INLINE Scalar &	insertUncompressed (Index row, Index col)

Protected Member Functions inherited from Eigen::SparseCompressedBase< SparseMatrix< _Scalar, _Options, _Index > >
Eigen::Map< IndexVector >	innerNonZeros ()

const Eigen::Map< const IndexVector >	innerNonZeros () const

	SparseCompressedBase ()
	Default constructor. More...

Protected Member Functions inherited from Eigen::SparseMatrixBase< SparseMatrix< _Scalar, _Options, _Index > >
SparseMatrix< _Scalar, _Options, _Index > &	assign (const OtherDerived &other)

void	assignGeneric (const OtherDerived &other)

Protected Attributes
Index	m_outerSize

Index	m_innerSize

StorageIndex *	m_outerIndex

StorageIndex *	m_innerNonZeros

Storage	m_data

Protected Attributes inherited from Eigen::SparseMatrixBase< SparseMatrix< _Scalar, _Options, _Index > >
bool	m_isRValue

Friends
class	SparseVector< _Scalar, 0, _Index >

std::ostream &	operator<< (std::ostream &s, const SparseMatrix &m)

Additional Inherited Members
Static Protected Member Functions inherited from Eigen::SparseMatrixBase< SparseMatrix< _Scalar, _Options, _Index > >
static StorageIndex	convert_index (const Index idx)

Detailed Description

template<typename _Scalar, int _Options, typename _Index>
class Eigen::SparseMatrix< _Scalar, _Options, _Index >

A versatible sparse matrix representation.

This class implements a more versatile variants of the common compressed row/column storage format. Each colmun's (resp. row) non zeros are stored as a pair of value with associated row (resp. colmiun) index. All the non zeros are stored in a single large buffer. Unlike the compressed format, there might be extra space inbetween the nonzeros of two successive colmuns (resp. rows) such that insertion of new non-zero can be done with limited memory reallocation and copies.

A call to the function makeCompressed() turns the matrix into the standard compressed format compatible with many library.

More details on this storage sceheme are given in the manual pages.

Template Parameters

_Scalar	the scalar type, i.e. the type of the coefficients
_Options	Union of bit flags controlling the storage scheme. Currently the only possibility is ColMajor or RowMajor. The default is 0 which means column-major.
_Index	the type of the indices. It has to be a signed type (e.g., short, int, std::ptrdiff_t). Default is `int`.

This class can be extended with the help of the plugin mechanism described on the page Extending MatrixBase (and other classes) by defining the preprocessor symbol EIGEN_SPARSEMATRIX_PLUGIN.

Member Function Documentation

§ coeff()

template<typename _Scalar, int _Options, typename _Index>

Scalar Eigen::SparseMatrix< _Scalar, _Options, _Index >::coeff	(	Index	row,
		Index	col
	)		const

inline

Returns: the value of the matrix at position i, j This function returns Scalar(0) if the element is an explicit zero

§ coeffRef()

template<typename _Scalar, int _Options, typename _Index>

Scalar& Eigen::SparseMatrix< _Scalar, _Options, _Index >::coeffRef	(	Index	row,
		Index	col
	)

inline

Returns: a non-const reference to the value of the matrix at position i, j

If the element does not exist then it is inserted via the insert(Index,Index) function which itself turns the matrix into a non compressed form if that was not the case.

This is a O(log(nnz_j)) operation (binary search) plus the cost of insert(Index,Index) function if the element does not already exist.

§ cols()

template<typename _Scalar, int _Options, typename _Index>

Index Eigen::SparseMatrix< _Scalar, _Options, _Index >::cols ( void ) const

inline

Returns: the number of columns of the matrix

§ conservativeResize()

template<typename _Scalar, int _Options, typename _Index>

void Eigen::SparseMatrix< _Scalar, _Options, _Index >::conservativeResize	(	Index	rows,
		Index	cols
	)

inline

Resizes the matrix to a rows x cols matrix leaving old values untouched.

If the sizes of the matrix are decreased, then the matrix is turned to uncompressed-mode and the storage of the out of bounds coefficients is kept and reserved. Call makeCompressed() to pack the entries and squeeze extra memory.

See also: reserve(), setZero(), makeCompressed()

§ diagonal() [1/2]

template<typename _Scalar, int _Options, typename _Index>

const ConstDiagonalReturnType Eigen::SparseMatrix< _Scalar, _Options, _Index >::diagonal ( ) const

inline

Returns: a const expression of the diagonal coefficients.

§ diagonal() [2/2]

template<typename _Scalar, int _Options, typename _Index>

DiagonalReturnType Eigen::SparseMatrix< _Scalar, _Options, _Index >::diagonal ( )

inline

Returns: a read-write expression of the diagonal coefficients.

Warning: If the diagonal entries are written, then all diagonal entries must already exist, otherwise an assertion will be raised.

§ innerIndexPtr() [1/2]

template<typename _Scalar, int _Options, typename _Index>

const StorageIndex* Eigen::SparseMatrix< _Scalar, _Options, _Index >::innerIndexPtr ( ) const

inline

Returns: a const pointer to the array of inner indices. This function is aimed at interoperability with other libraries.

See also: valuePtr(), outerIndexPtr()

§ innerIndexPtr() [2/2]

template<typename _Scalar, int _Options, typename _Index>

StorageIndex* Eigen::SparseMatrix< _Scalar, _Options, _Index >::innerIndexPtr ( )

inline

Returns: a non-const pointer to the array of inner indices. This function is aimed at interoperability with other libraries.

See also: valuePtr(), outerIndexPtr()

§ innerNonZeroPtr() [1/2]

template<typename _Scalar, int _Options, typename _Index>

const StorageIndex* Eigen::SparseMatrix< _Scalar, _Options, _Index >::innerNonZeroPtr ( ) const

inline

Returns: a const pointer to the array of the number of non zeros of the inner vectors. This function is aimed at interoperability with other libraries.

Warning: it returns the null pointer 0 in compressed mode

§ innerNonZeroPtr() [2/2]

template<typename _Scalar, int _Options, typename _Index>

StorageIndex* Eigen::SparseMatrix< _Scalar, _Options, _Index >::innerNonZeroPtr ( )

inline

Returns: a non-const pointer to the array of the number of non zeros of the inner vectors. This function is aimed at interoperability with other libraries.

Warning: it returns the null pointer 0 in compressed mode

§ innerSize()

template<typename _Scalar, int _Options, typename _Index>

Index Eigen::SparseMatrix< _Scalar, _Options, _Index >::innerSize ( ) const

inline

Returns: the number of rows (resp. columns) of the matrix if the storage order column major (resp. row major)

§ insert()

template<typename _Scalar , int _Options, typename _Index >

SparseMatrix< _Scalar, _Options, _Index >::Scalar & Eigen::SparseMatrix< _Scalar, _Options, _Index >::insert	(	Index	row,
		Index	col
	)

Returns: a reference to a novel non zero coefficient with coordinates row x col. The non zero coefficient must not already exist.

If the matrix *this is in compressed mode, then *this is turned into uncompressed mode while reserving room for 2 x this->innerSize() non zeros if reserve(Index) has not been called earlier. In this case, the insertion procedure is optimized for a sequential insertion mode where elements are assumed to be inserted by increasing outer-indices.

If that's not the case, then it is strongly recommended to either use a triplet-list to assemble the matrix, or to first call reserve(const SizesType &) to reserve the appropriate number of non-zero elements per inner vector.

Assuming memory has been appropriately reserved, this function performs a sorted insertion in O(1) if the elements of each inner vector are inserted in increasing inner index order, and in O(nnz_j) for a random insertion.

§ outerIndexPtr() [1/2]

template<typename _Scalar, int _Options, typename _Index>

const StorageIndex* Eigen::SparseMatrix< _Scalar, _Options, _Index >::outerIndexPtr ( ) const

inline

Returns: a const pointer to the array of the starting positions of the inner vectors. This function is aimed at interoperability with other libraries.

See also: valuePtr(), innerIndexPtr()

§ outerIndexPtr() [2/2]

template<typename _Scalar, int _Options, typename _Index>

StorageIndex* Eigen::SparseMatrix< _Scalar, _Options, _Index >::outerIndexPtr ( )

inline

Returns: a non-const pointer to the array of the starting positions of the inner vectors. This function is aimed at interoperability with other libraries.

See also: valuePtr(), innerIndexPtr()

§ outerSize()

template<typename _Scalar, int _Options, typename _Index>

Index Eigen::SparseMatrix< _Scalar, _Options, _Index >::outerSize ( ) const

inline

Returns: the number of columns (resp. rows) of the matrix if the storage order column major (resp. row major)

§ prune()

template<typename _Scalar, int _Options, typename _Index>

template<typename KeepFunc >

void Eigen::SparseMatrix< _Scalar, _Options, _Index >::prune ( const KeepFunc & keep = KeepFunc() )

inline

Turns the matrix into compressed format, and suppresses all nonzeros which do not satisfy the predicate keep.

The functor type KeepFunc must implement the following function:

bool operator() (const Index& row, const Index& col, const Scalar& value) const;

See also: prune(Scalar,RealScalar)

§ reserve()

template<typename _Scalar, int _Options, typename _Index>

void Eigen::SparseMatrix< _Scalar, _Options, _Index >::reserve ( Index reserveSize )

inline

Preallocates reserveSize non zeros.

Precondition: the matrix must be in compressed mode.

§ resize()

template<typename _Scalar, int _Options, typename _Index>

void Eigen::SparseMatrix< _Scalar, _Options, _Index >::resize	(	Index	rows,
		Index	cols
	)

inline

Resizes the matrix to a rows x cols matrix and initializes it to zero.

This function does not free the currently allocated memory. To release as much as memory as possible, call

mat.data().squeeze();

after resizing it.

See also: reserve(), setZero()

§ rows()

template<typename _Scalar, int _Options, typename _Index>

Index Eigen::SparseMatrix< _Scalar, _Options, _Index >::rows ( void ) const

inline

Returns: the number of rows of the matrix

§ setFromTriplets() [1/2]

template<typename Scalar , int _Options, typename _Index >

template<typename InputIterators >

void Eigen::SparseMatrix< Scalar, _Options, _Index >::setFromTriplets	(	const InputIterators &	begin,
		const InputIterators &	end
	)

Fill the matrix *this with the list of triplets defined by the iterator range begin - end.

A triplet is a tuple (i,j,value) defining a non-zero element. The input list of triplets does not have to be sorted, and can contains duplicated elements. In any case, the result is a sorted and compressed sparse matrix where the duplicates have been summed up. This is a O(n) operation, with n the number of triplet elements. The initial contents of *this is destroyed. The matrix *this must be properly resized beforehand using the SparseMatrix(Index,Index) constructor, or the resize(Index,Index) method. The sizes are not extracted from the triplet list.

The InputIterators value_type must provide the following interface:

Scalar value() const; // the value
Scalar row() const;   // the row index i
Scalar col() const;   // the column index j

See for instance the Eigen::Triplet template class.

Here is a typical usage example:

typedef Triplet<double> T;
std::vector<T> tripletList;
triplets.reserve(estimation_of_entries);
for(...)
{
  // ...
  tripletList.push_back(T(i,j,v_ij));
}
SparseMatrixType m(rows,cols);
m.setFromTriplets(tripletList.begin(), tripletList.end());
// m is ready to go!

Warning: The list of triplets is read multiple times (at least twice). Therefore, it is not recommended to define an abstract iterator over a complex data-structure that would be expensive to evaluate. The triplets should rather be explicitely stored into a std::vector for instance.

§ setFromTriplets() [2/2]

template<typename Scalar , int _Options, typename _Index >

template<typename InputIterators , typename DupFunctor >

void Eigen::SparseMatrix< Scalar, _Options, _Index >::setFromTriplets	(	const InputIterators &	begin,
		const InputIterators &	end,
		DupFunctor	dup_func
	)

The same as setFromTriplets but when duplicates are met the functor dup_func is applied:

value = dup_func(OldValue, NewValue)

Here is a C++11 example keeping the latest entry only:

mat.setFromTriplets(triplets.begin(), triplets.end(), [] (const Scalar&,const Scalar &b) { return b; });

§ setIdentity()

template<typename _Scalar, int _Options, typename _Index>

void Eigen::SparseMatrix< _Scalar, _Options, _Index >::setIdentity ( )

inline

Sets *this to the identity matrix.

This function also turns the matrix into compressed mode, and drop any reserved memory.

§ setZero()

template<typename _Scalar, int _Options, typename _Index>

void Eigen::SparseMatrix< _Scalar, _Options, _Index >::setZero ( )

inline

Removes all non zeros but keep allocated memory.

This function does not free the currently allocated memory. To release as much as memory as possible, call

mat.data().squeeze();

after resizing it.

See also: resize(Index,Index), data()

§ swap()

template<typename _Scalar, int _Options, typename _Index>

void Eigen::SparseMatrix< _Scalar, _Options, _Index >::swap ( SparseMatrix< _Scalar, _Options, _Index > & other )

inline

Swaps the content of two sparse matrices of the same type.

This is a fast operation that simply swaps the underlying pointers and parameters.

§ valuePtr() [1/2]

template<typename _Scalar, int _Options, typename _Index>

const Scalar* Eigen::SparseMatrix< _Scalar, _Options, _Index >::valuePtr ( ) const

inline

Returns: a const pointer to the array of values. This function is aimed at interoperability with other libraries.

See also: innerIndexPtr(), outerIndexPtr()

§ valuePtr() [2/2]

template<typename _Scalar, int _Options, typename _Index>

Scalar* Eigen::SparseMatrix< _Scalar, _Options, _Index >::valuePtr ( )

inline

Returns: a non-const pointer to the array of values. This function is aimed at interoperability with other libraries.

See also: innerIndexPtr(), outerIndexPtr()

The documentation for this class was generated from the following files:

third-party-libs/eigen3/Eigen/src/SparseCore/SparseMatrix.h
third-party-libs/eigen3/Eigen/src/SparseCore/SparseRedux.h

Classes

Public Types

Public Member Functions

Protected Types

Protected Member Functions

Protected Attributes

Friends

Additional Inherited Members

Detailed Description

template<typename _Scalar, int _Options, typename _Index> class Eigen::SparseMatrix< _Scalar, _Options, _Index >

Member Function Documentation

§ coeff()

§ coeffRef()

§ cols()

§ conservativeResize()

§ diagonal() [1/2]

§ diagonal() [2/2]

§ innerIndexPtr() [1/2]

§ innerIndexPtr() [2/2]

§ innerNonZeroPtr() [1/2]

§ innerNonZeroPtr() [2/2]

§ innerSize()

§ insert()

§ outerIndexPtr() [1/2]

§ outerIndexPtr() [2/2]

§ outerSize()

§ prune()

§ reserve()

§ resize()

§ rows()

§ setFromTriplets() [1/2]

§ setFromTriplets() [2/2]

§ setIdentity()

§ setZero()

§ swap()

§ valuePtr() [1/2]

§ valuePtr() [2/2]

template<typename _Scalar, int _Options, typename _Index>
class Eigen::SparseMatrix< _Scalar, _Options, _Index >