Eigen::DenseBase< Derived > Class Template Reference

Base class for all dense matrices, vectors, and arrays. More...

#include </home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/DenseBase.h>

Inheritance diagram for Eigen::DenseBase< Derived >:

Public Types
enum	{   RowsAtCompileTime = internal::traits<Derived>::RowsAtCompileTime , ColsAtCompileTime = internal::traits<Derived>::ColsAtCompileTime , SizeAtCompileTime , MaxRowsAtCompileTime = internal::traits<Derived>::MaxRowsAtCompileTime ,   MaxColsAtCompileTime = internal::traits<Derived>::MaxColsAtCompileTime , MaxSizeAtCompileTime , IsVectorAtCompileTime , NumDimensions = int(MaxSizeAtCompileTime) == 1 ? 0 : bool(IsVectorAtCompileTime) ? 1 : 2 ,   Flags = internal::traits<Derived>::Flags , IsRowMajor = int(Flags) & RowMajorBit , InnerSizeAtCompileTime , InnerStrideAtCompileTime = internal::inner_stride_at_compile_time<Derived>::ret ,   OuterStrideAtCompileTime = internal::outer_stride_at_compile_time<Derived>::ret }
enum	{ IsPlainObjectBase = 0 }
typedef Eigen::InnerIterator< Derived >	InnerIterator
	Inner iterator type to iterate over the coefficients of a row or column. More...
typedef internal::traits< Derived >::StorageKind	StorageKind
typedef internal::traits< Derived >::StorageIndex	StorageIndex
	The type used to store indices. More...
typedef internal::traits< Derived >::Scalar	Scalar
	The numeric type of the expression' coefficients, e.g. More...
typedef Scalar	value_type
	The numeric type of the expression' coefficients, e.g. More...
typedef NumTraits< Scalar >::Real	RealScalar
typedef DenseCoeffsBase< Derived, internal::accessors_level< Derived >::value >	Base
typedef Base::CoeffReturnType	CoeffReturnType
typedef internal::find_best_packet< Scalar, SizeAtCompileTime >::type	PacketScalar
typedef Matrix< typename internal::traits< Derived >::Scalar, internal::traits< Derived >::RowsAtCompileTime, internal::traits< Derived >::ColsAtCompileTime, AutoAlign|(internal::traits< Derived >::Flags &RowMajorBit ? RowMajor :ColMajor), internal::traits< Derived >::MaxRowsAtCompileTime, internal::traits< Derived >::MaxColsAtCompileTime >	PlainMatrix
	The plain matrix type corresponding to this expression. More...
typedef Array< typename internal::traits< Derived >::Scalar, internal::traits< Derived >::RowsAtCompileTime, internal::traits< Derived >::ColsAtCompileTime, AutoAlign|(internal::traits< Derived >::Flags &RowMajorBit ? RowMajor :ColMajor), internal::traits< Derived >::MaxRowsAtCompileTime, internal::traits< Derived >::MaxColsAtCompileTime >	PlainArray
	The plain array type corresponding to this expression. More...
typedef internal::conditional< internal::is_same< typenameinternal::traits< Derived >::XprKind, MatrixXpr >::value, PlainMatrix, PlainArray >::type	PlainObject
	The plain matrix or array type corresponding to this expression. More...
typedef CwiseNullaryOp< internal::scalar_constant_op< Scalar >, PlainObject >	ConstantReturnType
typedef CwiseNullaryOp< internal::linspaced_op< Scalar >, PlainObject >	RandomAccessLinSpacedReturnType
typedef Matrix< typename NumTraits< typename internal::traits< Derived >::Scalar >::Real, internal::traits< Derived >::ColsAtCompileTime, 1 >	EigenvaluesReturnType
typedef Transpose< Derived >	TransposeReturnType
typedef internal::add_const< Transpose< constDerived > >::type	ConstTransposeReturnType
typedef internal::add_const_on_value_type< typenameinternal::eval< Derived >::type >::type	EvalReturnType
typedef VectorwiseOp< Derived, Horizontal >	RowwiseReturnType
typedef const VectorwiseOp< const Derived, Horizontal >	ConstRowwiseReturnType
typedef VectorwiseOp< Derived, Vertical >	ColwiseReturnType
typedef const VectorwiseOp< const Derived, Vertical >	ConstColwiseReturnType
typedef CwiseNullaryOp< internal::scalar_random_op< Scalar >, PlainObject >	RandomReturnType
typedef Reverse< Derived, BothDirections >	ReverseReturnType
typedef const Reverse< const Derived, BothDirections >	ConstReverseReturnType
typedef internal::conditional<(Flags &DirectAccessBit)==DirectAccessBit, internal::pointer_based_stl_iterator< Derived >, internal::generic_randaccess_stl_iterator< Derived > >::type	iterator_type
typedef internal::conditional<(Flags &DirectAccessBit)==DirectAccessBit, internal::pointer_based_stl_iterator< constDerived >, internal::generic_randaccess_stl_iterator< constDerived > >::type	const_iterator_type
typedef internal::conditional< IsVectorAtCompileTime, iterator_type, void >::type	iterator
typedef internal::conditional< IsVectorAtCompileTime, const_iterator_type, void >::type	const_iterator

Public Member Functions
EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR Index	nonZeros () const
EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR Index	outerSize () const
EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR Index	innerSize () const
EIGEN_DEVICE_FUNC void	resize (Index newSize)
	Only plain matrices/arrays, not expressions, may be resized; therefore the only useful resize methods are Matrix::resize() and Array::resize(). More...
EIGEN_DEVICE_FUNC void	resize (Index rows, Index cols)
	Only plain matrices/arrays, not expressions, may be resized; therefore the only useful resize methods are Matrix::resize() and Array::resize(). More...
template<typename OtherDerived >
EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE Derived &	operator= (const DenseBase< OtherDerived > &other)
	Copies other into *this. More...
EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE Derived &	operator= (const DenseBase &other)
	Special case of the template operator=, in order to prevent the compiler from generating a default operator= (issue hit with g++ 4.1) More...
template<typename OtherDerived >
EIGEN_DEVICE_FUNC Derived &	operator= (const EigenBase< OtherDerived > &other)
	Copies the generic expression other into *this. More...
template<typename OtherDerived >
EIGEN_DEVICE_FUNC Derived &	operator+= (const EigenBase< OtherDerived > &other)
template<typename OtherDerived >
EIGEN_DEVICE_FUNC Derived &	operator-= (const EigenBase< OtherDerived > &other)
template<typename OtherDerived >
EIGEN_DEVICE_FUNC Derived &	operator= (const ReturnByValue< OtherDerived > &func)
template<typename OtherDerived >
EIGEN_DEPRECATED EIGEN_DEVICE_FUNC Derived &	lazyAssign (const DenseBase< OtherDerived > &other)
EIGEN_DEVICE_FUNC CommaInitializer< Derived >	operator<< (const Scalar &s)
	Convenient operator to set the coefficients of a matrix. More...
template<unsigned int Added, unsigned int Removed>
EIGEN_DEPRECATED const Derived &	flagged () const
template<typename OtherDerived >
EIGEN_DEVICE_FUNC CommaInitializer< Derived >	operator<< (const DenseBase< OtherDerived > &other)
EIGEN_DEVICE_FUNC TransposeReturnType	transpose ()
EIGEN_DEVICE_FUNC ConstTransposeReturnType	transpose () const
	This is the const version of transpose(). More...
EIGEN_DEVICE_FUNC void	transposeInPlace ()
	This is the "in place" version of transpose(): it replaces *this by its own transpose. More...
EIGEN_DEVICE_FUNC void	fill (const Scalar &value)
	Alias for setConstant(): sets all coefficients in this expression to val. More...
EIGEN_DEVICE_FUNC Derived &	setConstant (const Scalar &value)
	Sets all coefficients in this expression to value val. More...
EIGEN_DEVICE_FUNC Derived &	setLinSpaced (Index size, const Scalar &low, const Scalar &high)
	Sets a linearly spaced vector. More...
EIGEN_DEVICE_FUNC Derived &	setLinSpaced (const Scalar &low, const Scalar &high)
	Sets a linearly spaced vector. More...
EIGEN_DEVICE_FUNC Derived &	setZero ()
	Sets all coefficients in this expression to zero. More...
EIGEN_DEVICE_FUNC Derived &	setOnes ()
	Sets all coefficients in this expression to one. More...
EIGEN_DEVICE_FUNC Derived &	setRandom ()
	Sets all coefficients in this expression to random values. More...
template<typename OtherDerived >
EIGEN_DEVICE_FUNC bool	isApprox (const DenseBase< OtherDerived > &other, const RealScalar &prec=NumTraits< Scalar >::dummy_precision()) const
EIGEN_DEVICE_FUNC bool	isMuchSmallerThan (const RealScalar &other, const RealScalar &prec=NumTraits< Scalar >::dummy_precision()) const
template<typename OtherDerived >
EIGEN_DEVICE_FUNC bool	isMuchSmallerThan (const DenseBase< OtherDerived > &other, const RealScalar &prec=NumTraits< Scalar >::dummy_precision()) const
EIGEN_DEVICE_FUNC bool	isApproxToConstant (const Scalar &value, const RealScalar &prec=NumTraits< Scalar >::dummy_precision()) const
EIGEN_DEVICE_FUNC bool	isConstant (const Scalar &value, const RealScalar &prec=NumTraits< Scalar >::dummy_precision()) const
	This is just an alias for isApproxToConstant(). More...
EIGEN_DEVICE_FUNC bool	isZero (const RealScalar &prec=NumTraits< Scalar >::dummy_precision()) const
EIGEN_DEVICE_FUNC bool	isOnes (const RealScalar &prec=NumTraits< Scalar >::dummy_precision()) const
bool	hasNaN () const
bool	allFinite () const
EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE Derived &	operator*= (const Scalar &other)
EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE Derived &	operator/= (const Scalar &other)
EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE EvalReturnType	eval () const
template<typename OtherDerived >
EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE void	swap (const DenseBase< OtherDerived > &other)
	swaps *this with the expression other. More...
template<typename OtherDerived >
EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE void	swap (PlainObjectBase< OtherDerived > &other)
	swaps *this with the matrix or array other. More...
EIGEN_DEVICE_FUNC const NestByValue< Derived >	nestByValue () const
EIGEN_DEVICE_FUNC const ForceAlignedAccess< Derived >	forceAlignedAccess () const
EIGEN_DEVICE_FUNC ForceAlignedAccess< Derived >	forceAlignedAccess ()
template<bool Enable>
EIGEN_DEVICE_FUNC const internal::conditional< Enable, ForceAlignedAccess< Derived >, Derived & >::type	forceAlignedAccessIf () const
template<bool Enable>
EIGEN_DEVICE_FUNC internal::conditional< Enable, ForceAlignedAccess< Derived >, Derived & >::type	forceAlignedAccessIf ()
EIGEN_DEVICE_FUNC Scalar	sum () const
EIGEN_DEVICE_FUNC Scalar	mean () const
EIGEN_DEVICE_FUNC Scalar	trace () const
EIGEN_DEVICE_FUNC Scalar	prod () const
template<int NaNPropagation>
EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar	minCoeff () const
template<int NaNPropagation>
EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar	maxCoeff () const
EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar	minCoeff () const
EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar	maxCoeff () const
template<int NaNPropagation, typename IndexType >
EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar	minCoeff (IndexType *row, IndexType *col) const
template<int NaNPropagation, typename IndexType >
EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar	maxCoeff (IndexType *row, IndexType *col) const
template<int NaNPropagation, typename IndexType >
EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar	minCoeff (IndexType *index) const
template<int NaNPropagation, typename IndexType >
EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar	maxCoeff (IndexType *index) const
template<typename IndexType >
EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar	minCoeff (IndexType *row, IndexType *col) const
template<typename IndexType >
EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar	maxCoeff (IndexType *row, IndexType *col) const
template<typename IndexType >
EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar	minCoeff (IndexType *index) const
template<typename IndexType >
EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar	maxCoeff (IndexType *index) const
template<typename BinaryOp >
EIGEN_DEVICE_FUNC Scalar	redux (const BinaryOp &func) const
template<typename Visitor >
EIGEN_DEVICE_FUNC void	visit (Visitor &func) const
	Applies the visitor visitor to the whole coefficients of the matrix or vector. More...
const WithFormat< Derived >	format (const IOFormat &fmt) const
EIGEN_DEVICE_FUNC CoeffReturnType	value () const
EIGEN_DEVICE_FUNC bool	all () const
EIGEN_DEVICE_FUNC bool	any () const
EIGEN_DEVICE_FUNC Index	count () const
EIGEN_DEVICE_FUNC ConstRowwiseReturnType	rowwise () const
EIGEN_DEVICE_FUNC RowwiseReturnType	rowwise ()
EIGEN_DEVICE_FUNC ConstColwiseReturnType	colwise () const
EIGEN_DEVICE_FUNC ColwiseReturnType	colwise ()
template<typename ThenDerived , typename ElseDerived >
EIGEN_DEVICE_FUNC const Select< Derived, ThenDerived, ElseDerived >	select (const DenseBase< ThenDerived > &thenMatrix, const DenseBase< ElseDerived > &elseMatrix) const
template<typename ThenDerived >
EIGEN_DEVICE_FUNC const Select< Derived, ThenDerived, typename ThenDerived::ConstantReturnType >	select (const DenseBase< ThenDerived > &thenMatrix, const typename ThenDerived::Scalar &elseScalar) const
	Version of DenseBase::select(const DenseBase&, const DenseBase&) with the else expression being a scalar value. More...
template<typename ElseDerived >
EIGEN_DEVICE_FUNC const Select< Derived, typename ElseDerived::ConstantReturnType, ElseDerived >	select (const typename ElseDerived::Scalar &thenScalar, const DenseBase< ElseDerived > &elseMatrix) const
	Version of DenseBase::select(const DenseBase&, const DenseBase&) with the then expression being a scalar value. More...
template<int p>
RealScalar	lpNorm () const
template<int RowFactor, int ColFactor>
EIGEN_DEVICE_FUNC const Replicate< Derived, RowFactor, ColFactor >	replicate () const
EIGEN_DEVICE_FUNC const Replicate< Derived, Dynamic, Dynamic >	replicate (Index rowFactor, Index colFactor) const
EIGEN_DEVICE_FUNC ReverseReturnType	reverse ()
EIGEN_DEVICE_FUNC ConstReverseReturnType	reverse () const
	This is the const version of reverse(). More...
EIGEN_DEVICE_FUNC void	reverseInPlace ()
	This is the "in place" version of reverse: it reverses *this. More...
iterator	begin ()
	returns an iterator to the first element of the 1D vector or array \only_for_vectors More...
const_iterator	begin () const
	const version of begin() More...
const_iterator	cbegin () const
	returns a read-only const_iterator to the first element of the 1D vector or array \only_for_vectors More...
iterator	end ()
	returns an iterator to the element following the last element of the 1D vector or array \only_for_vectors More...
const_iterator	end () const
	const version of end() More...
const_iterator	cend () const
	returns a read-only const_iterator to the element following the last element of the 1D vector or array \only_for_vectors More...
template<typename Dest >
EIGEN_DEVICE_FUNC void	evalTo (Dest &) const
template<typename CustomNullaryOp >
EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const CwiseNullaryOp< CustomNullaryOp, typename DenseBase< Derived >::PlainObject >	NullaryExpr (Index rows, Index cols, const CustomNullaryOp &func)
template<typename CustomNullaryOp >
EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const CwiseNullaryOp< CustomNullaryOp, typename DenseBase< Derived >::PlainObject >	NullaryExpr (Index size, const CustomNullaryOp &func)
template<typename CustomNullaryOp >
EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const CwiseNullaryOp< CustomNullaryOp, typename DenseBase< Derived >::PlainObject >	NullaryExpr (const CustomNullaryOp &func)
template<typename OtherDerived >
EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE Derived &	lazyAssign (const DenseBase< OtherDerived > &other)
template<typename Func >
EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE internal::traits< Derived >::Scalar	redux (const Func &func) const
template<typename Derived >
EIGEN_DEVICE_FUNC bool	isMuchSmallerThan (const typename NumTraits< Scalar >::Real &other, const RealScalar &prec) const

Static Public Member Functions
static EIGEN_DEVICE_FUNC const ConstantReturnType	Constant (Index rows, Index cols, const Scalar &value)
static EIGEN_DEVICE_FUNC const ConstantReturnType	Constant (Index size, const Scalar &value)
static EIGEN_DEVICE_FUNC const ConstantReturnType	Constant (const Scalar &value)
EIGEN_DEPRECATED static EIGEN_DEVICE_FUNC const RandomAccessLinSpacedReturnType	LinSpaced (Sequential_t, Index size, const Scalar &low, const Scalar &high)
EIGEN_DEPRECATED static EIGEN_DEVICE_FUNC const RandomAccessLinSpacedReturnType	LinSpaced (Sequential_t, const Scalar &low, const Scalar &high)
static EIGEN_DEVICE_FUNC const RandomAccessLinSpacedReturnType	LinSpaced (Index size, const Scalar &low, const Scalar &high)
	Sets a linearly spaced vector. More...
static EIGEN_DEVICE_FUNC const RandomAccessLinSpacedReturnType	LinSpaced (const Scalar &low, const Scalar &high)
	Sets a linearly spaced vector. More...
template<typename CustomNullaryOp >
static EIGEN_DEVICE_FUNC const CwiseNullaryOp< CustomNullaryOp, PlainObject >	NullaryExpr (Index rows, Index cols, const CustomNullaryOp &func)
template<typename CustomNullaryOp >
static EIGEN_DEVICE_FUNC const CwiseNullaryOp< CustomNullaryOp, PlainObject >	NullaryExpr (Index size, const CustomNullaryOp &func)
template<typename CustomNullaryOp >
static EIGEN_DEVICE_FUNC const CwiseNullaryOp< CustomNullaryOp, PlainObject >	NullaryExpr (const CustomNullaryOp &func)
static EIGEN_DEVICE_FUNC const ConstantReturnType	Zero (Index rows, Index cols)
static EIGEN_DEVICE_FUNC const ConstantReturnType	Zero (Index size)
static EIGEN_DEVICE_FUNC const ConstantReturnType	Zero ()
static EIGEN_DEVICE_FUNC const ConstantReturnType	Ones (Index rows, Index cols)
static EIGEN_DEVICE_FUNC const ConstantReturnType	Ones (Index size)
static EIGEN_DEVICE_FUNC const ConstantReturnType	Ones ()
static const RandomReturnType	Random (Index rows, Index cols)
static const RandomReturnType	Random (Index size)
static const RandomReturnType	Random ()

Public Attributes
EIGEN_DEPRECATED typedef CwiseNullaryOp< internal::linspaced_op< Scalar >, PlainObject >	SequentialLinSpacedReturnType

Protected Member Functions
EIGEN_DEVICE_FUNC	DenseBase ()
	Default constructor. More...

Related Functions
(Note that these are not member functions.)
template<typename Derived >
std::ostream &	operator<< (std::ostream &s, const DenseBase< Derived > &m)
	Outputs the matrix, to the given stream. More...

Detailed Description

template<typename Derived>
class Eigen::DenseBase< Derived >

Base class for all dense matrices, vectors, and arrays.

This class is the base that is inherited by all dense objects (matrix, vector, arrays, and related expression types). The common Eigen API for dense objects is contained in this class.

Template Parameters

Derived

is the derived type, e.g., a matrix type or an expression.

This class can be extended with the help of the plugin mechanism described on the page TopicCustomizing_Plugins by defining the preprocessor symbol EIGEN_DENSEBASE_PLUGIN.

See also

\blank TopicClassHierarchy

Member Typedef Documentation

Base

template<typename Derived >

typedef DenseCoeffsBase<Derived, internal::accessors_level<Derived>::value> Eigen::DenseBase< Derived >::Base

CoeffReturnType

template<typename Derived >

typedef Base::CoeffReturnType Eigen::DenseBase< Derived >::CoeffReturnType

ColwiseReturnType

template<typename Derived >

typedef VectorwiseOp<Derived, Vertical> Eigen::DenseBase< Derived >::ColwiseReturnType

const_iterator

template<typename Derived >

typedef internal::conditional<IsVectorAtCompileTime,const_iterator_type,void>::type Eigen::DenseBase< Derived >::const_iterator

const_iterator_type

template<typename Derived >

typedef internal::conditional<(Flags&DirectAccessBit)==DirectAccessBit,internal::pointer_based_stl_iterator<constDerived>,internal::generic_randaccess_stl_iterator<constDerived>>::type Eigen::DenseBase< Derived >::const_iterator_type

ConstantReturnType

template<typename Derived >

typedef CwiseNullaryOp<internal::scalar_constant_op<Scalar>,PlainObject> Eigen::DenseBase< Derived >::ConstantReturnType

ConstColwiseReturnType

template<typename Derived >

typedef const VectorwiseOp<const Derived, Vertical> Eigen::DenseBase< Derived >::ConstColwiseReturnType

ConstReverseReturnType

template<typename Derived >

typedef const Reverse<const Derived, BothDirections> Eigen::DenseBase< Derived >::ConstReverseReturnType

ConstRowwiseReturnType

template<typename Derived >

typedef const VectorwiseOp<const Derived, Horizontal> Eigen::DenseBase< Derived >::ConstRowwiseReturnType

ConstTransposeReturnType

template<typename Derived >

typedef internal::add_const<Transpose<constDerived>>::type Eigen::DenseBase< Derived >::ConstTransposeReturnType

EigenvaluesReturnType

template<typename Derived >

typedef Matrix<typename NumTraits<typename internal::traits<Derived>::Scalar>::Real, internal::traits<Derived>::ColsAtCompileTime, 1> Eigen::DenseBase< Derived >::EigenvaluesReturnType

EvalReturnType

template<typename Derived >

typedef internal::add_const_on_value_type<typenameinternal::eval<Derived>::type>::type Eigen::DenseBase< Derived >::EvalReturnType

InnerIterator

template<typename Derived >

typedef Eigen::InnerIterator<Derived> Eigen::DenseBase< Derived >::InnerIterator

Inner iterator type to iterate over the coefficients of a row or column.

See also

class InnerIterator

iterator

template<typename Derived >

typedef internal::conditional<IsVectorAtCompileTime,iterator_type,void>::type Eigen::DenseBase< Derived >::iterator

iterator_type

template<typename Derived >

typedef internal::conditional<(Flags&DirectAccessBit)==DirectAccessBit,internal::pointer_based_stl_iterator<Derived>,internal::generic_randaccess_stl_iterator<Derived>>::type Eigen::DenseBase< Derived >::iterator_type

PacketScalar

template<typename Derived >

typedef internal::find_best_packet<Scalar,SizeAtCompileTime>::type Eigen::DenseBase< Derived >::PacketScalar

PlainArray

template<typename Derived >

typedef Array<typename internal::traits<Derived>::Scalar, internal::traits<Derived>::RowsAtCompileTime, internal::traits<Derived>::ColsAtCompileTime, AutoAlign | (internal::traits<Derived>::Flags&RowMajorBit ? RowMajor : ColMajor), internal::traits<Derived>::MaxRowsAtCompileTime, internal::traits<Derived>::MaxColsAtCompileTime > Eigen::DenseBase< Derived >::PlainArray

The plain array type corresponding to this expression.

See also

PlainObject

PlainMatrix

template<typename Derived >

typedef Matrix<typename internal::traits<Derived>::Scalar, internal::traits<Derived>::RowsAtCompileTime, internal::traits<Derived>::ColsAtCompileTime, AutoAlign | (internal::traits<Derived>::Flags&RowMajorBit ? RowMajor : ColMajor), internal::traits<Derived>::MaxRowsAtCompileTime, internal::traits<Derived>::MaxColsAtCompileTime > Eigen::DenseBase< Derived >::PlainMatrix

The plain matrix type corresponding to this expression.

See also

PlainObject

PlainObject

template<typename Derived >

typedef internal::conditional<internal::is_same<typenameinternal::traits<Derived>::XprKind,MatrixXpr>::value,PlainMatrix,PlainArray>::type Eigen::DenseBase< Derived >::PlainObject

The plain matrix or array type corresponding to this expression.

This is not necessarily exactly the return type of eval(). In the case of plain matrices, the return type of eval() is a const reference to a matrix, not a matrix! It is however guaranteed that the return type of eval() is either PlainObject or const PlainObject&.

RandomAccessLinSpacedReturnType

template<typename Derived >

typedef CwiseNullaryOp<internal::linspaced_op<Scalar>,PlainObject> Eigen::DenseBase< Derived >::RandomAccessLinSpacedReturnType

RandomReturnType

template<typename Derived >

typedef CwiseNullaryOp<internal::scalar_random_op<Scalar>,PlainObject> Eigen::DenseBase< Derived >::RandomReturnType

RealScalar

template<typename Derived >

typedef NumTraits<Scalar>::Real Eigen::DenseBase< Derived >::RealScalar

ReverseReturnType

template<typename Derived >

typedef Reverse<Derived, BothDirections> Eigen::DenseBase< Derived >::ReverseReturnType

RowwiseReturnType

template<typename Derived >

typedef VectorwiseOp<Derived, Horizontal> Eigen::DenseBase< Derived >::RowwiseReturnType

Scalar

template<typename Derived >

typedef internal::traits<Derived>::Scalar Eigen::DenseBase< Derived >::Scalar

The numeric type of the expression' coefficients, e.g.

float, double, int or std::complex<float>, etc.

StorageIndex

template<typename Derived >

typedef internal::traits<Derived>::StorageIndex Eigen::DenseBase< Derived >::StorageIndex

The type used to store indices.

This typedef is relevant for types that store multiple indices such as PermutationMatrix or Transpositions, otherwise it defaults to Eigen::Index

See also

\blank TopicPreprocessorDirectives, Eigen::Index, SparseMatrixBase.

StorageKind

template<typename Derived >

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

TransposeReturnType

template<typename Derived >

typedef Transpose<Derived> Eigen::DenseBase< Derived >::TransposeReturnType

value_type

template<typename Derived >

typedef Scalar Eigen::DenseBase< Derived >::value_type

The numeric type of the expression' coefficients, e.g.

float, double, int or std::complex<float>, etc.

It is an alias for the Scalar type

Member Enumeration Documentation

anonymous enum

template<typename Derived >

anonymous enum

Enumerator
RowsAtCompileTime	The number of rows at compile-time. This is just a copy of the value provided by the Derived type. If a value is not known at compile-time, it is set to the Dynamic constant. See also MatrixBase::rows(), MatrixBase::cols(), ColsAtCompileTime, SizeAtCompileTime
ColsAtCompileTime	The number of columns at compile-time. This is just a copy of the value provided by the Derived type. If a value is not known at compile-time, it is set to the Dynamic constant. See also MatrixBase::rows(), MatrixBase::cols(), RowsAtCompileTime, SizeAtCompileTime
SizeAtCompileTime	This is equal to the number of coefficients, i.e. the number of rows times the number of columns, or to Dynamic if this is not known at compile-time. See also RowsAtCompileTime, ColsAtCompileTime
MaxRowsAtCompileTime	This value is equal to the maximum possible number of rows that this expression might have. If this expression might have an arbitrarily high number of rows, this value is set to Dynamic. This value is useful to know when evaluating an expression, in order to determine whether it is possible to avoid doing a dynamic memory allocation. See also RowsAtCompileTime, MaxColsAtCompileTime, MaxSizeAtCompileTime
MaxColsAtCompileTime	This value is equal to the maximum possible number of columns that this expression might have. If this expression might have an arbitrarily high number of columns, this value is set to Dynamic. This value is useful to know when evaluating an expression, in order to determine whether it is possible to avoid doing a dynamic memory allocation. See also ColsAtCompileTime, MaxRowsAtCompileTime, MaxSizeAtCompileTime
MaxSizeAtCompileTime	This value is equal to the maximum possible number of coefficients that this expression might have. If this expression might have an arbitrarily high number of coefficients, this value is set to Dynamic. This value is useful to know when evaluating an expression, in order to determine whether it is possible to avoid doing a dynamic memory allocation. See also SizeAtCompileTime, MaxRowsAtCompileTime, MaxColsAtCompileTime
IsVectorAtCompileTime	This is set to true if either the number of rows or the number of columns is known at compile-time to be equal to 1. Indeed, in that case, we are dealing with a column-vector (if there is only one column) or with a row-vector (if there is only one row).
NumDimensions	This value is equal to Tensor::NumDimensions, i.e. 0 for scalars, 1 for vectors, and 2 for matrices.
Flags	This stores expression Flags flags which may or may not be inherited by new expressions constructed from this one. See the list of flags.
IsRowMajor	True if this expression has row-major storage order.
InnerSizeAtCompileTime
InnerStrideAtCompileTime
OuterStrideAtCompileTime

anonymous enum

template<typename Derived >

anonymous enum

Enumerator
IsPlainObjectBase

Constructor & Destructor Documentation

DenseBase()

template<typename Derived >

EIGEN_DEVICE_FUNC Eigen::DenseBase< Derived >::DenseBase ( )

inlineprotected

Default constructor.

Do nothing.

Member Function Documentation

all()

template<typename Derived >

EIGEN_DEVICE_FUNC bool Eigen::DenseBase< Derived >::all

inline

Returns

true if all coefficients are true

Example:

Output:

See also

any(), Cwise::operator<()

allFinite()

template<typename Derived >

bool Eigen::DenseBase< Derived >::allFinite

inline

Returns

true if *this contains only finite numbers, i.e., no NaN and no +/-INF values.

See also

hasNaN()

any()

template<typename Derived >

EIGEN_DEVICE_FUNC bool Eigen::DenseBase< Derived >::any

inline

Returns

true if at least one coefficient is true

See also

all()

begin() [1/2]

template<typename Derived >

DenseBase< Derived >::iterator Eigen::DenseBase< Derived >::begin

inline

returns an iterator to the first element of the 1D vector or array \only_for_vectors

See also

end(), cbegin()

begin() [2/2]

template<typename Derived >

DenseBase< Derived >::const_iterator Eigen::DenseBase< Derived >::begin

inline

const version of begin()

cbegin()

template<typename Derived >

DenseBase< Derived >::const_iterator Eigen::DenseBase< Derived >::cbegin

inline

returns a read-only const_iterator to the first element of the 1D vector or array \only_for_vectors

See also

cend(), begin()

cend()

template<typename Derived >

DenseBase< Derived >::const_iterator Eigen::DenseBase< Derived >::cend

inline

returns a read-only const_iterator to the element following the last element of the 1D vector or array \only_for_vectors

See also

begin(), cend()

colwise() [1/2]

template<typename Derived >

EIGEN_DEVICE_FUNC DenseBase< Derived >::ColwiseReturnType Eigen::DenseBase< Derived >::colwise

inline

Returns

a writable VectorwiseOp wrapper of *this providing additional partial reduction operations

See also

rowwise(), class VectorwiseOp, TutorialReductionsVisitorsBroadcasting

colwise() [2/2]

template<typename Derived >

EIGEN_DEVICE_FUNC ConstColwiseReturnType Eigen::DenseBase< Derived >::colwise ( ) const

inline

Returns

a VectorwiseOp wrapper of *this broadcasting and partial reductions

Example:

Output:

See also

rowwise(), class VectorwiseOp, TutorialReductionsVisitorsBroadcasting

Constant() [1/3]

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const DenseBase< Derived >::ConstantReturnType Eigen::DenseBase< Derived >::Constant ( const Scalar &  value )

static

Returns

an expression of a constant matrix of value value

This variant is only for fixed-size DenseBase types. For dynamic-size types, you need to use the variants taking size arguments.

The template parameter CustomNullaryOp is the type of the functor.

See also

class CwiseNullaryOp

Constant() [2/3]

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const DenseBase< Derived >::ConstantReturnType Eigen::DenseBase< Derived >::Constant ( Index  rows, Index  cols, const Scalar &  value  )

static

Returns

an expression of a constant matrix of value value

The parameters rows and cols are the number of rows and of columns of the returned matrix. Must be compatible with this DenseBase type.

This variant is meant to be used for dynamic-size matrix types. For fixed-size types, it is redundant to pass rows and cols as arguments, so Zero() should be used instead.

The template parameter CustomNullaryOp is the type of the functor.

See also

class CwiseNullaryOp

Constant() [3/3]

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const DenseBase< Derived >::ConstantReturnType Eigen::DenseBase< Derived >::Constant ( Index  size, const Scalar &  value  )

static

Returns

an expression of a constant matrix of value value

The parameter size is the size of the returned vector. Must be compatible with this DenseBase type.

\only_for_vectors

This variant is meant to be used for dynamic-size vector types. For fixed-size types, it is redundant to pass size as argument, so Zero() should be used instead.

The template parameter CustomNullaryOp is the type of the functor.

See also

class CwiseNullaryOp

count()

template<typename Derived >

EIGEN_DEVICE_FUNC Eigen::Index Eigen::DenseBase< Derived >::count

inline

Returns

the number of coefficients which evaluate to true

See also

all(), any()

end() [1/2]

template<typename Derived >

DenseBase< Derived >::iterator Eigen::DenseBase< Derived >::end

inline

returns an iterator to the element following the last element of the 1D vector or array \only_for_vectors

See also

begin(), cend()

end() [2/2]

template<typename Derived >

DenseBase< Derived >::const_iterator Eigen::DenseBase< Derived >::end

inline

const version of end()

eval()

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE EvalReturnType Eigen::DenseBase< Derived >::eval ( ) const

inline

Returns

the matrix or vector obtained by evaluating this expression.

Notice that in the case of a plain matrix or vector (not an expression) this function just returns a const reference, in order to avoid a useless copy.

Warning

Be careful with eval() and the auto C++ keyword, as detailed in this page .

evalTo()

template<typename Derived >

template<typename Dest >

EIGEN_DEVICE_FUNC void Eigen::DenseBase< Derived >::evalTo ( Dest &  ) const

inline

fill()

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE void Eigen::DenseBase< Derived >::fill

(

const Scalar &

val

)

Alias for setConstant(): sets all coefficients in this expression to val.

See also

setConstant(), Constant(), class CwiseNullaryOp

flagged()

template<typename Derived >

template<unsigned int Added, unsigned int Removed>

EIGEN_DEPRECATED const Derived & Eigen::DenseBase< Derived >::flagged ( ) const

inline

Deprecated:

it now returns *this

forceAlignedAccess() [1/2]

template<typename Derived >

EIGEN_DEVICE_FUNC ForceAlignedAccess< Derived > Eigen::DenseBase< Derived >::forceAlignedAccess ( )

inline

forceAlignedAccess() [2/2]

template<typename Derived >

EIGEN_DEVICE_FUNC const ForceAlignedAccess< Derived > Eigen::DenseBase< Derived >::forceAlignedAccess ( ) const

inline

forceAlignedAccessIf() [1/2]

template<typename Derived >

template<bool Enable>

EIGEN_DEVICE_FUNC internal::conditional< Enable, ForceAlignedAccess< Derived >, Derived & >::type Eigen::DenseBase< Derived >::forceAlignedAccessIf ( )

inline

forceAlignedAccessIf() [2/2]

template<typename Derived >

template<bool Enable>

EIGEN_DEVICE_FUNC const internal::conditional< Enable, ForceAlignedAccess< Derived >, Derived & >::type Eigen::DenseBase< Derived >::forceAlignedAccessIf ( ) const

inline

format()

template<typename Derived >

const WithFormat< Derived > Eigen::DenseBase< Derived >::format ( const IOFormat &  fmt ) const

inline

Returns

a WithFormat proxy object allowing to print a matrix the with given format fmt.

See class IOFormat for some examples.

See also

class IOFormat, class WithFormat

hasNaN()

template<typename Derived >

bool Eigen::DenseBase< Derived >::hasNaN

inline

Returns

true is *this contains at least one Not A Number (NaN).

See also

allFinite()

innerSize()

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR Index Eigen::DenseBase< Derived >::innerSize ( ) const

inline

Returns

the inner size.

Note

For a vector, this is just the size. For a matrix (non-vector), this is the minor dimension with respect to the storage order, i.e., the number of rows for a column-major matrix, and the number of columns for a row-major matrix.

isApprox()

template<typename Derived >

template<typename OtherDerived >

EIGEN_DEVICE_FUNC bool Eigen::DenseBase< Derived >::isApprox	(	const DenseBase< OtherDerived > &	other,
		const RealScalar &	prec = NumTraits<Scalar>::dummy_precision()
	)		const

Returns

true if *this is approximately equal to other, within the precision determined by prec.

Note

The fuzzy compares are done multiplicatively. Two vectors \( v \) and \( w \) are considered to be approximately equal within precision \( p \) if

\[ \Vert v - w \Vert \leqslant p\,\min(\Vert v\Vert, \Vert w\Vert). \]

For matrices, the comparison is done using the Hilbert-Schmidt norm (aka Frobenius norm L2 norm).

Because of the multiplicativeness of this comparison, one can't use this function to check whether *this is approximately equal to the zero matrix or vector. Indeed, isApprox(zero) returns false unless *this itself is exactly the zero matrix or vector. If you want to test whether *this is zero, use internal::isMuchSmallerThan(const RealScalar&, RealScalar) instead.

See also

internal::isMuchSmallerThan(const RealScalar&, RealScalar) const

isApproxToConstant()

template<typename Derived >

EIGEN_DEVICE_FUNC bool Eigen::DenseBase< Derived >::isApproxToConstant	(	const Scalar &	val,
		const RealScalar &	prec = NumTraits<Scalar>::dummy_precision()
	)		const

Returns

true if all coefficients in this matrix are approximately equal to val, to within precision prec

isConstant()

template<typename Derived >

EIGEN_DEVICE_FUNC bool Eigen::DenseBase< Derived >::isConstant	(	const Scalar &	val,
		const RealScalar &	prec = NumTraits<Scalar>::dummy_precision()
	)		const

This is just an alias for isApproxToConstant().

Returns

true if all coefficients in this matrix are approximately equal to value, to within precision prec

isMuchSmallerThan() [1/3]

template<typename Derived >

template<typename OtherDerived >

EIGEN_DEVICE_FUNC bool Eigen::DenseBase< Derived >::isMuchSmallerThan	(	const DenseBase< OtherDerived > &	other,
		const RealScalar &	prec = NumTraits<Scalar>::dummy_precision()
	)		const

Returns

true if the norm of *this is much smaller than the norm of other, within the precision determined by prec.

Note

The fuzzy compares are done multiplicatively. A vector \( v \) is considered to be much smaller than a vector \( w \) within precision \( p \) if

\[ \Vert v \Vert \leqslant p\,\Vert w\Vert. \]

For matrices, the comparison is done using the Hilbert-Schmidt norm.

See also

isApprox(), isMuchSmallerThan(const RealScalar&, RealScalar) const

isMuchSmallerThan() [2/3]

template<typename Derived >

EIGEN_DEVICE_FUNC bool Eigen::DenseBase< Derived >::isMuchSmallerThan	(	const RealScalar &	other,
		const RealScalar &	prec = NumTraits< Scalar >::dummy_precision()
	)		const

isMuchSmallerThan() [3/3]

template<typename Derived >

template<typename Derived >

EIGEN_DEVICE_FUNC bool Eigen::DenseBase< Derived >::isMuchSmallerThan	(	const typename NumTraits< Scalar >::Real &	other,
		const RealScalar &	prec
	)		const

Returns

true if the norm of *this is much smaller than other, within the precision determined by prec.

Note

The fuzzy compares are done multiplicatively. A vector \( v \) is considered to be much smaller than \( x \) within precision \( p \) if

\[ \Vert v \Vert \leqslant p\,\vert x\vert. \]

For matrices, the comparison is done using the Hilbert-Schmidt norm. For this reason, the value of the reference scalar other should come from the Hilbert-Schmidt norm of a reference matrix of same dimensions.

See also

isApprox(), isMuchSmallerThan(const DenseBase<OtherDerived>&, RealScalar) const

isOnes()

template<typename Derived >

EIGEN_DEVICE_FUNC bool Eigen::DenseBase< Derived >::isOnes

(

const RealScalar &

prec = NumTraits<Scalar>::dummy_precision()

)

const

Returns

true if *this is approximately equal to the matrix where all coefficients are equal to 1, within the precision given by prec.

Example:

Output:

See also

class CwiseNullaryOp, Ones()

isZero()

template<typename Derived >

EIGEN_DEVICE_FUNC bool Eigen::DenseBase< Derived >::isZero

(

const RealScalar &

prec = NumTraits<Scalar>::dummy_precision()

)

const

Returns

true if *this is approximately equal to the zero matrix, within the precision given by prec.

Example:

Output:

See also

class CwiseNullaryOp, Zero()

lazyAssign() [1/2]

template<typename Derived >

template<typename OtherDerived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE Derived & Eigen::DenseBase< Derived >::lazyAssign

(

const DenseBase< OtherDerived > &

other

)

lazyAssign() [2/2]

template<typename Derived >

template<typename OtherDerived >

EIGEN_DEPRECATED EIGEN_DEVICE_FUNC Derived & Eigen::DenseBase< Derived >::lazyAssign

(

const DenseBase< OtherDerived > &

other

)

Deprecated:

LinSpaced() [1/4]

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const DenseBase< Derived >::RandomAccessLinSpacedReturnType Eigen::DenseBase< Derived >::LinSpaced ( const Scalar &  low, const Scalar &  high  )

static

Sets a linearly spaced vector.

The function generates 'size' equally spaced values in the closed interval [low,high]. When size is set to 1, a vector of length 1 containing 'high' is returned.

\only_for_vectors

Example:

Output:

For integer scalar types, an even spacing is possible if and only if the length of the range, i.e., high-low is a scalar multiple of size-1, or if size is a scalar multiple of the number of values high-low+1 (meaning each value can be repeated the same number of time). If one of these two considions is not satisfied, then high is lowered to the largest value satisfying one of this constraint. Here are some examples:

Example:

Output:

See also

setLinSpaced(Index,const Scalar&,const Scalar&), CwiseNullaryOp Special version for fixed size types which does not require the size parameter.

LinSpaced() [2/4]

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const DenseBase< Derived >::RandomAccessLinSpacedReturnType Eigen::DenseBase< Derived >::LinSpaced ( Index  size, const Scalar &  low, const Scalar &  high  )

static

Sets a linearly spaced vector.

The function generates 'size' equally spaced values in the closed interval [low,high]. When size is set to 1, a vector of length 1 containing 'high' is returned.

\only_for_vectors

Example:

Output:

For integer scalar types, an even spacing is possible if and only if the length of the range, i.e., high-low is a scalar multiple of size-1, or if size is a scalar multiple of the number of values high-low+1 (meaning each value can be repeated the same number of time). If one of these two considions is not satisfied, then high is lowered to the largest value satisfying one of this constraint. Here are some examples:

Example:

Output:

See also

setLinSpaced(Index,const Scalar&,const Scalar&), CwiseNullaryOp

LinSpaced() [3/4]

template<typename Derived >

EIGEN_DEPRECATED EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const DenseBase< Derived >::RandomAccessLinSpacedReturnType Eigen::DenseBase< Derived >::LinSpaced ( Sequential_t  , const Scalar &  low, const Scalar &  high  )

static

Deprecated:

because of accuracy loss. In Eigen 3.3, it is an alias for LinSpaced(const Scalar&,const Scalar&)

See also

LinSpaced(const Scalar&, const Scalar&)

LinSpaced() [4/4]

template<typename Derived >

EIGEN_DEPRECATED EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const DenseBase< Derived >::RandomAccessLinSpacedReturnType Eigen::DenseBase< Derived >::LinSpaced ( Sequential_t  , Index  size, const Scalar &  low, const Scalar &  high  )

static

Deprecated:

because of accuracy loss. In Eigen 3.3, it is an alias for LinSpaced(Index,const Scalar&,const Scalar&)

\only_for_vectors

Example:

Output:

See also

LinSpaced(Index,const Scalar&, const Scalar&), setLinSpaced(Index,const Scalar&,const Scalar&)

lpNorm()

template<typename Derived >

template<int p>

RealScalar Eigen::DenseBase< Derived >::lpNorm

(

)

const

maxCoeff() [1/6]

template<typename Derived >

template<int NaNPropagation>

EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar Eigen::DenseBase< Derived >::maxCoeff

(

)

const

maxCoeff() [2/6]

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE internal::traits< Derived >::Scalar Eigen::DenseBase< Derived >::maxCoeff ( ) const

inline

Returns

the maximum of all coefficients of *this. In case *this contains NaN, NaNPropagation determines the behavior: NaNPropagation == PropagateFast : undefined NaNPropagation == PropagateNaN : result is NaN NaNPropagation == PropagateNumbers : result is maximum of elements that are not NaN

Warning

the matrix must be not empty, otherwise an assertion is triggered.

maxCoeff() [3/6]

template<typename Derived >

template<int NaNPropagation, typename IndexType >

EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar Eigen::DenseBase< Derived >::maxCoeff

(

IndexType *

index

)

const

Returns

the maximum of all coefficients of *this and puts in *index its location.

In case *this contains NaN, NaNPropagation determines the behavior: NaNPropagation == PropagateFast : undefined NaNPropagation == PropagateNaN : result is NaN NaNPropagation == PropagateNumbers : result is maximum of elements that are not NaN

Warning

the matrix must be not empty, otherwise an assertion is triggered.

See also

DenseBase::maxCoeff(IndexType*,IndexType*), DenseBase::minCoeff(IndexType*,IndexType*), DenseBase::visitor(), DenseBase::maxCoeff()

maxCoeff() [4/6]

template<typename Derived >

template<typename IndexType >

EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar Eigen::DenseBase< Derived >::maxCoeff ( IndexType *  index ) const

inline

maxCoeff() [5/6]

template<typename Derived >

template<int NaNPropagation, typename IndexType >

EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar Eigen::DenseBase< Derived >::maxCoeff	(	IndexType *	rowId,
		IndexType *	colId
	)		const

Returns

the maximum of all coefficients of *this and puts in *row and *col its location.

In case *this contains NaN, NaNPropagation determines the behavior: NaNPropagation == PropagateFast : undefined NaNPropagation == PropagateNaN : result is NaN NaNPropagation == PropagateNumbers : result is maximum of elements that are not NaN

Warning

the matrix must be not empty, otherwise an assertion is triggered.

See also

DenseBase::minCoeff(IndexType*,IndexType*), DenseBase::visit(), DenseBase::maxCoeff()

maxCoeff() [6/6]

template<typename Derived >

template<typename IndexType >

EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar Eigen::DenseBase< Derived >::maxCoeff ( IndexType *  row, IndexType *  col  ) const

inline

mean()

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE internal::traits< Derived >::Scalar Eigen::DenseBase< Derived >::mean

Returns

the mean of all coefficients of *this

See also

trace(), prod(), sum()

minCoeff() [1/6]

template<typename Derived >

template<int NaNPropagation>

EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar Eigen::DenseBase< Derived >::minCoeff

(

)

const

minCoeff() [2/6]

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE internal::traits< Derived >::Scalar Eigen::DenseBase< Derived >::minCoeff ( ) const

inline

Returns

the minimum of all coefficients of *this. In case *this contains NaN, NaNPropagation determines the behavior: NaNPropagation == PropagateFast : undefined NaNPropagation == PropagateNaN : result is NaN NaNPropagation == PropagateNumbers : result is minimum of elements that are not NaN

Warning

the matrix must be not empty, otherwise an assertion is triggered.

minCoeff() [3/6]

template<typename Derived >

template<int NaNPropagation, typename IndexType >

EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar Eigen::DenseBase< Derived >::minCoeff

(

IndexType *

index

)

const

Returns

the minimum of all coefficients of *this and puts in *index its location.

In case *this contains NaN, NaNPropagation determines the behavior: NaNPropagation == PropagateFast : undefined NaNPropagation == PropagateNaN : result is NaN NaNPropagation == PropagateNumbers : result is maximum of elements that are not NaN

Warning

the matrix must be not empty, otherwise an assertion is triggered.

See also

DenseBase::minCoeff(IndexType*,IndexType*), DenseBase::maxCoeff(IndexType*,IndexType*), DenseBase::visit(), DenseBase::minCoeff()

minCoeff() [4/6]

template<typename Derived >

template<typename IndexType >

EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar Eigen::DenseBase< Derived >::minCoeff ( IndexType *  index ) const

inline

minCoeff() [5/6]

template<typename Derived >

template<int NaNPropagation, typename IndexType >

EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar Eigen::DenseBase< Derived >::minCoeff	(	IndexType *	rowId,
		IndexType *	colId
	)		const

Returns

the minimum of all coefficients of *this and puts in *row and *col its location.

In case *this contains NaN, NaNPropagation determines the behavior: NaNPropagation == PropagateFast : undefined NaNPropagation == PropagateNaN : result is NaN NaNPropagation == PropagateNumbers : result is maximum of elements that are not NaN

Warning

the matrix must be not empty, otherwise an assertion is triggered.

See also

DenseBase::minCoeff(Index*), DenseBase::maxCoeff(Index*,Index*), DenseBase::visit(), DenseBase::minCoeff()

minCoeff() [6/6]

template<typename Derived >

template<typename IndexType >

EIGEN_DEVICE_FUNC internal::traits< Derived >::Scalar Eigen::DenseBase< Derived >::minCoeff ( IndexType *  row, IndexType *  col  ) const

inline

nestByValue()

template<typename Derived >

EIGEN_DEVICE_FUNC const NestByValue< Derived > Eigen::DenseBase< Derived >::nestByValue

inline

Returns

an expression of the temporary version of *this.

nonZeros()

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR Index Eigen::DenseBase< Derived >::nonZeros ( ) const

inline

Returns

the number of nonzero coefficients which is in practice the number of stored coefficients.

NullaryExpr() [1/6]

template<typename Derived >

template<typename CustomNullaryOp >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const CwiseNullaryOp< CustomNullaryOp, typename DenseBase< Derived >::PlainObject > Eigen::DenseBase< Derived >::NullaryExpr

(

const CustomNullaryOp &

func

)

Returns

an expression of a matrix defined by a custom functor func

This variant is only for fixed-size DenseBase types. For dynamic-size types, you need to use the variants taking size arguments.

The template parameter CustomNullaryOp is the type of the functor.

See also

class CwiseNullaryOp

NullaryExpr() [2/6]

template<typename Derived >

template<typename CustomNullaryOp >

static EIGEN_DEVICE_FUNC const CwiseNullaryOp< CustomNullaryOp, PlainObject > Eigen::DenseBase< Derived >::NullaryExpr ( const CustomNullaryOp &  func )

static

NullaryExpr() [3/6]

template<typename Derived >

template<typename CustomNullaryOp >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const CwiseNullaryOp< CustomNullaryOp, typename DenseBase< Derived >::PlainObject > Eigen::DenseBase< Derived >::NullaryExpr	(	Index	rows,
		Index	cols,
		const CustomNullaryOp &	func
	)

Returns

an expression of a matrix defined by a custom functor func

The parameters rows and cols are the number of rows and of columns of the returned matrix. Must be compatible with this MatrixBase type.

This variant is meant to be used for dynamic-size matrix types. For fixed-size types, it is redundant to pass rows and cols as arguments, so Zero() should be used instead.

The template parameter CustomNullaryOp is the type of the functor.

See also

class CwiseNullaryOp

NullaryExpr() [4/6]

template<typename Derived >

template<typename CustomNullaryOp >

static EIGEN_DEVICE_FUNC const CwiseNullaryOp< CustomNullaryOp, PlainObject > Eigen::DenseBase< Derived >::NullaryExpr ( Index  rows, Index  cols, const CustomNullaryOp &  func  )

static

NullaryExpr() [5/6]

template<typename Derived >

template<typename CustomNullaryOp >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const CwiseNullaryOp< CustomNullaryOp, typename DenseBase< Derived >::PlainObject > Eigen::DenseBase< Derived >::NullaryExpr	(	Index	size,
		const CustomNullaryOp &	func
	)

Returns

an expression of a matrix defined by a custom functor func

The parameter size is the size of the returned vector. Must be compatible with this MatrixBase type.

\only_for_vectors

This variant is meant to be used for dynamic-size vector types. For fixed-size types, it is redundant to pass size as argument, so Zero() should be used instead.

The template parameter CustomNullaryOp is the type of the functor.

Here is an example with C++11 random generators:

Output:

See also

class CwiseNullaryOp

NullaryExpr() [6/6]

template<typename Derived >

template<typename CustomNullaryOp >

static EIGEN_DEVICE_FUNC const CwiseNullaryOp< CustomNullaryOp, PlainObject > Eigen::DenseBase< Derived >::NullaryExpr ( Index  size, const CustomNullaryOp &  func  )

static

Ones() [1/3]

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const DenseBase< Derived >::ConstantReturnType Eigen::DenseBase< Derived >::Ones

static

Returns

an expression of a fixed-size matrix or vector where all coefficients equal one.

This variant is only for fixed-size MatrixBase types. For dynamic-size types, you need to use the variants taking size arguments.

Example:

Output:

See also

Ones(Index), Ones(Index,Index), isOnes(), class Ones

Ones() [2/3]

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const DenseBase< Derived >::ConstantReturnType Eigen::DenseBase< Derived >::Ones ( Index  rows, Index  cols  )

static

Returns

an expression of a matrix where all coefficients equal one.

The parameters rows and cols are the number of rows and of columns of the returned matrix. Must be compatible with this MatrixBase type.

This variant is meant to be used for dynamic-size matrix types. For fixed-size types, it is redundant to pass rows and cols as arguments, so Ones() should be used instead.

Example:

Output:

See also

Ones(), Ones(Index), isOnes(), class Ones

Ones() [3/3]

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const DenseBase< Derived >::ConstantReturnType Eigen::DenseBase< Derived >::Ones ( Index  newSize )

static

Returns

an expression of a vector where all coefficients equal one.

The parameter newSize is the size of the returned vector. Must be compatible with this MatrixBase type.

\only_for_vectors

This variant is meant to be used for dynamic-size vector types. For fixed-size types, it is redundant to pass size as argument, so Ones() should be used instead.

Example:

Output:

See also

Ones(), Ones(Index,Index), isOnes(), class Ones

operator*=()

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE Derived & Eigen::DenseBase< Derived >::operator*=

(

const Scalar &

other

)

operator+=()

template<typename Derived >

template<typename OtherDerived >

EIGEN_DEVICE_FUNC Derived & Eigen::DenseBase< Derived >::operator+=

(

const EigenBase< OtherDerived > &

other

)

operator-=()

template<typename Derived >

template<typename OtherDerived >

EIGEN_DEVICE_FUNC Derived & Eigen::DenseBase< Derived >::operator-=

(

const EigenBase< OtherDerived > &

other

)

operator/=()

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE Derived & Eigen::DenseBase< Derived >::operator/=

(

const Scalar &

other

)

operator<<() [1/2]

template<typename Derived >

template<typename OtherDerived >

EIGEN_DEVICE_FUNC CommaInitializer< Derived > Eigen::DenseBase< Derived >::operator<< ( const DenseBase< OtherDerived > &  other )

inline

See also

operator<<(const Scalar&)

operator<<() [2/2]

template<typename Derived >

EIGEN_DEVICE_FUNC CommaInitializer< Derived > Eigen::DenseBase< Derived >::operator<< ( const Scalar &  s )

inline

Convenient operator to set the coefficients of a matrix.

The coefficients must be provided in a row major order and exactly match the size of the matrix. Otherwise an assertion is raised.

Example:

Output:

Note

According the c++ standard, the argument expressions of this comma initializer are evaluated in arbitrary order.

See also

CommaInitializer::finished(), class CommaInitializer

operator=() [1/4]

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE Derived & Eigen::DenseBase< Derived >::operator=

(

const DenseBase< Derived > &

other

)

Special case of the template operator=, in order to prevent the compiler from generating a default operator= (issue hit with g++ 4.1)

operator=() [2/4]

template<typename Derived >

template<typename OtherDerived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE Derived & Eigen::DenseBase< Derived >::operator=

(

const DenseBase< OtherDerived > &

other

)

Copies other into *this.

Returns

a reference to *this.

operator=() [3/4]

template<typename Derived >

template<typename OtherDerived >

EIGEN_DEVICE_FUNC Derived & Eigen::DenseBase< Derived >::operator=

(

const EigenBase< OtherDerived > &

other

)

Copies the generic expression other into *this.

The expression must provide a (templated) evalTo(Derived& dst) const function which does the actual job. In practice, this allows any user to write its own special matrix without having to modify MatrixBase

Returns

a reference to *this.

operator=() [4/4]

template<typename Derived >

template<typename OtherDerived >

EIGEN_DEVICE_FUNC Derived & Eigen::DenseBase< Derived >::operator=

(

const ReturnByValue< OtherDerived > &

func

)

outerSize()

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR Index Eigen::DenseBase< Derived >::outerSize ( ) const

inline

Returns

the outer size.

Note

For a vector, this returns just 1. For a matrix (non-vector), this is the major dimension with respect to the storage order, i.e., the number of columns for a column-major matrix, and the number of rows for a row-major matrix.

prod()

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE internal::traits< Derived >::Scalar Eigen::DenseBase< Derived >::prod

Returns

the product of all coefficients of *this

Example:

Output:

See also

sum(), mean(), trace()

Random() [1/3]

template<typename Derived >

const DenseBase< Derived >::RandomReturnType Eigen::DenseBase< Derived >::Random

inlinestatic

Returns

a fixed-size random matrix or vector expression

Numbers are uniformly spread through their whole definition range for integer types, and in the [-1:1] range for floating point scalar types.

This variant is only for fixed-size MatrixBase types. For dynamic-size types, you need to use the variants taking size arguments.

Example:

Output:

This expression has the "evaluate before nesting" flag so that it will be evaluated into a temporary matrix whenever it is nested in a larger expression. This prevents unexpected behavior with expressions involving random matrices.

\not_reentrant

See also

DenseBase::setRandom(), DenseBase::Random(Index,Index), DenseBase::Random(Index)

Random() [2/3]

template<typename Derived >

const DenseBase< Derived >::RandomReturnType Eigen::DenseBase< Derived >::Random ( Index  rows, Index  cols  )

inlinestatic

Returns

a random matrix expression

Numbers are uniformly spread through their whole definition range for integer types, and in the [-1:1] range for floating point scalar types.

The parameters rows and cols are the number of rows and of columns of the returned matrix. Must be compatible with this MatrixBase type.

\not_reentrant

This variant is meant to be used for dynamic-size matrix types. For fixed-size types, it is redundant to pass rows and cols as arguments, so Random() should be used instead.

Example:

Output:

This expression has the "evaluate before nesting" flag so that it will be evaluated into a temporary matrix whenever it is nested in a larger expression. This prevents unexpected behavior with expressions involving random matrices.

See DenseBase::NullaryExpr(Index, const CustomNullaryOp&) for an example using C++11 random generators.

See also

DenseBase::setRandom(), DenseBase::Random(Index), DenseBase::Random()

Random() [3/3]

template<typename Derived >

const DenseBase< Derived >::RandomReturnType Eigen::DenseBase< Derived >::Random ( Index  size )

inlinestatic

Returns

a random vector expression

Numbers are uniformly spread through their whole definition range for integer types, and in the [-1:1] range for floating point scalar types.

The parameter size is the size of the returned vector. Must be compatible with this MatrixBase type.

\only_for_vectors \not_reentrant

This variant is meant to be used for dynamic-size vector types. For fixed-size types, it is redundant to pass size as argument, so Random() should be used instead.

Example:

Output:

This expression has the "evaluate before nesting" flag so that it will be evaluated into a temporary vector whenever it is nested in a larger expression. This prevents unexpected behavior with expressions involving random matrices.

See also

DenseBase::setRandom(), DenseBase::Random(Index,Index), DenseBase::Random()

redux() [1/2]

template<typename Derived >

template<typename BinaryOp >

EIGEN_DEVICE_FUNC Scalar Eigen::DenseBase< Derived >::redux

(

const BinaryOp &

func

)

const

redux() [2/2]

template<typename Derived >

template<typename Func >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE internal::traits< Derived >::Scalar Eigen::DenseBase< Derived >::redux

(

const Func &

func

)

const

Returns

the result of a full redux operation on the whole matrix or vector using func

The template parameter BinaryOp is the type of the functor func which must be an associative operator. Both current C++98 and C++11 functor styles are handled.

Warning

the matrix must be not empty, otherwise an assertion is triggered.

See also

DenseBase::sum(), DenseBase::minCoeff(), DenseBase::maxCoeff(), MatrixBase::colwise(), MatrixBase::rowwise()

replicate() [1/2]

template<typename Derived >

template<int RowFactor, int ColFactor>

EIGEN_DEVICE_FUNC const Replicate< Derived, RowFactor, ColFactor > Eigen::DenseBase< Derived >::replicate

Returns

an expression of the replication of *this

Example:

Output:

See also

VectorwiseOp::replicate(), DenseBase::replicate(Index,Index), class Replicate

replicate() [2/2]

template<typename Derived >

EIGEN_DEVICE_FUNC const Replicate< Derived, Dynamic, Dynamic > Eigen::DenseBase< Derived >::replicate ( Index  rowFactor, Index  colFactor  ) const

inline

Returns

an expression of the replication of *this

Example:

Output:

See also

VectorwiseOp::replicate(), DenseBase::replicate<int,int>(), class Replicate

resize() [1/2]

template<typename Derived >

EIGEN_DEVICE_FUNC void Eigen::DenseBase< Derived >::resize ( Index  newSize )

inline

Only plain matrices/arrays, not expressions, may be resized; therefore the only useful resize methods are Matrix::resize() and Array::resize().

The present method only asserts that the new size equals the old size, and does nothing else.

resize() [2/2]

template<typename Derived >

EIGEN_DEVICE_FUNC void Eigen::DenseBase< Derived >::resize ( Index  rows, Index  cols  )

inline

Only plain matrices/arrays, not expressions, may be resized; therefore the only useful resize methods are Matrix::resize() and Array::resize().

The present method only asserts that the new size equals the old size, and does nothing else.

reverse() [1/2]

template<typename Derived >

EIGEN_DEVICE_FUNC DenseBase< Derived >::ReverseReturnType Eigen::DenseBase< Derived >::reverse

inline

Returns

an expression of the reverse of *this.

Example:

Output:

reverse() [2/2]

template<typename Derived >

EIGEN_DEVICE_FUNC ConstReverseReturnType Eigen::DenseBase< Derived >::reverse ( ) const

inline

This is the const version of reverse().

reverseInPlace()

template<typename Derived >

EIGEN_DEVICE_FUNC void Eigen::DenseBase< Derived >::reverseInPlace

inline

This is the "in place" version of reverse: it reverses *this.

In most cases it is probably better to simply use the reversed expression of a matrix. However, when reversing the matrix data itself is really needed, then this "in-place" version is probably the right choice because it provides the following additional benefits:

• less error prone: doing the same operation with .reverse() requires special care:

  m = m.reverse().eval(); 

• this API enables reverse operations without the need for a temporary
• it allows future optimizations (cache friendliness, etc.)

See also

VectorwiseOp::reverseInPlace(), reverse()

rowwise() [1/2]

template<typename Derived >

EIGEN_DEVICE_FUNC DenseBase< Derived >::RowwiseReturnType Eigen::DenseBase< Derived >::rowwise

inline

Returns

a writable VectorwiseOp wrapper of *this providing additional partial reduction operations

See also

colwise(), class VectorwiseOp, TutorialReductionsVisitorsBroadcasting

rowwise() [2/2]

template<typename Derived >

EIGEN_DEVICE_FUNC ConstRowwiseReturnType Eigen::DenseBase< Derived >::rowwise ( ) const

inline

Returns

a VectorwiseOp wrapper of *this for broadcasting and partial reductions

Example:

Output:

See also

colwise(), class VectorwiseOp, TutorialReductionsVisitorsBroadcasting

select() [1/3]

template<typename Derived >

template<typename ThenDerived , typename ElseDerived >

EIGEN_DEVICE_FUNC const Select< Derived, ThenDerived, ElseDerived > Eigen::DenseBase< Derived >::select ( const DenseBase< ThenDerived > &  thenMatrix, const DenseBase< ElseDerived > &  elseMatrix  ) const

inline

Returns

a matrix where each coefficient (i,j) is equal to thenMatrix(i,j) if *this(i,j), and elseMatrix(i,j) otherwise.

Example:

Output:

See also

class Select

select() [2/3]

template<typename Derived >

template<typename ThenDerived >

EIGEN_DEVICE_FUNC const Select< Derived, ThenDerived, typename ThenDerived::ConstantReturnType > Eigen::DenseBase< Derived >::select ( const DenseBase< ThenDerived > &  thenMatrix, const typename ThenDerived::Scalar &  elseScalar  ) const

inline

Version of DenseBase::select(const DenseBase&, const DenseBase&) with the else expression being a scalar value.

See also

DenseBase::select(const DenseBase<ThenDerived>&, const DenseBase<ElseDerived>&) const, class Select

select() [3/3]

template<typename Derived >

template<typename ElseDerived >

EIGEN_DEVICE_FUNC const Select< Derived, typename ElseDerived::ConstantReturnType, ElseDerived > Eigen::DenseBase< Derived >::select ( const typename ElseDerived::Scalar &  thenScalar, const DenseBase< ElseDerived > &  elseMatrix  ) const

inline

Version of DenseBase::select(const DenseBase&, const DenseBase&) with the then expression being a scalar value.

See also

DenseBase::select(const DenseBase<ThenDerived>&, const DenseBase<ElseDerived>&) const, class Select

setConstant()

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE Derived & Eigen::DenseBase< Derived >::setConstant

(

const Scalar &

val

)

Sets all coefficients in this expression to value val.

See also

fill(), setConstant(Index,const Scalar&), setConstant(Index,Index,const Scalar&), setZero(), setOnes(), Constant(), class CwiseNullaryOp, setZero(), setOnes()

setLinSpaced() [1/2]

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE Derived & Eigen::DenseBase< Derived >::setLinSpaced	(	const Scalar &	low,
		const Scalar &	high
	)

Sets a linearly spaced vector.

The function fills *this with equally spaced values in the closed interval [low,high]. When size is set to 1, a vector of length 1 containing 'high' is returned.

\only_for_vectors

For integer scalar types, do not miss the explanations on the definition of even spacing .

See also

LinSpaced(Index,const Scalar&,const Scalar&), setLinSpaced(Index, const Scalar&, const Scalar&), CwiseNullaryOp

setLinSpaced() [2/2]

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE Derived & Eigen::DenseBase< Derived >::setLinSpaced	(	Index	newSize,
		const Scalar &	low,
		const Scalar &	high
	)

Sets a linearly spaced vector.

The function generates 'size' equally spaced values in the closed interval [low,high]. When size is set to 1, a vector of length 1 containing 'high' is returned.

\only_for_vectors

Example:

Output:

For integer scalar types, do not miss the explanations on the definition of even spacing .

See also

LinSpaced(Index,const Scalar&,const Scalar&), CwiseNullaryOp

setOnes()

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE Derived & Eigen::DenseBase< Derived >::setOnes

Sets all coefficients in this expression to one.

Example:

Output:

See also

class CwiseNullaryOp, Ones()

setRandom()

template<typename Derived >

EIGEN_DEVICE_FUNC Derived & Eigen::DenseBase< Derived >::setRandom

inline

Sets all coefficients in this expression to random values.

Numbers are uniformly spread through their whole definition range for integer types, and in the [-1:1] range for floating point scalar types.

\not_reentrant

Example:

Output:

See also

class CwiseNullaryOp, setRandom(Index), setRandom(Index,Index)

setZero()

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE Derived & Eigen::DenseBase< Derived >::setZero

Sets all coefficients in this expression to zero.

Example:

Output:

See also

class CwiseNullaryOp, Zero()

sum()

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE internal::traits< Derived >::Scalar Eigen::DenseBase< Derived >::sum

Returns

the sum of all coefficients of *this

If *this is empty, then the value 0 is returned.

See also

trace(), prod(), mean()

swap() [1/2]

template<typename Derived >

template<typename OtherDerived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE void Eigen::DenseBase< Derived >::swap ( const DenseBase< OtherDerived > &  other )

inline

swaps *this with the expression other.

swap() [2/2]

template<typename Derived >

template<typename OtherDerived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE void Eigen::DenseBase< Derived >::swap ( PlainObjectBase< OtherDerived > &  other )

inline

swaps *this with the matrix or array other.

trace()

template<typename Derived >

EIGEN_DEVICE_FUNC Scalar Eigen::DenseBase< Derived >::trace

(

)

const

transpose() [1/2]

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE Transpose< Derived > Eigen::DenseBase< Derived >::transpose

Returns

an expression of the transpose of *this.

Example:

Output:

Warning

If you want to replace a matrix by its own transpose, do NOT do this:

m = m.transpose(); // bug!!! caused by aliasing effect

Instead, use the transposeInPlace() method:

m.transposeInPlace();

which gives Eigen good opportunities for optimization, or alternatively you can also do:

m = m.transpose().eval();

See also

transposeInPlace(), adjoint()

transpose() [2/2]

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE DenseBase< Derived >::ConstTransposeReturnType Eigen::DenseBase< Derived >::transpose

This is the const version of transpose().

Make sure you read the warning for transpose() !

See also

transposeInPlace(), adjoint()

transposeInPlace()

template<typename Derived >

EIGEN_DEVICE_FUNC void Eigen::DenseBase< Derived >::transposeInPlace

inline

This is the "in place" version of transpose(): it replaces *this by its own transpose.

Thus, doing

m.transposeInPlace();

has the same effect on m as doing

m = m.transpose().eval();

and is faster and also safer because in the latter line of code, forgetting the eval() results in a bug caused by aliasing.

Notice however that this method is only useful if you want to replace a matrix by its own transpose. If you just need the transpose of a matrix, use transpose().

Note

if the matrix is not square, then *this must be a resizable matrix. This excludes (non-square) fixed-size matrices, block-expressions and maps.

See also

transpose(), adjoint(), adjointInPlace()

value()

template<typename Derived >

EIGEN_DEVICE_FUNC CoeffReturnType Eigen::DenseBase< Derived >::value ( ) const

inline

Returns

the unique coefficient of a 1x1 expression

visit()

template<typename Derived >

template<typename Visitor >

EIGEN_DEVICE_FUNC void Eigen::DenseBase< Derived >::visit

(

Visitor &

visitor

)

const

Applies the visitor visitor to the whole coefficients of the matrix or vector.

The template parameter Visitor is the type of the visitor and provides the following interface:

struct MyVisitor {
  // called for the first coefficient
  void init(const Scalar& value, Index i, Index j);
  // called for all other coefficients
  void operator() (const Scalar& value, Index i, Index j);
};

Note

compared to one or two for loops, visitors offer automatic unrolling for small fixed size matrix.

if the matrix is empty, then the visitor is left unchanged.

See also

minCoeff(Index*,Index*), maxCoeff(Index*,Index*), DenseBase::redux()

Zero() [1/3]

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const DenseBase< Derived >::ConstantReturnType Eigen::DenseBase< Derived >::Zero

static

Returns

an expression of a fixed-size zero matrix or vector.

This variant is only for fixed-size MatrixBase types. For dynamic-size types, you need to use the variants taking size arguments.

Example:

Output:

See also

Zero(Index), Zero(Index,Index)

Zero() [2/3]

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const DenseBase< Derived >::ConstantReturnType Eigen::DenseBase< Derived >::Zero ( Index  rows, Index  cols  )

static

Returns

an expression of a zero matrix.

The parameters rows and cols are the number of rows and of columns of the returned matrix. Must be compatible with this MatrixBase type.

This variant is meant to be used for dynamic-size matrix types. For fixed-size types, it is redundant to pass rows and cols as arguments, so Zero() should be used instead.

Example:

Output:

See also

Zero(), Zero(Index)

Zero() [3/3]

template<typename Derived >

EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const DenseBase< Derived >::ConstantReturnType Eigen::DenseBase< Derived >::Zero ( Index  size )

static

Returns

an expression of a zero vector.

The parameter size is the size of the returned vector. Must be compatible with this MatrixBase type.

\only_for_vectors

This variant is meant to be used for dynamic-size vector types. For fixed-size types, it is redundant to pass size as argument, so Zero() should be used instead.

Example:

Output:

See also

Zero(), Zero(Index,Index)

Friends And Related Function Documentation

operator<<()

template<typename Derived >

std::ostream & operator<< ( std::ostream &  s, const DenseBase< Derived > &  m  )

related

Outputs the matrix, to the given stream.

If you wish to print the matrix with a format different than the default, use DenseBase::format().

It is also possible to change the default format by defining EIGEN_DEFAULT_IO_FORMAT before including Eigen headers. If not defined, this will automatically be defined to Eigen::IOFormat(), that is the Eigen::IOFormat with default parameters.

See also

DenseBase::format()

Member Data Documentation

SequentialLinSpacedReturnType

template<typename Derived >

EIGEN_DEPRECATED typedef CwiseNullaryOp<internal::linspaced_op<Scalar>,PlainObject> Eigen::DenseBase< Derived >::SequentialLinSpacedReturnType

---

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

• /home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/DenseBase.h
• /home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/CwiseNullaryOp.h
• /home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/Assign.h
• /home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/ReturnByValue.h
• /home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/Replicate.h
• /home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/BooleanRedux.h
• /home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/CommaInitializer.h
• /home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/Redux.h
• /home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/Random.h
• /home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/StlIterators.h
• /home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/Select.h
• /home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/VectorwiseOp.h
• /home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/Reverse.h
• /home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/EigenBase.h
• /home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/Visitor.h
• /home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/Fuzzy.h
• /home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/SelfCwiseBinaryOp.h
• /home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/Transpose.h
• /home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/NestByValue.h
• /home/runner/work/allwpilib/allwpilib/wpimath/src/main/native/thirdparty/eigen/include/Eigen/src/Core/IO.h