A dense matrix of values of type T with a variable size bounded to a maximum of $M$ by $N$ . More...

#include <matrix.hpp>

Inheritance diagram for boost::numeric::ublas::bounded_matrix< T, M, N, L >:

Collaboration diagram for boost::numeric::ublas::bounded_matrix< T, M, N, L >:

Public Types
typedef matrix_type::size_type	size_type

typedef bounded_array< T, M *N > ::difference_type	difference_type

typedef T	value_type

typedef const T &	const_reference

typedef T &	reference

typedef bounded_array< T, M *N >	array_type

typedef const matrix_reference < const self_type >	const_closure_type

typedef matrix_reference < self_type >	closure_type

typedef vector< T, bounded_array< T, M *N > >	vector_temporary_type

typedef self_type	matrix_temporary_type

typedef dense_tag	storage_category

typedef L::orientation_category	orientation_category

typedef reverse_iterator_base1 < const_iterator1 >	const_reverse_iterator1

typedef reverse_iterator_base1 < iterator1 >	reverse_iterator1

typedef reverse_iterator_base2 < const_iterator2 >	const_reverse_iterator2

typedef reverse_iterator_base2 < iterator2 >	reverse_iterator2

typedef matrix< T, L, bounded_array< T, M *N > >	container_type

typedef matrix_tag	type_category

typedef E	expression_type

Public Member Functions
BOOST_UBLAS_INLINE	bounded_matrix ()

BOOST_UBLAS_INLINE	bounded_matrix (size_type size1, size_type size2)

BOOST_UBLAS_INLINE	bounded_matrix (const bounded_matrix &m)

template<class A2 >
BOOST_UBLAS_INLINE	bounded_matrix (const matrix< T, L, A2 > &m)

template<class AE >
BOOST_UBLAS_INLINE	bounded_matrix (const matrix_expression< AE > &ae)

BOOST_UBLAS_INLINE	~bounded_matrix ()

BOOST_UBLAS_INLINE bounded_matrix &	operator= (const bounded_matrix &m)

template<class L2 , class A2 >
BOOST_UBLAS_INLINE bounded_matrix &	operator= (const matrix< T, L2, A2 > &m)

template<class C >
BOOST_UBLAS_INLINE bounded_matrix &	operator= (const matrix_container< C > &m)

template<class AE >
BOOST_UBLAS_INLINE bounded_matrix &	operator= (const matrix_expression< AE > &ae)

BOOST_UBLAS_INLINE size_type	size1 () const
	Return the number of rows of the matrix You can also use the free size<>() function in operation/size.hpp as size<1>(m) where m is a matrix. More...

BOOST_UBLAS_INLINE size_type	size2 () const
	Return the number of colums of the matrix You can also use the free size<>() function in operation/size.hpp as size<2>(m) where m is a matrix. More...

BOOST_UBLAS_INLINE const array_type &	data () const
	Return a constant reference to the internal storage of a dense matrix, i.e. More...

BOOST_UBLAS_INLINE array_type &	data ()
	Return a reference to the internal storage of a dense matrix, i.e. More...

BOOST_UBLAS_INLINE void	resize (size_type size1, size_type size2, bool preserve=true)
	Resize a matrix to new dimensions If data are preserved, then if the size if bigger at least on one dimension, extra values are filled with zeros. More...

BOOST_UBLAS_INLINE const_reference	operator() (size_type i, size_type j) const
	Access a matrix element. More...

BOOST_UBLAS_INLINE reference	operator() (size_type i, size_type j)
	Access a matrix element. More...

BOOST_UBLAS_INLINE const container_type &	operator() () const

BOOST_UBLAS_INLINE container_type &	operator() ()

BOOST_UBLAS_INLINE reference	at_element (size_type i, size_type j)
	Access a matrix element. More...

BOOST_UBLAS_INLINE reference	insert_element (size_type i, size_type j, const_reference t)
	Change the value of a matrix element. More...

void	erase_element (size_type i, size_type j)
	Erase the element For most types (int, double, etc...) it means setting 0 (zero) the element at zero in fact. More...

BOOST_UBLAS_INLINE void	clear ()
	Erase all elements in the matrix For most types (int, double, etc...) it means writing 0 (zero) everywhere. More...

BOOST_UBLAS_INLINE matrix &	assign_temporary (matrix &m)

BOOST_UBLAS_INLINE matrix &	assign (const matrix_expression< AE > &ae)

BOOST_UBLAS_INLINE matrix &	operator+= (const matrix_expression< AE > &ae)

BOOST_UBLAS_INLINE matrix &	operator+= (const matrix_container< C > &m)

BOOST_UBLAS_INLINE matrix &	plus_assign (const matrix_expression< AE > &ae)

BOOST_UBLAS_INLINE matrix &	operator-= (const matrix_expression< AE > &ae)

BOOST_UBLAS_INLINE matrix &	operator-= (const matrix_container< C > &m)

BOOST_UBLAS_INLINE matrix &	minus_assign (const matrix_expression< AE > &ae)

BOOST_UBLAS_INLINE matrix &	operator*= (const AT &at)

BOOST_UBLAS_INLINE matrix &	operator/= (const AT &at)

BOOST_UBLAS_INLINE void	swap (matrix &m)

BOOST_UBLAS_INLINE const_iterator1	find1 (int, size_type i, size_type j) const

BOOST_UBLAS_INLINE iterator1	find1 (int, size_type i, size_type j)

BOOST_UBLAS_INLINE const_iterator2	find2 (int, size_type i, size_type j) const

BOOST_UBLAS_INLINE iterator2	find2 (int, size_type i, size_type j)

BOOST_UBLAS_INLINE const_iterator1	begin1 () const

BOOST_UBLAS_INLINE iterator1	begin1 ()

BOOST_UBLAS_INLINE const_iterator1	cbegin1 () const

BOOST_UBLAS_INLINE const_iterator1	end1 () const

BOOST_UBLAS_INLINE iterator1	end1 ()

BOOST_UBLAS_INLINE const_iterator1	cend1 () const

BOOST_UBLAS_INLINE const_iterator2	begin2 () const

BOOST_UBLAS_INLINE iterator2	begin2 ()

BOOST_UBLAS_INLINE const_iterator2	cbegin2 () const

BOOST_UBLAS_INLINE const_iterator2	end2 () const

BOOST_UBLAS_INLINE iterator2	end2 ()

BOOST_UBLAS_INLINE const_iterator2	cend2 () const

BOOST_UBLAS_INLINE const_reverse_iterator1	rbegin1 () const

BOOST_UBLAS_INLINE reverse_iterator1	rbegin1 ()

BOOST_UBLAS_INLINE const_reverse_iterator1	crbegin1 () const

BOOST_UBLAS_INLINE const_reverse_iterator1	rend1 () const

BOOST_UBLAS_INLINE reverse_iterator1	rend1 ()

BOOST_UBLAS_INLINE const_reverse_iterator1	crend1 () const

BOOST_UBLAS_INLINE const_reverse_iterator2	rbegin2 () const

BOOST_UBLAS_INLINE reverse_iterator2	rbegin2 ()

BOOST_UBLAS_INLINE const_reverse_iterator2	crbegin2 () const

BOOST_UBLAS_INLINE const_reverse_iterator2	rend2 () const

BOOST_UBLAS_INLINE reverse_iterator2	rend2 ()

BOOST_UBLAS_INLINE const_reverse_iterator2	crend2 () const

void	serialize (Archive &ar, const unsigned int)

Static Public Attributes
static const size_type	max_size1 = M

static const size_type	max_size2 = N

static const unsigned	complexity

Detailed Description

template<class T, std::size_t M, std::size_t N, class L>
class boost::numeric::ublas::bounded_matrix< T, M, N, L >

A dense matrix of values of type T with a variable size bounded to a maximum of $M$ by $N$ .

For a $(m \times n)$ -dimensional matrix and $0 \leq i < m, 0 \leq j < n$ , every element $m_{i,j}$ is mapped to the $(i.n + j)$ -th element of the container for row major orientation or the $(i + j.m)$ -th element of the container for column major orientation. Finally in a dense matrix all elements are represented in memory in a contiguous chunk of memory.

Orientation can be specified. Default is row_major The default constructor creates the matrix with size $M$ by $N$ . Elements are constructed by the storage type bounded_array, which need not initialise their value.

Template Parameters

T	the type of object stored in the matrix (like double, float, complex, etc...)
M	maximum and default number of rows (if not specified at construction)
N	maximum and default number of columns (if not specified at construction)
L	the storage organization. It can be either `row_major` or `column_major`. Default is `row_major`

Member Typedef Documentation

typedef bounded_array< T, M *N > boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::array_type

inherited

typedef matrix_reference<self_type> boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::closure_type

inherited

typedef const matrix_reference<const self_type> boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::const_closure_type

inherited

typedef const T& boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::const_reference

inherited

typedef reverse_iterator_base1<const_iterator1> boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::const_reverse_iterator1

inherited

typedef reverse_iterator_base2<const_iterator2> boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::const_reverse_iterator2

inherited

typedef matrix< T, L, bounded_array< T, M *N > > boost::numeric::ublas::matrix_container< matrix< T, L, bounded_array< T, M *N > > >::container_type

inherited

typedef bounded_array< T, M *N > ::difference_type boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::difference_type

inherited

template<class E>

typedef E boost::numeric::ublas::matrix_expression< E >::expression_type

inherited

typedef self_type boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::matrix_temporary_type

inherited

typedef L::orientation_category boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::orientation_category

inherited

typedef T& boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::reference

inherited

typedef reverse_iterator_base1<iterator1> boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::reverse_iterator1

inherited

typedef reverse_iterator_base2<iterator2> boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::reverse_iterator2

inherited

template<class T , std::size_t M, std::size_t N, class L >

typedef matrix_type::size_type boost::numeric::ublas::bounded_matrix< T, M, N, L >::size_type

typedef dense_tag boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::storage_category

inherited

typedef matrix_tag boost::numeric::ublas::matrix_container< matrix< T, L, bounded_array< T, M *N > > >::type_category

inherited

typedef T boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::value_type

inherited

typedef vector<T, bounded_array< T, M *N > > boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::vector_temporary_type

inherited

Constructor & Destructor Documentation

template<class T , std::size_t M, std::size_t N, class L >

BOOST_UBLAS_INLINE boost::numeric::ublas::bounded_matrix< T, M, N, L >::bounded_matrix ( )

inline

template<class T , std::size_t M, std::size_t N, class L >

BOOST_UBLAS_INLINE boost::numeric::ublas::bounded_matrix< T, M, N, L >::bounded_matrix	(	size_type	size1,
		size_type	size2
	)

inline

template<class T , std::size_t M, std::size_t N, class L >

BOOST_UBLAS_INLINE boost::numeric::ublas::bounded_matrix< T, M, N, L >::bounded_matrix ( const bounded_matrix< T, M, N, L > & m )

inline

template<class T , std::size_t M, std::size_t N, class L >

template<class A2 >

BOOST_UBLAS_INLINE boost::numeric::ublas::bounded_matrix< T, M, N, L >::bounded_matrix ( const matrix< T, L, A2 > & m )

inline

template<class T , std::size_t M, std::size_t N, class L >

template<class AE >

BOOST_UBLAS_INLINE boost::numeric::ublas::bounded_matrix< T, M, N, L >::bounded_matrix ( const matrix_expression< AE > & ae )

inline

template<class T , std::size_t M, std::size_t N, class L >

BOOST_UBLAS_INLINE boost::numeric::ublas::bounded_matrix< T, M, N, L >::~bounded_matrix ( )

inline

Member Function Documentation

BOOST_UBLAS_INLINE matrix& boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::assign ( const matrix_expression< AE > & ae )

inlineinherited

BOOST_UBLAS_INLINE matrix& boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::assign_temporary ( matrix< T, L, bounded_array< T, M *N > > & m )

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::swap().

BOOST_UBLAS_INLINE reference boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::at_element	(	size_type	i,
		size_type	j
	)

inlineinherited

Access a matrix element.

Here we return a reference

Parameters

i	the first coordinate of the element. By default it's the row
j	the second coordinate of the element. By default it's the column

Returns: a reference to the element

References boost::numeric::ublas::matrix< T, L, A >::data().

BOOST_UBLAS_INLINE const_iterator1 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::begin1 ( ) const

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::find1().

BOOST_UBLAS_INLINE iterator1 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::begin1 ( )

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::find1().

BOOST_UBLAS_INLINE const_iterator2 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::begin2 ( ) const

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::find2().

BOOST_UBLAS_INLINE iterator2 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::begin2 ( )

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::find2().

BOOST_UBLAS_INLINE const_iterator1 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::cbegin1 ( ) const

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::begin1().

BOOST_UBLAS_INLINE const_iterator2 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::cbegin2 ( ) const

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::begin2().

BOOST_UBLAS_INLINE const_iterator1 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::cend1 ( ) const

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::end1().

BOOST_UBLAS_INLINE const_iterator2 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::cend2 ( ) const

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::end2().

BOOST_UBLAS_INLINE void boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::clear ( void )

inlineinherited

Erase all elements in the matrix For most types (int, double, etc...) it means writing 0 (zero) everywhere.

For user-defined types, it could be another value if you decided it. Your type in that case must contain a default null value.

References boost::numeric::ublas::begin(), boost::numeric::ublas::matrix< T, L, A >::data(), boost::numeric::ublas::end(), and std::fill().

BOOST_UBLAS_INLINE const_reverse_iterator1 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::crbegin1 ( ) const

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::rbegin1().

BOOST_UBLAS_INLINE const_reverse_iterator2 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::crbegin2 ( ) const

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::rbegin2().

BOOST_UBLAS_INLINE const_reverse_iterator1 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::crend1 ( ) const

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::rend1().

BOOST_UBLAS_INLINE const_reverse_iterator2 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::crend2 ( ) const

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::rend2().

BOOST_UBLAS_INLINE const array_type& boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::data ( ) const

inlineinherited

Return a constant reference to the internal storage of a dense matrix, i.e.

the raw data It's type depends on the type used by the matrix to store its data

BOOST_UBLAS_INLINE array_type& boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::data ( )

inlineinherited

Return a reference to the internal storage of a dense matrix, i.e.

the raw data It's type depends on the type used by the matrix to store its data

BOOST_UBLAS_INLINE const_iterator1 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::end1 ( ) const

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::find1().

BOOST_UBLAS_INLINE iterator1 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::end1 ( )

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::find1().

BOOST_UBLAS_INLINE const_iterator2 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::end2 ( ) const

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::find2().

BOOST_UBLAS_INLINE iterator2 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::end2 ( )

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::find2().

void boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::erase_element	(	size_type	i,
		size_type	j
	)

inlineinherited

Erase the element For most types (int, double, etc...) it means setting 0 (zero) the element at zero in fact.

For user-defined types, it could be another value if you decided it. Your type in that case must contain a default null value.

Parameters

i	the first coordinate of the element. By default it's the row
j	the second coordinate of the element. By default it's the column

References boost::numeric::ublas::matrix< T, L, A >::at_element().

BOOST_UBLAS_INLINE const_iterator1 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::find1	(	int	,
		size_type	i,
		size_type	j
	)		const

inlineinherited

References boost::numeric::ublas::begin(), and boost::numeric::ublas::matrix< T, L, A >::data().

BOOST_UBLAS_INLINE iterator1 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::find1	(	int	,
		size_type	i,
		size_type	j
	)

inlineinherited

References boost::numeric::ublas::begin(), and boost::numeric::ublas::matrix< T, L, A >::data().

BOOST_UBLAS_INLINE const_iterator2 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::find2	(	int	,
		size_type	i,
		size_type	j
	)		const

inlineinherited

References boost::numeric::ublas::begin(), and boost::numeric::ublas::matrix< T, L, A >::data().

BOOST_UBLAS_INLINE iterator2 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::find2	(	int	,
		size_type	i,
		size_type	j
	)

inlineinherited

References boost::numeric::ublas::begin(), and boost::numeric::ublas::matrix< T, L, A >::data().

BOOST_UBLAS_INLINE reference boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::insert_element	(	size_type	i,
		size_type	j,
		const_reference	t
	)

inlineinherited

Change the value of a matrix element.

Return back a reference to it

Parameters

i	the first coordinate of the element. By default it's the row
j	the second coordinate of the element. By default it's the column
t	the new value of the element

Returns: a reference to the newly changed element

References boost::numeric::ublas::matrix< T, L, A >::at_element().

BOOST_UBLAS_INLINE matrix& boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::minus_assign ( const matrix_expression< AE > & ae )

inlineinherited

BOOST_UBLAS_INLINE const_reference boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::operator()	(	size_type	i,
		size_type	j
	)		const

inlineinherited

Access a matrix element.

Here we return a const reference

Parameters

i	the first coordinate of the element. By default it's the row
j	the second coordinate of the element. By default it's the column

Returns: a const reference to the element

References boost::numeric::ublas::matrix< T, L, A >::data().

BOOST_UBLAS_INLINE reference boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::operator()	(	size_type	i,
		size_type	j
	)

inlineinherited

Access a matrix element.

Here we return a reference

Parameters

i	the first coordinate of the element. By default it's the row
j	the second coordinate of the element. By default it's the column

Returns: a reference to the element

References boost::numeric::ublas::matrix< T, L, A >::at_element().

BOOST_UBLAS_INLINE const container_type& boost::numeric::ublas::matrix_container< matrix< T, L, bounded_array< T, M *N > > >::operator() ( ) const

inlineinherited

BOOST_UBLAS_INLINE container_type& boost::numeric::ublas::matrix_container< matrix< T, L, bounded_array< T, M *N > > >::operator() ( )

inlineinherited

BOOST_UBLAS_INLINE matrix& boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::operator*= ( const AT & at )

inlineinherited

References boost::xpressive::at.

BOOST_UBLAS_INLINE matrix& boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::operator+= ( const matrix_expression< AE > & ae )

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::assign_temporary().

BOOST_UBLAS_INLINE matrix& boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::operator+= ( const matrix_container< C > & m )

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::plus_assign().

BOOST_UBLAS_INLINE matrix& boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::operator-= ( const matrix_expression< AE > & ae )

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::assign_temporary().

BOOST_UBLAS_INLINE matrix& boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::operator-= ( const matrix_container< C > & m )

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::minus_assign().

BOOST_UBLAS_INLINE matrix& boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::operator/= ( const AT & at )

inlineinherited

References boost::xpressive::at.

template<class T , std::size_t M, std::size_t N, class L >

BOOST_UBLAS_INLINE bounded_matrix& boost::numeric::ublas::bounded_matrix< T, M, N, L >::operator= ( const bounded_matrix< T, M, N, L > & m )

inline

References boost::multiprecision::backends::operator=().

template<class T , std::size_t M, std::size_t N, class L >

template<class L2 , class A2 >

BOOST_UBLAS_INLINE bounded_matrix& boost::numeric::ublas::bounded_matrix< T, M, N, L >::operator= ( const matrix< T, L2, A2 > & m )

inline

References boost::multiprecision::backends::operator=().

template<class T , std::size_t M, std::size_t N, class L >

template<class C >

BOOST_UBLAS_INLINE bounded_matrix& boost::numeric::ublas::bounded_matrix< T, M, N, L >::operator= ( const matrix_container< C > & m )

inline

References boost::multiprecision::backends::operator=().

template<class T , std::size_t M, std::size_t N, class L >

template<class AE >

BOOST_UBLAS_INLINE bounded_matrix& boost::numeric::ublas::bounded_matrix< T, M, N, L >::operator= ( const matrix_expression< AE > & ae )

inline

References boost::multiprecision::backends::operator=().

BOOST_UBLAS_INLINE matrix& boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::plus_assign ( const matrix_expression< AE > & ae )

inlineinherited

BOOST_UBLAS_INLINE const_reverse_iterator1 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::rbegin1 ( ) const

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::end1().

BOOST_UBLAS_INLINE reverse_iterator1 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::rbegin1 ( )

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::end1().

BOOST_UBLAS_INLINE const_reverse_iterator2 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::rbegin2 ( ) const

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::end2().

BOOST_UBLAS_INLINE reverse_iterator2 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::rbegin2 ( )

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::end2().

BOOST_UBLAS_INLINE const_reverse_iterator1 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::rend1 ( ) const

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::begin1().

BOOST_UBLAS_INLINE reverse_iterator1 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::rend1 ( )

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::begin1().

BOOST_UBLAS_INLINE const_reverse_iterator2 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::rend2 ( ) const

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::begin2().

BOOST_UBLAS_INLINE reverse_iterator2 boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::rend2 ( )

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::begin2().

BOOST_UBLAS_INLINE void boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::resize	(	size_type	size1,
		size_type	size2,
		bool	preserve = `true`
	)

inlineinherited

Resize a matrix to new dimensions If data are preserved, then if the size if bigger at least on one dimension, extra values are filled with zeros.

If data are not preserved, then nothing has to be assumed regarding the content of the matrix after resizing.

Parameters

size1	the new number of rows
size2	the new number of colums
preserve	a boolean to say if one wants the data to be preserved during the resizing. Default is true.

References boost::numeric::ublas::matrix< T, L, A >::data(), boost::numeric::ublas::matrix< T, L, A >::size1(), and boost::numeric::ublas::matrix< T, L, A >::size2().

void boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::serialize	(	Archive &	ar,
		const unsigned	int
	)

inlineinherited

References boost::serialization::make_nvp(), boost::xpressive::s1, boost::xpressive::s2, and boost::program_options::value().

BOOST_UBLAS_INLINE size_type boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::size1 ( ) const

inlineinherited

Return the number of rows of the matrix You can also use the free size<>() function in operation/size.hpp as size<1>(m) where m is a matrix.

BOOST_UBLAS_INLINE size_type boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::size2 ( ) const

inlineinherited

Return the number of colums of the matrix You can also use the free size<>() function in operation/size.hpp as size<2>(m) where m is a matrix.

BOOST_UBLAS_INLINE void boost::numeric::ublas::matrix< T, L, bounded_array< T, M *N > >::swap ( matrix< T, L, bounded_array< T, M *N > > & m )

inlineinherited

References boost::numeric::ublas::matrix< T, L, A >::data(), and boost::swap.

Member Data Documentation

const unsigned boost::numeric::ublas::matrix_container< matrix< T, L, bounded_array< T, M *N > > >::complexity

staticinherited

template<class T , std::size_t M, std::size_t N, class L >

const size_type boost::numeric::ublas::bounded_matrix< T, M, N, L >::max_size1 = M

static

template<class T , std::size_t M, std::size_t N, class L >

const size_type boost::numeric::ublas::bounded_matrix< T, M, N, L >::max_size2 = N

static

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

boost_1_57_0/boost/numeric/ublas/fwd.hpp
boost_1_57_0/boost/numeric/ublas/matrix.hpp

Public Types

Public Member Functions

Static Public Attributes

Detailed Description

template<class T, std::size_t M, std::size_t N, class L> class boost::numeric::ublas::bounded_matrix< T, M, N, L >

Member Typedef Documentation

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation

template<class T, std::size_t M, std::size_t N, class L>
class boost::numeric::ublas::bounded_matrix< T, M, N, L >