Symmetric Matrix

Description

The templated class symmetric_matrix<T, F1, F2, A> is the base container adaptor for symmetric matrices. For a (n x n )-dimensional symmetric matrix and 0 <= i < n, 0 <= j < n holds s_{i, j} = s_j,
i. The storage of symmetric matrices is packed.

Example

#include <boost/numeric/ublas/symmetric.hpp>
#include <boost/numeric/ublas/io.hpp>

int main () {
    using namespace boost::numeric::ublas;
    symmetric_matrix<double, lower> ml (3, 3);
    for (unsigned i = 0; i < ml.size1 (); ++ i)
        for (unsigned j = 0; j <= i; ++ j)
            ml (i, j) = 3 * i + j;
    std::cout << ml << std::endl;
    symmetric_matrix<double, upper> mu (3, 3);
    for (unsigned i = 0; i < mu.size1 (); ++ i)
        for (unsigned j = i; j < mu.size2 (); ++ j)
            mu (i, j) = 3 * i + j;
    std::cout << mu << std::endl;
}

Definition

Defined in the header symmetric.hpp.

Template parameters

Parameter	Description	Default
`T`	The type of object stored in the matrix.
`F1`	Functor describing the type of the symmetric matrix. [1]	`lower`
`F2`	Functor describing the storage organization. [2]	`row_major`
`A`	The type of the adapted array. [3]	`unbounded_array<T>`

Model of

Matrix .

Type requirements

None, except for those imposed by the requirements of Matrix .

Public base classes

matrix_container<symmetric_matrix<T, F1, F2, A> >

Members

Member	Description
`symmetric_matrix (size_type size)`	Allocates an uninitialized `symmetric_matrix` that holds `size` rows of `size` elements.
`symmetric_matrix (const symmetric_matrix &m)`	The copy constructor.
`template<class AE> symmetric_matrix (const matrix_expression<AE> &ae)`	The extended copy constructor.
`void resize (size_type size, bool preserve = true)`	Reallocates a `symmetric_matrix` to hold `size` rows of `size` elements. The existing elements of the `symmetric_matrix` are preseved when specified.
`size_type size1 () const`	Returns the number of rows.
`size_type size2 () const`	Returns the number of columns.
`const_reference operator () (size_type i, size_type j) const`	Returns a `const` reference of the `j` -th element in the `i`-th row.
`reference operator () (size_type i, size_type j)`	Returns a reference of the `j`-th element in the `i`-th row.
`symmetric_matrix &operator = (const symmetric_matrix &m)`	The assignment operator.
`symmetric_matrix &assign_temporary (symmetric_matrix &m)`	Assigns a temporary. May change the symmetric matrix `m` .
`template<class AE> symmetric_matrix &operator = (const matrix_expression<AE> &ae)`	The extended assignment operator.
`template<class AE> symmetric_matrix &assign (const matrix_expression<AE> &ae)`	Assigns a matrix expression to the symmetric matrix. Left and right hand side of the assignment should be independent.
`template<class AE> symmetric_matrix &operator += (const matrix_expression<AE> &ae)`	A computed assignment operator. Adds the matrix expression to the symmetric matrix.
`template<class AE> symmetric_matrix &plus_assign (const matrix_expression<AE> &ae)`	Adds a matrix expression to the symmetric matrix. Left and right hand side of the assignment should be independent.
`template<class AE> symmetric_matrix &operator -= (const matrix_expression<AE> &ae)`	A computed assignment operator. Subtracts the matrix expression from the symmetric matrix.
`template<class AE> symmetric_matrix &minus_assign (const matrix_expression<AE> &ae)`	Subtracts a matrix expression from the symmetric matrix. Left and right hand side of the assignment should be independent.
`template<class AT> symmetric_matrix &operator *= (const AT &at)`	A computed assignment operator. Multiplies the symmetric matrix with a scalar.
`template<class AT> symmetric_matrix &operator /= (const AT &at)`	A computed assignment operator. Divides the symmetric matrix through a scalar.
`void swap (symmetric_matrix &m)`	Swaps the contents of the symmetric matrices.
`void insert (size_type i, size_type j, const_reference t)`	Inserts the value `t` at the `j`-th element of the `i`-th row.
`void erase (size_type i, size_type j)`	Erases the value at the `j`-th elemenst of the `i`-th row.
`void clear ()`	Clears the matrix.
`const_iterator1 begin1 () const`	Returns a `const_iterator1` pointing to the beginning of the `symmetric_matrix`.
`const_iterator1 end1 () const`	Returns a `const_iterator1` pointing to the end of the `symmetric_matrix`.
`iterator1 begin1 ()`	Returns a `iterator1` pointing to the beginning of the `symmetric_matrix`.
`iterator1 end1 ()`	Returns a `iterator1` pointing to the end of the `symmetric_matrix`.
`const_iterator2 begin2 () const`	Returns a `const_iterator2` pointing to the beginning of the `symmetric_matrix`.
`const_iterator2 end2 () const`	Returns a `const_iterator2` pointing to the end of the `symmetric_matrix`.
`iterator2 begin2 ()`	Returns a `iterator2` pointing to the beginning of the `symmetric_matrix`.
`iterator2 end2 ()`	Returns a `iterator2` pointing to the end of the `symmetric_matrix`.
`const_reverse_iterator1 rbegin1 () const`	Returns a `const_reverse_iterator1` pointing to the beginning of the reversed `symmetric_matrix`.
`const_reverse_iterator1 rend1 () const`	Returns a `const_reverse_iterator1` pointing to the end of the reversed `symmetric_matrix`.
`reverse_iterator1 rbegin1 ()`	Returns a `reverse_iterator1` pointing to the beginning of the reversed `symmetric_matrix`.
`reverse_iterator1 rend1 ()`	Returns a `reverse_iterator1` pointing to the end of the reversed `symmetric_matrix`.
`const_reverse_iterator2 rbegin2 () const`	Returns a `const_reverse_iterator2` pointing to the beginning of the reversed `symmetric_matrix`.
`const_reverse_iterator2 rend2 () const`	Returns a `const_reverse_iterator2` pointing to the end of the reversed `symmetric_matrix`.
`reverse_iterator2 rbegin2 ()`	Returns a `reverse_iterator2` pointing to the beginning of the reversed `symmetric_matrix`.
`reverse_iterator2 rend2 ()`	Returns a `reverse_iterator2` pointing to the end of the reversed `symmetric_matrix`.

Notes

[1] Supported parameters for the type of the symmetric matrix are lower and upper.

[2] Supported parameters for the storage organization are row_major and column_major.

[3] Supported parameters for the adapted array are unbounded_array<T> , bounded_array<T> and std::vector<T> .

Symmetric Adaptor

Description

The templated class symmetric_adaptor<M, F> is a symmetric matrix adaptor for other matrices.

Example

#include <boost/numeric/ublas/symmetric.hpp>
#include <boost/numeric/ublas/io.hpp>

int main () {
    using namespace boost::numeric::ublas;
    matrix<double> m (3, 3);
    symmetric_adaptor<matrix<double>, lower> sal (m);
    for (unsigned i = 0; i < sal.size1 (); ++ i)
        for (unsigned j = 0; j <= i; ++ j)
            sal (i, j) = 3 * i + j;
    std::cout << sal << std::endl;
    symmetric_adaptor<matrix<double>, upper> sau (m);
    for (unsigned i = 0; i < sau.size1 (); ++ i)
        for (unsigned j = i; j < sau.size2 (); ++ j)
            sau (i, j) = 3 * i + j;
    std::cout << sau << std::endl;
}

Definition

Defined in the header symmetric.hpp.

Template parameters

Parameter	Description	Default
`M`	The type of the adapted matrix.
`F`	Functor describing the type of the symmetric adaptor. [1]	`lower`

Model of

Matrix Expression .

Type requirements

None, except for those imposed by the requirements of Matrix Expression .

Public base classes

matrix_expression<symmetric_adaptor<M, F> >

Members

Member	Description
`symmetric_adaptor ()`	Constructs a `symmetric_adaptor` that holds zero rows of zero elements.
`symmetric_adaptor (matrix_type &data)`	Constructs a `symmetric_adaptor` of a matrix.
`symmetric_adaptor (const symmetric_adaptor &m)`	The copy constructor.
`template<class AE> symmetric_adaptor (const matrix_expression<AE> &ae)`	The extended copy constructor.
`size_type size1 () const`	Returns the number of rows.
`size_type size2 () const`	Returns the number of columns.
`const_reference operator () (size_type i, size_type j) const`	Returns a `const` reference of the `j` -th element in the `i`-th row.
`reference operator () (size_type i, size_type j)`	Returns a reference of the `j`-th element in the `i`-th row.
`symmetric_adaptor &operator = (const symmetric_adaptor &m)`	The assignment operator.
`symmetric_adaptor &assign_temporary (symmetric_adaptor &m)`	Assigns a temporary. May change the symmetric adaptor `m`.
`template<class AE> symmetric_adaptor &operator = (const matrix_expression<AE> &ae)`	The extended assignment operator.
`template<class AE> symmetric_adaptor &assign (const matrix_expression<AE> &ae)`	Assigns a matrix expression to the symmetric adaptor. Left and right hand side of the assignment should be independent.
`template<class AE> symmetric_adaptor &operator += (const matrix_expression<AE> &ae)`	A computed assignment operator. Adds the matrix expression to the symmetric adaptor.
`template<class AE> symmetric_adaptor &plus_assign (const matrix_expression<AE> &ae)`	Adds a matrix expression to the symmetric adaptor. Left and right hand side of the assignment should be independent.
`template<class AE> symmetric_adaptor &operator -= (const matrix_expression<AE> &ae)`	A computed assignment operator. Subtracts the matrix expression from the symmetric adaptor.
`template<class AE> symmetric_adaptor &minus_assign (const matrix_expression<AE> &ae)`	Subtracts a matrix expression from the symmetric adaptor. Left and right hand side of the assignment should be independent.
`template<class AT> symmetric_adaptor &operator *= (const AT &at)`	A computed assignment operator. Multiplies the symmetric adaptor with a scalar.
`template<class AT> symmetric_adaptor &operator /= (const AT &at)`	A computed assignment operator. Divides the symmetric adaptor through a scalar.
`void swap (symmetric_adaptor &m)`	Swaps the contents of the symmetric adaptors.
`const_iterator1 begin1 () const`	Returns a `const_iterator1` pointing to the beginning of the `symmetric_adaptor`.
`const_iterator1 end1 () const`	Returns a `const_iterator1` pointing to the end of the `symmetric_adaptor`.
`iterator1 begin1 ()`	Returns a `iterator1` pointing to the beginning of the `symmetric_adaptor`.
`iterator1 end1 ()`	Returns a `iterator1` pointing to the end of the `symmetric_adaptor`.
`const_iterator2 begin2 () const`	Returns a `const_iterator2` pointing to the beginning of the `symmetric_adaptor`.
`const_iterator2 end2 () const`	Returns a `const_iterator2` pointing to the end of the `symmetric_adaptor`.
`iterator2 begin2 ()`	Returns a `iterator2` pointing to the beginning of the `symmetric_adaptor`.
`iterator2 end2 ()`	Returns a `iterator2` pointing to the end of the `symmetric_adaptor`.
`const_reverse_iterator1 rbegin1 () const`	Returns a `const_reverse_iterator1` pointing to the beginning of the reversed `symmetric_adaptor`.
`const_reverse_iterator1 rend1 () const`	Returns a `const_reverse_iterator1` pointing to the end of the reversed `symmetric_adaptor`.
`reverse_iterator1 rbegin1 ()`	Returns a `reverse_iterator1` pointing to the beginning of the reversed `symmetric_adaptor`.
`reverse_iterator1 rend1 ()`	Returns a `reverse_iterator1` pointing to the end of the reversed `symmetric_adaptor`.
`const_reverse_iterator2 rbegin2 () const`	Returns a `const_reverse_iterator2` pointing to the beginning of the reversed `symmetric_adaptor`.
`const_reverse_iterator2 rend2 () const`	Returns a `const_reverse_iterator2` pointing to the end of the reversed `symmetric_adaptor`.
`reverse_iterator2 rbegin2 ()`	Returns a `reverse_iterator2` pointing to the beginning of the reversed `symmetric_adaptor`.
`reverse_iterator2 rend2 ()`	Returns a `reverse_iterator2` pointing to the end of the reversed `symmetric_adaptor`.

Notes

[1] Supported parameters for the type of the symmetric adaptor are lower and upper.

Copyright (©) 2000-2002 Joerg Walter, Mathias Koch
Use, modification and distribution are subject to the Boost Software License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt ).