Dune::DiagonalMatrix< K, n > Class Template Reference

A diagonal matrix of static size. More...

#include <dune/common/diagonalmatrix.hh>

Public Types
enum	{ blocklevel = 1 }
	We are at the leaf of the block recursion. More...
enum	{ rows = n , cols = n }
	export size More...
typedef K	value_type
	export the type representing the field
typedef K	block_type
	export the type representing the components
typedef std::size_t	size_type
	The type used for the index access and size operations.
typedef DiagonalRowVector< K, n >	row_type
	Each row is implemented by a field vector.
typedef ContainerWrapperIterator< const WrapperType, reference, reference >	Iterator
	Iterator class for sequential access.
typedef Iterator	iterator
	typedef for stl compliant access
typedef Iterator	RowIterator
	rename the iterators for easier access
typedef row_type::Iterator	ColIterator
	rename the iterators for easier access
typedef ContainerWrapperIterator< const WrapperType, const_reference, const_reference >	ConstIterator
	Iterator class for sequential access.
typedef ConstIterator	const_iterator
	typedef for stl compliant access
typedef ConstIterator	ConstRowIterator
	rename the iterators for easier access
typedef const_row_type::ConstIterator	ConstColIterator
	rename the iterators for easier access

Public Member Functions
	DiagonalMatrix ()
	Default constructor.
	DiagonalMatrix (const K &k)
	Constructor initializing the whole matrix with a scalar.
	DiagonalMatrix (const FieldVector< K, n > &diag)
	Constructor initializing the diagonal with a vector.
DiagonalMatrix &	operator= (const K &k)
	Assignment from a scalar.
bool	identical (const DiagonalMatrix< K, n > &other) const
	Check if matrix is the same object as the other matrix.
Iterator	begin ()
	begin iterator
Iterator	end ()
	end iterator
Iterator	beforeEnd ()
Iterator	beforeBegin ()
ConstIterator	begin () const
	begin iterator
ConstIterator	end () const
	end iterator
ConstIterator	beforeEnd () const
ConstIterator	beforeBegin () const
DiagonalMatrix &	operator+= (const DiagonalMatrix &y)
	vector space addition
DiagonalMatrix &	operator-= (const DiagonalMatrix &y)
	vector space subtraction
DiagonalMatrix &	operator+= (const K &k)
	vector space multiplication with scalar
DiagonalMatrix &	operator-= (const K &k)
	vector space division by scalar
DiagonalMatrix &	operator*= (const K &k)
	vector space multiplication with scalar
DiagonalMatrix &	operator/= (const K &k)
	vector space division by scalar
bool	operator== (const DiagonalMatrix &other) const
	comparison operator
bool	operator!= (const DiagonalMatrix &other) const
	incomparison operator
template<class X , class Y >
void	mv (const X &x, Y &y) const
	y = A x
template<class X , class Y >
void	mtv (const X &x, Y &y) const
	y = A^T x
template<class X , class Y >
void	umv (const X &x, Y &y) const
	y += A x
template<class X , class Y >
void	umtv (const X &x, Y &y) const
	y += A^T x
template<class X , class Y >
void	umhv (const X &x, Y &y) const
	y += A^H x
template<class X , class Y >
void	mmv (const X &x, Y &y) const
	y -= A x
template<class X , class Y >
void	mmtv (const X &x, Y &y) const
	y -= A^T x
template<class X , class Y >
void	mmhv (const X &x, Y &y) const
	y -= A^H x
template<class X , class Y >
void	usmv (const K &alpha, const X &x, Y &y) const
	y += alpha A x
template<class X , class Y >
void	usmtv (const K &alpha, const X &x, Y &y) const
	y += alpha A^T x
template<class X , class Y >
void	usmhv (const K &alpha, const X &x, Y &y) const
	y += alpha A^H x
double	frobenius_norm () const
	frobenius norm: sqrt(sum over squared values of entries)
double	frobenius_norm2 () const
	square of frobenius norm, need for block recursion
double	infinity_norm () const
	infinity norm (row sum norm, how to generalize for blocks?)
double	infinity_norm_real () const
	simplified infinity norm (uses Manhattan norm for complex values)
template<class V >
void	solve (V &x, const V &b) const
	Solve system A x = b.
void	invert ()
	Compute inverse.
K	determinant () const
	calculates the determinant of this matrix
size_type	N () const
	number of blocks in row direction
size_type	M () const
	number of blocks in column direction
bool	exists (size_type i, size_type j) const
	return true when (i,j) is in pattern
reference	operator[] (size_type i)
	Return reference object as row replacement.
const_reference	operator[] (size_type i) const
	Return const_reference object as row replacement.
const K &	diagonal (size_type i) const
	Get const reference to diagonal entry.
K &	diagonal (size_type i)
	Get reference to diagonal entry.
const FieldVector< K, n > &	diagonal () const
	Get const reference to diagonal vector.
FieldVector< K, n > &	diagonal ()
	Get reference to diagonal vector.

Detailed Description

template<class K, int n>
class Dune::DiagonalMatrix< K, n >

A diagonal matrix of static size.

This is meant to be a replacement of FieldMatrix for the case that it is a diagonal matrix.

Template Parameters

K	Type used for scalars
n	Matrix size

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

• dune/common/diagonalmatrix.hh