Dune Core Modules (2.5.2)
scaledidmatrix.hh
Go to the documentation of this file.
47 };
61 };
125 typedef ContainerWrapperIterator<const WrapperType, const_reference, const_reference> ConstIterator;
Iterator class for sparse vector-like containers.
Definition: diagonalmatrix.hh:972
A multiple of the identity matrix of static size.
Definition: scaledidmatrix.hh:28
void usmhv(const K &alpha, const X &x, Y &y) const
y += alpha A^H x
Definition: scaledidmatrix.hh:335
void mmtv(const X &x, Y &y) const
y -= A^T x
Definition: scaledidmatrix.hh:287
ScaledIdentityMatrix & operator-=(const ScaledIdentityMatrix &y)
vector space subtraction
Definition: scaledidmatrix.hh:169
const_row_type::ConstIterator ConstColIterator
rename the iterators for easier access
Definition: scaledidmatrix.hh:131
ConstIterator end() const
end iterator
Definition: scaledidmatrix.hh:140
bool operator!=(const ScaledIdentityMatrix &other) const
incomparison operator
Definition: scaledidmatrix.hh:211
void mmv(const X &x, Y &y) const
y -= A x
Definition: scaledidmatrix.hh:275
std::size_t size_type
The type used for the index access and size operations.
Definition: scaledidmatrix.hh:41
void usmv(const K &alpha, const X &x, Y &y) const
y += alpha A x
Definition: scaledidmatrix.hh:311
row_type::Iterator ColIterator
rename the iterators for easier access
Definition: scaledidmatrix.hh:95
void mv(const X &x, Y &y) const
y = A x
Definition: scaledidmatrix.hh:220
void umtv(const X &x, Y &y) const
y += A^T x
Definition: scaledidmatrix.hh:251
void umhv(const X &x, Y &y) const
y += A^H x
Definition: scaledidmatrix.hh:263
DiagonalRowVector< K, n > row_type
Each row is implemented by a field vector.
Definition: scaledidmatrix.hh:50
ContainerWrapperIterator< const WrapperType, reference, reference > Iterator
Iterator class for sequential access.
Definition: scaledidmatrix.hh:89
K determinant() const
calculates the determinant of this matrix
Definition: scaledidmatrix.hh:390
K field_type
export the type representing the field
Definition: scaledidmatrix.hh:35
void usmtv(const K &alpha, const X &x, Y &y) const
y += alpha A^T x
Definition: scaledidmatrix.hh:323
Iterator iterator
typedef for stl compliant access
Definition: scaledidmatrix.hh:91
@ blocklevel
The number of block levels we contain. This is 1.
Definition: scaledidmatrix.hh:46
const K & scalar() const
Get const reference to the scalar diagonal value.
Definition: scaledidmatrix.hh:459
void umv(const X &x, Y &y) const
y += A x
Definition: scaledidmatrix.hh:239
const K & diagonal(size_type) const
Get const reference to diagonal entry.
Definition: scaledidmatrix.hh:446
ContainerWrapperIterator< const WrapperType, const_reference, const_reference > ConstIterator
Iterator class for sequential access.
Definition: scaledidmatrix.hh:125
K & diagonal(size_type)
Get reference to diagonal entry.
Definition: scaledidmatrix.hh:452
void solve(V &x, const V &b) const
Solve system A x = b.
Definition: scaledidmatrix.hh:376
bool exists(size_type i, size_type j) const
return true when (i,j) is in pattern
Definition: scaledidmatrix.hh:411
Iterator RowIterator
rename the iterators for easier access
Definition: scaledidmatrix.hh:93
ConstIterator const_iterator
typedef for stl compliant access
Definition: scaledidmatrix.hh:127
ScaledIdentityMatrix()
Default constructor.
Definition: scaledidmatrix.hh:66
bool operator==(const ScaledIdentityMatrix &other) const
comparison operator
Definition: scaledidmatrix.hh:205
ConstIterator beforeBegin() const
Definition: scaledidmatrix.hh:154
ScaledIdentityMatrix & operator/=(const K &k)
vector space division by scalar
Definition: scaledidmatrix.hh:196
friend std::ostream & operator<<(std::ostream &s, const ScaledIdentityMatrix< K, n > &a)
Sends the matrix to an output stream.
Definition: scaledidmatrix.hh:423
FieldTraits< field_type >::real_type frobenius_norm2() const
square of frobenius norm, need for block recursion
Definition: scaledidmatrix.hh:354
FieldTraits< field_type >::real_type frobenius_norm() const
frobenius norm: sqrt(sum over squared values of entries)
Definition: scaledidmatrix.hh:348
FieldTraits< field_type >::real_type infinity_norm() const
infinity norm (row sum norm, how to generalize for blocks?)
Definition: scaledidmatrix.hh:360
ConstIterator ConstRowIterator
rename the iterators for easier access
Definition: scaledidmatrix.hh:129
ConstIterator beforeEnd() const
Definition: scaledidmatrix.hh:147
size_type M() const
number of blocks in column direction
Definition: scaledidmatrix.hh:403
const_reference operator[](size_type i) const
Return const_reference object as row replacement.
Definition: scaledidmatrix.hh:440
ScaledIdentityMatrix(const K &k)
Constructor initializing the whole matrix with a scalar.
Definition: scaledidmatrix.hh:70
FieldTraits< field_type >::real_type infinity_norm_real() const
simplified infinity norm (uses Manhattan norm for complex values)
Definition: scaledidmatrix.hh:366
ScaledIdentityMatrix & operator*=(const K &k)
vector space multiplication with scalar
Definition: scaledidmatrix.hh:189
K & scalar()
Get reference to the scalar diagonal value.
Definition: scaledidmatrix.hh:466
K block_type
export the type representing the components
Definition: scaledidmatrix.hh:38
void mmhv(const X &x, Y &y) const
y -= A^H x
Definition: scaledidmatrix.hh:299
ScaledIdentityMatrix & operator+=(const ScaledIdentityMatrix &y)
vector space addition
Definition: scaledidmatrix.hh:162
void mtv(const X &x, Y &y) const
y = A^T x
Definition: scaledidmatrix.hh:232
reference operator[](size_type i)
Return reference object as row replacement.
Definition: scaledidmatrix.hh:434
ConstIterator begin() const
begin iterator
Definition: scaledidmatrix.hh:134
size_type N() const
number of blocks in row direction
Definition: scaledidmatrix.hh:397
This file implements a quadratic diagonal matrix of fixed size.
A few common exception classes.
Implements a matrix constructed from a given type representing a field and compile-time given number ...
Type traits to determine the type of reals (when working with complex numbers)
K conjugateComplex(const K &x)
compute conjugate complex of x
Definition: math.hh:103
|
Legal Statements / Impressum |
Hosted by TU Dresden |
generated with Hugo v0.111.3
(Nov 12, 23:30, 2024)