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A numerical linear algebra library targeting many-core architectures
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gko::matrix::ScaledPermutation< ValueType, IndexType > Class Template Referencefinal
Linear Operators » SpMV employing different Matrix formats | Linear Operators

ScaledPermutation is a matrix combining a permutation with scaling factors. More...

#include <ginkgo/core/matrix/scaled_permutation.hpp>

Inheritance diagram for gko::matrix::ScaledPermutation< ValueType, IndexType >:
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Collaboration diagram for gko::matrix::ScaledPermutation< ValueType, IndexType >:
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Public Types

using value_type = ValueType
using index_type = IndexType
Public Types inherited from gko::EnablePolymorphicAssignment< ScaledPermutation< default_precision, int32 > >
using result_type
Public Types inherited from gko::WritableToMatrixData< default_precision, int32 >
using value_type
using index_type

Public Member Functions

value_type * get_scaling_factors () noexcept
 Returns a pointer to the scaling factors.
const value_type * get_const_scaling_factors () const noexcept
 Returns a pointer to the scaling factors.
index_type * get_permutation () noexcept
 Returns a pointer to the permutation indices.
const index_type * get_const_permutation () const noexcept
 Returns a pointer to the permutation indices.
std::unique_ptr< ScaledPermutation > compute_inverse () const
 Returns the inverse of this operator as a scaled permutation.
std::unique_ptr< ScaledPermutation > compose (ptr_param< const ScaledPermutation > other) const
 Composes this scaled permutation with another scaled permutation.
void write (gko::matrix_data< value_type, index_type > &data) const override
Public Member Functions inherited from gko::EnableLinOp< ScaledPermutation< default_precision, int32 > >
const ScaledPermutation< default_precision, int32 > * apply (ptr_param< const LinOp > b, ptr_param< LinOp > x) const
Public Member Functions inherited from gko::EnablePolymorphicAssignment< ScaledPermutation< default_precision, int32 > >
void convert_to (result_type *result) const override
void move_to (result_type *result) override
Public Member Functions inherited from gko::WritableToMatrixData< default_precision, int32 >
virtual void write (matrix_data< default_precision, int32 > &data) const=0
 Writes a matrix to a matrix_data structure.

Static Public Member Functions

static std::unique_ptr< ScaledPermutation > create (std::shared_ptr< const Executor > exec, size_type size=0)
 Creates an uninitialized ScaledPermutation matrix.
static std::unique_ptr< ScaledPermutation > create (ptr_param< const Permutation< IndexType > > permutation)
 Create a ScaledPermutation from a Permutation.
static std::unique_ptr< ScaledPermutation > create (std::shared_ptr< const Executor > exec, array< value_type > scaling_factors, array< index_type > permutation_indices)
 Creates a ScaledPermutation matrix from already allocated arrays.
static std::unique_ptr< const ScaledPermutation > create_const (std::shared_ptr< const Executor > exec, gko::detail::const_array_view< value_type > &&scale, gko::detail::const_array_view< index_type > &&perm_idxs)
 Creates a constant (immutable) ScaledPermutation matrix from constant arrays.

Friends

class EnablePolymorphicObject< ScaledPermutation, LinOp >

Detailed Description

template<typename ValueType = default_precision, typename IndexType = int32>
class gko::matrix::ScaledPermutation< ValueType, IndexType >

ScaledPermutation is a matrix combining a permutation with scaling factors.

It is a combination of Diagonal and Permutation, and can be read as $SP = P \cdot S$, i.e. the scaling gets applied before the permutation.

Template Parameters
IndexTypeindex type of permutation indices
ValueTypevalue type of the scaling factors

Member Function Documentation

◆ compose()

template<typename ValueType = default_precision, typename IndexType = int32>
std::unique_ptr< ScaledPermutation > gko::matrix::ScaledPermutation< ValueType, IndexType >::compose ( ptr_param< const ScaledPermutation< ValueType, IndexType > > other) const

Composes this scaled permutation with another scaled permutation.

This means result = other * this from the matrix perspective, which is equivalent to first scaling and permuting by this and then by other.

Parameters
otherthe other permutation
Returns
the combined permutation

◆ compute_inverse()

template<typename ValueType = default_precision, typename IndexType = int32>
std::unique_ptr< ScaledPermutation > gko::matrix::ScaledPermutation< ValueType, IndexType >::compute_inverse ( ) const

Returns the inverse of this operator as a scaled permutation.

It is computed via $(P S)^-1 = P^{-1} (P S P^{-1})$.

Returns
a newly created ScaledPermutation object storing the inverse of the permutation and scaling factors of this ScaledPermutation.

◆ create() [1/3]

template<typename ValueType = default_precision, typename IndexType = int32>
std::unique_ptr< ScaledPermutation > gko::matrix::ScaledPermutation< ValueType, IndexType >::create ( ptr_param< const Permutation< IndexType > > permutation)
static

Create a ScaledPermutation from a Permutation.

The permutation will be copied, the scaling factors are all set to 1.0.

Parameters
permutationthe permutation
Returns
A smart pointer to the newly created matrix.

◆ create() [2/3]

template<typename ValueType = default_precision, typename IndexType = int32>
std::unique_ptr< ScaledPermutation > gko::matrix::ScaledPermutation< ValueType, IndexType >::create ( std::shared_ptr< const Executor > exec,
array< value_type > scaling_factors,
array< index_type > permutation_indices )
static

Creates a ScaledPermutation matrix from already allocated arrays.

Parameters
execExecutor associated to the matrix
permutation_indicesarray of permutation indices
scaling_factorsarray of scaling factors
Returns
A smart pointer to the newly created matrix.

◆ create() [3/3]

template<typename ValueType = default_precision, typename IndexType = int32>
std::unique_ptr< ScaledPermutation > gko::matrix::ScaledPermutation< ValueType, IndexType >::create ( std::shared_ptr< const Executor > exec,
size_type size = 0 )
static

Creates an uninitialized ScaledPermutation matrix.

Parameters
execExecutor associated to the matrix
sizedimensions of the (square) scaled permutation matrix
Returns
A smart pointer to the newly created matrix.

◆ create_const()

template<typename ValueType = default_precision, typename IndexType = int32>
std::unique_ptr< const ScaledPermutation > gko::matrix::ScaledPermutation< ValueType, IndexType >::create_const ( std::shared_ptr< const Executor > exec,
gko::detail::const_array_view< value_type > && scale,
gko::detail::const_array_view< index_type > && perm_idxs )
static

Creates a constant (immutable) ScaledPermutation matrix from constant arrays.

Parameters
execthe executor to create the object on
perm_idxsthe permutation index array of the matrix
scalethe scaling factor array
Returns
A smart pointer to the constant matrix wrapping the input arrays (if it resides on the same executor as the matrix) or a copy of the arrays on the correct executor.

◆ get_const_permutation()

template<typename ValueType = default_precision, typename IndexType = int32>
const index_type * gko::matrix::ScaledPermutation< ValueType, IndexType >::get_const_permutation ( ) const
inlinenoexcept

Returns a pointer to the permutation indices.

Returns
the pointer to the permutation indices.
Note
This is the constant version of the function, which can be significantly more memory efficient than the non-constant version, so always prefer this version.

◆ get_const_scaling_factors()

template<typename ValueType = default_precision, typename IndexType = int32>
const value_type * gko::matrix::ScaledPermutation< ValueType, IndexType >::get_const_scaling_factors ( ) const
inlinenoexcept

Returns a pointer to the scaling factors.

Returns
the pointer to the scaling factors.
Note
This is the constant version of the function, which can be significantly more memory efficient than the non-constant version, so always prefer this version.

◆ get_permutation()

template<typename ValueType = default_precision, typename IndexType = int32>
index_type * gko::matrix::ScaledPermutation< ValueType, IndexType >::get_permutation ( )
inlinenoexcept

Returns a pointer to the permutation indices.

Returns
the pointer to the permutation indices.

◆ get_scaling_factors()

template<typename ValueType = default_precision, typename IndexType = int32>
value_type * gko::matrix::ScaledPermutation< ValueType, IndexType >::get_scaling_factors ( )
inlinenoexcept

Returns a pointer to the scaling factors.

Returns
the pointer to the scaling factors.
The documentation for this class was generated from the following file: