ginkgo-hpc/html/scaled__reordered_8hpp_source.html

// SPDX-FileCopyrightText: 2017 - 2025 The Ginkgo authors

//

// SPDX-License-Identifier: BSD-3-Clause


#ifndef GKO_PUBLIC_CORE_REORDER_SCALED_REORDERED_HPP_

#define GKO_PUBLIC_CORE_REORDER_SCALED_REORDERED_HPP_


#include <ginkgo/core/base/abstract_factory.hpp>

#include <ginkgo/core/base/executor.hpp>

#include <ginkgo/core/base/lin_op.hpp>

#include <ginkgo/core/base/types.hpp>

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

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

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

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

#include <ginkgo/core/reorder/reordering_base.hpp>


namespace gko {

namespace experimental {

namespace reorder {


template <typename ValueType = default_precision, typename IndexType = int32>


class ScaledReordered

    : public EnableLinOp<ScaledReordered<ValueType, IndexType>> {

    friend class EnableLinOp<ScaledReordered, LinOp>;

    friend class EnablePolymorphicObject<ScaledReordered, LinOp>;

    GKO_ASSERT_SUPPORTED_VALUE_AND_INDEX_TYPE;


public:

    using value_type = ValueType;

    using index_type = IndexType;

    using ReorderingBaseFactory =

        AbstractFactory<gko::reorder::ReorderingBase<IndexType>,

                        gko::reorder::ReorderingBaseArgs>;


    std::shared_ptr<const LinOp> get_system_matrix() const

    {

        return system_matrix_;

    }


    std::shared_ptr<const LinOp> get_inner_operator() const

    {

        return inner_operator_;

    }


    GKO_CREATE_FACTORY_PARAMETERS(parameters, Factory)

    {

        std::shared_ptr<const LinOpFactory> GKO_FACTORY_PARAMETER_SCALAR(

            inner_operator, nullptr);


        std::shared_ptr<const ReorderingBaseFactory>

            GKO_FACTORY_PARAMETER_SCALAR(reordering, nullptr);


        std::shared_ptr<const matrix::Diagonal<value_type>>

            GKO_FACTORY_PARAMETER_SCALAR(row_scaling, nullptr);


        std::shared_ptr<const matrix::Diagonal<value_type>>

            GKO_FACTORY_PARAMETER_SCALAR(col_scaling, nullptr);

    };


    GKO_ENABLE_LIN_OP_FACTORY(ScaledReordered, parameters, Factory);

    GKO_ENABLE_BUILD_METHOD(Factory);


protected:

    explicit ScaledReordered(std::shared_ptr<const Executor> exec)

        : EnableLinOp<ScaledReordered>(std::move(exec)),

          permutation_array_{exec}

    {}


    explicit ScaledReordered(const Factory* factory,

                             std::shared_ptr<const LinOp> system_matrix)

        : EnableLinOp<ScaledReordered>(factory->get_executor(),

                                       system_matrix->get_size()),

          parameters_{factory->get_parameters()},

          permutation_array_{factory->get_executor()}

    {

        // For now only support square matrices.

        GKO_ASSERT_IS_SQUARE_MATRIX(system_matrix);


        auto exec = this->get_executor();


        system_matrix_ = gko::clone(exec, system_matrix);


        // Scale the system matrix if scaling coefficients are provided

        if (parameters_.row_scaling) {

            GKO_ASSERT_EQUAL_DIMENSIONS(parameters_.row_scaling,

                                        system_matrix_);

            row_scaling_ = parameters_.row_scaling;

            row_scaling_->apply(system_matrix_, system_matrix_);

        }

        if (parameters_.col_scaling) {

            GKO_ASSERT_EQUAL_DIMENSIONS(parameters_.col_scaling,

                                        system_matrix_);

            col_scaling_ = parameters_.col_scaling;

            col_scaling_->rapply(system_matrix_, system_matrix_);

        }


        // If a reordering factory is provided, generate the reordering and

        // permute the system matrix accordingly.

        if (parameters_.reordering) {

            auto reordering = parameters_.reordering->generate(system_matrix_);

            permutation_array_ = reordering->get_permutation_array();

            system_matrix_ = as<Permutable<index_type>>(system_matrix_)

                                 ->permute(&permutation_array_);

        }


        // Generate the inner operator with the scaled and reordered system

        // matrix. If none is provided, use the Identity.

        if (parameters_.inner_operator) {

            inner_operator_ =

                parameters_.inner_operator->generate(system_matrix_);

        } else {

            inner_operator_ = gko::matrix::Identity<value_type>::create(

                exec, this->get_size()[0]);

        }

    }


    void apply_impl(const LinOp* b, LinOp* x) const override;


    void apply_impl(const LinOp* alpha, const LinOp* b, const LinOp* beta,

                    LinOp* x) const override;


    void set_cache_to(const LinOp* b, const LinOp* x) const

    {

        if (cache_.inner_b == nullptr ||

            cache_.inner_b->get_size() != b->get_size()) {

            const auto size = b->get_size();

            cache_.inner_b =

                matrix::Dense<value_type>::create(this->get_executor(), size);

            cache_.inner_x =

                matrix::Dense<value_type>::create(this->get_executor(), size);

            cache_.intermediate =

                matrix::Dense<value_type>::create(this->get_executor(), size);

        }

        cache_.inner_b->copy_from(b);

        if (inner_operator_->apply_uses_initial_guess()) {

            cache_.inner_x->copy_from(x);

        }

    }


private:

    std::shared_ptr<LinOp> system_matrix_{};

    std::shared_ptr<const LinOp> inner_operator_{};

    std::shared_ptr<const matrix::Diagonal<value_type>> row_scaling_{};

    std::shared_ptr<const matrix::Diagonal<value_type>> col_scaling_{};

    array<index_type> permutation_array_{};


    mutable struct cache_struct {

        cache_struct() = default;


        ~cache_struct() = default;


        cache_struct(const cache_struct&) {}


        cache_struct(cache_struct&&) {}


        cache_struct& operator=(const cache_struct&) { return *this; }


        cache_struct& operator=(cache_struct&&) { return *this; }


        std::unique_ptr<matrix::Dense<value_type>> inner_b{};

        std::unique_ptr<matrix::Dense<value_type>> inner_x{};

        std::unique_ptr<matrix::Dense<value_type>> intermediate{};

    } cache_;

};


}  // namespace reorder

}  // namespace experimental

}  // namespace gko


#endif  // GKO_PUBLIC_CORE_REORDER_SCALED_REORDERED_HPP_

gko::AbstractFactory
The AbstractFactory is a generic interface template that enables easy implementation of the abstract ...
Definition abstract_factory.hpp:47

gko::EnableLinOp
The EnableLinOp mixin can be used to provide sensible default implementations of the majority of the ...
Definition lin_op.hpp:879

gko::EnablePolymorphicObject
This mixin inherits from (a subclass of) PolymorphicObject and provides a base implementation of a ne...
Definition polymorphic_object.hpp:668

gko::LinOp
Definition lin_op.hpp:117

gko::experimental::reorder::ScaledReordered::Factory
Definition scaled_reordered.hpp:96

gko::matrix::Dense::create
static std::unique_ptr< Dense > create(std::shared_ptr< const Executor > exec, const dim< 2 > &size={}, size_type stride=0)
Creates an uninitialized Dense matrix of the specified size.

gko::matrix::Identity::create
static std::unique_ptr< Identity > create(std::shared_ptr< const Executor > exec, dim< 2 > size)
Creates an Identity matrix of the specified size.

GKO_CREATE_FACTORY_PARAMETERS
#define GKO_CREATE_FACTORY_PARAMETERS(_parameters_name, _factory_name)
This Macro will generate a new type containing the parameters for the factory _factory_name.
Definition abstract_factory.hpp:280

GKO_FACTORY_PARAMETER_SCALAR
#define GKO_FACTORY_PARAMETER_SCALAR(_name, _default)
Creates a scalar factory parameter in the factory parameters structure.
Definition abstract_factory.hpp:445

GKO_ENABLE_BUILD_METHOD
#define GKO_ENABLE_BUILD_METHOD(_factory_name)
Defines a build method for the factory, simplifying its construction by removing the repetitive typin...
Definition abstract_factory.hpp:394

GKO_ENABLE_LIN_OP_FACTORY
#define GKO_ENABLE_LIN_OP_FACTORY(_lin_op, _parameters_name, _factory_name)
This macro will generate a default implementation of a LinOpFactory for the LinOp subclass it is defi...
Definition lin_op.hpp:1017

gko::experimental::reorder
The Reorder namespace.
Definition amd.hpp:25

gko
The Ginkgo namespace.
Definition abstract_factory.hpp:20

gko::clone
detail::cloned_type< Pointer > clone(const Pointer &p)
Creates a unique clone of the object pointed to by p.
Definition utils_helper.hpp:173

gko::as
std::decay_t< T > * as(U *obj)
Performs polymorphic type conversion.
Definition utils_helper.hpp:307

std
STL namespace.

gko::experimental::reorder::ScaledReordered::parameters_type::reordering
std::shared_ptr< const ReorderingBaseFactory > reordering
The reordering that is to be applied to the system matrix.
Definition scaled_reordered.hpp:82

gko::experimental::reorder::ScaledReordered::parameters_type::inner_operator
std::shared_ptr< const LinOpFactory > inner_operator
The inner operator factory that is to be generated on the scaled and reordered system matrix.
Definition scaled_reordered.hpp:74

gko::experimental::reorder::ScaledReordered::parameters_type::row_scaling
std::shared_ptr< const matrix::Diagonal< value_type > > row_scaling
The row scaling that is to be applied to the system matrix.
Definition scaled_reordered.hpp:88

gko::experimental::reorder::ScaledReordered::parameters_type::col_scaling
std::shared_ptr< const matrix::Diagonal< value_type > > col_scaling
The column scaling that is to be applied to the system matrix.
Definition scaled_reordered.hpp:94

gko::reorder::ReorderingBaseArgs
This struct is used to pass parameters to the EnableDefaultReorderingBaseFactory::generate() method.
Definition reordering_base.hpp:65