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VectorMatrixAssembler.cpp 3.50 KiB
/**
* \copyright
* Copyright (c) 2012-2016, OpenGeoSys Community (http://www.opengeosys.org)
* Distributed under a Modified BSD License.
* See accompanying file LICENSE.txt or
* http://www.opengeosys.org/project/license
*
*/
#include "VectorMatrixAssembler.h"
#include <cassert>
#include "NumLib/DOF/DOFTableUtil.h"
#include "MathLib/LinAlg/Eigen/EigenMapTools.h"
#include "LocalAssemblerInterface.h"
namespace ProcessLib
{
VectorMatrixAssembler::VectorMatrixAssembler(
std::unique_ptr<AbstractJacobianAssembler>&& jacobian_assembler)
: _jacobian_assembler(std::move(jacobian_assembler))
{
}
void VectorMatrixAssembler::assemble(
const std::size_t mesh_item_id, LocalAssemblerInterface& local_assembler,
const NumLib::LocalToGlobalIndexMap& dof_table, const double t,
const GlobalVector& x, GlobalMatrix& M, GlobalMatrix& K, GlobalVector& b)
{
auto const indices = NumLib::getIndices(mesh_item_id, dof_table);
auto const local_x = x.get(indices);
_local_M_data.clear();
_local_K_data.clear();
_local_b_data.clear();
local_assembler.assemble(t, local_x, _local_M_data, _local_K_data, _local_b_data);
auto const num_r_c = indices.size();
auto const r_c_indices =
NumLib::LocalToGlobalIndexMap::RowColumnIndices(indices, indices);
if (!_local_M_data.empty()) {
auto const local_M = MathLib::toMatrix(_local_M_data, num_r_c, num_r_c);
M.add(r_c_indices, local_M);
}
if (!_local_K_data.empty()) {
auto const local_K = MathLib::toMatrix(_local_K_data, num_r_c, num_r_c);
K.add(r_c_indices, local_K);
}
if (!_local_b_data.empty()) {
assert(_local_b_data.size() == num_r_c);
b.add(indices, _local_b_data);
}
}
void VectorMatrixAssembler::assembleWithJacobian(
std::size_t const mesh_item_id, LocalAssemblerInterface& local_assembler,
NumLib::LocalToGlobalIndexMap const& dof_table, const double t,
GlobalVector const& x, GlobalVector const& xdot, const double dxdot_dx,
const double dx_dx, GlobalMatrix& M, GlobalMatrix& K, GlobalVector& b,
GlobalMatrix& Jac)
{
auto const indices = NumLib::getIndices(mesh_item_id, dof_table);
auto const local_x = x.get(indices);
auto const local_xdot = xdot.get(indices);
_local_M_data.clear();
_local_K_data.clear(); _local_b_data.clear();
_local_Jac_data.clear();
_jacobian_assembler->assembleWithJacobian(
local_assembler, t, local_x, local_xdot, dxdot_dx, dx_dx, _local_M_data,
_local_K_data, _local_b_data, _local_Jac_data);
auto const num_r_c = indices.size();
auto const r_c_indices =
NumLib::LocalToGlobalIndexMap::RowColumnIndices(indices, indices);
if (!_local_M_data.empty()) {
auto const local_M = MathLib::toMatrix(_local_M_data, num_r_c, num_r_c);
M.add(r_c_indices, local_M);
}
if (!_local_K_data.empty()) {
auto const local_K = MathLib::toMatrix(_local_K_data, num_r_c, num_r_c);
K.add(r_c_indices, local_K);
}
if (!_local_b_data.empty()) {
assert(_local_b_data.size() == num_r_c);
b.add(indices, _local_b_data);
}
if (!_local_Jac_data.empty()) {
auto const local_Jac =
MathLib::toMatrix(_local_Jac_data, num_r_c, num_r_c);
Jac.add(r_c_indices, local_Jac);
} else {
OGS_FATAL(
"No Jacobian has been assembled! This might be due to programming "
"errors in the local assembler of the current process.");
}
}
} // ProcessLib