Detailed Description

template<typename ShapeFunction, int DisplacementDim>
class ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >

Definition at line 34 of file SmallDeformationLocalAssemblerMatrix.h.

#include <SmallDeformationLocalAssemblerMatrix.h>

Inheritance diagram for ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >:

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Collaboration diagram for ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >:

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Public Types
using	ShapeMatricesType

using	NodalMatrixType = typename ShapeMatricesType::NodalMatrixType

using	NodalVectorType = typename ShapeMatricesType::NodalVectorType

using	ShapeMatrices = typename ShapeMatricesType::ShapeMatrices

using	BMatricesType = BMatrixPolicyType<ShapeFunction, DisplacementDim>

using	StiffnessMatrixType = typename BMatricesType::StiffnessMatrixType

using	NodalForceVectorType = typename BMatricesType::NodalForceVectorType

using	NodalDisplacementVectorType

Public Member Functions
	SmallDeformationLocalAssemblerMatrix (SmallDeformationLocalAssemblerMatrix const &)=delete

	SmallDeformationLocalAssemblerMatrix (SmallDeformationLocalAssemblerMatrix &&)=delete

	SmallDeformationLocalAssemblerMatrix (MeshLib::Element const &e, std::size_t const local_matrix_size, NumLib::GenericIntegrationMethod const &integration_method, bool const is_axially_symmetric, SmallDeformationProcessData< DisplacementDim > &process_data)

void	assemble (double const, double const, std::vector< double > const &, std::vector< double > const &, std::vector< double > &, std::vector< double > &, std::vector< double > &) override

void	assembleWithJacobian (double const t, double const dt, std::vector< double > const &local_x, std::vector< double > const &, std::vector< double > &, std::vector< double > &, std::vector< double > &local_b_data, std::vector< double > &local_Jac_data) override

void	preTimestepConcrete (std::vector< double > const &, double const, double const) override

void	computeSecondaryVariableConcreteWithVector (double const t, Eigen::VectorXd const &local_x) override

Eigen::Map< const Eigen::RowVectorXd >	getShapeMatrix (const unsigned integration_point) const override
	Provides the shape matrix at the given integration point.

std::vector< double > const &	getIntPtSigma (const double t, std::vector< GlobalVector * > const &x, std::vector< NumLib::LocalToGlobalIndexMap const * > const &dof_table, std::vector< double > &cache) const override

std::vector< double > const &	getIntPtEpsilon (const double t, std::vector< GlobalVector * > const &x, std::vector< NumLib::LocalToGlobalIndexMap const * > const &dof_table, std::vector< double > &cache) const override

std::vector< double > const &	getIntPtFractureStress (const double, std::vector< GlobalVector * > const &, std::vector< NumLib::LocalToGlobalIndexMap const * > const &, std::vector< double > &cache) const override

std::vector< double > const &	getIntPtFractureAperture (const double, std::vector< GlobalVector * > const &, std::vector< NumLib::LocalToGlobalIndexMap const * > const &, std::vector< double > &cache) const override

Public Member Functions inherited from ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerInterface
	SmallDeformationLocalAssemblerInterface ()

	SmallDeformationLocalAssemblerInterface (std::size_t n_local_size, std::vector< unsigned > dofIndex_to_localIndex)

virtual void	assembleWithJacobian (double const, double const, Eigen::VectorXd const &, Eigen::VectorXd &, Eigen::MatrixXd &)

void	computeSecondaryVariableConcrete (double const t, double const, Eigen::VectorXd const &local_x, Eigen::VectorXd const &) override

Public Member Functions inherited from ProcessLib::LocalAssemblerInterface
virtual	~LocalAssemblerInterface ()=default

virtual void	setInitialConditions (std::size_t const mesh_item_id, std::vector< NumLib::LocalToGlobalIndexMap const * > const &dof_tables, std::vector< GlobalVector * > const &x, double const t, int const process_id)

virtual void	initialize (std::size_t const mesh_item_id, NumLib::LocalToGlobalIndexMap const &dof_table)

virtual void	preAssemble (double const, double const, std::vector< double > const &)

virtual void	assembleForStaggeredScheme (double const t, double const dt, Eigen::VectorXd const &local_x, Eigen::VectorXd const &local_x_prev, int const process_id, std::vector< double > &local_M_data, std::vector< double > &local_K_data, std::vector< double > &local_b_data)

virtual void	assembleWithJacobianForStaggeredScheme (double const t, double const dt, Eigen::VectorXd const &local_x, Eigen::VectorXd const &local_x_prev, int const process_id, std::vector< double > &local_M_data, std::vector< double > &local_K_data, std::vector< double > &local_b_data, std::vector< double > &local_Jac_data)

virtual void	computeSecondaryVariable (std::size_t const mesh_item_id, std::vector< NumLib::LocalToGlobalIndexMap const * > const &dof_tables, double const t, double const dt, std::vector< GlobalVector * > const &x, GlobalVector const &x_prev, int const process_id)

virtual void	preTimestep (std::size_t const mesh_item_id, NumLib::LocalToGlobalIndexMap const &dof_table, GlobalVector const &x, double const t, double const delta_t)

virtual void	postTimestep (std::size_t const mesh_item_id, std::vector< NumLib::LocalToGlobalIndexMap const * > const &dof_tables, std::vector< GlobalVector * > const &x, std::vector< GlobalVector * > const &x_prev, double const t, double const dt, int const process_id)

void	postNonLinearSolver (std::size_t const mesh_item_id, std::vector< NumLib::LocalToGlobalIndexMap const * > const &dof_tables, std::vector< GlobalVector * > const &x, std::vector< GlobalVector * > const &x_prev, double const t, double const dt, int const process_id)

virtual Eigen::Vector3d	getFlux (MathLib::Point3d const &, double const, std::vector< double > const &) const

virtual Eigen::Vector3d	getFlux (MathLib::Point3d const &, double const, std::vector< std::vector< double > > const &) const
	Fits to staggered scheme.

Public Member Functions inherited from NumLib::ExtrapolatableElement
virtual	~ExtrapolatableElement ()=default

Private Types
using	IntegrationPointDataType

Private Attributes
SmallDeformationProcessData< DisplacementDim > &	_process_data

std::vector< IntegrationPointDataType, Eigen::aligned_allocator< IntegrationPointDataType > >	_ip_data

NumLib::GenericIntegrationMethod const &	_integration_method

MeshLib::Element const &	_element

bool const	_is_axially_symmetric

SecondaryData< typename ShapeMatrices::ShapeType >	_secondary_data

Additional Inherited Members

Member Typedef Documentation

◆ BMatricesType

template<typename ShapeFunction , int DisplacementDim>

using ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::BMatricesType = BMatrixPolicyType<ShapeFunction, DisplacementDim>

Definition at line 43 of file SmallDeformationLocalAssemblerMatrix.h.

◆ IntegrationPointDataType

template<typename ShapeFunction , int DisplacementDim>

using ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::IntegrationPointDataType

private

Initial value:

 
        IntegrationPointDataMatrix<ShapeMatricesType, BMatricesType,
                                   DisplacementDim>

Definition at line 142 of file SmallDeformationLocalAssemblerMatrix.h.

◆ NodalDisplacementVectorType

template<typename ShapeFunction , int DisplacementDim>

using ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::NodalDisplacementVectorType

Initial value:

typename BMatricesType::NodalForceVectorType

ProcessLib::BMatrixPolicyType::NodalForceVectorType

VectorType< _number_of_dof > NodalForceVectorType

Rhs residual.

Definition BMatrixPolicy.h:44

Definition at line 47 of file SmallDeformationLocalAssemblerMatrix.h.

◆ NodalForceVectorType

template<typename ShapeFunction , int DisplacementDim>

using ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::NodalForceVectorType = typename BMatricesType::NodalForceVectorType

Definition at line 46 of file SmallDeformationLocalAssemblerMatrix.h.

◆ NodalMatrixType

template<typename ShapeFunction , int DisplacementDim>

using ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::NodalMatrixType = typename ShapeMatricesType::NodalMatrixType

Definition at line 40 of file SmallDeformationLocalAssemblerMatrix.h.

◆ NodalVectorType

template<typename ShapeFunction , int DisplacementDim>

using ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::NodalVectorType = typename ShapeMatricesType::NodalVectorType

Definition at line 41 of file SmallDeformationLocalAssemblerMatrix.h.

◆ ShapeMatrices

template<typename ShapeFunction , int DisplacementDim>

using ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::ShapeMatrices = typename ShapeMatricesType::ShapeMatrices

Definition at line 42 of file SmallDeformationLocalAssemblerMatrix.h.

◆ ShapeMatricesType

template<typename ShapeFunction , int DisplacementDim>

using ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::ShapeMatricesType

Initial value:

ShapeMatrixPolicyType<ShapeFunction, DisplacementDim>

EigenFixedShapeMatrixPolicy

Definition ShapeMatrixPolicy.h:73

Definition at line 38 of file SmallDeformationLocalAssemblerMatrix.h.

◆ StiffnessMatrixType

template<typename ShapeFunction , int DisplacementDim>

using ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::StiffnessMatrixType = typename BMatricesType::StiffnessMatrixType

Definition at line 45 of file SmallDeformationLocalAssemblerMatrix.h.

Constructor & Destructor Documentation

◆ SmallDeformationLocalAssemblerMatrix() [1/3]

template<typename ShapeFunction , int DisplacementDim>

ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::SmallDeformationLocalAssemblerMatrix ( SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim > const & )

delete

◆ SmallDeformationLocalAssemblerMatrix() [2/3]

template<typename ShapeFunction , int DisplacementDim>

ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::SmallDeformationLocalAssemblerMatrix ( SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim > && )

delete

◆ SmallDeformationLocalAssemblerMatrix() [3/3]

template<typename ShapeFunction , int DisplacementDim>

ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::SmallDeformationLocalAssemblerMatrix	(	MeshLib::Element const &	e,
		std::size_t const	local_matrix_size,
		NumLib::GenericIntegrationMethod const &	integration_method,
		bool const	is_axially_symmetric,
		SmallDeformationProcessData< DisplacementDim > &	process_data )

Definition at line 39 of file SmallDeformationLocalAssemblerMatrix-impl.h.

    : _process_data(process_data),
      _integration_method(integration_method),
      _element(e),
      _is_axially_symmetric(is_axially_symmetric)
{
    unsigned const n_integration_points =
        _integration_method.getNumberOfPoints();
 
    _ip_data.reserve(n_integration_points);
    _secondary_data.N.resize(n_integration_points);
 
    auto const shape_matrices =
        NumLib::initShapeMatrices<ShapeFunction, ShapeMatricesType,
                                  DisplacementDim>(e, is_axially_symmetric,
                                                   _integration_method);
 
    auto& solid_material = MaterialLib::Solids::selectSolidConstitutiveRelation(
        _process_data.solid_materials, _process_data.material_ids, e.getID());
 
    for (unsigned ip = 0; ip < n_integration_points; ip++)
    {
        _ip_data.emplace_back(solid_material);
        auto& ip_data = _ip_data[ip];
        auto const& sm = shape_matrices[ip];
        ip_data.N = sm.N;
        ip_data.dNdx = sm.dNdx;
        ip_data.integration_weight =
            _integration_method.getWeightedPoint(ip).getWeight() *
            sm.integralMeasure * sm.detJ;
 
        // Initialize current time step values
        static const int kelvin_vector_size =
            MathLib::KelvinVector::kelvin_vector_dimensions(DisplacementDim);
        ip_data._sigma.setZero(kelvin_vector_size);
        ip_data._eps.setZero(kelvin_vector_size);
 
        // Previous time step values are not initialized and are set later.
        ip_data._sigma_prev.resize(kelvin_vector_size);
        ip_data._eps_prev.resize(kelvin_vector_size);
 
        ip_data._C.resize(kelvin_vector_size, kelvin_vector_size);
 
        _secondary_data.N[ip] = sm.N;
    }
}

References ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::_integration_method, ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::_ip_data, ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::_process_data, ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::_secondary_data, MeshLib::Element::getID(), NumLib::GenericIntegrationMethod::getNumberOfPoints(), MathLib::WeightedPoint::getWeight(), NumLib::GenericIntegrationMethod::getWeightedPoint(), NumLib::initShapeMatrices(), MathLib::KelvinVector::kelvin_vector_dimensions(), ProcessLib::HeatTransportBHE::SecondaryData< ShapeMatrixType >::N, and MaterialLib::Solids::selectSolidConstitutiveRelation().

Member Function Documentation

◆ assemble()

template<typename ShapeFunction , int DisplacementDim>

void ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::assemble	(	double const	,
		double const	,
		std::vector< double > const &	,
		std::vector< double > const &	,
		std::vector< double > &	,
		std::vector< double > &	,
		std::vector< double > &	)

inlineoverridevirtual

Reimplemented from ProcessLib::LocalAssemblerInterface.

Definition at line 62 of file SmallDeformationLocalAssemblerMatrix.h.

    {
        OGS_FATAL(
            "SmallDeformationLocalAssembler: assembly without jacobian is not "
            "implemented.");
    }

References OGS_FATAL.

◆ assembleWithJacobian()

template<typename ShapeFunction , int DisplacementDim>

void ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::assembleWithJacobian	(	double const	t,
		double const	dt,
		std::vector< double > const &	local_x,
		std::vector< double > const &	,
		std::vector< double > &	,
		std::vector< double > &	,
		std::vector< double > &	local_b_data,
		std::vector< double > &	local_Jac_data )

overridevirtual

Reimplemented from ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerInterface.

Definition at line 93 of file SmallDeformationLocalAssemblerMatrix-impl.h.

{
    assert(_element.getDimension() == DisplacementDim);
 
    auto const local_matrix_size = local_x.size();
 
    auto local_Jac = MathLib::createZeroedMatrix<StiffnessMatrixType>(
        local_Jac_data, local_matrix_size, local_matrix_size);
 
    auto local_b = MathLib::createZeroedVector<NodalDisplacementVectorType>(
        local_b_data, local_matrix_size);
 
    unsigned const n_integration_points =
        _integration_method.getNumberOfPoints();
 
    MPL::VariableArray variables;
    MPL::VariableArray variables_prev;
    ParameterLib::SpatialPosition x_position;
    x_position.setElementID(_element.getID());
 
    for (unsigned ip = 0; ip < n_integration_points; ip++)
    {
        x_position.setIntegrationPoint(ip);
        auto const& w = _ip_data[ip].integration_weight;
 
        auto const& N = _ip_data[ip].N;
        auto const& dNdx = _ip_data[ip].dNdx;
        auto const x_coord =
            NumLib::interpolateXCoordinate<ShapeFunction, ShapeMatricesType>(
                _element, N);
        auto const B =
            LinearBMatrix::computeBMatrix<DisplacementDim,
                                          ShapeFunction::NPOINTS,
                                          typename BMatricesType::BMatrixType>(
                dNdx, N, x_coord, _is_axially_symmetric);
 
        auto const& eps_prev = _ip_data[ip]._eps_prev;
        auto const& sigma_prev = _ip_data[ip]._sigma_prev;
 
        auto& eps = _ip_data[ip]._eps;
        auto& sigma = _ip_data[ip]._sigma;
        auto& state = _ip_data[ip]._material_state_variables;
 
        eps.noalias() =
            B * Eigen::Map<typename BMatricesType::NodalForceVectorType const>(
                    local_x.data(), ShapeFunction::NPOINTS * DisplacementDim);
 
        variables.mechanical_strain
            .emplace<MathLib::KelvinVector::KelvinVectorType<DisplacementDim>>(
                eps);
        variables_prev.stress
            .emplace<MathLib::KelvinVector::KelvinVectorType<DisplacementDim>>(
                sigma_prev);
        variables_prev.mechanical_strain
            .emplace<MathLib::KelvinVector::KelvinVectorType<DisplacementDim>>(
                eps_prev);
        variables_prev.temperature = _process_data._reference_temperature;
 
        auto&& solution = _ip_data[ip]._solid_material.integrateStress(
            variables_prev, variables, t, x_position, dt, *state);
 
        if (!solution)
        {
            OGS_FATAL("Computation of local constitutive relation failed.");
        }
 
        MathLib::KelvinVector::KelvinMatrixType<DisplacementDim> C;
        std::tie(sigma, state, C) = std::move(*solution);
 
        local_b.noalias() -= B.transpose() * sigma * w;
        local_Jac.noalias() += B.transpose() * C * B * w;
    }
}

References ProcessLib::LinearBMatrix::computeBMatrix(), MaterialPropertyLib::VariableArray::mechanical_strain, OGS_FATAL, ParameterLib::SpatialPosition::setElementID(), ParameterLib::SpatialPosition::setIntegrationPoint(), MaterialPropertyLib::VariableArray::stress, and MaterialPropertyLib::VariableArray::temperature.

◆ computeSecondaryVariableConcreteWithVector()

template<typename ShapeFunction , int DisplacementDim>

void ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::computeSecondaryVariableConcreteWithVector	(	double const	t,
		Eigen::VectorXd const &	local_x )

overridevirtual

Implements ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerInterface.

Definition at line 175 of file SmallDeformationLocalAssemblerMatrix-impl.h.

{
    // Compute average value per element
    using KV = MathLib::KelvinVector::KelvinVectorType<DisplacementDim>;
    KV sigma_avg = KV::Zero();
    auto const e_id = _element.getID();
 
    unsigned const n_integration_points =
        _integration_method.getNumberOfPoints();
    for (unsigned ip = 0; ip < n_integration_points; ip++)
    {
        sigma_avg += _ip_data[ip]._sigma;
    }
    sigma_avg /= n_integration_points;
 
    Eigen::Map<KV>(
        &(*_process_data.element_stresses)[e_id * KV::RowsAtCompileTime]) =
        MathLib::KelvinVector::kelvinVectorToSymmetricTensor(sigma_avg);
}

References MathLib::KelvinVector::kelvinVectorToSymmetricTensor().

◆ getIntPtEpsilon()

template<typename ShapeFunction , int DisplacementDim>

std::vector< double > const & ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::getIntPtEpsilon	(	const double	t,
		std::vector< GlobalVector * > const &	x,
		std::vector< NumLib::LocalToGlobalIndexMap const * > const &	dof_table,
		std::vector< double > &	cache ) const

overridevirtual

Implements ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerInterface.

Definition at line 211 of file SmallDeformationLocalAssemblerMatrix-impl.h.

{
    return ProcessLib::getIntegrationPointKelvinVectorData<DisplacementDim>(
        _ip_data, &IntegrationPointDataType::_eps, cache);
}

◆ getIntPtFractureAperture()

template<typename ShapeFunction , int DisplacementDim>

std::vector< double > const & ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::getIntPtFractureAperture	(	const double	,
		std::vector< GlobalVector * > const &	,
		std::vector< NumLib::LocalToGlobalIndexMap const * > const &	,
		std::vector< double > &	cache ) const

inlineoverridevirtual

Implements ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerInterface.

Definition at line 129 of file SmallDeformationLocalAssemblerMatrix.h.

    {
        cache.resize(0);
        return cache;
    }

◆ getIntPtFractureStress()

template<typename ShapeFunction , int DisplacementDim>

std::vector< double > const & ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::getIntPtFractureStress	(	const double	,
		std::vector< GlobalVector * > const &	,
		std::vector< NumLib::LocalToGlobalIndexMap const * > const &	,
		std::vector< double > &	cache ) const

inlineoverridevirtual

Implements ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerInterface.

Definition at line 119 of file SmallDeformationLocalAssemblerMatrix.h.

    {
        cache.resize(0);
        return cache;
    }

◆ getIntPtSigma()

template<typename ShapeFunction , int DisplacementDim>

std::vector< double > const & ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::getIntPtSigma	(	const double	t,
		std::vector< GlobalVector * > const &	x,
		std::vector< NumLib::LocalToGlobalIndexMap const * > const &	dof_table,
		std::vector< double > &	cache ) const

overridevirtual

Implements ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerInterface.

Definition at line 199 of file SmallDeformationLocalAssemblerMatrix-impl.h.

{
    return ProcessLib::getIntegrationPointKelvinVectorData<DisplacementDim>(
        _ip_data, &IntegrationPointDataType::_sigma, cache);
}

◆ getShapeMatrix()

template<typename ShapeFunction , int DisplacementDim>

Eigen::Map< const Eigen::RowVectorXd > ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::getShapeMatrix ( const unsigned integration_point ) const

inlineoverridevirtual

Provides the shape matrix at the given integration point.

Implements NumLib::ExtrapolatableElement.

Definition at line 98 of file SmallDeformationLocalAssemblerMatrix.h.

    {
        auto const& N = _secondary_data.N[integration_point];
 
        // assumes N is stored contiguously in memory
        return Eigen::Map<const Eigen::RowVectorXd>(N.data(), N.size());
    }

References ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::_secondary_data, and ProcessLib::HeatTransportBHE::SecondaryData< ShapeMatrixType >::N.

◆ preTimestepConcrete()

template<typename ShapeFunction , int DisplacementDim>

void ProcessLib::LIE::SmallDeformation::SmallDeformationLocalAssemblerMatrix< ShapeFunction, DisplacementDim >::preTimestepConcrete	(	std::vector< double > const &	,
		double const	,
		double const	)

inlineoverridevirtual

Reimplemented from ProcessLib::LocalAssemblerInterface.

Definition at line 82 of file SmallDeformationLocalAssemblerMatrix.h.

    {
        unsigned const n_integration_points =
            _integration_method.getNumberOfPoints();
 
        for (unsigned ip = 0; ip < n_integration_points; ip++)
        {
            _ip_data[ip].pushBackState();
        }
    }