#include <SumModel.hpp>

Inheritance diagram for polyfem::assembler::SumModel:

Collaboration diagram for polyfem::assembler::SumModel:

Public Member Functions
double	compute_energy (const NonLinearAssemblerData &data) const override

Eigen::MatrixXd	assemble_hessian (const NonLinearAssemblerData &data) const override

Eigen::VectorXd	assemble_gradient (const NonLinearAssemblerData &data) const override

VectorNd	compute_rhs (const AutodiffHessianPt &pt) const override

void	add_multimaterial (const int index, const json &params, const Units &units) override

std::string	name () const override

bool	allow_inversion () const override

std::map< std::string, ParamFunc >	parameters () const override

double	assemble_energy (const bool is_volume, const std::vector< basis::ElementBases > &bases, const std::vector< basis::ElementBases > &gbases, const AssemblyValsCache &cache, const double t, const double dt, const Eigen::MatrixXd &displacement, const Eigen::MatrixXd &displacement_prev) const override

void	assemble_gradient (const bool is_volume, const int n_basis, const std::vector< basis::ElementBases > &bases, const std::vector< basis::ElementBases > &gbases, const AssemblyValsCache &cache, const double t, const double dt, const Eigen::MatrixXd &displacement, const Eigen::MatrixXd &displacement_prev, Eigen::MatrixXd &rhs) const override

virtual Eigen::VectorXd	assemble_gradient (const NonLinearAssemblerData &data) const=0

void	assemble_hessian (const bool is_volume, const int n_basis, const bool project_to_psd, const std::vector< basis::ElementBases > &bases, const std::vector< basis::ElementBases > &gbases, const AssemblyValsCache &cache, const double t, const double dt, const Eigen::MatrixXd &displacement, const Eigen::MatrixXd &displacement_prev, utils::MatrixCache &mat_cache, StiffnessMatrix &grad) const override

virtual Eigen::MatrixXd	assemble_hessian (const NonLinearAssemblerData &data) const=0

Public Member Functions inherited from polyfem::assembler::NLAssembler
virtual	~NLAssembler ()=default

Eigen::VectorXd	assemble_energy_per_element (const bool is_volume, const std::vector< basis::ElementBases > &bases, const std::vector< basis::ElementBases > &gbases, const AssemblyValsCache &cache, const double t, const double dt, const Eigen::MatrixXd &displacement, const Eigen::MatrixXd &displacement_prev) const override

virtual bool	is_linear () const override

Public Member Functions inherited from polyfem::assembler::Assembler
virtual	~Assembler ()=default

int	size () const

virtual void	set_size (const int size)

virtual void	assemble (const bool is_volume, const int n_basis, const std::vector< basis::ElementBases > &bases, const std::vector< basis::ElementBases > &gbases, const AssemblyValsCache &cache, const double t, StiffnessMatrix &stiffness, const bool is_mass=false) const

virtual void	compute_stiffness_value (const double t, const assembler::ElementAssemblyValues &vals, const Eigen::MatrixXd &local_pts, const Eigen::MatrixXd &displacement, Eigen::MatrixXd &tensor) const

virtual void	compute_dstress_dmu_dlambda (const OptAssemblerData &data, Eigen::MatrixXd &dstress_dmu, Eigen::MatrixXd &dstress_dlambda) const

virtual void	compute_stress_grad_multiply_mat (const OptAssemblerData &data, const Eigen::MatrixXd &mat, Eigen::MatrixXd &stress, Eigen::MatrixXd &result) const

virtual void	compute_stress_grad_multiply_stress (const OptAssemblerData &data, Eigen::MatrixXd &stress, Eigen::MatrixXd &result) const

virtual void	compute_stress_grad_multiply_vect (const OptAssemblerData &data, const Eigen::MatrixXd &vect, Eigen::MatrixXd &stress, Eigen::MatrixXd &result) const

virtual void	compute_stress_grad (const OptAssemblerData &data, const Eigen::MatrixXd &prev_grad_u_i, Eigen::MatrixXd &stress, Eigen::MatrixXd &result) const

virtual void	compute_stress_prev_grad (const OptAssemblerData &data, const Eigen::MatrixXd &prev_grad_u_i, Eigen::MatrixXd &result) const

virtual Eigen::Matrix< AutodiffScalarGrad, Eigen::Dynamic, 1, 0, 3, 1 >	kernel (const int dim, const AutodiffGradPt &rvect, const AutodiffScalarGrad &r) const

void	set_materials (const std::vector< int > &body_ids, const json &body_params, const Units &units)

virtual void	update_lame_params (const Eigen::MatrixXd &lambdas, const Eigen::MatrixXd &mus)

virtual bool	is_fluid () const

Protected Member Functions
void	assign_stress_tensor (const OutputData &data, const int all_size, const ElasticityTensorType &type, Eigen::MatrixXd &all, const std::function< Eigen::MatrixXd(const Eigen::MatrixXd &)> &fun) const override

Private Attributes
std::vector< std::shared_ptr< assembler::NLAssembler > >	assemblers_

Private Attributes inherited from polyfem::assembler::ElasticityAssembler
bool	use_robust_jacobian = false

Private Attributes inherited from polyfem::assembler::Assembler
int	size_ = -1

Additional Inherited Members
Public Types inherited from polyfem::assembler::Assembler
typedef std::pair< std::string, Eigen::MatrixXd >	NamedMatrix

typedef std::function< double(const RowVectorNd &, const RowVectorNd &, double, int)>	ParamFunc

Protected Attributes inherited from polyfem::assembler::Assembler
int	size_ = -1

Private Types inherited from polyfem::assembler::Assembler
typedef std::pair< std::string, Eigen::MatrixXd >	NamedMatrix

typedef std::function< double(const RowVectorNd &, const RowVectorNd &, double, int)>	ParamFunc

Private Member Functions inherited from polyfem::assembler::ElasticityAssembler
	ElasticityAssembler ()

virtual	~ElasticityAssembler ()=default

void	set_use_robust_jacobian ()

void	compute_scalar_value (const OutputData &data, std::vector< NamedMatrix > &result) const override

void	compute_tensor_value (const OutputData &data, std::vector< NamedMatrix > &result) const override

void	compute_stress_tensor (const OutputData &data, const ElasticityTensorType &type, Eigen::MatrixXd &stresses) const

void	compute_von_mises_stresses (const OutputData &data, Eigen::MatrixXd &stresses) const

bool	is_solution_displacement () const override

bool	is_tensor () const override

Private Member Functions inherited from polyfem::assembler::Assembler
virtual	~Assembler ()=default

int	size () const

virtual void	set_size (const int size)

virtual void	assemble (const bool is_volume, const int n_basis, const std::vector< basis::ElementBases > &bases, const std::vector< basis::ElementBases > &gbases, const AssemblyValsCache &cache, const double t, StiffnessMatrix &stiffness, const bool is_mass=false) const

virtual void	compute_stiffness_value (const double t, const assembler::ElementAssemblyValues &vals, const Eigen::MatrixXd &local_pts, const Eigen::MatrixXd &displacement, Eigen::MatrixXd &tensor) const

virtual void	compute_dstress_dmu_dlambda (const OptAssemblerData &data, Eigen::MatrixXd &dstress_dmu, Eigen::MatrixXd &dstress_dlambda) const

virtual void	compute_stress_grad_multiply_mat (const OptAssemblerData &data, const Eigen::MatrixXd &mat, Eigen::MatrixXd &stress, Eigen::MatrixXd &result) const

virtual void	compute_stress_grad_multiply_stress (const OptAssemblerData &data, Eigen::MatrixXd &stress, Eigen::MatrixXd &result) const

virtual void	compute_stress_grad_multiply_vect (const OptAssemblerData &data, const Eigen::MatrixXd &vect, Eigen::MatrixXd &stress, Eigen::MatrixXd &result) const

virtual void	compute_stress_grad (const OptAssemblerData &data, const Eigen::MatrixXd &prev_grad_u_i, Eigen::MatrixXd &stress, Eigen::MatrixXd &result) const

virtual void	compute_stress_prev_grad (const OptAssemblerData &data, const Eigen::MatrixXd &prev_grad_u_i, Eigen::MatrixXd &result) const

virtual Eigen::Matrix< AutodiffScalarGrad, Eigen::Dynamic, 1, 0, 3, 1 >	kernel (const int dim, const AutodiffGradPt &rvect, const AutodiffScalarGrad &r) const

void	set_materials (const std::vector< int > &body_ids, const json &body_params, const Units &units)

virtual void	update_lame_params (const Eigen::MatrixXd &lambdas, const Eigen::MatrixXd &mus)

virtual bool	is_fluid () const

Detailed Description

Definition at line 8 of file SumModel.hpp.

Member Function Documentation

◆ add_multimaterial()

void polyfem::assembler::SumModel::add_multimaterial	(	const int	index,
		const json &	params,
		const Units &	units
	)

overridevirtual

Reimplemented from polyfem::assembler::Assembler.

Definition at line 12 of file SumModel.cpp.

References assemblers_, polyfem::log_and_throw_error(), polyfem::assembler::AssemblerUtils::make_assembler(), and polyfem::assembler::Assembler::size().

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◆ allow_inversion()

bool polyfem::assembler::SumModel::allow_inversion ( ) const

inlineoverridevirtual

Implements polyfem::assembler::ElasticityAssembler.

Definition at line 31 of file SumModel.hpp.

◆ assemble_energy()

double polyfem::assembler::NLAssembler::assemble_energy	(	const bool	is_volume,
		const std::vector< basis::ElementBases > &	bases,
		const std::vector< basis::ElementBases > &	gbases,
		const AssemblyValsCache &	cache,
		const double	t,
		const double	dt,
		const Eigen::MatrixXd &	displacement,
		const Eigen::MatrixXd &	displacement_prev
	)		const

overridevirtual

Reimplemented from polyfem::assembler::NLAssembler.

Definition at line 244 of file Assembler.cpp.

◆ assemble_gradient() [1/3]

void polyfem::assembler::NLAssembler::assemble_gradient	(	const bool	is_volume,
		const int	n_basis,
		const std::vector< basis::ElementBases > &	bases,
		const std::vector< basis::ElementBases > &	gbases,
		const AssemblyValsCache &	cache,
		const double	t,
		const double	dt,
		const Eigen::MatrixXd &	displacement,
		const Eigen::MatrixXd &	displacement_prev,
		Eigen::MatrixXd &	rhs
	)		const

overridevirtual

Reimplemented from polyfem::assembler::NLAssembler.

◆ assemble_gradient() [2/3]

Eigen::VectorXd polyfem::assembler::SumModel::assemble_gradient ( const NonLinearAssemblerData & data ) const

overridevirtual

Implements polyfem::assembler::NLAssembler.

Definition at line 62 of file SumModel.cpp.

References assemblers_.

◆ assemble_gradient() [3/3]

virtual Eigen::VectorXd polyfem::assembler::NLAssembler::assemble_gradient ( const NonLinearAssemblerData & data ) const

virtual

Implements polyfem::assembler::NLAssembler.

◆ assemble_hessian() [1/3]

void polyfem::assembler::NLAssembler::assemble_hessian	(	const bool	is_volume,
		const int	n_basis,
		const bool	project_to_psd,
		const std::vector< basis::ElementBases > &	bases,
		const std::vector< basis::ElementBases > &	gbases,
		const AssemblyValsCache &	cache,
		const double	t,
		const double	dt,
		const Eigen::MatrixXd &	displacement,
		const Eigen::MatrixXd &	displacement_prev,
		utils::MatrixCache &	mat_cache,
		StiffnessMatrix &	grad
	)		const

overridevirtual

Reimplemented from polyfem::assembler::NLAssembler.

◆ assemble_hessian() [2/3]

Eigen::MatrixXd polyfem::assembler::SumModel::assemble_hessian ( const NonLinearAssemblerData & data ) const

overridevirtual

Implements polyfem::assembler::NLAssembler.

Definition at line 74 of file SumModel.cpp.

References assemblers_.

◆ assemble_hessian() [3/3]

virtual Eigen::MatrixXd polyfem::assembler::NLAssembler::assemble_hessian ( const NonLinearAssemblerData & data ) const

virtual

Implements polyfem::assembler::NLAssembler.

◆ assign_stress_tensor()

void polyfem::assembler::SumModel::assign_stress_tensor	(	const OutputData &	data,
		const int	all_size,
		const ElasticityTensorType &	type,
		Eigen::MatrixXd &	all,
		const std::function< Eigen::MatrixXd(const Eigen::MatrixXd &)> &	fun
	)		const

overrideprotectedvirtual

Implements polyfem::assembler::ElasticityAssembler.

Definition at line 96 of file SumModel.cpp.

References assemblers_.

◆ compute_energy()

double polyfem::assembler::SumModel::compute_energy ( const NonLinearAssemblerData & data ) const

overridevirtual

Implements polyfem::assembler::NLAssembler.

Definition at line 85 of file SumModel.cpp.

References assemblers_.

◆ compute_rhs()

Eigen::Matrix< double, Eigen::Dynamic, 1, 0, 3, 1 > polyfem::assembler::SumModel::compute_rhs ( const AutodiffHessianPt & pt ) const

overridevirtual

Reimplemented from polyfem::assembler::Assembler.

Definition at line 52 of file SumModel.cpp.

References polyfem::assembler::Assembler::size().

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◆ name()

std::string polyfem::assembler::SumModel::name ( ) const

inlineoverridevirtual

Implements polyfem::assembler::Assembler.

Definition at line 30 of file SumModel.hpp.

◆ parameters()

std::map< std::string, Assembler::ParamFunc > polyfem::assembler::SumModel::parameters ( ) const

overridevirtual

Implements polyfem::assembler::Assembler.

Definition at line 109 of file SumModel.cpp.

References assemblers_.

Member Data Documentation

◆ assemblers_

std::vector<std::shared_ptr<assembler::NLAssembler> > polyfem::assembler::SumModel::assemblers_

private

Definition at line 42 of file SumModel.hpp.

Referenced by add_multimaterial(), assemble_gradient(), assemble_hessian(), assign_stress_tensor(), compute_energy(), and parameters().

The documentation for this class was generated from the following files:

src/polyfem/assembler/SumModel.hpp
src/polyfem/assembler/SumModel.cpp

Public Member Functions

Protected Member Functions

Private Attributes

Additional Inherited Members

Detailed Description

Member Function Documentation

◆ add_multimaterial()

◆ allow_inversion()

◆ assemble_energy()

◆ assemble_gradient() [1/3]

◆ assemble_gradient() [2/3]

◆ assemble_gradient() [3/3]

◆ assemble_hessian() [1/3]

◆ assemble_hessian() [2/3]

◆ assemble_hessian() [3/3]

◆ assign_stress_tensor()

◆ compute_energy()

◆ compute_rhs()

◆ name()

◆ parameters()

Member Data Documentation

◆ assemblers_