polyfem::assembler::StokesPressure Class Reference

#include <Stokes.hpp>

Inheritance diagram for polyfem::assembler::StokesPressure:

Collaboration diagram for polyfem::assembler::StokesPressure:

Public Member Functions
std::string	name () const override
std::map< std::string, ParamFunc >	parameters () const override
Eigen::Matrix< double, Eigen::Dynamic, 1, 0, 9, 1 >	assemble (const LinearAssemblerData &data) const override
	local assembly function that defines the bilinear form (LHS) computes and returns a single local stiffness value
bool	is_fluid () const override
void	set_size (const int) override
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 override
	assembles the stiffness matrix for the given basis the bilinear form (local assembler) is encoded by the overloaded assemble (see below) function that the subclass (eg Laplacian) defines sets stiffness and modifies cache if it has not already been computed
virtual Eigen::Matrix< double, Eigen::Dynamic, 1, 0, 9, 1 >	assemble (const LinearAssemblerData &data) const=0
	local assembly function that defines the bilinear form (LHS) computes and returns a single local stiffness value
Public Member Functions inherited from polyfem::assembler::LinearAssembler
	LinearAssembler ()
virtual	~LinearAssembler ()=default
virtual bool	is_linear () const override
Public Member Functions inherited from polyfem::assembler::Assembler
virtual	~Assembler ()=default
int	size () const
virtual 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
virtual 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
virtual 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
virtual 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
virtual void	compute_scalar_value (const OutputData &data, std::vector< NamedMatrix > &result) const
virtual void	compute_tensor_value (const OutputData &data, std::vector< NamedMatrix > &result) 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 VectorNd	compute_rhs (const AutodiffHessianPt &pt) 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	add_multimaterial (const int index, const json &params, const Units &units)
virtual void	update_lame_params (const Eigen::MatrixXd &lambdas, const Eigen::MatrixXd &mus)
virtual bool	is_solution_displacement () const
virtual bool	is_tensor () const

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

Detailed Description

Definition at line 51 of file Stokes.hpp.

Member Function Documentation

assemble() [1/3]

void polyfem::assembler::LinearAssembler::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

overridevirtual

assembles the stiffness matrix for the given basis the bilinear form (local assembler) is encoded by the overloaded assemble (see below) function that the subclass (eg Laplacian) defines sets stiffness and modifies cache if it has not already been computed

Reimplemented from polyfem::assembler::LinearAssembler.

assemble() [2/3]

Eigen::Matrix< double, Eigen::Dynamic, 1, 0, 9, 1 > polyfem::assembler::StokesPressure::assemble ( const LinearAssemblerData &  data ) const

inlineoverridevirtual

local assembly function that defines the bilinear form (LHS) computes and returns a single local stiffness value

Implements polyfem::assembler::LinearAssembler.

Definition at line 61 of file Stokes.hpp.

assemble() [3/3]

virtual Eigen::Matrix< double, Eigen::Dynamic, 1, 0, 9, 1 > polyfem::assembler::LinearAssembler::assemble ( const LinearAssemblerData &  data ) const

virtual

local assembly function that defines the bilinear form (LHS) computes and returns a single local stiffness value

Implements polyfem::assembler::LinearAssembler.

is_fluid()

bool polyfem::assembler::StokesPressure::is_fluid ( ) const

inlineoverridevirtual

Reimplemented from polyfem::assembler::Assembler.

Definition at line 66 of file Stokes.hpp.

name()

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

inlineoverridevirtual

Implements polyfem::assembler::Assembler.

Definition at line 56 of file Stokes.hpp.

parameters()

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

inlineoverridevirtual

Implements polyfem::assembler::Assembler.

Definition at line 57 of file Stokes.hpp.

set_size()

void polyfem::assembler::StokesPressure::set_size ( const int  )

inlineoverridevirtual

Reimplemented from polyfem::assembler::Assembler.

Definition at line 68 of file Stokes.hpp.

References polyfem::assembler::Assembler::size_.

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

• src/polyfem/assembler/Stokes.hpp