TwoNodePoissonElement Class Reference

Inheritance diagram for TwoNodePoissonElement:

Public Member Functions
	TwoNodePoissonElement ()
	Constructor: Initialise the sign of the source function to +1. More...
double	f (const double &x) const
int &	sign ()
	Access function to the sign in the source function. More...
double	u (const unsigned &n)
unsigned	required_nvalue (const unsigned &n) const
	For the Poisson equation, only one value is stored at each node. More...
void	get_residuals (Vector< double > &residuals)
void	get_jacobian (Vector< double > &residuals, DenseMatrix< double > &jacobian)
void	output (ostream &output)
unsigned	self_test ()
Public Member Functions inherited from TwoNodeGeometricElement
	TwoNodeGeometricElement ()
void	shape (const Vector< double > &s, Shape &psi) const
	Define the shape functions for interpolation across the element. More...
void	dshape_local (const Vector< double > &s, Shape &psi, DShape &dpsids) const
	Define the derivatives of the shape functions w.r.t. the local coordinate. More...
unsigned	nnode_1d () const
	The element consists of two nodes along its one (and only) edge. More...
Public Member Functions inherited from oomph::FiniteElement
void	set_dimension (const unsigned &dim)
void	set_nodal_dimension (const unsigned &nodal_dim)
void	set_nnodal_position_type (const unsigned &nposition_type)
	Set the number of types required to interpolate the coordinate. More...
void	set_n_node (const unsigned &n)
int	nodal_local_eqn (const unsigned &n, const unsigned &i) const
double	dJ_eulerian_at_knot (const unsigned &ipt, Shape &psi, DenseMatrix< double > &djacobian_dX) const
	FiniteElement ()
	Constructor. More...
virtual	~FiniteElement ()
	FiniteElement (const FiniteElement &)=delete
	Broken copy constructor. More...
virtual bool	local_coord_is_valid (const Vector< double > &s)
	Broken assignment operator. More...
virtual void	move_local_coord_back_into_element (Vector< double > &s) const
void	get_centre_of_gravity_and_max_radius_in_terms_of_zeta (Vector< double > &cog, double &max_radius) const
virtual void	local_coordinate_of_node (const unsigned &j, Vector< double > &s) const
virtual void	local_fraction_of_node (const unsigned &j, Vector< double > &s_fraction)
virtual double	local_one_d_fraction_of_node (const unsigned &n1d, const unsigned &i)
virtual void	set_macro_elem_pt (MacroElement *macro_elem_pt)
MacroElement *	macro_elem_pt ()
	Access function to pointer to macro element. More...
void	get_x (const Vector< double > &s, Vector< double > &x) const
void	get_x (const unsigned &t, const Vector< double > &s, Vector< double > &x)
virtual void	get_x_from_macro_element (const Vector< double > &s, Vector< double > &x) const
virtual void	get_x_from_macro_element (const unsigned &t, const Vector< double > &s, Vector< double > &x)
virtual void	set_integration_scheme (Integral *const &integral_pt)
	Set the spatial integration scheme. More...
Integral *const &	integral_pt () const
	Return the pointer to the integration scheme (const version) More...
virtual void	shape_at_knot (const unsigned &ipt, Shape &psi) const
virtual void	dshape_local_at_knot (const unsigned &ipt, Shape &psi, DShape &dpsids) const
virtual void	d2shape_local (const Vector< double > &s, Shape &psi, DShape &dpsids, DShape &d2psids) const
virtual void	d2shape_local_at_knot (const unsigned &ipt, Shape &psi, DShape &dpsids, DShape &d2psids) const
virtual double	J_eulerian (const Vector< double > &s) const
virtual double	J_eulerian_at_knot (const unsigned &ipt) const
void	check_J_eulerian_at_knots (bool &passed) const
void	check_jacobian (const double &jacobian) const
double	dshape_eulerian (const Vector< double > &s, Shape &psi, DShape &dpsidx) const
virtual double	dshape_eulerian_at_knot (const unsigned &ipt, Shape &psi, DShape &dpsidx) const
virtual double	dshape_eulerian_at_knot (const unsigned &ipt, Shape &psi, DShape &dpsi, DenseMatrix< double > &djacobian_dX, RankFourTensor< double > &d_dpsidx_dX) const
double	d2shape_eulerian (const Vector< double > &s, Shape &psi, DShape &dpsidx, DShape &d2psidx) const
virtual double	d2shape_eulerian_at_knot (const unsigned &ipt, Shape &psi, DShape &dpsidx, DShape &d2psidx) const
virtual void	assign_nodal_local_eqn_numbers (const bool &store_local_dof_pt)
virtual void	describe_local_dofs (std::ostream &out, const std::string &current_string) const
virtual void	describe_nodal_local_dofs (std::ostream &out, const std::string &current_string) const
virtual void	assign_all_generic_local_eqn_numbers (const bool &store_local_dof_pt)
Node *&	node_pt (const unsigned &n)
	Return a pointer to the local node n. More...
Node *const &	node_pt (const unsigned &n) const
	Return a pointer to the local node n (const version) More...
unsigned	nnode () const
	Return the number of nodes. More...
double	raw_nodal_position (const unsigned &n, const unsigned &i) const
double	raw_nodal_position (const unsigned &t, const unsigned &n, const unsigned &i) const
double	raw_dnodal_position_dt (const unsigned &n, const unsigned &i) const
double	raw_dnodal_position_dt (const unsigned &n, const unsigned &j, const unsigned &i) const
double	raw_nodal_position_gen (const unsigned &n, const unsigned &k, const unsigned &i) const
double	raw_nodal_position_gen (const unsigned &t, const unsigned &n, const unsigned &k, const unsigned &i) const
double	raw_dnodal_position_gen_dt (const unsigned &n, const unsigned &k, const unsigned &i) const
double	raw_dnodal_position_gen_dt (const unsigned &j, const unsigned &n, const unsigned &k, const unsigned &i) const
double	nodal_position (const unsigned &n, const unsigned &i) const
double	nodal_position (const unsigned &t, const unsigned &n, const unsigned &i) const
double	dnodal_position_dt (const unsigned &n, const unsigned &i) const
	Return the i-th component of nodal velocity: dx/dt at local node n. More...
double	dnodal_position_dt (const unsigned &n, const unsigned &j, const unsigned &i) const
double	nodal_position_gen (const unsigned &n, const unsigned &k, const unsigned &i) const
double	nodal_position_gen (const unsigned &t, const unsigned &n, const unsigned &k, const unsigned &i) const
double	dnodal_position_gen_dt (const unsigned &n, const unsigned &k, const unsigned &i) const
double	dnodal_position_gen_dt (const unsigned &j, const unsigned &n, const unsigned &k, const unsigned &i) const
virtual void	get_dresidual_dnodal_coordinates (RankThreeTensor< double > &dresidual_dnodal_coordinates)
virtual void	disable_ALE ()
virtual void	enable_ALE ()
unsigned	nnodal_position_type () const
bool	has_hanging_nodes () const
unsigned	nodal_dimension () const
	Return the required Eulerian dimension of the nodes in this element. More...
virtual unsigned	nvertex_node () const
virtual Node *	vertex_node_pt (const unsigned &j) const
virtual Node *	construct_node (const unsigned &n)
virtual Node *	construct_node (const unsigned &n, TimeStepper *const &time_stepper_pt)
virtual Node *	construct_boundary_node (const unsigned &n)
virtual Node *	construct_boundary_node (const unsigned &n, TimeStepper *const &time_stepper_pt)
int	get_node_number (Node *const &node_pt) const
virtual Node *	get_node_at_local_coordinate (const Vector< double > &s) const
double	raw_nodal_value (const unsigned &n, const unsigned &i) const
double	raw_nodal_value (const unsigned &t, const unsigned &n, const unsigned &i) const
double	nodal_value (const unsigned &n, const unsigned &i) const
double	nodal_value (const unsigned &t, const unsigned &n, const unsigned &i) const
unsigned	dim () const
virtual ElementGeometry::ElementGeometry	element_geometry () const
	Return the geometry type of the element (either Q or T usually). More...
virtual double	interpolated_x (const Vector< double > &s, const unsigned &i) const
	Return FE interpolated coordinate x[i] at local coordinate s. More...
virtual double	interpolated_x (const unsigned &t, const Vector< double > &s, const unsigned &i) const
virtual void	interpolated_x (const Vector< double > &s, Vector< double > &x) const
	Return FE interpolated position x[] at local coordinate s as Vector. More...
virtual void	interpolated_x (const unsigned &t, const Vector< double > &s, Vector< double > &x) const
virtual double	interpolated_dxdt (const Vector< double > &s, const unsigned &i, const unsigned &t)
virtual void	interpolated_dxdt (const Vector< double > &s, const unsigned &t, Vector< double > &dxdt)
unsigned	ngeom_data () const
Data *	geom_data_pt (const unsigned &j)
void	position (const Vector< double > &zeta, Vector< double > &r) const
void	position (const unsigned &t, const Vector< double > &zeta, Vector< double > &r) const
void	dposition_dt (const Vector< double > &zeta, const unsigned &t, Vector< double > &drdt)
virtual double	zeta_nodal (const unsigned &n, const unsigned &k, const unsigned &i) const
void	interpolated_zeta (const Vector< double > &s, Vector< double > &zeta) const
void	locate_zeta (const Vector< double > &zeta, GeomObject *&geom_object_pt, Vector< double > &s, const bool &use_coordinate_as_initial_guess=false)
virtual void	node_update ()
virtual void	identify_field_data_for_interactions (std::set< std::pair< Data *, unsigned >> &paired_field_data)
virtual void	identify_geometric_data (std::set< Data * > &geometric_data_pt)
virtual double	s_min () const
	Min value of local coordinate. More...
virtual double	s_max () const
	Max. value of local coordinate. More...
double	size () const
virtual double	compute_physical_size () const
virtual void	point_output_data (const Vector< double > &s, Vector< double > &data)
void	point_output (std::ostream &outfile, const Vector< double > &s)
virtual unsigned	nplot_points_paraview (const unsigned &nplot) const
virtual unsigned	nsub_elements_paraview (const unsigned &nplot) const
void	output_paraview (std::ofstream &file_out, const unsigned &nplot) const
virtual void	write_paraview_output_offset_information (std::ofstream &file_out, const unsigned &nplot, unsigned &counter) const
virtual void	write_paraview_type (std::ofstream &file_out, const unsigned &nplot) const
virtual void	write_paraview_offsets (std::ofstream &file_out, const unsigned &nplot, unsigned &offset_sum) const
virtual unsigned	nscalar_paraview () const
virtual void	scalar_value_paraview (std::ofstream &file_out, const unsigned &i, const unsigned &nplot) const
virtual void	scalar_value_fct_paraview (std::ofstream &file_out, const unsigned &i, const unsigned &nplot, FiniteElement::SteadyExactSolutionFctPt exact_soln_pt) const
virtual void	scalar_value_fct_paraview (std::ofstream &file_out, const unsigned &i, const unsigned &nplot, const double &time, FiniteElement::UnsteadyExactSolutionFctPt exact_soln_pt) const
virtual std::string	scalar_name_paraview (const unsigned &i) const
virtual void	output (std::ostream &outfile, const unsigned &n_plot)
virtual void	output (const unsigned &t, std::ostream &outfile, const unsigned &n_plot) const
virtual void	output (FILE *file_pt)
virtual void	output (FILE *file_pt, const unsigned &n_plot)
virtual void	output_fct (std::ostream &outfile, const unsigned &n_plot, FiniteElement::SteadyExactSolutionFctPt exact_soln_pt)
	Output an exact solution over the element. More...
virtual void	output_fct (std::ostream &outfile, const unsigned &n_plot, const double &time, FiniteElement::UnsteadyExactSolutionFctPt exact_soln_pt)
	Output a time-dependent exact solution over the element. More...
virtual void	output_fct (std::ostream &outfile, const unsigned &n_plot, const double &time, const SolutionFunctorBase &exact_soln) const
	Output a time-dependent exact solution over the element. More...
virtual void	get_s_plot (const unsigned &i, const unsigned &nplot, Vector< double > &s, const bool &shifted_to_interior=false) const
virtual std::string	tecplot_zone_string (const unsigned &nplot) const
virtual void	write_tecplot_zone_footer (std::ostream &outfile, const unsigned &nplot) const
virtual void	write_tecplot_zone_footer (FILE *file_pt, const unsigned &nplot) const
virtual unsigned	nplot_points (const unsigned &nplot) const
virtual void	compute_error (FiniteElement::SteadyExactSolutionFctPt exact_soln_pt, double &error, double &norm)
	Calculate the norm of the error and that of the exact solution. More...
virtual void	compute_error (FiniteElement::UnsteadyExactSolutionFctPt exact_soln_pt, const double &time, double &error, double &norm)
	Calculate the norm of the error and that of the exact solution. More...
virtual void	compute_error (FiniteElement::SteadyExactSolutionFctPt exact_soln_pt, Vector< double > &error, Vector< double > &norm)
virtual void	compute_error (FiniteElement::UnsteadyExactSolutionFctPt exact_soln_pt, const double &time, Vector< double > &error, Vector< double > &norm)
virtual void	compute_error (std::ostream &outfile, FiniteElement::SteadyExactSolutionFctPt exact_soln_pt, double &error, double &norm)
virtual void	compute_error (std::ostream &outfile, FiniteElement::UnsteadyExactSolutionFctPt exact_soln_pt, const double &time, double &error, double &norm)
virtual void	compute_error (std::ostream &outfile, FiniteElement::SteadyExactSolutionFctPt exact_soln_pt, Vector< double > &error, Vector< double > &norm)
virtual void	compute_error (std::ostream &outfile, FiniteElement::UnsteadyExactSolutionFctPt exact_soln_pt, const double &time, Vector< double > &error, Vector< double > &norm)
virtual void	compute_abs_error (std::ostream &outfile, FiniteElement::SteadyExactSolutionFctPt exact_soln_pt, double &error)
void	integrate_fct (FiniteElement::SteadyExactSolutionFctPt integrand_fct_pt, Vector< double > &integral)
	Integrate Vector-valued function over element. More...
void	integrate_fct (FiniteElement::UnsteadyExactSolutionFctPt integrand_fct_pt, const double &time, Vector< double > &integral)
	Integrate Vector-valued time-dep function over element. More...
virtual void	build_face_element (const int &face_index, FaceElement *face_element_pt)
virtual unsigned	get_bulk_node_number (const int &face_index, const unsigned &i) const
virtual int	face_outer_unit_normal_sign (const int &face_index) const
	Get the sign of the outer unit normal on the face given by face_index. More...
virtual unsigned	nnode_on_face () const
void	face_node_number_error_check (const unsigned &i) const
	Range check for face node numbers. More...
virtual CoordinateMappingFctPt	face_to_bulk_coordinate_fct_pt (const int &face_index) const
virtual BulkCoordinateDerivativesFctPt	bulk_coordinate_derivatives_fct_pt (const int &face_index) const
Public Member Functions inherited from oomph::GeneralisedElement
	GeneralisedElement ()
	Constructor: Initialise all pointers and all values to zero. More...
virtual	~GeneralisedElement ()
	Virtual destructor to clean up any memory allocated by the object. More...
	GeneralisedElement (const GeneralisedElement &)=delete
	Broken copy constructor. More...
void	operator= (const GeneralisedElement &)=delete
	Broken assignment operator. More...
Data *&	internal_data_pt (const unsigned &i)
	Return a pointer to i-th internal data object. More...
Data *const &	internal_data_pt (const unsigned &i) const
	Return a pointer to i-th internal data object (const version) More...
Data *&	external_data_pt (const unsigned &i)
	Return a pointer to i-th external data object. More...
Data *const &	external_data_pt (const unsigned &i) const
	Return a pointer to i-th external data object (const version) More...
unsigned long	eqn_number (const unsigned &ieqn_local) const
int	local_eqn_number (const unsigned long &ieqn_global) const
unsigned	add_external_data (Data *const &data_pt, const bool &fd=true)
bool	external_data_fd (const unsigned &i) const
void	exclude_external_data_fd (const unsigned &i)
void	include_external_data_fd (const unsigned &i)
void	flush_external_data ()
	Flush all external data. More...
void	flush_external_data (Data *const &data_pt)
	Flush the object addressed by data_pt from the external data array. More...
unsigned	ninternal_data () const
	Return the number of internal data objects. More...
unsigned	nexternal_data () const
	Return the number of external data objects. More...
unsigned	ndof () const
	Return the number of equations/dofs in the element. More...
void	dof_vector (const unsigned &t, Vector< double > &dof)
	Return the vector of dof values at time level t. More...
void	dof_pt_vector (Vector< double * > &dof_pt)
	Return the vector of pointers to dof values. More...
void	set_internal_data_time_stepper (const unsigned &i, TimeStepper *const &time_stepper_pt, const bool &preserve_existing_data)
void	assign_internal_eqn_numbers (unsigned long &global_number, Vector< double * > &Dof_pt)
void	describe_dofs (std::ostream &out, const std::string &current_string) const
void	add_internal_value_pt_to_map (std::map< unsigned, double * > &map_of_value_pt)
virtual void	assign_local_eqn_numbers (const bool &store_local_dof_pt)
virtual void	complete_setup_of_dependencies ()
virtual void	get_mass_matrix (Vector< double > &residuals, DenseMatrix< double > &mass_matrix)
virtual void	get_jacobian_and_mass_matrix (Vector< double > &residuals, DenseMatrix< double > &jacobian, DenseMatrix< double > &mass_matrix)
virtual void	get_dresiduals_dparameter (double *const &parameter_pt, Vector< double > &dres_dparam)
virtual void	get_djacobian_dparameter (double *const &parameter_pt, Vector< double > &dres_dparam, DenseMatrix< double > &djac_dparam)
virtual void	get_djacobian_and_dmass_matrix_dparameter (double *const &parameter_pt, Vector< double > &dres_dparam, DenseMatrix< double > &djac_dparam, DenseMatrix< double > &dmass_matrix_dparam)
virtual void	get_hessian_vector_products (Vector< double > const &Y, DenseMatrix< double > const &C, DenseMatrix< double > &product)
virtual void	get_inner_products (Vector< std::pair< unsigned, unsigned >> const &history_index, Vector< double > &inner_product)
virtual void	get_inner_product_vectors (Vector< unsigned > const &history_index, Vector< Vector< double >> &inner_product_vector)
virtual void	compute_norm (Vector< double > &norm)
virtual void	compute_norm (double &norm)
virtual unsigned	ndof_types () const
virtual void	get_dof_numbers_for_unknowns (std::list< std::pair< unsigned long, unsigned >> &dof_lookup_list) const
Public Member Functions inherited from oomph::GeomObject
	GeomObject ()
	Default constructor. More...
	GeomObject (const unsigned &ndim)
	GeomObject (const unsigned &nlagrangian, const unsigned &ndim)
	GeomObject (const unsigned &nlagrangian, const unsigned &ndim, TimeStepper *time_stepper_pt)
	GeomObject (const GeomObject &dummy)=delete
	Broken copy constructor. More...
void	operator= (const GeomObject &)=delete
	Broken assignment operator. More...
virtual	~GeomObject ()
	(Empty) destructor More...
unsigned	nlagrangian () const
	Access function to # of Lagrangian coordinates. More...
unsigned	ndim () const
	Access function to # of Eulerian coordinates. More...
void	set_nlagrangian_and_ndim (const unsigned &n_lagrangian, const unsigned &n_dim)
	Set # of Lagrangian and Eulerian coordinates. More...
TimeStepper *&	time_stepper_pt ()
TimeStepper *	time_stepper_pt () const
virtual void	position (const double &t, const Vector< double > &zeta, Vector< double > &r) const
virtual void	dposition (const Vector< double > &zeta, DenseMatrix< double > &drdzeta) const
virtual void	d2position (const Vector< double > &zeta, RankThreeTensor< double > &ddrdzeta) const
virtual void	d2position (const Vector< double > &zeta, Vector< double > &r, DenseMatrix< double > &drdzeta, RankThreeTensor< double > &ddrdzeta) const

Private Attributes
int	Sign
	The sign of the source function. More...

Additional Inherited Members
Public Types inherited from oomph::FiniteElement
typedef void(*	SteadyExactSolutionFctPt) (const Vector< double > &, Vector< double > &)
typedef void(*	UnsteadyExactSolutionFctPt) (const double &, const Vector< double > &, Vector< double > &)
Static Public Attributes inherited from oomph::FiniteElement
static double	Tolerance_for_singular_jacobian = 1.0e-16
	Tolerance below which the jacobian is considered singular. More...
static bool	Accept_negative_jacobian = false
static bool	Suppress_output_while_checking_for_inverted_elements
Static Public Attributes inherited from oomph::GeneralisedElement
static bool	Suppress_warning_about_repeated_internal_data
static bool	Suppress_warning_about_repeated_external_data = true
static double	Default_fd_jacobian_step = 1.0e-8
Protected Member Functions inherited from oomph::FiniteElement
virtual void	assemble_local_to_eulerian_jacobian (const DShape &dpsids, DenseMatrix< double > &jacobian) const
virtual void	assemble_local_to_eulerian_jacobian2 (const DShape &d2psids, DenseMatrix< double > &jacobian2) const
virtual void	assemble_eulerian_base_vectors (const DShape &dpsids, DenseMatrix< double > &interpolated_G) const
template<unsigned DIM>
double	invert_jacobian (const DenseMatrix< double > &jacobian, DenseMatrix< double > &inverse_jacobian) const
virtual double	invert_jacobian_mapping (const DenseMatrix< double > &jacobian, DenseMatrix< double > &inverse_jacobian) const
virtual double	local_to_eulerian_mapping (const DShape &dpsids, DenseMatrix< double > &jacobian, DenseMatrix< double > &inverse_jacobian) const
double	local_to_eulerian_mapping (const DShape &dpsids, DenseMatrix< double > &inverse_jacobian) const
virtual double	local_to_eulerian_mapping_diagonal (const DShape &dpsids, DenseMatrix< double > &jacobian, DenseMatrix< double > &inverse_jacobian) const
virtual void	dJ_eulerian_dnodal_coordinates (const DenseMatrix< double > &jacobian, const DShape &dpsids, DenseMatrix< double > &djacobian_dX) const
template<unsigned DIM>
void	dJ_eulerian_dnodal_coordinates_templated_helper (const DenseMatrix< double > &jacobian, const DShape &dpsids, DenseMatrix< double > &djacobian_dX) const
virtual void	d_dshape_eulerian_dnodal_coordinates (const double &det_jacobian, const DenseMatrix< double > &jacobian, const DenseMatrix< double > &djacobian_dX, const DenseMatrix< double > &inverse_jacobian, const DShape &dpsids, RankFourTensor< double > &d_dpsidx_dX) const
template<unsigned DIM>
void	d_dshape_eulerian_dnodal_coordinates_templated_helper (const double &det_jacobian, const DenseMatrix< double > &jacobian, const DenseMatrix< double > &djacobian_dX, const DenseMatrix< double > &inverse_jacobian, const DShape &dpsids, RankFourTensor< double > &d_dpsidx_dX) const
virtual void	transform_derivatives (const DenseMatrix< double > &inverse_jacobian, DShape &dbasis) const
void	transform_derivatives_diagonal (const DenseMatrix< double > &inverse_jacobian, DShape &dbasis) const
virtual void	transform_second_derivatives (const DenseMatrix< double > &jacobian, const DenseMatrix< double > &inverse_jacobian, const DenseMatrix< double > &jacobian2, DShape &dbasis, DShape &d2basis) const
template<unsigned DIM>
void	transform_second_derivatives_template (const DenseMatrix< double > &jacobian, const DenseMatrix< double > &inverse_jacobian, const DenseMatrix< double > &jacobian2, DShape &dbasis, DShape &d2basis) const
template<unsigned DIM>
void	transform_second_derivatives_diagonal (const DenseMatrix< double > &jacobian, const DenseMatrix< double > &inverse_jacobian, const DenseMatrix< double > &jacobian2, DShape &dbasis, DShape &d2basis) const
virtual void	fill_in_jacobian_from_nodal_by_fd (Vector< double > &residuals, DenseMatrix< double > &jacobian)
void	fill_in_jacobian_from_nodal_by_fd (DenseMatrix< double > &jacobian)
virtual void	update_before_nodal_fd ()
virtual void	reset_after_nodal_fd ()
virtual void	update_in_nodal_fd (const unsigned &i)
virtual void	reset_in_nodal_fd (const unsigned &i)
void	fill_in_contribution_to_jacobian (Vector< double > &residuals, DenseMatrix< double > &jacobian)
template<>
double	invert_jacobian (const DenseMatrix< double > &jacobian, DenseMatrix< double > &inverse_jacobian) const
	Zero-d specialisation of function to calculate inverse of jacobian mapping. More...
template<>
double	invert_jacobian (const DenseMatrix< double > &jacobian, DenseMatrix< double > &inverse_jacobian) const
	One-d specialisation of function to calculate inverse of jacobian mapping. More...
template<>
double	invert_jacobian (const DenseMatrix< double > &jacobian, DenseMatrix< double > &inverse_jacobian) const
	Two-d specialisation of function to calculate inverse of jacobian mapping. More...
template<>
double	invert_jacobian (const DenseMatrix< double > &jacobian, DenseMatrix< double > &inverse_jacobian) const
template<>
void	dJ_eulerian_dnodal_coordinates_templated_helper (const DenseMatrix< double > &jacobian, const DShape &dpsids, DenseMatrix< double > &djacobian_dX) const
template<>
void	dJ_eulerian_dnodal_coordinates_templated_helper (const DenseMatrix< double > &jacobian, const DShape &dpsids, DenseMatrix< double > &djacobian_dX) const
template<>
void	dJ_eulerian_dnodal_coordinates_templated_helper (const DenseMatrix< double > &jacobian, const DShape &dpsids, DenseMatrix< double > &djacobian_dX) const
template<>
void	dJ_eulerian_dnodal_coordinates_templated_helper (const DenseMatrix< double > &jacobian, const DShape &dpsids, DenseMatrix< double > &djacobian_dX) const
template<>
void	d_dshape_eulerian_dnodal_coordinates_templated_helper (const double &det_jacobian, const DenseMatrix< double > &jacobian, const DenseMatrix< double > &djacobian_dX, const DenseMatrix< double > &inverse_jacobian, const DShape &dpsids, RankFourTensor< double > &d_dpsidx_dX) const
template<>
void	d_dshape_eulerian_dnodal_coordinates_templated_helper (const double &det_jacobian, const DenseMatrix< double > &jacobian, const DenseMatrix< double > &djacobian_dX, const DenseMatrix< double > &inverse_jacobian, const DShape &dpsids, RankFourTensor< double > &d_dpsidx_dX) const
template<>
void	d_dshape_eulerian_dnodal_coordinates_templated_helper (const double &det_jacobian, const DenseMatrix< double > &jacobian, const DenseMatrix< double > &djacobian_dX, const DenseMatrix< double > &inverse_jacobian, const DShape &dpsids, RankFourTensor< double > &d_dpsidx_dX) const
template<>
void	d_dshape_eulerian_dnodal_coordinates_templated_helper (const double &det_jacobian, const DenseMatrix< double > &jacobian, const DenseMatrix< double > &djacobian_dX, const DenseMatrix< double > &inverse_jacobian, const DShape &dpsids, RankFourTensor< double > &d_dpsidx_dX) const
template<>
void	transform_second_derivatives_template (const DenseMatrix< double > &jacobian, const DenseMatrix< double > &inverse_jacobian, const DenseMatrix< double > &jacobian2, DShape &dbasis, DShape &d2basis) const
template<>
void	transform_second_derivatives_template (const DenseMatrix< double > &jacobian, const DenseMatrix< double > &inverse_jacobian, const DenseMatrix< double > &jacobian2, DShape &dbasis, DShape &d2basis) const
template<>
void	transform_second_derivatives_diagonal (const DenseMatrix< double > &jacobian, const DenseMatrix< double > &inverse_jacobian, const DenseMatrix< double > &jacobian2, DShape &dbasis, DShape &d2basis) const
template<>
void	transform_second_derivatives_diagonal (const DenseMatrix< double > &jacobian, const DenseMatrix< double > &inverse_jacobian, const DenseMatrix< double > &jacobian2, DShape &dbasis, DShape &d2basis) const
Protected Member Functions inherited from oomph::GeneralisedElement
unsigned	add_internal_data (Data *const &data_pt, const bool &fd=true)
bool	internal_data_fd (const unsigned &i) const
void	exclude_internal_data_fd (const unsigned &i)
void	include_internal_data_fd (const unsigned &i)
void	clear_global_eqn_numbers ()
void	add_global_eqn_numbers (std::deque< unsigned long > const &global_eqn_numbers, std::deque< double * > const &global_dof_pt)
virtual void	assign_internal_and_external_local_eqn_numbers (const bool &store_local_dof_pt)
virtual void	assign_additional_local_eqn_numbers ()
int	internal_local_eqn (const unsigned &i, const unsigned &j) const
int	external_local_eqn (const unsigned &i, const unsigned &j)
virtual void	fill_in_contribution_to_residuals (Vector< double > &residuals)
void	fill_in_jacobian_from_internal_by_fd (Vector< double > &residuals, DenseMatrix< double > &jacobian, const bool &fd_all_data=false)
void	fill_in_jacobian_from_internal_by_fd (DenseMatrix< double > &jacobian, const bool &fd_all_data=false)
void	fill_in_jacobian_from_external_by_fd (Vector< double > &residuals, DenseMatrix< double > &jacobian, const bool &fd_all_data=false)
void	fill_in_jacobian_from_external_by_fd (DenseMatrix< double > &jacobian, const bool &fd_all_data=false)
virtual void	update_before_internal_fd ()
virtual void	reset_after_internal_fd ()
virtual void	update_in_internal_fd (const unsigned &i)
virtual void	reset_in_internal_fd (const unsigned &i)
virtual void	update_before_external_fd ()
virtual void	reset_after_external_fd ()
virtual void	update_in_external_fd (const unsigned &i)
virtual void	reset_in_external_fd (const unsigned &i)
virtual void	fill_in_contribution_to_mass_matrix (Vector< double > &residuals, DenseMatrix< double > &mass_matrix)
virtual void	fill_in_contribution_to_jacobian_and_mass_matrix (Vector< double > &residuals, DenseMatrix< double > &jacobian, DenseMatrix< double > &mass_matrix)
virtual void	fill_in_contribution_to_dresiduals_dparameter (double *const &parameter_pt, Vector< double > &dres_dparam)
virtual void	fill_in_contribution_to_djacobian_dparameter (double *const &parameter_pt, Vector< double > &dres_dparam, DenseMatrix< double > &djac_dparam)
virtual void	fill_in_contribution_to_djacobian_and_dmass_matrix_dparameter (double *const &parameter_pt, Vector< double > &dres_dparam, DenseMatrix< double > &djac_dparam, DenseMatrix< double > &dmass_matrix_dparam)
virtual void	fill_in_contribution_to_hessian_vector_products (Vector< double > const &Y, DenseMatrix< double > const &C, DenseMatrix< double > &product)
virtual void	fill_in_contribution_to_inner_products (Vector< std::pair< unsigned, unsigned >> const &history_index, Vector< double > &inner_product)
virtual void	fill_in_contribution_to_inner_product_vectors (Vector< unsigned > const &history_index, Vector< Vector< double >> &inner_product_vector)
Protected Attributes inherited from oomph::FiniteElement
MacroElement *	Macro_elem_pt
	Pointer to the element's macro element (NULL by default) More...
Protected Attributes inherited from oomph::GeomObject
unsigned	NLagrangian
	Number of Lagrangian (intrinsic) coordinates. More...
unsigned	Ndim
	Number of Eulerian coordinates. More...
TimeStepper *	Geom_object_time_stepper_pt
Static Protected Attributes inherited from oomph::FiniteElement
static const unsigned	Default_Initial_Nvalue = 0
	Default value for the number of values at a node. More...
static const double	Node_location_tolerance = 1.0e-14
static const unsigned	N2deriv [] = {0, 1, 3, 6}
Static Protected Attributes inherited from oomph::GeneralisedElement
static DenseMatrix< double >	Dummy_matrix
static std::deque< double * >	Dof_pt_deque

Detailed Description

A specific Element needs to implement the functions that compute the elemental contributions to the global residual vector and the global Jacobian matrix formed when using Newton's method. By using calls to the interpolation scheme defined in an an underlying "Geometric" Element, the equations can be written generically and Elements that solve the same equations, but using different orders of interpolation may be easily constructed, using a different "geometric" base class.

A linear, Poisson element solves a one-dimensional Poisson equation using the integration and interpolation scheme defined in the above "Geometric" element.

Constructor & Destructor Documentation

TwoNodePoissonElement()

TwoNodePoissonElement::TwoNodePoissonElement ( )

inline

Constructor: Initialise the sign of the source function to +1.

   {
    // Initialise sign of source function
    Sign=1;
   }

References FishSolnOneDPoisson::Sign.

Member Function Documentation

f()

double TwoNodePoissonElement::f ( const double &  x ) const

inline

Define a specific source function. For greater generality, and inclusion in a library, this could be defined as a source function pointer, that would then be set externally.

   {
    return double(Sign)*30.0*sin(sqrt(30.0)*x);
   }

References FishSolnOneDPoisson::Sign, sin(), sqrt(), and plotDoE::x.

get_jacobian()

void TwoNodePoissonElement::get_jacobian ( Vector< double > &  residuals, DenseMatrix< double > &  jacobian  )

inlinevirtual

Calculate the elemental contribution to the global residual vector and to the Jacobian matrix dR_{i}/du_{j} used in the Newton method

Reimplemented from oomph::GeneralisedElement.

   {
    //First, calculate the residuals
    get_residuals(residuals);
 
    //Find the number of degrees of freedom (unpinned values) in the element
    unsigned n_dof = ndof();
 
    //Initialise all entries of the Jacobian matrix to zero
    for(unsigned i=0;i<n_dof;i++) 
     {
      for(unsigned j=0;j<n_dof;j++) {jacobian(i,j) = 0.0;}
     }
    
    //Find the number of nodes in the element
    unsigned n_node = nnode();
    //Allocate memory for shape functions and their derivatives
    Shape psi(n_node);
    DShape dpsidx(n_node,1);
 
    //Storage for the local coordinate
    Vector<double> s(1);
    
    //Find the number of integration points in the underlying
    //geometric element's integration scheme 
    unsigned n_intpt = integral_pt()->nweight();
 
    //Loop over the integration points
    for(unsigned ipt=0;ipt<n_intpt;ipt++)
     {
      //Set the value of the local coordinate to be the integration 
      //scheme's knot point
      s[0] = integral_pt()->knot(ipt,0);
 
      //Find the weight of the integration scheme at this knot point
      double w = integral_pt()->weight(ipt);
 
      //Find the shape functions and their derivatives at the knot point. 
      //This function is implemented in FiniteElement.
      //It also returns the Jacobian of the mapping from local to 
      //global coordinates.
      double J = dshape_eulerian(s,psi,dpsidx);
 
      //Premultiply the weight and the Jacobian
      double W = w*J;
            
      //ASSEMBLE THE JACOBIAN TERMS
      
      //Loop over the test (shape) functions
      for(unsigned l=0;l<n_node;l++)
       {
        //Get the local equation number
        //The variable is the first (only) value stored at the nodes
        int local_eqn_number = nodal_local_eqn(l,0);
 
        //If the equation is not a Dirichlet boundary condition
        if(local_eqn_number >= 0)
         {
          //Loop over the degrees of freedom
          for(unsigned l2=0;l2<n_node;l2++)
           {
            //Get the local degree of freedom number
            //The variable is the first (only) value stored at the nodes
            int local_dof_number = nodal_local_eqn(l2,0);
 
            //If the degree of freedom is not pinned
            if(local_dof_number >= 0)
             {
              //Add the contribution to the Jacobian
              jacobian(local_eqn_number,local_dof_number) += 
               dpsidx(l2,0)*dpsidx(l,0)*W;
             }
           }
         }
       }
     } //End of loop over the integration points
 
   } //End of function

References GlobalFct::get_residuals(), i, J, j, s, w, and oomph::QuadTreeNames::W.

get_residuals()

void TwoNodePoissonElement::get_residuals ( Vector< double > &  residuals )

inlinevirtual

Calculate the elemental contributions to the global residual vector for the weak form of the Poisson equation

Reimplemented from oomph::GeneralisedElement.

   {
    //Find the number of degrees of freedom (unpinned values) in the element
    unsigned n_dof = ndof();
 
    //Initialise all the residuals to zero
    for(unsigned i=0;i<n_dof;i++) {residuals[i] = 0.0;}
    
    //Find the number of nodes in the element
    unsigned n_node = nnode();
 
    //Allocate memory for shape functions and their derivatives:
    // There's one shape function for each node:
    Shape psi(n_node);
 
    // Each of the n_node shape functions has one derivative with 
    // respect to the single local coordinate:
    DShape dpsidx(n_node,1);
 
    //Storage for the single local coordinate
    Vector<double> s(1);
    
    //Find the number of integration points in the underlying 
    //geometric element's integration scheme 
    unsigned n_intpt = integral_pt()->nweight();
 
    //Loop over the integration points
    for(unsigned ipt=0;ipt<n_intpt;ipt++)
     {
      //Set the value of the local coordinate to be the integration 
      //scheme's knot point
      s[0] = integral_pt()->knot(ipt,0);
 
      //Find the weight of the integration scheme at this knot point
      double w = integral_pt()->weight(ipt);
 
      //Find the shape functions and their derivatives at the knot point. 
      //This function is implemented in FiniteElement.
      //It also returns the Jacobian of the mapping from local to 
      //global coordinates.
      double J = dshape_eulerian(s,psi,dpsidx);
 
      //Premultiply the weight and the Jacobian
      double W = w*J;
      
      //Allocate storage for the value of the field variable u,
      //its derivative and the global position at the knot point.
      //Initialise them all to zero.
      double interpolated_x=0.0, interpolated_u=0.0, interpolated_dudx=0.0;
 
      //Calculate the interpolated values by  looping over the shape 
      //functions and summing the appropriate contributions
      for(unsigned n=0;n<n_node;n++) 
       {
        interpolated_x += nodal_position(n,0)*psi[n];
        interpolated_u += u(n)*psi[n];
        interpolated_dudx += u(n)*dpsidx(n,0);
       }
      
      // Evaluate the source function
      double source=f(interpolated_x);
 
      //ASSEMBLE THE RESIDUALS
      
      //Loop over the test functions (same as the shape functions
      //since we're implementing an isoparametric element)
      for(unsigned l=0;l<n_node;l++)
       {
        //Get the local equation number
        //The variable is the first (only) value stored at the nodes
        int local_eqn_number = nodal_local_eqn(l,0);
 
        //If the equation is not a Dirichlet boundary condition
        if(local_eqn_number >= 0)
         {
          //Add body force/source term here 
          residuals[local_eqn_number] += source*psi[l]*W;
 
          //Add the Poisson bit itself
          residuals[local_eqn_number] += interpolated_dudx*dpsidx(l,0)*W;
         }
       }
 
     } //End of loop over the integration points
 
   } //End of function

References f(), i, J, n, s, TestProblem::source(), w, and oomph::QuadTreeNames::W.

output()

void TwoNodePoissonElement::output ( ostream &  outfile )

inlinevirtual

Output the element data — typically the values at the nodes in a format suitable for post-processing.

Reimplemented from oomph::FiniteElement.

   {
    //Read out the number of nodes in the element   
    unsigned n_node = nnode();
 
    //Loop over the nodes and print out the global coordinate 
    //and value of the field variable, u, at each node
    for(unsigned n=0;n<n_node;n++)
     {
      output << nodal_position(n,0) << " " << u(n) << std::endl;
     }
   } //End of function

References n, and output().

required_nvalue()

unsigned TwoNodePoissonElement::required_nvalue ( const unsigned &  n ) const

inlinevirtual

For the Poisson equation, only one value is stored at each node.

Reimplemented from oomph::FiniteElement.

{return 1;}

self_test()

unsigned TwoNodePoissonElement::self_test ( )

inlinevirtual

Self test function: The sign in the source function should only have the values +/- 1. Following the general oomph-lib convention, the self_test() returns 0 for success, and 1 for failure:

Reimplemented from oomph::FiniteElement.

   {
    // Initialise success flag
    unsigned success=0;
 
    // Run the generic FiniteElement self test
    success=FiniteElement::self_test();
 
    // Do additional test for this function
    if ((Sign!=1)&&(Sign!=-1))
     {
      cout << "Sign of source function should be +/- 1," << std::endl;
      cout << "but it is:" << Sign << std::endl;
      success=1;
     }
 
    // Return success flag
    return success;
 
   } // End of self test

References oomph::self_test(), and FishSolnOneDPoisson::Sign.

sign()

int& TwoNodePoissonElement::sign ( )

inline

Access function to the sign in the source function.

{return Sign;}

References FishSolnOneDPoisson::Sign.

Referenced by DemoPoissonProblem::DemoPoissonProblem().

u()

double TwoNodePoissonElement::u ( const unsigned &  n )

inline

Define an access function to the first data value stored at each node. In a more general "Equation" element, such abstraction is essential, because different Elements will store the same variables in different locations.

{return node_pt(n)->value(0);}

References n.

Member Data Documentation

Sign

int TwoNodePoissonElement::Sign

private

The sign of the source function.

---

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

• one_d_poisson_generic_only.cc