oomph::RefineableAxisymAdvectionDiffusionEquations Class Reference

#include <refineable_axisym_advection_diffusion_elements.h>

Inheritance diagram for oomph::RefineableAxisymAdvectionDiffusionEquations:

Public Member Functions
	RefineableAxisymAdvectionDiffusionEquations ()
	Empty Constructor. More...
	RefineableAxisymAdvectionDiffusionEquations (const RefineableAxisymAdvectionDiffusionEquations &dummy)=delete
	Broken copy constructor. More...
unsigned	num_Z2_flux_terms ()
	Broken assignment operator. More...
void	get_Z2_flux (const Vector< double > &s, Vector< double > &flux)
void	get_interpolated_values (const Vector< double > &s, Vector< double > &values)
void	get_interpolated_values (const unsigned &t, const Vector< double > &s, Vector< double > &values)
double	geometric_jacobian (const Vector< double > &x)
	Fill in the geometric Jacobian, which in this case is r. More...
void	further_build ()
	Further build: Copy source function pointer from father element. More...
void	dinterpolated_u_adv_diff_ddata (const Vector< double > &s, Vector< double > &du_ddata, Vector< unsigned > &global_eqn_number)
Public Member Functions inherited from oomph::AxisymAdvectionDiffusionEquations
	AxisymAdvectionDiffusionEquations ()
	AxisymAdvectionDiffusionEquations (const AxisymAdvectionDiffusionEquations &dummy)=delete
	Broken copy constructor. More...
virtual unsigned	u_index_axi_adv_diff () const
	Broken assignment operator. More...
double	du_dt_axi_adv_diff (const unsigned &n) const
void	disable_ALE ()
void	enable_ALE ()
unsigned	nscalar_paraview () const
void	scalar_value_paraview (std::ofstream &file_out, const unsigned &i, const unsigned &nplot) const
std::string	scalar_name_paraview (const unsigned &i) const
void	output (std::ostream &outfile)
	Output with default number of plot points. More...
void	output (std::ostream &outfile, const unsigned &nplot)
void	output (FILE *file_pt)
	C_style output with default number of plot points. More...
void	output (FILE *file_pt, const unsigned &n_plot)
void	output_fct (std::ostream &outfile, const unsigned &nplot, FiniteElement::SteadyExactSolutionFctPt exact_soln_pt)
	Output exact soln: r,z,u_exact at nplot^2 plot points. More...
void	compute_error (std::ostream &outfile, FiniteElement::SteadyExactSolutionFctPt exact_soln_pt, double &error, double &norm)
	Get error against and norm of exact solution. More...
AxisymAdvectionDiffusionSourceFctPt &	source_fct_pt ()
	Access function: Pointer to source function. More...
AxisymAdvectionDiffusionSourceFctPt	source_fct_pt () const
	Access function: Pointer to source function. Const version. More...
AxisymAdvectionDiffusionWindFctPt &	wind_fct_pt ()
	Access function: Pointer to wind function. More...
AxisymAdvectionDiffusionWindFctPt	wind_fct_pt () const
	Access function: Pointer to wind function. Const version. More...
const double &	pe () const
	Peclet number. More...
double *&	pe_pt ()
	Pointer to Peclet number. More...
const double &	pe_st () const
	Peclet number multiplied by Strouhal number. More...
double *&	pe_st_pt ()
	Pointer to Peclet number multipled by Strouha number. More...
const double &	d () const
	Peclet number multiplied by Strouhal number. More...
double *&	d_pt ()
	Pointer to Peclet number multipled by Strouha number. More...
virtual void	get_source_axi_adv_diff (const unsigned &ipt, const Vector< double > &x, double &source) const
virtual void	get_wind_axi_adv_diff (const unsigned &ipt, const Vector< double > &s, const Vector< double > &x, Vector< double > &wind) const
void	get_flux (const Vector< double > &s, Vector< double > &flux) const
	Get flux: [du/dr,du/dz]. More...
void	fill_in_contribution_to_residuals (Vector< double > &residuals)
	Add the element's contribution to its residual vector (wrapper) More...
void	fill_in_contribution_to_jacobian (Vector< double > &residuals, DenseMatrix< double > &jacobian)
double	interpolated_u_axi_adv_diff (const Vector< double > &s) const
	Return FE representation of function value u(s) at local coordinate s. More...
virtual void	dinterpolated_u_axi_adv_diff_ddata (const Vector< double > &s, Vector< double > &du_ddata, Vector< unsigned > &global_eqn_number)
unsigned	self_test ()
	Self-test: Return 0 for OK. 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 (const Vector< double > &s, Shape &psi) const =0
virtual void	shape_at_knot (const unsigned &ipt, Shape &psi) const
virtual void	dshape_local (const Vector< double > &s, Shape &psi, DShape &dpsids) 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	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...
virtual unsigned	nnode_1d () const
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 unsigned	required_nvalue (const unsigned &n) const
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 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_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 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 void	output (const unsigned &t, std::ostream &outfile, const unsigned &n_plot) const
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::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_residuals (Vector< double > &residuals)
virtual void	get_jacobian (Vector< double > &residuals, DenseMatrix< double > &jacobian)
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
Public Member Functions inherited from oomph::RefineableElement
	RefineableElement ()
virtual	~RefineableElement ()
	Destructor, delete the allocated storage for the hanging equations. More...
	RefineableElement (const RefineableElement &)=delete
	Broken copy constructor. More...
void	operator= (const RefineableElement &)=delete
	Broken assignment operator. More...
Tree *	tree_pt ()
	Access function: Pointer to quadtree representation of this element. More...
void	set_tree_pt (Tree *my_tree_pt)
	Set pointer to quadtree representation of this element. More...
virtual unsigned	required_nsons () const
bool	refinement_is_enabled ()
	Flag to indicate suppression of any refinement. More...
void	disable_refinement ()
	Suppress of any refinement for this element. More...
void	enable_refinement ()
	Emnable refinement for this element. More...
template<class ELEMENT >
void	split (Vector< ELEMENT * > &son_pt) const
int	local_hang_eqn (Node *const &node_pt, const unsigned &i)
virtual void	build (Mesh *&mesh_pt, Vector< Node * > &new_node_pt, bool &was_already_built, std::ofstream &new_nodes_file)=0
void	set_refinement_level (const int &refine_level)
	Set the refinement level. More...
unsigned	refinement_level () const
	Return the Refinement level. More...
void	select_for_refinement ()
	Select the element for refinement. More...
void	deselect_for_refinement ()
	Deselect the element for refinement. More...
void	select_sons_for_unrefinement ()
	Unrefinement will be performed by merging the four sons of this element. More...
void	deselect_sons_for_unrefinement ()
bool	to_be_refined ()
	Has the element been selected for refinement? More...
bool	sons_to_be_unrefined ()
	Has the element been selected for unrefinement? More...
virtual void	rebuild_from_sons (Mesh *&mesh_pt)=0
virtual void	unbuild ()
virtual void	deactivate_element ()
virtual bool	nodes_built ()
	Return true if all the nodes have been built, false if not. More...
long	number () const
	Element number (for debugging/plotting) More...
void	set_number (const long &mynumber)
	Set element number (for debugging/plotting) More...
virtual unsigned	ncont_interpolated_values () const =0
virtual Node *	interpolating_node_pt (const unsigned &n, const int &value_id)
virtual double	local_one_d_fraction_of_interpolating_node (const unsigned &n1d, const unsigned &i, const int &value_id)
virtual Node *	get_interpolating_node_at_local_coordinate (const Vector< double > &s, const int &value_id)
virtual unsigned	ninterpolating_node (const int &value_id)
virtual unsigned	ninterpolating_node_1d (const int &value_id)
virtual void	interpolating_basis (const Vector< double > &s, Shape &psi, const int &value_id) const
virtual void	check_integrity (double &max_error)=0
void	identify_field_data_for_interactions (std::set< std::pair< Data *, unsigned >> &paired_field_data)
void	assign_nodal_local_eqn_numbers (const bool &store_local_dof_pt)
virtual RefineableElement *	root_element_pt ()
virtual RefineableElement *	father_element_pt () const
	Return a pointer to the father element. More...
void	get_father_at_refinement_level (unsigned &refinement_level, RefineableElement *&father_at_reflevel_pt)
virtual void	initial_setup (Tree *const &adopted_father_pt=0, const unsigned &initial_p_order=0)
virtual void	pre_build (Mesh *&mesh_pt, Vector< Node * > &new_node_pt)
	Pre-build the element. More...
virtual void	setup_hanging_nodes (Vector< std::ofstream * > &output_stream)
virtual void	further_setup_hanging_nodes ()
void	get_dresidual_dnodal_coordinates (RankThreeTensor< double > &dresidual_dnodal_coordinates)
unsigned	nshape_controlling_nodes ()
std::map< Node *, unsigned >	shape_controlling_node_lookup ()
Public Member Functions inherited from oomph::ElementWithZ2ErrorEstimator
	ElementWithZ2ErrorEstimator ()
	Default empty constructor. More...
	ElementWithZ2ErrorEstimator (const ElementWithZ2ErrorEstimator &)=delete
	Broken copy constructor. More...
void	operator= (const ElementWithZ2ErrorEstimator &)=delete
	Broken assignment operator. More...
virtual unsigned	ncompound_fluxes ()
virtual void	compute_exact_Z2_error (std::ostream &outfile, FiniteElement::SteadyExactSolutionFctPt exact_flux_pt, double &error, double &norm)
virtual void	get_Z2_compound_flux_indices (Vector< unsigned > &flux_index)
virtual unsigned	nvertex_node () const =0
	Number of vertex nodes in the element. More...
virtual Node *	vertex_node_pt (const unsigned &j) const =0
virtual unsigned	nrecovery_order ()=0
	Order of recovery shape functions. More...

Protected Member Functions
void	fill_in_generic_residual_contribution_axi_adv_diff (Vector< double > &residuals, DenseMatrix< double > &jacobian, DenseMatrix< double > &mass_matrix, unsigned flag)
Protected Member Functions inherited from oomph::AxisymAdvectionDiffusionEquations
virtual double	dshape_and_dtest_eulerian_axi_adv_diff (const Vector< double > &s, Shape &psi, DShape &dpsidx, Shape &test, DShape &dtestdx) const =0
virtual double	dshape_and_dtest_eulerian_at_knot_axi_adv_diff (const unsigned &ipt, Shape &psi, DShape &dpsidx, Shape &test, DShape &dtestdx) const =0
Protected Member Functions inherited from oomph::FiniteElement
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 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
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)
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 Member Functions inherited from oomph::RefineableElement
void	assemble_local_to_eulerian_jacobian (const DShape &dpsids, DenseMatrix< double > &jacobian) const
void	assemble_local_to_eulerian_jacobian2 (const DShape &d2psids, DenseMatrix< double > &jacobian2) const
void	assemble_eulerian_base_vectors (const DShape &dpsids, DenseMatrix< double > &interpolated_G) const
double	local_to_eulerian_mapping_diagonal (const DShape &dpsids, DenseMatrix< double > &jacobian, DenseMatrix< double > &inverse_jacobian) const
void	assign_hanging_local_eqn_numbers (const bool &store_local_dof_pt)
	Assign the local equation numbers for hanging node variables. More...
virtual void	fill_in_jacobian_from_nodal_by_fd (Vector< double > &residuals, DenseMatrix< double > &jacobian)

Additional Inherited Members
Public Types inherited from oomph::AxisymAdvectionDiffusionEquations
typedef void(*	AxisymAdvectionDiffusionSourceFctPt) (const Vector< double > &x, double &f)
typedef void(*	AxisymAdvectionDiffusionWindFctPt) (const Vector< double > &x, Vector< double > &wind)
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 Member Functions inherited from oomph::RefineableElement
static double &	max_integrity_tolerance ()
	Max. allowed discrepancy in element integrity check. More...
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
Static Protected Member Functions inherited from oomph::RefineableElement
static void	check_value_id (const int &n_continuously_interpolated_values, const int &value_id)
Protected Attributes inherited from oomph::AxisymAdvectionDiffusionEquations
double *	Pe_pt
	Pointer to global Peclet number. More...
double *	PeSt_pt
	Pointer to global Peclet number multiplied by Strouhal number. More...
double *	D_pt
	Pointer to global Diffusion parameter. More...
AxisymAdvectionDiffusionSourceFctPt	Source_fct_pt
	Pointer to source function: More...
AxisymAdvectionDiffusionWindFctPt	Wind_fct_pt
	Pointer to wind function: More...
bool	ALE_is_disabled
	Boolean flag to indicate whether AlE formulation is disable. More...
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
Protected Attributes inherited from oomph::RefineableElement
Tree *	Tree_pt
	A pointer to a general tree object. More...
unsigned	Refine_level
	Refinement level. More...
bool	To_be_refined
	Flag for refinement. More...
bool	Refinement_is_enabled
	Flag to indicate suppression of any refinement. More...
bool	Sons_to_be_unrefined
	Flag for unrefinement. More...
long	Number
	Global element number – for plotting/validation purposes. More...
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
Static Protected Attributes inherited from oomph::RefineableElement
static double	Max_integrity_tolerance = 1.0e-8
	Max. allowed discrepancy in element integrity check. More...

Detailed Description

A version of the Advection Diffusion in axisym coordinates equations that can be used with non-uniform mesh refinement. In essence, the class overloads the fill_in_generic_residual_contribution_axisym_adv_diff() function so that contributions from hanging nodes (or alternatively in-compatible function values) are taken into account.

Constructor & Destructor Documentation

RefineableAxisymAdvectionDiffusionEquations() [1/2]

oomph::RefineableAxisymAdvectionDiffusionEquations::RefineableAxisymAdvectionDiffusionEquations ( )

inline

Empty Constructor.

      : AxisymAdvectionDiffusionEquations(),
        RefineableElement(),
        ElementWithZ2ErrorEstimator()
    {
    }

RefineableAxisymAdvectionDiffusionEquations() [2/2]

oomph::RefineableAxisymAdvectionDiffusionEquations::RefineableAxisymAdvectionDiffusionEquations ( const RefineableAxisymAdvectionDiffusionEquations &  dummy )

delete

Broken copy constructor.

Member Function Documentation

dinterpolated_u_adv_diff_ddata()

void oomph::RefineableAxisymAdvectionDiffusionEquations::dinterpolated_u_adv_diff_ddata ( const Vector< double > &  s, Vector< double > &  du_ddata, Vector< unsigned > &  global_eqn_number  )

inline

Compute the derivatives of the i-th component of velocity at point s with respect to all data that can affect its value. In addition, return the global equation numbers corresponding to the data. Overload the non-refineable version to take account of hanging node information

    {
      // Find number of nodes
      unsigned n_node = this->nnode();
      // Local shape function
      Shape psi(n_node);
      // Find values of shape function at the given local coordinate
      this->shape(s, psi);
 
      // Find the index at which the velocity component is stored
      const unsigned u_nodal_index = this->u_index_axi_adv_diff();
 
      // Storage for hang info pointer
      HangInfo* hang_info_pt = 0;
      // Storage for global equation
      int global_eqn = 0;
 
      // Find the number of dofs associated with interpolated u
      unsigned n_u_dof = 0;
      for (unsigned l = 0; l < n_node; l++)
      {
        unsigned n_master = 1;
 
        // Local bool (is the node hanging)
        bool is_node_hanging = this->node_pt(l)->is_hanging();
 
        // If the node is hanging, get the number of master nodes
        if (is_node_hanging)
        {
          hang_info_pt = this->node_pt(l)->hanging_pt();
          n_master = hang_info_pt->nmaster();
        }
        // Otherwise there is just one master node, the node itself
        else
        {
          n_master = 1;
        }
 
        // Loop over the master nodes
        for (unsigned m = 0; m < n_master; m++)
        {
          // Get the equation number
          if (is_node_hanging)
          {
            // Get the equation number from the master node
            global_eqn =
              hang_info_pt->master_node_pt(m)->eqn_number(u_nodal_index);
          }
          else
          {
            // Global equation number
            global_eqn = this->node_pt(l)->eqn_number(u_nodal_index);
          }
 
          // If it's positive add to the count
          if (global_eqn >= 0)
          {
            ++n_u_dof;
          }
        }
      }
 
      // Now resize the storage schemes
      du_ddata.resize(n_u_dof, 0.0);
      global_eqn_number.resize(n_u_dof, 0);
 
      // Loop over th nodes again and set the derivatives
      unsigned count = 0;
      // Loop over the local nodes and sum
      for (unsigned l = 0; l < n_node; l++)
      {
        unsigned n_master = 1;
        double hang_weight = 1.0;
 
        // Local bool (is the node hanging)
        bool is_node_hanging = this->node_pt(l)->is_hanging();
 
        // If the node is hanging, get the number of master nodes
        if (is_node_hanging)
        {
          hang_info_pt = this->node_pt(l)->hanging_pt();
          n_master = hang_info_pt->nmaster();
        }
        // Otherwise there is just one master node, the node itself
        else
        {
          n_master = 1;
        }
 
        // Loop over the master nodes
        for (unsigned m = 0; m < n_master; m++)
        {
          // If the node is hanging get weight from master node
          if (is_node_hanging)
          {
            // Get the hang weight from the master node
            hang_weight = hang_info_pt->master_weight(m);
          }
          else
          {
            // Node contributes with full weight
            hang_weight = 1.0;
          }
 
          // Get the equation number
          if (is_node_hanging)
          {
            // Get the equation number from the master node
            global_eqn =
              hang_info_pt->master_node_pt(m)->eqn_number(u_nodal_index);
          }
          else
          {
            // Global equation number
            global_eqn = this->node_pt(l)->eqn_number(u_nodal_index);
          }
 
          if (global_eqn >= 0)
          {
            // Set the global equation number
            global_eqn_number[count] = global_eqn;
            // Set the derivative with respect to the unknown
            du_ddata[count] = psi[l] * hang_weight;
            // Increase the counter
            ++count;
          }
        }
      }
    }

References oomph::Data::eqn_number(), oomph::Node::hanging_pt(), oomph::Node::is_hanging(), m, oomph::HangInfo::master_node_pt(), oomph::HangInfo::master_weight(), oomph::HangInfo::nmaster(), oomph::FiniteElement::nnode(), oomph::FiniteElement::node_pt(), oomph::FiniteElement::shape(), and oomph::AxisymAdvectionDiffusionEquations::u_index_axi_adv_diff().

fill_in_generic_residual_contribution_axi_adv_diff()

void oomph::RefineableAxisymAdvectionDiffusionEquations::fill_in_generic_residual_contribution_axi_adv_diff ( Vector< double > &  residuals, DenseMatrix< double > &  jacobian, DenseMatrix< double > &  mass_matrix, unsigned  flag  )

protectedvirtual

Add the element's contribution to the elemental residual vector and/or Jacobian matrix flag=1: compute both flag=0: compute only residual vector

Add the element's contribution to the elemental residual vector and/or elemental jacobian matrix. This function overloads the standard version so that the possible presence of hanging nodes is taken into account.

Reimplemented from oomph::AxisymAdvectionDiffusionEquations.

  {
    // Find out how many nodes there are in the element
    const unsigned n_node = nnode();
 
    // Get the nodal index at which the unknown is stored
    const unsigned u_nodal_index = this->u_index_axi_adv_diff();
 
    // Set up memory for the shape and test functions
    Shape psi(n_node), test(n_node);
    DShape dpsidx(n_node, 2), dtestdx(n_node, 2);
 
    // Set the value of n_intpt
    const unsigned n_intpt = integral_pt()->nweight();
 
    // Set the Vector to hold local coordinates
    Vector<double> s(2);
 
    // Get Peclet number
    const double scaled_peclet = this->pe();
 
    // Get the Peclet number multiplied by the Strouhal number
    const double scaled_peclet_st = this->pe_st();
 
    // Integers used to store the local equation number and local unknown
    // indices for the residuals and jacobians
    int local_eqn = 0, local_unknown = 0;
 
    // Local storage for pointers to hang_info objects
    HangInfo *hang_info_pt = 0, *hang_info2_pt = 0;
 
    // Local variable to determine the ALE stuff
    bool ALE_is_disabled_flag = this->ALE_is_disabled;
 
    // Loop over the integration points
    for (unsigned ipt = 0; ipt < n_intpt; ipt++)
    {
      // Assign values of s
      for (unsigned i = 0; i < 2; i++) s[i] = integral_pt()->knot(ipt, i);
 
      // Get the integral weight
      double w = integral_pt()->weight(ipt);
 
      // Call the derivatives of the shape and test functions
      double J = this->dshape_and_dtest_eulerian_at_knot_axi_adv_diff(
        ipt, psi, dpsidx, test, dtestdx);
 
      // Premultiply the weights and the Jacobian
      double W = w * J;
 
      // Calculate local values of the function, initialise to zero
      double dudt = 0.0;
      double interpolated_u = 0.0;
 
      // These need to be a Vector to be ANSI C++, initialise to zero
      Vector<double> interpolated_x(2, 0.0);
      Vector<double> interpolated_dudx(2, 0.0);
      Vector<double> mesh_velocity(2, 0.0);
 
      // Calculate function value and derivatives:
      //-----------------------------------------
 
      // Loop over nodes
      for (unsigned l = 0; l < n_node; l++)
      {
        // Get the value at the node
        double u_value = this->nodal_value(l, u_nodal_index);
        interpolated_u += u_value * psi(l);
        dudt += this->du_dt_axi_adv_diff(l) * psi(l);
        // Loop over directions
        for (unsigned j = 0; j < 2; j++)
        {
          interpolated_x[j] += nodal_position(l, j) * psi(l);
          interpolated_dudx[j] += u_value * dpsidx(l, j);
        }
      }
 
      // Get the mesh velocity, if required
      if (!ALE_is_disabled_flag)
      {
        for (unsigned l = 0; l < n_node; l++)
        {
          // Loop over directions
          for (unsigned j = 0; j < 2; j++)
          {
            mesh_velocity[j] += dnodal_position_dt(l, j) * psi(l);
          }
        }
      }
 
 
      // Get body force
      double source;
      this->get_source_axi_adv_diff(ipt, interpolated_x, source);
 
 
      // Get wind
      //--------
      Vector<double> wind(3);
      this->get_wind_axi_adv_diff(ipt, s, interpolated_x, wind);
 
      // r is the first position component
      double r = interpolated_x[0];
 
      // Assemble residuals and Jacobian
      //================================
 
      // Loop over the nodes for the test functions
      for (unsigned l = 0; l < n_node; l++)
      {
        // Local variables to store the number of master nodes and
        // the weight associated with the shape function if the node is hanging
        unsigned n_master = 1;
        double hang_weight = 1.0;
        // Local bool (is the node hanging)
        bool is_node_hanging = this->node_pt(l)->is_hanging();
 
        // If the node is hanging, get the number of master nodes
        if (is_node_hanging)
        {
          hang_info_pt = this->node_pt(l)->hanging_pt();
          n_master = hang_info_pt->nmaster();
        }
        // Otherwise there is just one master node, the node itself
        else
        {
          n_master = 1;
        }
 
        // Loop over the number of master nodes
        for (unsigned m = 0; m < n_master; m++)
        {
          // Get the local equation number and hang_weight
          // If the node is hanging
          if (is_node_hanging)
          {
            // Read out the local equation from the master node
            local_eqn = this->local_hang_eqn(hang_info_pt->master_node_pt(m),
                                             u_nodal_index);
            // Read out the weight from the master node
            hang_weight = hang_info_pt->master_weight(m);
          }
          // If the node is not hanging
          else
          {
            // The local equation number comes from the node itself
            local_eqn = this->nodal_local_eqn(l, u_nodal_index);
            // The hang weight is one
            hang_weight = 1.0;
          }
 
          // If the nodal equation is not a boundary conditino
          if (local_eqn >= 0)
          {
            // Add du/dt and body force/source term here
            residuals[local_eqn] -= (scaled_peclet_st * dudt + source) * r *
                                    test(l) * W * hang_weight;
 
            // The Advection Diffusion bit itself
            residuals[local_eqn] -=
              // radial terms
              (interpolated_dudx[0] *
                 (scaled_peclet * wind[0] * test(l) + dtestdx(l, 0)) +
               // azimuthal terms
               (interpolated_dudx[1] *
                (scaled_peclet * wind[1] * test(l) + dtestdx(l, 1)))) *
              r * W * hang_weight;
 
            // ALE terms
            if (!ALE_is_disabled)
            {
              residuals[local_eqn] +=
                scaled_peclet_st *
                (mesh_velocity[0] * interpolated_dudx[0] +
                 mesh_velocity[1] * interpolated_dudx[1]) *
                test(l) * r * W * hang_weight;
            }
 
 
            // Calculate the Jacobian
            if (flag)
            {
              // Local variables to store the number of master nodes
              // and the weights associated with each hanging node
              unsigned n_master2 = 1;
              double hang_weight2 = 1.0;
              // Loop over the nodes for the variables
              for (unsigned l2 = 0; l2 < n_node; l2++)
              {
                // Local bool (is the node hanging)
                bool is_node2_hanging = this->node_pt(l2)->is_hanging();
                // If the node is hanging, get the number of master nodes
                if (is_node2_hanging)
                {
                  hang_info2_pt = this->node_pt(l2)->hanging_pt();
                  n_master2 = hang_info2_pt->nmaster();
                }
                // Otherwise there is one master node, the node itself
                else
                {
                  n_master2 = 1;
                }
 
                // Loop over the master nodes
                for (unsigned m2 = 0; m2 < n_master2; m2++)
                {
                  // Get the local unknown and weight
                  // If the node is hanging
                  if (is_node2_hanging)
                  {
                    // Read out the local unknown from the master node
                    local_unknown = this->local_hang_eqn(
                      hang_info2_pt->master_node_pt(m2), u_nodal_index);
                    // Read out the hanging weight from the master node
                    hang_weight2 = hang_info2_pt->master_weight(m2);
                  }
                  // If the node is not hanging
                  else
                  {
                    // The local unknown number comes from the node
                    local_unknown = this->nodal_local_eqn(l2, u_nodal_index);
                    // The hang weight is one
                    hang_weight2 = 1.0;
                  }
 
                  // If the unknown is not pinned
                  if (local_unknown >= 0)
                  {
                    // Add contribution to Elemental Matrix
                    // Mass matrix du/dt term
                    jacobian(local_eqn, local_unknown) -=
                      scaled_peclet_st * test(l) * psi(l2) *
                      this->node_pt(l2)->time_stepper_pt()->weight(1, 0) * r *
                      W * hang_weight * hang_weight2;
 
                    // Add contribution to mass matrix
                    if (flag == 2)
                    {
                      mass_matrix(local_eqn, local_unknown) +=
                        scaled_peclet_st * test(l) * psi(l2) * r * W *
                        hang_weight * hang_weight2;
                    }
 
                    // Add contribution to Elemental Matrix
                    // Assemble Jacobian term
                    jacobian(local_eqn, local_unknown) -=
                      // radial terms
                      (dpsidx(l2, 0) *
                         (scaled_peclet * wind[0] * test(l) + dtestdx(l, 0)) +
                       // azimuthal terms
                       (dpsidx(l2, 1) *
                        (scaled_peclet * wind[1] * test(l) + dtestdx(l, 1)))) *
                      r * W * hang_weight * hang_weight2;
 
                    if (!ALE_is_disabled)
                    {
                      jacobian(local_eqn, local_unknown) +=
                        scaled_peclet_st *
                        (mesh_velocity[0] * dpsidx(l2, 0) +
                         mesh_velocity[1] * dpsidx(l2, 1)) *
                        test(l) * r * W * hang_weight * hang_weight2;
                    }
                  }
                } // End of loop over master nodes
              } // End of loop over nodes
            } // End of Jacobian calculation
 
          } // End of non-zero equation
 
        } // End of loop over the master nodes for residual
      } // End of loop over nodes
 
    } // End of loop over integration points
  }

References oomph::AxisymAdvectionDiffusionEquations::ALE_is_disabled, oomph::FiniteElement::dnodal_position_dt(), oomph::AxisymAdvectionDiffusionEquations::dshape_and_dtest_eulerian_at_knot_axi_adv_diff(), oomph::AxisymAdvectionDiffusionEquations::du_dt_axi_adv_diff(), oomph::AxisymAdvectionDiffusionEquations::get_source_axi_adv_diff(), oomph::AxisymAdvectionDiffusionEquations::get_wind_axi_adv_diff(), oomph::Node::hanging_pt(), i, oomph::FiniteElement::integral_pt(), oomph::FiniteElement::interpolated_x(), oomph::Node::is_hanging(), J, j, oomph::Integral::knot(), oomph::RefineableElement::local_hang_eqn(), m, m2(), oomph::HangInfo::master_node_pt(), oomph::HangInfo::master_weight(), oomph::HangInfo::nmaster(), oomph::FiniteElement::nnode(), oomph::FiniteElement::nodal_local_eqn(), oomph::FiniteElement::nodal_position(), oomph::FiniteElement::nodal_value(), oomph::FiniteElement::node_pt(), oomph::Integral::nweight(), oomph::AxisymAdvectionDiffusionEquations::pe(), oomph::AxisymAdvectionDiffusionEquations::pe_st(), UniformPSDSelfTest::r, s, TestProblem::source(), Eigen::test, oomph::Data::time_stepper_pt(), oomph::AxisymAdvectionDiffusionEquations::u_index_axi_adv_diff(), w, oomph::QuadTreeNames::W, oomph::Integral::weight(), and oomph::TimeStepper::weight().

further_build()

void oomph::RefineableAxisymAdvectionDiffusionEquations::further_build ( )

inlinevirtual

Further build: Copy source function pointer from father element.

Reimplemented from oomph::RefineableElement.

    {
      RefineableAxisymAdvectionDiffusionEquations* cast_father_element_pt =
        dynamic_cast<RefineableAxisymAdvectionDiffusionEquations*>(
          this->father_element_pt());
 
      // Set the values of the pointers from the father
      this->Source_fct_pt = cast_father_element_pt->source_fct_pt();
      this->Wind_fct_pt = cast_father_element_pt->wind_fct_pt();
      this->Pe_pt = cast_father_element_pt->pe_pt();
      this->PeSt_pt = cast_father_element_pt->pe_st_pt();
 
      // Set the ALE status
      // this->ALE_is_disabled = cast_father_element_pt->ALE_is_disabled;
    }

References oomph::RefineableElement::father_element_pt(), oomph::AxisymAdvectionDiffusionEquations::pe_pt(), oomph::AxisymAdvectionDiffusionEquations::Pe_pt, oomph::AxisymAdvectionDiffusionEquations::pe_st_pt(), oomph::AxisymAdvectionDiffusionEquations::PeSt_pt, oomph::AxisymAdvectionDiffusionEquations::source_fct_pt(), oomph::AxisymAdvectionDiffusionEquations::Source_fct_pt, oomph::AxisymAdvectionDiffusionEquations::wind_fct_pt(), and oomph::AxisymAdvectionDiffusionEquations::Wind_fct_pt.

Referenced by oomph::RefineableBuoyantQAxisymCrouzeixRaviartElement::further_build().

geometric_jacobian()

double oomph::RefineableAxisymAdvectionDiffusionEquations::geometric_jacobian ( const Vector< double > &  x )

inlinevirtual

Fill in the geometric Jacobian, which in this case is r.

Reimplemented from oomph::ElementWithZ2ErrorEstimator.

    {
      return x[0];
    }

References plotDoE::x.

get_interpolated_values() [1/2]

void oomph::RefineableAxisymAdvectionDiffusionEquations::get_interpolated_values ( const unsigned &  t, const Vector< double > &  s, Vector< double > &  values  )

inlinevirtual

Get the function value u in Vector. Note: Given the generality of the interface (this function is usually called from black-box documentation or interpolation routines), the values Vector sets its own size in here.

Implements oomph::RefineableElement.

    {
      // Set size of Vector: u
      values.resize(1);
 
      // Find number of nodes
      const unsigned n_node = nnode();
 
      // Find the index at which the unknown is stored
      const unsigned u_nodal_index = this->u_index_axi_adv_diff();
 
      // Local shape function
      Shape psi(n_node);
 
      // Find values of shape function
      shape(s, psi);
 
      // Initialise value of u
      values[0] = 0.0;
 
      // Loop over the local nodes and sum
      for (unsigned l = 0; l < n_node; l++)
      {
        values[0] += this->nodal_value(t, l, u_nodal_index) * psi[l];
      }
      // }
 
      if (t != 0)
      {
        std::string error_message =
          "Time-dependent version of get_interpolated_values() ";
        error_message += "not implemented for this element \n";
        throw OomphLibError(error_message,
                            "RefineableAxisymAdvectionDiffusionEquations::get_"
                            "interpolated_values()",
                            OOMPH_EXCEPTION_LOCATION);
      }
      else
      {
        // Make sure that we call the appropriate steady version
        //(the entire function might be overloaded lower down)
        RefineableAxisymAdvectionDiffusionEquations::get_interpolated_values(
          s, values);
      }
    }

References get_interpolated_values(), oomph::FiniteElement::nnode(), oomph::FiniteElement::nodal_value(), OOMPH_EXCEPTION_LOCATION, s, oomph::FiniteElement::shape(), oomph::Global_string_for_annotation::string(), plotPSD::t, and oomph::AxisymAdvectionDiffusionEquations::u_index_axi_adv_diff().

get_interpolated_values() [2/2]

void oomph::RefineableAxisymAdvectionDiffusionEquations::get_interpolated_values ( const Vector< double > &  s, Vector< double > &  values  )

inlinevirtual

Get the function value u in Vector. Note: Given the generality of the interface (this function is usually called from black-box documentation or interpolation routines), the values Vector sets its own size in here.

Reimplemented from oomph::RefineableElement.

    {
      // Set size of Vector: u
      values.resize(1);
 
      // Find number of nodes
      unsigned n_node = nnode();
 
      // Find the index at which the unknown is stored
      unsigned u_nodal_index = this->u_index_axi_adv_diff();
 
      // Local shape function
      Shape psi(n_node);
 
      // Find values of shape function
      shape(s, psi);
 
      // Initialise value of u
      values[0] = 0.0;
 
      // Loop over the local nodes and sum
      for (unsigned l = 0; l < n_node; l++)
      {
        values[0] += this->nodal_value(l, u_nodal_index) * psi[l];
      }
    }

References oomph::FiniteElement::nnode(), oomph::FiniteElement::nodal_value(), s, oomph::FiniteElement::shape(), and oomph::AxisymAdvectionDiffusionEquations::u_index_axi_adv_diff().

Referenced by get_interpolated_values(), and oomph::RefineableBuoyantQAxisymCrouzeixRaviartElement::get_interpolated_values().

get_Z2_flux()

void oomph::RefineableAxisymAdvectionDiffusionEquations::get_Z2_flux ( const Vector< double > &  s, Vector< double > &  flux  )

inlinevirtual

Get 'flux' for Z2 error recovery: Standard flux.from AdvectionDiffusion equations

Implements oomph::ElementWithZ2ErrorEstimator.

    {
      this->get_flux(s, flux);
    }

References ProblemParameters::flux(), and oomph::AxisymAdvectionDiffusionEquations::get_flux().

Referenced by oomph::RefineableBuoyantQAxisymCrouzeixRaviartElement::get_Z2_flux().

num_Z2_flux_terms()

unsigned oomph::RefineableAxisymAdvectionDiffusionEquations::num_Z2_flux_terms ( )

inlinevirtual

Broken assignment operator.

Number of 'flux' terms for Z2 error estimation

Implements oomph::ElementWithZ2ErrorEstimator.

    {
      return 2;
    }

Referenced by oomph::RefineableBuoyantQAxisymCrouzeixRaviartElement::get_Z2_compound_flux_indices(), and oomph::RefineableBuoyantQAxisymCrouzeixRaviartElement::get_Z2_flux().

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

• refineable_axisym_advection_diffusion_elements.h
• refineable_axisym_advection_diffusion_elements.cc