IJK_One_Dimensional_Subproblem

IJK_One_Dimensional_Subproblem#

#include <IJK_One_Dimensional_Subproblem.h>

How to cite this class in this doc#

RST

:ref:`IJK\_One\_Dimensional\_Subproblem <class-ijk-one-dimensional-subproblem>`

Markdown

[IJK\_One\_Dimensional\_Subproblem](#class-ijk-one-dimensional-subproblem)

Detailed description#

class IJK_One_Dimensional_Subproblem

Inherits from#

public : Objet_U

List of Public Methods#

add_interfacial_heat_flux_neighbours
add_interfacial_heat_flux_neighbours_correction
add_source_terms
add_source_terms_temporal_tests
approximate_temperature_increment_material_derivative
associate_sub_problem_to_inputs
associer
compare_flux_interface
compare_fluxes_thermal_subproblems
complete_frame_of_reference_lrs_fluxes_eval
complete_tangential_source_terms_for_post_processings
compute_bubble_related_quantities
compute_cell_faces_weighting
compute_cell_weighting
compute_colinearity
compute_colinearity_cell_faces
compute_distance_cell_centre
compute_distance_cell_centres_neighbours
compute_distance_cell_faces
compute_distance_faces_centres
compute_distance_last_cell_faces_neighbours
compute_error_flux_interface
compute_integral_quantities_solution
compute_local_pressure_gradient
compute_local_shear_stress
compute_local_temperature_gradient_solution
compute_local_velocity_gradient
compute_max_distance_pure_face_centre
compute_max_distance_pure_face_vertices
compute_max_distance_pure_face_vertices
compute_min_distance_pure_face_centre
compute_min_distance_pure_face_vertices
compute_modified_probe_length
compute_modified_probe_length_collision
compute_modified_probe_length_condition
compute_modified_probe_length_temporal_condition
compute_modified_probe_length_vertex_condition
compute_pure_liquid_neighbours
compute_radial_convection_diffusion_operators
compute_radial_convection_scale_factor_solution
compute_radial_temperature_diffusion_solution
compute_relative_vector_cell_faces
compute_source_terms
compute_source_terms_impose_boundary_conditions
compute_tangential_convection_source_terms_first
compute_tangential_convection_source_terms_second
compute_tangential_diffusion_source_terms
compute_temporal_explicit_implicit_matrices
compute_vertex_position
compute_weighting_coefficient
copy_interpolations_on_solution_variables_for_post_processing
dispatch_interfacial_heat_flux
dispatch_interfacial_heat_flux_correction
duplique
find_cell_related_indicator_on_probes
get_azymuthal_velocity_normal_gradient
get_bary_facet
get_compo
get_corrective_flux_from_current
get_corrective_flux_from_neighbours
get_current_cell_xyz_velocities
get_current_indicator
get_current_temperature_solution
get_disable_probe_collision
get_discrete_surface_at_level
get_discrete_two_dimensional_spacing
get_dist_cell
get_dist_faces
get_dxyz_increment_bool
get_dxyz_increment_max
get_dxyz_over_two_increment_bool
get_dxyz_over_two_increment_max
get_end_index_subproblem
get_field_discrete_integral_at_point
get_field_discrete_integral_velocity_weighting_at_point
get_field_discrete_value_recursive
get_field_profile_at_point
get_field_profile_at_point
get_field_times_velocity_discrete_integral_at_point
get_ijk_indices
get_info
get_interfacial_double_derivative_corrected
get_interfacial_gradient_corrected
get_interfacial_thermal_flux
get_interfacial_thermal_flux_gfm
get_interfacial_thermal_flux_lrs
get_interfacial_thermal_flux_max
get_interfacial_thermal_flux_max_gfm
get_interfacial_thermal_flux_max_raw
get_interfacial_thermal_flux_raw
get_lambda
get_local_cfl_time_step_probe_length
get_local_dt_cfl
get_local_dt_cfl_min_delta_xyz
get_local_fourier_time_step_probe_length
get_local_surface_area
get_local_time_step_round
get_max_temperature
get_max_temperature_domain_ends
get_min_temperature
get_min_temperature_domain_ends
get_nb_iter_explicit
get_normal_vector_compo
get_normal_velocity_normal_gradient
get_phi_spherical_coords
get_pressure_gradient
get_probe_variations_enabled
get_pure_neighbours_corrected_colinearity
get_pure_neighbours_corrected_distance
get_pure_neighbours_corrected_sign
get_pure_neighbours_last_faces_corrected_colinearity
get_pure_neighbours_last_faces_corrected_distance
get_pure_neighbours_last_faces_to_correct
get_pure_neighbours_to_correct
get_radius_spherical_coords
get_second_tangential_velocity_normal_gradient
get_shear_force
get_shear_stress
get_sum_convective_diffusive_flux_op_value
get_sum_convective_diffusive_flux_op_value_entering
get_sum_convective_diffusive_flux_op_value_entering_lrs
get_sum_convective_diffusive_flux_op_value_leaving
get_sum_convective_diffusive_flux_op_value_leaving_lrs
get_sum_convective_diffusive_flux_op_value_lrs
get_sum_convective_diffusive_flux_op_value_mixed
get_sum_convective_diffusive_flux_op_value_normal
get_sum_convective_diffusive_flux_op_value_vap
get_tangential_velocity_normal_gradient
get_temperature_gradient_profile_at_point
get_temperature_gradient_profile_discrete_integral_at_point
get_temperature_gradient_times_conductivity_profile_at_point
get_temperature_gradient_times_conductivity_profile_discrete_integral_at_point
get_temperature_profile_at_point
get_temperature_profile_discrete_integral_at_point
get_temperature_times_velocity_profile_at_point
get_temperature_times_velocity_profile_discrete_integral_at_point
get_theta_spherical_coords
get_value_from_index
get_velocity_cartesian_grid_value
get_velocity_component_at_point
get_velocity_weighting
IJK_One_Dimensional_Subproblem
IJK_One_Dimensional_Subproblem
initialise_empty_variables_for_post_processing
interpolate_indicator_on_probes
interpolate_project_velocities_on_probes
locate_pure_mixed_neighbours_without_pure_liquid_faces
prepare_boundary_conditions
prepare_temporal_schemes
reajust_probe_length
reset_post_processing_theta_phi_scope
retrieve_interfacial_quantities
retrieve_radial_quantities
retrieve_shell_quantities
retrieve_temperature_solution
retrieve_variables_solution_gfm_on_probes
set_global_index
set_local_time_step
set_post_processing_theta_phi_scope
set_pure_flux_corrected
set_reference_gfm_on_probes
set_subproblem_index
taille_memoire
thermal_subresolution_outputs
thermal_subresolution_outputs_parallel
~IJK_One_Dimensional_Subproblem

List of Protected Methods#

approximate_partial_temperature_time_increment
approximate_temperature_material_derivatives
approximate_temperature_material_derivatives
associate_bubble_parameters
associate_cell_ijk
associate_collisions_parameters
associate_compos
associate_compos
associate_eulerian_field_values
associate_eulerian_fields_references
associate_finite_difference_operators
associate_finite_difference_solver_solution
associate_flags_neighbours_correction
associate_flux_correction_parameters
associate_global_subproblems_parameters
associate_interface_related_parameters
associate_probe_parameters
associate_rising_velocity
associate_source_terms_parameters
associate_sub_problem_temporal_params
associate_temporal_parameters
associate_thermal_subproblem_parameters
associate_thermal_subproblem_sparse_matrix
associate_tweaked_parameters
associate_varying_probes_params
clear_vectors
compute_energy_from_temperature_interp
compute_first_order_operator_local
compute_first_order_operator_local_varying_probe_length
compute_identity_matrix_local
compute_integral_quantity
compute_integral_quantity_on_probe
compute_interface_basis_vectors
compute_local_discretisation
compute_local_time_step
compute_projection_matrix_cartesian_to_local_spherical
compute_pure_spherical_basis_vectors
compute_second_order_operator_local
compute_second_order_operator_local_varying_probe_length
compute_temperature_integral_subproblem
compute_temperature_integral_subproblem_probe
compute_velocity_magnitude
correct_radial_velocity_probe
correct_tangential_temperature_gradient
correct_tangential_temperature_hessian
correct_velocities
correct_velocity
correct_velocity_rise
find_interval
get_single_point_coordinates
increase_number_of_points
initialise_identity_operator_local
initialise_radial_convection_operator_local
initialise_radial_diffusion_operator_local
initialise_thermal_probe
interpolate_cartesian_velocities_on_probes
interpolate_pressure_on_probes
interpolate_quantities_at_point
interpolate_temperature_gradient_on_probe
interpolate_temperature_hessian_on_probe
interpolate_temperature_on_probe
interpolate_velocity_at_cell_centre
is_in_map_index_ijk
post_process_interfacial_quantities
post_process_radial_quantities
printOn
project_basis_vector_onto_cartesian_dir
project_cartesian_onto_basis_vector
project_matrix_on_basis
project_temperature_gradient_on_probes
project_temperature_hessian_on_probes
project_velocities_on_probes
readOn
recompute_finite_difference_matrices
recompute_finite_difference_matrices_varying_probe_length
reinit_variable
reset_counters
reset_flags
retrieve_previous_temperature_on_probe
retrieve_previous_temperature_on_probe_type
retrieve_temperature_diffusion_spherical_on_probes

Complete Member Function Documentation#

add_interfacial_heat_flux_neighbours

void IJK_One_Dimensional_Subproblem::add_interfacial_heat_flux_neighbours(IJK_Field_vector3_double &interfacial_heat_flux_dispatched)

add_interfacial_heat_flux_neighbours_correction

void IJK_One_Dimensional_Subproblem::add_interfacial_heat_flux_neighbours_correction(IJK_Field_vector3_double &interfacial_heat_flux_dispatched, IJK_Field_vector3_double &interfacial_heat_flux_current)

add_source_terms

void IJK_One_Dimensional_Subproblem::add_source_terms(const int &boundary_condition_interface, const int &boundary_condition_end)

add_source_terms_temporal_tests

void IJK_One_Dimensional_Subproblem::add_source_terms_temporal_tests(const int &boundary_condition_interface, const int &boundary_condition_end)

approximate_temperature_increment_material_derivative

void IJK_One_Dimensional_Subproblem::approximate_temperature_increment_material_derivative()

associate_sub_problem_to_inputs

void IJK_One_Dimensional_Subproblem::associate_sub_problem_to_inputs(IJK_Thermal_Subresolution &ref_thermal_subresolution, IJK_One_Dimensional_Subproblems &ref_one_dimensional_subproblems, int i, int j, int k, int init, int sub_problem_index, double global_time_step, double current_time, int compo_connex, double distance, double curvature, double interfacial_area, ArrOfDouble facet_barycentre, ArrOfDouble normal_vector, double bubble_rising_velocity, ArrOfDouble bubble_rising_vector, ArrOfDouble bubble_barycentre, const double &indicator, const IJK_Interfaces &interfaces, const IJK_Field_vector3_double &velocity, const IJK_Field_vector3_double &velocity_ft, const IJK_Field_double &pressure)

How to cite in this doc:

RST

:ref:`void IJK_One_Dimensional_Subproblem::associate_sub_problem_to_inputs(IJK_Thermal_Subresolution &ref_thermal_subresolution, IJK_One_Dimensional_Subproblems &ref_one_dimensional_subproblems, int i, int j, int k, int init, int sub_problem_index, double global_time_step, double current_time, int compo_connex, double distance, double curvature, double interfacial_area, ArrOfDouble facet_barycentre, ArrOfDouble normal_vector, double bubble_rising_velocity, ArrOfDouble bubble_rising_vector, ArrOfDouble bubble_barycentre, const double &indicator, const IJK_Interfaces &interfaces, const IJK_Field_vector3_double &velocity, const IJK_Field_vector3_double &velocity_ft, const IJK_Field_double &pressure) <public-void-ijk-one-dimensional-subproblem-associate-sub-problem-to-inputs-ijk-thermal-subresolution-ref-ref-thermal-subresolution-ijk-one-dimensional-subproblems-ref-ref-one-dimensional-subproblems-int-i-int-j-int-k-int-init-int-sub-problem-index-double-global-time-step-double-current-time-int-compo-connex-double-distance-double-curvature-double-interfacial-area-arrofdouble-facet-barycentre-arrofdouble-normal-vector-double-bubble-rising-velocity-arrofdouble-bubble-rising-vector-arrofdouble-bubble-barycentre-const-double-ref-indicator-const-ijk-interfaces-ref-interfaces-const-ijk-field-vector3-double-ref-velocity-const-ijk-field-vector3-double-ref-velocity-ft-const-ijk-field-double-ref-pressure>`

Markdown

[void IJK_One_Dimensional_Subproblem::associate_sub_problem_to_inputs(IJK_Thermal_Subresolution &ref_thermal_subresolution, IJK_One_Dimensional_Subproblems &ref_one_dimensional_subproblems, int i, int j, int k, int init, int sub_problem_index, double global_time_step, double current_time, int compo_connex, double distance, double curvature, double interfacial_area, ArrOfDouble facet_barycentre, ArrOfDouble normal_vector, double bubble_rising_velocity, ArrOfDouble bubble_rising_vector, ArrOfDouble bubble_barycentre, const double &indicator, const IJK_Interfaces &interfaces, const IJK_Field_vector3_double &velocity, const IJK_Field_vector3_double &velocity_ft, const IJK_Field_double &pressure)](#public-void-ijk-one-dimensional-subproblem-associate-sub-problem-to-inputs-ijk-thermal-subresolution-ref-ref-thermal-subresolution-ijk-one-dimensional-subproblems-ref-ref-one-dimensional-subproblems-int-i-int-j-int-k-int-init-int-sub-problem-index-double-global-time-step-double-current-time-int-compo-connex-double-distance-double-curvature-double-interfacial-area-arrofdouble-facet-barycentre-arrofdouble-normal-vector-double-bubble-rising-velocity-arrofdouble-bubble-rising-vector-arrofdouble-bubble-barycentre-const-double-ref-indicator-const-ijk-interfaces-ref-interfaces-const-ijk-field-vector3-double-ref-velocity-const-ijk-field-vector3-double-ref-velocity-ft-const-ijk-field-double-ref-pressure)

associer

void IJK_One_Dimensional_Subproblem::associer(const Probleme_FTD_IJK_base &ijk_ft)

compare_flux_interface

void IJK_One_Dimensional_Subproblem::compare_flux_interface(std::vector< double > &radial_flux_error)

compare_fluxes_thermal_subproblems

void IJK_One_Dimensional_Subproblem::compare_fluxes_thermal_subproblems(const IJK_Field_vector3_double &convective_diffusive_fluxes_raw, const int flux_type, const int inv_sign=0)

complete_frame_of_reference_lrs_fluxes_eval

void IJK_One_Dimensional_Subproblem::complete_frame_of_reference_lrs_fluxes_eval()

complete_tangential_source_terms_for_post_processings

void IJK_One_Dimensional_Subproblem::complete_tangential_source_terms_for_post_processings()

compute_bubble_related_quantities

void IJK_One_Dimensional_Subproblem::compute_bubble_related_quantities()

compute_cell_faces_weighting

double IJK_One_Dimensional_Subproblem::compute_cell_faces_weighting(const double &dx_contrib, const double &dy_contrib, const double &dz_contrib, const int &dir)

compute_cell_weighting

double IJK_One_Dimensional_Subproblem::compute_cell_weighting(const double &dx_contrib, const double &dy_contrib, const double &dz_contrib)

compute_colinearity

double IJK_One_Dimensional_Subproblem::compute_colinearity(const double &dx_contrib, const double &dy_contrib, const double &dz_contrib)

compute_colinearity_cell_faces

double IJK_One_Dimensional_Subproblem::compute_colinearity_cell_faces(const double &dx_contrib, const double &dy_contrib, const double &dz_contrib, const int &dir)

compute_distance_cell_centre

void IJK_One_Dimensional_Subproblem::compute_distance_cell_centre()

compute_distance_cell_centres_neighbours

void IJK_One_Dimensional_Subproblem::compute_distance_cell_centres_neighbours()

compute_distance_cell_faces

double IJK_One_Dimensional_Subproblem::compute_distance_cell_faces(const double &dx_contrib, const double &dy_contrib, const double &dz_contrib)

compute_distance_faces_centres

void IJK_One_Dimensional_Subproblem::compute_distance_faces_centres()

compute_distance_last_cell_faces_neighbours

void IJK_One_Dimensional_Subproblem::compute_distance_last_cell_faces_neighbours()

compute_error_flux_interface

void IJK_One_Dimensional_Subproblem::compute_error_flux_interface()

compute_integral_quantities_solution

void IJK_One_Dimensional_Subproblem::compute_integral_quantities_solution()

compute_local_pressure_gradient

void IJK_One_Dimensional_Subproblem::compute_local_pressure_gradient()

compute_local_shear_stress

void IJK_One_Dimensional_Subproblem::compute_local_shear_stress()

compute_local_temperature_gradient_solution

void IJK_One_Dimensional_Subproblem::compute_local_temperature_gradient_solution()

compute_local_velocity_gradient

void IJK_One_Dimensional_Subproblem::compute_local_velocity_gradient()

compute_max_distance_pure_face_centre

double IJK_One_Dimensional_Subproblem::compute_max_distance_pure_face_centre()

compute_max_distance_pure_face_vertices

double IJK_One_Dimensional_Subproblem::compute_max_distance_pure_face_vertices()

compute_max_distance_pure_face_vertices

double IJK_One_Dimensional_Subproblem::compute_max_distance_pure_face_vertices(int &lmax, int &mmax)

compute_min_distance_pure_face_centre

double IJK_One_Dimensional_Subproblem::compute_min_distance_pure_face_centre()

compute_min_distance_pure_face_vertices

double IJK_One_Dimensional_Subproblem::compute_min_distance_pure_face_vertices()

compute_modified_probe_length

void IJK_One_Dimensional_Subproblem::compute_modified_probe_length(const int &probe_variations_enabled)

compute_modified_probe_length_collision

void IJK_One_Dimensional_Subproblem::compute_modified_probe_length_collision()

compute_modified_probe_length_condition

void IJK_One_Dimensional_Subproblem::compute_modified_probe_length_condition(const int probe_length_condition)

compute_modified_probe_length_temporal_condition

void IJK_One_Dimensional_Subproblem::compute_modified_probe_length_temporal_condition()

compute_modified_probe_length_vertex_condition

void IJK_One_Dimensional_Subproblem::compute_modified_probe_length_vertex_condition()

compute_pure_liquid_neighbours

void IJK_One_Dimensional_Subproblem::compute_pure_liquid_neighbours()

compute_radial_convection_diffusion_operators

void IJK_One_Dimensional_Subproblem::compute_radial_convection_diffusion_operators()

compute_radial_convection_scale_factor_solution

void IJK_One_Dimensional_Subproblem::compute_radial_convection_scale_factor_solution()

compute_radial_temperature_diffusion_solution

void IJK_One_Dimensional_Subproblem::compute_radial_temperature_diffusion_solution()

compute_relative_vector_cell_faces

Vecteur3 IJK_One_Dimensional_Subproblem::compute_relative_vector_cell_faces(const double &dx_contrib, const double &dy_contrib, const double &dz_contrib)

compute_source_terms

void IJK_One_Dimensional_Subproblem::compute_source_terms()

compute_source_terms_impose_boundary_conditions

void IJK_One_Dimensional_Subproblem::compute_source_terms_impose_boundary_conditions(const int &boundary_condition_interface, const double &interfacial_boundary_condition_value, const int &impose_boundary_condition_interface_from_simulation, const int &boundary_condition_end, const double &end_boundary_condition_value, const int &impose_user_boundary_condition_end_value)

compute_tangential_convection_source_terms_first

void IJK_One_Dimensional_Subproblem::compute_tangential_convection_source_terms_first()

compute_tangential_convection_source_terms_second

void IJK_One_Dimensional_Subproblem::compute_tangential_convection_source_terms_second()

compute_tangential_diffusion_source_terms

void IJK_One_Dimensional_Subproblem::compute_tangential_diffusion_source_terms()

compute_temporal_explicit_implicit_matrices

void IJK_One_Dimensional_Subproblem::compute_temporal_explicit_implicit_matrices()

compute_vertex_position

void IJK_One_Dimensional_Subproblem::compute_vertex_position(const int &vertex_number, const int &face_dir, Vecteur3 &bary_vertex, double &distance_vertex_centre, double &tangential_distance_vertex_centre, Vecteur3 &tangential_distance_vector_vertex_centre)

compute_weighting_coefficient

void IJK_One_Dimensional_Subproblem::compute_weighting_coefficient(const int &l, double &weight, const int &weight_type=0)

copy_interpolations_on_solution_variables_for_post_processing

void IJK_One_Dimensional_Subproblem::copy_interpolations_on_solution_variables_for_post_processing()

dispatch_interfacial_heat_flux

void IJK_One_Dimensional_Subproblem::dispatch_interfacial_heat_flux(IJK_Field_vector3_double &interfacial_heat_flux_dispatched, FixedVector< ArrOfInt, 3 > &ijk_indices_out, FixedVector< ArrOfDouble, 3 > &thermal_flux_out)

dispatch_interfacial_heat_flux_correction

void IJK_One_Dimensional_Subproblem::dispatch_interfacial_heat_flux_correction(IJK_Field_vector3_double &interfacial_heat_flux_dispatched, FixedVector< ArrOfInt, 4 > &ijk_indices_out, ArrOfDouble &thermal_flux_out, IJK_Field_vector3_double &interfacial_heat_flux_current)

duplique

int IJK_One_Dimensional_Subproblem::duplique() const override

Reimplements:

duplique

find_cell_related_indicator_on_probes

double IJK_One_Dimensional_Subproblem::find_cell_related_indicator_on_probes(const int &last_index)

get_azymuthal_velocity_normal_gradient

double IJK_One_Dimensional_Subproblem::get_azymuthal_velocity_normal_gradient() const

get_bary_facet

const Vecteur3 & IJK_One_Dimensional_Subproblem::get_bary_facet() const

get_compo

const int & IJK_One_Dimensional_Subproblem::get_compo() const

get_corrective_flux_from_current

double IJK_One_Dimensional_Subproblem::get_corrective_flux_from_current(const int &l)

get_corrective_flux_from_neighbours

double IJK_One_Dimensional_Subproblem::get_corrective_flux_from_neighbours(const int &l)

get_current_cell_xyz_velocities

const Vecteur3 & IJK_One_Dimensional_Subproblem::get_current_cell_xyz_velocities() const

get_current_indicator

const double & IJK_One_Dimensional_Subproblem::get_current_indicator() const

get_current_temperature_solution

const DoubleVect & IJK_One_Dimensional_Subproblem::get_current_temperature_solution() const

get_disable_probe_collision

const int & IJK_One_Dimensional_Subproblem::get_disable_probe_collision() const

get_discrete_surface_at_level

double IJK_One_Dimensional_Subproblem::get_discrete_surface_at_level(const int &dir, const int &level) const

get_discrete_two_dimensional_spacing

void IJK_One_Dimensional_Subproblem::get_discrete_two_dimensional_spacing(const int &dir, const int &level, const double &first_dir, const double &second_dir, double &dl1, double &dl2, Vecteur3 &point_coords) const

get_dist_cell

const double & IJK_One_Dimensional_Subproblem::get_dist_cell() const

get_dist_faces

const FixedVector<double, 6> & IJK_One_Dimensional_Subproblem::get_dist_faces() const

get_dxyz_increment_bool

const int & IJK_One_Dimensional_Subproblem::get_dxyz_increment_bool() const

get_dxyz_increment_max

int IJK_One_Dimensional_Subproblem::get_dxyz_increment_max()

get_dxyz_over_two_increment_bool

const int & IJK_One_Dimensional_Subproblem::get_dxyz_over_two_increment_bool() const

get_dxyz_over_two_increment_max

int IJK_One_Dimensional_Subproblem::get_dxyz_over_two_increment_max()

get_end_index_subproblem

const int & IJK_One_Dimensional_Subproblem::get_end_index_subproblem() const

get_field_discrete_integral_at_point

DoubleVect IJK_One_Dimensional_Subproblem::get_field_discrete_integral_at_point(const double &dist, const int &levels, const int &dir, const DoubleVect &field, const DoubleVect &field_weak_gradient, const IJK_Field_double &eulerian_field, const int weak_gradient_variable, const int temp_bool)

get_field_discrete_integral_velocity_weighting_at_point

DoubleVect IJK_One_Dimensional_Subproblem::get_field_discrete_integral_velocity_weighting_at_point(const double &dist, const int &levels, const int &dir, const DoubleVect &field, const DoubleVect &field_weak_gradient, const IJK_Field_double &eulerian_field, const int temp_bool, const int weak_gradient_variable, const int vel, const int &l=-1)

get_field_discrete_value_recursive

void IJK_One_Dimensional_Subproblem::get_field_discrete_value_recursive(const int &ilevel, const int &max_level, const int &dir, const double &dist, const int &vel, const double &surface, const DoubleVect &field, const DoubleVect &field_weak_gradient, const IJK_Field_double &eulerian_field, const int temp_bool, const int weak_gradient_variable, const double dl1_parent, const double dl2_parent, Vecteur3 &point_coords_parent, DoubleVect &discrete_values, int &value_counter) const

get_field_profile_at_point

double IJK_One_Dimensional_Subproblem::get_field_profile_at_point(const double &dist, const DoubleVect &field, const DoubleVect &field_weak_gradient, const IJK_Field_double &eulerian_field, const int temp_bool, const int weak_gradient_variable, const int interp_eulerian) const

get_field_profile_at_point

double IJK_One_Dimensional_Subproblem::get_field_profile_at_point(const double &dist, const DoubleVect &field, const int temp_bool) const

get_field_times_velocity_discrete_integral_at_point

DoubleVect IJK_One_Dimensional_Subproblem::get_field_times_velocity_discrete_integral_at_point(const double &dist, const int &levels, const int &dir, const DoubleVect &field, const DoubleVect &field_weak_gradient, const IJK_Field_double &eulerian_field, const int &l)

get_ijk_indices

void IJK_One_Dimensional_Subproblem::get_ijk_indices(int &i, int &j, int &k) const

get_info

const Type_info * IJK_One_Dimensional_Subproblem::get_info() const override

Donne des informations sur le type de l’ Objet_U .

Reimplements:

get_info

get_interfacial_double_derivative_corrected

double IJK_One_Dimensional_Subproblem::get_interfacial_double_derivative_corrected() const

get_interfacial_gradient_corrected

double IJK_One_Dimensional_Subproblem::get_interfacial_gradient_corrected() const

get_interfacial_thermal_flux

const double & IJK_One_Dimensional_Subproblem::get_interfacial_thermal_flux() const

get_interfacial_thermal_flux_gfm

const double & IJK_One_Dimensional_Subproblem::get_interfacial_thermal_flux_gfm() const

get_interfacial_thermal_flux_lrs

const double & IJK_One_Dimensional_Subproblem::get_interfacial_thermal_flux_lrs() const

get_interfacial_thermal_flux_max

const double & IJK_One_Dimensional_Subproblem::get_interfacial_thermal_flux_max() const

get_interfacial_thermal_flux_max_gfm

const double & IJK_One_Dimensional_Subproblem::get_interfacial_thermal_flux_max_gfm() const

get_interfacial_thermal_flux_max_raw

const double & IJK_One_Dimensional_Subproblem::get_interfacial_thermal_flux_max_raw() const

get_interfacial_thermal_flux_raw

const double & IJK_One_Dimensional_Subproblem::get_interfacial_thermal_flux_raw() const

get_lambda

const double & IJK_One_Dimensional_Subproblem::get_lambda() const

get_local_cfl_time_step_probe_length

const double & IJK_One_Dimensional_Subproblem::get_local_cfl_time_step_probe_length() const

get_local_dt_cfl

const double & IJK_One_Dimensional_Subproblem::get_local_dt_cfl() const

get_local_dt_cfl_min_delta_xyz

const double & IJK_One_Dimensional_Subproblem::get_local_dt_cfl_min_delta_xyz() const

get_local_fourier_time_step_probe_length

const double & IJK_One_Dimensional_Subproblem::get_local_fourier_time_step_probe_length() const

get_local_surface_area

const double & IJK_One_Dimensional_Subproblem::get_local_surface_area() const

get_local_time_step_round

const double & IJK_One_Dimensional_Subproblem::get_local_time_step_round() const

get_max_temperature

double IJK_One_Dimensional_Subproblem::get_max_temperature() const

get_max_temperature_domain_ends

double IJK_One_Dimensional_Subproblem::get_max_temperature_domain_ends() const

get_min_temperature

double IJK_One_Dimensional_Subproblem::get_min_temperature() const

get_min_temperature_domain_ends

double IJK_One_Dimensional_Subproblem::get_min_temperature_domain_ends() const

get_nb_iter_explicit

const int & IJK_One_Dimensional_Subproblem::get_nb_iter_explicit() const

get_normal_vector_compo

const Vecteur3 & IJK_One_Dimensional_Subproblem::get_normal_vector_compo() const

get_normal_velocity_normal_gradient

double IJK_One_Dimensional_Subproblem::get_normal_velocity_normal_gradient() const

get_phi_spherical_coords

const double & IJK_One_Dimensional_Subproblem::get_phi_spherical_coords() const

get_pressure_gradient

const double & IJK_One_Dimensional_Subproblem::get_pressure_gradient() const

get_probe_variations_enabled

const int & IJK_One_Dimensional_Subproblem::get_probe_variations_enabled() const

get_pure_neighbours_corrected_colinearity

const std::vector<std::vector<std::vector<double>>> & IJK_One_Dimensional_Subproblem::get_pure_neighbours_corrected_colinearity() const

get_pure_neighbours_corrected_distance

const std::vector<std::vector<std::vector<double>>> & IJK_One_Dimensional_Subproblem::get_pure_neighbours_corrected_distance() const

get_pure_neighbours_corrected_sign

const FixedVector<int, 3> & IJK_One_Dimensional_Subproblem::get_pure_neighbours_corrected_sign() const

get_pure_neighbours_last_faces_corrected_colinearity

const std::vector<std::vector<std::vector<std::vector<double>>>> IJK_One_Dimensional_Subproblem::get_pure_neighbours_last_faces_corrected_colinearity() const

get_pure_neighbours_last_faces_corrected_distance

const std::vector<std::vector<std::vector<std::vector<double>>>> IJK_One_Dimensional_Subproblem::get_pure_neighbours_last_faces_corrected_distance() const

get_pure_neighbours_last_faces_to_correct

const std::vector<std::vector<std::vector<std::vector<bool>>>> IJK_One_Dimensional_Subproblem::get_pure_neighbours_last_faces_to_correct() const

get_pure_neighbours_to_correct

const std::vector<std::vector<std::vector<bool>>> & IJK_One_Dimensional_Subproblem::get_pure_neighbours_to_correct() const

get_radius_spherical_coords

const double & IJK_One_Dimensional_Subproblem::get_radius_spherical_coords() const

get_second_tangential_velocity_normal_gradient

double IJK_One_Dimensional_Subproblem::get_second_tangential_velocity_normal_gradient() const

get_shear_force

const double & IJK_One_Dimensional_Subproblem::get_shear_force() const

get_shear_stress

const double & IJK_One_Dimensional_Subproblem::get_shear_stress() const

get_sum_convective_diffusive_flux_op_value

const double & IJK_One_Dimensional_Subproblem::get_sum_convective_diffusive_flux_op_value(const int flux_type) const

get_sum_convective_diffusive_flux_op_value_entering

const double & IJK_One_Dimensional_Subproblem::get_sum_convective_diffusive_flux_op_value_entering(const int flux_type) const

get_sum_convective_diffusive_flux_op_value_entering_lrs

const double & IJK_One_Dimensional_Subproblem::get_sum_convective_diffusive_flux_op_value_entering_lrs(const int flux_type) const

get_sum_convective_diffusive_flux_op_value_leaving

const double & IJK_One_Dimensional_Subproblem::get_sum_convective_diffusive_flux_op_value_leaving(const int flux_type) const

get_sum_convective_diffusive_flux_op_value_leaving_lrs

const double & IJK_One_Dimensional_Subproblem::get_sum_convective_diffusive_flux_op_value_leaving_lrs(const int flux_type) const

get_sum_convective_diffusive_flux_op_value_lrs

const double & IJK_One_Dimensional_Subproblem::get_sum_convective_diffusive_flux_op_value_lrs(const int flux_type)

get_sum_convective_diffusive_flux_op_value_mixed

const double & IJK_One_Dimensional_Subproblem::get_sum_convective_diffusive_flux_op_value_mixed(const int flux_type) const

get_sum_convective_diffusive_flux_op_value_normal

const double & IJK_One_Dimensional_Subproblem::get_sum_convective_diffusive_flux_op_value_normal(const int flux_type) const

get_sum_convective_diffusive_flux_op_value_vap

const double & IJK_One_Dimensional_Subproblem::get_sum_convective_diffusive_flux_op_value_vap(const int flux_type) const

get_tangential_velocity_normal_gradient

double IJK_One_Dimensional_Subproblem::get_tangential_velocity_normal_gradient() const

get_temperature_gradient_profile_at_point

double IJK_One_Dimensional_Subproblem::get_temperature_gradient_profile_at_point(const double &dist, const int &dir) const

get_temperature_gradient_profile_discrete_integral_at_point

DoubleVect IJK_One_Dimensional_Subproblem::get_temperature_gradient_profile_discrete_integral_at_point(const double &dist, const int &levels, const int &dir)

get_temperature_gradient_times_conductivity_profile_at_point

double IJK_One_Dimensional_Subproblem::get_temperature_gradient_times_conductivity_profile_at_point(const double &dist, const int &dir, bool &valid_val) const

get_temperature_gradient_times_conductivity_profile_discrete_integral_at_point

DoubleVect IJK_One_Dimensional_Subproblem::get_temperature_gradient_times_conductivity_profile_discrete_integral_at_point(const double &dist, const int &levels, const int &dir)

get_temperature_profile_at_point

double IJK_One_Dimensional_Subproblem::get_temperature_profile_at_point(const double &dist) const

get_temperature_profile_discrete_integral_at_point

DoubleVect IJK_One_Dimensional_Subproblem::get_temperature_profile_discrete_integral_at_point(const double &dist, const int &levels, const int &dir)

get_temperature_times_velocity_profile_at_point

double IJK_One_Dimensional_Subproblem::get_temperature_times_velocity_profile_at_point(const double &dist, const int &dir, bool &valid_val, const int &l, const int &index_i=-100, const int &index_j=-100, const int &index_k=-100, const int &temperature=0)

get_temperature_times_velocity_profile_discrete_integral_at_point

DoubleVect IJK_One_Dimensional_Subproblem::get_temperature_times_velocity_profile_discrete_integral_at_point(const double &dist, const int &levels, const int &dir, const int &l)

get_theta_spherical_coords

const double & IJK_One_Dimensional_Subproblem::get_theta_spherical_coords() const

get_value_from_index

double IJK_One_Dimensional_Subproblem::get_value_from_index(const int &index_val)

get_velocity_cartesian_grid_value

double IJK_One_Dimensional_Subproblem::get_velocity_cartesian_grid_value(const double &dist, const int &dir, const int &sign_dir, const int &index_i, const int &index_j, const int &index_k) const

get_velocity_component_at_point

double IJK_One_Dimensional_Subproblem::get_velocity_component_at_point(const double &dist, const int &dir, const int &index_i=-100, const int &index_j=-100, const int &index_k=-100) const

get_velocity_weighting

double IJK_One_Dimensional_Subproblem::get_velocity_weighting(const double &dist, const int &dir, const int vel) const

IJK_One_Dimensional_Subproblem

IJK_One_Dimensional_Subproblem::IJK_One_Dimensional_Subproblem()

IJK_One_Dimensional_Subproblem

IJK_One_Dimensional_Subproblem::IJK_One_Dimensional_Subproblem(const Probleme_FTD_IJK_base &ijk_ft)

initialise_empty_variables_for_post_processing

void IJK_One_Dimensional_Subproblem::initialise_empty_variables_for_post_processing()

interpolate_indicator_on_probes

void IJK_One_Dimensional_Subproblem::interpolate_indicator_on_probes()

interpolate_project_velocities_on_probes

void IJK_One_Dimensional_Subproblem::interpolate_project_velocities_on_probes()

locate_pure_mixed_neighbours_without_pure_liquid_faces

void IJK_One_Dimensional_Subproblem::locate_pure_mixed_neighbours_without_pure_liquid_faces()

prepare_boundary_conditions

void IJK_One_Dimensional_Subproblem::prepare_boundary_conditions(DoubleVect *thermal_subproblems_rhs_assembly, DoubleVect *thermal_subproblems_temperature_solution_ini, int &boundary_condition_interface, const double &interfacial_boundary_condition_value, const int &impose_boundary_condition_interface_from_simulation, int &boundary_condition_end, const double &end_boundary_condition_value, const int &impose_user_boundary_condition_end_value)

prepare_temporal_schemes

void IJK_One_Dimensional_Subproblem::prepare_temporal_schemes()

reajust_probe_length

void IJK_One_Dimensional_Subproblem::reajust_probe_length()

reset_post_processing_theta_phi_scope

void IJK_One_Dimensional_Subproblem::reset_post_processing_theta_phi_scope()

retrieve_interfacial_quantities

void IJK_One_Dimensional_Subproblem::retrieve_interfacial_quantities(const int rank, const int &itr, std::vector< std::string > key_results_int, std::vector< std::string > key_results_double, std::map< std::string, ArrOfInt > &results_probes_int, std::map< std::string, ArrOfDouble > &results_probes_double, const int &coord=0)

retrieve_radial_quantities

void IJK_One_Dimensional_Subproblem::retrieve_radial_quantities()

retrieve_shell_quantities

void IJK_One_Dimensional_Subproblem::retrieve_shell_quantities(const int rank, const int &itr, std::vector< std::string > key_results_int, std::vector< std::string > key_results_double, std::map< std::string, ArrOfInt > &results_probes_int, std::map< std::string, ArrOfDouble > &results_probes_double)

retrieve_temperature_solution

void IJK_One_Dimensional_Subproblem::retrieve_temperature_solution()

retrieve_variables_solution_gfm_on_probes

void IJK_One_Dimensional_Subproblem::retrieve_variables_solution_gfm_on_probes()

set_global_index

void IJK_One_Dimensional_Subproblem::set_global_index(const int &global_subproblem_index)

set_local_time_step

void IJK_One_Dimensional_Subproblem::set_local_time_step(const double &local_time_step)

set_post_processing_theta_phi_scope

void IJK_One_Dimensional_Subproblem::set_post_processing_theta_phi_scope(const int index)

set_pure_flux_corrected

void IJK_One_Dimensional_Subproblem::set_pure_flux_corrected(const double &flux_face, const int &l, const int flux_type)

set_reference_gfm_on_probes

void IJK_One_Dimensional_Subproblem::set_reference_gfm_on_probes(const int &reference_gfm_on_probes)

set_subproblem_index

void IJK_One_Dimensional_Subproblem::set_subproblem_index(const int &sub_problem_index)

taille_memoire

unsigned IJK_One_Dimensional_Subproblem::taille_memoire() const override

Reimplements:

taille_memoire

thermal_subresolution_outputs

void IJK_One_Dimensional_Subproblem::thermal_subresolution_outputs(SFichier &fic, SFichier &fic_shell, const int rank, const Nom &local_quantities_thermal_probes_time_index_folder)

thermal_subresolution_outputs_parallel

void IJK_One_Dimensional_Subproblem::thermal_subresolution_outputs_parallel(const int rank, const Nom &local_quantities_thermal_probes_time_index_folder)

~IJK_One_Dimensional_Subproblem

IJK_One_Dimensional_Subproblem::~IJK_One_Dimensional_Subproblem()

cree_instance

Objet_U * IJK_One_Dimensional_Subproblem::cree_instance()

info

const Type_info * IJK_One_Dimensional_Subproblem::info()

self_cast

const IJK_One_Dimensional_Subproblem & IJK_One_Dimensional_Subproblem::self_cast(const Objet_U &)

self_cast

IJK_One_Dimensional_Subproblem & IJK_One_Dimensional_Subproblem::self_cast(Objet_U &)

approximate_partial_temperature_time_increment

void IJK_One_Dimensional_Subproblem::approximate_partial_temperature_time_increment()

approximate_temperature_material_derivatives

void IJK_One_Dimensional_Subproblem::approximate_temperature_material_derivatives()

approximate_temperature_material_derivatives

void IJK_One_Dimensional_Subproblem::approximate_temperature_material_derivatives(const Vecteur3 &normal_vector_compo, const Vecteur3 &first_tangential_vector_compo, const Vecteur3 &second_tangential_vector_compo, const DoubleVect &radial_velocity_frame, const DoubleVect &first_tangential_velocity_frame, const DoubleVect &second_tangential_velocity_frame, const DoubleVect &temperature_time_increment, DoubleVect &convective_term, DoubleVect &material_derivative)

associate_bubble_parameters

void IJK_One_Dimensional_Subproblem::associate_bubble_parameters(const ArrOfDouble &bubbles_surface, const ArrOfDouble &radius_from_surfaces_per_bubble, const ArrOfDouble &radius_from_volumes_per_bubble, const double &delta_temperature, const double &mean_liquid_temperature, const ArrOfDouble *bubbles_volume, const DoubleTab *rising_vectors)

associate_cell_ijk

void IJK_One_Dimensional_Subproblem::associate_cell_ijk(int i, int j, int k)

associate_collisions_parameters

void IJK_One_Dimensional_Subproblem::associate_collisions_parameters(const int &enable_probe_collision_detection, const int &enable_resize_probe_collision, const int &debug_probe_collision)

associate_compos

void IJK_One_Dimensional_Subproblem::associate_compos(int compo_connex)

associate_compos

void IJK_One_Dimensional_Subproblem::associate_compos(int compo_connex, int compo_group)

associate_eulerian_field_values

void IJK_One_Dimensional_Subproblem::associate_eulerian_field_values(int compo_connex, const double &indicator)

associate_eulerian_fields_references

void IJK_One_Dimensional_Subproblem::associate_eulerian_fields_references(const IJK_Interfaces &interfaces, const IJK_Field_double *eulerian_distance, const IJK_Field_double *eulerian_curvature, const IJK_Field_double *eulerian_interfacial_area, const IJK_Field_vector3_double *eulerian_normal_vect, const IJK_Field_vector3_double *eulerian_facets_barycentre, const IJK_Field_double &temperature, const IJK_Field_double &temperature_ft, const IJK_Field_double &temperature_before_extrapolation, const IJK_Field_vector3_double &velocity, const IJK_Field_vector3_double &velocity_ft, const IJK_Field_double &pressure, const IJK_Field_vector3_double &grad_T_elem, const IJK_Field_vector3_double &grad_T_elem_smooth, const IJK_Field_vector3_double &hess_diag_T_elem, const IJK_Field_vector3_double &hess_cross_T_elem, const IJK_Field_double &eulerian_grad_T_interface_ns, IJK_Field_double &probe_collision_debug_field, IJK_Field_int &zero_liquid_neighbours, const int &smooth_grad_T_elem)

How to cite in this doc:

RST

:ref:`void IJK_One_Dimensional_Subproblem::associate_eulerian_fields_references(const IJK_Interfaces &interfaces, const IJK_Field_double *eulerian_distance, const IJK_Field_double *eulerian_curvature, const IJK_Field_double *eulerian_interfacial_area, const IJK_Field_vector3_double *eulerian_normal_vect, const IJK_Field_vector3_double *eulerian_facets_barycentre, const IJK_Field_double &temperature, const IJK_Field_double &temperature_ft, const IJK_Field_double &temperature_before_extrapolation, const IJK_Field_vector3_double &velocity, const IJK_Field_vector3_double &velocity_ft, const IJK_Field_double &pressure, const IJK_Field_vector3_double &grad_T_elem, const IJK_Field_vector3_double &grad_T_elem_smooth, const IJK_Field_vector3_double &hess_diag_T_elem, const IJK_Field_vector3_double &hess_cross_T_elem, const IJK_Field_double &eulerian_grad_T_interface_ns, IJK_Field_double &probe_collision_debug_field, IJK_Field_int &zero_liquid_neighbours, const int &smooth_grad_T_elem) <protected-void-ijk-one-dimensional-subproblem-associate-eulerian-fields-references-const-ijk-interfaces-ref-interfaces-const-ijk-field-double-ptr-eulerian-distance-const-ijk-field-double-ptr-eulerian-curvature-const-ijk-field-double-ptr-eulerian-interfacial-area-const-ijk-field-vector3-double-ptr-eulerian-normal-vect-const-ijk-field-vector3-double-ptr-eulerian-facets-barycentre-const-ijk-field-double-ref-temperature-const-ijk-field-double-ref-temperature-ft-const-ijk-field-double-ref-temperature-before-extrapolation-const-ijk-field-vector3-double-ref-velocity-const-ijk-field-vector3-double-ref-velocity-ft-const-ijk-field-double-ref-pressure-const-ijk-field-vector3-double-ref-grad-t-elem-const-ijk-field-vector3-double-ref-grad-t-elem-smooth-const-ijk-field-vector3-double-ref-hess-diag-t-elem-const-ijk-field-vector3-double-ref-hess-cross-t-elem-const-ijk-field-double-ref-eulerian-grad-t-interface-ns-ijk-field-double-ref-probe-collision-debug-field-ijk-field-int-ref-zero-liquid-neighbours-const-int-ref-smooth-grad-t-elem>`

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[void IJK_One_Dimensional_Subproblem::associate_eulerian_fields_references(const IJK_Interfaces &interfaces, const IJK_Field_double *eulerian_distance, const IJK_Field_double *eulerian_curvature, const IJK_Field_double *eulerian_interfacial_area, const IJK_Field_vector3_double *eulerian_normal_vect, const IJK_Field_vector3_double *eulerian_facets_barycentre, const IJK_Field_double &temperature, const IJK_Field_double &temperature_ft, const IJK_Field_double &temperature_before_extrapolation, const IJK_Field_vector3_double &velocity, const IJK_Field_vector3_double &velocity_ft, const IJK_Field_double &pressure, const IJK_Field_vector3_double &grad_T_elem, const IJK_Field_vector3_double &grad_T_elem_smooth, const IJK_Field_vector3_double &hess_diag_T_elem, const IJK_Field_vector3_double &hess_cross_T_elem, const IJK_Field_double &eulerian_grad_T_interface_ns, IJK_Field_double &probe_collision_debug_field, IJK_Field_int &zero_liquid_neighbours, const int &smooth_grad_T_elem)](#protected-void-ijk-one-dimensional-subproblem-associate-eulerian-fields-references-const-ijk-interfaces-ref-interfaces-const-ijk-field-double-ptr-eulerian-distance-const-ijk-field-double-ptr-eulerian-curvature-const-ijk-field-double-ptr-eulerian-interfacial-area-const-ijk-field-vector3-double-ptr-eulerian-normal-vect-const-ijk-field-vector3-double-ptr-eulerian-facets-barycentre-const-ijk-field-double-ref-temperature-const-ijk-field-double-ref-temperature-ft-const-ijk-field-double-ref-temperature-before-extrapolation-const-ijk-field-vector3-double-ref-velocity-const-ijk-field-vector3-double-ref-velocity-ft-const-ijk-field-double-ref-pressure-const-ijk-field-vector3-double-ref-grad-t-elem-const-ijk-field-vector3-double-ref-grad-t-elem-smooth-const-ijk-field-vector3-double-ref-hess-diag-t-elem-const-ijk-field-vector3-double-ref-hess-cross-t-elem-const-ijk-field-double-ref-eulerian-grad-t-interface-ns-ijk-field-double-ref-probe-collision-debug-field-ijk-field-int-ref-zero-liquid-neighbours-const-int-ref-smooth-grad-t-elem)

associate_finite_difference_operators

void IJK_One_Dimensional_Subproblem::associate_finite_difference_operators(const Matrice &radial_first_order_operator_raw, const Matrice &radial_second_order_operator_raw, const Matrice &radial_first_order_operator, const Matrice &radial_second_order_operator, const Matrice &identity_matrix_explicit_implicit, Matrice &identity_matrix_subproblems, Matrice &radial_diffusion_matrix, Matrice &radial_convection_matrix)

associate_finite_difference_solver_solution

void IJK_One_Dimensional_Subproblem::associate_finite_difference_solver_solution(IJK_Finite_Difference_One_Dimensional_Matrix_Assembler &finite_difference_assembler, Matrice &thermal_subproblems_matrix_assembly, DoubleVect &thermal_subproblems_rhs_assembly, DoubleVect &thermal_subproblems_temperature_solution, DoubleVect &thermal_subproblems_temperature_solution_ini)

associate_flags_neighbours_correction

void IJK_One_Dimensional_Subproblem::associate_flags_neighbours_correction(const int &correct_temperature_cell_neighbours, const int &correct_neighbours_rank, const int &neighbours_corrected_rank, const int &neighbours_colinearity_weighting, const int &neighbours_distance_weighting, const int &neighbours_colinearity_distance_weighting, const int &neighbours_last_faces_colinearity_weighting, const int &neighbours_last_faces_colinearity_face_weighting, const int &neighbours_last_faces_distance_weighting, const int &neighbours_last_faces_distance_colinearity_weighting, const int &neighbours_last_faces_distance_colinearity_face_weighting, const int &compute_reachable_fluxes, const int &find_cell_neighbours_for_fluxes_spherical_correction)

How to cite in this doc:

RST

:ref:`void IJK_One_Dimensional_Subproblem::associate_flags_neighbours_correction(const int &correct_temperature_cell_neighbours, const int &correct_neighbours_rank, const int &neighbours_corrected_rank, const int &neighbours_colinearity_weighting, const int &neighbours_distance_weighting, const int &neighbours_colinearity_distance_weighting, const int &neighbours_last_faces_colinearity_weighting, const int &neighbours_last_faces_colinearity_face_weighting, const int &neighbours_last_faces_distance_weighting, const int &neighbours_last_faces_distance_colinearity_weighting, const int &neighbours_last_faces_distance_colinearity_face_weighting, const int &compute_reachable_fluxes, const int &find_cell_neighbours_for_fluxes_spherical_correction) <protected-void-ijk-one-dimensional-subproblem-associate-flags-neighbours-correction-const-int-ref-correct-temperature-cell-neighbours-const-int-ref-correct-neighbours-rank-const-int-ref-neighbours-corrected-rank-const-int-ref-neighbours-colinearity-weighting-const-int-ref-neighbours-distance-weighting-const-int-ref-neighbours-colinearity-distance-weighting-const-int-ref-neighbours-last-faces-colinearity-weighting-const-int-ref-neighbours-last-faces-colinearity-face-weighting-const-int-ref-neighbours-last-faces-distance-weighting-const-int-ref-neighbours-last-faces-distance-colinearity-weighting-const-int-ref-neighbours-last-faces-distance-colinearity-face-weighting-const-int-ref-compute-reachable-fluxes-const-int-ref-find-cell-neighbours-for-fluxes-spherical-correction>`

Markdown

[void IJK_One_Dimensional_Subproblem::associate_flags_neighbours_correction(const int &correct_temperature_cell_neighbours, const int &correct_neighbours_rank, const int &neighbours_corrected_rank, const int &neighbours_colinearity_weighting, const int &neighbours_distance_weighting, const int &neighbours_colinearity_distance_weighting, const int &neighbours_last_faces_colinearity_weighting, const int &neighbours_last_faces_colinearity_face_weighting, const int &neighbours_last_faces_distance_weighting, const int &neighbours_last_faces_distance_colinearity_weighting, const int &neighbours_last_faces_distance_colinearity_face_weighting, const int &compute_reachable_fluxes, const int &find_cell_neighbours_for_fluxes_spherical_correction)](#protected-void-ijk-one-dimensional-subproblem-associate-flags-neighbours-correction-const-int-ref-correct-temperature-cell-neighbours-const-int-ref-correct-neighbours-rank-const-int-ref-neighbours-corrected-rank-const-int-ref-neighbours-colinearity-weighting-const-int-ref-neighbours-distance-weighting-const-int-ref-neighbours-colinearity-distance-weighting-const-int-ref-neighbours-last-faces-colinearity-weighting-const-int-ref-neighbours-last-faces-colinearity-face-weighting-const-int-ref-neighbours-last-faces-distance-weighting-const-int-ref-neighbours-last-faces-distance-colinearity-weighting-const-int-ref-neighbours-last-faces-distance-colinearity-face-weighting-const-int-ref-compute-reachable-fluxes-const-int-ref-find-cell-neighbours-for-fluxes-spherical-correction)

associate_flux_correction_parameters

void IJK_One_Dimensional_Subproblem::associate_flux_correction_parameters(const int &correct_fluxes, const int &distance_cell_faces_from_lrs, const int &interp_eulerian, const int &use_corrected_velocity_convection, const int &use_velocity_cartesian_grid, const int &compute_radial_displacement, const int &fluxes_correction_conservations, const int &conserve_max_interfacial_fluxes, const int &fluxes_corrections_weighting, const int &use_normal_gradient_for_flux_corr)

associate_global_subproblems_parameters

void IJK_One_Dimensional_Subproblem::associate_global_subproblems_parameters(const int &reconstruct_previous_probe_field, const int &implicit_solver_from_previous_probe_field, const std::map< int, std::map< int, std::map< int, int > > > &subproblem_to_ijk_indices_previous, const std::vector< DoubleVect > &temperature_probe_previous, const std::vector< double > &indicator_probes_previous, const std::vector< Vecteur3 > &velocities_probes_previous, const std::vector< Vecteur3 > &normal_vector_compo_probes_previous)

associate_interface_related_parameters

void IJK_One_Dimensional_Subproblem::associate_interface_related_parameters(double distance, double curvature, double interfacial_area, ArrOfDouble facet_barycentre, ArrOfDouble normal_vector)

associate_probe_parameters

void IJK_One_Dimensional_Subproblem::associate_probe_parameters(const int &points_per_thermal_subproblem, const double &cp_liquid, const double &alpha, const double &lambda, const double &prandtl_number, const double &coeff_distance_diagonal, const double &cell_diagonal, const double &dr_base, const DoubleVect &radial_coordinates)

associate_rising_velocity

void IJK_One_Dimensional_Subproblem::associate_rising_velocity(double bubble_rising_velocity, ArrOfDouble bubble_rising_vector, ArrOfDouble bubble_barycentre)

associate_source_terms_parameters

void IJK_One_Dimensional_Subproblem::associate_source_terms_parameters(const int &source_terms_type, const int &correct_tangential_temperature_gradient, const int &correct_tangential_temperature_hessian, const int &advected_frame_of_reference, const int &neglect_frame_of_reference_radial_advection, const int &compute_tangential_variables)

associate_sub_problem_temporal_params

void IJK_One_Dimensional_Subproblem::associate_sub_problem_temporal_params(const bool &is_first_time_step, int &first_time_step_temporal, const int &first_time_step_explicit, const double &local_fourier, const double &local_cfl, const double &min_delta_xyz, int max_u_radial)

associate_temporal_parameters

void IJK_One_Dimensional_Subproblem::associate_temporal_parameters(const double &global_time_step, const double &current_time)

associate_thermal_subproblem_parameters

void IJK_One_Dimensional_Subproblem::associate_thermal_subproblem_parameters(const int &reference_gfm_on_probes, const int &debug, const int &n_iter_distance, const double &delta_T_subcooled_overheated, const int &pre_initialise_thermal_subproblems_list, const int &use_sparse_matrix, const int &compute_normal_derivative_on_reference_probes, const int &latastep_reprise)

associate_thermal_subproblem_sparse_matrix

void IJK_One_Dimensional_Subproblem::associate_thermal_subproblem_sparse_matrix(FixedVector< ArrOfInt, 6 > &first_indices_sparse_matrix)

associate_tweaked_parameters

void IJK_One_Dimensional_Subproblem::associate_tweaked_parameters(const int &disable_probe_weak_gradient, const int &disable_probe_weak_gradient_gfm)

associate_varying_probes_params

void IJK_One_Dimensional_Subproblem::associate_varying_probes_params(const int &readjust_probe_length_from_vertices, const int &first_time_step_varying_probes, const int &probe_variations_priority, const int &disable_interpolation_in_mixed_cells)

clear_vectors

void IJK_One_Dimensional_Subproblem::clear_vectors()

compute_energy_from_temperature_interp

void IJK_One_Dimensional_Subproblem::compute_energy_from_temperature_interp()

compute_first_order_operator_local

void IJK_One_Dimensional_Subproblem::compute_first_order_operator_local(Matrice &radial_first_order_operator)

compute_first_order_operator_local_varying_probe_length

void IJK_One_Dimensional_Subproblem::compute_first_order_operator_local_varying_probe_length(const Matrice *radial_first_order_operator)

compute_identity_matrix_local

void IJK_One_Dimensional_Subproblem::compute_identity_matrix_local(Matrice &identity_matrix_explicit_implicit)

compute_integral_quantity

void IJK_One_Dimensional_Subproblem::compute_integral_quantity(DoubleVect &quantity, double &integrated_quantity)

compute_integral_quantity_on_probe

void IJK_One_Dimensional_Subproblem::compute_integral_quantity_on_probe(DoubleVect &quantity, double &integrated_quantity)

compute_interface_basis_vectors

void IJK_One_Dimensional_Subproblem::compute_interface_basis_vectors()

compute_local_discretisation

void IJK_One_Dimensional_Subproblem::compute_local_discretisation()

compute_local_time_step

void IJK_One_Dimensional_Subproblem::compute_local_time_step()

compute_projection_matrix_cartesian_to_local_spherical

void IJK_One_Dimensional_Subproblem::compute_projection_matrix_cartesian_to_local_spherical()

compute_pure_spherical_basis_vectors

void IJK_One_Dimensional_Subproblem::compute_pure_spherical_basis_vectors()

compute_second_order_operator_local

void IJK_One_Dimensional_Subproblem::compute_second_order_operator_local(Matrice &second_first_order_operator)

compute_second_order_operator_local_varying_probe_length

void IJK_One_Dimensional_Subproblem::compute_second_order_operator_local_varying_probe_length(const Matrice *radial_second_order_operator)

compute_temperature_integral_subproblem

double IJK_One_Dimensional_Subproblem::compute_temperature_integral_subproblem(const double &distance)

compute_temperature_integral_subproblem_probe

void IJK_One_Dimensional_Subproblem::compute_temperature_integral_subproblem_probe()

compute_velocity_magnitude

void IJK_One_Dimensional_Subproblem::compute_velocity_magnitude()

correct_radial_velocity_probe

void IJK_One_Dimensional_Subproblem::correct_radial_velocity_probe()

correct_tangential_temperature_gradient

void IJK_One_Dimensional_Subproblem::correct_tangential_temperature_gradient(DoubleVect &tangential_convection_source_terms)

correct_tangential_temperature_hessian

void IJK_One_Dimensional_Subproblem::correct_tangential_temperature_hessian(DoubleVect &tangential_diffusion_source_terms)

correct_velocities

void IJK_One_Dimensional_Subproblem::correct_velocities()

correct_velocity

void IJK_One_Dimensional_Subproblem::correct_velocity(const DoubleVect &velocity, DoubleVect &velocity_corrected)

correct_velocity_rise

void IJK_One_Dimensional_Subproblem::correct_velocity_rise(const DoubleVect &velocity, const Vecteur3 &basis, DoubleVect &velocity_corrected)

find_interval

void IJK_One_Dimensional_Subproblem::find_interval(const double &dist, int &left_interval, int &right_interval) const

get_single_point_coordinates

DoubleTab IJK_One_Dimensional_Subproblem::get_single_point_coordinates(const Vecteur3 &compo_xyz)

increase_number_of_points

const int * IJK_One_Dimensional_Subproblem::increase_number_of_points()

initialise_identity_operator_local

void IJK_One_Dimensional_Subproblem::initialise_identity_operator_local()

initialise_radial_convection_operator_local

void IJK_One_Dimensional_Subproblem::initialise_radial_convection_operator_local()

initialise_radial_diffusion_operator_local

void IJK_One_Dimensional_Subproblem::initialise_radial_diffusion_operator_local()

initialise_thermal_probe

void IJK_One_Dimensional_Subproblem::initialise_thermal_probe()

interpolate_cartesian_velocities_on_probes

void IJK_One_Dimensional_Subproblem::interpolate_cartesian_velocities_on_probes()

interpolate_pressure_on_probes

void IJK_One_Dimensional_Subproblem::interpolate_pressure_on_probes()

interpolate_quantities_at_point

void IJK_One_Dimensional_Subproblem::interpolate_quantities_at_point(const IJK_Field_double &eulerian_field, const Vecteur3 &compo_xyz, double &field_value)

interpolate_temperature_gradient_on_probe

void IJK_One_Dimensional_Subproblem::interpolate_temperature_gradient_on_probe()

interpolate_temperature_hessian_on_probe

void IJK_One_Dimensional_Subproblem::interpolate_temperature_hessian_on_probe()

interpolate_temperature_on_probe

void IJK_One_Dimensional_Subproblem::interpolate_temperature_on_probe()

interpolate_velocity_at_cell_centre

void IJK_One_Dimensional_Subproblem::interpolate_velocity_at_cell_centre()

is_in_map_index_ijk

int IJK_One_Dimensional_Subproblem::is_in_map_index_ijk(const std::map< int, std::map< int, std::map< int, int > > > &subproblem_to_ijk_indices, const int &index_i, const int &index_j, const int &index_k)

post_process_interfacial_quantities

void IJK_One_Dimensional_Subproblem::post_process_interfacial_quantities(SFichier &fic, const int rank, const int &coord=0)

post_process_radial_quantities

void IJK_One_Dimensional_Subproblem::post_process_radial_quantities(const int rank, const Nom &local_quantities_thermal_probes_time_index_folder)

printOn

Sortie & IJK_One_Dimensional_Subproblem::printOn(Sortie &x) const override

Ecriture de l’objet sur un flot de sortie Methode a surcharger.

Reimplements:

printOn

project_basis_vector_onto_cartesian_dir

void IJK_One_Dimensional_Subproblem::project_basis_vector_onto_cartesian_dir(const int &dir, const DoubleVect &compo_u, const DoubleVect &compo_v, const DoubleVect &compo_w, const Vecteur3 &basis_u, const Vecteur3 &basis_v, const Vecteur3 &basis_w, DoubleVect &projection)

project_cartesian_onto_basis_vector

void IJK_One_Dimensional_Subproblem::project_cartesian_onto_basis_vector(const DoubleVect &compo_x, const DoubleVect &compo_y, const DoubleVect &compo_z, const Vecteur3 &basis, DoubleVect &projection)

project_matrix_on_basis

void IJK_One_Dimensional_Subproblem::project_matrix_on_basis(const Matrice33 &projection_matrix, const Matrice33 &inverse_projection_matrix, const Matrice33 &matrix, Matrice33 &projected_matrix)

project_temperature_gradient_on_probes

void IJK_One_Dimensional_Subproblem::project_temperature_gradient_on_probes()

project_temperature_hessian_on_probes

void IJK_One_Dimensional_Subproblem::project_temperature_hessian_on_probes()

project_velocities_on_probes

void IJK_One_Dimensional_Subproblem::project_velocities_on_probes()

readOn

Entree & IJK_One_Dimensional_Subproblem::readOn(Entree &) override

Lecture d’un Objet_U sur un flot d’entree Methode a surcharger.

Reimplements:

readOn

recompute_finite_difference_matrices

void IJK_One_Dimensional_Subproblem::recompute_finite_difference_matrices()

recompute_finite_difference_matrices_varying_probe_length

void IJK_One_Dimensional_Subproblem::recompute_finite_difference_matrices_varying_probe_length()

reinit_variable

void IJK_One_Dimensional_Subproblem::reinit_variable(DoubleVect &vect)

reset_counters

void IJK_One_Dimensional_Subproblem::reset_counters()

reset_flags

void IJK_One_Dimensional_Subproblem::reset_flags()

retrieve_previous_temperature_on_probe

void IJK_One_Dimensional_Subproblem::retrieve_previous_temperature_on_probe()

retrieve_previous_temperature_on_probe_type

void IJK_One_Dimensional_Subproblem::retrieve_previous_temperature_on_probe_type(const int computation_type, const int &previous_rank, const double &best_indicator_prev, const double &colinearity, const double &velocity_eval, DoubleVect &temperature_previous, DoubleVect &temperature_previous_options, double &averaging_weight)

retrieve_temperature_diffusion_spherical_on_probes

void IJK_One_Dimensional_Subproblem::retrieve_temperature_diffusion_spherical_on_probes()

Attributes Documentation#

info_obj (public)

const Type_info IJK_One_Dimensional_Subproblem::info_obj

advected_frame_of_reference_ (protected)

int IJK_One_Dimensional_Subproblem::advected_frame_of_reference_ = 0

alpha_ (protected)

const double* IJK_One_Dimensional_Subproblem::alpha_ = nullptr

avoid_post_processing_all_terms_ (protected)

int IJK_One_Dimensional_Subproblem::avoid_post_processing_all_terms_ = 0

azymuthal_temperature_gradient_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::azymuthal_temperature_gradient_

azymuthal_vector_compo_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::azymuthal_vector_compo_

azymuthal_vector_compo_raw_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::azymuthal_vector_compo_raw_

azymuthal_velocity_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::azymuthal_velocity_

azymuthal_velocity_advected_frame_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::azymuthal_velocity_advected_frame_

azymuthal_velocity_corrected_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::azymuthal_velocity_corrected_

azymuthal_velocity_normal_gradient_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::azymuthal_velocity_normal_gradient_

azymuthal_velocity_static_frame_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::azymuthal_velocity_static_frame_

bubble_barycentre_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::bubble_barycentre_

bubble_rising_vector_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::bubble_rising_vector_

bubble_rising_velocity_ (protected)

double IJK_One_Dimensional_Subproblem::bubble_rising_velocity_ = 0.

bubble_rising_velocity_compo_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::bubble_rising_velocity_compo_

bubbles_rising_vectors_per_bubble_ (protected)

const DoubleTab* IJK_One_Dimensional_Subproblem::bubbles_rising_vectors_per_bubble_ = nullptr

bubbles_surface_ (protected)

const ArrOfDouble* IJK_One_Dimensional_Subproblem::bubbles_surface_ = nullptr

bubbles_volume_ (protected)

const ArrOfDouble* IJK_One_Dimensional_Subproblem::bubbles_volume_ = nullptr

cell_centre_distance_ (protected)

double IJK_One_Dimensional_Subproblem::cell_centre_distance_ = 0

cell_centre_distance_corrected_ (protected)

double IJK_One_Dimensional_Subproblem::cell_centre_distance_corrected_ = 0.

cell_centre_osculating_radius_difference_ (protected)

double IJK_One_Dimensional_Subproblem::cell_centre_osculating_radius_difference_ = 0.

cell_centre_radius_difference_ (protected)

double IJK_One_Dimensional_Subproblem::cell_centre_radius_difference_ = 0.

cell_centre_tangential_distance_ (protected)

double IJK_One_Dimensional_Subproblem::cell_centre_tangential_distance_ = 0.

cell_diagonal_ (protected)

const double* IJK_One_Dimensional_Subproblem::cell_diagonal_ = nullptr

cell_temperature_ (protected)

double IJK_One_Dimensional_Subproblem::cell_temperature_ = 0.

cfl_probe_length_ (protected)

double IJK_One_Dimensional_Subproblem::cfl_probe_length_ = 0.

coeff_distance_diagonal_ (protected)

const double* IJK_One_Dimensional_Subproblem::coeff_distance_diagonal_ = nullptr

compo_connex_ (protected)

int IJK_One_Dimensional_Subproblem::compo_connex_ = - 1

compo_group_ (protected)

int IJK_One_Dimensional_Subproblem::compo_group_ = - 1

compute_normal_derivative_on_reference_probes_ (protected)

int IJK_One_Dimensional_Subproblem::compute_normal_derivative_on_reference_probes_ = 0

compute_radial_displacement_ (protected)

int IJK_One_Dimensional_Subproblem::compute_radial_displacement_ = 0

compute_reachable_fluxes_ (protected)

int IJK_One_Dimensional_Subproblem::compute_reachable_fluxes_ = 0

compute_tangential_variables_ (protected)

int IJK_One_Dimensional_Subproblem::compute_tangential_variables_ = 1

conserve_max_interfacial_fluxes_ (protected)

int IJK_One_Dimensional_Subproblem::conserve_max_interfacial_fluxes_ = 0

convective_flux_op_entering_value_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::convective_flux_op_entering_value_

convective_flux_op_leaving_value_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::convective_flux_op_leaving_value_

convective_flux_op_lrs_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::convective_flux_op_lrs_

convective_flux_op_value_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::convective_flux_op_value_

convective_flux_op_value_mixed_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::convective_flux_op_value_mixed_

convective_flux_op_value_normal_contrib_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::convective_flux_op_value_normal_contrib_

convective_flux_op_value_vap_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::convective_flux_op_value_vap_

convective_term_advected_frame_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::convective_term_advected_frame_

convective_term_advected_frame_rising_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::convective_term_advected_frame_rising_

convective_term_static_frame_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::convective_term_static_frame_

convective_term_static_frame_rising_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::convective_term_static_frame_rising_

coordinates_cartesian_compo_ (protected)

DoubleTab IJK_One_Dimensional_Subproblem::coordinates_cartesian_compo_

correct_fluxes_ (protected)

int IJK_One_Dimensional_Subproblem::correct_fluxes_ = 0

correct_neighbours_rank_ (protected)

int IJK_One_Dimensional_Subproblem::correct_neighbours_rank_ = 1

correct_radial_velocity_ (protected)

int IJK_One_Dimensional_Subproblem::correct_radial_velocity_ = 1

correct_tangential_temperature_gradient_ (protected)

int IJK_One_Dimensional_Subproblem::correct_tangential_temperature_gradient_ = 0

correct_tangential_temperature_hessian_ (protected)

int IJK_One_Dimensional_Subproblem::correct_tangential_temperature_hessian_ = 0

correct_temperature_cell_neighbours_ (protected)

int IJK_One_Dimensional_Subproblem::correct_temperature_cell_neighbours_ = 0

corrective_flux_current_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::corrective_flux_current_

corrective_flux_from_neighbours_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::corrective_flux_from_neighbours_

corrective_flux_to_neighbours_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::corrective_flux_to_neighbours_

cp_liquid_ (protected)

const double* IJK_One_Dimensional_Subproblem::cp_liquid_ = nullptr

current_time_ (protected)

double IJK_One_Dimensional_Subproblem::current_time_ = 0.

curvature_ (protected)

double IJK_One_Dimensional_Subproblem::curvature_ = 0.

debug_ (protected)

int IJK_One_Dimensional_Subproblem::debug_ = 0

debug_probe_collision_ (protected)

int IJK_One_Dimensional_Subproblem::debug_probe_collision_ = 0

delta_T_subcooled_overheated_ (protected)

double IJK_One_Dimensional_Subproblem::delta_T_subcooled_overheated_ = - 1.

delta_temperature_ (protected)

const double* IJK_One_Dimensional_Subproblem::delta_temperature_ = nullptr

diffusive_flux_op_entering_value_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::diffusive_flux_op_entering_value_

diffusive_flux_op_leaving_value_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::diffusive_flux_op_leaving_value_

diffusive_flux_op_lrs_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::diffusive_flux_op_lrs_

diffusive_flux_op_value_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::diffusive_flux_op_value_

diffusive_flux_op_value_mixed_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::diffusive_flux_op_value_mixed_

diffusive_flux_op_value_normal_contrib_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::diffusive_flux_op_value_normal_contrib_

diffusive_flux_op_value_vap_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::diffusive_flux_op_value_vap_

disable_find_cell_centre_probe_tip_ (protected)

int IJK_One_Dimensional_Subproblem::disable_find_cell_centre_probe_tip_ = 0

disable_interpolation_in_mixed_cells_ (protected)

int IJK_One_Dimensional_Subproblem::disable_interpolation_in_mixed_cells_ = 0

disable_probe_because_collision_ (protected)

int IJK_One_Dimensional_Subproblem::disable_probe_because_collision_ = 0

disable_probe_weak_gradient_ (protected)

int IJK_One_Dimensional_Subproblem::disable_probe_weak_gradient_ = 0

disable_probe_weak_gradient_gfm_ (protected)

int IJK_One_Dimensional_Subproblem::disable_probe_weak_gradient_gfm_ = 0

disable_probe_weak_gradient_local_ (protected)

int IJK_One_Dimensional_Subproblem::disable_probe_weak_gradient_local_ = 0

disable_relative_velocity_energy_balance_ (protected)

int IJK_One_Dimensional_Subproblem::disable_relative_velocity_energy_balance_ = 0

distance_ (protected)

double IJK_One_Dimensional_Subproblem::distance_ = 0.

distance_cell_faces_from_lrs_ (protected)

int IJK_One_Dimensional_Subproblem::distance_cell_faces_from_lrs_ = 0

dr_ (protected)

double IJK_One_Dimensional_Subproblem::dr_ = 0.

dr_base_ (protected)

const double* IJK_One_Dimensional_Subproblem::dr_base_ = nullptr

dr_inv_ (protected)

double IJK_One_Dimensional_Subproblem::dr_inv_ = 0.

dxyz_increment_bool_ (protected)

int IJK_One_Dimensional_Subproblem::dxyz_increment_bool_ = 0

dxyz_over_two_increment_bool_ (protected)

int IJK_One_Dimensional_Subproblem::dxyz_over_two_increment_bool_ = 0

enable_probe_collision_detection_ (protected)

int IJK_One_Dimensional_Subproblem::enable_probe_collision_detection_ = 0

enable_resize_probe_collision_ (protected)

int IJK_One_Dimensional_Subproblem::enable_resize_probe_collision_ = 0

end_boundary_condition_value_ (protected)

double IJK_One_Dimensional_Subproblem::end_boundary_condition_value_ = 0.

end_index_ (protected)

int IJK_One_Dimensional_Subproblem::end_index_ = 0

energy_increment_times_dt (protected)

double IJK_One_Dimensional_Subproblem::energy_increment_times_dt = 0.

energy_temperature_interp_ (protected)

double IJK_One_Dimensional_Subproblem::energy_temperature_interp_ = 0.

energy_temperature_solution_ (protected)

double IJK_One_Dimensional_Subproblem::energy_temperature_solution_ = 0.

ephi_sph_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::ephi_sph_

er_sph_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::er_sph_

etheta_sph_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::etheta_sph_

eulerian_curvature_ (protected)

const IJK_Field_double* IJK_One_Dimensional_Subproblem::eulerian_curvature_ = nullptr

eulerian_distance_ (protected)

const IJK_Field_double* IJK_One_Dimensional_Subproblem::eulerian_distance_ = nullptr

eulerian_facets_barycentre_ (protected)

const IJK_Field_vector3_double* IJK_One_Dimensional_Subproblem::eulerian_facets_barycentre_ = nullptr

eulerian_grad_T_interface_ns_ (protected)

const IJK_Field_double* IJK_One_Dimensional_Subproblem::eulerian_grad_T_interface_ns_ = nullptr

eulerian_interfacial_area_ (protected)

const IJK_Field_double* IJK_One_Dimensional_Subproblem::eulerian_interfacial_area_ = nullptr

eulerian_normal_vect_ (protected)

const IJK_Field_vector3_double* IJK_One_Dimensional_Subproblem::eulerian_normal_vect_ = nullptr

face_centres_distance_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::face_centres_distance_

face_centres_distance_corrected_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::face_centres_distance_corrected_

face_centres_radius_difference_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::face_centres_radius_difference_

face_centres_tangential_distance_ (protected)

FixedVector<double,6> IJK_One_Dimensional_Subproblem::face_centres_tangential_distance_

face_tangential_distance_vector_ (protected)

FixedVector<Vecteur3,6> IJK_One_Dimensional_Subproblem::face_tangential_distance_vector_

facet_barycentre_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::facet_barycentre_

facet_barycentre_relative_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::facet_barycentre_relative_

find_cell_neighbours_for_fluxes_spherical_correction_ (protected)

int IJK_One_Dimensional_Subproblem::find_cell_neighbours_for_fluxes_spherical_correction_ = 0

finite_difference_assembler_ (protected)

IJK_Finite_Difference_One_Dimensional_Matrix_Assembler* IJK_One_Dimensional_Subproblem::finite_difference_assembler_ = nullptr

first_indices_sparse_matrix_ (protected)

FixedVector<ArrOfInt,6>* IJK_One_Dimensional_Subproblem::first_indices_sparse_matrix_ = nullptr

first_tangential_vector_compo_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::first_tangential_vector_compo_

first_tangential_vector_compo_from_rising_dir_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::first_tangential_vector_compo_from_rising_dir_

first_tangential_vector_compo_solver_ (protected)

Vecteur3* IJK_One_Dimensional_Subproblem::first_tangential_vector_compo_solver_ = nullptr

first_tangential_velocity_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::first_tangential_velocity_

first_tangential_velocity_advected_frame_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::first_tangential_velocity_advected_frame_

first_tangential_velocity_corrected_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::first_tangential_velocity_corrected_

first_tangential_velocity_from_rising_dir_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::first_tangential_velocity_from_rising_dir_

first_tangential_velocity_from_rising_dir_advected_frame_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::first_tangential_velocity_from_rising_dir_advected_frame_

first_tangential_velocity_from_rising_dir_corrected_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::first_tangential_velocity_from_rising_dir_corrected_

first_tangential_velocity_from_rising_dir_static_frame_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::first_tangential_velocity_from_rising_dir_static_frame_

first_tangential_velocity_normal_gradient_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::first_tangential_velocity_normal_gradient_

first_tangential_velocity_normal_gradient_from_rising_dir_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::first_tangential_velocity_normal_gradient_from_rising_dir_

first_tangential_velocity_not_corrected_ (protected)

DoubleVect* IJK_One_Dimensional_Subproblem::first_tangential_velocity_not_corrected_ = nullptr

first_tangential_velocity_solver_ (protected)

DoubleVect* IJK_One_Dimensional_Subproblem::first_tangential_velocity_solver_ = nullptr

first_tangential_velocity_static_frame_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::first_tangential_velocity_static_frame_

first_time_step_explicit_ (protected)

int IJK_One_Dimensional_Subproblem::first_time_step_explicit_ = 1

first_time_step_temporal_ (protected)

int* IJK_One_Dimensional_Subproblem::first_time_step_temporal_ = nullptr

first_time_step_varying_probes_ (protected)

int IJK_One_Dimensional_Subproblem::first_time_step_varying_probes_ = 0

fluxes_correction_conservations_ (protected)

int IJK_One_Dimensional_Subproblem::fluxes_correction_conservations_ = 0

fluxes_corrections_weighting_ (protected)

int IJK_One_Dimensional_Subproblem::fluxes_corrections_weighting_ = 0

fourier_probe_length_ (protected)

double IJK_One_Dimensional_Subproblem::fourier_probe_length_ = 0.

global_dt_cfl_ (protected)

double IJK_One_Dimensional_Subproblem::global_dt_cfl_ = 0.

global_dt_fo_ (protected)

double IJK_One_Dimensional_Subproblem::global_dt_fo_ = 0.

global_probes_characteristics_ (protected)

bool IJK_One_Dimensional_Subproblem::global_probes_characteristics_ = true

global_subproblem_index_ (protected)

int IJK_One_Dimensional_Subproblem::global_subproblem_index_ = 0

global_time_step_ (protected)

double IJK_One_Dimensional_Subproblem::global_time_step_ = 0.

grad_T_elem_ (protected)

const IJK_Field_vector3_double* IJK_One_Dimensional_Subproblem::grad_T_elem_ = nullptr

grad_T_elem_interp_ (protected)

FixedVector<DoubleVect, 3> IJK_One_Dimensional_Subproblem::grad_T_elem_interp_

grad_T_elem_smooth_ (protected)

const IJK_Field_vector3_double* IJK_One_Dimensional_Subproblem::grad_T_elem_smooth_ = nullptr

grad_T_elem_solver_ (protected)

const IJK_Field_vector3_double* IJK_One_Dimensional_Subproblem::grad_T_elem_solver_ = nullptr

has_computed_cell_centre_distance_ (protected)

bool IJK_One_Dimensional_Subproblem::has_computed_cell_centre_distance_ = false

has_computed_cell_faces_distance_ (protected)

bool IJK_One_Dimensional_Subproblem::has_computed_cell_faces_distance_ = false

has_computed_liquid_neighbours_ (protected)

bool IJK_One_Dimensional_Subproblem::has_computed_liquid_neighbours_ = false

has_computed_lrs_flux_frame_of_ref_terms_ (protected)

bool IJK_One_Dimensional_Subproblem::has_computed_lrs_flux_frame_of_ref_terms_ = false

hess_cross_T_elem_ (protected)

const IJK_Field_vector3_double* IJK_One_Dimensional_Subproblem::hess_cross_T_elem_ = nullptr

hess_cross_T_elem_interp_ (protected)

FixedVector<DoubleVect, 3> IJK_One_Dimensional_Subproblem::hess_cross_T_elem_interp_

hess_cross_T_elem_spherical_ (protected)

FixedVector<DoubleVect, 3> IJK_One_Dimensional_Subproblem::hess_cross_T_elem_spherical_

hess_cross_T_elem_spherical_from_rising_ (protected)

FixedVector<DoubleVect, 3> IJK_One_Dimensional_Subproblem::hess_cross_T_elem_spherical_from_rising_

hess_diag_T_elem_ (protected)

const IJK_Field_vector3_double* IJK_One_Dimensional_Subproblem::hess_diag_T_elem_ = nullptr

hess_diag_T_elem_interp_ (protected)

FixedVector<DoubleVect, 3> IJK_One_Dimensional_Subproblem::hess_diag_T_elem_interp_

hess_diag_T_elem_spherical_ (protected)

FixedVector<DoubleVect, 3> IJK_One_Dimensional_Subproblem::hess_diag_T_elem_spherical_

hess_diag_T_elem_spherical_from_rising_ (protected)

FixedVector<DoubleVect, 3> IJK_One_Dimensional_Subproblem::hess_diag_T_elem_spherical_from_rising_

identity_matrix_explicit_implicit_ (protected)

const Matrice* IJK_One_Dimensional_Subproblem::identity_matrix_explicit_implicit_ = nullptr

identity_matrix_explicit_implicit_base_ (protected)

const Matrice* IJK_One_Dimensional_Subproblem::identity_matrix_explicit_implicit_base_ = nullptr

identity_matrix_explicit_implicit_local_ (protected)

Matrice IJK_One_Dimensional_Subproblem::identity_matrix_explicit_implicit_local_

identity_matrix_subproblems_ (protected)

Matrice* IJK_One_Dimensional_Subproblem::identity_matrix_subproblems_ = nullptr

implicit_solver_from_previous_probe_field_ (protected)

int IJK_One_Dimensional_Subproblem::implicit_solver_from_previous_probe_field_ = 0

increased_point_numbers_ (protected)

int IJK_One_Dimensional_Subproblem::increased_point_numbers_ = 32

index_i_ (protected)

int IJK_One_Dimensional_Subproblem::index_i_ = 0

index_j_ (protected)

int IJK_One_Dimensional_Subproblem::index_j_ = 0

index_k_ (protected)

int IJK_One_Dimensional_Subproblem::index_k_ = 0

index_post_processing_ (protected)

int IJK_One_Dimensional_Subproblem::index_post_processing_ = 0

indicator_ (protected)

double IJK_One_Dimensional_Subproblem::indicator_ = 0.5

indicator_interp_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::indicator_interp_

indicator_probes_previous_ (protected)

const std::vector<double>* IJK_One_Dimensional_Subproblem::indicator_probes_previous_ = nullptr

init_ (protected)

int IJK_One_Dimensional_Subproblem::init_ = 1

interfaces_ (protected)

const IJK_Interfaces* IJK_One_Dimensional_Subproblem::interfaces_ = nullptr

interfacial_area_ (protected)

double IJK_One_Dimensional_Subproblem::interfacial_area_ = 0.

interfacial_boundary_condition_value_ (protected)

double IJK_One_Dimensional_Subproblem::interfacial_boundary_condition_value_ = 0.

interfacial_tangential_velocity_compo_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::interfacial_tangential_velocity_compo_

interfacial_temperature_gradient_compo_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::interfacial_temperature_gradient_compo_

interfacial_temperature_hessian_compo_ (protected)

Matrice33 IJK_One_Dimensional_Subproblem::interfacial_temperature_hessian_compo_

interfacial_velocity_compo_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::interfacial_velocity_compo_

interp_eulerian_ (protected)

int IJK_One_Dimensional_Subproblem::interp_eulerian_ = 0

inverse_projection_matrix_ (protected)

Matrice33 IJK_One_Dimensional_Subproblem::inverse_projection_matrix_

inverse_projection_matrix_from_rising_ (protected)

Matrice33 IJK_One_Dimensional_Subproblem::inverse_projection_matrix_from_rising_

is_first_time_step_ (protected)

bool IJK_One_Dimensional_Subproblem::is_first_time_step_ = false

is_post_processed_local_ (protected)

bool IJK_One_Dimensional_Subproblem::is_post_processed_local_ = false

is_updated_ (protected)

bool IJK_One_Dimensional_Subproblem::is_updated_ = false

lambda_ (protected)

const double* IJK_One_Dimensional_Subproblem::lambda_ = nullptr

latastep_reprise_ (protected)

const int* IJK_One_Dimensional_Subproblem::latastep_reprise_ = nullptr

local_cfl_ (protected)

double IJK_One_Dimensional_Subproblem::local_cfl_ = 1.

local_cfl_time_step_probe_length_ (protected)

double IJK_One_Dimensional_Subproblem::local_cfl_time_step_probe_length_ = 0.

local_dt_cfl_ (protected)

double IJK_One_Dimensional_Subproblem::local_dt_cfl_ = 0.

local_dt_cfl_min_delta_xyz_ (protected)

double IJK_One_Dimensional_Subproblem::local_dt_cfl_min_delta_xyz_ = 0.

local_dt_fo_ (protected)

double IJK_One_Dimensional_Subproblem::local_dt_fo_ = 0.

local_fourier_ (protected)

double IJK_One_Dimensional_Subproblem::local_fourier_ = 1.

local_fourier_time_step_probe_length_ (protected)

double IJK_One_Dimensional_Subproblem::local_fourier_time_step_probe_length_ = 0.

local_time_step_ (protected)

double IJK_One_Dimensional_Subproblem::local_time_step_ = 0.

local_time_step_overall_ (protected)

double IJK_One_Dimensional_Subproblem::local_time_step_overall_ = 0.

local_time_step_round_ (protected)

double IJK_One_Dimensional_Subproblem::local_time_step_round_ = 0.

material_derivative_advected_frame_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::material_derivative_advected_frame_

material_derivative_advected_frame_rising_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::material_derivative_advected_frame_rising_

material_derivative_static_frame_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::material_derivative_static_frame_

material_derivative_static_frame_rising_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::material_derivative_static_frame_rising_

material_derivative_velocity_advected_frame_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::material_derivative_velocity_advected_frame_

material_derivative_velocity_advected_frame_rising_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::material_derivative_velocity_advected_frame_rising_

material_derivative_velocity_static_frame_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::material_derivative_velocity_static_frame_

material_derivative_velocity_static_frame_rising_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::material_derivative_velocity_static_frame_rising_

max_cfl_fourier_probe_length_ (protected)

double IJK_One_Dimensional_Subproblem::max_cfl_fourier_probe_length_ = 0.

max_u_ (protected)

double IJK_One_Dimensional_Subproblem::max_u_ = 0.9 * 1e-20

max_u_cartesian_ (protected)

int IJK_One_Dimensional_Subproblem::max_u_cartesian_ = 1

max_u_radial_ (protected)

int IJK_One_Dimensional_Subproblem::max_u_radial_ = 0

mean_liquid_temperature_ (protected)

const double* IJK_One_Dimensional_Subproblem::mean_liquid_temperature_ = nullptr

min_delta_xyz_ (protected)

double IJK_One_Dimensional_Subproblem::min_delta_xyz_ = 0.

modified_probe_length_from_collision_ (protected)

double IJK_One_Dimensional_Subproblem::modified_probe_length_from_collision_ = 0.

modified_probe_length_from_vertices_ (protected)

double IJK_One_Dimensional_Subproblem::modified_probe_length_from_vertices_ = 0.

n_iter_distance_ (protected)

int IJK_One_Dimensional_Subproblem::n_iter_distance_ = 0

nb_iter_explicit_ (protected)

int IJK_One_Dimensional_Subproblem::nb_iter_explicit_ = 0

neglect_frame_of_reference_radial_advection_ (protected)

int IJK_One_Dimensional_Subproblem::neglect_frame_of_reference_radial_advection_ = 0

neighbours_colinearity_distance_weighting_ (protected)

int IJK_One_Dimensional_Subproblem::neighbours_colinearity_distance_weighting_ = 0

neighbours_colinearity_weighting_ (protected)

int IJK_One_Dimensional_Subproblem::neighbours_colinearity_weighting_ = 0

neighbours_corrected_rank_ (protected)

int IJK_One_Dimensional_Subproblem::neighbours_corrected_rank_ = 1

neighbours_distance_weighting_ (protected)

int IJK_One_Dimensional_Subproblem::neighbours_distance_weighting_ = 0

neighbours_face_corrected_rank_ (protected)

int IJK_One_Dimensional_Subproblem::neighbours_face_corrected_rank_ = 1

neighbours_last_faces_colinearity_face_weighting_ (protected)

int IJK_One_Dimensional_Subproblem::neighbours_last_faces_colinearity_face_weighting_ = 0.

neighbours_last_faces_colinearity_weighting_ (protected)

int IJK_One_Dimensional_Subproblem::neighbours_last_faces_colinearity_weighting_ = 0

neighbours_last_faces_distance_colinearity_face_weighting_ (protected)

int IJK_One_Dimensional_Subproblem::neighbours_last_faces_distance_colinearity_face_weighting_ = 0.

neighbours_last_faces_distance_colinearity_weighting_ (protected)

int IJK_One_Dimensional_Subproblem::neighbours_last_faces_distance_colinearity_weighting_ = 0.

neighbours_last_faces_distance_weighting_ (protected)

int IJK_One_Dimensional_Subproblem::neighbours_last_faces_distance_weighting_ = 0.

neighbours_last_faces_weighting_ (protected)

int IJK_One_Dimensional_Subproblem::neighbours_last_faces_weighting_ = 0

neighbours_weighting_ (protected)

int IJK_One_Dimensional_Subproblem::neighbours_weighting_ = 0

normal_interfacial_gradient_ (protected)

double IJK_One_Dimensional_Subproblem::normal_interfacial_gradient_ = 0

normal_interfacial_gradient_compo_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::normal_interfacial_gradient_compo_

normal_temperature_double_derivative_solution_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::normal_temperature_double_derivative_solution_

normal_temperature_double_derivative_solution_integral_exact_ (protected)

double IJK_One_Dimensional_Subproblem::normal_temperature_double_derivative_solution_integral_exact_ = 0.

normal_temperature_double_derivative_solution_numerical_integral_ (protected)

double IJK_One_Dimensional_Subproblem::normal_temperature_double_derivative_solution_numerical_integral_ = 0.

normal_temperature_gradient_interp_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::normal_temperature_gradient_interp_

normal_temperature_gradient_previous_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::normal_temperature_gradient_previous_

normal_temperature_gradient_solution_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::normal_temperature_gradient_solution_

normal_temperature_gradient_solution_integral_exact_ (protected)

double IJK_One_Dimensional_Subproblem::normal_temperature_gradient_solution_integral_exact_ = 0.

normal_temperature_gradient_solution_numerical_integral_ (protected)

double IJK_One_Dimensional_Subproblem::normal_temperature_gradient_solution_numerical_integral_ = 0.

normal_vector_compo_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::normal_vector_compo_

normal_vector_compo_probes_previous_ (protected)

const std::vector<Vecteur3>* IJK_One_Dimensional_Subproblem::normal_vector_compo_probes_previous_ = nullptr

normal_velocity_normal_gradient_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::normal_velocity_normal_gradient_

nusselt_number_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::nusselt_number_

nusselt_number_integrand_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::nusselt_number_integrand_

nusselt_number_liquid_temperature_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::nusselt_number_liquid_temperature_

nusselt_number_liquid_temperature_integrand_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::nusselt_number_liquid_temperature_integrand_

operators_reinitialisation_ (protected)

int IJK_One_Dimensional_Subproblem::operators_reinitialisation_ = 1

order_approx_temperature_ext_ (protected)

int IJK_One_Dimensional_Subproblem::order_approx_temperature_ext_ = 1

osculating_radial_coordinates_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::osculating_radial_coordinates_

osculating_radial_coordinates_cartesian_compo_ (protected)

DoubleTab IJK_One_Dimensional_Subproblem::osculating_radial_coordinates_cartesian_compo_

osculating_radial_coordinates_inv_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::osculating_radial_coordinates_inv_

osculating_radius_ (protected)

double IJK_One_Dimensional_Subproblem::osculating_radius_ = 0.

osculating_sphere_centre_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::osculating_sphere_centre_

phi_sph_ (protected)

double IJK_One_Dimensional_Subproblem::phi_sph_ = 0.

points_per_thermal_subproblem_ (protected)

const int* IJK_One_Dimensional_Subproblem::points_per_thermal_subproblem_ = nullptr

points_per_thermal_subproblem_base_ (protected)

const int* IJK_One_Dimensional_Subproblem::points_per_thermal_subproblem_base_ = nullptr

prandtl_number_ (protected)

const double* IJK_One_Dimensional_Subproblem::prandtl_number_ = nullptr

pre_initialise_thermal_subproblems_list_ (protected)

int IJK_One_Dimensional_Subproblem::pre_initialise_thermal_subproblems_list_ = 0

pressure_ (protected)

const IJK_Field_double* IJK_One_Dimensional_Subproblem::pressure_ = nullptr

pressure_gradient_ (protected)

double IJK_One_Dimensional_Subproblem::pressure_gradient_ = 0.

pressure_interp_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::pressure_interp_

pressure_normal_gradient_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::pressure_normal_gradient_

probe_collision_debug_field_ (protected)

IJK_Field_double* IJK_One_Dimensional_Subproblem::probe_collision_debug_field_ = nullptr

probe_length_ (protected)

double IJK_One_Dimensional_Subproblem::probe_length_ = 0.

probe_variations_enabled_ (protected)

int IJK_One_Dimensional_Subproblem::probe_variations_enabled_ = 0

probe_variations_priority_ (protected)

int IJK_One_Dimensional_Subproblem::probe_variations_priority_ = 0

projection_matrix_ (protected)

Matrice33 IJK_One_Dimensional_Subproblem::projection_matrix_

projection_matrix_from_rising_ (protected)

Matrice33 IJK_One_Dimensional_Subproblem::projection_matrix_from_rising_

pure_liquid_neighbours_ (protected)

FixedVector<bool,6> IJK_One_Dimensional_Subproblem::pure_liquid_neighbours_

pure_neighbours_corrected_colinearity_ (protected)

std::vector<std::vector<std::vector<double>>> IJK_One_Dimensional_Subproblem::pure_neighbours_corrected_colinearity_

pure_neighbours_corrected_distance_ (protected)

std::vector<std::vector<std::vector<double>>> IJK_One_Dimensional_Subproblem::pure_neighbours_corrected_distance_

pure_neighbours_corrected_sign_ (protected)

FixedVector<int,3> IJK_One_Dimensional_Subproblem::pure_neighbours_corrected_sign_

pure_neighbours_last_faces_corrected_colinearity_ (protected)

std::vector<std::vector<std::vector<std::vector<double>>>> IJK_One_Dimensional_Subproblem::pure_neighbours_last_faces_corrected_colinearity_

pure_neighbours_last_faces_corrected_distance_ (protected)

std::vector<std::vector<std::vector<std::vector<double>>>> IJK_One_Dimensional_Subproblem::pure_neighbours_last_faces_corrected_distance_

pure_neighbours_last_faces_to_correct_ (protected)

std::vector<std::vector<std::vector<std::vector<bool>>>> IJK_One_Dimensional_Subproblem::pure_neighbours_last_faces_to_correct_

pure_neighbours_to_correct_ (protected)

std::vector<std::vector<std::vector<bool>>> IJK_One_Dimensional_Subproblem::pure_neighbours_to_correct_

pure_thermal_diffusion_ (protected)

int IJK_One_Dimensional_Subproblem::pure_thermal_diffusion_ = 0

pure_vapour_neighbours_ (protected)

FixedVector<bool,6> IJK_One_Dimensional_Subproblem::pure_vapour_neighbours_

r_sph_ (protected)

double IJK_One_Dimensional_Subproblem::r_sph_ = 0.

radial_convection_interp_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::radial_convection_interp_

radial_convection_matrix_base_ (protected)

Matrice* IJK_One_Dimensional_Subproblem::radial_convection_matrix_base_ = nullptr

radial_convection_prefactor_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::radial_convection_prefactor_

radial_convection_solution_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::radial_convection_solution_

radial_convection_solution_integral_ (protected)

double IJK_One_Dimensional_Subproblem::radial_convection_solution_integral_ = 0.

radial_coordinates_ (protected)

const DoubleVect* IJK_One_Dimensional_Subproblem::radial_coordinates_ = nullptr

radial_coordinates_base_ (protected)

const DoubleVect* IJK_One_Dimensional_Subproblem::radial_coordinates_base_ = nullptr

radial_coordinates_cartesian_compo_ (protected)

DoubleTab IJK_One_Dimensional_Subproblem::radial_coordinates_cartesian_compo_

radial_coordinates_modified_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::radial_coordinates_modified_

radial_diffusion_matrix_base_ (protected)

Matrice* IJK_One_Dimensional_Subproblem::radial_diffusion_matrix_base_ = nullptr

radial_displacement_over_time_step_ (protected)

double IJK_One_Dimensional_Subproblem::radial_displacement_over_time_step_ = 0.

radial_first_order_operator_ (protected)

const Matrice* IJK_One_Dimensional_Subproblem::radial_first_order_operator_ = nullptr

radial_first_order_operator_base_ (protected)

const Matrice* IJK_One_Dimensional_Subproblem::radial_first_order_operator_base_ = nullptr

radial_first_order_operator_local_ (protected)

Matrice IJK_One_Dimensional_Subproblem::radial_first_order_operator_local_

radial_first_order_operator_raw_base_ (protected)

const Matrice* IJK_One_Dimensional_Subproblem::radial_first_order_operator_raw_base_ = nullptr

radial_flux_error_lrs_ (protected)

double IJK_One_Dimensional_Subproblem::radial_flux_error_lrs_ = 0.

radial_scale_factor_interp_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::radial_scale_factor_interp_

radial_scale_factor_solution_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::radial_scale_factor_solution_

radial_scale_factor_solution_integral_ (protected)

double IJK_One_Dimensional_Subproblem::radial_scale_factor_solution_integral_ = 0.

radial_second_order_operator_ (protected)

const Matrice* IJK_One_Dimensional_Subproblem::radial_second_order_operator_ = nullptr

radial_second_order_operator_base_ (protected)

const Matrice* IJK_One_Dimensional_Subproblem::radial_second_order_operator_base_ = nullptr

radial_second_order_operator_local_ (protected)

Matrice IJK_One_Dimensional_Subproblem::radial_second_order_operator_local_

radial_second_order_operator_raw_base_ (protected)

const Matrice* IJK_One_Dimensional_Subproblem::radial_second_order_operator_raw_base_ = nullptr

radial_temperature_diffusion_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::radial_temperature_diffusion_

radial_temperature_diffusion_solution_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::radial_temperature_diffusion_solution_

radial_velocity_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::radial_velocity_

radial_velocity_advected_frame_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::radial_velocity_advected_frame_

radial_velocity_convection_matrix_base_ (protected)

const Matrice* IJK_One_Dimensional_Subproblem::radial_velocity_convection_matrix_base_ = nullptr

radial_velocity_corrected_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::radial_velocity_corrected_

radial_velocity_static_frame_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::radial_velocity_static_frame_

radius_from_surfaces_per_bubble_ (protected)

const ArrOfDouble* IJK_One_Dimensional_Subproblem::radius_from_surfaces_per_bubble_ = nullptr

radius_from_volumes_per_bubble_ (protected)

const ArrOfDouble* IJK_One_Dimensional_Subproblem::radius_from_volumes_per_bubble_ = nullptr

readjust_probe_length_from_vertices_ (protected)

int IJK_One_Dimensional_Subproblem::readjust_probe_length_from_vertices_ = 0

reconstruct_previous_probe_field_ (protected)

int IJK_One_Dimensional_Subproblem::reconstruct_previous_probe_field_ = 0

ref_ijk_ft_ (protected)

TRUST_Ref<Probleme_FTD_IJK_base *> IJK_One_Dimensional_Subproblem::ref_ijk_ft_

reference_gfm_on_probes_ (protected)

int IJK_One_Dimensional_Subproblem::reference_gfm_on_probes_ = 0

resize_probe_collision_ (protected)

int IJK_One_Dimensional_Subproblem::resize_probe_collision_ = 0

resize_probe_collision_index_ (protected)

int IJK_One_Dimensional_Subproblem::resize_probe_collision_index_ = 0

rhs_assembly_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::rhs_assembly_

second_tangential_vector_compo_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::second_tangential_vector_compo_

second_tangential_vector_compo_solver_ (protected)

Vecteur3* IJK_One_Dimensional_Subproblem::second_tangential_vector_compo_solver_ = nullptr

second_tangential_velocity_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::second_tangential_velocity_

second_tangential_velocity_advected_frame_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::second_tangential_velocity_advected_frame_

second_tangential_velocity_corrected_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::second_tangential_velocity_corrected_

second_tangential_velocity_normal_gradient_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::second_tangential_velocity_normal_gradient_

second_tangential_velocity_not_corrected_ (protected)

DoubleVect* IJK_One_Dimensional_Subproblem::second_tangential_velocity_not_corrected_ = nullptr

second_tangential_velocity_solver_ (protected)

DoubleVect* IJK_One_Dimensional_Subproblem::second_tangential_velocity_solver_ = nullptr

second_tangential_velocity_static_frame_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::second_tangential_velocity_static_frame_

shear_stress_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::shear_stress_

shear_stress_from_rising_dir_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::shear_stress_from_rising_dir_

short_probe_condition_ (protected)

int IJK_One_Dimensional_Subproblem::short_probe_condition_ = 0

smooth_grad_T_elem_ (protected)

int IJK_One_Dimensional_Subproblem::smooth_grad_T_elem_ = 0

source_terms_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::source_terms_

source_terms_type_ (protected)

int IJK_One_Dimensional_Subproblem::source_terms_type_ = 0

start_index_ (protected)

int IJK_One_Dimensional_Subproblem::start_index_ = 0

sub_problem_index_ (protected)

int IJK_One_Dimensional_Subproblem::sub_problem_index_ = 0

subproblem_to_ijk_indices_previous_ (protected)

const std::map<int, std::map<int, std::map<int, int>>>* IJK_One_Dimensional_Subproblem::subproblem_to_ijk_indices_previous_ = nullptr

sum_convective_diffusive_flux_op_lrs_ (protected)

double IJK_One_Dimensional_Subproblem::sum_convective_diffusive_flux_op_lrs_ = 0.

sum_convective_flux_op_entering_lrs_ (protected)

double IJK_One_Dimensional_Subproblem::sum_convective_flux_op_entering_lrs_ = 0.

sum_convective_flux_op_entering_value_ (protected)

double IJK_One_Dimensional_Subproblem::sum_convective_flux_op_entering_value_ = 0.

sum_convective_flux_op_leaving_lrs_ (protected)

double IJK_One_Dimensional_Subproblem::sum_convective_flux_op_leaving_lrs_ = 0.

sum_convective_flux_op_leaving_value_ (protected)

double IJK_One_Dimensional_Subproblem::sum_convective_flux_op_leaving_value_ = 0.

sum_convective_flux_op_lrs_ (protected)

double IJK_One_Dimensional_Subproblem::sum_convective_flux_op_lrs_ = 0.

sum_convective_flux_op_value_ (protected)

double IJK_One_Dimensional_Subproblem::sum_convective_flux_op_value_ = 0.

sum_convective_flux_op_value_mixed_ (protected)

double IJK_One_Dimensional_Subproblem::sum_convective_flux_op_value_mixed_ = 0.

sum_convective_flux_op_value_normal_contrib_ (protected)

double IJK_One_Dimensional_Subproblem::sum_convective_flux_op_value_normal_contrib_ = 0.

sum_convective_flux_op_value_vap_ (protected)

double IJK_One_Dimensional_Subproblem::sum_convective_flux_op_value_vap_ = 0.

sum_diffusive_flux_op_entering_lrs_ (protected)

double IJK_One_Dimensional_Subproblem::sum_diffusive_flux_op_entering_lrs_ = 0.

sum_diffusive_flux_op_entering_value_ (protected)

double IJK_One_Dimensional_Subproblem::sum_diffusive_flux_op_entering_value_ = 0.

sum_diffusive_flux_op_leaving_lrs_ (protected)

double IJK_One_Dimensional_Subproblem::sum_diffusive_flux_op_leaving_lrs_ = 0.

sum_diffusive_flux_op_leaving_value_ (protected)

double IJK_One_Dimensional_Subproblem::sum_diffusive_flux_op_leaving_value_ = 0.

sum_diffusive_flux_op_lrs_ (protected)

double IJK_One_Dimensional_Subproblem::sum_diffusive_flux_op_lrs_ = 0.

sum_diffusive_flux_op_value_ (protected)

double IJK_One_Dimensional_Subproblem::sum_diffusive_flux_op_value_ = 0.

sum_diffusive_flux_op_value_mixed_ (protected)

double IJK_One_Dimensional_Subproblem::sum_diffusive_flux_op_value_mixed_ = 0.

sum_diffusive_flux_op_value_normal_contrib_ (protected)

double IJK_One_Dimensional_Subproblem::sum_diffusive_flux_op_value_normal_contrib_ = 0.

sum_diffusive_flux_op_value_vap_ (protected)

double IJK_One_Dimensional_Subproblem::sum_diffusive_flux_op_value_vap_ = 0.

surface_ (protected)

double IJK_One_Dimensional_Subproblem::surface_ = 0.

tangential_convection_first_integral_ (protected)

double IJK_One_Dimensional_Subproblem::tangential_convection_first_integral_ = 0.

tangential_convection_second_integral_ (protected)

double IJK_One_Dimensional_Subproblem::tangential_convection_second_integral_ = 0.

tangential_convection_source_terms_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::tangential_convection_source_terms_

tangential_convection_source_terms_first_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::tangential_convection_source_terms_first_

tangential_convection_source_terms_second_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::tangential_convection_source_terms_second_

tangential_diffusion_integral_ (protected)

double IJK_One_Dimensional_Subproblem::tangential_diffusion_integral_ = 0.

tangential_diffusion_source_terms_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::tangential_diffusion_source_terms_

tangential_distance_vector_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::tangential_distance_vector_

tangential_from_rising_vel_ (protected)

bool IJK_One_Dimensional_Subproblem::tangential_from_rising_vel_ = false

tangential_hessian_contribution_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::tangential_hessian_contribution_

tangential_source_terms_integral_ (protected)

double IJK_One_Dimensional_Subproblem::tangential_source_terms_integral_ = 0.

tangential_temperature_diffusion_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::tangential_temperature_diffusion_

tangential_temperature_gradient_first_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::tangential_temperature_gradient_first_

tangential_temperature_gradient_first_from_rising_dir_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::tangential_temperature_gradient_first_from_rising_dir_

tangential_temperature_gradient_first_solver_ (protected)

DoubleVect* IJK_One_Dimensional_Subproblem::tangential_temperature_gradient_first_solver_ = nullptr

tangential_temperature_gradient_second_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::tangential_temperature_gradient_second_

tangential_temperature_gradient_second_solver_ (protected)

DoubleVect* IJK_One_Dimensional_Subproblem::tangential_temperature_gradient_second_solver_ = nullptr

temperature_ (protected)

const IJK_Field_double* IJK_One_Dimensional_Subproblem::temperature_ = nullptr

temperature_before_extrapolation_ (protected)

const IJK_Field_double* IJK_One_Dimensional_Subproblem::temperature_before_extrapolation_ = nullptr

temperature_cell_ (protected)

double IJK_One_Dimensional_Subproblem::temperature_cell_ = 0.

temperature_diffusion_hessian_cartesian_trace_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::temperature_diffusion_hessian_cartesian_trace_

temperature_diffusion_hessian_trace_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::temperature_diffusion_hessian_trace_

temperature_ft_ (protected)

const IJK_Field_double* IJK_One_Dimensional_Subproblem::temperature_ft_ = nullptr

temperature_gradient_solution_ (protected)

FixedVector<DoubleVect, 3> IJK_One_Dimensional_Subproblem::temperature_gradient_solution_

temperature_ini_temporal_schemes_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::temperature_ini_temporal_schemes_

temperature_integral_ (protected)

double IJK_One_Dimensional_Subproblem::temperature_integral_ = 0.

temperature_interp_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::temperature_interp_

temperature_interp_conv_flux_ (protected)

FixedVector<double, 6> IJK_One_Dimensional_Subproblem::temperature_interp_conv_flux_

temperature_previous_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::temperature_previous_

temperature_probe_condition_ (protected)

int IJK_One_Dimensional_Subproblem::temperature_probe_condition_ = 0

temperature_probes_previous_ (protected)

const std::vector<DoubleVect>* IJK_One_Dimensional_Subproblem::temperature_probes_previous_ = nullptr

temperature_solution_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::temperature_solution_

temperature_time_increment_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::temperature_time_increment_

temperature_time_increment_from_eulerian_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::temperature_time_increment_from_eulerian_

temperature_x_gradient_solution_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::temperature_x_gradient_solution_

temperature_y_gradient_solution_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::temperature_y_gradient_solution_

temperature_z_gradient_solution_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::temperature_z_gradient_solution_

thermal_flux_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::thermal_flux_

thermal_flux_abs_ (protected)

double IJK_One_Dimensional_Subproblem::thermal_flux_abs_ = 0.

thermal_flux_dir_ (protected)

FixedVector<double,3> IJK_One_Dimensional_Subproblem::thermal_flux_dir_

thermal_flux_gfm_ (protected)

double IJK_One_Dimensional_Subproblem::thermal_flux_gfm_ = 0.

thermal_flux_interp_gfm_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::thermal_flux_interp_gfm_

thermal_flux_lrs_ (protected)

double IJK_One_Dimensional_Subproblem::thermal_flux_lrs_ = 0.

thermal_flux_max_ (protected)

double IJK_One_Dimensional_Subproblem::thermal_flux_max_ = 0.

thermal_flux_max_gfm_ (protected)

double IJK_One_Dimensional_Subproblem::thermal_flux_max_gfm_ = 0.

thermal_flux_max_raw_ (protected)

double IJK_One_Dimensional_Subproblem::thermal_flux_max_raw_ = 0.

thermal_flux_raw_ (protected)

double IJK_One_Dimensional_Subproblem::thermal_flux_raw_ = 0.

thermal_flux_total_ (protected)

double IJK_One_Dimensional_Subproblem::thermal_flux_total_ = 0.

thermal_subproblems_matrix_assembly_ (protected)

Matrice* IJK_One_Dimensional_Subproblem::thermal_subproblems_matrix_assembly_ = nullptr

thermal_subproblems_rhs_assembly_ (protected)

DoubleVect* IJK_One_Dimensional_Subproblem::thermal_subproblems_rhs_assembly_ = nullptr

thermal_subproblems_temperature_solution_ (protected)

DoubleVect* IJK_One_Dimensional_Subproblem::thermal_subproblems_temperature_solution_ = nullptr

thermal_subproblems_temperature_solution_ini_ (protected)

DoubleVect* IJK_One_Dimensional_Subproblem::thermal_subproblems_temperature_solution_ini_ = nullptr

theta_sph_ (protected)

double IJK_One_Dimensional_Subproblem::theta_sph_ = 0.

time_increment_from_energy_increment_ (protected)

double IJK_One_Dimensional_Subproblem::time_increment_from_energy_increment_ = 0.

use_corrected_velocity_convection_ (protected)

int IJK_One_Dimensional_Subproblem::use_corrected_velocity_convection_ = 0

use_normal_gradient_for_flux_corr_ (protected)

int IJK_One_Dimensional_Subproblem::use_normal_gradient_for_flux_corr_ = 0

use_sparse_matrix_ (protected)

int IJK_One_Dimensional_Subproblem::use_sparse_matrix_ = 0

use_velocity_cartesian_grid_ (protected)

int IJK_One_Dimensional_Subproblem::use_velocity_cartesian_grid_ = 0

velocities_calculation_counter_ (protected)

int IJK_One_Dimensional_Subproblem::velocities_calculation_counter_ = 0

velocities_probes_previous_ (protected)

const std::vector<Vecteur3>* IJK_One_Dimensional_Subproblem::velocities_probes_previous_ = nullptr

velocity_ (protected)

const IJK_Field_vector3_double* IJK_One_Dimensional_Subproblem::velocity_ = nullptr

velocity_ft_ (protected)

const IJK_Field_vector3_double* IJK_One_Dimensional_Subproblem::velocity_ft_ = nullptr

velocity_magnitude_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::velocity_magnitude_

velocity_shear_force_ (protected)

double IJK_One_Dimensional_Subproblem::velocity_shear_force_ = 0.

velocity_shear_stress_ (protected)

double IJK_One_Dimensional_Subproblem::velocity_shear_stress_ = 0.

vertices_centres_distance_ (protected)

FixedVector<FixedVector<double,4>,6> IJK_One_Dimensional_Subproblem::vertices_centres_distance_

vertices_centres_tangential_distance_ (protected)

FixedVector<FixedVector<double,4>,6> IJK_One_Dimensional_Subproblem::vertices_centres_tangential_distance_

vertices_tangential_distance_vector_ (protected)

FixedVector<FixedVector<Vecteur3,4>,6> IJK_One_Dimensional_Subproblem::vertices_tangential_distance_vector_

x_velocity_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::x_velocity_

x_velocity_corrected_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::x_velocity_corrected_

xyz_velocity_cell_ (protected)

Vecteur3 IJK_One_Dimensional_Subproblem::xyz_velocity_cell_

y_velocity_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::y_velocity_

y_velocity_corrected_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::y_velocity_corrected_

z_velocity_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::z_velocity_

z_velocity_corrected_ (protected)

DoubleVect IJK_One_Dimensional_Subproblem::z_velocity_corrected_

zero_liquid_neighbours_ (protected)

IJK_Field_int* IJK_One_Dimensional_Subproblem::zero_liquid_neighbours_ = nullptr

Enums#