|
| void | initialize (const Domaine_IJK &splitting) override |
| void | update_thermal_properties () override |
| void | post_process_after_temperature_increment () override |
| void | set_param (Param ¶m) const override |
| void | compute_ghost_cell_numbers_for_subproblems (const Domaine_IJK &splitting, int ghost_init) override |
| double | get_probes_length () |
| int | lire_motcle_non_standard (const Motcle &, Entree &) override |
| | Lecture des parametres de type non simple d'un objet_U a partir d'un flot d'entree.
|
| void | set_thermal_subresolution_outputs (const Nom &interfacial_quantities_thermal_probes, const Nom &shell_quantities_thermal_probes, const Nom &overall_bubbles_quantities, const Nom &local_quantities_thermal_probes_time_index_folder) override |
| void | post_process_thermal_downstream_lines (const Nom &local_quantities_thermal_lines_time_index_folder) override |
| void | initialise_thermal_dowstreamlines_tabs (std::vector< std::vector< FixedVector< ArrOfInt, 3 > > > ¶meters, const int &nb_thermal_circles, const int &nb_thermal_lines) |
| void | initialise_thermal_dowstreamlines_tabs (std::vector< std::vector< FixedVector< ArrOfDouble, 2 > > > ¶meters, const int &nb_thermal_circles, const int &nb_thermal_lines) |
| void | initialise_thermal_dowstreamlines_tabs (std::vector< std::vector< ArrOfInt > > ¶meters, const int &nb_thermal_circles, const int &nb_thermal_lines) |
| void | initialise_thermal_dowstreamlines_tabs (std::vector< std::vector< ArrOfDouble > > ¶meters, const int &nb_thermal_circles, const int &nb_thermal_lines) |
| void | initialise_thermal_line_points (const int &line_dir, ArrOfDouble &linear_coord, FixedVector< ArrOfDouble, 3 > &coordinates_line, double &diameter) |
| void | find_thermal_line_points_in_procs (std::vector< std::vector< ArrOfInt > > ¶meters) |
| void | find_cocentric_line_coordinates (const int &nb_thermal_circles, const int &nb_thermal_lines, const double &diameter_approx, std::vector< std::vector< FixedVector< ArrOfDouble, 2 > > > &coordinates_sides) |
| void | find_points_on_proc (std::vector< std::vector< ArrOfInt > > &is_point_on_proc, std::vector< std::vector< FixedVector< ArrOfInt, 3 > > > &ijk_indices, const FixedVector< ArrOfDouble, 3 > &coordinates_line, const std::vector< std::vector< FixedVector< ArrOfDouble, 2 > > > &coordinates_sides, const int &line_dir) |
| void | min_max_ldir (const int &dir, const Domaine_IJK &geom, double &min_dir, double &max_dir) |
| void | interpolate_fields_on_downstream_line (const int &dir, const int &nb_thermal_circles, const int &index_circle, const int &index_line, const std::vector< std::vector< ArrOfInt > > &is_point_on_proc, const FixedVector< ArrOfDouble, 3 > &coordinates_line, const std::vector< std::vector< FixedVector< ArrOfDouble, 2 > > > &coordinates_sides, const IJK_Field_double &field, const IJK_Field_vector3_double &field_gradient, const IJK_Field_vector3_double &velocity, DoubleVect &values, const int field_type) |
| void | interpolate_temperature_on_downstream_line (const int &dir, const int &nb_thermal_circles, const int &index_circle, const int &index_line, const std::vector< std::vector< ArrOfInt > > &is_point_on_proc, const FixedVector< ArrOfDouble, 3 > &coordinates_line, const std::vector< std::vector< FixedVector< ArrOfDouble, 2 > > > &coordinates_sides, DoubleVect &values) |
| void | interpolate_velocity_on_downstream_line (const int &dir, const int &nb_thermal_circles, const int &index_circle, const int &index_line, const std::vector< std::vector< ArrOfInt > > &is_point_on_proc, const FixedVector< ArrOfDouble, 3 > &coordinates_line, const std::vector< std::vector< FixedVector< ArrOfDouble, 2 > > > &coordinates_sides, DoubleVect &values) |
| void | interpolate_convective_term_on_downstream_line (const int &dir, const int &nb_thermal_circles, const int &index_circle, const int &index_line, const std::vector< std::vector< ArrOfInt > > &is_point_on_proc, const FixedVector< ArrOfDouble, 3 > &coordinates_line, const std::vector< std::vector< FixedVector< ArrOfDouble, 2 > > > &coordinates_sides, DoubleVect &values) |
| void | interpolate_diffusive_term_on_downstream_line (const int &dir, const int &nb_thermal_circles, const int &index_circle, const int &index_line, const std::vector< std::vector< ArrOfInt > > &is_point_on_proc, const FixedVector< ArrOfDouble, 3 > &coordinates_line, const std::vector< std::vector< FixedVector< ArrOfDouble, 2 > > > &coordinates_sides, DoubleVect &values) |
| void | interpolate_temperature_increment_on_downstream_line (const int &dir, const int &nb_thermal_circles, const int &index_circle, const int &index_line, const std::vector< std::vector< ArrOfInt > > &is_point_on_proc, const FixedVector< ArrOfDouble, 3 > &coordinates_line, const std::vector< std::vector< FixedVector< ArrOfDouble, 2 > > > &coordinates_sides, DoubleVect &values) |
| void | post_processed_fields_on_downstream_line (const Nom &local_quantities_thermal_lines_time_index_folder, const int &line_dir, const int &linear_circle_line_index, const int &index_circle, const int &index_line, const double &diameter_approx, std::vector< std::vector< ArrOfInt > > &is_point_on_proc, const std::vector< std::vector< FixedVector< ArrOfInt, 3 > > > &indices_ijk, const ArrOfDouble &linear_coord, const FixedVector< ArrOfDouble, 3 > &coordinates_line, const std::vector< std::vector< FixedVector< ArrOfDouble, 2 > > > &coordinates_sides, const DoubleVect &temperature_line, const DoubleVect &velocity_line, const DoubleVect &convective_term_line, const DoubleVect &diffusive_term_line, const DoubleVect &temperature_incr_line) |
| void | post_process_thermal_wake_slices (const Nom &local_quantities_thermal_slices_time_index_folder) override |
| void | post_process_thermal_wake_slice (const int &slice, const double &nb_diam_slice, const Nom &local_quantities_thermal_slices_time_index_folder) |
| double | post_process_thermal_wake_slice_index_dir (int &index_dir_local, int &index_dir_global, int &n_cross_section_1, int &n_cross_section_2, int &dir, const double &nb_diam, int upstream_dir, int gravity_dir, double &diameter) |
| void | complete_field_thermal_wake_slice_ij_values (int &index_dir_local, const int &dir, const double &slice_pos, FixedVector< IntTab, 2 > &ij_indices, FixedVector< DoubleTab, 3 > &ij_coords, const IJK_Field_double &field, const IJK_Field_vector3_double &field_gradient, const IJK_Field_vector3_double &velocity, DoubleTab &values, const int field_type, const int slice_to_nearest_plane, const int compute_indices=0) |
| void | complete_field_thermal_wake_slice_ij_indices_coords (const int &slice, int &index_dir_local, const int &dir, const double &slice_pos, FixedVector< IntTab, 2 > &ij_indices, FixedVector< DoubleTab, 3 > &ij_coords, DoubleTab &values, const Nom &local_quantities_thermal_slices_time_index_folder) |
| void | complete_field_thermal_wake_slice_ij_temperature (const int &slice, int &index_dir_local, const int &dir, const double &slice_pos, FixedVector< IntTab, 2 > &ij_indices, FixedVector< DoubleTab, 3 > &ij_coords, DoubleTab &values, const Nom &local_quantities_thermal_slices_time_index_folder) |
| void | complete_field_thermal_wake_slice_ij_velocity (const int &slice, int &index_dir_local, const int &dir, const double &slice_pos, FixedVector< IntTab, 2 > &ij_indices, FixedVector< DoubleTab, 3 > &ij_coords, DoubleTab &velocity_values, const Nom &local_quantities_thermal_slices_time_index_folder) |
| void | complete_field_thermal_wake_slice_ij_convection (const int &slice, int &index_dir_local, const int &dir, const double &slice_pos, FixedVector< IntTab, 2 > &ij_indices, FixedVector< DoubleTab, 3 > &ij_coords, DoubleTab &values, DoubleTab &velocity_values, const Nom &local_quantities_thermal_slices_time_index_folder) |
| void | complete_field_thermal_wake_slice_ij_diffusion (const int &slice, int &index_dir_local, const int &dir, const double &slice_pos, FixedVector< IntTab, 2 > &ij_indices, FixedVector< DoubleTab, 3 > &ij_coords, DoubleTab &values, const Nom &local_quantities_thermal_slices_time_index_folder) |
| void | complete_field_thermal_wake_slice_ij_temperature_incr (const int &slice, int &index_dir_local, const int &dir, const double &slice_pos, FixedVector< IntTab, 2 > &ij_indices, FixedVector< DoubleTab, 3 > &ij_coords, DoubleTab &values, const Nom &local_quantities_thermal_slices_time_index_folder) |
| void | post_processed_field_thermal_wake_slice_ij (const int &slice, const Nom &local_quantities_thermal_slices_time_index_folder, const double &diameter_approx, const double &nb_diam_slice, const int &n_cross_section_1, const int &n_cross_section_2, const FixedVector< IntTab, 2 > ij_indices, const FixedVector< DoubleTab, 3 > &ij_coords, const DoubleTab &temperature_slice, const DoubleTab &velocity_slice, const DoubleTab &convection_slice, const DoubleTab &diffusion_slice, const DoubleTab &temperature_incr_slice) |
| const IJK_Field_double & | get_debug_lrs_cells () const override |
| const IJK_Field_double & | get_temperature_cell_neighbours_debug () const override |
| const IJK_Field_double & | get_temperature_cell_neighbours () const override |
| const IJK_Field_int & | get_cell_neighbours_corrected () const override |
| const IJK_Field_double & | get_neighbours_temperature_colinearity_weighting () const override |
| const IJK_Field_vector3_double & | get_cell_faces_corrected_diffusive () const override |
| const IJK_Field_vector3_double & | get_cell_faces_corrected_convective () const override |
| const IJK_Field_vector3_int & | get_cell_faces_corrected_bool () const override |
| const IJK_Field_vector3_int & | get_cell_faces_neighbours_corrected_diag_bool () const override |
| const IJK_Field_vector3_int & | get_cell_faces_neighbours_corrected_all_bool () const override |
| const IJK_Field_vector3_int & | get_cell_faces_neighbours_corrected_min_max_bool () const override |
| const IJK_Field_vector3_double & | get_cell_faces_neighbours_corrected_convective () const override |
| const IJK_Field_vector3_double & | get_cell_faces_neighbours_corrected_convective_frame_of_ref () const override |
| const IJK_Field_vector3_double & | get_cell_faces_neighbours_corrected_velocity_temperature () const override |
| const IJK_Field_vector3_double & | get_cell_faces_neighbours_corrected_diffusive () const override |
| const IJK_Field_vector3_double & | get_neighbours_faces_weighting_colinearity () const override |
| const IJK_Field_int & | get_cell_neighbours_corrected_trimmed () const override |
| const IJK_Field_double & | get_probe_collision_debug_field () const override |
| const IJK_Field_vector3_double & | get_interfacial_heat_flux_dispatched () const override |
| const IJK_Field_vector3_double & | get_interfacial_heat_flux_contrib () const override |
| const IJK_Field_vector3_double & | get_interfacial_heat_flux_current () const override |
| int | get_disable_post_processing_probes_out_files () const override |
| int | get_first_step_thermals_post () override |
| void | set_subproblems_interfaces_fields (const Domaine_IJK &splitting) override |
| const Milieu_base & | milieu () const |
| Milieu_base & | milieu () |
| void | associer_milieu_base (const Milieu_base &, const int &idth) |
| Fluide_Diphasique_IJK & | milieu_ijk () |
| const Fluide_Diphasique_IJK & | milieu_ijk () const |
| virtual void | initialize_switch (const Domaine_IJK &splitting, const int idx) |
| double | compute_timestep (const double timestep, const double dxmin) |
| void | set_fichier_reprise (const char *lataname) |
| const Nom & | get_fichier_reprise () const |
| void | associer (const Probleme_FTD_IJK_base &ijk_ft) |
| void | associer_post (const Postprocessing_IJK &ijk_ft_post) |
| void | associer_switch (const Switch_FT_double &ijk_ft_switch) |
| bool | has_champ (const Motcle &nom) const override |
| bool | has_champ (const Motcle &nom, OBS_PTR(Champ_base)&ref_champ) const |
| bool | has_champ_vectoriel (const Motcle &nom) const override |
| const IJK_Field_double & | get_IJK_field (const Motcle &nom) override |
| const IJK_Field_vector3_double & | get_IJK_field_vector (const Motcle &nom) override |
| void | get_noms_champs_postraitables (Noms &noms, Option opt=NONE) const |
| Nom | get_field_name_with_rank (Nom basename) const |
| void | associer_interface_intersections (const Intersection_Interface_ijk_cell &intersection_ijk_cell, const Intersection_Interface_ijk_face &intersection_ijk_face) |
| void | associer_ghost_fluid_fields (const IJK_Ghost_Fluid_Fields &ghost_fluid_fields) |
| void | retrieve_ghost_fluid_params (int &compute_distance, int &compute_curvature, int &n_iter_distance, int &avoid_gfm_parallel_calls) |
| void | get_boundary_fluxes (IJK_Field_local_double &boundary_flux_kmin, IJK_Field_local_double &boundary_flux_kmax) |
| virtual void | euler_time_step (const double timestep) |
| virtual void | rk3_sub_step (const int rk_step, const double total_timestep, const double time) |
| virtual void | sauvegarder_temperature (Nom &lata_name, int idx, const int &stop=0) |
| virtual void | euler_rustine_step (const double timestep) |
| virtual void | rk3_rustine_sub_step (const int rk_step, const double total_timestep, const double fractionnal_timestep, const double time) |
| double | compute_global_energy (const IJK_Field_double &temperature) |
| virtual double | compute_global_energy () |
| int | calculer_k_pour_bord (const IJK_Field_double &temperature, const bool bord_kmax) |
| int | calculer_flux_thermique_bord (const IJK_Field_double &temperature, const double lambda_de_t_paroi, const double T_paroi_impose, IJK_Field_local_double &flux_bord, const bool bord_kmax) |
| int | imposer_flux_thermique_bord (const IJK_Field_double &temperature, const double flux_paroi_impose, IJK_Field_local_double &flux_bord, const bool bord_kmax) |
| void | set_latastep_reprise (const int latastep) |
| const int & | get_latastep_reprise () const |
| const int & | get_latastep_reprise_ini () const |
| double | get_rhocp_l () const |
| double | get_rhocp_v () const |
| const int & | get_rank () const |
| const std::shared_ptr< IJK_Field_double > & | get_temperature () const |
| const IJK_Field_double & | get_temperature_before_extrapolation () const |
| IJK_Field_double & | get_temperature_ft () |
| const IJK_Field_vector3_double & | get_grad_T () const |
| IJK_Field_double & | set_temperature () |
| const IJK_Field_double & | get_temperature_ana () const |
| const IJK_Field_double & | get_ecart_t_ana () const |
| const IJK_Field_double & | get_ecart_t_ana_rel () const |
| const IJK_Field_double & | get_div_lambda_grad_T () const |
| const std::shared_ptr< IJK_Field_double > & | get_div_lambda_grad_T_volume () const |
| const IJK_Field_double & | get_u_T_convective () const |
| const IJK_Field_double & | get_u_T_convective_volume () const |
| const IJK_Field_double & | get_eulerian_distance_ft () const |
| const IJK_Field_double & | get_eulerian_curvature_ft () const |
| const IJK_Field_double & | get_interfacial_area_ft () const |
| const IJK_Field_double & | get_grad_T_interface_ft () const |
| const IJK_Field_double & | get_eulerian_compo_connex_ft () const |
| const IJK_Field_double & | get_eulerian_compo_connex_ghost_ft () const |
| const IJK_Field_double & | get_eulerian_compo_connex_from_interface_ft () const |
| const IJK_Field_double & | get_eulerian_compo_connex_from_interface_ghost_ft () const |
| const IJK_Field_double & | get_eulerian_compo_connex_ns () const |
| const IJK_Field_double & | get_eulerian_compo_connex_ghost_ns () const |
| const IJK_Field_double & | get_eulerian_compo_connex_from_interface_ns () const |
| const IJK_Field_double & | get_eulerian_compo_connex_from_interface_ghost_ns () const |
| const IJK_Field_int & | get_eulerian_compo_connex_int_from_interface_ns () const |
| const IJK_Field_int & | get_eulerian_compo_connex_int_from_interface_ghost_ns () const |
| const IJK_Field_double & | get_eulerian_distance_ns () const |
| const IJK_Field_double & | get_eulerian_curvature_ns () const |
| const IJK_Field_double & | get_interfacial_area_ns () const |
| const IJK_Field_double & | get_grad_T_interface_ns () const |
| const IJK_Field_double & | get_eulerian_rising_velocities () const |
| const IJK_Field_double & | get_temperature_adim_bulles () const |
| const IJK_Field_double & | get_temperature_adim_theta () const |
| const IJK_Field_vector3_double & | get_gradient_temperature () const |
| const IJK_Field_vector3_double & | get_gradient_temperature_elem () const |
| const IJK_Field_vector3_double & | get_gradient_temperature_elem_smooth () const |
| const IJK_Field_vector3_double & | get_tangential_gradient_temperature_elem_smooth () const |
| const IJK_Field_double & | get_temperature_elem_smooth () const |
| const IJK_Field_vector3_double & | get_normal_vector_ns () const |
| const IJK_Field_vector3_double & | get_normal_vector_ns_normed () const |
| const IJK_Field_vector3_double & | get_normal_vector_ft () const |
| const IJK_Field_vector3_double & | get_hessian_diag_temperature_elem () const |
| const IJK_Field_vector3_double & | get_hessian_cross_temperature_elem () const |
| const IJK_Field_vector3_double & | get_bary () const |
| bool | get_ghost_fluid_flag () const |
| const int & | get_ghost_cells () const |
| bool | get_debug () const |
| const IJK_Field_vector3_double & | get_rho_cp_u_T_convective_fluxes () const |
| const IJK_Field_vector3_double & | get_div_coeff_grad_T_diffusive_fluxes () const |
| void | get_rising_velocities_parameters (int &compute_rising_velocities, int &fill_rising_velocities, int &use_bubbles_velocities_from_interface, int &use_bubbles_velocities_from_barycentres) |
| virtual double | get_rho_cp_u_ijk (const IJK_Field_double &vx, int i, int j, int k) const |
| virtual double | get_div_lambda_ijk (int i, int j, int k) const |
| virtual double | compute_temperature_dimensionless_theta_mean (const IJK_Field_double &vx) |
| const char * | get_fichier_sauvegarde () const |
| void | set_fichier_sauvegarde (const char *lataname) |
| virtual bool | get_conserv_energy_global () |
| const double & | get_E0 () const |
| virtual void | compute_interfacial_temperature2 (ArrOfDouble &interfacial_temperature, ArrOfDouble &flux_normal_interp) |
| void | compute_eulerian_distance () |
| void | compute_eulerian_curvature () |
| void | compute_eulerian_curvature_from_interface () |
| void | copy_previous_interface_state () |
| int | post_process_quantities_from_subresolution (const Motcles &liste_post_instantanes, const char *lata_name, const int latastep) |
| virtual void | copie_pure_vers_diph_sans_interpolation () |
| virtual void | echange_pure_vers_diph_cellules_initialement_pures () |
| virtual void | echange_diph_vers_pure_cellules_finalement_pures () |
| virtual void | vide_phase_invalide_cellules_diphasiques () |
| virtual void | remplir_tableau_pure_cellules_diphasiques (bool next_time) |
| void | post_process_std_thermal_field (const Motcles &liste_post_instantanes, const char *lata_name, const int latastep, const double current_time, const int idx, const Motcles &tested_names, const Nom &name_field, const Motcle &lata_suffix, const IJK_Field_double &field, std::ostringstream &oss, int &counter, const int &first_thermal_rank=0) |
| int | posttraiter_champs_instantanes_thermal (const Motcles &liste_post_instantanes, const char *lata_name, const int latastep, const double current_time, const int idx) |
| Nom & | get_thermal_problem_type () |
| int & | get_thermal_rank () |
| const Motcles & | get_thermal_words () const |
| const Motcles & | get_thermal_suffix () const |
| void | posttraiter_tous_champs_thermal (Motcles &liste, const int idx) const |
| void | ecrire_statistiques_bulles (int reset, const Nom &nom_cas, const double current_time, const ArrOfDouble &surface, const int idx) |
| int | posttraiter_champs_instantanes_thermal_interface (const Motcles &liste_post_instantanes, const char *lata_name, const int latastep, const double current_time, const int idx) |
| int | posttraiter_champs_instantanes_thermal_interface_ref (const Motcles &liste_post_instantanes, const char *lata_name, const int latastep, const double current_time, const int idx) |
| void | thermal_subresolution_outputs (const Nom &interfacial_quantities_thermal_probes, const Nom &shell_quantities_thermal_probes, const Nom &overall_bubbles_quantities, const Nom &local_quantities_thermal_probes_time_index_folder, const Nom &local_quantities_thermal_slices_time_index_folder, const Nom &local_quantities_thermal_lines_time_index_folder) |
| const Noms | noms_compris () const |
| const Champs_compris_IJK & | champs_compris () const |
| | ~Objet_U () override |
| | Destructeur, supprime l'objet de la liste d'objets enregistres dans "memoire".
|
| int | numero () const |
| | Renvoie l'indice de l'objet dans Memoire::data.
|
| virtual int | duplique () const =0 |
| virtual Sortie & | printOn (Sortie &) const |
| | Ecriture de l'objet sur un flot de sortie Methode a surcharger.
|
| virtual Entree & | readOn (Entree &) |
| | Lecture d'un Objet_U sur un flot d'entree Methode a surcharger.
|
| virtual unsigned | taille_memoire () const =0 |
| virtual int | est_egal_a (const Objet_U &) const |
| | Renvoie 1 si l'objet x et *this sont une seule et meme instance (meme adresse en memoire).
|
| virtual const Nom & | le_nom () const |
| | Donne le nom de l'Objet_U Methode a surcharger : renvoie "neant" dans cette implementation.
|
| virtual void | nommer (const Nom &) |
| | Donne un nom a l'Objet_U Methode virtuelle a surcharger.
|
| virtual int | reprendre (Entree &) |
| | Reprise d'un Objet_U sur un flot d'entree Methode a surcharger.
|
| virtual int | sauvegarder (Sortie &) const |
| | Sauvegarde d'un Objet_U sur un flot de sortie Methode a surcharger.
|
| int | get_object_id () const |
| | Renvoie l'identifiant unique de l'objet object_id_.
|
| virtual const Type_info * | get_info () const |
| | Donne des informations sur le type de l'Objet_U.
|
| const Nom & | que_suis_je () const |
| | renvoie la chaine identifiant la classe.
|
| const char * | le_type () const |
| | Donne le nom du type de l'Objet_U.
|
| virtual int | change_num (const int *const) |
| | Change le numero interne de l'Objet_U.
|
| virtual int | associer_ (Objet_U &) |
| | Associe l'Objet_U a un autre Objet_U Methode virtuelle a surcharger.
|
| const Interprete & | interprete () const |
| Interprete & | interprete () |
| virtual | ~Process () |
| virtual | ~Champs_compris_IJK_interface () |
|
| void | reset_subresolution_distributed_vectors () |
| void | compute_thermal_subproblems () override |
| void | compute_diffusion_increment () override |
| void | correct_temperature_increment_for_interface_leaving_cell () override |
| void | correct_any_temperature_fields_for_eulerian_fluxes (IJK_Field_double &temperature) |
| void | correct_temperature_for_eulerian_fluxes () override |
| void | store_temperature_before_extrapolation () override |
| void | compare_temperature_fields (const IJK_Field_double &temperature, const IJK_Field_double &temperature_ana, IJK_Field_double &error_temperature_ana, IJK_Field_double &error_temperature_ana_rel) |
| void | evaluate_total_liquid_absolute_parameter (const IJK_Field_double &field, double &total_parameter) |
| void | evaluate_total_liquid_parameter_squared (const IJK_Field_double &field, double &total_parameter) |
| void | correct_any_temperature_field_for_visu (IJK_Field_double &temperature) |
| void | correct_temperature_for_visu () override |
| void | clip_min_temperature_values () override |
| void | clip_max_temperature_values () override |
| void | compute_mean_liquid_temperature () |
| void | compute_overall_probes_parameters () |
| void | pre_initialise_thermal_subproblems_any_matrices () |
| void | pre_initialise_thermal_subproblems_matrices () |
| void | interpolate_indicator_on_probes () |
| void | clear_sort_problems_colliding_bubbles () |
| void | interpolate_project_velocities_on_probes () |
| void | reajust_probes_length_collisions () |
| void | reajust_probes_length () |
| void | compute_radial_subresolution_convection_diffusion_operators () |
| void | compute_local_substep () |
| void | prepare_temporal_schemes () |
| void | compute_source_terms_impose_subresolution_boundary_conditions () |
| void | compute_add_subresolution_source_terms () |
| void | compute_subresolution_temporal_explicit_implicit_matrices () |
| void | approximate_temperature_increment_material_derivative () |
| void | compute_radial_first_second_order_operators (Matrice &radial_first_order_operator_raw, Matrice &radial_second_order_operator_raw, Matrice &radial_first_order_operator, Matrice &radial_second_order_operator) |
| void | compute_first_order_operator_raw (Matrice &radial_first_order_operator) |
| void | compute_first_order_operator (Matrice &radial_first_order_operator, double dr) |
| void | compute_second_order_operator (Matrice &radial_second_order_operator, double dr) |
| void | compute_second_order_operator_raw (Matrice &radial_second_order_operator) |
| void | initialise_identity_matrices (Matrice &identity_matrix, Matrice &identity_matrix_subproblems) |
| void | initialise_identity_matrices_sparse (Matrice &identity_matrix, Matrice &identity_matrix_subproblems) |
| void | initialise_radial_convection_operator (Matrice &radial_first_order_operator, Matrice &radial_convection_matrix) |
| void | initialise_radial_convection_operator_sparse (Matrice &radial_first_order_operator, Matrice &radial_convection_matrix) |
| void | initialise_radial_diffusion_operator (Matrice &radial_second_order_operator, Matrice &radial_diffusion_matrix) |
| void | initialise_radial_diffusion_operator_sparse (Matrice &radial_second_order_operator, Matrice &radial_diffusion_matrix) |
| void | convert_into_sparse_matrix () |
| void | compute_md_vector () |
| void | retrieve_temperature_solution () |
| void | store_previous_temperature_indicator_velocities () |
| void | check_wrong_values_rhs () |
| void | initialise_thermal_subproblems_list () |
| void | initialise_thermal_subproblems () |
| void | detect_probe_collision () |
| void | solve_thermal_subproblems () |
| void | prepare_thermal_flux_correction () |
| void | compute_min_max_reachable_fluxes () |
| void | complete_convective_flux_frame_of_reference () |
| void | update_intersections () override |
| void | compute_convective_diffusive_fluxes_face_centre () override |
| void | compute_convective_fluxes_face_centre () override |
| void | compute_diffusive_fluxes_face_centre () override |
| void | complete_thermal_fluxes_face_centre (const int &fluxes_correction_conservations) |
| void | compute_temperature_cell_centres (const int first_corr) override |
| void | compute_temperature_cell_centres_first_correction () |
| void | compute_temperature_cell_centres_second_correction () |
| void | replace_temperature_cell_centres_neighbours (const int &use_neighbours_temperature_to_correct_trimmed) |
| void | prepare_ij_fluxes_k_layers () override |
| void | set_zero_temperature_increment () override |
| void | clean_thermal_subproblems () override |
| void | clean_ijk_intersections () override |
| void | clean_add_thermal_subproblems () |
| void | enforce_periodic_temperature_boundary_value () override |
| void | correct_operators_for_visu () override |
| double | get_modified_time () override |
| void | compute_temperature_init () override |
| void | recompute_temperature_init () override |
| void | set_field_temperature_per_bubble (const int index_bubble) |
| Nom | compute_quasi_static_spherical_diffusion_expression (const double &time_scope, const int index_bubble, const int index_bubble_real) |
| Nom | generate_expression_temperature_ini (const double &time_scope, const double x, const double y, const double z) |
| void | approx_erf_inverse (const double &x, double &res) |
| void | set_field_T_ana () override |
| void | calculer_ecart_T_ana () override |
| double | compute_spherical_steady_dirichlet_left_right_value (const double &r) |
| double | compute_spherical_steady_dirichlet_left_right_derivative_value (const double &r, const double &temperature_prev) |
| double | compute_spherical_steady_dirichlet_left_right_integral (const double &temperature_end_prev) |
| double | find_time_dichotomy_integral (const double &temperature_integral, double &temperature_end_prev) |
| void | compute_Nusselt_spherical_diffusion () |
| double | get_time_inflection_derivative (double &temperature_end_min) |
| double | find_time_dichotomy_derivative (const double &temperature_derivative, double &temperature_limit_left, double &temperature_limit_right) |
| double | compute_rho_cp_u_mean (const IJK_Field_double &vx) override |
| void | compare_fluxes_thermal_subproblems () override |
| | OBS_PTR (Milieu_base) le_fluide_ |
| void | compute_cell_volume () |
| void | compute_min_cell_delta () |
| void | compute_cell_diagonal (const Domaine_IJK &splitting) |
| virtual void | lire_temperature (const Domaine_IJK &splitting) |
| void | calculer_dT (const IJK_Field_vector3_double &velocity) |
| void | compute_temperature_convective_fluxes (const IJK_Field_vector3_double &velocity) |
| void | compute_temperature_convection (const IJK_Field_vector3_double &velocity) |
| virtual void | compute_temperature_convection_conservative (const IJK_Field_vector3_double &velocity) |
| void | compute_boundary_conditions_thermal () |
| void | compute_temperature_diffusive_fluxes () |
| virtual void | add_temperature_diffusion () |
| void | enforce_zero_value_eulerian_distance () |
| void | enforce_zero_value_eulerian_curvature () |
| void | enforce_max_value_eulerian_curvature () |
| void | compute_eulerian_grad_T_interface (const int on_splitting_ns=0) |
| void | propagate_eulerian_grad_T_interface () |
| void | compute_eulerian_temperature_ghost (const int on_splitting_ns=0) |
| void | compute_eulerian_bounding_box_fill_compo () |
| void | compute_rising_velocities () |
| void | compute_temperature_gradient_elem () |
| void | compute_temperature_hessian_diag_elem () |
| void | compute_temperature_hessian_cross_elem () |
| virtual void | clip_temperature_values () |
| void | calculer_gradient_temperature (const IJK_Field_double &temperature, IJK_Field_vector3_double &grad_T) |
| void | calculer_energies (double &E_liq_pure, double &E_liq, double &E_vap_pure, double &E_vap, double &E_mixt, double &E_tot) |
| void | source_callback () |
| void | calculer_temperature_physique_T (const IJK_Field_double &vx, const double dTm) |
| void | calculer_temperature_adim_bulles () |
| void | add_temperature_source () |
| void | calculer_Nusselt (const IJK_Field_double &vx) |
| void | calculer_temperature_adimensionnelle_theta (const IJK_Field_double &vx, const double qw) |
| void | calculer_source_temperature_ana () |
| double | compute_variable_wall_temperature (const int kmin, const int kmax) |
| void | force_upstream_temperature (IJK_Field_double &temperature, double T_imposed, const IJK_Interfaces &interfaces, double nb_diam, int upstream_dir, int gravity_dir, int upstream_stencil) |
| | OBS_PTR (Probleme_FTD_IJK_base) ref_ijk_ft_ |
| | OBS_PTR (Postprocessing_IJK) ref_ijk_ft_post_ |
| | OBS_PTR (Switch_FT_double) ref_ijk_ft_switch_ |
| | OBS_PTR (Intersection_Interface_ijk_cell) ref_intersection_ijk_cell_ |
| | OBS_PTR (Intersection_Interface_ijk_face) ref_intersection_ijk_face_ |
| | OWN_PTR (Corrige_flux_FT_base) corrige_flux_ |
| void | compute_mixed_cells_number (const IJK_Field_double &indicator) |
| | Objet_U () |
| | Constructeur par defaut : attribue un numero d'identifiant unique a l'objet (object_id_), et enregistre l'objet en "memoire".
|
| | Objet_U (const Objet_U &) |
| | Constructeur par copie.
|
| const Objet_U & | operator= (const Objet_U &) |
| | Operateur= : ne fait rien (on conserve le numero et l'identifiant).
|
|
| bool | enable_probe_collision_detection_ = false |
| bool | enable_resize_probe_collision_ = false |
| bool | debug_probe_collision_ = false |
| IJK_Field_double | probe_collision_debug_field_ |
| bool | reference_gfm_on_probes_ = false |
| bool | compute_normal_derivatives_on_reference_probes_ = false |
| bool | disable_probe_weak_gradient_ = false |
| bool | disable_probe_weak_gradient_gfm_ = false |
| bool | reconstruct_previous_probe_field_ = false |
| bool | implicit_solver_from_previous_probe_field_ = false |
| bool | disable_spherical_diffusion_start_ = false |
| bool | single_centred_bubble_ = true |
| bool | computed_centred_bubble_start_ = true |
| double | single_centred_bubble_radius_ini_ = 1.e-3 |
| double | probes_end_value_start_ = -1 |
| double | probes_end_value_coeff_ = 0.05 |
| int | temperature_ini_type_ = 1 |
| double | modified_time_init_ = 0. |
| int | spherical_diffusion_ = 1 |
| double | nusselt_spherical_diffusion_ = 2. |
| double | nusselt_spherical_diffusion_liquid_ = 2. |
| double | heat_flux_spherical_ = 0. |
| double | mean_liquid_temperature_ = -1 |
| double | time_ini_user_ = 0. |
| bool | disable_mixed_cells_increment_ = false |
| bool | enable_mixed_cells_increment_ = true |
| bool | allow_temperature_correction_for_visu_ = false |
| bool | disable_subresolution_ = false |
| bool | diffusive_flux_correction_ = false |
| bool | convective_flux_correction_ = false |
| bool | fluxes_correction_conservations_ = false |
| bool | conserve_max_interfacial_fluxes_ = false |
| int | fluxes_corrections_weighting_ = 0 |
| int | impose_fo_flux_correction_ = 1 |
| bool | disable_fo_flux_correction_ = false |
| int | subproblem_temperature_extension_ = 0 |
| bool | override_vapour_mixed_values_ = false |
| IJK_One_Dimensional_Subproblems | thermal_local_subproblems_ |
| int | points_per_thermal_subproblem_ = 32 |
| double | coeff_distance_diagonal_ = 2. |
| double | probe_length_ = 0. |
| double | dr_ = 0. |
| DoubleVect | radial_coordinates_ |
| Matrice | identity_matrix_explicit_implicit_ |
| Matrice | radial_first_order_operator_raw_ |
| Matrice | radial_second_order_operator_raw_ |
| Matrice | radial_first_order_operator_ |
| Matrice | radial_second_order_operator_ |
| Matrice | identity_matrix_subproblems_ |
| Matrice | radial_diffusion_matrix_ |
| Matrice | radial_convection_matrix_ |
| Matrice | radial_diffusion_matrix_test_ |
| FixedVector< ArrOfInt, 6 > | first_indices_sparse_matrix_ |
| int | initialise_sparse_indices_ = 0 |
| IJK_Finite_Difference_One_Dimensional_Matrix_Assembler | finite_difference_assembler_ |
| Matrice | thermal_subproblems_matrix_assembly_ |
| DoubleVect | thermal_subproblems_temperature_solution_ini_ |
| DoubleVect | thermal_subproblems_rhs_assembly_ |
| DoubleVect | thermal_subproblems_temperature_solution_ |
| Matrice * | thermal_subproblems_matrix_assembly_for_solver_ref_ = nullptr |
| Matrice | thermal_subproblems_matrix_assembly_for_solver_ |
| Matrice | thermal_subproblems_matrix_assembly_for_solver_reduced_ |
| IJK_SolveSys_FD_thermal | one_dimensional_advection_diffusion_thermal_solver_ |
| IJK_SolveSys_FD_thermal | one_dimensional_advection_diffusion_thermal_solver_implicit_ |
| MD_Vector | md_ |
| Motcles | fd_solvers_ |
| Motcles | fd_solvers_jdd_ |
| int | fd_solver_rank_ = 0 |
| Nom | fd_solver_type_ |
| bool | discrete_integral_ = false |
| int | quadtree_levels_ = 1 |
| int | compute_tangential_variables_ = 0 |
| int | boundary_condition_interface_ = -1 |
| Motcles | boundary_condition_interface_dict_ |
| double | interfacial_boundary_condition_value_ = 0. |
| bool | impose_boundary_condition_interface_from_simulation_ = false |
| int | boundary_condition_end_ = 0 |
| Motcles | boundary_condition_end_dict_ |
| double | end_boundary_condition_value_ = -1. |
| bool | impose_user_boundary_condition_end_value_ = false |
| int | source_terms_type_ = 2 |
| Motcles | source_terms_type_dict_ |
| bool | source_terms_correction_ = false |
| bool | advected_frame_of_reference_ = false |
| bool | neglect_frame_of_reference_radial_advection_ = false |
| bool | approximate_temperature_increment_ = false |
| bool | is_first_time_step_ = false |
| bool | first_time_step_temporal_ = false |
| bool | first_time_step_explicit_ = false |
| bool | first_time_step_implicit_ = false |
| bool | local_diffusion_fourier_priority_ = false |
| int | nb_iter_explicit_local_ = 0 |
| double | local_fourier_ = 1. |
| double | local_cfl_ = 1. |
| double | delta_T_subcooled_overheated_ =-1. |
| double | convection_diffusion_time_scale_factor_ = 1. |
| double | local_fourier_time_step_probe_length_ = 0. |
| double | local_cfl_time_step_probe_length_ = 0. |
| double | local_dt_cfl_ = 0. |
| double | local_dt_cfl_min_delta_xyz_ = 0. |
| double | local_dt_cfl_counter_ = 0. |
| double | local_dt_fourier_counter_ = 0. |
| double | error_temperature_ana_total_ = 0. |
| double | error_temperature_ana_squared_total_ = 0. |
| double | error_temperature_ana_rel_total_ = 0. |
| bool | first_time_step_varying_probes_ = false |
| bool | probe_variations_enabled_ = false |
| bool | probe_variations_priority_ = false |
| bool | disable_interpolation_in_mixed_cells_ = false |
| bool | keep_temperature_extrapolated_from_LRS_ = false |
| bool | max_u_radial_ = false |
| IJK_Field_double | debug_LRS_cells_ |
| int | distance_cell_faces_from_lrs_ = 1 |
| bool | disable_distance_cell_faces_from_lrs_ = false |
| bool | pre_initialise_thermal_subproblems_list_ = false |
| double | pre_factor_subproblems_number_ = 3. |
| bool | remove_append_subproblems_ = false |
| bool | use_sparse_matrix_ = false |
| int | global_probes_characteristics_ = 1 |
| bool | correct_temperature_cell_neighbours_first_iter_ = false |
| int | correct_first_iter_deactivate_cell_neighbours_ = 0 |
| bool | find_temperature_cell_neighbours_ = false |
| bool | use_temperature_cell_neighbours_ = false |
| bool | correct_neighbours_using_probe_length_ = false |
| int | neighbours_corrected_rank_ = 1 |
| int | neighbours_weighting_ = 0 |
| bool | neighbours_colinearity_weighting_ = false |
| bool | neighbours_distance_weighting_ = false |
| bool | neighbours_colinearity_distance_weighting_ = false |
| bool | smooth_temperature_field_ = false |
| bool | readjust_probe_length_from_vertices_ = false |
| IJK_Field_double | temperature_cell_neighbours_ |
| IJK_Field_double | temperature_cell_neighbours_debug_ |
| IJK_Field_int | neighbours_temperature_to_correct_ |
| IJK_Field_double | neighbours_temperature_colinearity_weighting_ |
| bool | keep_max_flux_correction_ = false |
| bool | clip_temperature_values_ = false |
| bool | enforce_periodic_boundary_value_ = false |
| int | stencil_periodic_boundary_value_ = 2 |
| bool | disable_post_processing_probes_out_files_ = false |
| IJK_Field_vector3_double | cell_faces_corrected_diffusive_ |
| IJK_Field_vector3_double | cell_faces_corrected_convective_ |
| IJK_Field_vector3_int | cell_faces_corrected_bool_ |
| bool | store_cell_faces_corrected_ = false |
| IJK_Field_vector3_int | cell_faces_neighbours_corrected_diag_bool_ |
| bool | find_cell_neighbours_for_fluxes_spherical_correction_ = false |
| bool | use_cell_neighbours_for_fluxes_spherical_correction_ = false |
| bool | find_reachable_fluxes_ = false |
| bool | use_reachable_fluxes_ = false |
| bool | keep_first_reachable_fluxes_ = false |
| IJK_Field_vector3_int | cell_faces_neighbours_corrected_all_bool_ |
| IJK_Field_vector3_double | cell_faces_neighbours_corrected_velocity_temperature_ |
| IJK_Field_vector3_double | cell_faces_neighbours_corrected_convective_frame_of_reference_ |
| IJK_Field_vector3_double | cell_faces_neighbours_corrected_convective_ |
| IJK_Field_vector3_double | cell_faces_neighbours_corrected_diffusive_ |
| IJK_Field_vector3_double | neighbours_faces_weighting_colinearity_ |
| IJK_Field_vector3_int | cell_faces_neighbours_corrected_min_max_bool_ |
| IJK_Field_int | neighbours_temperature_to_correct_trimmed_ |
| int | neighbours_last_faces_weighting_ = 0 |
| bool | neighbours_last_faces_colinearity_weighting_ = false |
| bool | neighbours_last_faces_colinearity_face_weighting_ = false |
| bool | neighbours_last_faces_distance_weighting_ = false |
| bool | neighbours_last_faces_distance_colinearity_weighting_ = false |
| bool | neighbours_last_faces_distance_colinearity_face_weighting_ = false |
| bool | post_process_all_probes_ = false |
| int | nb_theta_post_pro_ = 10 |
| int | nb_phi_post_pro_ = 4 |
| int | nb_probes_post_pro_ = 40 |
| bool | interp_eulerian_ = false |
| int | first_step_thermals_post_ = 1 |
| bool | disable_first_step_thermals_post_ = false |
| bool | copy_fluxes_on_every_procs_ = true |
| bool | copy_temperature_on_every_procs_ = true |
| bool | post_process_thermal_slices_ = false |
| bool | thermal_slices_regions_ = false |
| double | nb_diam_slice_ = -1 |
| int | nb_slices_ = 1 |
| int | upstream_dir_slice_ = -1 |
| bool | disable_slice_to_nearest_plane_ = false |
| bool | post_process_thermal_lines_ = false |
| int | upstream_dir_line_ = -1 |
| int | nb_thermal_lines_ = 1 |
| int | nb_thermal_concentric_circles_ = 1 |
| int | nb_thermal_line_points_ = 100 |
| double | nb_diam_thermal_line_length_ = -1 |
| bool | use_corrected_velocity_convection_ = false |
| bool | use_velocity_cartesian_grid_ = false |
| bool | compute_radial_displacement_ = false |
| bool | use_normal_gradient_for_flux_corr_ = false |
| IJK_Field_vector3_double | interfacial_heat_flux_dispatched_ |
| FixedVector< ArrOfInt, 3 > | ijk_indices_flux_out_ |
| FixedVector< ArrOfDouble, 3 > | thermal_flux_out_ |
| IJK_Field_int | zero_liquid_neighbours_ |
| IJK_Field_vector3_double | interfacial_heat_flux_contrib_ |
| IJK_Field_vector3_double | interfacial_heat_flux_current_ |
| FixedVector< ArrOfInt, 4 > | ijk_indices_flux_contrib_ |
| ArrOfDouble | thermal_flux_out_contrib_ |
| int | needs_op_unform_ = 1 |
| int | thermal_rank_ = 0 |
| Nom | thermal_problem_type_ = "subresolution" |
| Motcles | thermal_words_ |
| Motcles | lata_suffix_ |
| Champs_compris_IJK | champs_compris_ |
| bool | debug_ = false |
| int | latastep_reprise_ = 0 |
| int | latastep_reprise_ini_ = 0 |
| double | E0_ = 0. |
| int | rank_ = 0 |
| double | dt_fo_ = 1.e20 |
| double | fo_ = 1. |
| double | cp_liquid_ = -123. |
| double | cp_vapour_ = -123. |
| double | lambda_liquid_ = -123. |
| double | lambda_vapour_ = -123. |
| double | uniform_lambda_ = 0. |
| double | uniform_alpha_ = 0. |
| double | prandtl_number_ = 0. |
| Boundary_Conditions_Thermique | boundary_conditions_ |
| IJK_Field_local_double | boundary_flux_kmin_ |
| IJK_Field_local_double | boundary_flux_kmax_ |
| Nom | expression_T_init_ = "??" |
| double | upstream_temperature_ = -1.1e20 |
| double | nb_diam_upstream_ = 0 |
| int | side_temperature_ = 0 |
| int | stencil_side_ = 0 |
| Nom | fichier_reprise_temperature_ = "??" |
| int | timestep_reprise_temperature_ = 1 |
| int | rank_reprise_temperature_ = -1 |
| Nom | expression_source_temperature_ |
| Nom | type_T_source_ = "??" |
| bool | lambda_variable_ = false |
| bool | wall_flux_ = false |
| IJK_Field_double | source_temperature_ |
| IJK_Field_double | source_temperature_v_ |
| IJK_Field_double | source_temperature_l_ |
| IJK_Field_double | d_source_Tl_ |
| IJK_Field_double | d_source_Tv_ |
| double | dTl_ = 0. |
| double | dTv_ = 1. |
| double | Tl_ = 0. |
| double | Tv_ = 1. |
| double | Tv0_ = 1. |
| double | kl_ = -100000000000000. |
| double | kv_ = -200000000000000. |
| double | T0v_ = 1. |
| double | T0l_ = 0. |
| IJK_Field_double | source_temperature_ana_ |
| IJK_Field_double | ecart_source_t_ana_ |
| IJK_Field_double | temperature_physique_T_ |
| IJK_Field_double | temperature_adimensionnelle_theta_ |
| IJK_Field_double | temperature_adim_bulles_ |
| bool | diff_temperature_negligible_ = false |
| bool | conv_temperature_negligible_ = false |
| int | type_temperature_convection_form_ = 1 |
| Operateur_IJK_elem_conv | temperature_convection_op_ |
| Operateur_IJK_elem_conv | rho_cp_convection_op_ |
| Operateur_IJK_elem_diff | temperature_diffusion_op_ |
| IJK_Field_vector3_double | div_coeff_grad_T_raw_ |
| std::shared_ptr< IJK_Field_double > | div_coeff_grad_T_volume_ |
| IJK_Field_double | div_coeff_grad_T_ |
| IJK_Field_vector3_double | rho_cp_u_T_convective_raw_ |
| IJK_Field_double | u_T_convective_volume_ |
| IJK_Field_double | u_T_convective_ |
| OpGradFluxQuickIJKScalar_double | temperature_grad_flux_op_quick_ |
| OpGradCentre2IJKScalar_double | temperature_grad_op_centre_ |
| OpHessCentre2IJKScalar_double | temperature_hess_op_centre_ |
| OpHessFluxCentre2IJKScalar_double | temperature_hess_flux_op_centre_ |
| double | vol_ = 0. |
| double | min_delta_xyz_ = 0. |
| double | cell_diagonal_ = 0. |
| int | ghost_cells_ = 4 |
| IJK_Field_double | rho_cp_ |
| IJK_Field_double | rho_cp_T_ |
| IJK_Field_double | div_rho_cp_T_ |
| std::shared_ptr< IJK_Field_double > | temperature_ |
| IJK_Field_double | temperature_for_ini_per_bubble_ |
| IJK_Field_double | temperature_before_extrapolation_ |
| std::shared_ptr< IJK_Field_double > | d_temperature_ |
| std::shared_ptr< IJK_Field_double > | RK3_F_temperature_ |
| IJK_Field_vector3_double | storage_ |
| int | calculate_local_energy_ = 0 |
| bool | conserv_energy_global_ = false |
| IJK_Field_double | temperature_ft_ |
| Nom | expression_T_ana_ = "??" |
| Motcles | liste_post_instantanes_ |
| IJK_Field_double | temperature_ana_ |
| IJK_Field_double | ecart_t_ana_ |
| IJK_Field_double | ecart_t_ana_rel_ |
| IJK_Field_vector3_double | grad_T_ |
| int | calulate_grad_T_ = 0 |
| int | rho_cp_post_ = 0 |
| bool | ghost_fluid_ = false |
| int | n_iter_distance_ = 3 |
| bool | gfm_recompute_field_ini_ = true |
| bool | gfm_zero_neighbour_value_mean_ = false |
| int | gfm_vapour_mixed_only_ = 1 |
| bool | gfm_vapour_liquid_vapour_ = false |
| int | gfm_smooth_factor_ = 20 |
| bool | avoid_gfm_parallel_calls_ = false |
| int | compute_distance_ = 0 |
| int | compute_curvature_ = 0 |
| int | compute_grad_T_interface_ = 0 |
| const DoubleTab * | bounding_box_ = nullptr |
| const DoubleTab * | min_max_larger_box_ = nullptr |
| const IJK_Ghost_Fluid_Fields * | ghost_fluid_fields_ = nullptr |
| const IJK_Field_double * | eulerian_distance_ft_ = nullptr |
| const IJK_Field_double * | eulerian_distance_ns_ = nullptr |
| const IJK_Field_vector3_double * | eulerian_normal_vectors_ft_ = nullptr |
| const IJK_Field_vector3_double * | eulerian_facets_barycentre_ft_ = nullptr |
| const IJK_Field_vector3_double * | eulerian_normal_vectors_ns_ = nullptr |
| const IJK_Field_vector3_double * | eulerian_normal_vectors_ns_normed_ = nullptr |
| const IJK_Field_vector3_double * | eulerian_facets_barycentre_ns_ = nullptr |
| const IJK_Field_double * | eulerian_curvature_ft_ = nullptr |
| const IJK_Field_double * | eulerian_curvature_ns_ = nullptr |
| const IJK_Field_double * | eulerian_interfacial_area_ft_ = nullptr |
| const IJK_Field_double * | eulerian_interfacial_area_ns_ = nullptr |
| IJK_Field_double | eulerian_grad_T_interface_ft_ |
| IJK_Field_double | eulerian_grad_T_interface_ns_ |
| int | compute_grad_T_elem_ = 0 |
| IJK_Field_vector3_double | grad_T_elem_ |
| bool | smooth_grad_T_elem_ = false |
| IJK_Field_vector3_double | grad_T_elem_smooth_ |
| IJK_Field_vector3_double | hess_diag_T_elem_ |
| IJK_Field_vector3_double | hess_cross_T_elem_ |
| IJK_Field_vector3_double | facets_barycentre |
| IJK_Field_double | d_temperature_uncorrected_ |
| IJK_Field_double | div_coeff_grad_T_volume_uncorrected_ |
| Operateur_IJK_elem_conv | temperature_convection_op_uncorrected_ |
| Operateur_IJK_elem_diff | temperature_diffusion_op_uncorrected_ |
| int | compute_hess_T_elem_ = 0 |
| int | compute_hess_diag_T_elem_ = 0 |
| int | compute_hess_cross_T_elem_ = 0 |
| int | mixed_cells_number_ = 0 |
| bool | compute_eulerian_compo_ = false |
| int | spherical_approx_ = 1 |
| bool | spherical_exact_ = false |
| const IJK_Field_double * | eulerian_compo_connex_ft_ = nullptr |
| const IJK_Field_double * | eulerian_compo_connex_ns_ = nullptr |
| const IJK_Field_double * | eulerian_compo_connex_ghost_ft_ = nullptr |
| const IJK_Field_double * | eulerian_compo_connex_ghost_ns_ = nullptr |
| const IJK_Field_double * | eulerian_compo_connex_from_interface_ft_ = nullptr |
| const IJK_Field_double * | eulerian_compo_connex_from_interface_ns_ = nullptr |
| const IJK_Field_double * | eulerian_compo_connex_from_interface_ghost_ft_ = nullptr |
| const IJK_Field_double * | eulerian_compo_connex_from_interface_ghost_ns_ = nullptr |
| const IJK_Field_int * | eulerian_compo_connex_from_interface_int_ns_ = nullptr |
| const IJK_Field_int * | eulerian_compo_connex_from_interface_ghost_int_ns_ = nullptr |
| int | compute_rising_velocities_ = 0 |
| int | fill_rising_velocities_ = 0 |
| bool | use_bubbles_velocities_from_interface_ = false |
| bool | use_bubbles_velocities_from_barycentres_ = false |
| const Vecteur3 * | liquid_velocity_ = nullptr |
| const Vecteur3 * | rising_velocity_overall_ = nullptr |
| const ArrOfDouble * | rising_velocities_ = nullptr |
| const ArrOfDouble * | rising_velocities_from_barycentres_ = nullptr |
| const DoubleTab * | rising_vectors_ = nullptr |
| const DoubleTab * | rising_vectors_from_barycentres_ = nullptr |
| const IJK_Field_double * | eulerian_rising_velocities_ = nullptr |
| const ArrOfDouble * | bubbles_volume_ = nullptr |
| const DoubleTab * | bubbles_barycentre_ = nullptr |
| const DoubleTab * | bubbles_barycentres_old_ = nullptr |
| const DoubleTab * | bubbles_barycentres_new_ = nullptr |
| IJK_Field_vector3_int | dummy_int_vect_ |
| IJK_Field_vector3_double | dummy_double_vect_ |
| IJK_Field_int | dummy_int_field_ |
| IJK_Field_double | dummy_double_field_ |
| bool | store_flux_operators_for_energy_balance_ = false |
| bool | disable_relative_velocity_energy_balance_ = false |
| IJK_One_Dimensional_Subproblems_Interfaces_Fields | thermal_local_subproblems_interfaces_fields_ |
| IJK_Field_double | temperature_gaussian_filtered_ |
| IJK_Field_double | tmp_smoothing_field_ |
| IJK_Field_vector3_double | grad_T_elem_tangential_ |
| int | smoothing_numbers_ = 1 |
| bool | smoothing_remove_normal_compo_ = false |
| bool | smoothing_use_unique_phase_ = false |
| double | direct_smoothing_factors_ [7] = {1.,1.,1.,1.,1.,1.,2.} |
| double | gaussian_smoothing_factors_ [3][3][3] |
| double | sharpen_smoothing_factors_ [3][3][3] |
|
| using | FieldInfo_t = Champs_compris_IJK_interface::FieldInfo_t |
| using | FieldInfo_t = std::tuple<Motcle, Entity, Nature_du_champ, bool> |
| static void | Fill_postprocessable_fields (std::vector< FieldInfo_t > &chps) |
| static void | typer_lire_thermal_equation (OWN_PTR(IJK_Thermal_base)&, Entree &) |
| static const Nom & | nom_du_cas () |
| | Renvoie une reference constante vers le nom du cas.
|
| static Nom & | get_set_nom_du_cas () |
| | Renvoie une reference non constante vers le nom du cas (pour pouvoir le modifier).
|
| static const Type_info * | info () |
| | Donne des informations sur le type de l'Objet_U.
|
| static const Objet_U & | self_cast (const Objet_U &) |
| | methode ajoutee pour caster en python
|
| static Objet_U & | self_cast (Objet_U &) |
| static int | me () |
| | renvoie mon rang dans le groupe de communication courant.
|
| static int | nproc () |
| | renvoie le nombre de processeurs dans le groupe courant Voir Comm_Group::nproc() et PE_Groups::current_group()
|
| static bool | is_parallel () |
| static void | exit (int exit_code=-1) |
| | Routine de sortie de TRUST dans une region Kokkos.
|
| static double | mp_sum (double) |
| | Calcule la somme de x sur tous les processeurs du groupe courant.
|
| static float | mp_sum (float) |
| static trustIdType | mp_sum (trustIdType) |
| | Calcule la somme de x sur tous les processeurs du groupe courant.
|
| static double | mp_max (double) |
| static double | mp_min (double) |
| static int | mp_max (int) |
| | renvoie le plus grand int i sur l'ensemble des processeurs du groupe courant.
|
| static int | mp_min (int) |
| | renvoie le plus petit int i sur l'ensemble des processeurs du groupe courant.
|
| static double | mp_sum_as_double (int v) |
| static trustIdType | mppartial_sum (trustIdType i) |
| | Calul de la somme partielle de i sur les processeurs 0 a me()-1 (renvoie 0 sur le processeur 0).
|
| template<typename T> |
| static void | mp_sum_for_each (T &arg1, T &arg2) |
| | C++14 compatible mp_sum_for_each: combine multiple mp_sum calls into one collective operation Usage: mp_sum_for_each(a, b); mp_sum_for_each(a, b, c); mp_sum_for_each(a, b, c, d); mp_sum_for_each(a, b, c, d, e); All arguments must be of the same type (double or int) and are modified in place. Supports 2-5 parameters.
|
| template<typename T> |
| static void | mp_sum_for_each (T &arg1, T &arg2, T &arg3) |
| template<typename T> |
| static void | mp_sum_for_each (T &arg1, T &arg2, T &arg3, T &arg4) |
| template<typename T> |
| static void | mp_sum_for_each (T &arg1, T &arg2, T &arg3, T &arg4, T &arg5) |
| template<typename T> |
| static void | mp_max_for_each (T &arg1, T &arg2) |
| | C++14 compatible mp_max_for_each: combine multiple mp_max calls into one collective operation.
|
| template<typename T> |
| static void | mp_max_for_each (T &arg1, T &arg2, T &arg3) |
| template<typename T> |
| static void | mp_max_for_each (T &arg1, T &arg2, T &arg3, T &arg4) |
| template<typename T> |
| static void | mp_max_for_each (T &arg1, T &arg2, T &arg3, T &arg4, T &arg5) |
| template<typename T> |
| static void | mp_min_for_each (T &arg1, T &arg2) |
| | C++14 compatible mp_min_for_each: combine multiple mp_min calls into one collective operation.
|
| template<typename T> |
| static void | mp_min_for_each (T &arg1, T &arg2, T &arg3) |
| template<typename T> |
| static void | mp_min_for_each (T &arg1, T &arg2, T &arg3, T &arg4) |
| template<typename T> |
| static void | mp_min_for_each (T &arg1, T &arg2, T &arg3, T &arg4, T &arg5) |
| template<typename _TYPE_> |
| static void | mp_sum_for_each_item (TRUSTArray< _TYPE_ > &x, int n=-1) |
| template<typename _TYPE_> |
| static void | mp_max_for_each_item (TRUSTArray< _TYPE_ > &x, int n=-1) |
| template<typename _TYPE_> |
| static void | mp_min_for_each_item (TRUSTArray< _TYPE_ > &x, int n=-1) |
| static bool | mp_and (bool) |
| | Calcule le 'et' logique de b sur tous les processeurs du groupe courant.
|
| static bool | mp_or (bool) |
| static int | check_int_overflow (trustIdType) |
| static int | je_suis_maitre () |
| | renvoie 1 si on est sur le processeur maitre du groupe courant (c'est a dire me() == 0), 0 sinon.
|
| static KOKKOS_INLINE_FUNCTION void | Kokkos_exit (const char *) |
| | Routine de sortie de TRUST dans une region Kokkos.
|
| static int | node_master () |
| | renvoie 1 si on est sur le processeur maitre du noeud numa, 0 sinon.
|
| static void | exit (const Nom &message, int exit_code=-1) |
| static bool | is_sequential () |
| static void | barrier () |
| | Synchronise tous les processeurs du groupe courant (attend que tous les processeurs soient arrives a la barriere).
|
| static void | abort () |
| | Routine de sortie de Trio-U sur une erreur abort().
|
| static Sortie & | Journal (int message_level=0) |
| | Renvoie un objet statique de type Sortie qui sert de journal d'evenements.
|
| static double | ram_processeur () |
| static void | imprimer_ram_totale (int all_process=0) |
| static bool | force_single_file (const int ranks, const Nom &filename) |
| static double | precision_geom = 1e-10 |
| static constexpr bool | HAS_POINTER = false |
| static int | dimension =0 |
| static int | format_precision_geom =11 |
| static int | axi =0 |
| static int | bidim_axi =0 |
| static int | DEACTIVATE_SIGINT_CATCH =0 |
| static Type_info | info_obj |
| static bool | disable_TU =false |
| | Flag to disable or not the writing of the .TU files.
|
| static bool | stat_per_proc_perf_log =false |
| | Flag to enable the writing of the statistics detailed per processor in _csv.TU file.
|
| static int | exception_sur_exit =0 |
| static int | multiple_files =5120 |
1.16.1