TrioCFD 1.9.8
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Post_Processing_Hydrodynamic_Forces_Stokes Class Reference

#include <Post_Processing_Hydrodynamic_Forces_Stokes.h>

Inheritance diagram for Post_Processing_Hydrodynamic_Forces_Stokes:
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Collaboration diagram for Post_Processing_Hydrodynamic_Forces_Stokes:
[legend]

Public Member Functions

void compute_hydrodynamic_forces () override
void set_param (const Post_Processing_Hydrodynamic_Forces &post_process_hydro_forces_)
const DoubleTab & get_pressure_force_Stokes_th () const
const DoubleTab & get_friction_force_Stokes_th () const
const DoubleTab & get_pressure_force_Stokes_th_fa7 () const
const DoubleTab & get_friction_force_Stokes_th_fa7 () const
void resize_and_init_tables (int nb_particles_tot) override
const DoubleTab & get_sigma_xx_fa7_Stokes_th () const
const DoubleTab & get_sigma_xy_fa7_Stokes_th () const
const DoubleTab & get_sigma_xz_fa7_Stokes_th () const
const DoubleTab & get_sigma_yy_fa7_Stokes_th () const
const DoubleTab & get_sigma_yz_fa7_Stokes_th () const
const DoubleTab & get_sigma_zz_fa7_Stokes_th () const
const DoubleTab & get_dUdx_P1_Stokes_th ()
const DoubleTab & get_dUdz_P1_Stokes_th ()
const DoubleTab & get_dVdz_P1_Stokes_th ()
const DoubleTab & get_dWdx_P1_Stokes_th ()
const DoubleTab & get_dWdy_P1_Stokes_th ()
const DoubleTab & get_dWdz_P1_Stokes_th ()
const DoubleTab & get_dUdx_P2_Stokes_th ()
const DoubleTab & get_dUdz_P2_Stokes_th ()
const DoubleTab & get_dVdz_P2_Stokes_th ()
const DoubleTab & get_dWdx_P2_Stokes_th ()
const DoubleTab & get_dWdy_P2_Stokes_th ()
const DoubleTab & get_dWdz_P2_Stokes_th ()
const DoubleTab & get_U_P1_Stokes_th () const
const DoubleTab & get_U_P2_Stokes_th () const
const DoubleVect & get_pressure_fa7_Stokes_th () const
Public Member Functions inherited from Post_Processing_Hydrodynamic_Forces
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 associate_transport_equation (Transport_Interfaces_FT_Disc &ptr_eq_transport)
void associate_ns_equation (const Navier_Stokes_FT_Disc &eqn)
void associate_temp_equation (const Convection_Diffusion_Temperature_FT_Disc &eqn)
void drop_the_flag ()
void raise_the_flag ()
void drop_the_flag_heat_transfer ()
void raise_the_flag_heat_transfer ()
void compute_heat_transfer ()
const DoubleVect & get_pressure_fa7 () const
const DoubleVect & get_total_surface_interf () const
const DoubleVect & get_heat_transfer () const
const DoubleTab & get_pressure_force () const
const DoubleTab & get_friction_force () const
const DoubleTab & get_pressure_force_fa7 () const
const DoubleTab & get_friction_force_fa7 () const
const DoubleTab & get_heat_transfer_fa7 () const
const DoubleTab & get_U_P1 () const
const DoubleTab & get_U_P2 () const
const DoubleTab & get_U_P2_moy () const
const DoubleTab & get_prop_fa7_ok_P2 () const
const DoubleTab & get_prop_P2_fluid () const
const DoubleTab & get_sigma_xx_fa7 () const
const DoubleTab & get_sigma_xy_fa7 () const
const DoubleTab & get_sigma_xz_fa7 () const
const DoubleTab & get_sigma_yx_fa7 () const
const DoubleTab & get_sigma_yy_fa7 () const
const DoubleTab & get_sigma_yz_fa7 () const
const DoubleTab & get_sigma_zx_fa7 () const
const DoubleTab & get_sigma_zy_fa7 () const
const DoubleTab & get_sigma_zz_fa7 () const
const DoubleTab & get_dUdx_P1 ()
const DoubleTab & get_dUdy_P1 ()
const DoubleTab & get_dUdz_P1 ()
const DoubleTab & get_dVdx_P1 ()
const DoubleTab & get_dVdy_P1 ()
const DoubleTab & get_dVdz_P1 ()
const DoubleTab & get_dWdx_P1 ()
const DoubleTab & get_dWdy_P1 ()
const DoubleTab & get_dWdz_P1 ()
const DoubleTab & get_dUdx_P2 ()
const DoubleTab & get_dUdy_P2 ()
const DoubleTab & get_dUdz_P2 ()
const DoubleTab & get_dVdx_P2 ()
const DoubleTab & get_dVdy_P2 ()
const DoubleTab & get_dVdz_P2 ()
const DoubleTab & get_dWdx_P2 ()
const DoubleTab & get_dWdy_P2 ()
const DoubleTab & get_dWdz_P2 ()
bool get_is_compute_forces () const
bool get_is_compute_forces_Stokes_th () const
bool get_is_compute_heat_transfer () const
bool get_is_post_process_pressure_force_fa7 () const
bool get_is_post_process_friction_force_fa7 () const
bool get_is_post_process_stress_tensor_fa7 () const
bool get_is_post_process_pressure_fa7 () const
const double & get_interpolation_distance_pressure_P1 () const
const double & get_interpolation_distance_pressure_P2 () const
const double & get_interpolation_distance_gradU_P1 () const
const double & get_interpolation_distance_gradU_P2 () const
const Method_pressure_force_computationget_method_pressure_force_computation () const
const Method_friction_force_computationget_method_friction_force_computation () const
const Location_stress_tensorget_location_stress_tensor () const
Public Member Functions inherited from Objet_U
 ~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 SortieprintOn (Sortie &) const
 Ecriture de l'objet sur un flot de sortie 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 Nomle_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_infoget_info () const
 Donne des informations sur le type de l'Objet_U.
const Nomque_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 Interpreteinterprete () const
Interpreteinterprete ()
Public Member Functions inherited from Process
virtual ~Process ()

Protected Member Functions

void resize_data_fa7 (int nb_fa7) override
void resize_sigma (int nb_fa7) override
void resize_gradU_P1 (int nb_fa7) override
void resize_gradU_P2 (int nb_fa7) override
void fill_Stokes_velocity_field ()
void fill_Stokes_pressure_field ()
void compute_vinf_Stokes ()
void compute_UP1_UP2_Stokes (int fa7, double vinf_Stokes, double particle_radius, double phi_mu)
double compute_pressure_interf (double x, double y, double z)
double compute_Stokes_Ux_fluid (double x, double y, double z, double vinf_Stokes, double particle_radius, double phi_mu)
double compute_Stokes_Uy_fluid (double x, double y, double z, double vinf_Stokes, double particle_radius, double phi_mu)
double compute_Stokes_Uz_fluid (double x, double y, double z, double vinf_Stokes, double particle_radius, double phi_mu)
const double & get_vinf_Stokes () const
void compute_neighbors_coordinates_fluid_fa7 (const int nb_fa7, const int is_discr_elem_diph, const DoubleTab &gravity_center_fa7, const Maillage_FT_Disc &mesh, const DoubleTab &tab_fa7_normal, const IntTab &particles_eulerian_id_number) override
void compute_pressure_force_trilinear_linear (int nb_fa7, const Maillage_FT_Disc &mesh, Convection_Diffusion_Temperature_FT_Disc::Thermal_correction_discretization_method dummy_value, const IntVect &compo_connexes_fa7, const ArrOfDouble &fa7_surface, const DoubleTab &tab_fa7_normal) override
void compute_friction_force_complet_tensor (int nb_fa7, const Maillage_FT_Disc &mesh, const IntVect &compo_connexes_fa7, const ArrOfDouble &fa7_surface, const DoubleTab &tab_fa7_normal) override
void compute_friction_force_projected_tensor (int nb_fa7, const Maillage_FT_Disc &mesh, const IntVect &compo_connexes_fa7, const ArrOfDouble &fa7_surface, const DoubleTab &tab_fa7_normal) override
double compute_dUdx_Stokes_th (int fa7, double x_fa7, double y_fa7, double z_fa7, double r_fa7, double phi_mu, double particle_radius)
double compute_dUdz_Stokes_th (int fa7, double x_fa7, double y_fa7, double z_fa7, double r_fa7, double phi_mu, double particle_radius)
double compute_dVdz_Stokes_th (int fa7, double x_fa7, double y_fa7, double z_fa7, double r_fa7, double phi_mu, double particle_radius)
double compute_dWdx_Stokes_th (int fa7, double x_fa7, double y_fa7, double z_fa7, double r_fa7, double phi_mu, double particle_radius)
double compute_dWdy_Stokes_th (int fa7, double x_fa7, double y_fa7, double z_fa7, double r_fa7, double phi_mu, double particle_radius)
double compute_dWdz_Stokes_th (int fa7, double x_fa7, double y_fa7, double z_fa7, double r_fa7, double phi_mu, double particle_radius)
void fill_gradU_P1_Stokes_th (int fa7, double phi_mu, double particle_radius)
void fill_gradU_P2_Stokes_th (int fa7, double phi_mu, double particle_radius)
void fill_sigma_Stokes_th (int fa7)
Protected Member Functions inherited from Post_Processing_Hydrodynamic_Forces
 OBS_PTR (Transport_Interfaces_FT_Disc) ptr_eq_transport_
 OBS_PTR (Navier_Stokes_FT_Disc) ptr_eq_ns_
 OBS_PTR (Convection_Diffusion_Temperature_FT_Disc) ptr_eq_temp_
int elem_faces_for_interp (int num_face, int i) const
int face_voisins_for_interp (int num_face, int i) const
int trilinear_interpolation_face (const DoubleTab &valeurs_champ, DoubleTab &coord, DoubleTab &resu)
int trilinear_interpolation_elem (const DoubleTab &valeurs_champ, DoubleTab &coord, DoubleTab &resu)
int trilinear_interpolation_elem (const DoubleTab &valeurs_champ, DoubleTab &coord, DoubleTab &resu, const int is_P2, const Convection_Diffusion_Temperature_FT_Disc::Thermal_correction_discretization_method discr)
 Interpolation trilineaire d'un champs "valeurs_champs" aux coordonnees coord a partir des 8 elements (4 en 2D) voisins les plus proches. Valeurs_chaamps contient typiquement le champ de presssion ou le champ de temperature. On utilise egalement cette fonction pour sauvegarder la liste des elments P1 ainsi que l'indiatrice des elements P2.
int trilinear_interpolation_gradU_face (const DoubleTab &valeurs_champ, DoubleTab &coord, DoubleTab &resu)
int trilinear_interpolation_gradU_elem_P1 (const DoubleTab &valeurs_champ, DoubleTab &coord, DoubleTab &resu)
int trilinear_interpolation_gradU_elem (const DoubleTab &valeurs_champ, DoubleTab &coord, DoubleTab &resu)
int trilinear_interpolation_face_sommets (const DoubleTab &valeurs_champ, DoubleTab &coord, DoubleTab &resu)
double compute_viscosity_edges_sphere (int face1, int face2, int particle_id)
double find_neighboring_elements (DoubleVect &coord_elem_interp, IntVect &neighboring_elements, const int sauv_list_P1=0, const int num_fa7=-1)
void find_neighboring_faces (DoubleVect &coord_elem_interp, IntVect &neighboring_faces, int orientation) const
void find_neighboring_faces_xyz (DoubleVect &coord_elem_interp, IntTab &neighboring_faces) const
void resize_coord_neighbor_fluid_fa7 (int nb_fa7)
void fill_absurd_value_coord_neighbor_fluid_fa7 (int fa7)
void fill_sigma (int fa7, Matrice_Dense stress_tensor)
void fill_gradU_P1 (int fa7, DoubleTab gradU_P1)
void fill_gradU_P2 (int fa7, DoubleTab gradU_P2)
void compute_U_P2_moy (const int nb_particles_tot)
void compute_proportion_fa7_ok_and_is_fluid_P2 (const int nb_particles_tot)
Protected Member Functions inherited from Objet_U_With_Params
EntreereadOn (Entree &) override final
 Reading of the input stream (dataset) with the helper class Param.
virtual void validate_params () const
 Called in the readOn of Objet_U_With_Params, after reading the params.
Protected Member Functions inherited from Objet_U
 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_Uoperator= (const Objet_U &)
 Operateur= : ne fait rien (on conserve le numero et l'identifiant).
virtual void set_param (Param &) const

Additional Inherited Members

Public Types inherited from Post_Processing_Hydrodynamic_Forces
enum class  Method_friction_force_computation { TRILINEAR_LINEAR_COMPLET_TENSOR , TRILINEAR_LINEAR_PROJECTED_TENSOR }
enum class  Method_pressure_force_computation { TRILINEAR_LINEAR }
enum class  Location_stress_tensor { FACES_NORMALE_X , ELEMENTS }
Static Public Member Functions inherited from Objet_U
static const Nomnom_du_cas ()
 Renvoie une reference constante vers le nom du cas.
static Nomget_set_nom_du_cas ()
 Renvoie une reference non constante vers le nom du cas (pour pouvoir le modifier).
static const Type_infoinfo ()
 Donne des informations sur le type de l'Objet_U.
static const Objet_Uself_cast (const Objet_U &)
 methode ajoutee pour caster en python
static Objet_Uself_cast (Objet_U &)
Static Public Member Functions inherited from Process
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 SortieJournal (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 Public Attributes inherited from Objet_U
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 Public Attributes inherited from Process
static int exception_sur_exit =0
static int multiple_files =5120
Protected Attributes inherited from Post_Processing_Hydrodynamic_Forces
Method_pressure_force_computation method_pressure_force_computation_
Method_friction_force_computation method_friction_force_computation_
Location_stress_tensor location_stress_tensor_ =Location_stress_tensor::ELEMENTS
bool is_compute_stokes_theoretical_forces_ =false
bool is_post_process_pressure_force_fa7_ =false
bool is_post_process_friction_force_fa7_ =false
bool is_post_process_stress_tensor_fa7_ =false
bool is_post_process_pressure_fa7_ =false
bool is_compute_heat_transfer_ =false
bool is_compute_forces_ =false
int flag_force_computation_ =0
int flag_heat_transfer_computation_ =0
double interpolation_distance_temperature_P1_ =0
double interpolation_distance_temperature_P2_ =0
double interpolation_distance_pressure_P1_ =0
double interpolation_distance_pressure_P2_ =0
double interpolation_distance_gradU_P1_ =0
double interpolation_distance_gradU_P2_ =0
DoubleVect phase_indicator_function_P1_
DoubleVect phase_indicator_function_P2_
DoubleVect total_surface_interf_
DoubleVect total_heat_transfer_
DoubleVect pressure_fa7_
IntTab list_elem_P1_all_
IntTab list_elem_P1_
IntTab Nb_fa7_tot_par_compo_
IntTab list_elem_diph_
DoubleTab proportion_fa7_ok_UP2_
DoubleTab total_pressure_force_
DoubleTab total_friction_force_
DoubleTab prop_P2_fluid_compo_
DoubleTab pressure_force_fa7_
DoubleTab friction_force_fa7_
DoubleTab heat_transfer_fa7_
DoubleTab U_P2_moy_
DoubleTab U_P1_
DoubleTab U_P2_
DoubleTab sigma_xx_fa7_
DoubleTab sigma_xy_fa7_
DoubleTab sigma_xz_fa7_
DoubleTab sigma_yx_fa7_
DoubleTab sigma_yy_fa7_
DoubleTab sigma_yz_fa7_
DoubleTab sigma_zx_fa7_
DoubleTab sigma_zy_fa7_
DoubleTab sigma_zz_fa7_
DoubleTab dUdx_P1_
DoubleTab dUdy_P1_
DoubleTab dUdz_P1_
DoubleTab dVdx_P1_
DoubleTab dVdy_P1_
DoubleTab dVdz_P1_
DoubleTab dWdx_P1_
DoubleTab dWdy_P1_
DoubleTab dWdz_P1_
DoubleTab dUdx_P2_
DoubleTab dUdy_P2_
DoubleTab dUdz_P2_
DoubleTab dVdx_P2_
DoubleTab dVdy_P2_
DoubleTab dVdz_P2_
DoubleTab dWdx_P2_
DoubleTab dWdy_P2_
DoubleTab dWdz_P2_
DoubleTab coord_neighbor_fluid_fa7_pressure_1_
DoubleTab coord_neighbor_fluid_fa7_pressure_2_
DoubleTab coord_neighbor_fluid_fa7_gradU_1_
DoubleTab coord_neighbor_fluid_fa7_gradU_2_
DoubleTab coord_neighbor_fluid_fa7_temp_1_
DoubleTab coord_neighbor_fluid_fa7_temp_2_

Detailed Description

Definition at line 21 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

Member Function Documentation

◆ compute_dUdx_Stokes_th()

double Post_Processing_Hydrodynamic_Forces_Stokes::compute_dUdx_Stokes_th ( int fa7,
double x_fa7,
double y_fa7,
double z_fa7,
double r_fa7,
double phi_mu,
double particle_radius )
protected

Definition at line 710 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ compute_dUdz_Stokes_th()

double Post_Processing_Hydrodynamic_Forces_Stokes::compute_dUdz_Stokes_th ( int fa7,
double x_fa7,
double y_fa7,
double z_fa7,
double r_fa7,
double phi_mu,
double particle_radius )
protected

Definition at line 734 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ compute_dVdz_Stokes_th()

double Post_Processing_Hydrodynamic_Forces_Stokes::compute_dVdz_Stokes_th ( int fa7,
double x_fa7,
double y_fa7,
double z_fa7,
double r_fa7,
double phi_mu,
double particle_radius )
protected

Definition at line 751 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ compute_dWdx_Stokes_th()

double Post_Processing_Hydrodynamic_Forces_Stokes::compute_dWdx_Stokes_th ( int fa7,
double x_fa7,
double y_fa7,
double z_fa7,
double r_fa7,
double phi_mu,
double particle_radius )
protected

Definition at line 767 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ compute_dWdy_Stokes_th()

double Post_Processing_Hydrodynamic_Forces_Stokes::compute_dWdy_Stokes_th ( int fa7,
double x_fa7,
double y_fa7,
double z_fa7,
double r_fa7,
double phi_mu,
double particle_radius )
protected

Definition at line 785 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ compute_dWdz_Stokes_th()

double Post_Processing_Hydrodynamic_Forces_Stokes::compute_dWdz_Stokes_th ( int fa7,
double x_fa7,
double y_fa7,
double z_fa7,
double r_fa7,
double phi_mu,
double particle_radius )
protected

Definition at line 802 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ compute_friction_force_complet_tensor()

void Post_Processing_Hydrodynamic_Forces_Stokes::compute_friction_force_complet_tensor ( int nb_fa7,
const Maillage_FT_Disc & mesh,
const IntVect & compo_connexes_fa7,
const ArrOfDouble & fa7_surface,
const DoubleTab & tab_fa7_normal )
overrideprotectedvirtual

Reimplemented from Post_Processing_Hydrodynamic_Forces.

Definition at line 587 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ compute_friction_force_projected_tensor()

void Post_Processing_Hydrodynamic_Forces_Stokes::compute_friction_force_projected_tensor ( int nb_fa7,
const Maillage_FT_Disc & mesh,
const IntVect & compo_connexes_fa7,
const ArrOfDouble & fa7_surface,
const DoubleTab & tab_fa7_normal )
overrideprotectedvirtual

Reimplemented from Post_Processing_Hydrodynamic_Forces.

Definition at line 913 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ compute_hydrodynamic_forces()

void Post_Processing_Hydrodynamic_Forces_Stokes::compute_hydrodynamic_forces ( )
overridevirtual

Reimplemented from Post_Processing_Hydrodynamic_Forces.

Definition at line 62 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ compute_neighbors_coordinates_fluid_fa7()

void Post_Processing_Hydrodynamic_Forces_Stokes::compute_neighbors_coordinates_fluid_fa7 ( const int nb_fa7,
const int is_discr_elem_diph,
const DoubleTab & gravity_center_fa7,
const Maillage_FT_Disc & mesh,
const DoubleTab & tab_fa7_normal,
const IntTab & particles_eulerian_id_number )
overrideprotectedvirtual

Reimplemented from Post_Processing_Hydrodynamic_Forces.

Definition at line 424 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ compute_pressure_force_trilinear_linear()

void Post_Processing_Hydrodynamic_Forces_Stokes::compute_pressure_force_trilinear_linear ( int nb_fa7,
const Maillage_FT_Disc & mesh,
Convection_Diffusion_Temperature_FT_Disc::Thermal_correction_discretization_method dummy_value,
const IntVect & compo_connexes_fa7,
const ArrOfDouble & fa7_surface,
const DoubleTab & tab_fa7_normal )
overrideprotectedvirtual

Reimplemented from Post_Processing_Hydrodynamic_Forces.

Definition at line 498 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ compute_pressure_interf()

double Post_Processing_Hydrodynamic_Forces_Stokes::compute_pressure_interf ( double x,
double y,
double z )
protected

Definition at line 363 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ compute_Stokes_Ux_fluid()

double Post_Processing_Hydrodynamic_Forces_Stokes::compute_Stokes_Ux_fluid ( double x,
double y,
double z,
double vinf_Stokes,
double particle_radius,
double phi_mu )
protected

Definition at line 380 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ compute_Stokes_Uy_fluid()

double Post_Processing_Hydrodynamic_Forces_Stokes::compute_Stokes_Uy_fluid ( double x,
double y,
double z,
double vinf_Stokes,
double particle_radius,
double phi_mu )
protected

Definition at line 387 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ compute_Stokes_Uz_fluid()

double Post_Processing_Hydrodynamic_Forces_Stokes::compute_Stokes_Uz_fluid ( double x,
double y,
double z,
double vinf_Stokes,
double particle_radius,
double phi_mu )
protected

Definition at line 394 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ compute_UP1_UP2_Stokes()

void Post_Processing_Hydrodynamic_Forces_Stokes::compute_UP1_UP2_Stokes ( int fa7,
double vinf_Stokes,
double particle_radius,
double phi_mu )
protected

Definition at line 404 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ compute_vinf_Stokes()

void Post_Processing_Hydrodynamic_Forces_Stokes::compute_vinf_Stokes ( )
protected

Definition at line 140 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ fill_gradU_P1_Stokes_th()

void Post_Processing_Hydrodynamic_Forces_Stokes::fill_gradU_P1_Stokes_th ( int fa7,
double phi_mu,
double particle_radius )
protected

Definition at line 818 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ fill_gradU_P2_Stokes_th()

void Post_Processing_Hydrodynamic_Forces_Stokes::fill_gradU_P2_Stokes_th ( int fa7,
double phi_mu,
double particle_radius )
protected

Definition at line 840 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ fill_sigma_Stokes_th()

void Post_Processing_Hydrodynamic_Forces_Stokes::fill_sigma_Stokes_th ( int fa7)
protected

Definition at line 862 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ fill_Stokes_pressure_field()

void Post_Processing_Hydrodynamic_Forces_Stokes::fill_Stokes_pressure_field ( )
protected

Definition at line 229 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ fill_Stokes_velocity_field()

void Post_Processing_Hydrodynamic_Forces_Stokes::fill_Stokes_velocity_field ( )
protected

Definition at line 166 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ get_dUdx_P1_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_dUdx_P1_Stokes_th ( )
inline

Definition at line 41 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_dUdx_P2_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_dUdx_P2_Stokes_th ( )
inline

Definition at line 47 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_dUdz_P1_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_dUdz_P1_Stokes_th ( )
inline

Definition at line 42 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_dUdz_P2_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_dUdz_P2_Stokes_th ( )
inline

Definition at line 48 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_dVdz_P1_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_dVdz_P1_Stokes_th ( )
inline

Definition at line 43 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_dVdz_P2_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_dVdz_P2_Stokes_th ( )
inline

Definition at line 49 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_dWdx_P1_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_dWdx_P1_Stokes_th ( )
inline

Definition at line 44 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_dWdx_P2_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_dWdx_P2_Stokes_th ( )
inline

Definition at line 50 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_dWdy_P1_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_dWdy_P1_Stokes_th ( )
inline

Definition at line 45 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_dWdy_P2_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_dWdy_P2_Stokes_th ( )
inline

Definition at line 51 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_dWdz_P1_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_dWdz_P1_Stokes_th ( )
inline

Definition at line 46 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_dWdz_P2_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_dWdz_P2_Stokes_th ( )
inline

Definition at line 52 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_friction_force_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_friction_force_Stokes_th ( ) const
inline

Definition at line 30 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_friction_force_Stokes_th_fa7()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_friction_force_Stokes_th_fa7 ( ) const
inline

Definition at line 32 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_pressure_fa7_Stokes_th()

const DoubleVect & Post_Processing_Hydrodynamic_Forces_Stokes::get_pressure_fa7_Stokes_th ( ) const
inline

Definition at line 55 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_pressure_force_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_pressure_force_Stokes_th ( ) const
inline

Definition at line 29 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_pressure_force_Stokes_th_fa7()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_pressure_force_Stokes_th_fa7 ( ) const
inline

Definition at line 31 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_sigma_xx_fa7_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_sigma_xx_fa7_Stokes_th ( ) const
inline

Definition at line 35 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_sigma_xy_fa7_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_sigma_xy_fa7_Stokes_th ( ) const
inline

Definition at line 36 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_sigma_xz_fa7_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_sigma_xz_fa7_Stokes_th ( ) const
inline

Definition at line 37 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_sigma_yy_fa7_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_sigma_yy_fa7_Stokes_th ( ) const
inline

Definition at line 38 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_sigma_yz_fa7_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_sigma_yz_fa7_Stokes_th ( ) const
inline

Definition at line 39 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_sigma_zz_fa7_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_sigma_zz_fa7_Stokes_th ( ) const
inline

Definition at line 40 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_U_P1_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_U_P1_Stokes_th ( ) const
inline

Definition at line 53 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_U_P2_Stokes_th()

const DoubleTab & Post_Processing_Hydrodynamic_Forces_Stokes::get_U_P2_Stokes_th ( ) const
inline

Definition at line 54 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ get_vinf_Stokes()

const double & Post_Processing_Hydrodynamic_Forces_Stokes::get_vinf_Stokes ( ) const
inlineprotected

Definition at line 75 of file Post_Processing_Hydrodynamic_Forces_Stokes.h.

◆ resize_and_init_tables()

void Post_Processing_Hydrodynamic_Forces_Stokes::resize_and_init_tables ( int nb_particles_tot)
overridevirtual

Reimplemented from Post_Processing_Hydrodynamic_Forces.

Definition at line 128 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ resize_data_fa7()

void Post_Processing_Hydrodynamic_Forces_Stokes::resize_data_fa7 ( int nb_fa7)
overrideprotectedvirtual

Reimplemented from Post_Processing_Hydrodynamic_Forces.

Definition at line 268 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ resize_gradU_P1()

void Post_Processing_Hydrodynamic_Forces_Stokes::resize_gradU_P1 ( int nb_fa7)
overrideprotectedvirtual

Reimplemented from Post_Processing_Hydrodynamic_Forces.

Definition at line 323 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ resize_gradU_P2()

void Post_Processing_Hydrodynamic_Forces_Stokes::resize_gradU_P2 ( int nb_fa7)
overrideprotectedvirtual

Reimplemented from Post_Processing_Hydrodynamic_Forces.

Definition at line 343 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ resize_sigma()

void Post_Processing_Hydrodynamic_Forces_Stokes::resize_sigma ( int nb_fa7)
overrideprotectedvirtual

Reimplemented from Post_Processing_Hydrodynamic_Forces.

Definition at line 303 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

◆ set_param()

void Post_Processing_Hydrodynamic_Forces_Stokes::set_param ( const Post_Processing_Hydrodynamic_Forces & post_process_hydro_forces_)

Definition at line 34 of file Post_Processing_Hydrodynamic_Forces_Stokes.cpp.

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