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TRUST 1.9.8
HPC thermohydraulic platform
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TRUST 1.9.8
HPC thermohydraulic platform
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Classe Elem_geom_base Cette classe est la classe de base pour la definition d'elements. More...
#include <Elem_geom_base.h>
Public Types | |
| using | int_t = _SIZE_ |
| using | ArrOfInt_t = ArrOfInt_T<_SIZE_> |
| using | IntVect_t = IntVect_T<_SIZE_> |
| using | IntTab_t = IntTab_T<_SIZE_> |
| using | SmallArrOfTID_t = SmallArrOfTID_T<_SIZE_> |
| using | ArrOfDouble_t = ArrOfDouble_T<_SIZE_> |
| using | DoubleVect_t = DoubleVect_T<_SIZE_> |
| using | DoubleTab_t = DoubleTab_T<_SIZE_> |
| using | Domaine_t = Domaine_32_64<_SIZE_> |
| using | Faces_t = Faces_32_64<_SIZE_> |
Public Member Functions | |
| virtual void | creer_faces_elem (Faces_t &, int_t, Type_Face) const |
| Cree les faces de l'element geometrique specifie du domaine en precisant le type de face a creer. | |
| void | creer_faces_elem (Faces_t &, int_t) const |
| Cree les faces de l'element du domaine specifie. | |
| virtual int | face_sommet (int i, int j) const =0 |
| Renvoie le numero du j-ieme sommet de la i-ieme face de l'element. | |
| void | associer_domaine (const Domaine_32_64< int_t > &dom) |
| virtual int | nb_som () const =0 |
| Nb of vertices for the element. | |
| virtual int | nb_faces (int=0) const =0 |
| Nb of faces for the element. | |
| virtual int | nb_som_face (int=0) const =0 |
| Nb of vertices for one face of the element. | |
| virtual bool | est_structure () const =0 |
| virtual const Nom & | nom_lml () const =0 |
| virtual int | contient (const ArrOfDouble &pos, int_t elem) const =0 |
| DOes the element 'elem' contains the point 'pos'. | |
| virtual int | contient (const SmallArrOfTID_t &soms, int_t elem) const =0 |
| Renvoie 1 si les sommets specifies par le parametre "pos" sont les sommets de l'element "element" du domaine associe. | |
| virtual int | nb_type_face () const |
| Nb of face types of the elemnt (for example 2 for a prism). | |
| virtual int | num_face (int face, Type_Face &type) const |
| Renvoie le parametre face si le type de face specifie est le meme que celui de l'element geometrique. | |
| virtual Type_Face | type_face (int face_typ=0) const =0 |
| Type of the face of the element - face_typ < nb_type_face(). | |
| virtual void | calculer_centres_gravite (DoubleTab_t &) const |
| Compute all centers of mass of all elements in the domain. | |
| virtual void | reordonner () |
| virtual void | calculer_volumes (DoubleVect_t &vols) const =0 |
| Compute vols of all elements in the domain. | |
| virtual void | calculer_normales (const IntTab_t &faces_sommets, DoubleTab_t &face_normales) const |
| Sort en erreur. | |
| virtual int | get_tab_faces_sommets_locaux (IntTab &faces_som_local) const |
| remplit le tableau faces_som_local(i,j) qui donne pour 0 <= i < nb_faces() et 0 <= j < nb_som_face(i) le numero local du sommet | |
| virtual void | get_tab_aretes_sommets_locaux (IntTab &aretes_som_local) const |
| idem que Elem_geom_base::get_tab_faces_sommets_locaux mais pour les aretes: aretes_som_local. | |
| 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 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 | lire_motcle_non_standard (const Motcle &motlu, Entree &is) |
| Lecture des parametres de type non simple d'un objet_U a partir d'un flot d'entree. | |
| virtual int | associer_ (Objet_U &) |
| Associe l'Objet_U a un autre Objet_U Methode virtuelle a surcharger. | |
| const Interprete & | interprete () const |
| Interprete & | interprete () |
| Public Member Functions inherited from Process | |
| virtual | ~Process () |
Protected Member Functions | |
| OBS_PTR (Domaine_t) mon_dom | |
| 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_U & | operator= (const Objet_U &) |
| Operateur= : ne fait rien (on conserve le numero et l'identifiant). | |
| virtual void | set_param (Param &) const |
Additional Inherited Members | |
| Static Public Member Functions inherited from Objet_U | |
| 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 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 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 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 |
Classe Elem_geom_base Cette classe est la classe de base pour la definition d'elements.
geometriques constituant un maillage (i.e. un Domaine geometrique) Un element geometrique a un Domaine associe auquel il fournit les routines de base pour la manipulation des ses elements. (Un domaine n'a qu'un seul type d'element geometrique)
Definition at line 34 of file Elem_geom_base.h.
| using Elem_geom_base_32_64< _SIZE_ >::ArrOfDouble_t = ArrOfDouble_T<_SIZE_> |
Definition at line 46 of file Elem_geom_base.h.
| using Elem_geom_base_32_64< _SIZE_ >::ArrOfInt_t = ArrOfInt_T<_SIZE_> |
Definition at line 42 of file Elem_geom_base.h.
| using Elem_geom_base_32_64< _SIZE_ >::Domaine_t = Domaine_32_64<_SIZE_> |
Definition at line 49 of file Elem_geom_base.h.
| using Elem_geom_base_32_64< _SIZE_ >::DoubleTab_t = DoubleTab_T<_SIZE_> |
Definition at line 48 of file Elem_geom_base.h.
| using Elem_geom_base_32_64< _SIZE_ >::DoubleVect_t = DoubleVect_T<_SIZE_> |
Definition at line 47 of file Elem_geom_base.h.
| using Elem_geom_base_32_64< _SIZE_ >::Faces_t = Faces_32_64<_SIZE_> |
Definition at line 50 of file Elem_geom_base.h.
| using Elem_geom_base_32_64< _SIZE_ >::int_t = _SIZE_ |
Definition at line 41 of file Elem_geom_base.h.
| using Elem_geom_base_32_64< _SIZE_ >::IntTab_t = IntTab_T<_SIZE_> |
Definition at line 44 of file Elem_geom_base.h.
| using Elem_geom_base_32_64< _SIZE_ >::IntVect_t = IntVect_T<_SIZE_> |
Definition at line 43 of file Elem_geom_base.h.
| using Elem_geom_base_32_64< _SIZE_ >::SmallArrOfTID_t = SmallArrOfTID_T<_SIZE_> |
Definition at line 45 of file Elem_geom_base.h.
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inline |
Definition at line 57 of file Elem_geom_base.h.
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virtual |
Compute all centers of mass of all elements in the domain.
Calcule les centres de gravites de tous les elements du domaine associe a l'element goemetrique.
| (DoubleTab& | xp) le tableau contenant les coordonnees des centres de gravite |
Reimplemented in Hexaedre_axi_32_64< _SIZE_ >, Hexaedre_axi_32_64< int >, Hexaedre_axi_32_64< trustIdType >, Polyedre_32_64< _SIZE_ >, Polyedre_32_64< int >, Polyedre_32_64< trustIdType >, Polygone_32_64< _SIZE_ >, Polygone_32_64< int >, Polygone_32_64< trustIdType >, Rectangle_2D_axi_32_64< _SIZE_ >, Rectangle_2D_axi_32_64< int >, Rectangle_2D_axi_32_64< trustIdType >, Rectangle_axi_32_64< _SIZE_ >, Rectangle_axi_32_64< int >, and Rectangle_axi_32_64< trustIdType >.
Definition at line 93 of file Elem_geom_base.cpp.
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Sort en erreur.
Cette methode n'est pas virtuelle pure pour des raisons de commodite
| (DoubleTab& | xp) le tableau contenant les coordonnees des centres de gravite |
Reimplemented in Hexaedre_32_64< _SIZE_ >, Hexaedre_32_64< int >, Hexaedre_32_64< trustIdType >, Rectangle_32_64< _SIZE_ >, Rectangle_32_64< int >, Rectangle_32_64< trustIdType >, Tetraedre_32_64< _SIZE_ >, Tetraedre_32_64< int >, Tetraedre_32_64< trustIdType >, Triangle_32_64< _SIZE_ >, Triangle_32_64< int >, and Triangle_32_64< trustIdType >.
Definition at line 134 of file Elem_geom_base.cpp.
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pure virtual |
Compute vols of all elements in the domain.
Implemented in Hexaedre_32_64< _SIZE_ >, Hexaedre_32_64< int >, Hexaedre_32_64< trustIdType >, Hexaedre_axi_32_64< _SIZE_ >, Hexaedre_axi_32_64< int >, Hexaedre_axi_32_64< trustIdType >, Hexaedre_VEF_32_64< _SIZE_ >, Hexaedre_VEF_32_64< int >, Hexaedre_VEF_32_64< trustIdType >, Point_32_64< _SIZE_ >, Point_32_64< int >, Point_32_64< trustIdType >, Polyedre_32_64< _SIZE_ >, Polyedre_32_64< int >, Polyedre_32_64< trustIdType >, Polygone_32_64< _SIZE_ >, Polygone_32_64< int >, Polygone_32_64< trustIdType >, Prisme_32_64< _SIZE_ >, Prisme_32_64< int >, Prisme_32_64< trustIdType >, Quadrangle_VEF_32_64< _SIZE_ >, Quadrangle_VEF_32_64< int >, Quadrangle_VEF_32_64< trustIdType >, Rectangle_2D_axi_32_64< _SIZE_ >, Rectangle_2D_axi_32_64< int >, Rectangle_2D_axi_32_64< trustIdType >, Rectangle_32_64< _SIZE_ >, Rectangle_32_64< int >, Rectangle_32_64< trustIdType >, Rectangle_axi_32_64< _SIZE_ >, Rectangle_axi_32_64< int >, Rectangle_axi_32_64< trustIdType >, Segment_32_64< _SIZE_ >, Segment_32_64< int >, Segment_32_64< trustIdType >, Segment_axi_32_64< _SIZE_ >, Segment_axi_32_64< int >, Segment_axi_32_64< trustIdType >, Tetraedre_32_64< _SIZE_ >, Tetraedre_32_64< int >, Tetraedre_32_64< trustIdType >, Triangle_32_64< _SIZE_ >, Triangle_32_64< int >, and Triangle_32_64< trustIdType >.
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DOes the element 'elem' contains the point 'pos'.
Implemented in Hexaedre_32_64< _SIZE_ >, Hexaedre_32_64< int >, Hexaedre_32_64< trustIdType >, Hexaedre_axi_32_64< _SIZE_ >, Hexaedre_axi_32_64< int >, Hexaedre_axi_32_64< trustIdType >, Hexaedre_VEF_32_64< _SIZE_ >, Hexaedre_VEF_32_64< int >, Hexaedre_VEF_32_64< trustIdType >, Point_32_64< _SIZE_ >, Point_32_64< int >, Point_32_64< trustIdType >, Polyedre_32_64< _SIZE_ >, Polyedre_32_64< int >, Polyedre_32_64< trustIdType >, Polygone_32_64< _SIZE_ >, Polygone_32_64< int >, Polygone_32_64< trustIdType >, Prisme_32_64< _SIZE_ >, Prisme_32_64< int >, Prisme_32_64< trustIdType >, Quadrangle_VEF_32_64< _SIZE_ >, Quadrangle_VEF_32_64< int >, Quadrangle_VEF_32_64< trustIdType >, Rectangle_32_64< _SIZE_ >, Rectangle_32_64< int >, Rectangle_32_64< trustIdType >, Rectangle_axi_32_64< _SIZE_ >, Rectangle_axi_32_64< int >, Rectangle_axi_32_64< trustIdType >, Segment_32_64< _SIZE_ >, Segment_32_64< int >, Segment_32_64< trustIdType >, Tetraedre_32_64< _SIZE_ >, Tetraedre_32_64< int >, Tetraedre_32_64< trustIdType >, Triangle_32_64< _SIZE_ >, Triangle_32_64< int >, and Triangle_32_64< trustIdType >.
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Renvoie 1 si les sommets specifies par le parametre "pos" sont les sommets de l'element "element" du domaine associe.
Implemented in Hexaedre_32_64< _SIZE_ >, Hexaedre_32_64< int >, Hexaedre_32_64< trustIdType >, Hexaedre_axi_32_64< _SIZE_ >, Hexaedre_axi_32_64< int >, Hexaedre_axi_32_64< trustIdType >, Hexaedre_VEF_32_64< _SIZE_ >, Hexaedre_VEF_32_64< int >, Hexaedre_VEF_32_64< trustIdType >, Point_32_64< _SIZE_ >, Point_32_64< int >, Point_32_64< trustIdType >, Polyedre_32_64< _SIZE_ >, Polyedre_32_64< int >, Polyedre_32_64< trustIdType >, Polygone_32_64< _SIZE_ >, Polygone_32_64< int >, Polygone_32_64< trustIdType >, Prisme_32_64< _SIZE_ >, Prisme_32_64< int >, Prisme_32_64< trustIdType >, Quadrangle_VEF_32_64< _SIZE_ >, Quadrangle_VEF_32_64< int >, Quadrangle_VEF_32_64< trustIdType >, Rectangle_32_64< _SIZE_ >, Rectangle_32_64< int >, Rectangle_32_64< trustIdType >, Rectangle_axi_32_64< _SIZE_ >, Rectangle_axi_32_64< int >, Rectangle_axi_32_64< trustIdType >, Segment_32_64< _SIZE_ >, Segment_32_64< int >, Segment_32_64< trustIdType >, Tetraedre_32_64< _SIZE_ >, Tetraedre_32_64< int >, Tetraedre_32_64< trustIdType >, Triangle_32_64< _SIZE_ >, Triangle_32_64< int >, and Triangle_32_64< trustIdType >.
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inline |
Cree les faces de l'element du domaine specifie.
| (Faces_t& | faces) les faces de l'elements a creer |
| (int | elem) le numero de element du domaine dont veut creer les faces |
Definition at line 94 of file Elem_geom_base.h.
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virtual |
Cree les faces de l'element geometrique specifie du domaine en precisant le type de face a creer.
| (Faces_t& | les_faces) les faces a creer |
| (int | num_elem) le numero de l'element dont on veut creer les faces |
| (Type_Face | type) le type de face a creer |
Definition at line 64 of file Elem_geom_base.cpp.
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pure virtual |
Implemented in Hexaedre_32_64< _SIZE_ >, Hexaedre_32_64< int >, Hexaedre_32_64< trustIdType >, Hexaedre_VEF_32_64< _SIZE_ >, Hexaedre_VEF_32_64< int >, Hexaedre_VEF_32_64< trustIdType >, Point_32_64< _SIZE_ >, Point_32_64< int >, Point_32_64< trustIdType >, Poly_geom_base_32_64< _SIZE_ >, Poly_geom_base_32_64< int >, Poly_geom_base_32_64< trustIdType >, Prisme_32_64< _SIZE_ >, Prisme_32_64< int >, Prisme_32_64< trustIdType >, Quadrangle_VEF_32_64< _SIZE_ >, Quadrangle_VEF_32_64< int >, Quadrangle_VEF_32_64< trustIdType >, Rectangle_32_64< _SIZE_ >, Rectangle_32_64< int >, Rectangle_32_64< trustIdType >, Segment_32_64< _SIZE_ >, Segment_32_64< int >, Segment_32_64< trustIdType >, Tetraedre_32_64< _SIZE_ >, Tetraedre_32_64< int >, Tetraedre_32_64< trustIdType >, Triangle_32_64< _SIZE_ >, Triangle_32_64< int >, and Triangle_32_64< trustIdType >.
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Renvoie le numero du j-ieme sommet de la i-ieme face de l'element.
Implemented in Hexaedre_32_64< _SIZE_ >, Hexaedre_32_64< int >, Hexaedre_32_64< trustIdType >, Hexaedre_VEF_32_64< _SIZE_ >, Hexaedre_VEF_32_64< int >, Hexaedre_VEF_32_64< trustIdType >, Point_32_64< _SIZE_ >, Point_32_64< int >, Point_32_64< trustIdType >, Polyedre_32_64< _SIZE_ >, Polyedre_32_64< int >, Polyedre_32_64< trustIdType >, Polygone_32_64< _SIZE_ >, Polygone_32_64< int >, Polygone_32_64< trustIdType >, Prisme_32_64< _SIZE_ >, Prisme_32_64< int >, Prisme_32_64< trustIdType >, Quadrangle_VEF_32_64< _SIZE_ >, Quadrangle_VEF_32_64< int >, Quadrangle_VEF_32_64< trustIdType >, Rectangle_32_64< _SIZE_ >, Rectangle_32_64< int >, Rectangle_32_64< trustIdType >, Segment_32_64< _SIZE_ >, Segment_32_64< int >, Segment_32_64< trustIdType >, Tetraedre_32_64< _SIZE_ >, Tetraedre_32_64< int >, Tetraedre_32_64< trustIdType >, Triangle_32_64< _SIZE_ >, Triangle_32_64< int >, and Triangle_32_64< trustIdType >.
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idem que Elem_geom_base::get_tab_faces_sommets_locaux mais pour les aretes: aretes_som_local.
dimension(0) = nombre d'aretes sur l'element de reference aretes_som_local.dimension(1) = 2 (nombre de sommets par arete) aretes_som_local(i,j) = numero d'un sommet de l'element (0 <= n < nb_sommets_par_element)
Reimplemented in Tetraedre_32_64< _SIZE_ >, Tetraedre_32_64< int >, and Tetraedre_32_64< trustIdType >.
Definition at line 181 of file Elem_geom_base.cpp.
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virtual |
remplit le tableau faces_som_local(i,j) qui donne pour 0 <= i < nb_faces() et 0 <= j < nb_som_face(i) le numero local du sommet
sur l'element. On a 0 <= faces_sommets_locaux(i,j) < nb_som() Si toutes les faces de l'element n'ont pas le meme nombre de sommets, le nombre de colonnes du tableau est le plus grand nombre de sommets, et les cases inutilisees du tableau sont mises a -1 On renvoie 1 si toutes les faces ont le meme nombre d'elements, 0 sinon.
Reimplemented in Hexaedre_32_64< _SIZE_ >, Hexaedre_32_64< int >, Hexaedre_32_64< trustIdType >, Hexaedre_VEF_32_64< _SIZE_ >, Hexaedre_VEF_32_64< int >, Hexaedre_VEF_32_64< trustIdType >, Point_32_64< _SIZE_ >, Point_32_64< int >, Point_32_64< trustIdType >, Poly_geom_base_32_64< _SIZE_ >, Poly_geom_base_32_64< int >, Poly_geom_base_32_64< trustIdType >, Polyedre_32_64< _SIZE_ >, Polyedre_32_64< int >, Polyedre_32_64< trustIdType >, Polygone_32_64< _SIZE_ >, Polygone_32_64< int >, Polygone_32_64< trustIdType >, Prisme_32_64< _SIZE_ >, Prisme_32_64< int >, Prisme_32_64< trustIdType >, Quadrangle_VEF_32_64< _SIZE_ >, Quadrangle_VEF_32_64< int >, Quadrangle_VEF_32_64< trustIdType >, Rectangle_32_64< _SIZE_ >, Rectangle_32_64< int >, Rectangle_32_64< trustIdType >, Segment_32_64< _SIZE_ >, Segment_32_64< int >, Segment_32_64< trustIdType >, Tetraedre_32_64< _SIZE_ >, Tetraedre_32_64< int >, Tetraedre_32_64< trustIdType >, Triangle_32_64< _SIZE_ >, Triangle_32_64< int >, and Triangle_32_64< trustIdType >.
Definition at line 164 of file Elem_geom_base.cpp.
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pure virtual |
Nb of faces for the element.
Implemented in Hexaedre_32_64< _SIZE_ >, Hexaedre_32_64< int >, Hexaedre_32_64< trustIdType >, Hexaedre_VEF_32_64< _SIZE_ >, Hexaedre_VEF_32_64< int >, Hexaedre_VEF_32_64< trustIdType >, Point_32_64< _SIZE_ >, Point_32_64< int >, Point_32_64< trustIdType >, Polyedre_32_64< _SIZE_ >, Polyedre_32_64< int >, Polyedre_32_64< trustIdType >, Polygone_32_64< _SIZE_ >, Polygone_32_64< int >, Polygone_32_64< trustIdType >, Prisme_32_64< _SIZE_ >, Prisme_32_64< int >, Prisme_32_64< trustIdType >, Quadrangle_VEF_32_64< _SIZE_ >, Quadrangle_VEF_32_64< int >, Quadrangle_VEF_32_64< trustIdType >, Rectangle_32_64< _SIZE_ >, Rectangle_32_64< int >, Rectangle_32_64< trustIdType >, Segment_32_64< _SIZE_ >, Segment_32_64< int >, Segment_32_64< trustIdType >, Tetraedre_32_64< _SIZE_ >, Tetraedre_32_64< int >, Tetraedre_32_64< trustIdType >, Triangle_32_64< _SIZE_ >, Triangle_32_64< int >, and Triangle_32_64< trustIdType >.
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pure virtual |
Nb of vertices for the element.
Implemented in Hexaedre_32_64< _SIZE_ >, Hexaedre_32_64< int >, Hexaedre_32_64< trustIdType >, Hexaedre_VEF_32_64< _SIZE_ >, Hexaedre_VEF_32_64< int >, Hexaedre_VEF_32_64< trustIdType >, Point_32_64< _SIZE_ >, Point_32_64< int >, Point_32_64< trustIdType >, Polyedre_32_64< _SIZE_ >, Polyedre_32_64< int >, Polyedre_32_64< trustIdType >, Polygone_32_64< _SIZE_ >, Polygone_32_64< int >, Polygone_32_64< trustIdType >, Prisme_32_64< _SIZE_ >, Prisme_32_64< int >, Prisme_32_64< trustIdType >, Quadrangle_VEF_32_64< _SIZE_ >, Quadrangle_VEF_32_64< int >, Quadrangle_VEF_32_64< trustIdType >, Rectangle_32_64< _SIZE_ >, Rectangle_32_64< int >, Rectangle_32_64< trustIdType >, Segment_32_64< _SIZE_ >, Segment_32_64< int >, Segment_32_64< trustIdType >, Tetraedre_32_64< _SIZE_ >, Tetraedre_32_64< int >, Tetraedre_32_64< trustIdType >, Triangle_32_64< _SIZE_ >, Triangle_32_64< int >, and Triangle_32_64< trustIdType >.
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Nb of vertices for one face of the element.
Implemented in Hexaedre_32_64< _SIZE_ >, Hexaedre_32_64< int >, Hexaedre_32_64< trustIdType >, Hexaedre_VEF_32_64< _SIZE_ >, Hexaedre_VEF_32_64< int >, Hexaedre_VEF_32_64< trustIdType >, Point_32_64< _SIZE_ >, Point_32_64< int >, Point_32_64< trustIdType >, Polyedre_32_64< _SIZE_ >, Polyedre_32_64< int >, Polyedre_32_64< trustIdType >, Polygone_32_64< _SIZE_ >, Polygone_32_64< int >, Polygone_32_64< trustIdType >, Prisme_32_64< _SIZE_ >, Prisme_32_64< int >, Prisme_32_64< trustIdType >, Quadrangle_VEF_32_64< _SIZE_ >, Quadrangle_VEF_32_64< int >, Quadrangle_VEF_32_64< trustIdType >, Rectangle_32_64< _SIZE_ >, Rectangle_32_64< int >, Rectangle_32_64< trustIdType >, Segment_32_64< _SIZE_ >, Segment_32_64< int >, Segment_32_64< trustIdType >, Tetraedre_32_64< _SIZE_ >, Tetraedre_32_64< int >, Tetraedre_32_64< trustIdType >, Triangle_32_64< _SIZE_ >, Triangle_32_64< int >, and Triangle_32_64< trustIdType >.
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Nb of face types of the elemnt (for example 2 for a prism).
Renvoie le nombre de type de face de l'element geometrique.
Par exemple un prisme (Classe Prisme) a 2 types de faces: un triangle ou un quadrangle.
Reimplemented in Poly_geom_base_32_64< _SIZE_ >, Poly_geom_base_32_64< int >, Poly_geom_base_32_64< trustIdType >, Prisme_32_64< _SIZE_ >, Prisme_32_64< int >, and Prisme_32_64< trustIdType >.
Definition at line 149 of file Elem_geom_base.cpp.
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pure virtual |
Implemented in Hexaedre_32_64< _SIZE_ >, Hexaedre_32_64< int >, Hexaedre_32_64< trustIdType >, Hexaedre_axi_32_64< _SIZE_ >, Hexaedre_axi_32_64< int >, Hexaedre_axi_32_64< trustIdType >, Hexaedre_VEF_32_64< _SIZE_ >, Hexaedre_VEF_32_64< int >, Hexaedre_VEF_32_64< trustIdType >, Point_32_64< _SIZE_ >, Point_32_64< int >, Point_32_64< trustIdType >, Polyedre_32_64< _SIZE_ >, Polyedre_32_64< int >, Polyedre_32_64< trustIdType >, Polygone_32_64< _SIZE_ >, Polygone_32_64< int >, Polygone_32_64< trustIdType >, Prisme_32_64< _SIZE_ >, Prisme_32_64< int >, Prisme_32_64< trustIdType >, Quadrangle_VEF_32_64< _SIZE_ >, Quadrangle_VEF_32_64< int >, Quadrangle_VEF_32_64< trustIdType >, Rectangle_2D_axi_32_64< _SIZE_ >, Rectangle_2D_axi_32_64< int >, Rectangle_2D_axi_32_64< trustIdType >, Rectangle_32_64< _SIZE_ >, Rectangle_32_64< int >, Rectangle_32_64< trustIdType >, Rectangle_axi_32_64< _SIZE_ >, Rectangle_axi_32_64< int >, Rectangle_axi_32_64< trustIdType >, Segment_32_64< _SIZE_ >, Segment_32_64< int >, Segment_32_64< trustIdType >, Tetraedre_32_64< _SIZE_ >, Tetraedre_32_64< int >, Tetraedre_32_64< trustIdType >, Triangle_32_64< _SIZE_ >, Triangle_32_64< int >, and Triangle_32_64< trustIdType >.
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Renvoie le parametre face si le type de face specifie est le meme que celui de l'element geometrique.
| (int | face) |
| (Type_Face& | type) un type de face |
| mauvais | type de face specifie |
Definition at line 51 of file Elem_geom_base.cpp.
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protected |
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inlinevirtual |
Reimplemented in Hexaedre_32_64< _SIZE_ >, Hexaedre_32_64< int >, Hexaedre_32_64< trustIdType >, Hexaedre_VEF_32_64< _SIZE_ >, Hexaedre_VEF_32_64< int >, Hexaedre_VEF_32_64< trustIdType >, Point_32_64< _SIZE_ >, Point_32_64< int >, Point_32_64< trustIdType >, Prisme_32_64< _SIZE_ >, Prisme_32_64< int >, Prisme_32_64< trustIdType >, Quadrangle_VEF_32_64< _SIZE_ >, Quadrangle_VEF_32_64< int >, Quadrangle_VEF_32_64< trustIdType >, Rectangle_32_64< _SIZE_ >, Rectangle_32_64< int >, Rectangle_32_64< trustIdType >, Segment_32_64< _SIZE_ >, Segment_32_64< int >, and Segment_32_64< trustIdType >.
Definition at line 77 of file Elem_geom_base.h.
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Type of the face of the element - face_typ < nb_type_face().
Implemented in Hexaedre_32_64< _SIZE_ >, Hexaedre_32_64< int >, Hexaedre_32_64< trustIdType >, Hexaedre_axi_32_64< _SIZE_ >, Hexaedre_axi_32_64< int >, Hexaedre_axi_32_64< trustIdType >, Hexaedre_VEF_32_64< _SIZE_ >, Hexaedre_VEF_32_64< int >, Hexaedre_VEF_32_64< trustIdType >, Point_32_64< _SIZE_ >, Point_32_64< int >, Point_32_64< trustIdType >, Polyedre_32_64< _SIZE_ >, Polyedre_32_64< int >, Polyedre_32_64< trustIdType >, Polygone_32_64< _SIZE_ >, Polygone_32_64< int >, Polygone_32_64< trustIdType >, Prisme_32_64< _SIZE_ >, Prisme_32_64< int >, Prisme_32_64< trustIdType >, Quadrangle_VEF_32_64< _SIZE_ >, Quadrangle_VEF_32_64< int >, Quadrangle_VEF_32_64< trustIdType >, Rectangle_2D_axi_32_64< _SIZE_ >, Rectangle_2D_axi_32_64< int >, Rectangle_2D_axi_32_64< trustIdType >, Rectangle_32_64< _SIZE_ >, Rectangle_32_64< int >, Rectangle_32_64< trustIdType >, Rectangle_axi_32_64< _SIZE_ >, Rectangle_axi_32_64< int >, Rectangle_axi_32_64< trustIdType >, Segment_32_64< _SIZE_ >, Segment_32_64< int >, Segment_32_64< trustIdType >, Segment_axi_32_64< _SIZE_ >, Segment_axi_32_64< int >, Segment_axi_32_64< trustIdType >, Tetraedre_32_64< _SIZE_ >, Tetraedre_32_64< int >, Tetraedre_32_64< trustIdType >, Triangle_32_64< _SIZE_ >, Triangle_32_64< int >, and Triangle_32_64< trustIdType >.
1.16.1