d2/d3b/occ__cg__forme__volume__sphere_8cpp_source.html

 //####//------------------------------------------------------------

 //####//------------------------------------------------------------

 //####//  MAGiC

 //####//  Jean Christophe Cuilliere et Vincent FRANCOIS

 //####//  Departement de Genie Mecanique - UQTR

 //####//------------------------------------------------------------

 //####//  MAGIC est un projet de recherche de l equipe ERICCA

 //####//  du departement de genie mecanique de l Universite du Quebec a Trois Rivieres

 //####//  http://www.uqtr.ca/ericca

 //####//  http://www.uqtr.ca/

 //####//------------------------------------------------------------

 //####//------------------------------------------------------------

 //####//

 //####//       occ_cg_forme_volume_sphere.cpp

 //####//

 //####//------------------------------------------------------------

 //####//------------------------------------------------------------

 //####//    COPYRIGHT 2000-2024

 //####//  jeu 13 jun 2024 11:58:54 EDT

 //####//------------------------------------------------------------

 //####//------------------------------------------------------------

 #ifdef ALL_OCC

 #include "occ_cg_forme_volume_sphere.h"

 #include "mg_cg_modele.h"

 #include "occ_fonction.h"

 #include "occ_fonction_v2017.h"

 #include <TopoDS_Shape.hxx>

 #include <BRepPrimAPI_MakeSphere.hxx>

 #include <gp_Pnt.hxx>

 OCC_CG_FORME_VOLUME_SPHERE::OCC_CG_FORME_VOLUME_SPHERE(MG_CG_MODELE* mgcg_modele,

                                                        double centre_x, double centre_y, double centre_z,

                                                        double rayon): MG_CG_FORME_VOLUME_SPHERE(mgcg_modele,centre_x, centre_y, centre_z, rayon)

 {


 }


 OCC_CG_FORME_VOLUME_SPHERE::OCC_CG_FORME_VOLUME_SPHERE(MG_CG_MODELE* mgcg_modele,

                                                        int etat,

                                                        long unsigned int num,

                                                        MG_VOLUME* mg_volume,

                                                        double centre_x,

                                                        double centre_y,

                                                        double centre_z,

                                                        double rayon): MG_CG_FORME_VOLUME_SPHERE(mgcg_modele,etat,num,mg_volume,centre_x,centre_y,centre_z,rayon)

 {


 }


 OCC_CG_FORME_VOLUME_SPHERE::OCC_CG_FORME_VOLUME_SPHERE(OCC_CG_FORME_VOLUME_SPHERE& mdd): MG_CG_FORME_VOLUME_SPHERE(mdd)

 {


 }


 OCC_CG_FORME_VOLUME_SPHERE::~OCC_CG_FORME_VOLUME_SPHERE()

 {


 }


 int OCC_CG_FORME_VOLUME_SPHERE::construire(void)

 {

   if(m_mgcg_modele==NULL)

   {

     std::cout << "*** ERREUR : OCC_CG_FORME_VOLUME_SPHERE::construire_forme -> MG_CG_MODELE NULL ***" << std::endl;

     return FAIL;

   }

   return construire(m_mgcg_modele->get_fusionner_entite_similaire(),

                     m_mgcg_modele->get_precision(),

                     m_mgcg_modele->get_importer_triangulation(),

                     m_mgcg_modele->get_epsilon_triangulation());

 }


 int OCC_CG_FORME_VOLUME_SPHERE::construire(bool fusionner_entite_similaire, double precision, bool importer_triangulation, double epsilon_triangulation)

 {

   if(m_mgcg_modele==NULL)

   {

     std::cout << "*** ERREUR : OCC_CG_FORME_VOLUME_SPHERE::construire_forme -> MG_CG_MODELE NULL ***" << std::endl;

     return FAIL;

   }

   gp_Pnt gp_pnt_centre(m_centre[0],m_centre[1],m_centre[2]);

   TopoDS_Shape  topods_shape = BRepPrimAPI_MakeSphere(gp_pnt_centre,m_rayon).Shape();

   OCC_FONCTION* occ_fonction=&m_mgcg_modele->get_mg_geometrie()->get_occ_fonction();

   if(occ_fonction->get_version()=="OCCV2017")

   {

     OCC_FONCTION_V2017* occ_fonction_v2017 = (OCC_FONCTION_V2017*)occ_fonction;

     m_mg_volume =  occ_fonction_v2017->importer_TopoDS_Solid(TopoDS::Solid(topods_shape),

                                                              NULL,

                                                              NULL,

                                                              NULL,

                                                              m_mgcg_modele->get_mg_geometrie(),

                                                              fusionner_entite_similaire,

                                                              precision);

   }

   change_etat(MG_CG_FORME::ETAT_FORME::CONSTRUITE);

   m_mgcg_modele->mise_a_jout_lien_mg_element_mgcg_forme(this);

   return OK;

 }


 #endif

MG_CG_FORME_VOLUME_SPHERE
Definition: mg_cg_forme_volume_sphere.h:37

MG_CG_FORME_VOLUME_SPHERE::m_rayon
double m_rayon
Definition: mg_cg_forme_volume_sphere.h:63

MG_CG_FORME_VOLUME_SPHERE::m_centre
double m_centre[3]
Definition: mg_cg_forme_volume_sphere.h:62

MG_CG_FORME_VOLUME::m_mg_volume
MG_VOLUME * m_mg_volume
Definition: mg_cg_forme_volume.h:65

MG_CG_FORME::change_etat
virtual void change_etat(int etat_forme)
Definition: mg_cg_forme.cpp:81

MG_CG_FORME::m_mgcg_modele
MG_CG_MODELE * m_mgcg_modele
Definition: mg_cg_forme.h:87

MG_CG_MODELE
Definition: mg_cg_modele.h:42

MG_CG_MODELE::get_importer_triangulation
virtual bool get_importer_triangulation(void)
Definition: mg_cg_modele.cpp:1109

MG_CG_MODELE::get_precision
virtual double get_precision(void)
Definition: mg_cg_modele.cpp:1099

MG_CG_MODELE::get_fusionner_entite_similaire
virtual bool get_fusionner_entite_similaire(void)
Definition: mg_cg_modele.cpp:1089

MG_CG_MODELE::get_mg_geometrie
virtual MG_GEOMETRIE * get_mg_geometrie(void)
Definition: mg_cg_modele.cpp:98

MG_CG_MODELE::mise_a_jout_lien_mg_element_mgcg_forme
virtual void mise_a_jout_lien_mg_element_mgcg_forme(MG_CG_FORME *mgcg_forme)
Definition: mg_cg_modele.cpp:987

MG_CG_MODELE::get_epsilon_triangulation
virtual double get_epsilon_triangulation(void)
Definition: mg_cg_modele.cpp:1119

MG_GEOMETRIE::get_occ_fonction
class OCC_FONCTION & get_occ_fonction(void)
Definition: mg_geometrie.cpp:2701

MG_VOLUME
Definition: mg_volume.h:34

OCC_CG_FORME_VOLUME_SPHERE
Definition: occ_cg_forme_volume_sphere.h:39

OCC_CG_FORME_VOLUME_SPHERE::construire
virtual int construire(void)
Definition: occ_cg_forme_volume_sphere.cpp:59

OCC_CG_FORME_VOLUME_SPHERE::~OCC_CG_FORME_VOLUME_SPHERE
virtual ~OCC_CG_FORME_VOLUME_SPHERE()
Definition: occ_cg_forme_volume_sphere.cpp:54

OCC_CG_FORME_VOLUME_SPHERE::OCC_CG_FORME_VOLUME_SPHERE
OCC_CG_FORME_VOLUME_SPHERE(MG_CG_MODELE *mgcg_modele, double centre_x, double centre_y, double centre_z, double rayon)
Definition: occ_cg_forme_volume_sphere.cpp:30

OCC_FONCTION_V2017
Definition: occ_fonction_v2017.h:105

OCC_FONCTION_V2017::importer_TopoDS_Solid
MG_VOLUME * importer_TopoDS_Solid(TopoDS_Solid topods_solid, std::map< MG_ELEMENT_TOPOLOGIQUE *, MG_ELEMENT_TOPOLOGIQUE * > *map_nouveau_mg_element_topologique, std::map< MG_ELEMENT_COTOPOLOGIQUE *, MG_ELEMENT_COTOPOLOGIQUE * > *map_nouveau_mg_element_cotopologique, std::map< MG_ELEMENT_GEOMETRIQUE *, MG_ELEMENT_GEOMETRIQUE * > *map_nouveau_mg_element_geometrique, MG_GEOMETRIE *mg_geometrie=NULL, bool fusionner_entite_similaire=false, double precision=1e-6)
Definition: occ_fonction_v2017.cpp:546

OCC_FONCTION
Definition: occ_fonction.h:41

OCC_FONCTION::get_version
virtual std::string get_version(void)
Definition: occ_fonction.cpp:88

mg_cg_modele.h

OK
const int OK
Definition: mg_definition.h:38

FAIL
const int FAIL
Definition: mg_definition.h:39

occ_cg_forme_volume_sphere.h

occ_fonction.h

occ_fonction_v2017.h