MAGiC  V5.0
Mailleurs Automatiques de Géometries intégrés à la Cao
stcylindrical.h
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1 //####//------------------------------------------------------------
2 //####//------------------------------------------------------------
3 //####// MAGiC
4 //####// Jean Christophe Cuilliere et Vincent FRANCOIS
5 //####// Departement de Genie Mecanique - UQTR
6 //####//------------------------------------------------------------
7 //####// MAGIC est un projet de recherche de l equipe ERICCA
8 //####// du departement de genie mecanique de l Universite du Quebec a Trois Rivieres
9 //####// http://www.uqtr.ca/ericca
10 //####// http://www.uqtr.ca/
11 //####//------------------------------------------------------------
12 //####//------------------------------------------------------------
13 //####//
14 //####// stcylindrical.h
15 //####//
16 //####//------------------------------------------------------------
17 //####//------------------------------------------------------------
18 //####// COPYRIGHT 2000-2024
19 //####// jeu 13 jun 2024 11:53:59 EDT
20 //####//------------------------------------------------------------
21 //####//------------------------------------------------------------
22 #ifndef _HEADER_STCYLINDRICAL_
23 #define _HEADER_STCYLINDRICAL_
24 
25 
26 
27 
28 #include "st_surface.h"
29 #include "ot_mathematique.h"
30 
31 
32 
33 class ST_CYLINDRICAL : public ST_SURFACE
34 {
35 public :
36  ST_CYLINDRICAL(long LigneCourante,std::string idori,long axis2d,double ray);
37  ST_CYLINDRICAL(double *xyz,double *dirz,double *dirx,double ray);
38 
39 
40  virtual long get_id_axis2_placement_3d(void) ;
41  virtual double get_rayon(void) ;
42  virtual void evaluer(double *uv,double *xyz);
43  virtual void deriver(double *uv,double *xyzdu, double *xyzdv);
44  virtual void deriver_seconde(double *uv,double* xyzduu,double* xyzduv,double* xyzdvv,double *xyz = NULL , double *xyzdu = NULL , double *xyzdv =NULL);
45  virtual void inverser(double *uv,double *xyz,double precision=1e-6);
46  virtual int est_periodique_u(void);
47  virtual int est_periodique_v(void);
48  virtual double get_periode_u(void);
49  virtual double get_periode_v(void);
50 
51  virtual double get_umin(void);
52  virtual double get_umax(void);
53  virtual double get_vmin(void);
54  virtual double get_vmax(void);
55 
56  virtual void initialiser(class ST_GESTIONNAIRE* gest);
57  virtual void initialiser(double *xyz,double *dirz,double *dirx);
58 
59  virtual int get_type_geometrique(TPL_LISTE_ENTITE<double> &param);
60  virtual void est_util(class ST_GESTIONNAIRE* gest);
61  virtual void get_param_NURBS(int& indx_premier_ptctr,TPL_LISTE_ENTITE<double> &param);
62 
63 private:
64  long id_axis2_placement_3d;
65  double rayon;
66  OT_MATRICE_3D repere;
67  OT_VECTEUR_3D origine;
68 };
69 
70 
71 #endif
ST_GESTIONNAIRE
Definition: st_gestionnaire.h:55
ST_CYLINDRICAL::get_id_axis2_placement_3d
virtual long get_id_axis2_placement_3d(void)
Definition: stcylindrical.cpp:44
ST_CYLINDRICAL::origine
OT_VECTEUR_3D origine
Definition: stcylindrical.h:67
st_surface.h
ST_CYLINDRICAL::est_util
virtual void est_util(class ST_GESTIONNAIRE *gest)
Definition: stcylindrical.cpp:212
ST_CYLINDRICAL::rayon
double rayon
Definition: stcylindrical.h:65
ST_CYLINDRICAL::repere
OT_MATRICE_3D repere
Definition: stcylindrical.h:66
ST_CYLINDRICAL::evaluer
virtual void evaluer(double *uv, double *xyz)
Definition: stcylindrical.cpp:53
ST_CYLINDRICAL::initialiser
virtual void initialiser(class ST_GESTIONNAIRE *gest)
Definition: stcylindrical.cpp:140
OT_MATRICE_3D
Definition: ot_mathematique.h:160
ST_CYLINDRICAL::get_periode_v
virtual double get_periode_v(void)
Definition: stcylindrical.cpp:119
ST_CYLINDRICAL::deriver_seconde
virtual void deriver_seconde(double *uv, double *xyzduu, double *xyzduv, double *xyzdvv, double *xyz=NULL, double *xyzdu=NULL, double *xyzdv=NULL)
Definition: stcylindrical.cpp:74
ST_CYLINDRICAL::get_periode_u
virtual double get_periode_u(void)
Definition: stcylindrical.cpp:115
ST_CYLINDRICAL::get_vmax
virtual double get_vmax(void)
Definition: stcylindrical.cpp:135
ot_mathematique.h
ST_SURFACE
Definition: st_surface.h:29
OT_VECTEUR_3D
Definition: ot_mathematique.h:94
ST_CYLINDRICAL::get_umax
virtual double get_umax(void)
Definition: stcylindrical.cpp:127
ST_CYLINDRICAL
Definition: stcylindrical.h:33
ST_CYLINDRICAL::id_axis2_placement_3d
long id_axis2_placement_3d
Definition: stcylindrical.h:64
ST_CYLINDRICAL::inverser
virtual void inverser(double *uv, double *xyz, double precision=1e-6)
Definition: stcylindrical.cpp:91
ST_CYLINDRICAL::est_periodique_v
virtual int est_periodique_v(void)
Definition: stcylindrical.cpp:111
ST_CYLINDRICAL::get_param_NURBS
virtual void get_param_NURBS(int &indx_premier_ptctr, TPL_LISTE_ENTITE< double > &param)
Definition: stcylindrical.cpp:220
ST_CYLINDRICAL::est_periodique_u
virtual int est_periodique_u(void)
Definition: stcylindrical.cpp:107
TPL_LISTE_ENTITE< double >
ST_CYLINDRICAL::get_type_geometrique
virtual int get_type_geometrique(TPL_LISTE_ENTITE< double > &param)
Definition: stcylindrical.cpp:194
ST_CYLINDRICAL::get_umin
virtual double get_umin(void)
Definition: stcylindrical.cpp:123
ST_CYLINDRICAL::get_rayon
virtual double get_rayon(void)
Definition: stcylindrical.cpp:49
ST_CYLINDRICAL::ST_CYLINDRICAL
ST_CYLINDRICAL(long LigneCourante, std::string idori, long axis2d, double ray)
Definition: stcylindrical.cpp:34
ST_CYLINDRICAL::get_vmin
virtual double get_vmin(void)
Definition: stcylindrical.cpp:131
ST_CYLINDRICAL::deriver
virtual void deriver(double *uv, double *xyzdu, double *xyzdv)
Definition: stcylindrical.cpp:61