TRUST 1.9.8
HPC thermohydraulic platform
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Cond_lim_rayo_semi_transp.cpp
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15
16#include <Cond_lim_rayo_semi_transp.h>
17#include <Pb_rayo_semi_transp.h>
18#include <Flux_radiatif_base.h>
19#include <Frontiere_dis_base.h>
20#include <Symetrie.h>
21
22void Cond_lim_rayo_semi_transp::associer_pb_rayo_semi_transp(const Pb_rayo_semi_transp& pb)
23{
24 pb_rayo_semi_transp_ = pb;
25}
26
27void Cond_lim_rayo_semi_transp::recherche_emissivite_et_A()
28{
29 int num_cl_rayo=0;
30
31 Eq_rayo_semi_transp& eq_rayo = pb_rayo_semi_transp().eq_rayo();
32 Conds_lim& les_cl_rayo = eq_rayo.domaine_Cl_dis().les_conditions_limites();
33
34 int test_nom=0;
35 for(num_cl_rayo = 0; num_cl_rayo<les_cl_rayo.size(); num_cl_rayo++)
36 {
37 Cond_lim& la_cl_rayo = eq_rayo.domaine_Cl_dis().les_conditions_limites(num_cl_rayo);
38 Nom nom_cl_rayo = la_cl_rayo->frontiere_dis().le_nom();
39 Nom nom_cl_temp = la_cl().frontiere_dis().le_nom();
40 if(nom_cl_temp == nom_cl_rayo)
41 {
42 test_nom = 1;
43 if(sub_type(Flux_radiatif_base,la_cl_rayo.valeur()))
44 {
45 const Flux_radiatif_base& la_cl_rayon = ref_cast(Flux_radiatif_base,la_cl_rayo.valeur());
46 emissivite_ = la_cl_rayon.emissivite();
47 emissivite_->associer_fr_dis_base(la_cl_rayon.frontiere_dis());
48 A_ = la_cl_rayon.A();
49 }
50 else if (sub_type(Symetrie,la_cl_rayo.valeur()))
51 {
52 /* Do nothing */
53 }
54 else
55 {
56 Cerr<<"Erreur dans Frontiere_ouverte_rayo_semi_transp::recherche_emissivite_et_A()"<<finl;
57 Cerr<<"Les conditions a utiliser pour l'equation de rayonnement "<<finl;
58 Cerr<<"doivent forcement etre du type Flux_radiatif_base ou symetrie"<<finl;
59 Process::exit();
60 }
61 }
62 }
63 if (test_nom == 0)
64 {
65 Cerr<<"Erreur dans Frontiere_ouverte_rayo_semi_transp::recherche_emissivite_et_A()"<<finl;
66 Cerr<<"Probleme de compatibilite entre les conditions de l'equation de"<<finl;
67 Cerr<<"rayonnement et l'equation de temperature"<<finl;
68 Process::exit();
69 }
70}
Champ_front_base::associer_fr_dis_base
virtual void associer_fr_dis_base(const Frontiere_dis_base &)
Associe une frontiere discretisee au champ.
Definition Champ_front_base.cpp:56
Cond_lim_base::frontiere_dis
virtual Frontiere_dis_base & frontiere_dis()
Renvoie la frontiere discretisee a laquelle les conditions aux limites s'appliquent.
Definition Cond_lim_base.h:101
Cond_lim_rayo_semi_transp::pb_rayo_semi_transp
const Pb_rayo_semi_transp & pb_rayo_semi_transp() const
Definition Cond_lim_rayo_semi_transp.h:35
Cond_lim_rayo_semi_transp::associer_pb_rayo_semi_transp
virtual void associer_pb_rayo_semi_transp(const Pb_rayo_semi_transp &)
Definition Cond_lim_rayo_semi_transp.cpp:22
Cond_lim_rayo_semi_transp::la_cl
virtual const Cond_lim_base & la_cl() const =0
Cond_lim_rayo_semi_transp::recherche_emissivite_et_A
virtual void recherche_emissivite_et_A()
Definition Cond_lim_rayo_semi_transp.cpp:27
Cond_lim_rayo_semi_transp::A_
double A_
Definition Cond_lim_rayo_semi_transp.h:58
Cond_lim
classe Cond_lim Classe generique servant a representer n'importe quelle classe
Definition Cond_lim.h:31
Conds_lim
classe Conds_lim Cette classe represente un vecteur de conditions aux limites.
Definition Conds_lim.h:32
Domaine_Cl_dis_base::les_conditions_limites
const Cond_lim & les_conditions_limites(int) const
Renvoie la i-ieme condition aux limites.
Definition Domaine_Cl_dis_base.cpp:386
Eq_rayo_semi_transp
Definition Eq_rayo_semi_transp.h:30
Equation_base::domaine_Cl_dis
virtual Domaine_Cl_dis_base & domaine_Cl_dis()
Renvoie le domaine des conditions aux limite discretisee associee a l'equation.
Definition Equation_base.h:343
Flux_radiatif_base
Definition Flux_radiatif_base.h:23
Flux_radiatif_base::A
double & A()
Definition Flux_radiatif_base.h:30
Flux_radiatif_base::emissivite
Champ_front_base & emissivite()
Definition Flux_radiatif_base.h:28
Frontiere_dis_base::le_nom
const Nom & le_nom() const override
Renvoie le nom de la frontiere geometrique.
Definition Frontiere_dis_base.cpp:81
Nom
class Nom Une chaine de caractere pour nommer les objets de TRUST
Definition Nom.h:31
Pb_rayo_semi_transp
Le Pb_rayo_semi_transp est un Probleme_base qui a 4 particularites : * Son equation doit etre typee e...
Definition Pb_rayo_semi_transp.h:36
Pb_rayo_semi_transp::eq_rayo
Eq_rayo_semi_transp & eq_rayo()
Definition Pb_rayo_semi_transp.h:99
Process::exit
static void exit(int exit_code=-1)
Routine de sortie de TRUST dans une region Kokkos.
Definition Process.cpp:455
Symetrie
classe Symetrie Sur les faces de symetrie on a les proprietes suivantes:
Definition Symetrie.h:37