en/master/Terme__Boussinesq__VEF__Face_8cpp_source.html

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#include <Terme_Boussinesq_VEF_Face.h>

#include <Fluide_Incompressible.h>

#include <Champ_Uniforme.h>

#include <Domaine_VEF.h>

#include <Domaine_Cl_VEF.h>

#include <Navier_Stokes_std.h>

#include <Synonyme_info.h>

#include <Device.h>


Implemente_instanciable(Terme_Boussinesq_VEF_Face,"Boussinesq_VEF_P1NC",Terme_Boussinesq_base);

Add_synonym(Terme_Boussinesq_VEF_Face,"Boussinesq_temperature_VEF_Face");

Add_synonym(Terme_Boussinesq_VEF_Face,"Boussinesq_concentration_VEF_Face");


//// printOn

Sortie& Terme_Boussinesq_VEF_Face::printOn(Sortie& s ) const

{

  return Terme_Boussinesq_base::printOn(s);

}


//// readOn

Entree& Terme_Boussinesq_VEF_Face::readOn(Entree& s )

{

  return Terme_Boussinesq_base::readOn(s);

}


void Terme_Boussinesq_VEF_Face::associer_domaines(const Domaine_dis_base& domaine_dis, const Domaine_Cl_dis_base& domaine_Cl_dis)

{

  le_dom_VEF = ref_cast(Domaine_VEF, domaine_dis);

  le_dom_Cl_VEF = ref_cast(Domaine_Cl_VEF, domaine_Cl_dis);

}


DoubleTab& Terme_Boussinesq_VEF_Face::ajouter(DoubleTab& tab_resu) const

{

  ArrOfDouble T0 = getScalaire0();

  if(equation_scalaire().que_suis_je()=="Convection_Diffusion_Temperature_sensibility")

    T0=0.;

  // Verifie la validite de T0:

  check();


  const DoubleTab& tab_param = equation_scalaire().inconnue().valeurs();

  int nbcomp_param = tab_param.line_size(), nbcomp = tab_resu.line_size();

  const Domaine_VEF& domaine_VEF = le_dom_VEF.valeur();


  CDoubleArrView scalaire0 = Scalaire0_.view_ro();

  CDoubleTabView beta_v = beta().valeurs().view_ro();

  CDoubleArrView g = static_cast<const DoubleVect&>(gravite().valeurs()).view_ro();

  CDoubleTabView xv = domaine_VEF.xv().view_ro();

  CDoubleTabView xp = domaine_VEF.xp().view_ro();

  CDoubleArrView porosite_surf = equation().milieu().porosite_face().view_ro();

  CDoubleTabView face_normales = domaine_VEF.face_normales().view_ro();

  CDoubleTabView param = tab_param.view_ro();

  CIntTabView face_voisins = domaine_VEF.face_voisins().view_ro();

  DoubleTabView resu = tab_resu.view_rw();


  // Boucle sur toutes les faces

  int nb_faces = domaine_VEF.nb_faces();

  int dim = Objet_U::dimension;

  const int beta_dimension0 = beta().valeurs().dimension(0);

  const int beta_nb_dim = beta().valeurs().nb_dim();


  Kokkos::parallel_for(start_gpu_timer(__KERNEL_NAME__),

                       nb_faces,

                       KOKKOS_LAMBDA (int face)

  {

    int elem1 = face_voisins(face,0);

    int elem2 = face_voisins(face,1);


    double delta_param = 0.0;

    for (int compo = 0; compo < nbcomp_param; compo++)

      delta_param += valeur(beta_v,beta_dimension0,beta_nb_dim,elem1,elem2,compo,nbcomp_param)*(scalaire0(compo)-param(face,compo));


    for (int comp = 0; comp < dim; comp++)

      {

        double delta_coord;

        if (elem2 == -1) // Face de bord

          delta_coord = xv(face,comp) - xp(elem1,comp);

        else

          delta_coord = xp(elem2,comp) - xp(elem1,comp);


        for (int compo = 0; compo < nbcomp; compo++)

          resu(face,compo) += delta_param*delta_coord*face_normales(face,compo)*g(comp)*porosite_surf(face);

      }

  });

  end_gpu_timer(__KERNEL_NAME__);


  return tab_resu;

}


Champ_Don_base::valeurs
DoubleTab & valeurs() override
Surcharge Champ_base::valeurs() Renvoie le tableau des valeurs.
Definition Champ_Don_base.h:49

Champ_Inc_base::valeurs
DoubleTab & valeurs() override
Renvoie le tableau des valeurs du champ au temps courant.
Definition Champ_Inc_base.h:77

Convection_Diffusion_std::inconnue
const Champ_Inc_base & inconnue() const override=0

Domaine_Cl_VEF
Definition Domaine_Cl_VEF.h:40

Domaine_Cl_dis_base
classe Domaine_Cl_dis_base Les objets Domaine_Cl_dis_base representent les conditions aux limites
Definition Domaine_Cl_dis_base.h:37

Domaine_VEF
class Domaine_VEF
Definition Domaine_VEF.h:54

Domaine_VF::nb_faces
int nb_faces() const
renvoie le nombre global de faces.
Definition Domaine_VF.h:471

Domaine_VF::face_normales
virtual double face_normales(int face, int comp) const
Definition Domaine_VF.h:47

Domaine_VF::xv
double xv(int num_face, int k) const
Definition Domaine_VF.h:76

Domaine_VF::xp
double xp(int num_elem, int k) const
Definition Domaine_VF.h:77

Domaine_VF::face_voisins
int face_voisins(int num_face, int i) const
renvoie l'element voisin de numface dans la direction i.
Definition Domaine_VF.h:418

Domaine_dis_base
classe Domaine_dis_base Cette classe est la base de la hierarchie des domaines discretisees.
Definition Domaine_dis_base.h:39

Entree
Class defining operators and methods for all reading operation in an input flow (file,...
Definition Entree.h:42

Equation_base::milieu
virtual const Milieu_base & milieu() const =0

Milieu_base::porosite_face
DoubleVect & porosite_face()
Definition Milieu_base.h:62

MorEqn::equation
const Equation_base & equation() const
Renvoie la reference sur l'equation pointe par MorEqn::mon_equation.
Definition MorEqn.h:62

Objet_U::dimension
static int dimension
Definition Objet_U.h:99

Objet_U::que_suis_je
const Nom & que_suis_je() const
renvoie la chaine identifiant la classe.
Definition Objet_U.cpp:104

Objet_U::readOn
virtual Entree & readOn(Entree &)
Lecture d'un Objet_U sur un flot d'entree Methode a surcharger.
Definition Objet_U.cpp:293

Objet_U::printOn
virtual Sortie & printOn(Sortie &) const
Ecriture de l'objet sur un flot de sortie Methode a surcharger.
Definition Objet_U.cpp:282

Sortie
Classe de base des flux de sortie.
Definition Sortie.h:52

TRUSTTab::nb_dim
int nb_dim() const
Definition TRUSTTab.h:199

TRUSTTab::view_ro
std::enable_if_t< is_default_exec_space< EXEC_SPACE >, ConstView< _TYPE_, _SHAPE_ > > view_ro() const
Definition TRUSTTab.h:261

TRUSTTab::view_rw
std::enable_if_t< is_default_exec_space< EXEC_SPACE >, View< _TYPE_, _SHAPE_ > > view_rw()
Definition TRUSTTab.h:291

TRUSTTab::dimension
_SIZE_ dimension(int d) const
Definition TRUSTTab.tpp:133

TRUSTVect::line_size
int line_size() const
Definition TRUSTVect.tpp:67

Terme_Boussinesq_VEF_Face
Terme Source de Boussinesq pour une dicretisation VEF.
Definition Terme_Boussinesq_VEF_Face.h:30

Terme_Boussinesq_VEF_Face::ajouter
DoubleTab & ajouter(DoubleTab &) const override
Definition Terme_Boussinesq_VEF_Face.cpp:47

Terme_Boussinesq_VEF_Face::associer_domaines
void associer_domaines(const Domaine_dis_base &, const Domaine_Cl_dis_base &) override
Definition Terme_Boussinesq_VEF_Face.cpp:41

Terme_Boussinesq_base
Classe Terme_Boussinesq_base Cette classe represente le terme de gravite qui figure dans l'equation.
Definition Terme_Boussinesq_base.h:55

Terme_Boussinesq_base::check
void check() const
Definition Terme_Boussinesq_base.h:95

Terme_Boussinesq_base::Scalaire0_
ArrOfDouble Scalaire0_
Definition Terme_Boussinesq_base.h:87

Terme_Boussinesq_base::equation_scalaire
const Convection_Diffusion_std & equation_scalaire() const
Definition Terme_Boussinesq_base.h:65

Terme_Boussinesq_base::gravite
const Champ_Don_base & gravite() const
Definition Terme_Boussinesq_base.h:61

Terme_Boussinesq_base::getScalaire0
const ArrOfDouble & getScalaire0() const
Definition Terme_Boussinesq_base.h:79

Terme_Boussinesq_base::beta
const Champ_Don_base & beta() const
Definition Terme_Boussinesq_base.h:64