en/master/Modele__turbulence__hyd__null_8cpp_source.html

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#include <Modele_turbulence_hyd_null.h>

#include <EcritureLectureSpecial.h>

#include <Discretisation_base.h>

#include <Schema_Temps_base.h>

#include <Probleme_base.h>

#include <Equation_base.h>

#include <Domaine.h>

#include <Param.h>


Implemente_instanciable_sans_constructeur(Modele_turbulence_hyd_null, "Modele_turbulence_hyd_null", Modele_turbulence_hyd_base);

// XD modele_turbulence_hyd_null modele_turbulence_hyd_deriv null INHERITS_BRACE Null turbulence model (turbulent

// XD_CONT viscosity = 0) which can be used with a turbulent problem.


Modele_turbulence_hyd_null::Modele_turbulence_hyd_null()

{

  declare_support_masse_volumique(1);

}


Entree& Modele_turbulence_hyd_null::readOn(Entree& is)

{

  // Creation d'une loi de paroi nulle:

  const Equation_base& eqn = equation();

  const Nom& discr = eqn.discretisation().que_suis_je();


  if (discr == "VEF" || discr == "VEFPreP1B") loipar_.typer("negligeable_VEF");

  else if (discr == "VDF") loipar_.typer("negligeable_VDF");

  else if (discr == "EF") loipar_.typer("negligeable_EF");

  else

    {

      Cerr << "Erreur dans Modele_turbulence_hyd_null::readOn\n";

      Cerr << " la discretisation " << discr << " n'est pas prise en charge";

      Cerr << finl;

      exit();

    }

  loipar_->associer_modele(*this);

  loipar_->associer(eqn.domaine_dis(), eqn.domaine_Cl_dis());


  // Pas envie de debugger XDATA ... je penalise tt le monde alors

  Param param(que_suis_je());

  param.lire_avec_accolades_depuis(is);

  return is;

}


Sortie& Modele_turbulence_hyd_null::printOn(Sortie& os) const

{

  return os << que_suis_je() << " " << le_nom();

}


int Modele_turbulence_hyd_null::sauvegarder(Sortie& os) const

{

  // en mode ecriture special seul le maitre ecrit l'entete

  int write, special;

  EcritureLectureSpecial::is_ecriture_special(special, write);

  if (write)

    {

      Nom mon_ident(que_suis_je());

      mon_ident += equation().probleme().domaine().le_nom();

      double temps = equation().schema_temps().temps_courant();

      mon_ident += Nom(temps, "%e");

      os << mon_ident << finl;

      os << que_suis_je() << finl;

      os.flush();

    }

  return 0;

}


Domaine_base::le_nom
const Nom & le_nom() const override
Donne le nom de l'Objet_U Methode a surcharger : renvoie "neant" dans cette implementation.
Definition Domaine_base.h:53

EcritureLectureSpecial::is_ecriture_special
static int is_ecriture_special(int &special, int &a_faire)
indique si le format special a ete demande en lecture active par sauvegarde xyz .
Definition EcritureLectureSpecial.cpp:123

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

Equation_base::discretisation
const Discretisation_base & discretisation() const
Renvoie la discretisation associee a l'equation.
Definition Equation_base.cpp:1093

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

Equation_base::probleme
Probleme_base & probleme()
Renvoie le probleme associe a l'equation.
Definition Equation_base.cpp:747

Equation_base::schema_temps
Schema_Temps_base & schema_temps()
Renvoie le schema en temps associe a l'equation.
Definition Equation_base.cpp:865

Equation_base::domaine_dis
Domaine_dis_base & domaine_dis()
Renvoie le domaine discretise associe a l'equation.
Definition Equation_base.cpp:92

Modele_turbulence_hyd_base
Classe Modele_turbulence_hyd_base Cette classe sert de base a la hierarchie des classes.
Definition Modele_turbulence_hyd_base.h:43

Modele_turbulence_hyd_base::equation
Equation_base & equation()
Renvoie l'equation associee au modele de turbulence.
Definition Modele_turbulence_hyd_base.h:111

Modele_turbulence_hyd_null
Definition Modele_turbulence_hyd_null.h:22

Modele_turbulence_hyd_null::sauvegarder
int sauvegarder(Sortie &) const override
Sauvegarde le modele de turbulence sur un flot de sortie.
Definition Modele_turbulence_hyd_null.cpp:64

Nom
class Nom Une chaine de caractere pour nommer les objets de TRUST
Definition Nom.h:31

Objet_U::Sortie
friend class Sortie
Definition Objet_U.h:75

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::le_nom
virtual const Nom & le_nom() const
Donne le nom de l'Objet_U Methode a surcharger : renvoie "neant" dans cette implementation.
Definition Objet_U.cpp:319

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

Probleme_base::domaine
const Domaine & domaine() const
Renvoie le domaine associe au probleme.
Definition Probleme_base.cpp:613

Process::exit
static void exit(int exit_code=-1)
Routine de sortie de TRUST dans une region Kokkos.
Definition Process.cpp:455

Schema_Temps_base::temps_courant
double temps_courant() const
Renvoie le temps courant.
Definition Schema_Temps_base.h:445

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

Sortie::flush
virtual Sortie & flush()
Definition Sortie.cpp:138

Support_Champ_Masse_Volumique::declare_support_masse_volumique
virtual void declare_support_masse_volumique(int ok)
Le constructeur d'une classe derivee qui se sert de la masse volumique doit appeler cette fonction av...
Definition Support_Champ_Masse_Volumique.cpp:46