en/v1.9.8/Neumann__sortie__libre__Temp__H_8cpp_source.html

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#include <Neumann_sortie_libre_Temp_H.h>

#include <Fluide_Dilatable_base.h>

#include <Equation_base.h>


Implemente_instanciable(Neumann_sortie_libre_Temp_H, "Sortie_libre_temperature_imposee_H", Neumann_sortie_libre);

// XD sortie_libre_temperature_imposee_h neumann sortie_libre_temperature_imposee_h NO_BRACE Open boundary for heat

// XD_CONT equation with enthalpy as unknown.

// XD attr ch front_field_base ch REQ Boundary field type.


Sortie& Neumann_sortie_libre_Temp_H::printOn(Sortie& s) const { return s << que_suis_je() << finl; }


Entree& Neumann_sortie_libre_Temp_H::readOn(Entree& s)

{

  if (app_domains.size() == 0) app_domains = { Motcle("Thermique_H") };


  s >> le_champ_ext;

  le_champ_front = le_champ_ext;


  return s;

}


/*! @brief Complete les conditions aux limites.

 *

 */


void Neumann_sortie_libre_Temp_H::completer()

{

  le_fluide = ref_cast(Fluide_Dilatable_base, mon_dom_cl_dis->equation().milieu());

  modifier_val_imp = 1;

}


/*! @brief Renvoie la valeur de la i-eme composante du champ impose a l'exterieur de la frontiere.

 *

 * @param (int i) indice suivant la premiere dimension du champ

 * @return (double) la valeur imposee sur la composante du champ specifiee

 * @throws deuxieme dimension du champ de frontiere superieur a 1

 */


double Neumann_sortie_libre_Temp_H::val_ext(int i) const

{

  if (le_champ_ext->valeurs().size() == 1)

    {

      if (modifier_val_imp == 1)

        return le_fluide->calculer_H(le_champ_ext->valeurs()(0, 0));

      else

        return le_champ_ext->valeurs()(0, 0);

    }

  else if (le_champ_ext->valeurs().dimension(1) == 1)

    {

      if (modifier_val_imp == 1)

        return le_fluide->calculer_H(le_champ_ext->valeurs()(i, 0));

      else

        return le_champ_ext->valeurs()(i, 0);

    }

  else

    {

      Cerr << "Neumann_sortie_libre_Temp_H::val_ext" << finl;

      Cerr << le_champ_ext << finl;

    }


  abort();

  return 0.;

}


/*! @brief Renvoie la valeur de la (i,j)-eme composante du champ impose a l'exterieur de la frontiere.

 *

 * @param (int i) indice suivant la premiere dimension du champ

 * @param (int j) indice suivant la deuxieme dimension du champ

 * @return (double) la valeur imposee sur la composante du champ specifiee

 */


double Neumann_sortie_libre_Temp_H::val_ext(int i, int j) const

{

  if (le_champ_ext->valeurs().dimension(0) == 1)

    {

      if (modifier_val_imp == 1)

        return le_fluide->calculer_H(le_champ_ext->valeurs()(0, j));

      else

        return le_champ_ext->valeurs()(0, j);

    }

  else

    {

      if (modifier_val_imp == 1)

        return le_fluide->calculer_H(le_champ_ext->valeurs()(i, j));

      else

        return le_champ_ext->valeurs()(i, j);

    }

}


Cond_lim_base::modifier_val_imp
int modifier_val_imp
Definition Cond_lim_base.h:94

Cond_lim_base::app_domains
std::vector< Motcle > app_domains
Definition Cond_lim_base.h:86

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

Fluide_Dilatable_base
classe Fluide_Dilatable_base Cette classe represente un d'un fluide dilatable,
Definition Fluide_Dilatable_base.h:38

Milieu_base::equation
virtual const Equation_base & equation(const std::string &nom_inc) const
Definition Milieu_base.cpp:958

Neumann_sortie_libre_Temp_H
classe Neumann_sortie_libre_Temp_H Cette classe represente une frontiere ouverte a temperature impose...
Definition Neumann_sortie_libre_Temp_H.h:32

Neumann_sortie_libre_Temp_H::completer
void completer() override
Complete les conditions aux limites.
Definition Neumann_sortie_libre_Temp_H.cpp:41

Neumann_sortie_libre
classe Neumann_sortie_libre Cette classe represente une frontiere ouverte sans vitesse imposee
Definition Neumann_sortie_libre.h:34

Neumann_sortie_libre::val_ext
const DoubleTab & val_ext() const
Definition Neumann_sortie_libre.cpp:164

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

Process::abort
static void abort()
Routine de sortie de Trio-U sur une erreur abort().
Definition Process.cpp:570

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