Pb_Thermohydraulique_IBM.cpp

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#include <Pb_Thermohydraulique_IBM.h>
#include <Fluide_Ostwald.h>
#include <Verif_Cl.h>
 
Implemente_instanciable(Pb_Thermohydraulique_IBM, "Pb_Thermohydraulique_IBM", Pb_Hydraulique_IBM);
// XD pb_thermohydraulique_ibm Pb_base pb_thermohydraulique_ibm INHERITS_BRACE Resolution of IBM thermohydraulic
// XD_CONT problem.
// XD attr fluide_incompressible fluide_incompressible fluide_incompressible OPT The fluid medium associated with the
// XD_CONT problem (only one possibility).
// XD attr fluide_ostwald fluide_ostwald fluide_ostwald OPT The fluid medium associated with the problem (only one
// XD_CONT possibility).
// XD attr navier_stokes_ibm navier_stokes_ibm navier_stokes_ibm OPT IBM Navier-Stokes equations.
// XD attr convection_diffusion_temperature_ibm convection_diffusion_temperature_ibm convection_diffusion_temperature_ibm OPT IBM Energy equation (temperature diffusion convection).
 
Sortie& Pb_Thermohydraulique_IBM::printOn(Sortie& os) const { return Pb_Hydraulique_IBM::printOn(os); }
Entree& Pb_Thermohydraulique_IBM::readOn(Entree& is) { return Pb_Hydraulique_IBM::readOn(is); }
 
const Equation_base& Pb_Thermohydraulique_IBM::equation(int i) const
{
  if (i == 0) return eq_hydraulique_;
  else if (i == 1) return eq_thermique_;
  else if (i < 2 + eq_opt_.size() && i > 1) return eq_opt_[i - 2].valeur();
  else
    {
      Cerr << "Pb_Thermohydraulique::equation() : Wrong equation number" << i << "!" << finl;
      Process::exit();
    }
  return eq_hydraulique_;
}
 
Equation_base& Pb_Thermohydraulique_IBM::equation(int i)
{
  if (i == 0) return eq_hydraulique_;
  else if (i == 1) return eq_thermique_;
  else if (i < 2 + eq_opt_.size() && i > 1) return eq_opt_[i - 2].valeur();
  else
    {
      Cerr << "Pb_Thermohydraulique::equation() : Wrong equation number" << i << "!" << finl;
      Process::exit();
    }
  return eq_hydraulique_;
}
 
void Pb_Thermohydraulique_IBM::associer_milieu_base(const Milieu_base& mil)
{
  Pb_Hydraulique_IBM::associer_milieu_base(mil);
  if (sub_type(Fluide_base,mil) && ref_cast(Fluide_base, mil).is_incompressible())
    eq_thermique_.associer_milieu_base(mil);
  else if (sub_type(Fluide_Ostwald,mil))
    eq_thermique_.associer_milieu_base(mil);
}
 
int Pb_Thermohydraulique_IBM::verifier()
{
  const Domaine_Cl_dis_base& domaine_Cl_hydr = eq_hydraulique_.domaine_Cl_dis();
  const Domaine_Cl_dis_base& domaine_Cl_th = eq_thermique_.domaine_Cl_dis();
  return tester_compatibilite_hydr_thermique(domaine_Cl_hydr,domaine_Cl_th);
}