Interpolation_IBM_power_law_tbl_u_star.cpp

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#include <Interpolation_IBM_power_law_tbl_u_star.h>
#include <TRUSTTrav.h>
#include <Domaine.h>
 
Implemente_instanciable( Interpolation_IBM_power_law_tbl_u_star, "Interpolation_IBM_power_law_tbl_u_star|IBM_power_law_tbl_u_star", Interpolation_IBM_mean_gradient ) ;
// XD Interpolation_IBM_power_law_tbl_u_star interpolation_ibm_mean_gradient Interpolation_IBM_power_law_tbl_u_star BRACE Immersed Boundary Method (IBM): law u star.
 
Sortie& Interpolation_IBM_power_law_tbl_u_star::printOn( Sortie& os ) const
{
  return Objet_U::printOn( os );
}
 
Entree& Interpolation_IBM_power_law_tbl_u_star::readOn( Entree& is )
{
  Param param(que_suis_je());
  Interpolation_IBM_base::set_param(param);
  param.ajouter("points_solides",&solid_points_lu_,Param::REQUIRED);  // XD_ADD_P field_base
  // XD_CONT Node field giving the projection of the node on the immersed boundary
  param.ajouter("est_dirichlet",&is_dirichlet_lu_,Param::REQUIRED);   // XD_ADD_P field_base
  // XD_CONT Node field of booleans indicating whether the node belong to an element where the interface is
  param.ajouter("correspondance_elements",&corresp_elems_lu_,Param::REQUIRED); // XD_ADD_P field_base
  // XD_CONT Cell field giving the SALOME cell number
  param.ajouter("elements_solides",&solid_elems_lu_,Param::REQUIRED); // XD_ADD_P field_base
  // XD_CONT Node field giving the element number containing the solid point
  param.lire_avec_accolades_depuis(is);
  return is;
}
 
void Interpolation_IBM_power_law_tbl_u_star::discretise(const Discretisation_base& dis, Domaine_dis_base& le_dom_EF)
{
  Interpolation_IBM_base::discretise(dis, le_dom_EF);
  int nb_comp = Objet_U::dimension;
  Noms units(nb_comp);
  Noms c_nam(nb_comp);
 
  if (corresp_elems_lu_)
    {
      dis.discretiser_champ("champ_elem",le_dom_EF,"corresp_elems","none",1,0., corresp_elems_);
      corresp_elems_->affecter(corresp_elems_lu_);
    }
  dis.discretiser_champ("champ_sommets",le_dom_EF,"solid_elems","none",1,0., solid_elems_);
  solid_elems_->affecter(solid_elems_lu_);
  dis.discretiser_champ("champ_sommets",le_dom_EF,"is_dirichlet","none",1,0., is_dirichlet_);
  is_dirichlet_->affecter(is_dirichlet_lu_);
  computeSommetsVoisins(le_dom_EF, solid_points_, corresp_elems_, has_corresp_);
}