Solver_moving_mesh_ALE.cpp

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#include <Domaine_ALE.h>
#include <Solver_moving_mesh_ALE.h>
 
 
Implemente_instanciable(Solver_moving_mesh_ALE,"Solver_moving_mesh_ALE",Interprete_geometrique_base);
// XD Solver_moving_mesh_ALE interprete Solver_moving_mesh_ALE NO_BRACE Solver used to solve the system giving the mesh
// XD_CONT velocity for the ALE (Arbitrary Lagrangian-Eulerian) framework.
// XD attr dom ref_domaine dom REQ Name of domain.
// XD attr bloc bloc_lecture bloc REQ Example: { PETSC GCP { precond ssor { omega 1.5 } seuil 1e-7 impr } }
 
 
/*! @brief Simple appel a: Interprete::printOn(Sortie&)
 *
 *     Imprime l'interprete sur un flot de sortie
 *
 * @param (Sortie& os) un flot de sortie
 * @return (Sortie&) le flot de sortie modifie
 */
Sortie& Solver_moving_mesh_ALE::printOn(Sortie& os) const
{
  return Interprete::printOn(os);
}
 
 
/*! @brief Simple appel a: Interprete::readOn(Entree&)
 *
 * @param (Entree& is) un flot d'entree
 * @return (Entree&) le flot d'entree modifie
 */
Entree& Solver_moving_mesh_ALE::readOn(Entree& is)
{
  return Interprete::readOn(is);
}
 
 
/*! @brief Fonction principale de l'interprete Solver_moving_mesh_ALE: Read the solver used to solve the system giving the moving mesh velocity
 *
 */
Entree& Solver_moving_mesh_ALE::interpreter_(Entree& is)
{
  associer_domaine(is);
  Domaine_ALE& dom=ref_cast(Domaine_ALE, domaine());
  dom.reading_solver_moving_mesh_ALE(is);
  return is;
}