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#ifndef Champ_P1iP1B_implementation_included

#define Champ_P1iP1B_implementation_included


#include <Champ_implementation_divers.h>

#include <TRUSTTab.h>

#include <Matrice.h>


class Frontiere_dis_base;

class Domaine_Cl_dis_base;

class Domaine_VEF;


class Champ_P1iP1B_implementation : public Champ_implementation_divers

{

public:


  Champ_P1iP1B_implementation()

  {

    temps_filtrage_ = -DMAXFLOAT;

    adresse_champ_filtre_ = nullptr;

    Condition_Neumann_imposee_ = 0;

  }


  DoubleVect& valeur_a_elem(const DoubleVect& position, DoubleVect& val, int le_poly) const override;


  double valeur_a_elem_compo(const DoubleVect& position, int le_poly, int ncomp) const override;


  DoubleTab& valeur_aux_elems(const DoubleTab& positions, const IntVect& les_polys, DoubleTab& valeurs) const override;


  DoubleVect& valeur_aux_elems_compo(const DoubleTab& positions, const IntVect& les_polys, DoubleVect& valeurs, int ncomp) const override;


  DoubleTab& valeur_aux_sommets(const Domaine&, DoubleTab&) const override;


  DoubleVect& valeur_aux_sommets_compo(const Domaine&, DoubleVect&, int) const override;


  DoubleTab& remplir_coord_noeuds(DoubleTab& positions) const override;


  int remplir_coord_noeuds_et_polys(DoubleTab& positions, IntVect& polys) const override;

  int imprime_P1B(Sortie&, int) const;

  DoubleTab& filtrage(const Domaine_VEF&, const Champ_base&, bool implicitCoupling=false) const;        // Methode pour filtrer le champ

  const DoubleTab& champ_filtre() const { return champ_filtre_; }


  int Condition_Neumann_imposee_;        // Drapeau pour savoir s'il y'a des CL de Neumann (influe sur le filtrage)


protected:

  mutable DoubleTab champ_filtre_;                // Contient les valeurs du champ filtre

  mutable Matrice matrice_filtrage_;                // Contient la matrice necessaire au filtrage (evite d'avoir a la recalculer)

  mutable double temps_filtrage_;                // Temps du dernier filtrage         (va servir a ne pas refiltrer inutilement)

  mutable const double *adresse_champ_filtre_;        // Adresse du champ filtre        (va servir a ne pas refiltrer inutilement)


  void completer(const Domaine_Cl_dis_base& zcl);


  virtual const Domaine_VEF& domaine_vef() const =0;

  DoubleTab& trace(const Frontiere_dis_base& fr, const DoubleTab& y, DoubleTab& x, int distant) const;

};


#endif /* Champ_P1iP1B_implementation_included */

Champ_P1iP1B_implementation::valeur_aux_elems
DoubleTab & valeur_aux_elems(const DoubleTab &positions, const IntVect &les_polys, DoubleTab &valeurs) const override
Definition Champ_P1iP1B_implementation.cpp:77

Champ_P1iP1B_implementation::matrice_filtrage_
Matrice matrice_filtrage_
Definition Champ_P1iP1B_implementation.h:60

Champ_P1iP1B_implementation::remplir_coord_noeuds
DoubleTab & remplir_coord_noeuds(DoubleTab &positions) const override
Definition Champ_P1iP1B_implementation.cpp:229

Champ_P1iP1B_implementation::champ_filtre_
DoubleTab champ_filtre_
Definition Champ_P1iP1B_implementation.h:59

Champ_P1iP1B_implementation::domaine_vef
virtual const Domaine_VEF & domaine_vef() const =0

Champ_P1iP1B_implementation::temps_filtrage_
double temps_filtrage_
Definition Champ_P1iP1B_implementation.h:61

Champ_P1iP1B_implementation::filtrage
DoubleTab & filtrage(const Domaine_VEF &, const Champ_base &, bool implicitCoupling=false) const
Definition Champ_P1iP1B_implementation.cpp:465

Champ_P1iP1B_implementation::adresse_champ_filtre_
const double * adresse_champ_filtre_
Definition Champ_P1iP1B_implementation.h:62

Champ_P1iP1B_implementation::valeur_a_elem_compo
double valeur_a_elem_compo(const DoubleVect &position, int le_poly, int ncomp) const override
Definition Champ_P1iP1B_implementation.cpp:54

Champ_P1iP1B_implementation::valeur_a_elem
DoubleVect & valeur_a_elem(const DoubleVect &position, DoubleVect &val, int le_poly) const override
Definition Champ_P1iP1B_implementation.cpp:37

Champ_P1iP1B_implementation::valeur_aux_sommets_compo
DoubleVect & valeur_aux_sommets_compo(const Domaine &, DoubleVect &, int) const override
Definition Champ_P1iP1B_implementation.cpp:219

Champ_P1iP1B_implementation::remplir_coord_noeuds_et_polys
int remplir_coord_noeuds_et_polys(DoubleTab &positions, IntVect &polys) const override
Definition Champ_P1iP1B_implementation.cpp:264

Champ_P1iP1B_implementation::trace
DoubleTab & trace(const Frontiere_dis_base &fr, const DoubleTab &y, DoubleTab &x, int distant) const
Definition Champ_P1iP1B_implementation.cpp:512

Champ_P1iP1B_implementation::imprime_P1B
int imprime_P1B(Sortie &, int) const

Champ_P1iP1B_implementation::completer
void completer(const Domaine_Cl_dis_base &zcl)
Definition Champ_P1iP1B_implementation.cpp:503

Champ_P1iP1B_implementation::Champ_P1iP1B_implementation
Champ_P1iP1B_implementation()
Definition Champ_P1iP1B_implementation.h:30

Champ_P1iP1B_implementation::champ_filtre
const DoubleTab & champ_filtre() const
Definition Champ_P1iP1B_implementation.h:54

Champ_P1iP1B_implementation::Condition_Neumann_imposee_
int Condition_Neumann_imposee_
Definition Champ_P1iP1B_implementation.h:56

Champ_P1iP1B_implementation::valeur_aux_sommets
DoubleTab & valeur_aux_sommets(const Domaine &, DoubleTab &) const override
Definition Champ_P1iP1B_implementation.cpp:175

Champ_P1iP1B_implementation::valeur_aux_elems_compo
DoubleVect & valeur_aux_elems_compo(const DoubleTab &positions, const IntVect &les_polys, DoubleVect &valeurs, int ncomp) const override
Definition Champ_P1iP1B_implementation.cpp:164

Champ_base
classe Champ_base Cette classe est la base de la hierarchie des champs.
Definition Champ_base.h:43

Champ_implementation_divers
Definition Champ_implementation_divers.h:23

Domaine_Cl_dis_base
classe Domaine_Cl_dis_base Les objets Domaine_Cl_dis_base representent les conditions aux limites
Definition Domaine_Cl_dis_base.h:37

Domaine_VEF
class Domaine_VEF
Definition Domaine_VEF.h:54

Frontiere_dis_base
classe Frontiere_dis_base Classe representant une frontiere discretisee.
Definition Frontiere_dis_base.h:34

Matrice
Classe Matrice Classe generique de la hierarchie des matrices.
Definition Matrice.h:34

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