en/v1.9.8/Op__Diff__PolyMAC__MPFA__base_8cpp_source.html

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#include <Echange_contact_PolyMAC_MPFA.h>

#include <Op_Diff_PolyMAC_MPFA_base.h>

#include <Frottement_impose_base.h>

#include <Champ_Elem_PolyMAC_MPFA.h>

#include <Champ_Face_PolyMAC_MPFA.h>

#include <Champ_Don_Fonc_xyz.h>

#include <Domaine_Cl_PolyMAC_family.h>

#include <Aire_interfaciale.h>

#include <Champ_Uniforme.h>

#include <Pb_Multiphase.h>

#include <Milieu_base.h>


Implemente_base(Op_Diff_PolyMAC_MPFA_base, "Op_Diff_PolyMAC_MPFA_base", Op_Diff_PolyMAC_CDO_Gen_base);


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


Entree& Op_Diff_PolyMAC_MPFA_base::readOn(Entree& s) { return s; }


void Op_Diff_PolyMAC_MPFA_base::mettre_a_jour(double t)

{

  Operateur_base::mettre_a_jour(t);

  //si le champ est constant en temps, alors pas besoin de recalculer nu_ et les interpolations

  if (t <= t_last_maj_)

    return;


  if (!nu_constant_)

    nu_a_jour_ = 0, phif_a_jour_ = 0;


  t_last_maj_ = t;

}


void Op_Diff_PolyMAC_MPFA_base::completer()

{

  Operateur_base::completer();

  const Equation_base& eq = equation();

  int N = eq.inconnue().valeurs().line_size(), N_mil = eq.milieu().has_masse_volumique() ? eq.milieu().masse_volumique().valeurs().line_size() : N;

  int N_diff = diffusivite().valeurs().line_size(), D = dimension, N_nu = std::max(N * dimension_min_nu(), N_diff);


  if ((N_nu == N_mil) | (N_nu == N))

    nu_.resize(0, N); //isotrope

  else if ((N_nu == N_mil * D) | (N_nu == N * D))

    nu_.resize(0, N, D); //diagonal

  else if ((N_nu == N_mil * D * D) | (N_nu == N * D * D))

    nu_.resize(0, N, D, D); //complet

  else

    Process::exit(Nom("Op_Diff_PolyMAC_MPFA_base : diffusivity component count ") + Nom(N_nu) + " not among (" + Nom(N) + ", " + Nom(N * D) + ", " + Nom(N * D * D) + ")!");


  const Domaine_PolyMAC_MPFA& domaine = ref_cast(Domaine_PolyMAC_MPFA, le_dom_poly_.valeur());

  domaine.domaine().creer_tableau_elements(nu_);

  const Conds_lim& cls = eq.domaine_Cl_dis().les_conditions_limites();

  nu_constant_ = (sub_type(Champ_Uniforme, diffusivite()) || sub_type(Champ_Don_Fonc_xyz, diffusivite()));

  if (nu_constant_)

    for (auto &itr : cls)

      if (sub_type(Echange_impose_base, itr.valeur()) || sub_type(Frottement_impose_base, itr.valeur()))

        nu_constant_ = 0;

}


void Op_Diff_PolyMAC_MPFA_base::update_nu() const

{

  const Domaine_PolyMAC_MPFA& domaine = ref_cast(Domaine_PolyMAC_MPFA, le_dom_poly_.valeur());

  const DoubleTab& nu_src = diffusivite().valeurs();

  int e, i, m, n, c_nu = nu_src.dimension_tot(0) == 1, d, db, D = dimension;

  int N = equation().inconnue().valeurs().line_size(),

      N_mil = equation().milieu().has_masse_volumique() ? equation().milieu().masse_volumique().valeurs().line_size() : N,

      N_nu = nu_.line_size(), N_nu_src = nu_src.line_size(), mult = N_nu / N;

  assert(N_nu % N == 0);


  const bool is_aire_int = sub_type(Aire_interfaciale, equation()); /* cas Aire_interfaciale, pas de nu lam ... */


  if (is_aire_int)

    {

      nu_ = 0.;

      /* modification par une classe fille */

      modifier_mu(nu_);

      nu_a_jour_ = 1;

      return;

    }


  /* nu_ : si necessaire, on doit etendre la champ source */

  if (N_nu == N && N_nu_src == N_mil)

    for (e = 0; e < domaine.nb_elem_tot(); e++)

      for (n = 0; n < N; n++)

        nu_.addr()[N_nu * e + n] = nu_src(!c_nu * e, n); //facile

  else if (N_nu == N * D && N_nu_src == N_mil)

    for (e = 0; e < domaine.nb_elem_tot(); e++)

      for (n = 0; n < N; n++)

        for (d = 0; d < D; d++) //diagonal

          nu_(e, n, d) = nu_src(!c_nu * e, n);

  else if (N_nu == N * D * D && (N_nu_src == N_mil || N_nu_src == N_mil * D))

    for (e = 0; e < domaine.nb_elem_tot(); e++)

      for (n = 0; n < N; n++) //complet

        for (d = 0; d < D; d++)

          for (db = 0; db < D; db++)

            nu_(e, n, d, db) = (d == db) * nu_src(!c_nu * e, N_nu_src == N_mil ? n : D * n + d);

  else

    abort();


  /* ponderation de nu par la porosite et par alpha (si pb_Multiphase) */

  const DoubleTab *alp = sub_type(Pb_Multiphase, equation().probleme()) ? &ref_cast(Pb_Multiphase, equation().probleme()).equation_masse().inconnue().passe() : nullptr;

  for (e = 0; e < domaine.nb_elem_tot(); e++)

    for (n = 0, i = 0; n < N; n++)

      for (m = 0; m < mult; m++, i++)

        nu_.addr()[N_nu * e + i] *= equation().milieu().porosite_elem()(e) * (alp ? std::max((*alp)(e, n), 1e-8) : 1);


  /* modification par une classe fille */

  modifier_mu(nu_);


  nu_a_jour_ = 1;

}


void Op_Diff_PolyMAC_MPFA_base::update_phif(int full_stencil) const

{

  const Domaine_PolyMAC_MPFA& domaine = ref_cast(Domaine_PolyMAC_MPFA, le_dom_poly_.valeur());

  if (!domaine.domaine().mesh_update_required() && !full_stencil && phif_a_jour_)

    return; //deja fait, sauf si on demande tout le stencil

  const Champ_Inc_base& ch = equation().inconnue();

  const IntTab& fcl = sub_type(Champ_Face_PolyMAC_MPFA, ch) ? ref_cast(Champ_Face_PolyMAC_MPFA, ch).fcl() : ref_cast(Champ_Elem_PolyMAC_MPFA, ch).fcl();

  domaine.fgrad(ch.valeurs().line_size(), 0, la_zcl_poly_->les_conditions_limites(), fcl, &nu(), &som_ext, sub_type(Champ_Face_PolyMAC_MPFA, ch), full_stencil, phif_d, phif_e, phif_c);

  phif_a_jour_ = 1;

}


Aire_interfaciale
classe Aire_interfaciale Equation de transport de l'aire interfaciale
Definition Aire_interfaciale.h:28

Champ_Don_Fonc_xyz
class Champ_Don_Fonc_xyz Cette classe represente un champ de donnees fonction
Definition Champ_Don_Fonc_xyz.h:30

Champ_Elem_PolyMAC_MPFA
: class Champ_Elem_PolyMAC_MPFA
Definition Champ_Elem_PolyMAC_MPFA.h:31

Champ_Face_PolyMAC_MPFA
: class Champ_Face_PolyMAC_MPFA
Definition Champ_Face_PolyMAC_MPFA.h:33

Champ_Inc_base
Classe Champ_Inc_base.
Definition Champ_Inc_base.h:53

Champ_Inc_base::valeurs
DoubleTab & valeurs() override
Renvoie le tableau des valeurs du champ au temps courant.
Definition Champ_Inc_base.h:77

Champ_Proto::valeurs
virtual DoubleTab & valeurs()=0

Champ_Uniforme
classe Champ_Uniforme Represente un champ constant dans l'espace et dans le temps.
Definition Champ_Uniforme.h:26

Conds_lim
classe Conds_lim Cette classe represente un vecteur de conditions aux limites.
Definition Conds_lim.h:32

Domaine_Cl_dis_base::les_conditions_limites
const Cond_lim & les_conditions_limites(int) const
Renvoie la i-ieme condition aux limites.
Definition Domaine_Cl_dis_base.cpp:386

Domaine_PolyMAC_MPFA
Definition Domaine_PolyMAC_MPFA.h:22

Echange_impose_base
classe Echange_impose_base: Cette condition limite sert uniquement pour l'equation d'energie.
Definition Echange_impose_base.h:41

Entree
Class defining operators and methods for all reading operation in an input flow (file,...
Definition Entree.h:42

Equation_base
classe Equation_base Le role d'une equation est le calcul d'un ou plusieurs champs....
Definition Equation_base.h:76

Equation_base::milieu
virtual const Milieu_base & milieu() const =0

Equation_base::inconnue
virtual const Champ_Inc_base & inconnue() const =0

Equation_base::domaine_Cl_dis
virtual Domaine_Cl_dis_base & domaine_Cl_dis()
Renvoie le domaine des conditions aux limite discretisee associee a l'equation.
Definition Equation_base.h:343

Frottement_impose_base
Classe Frottement_impose_base Classe de base pour des conditions aux limites de type Navier (v.
Definition Frottement_impose_base.h:36

Milieu_base::porosite_elem
DoubleVect & porosite_elem()
Definition Milieu_base.h:58

Milieu_base::has_masse_volumique
bool has_masse_volumique() const
Definition Milieu_base.h:92

Milieu_base::masse_volumique
virtual const Champ_base & masse_volumique() const
Renvoie la masse volumique du milieu.
Definition Milieu_base.cpp:797

MorEqn::equation
const Equation_base & equation() const
Renvoie la reference sur l'equation pointe par MorEqn::mon_equation.
Definition MorEqn.h:62

Nom
class Nom Une chaine de caractere pour nommer les objets de TRUST
Definition Nom.h:31

Objet_U::dimension
static int dimension
Definition Objet_U.h:99

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

Op_Diff_PolyMAC_CDO_Gen_base
class Op_Diff_PolyMAC_CDO_Gen_base
Definition Op_Diff_PolyMAC_CDO_Gen_base.h:32

Op_Diff_PolyMAC_CDO_Gen_base::dimension_min_nu
virtual int dimension_min_nu() const
Definition Op_Diff_PolyMAC_CDO_Gen_base.h:43

Op_Diff_PolyMAC_CDO_Gen_base::modifier_mu
virtual void modifier_mu(DoubleTab &) const
Definition Op_Diff_PolyMAC_CDO_Gen_base.h:40

Op_Diff_PolyMAC_CDO_Gen_base::diffusivite
const Champ_base & diffusivite() const override
Definition Op_Diff_PolyMAC_CDO_Gen_base.h:37

Op_Diff_PolyMAC_CDO_Gen_base::nu_a_jour_
int nu_a_jour_
Definition Op_Diff_PolyMAC_CDO_Gen_base.h:65

Op_Diff_PolyMAC_CDO_Gen_base::nu_constant_
int nu_constant_
Definition Op_Diff_PolyMAC_CDO_Gen_base.h:65

Op_Diff_PolyMAC_CDO_Gen_base::nu_
DoubleTab nu_
Definition Op_Diff_PolyMAC_CDO_Gen_base.h:64

Op_Diff_PolyMAC_CDO_Gen_base::nu
const DoubleTab & nu() const
Definition Op_Diff_PolyMAC_CDO_Gen_base.h:49

Op_Diff_PolyMAC_MPFA_base
class Op_Diff_PolyMAC_MPFA_base
Definition Op_Diff_PolyMAC_MPFA_base.h:27

Op_Diff_PolyMAC_MPFA_base::completer
void completer() override
Associe l'operateur au domaine_dis, le domaine_Cl_dis, et a l'inconnue de son equation.
Definition Op_Diff_PolyMAC_MPFA_base.cpp:47

Op_Diff_PolyMAC_MPFA_base::update_phif
void update_phif(int full_stencil=0) const
Definition Op_Diff_PolyMAC_MPFA_base.cpp:126

Op_Diff_PolyMAC_MPFA_base::phif_d
IntTab phif_d
Definition Op_Diff_PolyMAC_MPFA_base.h:52

Op_Diff_PolyMAC_MPFA_base::mettre_a_jour
void mettre_a_jour(double t) override
DOES NOTHING - to override in derived classes.
Definition Op_Diff_PolyMAC_MPFA_base.cpp:34

Op_Diff_PolyMAC_MPFA_base::t_last_maj_
double t_last_maj_
Definition Op_Diff_PolyMAC_MPFA_base.h:54

Op_Diff_PolyMAC_MPFA_base::som_ext
IntTab som_ext
Definition Op_Diff_PolyMAC_MPFA_base.h:60

Op_Diff_PolyMAC_MPFA_base::phif_a_jour_
int phif_a_jour_
Definition Op_Diff_PolyMAC_MPFA_base.h:62

Op_Diff_PolyMAC_MPFA_base::phif_e
IntTab phif_e
Definition Op_Diff_PolyMAC_MPFA_base.h:52

Op_Diff_PolyMAC_MPFA_base::phif_c
DoubleTab phif_c
Definition Op_Diff_PolyMAC_MPFA_base.h:53

Op_Diff_PolyMAC_MPFA_base::update_nu
void update_nu() const override
Definition Op_Diff_PolyMAC_MPFA_base.cpp:73

Operateur_base::mettre_a_jour
virtual void mettre_a_jour(double temps)
DOES NOTHING - to override in derived classes.
Definition Operateur_base.cpp:71

Operateur_base::completer
virtual void completer()
Associe l'operateur au domaine_dis, le domaine_Cl_dis, et a l'inconnue de son equation.
Definition Operateur_base.cpp:89

Pb_Multiphase
classe Pb_Multiphase Cette classe represente un probleme de thermohydraulique multiphase de type "3*N...
Definition Pb_Multiphase.h:46

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

Process::exit
static void exit(int exit_code=-1)
Routine de sortie de TRUST dans une region Kokkos.
Definition Process.cpp:455

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

TRUSTTab::dimension_tot
_SIZE_ dimension_tot(int) const override
Definition TRUSTTab.tpp:160

TRUSTVect::line_size
int line_size() const
Definition TRUSTVect.tpp:67