#include <Operateur_IJK_elem_diff_base.h>

Inheritance diagram for Operateur_IJK_elem_diff_base_double:

Collaboration diagram for Operateur_IJK_elem_diff_base_double:

Public Member Functions
	Operateur_IJK_elem_diff_base_double ()
virtual void	initialize (const Domaine_IJK &splitting) override
virtual void	set_indicatrice (const IJK_Field_double &indicatrice)
virtual void	set_corrige_flux (OWN_PTR(Corrige_flux_FT_base)&corrige_flux)
virtual void	calculer (const IJK_Field_double &field, IJK_Field_double &result, const IJK_Field_local_double &boundary_flux_kmin, const IJK_Field_local_double &boundary_flux_kmax)
virtual void	ajouter (const IJK_Field_double &field, IJK_Field_double &result, const IJK_Field_local_double &boundary_flux_kmin, const IJK_Field_local_double &boundary_flux_kmax)
void	set_uniform_lambda (const double &uniform_lambda)
void	set_uniform_lambda_liquid (const double &uniform_lambda_liquid)
void	set_uniform_lambda_vapour (const double &uniform_lambda_vapour)
void	set_lambda (const IJK_Field_local_double &lambda)
void	set_coeff_x_y_z (const IJK_Field_local_double &coeff_field_x, const IJK_Field_local_double &coeff_field_y, const IJK_Field_local_double &coeff_field_z)
double	get_uniform_lambda ()
void	compute_flux_x (IJK_Field_local_double &resu, const int k_layer) override
void	compute_flux_y (IJK_Field_local_double &resu, const int k_layer) override
void	compute_flux_z (IJK_Field_local_double &resu, const int k_layer) override
double	compute_flux_local_x (int i, int j, int k) override
double	compute_flux_local_y (int i, int j, int k) override
double	compute_flux_local_z (int i, int j, int k) override
Public Member Functions inherited from Operateur_IJK_elem_base_double
void	set_runge_kutta (int rk_step, double dt_tot, IJK_Field_vector3_double &current_fluxes, IJK_Field_vector3_double &RK3_F_fluxes)
virtual void	compute_set (IJK_Field_double &dx)
virtual void	compute_add (IJK_Field_double &dx)
virtual void	compute_grad (IJK_Field_vector3_double &dx)
virtual void	compute_grad_x (IJK_Field_double &dx)
virtual void	compute_grad_y (IJK_Field_double &dx)
virtual void	compute_grad_z (IJK_Field_double &dx)
Public Member Functions inherited from Objet_U
	~Objet_U () override
	Destructeur, supprime l'objet de la liste d'objets enregistres dans "memoire".
int	numero () const
	Renvoie l'indice de l'objet dans Memoire::data.
virtual int	duplique () const =0
virtual Sortie &	printOn (Sortie &) const
	Ecriture de l'objet sur un flot de sortie Methode a surcharger.
virtual Entree &	readOn (Entree &)
	Lecture d'un Objet_U sur un flot d'entree Methode a surcharger.
virtual unsigned	taille_memoire () const =0
virtual int	est_egal_a (const Objet_U &) const
	Renvoie 1 si l'objet x et *this sont une seule et meme instance (meme adresse en memoire).
virtual const Nom &	le_nom () const
	Donne le nom de l'Objet_U Methode a surcharger : renvoie "neant" dans cette implementation.
virtual void	nommer (const Nom &)
	Donne un nom a l'Objet_U Methode virtuelle a surcharger.
virtual int	reprendre (Entree &)
	Reprise d'un Objet_U sur un flot d'entree Methode a surcharger.
virtual int	sauvegarder (Sortie &) const
	Sauvegarde d'un Objet_U sur un flot de sortie Methode a surcharger.
int	get_object_id () const
	Renvoie l'identifiant unique de l'objet object_id_.
virtual const Type_info *	get_info () const
	Donne des informations sur le type de l'Objet_U.
const Nom &	que_suis_je () const
	renvoie la chaine identifiant la classe.
const char *	le_type () const
	Donne le nom du type de l'Objet_U.
virtual int	change_num (const int *const)
	Change le numero interne de l'Objet_U.
virtual int	lire_motcle_non_standard (const Motcle &motlu, Entree &is)
	Lecture des parametres de type non simple d'un objet_U a partir d'un flot d'entree.
virtual int	associer_ (Objet_U &)
	Associe l'Objet_U a un autre Objet_U Methode virtuelle a surcharger.
const Interprete &	interprete () const
Interprete &	interprete ()
Public Member Functions inherited from Process
virtual	~Process ()

Protected Member Functions
template<DIRECTION _DIR_>
void	compute_flux_ (IJK_Field_local_double &resu, const int k_layer)
template<DIRECTION _DIR_>
double	compute_flux_local_ (int i, int j, int k)
template<DIRECTION _DIR_>
double	compute_flux_local_ (double d0, double d1, double surface, double input_left, double input_centre, double lambda_left, double lambda_centre, double structural_model)
template<DIRECTION _DIR_>
BOUNDARY_FLUX	flux_determined_by_boundary_condition_ (int k)
template<DIRECTION _DIR_>
double	compute_flux_local_boundary_condition_ (BOUNDARY_FLUX type_boundary_flux, int i, int j)
template<DIRECTION _DIR_>
Vecteur3	compute_surface_d0_d1_ (int k)
const IJK_Field_local_double &	get_model (DIRECTION _DIR_)
	OWN_PTR (Corrige_flux_FT_base) *corrige_flux_
Protected Member Functions inherited from Operateur_IJK_elem_base_double
virtual void	Operator_IJK_div (const IJK_Field_local_double &flux_x, const IJK_Field_local_double &flux_y, const IJK_Field_local_double &flux_zmin, const IJK_Field_local_double &flux_zmax, IJK_Field_double &resu, int k_layer, bool add)
virtual void	correct_flux (IJK_Field_local_double *const flux, const int k_layer, const int dir)
virtual void	correct_flux_spherical (Simd_double &a, Simd_double &b, const int &i, const int &j, int k_layer, int dir)
Protected Member Functions inherited from Objet_U
	Objet_U ()
	Constructeur par defaut : attribue un numero d'identifiant unique a l'objet (object_id_), et enregistre l'objet en "memoire".
	Objet_U (const Objet_U &)
	Constructeur par copie.
const Objet_U &	operator= (const Objet_U &)
	Operateur= : ne fait rien (on conserve le numero et l'identifiant).
virtual void	set_param (Param &) const

Protected Attributes
Operateur_IJK_data_channel	channel_data_
bool	perio_k_
const IJK_Field_double *	input_field_
const IJK_Field_local_double *	lambda_
const double *	uniform_lambda_
const double *	uniform_lambda_liquid_
const double *	uniform_lambda_vapour_
const IJK_Field_local_double *	coeff_field_x_
const IJK_Field_local_double *	coeff_field_y_
const IJK_Field_local_double *	coeff_field_z_
const IJK_Field_local_double *	boundary_flux_kmin_
const IJK_Field_local_double *	boundary_flux_kmax_
const IJK_Field_local_double *	indicatrice_
bool	is_anisotropic_
bool	is_vectorial_
bool	is_structural_
bool	is_uniform_
bool	is_corrected_
bool	is_hess_
bool	is_flux_
Protected Attributes inherited from Operateur_IJK_elem_base_double
bool	runge_kutta_flux_correction_ = false
int	rk_step_ = -1
double	dt_tot_ = 0.
IJK_Field_vector3_double *	current_fluxes_
IJK_Field_vector3_double *	RK3_F_fluxes_

Additional Inherited Members
Static Public Member Functions inherited from Objet_U
static const Nom &	nom_du_cas ()
	Renvoie une reference constante vers le nom du cas.
static Nom &	get_set_nom_du_cas ()
	Renvoie une reference non constante vers le nom du cas (pour pouvoir le modifier).
static const Type_info *	info ()
	Donne des informations sur le type de l'Objet_U.
static const Objet_U &	self_cast (const Objet_U &)
	methode ajoutee pour caster en python
static Objet_U &	self_cast (Objet_U &)
Static Public Member Functions inherited from Process
static int	me ()
	renvoie mon rang dans le groupe de communication courant.
static int	nproc ()
	renvoie le nombre de processeurs dans le groupe courant Voir Comm_Group::nproc() et PE_Groups::current_group()
static bool	is_parallel ()
static void	exit (int exit_code=-1)
	Routine de sortie de TRUST dans une region Kokkos.
static double	mp_sum (double)
	Calcule la somme de x sur tous les processeurs du groupe courant.
static float	mp_sum (float)
static trustIdType	mp_sum (trustIdType)
	Calcule la somme de x sur tous les processeurs du groupe courant.
static double	mp_max (double)
static double	mp_min (double)
static int	mp_max (int)
	renvoie le plus grand int i sur l'ensemble des processeurs du groupe courant.
static int	mp_min (int)
	renvoie le plus petit int i sur l'ensemble des processeurs du groupe courant.
static double	mp_sum_as_double (int v)
static trustIdType	mppartial_sum (trustIdType i)
	Calul de la somme partielle de i sur les processeurs 0 a me()-1 (renvoie 0 sur le processeur 0).
template<typename T>
static void	mp_sum_for_each (T &arg1, T &arg2)
	C++14 compatible mp_sum_for_each: combine multiple mp_sum calls into one collective operation Usage: mp_sum_for_each(a, b); mp_sum_for_each(a, b, c); mp_sum_for_each(a, b, c, d); mp_sum_for_each(a, b, c, d, e); All arguments must be of the same type (double or int) and are modified in place. Supports 2-5 parameters.
template<typename T>
static void	mp_sum_for_each (T &arg1, T &arg2, T &arg3)
template<typename T>
static void	mp_sum_for_each (T &arg1, T &arg2, T &arg3, T &arg4)
template<typename T>
static void	mp_sum_for_each (T &arg1, T &arg2, T &arg3, T &arg4, T &arg5)
template<typename T>
static void	mp_max_for_each (T &arg1, T &arg2)
	C++14 compatible mp_max_for_each: combine multiple mp_max calls into one collective operation.
template<typename T>
static void	mp_max_for_each (T &arg1, T &arg2, T &arg3)
template<typename T>
static void	mp_max_for_each (T &arg1, T &arg2, T &arg3, T &arg4)
template<typename T>
static void	mp_max_for_each (T &arg1, T &arg2, T &arg3, T &arg4, T &arg5)
template<typename T>
static void	mp_min_for_each (T &arg1, T &arg2)
	C++14 compatible mp_min_for_each: combine multiple mp_min calls into one collective operation.
template<typename T>
static void	mp_min_for_each (T &arg1, T &arg2, T &arg3)
template<typename T>
static void	mp_min_for_each (T &arg1, T &arg2, T &arg3, T &arg4)
template<typename T>
static void	mp_min_for_each (T &arg1, T &arg2, T &arg3, T &arg4, T &arg5)
template<typename _TYPE_>
static void	mp_sum_for_each_item (TRUSTArray< _TYPE_ > &x, int n=-1)
template<typename _TYPE_>
static void	mp_max_for_each_item (TRUSTArray< _TYPE_ > &x, int n=-1)
template<typename _TYPE_>
static void	mp_min_for_each_item (TRUSTArray< _TYPE_ > &x, int n=-1)
static bool	mp_and (bool)
	Calcule le 'et' logique de b sur tous les processeurs du groupe courant.
static bool	mp_or (bool)
static int	check_int_overflow (trustIdType)
static int	je_suis_maitre ()
	renvoie 1 si on est sur le processeur maitre du groupe courant (c'est a dire me() == 0), 0 sinon.
static KOKKOS_INLINE_FUNCTION void	Kokkos_exit (const char *)
	Routine de sortie de TRUST dans une region Kokkos.
static int	node_master ()
	renvoie 1 si on est sur le processeur maitre du noeud numa, 0 sinon.
static void	exit (const Nom &message, int exit_code=-1)
static bool	is_sequential ()
static void	barrier ()
	Synchronise tous les processeurs du groupe courant (attend que tous les processeurs soient arrives a la barriere).
static void	abort ()
	Routine de sortie de Trio-U sur une erreur abort().
static Sortie &	Journal (int message_level=0)
	Renvoie un objet statique de type Sortie qui sert de journal d'evenements.
static double	ram_processeur ()
static void	imprimer_ram_totale (int all_process=0)
static bool	force_single_file (const int ranks, const Nom &filename)
Static Public Attributes inherited from Objet_U
static double	precision_geom = 1e-10
static constexpr bool	HAS_POINTER = false
static int	dimension =0
static int	format_precision_geom =11
static int	axi =0
static int	bidim_axi =0
static int	DEACTIVATE_SIGINT_CATCH =0
static Type_info	info_obj
static bool	disable_TU =false
	Flag to disable or not the writing of the .TU files.
static bool	stat_per_proc_perf_log =false
	Flag to enable the writing of the statistics detailed per processor in _csv.TU file.
Static Public Attributes inherited from Process
static int	exception_sur_exit =0
static int	multiple_files =5120

Detailed Description

Definition at line 24 of file Operateur_IJK_elem_diff_base.h.

Constructor & Destructor Documentation

◆ Operateur_IJK_elem_diff_base_double()

Operateur_IJK_elem_diff_base_double::Operateur_IJK_elem_diff_base_double ( )

Definition at line 21 of file Operateur_IJK_elem_diff_base.cpp.

Member Function Documentation

◆ ajouter()

void Operateur_IJK_elem_diff_base_double::ajouter	(	const IJK_Field_double &	field,
		IJK_Field_double &	result,
		const IJK_Field_local_double &	boundary_flux_kmin,
		const IJK_Field_local_double &	boundary_flux_kmax )

virtual

Definition at line 101 of file Operateur_IJK_elem_diff_base.cpp.

◆ calculer()

void Operateur_IJK_elem_diff_base_double::calculer	(	const IJK_Field_double &	field,
		IJK_Field_double &	result,
		const IJK_Field_local_double &	boundary_flux_kmin,
		const IJK_Field_local_double &	boundary_flux_kmax )

virtual

Definition at line 83 of file Operateur_IJK_elem_diff_base.cpp.

◆ compute_flux_()

template<DIRECTION _DIR_>

void Operateur_IJK_elem_diff_base_double::compute_flux_	(	IJK_Field_local_double &	resu,
		const int	k_layer )

inlineprotected

Definition at line 40 of file Operateur_IJK_elem_diff_base.tpp.

◆ compute_flux_local_() [1/2]

template<DIRECTION _DIR_>

double Operateur_IJK_elem_diff_base_double::compute_flux_local_	(	double	d0,
		double	d1,
		double	surface,
		double	input_left,
		double	input_centre,
		double	lambda_left,
		double	lambda_centre,
		double	structural_model )

inlineprotected

Definition at line 242 of file Operateur_IJK_elem_diff_base.tpp.

◆ compute_flux_local_() [2/2]

template<DIRECTION _DIR_>

double Operateur_IJK_elem_diff_base_double::compute_flux_local_	(	int	i,
		int	j,
		int	k )

inlineprotected

Definition at line 195 of file Operateur_IJK_elem_diff_base.tpp.

◆ compute_flux_local_boundary_condition_()

template<DIRECTION _DIR_>

double Operateur_IJK_elem_diff_base_double::compute_flux_local_boundary_condition_	(	BOUNDARY_FLUX	type_boundary_flux,
		int	i,
		int	j )

inlineprotected

Definition at line 299 of file Operateur_IJK_elem_diff_base.tpp.

◆ compute_flux_local_x()

double Operateur_IJK_elem_diff_base_double::compute_flux_local_x	(	int	i,
		int	j,
		int	k )

inlineoverridevirtual

Reimplemented from Operateur_IJK_elem_base_double.

Definition at line 76 of file Operateur_IJK_elem_diff_base.h.

◆ compute_flux_local_y()

double Operateur_IJK_elem_diff_base_double::compute_flux_local_y	(	int	i,
		int	j,
		int	k )

inlineoverridevirtual

Reimplemented from Operateur_IJK_elem_base_double.

Definition at line 80 of file Operateur_IJK_elem_diff_base.h.

◆ compute_flux_local_z()

double Operateur_IJK_elem_diff_base_double::compute_flux_local_z	(	int	i,
		int	j,
		int	k )

inlineoverridevirtual

Reimplemented from Operateur_IJK_elem_base_double.

Definition at line 84 of file Operateur_IJK_elem_diff_base.h.

◆ compute_flux_x()

void Operateur_IJK_elem_diff_base_double::compute_flux_x	(	IJK_Field_local_double &	resu,
		const int	k_layer )

inlineoverridevirtual

Implements Operateur_IJK_elem_base_double.

Definition at line 64 of file Operateur_IJK_elem_diff_base.h.

◆ compute_flux_y()

void Operateur_IJK_elem_diff_base_double::compute_flux_y	(	IJK_Field_local_double &	resu,
		const int	k_layer )

inlineoverridevirtual

Implements Operateur_IJK_elem_base_double.

Definition at line 68 of file Operateur_IJK_elem_diff_base.h.

◆ compute_flux_z()

void Operateur_IJK_elem_diff_base_double::compute_flux_z	(	IJK_Field_local_double &	resu,
		const int	k_layer )

inlineoverridevirtual

Implements Operateur_IJK_elem_base_double.

Definition at line 72 of file Operateur_IJK_elem_diff_base.h.

◆ compute_surface_d0_d1_()

template<DIRECTION _DIR_>

Vecteur3 Operateur_IJK_elem_diff_base_double::compute_surface_d0_d1_ ( int k )

inlineprotected

Definition at line 325 of file Operateur_IJK_elem_diff_base.tpp.

◆ flux_determined_by_boundary_condition_()

template<DIRECTION _DIR_>

BOUNDARY_FLUX Operateur_IJK_elem_diff_base_double::flux_determined_by_boundary_condition_ ( int k )

inlineprotected

Definition at line 271 of file Operateur_IJK_elem_diff_base.tpp.

◆ get_model()

const IJK_Field_local_double & Operateur_IJK_elem_diff_base_double::get_model ( DIRECTION _DIR_ )

protected

Definition at line 59 of file Operateur_IJK_elem_diff_base.cpp.

◆ get_uniform_lambda()

double Operateur_IJK_elem_diff_base_double::get_uniform_lambda ( )

inline

Definition at line 56 of file Operateur_IJK_elem_diff_base.h.

◆ initialize()

void Operateur_IJK_elem_diff_base_double::initialize ( const Domaine_IJK & splitting )

overridevirtual

Implements Operateur_IJK_elem_base_double.

Definition at line 77 of file Operateur_IJK_elem_diff_base.cpp.

◆ OWN_PTR()

Operateur_IJK_elem_diff_base_double::OWN_PTR ( Corrige_flux_FT_base )

protected

◆ set_coeff_x_y_z()

void Operateur_IJK_elem_diff_base_double::set_coeff_x_y_z	(	const IJK_Field_local_double &	coeff_field_x,
		const IJK_Field_local_double &	coeff_field_y,
		const IJK_Field_local_double &	coeff_field_z )

inline

Definition at line 47 of file Operateur_IJK_elem_diff_base.h.

◆ set_corrige_flux()

virtual void Operateur_IJK_elem_diff_base_double::set_corrige_flux ( OWN_PTR(Corrige_flux_FT_base)& corrige_flux )

inlinevirtual

Definition at line 31 of file Operateur_IJK_elem_diff_base.h.

◆ set_indicatrice()

virtual void Operateur_IJK_elem_diff_base_double::set_indicatrice ( const IJK_Field_double & indicatrice )

inlinevirtual

Definition at line 30 of file Operateur_IJK_elem_diff_base.h.

◆ set_lambda()

void Operateur_IJK_elem_diff_base_double::set_lambda ( const IJK_Field_local_double & lambda )

inline

Definition at line 45 of file Operateur_IJK_elem_diff_base.h.

◆ set_uniform_lambda()

void Operateur_IJK_elem_diff_base_double::set_uniform_lambda ( const double & uniform_lambda )

inline

Definition at line 41 of file Operateur_IJK_elem_diff_base.h.

◆ set_uniform_lambda_liquid()

void Operateur_IJK_elem_diff_base_double::set_uniform_lambda_liquid ( const double & uniform_lambda_liquid )

inline

Definition at line 42 of file Operateur_IJK_elem_diff_base.h.

◆ set_uniform_lambda_vapour()

void Operateur_IJK_elem_diff_base_double::set_uniform_lambda_vapour ( const double & uniform_lambda_vapour )

inline

Definition at line 43 of file Operateur_IJK_elem_diff_base.h.

Member Data Documentation

◆ boundary_flux_kmax_

const IJK_Field_local_double* Operateur_IJK_elem_diff_base_double::boundary_flux_kmax_

protected

Definition at line 126 of file Operateur_IJK_elem_diff_base.h.

◆ boundary_flux_kmin_

const IJK_Field_local_double* Operateur_IJK_elem_diff_base_double::boundary_flux_kmin_

protected

Definition at line 125 of file Operateur_IJK_elem_diff_base.h.

◆ channel_data_

Operateur_IJK_data_channel Operateur_IJK_elem_diff_base_double::channel_data_

protected

Definition at line 110 of file Operateur_IJK_elem_diff_base.h.

◆ coeff_field_x_

const IJK_Field_local_double* Operateur_IJK_elem_diff_base_double::coeff_field_x_

protected

Definition at line 121 of file Operateur_IJK_elem_diff_base.h.

◆ coeff_field_y_

const IJK_Field_local_double* Operateur_IJK_elem_diff_base_double::coeff_field_y_

protected

Definition at line 122 of file Operateur_IJK_elem_diff_base.h.

◆ coeff_field_z_

const IJK_Field_local_double* Operateur_IJK_elem_diff_base_double::coeff_field_z_

protected

Definition at line 123 of file Operateur_IJK_elem_diff_base.h.

◆ indicatrice_

const IJK_Field_local_double* Operateur_IJK_elem_diff_base_double::indicatrice_

protected

Definition at line 129 of file Operateur_IJK_elem_diff_base.h.

◆ input_field_

const IJK_Field_double* Operateur_IJK_elem_diff_base_double::input_field_

protected

Definition at line 114 of file Operateur_IJK_elem_diff_base.h.

◆ is_anisotropic_

bool Operateur_IJK_elem_diff_base_double::is_anisotropic_

protected

Definition at line 131 of file Operateur_IJK_elem_diff_base.h.

◆ is_corrected_

bool Operateur_IJK_elem_diff_base_double::is_corrected_

protected

Definition at line 135 of file Operateur_IJK_elem_diff_base.h.

◆ is_flux_

bool Operateur_IJK_elem_diff_base_double::is_flux_

protected

Definition at line 137 of file Operateur_IJK_elem_diff_base.h.

◆ is_hess_

bool Operateur_IJK_elem_diff_base_double::is_hess_

protected

Definition at line 136 of file Operateur_IJK_elem_diff_base.h.

◆ is_structural_

bool Operateur_IJK_elem_diff_base_double::is_structural_

protected

Definition at line 133 of file Operateur_IJK_elem_diff_base.h.

◆ is_uniform_

bool Operateur_IJK_elem_diff_base_double::is_uniform_

protected

Definition at line 134 of file Operateur_IJK_elem_diff_base.h.

◆ is_vectorial_

bool Operateur_IJK_elem_diff_base_double::is_vectorial_

protected

Definition at line 132 of file Operateur_IJK_elem_diff_base.h.

◆ lambda_

const IJK_Field_local_double* Operateur_IJK_elem_diff_base_double::lambda_

protected

Definition at line 116 of file Operateur_IJK_elem_diff_base.h.

◆ perio_k_

bool Operateur_IJK_elem_diff_base_double::perio_k_

protected

Definition at line 111 of file Operateur_IJK_elem_diff_base.h.

◆ uniform_lambda_

const double* Operateur_IJK_elem_diff_base_double::uniform_lambda_

protected

Definition at line 117 of file Operateur_IJK_elem_diff_base.h.

◆ uniform_lambda_liquid_

const double* Operateur_IJK_elem_diff_base_double::uniform_lambda_liquid_

protected

Definition at line 118 of file Operateur_IJK_elem_diff_base.h.

◆ uniform_lambda_vapour_

const double* Operateur_IJK_elem_diff_base_double::uniform_lambda_vapour_

protected

Definition at line 119 of file Operateur_IJK_elem_diff_base.h.

The documentation for this class was generated from the following files:

/home/docs/checkouts/readthedocs.org/user_builds/triocfd-documentation/checkouts/next/src/Multiphase/Front_tracking_discontinu/IJK/FOR_TRUST/Operateurs/Operateur_IJK_elem_diff_base.h
/home/docs/checkouts/readthedocs.org/user_builds/triocfd-documentation/checkouts/next/src/Multiphase/Front_tracking_discontinu/IJK/FOR_TRUST/Operateurs/Operateur_IJK_elem_diff_base.cpp
/home/docs/checkouts/readthedocs.org/user_builds/triocfd-documentation/checkouts/next/src/Multiphase/Front_tracking_discontinu/IJK/FOR_TRUST/Operateurs/Operateur_IJK_elem_diff_base.tpp

Public Member Functions

Protected Member Functions

Protected Attributes

Additional Inherited Members

Detailed Description

Constructor & Destructor Documentation

◆ Operateur_IJK_elem_diff_base_double()

Member Function Documentation

◆ ajouter()

◆ calculer()

◆ compute_flux_()

◆ compute_flux_local_() [1/2]

◆ compute_flux_local_() [2/2]

◆ compute_flux_local_boundary_condition_()

◆ compute_flux_local_x()

◆ compute_flux_local_y()

◆ compute_flux_local_z()

◆ compute_flux_x()

◆ compute_flux_y()

◆ compute_flux_z()

◆ compute_surface_d0_d1_()

◆ flux_determined_by_boundary_condition_()

◆ get_model()

◆ get_uniform_lambda()

◆ initialize()

◆ OWN_PTR()

◆ set_coeff_x_y_z()

◆ set_corrige_flux()

◆ set_indicatrice()

◆ set_lambda()

◆ set_uniform_lambda()

◆ set_uniform_lambda_liquid()

◆ set_uniform_lambda_vapour()

Member Data Documentation

◆ boundary_flux_kmax_

◆ boundary_flux_kmin_

◆ channel_data_

◆ coeff_field_x_

◆ coeff_field_y_

◆ coeff_field_z_

◆ indicatrice_

◆ input_field_

◆ is_anisotropic_

◆ is_corrected_

◆ is_flux_

◆ is_hess_

◆ is_structural_

◆ is_uniform_

◆ is_vectorial_

◆ lambda_

◆ perio_k_

◆ uniform_lambda_

◆ uniform_lambda_liquid_

◆ uniform_lambda_vapour_