Lorene prototypes. More...

Classes
class	Base_val
	Bases of the spectral expansions. More...
class	Base_vect
	Vectorial bases (triads) with respect to which the tensorial components are defined. More...
class	Base_vect_cart
	Cartesian vectorial bases (triads). More...
class	Base_vect_spher
	Spherical orthonormal vectorial bases (triads). More...
class	Bhole
	Black hole. More...
class	Bhole_binaire
	Binary black holes system. More...
class	Bin_bhns
	Class for computing a black hole - neutron star binary system with comparable mass (). More...
class	Bin_bhns_extr
	Class for computing a Black hole - Neutron star binary system with an extreme mass ratio. More...
class	Bin_ns_bh
	Neutron star - black hole binary system. More...
class	Bin_ns_ncp
	Extended description of the class for Doc++ documentation. More...
class	Binaire
	Binary systems. More...
class	Binary
	Binary systems. More...
class	Binary_xcts
	Binary systems in eXtended Conformal Thin Sandwich formulation. More...
class	Black_hole
	Base class for black holes. More...
class	Boson_star
	Class for stationary axisymmetric boson stars (under development). More...
class	Change_var
	This class defines a variable change to be used when solving elliptic equations. More...
class	Cmp
	Component of a tensorial field * DEPRECATED : use class `Scalar` instead *. More...
class	Compobj
	Base class for stationary compact objects (under development). More...
class	Compobj_QI
	Base class for axisymmetric stationary compact objects in Quasi-Isotropic coordinates (under development). More...
class	Star_QI
	Base class for axisymmetric stationary compact stars in Quasi-Isotropic coordinates (under development). More...
class	Kerr_QI
	Kerr spacetime in Quasi-Isotropic coordinates (under development). More...
class	AltBH_QI
	Alternative black hole spacetime in Quasi-Isotropic coordinates (under development). More...
class	ScalarBH
	Black hole with scalar hair spacetime (under development). More...
class	HiggsMonopole
	Higgs monopole (under development). More...
class	Connection
	Class Connection. More...
class	Connection_flat
	Class Connection_flat. More...
class	Connection_fspher
	Class Connection_fspher. More...
class	Connection_fcart
	Class Connection_fcart. More...
class	Coord
	Active physical coordinates and mapping derivatives. More...
class	Diff
	Base (abstract) class for 1D spectral differential operators in one domain. More...
class	Diff_dsdx
	Class for the elementary differential operator $\frac{\partial}{\partial \xi}$ (see the base class `Diff` ). More...
class	Diff_dsdx2
	Class for the elementary differential operator $\frac{\partial^2}{\partial \xi^2}$ (see the base class `Diff` ). More...
class	Diff_id
	Class for the elementary differential operator `Identity` (see the base class `Diff` ). More...
class	Diff_mx
	Class for the elementary differential operator multiplication by $\xi$ (see the base class `Diff` ). More...
class	Diff_mx2
	Class for the elementary differential operator multiplication by $\xi^2$ (see the base class `Diff` ). More...
class	Diff_sx
	Class for the elementary differential operator division by $\xi - 1$ (see the base class `Diff` ). More...
class	Diff_sx2
	Class for the elementary differential operator division by $\xi^2$ (see the base class `Diff` ). More...
class	Diff_xdsdx
	Class for the elementary differential operator $\xi \frac{\partial}{\partial \xi}$ (see the base class `Diff` ). More...
class	Diff_sxdsdx
	Class for the elementary differential operator $\frac{1}{\xi} \frac{\partial}{\partial \xi}$ (see the base class `Diff` ). More...
class	Diff_x2dsdx2
	Class for the elementary differential operator $\xi^2 \frac{\partial^2}{\partial \xi^2}$ (see the base class `Diff` ). More...
class	Diff_xdsdx2
	Class for the elementary differential operator $\xi \frac{\partial^2}{\partial \xi^2}$ (see the base class `Diff` ). More...
class	Diff_x2dsdx
	Class for the elementary differential operator $\xi^2 \frac{\partial}{\partial \xi}$ (see the base class `Diff` ). More...
class	Diff_x3dsdx
	Class for the elementary differential operator $\xi^3 \frac{\partial}{\partial \xi}$ (see the base class `Diff` ). More...
class	Diff_x3dsdx2
	Class for the elementary differential operator $\xi^3 \frac{\partial^2}{\partial \xi^2}$ (see the base class `Diff` ). More...
class	Diff_x4dsdx2
	Class for the elementary differential operator $\xi^4 \frac{\partial^2}{\partial \xi^2}$ (see the base class `Diff` ). More...
class	Dim_tbl
	Storage of array dimensions. More...
class	Eos
	Equation of state base class. More...
class	Eos_poly
	Polytropic equation of state (relativistic case). More...
class	Eos_poly_newt
	Polytropic equation of state (Newtonian case). More...
class	Eos_incomp
	Equation of state of incompressible matter (relativistic case). More...
class	Eos_incomp_newt
	Equation of state of incompressible matter (Newtonian case). More...
class	Eos_strange
	Strange matter EOS (MIT Bag model). More...
class	Eos_strange_cr
	Strange matter EOS (MIT Bag model) with crust. More...
class	Eos_Fermi
	Degenerate ideal Fermi gas. More...
class	MEos
	EOS with domain dependency. More...
class	Eos_bifluid
	2-fluids equation of state base class. More...
class	Eos_bf_poly
	Analytic equation of state for two fluids (relativistic case). More...
class	Eos_bf_poly_newt
	Analytic equation of state for two fluids (Newtonian case). More...
class	Eos_bf_tabul
	Class for a two-fluid (tabulated) equation of state. More...
class	Eos_CompOSE
	Equation of state for the CompOSE database. More...
class	Eos_consistent
	Equation of state for the CompOSE database with a consistent computation of the log-enthalpy (derived from `Eos_CompOSE` ). More...
class	Eos_fitting
	Base class for the analytically fitted equation of state. More...
class	Eos_fit_SLy4
	Fitted equation of state of SLy4. More...
class	Eos_fit_FPS
	Fitted equation of state of FPS. More...
class	Eos_fit_AkmalPR
	Fitted equation of state of AkmalPR. More...
class	Eos_mag
	Class for a magnetized (tabulated) equation of state. More...
class	Eos_multi_poly
	Base class for a multiple polytropic equation of state. More...
class	Eos_tabul
	Base class for tabulated equations of state. More...
class	Eos_SLy4
	Equation of state SLy4 (Douchin & Haensel 2001). More...
class	Eos_FPS
	Equation of state FPS (Friedman-Pandharipande + Skyrme). More...
class	Eos_BPAL12
	Equation of state BPAL12 (Bombaci et al 1995). More...
class	Eos_AkmalPR
	Equation of state AkmalPR (Akmal, Pandharipande & Ravenhall 1998). More...
class	Eos_BBB2
	Equation of state BBB2 (Baldo, Bombaci & Burgio 1997). More...
class	Eos_BalbN1H1
	Equation of state BalbN1H1 (Balberg 2000). More...
class	Eos_GlendNH3
	Equation of state GlendNH3 (Glendenning 1985, case 3 ). More...
class	Et_bin_bhns_extr
	Class for a neutron star in black hole - neutron star binary systems. More...
class	Et_bin_nsbh
	Class for a star in a NS-BH binary system. More...
class	Et_rot_bifluid
	Class for two-fluid rotating relativistic stars. More...
class	Et_rot_diff
	Class for differentially rotating stars. More...
class	Et_rot_mag
	Class for magnetized (isolator or perfect conductor), rigidly rotating stars. More...
class	Et_magnetisation
class	Etoile
	Base class for stars * DEPRECATED : use class `Star` instead *. More...
class	Etoile_bin
	Class for stars in binary system. More...
class	Etoile_rot
	Class for isolated rotating stars * DEPRECATED : use class `Star_rot` instead *. More...
class	Evolution
	Time evolution (* under development *). More...
class	Evolution_full
	Time evolution with full storage (* under development *). More...
class	Evolution_std
	Time evolution with partial storage (* under development *). More...
class	Excised_slice
	Class to compute single black hole spacetime excised slices. More...
class	Excision_hor
	Surface where boundary conditions for quantities in the bulk will be calculated It relies on geometrical properties of the associated Spheroid() (*** WARNING! More...
class	Excision_surf
	Surface where boundary conditions for quantities in the bulk will be calculated It relies on geometrical properties of the associated Spheroid() (*** WARNING! More...
class	Gravastar
	Class for perfect fluid rotating gravastar. More...
class	Grille_val
	Base class for Godunov-type grids. More...
class	Gval_cart
	Class for cartesian Godunov-type grids. More...
class	Gval_spher
	Class for spherical Godunov-type grids. More...
class	Grille3d
	3D grid class in one domain. More...
class	Mg3d
	Multi-domain grid. More...
class	Hole_bhns
	Class for black holes in black hole-neutron star binaries. More...
class	Hot_eos
	Base class for temperature-dependent equations of state (abstract class). More...
class	Ideal_gas
	Ideal-gas (temperature-dependent) equation of state, with mass-term in the energy density. More...
class	Hoteos_tabul
	Hot (temperature-dependent) tabulated equation of state, read from a file. More...
class	Isol_hole
	Class to compute quasistationary single black hole spacetimes in vacuum. More...
class	Isol_hor
	Spacelike time-slice of an Isolated Horizon in a 3+1 spacetime with conformal decomposition. More...
class	Single_hor
	Binary black holes system. More...
class	Bin_hor
class	Itbl
	Basic integer array class. More...
class	Map_radial
	Base class for pure radial mappings. More...
class	Map_af
	Affine radial mapping. More...
class	Map_et
	Radial mapping of rather general form. More...
class	Map_log
	Logarithmic radial mapping. More...
class	Matrice
	Matrix handling. More...
class	Metric
	Metric for tensor calculation. More...
class	Metric_flat
	Flat metric for tensor calculation. More...
class	Mtbl
	Multi-domain array. More...
class	Mtbl_cf
	Coefficients storage for the multi-domain spectral method. More...
class	Ope_elementary
	Basic class for elementary elliptic operators. More...
class	Ope_poisson
	Class for the operator of the Poisson equation (i.e. More...
class	Ope_helmholtz_minus
	Class for the Helmholtz operator $\Delta - m^2$ ( ). More...
class	Ope_helmholtz_plus
	Class for the Helmholtz operator $\Delta + m^2$ (m > 0). More...
class	Ope_sec_order_r2
	Class for operator of the type $a r^2 \partial^2 / \partial r^2 + b r \partial / \partial r + c$ . More...
class	Ope_sec_order
	Class for operator of the type $a \partial^2 / \partial r^2 + b \partial / \partial r + c$ . More...
class	Ope_pois_vect_r
	Class for the operator of the r component of the vector Poisson equation. More...
class	Ope_pois_tens_rr
	Class for the operator of the rr component of the divergence-free tensor Poisson equation. More...
class	Ope_poisson_2d
	Class for the operator of the Poisson equation in 2D. More...
class	Ope_helmholtz_minus_2d
	Class for the operator of the Helmholtz equation in 2D. More...
class	Ope_poisson_pseudo_1d
	Class for the operator of the Poisson equation in pseudo 1d. More...
class	Ope_helmholtz_minus_pseudo_1d
	Class for the operator of the modified Helmholtz equation in pseudo-1d. More...
class	Ope_vorton
	Class for the operator appearing for the vortons. More...
class	Param
	Parameter storage. More...
class	Param_elliptic
	This class contains the parameters needed to call the general elliptic solver. More...
class	Scalar
	Tensor field of valence 0 (or component of a tensorial field). More...
class	Spheroid
	Spheroidal 2-surfaces embedded in a time-slice of the 3+1 formalism. More...
class	App_hor
	Class describing an apparent horizon. More...
class	Star
	Base class for stars. More...
class	Star_bin
	Class for stars in binary system. More...
class	Star_bin_xcts
	Class for stars in binary system in eXtended Conformal Thin Sandwich formulation. More...
class	Star_bhns
	Class for stars in black hole-neutron star binaries. More...
class	Star_rot
	Class for isolated rotating stars. More...
class	Star_rot_Dirac
	Class for relativistic rotating stars in Dirac gauge and maximal slicing. More...
class	Star_rot_Dirac_diff
	Class for relativistic differentially rotating stars in Dirac gauge and maximal slicing. More...
class	Sym_tensor
	Class intended to describe valence-2 symmetric tensors. More...
class	Sym_tensor_trans
	Transverse symmetric tensors of rank 2. More...
class	Sym_tensor_tt
	Transverse and traceless symmetric tensors of rank 2. More...
class	Tbl
	Basic array class. More...
class	Tbl_val
	Finite-difference array intended to store field values. More...
class	Tenseur
	Tensor handling * DEPRECATED : use class `Tensor` instead *. More...
class	Tenseur_sym
	Class intended to describe tensors with a symmetry on the two last indices * DEPRECATED : use class `Tensor_sym` instead *. More...
class	Tensor
	Tensor handling. More...
class	Tensor_sym
	Symmetric tensors (with respect to two of their arguments). More...
class	Time_slice
	Spacelike time slice of a 3+1 spacetime. More...
class	Time_slice_conf
	Spacelike time slice of a 3+1 spacetime with conformal decomposition. More...
class	Tslice_dirac_max
	Spacelike time slice of a 3+1 spacetime with conformal decomposition in the maximal slicing and Dirac gauge. More...
class	Valeur
	Values and coefficients of a (real-value) function. More...
class	Vector
	Tensor field of valence 1. More...
class	Vector_divfree
	Divergence-free vectors. More...

Functions
bool	ah_finder (const Metric &gamma, const Sym_tensor &k_dd_in, Valeur &h, Scalar &ex_fcn, double a_axis, double b_axis, double c_axis, bool verbose=true, bool print=false, double precis=1.e-8, double precis_exp=1.e-6, int it_max=200, int it_relax=200, double relax_fac=1.)
	Class for apparent horizon (under heavy development).
ostream &	operator<< (ostream &o, const Base_val &bi)
Base_val	operator* (const Base_val &b1, const Base_val &b2)
	This operator is used when calling multiplication or division of `Valeur` .
ostream &	operator<< (ostream &ost, const Base_vect &bvect)
ostream &	operator<< (ostream &ost, const Bin_bhns &bibi)
ostream &	operator<< (ostream &ost, const Bin_bhns_extr &bibi)
ostream &	operator<< (ostream &ost, const Bin_ns_bh &bibi)
ostream &	operator<< (ostream &, const Bin_ns_ncp &)
ostream &	operator<< (ostream &ost, const Binaire &bibi)
ostream &	operator<< (ostream &ost, const Binary &bibi)
ostream &	operator<< (ostream &ost, const Binary_xcts &bibi)
ostream &	operator<< (ostream &ost, const Black_hole &bh)
ostream &	operator<< (ostream &o, const Cmp &ci)
Cmp	operator+ (const Cmp &)
Cmp	operator- (const Cmp &)
	`-` Cmp
Cmp	operator+ (const Cmp &, const Cmp &)
	Cmp + Cmp.
Cmp	operator+ (const Cmp &, double)
	Cmp + double.
Cmp	operator+ (double, const Cmp &)
	double + Cmp
Cmp	operator+ (const Cmp &, int)
	Cmp + int.
Cmp	operator+ (int, const Cmp &)
	int + Cmp
Cmp	operator- (const Cmp &, const Cmp &)
	Cmp - Cmp.
Cmp	operator- (const Cmp &, double)
	Cmp - double.
Cmp	operator- (double, const Cmp &)
	double - Cmp
Cmp	operator- (const Cmp &, int)
	Cmp - int.
Cmp	operator- (int, const Cmp &)
	int - Cmp
Cmp	operator* (const Cmp &, const Cmp &)
	Cmp * Cmp.
Cmp	operator% (const Cmp &, const Cmp &)
	Cmp * Cmp with desaliasing.
Cmp	operator* (const Cmp &, double)
	Cmp * double.
Cmp	operator* (double, const Cmp &)
	double * Cmp
Cmp	operator* (const Cmp &, int)
	Cmp * int.
Cmp	operator* (int, const Cmp &)
	int * Cmp
Cmp	operator/ (const Cmp &, const Cmp &)
	Cmp / Cmp.
Cmp	operator/ (const Cmp &, double)
	Cmp / double.
Cmp	operator/ (double, const Cmp &)
	double / Cmp
Cmp	operator/ (const Cmp &, int)
	Cmp / int.
Cmp	operator/ (int, const Cmp &)
	int / Cmp
Cmp	sin (const Cmp &)
	Sine.
Cmp	cos (const Cmp &)
	Cosine.
Cmp	tan (const Cmp &)
	Tangent.
Cmp	asin (const Cmp &)
	Arcsine.
Cmp	acos (const Cmp &)
	Arccosine.
Cmp	atan (const Cmp &)
	Arctangent.
Cmp	exp (const Cmp &)
	Exponential.
Cmp	log (const Cmp &)
	Neperian logarithm.
Cmp	log10 (const Cmp &)
	Basis 10 logarithm.
Cmp	sqrt (const Cmp &)
	Square root.
Cmp	racine_cubique (const Cmp &)
	Cube root.
Cmp	pow (const Cmp &, int)
	Power ${\tt Cmp} ^{\tt int}$ .
Cmp	pow (const Cmp &, double)
	Power ${\tt Cmp} ^{\tt double}$ .
Cmp	abs (const Cmp &)
	Absolute value.
Tbl	max (const Cmp &)
	Maximum values of a `Cmp` in each domain.
Tbl	min (const Cmp &)
	Minimum values of a `Cmp` in each domain.
Tbl	norme (const Cmp &)
	Sums of the absolute values of all the values of the `Cmp` in each domain.
Tbl	diffrel (const Cmp &a, const Cmp &b)
	Relative difference between two `Cmp` (norme version).
Tbl	diffrelmax (const Cmp &a, const Cmp &b)
	Relative difference between two `Cmp` (max version).
ostream &	operator<< (ostream &o, const Coord &ci)
Mtbl	operator+ (const Coord &)
Mtbl	operator- (const Coord &)
	`-` `Coord`
Mtbl	operator+ (const Coord &a, const Coord &b)
	`Coord` + `Coord`
Mtbl	operator- (const Coord &a, const Coord &b)
	`Coord` - `Coord`
Mtbl	operator* (const Coord &a, const Coord &b)
	`Coord` * `Coord`
Mtbl	operator+ (const Coord &a, const Mtbl &b)
	`Coord` + `Mtbl`
Mtbl	operator- (const Coord &a, const Mtbl &b)
	`Coord` - `Mtbl`
Mtbl	operator* (const Coord &a, const Mtbl &b)
	`Coord` * `Mtbl`
Mtbl	operator+ (const Mtbl &a, const Coord &b)
	`Mtbl` + `Coord`
Mtbl	operator- (const Mtbl &a, const Coord &b)
	`Mtbl` - `Coord`
Mtbl	operator* (const Mtbl &a, const Coord &b)
	`Mtbl` * `Coord`
ostream &	operator<< (ostream &o, const Dim_tbl &titi)
ostream &	operator<< (ostream &ost, const Eos &eqetat)
ostream &	operator<< (ostream &ost, const Eos_bifluid &eqetat)
Cmp	prolonge_c1 (const Cmp &uu, const int nzet)
ostream &	operator<< (ostream &ost, const Etoile &et)
ostream &	operator<< (ostream &, const Spheroid &)
ostream &	operator<< (ostream &o, const Grille_val &titi)
ostream &	operator<< (ostream &o, const Mg3d &g)
int	std_base_scal_1z (int type_r, int type_t, int type_p)
int	std_base_scal_odd_1z (int type_r, int type_t, int type_p)
int	leg_base_scal_1z (int type_r, int type_t, int type_p)
int	leg_base_scal_odd_1z (int type_r, int type_t, int type_p)
int	jac02_base_scal_1z (int type_r, int type_t, int type_p)
int	jac02_base_scal_odd_1z (int type_r, int type_t, int type_p)
ostream &	operator<< (ostream &ost, const Hot_eos &eqetat)
ostream &	operator<< (ostream &o, const Itbl &t)
Itbl	operator+ (const Itbl &)
Itbl	operator- (const Itbl &)
Itbl	operator+ (const Itbl &, const Itbl &)
	Itbl + Itbl.
Itbl	operator+ (const Itbl &, int)
	Itbl + int.
Itbl	operator+ (int a, const Itbl &b)
	int + Itbl
Itbl	operator- (const Itbl &, const Itbl &)
	Itbl - Itbl.
Itbl	operator- (const Itbl &, int)
	Itbl - int.
Itbl	operator- (int, const Itbl &)
	int - Itbl
Itbl	operator* (const Itbl &, const Itbl &)
	Itbl * Itbl.
Itbl	operator* (const Itbl &, int)
	Itbl * int.
Itbl	operator* (int, const Itbl &)
	int * Itbl
Itbl	abs (const Itbl &)
	Absolute value.
int	max (const Itbl &)
	Maximum value of the `Itbl` elements.
int	min (const Itbl &)
	Minimum value of the `Itbl` elements.
int	norme (const Itbl &)
	Sum of the absolute values of all the `Itbl` elements.
double	diffrel (const Itbl &a, const Itbl &b)
	Relative difference between two `Itbl` (norme version).
double	diffrelmax (const Itbl &a, const Itbl &b)
	Relative difference between two `Itbl` (max version).
	Map (const Mg3d &)
	Constructor from a multi-domain 3D grid.
	Map (const Map &)
	Copy constructor.
	Map (const Mg3d &, FILE *)
	Constructor from a file (see `sauve(FILE* )` ).
virtual	~Map ()
	Destructor.
virtual void	reset_coord ()
	Resets all the member `Coords`.
virtual ostream &	operator>> (ostream &) const =0
	Operator >>.
virtual void	sauve (FILE *) const
	Save in a file.
const Mg3d *	get_mg () const
	Gives the `Mg3d` on which the mapping is defined.
double	get_ori_x () const
	Returns the x coordinate of the origin.
double	get_ori_y () const
	Returns the y coordinate of the origin.
double	get_ori_z () const
	Returns the z coordinate of the origin.
double	get_rot_phi () const
	Returns the angle between the x –axis and X –axis.
const Base_vect_spher &	get_bvect_spher () const
	Returns the orthonormal vectorial basis $(\partial/\partial r,1/r\partial/\partial \theta, 1/(r\sin\theta)\partial/\partial \phi)$ associated with the coordinates $(r, \theta, \phi)$ of the mapping.
const Base_vect_cart &	get_bvect_cart () const
	Returns the Cartesian basis $(\partial/\partial x,\partial/\partial y,\partial/\partial z)$ associated with the coordinates (x,y,z) of the mapping, i.e.
const Metric_flat &	flat_met_spher () const
	Returns the flat metric associated with the spherical coordinates and with components expressed in the triad `bvect_spher`.
const Metric_flat &	flat_met_cart () const
	Returns the flat metric associated with the Cartesian coordinates and with components expressed in the triad `bvect_cart`.
const Cmp &	cmp_zero () const
	Returns the null `Cmp` defined on `*this`.
virtual const Map_af &	mp_angu (int) const =0
	Returns the "angular" mapping for the outside of domain `l_zone`.
void	convert_absolute (double xx, double yy, double zz, double &rr, double &theta, double &pphi) const
	Determines the coordinates $(r,\theta,\phi)$ corresponding to given absolute Cartesian coordinates (X,Y,Z).
virtual double	val_r (int l, double xi, double theta, double pphi) const =0
	Returns the value of the radial coordinate r for a given $(\xi, \theta', \phi')$ in a given domain.
virtual void	val_lx (double rr, double theta, double pphi, int &l, double &xi) const =0
	Computes the domain index l and the value of $\xi$ corresponding to a point given by its physical coordinates $(r, \theta, \phi)$ .
virtual void	val_lx (double rr, double theta, double pphi, const Param &par, int &l, double &xi) const =0
	Computes the domain index l and the value of $\xi$ corresponding to a point given by its physical coordinates $(r, \theta, \phi)$ .
virtual bool	operator== (const Map &) const =0
	Comparison operator (egality).
void	set_ori (double xa0, double ya0, double za0)
	Sets a new origin.
void	set_rot_phi (double phi0)
	Sets a new rotation angle.
virtual void	homothetie (double lambda)=0
	Sets a new radial scale.
virtual void	resize (int l, double lambda)=0
	Rescales the outer boundary of one domain.
virtual void	operator= (const Map_af &)=0
	Assignment to an affine mapping.
virtual void	adapt (const Cmp &ent, const Param &par, int nbr=0)=0
	Adaptation of the mapping to a given scalar field.
virtual void	reevaluate (const Map *mp_prev, int nzet, Cmp &uu) const =0
	Recomputes the values of a `Cmp` at the collocation points after a change in the mapping.
virtual void	reevaluate_symy (const Map *mp_prev, int nzet, Cmp &uu) const =0
	Recomputes the values of a `Cmp` at the collocation points after a change in the mapping.
virtual void	reevaluate (const Map *mp_prev, int nzet, Scalar &uu) const =0
	Recomputes the values of a `Scalar` at the collocation points after a change in the mapping.
virtual void	reevaluate_symy (const Map *mp_prev, int nzet, Scalar &uu) const =0
	Recomputes the values of a `Scalar` at the collocation points after a change in the mapping.
virtual void	dsdxi (const Cmp &ci, Cmp &resu) const =0
	Computes $\partial/ \partial \xi$ of a `Cmp` .
virtual void	dsdr (const Cmp &ci, Cmp &resu) const =0
	Computes $\partial/ \partial r$ of a `Cmp` .
virtual void	srdsdt (const Cmp &ci, Cmp &resu) const =0
	Computes $1/r \partial/ \partial \theta$ of a `Cmp` .
virtual void	srstdsdp (const Cmp &ci, Cmp &resu) const =0
	Computes $1/(r\sin\theta) \partial/ \partial \phi$ of a `Cmp` .
virtual void	dsdxi (const Scalar &uu, Scalar &resu) const =0
	Computes $\partial/ \partial xi$ of a `Scalar` .
virtual void	dsdr (const Scalar &uu, Scalar &resu) const =0
	Computes $\partial/ \partial r$ of a `Scalar` .
virtual void	dsdradial (const Scalar &uu, Scalar &resu) const =0
	Computes $\partial/ \partial r$ of a `Scalar` if the description is affine and $\partial/ \partial \ln r$ if it is logarithmic.
virtual void	srdsdt (const Scalar &uu, Scalar &resu) const =0
	Computes $1/r \partial/ \partial \theta$ of a `Scalar` .
virtual void	srstdsdp (const Scalar &uu, Scalar &resu) const =0
	Computes $1/(r\sin\theta) \partial/ \partial \phi$ of a `Scalar` .
virtual void	dsdt (const Scalar &uu, Scalar &resu) const =0
	Computes $\partial/ \partial \theta$ of a `Scalar` .
virtual void	stdsdp (const Scalar &uu, Scalar &resu) const =0
	Computes $1/\sin\theta \partial/ \partial \varphi$ of a `Scalar` .
virtual void	laplacien (const Scalar &uu, int zec_mult_r, Scalar &lap) const =0
	Computes the Laplacian of a scalar field.
virtual void	laplacien (const Cmp &uu, int zec_mult_r, Cmp &lap) const =0
	Computes the Laplacian of a scalar field (`Cmp` version).
virtual void	lapang (const Scalar &uu, Scalar &lap) const =0
	Computes the angular Laplacian of a scalar field.
virtual void	primr (const Scalar &uu, Scalar &resu, bool null_infty) const =0
	Computes the radial primitive which vanishes for $r\to \infty$ .
virtual void	mult_r (Scalar &uu) const =0
	Multiplication by r of a `Scalar` , the `dzpuis` of `uu` is not changed.
virtual void	mult_r (Cmp &ci) const =0
	Multiplication by r of a `Cmp` .
virtual void	mult_r_zec (Scalar &) const =0
	Multiplication by r (in the compactified external domain only) of a `Scalar`.
virtual void	mult_rsint (Scalar &) const =0
	Multiplication by $r\sin\theta$ of a `Scalar`.
virtual void	div_rsint (Scalar &) const =0
	Division by $r\sin\theta$ of a `Scalar`.
virtual void	div_r (Scalar &) const =0
	Division by r of a `Scalar`.
virtual void	div_r_zec (Scalar &) const =0
	Division by r (in the compactified external domain only) of a `Scalar`.
virtual void	mult_cost (Scalar &) const =0
	Multiplication by $\cos\theta$ of a `Scalar`.
virtual void	div_cost (Scalar &) const =0
	Division by $\cos\theta$ of a `Scalar`.
virtual void	mult_sint (Scalar &) const =0
	Multiplication by $\sin\theta$ of a `Scalar`.
virtual void	div_sint (Scalar &) const =0
	Division by $\sin\theta$ of a `Scalar`.
virtual void	div_tant (Scalar &) const =0
	Division by $\tan\theta$ of a `Scalar`.
virtual void	comp_x_from_spherical (const Scalar &v_r, const Scalar &v_theta, const Scalar &v_phi, Scalar &v_x) const =0
	Computes the Cartesian x component (with respect to `bvect_cart` ) of a vector given by its spherical components with respect to `bvect_spher` .
virtual void	comp_x_from_spherical (const Cmp &v_r, const Cmp &v_theta, const Cmp &v_phi, Cmp &v_x) const =0
	`Cmp` version
virtual void	comp_y_from_spherical (const Scalar &v_r, const Scalar &v_theta, const Scalar &v_phi, Scalar &v_y) const =0
	Computes the Cartesian y component (with respect to `bvect_cart` ) of a vector given by its spherical components with respect to `bvect_spher` .
virtual void	comp_y_from_spherical (const Cmp &v_r, const Cmp &v_theta, const Cmp &v_phi, Cmp &v_y) const =0
	`Cmp` version
virtual void	comp_z_from_spherical (const Scalar &v_r, const Scalar &v_theta, Scalar &v_z) const =0
	Computes the Cartesian z component (with respect to `bvect_cart` ) of a vector given by its spherical components with respect to `bvect_spher` .
virtual void	comp_z_from_spherical (const Cmp &v_r, const Cmp &v_theta, Cmp &v_z) const =0
	`Cmp` version
virtual void	comp_r_from_cartesian (const Scalar &v_x, const Scalar &v_y, const Scalar &v_z, Scalar &v_r) const =0
	Computes the Spherical r component (with respect to `bvect_spher` ) of a vector given by its cartesian components with respect to `bvect_cart` .
virtual void	comp_r_from_cartesian (const Cmp &v_x, const Cmp &v_y, const Cmp &v_z, Cmp &v_r) const =0
	`Cmp` version
virtual void	comp_t_from_cartesian (const Scalar &v_x, const Scalar &v_y, const Scalar &v_z, Scalar &v_t) const =0
	Computes the Spherical $\theta$ component (with respect to `bvect_spher` ) of a vector given by its cartesian components with respect to `bvect_cart` .
virtual void	comp_t_from_cartesian (const Cmp &v_x, const Cmp &v_y, const Cmp &v_z, Cmp &v_t) const =0
	`Cmp` version
virtual void	comp_p_from_cartesian (const Scalar &v_x, const Scalar &v_y, Scalar &v_p) const =0
	Computes the Spherical $\phi$ component (with respect to `bvect_spher` ) of a vector given by its cartesian components with respect to `bvect_cart` .
virtual void	comp_p_from_cartesian (const Cmp &v_x, const Cmp &v_y, Cmp &v_p) const =0
	`Cmp` version
virtual void	dec_dzpuis (Scalar &) const =0
	Decreases by 1 the value of `dzpuis` of a `Scalar` and changes accordingly its values in the compactified external domain (CED).
virtual void	dec2_dzpuis (Scalar &) const =0
	Decreases by 2 the value of `dzpuis` of a `Scalar` and changes accordingly its values in the compactified external domain (CED).
virtual void	inc_dzpuis (Scalar &) const =0
	Increases by 1 the value of `dzpuis` of a `Scalar` and changes accordingly its values in the compactified external domain (CED).
virtual void	inc2_dzpuis (Scalar &) const =0
	Increases by 2 the value of `dzpuis` of a `Scalar` and changes accordingly its values in the compactified external domain (CED).
virtual Tbl *	integrale (const Cmp &) const =0
	Computes the integral over all space of a `Cmp` .
virtual void	poisson (const Cmp &source, Param &par, Cmp &uu) const =0
	Computes the solution of a scalar Poisson equation.
virtual void	poisson_tau (const Cmp &source, Param &par, Cmp &uu) const =0
	Computes the solution of a scalar Poisson equationwith a Tau method.
virtual void	poisson_falloff (const Cmp &source, Param &par, Cmp &uu, int k_falloff) const =0
virtual void	poisson_ylm (const Cmp &source, Param &par, Cmp &pot, int nylm, double *intvec) const =0
virtual void	poisson_regular (const Cmp &source, int k_div, int nzet, double unsgam1, Param &par, Cmp &uu, Cmp &uu_regu, Cmp &uu_div, Tenseur &duu_div, Cmp &source_regu, Cmp &source_div) const =0
	Computes the solution of a scalar Poisson equation.
virtual void	poisson_compact (const Cmp &source, const Cmp &aa, const Tenseur &bb, const Param &par, Cmp &psi) const =0
	Resolution of the elliptic equation $a \Delta\psi + {\bf b} \cdot \nabla \psi = \sigma$ in the case where the stellar interior is covered by a single domain.
virtual void	poisson_compact (int nzet, const Cmp &source, const Cmp &aa, const Tenseur &bb, const Param &par, Cmp &psi) const =0
	Resolution of the elliptic equation $a \Delta\psi + {\bf b} \cdot \nabla \psi = \sigma$ in the case of a multidomain stellar interior.
virtual void	poisson_angu (const Scalar &source, Param &par, Scalar &uu, double lambda=0) const =0
	Computes the solution of the generalized angular Poisson equation.
virtual Param *	donne_para_poisson_vect (Param &para, int i) const =0
	Function intended to be used by `Map::poisson_vect` and `Map::poisson_vect_oohara` .
virtual void	poisson_frontiere (const Cmp &source, const Valeur &limite, int raccord, int num_front, Cmp &pot, double=0., double=0.) const =0
	Computes the solution of a Poisson equation from the domain `num_front+1` .
virtual void	poisson_frontiere_double (const Cmp &source, const Valeur &lim_func, const Valeur &lim_der, int num_zone, Cmp &pot) const =0
virtual void	poisson_interne (const Cmp &source, const Valeur &limite, Param &par, Cmp &pot) const =0
	Computes the solution of a Poisson equation in the shell, imposing a boundary condition at the surface of the star.
virtual void	poisson2d (const Cmp &source_mat, const Cmp &source_quad, Param &par, Cmp &uu) const =0
	Computes the solution of a 2-D Poisson equation.
virtual void	dalembert (Param &par, Scalar &fJp1, const Scalar &fJ, const Scalar &fJm1, const Scalar &source) const =0
	Performs one time-step integration of the d'Alembert scalar equation.
ostream &	operator<< (ostream &, const Map &)
	Operator <<.
Mtbl *	map_af_fait_r (const Map *cvi)
Mtbl *	map_af_fait_tet (const Map *cvi)
Mtbl *	map_af_fait_phi (const Map *cvi)
Mtbl *	map_af_fait_sint (const Map *cvi)
Mtbl *	map_af_fait_cost (const Map *cvi)
Mtbl *	map_af_fait_sinp (const Map *cvi)
Mtbl *	map_af_fait_cosp (const Map *cvi)
Mtbl *	map_af_fait_x (const Map *cvi)
Mtbl *	map_af_fait_y (const Map *cvi)
Mtbl *	map_af_fait_z (const Map *cvi)
Mtbl *	map_af_fait_xa (const Map *cvi)
Mtbl *	map_af_fait_ya (const Map *cvi)
Mtbl *	map_af_fait_za (const Map *cvi)
Mtbl *	map_af_fait_xsr (const Map *cvi)
Mtbl *	map_af_fait_dxdr (const Map *cvi)
Mtbl *	map_af_fait_drdt (const Map *cvi)
Mtbl *	map_af_fait_stdrdp (const Map *cvi)
Mtbl *	map_af_fait_srdrdt (const Map *cvi)
Mtbl *	map_af_fait_srstdrdp (const Map *cvi)
Mtbl *	map_af_fait_sr2drdt (const Map *cvi)
Mtbl *	map_af_fait_sr2stdrdp (const Map *cvi)
Mtbl *	map_af_fait_d2rdx2 (const Map *cvi)
Mtbl *	map_af_fait_lapr_tp (const Map *cvi)
Mtbl *	map_af_fait_d2rdtdx (const Map *cvi)
Mtbl *	map_af_fait_sstd2rdpdx (const Map *cvi)
Mtbl *	map_af_fait_sr2d2rdt2 (const Map *cvi)
Mtbl *	map_et_fait_r (const Map *cvi)
Mtbl *	map_et_fait_tet (const Map *cvi)
Mtbl *	map_et_fait_phi (const Map *cvi)
Mtbl *	map_et_fait_sint (const Map *cvi)
Mtbl *	map_et_fait_cost (const Map *cvi)
Mtbl *	map_et_fait_sinp (const Map *cvi)
Mtbl *	map_et_fait_cosp (const Map *cvi)
Mtbl *	map_et_fait_x (const Map *cvi)
Mtbl *	map_et_fait_y (const Map *cvi)
Mtbl *	map_et_fait_z (const Map *cvi)
Mtbl *	map_et_fait_xa (const Map *cvi)
Mtbl *	map_et_fait_ya (const Map *cvi)
Mtbl *	map_et_fait_za (const Map *cvi)
Mtbl *	map_et_fait_xsr (const Map *cvi)
Mtbl *	map_et_fait_dxdr (const Map *cvi)
Mtbl *	map_et_fait_drdt (const Map *cvi)
Mtbl *	map_et_fait_stdrdp (const Map *cvi)
Mtbl *	map_et_fait_srdrdt (const Map *cvi)
Mtbl *	map_et_fait_srstdrdp (const Map *cvi)
Mtbl *	map_et_fait_sr2drdt (const Map *cvi)
Mtbl *	map_et_fait_sr2stdrdp (const Map *cvi)
Mtbl *	map_et_fait_d2rdx2 (const Map *cvi)
Mtbl *	map_et_fait_lapr_tp (const Map *cvi)
Mtbl *	map_et_fait_d2rdtdx (const Map *cvi)
Mtbl *	map_et_fait_sstd2rdpdx (const Map *cvi)
Mtbl *	map_et_fait_sr2d2rdt2 (const Map *cvi)
Mtbl *	map_et_fait_rsxdxdr (const Map *cvi)
Mtbl *	map_et_fait_rsx2drdx (const Map *cvi)
Mtbl *	map_log_fait_r (const Map *cvi)
Mtbl *	map_log_fait_tet (const Map *cvi)
Mtbl *	map_log_fait_phi (const Map *cvi)
Mtbl *	map_log_fait_sint (const Map *cvi)
Mtbl *	map_log_fait_cost (const Map *cvi)
Mtbl *	map_log_fait_sinp (const Map *cvi)
Mtbl *	map_log_fait_cosp (const Map *cvi)
Mtbl *	map_log_fait_x (const Map *cvi)
Mtbl *	map_log_fait_y (const Map *cvi)
Mtbl *	map_log_fait_z (const Map *cvi)
Mtbl *	map_log_fait_xa (const Map *cvi)
Mtbl *	map_log_fait_ya (const Map *cvi)
Mtbl *	map_log_fait_za (const Map *cvi)
Mtbl *	map_log_fait_xsr (const Map *cvi)
Mtbl *	map_log_fait_dxdr (const Map *cvi)
Mtbl *	map_log_fait_drdt (const Map *cvi)
Mtbl *	map_log_fait_stdrdp (const Map *cvi)
Mtbl *	map_log_fait_srdrdt (const Map *cvi)
Mtbl *	map_log_fait_srstdrdp (const Map *cvi)
Mtbl *	map_log_fait_sr2drdt (const Map *cvi)
Mtbl *	map_log_fait_sr2stdrdp (const Map *cvi)
Mtbl *	map_log_fait_d2rdx2 (const Map *cvi)
Mtbl *	map_log_fait_lapr_tp (const Map *cvi)
Mtbl *	map_log_fait_d2rdtdx (const Map *cvi)
Mtbl *	map_log_fait_sstd2rdpdx (const Map *cvi)
Mtbl *	map_log_fait_sr2d2rdt2 (const Map *cvi)
Mtbl *	map_log_fait_dxdlnr (const Map *cvi)
ostream &	operator<< (ostream &flux, const Matrice &source)
Matrice	operator+ (const Matrice &a, const Matrice &b)
	`Matrice` + `Matrice`
Matrice	operator- (const Matrice &a, const Matrice &b)
	`Matrice` - `Matrice`
Matrice	operator* (const Matrice &a, double x)
	`Matrice` * `double`
Matrice	operator* (double x, const Matrice &a)
	`double` * `Matrice`
Matrice	operator* (const Matrice &aa, const Matrice &bb)
	Matrix product.
Matrice	operator/ (const Matrice &a, double x)
	`Matrice` / `double`
ostream &	operator<< (ostream &o, const Mtbl &mt)
Mtbl	operator+ (const Mtbl &)
Mtbl	operator- (const Mtbl &)
	`-` Mtbl
Mtbl	operator+ (const Mtbl &, const Mtbl &)
	Mtbl + Mtbl.
Mtbl	operator+ (const Mtbl &, double)
	Mtbl + double.
Mtbl	operator+ (double, const Mtbl &)
	double + Mtbl
Mtbl	operator+ (const Mtbl &, int)
	Mtbl + int.
Mtbl	operator+ (int, const Mtbl &)
	int + Mtbl
Mtbl	operator- (const Mtbl &, const Mtbl &)
	Mtbl - Mtbl.
Mtbl	operator- (const Mtbl &, double)
	Mtbl - double.
Mtbl	operator- (double, const Mtbl &)
	double - Mtbl
Mtbl	operator- (const Mtbl &, int)
	Mtbl - int.
Mtbl	operator- (int, const Mtbl &)
	int - Mtbl
Mtbl	operator* (const Mtbl &, const Mtbl &)
	Mtbl * Mtbl.
Mtbl	operator* (const Mtbl &, double)
	Mtbl * double.
Mtbl	operator* (double, const Mtbl &)
	double * Mtbl
Mtbl	operator* (const Mtbl &, int)
	Mtbl * int.
Mtbl	operator* (int, const Mtbl &)
	int * Mtbl
Mtbl	operator/ (const Mtbl &, const Mtbl &)
	Mtbl / Mtbl.
Mtbl	operator/ (const Mtbl &, double)
	Mtbl / double.
Mtbl	operator/ (double, const Mtbl &)
	double / Mtbl
Mtbl	operator/ (const Mtbl &, int)
	Mtbl / int.
Mtbl	operator/ (int, const Mtbl &)
	int / Mtbl
Mtbl	sin (const Mtbl &)
	Sine.
Mtbl	cos (const Mtbl &)
	Cosine.
Mtbl	tan (const Mtbl &)
	Tangent.
Mtbl	asin (const Mtbl &)
	Arcsine.
Mtbl	acos (const Mtbl &)
	Arccosine.
Mtbl	atan (const Mtbl &)
	Arctangent.
Mtbl	exp (const Mtbl &)
	Exponential.
Mtbl	Heaviside (const Mtbl &)
	Heaviside function.
Mtbl	log (const Mtbl &)
	Neperian logarithm.
Mtbl	log10 (const Mtbl &)
	Basis 10 logarithm.
Mtbl	sqrt (const Mtbl &)
	Square root.
Mtbl	racine_cubique (const Mtbl &)
	Cube root.
Mtbl	pow (const Mtbl &, int)
	Power ${\tt Mtbl}^{\tt int}$ .
Mtbl	pow (const Mtbl &, double)
	Power ${\tt Mtbl}^{\tt double}$ .
Mtbl	abs (const Mtbl &)
	Absolute value.
double	totalmax (const Mtbl &)
	Maximum value of the `Mtbl` elements in all domains.
double	totalmin (const Mtbl &)
	Minimum value of the `Mtbl` elements in all domain.
Tbl	max (const Mtbl &)
	Maximum values of the `Mtbl` elements in each domain.
Tbl	min (const Mtbl &)
	Minimum values of the `Mtbl` elements in each domain.
Tbl	norme (const Mtbl &)
	Sums of the absolute values of all the `Mtbl` elements in each domain.
Tbl	diffrel (const Mtbl &a, const Mtbl &b)
	Relative difference between two `Mtbl` (norme version).
Tbl	diffrelmax (const Mtbl &a, const Mtbl &b)
	Relative difference between two `Mtbl` (max version).
ostream &	operator<< (ostream &o, const Mtbl_cf &mt)
Mtbl_cf	operator+ (const Mtbl_cf &)
Mtbl_cf	operator- (const Mtbl_cf &)
	`-` Mtbl_cf
Mtbl_cf	operator+ (const Mtbl_cf &, const Mtbl_cf &)
	Mtbl_cf + Mtbl_cf.
Mtbl_cf	operator- (const Mtbl_cf &, const Mtbl_cf &)
	Mtbl_cf - Mtbl_cf.
Mtbl_cf	operator* (const Mtbl_cf &, double)
	Mtbl_cf * double.
Mtbl_cf	operator* (double, const Mtbl_cf &)
	double * Mtbl_cf
Mtbl_cf	operator* (const Mtbl_cf &, int)
	Mtbl_cf * int.
Mtbl_cf	operator* (int, const Mtbl_cf &)
	int * Mtbl_cf
Mtbl_cf	operator/ (const Mtbl_cf &, double)
	Mtbl_cf / double.
Mtbl_cf	operator/ (const Mtbl_cf &, int)
	Mtbl_cf / int.
Mtbl_cf	abs (const Mtbl_cf &)
	Absolute value.
Tbl	max (const Mtbl_cf &)
	Maximum values of the `Mtbl_cf` elements in each domain.
Tbl	min (const Mtbl_cf &)
	Minimum values of the `Mtbl_cf` elements in each domain.
Tbl	norme (const Mtbl_cf &)
	Sums of the absolute values of all the `Mtbl_cf` elements in each domain.
Tbl	diffrel (const Mtbl_cf &a, const Mtbl_cf &b)
	Relative difference between two `Mtbl_cf` (norme version).
Tbl	diffrelmax (const Mtbl_cf &a, const Mtbl_cf &b)
	Relative difference between two `Mtbl_cf` (max version).
double *	cheb_ini (const int)
double *	chebimp_ini (const int)
void	four1d (const int, double *)
void	chebyf1d (const int, double *)
void	chebyr1d (const int, double *)
void	cfpcossin (const int , const int , double *)
void	cfpcossini (const int , const int , double *)
void	cftcos (const int , const int , double , const int , double *)
void	cftsin (const int , const int , double , const int , double *)
void	cftcosp (const int , const int , double , const int , double *)
void	cftcosi (const int , const int , double , const int , double *)
void	cftsinp (const int , const int , double , const int , double *)
void	cftsini (const int , const int , double , const int , double *)
void	cftcossincp (const int , const int , double , const int , double *)
void	cftcossinsi (const int , const int , double , const int , double *)
void	cftcossinsp (const int , const int , double , const int , double *)
void	cftcossinci (const int , const int , double , const int , double *)
void	cftcossins (const int , const int , double , const int , double *)
void	cftcossinc (const int , const int , double , const int , double *)
void	cftleg (const int , const int , double , const int , double *)
void	cftlegmp (const int , const int , double , const int , double *)
void	cftlegmi (const int , const int , double , const int , double *)
void	cftlegp (const int , const int , double , const int , double *)
void	cftlegpp (const int , const int , double , const int , double *)
void	cftlegi (const int , const int , double , const int , double *)
void	cftlegip (const int , const int , double , const int , double *)
void	cftlegpi (const int , const int , double , const int , double *)
void	cftlegii (const int , const int , double , const int , double *)
void	cfrcheb (const int , const int , double , const int , double *)
void	cfrchebp (const int , const int , double , const int , double *)
void	cfrchebi (const int , const int , double , const int , double *)
void	cfrchebpimp (const int , const int , double , const int , double *)
void	cfrchebpimi (const int , const int , double , const int , double *)
void	cfrchebpip (const int , const int , double , const int , double *)
void	cfrchebpii (const int , const int , double , const int , double *)
void	cipcossin (const int , const int , const int , double , double *)
void	cipcossini (const int , const int , const int , double , double *)
void	citcos (const int , const int , double , const int , double *)
void	citcosp (const int , const int , double , const int , double *)
void	citcosi (const int , const int , double , const int , double *)
void	citsinp (const int , const int , double , const int , double *)
void	citsini (const int , const int , double , const int , double *)
void	citcossincp (const int , const int , double , const int , double *)
void	citcossinsi (const int , const int , double , const int , double *)
void	citcossinsp (const int , const int , double , const int , double *)
void	citcossinci (const int , const int , double , const int , double *)
void	citcossins (const int , const int , double , const int , double *)
void	citcossinc (const int , const int , double , const int , double *)
void	citleg (const int , const int , double , const int , double *)
void	citlegmp (const int , const int , double , const int , double *)
void	citlegmi (const int , const int , double , const int , double *)
void	citlegp (const int , const int , double , const int , double *)
void	citlegpp (const int , const int , double , const int , double *)
void	citlegi (const int , const int , double , const int , double *)
void	citlegip (const int , const int , double , const int , double *)
void	citlegpi (const int , const int , double , const int , double *)
void	citlegii (const int , const int , double , const int , double *)
void	circheb (const int , const int , double , const int , double *)
void	circhebp (const int , const int , double , const int , double *)
void	circhebi (const int , const int , double , const int , double *)
void	cirleg (const int , const int , double , const int , double *)
void	cirlegp (const int , const int , double , const int , double *)
void	cirlegi (const int , const int , double , const int , double *)
void	circhebpimp (const int , const int , double , const int , double *)
void	circhebpimi (const int , const int , double , const int , double *)
void	circhebpip (const int , const int , double , const int , double *)
void	circhebpii (const int , const int , double , const int , double *)
double *	legendre (int, int)
double *	legendre_norm (int, int)
double *	mat_cossincp_legp (int, int)
double *	mat_cossinci_legi (int, int)
double *	mat_cossinc_leg (int, int)
double *	mat_cosp_legpp (int, int)
double *	mat_cosi_legip (int, int)
double *	mat_sini_legpi (int, int)
double *	mat_sinp_legii (int, int)
double *	mat_cos_legmp (int, int)
double *	mat_sin_legmi (int, int)
double *	mat_legp_cossincp (int, int)
double *	mat_legi_cossinci (int, int)
double *	mat_leg_cossinc (int, int)
double *	mat_legpp_cosp (int, int)
double *	mat_legip_cosi (int, int)
double *	mat_legpi_sini (int, int)
double *	mat_legii_sinp (int, int)
double *	mat_legmp_cos (int, int)
double *	mat_legmi_sin (int, int)
void	chb_cossincp_legp (const int , const double , double *)
void	chb_legp_cossincp (const int , const double , double *)
void	chb_cossinc_leg (const int , const double , double *)
void	chb_leg_cossinc (const int , const double , double *)
void	chb_cosp_legpp (const int , const double , double *)
void	chb_legpp_cosp (const int , const double , double *)
void	chb_cosi_legip (const int , const double , double *)
void	chb_legip_cosi (const int , const double , double *)
void	chb_sini_legpi (const int , const double , double *)
void	chb_legpi_sini (const int , const double , double *)
void	chb_cossinci_legi (const int , const double , double *)
void	chb_legi_cossinci (const int , const double , double *)
void	chb_sinp_legii (const int , const double , double *)
void	chb_legii_sinp (const int , const double , double *)
void	chb_cos_legmp (const int , const double , double *)
void	chb_legmp_cos (const int , const double , double *)
void	chb_sin_legmi (const int , const double , double *)
void	chb_legmi_sin (const int , const double , double *)
double	int1d_chebp (int, const double *)
double	int1d_chebi (int, const double *)
double	int1d_cheb (int, const double *)
void	cfrleg (const int , const int , double , const int , double *)
void	cfrlegp (const int , const int , double , const int , double *)
void	cfrlegi (const int , const int , double , const int , double *)
void	legendre_collocation_points (int, double *)
double *	jacobi (int, double)
double *	pointsgausslobatto (int)
Tbl	jacobipointsgl (int)
double *	coeffjaco (int, double *)
void	cfrjaco02 (const int , const int , double , const int , double *)
void	citsin (const int , const int , double , const int , double *)
void	cirjaco02 (const int , const int , double , const int , double *)
Matrice	_laplacien_mat_pas_prevu (int, int, double, int)
Matrice	_laplacien_mat_r_chebp (int, int, double, int)
Matrice	_laplacien_mat_r_chebi (int, int, double, int)
Matrice	_laplacien_mat_r_chebu (int, int, double, int)
Matrice	_laplacien_mat_r_chebu_deux (int, int)
Matrice	_laplacien_mat_r_chebu_trois (int, int)
Matrice	_laplacien_mat_r_chebu_quatre (int, int)
Matrice	_laplacien_mat_r_chebu_cinq (int, int)
Matrice	_laplacien_mat_r_cheb (int, int, double, int)
Matrice	laplacien_mat (int, int, double, int, int)
Matrice	_cl_pas_prevu (const Matrice &, int, double, int)
Matrice	_cl_r_cheb (const Matrice &, int, double, int)
Matrice	_cl_r_chebi (const Matrice &, int, double, int)
Matrice	_cl_r_chebu (const Matrice &, int, double, int)
Matrice	_cl_r_chebu_cinq (const Matrice &, int)
Matrice	_cl_r_chebu_quatre (const Matrice &, int)
Matrice	_cl_r_chebu_trois (const Matrice &, int)
Matrice	_cl_r_chebu_deux (const Matrice &, int)
Matrice	_cl_r_chebp (const Matrice &, int, double, int)
Matrice	combinaison (const Matrice &, int, double, int, int)
Tbl	_cl_pas_prevu (const Tbl &, int)
Tbl	_cl_r_cheb (const Tbl &, int)
Tbl	_cl_r_chebi (const Tbl &, int)
Tbl	_cl_r_chebu (const Tbl &, int)
Tbl	_cl_r_chebu_deux (const Tbl &)
Tbl	_cl_r_chebu_trois (const Tbl &)
Tbl	_cl_r_chebu_quatre (const Tbl &)
Tbl	_cl_r_chebu_cinq (const Tbl &)
Tbl	_cl_r_chebp (const Tbl &, int)
Tbl	combinaison (const Tbl &, int, int)
Matrice	_prepa_nondege_pas_prevu (const Matrice &, int, double, int)
Matrice	_prepa_nondege_r_cheb (const Matrice &, int, double, int)
Matrice	_prepa_nondege_r_chebp (const Matrice &, int, double, int)
Matrice	_prepa_nondege_r_chebi (const Matrice &, int, double, int)
Matrice	_prepa_nondege_r_chebu (const Matrice &, int, double, int)
Matrice	_prepa_nondege_r_chebu_deux (const Matrice &, int)
Matrice	_prepa_nondege_r_chebu_trois (const Matrice &, int)
Matrice	_prepa_nondege_r_chebu_quatre (const Matrice &, int)
Matrice	_prepa_nondege_r_chebu_cinq (const Matrice &, int)
Matrice	prepa_nondege (const Matrice &, int, double, int, int)
Tbl	_solp_pas_prevu (const Matrice &, const Matrice &, double, double, const Tbl &, int)
Tbl	_solp_r_cheb (const Matrice &, const Matrice &, double, double, const Tbl &, int)
Tbl	_solp_r_chebp (const Matrice &, const Matrice &, double, double, const Tbl &, int)
Tbl	_solp_r_chebi (const Matrice &, const Matrice &, double, double, const Tbl &, int)
Tbl	_solp_r_chebu (const Matrice &, const Matrice &, double, double, const Tbl &, int)
Tbl	_solp_r_chebu_deux (const Matrice &, const Matrice &, const Tbl &)
Tbl	_solp_r_chebu_trois (const Matrice &, const Matrice &, double, const Tbl &)
Tbl	_solp_r_chebu_quatre (const Matrice &, const Matrice &, double, const Tbl &)
Tbl	_solp_r_chebu_cinq (const Matrice &, const Matrice &, const Tbl &)
Tbl	solp (const Matrice &, const Matrice &, double, double, const Tbl &, int, int)
Tbl	_solh_pas_prevu (int, int, double)
Tbl	_solh_r_cheb (int, int, double)
Tbl	_solh_r_chebp (int, int, double)
Tbl	_solh_r_chebi (int, int, double)
Tbl	_solh_r_chebu (int, int, double)
Tbl	solh (int, int, double, int)
Matrice	helmholtz_minus_mat (int, int, double, double, double, int)
Matrice	cl_helmholtz_minus (const Matrice &, int)
Tbl	cl_helmholtz_minus (const Tbl &, int)
Matrice	prepa_helmholtz_minus_nondege (const Matrice &, int)
Tbl	solp_helmholtz_minus (const Matrice &, const Matrice &, const Tbl &, double, double, int, int)
Tbl	solh_helmholtz_minus (int, int, double, double, double, int)
Matrice	helmholtz_plus_mat (int, int, double, double, double, int)
Matrice	cl_helmholtz_plus (const Matrice &, int)
Tbl	cl_helmholtz_plus (const Tbl &, int)
Matrice	prepa_helmholtz_plus_nondege (const Matrice &, int)
Tbl	solp_helmholtz_plus (const Matrice &, const Matrice &, const Tbl &, double, double, int)
Tbl	solh_helmholtz_plus (int, int, double, double, double, int)
Tbl	val_solh (int, double, double, int)
Tbl	val_solp (const Tbl &, double, int)
double	val1_dern_1d (int, const Tbl &, int)
double	valm1_dern_1d (int, const Tbl &, int)
void	_d2sdx2_1d_pas_prevu (int, double , double )
void	_d2sdx2_1d_r_chebu (int, double , double )
void	_d2sdx2_1d_r_cheb (int, double , double )
void	_d2sdx2_1d_r_chebp (int, double , double )
void	_d2sdx2_1d_r_chebi (int, double , double )
void	d2sdx2_1d (int, double **, int)
void	_dsdx_1d_pas_prevu (int, double , double )
void	_dsdx_1d_r_chebu (int, double , double )
void	_dsdx_1d_r_chebp (int, double , double )
void	_dsdx_1d_r_chebi (int, double , double )
void	dsdx_1d (int, double **, int)
void	_multx_1d_pas_prevu (int, double , double )
void	_multx_1d_r_cheb (int, double , double )
void	multx_1d (int, double **, int)
void	multxpun_1d (int, double **, int)
void	_sx_1d_pas_prevu (int, double , double )
void	_sx_1d_r_chebi (int, double , double )
void	_sx_1d_r_chebp (int, double , double )
void	sx_1d (int, double **, int)
void	_sx2_1d_pas_prevu (int, double , double )
void	_sx2_1d_identite (int, double , double )
void	_sx2_1d_r_chebp (int, double , double )
void	_sx2_1d_r_chebi (int, double , double )
void	_sxm12_1d_r_chebu (int, double , double )
void	sx2_1d (int, double **, int)
void	_sxdsdx_1d_pas_prevu (int, double , double )
void	_dsdx_1d_r_cheb (int, double , double )
void	_sxdsdx_1d_r_chebi (int, double , double )
void	_sxdsdx_1d_r_chebp (int, double , double )
void	sxdsdx_1d (int, double **, int)
void	_dsdx_r_chebp (Tbl *, int &)
void	_dsdx_r_chebi (Tbl *, int &)
int	nullite_plm_sym (int, int, int, int)
int	nullite_plm_nonsym (int, int, int, int)
int	nullite_plm_nonsym_anti (int, int, int, int)
int	nullite_plm (int, int, int, int, Base_val)
void	donne_lm_sym (int, int, int, int, int &, int &, int &)
void	donne_lm_nonsym (int, int, int, int, int &, int &, int &)
void	donne_lm_nonsym_anti (int, int, int, int, int &, int &, int &)
void	donne_lm (int, int, int, int, Base_val, int &, int &, int &)
void	som_r_pas_prevu (double , const int, const int, const int, const double, double )
void	som_r_cheb (double , const int, const int, const int, const double, double )
void	som_r_chebi (double , const int, const int, const int, const double, double )
void	som_r_chebp (double , const int, const int, const int, const double, double )
void	som_r_chebu (double , const int, const int, const int, const double, double )
void	som_r_chebpim_p (double , const int, const int, const int, const double, double )
void	som_r_chebpim_i (double , const int, const int, const int, const double, double )
void	som_r_chebpi_p (double , const int, const int, const int, const double, double )
void	som_r_chebpi_i (double , const int, const int, const int, const double, double )
void	som_r_cheb_symy (double ti, const int nr, const int nt, const int np, const double x, double trtp)
	Cas R_CHEB ///.
void	som_r_chebu_symy (double ti, const int nr, const int nt, const int np, const double x, double trtp)
	Cas R_CHEBU ///.
void	som_r_chebpim_p_symy (double ti, const int nr, const int nt, const int np, const double x, double trtp)
	Cas R_CHEBPIM_P ///.
void	som_r_chebpim_i_symy (double ti, const int nr, const int nt, const int np, const double x, double trtp)
	Cas R_CHEBPIM_I ///.
void	som_r_cheb_asymy (double ti, const int nr, const int nt, const int np, const double x, double trtp)
	Cas R_CHEB ///.
void	som_r_chebu_asymy (double ti, const int nr, const int nt, const int np, const double x, double trtp)
	Cas R_CHEBU ///.
void	som_r_chebpim_p_asymy (double ti, const int nr, const int nt, const int np, const double x, double trtp)
	Cas R_CHEBPIM_P ///.
void	som_r_chebpim_i_asymy (double ti, const int nr, const int nt, const int np, const double x, double trtp)
	Cas R_CHEBPIM_I ///.
void	som_r_leg (double , const int, const int, const int, const double, double )
void	som_r_legi (double , const int, const int, const int, const double, double )
void	som_r_legp (double , const int, const int, const int, const double, double )
void	som_r_jaco02 (double , const int, const int, const int, const double, double )
void	som_tet_pas_prevu (double , const int, const int, const double, double )
void	som_tet_cos (double , const int, const int, const double, double )
void	som_tet_cos_p (double , const int, const int, const double, double )
void	som_tet_cos_i (double , const int, const int, const double, double )
void	som_tet_sin (double , const int, const int, const double, double )
void	som_tet_sin_p (double , const int, const int, const double, double )
void	som_tet_sin_i (double , const int, const int, const double, double )
void	som_tet_cossin_cp (double , const int, const int, const double, double )
void	som_tet_cossin_ci (double , const int, const int, const double, double )
void	som_tet_cossin_c (double , const int, const int, const double, double )
void	som_tet_cossin_s (double , const int, const int, const double, double )
void	som_tet_cossin_sp (double , const int, const int, const double, double )
void	som_tet_cossin_si (double , const int, const int, const double, double )
void	som_tet_cossin_cp_symy (double ti, const int nt, const int np, const double tet, double to)
	Cas T_COSSIN_CP ///.
void	som_tet_cossin_ci_symy (double ti, const int nt, const int np, const double tet, double to)
	Cas T_COSSIN_CI ///.
void	som_tet_cossin_cp_asymy (double ti, const int nt, const int np, const double tet, double to)
	Cas T_COSSIN_CP ///.
void	som_tet_cossin_ci_asymy (double ti, const int nt, const int np, const double tet, double to)
	Cas T_COSSIN_CI ///.
void	som_phi_pas_prevu (double , const int, const double, double )
void	som_phi_cossin (double , const int, const double, double )
void	som_phi_cossin_p (double , const int, const double, double )
void	som_phi_cossin_i (double , const int, const double, double )
void	som_phi_cossin_symy (double , const int, const double, double )
void	som_phi_cossin_asymy (double , const int, const double, double )
void	sxm1_1d_cheb (int, double *)
void	mult_xm1_1d_cheb (int, const double , double )
void	mult2_xm1_1d_cheb (int, const double , double )
void	_xdsdx_1d_pas_prevu (int, double , double )
void	_xdsdx_1d_r_cheb (int, double , double )
void	_xdsdx_1d_r_chebp (int, double , double )
void	_xdsdx_1d_r_chebi (int, double , double )
void	xdsdx_1d (int, double **, int)
void	multx2_1d (int, double **, int)
void	_multx2_1d_r_cheb (int, double , double )
void	_multx2_1d_r_chebp (int, double , double )
void	_multx2_1d_r_chebi (int, double , double )
void	_multx2_1d_pas_prevu (int, double , double )
void	sxpun_1d (int, double **, int)
void	_sxpun_1d_r_cheb (int, double , double )
void	_sxpun_1d_pas_prevu (int, double , double )
Cmp	division_xpun (const Cmp &, int)
void	get_operateur_dal (const Param &, const int &, const int &, int &, Matrice &)
Tbl	dal_inverse (const int &, const int &, const Matrice &, const Tbl &, const bool)
Mtbl_cf	sol_dalembert (Param &, const Map_af &, const Mtbl_cf &)
void	runge_kutta3_wave_sys (double, const Scalar &, const Scalar &, Scalar &, Scalar &, int dl=0)
void	evolve_outgoing_BC (double, int, const Scalar &, Scalar &, Tbl &, Tbl &, Tbl &, int dl=0)
void	tilde_laplacian (const Scalar &B_in, Scalar &tilde_lap, int dl=-1)
void	initialize_outgoing_BC (int, const Scalar &, const Scalar &, Tbl &)
void	tensorelliptic (Scalar source, Scalar &resu, double fitd1, double fit2d1, double fit0d2=0., double fit1d2=0., double fit0d3=0., double fit1d3=0.)
void	tensorellipticBt (Scalar source, Scalar &resu, double fitd1, double fit2d1, double fit0d2=0., double fit1d2=0., double fit0d3=0., double fit1d3=0.)
void	tensorellipticCt (Scalar source, Scalar &resu, double fitd1, double fit2d1, double fit0d2, double fit1d2, double fit0d3, double fit1d3)
Sym_tensor	secmembre_kerr (const Sym_tensor &hij, const Sym_tensor &aa, const Scalar &nn, const Scalar &ppsi, const Vector &bb)
Sym_tensor	boundfree_tensBC (Sym_tensor source, Vector Beta, Scalar Psi, Scalar Nn, Sym_tensor hij_guess, double precision, int loopmax=250)
Matrice	lap_cpt_mat (int, int, int)
Matrice	xdsdx_mat (int, int, int)
Matrice	combinaison_cpt (const Matrice &, int, int)
Tbl	combinaison_cpt (const Tbl &, int)
void	dirichlet_binaire (const Cmp &source_un, const Cmp &source_deux, const Valeur &boundary_un, const Valeur &boundary_deux, Cmp &sol_un, Cmp &sol_deux, int num_front, double precision)
void	dirichlet_binaire (const Cmp &source_un, const Cmp &source_deux, double bound_un, double bound_deux, Cmp &sol_un, Cmp &sol_deux, int num_front, double precision)
void	dirichlet_binaire (const Scalar &source_un, const Scalar &source_deux, const Valeur &boundary_un, const Valeur &boundary_deux, Scalar &sol_un, Scalar &sol_deux, int num_front, double precision)
void	neumann_binaire (const Cmp &source_un, const Cmp &source_deux, const Valeur &boundary_un, const Valeur &boundary_deux, Cmp &sol_un, Cmp &sol_deux, int num_front, double precision)
void	neumann_binaire (const Cmp &source_un, const Cmp &source_deux, double bound_un, double bound_deux, Cmp &sol_un, Cmp &sol_deux, int num_front, double precision)
void	neumann_binaire (const Scalar &source_un, const Scalar &source_deux, const Valeur &boundary_un, const Valeur &boundary_deux, Scalar &sol_un, Scalar &sol_deux, int num_front, double precision)
void	poisson_vect_frontiere (double lambda, const Tenseur &source, Tenseur &shift, const Valeur &lim_x, const Valeur &lim_y, const Valeur &lim_z, int num_front, double precision, int itermax)
void	poisson_vect_boundary (double lambda, const Vector &source, Vector &shift, const Valeur &lim_x, const Valeur &lim_y, const Valeur &lim_z, int num_front, double precision, int itermax)
void	poisson_vect_binaire (double lambda, const Tenseur &source_un, const Tenseur &source_deux, const Valeur &bound_x_un, const Valeur &bound_y_un, const Valeur &bound_z_un, const Valeur &bound_x_deux, const Valeur &bound_y_deux, const Valeur &bound_z_deux, Tenseur &sol_un, Tenseur &sol_deux, int num_front, double precision)
void	poisson_vect_binaire (double lambda, const Vector &source_un, const Vector &source_deux, const Valeur &bound_x_un, const Valeur &bound_y_un, const Valeur &bound_z_un, const Valeur &bound_x_deux, const Valeur &bound_y_deux, const Valeur &bound_z_deux, Vector &sol_un, Vector &sol_deux, int num_front, double precision)
Mtbl_cf	elliptic_solver (const Param_elliptic &ope_var, const Mtbl_cf &source)
Mtbl_cf	elliptic_solver_boundary (const Param_elliptic &ope_var, const Mtbl_cf &source, const Mtbl_cf &bound, double fact_dir, double fact_neu)
Mtbl_cf	elliptic_solver_no_zec (const Param_elliptic &ope_var, const Mtbl_cf &source, double val)
Mtbl_cf	elliptic_solver_only_zec (const Param_elliptic &ope_var, const Mtbl_cf &source, double val)
Mtbl_cf	elliptic_solver_sin_zec (const Param_elliptic &ope_var, const Mtbl_cf &source, double amplis, double phases)
Mtbl_cf	elliptic_solver_fixe_der_zero (double valeur, const Param_elliptic &ope_var, const Mtbl_cf &source)
double	integrale2d (const Scalar &)
Scalar	pois_vect_r0 (const Scalar &)
double	regle (Tenseur &shift_auto, const Tenseur &shift_comp, double omega, double)
double	serie_lindquist_plus (double rayon, double distance, double xa, double ya, double za, double precision, double itemax)
double	serie_lindquist_moins (double rayon, double distance, double xa, double ya, double za, double precision, double itemax)
double	adm_serie (double rayon, double distance, double precision)
double	bare_serie (double rayon, double distance, double precision)
void	set_lindquist (Cmp &psi_un, Cmp &psi_deux, double rayon, double precision)
void	separation (const Cmp &c1, const Cmp &c2, Cmp &res1, Cmp &res2, int decrois, int puiss, int lmax, double precision, const double relax=0.5, const int itemax=100, const int flag=1)
void	coupe_l_tous (Sym_tensor &hij, Sym_tensor &aa, Scalar &nn, Scalar &ppsi, Vector &bb, int ntt, int cutoff)
void	tensor_coupe_l (Sym_tensor &ten, int ntt, int cutoff)
ostream &	operator<< (ostream &ost, const Scalar &ci)
Scalar	operator+ (const Scalar &)
Scalar	operator- (const Scalar &ci)
	`-` Scalar
Scalar	operator+ (const Scalar &c1, const Scalar &c2)
	Scalar + Scalar.
Scalar	operator+ (const Scalar &c1, const Mtbl &mi)
	Scalar + Mbtl.
Scalar	operator+ (const Mtbl &, const Scalar &)
	Mtbl + Scalar.
Scalar	operator+ (const Scalar &t1, double x)
	Scalar + double.
Scalar	operator+ (double, const Scalar &)
	double + Scalar
Scalar	operator+ (const Scalar &, int)
	Scalar + int.
Scalar	operator+ (int, const Scalar &)
	int + Scalar
Scalar	operator- (const Scalar &c1, const Scalar &c2)
	Scalar - Scalar.
Scalar	operator- (const Scalar &t1, const Mtbl &mi)
	Scalar - Mbtl.
Scalar	operator- (const Mtbl &, const Scalar &)
	Mtbl - Scalar.
Scalar	operator- (const Scalar &t1, double x)
	Scalar - double.
Scalar	operator- (double, const Scalar &)
	double - Scalar
Scalar	operator- (const Scalar &, int)
	Scalar - int.
Scalar	operator- (int, const Scalar &)
	int - Scalar
Scalar	operator* (const Scalar &c1, const Scalar &c2)
	Scalar * Scalar.
Scalar	operator% (const Scalar &c1, const Scalar &c2)
	Scalar * Scalar with desaliasing.
Scalar	operator\| (const Scalar &c1, const Scalar &c2)
	Scalar * Scalar with desaliasing only in r.
Scalar	operator* (const Mtbl &mi, const Scalar &c1)
	Mtbl * Scalar.
Scalar	operator* (const Scalar &, const Mtbl &)
	Scalar * Mtbl.
Scalar	operator* (const Scalar &, double)
	Scalar * double.
Scalar	operator* (double a, const Scalar &c1)
	double * Scalar
Scalar	operator* (const Scalar &, int)
	Scalar * int.
Scalar	operator* (int, const Scalar &)
	int * Scalar
Scalar	operator/ (const Scalar &c1, const Scalar &c2)
	Scalar / Scalar.
Scalar	operator/ (const Scalar &c1, double x)
	Scalar / double.
Scalar	operator/ (double x, const Scalar &c2)
	double / Scalar
Scalar	operator/ (const Scalar &, int)
	Scalar / int.
Scalar	operator/ (int, const Scalar &)
	int / Scalar
Scalar	operator/ (const Scalar &c1, const Mtbl &mi)
	Scalar / Mtbl.
Scalar	operator/ (const Mtbl &mi, const Scalar &c2)
	Mtbl / Scalar.
Scalar	sin (const Scalar &ci)
	Sine.
Scalar	cos (const Scalar &ci)
	Cosine.
Scalar	tan (const Scalar &ci)
	Tangent.
Scalar	asin (const Scalar &ci)
	Arcsine.
Scalar	acos (const Scalar &ci)
	Arccosine.
Scalar	atan (const Scalar &ci)
	Arctangent.
Scalar	exp (const Scalar &ci)
	Exponential.
Scalar	Heaviside (const Scalar &ci)
	Heaviside function.
Scalar	log (const Scalar &ci)
	Neperian logarithm.
Scalar	log10 (const Scalar &ci)
	Basis 10 logarithm.
Scalar	sqrt (const Scalar &ci)
	Square root.
Scalar	racine_cubique (const Scalar &ci)
	Cube root.
Scalar	pow (const Scalar &ci, int n)
	Power ${\tt Scalar}^{\tt int}$ .
Scalar	pow (const Scalar &ci, double x)
	Power ${\tt Scalar}^{\tt double}$ .
Scalar	abs (const Scalar &ci)
	Absolute value.
double	totalmax (const Scalar &ci)
	Maximum values of a `Scalar` in each domain.
double	totalmin (const Scalar &ci)
	Minimum values of a `Scalar` in each domain.
Tbl	max (const Scalar &ci)
	Maximum values of a `Scalar` in each domain.
Tbl	min (const Scalar &ci)
	Minimum values of a `Scalar` in each domain.
Tbl	norme (const Scalar &ci)
	Sums of the absolute values of all the values of the `Scalar` in each domain.
Tbl	diffrel (const Scalar &a, const Scalar &b)
	Relative difference between two `Scalar` (norme version).
Tbl	diffrelmax (const Scalar &a, const Scalar &b)
	Relative difference between two `Scalar` (max version).
void	exp_filter_ylm_all_domains (Scalar &ss, int p, double alpha=-16.)
	Applies an exponential filter in angular directions in all domains.
ostream &	operator<< (ostream &ost, const Star &et)
ostream &	operator<< (ostream &o, const Tbl &t)
Tbl	operator+ (const Tbl &)
Tbl	operator- (const Tbl &)
	`-` Tbl
Tbl	operator+ (const Tbl &, const Tbl &)
	Tbl + Tbl.
Tbl	operator+ (const Tbl &, double)
	Tbl + double.
Tbl	operator+ (double, const Tbl &)
	double + Tbl
Tbl	operator+ (const Tbl &, int)
	Tbl + int.
Tbl	operator+ (int, const Tbl &)
	int + Tbl
Tbl	operator- (const Tbl &, const Tbl &)
	Tbl - Tbl.
Tbl	operator- (const Tbl &, double)
	Tbl - double.
Tbl	operator- (double, const Tbl &)
	double - Tbl
Tbl	operator- (const Tbl &, int)
	Tbl - int.
Tbl	operator- (int, const Tbl &)
	int - Tbl
Tbl	operator* (const Tbl &, const Tbl &)
	Tbl * Tbl.
Tbl	operator* (const Tbl &, double)
	Tbl * double.
Tbl	operator* (double, const Tbl &)
	double * Tbl
Tbl	operator* (const Tbl &, int)
	Tbl * int.
Tbl	operator* (int, const Tbl &)
	int * Tbl
Tbl	operator/ (const Tbl &, const Tbl &)
	Tbl / Tbl.
Tbl	operator/ (const Tbl &, double)
	Tbl / double.
Tbl	operator/ (double, const Tbl &)
	double / Tbl
Tbl	operator/ (const Tbl &, int)
	Tbl / int.
Tbl	operator/ (int, const Tbl &)
	int / Tbl
Tbl	sin (const Tbl &)
	Sine.
Tbl	cos (const Tbl &)
	Cosine.
Tbl	tan (const Tbl &)
	Tangent.
Tbl	asin (const Tbl &)
	Arcsine.
Tbl	acos (const Tbl &)
	Arccosine.
Tbl	atan (const Tbl &)
	Arctangent.
Tbl	exp (const Tbl &)
	Exponential.
Tbl	Heaviside (const Tbl &)
	Heaviside function.
Tbl	log (const Tbl &)
	Neperian logarithm.
Tbl	log10 (const Tbl &)
	Basis 10 logarithm.
Tbl	sqrt (const Tbl &)
	Square root.
Tbl	racine_cubique (const Tbl &)
	cube root
Tbl	pow (const Tbl &, int)
	Power ${\tt Tbl}^{\tt int}$ .
Tbl	pow (const Tbl &, double)
	Power ${\tt Tbl}^{\tt double}$ .
Tbl	abs (const Tbl &)
	Absolute value.
double	max (const Tbl &)
	Maximum value of the `Tbl` elements.
double	min (const Tbl &)
	Minimum value of the `Tbl` elements.
double	norme (const Tbl &)
	Sum of the absolute values of all the `Tbl` elements.
double	diffrel (const Tbl &a, const Tbl &b)
	Relative difference between two `Tbl` (norme version).
double	diffrelmax (const Tbl &a, const Tbl &b)
	Relative difference between two `Tbl` (max version).
Tbl_val	operator+ (const Tbl_val &)
Tbl_val	operator- (const Tbl_val &)
	`-` Tbl_val
Tbl_val	operator+ (const Tbl_val &, const Tbl_val &)
	Tbl_val + Tbl_val.
Tbl_val	operator+ (const Tbl_val &, double)
	Tbl_val + double.
Tbl_val	operator+ (double, const Tbl_val &)
	double + Tbl_val
Tbl_val	operator+ (const Tbl_val &, int)
	Tbl_val + int.
Tbl_val	operator+ (int, const Tbl_val &)
	int + Tbl_val
Tbl_val	operator- (const Tbl_val &, const Tbl_val &)
	Tbl_val - Tbl_val.
Tbl_val	operator- (const Tbl_val &, double)
	Tbl_val - double.
Tbl_val	operator- (double, const Tbl_val &)
	double - Tbl_val
Tbl_val	operator- (const Tbl_val &, int)
	Tbl_val - int.
Tbl_val	operator- (int, const Tbl_val &)
	int - Tbl_val
Tbl_val	operator* (const Tbl_val &, const Tbl_val &)
	Tbl_val * Tbl_val.
Tbl_val	operator* (const Tbl_val &, double)
	Tbl_val * double.
Tbl_val	operator* (double, const Tbl_val &)
	double * Tbl_val
Tbl_val	operator* (const Tbl_val &, int)
	Tbl_val * int.
Tbl_val	operator* (int, const Tbl_val &)
	int * Tbl_val
Tbl_val	operator/ (const Tbl_val &, const Tbl_val &)
	Tbl_val / Tbl_val.
Tbl_val	operator/ (const Tbl_val &, double)
	Tbl_val / double.
Tbl_val	operator/ (double, const Tbl_val &)
	double / Tbl_val
Tbl_val	operator/ (const Tbl_val &, int)
	Tbl_val / int.
Tbl_val	operator/ (int, const Tbl_val &)
	int / Tbl_val
Tbl_val	sin (const Tbl_val &)
	Sine.
Tbl_val	cos (const Tbl_val &)
	Cosine.
Tbl_val	tan (const Tbl_val &)
	Tangent.
Tbl_val	asin (const Tbl_val &)
	Arcsine.
Tbl_val	acos (const Tbl_val &)
	Arccosine.
Tbl_val	atan (const Tbl_val &)
	Arctangent.
Tbl_val	exp (const Tbl_val &)
	Exponential.
Tbl_val	Heaviside (const Tbl_val &)
	Heaviside Function.
Tbl_val	log (const Tbl_val &)
	Neperian logarithm.
Tbl_val	log10 (const Tbl_val &)
	Basis 10 logarithm.
Tbl_val	sqrt (const Tbl_val &)
	Square root.
Tbl_val	racine_cubique (const Tbl_val &)
	cube root
Tbl_val	pow (const Tbl_val &, int)
	Power ${\tt Tbl_val}^{\tt int}$ .
Tbl_val	pow (const Tbl_val &, double)
	Power ${\tt Tbl_val}^{\tt double}$ .
Tbl_val	abs (const Tbl_val &)
	Absolute value.
double	max (const Tbl_val &)
	Maximum value of the `Tbl_val` elements.
double	min (const Tbl_val &)
	Minimum value of the `Tbl_val` elements.
double	norme (const Tbl_val &)
	Sum of the absolute values of all the `Tbl_val` elements.
double	diffrel (const Tbl_val &a, const Tbl_val &b)
	Relative difference between two `Tbl_val` (norme version).
double	diffrelmax (const Tbl_val &a, const Tbl_val &b)
	Relative difference between two `Tbl_val` (max version).
void	write_formatted (const double &, ostream &)
void	write_formatted (const Tbl &, ostream &)
Tenseur	operator* (const Tenseur &t1, const Tenseur &t2)
	Tensorial product.
Tenseur	operator% (const Tenseur &t1, const Tenseur &t2)
	Tensorial product with desaliasing.
Tenseur	contract (const Tenseur &source, int id1, int id2)
	Self contraction of two indices of a `Tenseur` .
Tenseur	contract (const Tenseur &t1, int id1, const Tenseur &t2, int id2)
	Contraction of two `Tenseur` .
Tenseur	flat_scalar_prod (const Tenseur &t1, const Tenseur &t2)
	Scalar product of two `Tenseur` when the metric is $\delta_{ij}$ : performs the contraction of the last index of `t1` with the first one of `t2` , irrespective of the type of these indices.
Tenseur	flat_scalar_prod_desal (const Tenseur &t1, const Tenseur &t2)
	Same as `flat_scalar_prod` but with desaliasing.
Tenseur	manipule (const Tenseur &t1, const Metrique &met, int idx)
	Raise or lower the index `idx` depending on its type, using the given `Metrique` .
Tenseur	manipule (const Tenseur &t1, const Metrique &met)
	Raise or lower all the indices, depending on their type, using the given `Metrique` .
Tenseur	skxk (const Tenseur &source)
	Contraction of the last index of (*this) with or , depending on the type of S .
Tenseur	lie_derive (const Tenseur &t, const Tenseur &x, const Metrique *met=0x0)
	Lie Derivative of `t` with respect to `x` .
Tenseur	sans_trace (const Tenseur &tens, const Metrique &metre)
	Computes the traceless part of a `Tenseur` of valence 2.
Tenseur	operator+ (const Tenseur &)
Tenseur	operator- (const Tenseur &)
	`-` Tenseur
Tenseur	operator+ (const Tenseur &, const Tenseur &)
	Tenseur + Tenseur.
Tenseur	operator+ (const Tenseur &, double)
	Tenseur + double (the `Tenseur` must be a scalar).
Tenseur	operator+ (double, const Tenseur &)
	double + Tenseur (the `Tenseur` must be a scalar)
Tenseur	operator+ (const Tenseur &, int)
	Tenseur + int (the `Tenseur` must be a scalar).
Tenseur	operator+ (int, const Tenseur &)
	int + Tenseur (the `Tenseur` must be a scalar)
Tenseur	operator- (const Tenseur &, const Tenseur &)
	Tenseur - Tenseur.
Tenseur	operator- (const Tenseur &, double)
	Tenseur - double (the `Tenseur` must be a scalar).
Tenseur	operator- (double, const Tenseur &)
	double - Tenseur (the `Tenseur` must be a scalar)
Tenseur	operator- (const Tenseur &, int)
	Tenseur - int (the `Tenseur` must be a scalar).
Tenseur	operator- (int, const Tenseur &)
	int - Tenseur (the `Tenseur` must be a scalar)
Tenseur	operator* (const Tenseur &, double)
	Tenseur * double.
Tenseur	operator* (double, const Tenseur &)
	double * Tenseur
Tenseur	operator* (const Tenseur &, int)
	Tenseur * int.
Tenseur	operator* (int, const Tenseur &)
	int * Tenseur
Tenseur	operator/ (const Tenseur &a, const Tenseur &b)
	Tenseur / Tenseur (`b` must be a scalar).
Tenseur	operator/ (const Tenseur &, double)
	Tenseur / double.
Tenseur	operator/ (double, const Tenseur &)
	double / Tenseur (the `Tenseur` must be a scalar)
Tenseur	operator/ (const Tenseur &, int)
	Tenseur / int.
Tenseur	operator/ (int, const Tenseur &)
	int / Tenseur (the `Tenseur` must be a scalar)
Tenseur	exp (const Tenseur &)
	Exponential (for a scalar only).
Tenseur	log (const Tenseur &)
	Neperian logarithm (for a scalar only).
Tenseur	sqrt (const Tenseur &)
	Square root (for a scalar only).
Tenseur	abs (const Tenseur &)
	Absolute value (for a scalar only).
Tenseur	pow (const Tenseur &, int)
	Power (for a scalar only).
Tenseur	pow (const Tenseur &, double)
	Power (for a scalar only).
Tenseur_sym	operator* (const Tenseur &t1, const Tenseur_sym &t2)
	Tensorial product.
Tenseur_sym	manipule (const Tenseur_sym &t1, const Metrique &met)
	Raise or lower all the indices, depending on their type, using the given `Metrique` .
Tenseur_sym	lie_derive (const Tenseur_sym &t, const Tenseur &x, const Metrique *=0x0)
	Lie Derivative of `t` with respect to `x` .
Tenseur_sym	sans_trace (const Tenseur_sym &tens, const Metrique &metre)
	Computes the traceless part of a `Tenseur_sym` of valence 2.
Tenseur_sym	operator+ (const Tenseur_sym &)
Tenseur_sym	operator- (const Tenseur_sym &)
	`-` Tenseur_sym
Tenseur_sym	operator+ (const Tenseur_sym &, const Tenseur_sym &)
	Tenseur_sym + Tenseur_sym.
Tenseur_sym	operator- (const Tenseur_sym &, const Tenseur_sym &)
	Tenseur_sym - Tenseur_sym.
Tenseur_sym	operator* (const Tenseur_sym &, double)
	Tenseur_sym * double.
Tenseur_sym	operator* (double, const Tenseur_sym &)
	double * Tenseur_sym
Tenseur_sym	operator* (const Tenseur_sym &, int)
	Tenseur_sym * int.
Tenseur_sym	operator* (int, const Tenseur_sym &)
	int * Tenseur_sym
Tenseur_sym	operator/ (const Tenseur_sym &a, const Tenseur &b)
	Tenseur_sym / Tenseur (`b` must be a scalar).
Tenseur_sym	operator/ (const Tenseur_sym &, double)
	Tenseur_sym / double.
Tenseur_sym	operator/ (const Tenseur_sym &, int)
	Tenseur_sym / int.
Tensor	operator* (const Tensor &a, const Tensor &b)
	Tensorial product.
Tensor_sym	operator* (const Tensor &a, const Tensor_sym &b)
	Tensorial product with symmetries.
Tensor_sym	operator* (const Tensor_sym &a, const Tensor &b)
	Tensorial product with symmetries.
Tensor_sym	operator* (const Tensor_sym &a, const Tensor_sym &b)
	Tensorial product of two symmetric tensors.
Tensor	contract (const Tensor &t1, int ind1, const Tensor &t2, int ind2, bool desaliasing=false)
	Contraction of two tensors.
Tensor	contract (const Tensor &t1, int ind_i1, int ind_j1, const Tensor &t2, int ind_i2, int ind_j2, bool desaliasing=false)
	Double contraction of two tensors.
Tensor	contract (const Tensor &t1, int ind1, int ind2)
	Contraction on two indices of a single tensor (trace).
Tbl	max (const Tensor &aa, const char *comment=0x0, ostream &ost=cout)
	Maxima in each domain of the values of the tensor components.
Tbl	min (const Tensor &aa, const char *comment=0x0, ostream &ost=cout)
	Minima in each domain of the values of the tensor components.
Tbl	maxabs (const Tensor &aa, const char *comment=0x0, ostream &ost=cout, bool verb=true)
	Maxima in each domain of the absolute values of the tensor components.
Tbl	diffrel (const Tensor &aa, const Tensor &bb, const char *comment=0x0, ostream &ost=cout)
	Relative difference between two `Tensor` ( version).
Tbl	diffrelmax (const Tensor &aa, const Tensor &bb, const char *comment=0x0, ostream &ost=cout)
	Relative difference between two `Tensor` (max version).
Tbl	central_value (const Tensor &aa, const char *comment=0x0, ostream &ost=cout)
	Central value of each component of a tensor.
Tbl	max_all_domains (const Tensor &aa, int l_excluded=-1, const char *comment=0x0, ostream &ost=cout)
	Maximum value of each component of a tensor over all the domains.
Tbl	min_all_domains (const Tensor &aa, int l_excluded=-1, const char *comment=0x0, ostream &ost=cout)
	Minimum value of each component of a tensor over all the domains.
Tbl	maxabs_all_domains (const Tensor &aa, int l_excluded=-1, const char *comment=0x0, ostream &ost=cout, bool verb=true)
	Maximum of the absolute value of each component of a tensor over all the domains.
Tensor	operator+ (const Tensor &)
Tensor	operator- (const Tensor &)
	`-` Tensor
Tensor	operator+ (const Tensor &a, const Tensor &b)
	Tensor + Tensor.
Scalar	operator+ (const Tensor &a, const Scalar &b)
	Tensor + Scalar. The `Tensor` must be of valence 0.
Scalar	operator+ (const Scalar &a, const Tensor &b)
	Scalar + Tensor. The `Tensor` must be of valence 0.
Tensor	operator- (const Tensor &a, const Tensor &b)
	Tensor - Tensor.
Scalar	operator- (const Tensor &a, const Scalar &b)
	Tensor - Scalar. The `Tensor` must be of valence 0.
Scalar	operator- (const Scalar &a, const Tensor &b)
	Scalar - Tensor. The `Tensor` must be of valence 0.
Tensor	operator* (const Scalar &a, const Tensor &b)
	Scalar * Tensor.
Tensor	operator* (const Tensor &a, const Scalar &b)
	Tensor * Scalar.
Tensor	operator* (double, const Tensor &)
	double * Tensor
Tensor	operator* (const Tensor &, double)
	Tensor * double.
Tensor	operator* (int, const Tensor &)
	int* Tensor
Tensor	operator* (const Tensor &, int)
	Tensor * int.
Tensor	operator/ (const Tensor &, const Scalar &)
	Tensor / Scalar.
Tensor	operator/ (const Tensor &, double)
	Tensor / double.
Tensor	operator/ (const Tensor &, int)
	Tensor / int.
ostream &	operator<< (ostream &flux, const Time_slice &sigma)
void	arrete (int a=0)
	Setting a stop point in a code.
bool	zero_premier (double(*f)(double, const Param &), const Param &par, double a, double b, int n, double &a0, double &b0)
	Locates the sub-interval containing the first zero of a function in a given interval.
double	zerosec (double(*f)(double, const Param &), const Param &par, double a, double b, double precis, int nitermax, int &niter, bool abort=true)
	Finding the zero a function.
double	zerosec_b (double(*f)(double, const Param &), const Param &par, double a, double b, double precis, int nitermax, int &niter)
	Finding the zero a function on a bounded domain.
void	zero_list (double(f)(double, const Param &), const Param &par, double xmin, double xmax, int nsub, Tbl &az, Tbl *&bz)
	Locates approximatively all the zeros of a function in a given interval.
Tbl	integ1D (const Tbl &xx, const Tbl &ff)
	Integrates a function defined on an unequally-spaced grid, approximating it by piece parabolae.
int	fwrite_be (const int aa, int size, int nb, FILE fich)
	Writes integer(s) into a binary file according to the big endian convention.
int	fwrite_be (const double aa, int size, int nb, FILE fich)
	Writes double precision number(s) into a binary file according to the big endian convention.
int	fread_be (int aa, int size, int nb, FILE fich)
	Reads integer(s) from a binary file according to the big endian convention.
int	fread_be (double aa, int size, int nb, FILE fich)
	Reads double precision number(s) from a binary file according to the big endian convention.
char *	load_file (char *fname)
	Read file into memory and returns pointer to data.
char *	load_file_buffered (char *fname)
	Returns pointer to data from a file using a buffer.
int	read_variable (const char fname, const char var_name, char fmt, void varp)
	Reads a variable from file.
int	read_variable (const char fname, const char var_name, int &var)
	Read an integer-variable from file (cf `read_variable(char , char , char , void )` ).
int	read_variable (const char fname, const char var_name, bool &var)
	Read a bool variable from file (cf `read_variable(char , char , char , void )` ).
int	read_variable (const char fname, const char var_name, double &var)
	Read a double variable from file (cf `read_variable(char , char , char , void )` ).
int	read_variable (const char fname, const char var_name, char **str)
	Read a (ANSI C) string variable from file.
void *	MyMalloc (long bytes)
	'Improved' malloc that sets memory to 0 and also auto-terminates on error.
int	FS_filelength (FILE *f)
	A portable routine to determine the length of a file.
void	c_est_pas_fait (const char *)
	Helpful function to say something is not implemented yet.
ostream &	operator<< (ostream &o, const Valeur &vi)
Valeur	operator+ (const Valeur &)
Valeur	operator- (const Valeur &)
	`-` Valeur
Valeur	operator+ (const Valeur &, const Valeur &)
	Valeur + Valeur.
Valeur	operator+ (const Valeur &, const Mtbl &)
	Valeur + Mtbl.
Valeur	operator+ (const Mtbl &, const Valeur &)
	Mtbl + Valeur.
Valeur	operator+ (const Valeur &, double)
	Valeur + double.
Valeur	operator+ (double, const Valeur &)
	double + Valeur
Valeur	operator+ (const Valeur &, int)
	Valeur + int.
Valeur	operator+ (int, const Valeur &)
	int + Valeur
Valeur	operator- (const Valeur &, const Valeur &)
	Valeur - Valeur.
Valeur	operator- (const Valeur &, const Mtbl &)
	Valeur - Mtbl.
Valeur	operator- (const Mtbl &, const Valeur &)
	Mtbl - Valeur.
Valeur	operator- (const Valeur &, double)
	Valeur - double.
Valeur	operator- (double, const Valeur &)
	double - Valeur
Valeur	operator- (const Valeur &, int)
	Valeur - int.
Valeur	operator- (int, const Valeur &)
	int - Valeur
Valeur	operator* (const Valeur &, const Valeur &)
	Valeur * Valeur.
Valeur	operator% (const Valeur &, const Valeur &)
	Valeur * Valeur with desaliasing.
Valeur	operator\| (const Valeur &, const Valeur &)
	Valeur * Valeur with desaliasing only in r direction.
Valeur	operator* (const Valeur &, double)
	Valeur * double.
Valeur	operator* (double, const Valeur &)
	double * Valeur
Valeur	operator* (const Valeur &, int)
	Valeur * int.
Valeur	operator* (int, const Valeur &)
	int * Valeur
Valeur	operator* (const Valeur &a, const Mtbl &b)
	Valeur * Mtbl.
Valeur	operator* (const Mtbl &b, const Valeur &a)
	Mtbl * Valeur.
Valeur	operator* (const Valeur &a, const Coord &c)
	Valeur * Coord.
Valeur	operator* (const Coord &c, const Valeur &a)
	Coord * Valeur.
Valeur	operator/ (const Valeur &a, const Valeur &b)
	Valeur / Valeur.
Valeur	operator/ (const Valeur &, double)
	Valeur / double.
Valeur	operator/ (double, const Valeur &)
	double / Valeur
Valeur	operator/ (const Valeur &, int)
	Valeur / int.
Valeur	operator/ (int, const Valeur &)
	int / Valeur
Valeur	operator/ (const Valeur &a, const Mtbl &b)
	Valeur / Mtbl.
Valeur	operator/ (const Mtbl &b, const Valeur &a)
	Mtbl / Valeur.
Valeur	sin (const Valeur &)
	Sine.
Valeur	cos (const Valeur &)
	Cosine.
Valeur	tan (const Valeur &)
	Tangent.
Valeur	asin (const Valeur &)
	Arcsine.
Valeur	acos (const Valeur &)
	Arccosine.
Valeur	atan (const Valeur &)
	Arctangent.
Valeur	exp (const Valeur &)
	Exponential.
Valeur	Heaviside (const Valeur &)
	Heaviside function.
Valeur	log (const Valeur &)
	Neperian logarithm.
Valeur	log10 (const Valeur &)
	Basis 10 logarithm.
Valeur	sqrt (const Valeur &)
	Square root.
Valeur	pow (const Valeur &, int)
	Power ${\tt Valeur}^{\tt int}$ .
Valeur	pow (const Valeur &, double)
	Power ${\tt Valeur}^{\tt double}$ .
Valeur	abs (const Valeur &)
	Absolute value.
Valeur	racine_cubique (const Valeur &)
	Cube root.
double	totalmax (const Valeur &)
	Maximum values of the `Valeur` in entire space.
double	totalmin (const Valeur &)
	Minimum values of the `Valeur` in entire space.
Tbl	max (const Valeur &)
	Maximum values of the `Valeur` (configuration space) in each domain.
Tbl	min (const Valeur &)
	Minimum values of the `Valeur` (configuration space) in each domain.
Tbl	norme (const Valeur &)
	Sums of the absolute values of all the `Valeur` (configuration space) in each domain.
Tbl	diffrel (const Valeur &a, const Valeur &b)
	Relative difference between two `Valeur` (configuration space) (norme version).
Tbl	diffrelmax (const Valeur &a, const Valeur &b)
	Relative difference between two `Valeur` (configuration space) (max version).
void	basename_p_unknown (int, char *)
void	basename_p_cossin (int, char *)
void	basename_p_cossin_p (int, char *)
void	basename_p_cossin_i (int, char *)
void	basename_r_unknown (int, int, int, char *)
void	basename_r_cheb (int, int, int, char *)
void	basename_r_chebp (int, int, int, char *)
void	basename_r_chebi (int, int, int, char *)
void	basename_r_chebpim_p (int, int, int, char *)
void	basename_r_chebpim_i (int, int, int, char *)
void	basename_r_chebpi_p (int, int, int, char *)
void	basename_r_chebpi_i (int, int, int, char *)
void	basename_r_leg (int, int, int, char *)
void	basename_r_legp (int, int, int, char *)
void	basename_r_legi (int, int, int, char *)
void	basename_r_jaco02 (int, int, int, char *)
void	basename_t_unknown (int, int, char *)
void	basename_t_cos (int, int, char *)
void	basename_t_sin (int, int, char *)
void	basename_t_cos_p (int, int, char *)
void	basename_t_sin_p (int, int, char *)
void	basename_t_cos_i (int, int, char *)
void	basename_t_sin_i (int, int, char *)
void	basename_t_cossin_cp (int, int, char *)
void	basename_t_cossin_sp (int, int, char *)
void	basename_t_cossin_c (int, int, char *)
void	basename_t_cossin_s (int, int, char *)
void	basename_t_cossin_ci (int, int, char *)
void	basename_t_cossin_si (int, int, char *)
void	basename_t_leg_p (int, int, char *)
void	basename_t_leg (int, int, char *)
void	basename_t_leg_mp (int, int, char *)
void	basename_t_leg_mi (int, int, char *)
void	basename_t_leg_pp (int, int, char *)
void	basename_t_leg_i (int, int, char *)
void	basename_t_leg_ip (int, int, char *)
void	basename_t_leg_pi (int, int, char *)
void	basename_t_leg_ii (int, int, char *)
void	basename_t_cl_cos_p (int, int, char *)
void	basename_t_cl_sin_p (int, int, char *)
void	basename_t_cl_cos_i (int, int, char *)
void	basename_t_cl_sin_i (int, int, char *)
void	phi_funct_pas_prevu (int, double *)
void	phi_funct_cossin (int, double *)
void	phi_funct_cossin_p (int, double *)
void	phi_funct_cossin_i (int, double *)
void	theta_funct_pas_prevu (int, double *)
void	theta_funct_cos (int, double *)
void	theta_funct_sin (int, double *)
void	theta_funct_cos_p (int, double *)
void	theta_funct_cos_i (int, double *)
void	theta_funct_sin_p (int, double *)
void	theta_funct_sin_i (int, double *)
void	theta_funct_cossin_cp (int, double *)
void	theta_funct_cossin_ci (int, double *)
void	theta_funct_cossin_sp (int, double *)
void	theta_funct_cossin_si (int, double *)
void	theta_funct_cossin_c (int, double *)
void	theta_funct_cossin_s (int, double *)
double	func_binbhns_orbit_ks (double, const Param &)
double	func_binbhns_orbit_is (double, const Param &)
double	fonc_bhns_orbit_ks (double, const Param &)
double	fonc_bhns_orbit_cf (double, const Param &)
double	fonc_bin_ns_bh_orbit (double, const Param &)
double	fonc_binaire_axe (double, const Param &)
double	fonc_binaire_orbit (double, const Param &)
double	fonc_binary_axe (double, const Param &)
double	fonc_binary_orbit (double, const Param &)
double	fonc_binary_xcts_axe (double, const Param &)
double	fonc_binary_xcts_orbit (double, const Param &)
double	gg (double, const double)
double	ff (double, const double)
double	one (double)
double	zero (double)
double	ide (double x)
double	part_ln (double x)
double	part_ln_der (double x)
double	moins_log (double x)
double	plus_sur (double x)
double	plus_log (double x)
double	moins_sur (double x)
Mtbl_cf	sol_poisson_frontiere (const Map_af &, const Mtbl_cf &, const Mtbl_cf &, int, int, int, double=0., double=0.)
Mtbl_cf	sol_poisson_frontiere_double (const Map_af &, const Mtbl_cf &, const Mtbl_cf &, const Mtbl_cf &, int)
Mtbl_cf	sol_poisson_interne (const Map_af &, const Mtbl_cf &, const Mtbl_cf &)
Matrice	matrice_raccord_pair (int cont, double alpha_kernel)
Matrice	matrice_raccord_impair (int cont, double alpha_kernel)
Tbl	sec_membre_raccord (Tbl coef, int cont, double alpha_shell)
Tbl	regularise (Tbl coef, int nr, int base_r)
int	cnp (int n, int p)
ostream &	operator<< (ostream &ost, const Compobj &co)
double	funct_compobj_QI_isco (double, const Param &)
double	funct_compobj_QI_rmb (double, const Param &)
ostream &	operator<< (ostream &ost, const Diff &ope)
void	mult2_xp1_1d (int, double **, int)
void	sxp12_1d (int, double **, int)
void	sxpundsdx_1d (int, double **, int)
void	xpundsdx_1d (int, double **, int)
double	puis (double, double)
double	enthal1 (const double x, const Param &parent)
double	enthal23 (const double x, const Param &parent)
double	enthal (const double x, const Param &parent)
void	interpol_linear (const Tbl &xtab, const Tbl &ytab, double x, int &i, double &y)
void	interpol_herm (const Tbl &xtab, const Tbl &ytab, const Tbl &dytab, double x, int &i, double &y, double &dy)
void	interpol_mixed_3d (const Tbl &, const Tbl &, const Tbl &, const Tbl &, const Tbl &, const Tbl &, const Tbl &, double, double, double, double &, double &, double &)
void	interpol_mixed_3d_new (double m1, double m2, const Tbl &xtab, const Tbl &ytab, const Tbl &ztab, const Tbl &ftab, const Tbl &dfdytab, const Tbl &dfdztab, const Tbl &d2fdydztab, const Tbl &dlpsddelta_car, const Tbl &d2lpsdlent1ddelta_car, const Tbl &d2lpsdlent2ddelta_car, const Tbl &mu2_P, const Tbl &n_p_P, const Tbl &press_P, const Tbl &mu1_N, const Tbl &n_n_N, const Tbl &press_N, const Tbl &delta_car_n0, const Tbl &mu1_n0, const Tbl &mu2_n0, const Tbl &delta_car_p0, const Tbl &mu1_p0, const Tbl &mu2_p0, double x, double y, double z, double &f, double &dfdy, double &dfdz, double &alpha)
void	interpolation_brutale (double x, double y, double z, double delta111, double delta211, double mu1_111, double mu1_121, double mu2_111, double mu2_112, double mu1_211, double mu1_221, double mu2_211, double mu2_212, double p_111, double p_121, double p_112, double p_122, double p_211, double p_221, double p_212, double p_222, double n1_111, double n1_121, double n1_112, double n1_122, double n1_211, double n1_221, double n1_212, double n1_222, double n2_111, double n2_121, double n2_112, double n2_122, double n2_211, double n2_221, double n2_212, double n2_222, double cross_111, double cross_121, double cross_112, double cross_122, double cross_211, double cross_221, double cross_212, double cross_222, double &f, double &dfdy, double &dfdz)
void	interpolation_brutale_mod (double x, double y, double z, double delta111, double delta211, double mu1_111, double mu1_121, double mu2_111, double mu2_112, double mu1_211, double mu1_221, double mu2_211, double mu2_212, double p_111, double p_121, double p_112, double p_122, double p_211, double p_221, double p_212, double p_222, double n1_111, double n1_121, double n1_112, double n1_122, double n1_211, double n1_221, double n1_212, double n1_222, double n2_111, double n2_121, double n2_112, double n2_122, double n2_211, double n2_221, double n2_212, double n2_222, double &f, double &dfdy, double &dfdz)
void	interpol_mixed_3d_mod (const Tbl &, const Tbl &, const Tbl &, const Tbl &, const Tbl &, const Tbl &, double, double, double, double &, double &, double &)
double	fc (double)
double	gc (double)
double	hc (double)
void	interpol_herm_2d (const Tbl &, const Tbl &, const Tbl &, const Tbl &, const Tbl &, const Tbl &, double, double, double &, double &, double &)
double	logp (double, double, double, double, double, double)
double	dlpsdlh (double, double, double, double, double, double)
double	dlpsdlnb (double, double, double, double, double)
Cmp	raccord_c1 (const Cmp &uu, int l1)
double	et_rot_diff_fzero (double omeg, const Param &par)
double	fonct_etoile_rot_isco (double, const Param &)
double	fonc_expansion (double rr, const Param &par_expansion)
Mtbl_cf	sol_poisson (const Map_af &, const Mtbl_cf &, int, bool match=true)
Mtbl_cf	sol_poisson_tau (const Map_af &, const Mtbl_cf &, int)
Mtbl_cf	sol_poisson_falloff (const Map_af &, const Mtbl_cf &, const int)
Mtbl_cf	sol_poisson_ylm (const Map_af &, const Mtbl_cf &, const int, const double *)
void	_primr_pas_prevu (const Tbl &, int, const Tbl &, Tbl &, int &, Tbl &)
void	_primr_r_cheb (const Tbl &, int, const Tbl &, Tbl &, int &, Tbl &)
void	_primr_r_chebp (const Tbl &, int, const Tbl &, Tbl &, int &, Tbl &)
void	_primr_r_chebi (const Tbl &, int, const Tbl &, Tbl &, int &, Tbl &)
void	_primr_r_chebpim_p (const Tbl &, int, const Tbl &, Tbl &, int &, Tbl &)
void	_primr_r_chebpim_i (const Tbl &, int, const Tbl &, Tbl &, int &, Tbl &)
void	_primr_r_jaco02 (const Tbl &, int, const Tbl &, Tbl &, int &, Tbl &)
double	fonc_invr_map_et_noyau (double, const Param &)
double	fonc_invr_map_et_coq (double, const Param &)
double	fonc_invr_map_et_zec (double, const Param &)
void	pas_fait ()
Mtbl_cf	sol_poisson_compact (const Mtbl_cf &, double, double, bool)
Mtbl_cf	sol_poisson_compact (const Map_af &, const Mtbl_cf &, const Tbl &, const Tbl &, bool)
ostream &	operator<< (ostream &ost, const Metric &meti)
void	_lapang_pas_prevu (Mtbl_cf *, int)
void	_lapang_t_leg_p (Mtbl_cf *, int)
void	_lapang_t_leg_i (Mtbl_cf *, int)
void	_lapang_t_leg_pp (Mtbl_cf *, int)
void	_lapang_t_leg_ip (Mtbl_cf *, int)
void	_lapang_t_leg_pi (Mtbl_cf *, int)
void	_lapang_t_leg_ii (Mtbl_cf *, int)
void	_lapang_t_leg_mp (Mtbl_cf *, int)
void	_lapang_t_leg_mi (Mtbl_cf *, int)
void	_lapang_t_leg (Mtbl_cf *, int)
void	_poisangu_pas_prevu (Mtbl_cf *, int, double)
void	_poisangu_t_leg_p (Mtbl_cf *, int, double)
void	_poisangu_t_leg_i (Mtbl_cf *, int, double)
void	_poisangu_t_leg_pp (Mtbl_cf *, int, double)
void	_poisangu_t_leg_ip (Mtbl_cf *, int, double)
void	_poisangu_t_leg_pi (Mtbl_cf *, int, double)
void	_poisangu_t_leg_ii (Mtbl_cf *, int, double)
void	_poisangu_t_leg_mp (Mtbl_cf *, int, double)
void	_poisangu_t_leg_mi (Mtbl_cf *, int, double)
void	_poisangu_t_leg (Mtbl_cf *, int, double)
void	get_legendre_data (int, Tbl &, Tbl &)
void	donne_lm_nonsymTP (int j, int k, int &m_quant, int &l_quant)
void	donne_lm_nonsym (int j, int k, int &m_quant, int &l_quant)
void	donne_lm_nonsym_anti (int j, int k, int &m_quant, int &l_quant)
void	donne_lm_sym (int j, int k, int &m_quant, int &l_quant)
void	donne_lm_t_leg_ip (int j, int k, int &m_quant, int &l_quant)
void	donne_lm_t_leg_mp (int j, int k, int &m_quant, int &l_quant)
void	donne_lm_t_leg_mi (int j, int k, int &m_quant, int &l_quant)
void	donne_lm_t_leg_pi (int j, int k, int &m_quant, int &l_quant)
void	donne_lm_t_leg_ii (int j, int k, int &m_quant, int &l_quant)
bool	admissible_fft (int n)
int *	facto_ini (int)
double *	trigo_ini (int)
fftw_plan	prepare_fft (int, Tbl *&)
fftw_plan	back_fft (int, Tbl *&)
void	poly_leg (int n, double &poly, double &pder, double &polym1, double &pderm1, double &polym2, double &pderm2, double x)
int	nullite_plm_t_leg (int j, int nt, int k, int np)
int	nullite_plm_t_leg_ip (int j, int nt, int k, int np)
int	nullite_plm_t_leg_pi (int j, int nt, int k, int np)
int	nullite_plm_t_leg_ii (int j, int nt, int k, int np)
int	nullite_plm_t_leg_mp (int j, int nt, int k, int np)
int	nullite_plm_t_leg_mi (int j, int nt, int k, int np)
void	des_bi_coupe_y (const Cmp &uu, double y0, int nzdes, const char title, const Cmp defsurf, const Cmp *defsurf2, double zoom, bool draw_bound, int ncour, int nx, int nz)
void	des_bi_coupe_y (const Cmp &uu, double y0, double x_min, double x_max, double z_min, double z_max, const char title, const Cmp defsurf, const Cmp *defsurf2, bool draw_bound, int ncour, int nx, int nz)
void	des_coef (const double cf, int n, double pzero, const char nomx, const char nomy, const char title, const char *device, int newgraph, int nxpage, int nypage)
void	des_coef_xi (const Valeur &uu, int l, int k, int j, double pzero, const char nomy, const char title, const char *device, int newgraph, int nxpage, int nypage)
void	des_coef_theta (const Valeur &uu, int l, int k, int i, double pzero, const char nomy, const char title, const char *device, int newgraph, int nxpage, int nypage)
void	des_coef_phi (const Valeur &uu, int l, int j, int i, double pzero, const char nomy, const char title, const char *device, int newgraph, int nxpage, int nypage)
void	des_coupe_bin_x (const Cmp &uu1, const Cmp &uu2, double x0, double y_min, double y_max, double z_min, double z_max, const char title, const Cmp defsurf1, const Cmp *defsurf2, bool draw_bound, int ncour, int ny, int nz)
void	des_coupe_bin_y (const Cmp &uu1, const Cmp &uu2, double y0, double x_min, double x_max, double z_min, double z_max, const char title, const Cmp defsurf1, const Cmp *defsurf2, bool draw_bound, int ncour, int nx, int nz)
void	des_coupe_bin_z (const Cmp &uu1, const Cmp &uu2, double z0, double x_min, double x_max, double y_min, double y_max, const char title, const Cmp defsurf1, const Cmp *defsurf2, bool draw_bound, int ncour, int nx, int ny)
void	des_coupe_x (const Scalar &uu, double x0, int nzdes, const char title, const Scalar defsurf, double zoom, bool draw_bound, int ncour, int ny, int nz)
void	des_coupe_x (const Scalar &uu, double x0, double y_min, double y_max, double z_min, double z_max, const char title, const Scalar defsurf, bool draw_bound, int ncour, int ny, int nz)
void	des_coupe_y (const Scalar &uu, double y0, int nzdes, const char title, const Scalar defsurf, double zoom, bool draw_bound, int ncour, int nx, int nz)
void	des_coupe_y (const Scalar &uu, double y0, double x_min, double x_max, double z_min, double z_max, const char title, const Scalar defsurf, bool draw_bound, int ncour, int nx, int nz)
void	des_coupe_z (const Scalar &uu, double z0, int nzdes, const char title, const Scalar defsurf, double zoom, bool draw_bound, int ncour, int nx, int ny)
void	des_coupe_z (const Scalar &uu, double z0, double x_min, double x_max, double y_min, double y_max, const char title, const Scalar defsurf, bool draw_bound, int ncour, int nx, int ny)
void	des_coupe_vect_x (const Tenseur &vv, double x0, double scale, double sizefl, int nzdes, const char title, const Cmp defsurf, double zoom, bool draw_bound, int ny, int nz)
void	des_coupe_vect_x (const Tenseur &vv, double x0, double scale, double sizefl, double y_min, double y_max, double z_min, double z_max, const char title, const Cmp defsurf, bool draw_bound, int ny, int nz)
void	des_coupe_vect_y (const Tenseur &vv, double y0, double scale, double sizefl, int nzdes, const char title, const Cmp defsurf, double zoom, bool draw_bound, int nx, int nz)
void	des_coupe_vect_y (const Tenseur &vv, double y0, double scale, double sizefl, double x_min, double x_max, double z_min, double z_max, const char title, const Cmp defsurf, bool draw_bound, int nx, int nz)
void	des_coupe_vect_z (const Tenseur &vv, double z0, double scale, double sizefl, int nzdes, const char title, const Cmp defsurf, double zoom, bool draw_bound, int nx, int ny)
void	des_coupe_vect_z (const Tenseur &vv, double z0, double scale, double sizefl, double x_min, double x_max, double y_min, double y_max, const char title, const Cmp defsurf, bool draw_bound, int nx, int ny)
void	des_coupe_vect_x (const Vector &vv, double x0, double scale, double sizefl, int nzdes, const char title, const Scalar defsurf, double zoom, bool draw_bound, int ny, int nz)
void	des_coupe_vect_x (const Vector &vv, double x0, double scale, double sizefl, double y_min, double y_max, double z_min, double z_max, const char title, const Scalar defsurf, bool draw_bound, int ny, int nz)
void	des_coupe_vect_y (const Vector &vv, double y0, double scale, double sizefl, int nzdes, const char title, const Scalar defsurf, double zoom, bool draw_bound, int nx, int nz)
void	des_coupe_vect_y (const Vector &vv, double y0, double scale, double sizefl, double x_min, double x_max, double z_min, double z_max, const char title, const Scalar defsurf, bool draw_bound, int nx, int nz)
void	des_coupe_vect_z (const Vector &vv, double z0, double scale, double sizefl, int nzdes, const char title, const Scalar defsurf, double zoom, bool draw_bound, int nx, int ny)
void	des_coupe_vect_z (const Vector &vv, double z0, double scale, double sizefl, double x_min, double x_max, double y_min, double y_max, const char title, const Scalar defsurf, bool draw_bound, int nx, int ny)
void	des_coupe_x (const Cmp &uu, double x0, int nzdes, const char title, const Cmp defsurf, double zoom, bool draw_bound, int ncour, int ny, int nz)
void	des_coupe_x (const Cmp &uu, double x0, double y_min, double y_max, double z_min, double z_max, const char title, const Cmp defsurf, bool draw_bound, int ncour, int ny, int nz)
void	des_coupe_y (const Cmp &uu, double y0, int nzdes, const char title, const Cmp defsurf, double zoom, bool draw_bound, int ncour, int nx, int nz)
void	des_coupe_y (const Cmp &uu, double y0, double x_min, double x_max, double z_min, double z_max, const char title, const Cmp defsurf, bool draw_bound, int ncour, int nx, int nz)
void	des_coupe_z (const Cmp &uu, double z0, int nzdes, const char title, const Cmp defsurf, double zoom, bool draw_bound, int ncour, int nx, int ny)
void	des_coupe_z (const Cmp &uu, double z0, double x_min, double x_max, double y_min, double y_max, const char title, const Cmp defsurf, bool draw_bound, int ncour, int nx, int ny)
double	fonc_des_domaine_x (double, const Param &)
double	fonc_des_domaine_y (double, const Param &)
double	fonc_des_domaine_z (double, const Param &)
void	des_domaine_x (const Map &mp, int l0, double x0, const char device, int newgraph, double y_min, double y_max, double z_min, double z_max, const char nomy, const char nomz, const char title, int nxpage, int nypage)
void	des_domaine_y (const Map &mp, int l0, double y0, const char device, int newgraph, double x_min, double x_max, double z_min, double z_max, const char nomx, const char nomz, const char title, int nxpage, int nypage)
void	des_domaine_z (const Map &mp, int l0, double z0, const char device, int newgraph, double x_min, double x_max, double y_min, double y_max, const char nomx, const char nomy, const char title, int nxpage, int nypage)
void	des_equipot (float uutab, int nx, int ny, float xmin, float xmax, float ymin, float ymax, int ncour, const char nomx, const char nomy, const char title, const char *device, int newgraph, int nxpage, int nypage)
void	des_evol (const Evolution< double > &uu, const char nomy, const char title, int ngraph, const char device, bool closeit, bool show_time, const char nomx)
void	des_evol (const Evolution< double > &uu, int j_min, int j_max, const char nomy, const char title, int ngraph, const char device, bool closeit, bool show_time, const char nomx)
void	des_map_et (const Map_et &mp, int lz)
void	des_profile (const Cmp &uu, double r_min, double r_max, double theta, double phi, const char nomy, const char title)
void	des_profile (const Cmp &uu, double r_min, double r_max, double scale, double theta, double phi, const char nomx, const char nomy, const char *title)
void	des_profile (const Scalar &uu, double r_min, double r_max, double theta, double phi, const char nomy, const char title, bool draw_bound)
void	des_profile (const Scalar &uu, double r_min, double r_max, double scale, double theta, double phi, const char nomx, const char nomy, const char *title, bool draw_bound)
void	des_profile_mult (const Scalar *uu, int nprof, double r_min, double r_max, const double theta, const double phi, double radial_scale, bool closeit, const char nomy, const char title, int ngraph, const char nomx, const int line_style, const char device, bool draw_bound)
void	des_meridian (const Scalar &uu, double r_min, double r_max, const char nomy, int ngraph, const char device, bool closeit, bool draw_bound)
void	des_meridian (const Sym_tensor &hh, double r_min, double r_max, const char name, int ngraph0, const char device, bool closeit)
void	des_points (const Scalar &uu, double theta, double phi, const char nomy, const char title, bool draw_bound)
void	des_points (const Scalar &uu, double scale, double theta, double phi, const char nomx, const char nomy, const char *title, bool draw_bound)
void	des_profile (const float uutab, int nx, float xmin, float xmax, const char nomx, const char nomy, const char title, const char device, int nbound, float xbound)
void	des_profile_mult (const float uutab, int nprof, int nx, float xmin, float xmax, const char nomx, const char nomy, const char title, const int line_style, int ngraph, bool closeit, const char device, int nbound, float *xbound)
void	des_profile (const float uutab, int nx, const float xtab, const char nomx, const char nomy, const char title, const char device, int nbound, float *xbound)
void	des_profile_mult (const float uutab, int nprof, int nx, const float xtab, const char nomx, const char nomy, const char title, const int line_style, int ngraph, bool closeit, const char device, int nbound, float xbound)
double	fonc_des_surf_scal_x (double, const Param &)
double	fonc_des_surf_scal_y (double, const Param &)
double	fonc_des_surf_scal_z (double, const Param &)
void	des_surface_x (const Scalar &defsurf, double x0, const char device, int newgraph, double y_min, double y_max, double z_min, double z_max, const char nomy, const char nomz, const char title, int nxpage, int nypage)
void	des_surface_y (const Scalar &defsurf, double y0, const char device, int newgraph, double x_min, double x_max, double z_min, double z_max, const char nomx, const char nomz, const char title, int nxpage, int nypage)
void	des_surface_z (const Scalar &defsurf, double z0, const char device, int newgraph, double x_min, double x_max, double y_min, double y_max, const char nomx, const char nomy, const char title, int nxpage, int nypage)
double	fonc_des_surface_x (double, const Param &)
double	fonc_des_surface_y (double, const Param &)
double	fonc_des_surface_z (double, const Param &)
void	des_surface_x (const Cmp &defsurf, double x0, const char device, int newgraph, double y_min, double y_max, double z_min, double z_max, const char nomy, const char nomz, const char title, int nxpage, int nypage)
void	des_surface_y (const Cmp &defsurf, double y0, const char device, int newgraph, double x_min, double x_max, double z_min, double z_max, const char nomx, const char nomz, const char title, int nxpage, int nypage)
void	des_surface_z (const Cmp &defsurf, double z0, const char device, int newgraph, double x_min, double x_max, double y_min, double y_max, const char nomx, const char nomy, const char title, int nxpage, int nypage)
void	des_vect (float vvx, float vvy, int nx, int ny, float xmin, float xmax, float ymin, float ymax, double scale, double sizefl, const char nomx, const char nomy, const char title, const char device, int newgraph, int nxpage, int nypage)
void	des_vect_bin_x (const Tenseur &vv1, const Tenseur &vv2, double x0, double scale, double sizefl, double y_min, double y_max, double z_min, double z_max, const char title, const Cmp defsurf1, const Cmp *defsurf2, bool draw_bound, int ny, int nz)
void	des_vect_bin_y (const Tenseur &vv1, const Tenseur &vv2, double y0, double scale, double sizefl, double x_min, double x_max, double z_min, double z_max, const char title, const Cmp defsurf1, const Cmp *defsurf2, bool draw_bound, int nx, int nz)
void	des_vect_bin_z (const Tenseur &vv1, const Tenseur &vv2, double z0, double scale, double sizefl, double x_min, double x_max, double y_min, double y_max, const char title, const Cmp defsurf1, const Cmp *defsurf2, bool draw_bound, int nx, int ny)
void	des_coupe_vtk_x (const Scalar &uu, double x0, double y_min, double y_max, double z_min, double z_max, const char *title, int ny, int nz)
void	des_coupe_vtk_x (const Scalar &uu, double x0, int nzdes, const char *title, double zoom, int ny, int nz)
void	des_coupe_vtk_y (const Scalar &uu, double y0, double x_min, double x_max, double z_min, double z_max, const char *title, int nx, int nz)
void	des_coupe_vtk_y (const Scalar &uu, double y0, int nzdes, const char *title, double zoom, int nx, int nz)
void	des_coupe_vtk_z (const Scalar &uu, double z0, double x_min, double x_max, double y_min, double y_max, const char *title, int nx, int ny)
void	des_coupe_vtk_z (const Scalar &uu, double z0, int nzdes, const char *title, double zoom, int nx, int ny)
void	des_vtk_xyz (const Scalar &uu, double x_min, double x_max, double y_min, double y_max, double z_min, double z_max, const char *title, int nx, int ny, int nz)
void	des_vtk_xyz (const Scalar &uu, int nzdes, const char *title, int nx, int ny, int nz)
void	save_profile (const Scalar &uu, double r_min, double r_max, double theta, double phi, const char *filename)
void	_d2sdx2_1d_r_jaco02 (int nr, double tb, double xo)
void	_d2sdx2_1d_r_leg (int nr, double tb, double xo)
void	_d2sdx2_1d_r_legp (int nr, double tb, double xo)
void	_d2sdx2_1d_r_legi (int nr, double tb, double xo)
void	_dsdx_1d_r_jaco02 (int nr, double tb, double xo)
void	_dsdx_1d_r_leg (int nr, double tb, double xo)
void	_dsdx_1d_r_legi (int nr, double tb, double xo)
void	_dsdx_1d_r_legp (int nr, double tb, double xo)
void	_mult2_xp1_1d_pas_prevu (int nr, double tb, double res)
void	_mult2_xp1_1d_r_jaco02 (int nr, double tb, double xo)
void	_multx2_1d_r_legp (int nr, double tb, double xo)
void	_multx2_1d_r_legi (int nr, double tb, double xo)
void	_multx2_1d_r_leg (int nr, double tb, double xo)
void	_multx_1d_r_leg (int nr, double tb, double res)
void	_multxpun_1d_pas_prevu (int nr, double tb, double res)
void	_multxpun_1d_r_jaco02 (int nr, double tb, double xo)
void	_d2sdphi2_pas_prevu (Tbl *, int &b)
void	_d2sdphi2_p_cossin (Tbl *tb, int &)
void	_d2sdtet2_pas_prevu (Tbl *, int &b)
void	_d2sdtet2_t_cos (Tbl *tb, int &)
void	_d2sdtet2_t_sin (Tbl *tb, int &)
void	_d2sdtet2_t_cos_p (Tbl *tb, int &)
void	_d2sdtet2_t_sin_p (Tbl *tb, int &)
void	_d2sdtet2_t_sin_i (Tbl *tb, int &)
void	_d2sdtet2_t_cos_i (Tbl *tb, int &)
void	_d2sdtet2_t_cossin_cp (Tbl *tb, int &)
void	_d2sdtet2_t_cossin_sp (Tbl *tb, int &)
void	_d2sdtet2_t_cossin_si (Tbl *tb, int &)
void	_d2sdtet2_t_cossin_c (Tbl *tb, int &)
void	_d2sdtet2_t_cossin_s (Tbl *tb, int &)
void	c_est_pas_fait (char *)
void	_d2sdx2_pas_prevu (Tbl *, int &b)
void	_d2sdx2_r_chebu_0 (Tbl *tb, int &)
void	_d2sdx2_r_cheb (Tbl *tb, int &)
void	_d2sdx2_r_chebp (Tbl *tb, int &)
void	_d2sdx2_r_chebi (Tbl *tb, int &)
void	_d2sdx2_r_chebpim_p (Tbl *tb, int &)
void	_d2sdx2_r_chebpim_i (Tbl *tb, int &)
void	_d2sdx2_r_chebpi_p (Tbl *tb, int &)
void	_d2sdx2_r_chebpi_i (Tbl *tb, int &)
void	_d2sdx2_r_leg (Tbl *tb, int &)
void	_d2sdx2_r_legp (Tbl *tb, int &)
void	_d2sdx2_r_legi (Tbl *tb, int &)
void	_d2sdx2_r_jaco02 (Tbl *tb, int &)
void	_dsdphi_pas_prevu (Tbl *, int &b)
void	_dsdphi_p_cossin (Tbl *tb, int &)
void	_dsdphi_p_cossin_p (Tbl *tb, int &)
void	_dsdphi_p_cossin_i (Tbl *tb, int &)
void	_dsdtet_pas_prevu (Tbl *, int &b)
void	_dsdtet_t_cos (Tbl *tb, int &b)
void	_dsdtet_t_sin (Tbl *tb, int &b)
void	_dsdtet_t_cos_p (Tbl *tb, int &b)
void	_dsdtet_t_sin_p (Tbl *tb, int &b)
void	_dsdtet_t_sin_i (Tbl *tb, int &b)
void	_dsdtet_t_cos_i (Tbl *tb, int &b)
void	_dsdtet_t_cossin_cp (Tbl *tb, int &b)
void	_dsdtet_t_cossin_sp (Tbl *tb, int &b)
void	_dsdtet_t_cossin_ci (Tbl *tb, int &b)
void	_dsdtet_t_cossin_si (Tbl *tb, int &b)
void	_dsdtet_t_cossin_c (Tbl *tb, int &b)
void	_dsdtet_t_cossin_s (Tbl *tb, int &b)
void	_dsdx_pas_prevu (Tbl *, int &b)
void	_dsdx_r_cheb (Tbl *tb, int &)
void	_dsdx_r_chebu (Tbl *tb, int &)
void	_dsdx_r_chebpim_p (Tbl *tb, int &b)
void	_dsdx_r_chebpim_i (Tbl *tb, int &b)
void	_dsdx_r_chebpi_p (Tbl *tb, int &b)
void	_dsdx_r_chebpi_i (Tbl *tb, int &b)
void	_dsdx_r_leg (Tbl *tb, int &)
void	_dsdx_r_legp (Tbl *tb, int &b)
void	_dsdx_r_legi (Tbl *tb, int &b)
void	_dsdx_r_jaco02 (Tbl *tb, int &)
void	_mult2_xm1_identite (Tbl *, int &)
void	_mult2_xm1_cheb (Tbl *tb, int &)
void	_mult_cp_pas_prevu (Tbl *, int &base)
void	_mult_cp_p_cossin (Tbl *tb, int &base)
void	_mult_cp_p_cossin_p (Tbl *tb, int &base)
void	_mult_cp_p_cossin_i (Tbl *tb, int &base)
void	_mult_ct_pas_prevu (Tbl *tb, int &base)
void	_mult_ct_t_cos (Tbl *tb, int &b)
void	_mult_ct_t_sin (Tbl *tb, int &b)
void	_mult_ct_t_cos_p (Tbl *tb, int &b)
void	_mult_ct_t_sin_p (Tbl *tb, int &b)
void	_mult_ct_t_sin_i (Tbl *tb, int &b)
void	_mult_ct_t_cos_i (Tbl *tb, int &b)
void	_mult_ct_t_cossin_cp (Tbl *tb, int &b)
void	_mult_ct_t_cossin_ci (Tbl *tb, int &b)
void	_mult_ct_t_cossin_si (Tbl *tb, int &b)
void	_mult_ct_t_cossin_sp (Tbl *tb, int &b)
void	_mult_ct_t_cossin_c (Tbl *tb, int &b)
void	_mult_ct_t_cossin_s (Tbl *tb, int &b)
void	_mult_sp_pas_prevu (Tbl *, int &base)
void	_mult_sp_p_cossin (Tbl *tb, int &base)
void	_mult_sp_p_cossin_p (Tbl *tb, int &base)
void	_mult_sp_p_cossin_i (Tbl *tb, int &base)
void	_mult_st_pas_prevu (Tbl *tb, int &base)
void	_mult_st_t_cos (Tbl *tb, int &b)
void	_mult_st_t_sin (Tbl *tb, int &b)
void	_mult_st_t_cos_p (Tbl *tb, int &b)
void	_mult_st_t_sin_p (Tbl *tb, int &b)
void	_mult_st_t_sin_i (Tbl *tb, int &b)
void	_mult_st_t_cos_i (Tbl *tb, int &b)
void	_mult_st_t_cossin_cp (Tbl *tb, int &b)
void	_mult_st_t_cossin_ci (Tbl *tb, int &b)
void	_mult_st_t_cossin_si (Tbl *tb, int &b)
void	_mult_st_t_cossin_sp (Tbl *tb, int &b)
void	_mult_st_t_cossin_c (Tbl *tb, int &b)
void	_mult_st_t_cossin_s (Tbl *tb, int &b)
void	_mult_x_pas_prevu (Tbl *tb, int &base)
void	_mult_x_identite (Tbl *, int &)
void	_mult_x_r_chebp (Tbl *tb, int &base)
void	_mult_x_r_chebi (Tbl *tb, int &base)
void	_mult_x_r_chebpim_p (Tbl *tb, int &base)
void	_mult_x_r_chebpim_i (Tbl *tb, int &base)
void	_mult_x_r_chebpi_p (Tbl *tb, int &base)
void	_mult_x_r_chebpi_i (Tbl *tb, int &base)
void	_mult_x_r_jaco02 (Tbl *tb, int &)
void	_mult_x_r_legp (Tbl *tb, int &base)
void	_mult_x_r_legi (Tbl *tb, int &base)
void	_mult_xm1_identite (Tbl *, int &)
void	_mult_xm1_cheb (Tbl *tb, int &)
void	_mult_xp1_pas_prevu (Tbl *tb, int &base)
void	_mult_xp1_identite (Tbl *, int &)
void	_mult_xp1_r_jaco02 (Tbl *tb, int &)
void	_primr_r_chebpi_p (const Tbl &tin, int bin, const Tbl &val0, Tbl &tout, int &bout, Tbl &valp1)
void	_primr_r_chebpi_i (const Tbl &tin, int bin, const Tbl &val0, Tbl &tout, int &bout, Tbl &valp1)
void	_scost_pas_prevu (Tbl *tb, int &base)
void	_scost_t_cos (Tbl *tb, int &b)
void	_scost_t_sin (Tbl *tb, int &b)
void	_scost_t_cos_p (Tbl *tb, int &b)
void	_scost_t_sin_p (Tbl *tb, int &b)
void	_scost_t_sin_i (Tbl *tb, int &b)
void	_scost_t_cos_i (Tbl *tb, int &b)
void	_scost_t_cossin_cp (Tbl *tb, int &b)
void	_scost_t_cossin_ci (Tbl *tb, int &b)
void	_scost_t_cossin_si (Tbl *tb, int &b)
void	_scost_t_cossin_sp (Tbl *tb, int &b)
void	_scost_t_cossin_c (Tbl *tb, int &b)
void	_scost_t_cossin_s (Tbl *tb, int &b)
void	_ssint_pas_prevu (Tbl *tb, int &base)
void	_ssint_t_cos (Tbl *tb, int &b)
void	_ssint_t_sin (Tbl *tb, int &b)
void	_ssint_t_cos_p (Tbl *tb, int &b)
void	_ssint_t_sin_p (Tbl *tb, int &b)
void	_ssint_t_sin_i (Tbl *tb, int &b)
void	_ssint_t_cos_i (Tbl *tb, int &b)
void	_ssint_t_cossin_cp (Tbl *tb, int &b)
void	_ssint_t_cossin_ci (Tbl *tb, int &b)
void	_ssint_t_cossin_si (Tbl *tb, int &b)
void	_ssint_t_cossin_sp (Tbl *tb, int &b)
void	_ssint_t_cossin_c (Tbl *tb, int &b)
void	_ssint_t_cossin_s (Tbl *tb, int &b)
void	_sx_pas_prevu (Tbl *tb, int &base)
void	_sx_identite (Tbl *, int &)
void	_sx_r_chebp (Tbl *tb, int &base)
void	_sx_r_chebi (Tbl *tb, int &base)
void	_sx_r_chebpim_p (Tbl *tb, int &base)
void	_sx_r_chebpim_i (Tbl *tb, int &base)
void	_sx_r_chebpi_p (Tbl *tb, int &base)
void	_sx_r_chebpi_i (Tbl *tb, int &base)
void	_sx_r_legp (Tbl *tb, int &base)
void	_sx_r_legi (Tbl *tb, int &base)
void	_sx_1d_r_legp (int, double , double )
void	_sx_1d_r_legi (int, double , double )
void	_sx2_pas_prevu (Tbl *tb, int &base)
void	_sx2_identite (Tbl *, int &)
void	_sx2_r_chebp (Tbl *tb, int &)
void	_sx2_r_chebi (Tbl *tb, int &)
void	_sx2_r_chebpim_p (Tbl *tb, int &)
void	_sx2_r_chebpim_i (Tbl *tb, int &)
void	_sx2_r_chebu (Tbl *tb, int &)
void	_sx2_r_chebpi_p (Tbl *tb, int &)
void	_sx2_r_chebpi_i (Tbl *tb, int &)
void	_sx2_r_legp (Tbl *tb, int &)
void	_sx2_r_legi (Tbl *tb, int &)
void	_sxm1_identite (Tbl *, int &)
void	_sxm1_cheb (Tbl *tb, int &)
void	_sxp12_pas_prevu (Tbl *tb, int &base)
void	_sxp12_identite (Tbl *, int &)
void	_sxp12_r_jaco02 (Tbl *tb, int &)
void	_sxpun_pas_prevu (Tbl *tb, int &base)
void	_sxpun_identite (Tbl *, int &)
void	_sxpun_r_jaco02 (Tbl *tb, int &)
void	_sx2_1d_r_legp (int nr, double tb, double xo)
void	_sx2_1d_r_legi (int nr, double tb, double xo)
void	_sx_1d_r_chebu (int nr, double tb, double res)
void	_sxmundsdx_1d_r_chebu (int nr, double tb, double xo)
void	_sxp12_1d_pas_prevu (int nr, double tb, double res)
void	_sxp12_1d_r_jaco02 (int nr, double tb, double xo)
void	_sxpun_1d_r_jaco02 (int nr, double tb, double xo)
void	_sxpundsdx_1d_pas_prevu (int nr, double tb, double xo)
void	_sxpundsdx_1d_r_jaco02 (int nr, double tb, double xo)
void	_xpundsdx_1d_pas_prevu (int nr, double tb, double xo)
void	_xpundsdx_1d_r_jaco02 (int nr, double tb, double xo)
Matrice	_cl_r_jaco02 (const Matrice &source, int l, double echelle, int)
Tbl	_cl_r_jaco02 (const Tbl &source, int)
Matrice	_cl_cpt_pas_prevu (const Matrice &source, int)
Matrice	_cl_cpt_r_chebp (const Matrice &source, int)
Matrice	_cl_cpt_r_chebi (const Matrice &source, int l)
Tbl	_cl_cpt_pas_prevu (const Tbl &tb)
Tbl	_cl_cpt_r_chebp (const Tbl &tb)
Tbl	_cl_cpt_r_chebi (const Tbl &tb)
Matrice	_cl_helmholtz_minus_pas_prevu (const Matrice &so)
Matrice	_cl_helmholtz_minus_r_cheb (const Matrice &source)
Matrice	_cl_helmholtz_minus_r_chebu (const Matrice &source)
Matrice	_cl_helmholtz_minus_r_chebp (const Matrice &source)
Matrice	_cl_helmholtz_minus_r_chebi (const Matrice &source)
Tbl	_cl_helmholtz_minus_pas_prevu (const Tbl &so)
Tbl	_cl_helmholtz_minus_r_cheb (const Tbl &source)
Tbl	_cl_helmholtz_minus_r_chebu (const Tbl &source)
Tbl	_cl_helmholtz_minus_r_chebp (const Tbl &source)
Tbl	_cl_helmholtz_minus_r_chebi (const Tbl &source)
Matrice	_cl_helmholtz_plus_pas_prevu (const Matrice &so)
Matrice	_cl_helmholtz_plus_r_chebp (const Matrice &source)
Matrice	_cl_helmholtz_plus_r_cheb (const Matrice &source)
Tbl	_cl_helmholtz_plus_pas_prevu (const Tbl &so)
Tbl	_cl_helmholtz_plus_r_chebp (const Tbl &source)
Tbl	_cl_helmholtz_plus_r_cheb (const Tbl &source)
Tbl	_dal_inverse_pas_prevu (const Matrice &, const Tbl &, const bool)
Tbl	_dal_inverse_r_cheb_o2d_s (const Matrice &op, const Tbl &source, const bool part)
Tbl	_dal_inverse_r_cheb_o2d_l (const Matrice &op, const Tbl &source, const bool part)
Tbl	_dal_inverse_r_cheb_o2_s (const Matrice &op, const Tbl &source, const bool part)
Tbl	_dal_inverse_r_cheb_o2_l (const Matrice &op, const Tbl &source, const bool part)
Tbl	_dal_inverse_r_chebp_o2d_s (const Matrice &op, const Tbl &source, const bool part)
Tbl	_dal_inverse_r_chebp_o2d_l (const Matrice &op, const Tbl &source, const bool part)
Tbl	_dal_inverse_r_chebp_o2_s (const Matrice &op, const Tbl &source, const bool part)
Tbl	_dal_inverse_r_chebp_o2_l (const Matrice &op, const Tbl &source, const bool part)
Tbl	_dal_inverse_r_chebi_o2d_s (const Matrice &op, const Tbl &source, const bool part)
Tbl	_dal_inverse_r_chebi_o2d_l (const Matrice &op, const Tbl &source, const bool part)
Tbl	_dal_inverse_r_chebi_o2_s (const Matrice &op, const Tbl &source, const bool part)
Tbl	_dal_inverse_r_chebi_o2_l (const Matrice &op, const Tbl &source, const bool part)
Tbl	_dal_inverse_r_jaco02 (const Matrice &op, const Tbl &source, const bool part)
void	_get_operateur_dal_pas_prevu (const Param &, const int &, int &, Matrice &)
void	_get_operateur_dal_r_cheb (const Param &par, const int &lz, int &type_dal, Matrice &operateur)
void	_get_operateur_dal_r_chebp (const Param &par, const int &lzone, int &type_dal, Matrice &operateur)
void	_get_operateur_dal_r_chebi (const Param &par, const int &lzone, int &type_dal, Matrice &operateur)
void	_get_operateur_dal_r_jaco02 (const Param &par, const int &lz, int &type_dal, Matrice &operateur)
Matrice	_helmholtz_minus_mat_pas_prevu (int, int, double, double, double)
Matrice	_helmholtz_minus_mat_r_chebu (int n, int lq, double alpha, double, double masse)
Matrice	_helmholtz_minus_mat_r_cheb (int n, int lq, double alpha, double beta, double masse)
Matrice	_helmholtz_minus_mat_r_chebp (int n, int lq, double alpha, double, double masse)
Matrice	_helmholtz_minus_mat_r_chebi (int n, int lq, double alpha, double, double masse)
Matrice	_helmholtz_plus_mat_pas_prevu (int, int, double, double, double)
Matrice	_helmholtz_plus_mat_r_chebp (int n, int lq, double alpha, double, double masse)
Matrice	_helmholtz_plus_mat_r_cheb (int n, int lq, double alpha, double beta, double masse)
Matrice	_lap_cpt_mat_pas_prevu (int n, int l)
Matrice	_lap_cpt_mat_r_chebp (int n, int l)
Matrice	_lap_cpt_mat_r_chebi (int n, int l)
Matrice	_laplacien_mat_r_jaco02 (int n, int l, double, int)
Matrice	_prepa_helmholtz_minus_nondege_pas_prevu (const Matrice &so)
Matrice	_prepa_helmholtz_minus_nondege_r_cheb (const Matrice &lap)
Matrice	_prepa_helmholtz_minus_nondege_r_chebu (const Matrice &lap)
Matrice	_prepa_helmholtz_minus_nondege_r_chebp (const Matrice &lap)
Matrice	_prepa_helmholtz_minus_nondege_r_chebi (const Matrice &lap)
Matrice	_prepa_helmholtz_plus_nondege_pas_prevu (const Matrice &so)
Matrice	_prepa_helmholtz_plus_nondege_r_cheb (const Matrice &lap)
Matrice	_prepa_helmholtz_plus_nondege_r_chebp (const Matrice &lap)
Matrice	_prepa_nondege_r_jaco02 (const Matrice &lap, int l, double echelle, int)
Tbl	_solh_r_jaco02 (int n, int l, double echelle)
Tbl	_solh_helmholtz_minus_pas_prevu (int, int, double, double, double)
Tbl	_solh_helmholtz_minus_r_cheb (int n, int lq, double alpha, double beta, double masse)
Tbl	_solh_helmholtz_minus_r_chebp (int n, int lq, double alpha, double, double masse)
Tbl	_solh_helmholtz_minus_r_chebi (int n, int lq, double alpha, double, double masse)
Tbl	_solh_helmholtz_minus_r_chebu (int n, int lq, double alpha, double, double masse)
Tbl	_solh_helmholtz_plus_pas_prevu (int, int, double, double, double)
Tbl	_solh_helmholtz_plus_r_cheb (int n, int lq, double alpha, double beta, double masse)
Tbl	_solh_helmholtz_plus_r_chebp (int n, int lq, double alpha, double, double masse)
Tbl	_solp_r_jaco02 (const Matrice &lap, const Matrice &nondege, double alpha, double, const Tbl &source, int)
Tbl	_solp_helmholtz_minus_pas_prevu (const Matrice &, const Matrice &, const Tbl &, double, double, int)
Tbl	_solp_helmholtz_minus_r_chebu (const Matrice &lap, const Matrice &nondege, const Tbl &source, double, double, int)
Tbl	_solp_helmholtz_minus_r_cheb (const Matrice &lap, const Matrice &nondege, const Tbl &source, double alpha, double beta, int)
Tbl	_solp_helmholtz_minus_r_chebp (const Matrice &, const Matrice &nondege, const Tbl &source, double alpha, double, int lq)
Tbl	_solp_helmholtz_minus_r_chebi (const Matrice &, const Matrice &nondege, const Tbl &source, double alpha, double, int lq)
Tbl	_solp_helmholtz_plus_pas_prevu (const Matrice &, const Matrice &, const Tbl &, double, double)
Tbl	_solp_helmholtz_plus_r_cheb (const Matrice &lap, const Matrice &nondege, const Tbl &source, double alpha, double beta)
Tbl	_solp_helmholtz_plus_r_chebp (const Matrice &lap, const Matrice &nondege, const Tbl &source, double alpha, double)
Tbl	_val_solh_pas_prevu (int, double, double)
Tbl	_val_solh_r_cheb (int l, double alpha, double beta)
Tbl	_val_solh_r_chebp (int l, double alpha, double)
Tbl	_val_solh_r_chebi (int l, double alpha, double)
Tbl	_val_solh_r_chebu (int l, double alpha, double)
Tbl	_val_solp_pas_prevu (const Tbl &, double)
Tbl	_val_solp_r_cheb (const Tbl &sp, double alpha)
Tbl	_val_solp_r_chebp (const Tbl &sp, double alpha)
Tbl	_val_solp_r_chebi (const Tbl &sp, double alpha)
Tbl	_val_solp_r_chebu (const Tbl &sp, double alpha)
void	Dirichlet_BC_AtB (const Evolution_std< Sym_tensor > &hb_evol, const Evolution_std< Sym_tensor > &dhb_evol, Tbl &ccA, Tbl &ccB)
void	Dirichlet_BC_Amu (const Evolution_std< Vector > &vb_evol, const Evolution_std< Vector > &dvb_evol, Tbl &ccA, Tbl &ccmu)
Matrice	_xdsdx_mat_pas_prevu (int n, int)
Matrice	_xdsdx_mat_r_chebp (int n, int)
Matrice	_xdsdx_mat_r_chebi (int n, int l)
void	interpol_herm_2d_new_avec (double y, double z, double mu1_11, double mu1_21, double mu2_11, double mu2_12, double p_11, double p_21, double p_12, double p_22, double n1_11, double n1_21, double n1_12, double n1_22, double n2_11, double n2_21, double n2_12, double n2_22, double cross_11, double cross_21, double cross_12, double cross_22, double &f, double &dfdy, double &dfdz)
void	interpol_herm_2d_new_sans (double y, double z, double mu1_11, double mu1_21, double mu2_11, double mu2_12, double p_11, double p_21, double p_12, double p_22, double n1_11, double n1_21, double n1_12, double n1_22, double n2_11, double n2_21, double n2_12, double n2_22, double &f, double &dfdy, double &dfdz)
void	huntm (const Tbl &xx, double &x, int &i_low)
void	interpol_herm_der (const Tbl &xtab, const Tbl &ytab, const Tbl &dytab, double x, int &i, double &y, double &dy, double &ddy)
void	interpol_herm_2d_sans (const Tbl &xtab, const Tbl &ytab, const Tbl &ftab, const Tbl &dfdxtab, const Tbl &dfdytab, double x, double y, double &f, double &dfdx, double &dfdy)
void	interpol_herm_2nd_der (const Tbl &xtab, const Tbl &ytab, const Tbl &dytab, const Tbl &d2ytab, double x, int &i, double &y, double &dy)
Scalar	raccord_c1 (const Scalar &uu, int l1)
char *	load_file (const char *fname)
char *	load_file_buffered (const char *fname)
Matrice	_cl_helmholtz_minus_2d_pas_prevu (const Matrice &source, int)
Matrice	_cl_helmholtz_minus_2d_r_cheb (const Matrice &source, int)
Matrice	_cl_helmholtz_minus_2d_r_chebu_deux (const Matrice &)
Matrice	_cl_helmholtz_minus_2d_r_chebu (const Matrice &source, int puis)
Matrice	_helmholtz_minus_2d_mat_pas_prevu (int, int, double, double, double, int)
Matrice	_helmholtz_minus_2d_mat_r_chebu_deux (int, int, double, double)
Matrice	_helmholtz_minus_2d_mat_r_chebu (int n, int l, double masse, double alpha, double, int puis)
Matrice	_helmholtz_minus_2d_mat_r_cheb (int n, int l, double masse, double alf, double bet, int)
Matrice	_helmholtz_minus_2d_non_dege_pas_prevu (const Matrice &lap, int)
Matrice	_helmholtz_minus_2d_non_dege_r_cheb (const Matrice &lap, int)
Matrice	_helmholtz_minus_2d_non_dege_r_chebu_deux (const Matrice &)
Matrice	_helmholtz_minus_2d_non_dege_r_chebu (const Matrice &lap, int puis)
Tbl	_solh_helmholtz_minus_2d_pas_prevu (int, int, double, double, double)
Tbl	_solh_helmholtz_minus_2d_r_cheb (int n, int l, double masse, double alpha, double beta)
Tbl	_solh_helmholtz_minus_2d_r_chebu (int n, int l, double masse, double alpha, double)
Tbl	_cl_helmholtz_minus_2d_pas_prevu (const Tbl &source, int)
Tbl	_cl_helmholtz_minus_2d_r_cheb (const Tbl &source, int)
Tbl	_cl_helmholtz_minus_2d_r_chebu_deux (const Tbl &)
Tbl	_cl_helmholtz_minus_2d_r_chebu (const Tbl &source, int puis)
Tbl	cl_helmholtz_minus_2d (const Tbl &source, int puis, int base_r)
Tbl	_solp_helmholtz_minus_2d_pas_prevu (const Matrice &, const Matrice &, double, double, const Tbl &, int)
Tbl	_solp_helmholtz_minus_2d_r_cheb (const Matrice &lap, const Matrice &nondege, double alpha, double beta, const Tbl &source, int)
Tbl	_solp_helmholtz_minus_2d_r_chebu_deux (const Matrice &, const Matrice &, const Tbl &)
Tbl	_solp_helmholtz_minus_2d_r_chebu (const Matrice &lap, const Matrice &nondege, double, double, const Tbl &source, int puis)
Matrice	_cl_helmholtz_minus_pseudo_1d_pas_prevu (const Matrice &source, int)
Matrice	_cl_helmholtz_minus_pseudo_1d_r_chebu_deux (const Matrice &)
Matrice	_cl_helmholtz_minus_pseudo_1d_r_chebu (const Matrice &source, int puis)
Matrice	_helmholtz_minus_pseudo_1d_mat_pas_prevu (int, int, double, double, double, int)
Matrice	_helmholtz_minus_pseudo_1d_mat_r_chebu_deux (int, int, double, double)
Matrice	_helmholtz_minus_pseudo_1d_mat_r_chebu (int n, int l, double masse, double alpha, double, int puis)
Matrice	_helmholtz_minus_pseudo_1d_non_dege_pas_prevu (const Matrice &lap, int)
Matrice	_helmholtz_minus_pseudo_1d_non_dege_r_chebu_deux (const Matrice &)
Matrice	_helmholtz_minus_pseudo_1d_non_dege_r_chebu (const Matrice &lap, int puis)
Tbl	_solh_helmholtz_minus_pseudo_1d_pas_prevu (int, int, double, double, double)
Tbl	_solh_helmholtz_minus_pseudo_1d_r_chebu (int n, int l, double masse, double alpha, double)
Tbl	_cl_helmholtz_minus_pseudo_1d_pas_prevu (const Tbl &source, int)
Tbl	_cl_helmholtz_minus_pseudo_1d_r_chebu_deux (const Tbl &)
Tbl	_cl_helmholtz_minus_pseudo_1d_r_chebu (const Tbl &source, int puis)
Tbl	cl_helmholtz_minus_pseudo_1d (const Tbl &source, int puis, int base_r)
Tbl	_solp_helmholtz_minus_pseudo_1d_pas_prevu (const Matrice &, const Matrice &, double, double, const Tbl &, int)
Tbl	_solp_helmholtz_minus_pseudo_1d_r_chebu_deux (const Matrice &, const Matrice &, const Tbl &)
Tbl	_solp_helmholtz_minus_pseudo_1d_r_chebu (const Matrice &lap, const Matrice &nondege, double, double, const Tbl &source, int puis)
Matrice	_cl_ptens_rr_pas_prevu (const Matrice &, int, double, int)
Matrice	_cl_ptens_rr_cheb (const Matrice &, int, double, int)
Matrice	_cl_ptens_rr_chebi (const Matrice &, int, double, int)
Matrice	_cl_ptens_rr_chebu (const Matrice &, int, double, int)
Matrice	_cl_ptens_rr_chebp (const Matrice &, int, double, int)
Matrice	cl_ptens_rr (const Matrice &source, int l, double echelle, int puis, int base_r)
Matrice	_cl_pvect_r_pas_prevu (const Matrice &, int, double, int)
Matrice	_cl_pvect_r_cheb (const Matrice &, int, double, int)
Matrice	_cl_pvect_r_chebi (const Matrice &, int, double, int)
Matrice	_cl_pvect_r_chebu (const Matrice &, int, double, int)
Matrice	_cl_pvect_r_chebp (const Matrice &, int, double, int)
Matrice	cl_pvect_r (const Matrice &source, int l, double echelle, int puis, int base_r)
Matrice	ope_ptens_rr_mat (int, int, double, int, int)
Tbl	sh_ptens_rr (int, int, double, int)
Matrice	nondeg_ptens_rr (const Matrice &, int, double, int, int)
Matrice	ope_pvect_r_mat (int, int, double, int, int)
Tbl	sh_pvect_r (int, int, double, int)
Matrice	nondeg_pvect_r (const Matrice &, int, double, int, int)
Matrice	_ope_ptens_rr_mat_pas_prevu (int, int, double, int)
Matrice	_ope_ptens_rr_mat_r_chebp (int, int, double, int)
Matrice	_ope_ptens_rr_mat_r_chebi (int, int, double, int)
Matrice	_ope_ptens_rr_mat_r_chebu (int, int, double, int)
Matrice	_ope_ptens_rr_mat_r_cheb (int, int, double, int)
Matrice	_ope_pvect_r_mat_pas_prevu (int, int, double, int)
Matrice	_ope_pvect_r_mat_r_chebp (int, int, double, int)
Matrice	_ope_pvect_r_mat_r_chebi (int, int, double, int)
Matrice	_ope_pvect_r_mat_r_chebu (int, int, double, int)
Matrice	_ope_pvect_r_mat_r_cheb (int, int, double, int)
Matrice	_nondeg_ptens_rr_pas_prevu (const Matrice &, int, double, int)
Matrice	_nondeg_ptens_rr_cheb (const Matrice &, int, double, int)
Matrice	_nondeg_ptens_rr_chebp (const Matrice &, int, double, int)
Matrice	_nondeg_ptens_rr_chebi (const Matrice &, int, double, int)
Matrice	_nondeg_ptens_rr_chebu (const Matrice &, int, double, int)
Matrice	_nondeg_pvect_r_pas_prevu (const Matrice &, int, double, int)
Matrice	_nondeg_pvect_r_cheb (const Matrice &, int, double, int)
Matrice	_nondeg_pvect_r_chebp (const Matrice &, int, double, int)
Matrice	_nondeg_pvect_r_chebi (const Matrice &, int, double, int)
Matrice	_nondeg_pvect_r_chebu (const Matrice &, int, double, int)
Tbl	_sh_ptens_rr_pas_prevu (int, int, double)
Tbl	_sh_ptens_rr_cheb (int, int, double)
Tbl	_sh_ptens_rr_chebp (int, int, double)
Tbl	_sh_ptens_rr_chebi (int, int, double)
Tbl	_sh_ptens_rr_chebu (int, int, double)
Tbl	_sh_pvect_r_pas_prevu (int, int, double)
Tbl	_sh_pvect_r_cheb (int, int, double)
Tbl	_sh_pvect_r_chebp (int, int, double)
Tbl	_sh_pvect_r_chebi (int, int, double)
Tbl	_sh_pvect_r_chebu (int, int, double)
Matrice	_cl_poisson_2d_pas_prevu (const Matrice &source, int, double, int)
Matrice	_cl_poisson_2d_r_cheb (const Matrice &source, int l, double echelle, int)
Matrice	_cl_poisson_2d_r_chebp (const Matrice &source, int l, double, int)
Matrice	_cl_poisson_2d_r_chebi (const Matrice &source, int l, double, int)
Matrice	_cl_poisson_2d_r_chebu_quatre (const Matrice &, int)
Matrice	_cl_poisson_2d_r_chebu_trois (const Matrice &, int)
Matrice	_cl_poisson_2d_r_chebu_deux (const Matrice &, int)
Matrice	_cl_poisson_2d_r_chebu (const Matrice &source, int l, double, int puis)
Matrice	_poisson_2d_mat_pas_prevu (int, int, double, double, int)
Matrice	_poisson_2d_mat_r_chebp (int n, int l, double, double, int)
Matrice	_poisson_2d_mat_r_chebi (int n, int l, double, double, int)
Matrice	_poisson_2d_mat_r_chebu_deux (int, int)
Matrice	_poisson_2d_mat_r_chebu_trois (int, int)
Matrice	_poisson_2d_mat_r_chebu_quatre (int, int)
Matrice	_poisson_2d_mat_r_chebu (int n, int l, double, double, int puis)
Matrice	_poisson_2d_mat_r_cheb (int n, int l, double alf, double bet, int)
Matrice	_poisson_2d_non_dege_pas_prevu (const Matrice &lap, int, double, int)
Matrice	_poisson_2d_non_dege_r_cheb (const Matrice &lap, int l, double echelle, int)
Matrice	_poisson_2d_non_dege_r_chebp (const Matrice &lap, int l, double, int)
Matrice	_poisson_2d_non_dege_r_chebi (const Matrice &lap, int l, double, int)
Matrice	_poisson_2d_non_dege_r_chebu_quatre (const Matrice &, int)
Matrice	_poisson_2d_non_dege_r_chebu_trois (const Matrice &, int)
Matrice	_poisson_2d_non_dege_r_chebu_deux (const Matrice &, int)
Matrice	_poisson_2d_non_dege_r_chebu (const Matrice &lap, int l, double, int puis)
Tbl	_solh_poisson_2d_pas_prevu (int, int, double, double, Tbl &)
Tbl	_solh_poisson_2d_r_cheb (int n, int l, double alpha, double beta, Tbl &val_lim)
Tbl	_solh_poisson_2d_r_chebp (int n, int l, double alpha, double, Tbl &val_lim)
Tbl	_solh_poisson_2d_r_chebi (int n, int l, double alpha, double, Tbl &val_lim)
Tbl	_solh_poisson_2d_r_chebu (int n, int l, double alpha, double, Tbl &val_lim)
Tbl	_cl_poisson_2d_pas_prevu (const Tbl &source, int puis)
Tbl	_cl_poisson_2d_r_cheb (const Tbl &source, int)
Tbl	_cl_poisson_2d_r_chebp (const Tbl &source, int)
Tbl	_cl_poisson_2d_r_chebi (const Tbl &source, int)
Tbl	_cl_poisson_2d_r_chebu_quatre (const Tbl &)
Tbl	_cl_poisson_2d_r_chebu_trois (const Tbl &)
Tbl	_cl_poisson_2d_r_chebu_deux (const Tbl &)
Tbl	_cl_poisson_2d_r_chebu (const Tbl &source, int puis)
Tbl	cl_poisson_2d (const Tbl &source, int puis, int base_r)
Tbl	_solp_poisson_2d_pas_prevu (const Matrice &, const Matrice &, double, double, const Tbl &, int)
Tbl	_solp_poisson_2d_r_cheb (const Matrice &lap, const Matrice &nondege, double alpha, double beta, const Tbl &source, int)
Tbl	_solp_poisson_2d_r_chebp (const Matrice &lap, const Matrice &nondege, double alpha, double, const Tbl &source, int)
Tbl	_solp_poisson_2d_r_chebi (const Matrice &lap, const Matrice &nondege, double alpha, double, const Tbl &source, int)
Tbl	_solp_poisson_2d_r_chebu_quatre (const Matrice &, const Matrice &, double, const Tbl &)
Tbl	_solp_poisson_2d_r_chebu_trois (const Matrice &, const Matrice &, double, const Tbl &)
Tbl	_solp_poisson_2d_r_chebu_deux (const Matrice &, const Matrice &, const Tbl &)
Tbl	_solp_poisson_2d_r_chebu (const Matrice &lap, const Matrice &nondege, double alpha, double, const Tbl &source, int puis)
Matrice	_cl_poisson_pseudo_1d_pas_prevu (const Matrice &so)
Matrice	_cl_poisson_pseudo_1d_r_cheb (const Matrice &source)
Matrice	_cl_poisson_pseudo_1d_r_chebp (const Matrice &source)
Matrice	_cl_poisson_pseudo_1d_r_chebi (const Matrice &source)
Matrice	_poisson_pseudo_1d_mat_pas_prevu (int, int, double, double)
Matrice	_poisson_pseudo_1d_mat_r_chebp (int n, int l, double, double)
Matrice	_poisson_pseudo_1d_mat_r_chebi (int n, int l, double, double)
Matrice	_poisson_pseudo_1d_mat_r_cheb (int n, int l, double alf, double bet)
Matrice	_poisson_pseudo_1d_non_dege_pas_prevu (const Matrice &lap, int)
Matrice	_poisson_pseudo_1d_non_dege_r_cheb (const Matrice &lap, int)
Matrice	_poisson_pseudo_1d_non_dege_r_chebp (const Matrice &lap, int l)
Matrice	_poisson_pseudo_1d_non_dege_r_chebi (const Matrice &lap, int l)
Tbl	_solh_poisson_pseudo_1d_pas_prevu (int, int, double, double, Tbl &)
Tbl	_solh_poisson_pseudo_1d_r_cheb (int n, int l, double alpha, double beta, Tbl &val_lim)
Tbl	_solh_poisson_pseudo_1d_r_chebp (int n, int l, double alpha, double, Tbl &val_lim)
Tbl	_solh_poisson_pseudo_1d_r_chebi (int n, int l, double alpha, double, Tbl &val_lim)
Tbl	_cl_poisson_pseudo_1d_pas_prevu (const Tbl &source)
Tbl	_cl_poisson_pseudo_1d_r_cheb (const Tbl &source)
Tbl	_cl_poisson_pseudo_1d_r_chebp (const Tbl &source)
Tbl	_cl_poisson_pseudo_1d_r_chebi (const Tbl &source)
Tbl	cl_poisson_pseudo_1d (const Tbl &source, int base_r)
Tbl	_solp_poisson_pseudo_1d_pas_prevu (const Matrice &, const Matrice &, double, double, const Tbl &)
Tbl	_solp_poisson_pseudo_1d_r_cheb (const Matrice &lap, const Matrice &nondege, double alpha, double beta, const Tbl &source)
Tbl	_solp_poisson_pseudo_1d_r_chebp (const Matrice &lap, const Matrice &nondege, double alpha, double, const Tbl &source)
Tbl	_solp_poisson_pseudo_1d_r_chebi (const Matrice &lap, const Matrice &nondege, double alpha, double, const Tbl &source)
Matrice	_cl_sec_order_pas_prevu (const Matrice &so)
Matrice	_cl_sec_order_r_cheb (const Matrice &source)
Matrice	_sec_order_mat_pas_prevu (int, double, double, double, double)
Matrice	_sec_order_mat_r_cheb (int n, double alpha, double a, double b, double c)
Matrice	_sec_order_non_dege_pas_prevu (const Matrice &so)
Matrice	_sec_order_non_dege_r_cheb (const Matrice &source)
Tbl	_solh_sec_order_pas_prevu (int, double, double, double, double, double, Tbl &)
Tbl	_solh_sec_order_r_cheb (int n, double alpha, double beta, double a, double b, double c, Tbl &val_lim)
Tbl	_cl_sec_order_pas_prevu (const Tbl &so)
Tbl	_cl_sec_order_r_cheb (const Tbl &source)
Tbl	cl_sec_order (const Tbl &source, int base_r)
Tbl	_solp_sec_order_pas_prevu (const Matrice &, const Matrice &, const Tbl &)
Tbl	_solp_sec_order_r_cheb (const Matrice &lap, const Matrice &nondege, const Tbl &source)
Matrice	_cl_sec_order_r2_pas_prevu (const Matrice &so)
Matrice	_cl_sec_order_r2_r_cheb (const Matrice &source)
Matrice	_sec_order_r2_mat_pas_prevu (int, double, double, double, double, double)
Matrice	_sec_order_r2_mat_r_cheb (int n, double alpha, double beta, double a, double b, double c)
Matrice	_sec_order_r2_non_dege_pas_prevu (const Matrice &so)
Matrice	_sec_order_r2_non_dege_r_cheb (const Matrice &source)
Tbl	_solh_sec_order_r2_pas_prevu (int, double, double, double, double, double, Tbl &)
Tbl	_solh_sec_order_r2_r_cheb (int n, double alpha, double beta, double a, double b, double c, Tbl &val_lim)
Tbl	_cl_sec_order_r2_pas_prevu (const Tbl &so)
Tbl	_cl_sec_order_r2_r_cheb (const Tbl &source)
Tbl	cl_sec_order_r2 (const Tbl &source, int base_r)
Tbl	_solp_sec_order_r2_pas_prevu (const Matrice &, const Matrice &, const Tbl &)
Tbl	_solp_sec_order_r2_r_cheb (const Matrice &lap, const Matrice &nondege, const Tbl &source)
Matrice	_cl_vorton_pas_prevu (const Matrice &so, int)
Matrice	_cl_vorton_r_cheb (const Matrice &source, int)
Matrice	_cl_vorton_r_chebu_trois (const Matrice &source)
Matrice	_cl_vorton_r_chebu (const Matrice &source, int puis)
Matrice	_vorton_mat_pas_prevu (int, double, double, int, int)
Matrice	_vorton_mat_r_chebu_trois (int n, int lq)
Matrice	_vorton_mat_r_chebu (int n, double, double, int lq, int dz)
Matrice	_vorton_mat_r_cheb (int n, double alpha, double beta, int lq, int)
Matrice	_vorton_non_dege_pas_prevu (const Matrice &so, int, int)
Matrice	_vorton_non_dege_r_cheb (const Matrice &source, int, int)
Matrice	_vorton_non_dege_r_chebu_trois (const Matrice &lap, int l)
Matrice	_vorton_non_dege_r_chebu (const Matrice &lap, int l, int puis)
Tbl	_solh_vorton_pas_prevu (int, int, double, double, Tbl &)
Tbl	_solh_vorton_r_chebu (int n, int l, double alpha, double, Tbl &val_lim)
Tbl	_solh_vorton_r_cheb (int n, int l, double alpha, double beta, Tbl &val_lim)
Tbl	_cl_vorton_pas_prevu (const Tbl &so, int)
Tbl	_cl_vorton_r_cheb (const Tbl &source, int)
Tbl	_cl_vorton_r_chebu_trois (const Tbl &source)
Tbl	_cl_vorton_r_chebu (const Tbl &source, int puis)
Tbl	cl_vorton (const Tbl &source, int puis, int base_r)
Tbl	_solp_vorton_pas_prevu (const Matrice &, const Matrice &, const Tbl &, double, double, int)
Tbl	_solp_vorton_r_chebu_trois (const Matrice &lap, const Matrice &nondege, const Tbl &source, double alpha)
Tbl	_solp_vorton_r_chebu (const Matrice &lap, const Matrice &nondege, const Tbl &source, double alpha, double, int puis)
Tbl	_solp_vorton_r_cheb (const Matrice &lap, const Matrice &nondege, const Tbl &source, double alpha, double beta, int dz)
double	funct_star_rot_isco (double, const Param &)
double	strot_dirac_diff_fzero (double omeg, const Param &par)
ostream &	operator<< (ostream &flux, const Tenseur &source)
Tenseur	contract_desal (const Tenseur &t1, int ind1, const Tenseur &t2, int ind2)
void	exp_filter_r_all_domains (Scalar &ss, int p, double alpha)
ostream &	operator<< (ostream &flux, const Tensor &source)
const Tbl &	monitor_scalar (const Scalar &uu, Tbl &resu)
int	copar (const void a, const void b)
ostream &	operator<< (ostream &o, const Tbl_val &t)
void	radial_smoothing (double , const double , int, double)
void	pasprevu_r (const int , const int , double , const int , double *)
void	pasprevu_t (const int , const int , double , const int , double *)
void	pasprevu_p (const int , const int , double *)
void	base_non_def_r (const int , const int , double , const int , double *)
void	base_non_def_t (const int , const int , double , const int , double *)
void	base_non_def_p (const int , const int , double *)
void	ipasprevu_r (const int , const int , double , const int , double *)
void	ipasprevu_t (const int , const int , double , const int , double *)
void	ipasprevu_p (const int , const int , const int , double , double *)
void	ibase_non_def_r (const int , const int , double , const int , double *)
void	ibase_non_def_t (const int , const int , double , const int , double *)
void	ibase_non_def_p (const int , const int , const int , double , double *)
double	valeur_equipot_fonc (double, const Param &)
void	rotate_propre_pair (Valeur &so, bool sens)
void	rotate_propre_impair (Valeur &so, bool sens)
void	ylm_pasprevu (const int , const double , double *)
void	ylm_i_pasprevu (const int , const double , double *)
Tensor_sym arithmetics
Tensor_sym	operator+ (const Tensor_sym &)
Tensor_sym	operator- (const Tensor_sym &)
Tensor_sym	operator+ (const Tensor_sym &, const Tensor_sym &)
	Tensor_sym + Tensor_sym.
Tensor_sym	operator- (const Tensor_sym &, const Tensor_sym &)
	Tensor_sym - Tensor_sym.
Tensor_sym	operator* (const Scalar &a, const Tensor_sym &b)
	Scalar * Tensor_sym.
Tensor_sym	operator* (const Tensor_sym &a, const Scalar &b)
	Tensor_sym * Scalar.
Tensor_sym	operator* (double, const Tensor_sym &)
	double * Tensor_sym.
Tensor_sym	operator* (const Tensor_sym &, double)
	Tensor_sym * double.
Tensor_sym	operator* (int, const Tensor_sym &)
	int * Tensor_sym.
Tensor_sym	operator* (const Tensor_sym &, int)
	Tensor_sym * int.
Tensor_sym	operator/ (const Tensor_sym &, const Scalar &)
	Tensor_sym / Scalar.
Tensor_sym	operator/ (const Tensor_sym &, double)
	Tensor_sym / double.
Tensor_sym	operator/ (const Tensor_sym &, int)
	Tensor_sym / int.

Variables
Base_vect_spher	bvect_spher
	Base class for coordinate mappings.
Base_vect_cart	bvect_cart
	Cartesian basis $(\partial/\partial x,\partial/\partial y,\partial/\partial z)$ associated with the coordinates (x,y,z) of the mapping, i.e.
Metric_flat *	p_flat_met_spher
	Pointer onto the flat metric associated with the spherical coordinates and with components expressed in the triad `bvect_spher`.
Metric_flat *	p_flat_met_cart
	Pointer onto the flat metric associated with the Cartesian coordinates and with components expressed in the triad `bvect_cart`.
Cmp *	p_cmp_zero
	The null Cmp.
Map_af *	p_mp_angu
	Pointer on the "angular" mapping.
Coord	r
	r coordinate centered on the grid
Coord	tet
	$\theta$ coordinate centered on the grid
Coord	phi
	$\phi$ coordinate centered on the grid
Coord	sint
	$\sin\theta$
Coord	cost
	$\cos\theta$
Coord	sinp
	$\sin\phi$
Coord	cosp
	$\cos\phi$
Coord	x
	x coordinate centered on the grid
Coord	y
	y coordinate centered on the grid
Coord	z
	z coordinate centered on the grid
Coord	xa
	Absolute x coordinate.
Coord	ya
	Absolute y coordinate.
Coord	za
	Absolute z coordinate.

Detailed Description

Lorene prototypes.

Main namespace containing all LORENE classes and functions.

The namespace Lorene gathers all function and classes defined in the LORENE library. To use it, simply put a

using namespace Lorene ;

Lorene

Lorene prototypes.

Definition app_hor.h:64

after the include lines in your code.

Function Documentation

◆ _cl_cpt_pas_prevu() [1/2]

Matrice Lorene::_cl_cpt_pas_prevu	(	const Matrice &	source,
		int	)

Definition at line 67 of file comb_lin_cpt.C.

◆ _cl_cpt_pas_prevu() [2/2]

Tbl Lorene::_cl_cpt_pas_prevu ( const Tbl & tb )

Definition at line 164 of file comb_lin_cpt.C.

◆ _cl_cpt_r_chebi() [1/2]

Matrice Lorene::_cl_cpt_r_chebi	(	const Matrice &	source,
		int	l )

Definition at line 108 of file comb_lin_cpt.C.

◆ _cl_cpt_r_chebi() [2/2]

Tbl Lorene::_cl_cpt_r_chebi ( const Tbl & tb )

Definition at line 199 of file comb_lin_cpt.C.

◆ _cl_cpt_r_chebp() [1/2]

Matrice Lorene::_cl_cpt_r_chebp	(	const Matrice &	source,
		int	)

Definition at line 80 of file comb_lin_cpt.C.

◆ _cl_cpt_r_chebp() [2/2]

Tbl Lorene::_cl_cpt_r_chebp ( const Tbl & tb )

Definition at line 175 of file comb_lin_cpt.C.

◆ _cl_helmholtz_minus_2d_pas_prevu() [1/2]

Matrice Lorene::_cl_helmholtz_minus_2d_pas_prevu	(	const Matrice &	source,
		int	)

Definition at line 36 of file ope_helmholtz_minus_2d_cl.C.

◆ _cl_helmholtz_minus_2d_pas_prevu() [2/2]

Tbl Lorene::_cl_helmholtz_minus_2d_pas_prevu	(	const Tbl &	source,
		int	)

Definition at line 39 of file ope_helmholtz_minus_2d_solp.C.

◆ _cl_helmholtz_minus_2d_r_cheb() [1/2]

Matrice Lorene::_cl_helmholtz_minus_2d_r_cheb	(	const Matrice &	source,
		int	)

Definition at line 48 of file ope_helmholtz_minus_2d_cl.C.

◆ _cl_helmholtz_minus_2d_r_cheb() [2/2]

Tbl Lorene::_cl_helmholtz_minus_2d_r_cheb	(	const Tbl &	source,
		int	)

Definition at line 52 of file ope_helmholtz_minus_2d_solp.C.

◆ _cl_helmholtz_minus_2d_r_chebu() [1/2]

Matrice Lorene::_cl_helmholtz_minus_2d_r_chebu	(	const Matrice &	source,
		int	puis )

Definition at line 75 of file ope_helmholtz_minus_2d_cl.C.

◆ _cl_helmholtz_minus_2d_r_chebu() [2/2]

Tbl Lorene::_cl_helmholtz_minus_2d_r_chebu	(	const Tbl &	source,
		int	puis )

Definition at line 76 of file ope_helmholtz_minus_2d_solp.C.

◆ _cl_helmholtz_minus_2d_r_chebu_deux() [1/2]

Matrice Lorene::_cl_helmholtz_minus_2d_r_chebu_deux ( const Matrice & source )

Definition at line 96 of file ope_helmholtz_minus_2d_cl.C.

◆ _cl_helmholtz_minus_2d_r_chebu_deux() [2/2]

Tbl Lorene::_cl_helmholtz_minus_2d_r_chebu_deux ( const Tbl & source )

Definition at line 95 of file ope_helmholtz_minus_2d_solp.C.

◆ _cl_helmholtz_minus_pas_prevu() [1/2]

Matrice Lorene::_cl_helmholtz_minus_pas_prevu ( const Matrice & so )

Definition at line 71 of file comb_lin_helmholtz_minus.C.

◆ _cl_helmholtz_minus_pas_prevu() [2/2]

Tbl Lorene::_cl_helmholtz_minus_pas_prevu ( const Tbl & so )

Definition at line 232 of file comb_lin_helmholtz_minus.C.

◆ _cl_helmholtz_minus_pseudo_1d_pas_prevu() [1/2]

Matrice Lorene::_cl_helmholtz_minus_pseudo_1d_pas_prevu	(	const Matrice &	source,
		int	)

Definition at line 36 of file ope_helmholtz_minus_pseudo_1d_cl.C.

◆ _cl_helmholtz_minus_pseudo_1d_pas_prevu() [2/2]

Tbl Lorene::_cl_helmholtz_minus_pseudo_1d_pas_prevu	(	const Tbl &	source,
		int	)

Definition at line 39 of file ope_helmholtz_minus_pseudo_1d_solp.C.

◆ _cl_helmholtz_minus_pseudo_1d_r_chebu() [1/2]

Matrice Lorene::_cl_helmholtz_minus_pseudo_1d_r_chebu	(	const Matrice &	source,
		int	puis )

Definition at line 51 of file ope_helmholtz_minus_pseudo_1d_cl.C.

◆ _cl_helmholtz_minus_pseudo_1d_r_chebu() [2/2]

Tbl Lorene::_cl_helmholtz_minus_pseudo_1d_r_chebu	(	const Tbl &	source,
		int	puis )

Definition at line 54 of file ope_helmholtz_minus_pseudo_1d_solp.C.

◆ _cl_helmholtz_minus_pseudo_1d_r_chebu_deux() [1/2]

Matrice Lorene::_cl_helmholtz_minus_pseudo_1d_r_chebu_deux ( const Matrice & source )

Definition at line 72 of file ope_helmholtz_minus_pseudo_1d_cl.C.

◆ _cl_helmholtz_minus_pseudo_1d_r_chebu_deux() [2/2]

Tbl Lorene::_cl_helmholtz_minus_pseudo_1d_r_chebu_deux ( const Tbl & source )

Definition at line 73 of file ope_helmholtz_minus_pseudo_1d_solp.C.

◆ _cl_helmholtz_minus_r_cheb() [1/2]

Matrice Lorene::_cl_helmholtz_minus_r_cheb ( const Matrice & source )

Definition at line 84 of file comb_lin_helmholtz_minus.C.

◆ _cl_helmholtz_minus_r_cheb() [2/2]

Tbl Lorene::_cl_helmholtz_minus_r_cheb ( const Tbl & source )

Definition at line 243 of file comb_lin_helmholtz_minus.C.

◆ _cl_helmholtz_minus_r_chebi() [1/2]

Matrice Lorene::_cl_helmholtz_minus_r_chebi ( const Matrice & source )

Definition at line 177 of file comb_lin_helmholtz_minus.C.

◆ _cl_helmholtz_minus_r_chebi() [2/2]

Tbl Lorene::_cl_helmholtz_minus_r_chebi ( const Tbl & source )

Definition at line 323 of file comb_lin_helmholtz_minus.C.

◆ _cl_helmholtz_minus_r_chebp() [1/2]

Matrice Lorene::_cl_helmholtz_minus_r_chebp ( const Matrice & source )

Definition at line 147 of file comb_lin_helmholtz_minus.C.

◆ _cl_helmholtz_minus_r_chebp() [2/2]

Tbl Lorene::_cl_helmholtz_minus_r_chebp ( const Tbl & source )

Definition at line 298 of file comb_lin_helmholtz_minus.C.

◆ _cl_helmholtz_minus_r_chebu() [1/2]

Matrice Lorene::_cl_helmholtz_minus_r_chebu ( const Matrice & source )

Definition at line 111 of file comb_lin_helmholtz_minus.C.

◆ _cl_helmholtz_minus_r_chebu() [2/2]

Tbl Lorene::_cl_helmholtz_minus_r_chebu ( const Tbl & source )

Definition at line 267 of file comb_lin_helmholtz_minus.C.

◆ _cl_helmholtz_plus_pas_prevu() [1/2]

Matrice Lorene::_cl_helmholtz_plus_pas_prevu ( const Matrice & so )

Definition at line 60 of file comb_lin_helmholtz_plus.C.

◆ _cl_helmholtz_plus_pas_prevu() [2/2]

Tbl Lorene::_cl_helmholtz_plus_pas_prevu ( const Tbl & so )

Definition at line 160 of file comb_lin_helmholtz_plus.C.

◆ _cl_helmholtz_plus_r_cheb() [1/2]

Matrice Lorene::_cl_helmholtz_plus_r_cheb ( const Matrice & source )

Definition at line 105 of file comb_lin_helmholtz_plus.C.

◆ _cl_helmholtz_plus_r_cheb() [2/2]

Tbl Lorene::_cl_helmholtz_plus_r_cheb ( const Tbl & source )

Definition at line 197 of file comb_lin_helmholtz_plus.C.

◆ _cl_helmholtz_plus_r_chebp() [1/2]

Matrice Lorene::_cl_helmholtz_plus_r_chebp ( const Matrice & source )

Definition at line 73 of file comb_lin_helmholtz_plus.C.

◆ _cl_helmholtz_plus_r_chebp() [2/2]

Tbl Lorene::_cl_helmholtz_plus_r_chebp ( const Tbl & source )

Definition at line 172 of file comb_lin_helmholtz_plus.C.

◆ _cl_pas_prevu() [1/2]

Matrice Lorene::_cl_pas_prevu	(	const Matrice &	source,
		int	l,
		double	echelle,
		int	puis )

Definition at line 137 of file comb_lin.C.

◆ _cl_pas_prevu() [2/2]

Tbl Lorene::_cl_pas_prevu	(	const Tbl &	source,
		int	puis )

Definition at line 710 of file comb_lin.C.

◆ _cl_poisson_2d_pas_prevu() [1/2]

Matrice Lorene::_cl_poisson_2d_pas_prevu	(	const Matrice &	source,
		int	,
		double	,
		int	)

Definition at line 36 of file ope_poisson_2d_cl.C.

◆ _cl_poisson_2d_pas_prevu() [2/2]

Tbl Lorene::_cl_poisson_2d_pas_prevu	(	const Tbl &	source,
		int	puis )

Definition at line 39 of file ope_poisson_2d_solp.C.

◆ _cl_poisson_2d_r_cheb() [1/2]

Matrice Lorene::_cl_poisson_2d_r_cheb	(	const Matrice &	source,
		int	l,
		double	echelle,
		int	)

Definition at line 48 of file ope_poisson_2d_cl.C.

◆ _cl_poisson_2d_r_cheb() [2/2]

Tbl Lorene::_cl_poisson_2d_r_cheb	(	const Tbl &	source,
		int	)

Definition at line 54 of file ope_poisson_2d_solp.C.

◆ _cl_poisson_2d_r_chebi() [1/2]

Matrice Lorene::_cl_poisson_2d_r_chebi	(	const Matrice &	source,
		int	l,
		double	,
		int	)

Definition at line 177 of file ope_poisson_2d_cl.C.

◆ _cl_poisson_2d_r_chebi() [2/2]

Tbl Lorene::_cl_poisson_2d_r_chebi	(	const Tbl &	source,
		int	)

Definition at line 101 of file ope_poisson_2d_solp.C.

◆ _cl_poisson_2d_r_chebp() [1/2]

Matrice Lorene::_cl_poisson_2d_r_chebp	(	const Matrice &	source,
		int	l,
		double	,
		int	)

Definition at line 115 of file ope_poisson_2d_cl.C.

◆ _cl_poisson_2d_r_chebp() [2/2]

Tbl Lorene::_cl_poisson_2d_r_chebp	(	const Tbl &	source,
		int	)

Definition at line 75 of file ope_poisson_2d_solp.C.

◆ _cl_poisson_2d_r_chebu() [1/2]

Matrice Lorene::_cl_poisson_2d_r_chebu	(	const Matrice &	source,
		int	l,
		double	,
		int	puis )

Definition at line 239 of file ope_poisson_2d_cl.C.

◆ _cl_poisson_2d_r_chebu() [2/2]

Tbl Lorene::_cl_poisson_2d_r_chebu	(	const Tbl &	source,
		int	puis )

Definition at line 127 of file ope_poisson_2d_solp.C.

◆ _cl_poisson_2d_r_chebu_deux() [1/2]

Matrice Lorene::_cl_poisson_2d_r_chebu_deux	(	const Matrice &	source,
		int	l )

Definition at line 389 of file ope_poisson_2d_cl.C.

◆ _cl_poisson_2d_r_chebu_deux() [2/2]

Tbl Lorene::_cl_poisson_2d_r_chebu_deux ( const Tbl & source )

Definition at line 199 of file ope_poisson_2d_solp.C.

◆ _cl_poisson_2d_r_chebu_quatre() [1/2]

Matrice Lorene::_cl_poisson_2d_r_chebu_quatre	(	const Matrice &	source,
		int	l )

Definition at line 266 of file ope_poisson_2d_cl.C.

◆ _cl_poisson_2d_r_chebu_quatre() [2/2]

Tbl Lorene::_cl_poisson_2d_r_chebu_quatre ( const Tbl & source )

Definition at line 152 of file ope_poisson_2d_solp.C.

◆ _cl_poisson_2d_r_chebu_trois() [1/2]

Matrice Lorene::_cl_poisson_2d_r_chebu_trois	(	const Matrice &	source,
		int	l )

Definition at line 329 of file ope_poisson_2d_cl.C.

◆ _cl_poisson_2d_r_chebu_trois() [2/2]

Tbl Lorene::_cl_poisson_2d_r_chebu_trois ( const Tbl & source )

Definition at line 177 of file ope_poisson_2d_solp.C.

◆ _cl_poisson_pseudo_1d_pas_prevu() [1/2]

Matrice Lorene::_cl_poisson_pseudo_1d_pas_prevu ( const Matrice & so )

Definition at line 36 of file ope_poisson_pseudo_1d_cl.C.

◆ _cl_poisson_pseudo_1d_pas_prevu() [2/2]

Tbl Lorene::_cl_poisson_pseudo_1d_pas_prevu ( const Tbl & source )

Definition at line 39 of file ope_poisson_pseudo_1d_solp.C.

◆ _cl_poisson_pseudo_1d_r_cheb() [1/2]

Matrice Lorene::_cl_poisson_pseudo_1d_r_cheb ( const Matrice & source )

Definition at line 48 of file ope_poisson_pseudo_1d_cl.C.

◆ _cl_poisson_pseudo_1d_r_cheb() [2/2]

Tbl Lorene::_cl_poisson_pseudo_1d_r_cheb ( const Tbl & source )

Definition at line 52 of file ope_poisson_pseudo_1d_solp.C.

◆ _cl_poisson_pseudo_1d_r_chebi() [1/2]

Matrice Lorene::_cl_poisson_pseudo_1d_r_chebi ( const Matrice & source )

Definition at line 108 of file ope_poisson_pseudo_1d_cl.C.

◆ _cl_poisson_pseudo_1d_r_chebi() [2/2]

Tbl Lorene::_cl_poisson_pseudo_1d_r_chebi ( const Tbl & source )

Definition at line 99 of file ope_poisson_pseudo_1d_solp.C.

◆ _cl_poisson_pseudo_1d_r_chebp() [1/2]

Matrice Lorene::_cl_poisson_pseudo_1d_r_chebp ( const Matrice & source )

Definition at line 76 of file ope_poisson_pseudo_1d_cl.C.

◆ _cl_poisson_pseudo_1d_r_chebp() [2/2]

Tbl Lorene::_cl_poisson_pseudo_1d_r_chebp ( const Tbl & source )

Definition at line 73 of file ope_poisson_pseudo_1d_solp.C.

◆ _cl_ptens_rr_cheb()

Matrice Lorene::_cl_ptens_rr_cheb	(	const Matrice &	source,
		int	l,
		double	echelle,
		int	)

Definition at line 92 of file cl_ptens_rr.C.

◆ _cl_ptens_rr_chebi()

Matrice Lorene::_cl_ptens_rr_chebi	(	const Matrice &	source,
		int	l,
		double	,
		int	)

Definition at line 222 of file cl_ptens_rr.C.

◆ _cl_ptens_rr_chebp()

Matrice Lorene::_cl_ptens_rr_chebp	(	const Matrice &	source,
		int	l,
		double	,
		int	)

Definition at line 160 of file cl_ptens_rr.C.

◆ _cl_ptens_rr_chebu()

Matrice Lorene::_cl_ptens_rr_chebu	(	const Matrice &	source,
		int	l,
		double	,
		int	puis )

Definition at line 279 of file cl_ptens_rr.C.

◆ _cl_ptens_rr_pas_prevu()

Matrice Lorene::_cl_ptens_rr_pas_prevu	(	const Matrice &	source,
		int	l,
		double	echelle,
		int	puis )

Definition at line 76 of file cl_ptens_rr.C.

◆ _cl_pvect_r_cheb()

Matrice Lorene::_cl_pvect_r_cheb	(	const Matrice &	source,
		int	l,
		double	echelle,
		int	)

Definition at line 91 of file cl_pvect_r.C.

◆ _cl_pvect_r_chebi()

Matrice Lorene::_cl_pvect_r_chebi	(	const Matrice &	source,
		int	l,
		double	,
		int	)

Definition at line 221 of file cl_pvect_r.C.

◆ _cl_pvect_r_chebp()

Matrice Lorene::_cl_pvect_r_chebp	(	const Matrice &	source,
		int	l,
		double	,
		int	)

Definition at line 159 of file cl_pvect_r.C.

◆ _cl_pvect_r_chebu()

Matrice Lorene::_cl_pvect_r_chebu	(	const Matrice &	source,
		int	l,
		double	,
		int	puis )

Definition at line 278 of file cl_pvect_r.C.

◆ _cl_pvect_r_pas_prevu()

Matrice Lorene::_cl_pvect_r_pas_prevu	(	const Matrice &	source,
		int	l,
		double	echelle,
		int	puis )

Definition at line 75 of file cl_pvect_r.C.

◆ _cl_r_cheb() [1/2]

Matrice Lorene::_cl_r_cheb	(	const Matrice &	source,
		int	l,
		double	echelle,
		int	)

Definition at line 153 of file comb_lin.C.

◆ _cl_r_cheb() [2/2]

Tbl Lorene::_cl_r_cheb	(	const Tbl &	source,
		int	)

Definition at line 725 of file comb_lin.C.

◆ _cl_r_chebi() [1/2]

Matrice Lorene::_cl_r_chebi	(	const Matrice &	source,
		int	l,
		double	,
		int	)

Definition at line 349 of file comb_lin.C.

◆ _cl_r_chebi() [2/2]

Tbl Lorene::_cl_r_chebi	(	const Tbl &	source,
		int	)

Definition at line 792 of file comb_lin.C.

◆ _cl_r_chebp() [1/2]

Matrice Lorene::_cl_r_chebp	(	const Matrice &	source,
		int	l,
		double	,
		int	)

Definition at line 287 of file comb_lin.C.

◆ _cl_r_chebp() [2/2]

Tbl Lorene::_cl_r_chebp	(	const Tbl &	source,
		int	)

Definition at line 766 of file comb_lin.C.

◆ _cl_r_chebu() [1/2]

Matrice Lorene::_cl_r_chebu	(	const Matrice &	source,
		int	l,
		double	,
		int	puis )

Definition at line 406 of file comb_lin.C.

◆ _cl_r_chebu() [2/2]

Tbl Lorene::_cl_r_chebu	(	const Tbl &	source,
		int	puis )

Definition at line 815 of file comb_lin.C.

◆ _cl_r_chebu_cinq() [1/2]

Matrice Lorene::_cl_r_chebu_cinq	(	const Matrice &	source,
		int	l )

Definition at line 617 of file comb_lin.C.

◆ _cl_r_chebu_cinq() [2/2]

Tbl Lorene::_cl_r_chebu_cinq ( const Tbl & source )

Definition at line 911 of file comb_lin.C.

◆ _cl_r_chebu_deux() [1/2]

Matrice Lorene::_cl_r_chebu_deux	(	const Matrice &	source,
		int	l )

Definition at line 559 of file comb_lin.C.

◆ _cl_r_chebu_deux() [2/2]

Tbl Lorene::_cl_r_chebu_deux ( const Tbl & source )

Definition at line 890 of file comb_lin.C.

◆ _cl_r_chebu_quatre() [1/2]

Matrice Lorene::_cl_r_chebu_quatre	(	const Matrice &	source,
		int	l )

Definition at line 436 of file comb_lin.C.

◆ _cl_r_chebu_quatre() [2/2]

Tbl Lorene::_cl_r_chebu_quatre ( const Tbl & source )

Definition at line 843 of file comb_lin.C.

◆ _cl_r_chebu_trois() [1/2]

Matrice Lorene::_cl_r_chebu_trois	(	const Matrice &	source,
		int	l )

Definition at line 499 of file comb_lin.C.

◆ _cl_r_chebu_trois() [2/2]

Tbl Lorene::_cl_r_chebu_trois ( const Tbl & source )

Definition at line 868 of file comb_lin.C.

◆ _cl_r_jaco02() [1/2]

Matrice Lorene::_cl_r_jaco02	(	const Matrice &	source,
		int	l,
		double	echelle,
		int	)

Definition at line 221 of file comb_lin.C.

◆ _cl_r_jaco02() [2/2]

Tbl Lorene::_cl_r_jaco02	(	const Tbl &	source,
		int	)

Definition at line 747 of file comb_lin.C.

◆ _cl_sec_order_pas_prevu() [1/2]

Matrice Lorene::_cl_sec_order_pas_prevu ( const Matrice & so )

Definition at line 41 of file ope_sec_order_cl.C.

◆ _cl_sec_order_pas_prevu() [2/2]

Tbl Lorene::_cl_sec_order_pas_prevu ( const Tbl & so )

Definition at line 39 of file ope_sec_order_solp.C.

◆ _cl_sec_order_r2_pas_prevu() [1/2]

Matrice Lorene::_cl_sec_order_r2_pas_prevu ( const Matrice & so )

Definition at line 41 of file ope_sec_order_r2_cl.C.

◆ _cl_sec_order_r2_pas_prevu() [2/2]

Tbl Lorene::_cl_sec_order_r2_pas_prevu ( const Tbl & so )

Definition at line 39 of file ope_sec_order_r2_solp.C.

◆ _cl_sec_order_r2_r_cheb() [1/2]

Matrice Lorene::_cl_sec_order_r2_r_cheb ( const Matrice & source )

Definition at line 52 of file ope_sec_order_r2_cl.C.

◆ _cl_sec_order_r2_r_cheb() [2/2]

Tbl Lorene::_cl_sec_order_r2_r_cheb ( const Tbl & source )

Definition at line 50 of file ope_sec_order_r2_solp.C.

◆ _cl_sec_order_r_cheb() [1/2]

Matrice Lorene::_cl_sec_order_r_cheb ( const Matrice & source )

Definition at line 52 of file ope_sec_order_cl.C.

◆ _cl_sec_order_r_cheb() [2/2]

Tbl Lorene::_cl_sec_order_r_cheb ( const Tbl & source )

Definition at line 50 of file ope_sec_order_solp.C.

◆ _cl_vorton_pas_prevu() [1/2]

Matrice Lorene::_cl_vorton_pas_prevu	(	const Matrice &	so,
		int	)

Definition at line 41 of file ope_vorton_cl.C.

◆ _cl_vorton_pas_prevu() [2/2]

Tbl Lorene::_cl_vorton_pas_prevu	(	const Tbl &	so,
		int	)

Definition at line 39 of file ope_vorton_solp.C.

◆ _cl_vorton_r_cheb() [1/2]

Matrice Lorene::_cl_vorton_r_cheb	(	const Matrice &	source,
		int	)

Definition at line 52 of file ope_vorton_cl.C.

◆ _cl_vorton_r_cheb() [2/2]

Tbl Lorene::_cl_vorton_r_cheb	(	const Tbl &	source,
		int	)

Definition at line 50 of file ope_vorton_solp.C.

◆ _cl_vorton_r_chebu() [1/2]

Matrice Lorene::_cl_vorton_r_chebu	(	const Matrice &	source,
		int	puis )

Definition at line 103 of file ope_vorton_cl.C.

◆ _cl_vorton_r_chebu() [2/2]

Tbl Lorene::_cl_vorton_r_chebu	(	const Tbl &	source,
		int	puis )

Definition at line 92 of file ope_vorton_solp.C.

◆ _cl_vorton_r_chebu_trois() [1/2]

Matrice Lorene::_cl_vorton_r_chebu_trois ( const Matrice & source )

Definition at line 77 of file ope_vorton_cl.C.

◆ _cl_vorton_r_chebu_trois() [2/2]

Tbl Lorene::_cl_vorton_r_chebu_trois ( const Tbl & source )

Definition at line 73 of file ope_vorton_solp.C.

◆ _d2sdphi2_p_cossin()

void Lorene::_d2sdphi2_p_cossin	(	Tbl *	tb,
		int &	)

Definition at line 84 of file op_d2sdphi2.C.

◆ _d2sdphi2_pas_prevu()

void Lorene::_d2sdphi2_pas_prevu	(	Tbl *	,
		int &	b )

Definition at line 76 of file op_d2sdphi2.C.

◆ _d2sdtet2_pas_prevu()

void Lorene::_d2sdtet2_pas_prevu	(	Tbl *	,
		int &	b )

Definition at line 82 of file op_d2sdtet2.C.

◆ _d2sdtet2_t_cos()

void Lorene::_d2sdtet2_t_cos	(	Tbl *	tb,
		int &	)

Definition at line 90 of file op_d2sdtet2.C.

◆ _d2sdtet2_t_cos_i()

void Lorene::_d2sdtet2_t_cos_i	(	Tbl *	tb,
		int &	)

Definition at line 448 of file op_d2sdtet2.C.

◆ _d2sdtet2_t_cos_p()

void Lorene::_d2sdtet2_t_cos_p	(	Tbl *	tb,
		int &	)

Definition at line 236 of file op_d2sdtet2.C.

◆ _d2sdtet2_t_cossin_c()

void Lorene::_d2sdtet2_t_cossin_c	(	Tbl *	tb,
		int &	)

Definition at line 781 of file op_d2sdtet2.C.

◆ _d2sdtet2_t_cossin_cp()

void Lorene::_d2sdtet2_t_cossin_cp	(	Tbl *	tb,
		int &	)

Definition at line 514 of file op_d2sdtet2.C.

◆ _d2sdtet2_t_cossin_s()

void Lorene::_d2sdtet2_t_cossin_s	(	Tbl *	tb,
		int &	)

Definition at line 870 of file op_d2sdtet2.C.

◆ _d2sdtet2_t_cossin_si()

void Lorene::_d2sdtet2_t_cossin_si	(	Tbl *	tb,
		int &	)

Definition at line 692 of file op_d2sdtet2.C.

◆ _d2sdtet2_t_cossin_sp()

void Lorene::_d2sdtet2_t_cossin_sp	(	Tbl *	tb,
		int &	)

Definition at line 603 of file op_d2sdtet2.C.

◆ _d2sdtet2_t_sin()

void Lorene::_d2sdtet2_t_sin	(	Tbl *	tb,
		int &	)

Definition at line 170 of file op_d2sdtet2.C.

◆ _d2sdtet2_t_sin_i()

void Lorene::_d2sdtet2_t_sin_i	(	Tbl *	tb,
		int &	)

Definition at line 382 of file op_d2sdtet2.C.

◆ _d2sdtet2_t_sin_p()

void Lorene::_d2sdtet2_t_sin_p	(	Tbl *	tb,
		int &	)

Definition at line 316 of file op_d2sdtet2.C.

◆ _d2sdx2_1d_pas_prevu()

void Lorene::_d2sdx2_1d_pas_prevu	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 90 of file d2sdx2_1d.C.

◆ _d2sdx2_1d_r_cheb()

void Lorene::_d2sdx2_1d_r_cheb	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 155 of file d2sdx2_1d.C.

◆ _d2sdx2_1d_r_chebi()

void Lorene::_d2sdx2_1d_r_chebi	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 265 of file d2sdx2_1d.C.

◆ _d2sdx2_1d_r_chebp()

void Lorene::_d2sdx2_1d_r_chebp	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 222 of file d2sdx2_1d.C.

◆ _d2sdx2_1d_r_chebu()

void Lorene::_d2sdx2_1d_r_chebu	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 102 of file d2sdx2_1d.C.

◆ _d2sdx2_1d_r_jaco02()

void Lorene::_d2sdx2_1d_r_jaco02	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 208 of file d2sdx2_1d.C.

◆ _d2sdx2_1d_r_leg()

void Lorene::_d2sdx2_1d_r_leg	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 309 of file d2sdx2_1d.C.

◆ _d2sdx2_1d_r_legi()

void Lorene::_d2sdx2_1d_r_legi	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 406 of file d2sdx2_1d.C.

◆ _d2sdx2_1d_r_legp()

void Lorene::_d2sdx2_1d_r_legp	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 364 of file d2sdx2_1d.C.

◆ _d2sdx2_pas_prevu()

void Lorene::_d2sdx2_pas_prevu	(	Tbl *	,
		int &	b )

Definition at line 100 of file op_d2sdx2.C.

◆ _d2sdx2_r_cheb()

void Lorene::_d2sdx2_r_cheb	(	Tbl *	tb,
		int &	)

Definition at line 205 of file op_d2sdx2.C.

◆ _d2sdx2_r_chebi()

void Lorene::_d2sdx2_r_chebi	(	Tbl *	tb,
		int &	)

Definition at line 390 of file op_d2sdx2.C.

◆ _d2sdx2_r_chebp()

void Lorene::_d2sdx2_r_chebp	(	Tbl *	tb,
		int &	)

Definition at line 303 of file op_d2sdx2.C.

◆ _d2sdx2_r_chebpi_i()

void Lorene::_d2sdx2_r_chebpi_i	(	Tbl *	tb,
		int &	)

Definition at line 881 of file op_d2sdx2.C.

◆ _d2sdx2_r_chebpi_p()

void Lorene::_d2sdx2_r_chebpi_p	(	Tbl *	tb,
		int &	)

Definition at line 747 of file op_d2sdx2.C.

◆ _d2sdx2_r_chebpim_i()

void Lorene::_d2sdx2_r_chebpim_i	(	Tbl *	tb,
		int &	)

Definition at line 613 of file op_d2sdx2.C.

◆ _d2sdx2_r_chebpim_p()

void Lorene::_d2sdx2_r_chebpim_p	(	Tbl *	tb,
		int &	)

Definition at line 478 of file op_d2sdx2.C.

◆ _d2sdx2_r_chebu_0()

void Lorene::_d2sdx2_r_chebu_0	(	Tbl *	tb,
		int &	)

Definition at line 108 of file op_d2sdx2.C.

◆ _d2sdx2_r_jaco02()

void Lorene::_d2sdx2_r_jaco02	(	Tbl *	tb,
		int &	)

Definition at line 1294 of file op_d2sdx2.C.

◆ _d2sdx2_r_leg()

void Lorene::_d2sdx2_r_leg	(	Tbl *	tb,
		int &	)

Definition at line 1016 of file op_d2sdx2.C.

◆ _d2sdx2_r_legi()

void Lorene::_d2sdx2_r_legi	(	Tbl *	tb,
		int &	)

Definition at line 1203 of file op_d2sdx2.C.

◆ _d2sdx2_r_legp()

void Lorene::_d2sdx2_r_legp	(	Tbl *	tb,
		int &	)

Definition at line 1116 of file op_d2sdx2.C.

◆ _dal_inverse_pas_prevu()

Tbl Lorene::_dal_inverse_pas_prevu	(	const Matrice &	,
		const Tbl &	,
		const bool	)

Definition at line 92 of file dal_inverse.C.

◆ _dal_inverse_r_cheb_o2_l()

Tbl Lorene::_dal_inverse_r_cheb_o2_l	(	const Matrice &	op,
		const Tbl &	source,
		const bool	part )

Definition at line 253 of file dal_inverse.C.

◆ _dal_inverse_r_cheb_o2_s()

Tbl Lorene::_dal_inverse_r_cheb_o2_s	(	const Matrice &	op,
		const Tbl &	source,
		const bool	part )

Definition at line 214 of file dal_inverse.C.

◆ _dal_inverse_r_cheb_o2d_l()

Tbl Lorene::_dal_inverse_r_cheb_o2d_l	(	const Matrice &	op,
		const Tbl &	source,
		const bool	part )

Definition at line 144 of file dal_inverse.C.

◆ _dal_inverse_r_cheb_o2d_s()

Tbl Lorene::_dal_inverse_r_cheb_o2d_s	(	const Matrice &	op,
		const Tbl &	source,
		const bool	part )

Definition at line 105 of file dal_inverse.C.

◆ _dal_inverse_r_chebi_o2_l()

Tbl Lorene::_dal_inverse_r_chebi_o2_l	(	const Matrice &	op,
		const Tbl &	source,
		const bool	part )

Definition at line 813 of file dal_inverse.C.

◆ _dal_inverse_r_chebi_o2_s()

Tbl Lorene::_dal_inverse_r_chebi_o2_s	(	const Matrice &	op,
		const Tbl &	source,
		const bool	part )

Definition at line 752 of file dal_inverse.C.

◆ _dal_inverse_r_chebi_o2d_l()

Tbl Lorene::_dal_inverse_r_chebi_o2d_l	(	const Matrice &	op,
		const Tbl &	source,
		const bool	part )

Definition at line 673 of file dal_inverse.C.

◆ _dal_inverse_r_chebi_o2d_s()

Tbl Lorene::_dal_inverse_r_chebi_o2d_s	(	const Matrice &	op,
		const Tbl &	source,
		const bool	part )

Definition at line 610 of file dal_inverse.C.

◆ _dal_inverse_r_chebp_o2_l()

Tbl Lorene::_dal_inverse_r_chebp_o2_l	(	const Matrice &	op,
		const Tbl &	source,
		const bool	part )

Definition at line 526 of file dal_inverse.C.

◆ _dal_inverse_r_chebp_o2_s()

Tbl Lorene::_dal_inverse_r_chebp_o2_s	(	const Matrice &	op,
		const Tbl &	source,
		const bool	part )

Definition at line 464 of file dal_inverse.C.

◆ _dal_inverse_r_chebp_o2d_l()

Tbl Lorene::_dal_inverse_r_chebp_o2d_l	(	const Matrice &	op,
		const Tbl &	source,
		const bool	part )

Definition at line 388 of file dal_inverse.C.

◆ _dal_inverse_r_chebp_o2d_s()

Tbl Lorene::_dal_inverse_r_chebp_o2d_s	(	const Matrice &	op,
		const Tbl &	source,
		const bool	part )

Definition at line 329 of file dal_inverse.C.

◆ _dal_inverse_r_jaco02()

Tbl Lorene::_dal_inverse_r_jaco02	(	const Matrice &	op,
		const Tbl &	source,
		const bool	part )

Definition at line 890 of file dal_inverse.C.

◆ _dsdphi_p_cossin()

void Lorene::_dsdphi_p_cossin	(	Tbl *	tb,
		int &	)

Definition at line 109 of file op_dsdphi.C.

◆ _dsdphi_p_cossin_i()

void Lorene::_dsdphi_p_cossin_i	(	Tbl *	tb,
		int &	)

Definition at line 321 of file op_dsdphi.C.

◆ _dsdphi_p_cossin_p()

void Lorene::_dsdphi_p_cossin_p	(	Tbl *	tb,
		int &	)

Definition at line 213 of file op_dsdphi.C.

◆ _dsdphi_pas_prevu()

void Lorene::_dsdphi_pas_prevu	(	Tbl *	,
		int &	b )

Definition at line 99 of file op_dsdphi.C.

◆ _dsdtet_pas_prevu()

void Lorene::_dsdtet_pas_prevu	(	Tbl *	,
		int &	b )

Definition at line 92 of file op_dsdtet.C.

◆ _dsdtet_t_cos()

void Lorene::_dsdtet_t_cos	(	Tbl *	tb,
		int &	b )

Definition at line 100 of file op_dsdtet.C.

◆ _dsdtet_t_cos_i()

void Lorene::_dsdtet_t_cos_i	(	Tbl *	tb,
		int &	b )

Definition at line 523 of file op_dsdtet.C.

◆ _dsdtet_t_cos_p()

void Lorene::_dsdtet_t_cos_p	(	Tbl *	tb,
		int &	b )

Definition at line 269 of file op_dsdtet.C.

◆ _dsdtet_t_cossin_c()

void Lorene::_dsdtet_t_cossin_c	(	Tbl *	tb,
		int &	b )

Definition at line 1000 of file op_dsdtet.C.

◆ _dsdtet_t_cossin_ci()

void Lorene::_dsdtet_t_cossin_ci	(	Tbl *	tb,
		int &	b )

Definition at line 804 of file op_dsdtet.C.

◆ _dsdtet_t_cossin_cp()

void Lorene::_dsdtet_t_cossin_cp	(	Tbl *	tb,
		int &	b )

Definition at line 608 of file op_dsdtet.C.

◆ _dsdtet_t_cossin_s()

void Lorene::_dsdtet_t_cossin_s	(	Tbl *	tb,
		int &	b )

Definition at line 1098 of file op_dsdtet.C.

◆ _dsdtet_t_cossin_si()

void Lorene::_dsdtet_t_cossin_si	(	Tbl *	tb,
		int &	b )

Definition at line 902 of file op_dsdtet.C.

◆ _dsdtet_t_cossin_sp()

void Lorene::_dsdtet_t_cossin_sp	(	Tbl *	tb,
		int &	b )

Definition at line 706 of file op_dsdtet.C.

◆ _dsdtet_t_sin()

void Lorene::_dsdtet_t_sin	(	Tbl *	tb,
		int &	b )

Definition at line 185 of file op_dsdtet.C.

◆ _dsdtet_t_sin_i()

void Lorene::_dsdtet_t_sin_i	(	Tbl *	tb,
		int &	b )

Definition at line 438 of file op_dsdtet.C.

◆ _dsdtet_t_sin_p()

void Lorene::_dsdtet_t_sin_p	(	Tbl *	tb,
		int &	b )

Definition at line 354 of file op_dsdtet.C.

◆ _dsdx_1d_pas_prevu()

void Lorene::_dsdx_1d_pas_prevu	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 82 of file dsdx_1d.C.

◆ _dsdx_1d_r_cheb()

void Lorene::_dsdx_1d_r_cheb	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 96 of file sxdsdx_1d.C.

◆ _dsdx_1d_r_chebi()

void Lorene::_dsdx_1d_r_chebi	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 141 of file dsdx_1d.C.

◆ _dsdx_1d_r_chebp()

void Lorene::_dsdx_1d_r_chebp	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 160 of file dsdx_1d.C.

◆ _dsdx_1d_r_chebu()

void Lorene::_dsdx_1d_r_chebu	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 94 of file dsdx_1d.C.

◆ _dsdx_1d_r_jaco02()

void Lorene::_dsdx_1d_r_jaco02	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 121 of file dsdx_1d.C.

◆ _dsdx_1d_r_leg()

void Lorene::_dsdx_1d_r_leg	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 178 of file dsdx_1d.C.

◆ _dsdx_1d_r_legi()

void Lorene::_dsdx_1d_r_legi	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 201 of file dsdx_1d.C.

◆ _dsdx_1d_r_legp()

void Lorene::_dsdx_1d_r_legp	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 219 of file dsdx_1d.C.

◆ _dsdx_pas_prevu()

void Lorene::_dsdx_pas_prevu	(	Tbl *	,
		int &	b )

Definition at line 95 of file op_dsdx.C.

◆ _dsdx_r_cheb()

void Lorene::_dsdx_r_cheb	(	Tbl *	tb,
		int &	)

Definition at line 103 of file op_dsdx.C.

◆ _dsdx_r_chebi()

void Lorene::_dsdx_r_chebi	(	Tbl *	,
		int &	)

Definition at line 330 of file op_dsdx.C.

◆ _dsdx_r_chebp()

void Lorene::_dsdx_r_chebp	(	Tbl *	,
		int &	)

Definition at line 253 of file op_dsdx.C.

◆ _dsdx_r_chebpi_i()

void Lorene::_dsdx_r_chebpi_i	(	Tbl *	tb,
		int &	b )

Definition at line 712 of file op_dsdx.C.

◆ _dsdx_r_chebpi_p()

void Lorene::_dsdx_r_chebpi_p	(	Tbl *	tb,
		int &	b )

Definition at line 625 of file op_dsdx.C.

◆ _dsdx_r_chebpim_i()

void Lorene::_dsdx_r_chebpim_i	(	Tbl *	tb,
		int &	b )

Definition at line 513 of file op_dsdx.C.

◆ _dsdx_r_chebpim_p()

void Lorene::_dsdx_r_chebpim_p	(	Tbl *	tb,
		int &	b )

Definition at line 405 of file op_dsdx.C.

◆ _dsdx_r_chebu()

void Lorene::_dsdx_r_chebu	(	Tbl *	tb,
		int &	)

Definition at line 177 of file op_dsdx.C.

◆ _dsdx_r_jaco02()

void Lorene::_dsdx_r_jaco02	(	Tbl *	tb,
		int &	)

Definition at line 1021 of file op_dsdx.C.

◆ _dsdx_r_leg()

void Lorene::_dsdx_r_leg	(	Tbl *	tb,
		int &	)

Definition at line 797 of file op_dsdx.C.

◆ _dsdx_r_legi()

void Lorene::_dsdx_r_legi	(	Tbl *	tb,
		int &	b )

Definition at line 947 of file op_dsdx.C.

◆ _dsdx_r_legp()

void Lorene::_dsdx_r_legp	(	Tbl *	tb,
		int &	b )

Definition at line 870 of file op_dsdx.C.

◆ _get_operateur_dal_pas_prevu()

void Lorene::_get_operateur_dal_pas_prevu	(	const Param &	,
		const int &	,
		int &	,
		Matrice &	)

Definition at line 106 of file get_operateur.C.

◆ _get_operateur_dal_r_cheb()

void Lorene::_get_operateur_dal_r_cheb	(	const Param &	par,
		const int &	lz,
		int &	type_dal,
		Matrice &	operateur )

Definition at line 114 of file get_operateur.C.

◆ _get_operateur_dal_r_chebi()

void Lorene::_get_operateur_dal_r_chebi	(	const Param &	par,
		const int &	lzone,
		int &	type_dal,
		Matrice &	operateur )

Definition at line 328 of file get_operateur.C.

◆ _get_operateur_dal_r_chebp()

void Lorene::_get_operateur_dal_r_chebp	(	const Param &	par,
		const int &	lzone,
		int &	type_dal,
		Matrice &	operateur )

Definition at line 231 of file get_operateur.C.

◆ _get_operateur_dal_r_jaco02()

void Lorene::_get_operateur_dal_r_jaco02	(	const Param &	par,
		const int &	lz,
		int &	type_dal,
		Matrice &	operateur )

Definition at line 426 of file get_operateur.C.

◆ _helmholtz_minus_2d_mat_pas_prevu()

Matrice Lorene::_helmholtz_minus_2d_mat_pas_prevu	(	int	,
		int	,
		double	,
		double	,
		double	,
		int	)

Definition at line 39 of file ope_helmholtz_minus_2d_mat.C.

◆ _helmholtz_minus_2d_mat_r_cheb()

Matrice Lorene::_helmholtz_minus_2d_mat_r_cheb	(	int	n,
		int	l,
		double	masse,
		double	alf,
		double	bet,
		int	)

Definition at line 126 of file ope_helmholtz_minus_2d_mat.C.

◆ _helmholtz_minus_2d_mat_r_chebu()

Matrice Lorene::_helmholtz_minus_2d_mat_r_chebu	(	int	n,
		int	l,
		double	masse,
		double	alpha,
		double	,
		int	puis )

Definition at line 56 of file ope_helmholtz_minus_2d_mat.C.

◆ _helmholtz_minus_2d_mat_r_chebu_deux()

Matrice Lorene::_helmholtz_minus_2d_mat_r_chebu_deux	(	int	n,
		int	l,
		double	masse,
		double	alpha )

Definition at line 72 of file ope_helmholtz_minus_2d_mat.C.

◆ _helmholtz_minus_2d_non_dege_pas_prevu()

Matrice Lorene::_helmholtz_minus_2d_non_dege_pas_prevu	(	const Matrice &	lap,
		int	)

Definition at line 40 of file ope_helmholtz_minus_2d_non_dege.C.

◆ _helmholtz_minus_2d_non_dege_r_cheb()

Matrice Lorene::_helmholtz_minus_2d_non_dege_r_cheb	(	const Matrice &	lap,
		int	)

Definition at line 53 of file ope_helmholtz_minus_2d_non_dege.C.

◆ _helmholtz_minus_2d_non_dege_r_chebu()

Matrice Lorene::_helmholtz_minus_2d_non_dege_r_chebu	(	const Matrice &	lap,
		int	puis )

Definition at line 76 of file ope_helmholtz_minus_2d_non_dege.C.

◆ _helmholtz_minus_2d_non_dege_r_chebu_deux()

Matrice Lorene::_helmholtz_minus_2d_non_dege_r_chebu_deux ( const Matrice & lap )

Definition at line 90 of file ope_helmholtz_minus_2d_non_dege.C.

◆ _helmholtz_minus_mat_pas_prevu()

Matrice Lorene::_helmholtz_minus_mat_pas_prevu	(	int	,
		int	,
		double	,
		double	,
		double	)

Definition at line 73 of file helmholtz_minus_mat.C.

◆ _helmholtz_minus_mat_r_cheb()

Matrice Lorene::_helmholtz_minus_mat_r_cheb	(	int	n,
		int	lq,
		double	alpha,
		double	beta,
		double	masse )

Definition at line 133 of file helmholtz_minus_mat.C.

◆ _helmholtz_minus_mat_r_chebi()

Matrice Lorene::_helmholtz_minus_mat_r_chebi	(	int	n,
		int	lq,
		double	alpha,
		double	,
		double	masse )

Definition at line 279 of file helmholtz_minus_mat.C.

◆ _helmholtz_minus_mat_r_chebp()

Matrice Lorene::_helmholtz_minus_mat_r_chebp	(	int	n,
		int	lq,
		double	alpha,
		double	,
		double	masse )

Definition at line 224 of file helmholtz_minus_mat.C.

◆ _helmholtz_minus_mat_r_chebu()

Matrice Lorene::_helmholtz_minus_mat_r_chebu	(	int	n,
		int	lq,
		double	alpha,
		double	,
		double	masse )

Definition at line 85 of file helmholtz_minus_mat.C.

◆ _helmholtz_minus_pseudo_1d_mat_pas_prevu()

Matrice Lorene::_helmholtz_minus_pseudo_1d_mat_pas_prevu	(	int	,
		int	,
		double	,
		double	,
		double	,
		int	)

Definition at line 39 of file ope_helmholtz_minus_pseudo_1d_mat.C.

◆ _helmholtz_minus_pseudo_1d_mat_r_chebu()

Matrice Lorene::_helmholtz_minus_pseudo_1d_mat_r_chebu	(	int	n,
		int	l,
		double	masse,
		double	alpha,
		double	,
		int	puis )

Definition at line 56 of file ope_helmholtz_minus_pseudo_1d_mat.C.

◆ _helmholtz_minus_pseudo_1d_mat_r_chebu_deux()

Matrice Lorene::_helmholtz_minus_pseudo_1d_mat_r_chebu_deux	(	int	n,
		int	l,
		double	masse,
		double	alpha )

Definition at line 72 of file ope_helmholtz_minus_pseudo_1d_mat.C.

◆ _helmholtz_minus_pseudo_1d_non_dege_pas_prevu()

Matrice Lorene::_helmholtz_minus_pseudo_1d_non_dege_pas_prevu	(	const Matrice &	lap,
		int	)

Definition at line 40 of file ope_helmholtz_minus_pseudo_1d_non_dege.C.

◆ _helmholtz_minus_pseudo_1d_non_dege_r_chebu()

Matrice Lorene::_helmholtz_minus_pseudo_1d_non_dege_r_chebu	(	const Matrice &	lap,
		int	puis )

Definition at line 53 of file ope_helmholtz_minus_pseudo_1d_non_dege.C.

◆ _helmholtz_minus_pseudo_1d_non_dege_r_chebu_deux()

Matrice Lorene::_helmholtz_minus_pseudo_1d_non_dege_r_chebu_deux ( const Matrice & lap )

Definition at line 67 of file ope_helmholtz_minus_pseudo_1d_non_dege.C.

◆ _helmholtz_plus_mat_pas_prevu()

Matrice Lorene::_helmholtz_plus_mat_pas_prevu	(	int	,
		int	,
		double	,
		double	,
		double	)

Definition at line 61 of file helmholtz_plus_mat.C.

◆ _helmholtz_plus_mat_r_cheb()

Matrice Lorene::_helmholtz_plus_mat_r_cheb	(	int	n,
		int	lq,
		double	alpha,
		double	beta,
		double	masse )

Definition at line 137 of file helmholtz_plus_mat.C.

◆ _helmholtz_plus_mat_r_chebp()

Matrice Lorene::_helmholtz_plus_mat_r_chebp	(	int	n,
		int	lq,
		double	alpha,
		double	,
		double	masse )

Definition at line 76 of file helmholtz_plus_mat.C.

◆ _lap_cpt_mat_pas_prevu()

Matrice Lorene::_lap_cpt_mat_pas_prevu	(	int	n,
		int	l )

Definition at line 77 of file lap_cpt_mat.C.

◆ _lap_cpt_mat_r_chebi()

Matrice Lorene::_lap_cpt_mat_r_chebi	(	int	n,
		int	l )

Definition at line 190 of file lap_cpt_mat.C.

◆ _lap_cpt_mat_r_chebp()

Matrice Lorene::_lap_cpt_mat_r_chebp	(	int	n,
		int	l )

Definition at line 93 of file lap_cpt_mat.C.

◆ _lapang_pas_prevu()

void Lorene::_lapang_pas_prevu	(	Mtbl_cf *	mt,
		int	l )

Definition at line 99 of file op_lapang.C.

◆ _lapang_t_leg()

void Lorene::_lapang_t_leg	(	Mtbl_cf *	mt,
		int	l )

Definition at line 108 of file op_lapang.C.

◆ _lapang_t_leg_i()

void Lorene::_lapang_t_leg_i	(	Mtbl_cf *	mt,
		int	l )

Definition at line 273 of file op_lapang.C.

◆ _lapang_t_leg_ii()

void Lorene::_lapang_t_leg_ii	(	Mtbl_cf *	mt,
		int	l )

Definition at line 467 of file op_lapang.C.

◆ _lapang_t_leg_ip()

void Lorene::_lapang_t_leg_ip	(	Mtbl_cf *	mt,
		int	l )

Definition at line 330 of file op_lapang.C.

◆ _lapang_t_leg_mi()

void Lorene::_lapang_t_leg_mi	(	Mtbl_cf *	mt,
		int	l )

Definition at line 598 of file op_lapang.C.

◆ _lapang_t_leg_mp()

void Lorene::_lapang_t_leg_mp	(	Mtbl_cf *	mt,
		int	l )

Definition at line 544 of file op_lapang.C.

◆ _lapang_t_leg_p()

void Lorene::_lapang_t_leg_p	(	Mtbl_cf *	mt,
		int	l )

Definition at line 163 of file op_lapang.C.

◆ _lapang_t_leg_pi()

void Lorene::_lapang_t_leg_pi	(	Mtbl_cf *	mt,
		int	l )

Definition at line 390 of file op_lapang.C.

◆ _lapang_t_leg_pp()

void Lorene::_lapang_t_leg_pp	(	Mtbl_cf *	mt,
		int	l )

Definition at line 218 of file op_lapang.C.

◆ _laplacien_mat_pas_prevu()

Matrice Lorene::_laplacien_mat_pas_prevu	(	int	n,
		int	l,
		double	echelle,
		int	puis )

Definition at line 151 of file laplacien_mat.C.

◆ _laplacien_mat_r_cheb()

Matrice Lorene::_laplacien_mat_r_cheb	(	int	n,
		int	l,
		double	echelle,
		int	)

Definition at line 497 of file laplacien_mat.C.

◆ _laplacien_mat_r_chebi()

Matrice Lorene::_laplacien_mat_r_chebi	(	int	n,
		int	l,
		double	,
		int	)

Definition at line 262 of file laplacien_mat.C.

◆ _laplacien_mat_r_chebp()

Matrice Lorene::_laplacien_mat_r_chebp	(	int	n,
		int	l,
		double	,
		int	)

Definition at line 215 of file laplacien_mat.C.

◆ _laplacien_mat_r_chebu()

Matrice Lorene::_laplacien_mat_r_chebu	(	int	n,
		int	l,
		double	,
		int	puis )

Definition at line 308 of file laplacien_mat.C.

◆ _laplacien_mat_r_chebu_cinq()

Matrice Lorene::_laplacien_mat_r_chebu_cinq	(	int	n,
		int	l )

Definition at line 452 of file laplacien_mat.C.

◆ _laplacien_mat_r_chebu_deux()

Matrice Lorene::_laplacien_mat_r_chebu_deux	(	int	n,
		int	l )

Definition at line 412 of file laplacien_mat.C.

◆ _laplacien_mat_r_chebu_quatre()

Matrice Lorene::_laplacien_mat_r_chebu_quatre	(	int	n,
		int	l )

Definition at line 332 of file laplacien_mat.C.

◆ _laplacien_mat_r_chebu_trois()

Matrice Lorene::_laplacien_mat_r_chebu_trois	(	int	n,
		int	l )

Definition at line 371 of file laplacien_mat.C.

◆ _laplacien_mat_r_jaco02()

Matrice Lorene::_laplacien_mat_r_jaco02	(	int	n,
		int	l,
		double	,
		int	)

Definition at line 169 of file laplacien_mat.C.

◆ _mult2_xm1_cheb()

void Lorene::_mult2_xm1_cheb	(	Tbl *	tb,
		int &	)

Definition at line 85 of file op_mult2_xm1.C.

◆ _mult2_xm1_identite()

void Lorene::_mult2_xm1_identite	(	Tbl *	,
		int &	)

Definition at line 77 of file op_mult2_xm1.C.

◆ _mult2_xp1_1d_pas_prevu()

void Lorene::_mult2_xp1_1d_pas_prevu	(	int	nr,
		double *	tb,
		double *	res )

Definition at line 67 of file mult2_xp1_1d.C.

◆ _mult2_xp1_1d_r_jaco02()

void Lorene::_mult2_xp1_1d_r_jaco02	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 78 of file mult2_xp1_1d.C.

◆ _mult_cp_p_cossin()

void Lorene::_mult_cp_p_cossin	(	Tbl *	tb,
		int &	base )

Definition at line 94 of file op_mult_cp.C.

◆ _mult_cp_p_cossin_i()

void Lorene::_mult_cp_p_cossin_i	(	Tbl *	tb,
		int &	base )

Definition at line 435 of file op_mult_cp.C.

◆ _mult_cp_p_cossin_p()

void Lorene::_mult_cp_p_cossin_p	(	Tbl *	tb,
		int &	base )

Definition at line 321 of file op_mult_cp.C.

◆ _mult_cp_pas_prevu()

void Lorene::_mult_cp_pas_prevu	(	Tbl *	,
		int &	base )

Definition at line 84 of file op_mult_cp.C.

◆ _mult_ct_pas_prevu()

void Lorene::_mult_ct_pas_prevu	(	Tbl *	tb,
		int &	base )

Definition at line 89 of file op_mult_ct.C.

◆ _mult_ct_t_cos()

void Lorene::_mult_ct_t_cos	(	Tbl *	tb,
		int &	b )

Definition at line 100 of file op_mult_ct.C.

◆ _mult_ct_t_cos_i()

void Lorene::_mult_ct_t_cos_i	(	Tbl *	tb,
		int &	b )

Definition at line 796 of file op_mult_ct.C.

◆ _mult_ct_t_cos_p()

void Lorene::_mult_ct_t_cos_p	(	Tbl *	tb,
		int &	b )

Definition at line 411 of file op_mult_ct.C.

◆ _mult_ct_t_cossin_c()

void Lorene::_mult_ct_t_cossin_c	(	Tbl *	tb,
		int &	b )

Definition at line 1574 of file op_mult_ct.C.

◆ _mult_ct_t_cossin_ci()

void Lorene::_mult_ct_t_cossin_ci	(	Tbl *	tb,
		int &	b )

Definition at line 1084 of file op_mult_ct.C.

◆ _mult_ct_t_cossin_cp()

void Lorene::_mult_ct_t_cossin_cp	(	Tbl *	tb,
		int &	b )

Definition at line 917 of file op_mult_ct.C.

◆ _mult_ct_t_cossin_s()

void Lorene::_mult_ct_t_cossin_s	(	Tbl *	tb,
		int &	b )

Definition at line 1777 of file op_mult_ct.C.

◆ _mult_ct_t_cossin_si()

void Lorene::_mult_ct_t_cossin_si	(	Tbl *	tb,
		int &	b )

Definition at line 1245 of file op_mult_ct.C.

◆ _mult_ct_t_cossin_sp()

void Lorene::_mult_ct_t_cossin_sp	(	Tbl *	tb,
		int &	b )

Definition at line 1407 of file op_mult_ct.C.

◆ _mult_ct_t_sin()

void Lorene::_mult_ct_t_sin	(	Tbl *	tb,
		int &	b )

Definition at line 258 of file op_mult_ct.C.

◆ _mult_ct_t_sin_i()

void Lorene::_mult_ct_t_sin_i	(	Tbl *	tb,
		int &	b )

Definition at line 675 of file op_mult_ct.C.

◆ _mult_ct_t_sin_p()

void Lorene::_mult_ct_t_sin_p	(	Tbl *	tb,
		int &	b )

Definition at line 544 of file op_mult_ct.C.

◆ _mult_sp_p_cossin()

void Lorene::_mult_sp_p_cossin	(	Tbl *	tb,
		int &	base )

Definition at line 94 of file op_mult_sp.C.

◆ _mult_sp_p_cossin_i()

void Lorene::_mult_sp_p_cossin_i	(	Tbl *	tb,
		int &	base )

Definition at line 492 of file op_mult_sp.C.

◆ _mult_sp_p_cossin_p()

void Lorene::_mult_sp_p_cossin_p	(	Tbl *	tb,
		int &	base )

Definition at line 357 of file op_mult_sp.C.

◆ _mult_sp_pas_prevu()

void Lorene::_mult_sp_pas_prevu	(	Tbl *	,
		int &	base )

Definition at line 84 of file op_mult_sp.C.

◆ _mult_st_pas_prevu()

void Lorene::_mult_st_pas_prevu	(	Tbl *	tb,
		int &	base )

Definition at line 89 of file op_mult_st.C.

◆ _mult_st_t_cos()

void Lorene::_mult_st_t_cos	(	Tbl *	tb,
		int &	b )

Definition at line 100 of file op_mult_st.C.

◆ _mult_st_t_cos_i()

void Lorene::_mult_st_t_cos_i	(	Tbl *	tb,
		int &	b )

Definition at line 796 of file op_mult_st.C.

◆ _mult_st_t_cos_p()

void Lorene::_mult_st_t_cos_p	(	Tbl *	tb,
		int &	b )

Definition at line 414 of file op_mult_st.C.

◆ _mult_st_t_cossin_c()

void Lorene::_mult_st_t_cossin_c	(	Tbl *	tb,
		int &	b )

Definition at line 1573 of file op_mult_st.C.

◆ _mult_st_t_cossin_ci()

void Lorene::_mult_st_t_cossin_ci	(	Tbl *	tb,
		int &	b )

Definition at line 1083 of file op_mult_st.C.

◆ _mult_st_t_cossin_cp()

void Lorene::_mult_st_t_cossin_cp	(	Tbl *	tb,
		int &	b )

Definition at line 916 of file op_mult_st.C.

◆ _mult_st_t_cossin_s()

void Lorene::_mult_st_t_cossin_s	(	Tbl *	tb,
		int &	b )

Definition at line 1776 of file op_mult_st.C.

◆ _mult_st_t_cossin_si()

void Lorene::_mult_st_t_cossin_si	(	Tbl *	tb,
		int &	b )

Definition at line 1244 of file op_mult_st.C.

◆ _mult_st_t_cossin_sp()

void Lorene::_mult_st_t_cossin_sp	(	Tbl *	tb,
		int &	b )

Definition at line 1406 of file op_mult_st.C.

◆ _mult_st_t_sin()

void Lorene::_mult_st_t_sin	(	Tbl *	tb,
		int &	b )

Definition at line 261 of file op_mult_st.C.

◆ _mult_st_t_sin_i()

void Lorene::_mult_st_t_sin_i	(	Tbl *	tb,
		int &	b )

Definition at line 675 of file op_mult_st.C.

◆ _mult_st_t_sin_p()

void Lorene::_mult_st_t_sin_p	(	Tbl *	tb,
		int &	b )

Definition at line 545 of file op_mult_st.C.

◆ _mult_x_identite()

void Lorene::_mult_x_identite	(	Tbl *	,
		int &	)

Definition at line 92 of file op_mult_x.C.

◆ _mult_x_pas_prevu()

void Lorene::_mult_x_pas_prevu	(	Tbl *	tb,
		int &	base )

Definition at line 81 of file op_mult_x.C.

◆ _mult_x_r_chebi()

void Lorene::_mult_x_r_chebi	(	Tbl *	tb,
		int &	base )

Definition at line 169 of file op_mult_x.C.

◆ _mult_x_r_chebp()

void Lorene::_mult_x_r_chebp	(	Tbl *	tb,
		int &	base )

Definition at line 100 of file op_mult_x.C.

◆ _mult_x_r_chebpi_i()

void Lorene::_mult_x_r_chebpi_i	(	Tbl *	tb,
		int &	base )

Definition at line 525 of file op_mult_x.C.

◆ _mult_x_r_chebpi_p()

void Lorene::_mult_x_r_chebpi_p	(	Tbl *	tb,
		int &	base )

Definition at line 449 of file op_mult_x.C.

◆ _mult_x_r_chebpim_i()

void Lorene::_mult_x_r_chebpim_i	(	Tbl *	tb,
		int &	base )

Definition at line 344 of file op_mult_x.C.

◆ _mult_x_r_chebpim_p()

void Lorene::_mult_x_r_chebpim_p	(	Tbl *	tb,
		int &	base )

Definition at line 238 of file op_mult_x.C.

◆ _mult_x_r_jaco02()

void Lorene::_mult_x_r_jaco02	(	Tbl *	tb,
		int &	)

Definition at line 601 of file op_mult_x.C.

◆ _mult_x_r_legi()

void Lorene::_mult_x_r_legi	(	Tbl *	tb,
		int &	base )

Definition at line 734 of file op_mult_x.C.

◆ _mult_x_r_legp()

void Lorene::_mult_x_r_legp	(	Tbl *	tb,
		int &	base )

Definition at line 664 of file op_mult_x.C.

◆ _mult_xm1_cheb()

void Lorene::_mult_xm1_cheb	(	Tbl *	tb,
		int &	)

Definition at line 88 of file op_mult_xm1.C.

◆ _mult_xm1_identite()

void Lorene::_mult_xm1_identite	(	Tbl *	,
		int &	)

Definition at line 80 of file op_mult_xm1.C.

◆ _mult_xp1_identite()

void Lorene::_mult_xp1_identite	(	Tbl *	,
		int &	)

Definition at line 90 of file op_mult_xp1.C.

◆ _mult_xp1_pas_prevu()

void Lorene::_mult_xp1_pas_prevu	(	Tbl *	tb,
		int &	base )

Definition at line 79 of file op_mult_xp1.C.

◆ _mult_xp1_r_jaco02()

void Lorene::_mult_xp1_r_jaco02	(	Tbl *	tb,
		int &	)

Definition at line 98 of file op_mult_xp1.C.

◆ _multx2_1d_pas_prevu()

void Lorene::_multx2_1d_pas_prevu	(	int	nr,
		double *	tb,
		double *	res )

Definition at line 65 of file multx2_1d.C.

◆ _multx2_1d_r_cheb()

void Lorene::_multx2_1d_r_cheb	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 110 of file multx2_1d.C.

◆ _multx2_1d_r_chebi()

void Lorene::_multx2_1d_r_chebi	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 94 of file multx2_1d.C.

◆ _multx2_1d_r_chebp()

void Lorene::_multx2_1d_r_chebp	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 76 of file multx2_1d.C.

◆ _multx2_1d_r_leg()

void Lorene::_multx2_1d_r_leg	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 169 of file multx2_1d.C.

◆ _multx2_1d_r_legi()

void Lorene::_multx2_1d_r_legi	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 151 of file multx2_1d.C.

◆ _multx2_1d_r_legp()

void Lorene::_multx2_1d_r_legp	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 130 of file multx2_1d.C.

◆ _multx_1d_pas_prevu()

void Lorene::_multx_1d_pas_prevu	(	int	nr,
		double *	tb,
		double *	result )

Definition at line 85 of file multx_1d.C.

◆ _multx_1d_r_cheb()

void Lorene::_multx_1d_r_cheb	(	int	nr,
		double *	tb,
		double *	res )

Definition at line 98 of file multx_1d.C.

◆ _multx_1d_r_leg()

void Lorene::_multx_1d_r_leg	(	int	nr,
		double *	tb,
		double *	res )

Definition at line 114 of file multx_1d.C.

◆ _multxpun_1d_pas_prevu()

void Lorene::_multxpun_1d_pas_prevu	(	int	nr,
		double *	tb,
		double *	res )

Definition at line 78 of file multxpun_1d.C.

◆ _multxpun_1d_r_jaco02()

void Lorene::_multxpun_1d_r_jaco02	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 90 of file multxpun_1d.C.

◆ _nondeg_ptens_rr_cheb()

Matrice Lorene::_nondeg_ptens_rr_cheb	(	const Matrice &	lap,
		int	l,
		double	echelle,
		int	)

Definition at line 99 of file prepa_ptens_rr.C.

◆ _nondeg_ptens_rr_chebi()

Matrice Lorene::_nondeg_ptens_rr_chebi	(	const Matrice &	lap,
		int	l,
		double	,
		int	)

Definition at line 239 of file prepa_ptens_rr.C.

◆ _nondeg_ptens_rr_chebp()

Matrice Lorene::_nondeg_ptens_rr_chebp	(	const Matrice &	lap,
		int	l,
		double	,
		int	)

Definition at line 169 of file prepa_ptens_rr.C.

◆ _nondeg_ptens_rr_chebu()

Matrice Lorene::_nondeg_ptens_rr_chebu	(	const Matrice &	lap,
		int	l,
		double	,
		int	puis )

Definition at line 297 of file prepa_ptens_rr.C.

◆ _nondeg_ptens_rr_pas_prevu()

Matrice Lorene::_nondeg_ptens_rr_pas_prevu	(	const Matrice &	lap,
		int	l,
		double	echelle,
		int	puis )

Definition at line 81 of file prepa_ptens_rr.C.

◆ _nondeg_pvect_r_cheb()

Matrice Lorene::_nondeg_pvect_r_cheb	(	const Matrice &	lap,
		int	l,
		double	echelle,
		int	)

Definition at line 103 of file prepa_pvect_r.C.

◆ _nondeg_pvect_r_chebi()

Matrice Lorene::_nondeg_pvect_r_chebi	(	const Matrice &	lap,
		int	l,
		double	,
		int	)

Definition at line 243 of file prepa_pvect_r.C.

◆ _nondeg_pvect_r_chebp()

Matrice Lorene::_nondeg_pvect_r_chebp	(	const Matrice &	lap,
		int	l,
		double	,
		int	)

Definition at line 173 of file prepa_pvect_r.C.

◆ _nondeg_pvect_r_chebu()

Matrice Lorene::_nondeg_pvect_r_chebu	(	const Matrice &	lap,
		int	l,
		double	,
		int	puis )

Definition at line 315 of file prepa_pvect_r.C.

◆ _nondeg_pvect_r_pas_prevu()

Matrice Lorene::_nondeg_pvect_r_pas_prevu	(	const Matrice &	lap,
		int	l,
		double	echelle,
		int	puis )

Definition at line 85 of file prepa_pvect_r.C.

◆ _ope_ptens_rr_mat_pas_prevu()

Matrice Lorene::_ope_ptens_rr_mat_pas_prevu	(	int	n,
		int	l,
		double	echelle,
		int	puis )

Definition at line 87 of file ope_ptens_rr_mat.C.

◆ _ope_ptens_rr_mat_r_cheb()

Matrice Lorene::_ope_ptens_rr_mat_r_cheb	(	int	n,
		int	l,
		double	echelle,
		int	)

Definition at line 365 of file ope_ptens_rr_mat.C.

◆ _ope_ptens_rr_mat_r_chebi()

Matrice Lorene::_ope_ptens_rr_mat_r_chebi	(	int	n,
		int	l,
		double	,
		int	)

Definition at line 191 of file ope_ptens_rr_mat.C.

◆ _ope_ptens_rr_mat_r_chebp()

Matrice Lorene::_ope_ptens_rr_mat_r_chebp	(	int	n,
		int	l,
		double	,
		int	)

Definition at line 105 of file ope_ptens_rr_mat.C.

◆ _ope_ptens_rr_mat_r_chebu()

Matrice Lorene::_ope_ptens_rr_mat_r_chebu	(	int	n,
		int	l,
		double	,
		int	puis )

Definition at line 275 of file ope_ptens_rr_mat.C.

◆ _ope_pvect_r_mat_pas_prevu()

Matrice Lorene::_ope_pvect_r_mat_pas_prevu	(	int	n,
		int	l,
		double	echelle,
		int	puis )

Definition at line 86 of file ope_pvect_r_mat.C.

◆ _ope_pvect_r_mat_r_cheb()

Matrice Lorene::_ope_pvect_r_mat_r_cheb	(	int	n,
		int	l,
		double	echelle,
		int	)

Definition at line 373 of file ope_pvect_r_mat.C.

◆ _ope_pvect_r_mat_r_chebi()

Matrice Lorene::_ope_pvect_r_mat_r_chebi	(	int	n,
		int	l,
		double	,
		int	)

Definition at line 193 of file ope_pvect_r_mat.C.

◆ _ope_pvect_r_mat_r_chebp()

Matrice Lorene::_ope_pvect_r_mat_r_chebp	(	int	n,
		int	l,
		double	,
		int	)

Definition at line 104 of file ope_pvect_r_mat.C.

◆ _ope_pvect_r_mat_r_chebu()

Matrice Lorene::_ope_pvect_r_mat_r_chebu	(	int	n,
		int	l,
		double	,
		int	puis )

Definition at line 280 of file ope_pvect_r_mat.C.

◆ _poisangu_pas_prevu()

void Lorene::_poisangu_pas_prevu	(	Mtbl_cf *	mt,
		int	l,
		double	)

Definition at line 86 of file poisson_angu.C.

◆ _poisangu_t_leg()

void Lorene::_poisangu_t_leg	(	Mtbl_cf *	mt,
		int	l,
		double	lambda )

Definition at line 96 of file poisson_angu.C.

◆ _poisangu_t_leg_i()

void Lorene::_poisangu_t_leg_i	(	Mtbl_cf *	mt,
		int	l,
		double	lambda )

Definition at line 309 of file poisson_angu.C.

◆ _poisangu_t_leg_ii()

void Lorene::_poisangu_t_leg_ii	(	Mtbl_cf *	mt,
		int	l,
		double	lambda )

Definition at line 559 of file poisson_angu.C.

◆ _poisangu_t_leg_ip()

void Lorene::_poisangu_t_leg_ip	(	Mtbl_cf *	mt,
		int	l,
		double	lambda )

Definition at line 382 of file poisson_angu.C.

◆ _poisangu_t_leg_mi()

void Lorene::_poisangu_t_leg_mi	(	Mtbl_cf *	mt,
		int	l,
		double	lambda )

Definition at line 731 of file poisson_angu.C.

◆ _poisangu_t_leg_mp()

void Lorene::_poisangu_t_leg_mp	(	Mtbl_cf *	mt,
		int	l,
		double	lambda )

Definition at line 660 of file poisson_angu.C.

◆ _poisangu_t_leg_p()

void Lorene::_poisangu_t_leg_p	(	Mtbl_cf *	mt,
		int	l,
		double	lambda )

Definition at line 167 of file poisson_angu.C.

◆ _poisangu_t_leg_pi()

void Lorene::_poisangu_t_leg_pi	(	Mtbl_cf *	mt,
		int	l,
		double	lambda )

Definition at line 458 of file poisson_angu.C.

◆ _poisangu_t_leg_pp()

void Lorene::_poisangu_t_leg_pp	(	Mtbl_cf *	mt,
		int	l,
		double	lambda )

Definition at line 238 of file poisson_angu.C.

◆ _poisson_2d_mat_pas_prevu()

Matrice Lorene::_poisson_2d_mat_pas_prevu	(	int	,
		int	,
		double	,
		double	,
		int	)

Definition at line 39 of file ope_poisson_2d_mat.C.

◆ _poisson_2d_mat_r_cheb()

Matrice Lorene::_poisson_2d_mat_r_cheb	(	int	n,
		int	l,
		double	alf,
		double	bet,
		int	)

Definition at line 490 of file ope_poisson_2d_mat.C.

◆ _poisson_2d_mat_r_chebi()

Matrice Lorene::_poisson_2d_mat_r_chebi	(	int	n,
		int	l,
		double	,
		double	,
		int	)

Definition at line 139 of file ope_poisson_2d_mat.C.

◆ _poisson_2d_mat_r_chebp()

Matrice Lorene::_poisson_2d_mat_r_chebp	(	int	n,
		int	l,
		double	,
		double	,
		int	)

Definition at line 53 of file ope_poisson_2d_mat.C.

◆ _poisson_2d_mat_r_chebu()

Matrice Lorene::_poisson_2d_mat_r_chebu	(	int	n,
		int	l,
		double	,
		double	,
		int	puis )

Definition at line 227 of file ope_poisson_2d_mat.C.

◆ _poisson_2d_mat_r_chebu_deux()

Matrice Lorene::_poisson_2d_mat_r_chebu_deux	(	int	n,
		int	l )

Definition at line 410 of file ope_poisson_2d_mat.C.

◆ _poisson_2d_mat_r_chebu_quatre()

Matrice Lorene::_poisson_2d_mat_r_chebu_quatre	(	int	n,
		int	l )

Definition at line 248 of file ope_poisson_2d_mat.C.

◆ _poisson_2d_mat_r_chebu_trois()

Matrice Lorene::_poisson_2d_mat_r_chebu_trois	(	int	n,
		int	l )

Definition at line 326 of file ope_poisson_2d_mat.C.

◆ _poisson_2d_non_dege_pas_prevu()

Matrice Lorene::_poisson_2d_non_dege_pas_prevu	(	const Matrice &	lap,
		int	,
		double	,
		int	)

Definition at line 40 of file ope_poisson_2d_non_dege.C.

◆ _poisson_2d_non_dege_r_cheb()

Matrice Lorene::_poisson_2d_non_dege_r_cheb	(	const Matrice &	lap,
		int	l,
		double	echelle,
		int	)

Definition at line 53 of file ope_poisson_2d_non_dege.C.

◆ _poisson_2d_non_dege_r_chebi()

Matrice Lorene::_poisson_2d_non_dege_r_chebi	(	const Matrice &	lap,
		int	l,
		double	,
		int	)

Definition at line 194 of file ope_poisson_2d_non_dege.C.

◆ _poisson_2d_non_dege_r_chebp()

Matrice Lorene::_poisson_2d_non_dege_r_chebp	(	const Matrice &	lap,
		int	l,
		double	,
		int	)

Definition at line 123 of file ope_poisson_2d_non_dege.C.

◆ _poisson_2d_non_dege_r_chebu()

Matrice Lorene::_poisson_2d_non_dege_r_chebu	(	const Matrice &	lap,
		int	l,
		double	,
		int	puis )

Definition at line 268 of file ope_poisson_2d_non_dege.C.

◆ _poisson_2d_non_dege_r_chebu_deux()

Matrice Lorene::_poisson_2d_non_dege_r_chebu_deux	(	const Matrice &	lap,
		int	l )

Definition at line 392 of file ope_poisson_2d_non_dege.C.

◆ _poisson_2d_non_dege_r_chebu_quatre()

Matrice Lorene::_poisson_2d_non_dege_r_chebu_quatre	(	const Matrice &	lap,
		int	l )

Definition at line 285 of file ope_poisson_2d_non_dege.C.

◆ _poisson_2d_non_dege_r_chebu_trois()

Matrice Lorene::_poisson_2d_non_dege_r_chebu_trois	(	const Matrice &	lap,
		int	l )

Definition at line 347 of file ope_poisson_2d_non_dege.C.

◆ _poisson_pseudo_1d_mat_pas_prevu()

Matrice Lorene::_poisson_pseudo_1d_mat_pas_prevu	(	int	,
		int	,
		double	,
		double	)

Definition at line 39 of file ope_poisson_pseudo_1d_mat.C.

◆ _poisson_pseudo_1d_mat_r_cheb()

Matrice Lorene::_poisson_pseudo_1d_mat_r_cheb	(	int	n,
		int	l,
		double	alf,
		double	bet )

Definition at line 135 of file ope_poisson_pseudo_1d_mat.C.

◆ _poisson_pseudo_1d_mat_r_chebi()

Matrice Lorene::_poisson_pseudo_1d_mat_r_chebi	(	int	n,
		int	l,
		double	,
		double	)

Definition at line 95 of file ope_poisson_pseudo_1d_mat.C.

◆ _poisson_pseudo_1d_mat_r_chebp()

Matrice Lorene::_poisson_pseudo_1d_mat_r_chebp	(	int	n,
		int	l,
		double	,
		double	)

Definition at line 53 of file ope_poisson_pseudo_1d_mat.C.

◆ _poisson_pseudo_1d_non_dege_pas_prevu()

Matrice Lorene::_poisson_pseudo_1d_non_dege_pas_prevu	(	const Matrice &	lap,
		int	)

Definition at line 40 of file ope_poisson_pseudo_1d_non_dege.C.

◆ _poisson_pseudo_1d_non_dege_r_cheb()

Matrice Lorene::_poisson_pseudo_1d_non_dege_r_cheb	(	const Matrice &	lap,
		int	)

Definition at line 53 of file ope_poisson_pseudo_1d_non_dege.C.

◆ _poisson_pseudo_1d_non_dege_r_chebi()

Matrice Lorene::_poisson_pseudo_1d_non_dege_r_chebi	(	const Matrice &	lap,
		int	l )

Definition at line 113 of file ope_poisson_pseudo_1d_non_dege.C.

◆ _poisson_pseudo_1d_non_dege_r_chebp()

Matrice Lorene::_poisson_pseudo_1d_non_dege_r_chebp	(	const Matrice &	lap,
		int	l )

Definition at line 77 of file ope_poisson_pseudo_1d_non_dege.C.

◆ _prepa_helmholtz_minus_nondege_pas_prevu()

Matrice Lorene::_prepa_helmholtz_minus_nondege_pas_prevu ( const Matrice & so )

Definition at line 79 of file prepa_helmholtz_minus.C.

◆ _prepa_helmholtz_minus_nondege_r_cheb()

Matrice Lorene::_prepa_helmholtz_minus_nondege_r_cheb ( const Matrice & lap )

Definition at line 91 of file prepa_helmholtz_minus.C.

◆ _prepa_helmholtz_minus_nondege_r_chebi()

Matrice Lorene::_prepa_helmholtz_minus_nondege_r_chebi ( const Matrice & lap )

Definition at line 146 of file prepa_helmholtz_minus.C.

◆ _prepa_helmholtz_minus_nondege_r_chebp()

Matrice Lorene::_prepa_helmholtz_minus_nondege_r_chebp ( const Matrice & lap )

Definition at line 128 of file prepa_helmholtz_minus.C.

◆ _prepa_helmholtz_minus_nondege_r_chebu()

Matrice Lorene::_prepa_helmholtz_minus_nondege_r_chebu ( const Matrice & lap )

Definition at line 110 of file prepa_helmholtz_minus.C.

◆ _prepa_helmholtz_plus_nondege_pas_prevu()

Matrice Lorene::_prepa_helmholtz_plus_nondege_pas_prevu ( const Matrice & so )

Definition at line 65 of file prepa_helmholtz_plus.C.

◆ _prepa_helmholtz_plus_nondege_r_cheb()

Matrice Lorene::_prepa_helmholtz_plus_nondege_r_cheb ( const Matrice & lap )

Definition at line 78 of file prepa_helmholtz_plus.C.

◆ _prepa_helmholtz_plus_nondege_r_chebp()

Matrice Lorene::_prepa_helmholtz_plus_nondege_r_chebp ( const Matrice & lap )

Definition at line 100 of file prepa_helmholtz_plus.C.

◆ _prepa_nondege_pas_prevu()

Matrice Lorene::_prepa_nondege_pas_prevu	(	const Matrice &	lap,
		int	l,
		double	echelle,
		int	puis )

Definition at line 148 of file prepa_poisson.C.

◆ _prepa_nondege_r_cheb()

Matrice Lorene::_prepa_nondege_r_cheb	(	const Matrice &	lap,
		int	l,
		double	echelle,
		int	)

Definition at line 166 of file prepa_poisson.C.

◆ _prepa_nondege_r_chebi()

Matrice Lorene::_prepa_nondege_r_chebi	(	const Matrice &	lap,
		int	l,
		double	,
		int	)

Definition at line 372 of file prepa_poisson.C.

◆ _prepa_nondege_r_chebp()

Matrice Lorene::_prepa_nondege_r_chebp	(	const Matrice &	lap,
		int	l,
		double	,
		int	)

Definition at line 301 of file prepa_poisson.C.

◆ _prepa_nondege_r_chebu()

Matrice Lorene::_prepa_nondege_r_chebu	(	const Matrice &	lap,
		int	l,
		double	,
		int	puis )

Definition at line 444 of file prepa_poisson.C.

◆ _prepa_nondege_r_chebu_cinq()

Matrice Lorene::_prepa_nondege_r_chebu_cinq	(	const Matrice &	lap,
		int	l )

Definition at line 632 of file prepa_poisson.C.

◆ _prepa_nondege_r_chebu_deux()

Matrice Lorene::_prepa_nondege_r_chebu_deux	(	const Matrice &	lap,
		int	l )

Definition at line 570 of file prepa_poisson.C.

◆ _prepa_nondege_r_chebu_quatre()

Matrice Lorene::_prepa_nondege_r_chebu_quatre	(	const Matrice &	lap,
		int	l )

Definition at line 463 of file prepa_poisson.C.

◆ _prepa_nondege_r_chebu_trois()

Matrice Lorene::_prepa_nondege_r_chebu_trois	(	const Matrice &	lap,
		int	l )

Definition at line 525 of file prepa_poisson.C.

◆ _prepa_nondege_r_jaco02()

Matrice Lorene::_prepa_nondege_r_jaco02	(	const Matrice &	lap,
		int	l,
		double	echelle,
		int	)

Definition at line 234 of file prepa_poisson.C.

◆ _primr_pas_prevu()

void Lorene::_primr_pas_prevu	(	const Tbl &	,
		int	bin,
		const Tbl &	,
		Tbl &	,
		int &	,
		Tbl &	)

Definition at line 80 of file op_primr.C.

◆ _primr_r_cheb()

void Lorene::_primr_r_cheb	(	const Tbl &	tin,
		int	bin,
		const Tbl &	valm1,
		Tbl &	tout,
		int &	bout,
		Tbl &	valp1 )

Definition at line 89 of file op_primr.C.

◆ _primr_r_chebi()

void Lorene::_primr_r_chebi	(	const Tbl &	tin,
		int	bin,
		const Tbl &	val0,
		Tbl &	tout,
		int &	bout,
		Tbl &	valp1 )

Definition at line 253 of file op_primr.C.

◆ _primr_r_chebp()

void Lorene::_primr_r_chebp	(	const Tbl &	tin,
		int	bin,
		const Tbl &	,
		Tbl &	tout,
		int &	bout,
		Tbl &	valp1 )

Definition at line 185 of file op_primr.C.

◆ _primr_r_chebpi_i()

void Lorene::_primr_r_chebpi_i	(	const Tbl &	tin,
		int	bin,
		const Tbl &	val0,
		Tbl &	tout,
		int &	bout,
		Tbl &	valp1 )

Definition at line 774 of file op_primr.C.

◆ _primr_r_chebpi_p()

void Lorene::_primr_r_chebpi_p	(	const Tbl &	tin,
		int	bin,
		const Tbl &	val0,
		Tbl &	tout,
		int &	bout,
		Tbl &	valp1 )

Definition at line 659 of file op_primr.C.

◆ _primr_r_chebpim_i()

void Lorene::_primr_r_chebpim_i	(	const Tbl &	tin,
		int	bin,
		const Tbl &	val0,
		Tbl &	tout,
		int &	bout,
		Tbl &	valp1 )

Definition at line 505 of file op_primr.C.

◆ _primr_r_chebpim_p()

void Lorene::_primr_r_chebpim_p	(	const Tbl &	tin,
		int	bin,
		const Tbl &	val0,
		Tbl &	tout,
		int &	bout,
		Tbl &	valp1 )

Definition at line 349 of file op_primr.C.

◆ _primr_r_jaco02()

void Lorene::_primr_r_jaco02	(	const Tbl &	tin,
		int	bin,
		const Tbl &	valm1,
		Tbl &	tout,
		int &	bout,
		Tbl &	valp1 )

Definition at line 891 of file op_primr.C.

◆ _scost_pas_prevu()

void Lorene::_scost_pas_prevu	(	Tbl *	tb,
		int &	base )

Definition at line 86 of file op_scost.C.

◆ _scost_t_cos()

void Lorene::_scost_t_cos	(	Tbl *	tb,
		int &	b )

Definition at line 97 of file op_scost.C.

◆ _scost_t_cos_i()

void Lorene::_scost_t_cos_i	(	Tbl *	tb,
		int &	b )

Definition at line 792 of file op_scost.C.

◆ _scost_t_cos_p()

void Lorene::_scost_t_cos_p	(	Tbl *	tb,
		int &	b )

Definition at line 420 of file op_scost.C.

◆ _scost_t_cossin_c()

void Lorene::_scost_t_cossin_c	(	Tbl *	tb,
		int &	b )

Definition at line 1557 of file op_scost.C.

◆ _scost_t_cossin_ci()

void Lorene::_scost_t_cossin_ci	(	Tbl *	tb,
		int &	b )

Definition at line 1075 of file op_scost.C.

◆ _scost_t_cossin_cp()

void Lorene::_scost_t_cossin_cp	(	Tbl *	tb,
		int &	b )

Definition at line 916 of file op_scost.C.

◆ _scost_t_cossin_s()

void Lorene::_scost_t_cossin_s	(	Tbl *	tb,
		int &	b )

Definition at line 1715 of file op_scost.C.

◆ _scost_t_cossin_si()

void Lorene::_scost_t_cossin_si	(	Tbl *	tb,
		int &	b )

Definition at line 1236 of file op_scost.C.

◆ _scost_t_cossin_sp()

void Lorene::_scost_t_cossin_sp	(	Tbl *	tb,
		int &	b )

Definition at line 1401 of file op_scost.C.

◆ _scost_t_sin()

void Lorene::_scost_t_sin	(	Tbl *	tb,
		int &	b )

Definition at line 258 of file op_scost.C.

◆ _scost_t_sin_i()

void Lorene::_scost_t_sin_i	(	Tbl *	tb,
		int &	b )

Definition at line 659 of file op_scost.C.

◆ _scost_t_sin_p()

void Lorene::_scost_t_sin_p	(	Tbl *	tb,
		int &	b )

Definition at line 539 of file op_scost.C.

◆ _sec_order_mat_pas_prevu()

Matrice Lorene::_sec_order_mat_pas_prevu	(	int	,
		double	,
		double	,
		double	,
		double	)

Definition at line 40 of file ope_sec_order_mat.C.

◆ _sec_order_mat_r_cheb()

Matrice Lorene::_sec_order_mat_r_cheb	(	int	n,
		double	alpha,
		double	a,
		double	b,
		double	c )

Definition at line 54 of file ope_sec_order_mat.C.

◆ _sec_order_non_dege_pas_prevu()

Matrice Lorene::_sec_order_non_dege_pas_prevu ( const Matrice & so )

Definition at line 39 of file ope_sec_order_non_dege.C.

◆ _sec_order_non_dege_r_cheb()

Matrice Lorene::_sec_order_non_dege_r_cheb ( const Matrice & source )

Definition at line 50 of file ope_sec_order_non_dege.C.

◆ _sec_order_r2_mat_pas_prevu()

Matrice Lorene::_sec_order_r2_mat_pas_prevu	(	int	,
		double	,
		double	,
		double	,
		double	,
		double	)

Definition at line 40 of file ope_sec_order_r2_mat.C.

◆ _sec_order_r2_mat_r_cheb()

Matrice Lorene::_sec_order_r2_mat_r_cheb	(	int	n,
		double	alpha,
		double	beta,
		double	a,
		double	b,
		double	c )

Definition at line 55 of file ope_sec_order_r2_mat.C.

◆ _sec_order_r2_non_dege_pas_prevu()

Matrice Lorene::_sec_order_r2_non_dege_pas_prevu ( const Matrice & so )

Definition at line 39 of file ope_sec_order_r2_non_dege.C.

◆ _sec_order_r2_non_dege_r_cheb()

Matrice Lorene::_sec_order_r2_non_dege_r_cheb ( const Matrice & source )

Definition at line 50 of file ope_sec_order_r2_non_dege.C.

◆ _sh_ptens_rr_cheb()

Tbl Lorene::_sh_ptens_rr_cheb	(	int	n,
		int	l,
		double	echelle )

Definition at line 104 of file sh_ptens_rr.C.

◆ _sh_ptens_rr_chebi()

Tbl Lorene::_sh_ptens_rr_chebi	(	int	n,
		int	l,
		double	)

Definition at line 259 of file sh_ptens_rr.C.

◆ _sh_ptens_rr_chebp()

Tbl Lorene::_sh_ptens_rr_chebp	(	int	n,
		int	l,
		double	)

Definition at line 193 of file sh_ptens_rr.C.

◆ _sh_ptens_rr_chebu()

Tbl Lorene::_sh_ptens_rr_chebu	(	int	n,
		int	l,
		double	)

Definition at line 322 of file sh_ptens_rr.C.

◆ _sh_ptens_rr_pas_prevu()

Tbl Lorene::_sh_ptens_rr_pas_prevu	(	int	n,
		int	l,
		double	echelle )

Definition at line 87 of file sh_ptens_rr.C.

◆ _sh_pvect_r_cheb()

Tbl Lorene::_sh_pvect_r_cheb	(	int	n,
		int	l,
		double	echelle )

Definition at line 115 of file sh_pvect_r.C.

◆ _sh_pvect_r_chebi()

Tbl Lorene::_sh_pvect_r_chebi	(	int	n,
		int	l,
		double	)

Definition at line 281 of file sh_pvect_r.C.

◆ _sh_pvect_r_chebp()

Tbl Lorene::_sh_pvect_r_chebp	(	int	n,
		int	l,
		double	)

Definition at line 215 of file sh_pvect_r.C.

◆ _sh_pvect_r_chebu()

Tbl Lorene::_sh_pvect_r_chebu	(	int	n,
		int	l,
		double	)

Definition at line 351 of file sh_pvect_r.C.

◆ _sh_pvect_r_pas_prevu()

Tbl Lorene::_sh_pvect_r_pas_prevu	(	int	n,
		int	l,
		double	echelle )

Definition at line 98 of file sh_pvect_r.C.

◆ _solh_helmholtz_minus_2d_pas_prevu()

Tbl Lorene::_solh_helmholtz_minus_2d_pas_prevu	(	int	,
		int	,
		double	,
		double	,
		double	)

Definition at line 39 of file ope_helmholtz_minus_2d_solh.C.

◆ _solh_helmholtz_minus_2d_r_cheb()

Tbl Lorene::_solh_helmholtz_minus_2d_r_cheb	(	int	n,
		int	l,
		double	masse,
		double	alpha,
		double	beta )

Definition at line 52 of file ope_helmholtz_minus_2d_solh.C.

◆ _solh_helmholtz_minus_2d_r_chebu()

Tbl Lorene::_solh_helmholtz_minus_2d_r_chebu	(	int	n,
		int	l,
		double	masse,
		double	alpha,
		double	)

Definition at line 92 of file ope_helmholtz_minus_2d_solh.C.

◆ _solh_helmholtz_minus_pas_prevu()

Tbl Lorene::_solh_helmholtz_minus_pas_prevu	(	int	,
		int	,
		double	,
		double	,
		double	)

Definition at line 80 of file solh_helmholtz_minus.C.

◆ _solh_helmholtz_minus_pseudo_1d_pas_prevu()

Tbl Lorene::_solh_helmholtz_minus_pseudo_1d_pas_prevu	(	int	,
		int	,
		double	,
		double	,
		double	)

Definition at line 39 of file ope_helmholtz_minus_pseudo_1d_solh.C.

◆ _solh_helmholtz_minus_pseudo_1d_r_chebu()

Tbl Lorene::_solh_helmholtz_minus_pseudo_1d_r_chebu	(	int	n,
		int	l,
		double	masse,
		double	alpha,
		double	)

Definition at line 53 of file ope_helmholtz_minus_pseudo_1d_solh.C.

◆ _solh_helmholtz_minus_r_cheb()

Tbl Lorene::_solh_helmholtz_minus_r_cheb	(	int	n,
		int	lq,
		double	alpha,
		double	beta,
		double	masse )

Definition at line 95 of file solh_helmholtz_minus.C.

◆ _solh_helmholtz_minus_r_chebi()

Tbl Lorene::_solh_helmholtz_minus_r_chebi	(	int	n,
		int	lq,
		double	alpha,
		double	,
		double	masse )

Definition at line 169 of file solh_helmholtz_minus.C.

◆ _solh_helmholtz_minus_r_chebp()

Tbl Lorene::_solh_helmholtz_minus_r_chebp	(	int	n,
		int	lq,
		double	alpha,
		double	,
		double	masse )

Definition at line 137 of file solh_helmholtz_minus.C.

◆ _solh_helmholtz_minus_r_chebu()

Tbl Lorene::_solh_helmholtz_minus_r_chebu	(	int	n,
		int	lq,
		double	alpha,
		double	,
		double	masse )

Definition at line 202 of file solh_helmholtz_minus.C.

◆ _solh_helmholtz_plus_pas_prevu()

Tbl Lorene::_solh_helmholtz_plus_pas_prevu	(	int	,
		int	,
		double	,
		double	,
		double	)

Definition at line 66 of file solh_helmholtz_plus.C.

◆ _solh_helmholtz_plus_r_cheb()

Tbl Lorene::_solh_helmholtz_plus_r_cheb	(	int	n,
		int	lq,
		double	alpha,
		double	beta,
		double	masse )

Definition at line 81 of file solh_helmholtz_plus.C.

◆ _solh_helmholtz_plus_r_chebp()

Tbl Lorene::_solh_helmholtz_plus_r_chebp	(	int	n,
		int	lq,
		double	alpha,
		double	,
		double	masse )

Definition at line 125 of file solh_helmholtz_plus.C.

◆ _solh_pas_prevu()

Tbl Lorene::_solh_pas_prevu	(	int	n,
		int	l,
		double	echelle )

Definition at line 139 of file solh.C.

◆ _solh_poisson_2d_pas_prevu()

Tbl Lorene::_solh_poisson_2d_pas_prevu	(	int	,
		int	,
		double	,
		double	,
		Tbl &	)

Definition at line 39 of file ope_poisson_2d_solh.C.

◆ _solh_poisson_2d_r_cheb()

Tbl Lorene::_solh_poisson_2d_r_cheb	(	int	n,
		int	l,
		double	alpha,
		double	beta,
		Tbl &	val_lim )

Definition at line 52 of file ope_poisson_2d_solh.C.

◆ _solh_poisson_2d_r_chebi()

Tbl Lorene::_solh_poisson_2d_r_chebi	(	int	n,
		int	l,
		double	alpha,
		double	,
		Tbl &	val_lim )

Definition at line 239 of file ope_poisson_2d_solh.C.

◆ _solh_poisson_2d_r_chebp()

Tbl Lorene::_solh_poisson_2d_r_chebp	(	int	n,
		int	l,
		double	alpha,
		double	,
		Tbl &	val_lim )

Definition at line 170 of file ope_poisson_2d_solh.C.

◆ _solh_poisson_2d_r_chebu()

Tbl Lorene::_solh_poisson_2d_r_chebu	(	int	n,
		int	l,
		double	alpha,
		double	,
		Tbl &	val_lim )

Definition at line 307 of file ope_poisson_2d_solh.C.

◆ _solh_poisson_pseudo_1d_pas_prevu()

Tbl Lorene::_solh_poisson_pseudo_1d_pas_prevu	(	int	,
		int	,
		double	,
		double	,
		Tbl &	)

Definition at line 39 of file ope_poisson_pseudo_1d_solh.C.

◆ _solh_poisson_pseudo_1d_r_cheb()

Tbl Lorene::_solh_poisson_pseudo_1d_r_cheb	(	int	n,
		int	l,
		double	alpha,
		double	beta,
		Tbl &	val_lim )

Definition at line 52 of file ope_poisson_pseudo_1d_solh.C.

◆ _solh_poisson_pseudo_1d_r_chebi()

Tbl Lorene::_solh_poisson_pseudo_1d_r_chebi	(	int	n,
		int	l,
		double	alpha,
		double	,
		Tbl &	val_lim )

Definition at line 148 of file ope_poisson_pseudo_1d_solh.C.

◆ _solh_poisson_pseudo_1d_r_chebp()

Tbl Lorene::_solh_poisson_pseudo_1d_r_chebp	(	int	n,
		int	l,
		double	alpha,
		double	,
		Tbl &	val_lim )

Definition at line 110 of file ope_poisson_pseudo_1d_solh.C.

◆ _solh_r_cheb()

Tbl Lorene::_solh_r_cheb	(	int	n,
		int	l,
		double	echelle )

Definition at line 156 of file solh.C.

◆ _solh_r_chebi()

Tbl Lorene::_solh_r_chebi	(	int	n,
		int	l,
		double	)

Definition at line 414 of file solh.C.

◆ _solh_r_chebp()

Tbl Lorene::_solh_r_chebp	(	int	n,
		int	l,
		double	)

Definition at line 345 of file solh.C.

◆ _solh_r_chebu()

Tbl Lorene::_solh_r_chebu	(	int	n,
		int	l,
		double	)

Definition at line 484 of file solh.C.

◆ _solh_r_jaco02()

Tbl Lorene::_solh_r_jaco02	(	int	n,
		int	l,
		double	echelle )

Definition at line 249 of file solh.C.

◆ _solh_sec_order_pas_prevu()

Tbl Lorene::_solh_sec_order_pas_prevu	(	int	,
		double	,
		double	,
		double	,
		double	,
		double	,
		Tbl &	)

Definition at line 38 of file ope_sec_order_solh.C.

◆ _solh_sec_order_r2_pas_prevu()

Tbl Lorene::_solh_sec_order_r2_pas_prevu	(	int	,
		double	,
		double	,
		double	,
		double	,
		double	,
		Tbl &	)

Definition at line 38 of file ope_sec_order_r2_solh.C.

◆ _solh_sec_order_r2_r_cheb()

Tbl Lorene::_solh_sec_order_r2_r_cheb	(	int	n,
		double	alpha,
		double	beta,
		double	a,
		double	b,
		double	c,
		Tbl &	val_lim )

Definition at line 52 of file ope_sec_order_r2_solh.C.

◆ _solh_sec_order_r_cheb()

Tbl Lorene::_solh_sec_order_r_cheb	(	int	n,
		double	alpha,
		double	beta,
		double	a,
		double	b,
		double	c,
		Tbl &	val_lim )

Definition at line 52 of file ope_sec_order_solh.C.

◆ _solh_vorton_pas_prevu()

Tbl Lorene::_solh_vorton_pas_prevu	(	int	,
		int	,
		double	,
		double	,
		Tbl &	)

Definition at line 38 of file ope_vorton_solh.C.

◆ _solh_vorton_r_cheb()

Tbl Lorene::_solh_vorton_r_cheb	(	int	n,
		int	l,
		double	alpha,
		double	beta,
		Tbl &	val_lim )

Definition at line 89 of file ope_vorton_solh.C.

◆ _solh_vorton_r_chebu()

Tbl Lorene::_solh_vorton_r_chebu	(	int	n,
		int	l,
		double	alpha,
		double	,
		Tbl &	val_lim )

Definition at line 50 of file ope_vorton_solh.C.

◆ _solp_helmholtz_minus_2d_pas_prevu()

Tbl Lorene::_solp_helmholtz_minus_2d_pas_prevu	(	const Matrice &	,
		const Matrice &	,
		double	,
		double	,
		const Tbl &	,
		int	)

Definition at line 151 of file ope_helmholtz_minus_2d_solp.C.

◆ _solp_helmholtz_minus_2d_r_cheb()

Tbl Lorene::_solp_helmholtz_minus_2d_r_cheb	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	alpha,
		double	beta,
		const Tbl &	source,
		int	)

Definition at line 165 of file ope_helmholtz_minus_2d_solp.C.

◆ _solp_helmholtz_minus_2d_r_chebu()

Tbl Lorene::_solp_helmholtz_minus_2d_r_chebu	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	,
		double	,
		const Tbl &	source,
		int	puis )

Definition at line 208 of file ope_helmholtz_minus_2d_solp.C.

◆ _solp_helmholtz_minus_2d_r_chebu_deux()

Tbl Lorene::_solp_helmholtz_minus_2d_r_chebu_deux	(	const Matrice &	lap,
		const Matrice &	nondege,
		const Tbl &	source )

Definition at line 228 of file ope_helmholtz_minus_2d_solp.C.

◆ _solp_helmholtz_minus_pas_prevu()

Tbl Lorene::_solp_helmholtz_minus_pas_prevu	(	const Matrice &	,
		const Matrice &	,
		const Tbl &	,
		double	,
		double	,
		int	)

Definition at line 78 of file solp_helmholtz_minus.C.

◆ _solp_helmholtz_minus_pseudo_1d_pas_prevu()

Tbl Lorene::_solp_helmholtz_minus_pseudo_1d_pas_prevu	(	const Matrice &	,
		const Matrice &	,
		double	,
		double	,
		const Tbl &	,
		int	)

Definition at line 128 of file ope_helmholtz_minus_pseudo_1d_solp.C.

◆ _solp_helmholtz_minus_pseudo_1d_r_chebu()

Tbl Lorene::_solp_helmholtz_minus_pseudo_1d_r_chebu	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	,
		double	,
		const Tbl &	source,
		int	puis )

Definition at line 143 of file ope_helmholtz_minus_pseudo_1d_solp.C.

◆ _solp_helmholtz_minus_pseudo_1d_r_chebu_deux()

Tbl Lorene::_solp_helmholtz_minus_pseudo_1d_r_chebu_deux	(	const Matrice &	lap,
		const Matrice &	nondege,
		const Tbl &	source )

Definition at line 163 of file ope_helmholtz_minus_pseudo_1d_solp.C.

◆ _solp_helmholtz_minus_r_cheb()

Tbl Lorene::_solp_helmholtz_minus_r_cheb	(	const Matrice &	lap,
		const Matrice &	nondege,
		const Tbl &	source,
		double	alpha,
		double	beta,
		int	)

Definition at line 125 of file solp_helmholtz_minus.C.

◆ _solp_helmholtz_minus_r_chebi()

Tbl Lorene::_solp_helmholtz_minus_r_chebi	(	const Matrice &	,
		const Matrice &	nondege,
		const Tbl &	source,
		double	alpha,
		double	,
		int	lq )

Definition at line 196 of file solp_helmholtz_minus.C.

◆ _solp_helmholtz_minus_r_chebp()

Tbl Lorene::_solp_helmholtz_minus_r_chebp	(	const Matrice &	,
		const Matrice &	nondege,
		const Tbl &	source,
		double	alpha,
		double	,
		int	lq )

Definition at line 163 of file solp_helmholtz_minus.C.

◆ _solp_helmholtz_minus_r_chebu()

Tbl Lorene::_solp_helmholtz_minus_r_chebu	(	const Matrice &	lap,
		const Matrice &	nondege,
		const Tbl &	source,
		double	,
		double	,
		int	)

Definition at line 94 of file solp_helmholtz_minus.C.

◆ _solp_helmholtz_plus_pas_prevu()

Tbl Lorene::_solp_helmholtz_plus_pas_prevu	(	const Matrice &	,
		const Matrice &	,
		const Tbl &	,
		double	,
		double	)

Definition at line 61 of file solp_helmholtz_plus.C.

◆ _solp_helmholtz_plus_r_cheb()

Tbl Lorene::_solp_helmholtz_plus_r_cheb	(	const Matrice &	lap,
		const Matrice &	nondege,
		const Tbl &	source,
		double	alpha,
		double	beta )

Definition at line 75 of file solp_helmholtz_plus.C.

◆ _solp_helmholtz_plus_r_chebp()

Tbl Lorene::_solp_helmholtz_plus_r_chebp	(	const Matrice &	lap,
		const Matrice &	nondege,
		const Tbl &	source,
		double	alpha,
		double	)

Definition at line 112 of file solp_helmholtz_plus.C.

◆ _solp_pas_prevu()

Tbl Lorene::_solp_pas_prevu	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	alpha,
		double	beta,
		const Tbl &	source,
		int	puis )

Definition at line 141 of file solp.C.

◆ _solp_poisson_2d_pas_prevu()

Tbl Lorene::_solp_poisson_2d_pas_prevu	(	const Matrice &	,
		const Matrice &	,
		double	,
		double	,
		const Tbl &	,
		int	)

Definition at line 251 of file ope_poisson_2d_solp.C.

◆ _solp_poisson_2d_r_cheb()

Tbl Lorene::_solp_poisson_2d_r_cheb	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	alpha,
		double	beta,
		const Tbl &	source,
		int	)

Definition at line 265 of file ope_poisson_2d_solp.C.

◆ _solp_poisson_2d_r_chebi()

Tbl Lorene::_solp_poisson_2d_r_chebi	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	alpha,
		double	,
		const Tbl &	source,
		int	)

Definition at line 345 of file ope_poisson_2d_solp.C.

◆ _solp_poisson_2d_r_chebp()

Tbl Lorene::_solp_poisson_2d_r_chebp	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	alpha,
		double	,
		const Tbl &	source,
		int	)

Definition at line 304 of file ope_poisson_2d_solp.C.

◆ _solp_poisson_2d_r_chebu()

Tbl Lorene::_solp_poisson_2d_r_chebu	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	alpha,
		double	,
		const Tbl &	source,
		int	puis )

Definition at line 394 of file ope_poisson_2d_solp.C.

◆ _solp_poisson_2d_r_chebu_deux()

Tbl Lorene::_solp_poisson_2d_r_chebu_deux	(	const Matrice &	lap,
		const Matrice &	nondege,
		const Tbl &	source )

Definition at line 503 of file ope_poisson_2d_solp.C.

◆ _solp_poisson_2d_r_chebu_quatre()

Tbl Lorene::_solp_poisson_2d_r_chebu_quatre	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	alpha,
		const Tbl &	source )

Definition at line 424 of file ope_poisson_2d_solp.C.

◆ _solp_poisson_2d_r_chebu_trois()

Tbl Lorene::_solp_poisson_2d_r_chebu_trois	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	alpha,
		const Tbl &	source )

Definition at line 469 of file ope_poisson_2d_solp.C.

◆ _solp_poisson_pseudo_1d_pas_prevu()

Tbl Lorene::_solp_poisson_pseudo_1d_pas_prevu	(	const Matrice &	,
		const Matrice &	,
		double	,
		double	,
		const Tbl &	)

Definition at line 150 of file ope_poisson_pseudo_1d_solp.C.

◆ _solp_poisson_pseudo_1d_r_cheb()

Tbl Lorene::_solp_poisson_pseudo_1d_r_cheb	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	alpha,
		double	beta,
		const Tbl &	source )

Definition at line 164 of file ope_poisson_pseudo_1d_solp.C.

◆ _solp_poisson_pseudo_1d_r_chebi()

Tbl Lorene::_solp_poisson_pseudo_1d_r_chebi	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	alpha,
		double	,
		const Tbl &	source )

Definition at line 246 of file ope_poisson_pseudo_1d_solp.C.

◆ _solp_poisson_pseudo_1d_r_chebp()

Tbl Lorene::_solp_poisson_pseudo_1d_r_chebp	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	alpha,
		double	,
		const Tbl &	source )

Definition at line 204 of file ope_poisson_pseudo_1d_solp.C.

◆ _solp_r_cheb()

Tbl Lorene::_solp_r_cheb	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	alpha,
		double	beta,
		const Tbl &	source,
		int	)

Definition at line 161 of file solp.C.

◆ _solp_r_chebi()

Tbl Lorene::_solp_r_chebi	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	alpha,
		double	,
		const Tbl &	source,
		int	)

Definition at line 271 of file solp.C.

◆ _solp_r_chebp()

Tbl Lorene::_solp_r_chebp	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	alpha,
		double	,
		const Tbl &	source,
		int	)

Definition at line 230 of file solp.C.

◆ _solp_r_chebu()

Tbl Lorene::_solp_r_chebu	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	alpha,
		double	,
		const Tbl &	source,
		int	puis )

Definition at line 314 of file solp.C.

◆ _solp_r_chebu_cinq()

Tbl Lorene::_solp_r_chebu_cinq	(	const Matrice &	lap,
		const Matrice &	nondege,
		const Tbl &	source )

Definition at line 456 of file solp.C.

◆ _solp_r_chebu_deux()

Tbl Lorene::_solp_r_chebu_deux	(	const Matrice &	lap,
		const Matrice &	nondege,
		const Tbl &	source )

Definition at line 421 of file solp.C.

◆ _solp_r_chebu_quatre()

Tbl Lorene::_solp_r_chebu_quatre	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	alpha,
		const Tbl &	source )

Definition at line 342 of file solp.C.

◆ _solp_r_chebu_trois()

Tbl Lorene::_solp_r_chebu_trois	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	alpha,
		const Tbl &	source )

Definition at line 387 of file solp.C.

◆ _solp_r_jaco02()

Tbl Lorene::_solp_r_jaco02	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	alpha,
		double	,
		const Tbl &	source,
		int	)

Definition at line 198 of file solp.C.

◆ _solp_sec_order_pas_prevu()

Tbl Lorene::_solp_sec_order_pas_prevu	(	const Matrice &	,
		const Matrice &	,
		const Tbl &	)

Definition at line 102 of file ope_sec_order_solp.C.

◆ _solp_sec_order_r2_pas_prevu()

Tbl Lorene::_solp_sec_order_r2_pas_prevu	(	const Matrice &	,
		const Matrice &	,
		const Tbl &	)

Definition at line 102 of file ope_sec_order_r2_solp.C.

◆ _solp_sec_order_r2_r_cheb()

Tbl Lorene::_solp_sec_order_r2_r_cheb	(	const Matrice &	lap,
		const Matrice &	nondege,
		const Tbl &	source )

Definition at line 115 of file ope_sec_order_r2_solp.C.

◆ _solp_sec_order_r_cheb()

Tbl Lorene::_solp_sec_order_r_cheb	(	const Matrice &	lap,
		const Matrice &	nondege,
		const Tbl &	source )

Definition at line 115 of file ope_sec_order_solp.C.

◆ _solp_vorton_pas_prevu()

Tbl Lorene::_solp_vorton_pas_prevu	(	const Matrice &	,
		const Matrice &	,
		const Tbl &	,
		double	,
		double	,
		int	)

Definition at line 141 of file ope_vorton_solp.C.

◆ _solp_vorton_r_cheb()

Tbl Lorene::_solp_vorton_r_cheb	(	const Matrice &	lap,
		const Matrice &	nondege,
		const Tbl &	source,
		double	alpha,
		double	beta,
		int	dz )

Definition at line 209 of file ope_vorton_solp.C.

◆ _solp_vorton_r_chebu()

Tbl Lorene::_solp_vorton_r_chebu	(	const Matrice &	lap,
		const Matrice &	nondege,
		const Tbl &	source,
		double	alpha,
		double	,
		int	puis )

Definition at line 188 of file ope_vorton_solp.C.

◆ _solp_vorton_r_chebu_trois()

Tbl Lorene::_solp_vorton_r_chebu_trois	(	const Matrice &	lap,
		const Matrice &	nondege,
		const Tbl &	source,
		double	alpha )

Definition at line 153 of file ope_vorton_solp.C.

◆ _ssint_pas_prevu()

void Lorene::_ssint_pas_prevu	(	Tbl *	tb,
		int &	base )

Definition at line 84 of file op_ssint.C.

◆ _ssint_t_cos()

void Lorene::_ssint_t_cos	(	Tbl *	tb,
		int &	b )

Definition at line 95 of file op_ssint.C.

◆ _ssint_t_cos_i()

void Lorene::_ssint_t_cos_i	(	Tbl *	tb,
		int &	b )

Definition at line 774 of file op_ssint.C.

◆ _ssint_t_cos_p()

void Lorene::_ssint_t_cos_p	(	Tbl *	tb,
		int &	b )

Definition at line 408 of file op_ssint.C.

◆ _ssint_t_cossin_c()

void Lorene::_ssint_t_cossin_c	(	Tbl *	tb,
		int &	b )

Definition at line 1482 of file op_ssint.C.

◆ _ssint_t_cossin_ci()

void Lorene::_ssint_t_cossin_ci	(	Tbl *	tb,
		int &	b )

Definition at line 1028 of file op_ssint.C.

◆ _ssint_t_cossin_cp()

void Lorene::_ssint_t_cossin_cp	(	Tbl *	tb,
		int &	b )

Definition at line 890 of file op_ssint.C.

◆ _ssint_t_cossin_s()

void Lorene::_ssint_t_cossin_s	(	Tbl *	tb,
		int &	b )

Definition at line 1654 of file op_ssint.C.

◆ _ssint_t_cossin_si()

void Lorene::_ssint_t_cossin_si	(	Tbl *	tb,
		int &	b )

Definition at line 1181 of file op_ssint.C.

◆ _ssint_t_cossin_sp()

void Lorene::_ssint_t_cossin_sp	(	Tbl *	tb,
		int &	b )

Definition at line 1323 of file op_ssint.C.

◆ _ssint_t_sin()

void Lorene::_ssint_t_sin	(	Tbl *	tb,
		int &	b )

Definition at line 254 of file op_ssint.C.

◆ _ssint_t_sin_i()

void Lorene::_ssint_t_sin_i	(	Tbl *	tb,
		int &	b )

Definition at line 649 of file op_ssint.C.

◆ _ssint_t_sin_p()

void Lorene::_ssint_t_sin_p	(	Tbl *	tb,
		int &	b )

Definition at line 525 of file op_ssint.C.

◆ _sx2_1d_identite()

void Lorene::_sx2_1d_identite	(	int	nr,
		double *	tb,
		double *	res )

Definition at line 99 of file sx2_1d.C.

◆ _sx2_1d_pas_prevu()

void Lorene::_sx2_1d_pas_prevu	(	int	nr,
		double *	tb,
		double *	res )

Definition at line 87 of file sx2_1d.C.

◆ _sx2_1d_r_chebi()

void Lorene::_sx2_1d_r_chebi	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 139 of file sx2_1d.C.

◆ _sx2_1d_r_chebp()

void Lorene::_sx2_1d_r_chebp	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 109 of file sx2_1d.C.

◆ _sx2_1d_r_legi()

void Lorene::_sx2_1d_r_legi	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 191 of file sx2_1d.C.

◆ _sx2_1d_r_legp()

void Lorene::_sx2_1d_r_legp	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 176 of file sx2_1d.C.

◆ _sx2_identite()

void Lorene::_sx2_identite	(	Tbl *	,
		int &	)

Definition at line 100 of file op_sx2.C.

◆ _sx2_pas_prevu()

void Lorene::_sx2_pas_prevu	(	Tbl *	tb,
		int &	base )

Definition at line 89 of file op_sx2.C.

◆ _sx2_r_chebi()

void Lorene::_sx2_r_chebi	(	Tbl *	tb,
		int &	)

Definition at line 177 of file op_sx2.C.

◆ _sx2_r_chebp()

void Lorene::_sx2_r_chebp	(	Tbl *	tb,
		int &	)

Definition at line 107 of file op_sx2.C.

◆ _sx2_r_chebpi_i()

void Lorene::_sx2_r_chebpi_i	(	Tbl *	tb,
		int &	)

Definition at line 603 of file op_sx2.C.

◆ _sx2_r_chebpi_p()

void Lorene::_sx2_r_chebpi_p	(	Tbl *	tb,
		int &	)

Definition at line 515 of file op_sx2.C.

◆ _sx2_r_chebpim_i()

void Lorene::_sx2_r_chebpim_i	(	Tbl *	tb,
		int &	)

Definition at line 363 of file op_sx2.C.

◆ _sx2_r_chebpim_p()

void Lorene::_sx2_r_chebpim_p	(	Tbl *	tb,
		int &	)

Definition at line 246 of file op_sx2.C.

◆ _sx2_r_chebu()

void Lorene::_sx2_r_chebu	(	Tbl *	tb,
		int &	)

Definition at line 482 of file op_sx2.C.

◆ _sx2_r_legi()

void Lorene::_sx2_r_legi	(	Tbl *	tb,
		int &	)

Definition at line 748 of file op_sx2.C.

◆ _sx2_r_legp()

void Lorene::_sx2_r_legp	(	Tbl *	tb,
		int &	)

Definition at line 690 of file op_sx2.C.

◆ _sx_1d_pas_prevu()

void Lorene::_sx_1d_pas_prevu	(	int	,
		double *	,
		double *	)

Definition at line 75 of file sx_1d.C.

◆ _sx_1d_r_chebi()

void Lorene::_sx_1d_r_chebi	(	int	nr,
		double *	tb,
		double *	res )

Definition at line 106 of file sx_1d.C.

◆ _sx_1d_r_chebp()

void Lorene::_sx_1d_r_chebp	(	int	nr,
		double *	tb,
		double *	res )

Definition at line 86 of file sx_1d.C.

◆ _sx_1d_r_chebu()

void Lorene::_sx_1d_r_chebu	(	int	nr,
		double *	tb,
		double *	res )

Definition at line 125 of file sx_1d.C.

◆ _sx_1d_r_legi()

void Lorene::_sx_1d_r_legi	(	int	nr,
		double *	tb,
		double *	res )

Definition at line 155 of file sx_1d.C.

◆ _sx_1d_r_legp()

void Lorene::_sx_1d_r_legp	(	int	nr,
		double *	tb,
		double *	res )

Definition at line 138 of file sx_1d.C.

◆ _sx_identite()

void Lorene::_sx_identite	(	Tbl *	,
		int &	)

Definition at line 97 of file op_sx.C.

◆ _sx_pas_prevu()

void Lorene::_sx_pas_prevu	(	Tbl *	tb,
		int &	base )

Definition at line 86 of file op_sx.C.

◆ _sx_r_chebi()

void Lorene::_sx_r_chebi	(	Tbl *	tb,
		int &	base )

Definition at line 183 of file op_sx.C.

◆ _sx_r_chebp()

void Lorene::_sx_r_chebp	(	Tbl *	tb,
		int &	base )

Definition at line 105 of file op_sx.C.

◆ _sx_r_chebpi_i()

void Lorene::_sx_r_chebpi_i	(	Tbl *	tb,
		int &	base )

Definition at line 605 of file op_sx.C.

◆ _sx_r_chebpi_p()

void Lorene::_sx_r_chebpi_p	(	Tbl *	tb,
		int &	base )

Definition at line 510 of file op_sx.C.

◆ _sx_r_chebpim_i()

void Lorene::_sx_r_chebpim_i	(	Tbl *	tb,
		int &	base )

Definition at line 385 of file op_sx.C.

◆ _sx_r_chebpim_p()

void Lorene::_sx_r_chebpim_p	(	Tbl *	tb,
		int &	base )

Definition at line 261 of file op_sx.C.

◆ _sx_r_legi()

void Lorene::_sx_r_legi	(	Tbl *	tb,
		int &	base )

Definition at line 773 of file op_sx.C.

◆ _sx_r_legp()

void Lorene::_sx_r_legp	(	Tbl *	tb,
		int &	base )

Definition at line 700 of file op_sx.C.

◆ _sxdsdx_1d_pas_prevu()

void Lorene::_sxdsdx_1d_pas_prevu	(	int	nr,
		double *	tb,
		double *	res )

Definition at line 82 of file sxdsdx_1d.C.

◆ _sxdsdx_1d_r_chebi()

void Lorene::_sxdsdx_1d_r_chebi	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 179 of file sxdsdx_1d.C.

◆ _sxdsdx_1d_r_chebp()

void Lorene::_sxdsdx_1d_r_chebp	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 151 of file sxdsdx_1d.C.

◆ _sxm12_1d_r_chebu()

void Lorene::_sxm12_1d_r_chebu	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 163 of file sx2_1d.C.

◆ _sxm1_cheb()

void Lorene::_sxm1_cheb	(	Tbl *	tb,
		int &	)

Definition at line 86 of file op_sxm1.C.

◆ _sxm1_identite()

void Lorene::_sxm1_identite	(	Tbl *	,
		int &	)

Definition at line 78 of file op_sxm1.C.

◆ _sxmundsdx_1d_r_chebu()

void Lorene::_sxmundsdx_1d_r_chebu	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 124 of file sxdsdx_1d.C.

◆ _sxp12_1d_pas_prevu()

void Lorene::_sxp12_1d_pas_prevu	(	int	nr,
		double *	tb,
		double *	res )

Definition at line 67 of file sxp12_1d.C.

◆ _sxp12_1d_r_jaco02()

void Lorene::_sxp12_1d_r_jaco02	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 78 of file sxp12_1d.C.

◆ _sxp12_identite()

void Lorene::_sxp12_identite	(	Tbl *	,
		int &	)

Definition at line 106 of file op_sxp12.C.

◆ _sxp12_pas_prevu()

void Lorene::_sxp12_pas_prevu	(	Tbl *	tb,
		int &	base )

Definition at line 95 of file op_sxp12.C.

◆ _sxp12_r_jaco02()

void Lorene::_sxp12_r_jaco02	(	Tbl *	tb,
		int &	)

Definition at line 114 of file op_sxp12.C.

◆ _sxpun_1d_pas_prevu()

void Lorene::_sxpun_1d_pas_prevu	(	int	nr,
		double *	tb,
		double *	res )

Definition at line 84 of file sxpun_1d.C.

◆ _sxpun_1d_r_cheb()

void Lorene::_sxpun_1d_r_cheb	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 98 of file sxpun_1d.C.

◆ _sxpun_1d_r_jaco02()

void Lorene::_sxpun_1d_r_jaco02	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 124 of file sxpun_1d.C.

◆ _sxpun_identite()

void Lorene::_sxpun_identite	(	Tbl *	,
		int &	)

Definition at line 110 of file op_sxpun.C.

◆ _sxpun_pas_prevu()

void Lorene::_sxpun_pas_prevu	(	Tbl *	tb,
		int &	base )

Definition at line 99 of file op_sxpun.C.

◆ _sxpun_r_jaco02()

void Lorene::_sxpun_r_jaco02	(	Tbl *	tb,
		int &	)

Definition at line 118 of file op_sxpun.C.

◆ _sxpundsdx_1d_pas_prevu()

void Lorene::_sxpundsdx_1d_pas_prevu	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 67 of file sxpundsdx_1d.C.

◆ _sxpundsdx_1d_r_jaco02()

void Lorene::_sxpundsdx_1d_r_jaco02	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 80 of file sxpundsdx_1d.C.

◆ _val_solh_pas_prevu()

Tbl Lorene::_val_solh_pas_prevu	(	int	,
		double	,
		double	)

Definition at line 62 of file val_solh.C.

◆ _val_solh_r_cheb()

Tbl Lorene::_val_solh_r_cheb	(	int	l,
		double	alpha,
		double	beta )

Definition at line 76 of file val_solh.C.

◆ _val_solh_r_chebi()

Tbl Lorene::_val_solh_r_chebi	(	int	l,
		double	alpha,
		double	)

Definition at line 123 of file val_solh.C.

◆ _val_solh_r_chebp()

Tbl Lorene::_val_solh_r_chebp	(	int	l,
		double	alpha,
		double	)

Definition at line 103 of file val_solh.C.

◆ _val_solh_r_chebu()

Tbl Lorene::_val_solh_r_chebu	(	int	l,
		double	alpha,
		double	)

Not used

noy used

Definition at line 144 of file val_solh.C.

References pow(), Lorene::Tbl::set(), Lorene::Tbl::set_etat_qcq(), and sqrt().

◆ _val_solp_pas_prevu()

Tbl Lorene::_val_solp_pas_prevu	(	const Tbl &	,
		double	)

Definition at line 70 of file val_solp.C.

◆ _val_solp_r_cheb()

Tbl Lorene::_val_solp_r_cheb	(	const Tbl &	sp,
		double	alpha )

Definition at line 84 of file val_solp.C.

◆ _val_solp_r_chebi()

Tbl Lorene::_val_solp_r_chebi	(	const Tbl &	sp,
		double	alpha )

Definition at line 153 of file val_solp.C.

◆ _val_solp_r_chebp()

Tbl Lorene::_val_solp_r_chebp	(	const Tbl &	sp,
		double	alpha )

Definition at line 120 of file val_solp.C.

◆ _val_solp_r_chebu()

Tbl Lorene::_val_solp_r_chebu	(	const Tbl &	sp,
		double	alpha )

Definition at line 187 of file val_solp.C.

◆ _vorton_mat_pas_prevu()

Matrice Lorene::_vorton_mat_pas_prevu	(	int	,
		double	,
		double	,
		int	,
		int	)

Definition at line 41 of file ope_vorton_mat.C.

◆ _vorton_mat_r_cheb()

Matrice Lorene::_vorton_mat_r_cheb	(	int	n,
		double	alpha,
		double	beta,
		int	lq,
		int	)

Definition at line 82 of file ope_vorton_mat.C.

◆ _vorton_mat_r_chebu()

Matrice Lorene::_vorton_mat_r_chebu	(	int	n,
		double	,
		double	,
		int	lq,
		int	dz )

Definition at line 62 of file ope_vorton_mat.C.

◆ _vorton_mat_r_chebu_trois()

Matrice Lorene::_vorton_mat_r_chebu_trois	(	int	n,
		int	lq )

Definition at line 52 of file ope_vorton_mat.C.

◆ _vorton_non_dege_pas_prevu()

Matrice Lorene::_vorton_non_dege_pas_prevu	(	const Matrice &	so,
		int	,
		int	)

Definition at line 39 of file ope_vorton_non_dege.C.

◆ _vorton_non_dege_r_cheb()

Matrice Lorene::_vorton_non_dege_r_cheb	(	const Matrice &	source,
		int	,
		int	)

Definition at line 50 of file ope_vorton_non_dege.C.

◆ _vorton_non_dege_r_chebu()

Matrice Lorene::_vorton_non_dege_r_chebu	(	const Matrice &	lap,
		int	l,
		int	puis )

Definition at line 96 of file ope_vorton_non_dege.C.

◆ _vorton_non_dege_r_chebu_trois()

Matrice Lorene::_vorton_non_dege_r_chebu_trois	(	const Matrice &	lap,
		int	l )

Definition at line 70 of file ope_vorton_non_dege.C.

◆ _xdsdx_1d_pas_prevu()

void Lorene::_xdsdx_1d_pas_prevu	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 62 of file xdsdx_1d.C.

◆ _xdsdx_1d_r_cheb()

void Lorene::_xdsdx_1d_r_cheb	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 75 of file xdsdx_1d.C.

◆ _xdsdx_1d_r_chebi()

void Lorene::_xdsdx_1d_r_chebi	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 120 of file xdsdx_1d.C.

◆ _xdsdx_1d_r_chebp()

void Lorene::_xdsdx_1d_r_chebp	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 102 of file xdsdx_1d.C.

◆ _xdsdx_mat_pas_prevu()

Matrice Lorene::_xdsdx_mat_pas_prevu	(	int	n,
		int	)

Definition at line 73 of file xdsdx_mat.C.

◆ _xdsdx_mat_r_chebi()

Matrice Lorene::_xdsdx_mat_r_chebi	(	int	n,
		int	l )

Definition at line 143 of file xdsdx_mat.C.

◆ _xdsdx_mat_r_chebp()

Matrice Lorene::_xdsdx_mat_r_chebp	(	int	n,
		int	)

Definition at line 88 of file xdsdx_mat.C.

◆ _xpundsdx_1d_pas_prevu()

void Lorene::_xpundsdx_1d_pas_prevu	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 65 of file xpundsdx_1d.C.

◆ _xpundsdx_1d_r_jaco02()

void Lorene::_xpundsdx_1d_r_jaco02	(	int	nr,
		double *	tb,
		double *	xo )

Definition at line 78 of file xpundsdx_1d.C.

◆ adapt()

virtual void Lorene::adapt	(	const Cmp &	ent,
		const Param &	par,
		int	nbr = 0 )

pure virtual

Adaptation of the mapping to a given scalar field.

This is a virtual function: see the actual implementations in the derived classes for the meaning of the various parameters.

◆ adm_serie()

double Lorene::adm_serie	(	double	rayon,
		double	distance,
		double	precision )

Definition at line 122 of file lindquist.C.

◆ admissible_fft()

bool Lorene::admissible_fft ( int n )

Definition at line 55 of file FFT991/admissible_fft.C.

◆ back_fft()

fftw_plan Lorene::back_fft	(	int	n,
		Tbl *&	pg )

Definition at line 14 of file fftw_back.C.

◆ bare_serie()

double Lorene::bare_serie	(	double	rayon,
		double	distance,
		double	precision )

Definition at line 141 of file lindquist.C.

◆ base_non_def_p()

void Lorene::base_non_def_p	(	const int *	,
		const int *	,
		double *	)

Definition at line 377 of file valeur_coef.C.

◆ base_non_def_r()

void Lorene::base_non_def_r	(	const int *	,
		const int *	,
		double *	,
		const int *	,
		double *	)

Definition at line 367 of file valeur_coef.C.

◆ base_non_def_t()

void Lorene::base_non_def_t	(	const int *	,
		const int *	,
		double *	,
		const int *	,
		double *	)

Definition at line 372 of file valeur_coef.C.

◆ basename_p_cossin()

void Lorene::basename_p_cossin	(	int	k,
		char *	name )

Definition at line 114 of file base_val_name_phi.C.

◆ basename_p_cossin_i()

void Lorene::basename_p_cossin_i	(	int	k,
		char *	name )

Definition at line 171 of file base_val_name_phi.C.

◆ basename_p_cossin_p()

void Lorene::basename_p_cossin_p	(	int	k,
		char *	name )

Definition at line 143 of file base_val_name_phi.C.

◆ basename_p_unknown()

void Lorene::basename_p_unknown	(	int	,
		char *	)

Definition at line 108 of file base_val_name_phi.C.

◆ basename_r_cheb()

void Lorene::basename_r_cheb	(	int	,
		int	,
		int	i,
		char *	name )

Definition at line 137 of file base_val_name_r.C.

◆ basename_r_chebi()

void Lorene::basename_r_chebi	(	int	,
		int	,
		int	i,
		char *	name )

Definition at line 164 of file base_val_name_r.C.

◆ basename_r_chebp()

void Lorene::basename_r_chebp	(	int	,
		int	,
		int	i,
		char *	name )

Definition at line 150 of file base_val_name_r.C.

◆ basename_r_chebpi_i()

void Lorene::basename_r_chebpi_i	(	int	,
		int	j,
		int	i,
		char *	name )

Definition at line 227 of file base_val_name_r.C.

◆ basename_r_chebpi_p()

void Lorene::basename_r_chebpi_p	(	int	,
		int	j,
		int	i,
		char *	name )

Definition at line 211 of file base_val_name_r.C.

◆ basename_r_chebpim_i()

void Lorene::basename_r_chebpim_i	(	int	k,
		int	,
		int	i,
		char *	name )

Definition at line 195 of file base_val_name_r.C.

◆ basename_r_chebpim_p()

void Lorene::basename_r_chebpim_p	(	int	k,
		int	,
		int	i,
		char *	name )

Definition at line 178 of file base_val_name_r.C.

◆ basename_r_jaco02()

void Lorene::basename_r_jaco02	(	int	,
		int	,
		int	i,
		char *	name )

Definition at line 282 of file base_val_name_r.C.

◆ basename_r_leg()

void Lorene::basename_r_leg	(	int	,
		int	,
		int	i,
		char *	name )

Definition at line 242 of file base_val_name_r.C.

◆ basename_r_legi()

void Lorene::basename_r_legi	(	int	,
		int	,
		int	i,
		char *	name )

Definition at line 269 of file base_val_name_r.C.

◆ basename_r_legp()

void Lorene::basename_r_legp	(	int	,
		int	,
		int	i,
		char *	name )

Definition at line 255 of file base_val_name_r.C.

◆ basename_r_unknown()

void Lorene::basename_r_unknown	(	int	,
		int	,
		int	,
		char *	)

Definition at line 131 of file base_val_name_r.C.

◆ basename_t_cl_cos_i()

void Lorene::basename_t_cl_cos_i	(	int	,
		int	j,
		char *	name )

Definition at line 293 of file base_val_name_theta.C.

◆ basename_t_cl_cos_p()

void Lorene::basename_t_cl_cos_p	(	int	,
		int	j,
		char *	name )

Definition at line 248 of file base_val_name_theta.C.

◆ basename_t_cl_sin_i()

void Lorene::basename_t_cl_sin_i	(	int	,
		int	j,
		char *	name )

Definition at line 323 of file base_val_name_theta.C.

◆ basename_t_cl_sin_p()

void Lorene::basename_t_cl_sin_p	(	int	,
		int	j,
		char *	name )

Definition at line 263 of file base_val_name_theta.C.

◆ basename_t_cos()

void Lorene::basename_t_cos	(	int	,
		int	j,
		char *	name )

Definition at line 181 of file base_val_name_theta.C.

◆ basename_t_cos_i()

void Lorene::basename_t_cos_i	(	int	,
		int	j,
		char *	name )

Definition at line 278 of file base_val_name_theta.C.

◆ basename_t_cos_p()

void Lorene::basename_t_cos_p	(	int	,
		int	j,
		char *	name )

Definition at line 212 of file base_val_name_theta.C.

◆ basename_t_cossin_c()

void Lorene::basename_t_cossin_c	(	int	k,
		int	j,
		char *	name )

Definition at line 392 of file base_val_name_theta.C.

◆ basename_t_cossin_ci()

void Lorene::basename_t_cossin_ci	(	int	k,
		int	j,
		char *	name )

Definition at line 451 of file base_val_name_theta.C.

◆ basename_t_cossin_cp()

void Lorene::basename_t_cossin_cp	(	int	k,
		int	j,
		char *	name )

Definition at line 339 of file base_val_name_theta.C.

◆ basename_t_cossin_s()

void Lorene::basename_t_cossin_s	(	int	k,
		int	j,
		char *	name )

Definition at line 421 of file base_val_name_theta.C.

◆ basename_t_cossin_si()

void Lorene::basename_t_cossin_si	(	int	k,
		int	j,
		char *	name )

Definition at line 481 of file base_val_name_theta.C.

◆ basename_t_cossin_sp()

void Lorene::basename_t_cossin_sp	(	int	k,
		int	j,
		char *	name )

Definition at line 363 of file base_val_name_theta.C.

◆ basename_t_leg()

void Lorene::basename_t_leg	(	int	k,
		int	j,
		char *	name )

Definition at line 504 of file base_val_name_theta.C.

◆ basename_t_leg_i()

void Lorene::basename_t_leg_i	(	int	k,
		int	j,
		char *	name )

Definition at line 641 of file base_val_name_theta.C.

◆ basename_t_leg_ii()

void Lorene::basename_t_leg_ii	(	int	k,
		int	j,
		char *	name )

Definition at line 725 of file base_val_name_theta.C.

◆ basename_t_leg_ip()

void Lorene::basename_t_leg_ip	(	int	k,
		int	j,
		char *	name )

Definition at line 669 of file base_val_name_theta.C.

◆ basename_t_leg_mi()

void Lorene::basename_t_leg_mi	(	int	k,
		int	j,
		char *	name )

Definition at line 558 of file base_val_name_theta.C.

◆ basename_t_leg_mp()

void Lorene::basename_t_leg_mp	(	int	k,
		int	j,
		char *	name )

Definition at line 531 of file base_val_name_theta.C.

◆ basename_t_leg_p()

void Lorene::basename_t_leg_p	(	int	k,
		int	j,
		char *	name )

Definition at line 585 of file base_val_name_theta.C.

◆ basename_t_leg_pi()

void Lorene::basename_t_leg_pi	(	int	k,
		int	j,
		char *	name )

Definition at line 697 of file base_val_name_theta.C.

◆ basename_t_leg_pp()

void Lorene::basename_t_leg_pp	(	int	k,
		int	j,
		char *	name )

Definition at line 613 of file base_val_name_theta.C.

◆ basename_t_sin()

void Lorene::basename_t_sin	(	int	,
		int	j,
		char *	name )

Definition at line 196 of file base_val_name_theta.C.

◆ basename_t_sin_i()

void Lorene::basename_t_sin_i	(	int	,
		int	j,
		char *	name )

Definition at line 308 of file base_val_name_theta.C.

◆ basename_t_sin_p()

void Lorene::basename_t_sin_p	(	int	,
		int	j,
		char *	name )

Definition at line 228 of file base_val_name_theta.C.

◆ basename_t_unknown()

void Lorene::basename_t_unknown	(	int	,
		int	,
		char *	)

Definition at line 175 of file base_val_name_theta.C.

◆ boundfree_tensBC()

Sym_tensor Lorene::boundfree_tensBC	(	Sym_tensor	source,
		Vector	Beta,
		Scalar	Psi,
		Scalar	Nn,
		Sym_tensor	hij_guess,
		double	precision,
		int	loopmax = 250 )

Definition at line 18 of file boundfree_tensBC.C.

◆ cfpcossin()

void Lorene::cfpcossin	(	const int *	deg,
		const int *	dim,
		double *	cf )

Definition at line 123 of file FFT991/cfpcossin.C.

◆ cfpcossini()

void Lorene::cfpcossini	(	const int *	deg,
		const int *	dim,
		double *	cf )

Definition at line 106 of file FFT991/cfpcossini.C.

◆ cfrcheb()

void Lorene::cfrcheb	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 141 of file FFT991/cfrcheb.C.

◆ cfrchebi()

void Lorene::cfrchebi	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 147 of file FFT991/cfrchebi.C.

◆ cfrchebp()

void Lorene::cfrchebp	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 143 of file FFT991/cfrchebp.C.

◆ cfrchebpii()

void Lorene::cfrchebpii	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 126 of file FFT991/cfrchebpii.C.

◆ cfrchebpimi()

void Lorene::cfrchebpimi	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 153 of file FFT991/cfrchebpimi.C.

◆ cfrchebpimp()

void Lorene::cfrchebpimp	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 154 of file FFT991/cfrchebpimp.C.

◆ cfrchebpip()

void Lorene::cfrchebpip	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 126 of file FFT991/cfrchebpip.C.

◆ cfrjaco02()

void Lorene::cfrjaco02	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 96 of file cfrjaco02.C.

◆ cfrleg()

void Lorene::cfrleg	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 64 of file cfrleg.C.

◆ cfrlegi()

void Lorene::cfrlegi	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 249 of file cfrleg.C.

◆ cfrlegp()

void Lorene::cfrlegp	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 153 of file cfrleg.C.

◆ cftcos()

void Lorene::cftcos	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 129 of file FFT991/cftcos.C.

◆ cftcosi()

void Lorene::cftcosi	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 141 of file FFT991/cftcosi.C.

◆ cftcosp()

void Lorene::cftcosp	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 140 of file FFT991/cftcosp.C.

◆ cftcossinc()

void Lorene::cftcossinc	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 128 of file FFT991/cftcossinc.C.

◆ cftcossinci()

void Lorene::cftcossinci	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 145 of file FFT991/cftcossinci.C.

◆ cftcossincp()

void Lorene::cftcossincp	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 148 of file FFT991/cftcossincp.C.

◆ cftcossins()

void Lorene::cftcossins	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 128 of file FFT991/cftcossins.C.

◆ cftcossinsi()

void Lorene::cftcossinsi	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 147 of file FFT991/cftcossinsi.C.

◆ cftcossinsp()

void Lorene::cftcossinsp	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 144 of file FFT991/cftcossinsp.C.

◆ cftleg()

void Lorene::cftleg	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 123 of file cftleg.C.

◆ cftlegi()

void Lorene::cftlegi	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 130 of file cftlegi.C.

◆ cftlegii()

void Lorene::cftlegii	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 119 of file cftlegii.C.

◆ cftlegip()

void Lorene::cftlegip	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 123 of file cftlegip.C.

◆ cftlegmi()

void Lorene::cftlegmi	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 119 of file cftlegmi.C.

◆ cftlegmp()

void Lorene::cftlegmp	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 116 of file cftlegmp.C.

◆ cftlegp()

void Lorene::cftlegp	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 134 of file cftlegp.C.

◆ cftlegpi()

void Lorene::cftlegpi	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 126 of file cftlegpi.C.

◆ cftlegpp()

void Lorene::cftlegpp	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 130 of file cftlegpp.C.

◆ cftsin()

void Lorene::cftsin	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 129 of file FFT991/cftsin.C.

◆ cftsini()

void Lorene::cftsini	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 140 of file FFT991/cftsini.C.

◆ cftsinp()

void Lorene::cftsinp	(	const int *	deg,
		const int *	dimf,
		double *	ff,
		const int *	dimc,
		double *	cf )

Definition at line 139 of file FFT991/cftsinp.C.

◆ chb_cos_legmp()

void Lorene::chb_cos_legmp	(	const int *	deg,
		const double *	cfi,
		double *	cfo )

Definition at line 117 of file chb_cos_legmp.C.

◆ chb_cosi_legip()

void Lorene::chb_cosi_legip	(	const int *	deg,
		const double *	cfi,
		double *	cfo )

Definition at line 135 of file chb_cosi_legip.C.

◆ chb_cosp_legpp()

void Lorene::chb_cosp_legpp	(	const int *	deg,
		const double *	cfi,
		double *	cfo )

Definition at line 134 of file chb_cosp_legpp.C.

◆ chb_cossinc_leg()

void Lorene::chb_cossinc_leg	(	const int *	deg,
		const double *	cfi,
		double *	cfo )

Definition at line 124 of file chb_cossinc_leg.C.

◆ chb_cossinci_legi()

void Lorene::chb_cossinci_legi	(	const int *	deg,
		const double *	cfi,
		double *	cfo )

Definition at line 131 of file chb_cossinci_legi.C.

◆ chb_cossincp_legp()

void Lorene::chb_cossincp_legp	(	const int *	deg,
		const double *	cfi,
		double *	cfo )

Definition at line 135 of file chb_cossincp_legp.C.

◆ chb_leg_cossinc()

void Lorene::chb_leg_cossinc	(	const int *	deg,
		const double *	cfi,
		double *	cfo )

Definition at line 128 of file chb_leg_cossinc.C.

◆ chb_legi_cossinci()

void Lorene::chb_legi_cossinci	(	const int *	deg,
		const double *	cfi,
		double *	cfo )

Definition at line 130 of file chb_legi_cossinci.C.

◆ chb_legii_sinp()

void Lorene::chb_legii_sinp	(	const int *	deg,
		const double *	cfi,
		double *	cfo )

Definition at line 119 of file chb_legii_sinp.C.

◆ chb_legip_cosi()

void Lorene::chb_legip_cosi	(	const int *	deg,
		const double *	cfi,
		double *	cfo )

Definition at line 137 of file chb_legip_cosi.C.

◆ chb_legmi_sin()

void Lorene::chb_legmi_sin	(	const int *	deg,
		const double *	cfi,
		double *	cfo )

Definition at line 116 of file chb_legmi_sin.C.

◆ chb_legmp_cos()

void Lorene::chb_legmp_cos	(	const int *	deg,
		const double *	cfi,
		double *	cfo )

Definition at line 116 of file chb_legmp_cos.C.

◆ chb_legp_cossincp()

void Lorene::chb_legp_cossincp	(	const int *	deg,
		const double *	cfi,
		double *	cfo )

Definition at line 141 of file chb_legp_cossincp.C.

◆ chb_legpi_sini()

void Lorene::chb_legpi_sini	(	const int *	deg,
		const double *	cfi,
		double *	cfo )

Definition at line 133 of file chb_legpi_sini.C.

◆ chb_legpp_cosp()

void Lorene::chb_legpp_cosp	(	const int *	deg,
		const double *	cfi,
		double *	cfo )

Definition at line 137 of file chb_legpp_cosp.C.

◆ chb_sin_legmi()

void Lorene::chb_sin_legmi	(	const int *	deg,
		const double *	cfi,
		double *	cfo )

Definition at line 114 of file chb_sin_legmi.C.

◆ chb_sini_legpi()

void Lorene::chb_sini_legpi	(	const int *	deg,
		const double *	cfi,
		double *	cfo )

Definition at line 130 of file chb_sini_legpi.C.

◆ chb_sinp_legii()

void Lorene::chb_sinp_legii	(	const int *	deg,
		const double *	cfi,
		double *	cfo )

Definition at line 116 of file chb_sinp_legii.C.

◆ cheb_ini()

double * Lorene::cheb_ini ( const int )

Definition at line 83 of file cheb_ini.C.

◆ chebimp_ini()

double * Lorene::chebimp_ini ( const int )

Definition at line 95 of file chebimp_ini.C.

◆ cipcossin()

void Lorene::cipcossin	(	const int *	deg,
		const int *	dimc,
		const int *	dimf,
		double *	cf,
		double *	ff )

Definition at line 137 of file FFT991/cipcossin.C.

◆ cipcossini()

void Lorene::cipcossini	(	const int *	deg,
		const int *	dimc,
		const int *	dimf,
		double *	cf,
		double *	ff )

Definition at line 122 of file FFT991/cipcossini.C.

◆ circheb()

void Lorene::circheb	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 145 of file FFT991/circheb.C.

◆ circhebi()

void Lorene::circhebi	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 143 of file FFT991/circhebi.C.

◆ circhebp()

void Lorene::circhebp	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 141 of file FFT991/circhebp.C.

◆ circhebpii()

void Lorene::circhebpii	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 124 of file FFT991/circhebpii.C.

◆ circhebpimi()

void Lorene::circhebpimi	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 157 of file FFT991/circhebpimi.C.

◆ circhebpimp()

void Lorene::circhebpimp	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 155 of file FFT991/circhebpimp.C.

◆ circhebpip()

void Lorene::circhebpip	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 124 of file FFT991/circhebpip.C.

◆ cirjaco02()

void Lorene::cirjaco02	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 117 of file cirjaco02.C.

◆ cirleg()

void Lorene::cirleg	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 63 of file cirleg.C.

◆ cirlegi()

void Lorene::cirlegi	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 252 of file cirleg.C.

◆ cirlegp()

void Lorene::cirlegp	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 154 of file cirleg.C.

◆ citcos()

void Lorene::citcos	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 133 of file FFT991/citcos.C.

◆ citcosi()

void Lorene::citcosi	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 142 of file FFT991/citcosi.C.

◆ citcosp()

void Lorene::citcosp	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 142 of file FFT991/citcosp.C.

◆ citcossinc()

void Lorene::citcossinc	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 124 of file FFT991/citcossinc.C.

◆ citcossinci()

void Lorene::citcossinci	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 140 of file FFT991/citcossinci.C.

◆ citcossincp()

void Lorene::citcossincp	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 124 of file FFT991/citcossincp.C.

◆ citcossins()

void Lorene::citcossins	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 124 of file FFT991/citcossins.C.

◆ citcossinsi()

void Lorene::citcossinsi	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 140 of file FFT991/citcossinsi.C.

◆ citcossinsp()

void Lorene::citcossinsp	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 141 of file FFT991/citcossinsp.C.

◆ citleg()

void Lorene::citleg	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 122 of file citleg.C.

◆ citlegi()

void Lorene::citlegi	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 131 of file citlegi.C.

◆ citlegii()

void Lorene::citlegii	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 115 of file citlegii.C.

◆ citlegip()

void Lorene::citlegip	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 119 of file citlegip.C.

◆ citlegmi()

void Lorene::citlegmi	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 115 of file citlegmi.C.

◆ citlegmp()

void Lorene::citlegmp	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 114 of file citlegmp.C.

◆ citlegp()

void Lorene::citlegp	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 133 of file citlegp.C.

◆ citlegpi()

void Lorene::citlegpi	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 118 of file citlegpi.C.

◆ citlegpp()

void Lorene::citlegpp	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 128 of file citlegpp.C.

◆ citsin()

void Lorene::citsin	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 136 of file FFT991/citsin.C.

◆ citsini()

void Lorene::citsini	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 136 of file FFT991/citsini.C.

◆ citsinp()

void Lorene::citsinp	(	const int *	deg,
		const int *	dimc,
		double *	cf,
		const int *	dimf,
		double *	ff )

Definition at line 141 of file FFT991/citsinp.C.

◆ cl_helmholtz_minus() [1/2]

Matrice Lorene::cl_helmholtz_minus	(	const Matrice &	source,
		int	base_r )

Definition at line 203 of file comb_lin_helmholtz_minus.C.

◆ cl_helmholtz_minus() [2/2]

Tbl Lorene::cl_helmholtz_minus	(	const Tbl &	source,
		int	base_r )

Definition at line 343 of file comb_lin_helmholtz_minus.C.

◆ cl_helmholtz_minus_2d()

Tbl Lorene::cl_helmholtz_minus_2d	(	const Tbl &	source,
		int	puis,
		int	base_r )

Definition at line 126 of file ope_helmholtz_minus_2d_solp.C.

◆ cl_helmholtz_minus_pseudo_1d()

Tbl Lorene::cl_helmholtz_minus_pseudo_1d	(	const Tbl &	source,
		int	puis,
		int	base_r )

Definition at line 104 of file ope_helmholtz_minus_pseudo_1d_solp.C.

◆ cl_helmholtz_plus() [1/2]

Matrice Lorene::cl_helmholtz_plus	(	const Matrice &	source,
		int	base_r )

Definition at line 133 of file comb_lin_helmholtz_plus.C.

◆ cl_helmholtz_plus() [2/2]

Tbl Lorene::cl_helmholtz_plus	(	const Tbl &	source,
		int	base_r )

Definition at line 219 of file comb_lin_helmholtz_plus.C.

◆ cl_poisson_2d()

Tbl Lorene::cl_poisson_2d	(	const Tbl &	source,
		int	puis,
		int	base_r )

Definition at line 224 of file ope_poisson_2d_solp.C.

◆ cl_poisson_pseudo_1d()

Tbl Lorene::cl_poisson_pseudo_1d	(	const Tbl &	source,
		int	base_r )

Definition at line 124 of file ope_poisson_pseudo_1d_solp.C.

◆ cl_ptens_rr()

Matrice Lorene::cl_ptens_rr	(	const Matrice &	source,
		int	l,
		double	echelle,
		int	puis,
		int	base_r )

Definition at line 351 of file cl_ptens_rr.C.

◆ cl_pvect_r()

Matrice Lorene::cl_pvect_r	(	const Matrice &	source,
		int	l,
		double	echelle,
		int	puis,
		int	base_r )

Definition at line 350 of file cl_pvect_r.C.

◆ cl_sec_order()

Tbl Lorene::cl_sec_order	(	const Tbl &	source,
		int	base_r )

Definition at line 74 of file ope_sec_order_solp.C.

◆ cl_sec_order_r2()

Tbl Lorene::cl_sec_order_r2	(	const Tbl &	source,
		int	base_r )

Definition at line 74 of file ope_sec_order_r2_solp.C.

◆ cl_vorton()

Tbl Lorene::cl_vorton	(	const Tbl &	source,
		int	puis,
		int	base_r )

Definition at line 112 of file ope_vorton_solp.C.

◆ cmp_zero()

const Cmp & Lorene::cmp_zero ( ) const

Returns the null Cmp defined on *this.

To be used by the Tenseur class when necessary to return a null Cmp .

Definition at line 807 of file map.h.

References p_cmp_zero.

◆ cnp()

int Lorene::cnp	(	int	n,
		int	p )

Definition at line 68 of file cmp_raccord_externe.C.

◆ coeffjaco()

double * Lorene::coeffjaco	(	int	n,
		double *	ff )

Definition at line 43 of file coeffjaco.C.

◆ combinaison() [1/2]

Matrice Lorene::combinaison	(	const Matrice &	source,
		int	l,
		double	echelle,
		int	puis,
		int	base_r )

Definition at line 681 of file comb_lin.C.

◆ combinaison() [2/2]

Tbl Lorene::combinaison	(	const Tbl &	source,
		int	puis,
		int	base_r )

Definition at line 936 of file comb_lin.C.

◆ combinaison_cpt() [1/2]

Matrice Lorene::combinaison_cpt	(	const Matrice &	source,
		int	l,
		int	base_r )

Definition at line 136 of file comb_lin_cpt.C.

◆ combinaison_cpt() [2/2]

Tbl Lorene::combinaison_cpt	(	const Tbl &	source,
		int	base_r )

Definition at line 220 of file comb_lin_cpt.C.

◆ comp_p_from_cartesian() [1/2]

virtual void Lorene::comp_p_from_cartesian	(	const Cmp &	v_x,
		const Cmp &	v_y,
		Cmp &	v_p ) const

pure virtual

Cmp version

◆ comp_p_from_cartesian() [2/2]

virtual void Lorene::comp_p_from_cartesian	(	const Scalar &	v_x,
		const Scalar &	v_y,
		Scalar &	v_p ) const

pure virtual

Computes the Spherical $\phi$ component (with respect to bvect_spher ) of a vector given by its cartesian components with respect to bvect_cart .

Parameters

v_x	[input] x-component of the vector
v_y	[input] y-component of the vector
v_p	[output] $\phi$ -component of the vector

◆ comp_r_from_cartesian() [1/2]

virtual void Lorene::comp_r_from_cartesian	(	const Cmp &	v_x,
		const Cmp &	v_y,
		const Cmp &	v_z,
		Cmp &	v_r ) const

pure virtual

Cmp version

◆ comp_r_from_cartesian() [2/2]

virtual void Lorene::comp_r_from_cartesian	(	const Scalar &	v_x,
		const Scalar &	v_y,
		const Scalar &	v_z,
		Scalar &	v_r ) const

pure virtual

Computes the Spherical r component (with respect to bvect_spher ) of a vector given by its cartesian components with respect to bvect_cart .

Parameters

v_x	[input] x-component of the vector
v_y	[input] y-component of the vector
v_z	[input] z-component of the vector
v_r	[output] r -component of the vector

◆ comp_t_from_cartesian() [1/2]

virtual void Lorene::comp_t_from_cartesian	(	const Cmp &	v_x,
		const Cmp &	v_y,
		const Cmp &	v_z,
		Cmp &	v_t ) const

pure virtual

Cmp version

◆ comp_t_from_cartesian() [2/2]

virtual void Lorene::comp_t_from_cartesian	(	const Scalar &	v_x,
		const Scalar &	v_y,
		const Scalar &	v_z,
		Scalar &	v_t ) const

pure virtual

Computes the Spherical $\theta$ component (with respect to bvect_spher ) of a vector given by its cartesian components with respect to bvect_cart .

Parameters

v_x	[input] x-component of the vector
v_y	[input] y-component of the vector
v_z	[input] z-component of the vector
v_t	[output] $\theta$ -component of the vector

◆ comp_x_from_spherical() [1/2]

virtual void Lorene::comp_x_from_spherical	(	const Cmp &	v_r,
		const Cmp &	v_theta,
		const Cmp &	v_phi,
		Cmp &	v_x ) const

pure virtual

Cmp version

◆ comp_x_from_spherical() [2/2]

virtual void Lorene::comp_x_from_spherical	(	const Scalar &	v_r,
		const Scalar &	v_theta,
		const Scalar &	v_phi,
		Scalar &	v_x ) const

pure virtual

Computes the Cartesian x component (with respect to bvect_cart ) of a vector given by its spherical components with respect to bvect_spher .

Parameters

v_r	[input] r -component of the vector
v_theta	[input] $\theta$ -component of the vector
v_phi	[input] $\phi$ -component of the vector
v_x	[output] x-component of the vector

◆ comp_y_from_spherical() [1/2]

virtual void Lorene::comp_y_from_spherical	(	const Cmp &	v_r,
		const Cmp &	v_theta,
		const Cmp &	v_phi,
		Cmp &	v_y ) const

pure virtual

Cmp version

◆ comp_y_from_spherical() [2/2]

virtual void Lorene::comp_y_from_spherical	(	const Scalar &	v_r,
		const Scalar &	v_theta,
		const Scalar &	v_phi,
		Scalar &	v_y ) const

pure virtual

Computes the Cartesian y component (with respect to bvect_cart ) of a vector given by its spherical components with respect to bvect_spher .

Parameters

v_r	[input] r -component of the vector
v_theta	[input] $\theta$ -component of the vector
v_phi	[input] $\phi$ -component of the vector
v_y	[output] y-component of the vector

◆ comp_z_from_spherical() [1/2]

virtual void Lorene::comp_z_from_spherical	(	const Cmp &	v_r,
		const Cmp &	v_theta,
		Cmp &	v_z ) const

pure virtual

Cmp version

◆ comp_z_from_spherical() [2/2]

virtual void Lorene::comp_z_from_spherical	(	const Scalar &	v_r,
		const Scalar &	v_theta,
		Scalar &	v_z ) const

pure virtual

Computes the Cartesian z component (with respect to bvect_cart ) of a vector given by its spherical components with respect to bvect_spher .

Parameters

v_r	[input] r -component of the vector
v_theta	[input] $\theta$ -component of the vector
v_z	[output] z-component of the vector

◆ contract_desal()

Tenseur Lorene::contract_desal	(	const Tenseur &	t1,
		int	ind1,
		const Tenseur &	t2,
		int	ind2 )

Definition at line 428 of file tenseur_operateur.C.

◆ convert_absolute()

void Map::convert_absolute	(	double	xx,
		double	yy,
		double	zz,
		double &	rr,
		double &	theta,
		double &	pphi ) const

Determines the coordinates $(r,\theta,\phi)$ corresponding to given absolute Cartesian coordinates (X,Y,Z).

Parameters

xx	[input] value of the coordinate x (absolute frame)
yy	[input] value of the coordinate y (absolute frame)
zz	[input] value of the coordinate z (absolute frame)
rr	[output] value of r
theta	[output] value of $\theta$
pphi	[output] value of $\phi$

Definition at line 302 of file map.C.

References sqrt().

◆ copar()

int Lorene::copar	(	const void *	a,
		const void *	b )

Definition at line 464 of file grille_val_interp.C.

◆ coupe_l_tous()

void Lorene::coupe_l_tous	(	Sym_tensor &	hij,
		Sym_tensor &	aa,
		Scalar &	nn,
		Scalar &	ppsi,
		Vector &	bb,
		int	ntt,
		int	cutoff )

Definition at line 23 of file spectral_cutoff.C.

◆ d2sdx2_1d()

void Lorene::d2sdx2_1d	(	int	nr,
		double **	tb,
		int	base_r )

Definition at line 452 of file d2sdx2_1d.C.

◆ dal_inverse()

Tbl Lorene::dal_inverse	(	const int &	base_r,
		const int &	type_dal,
		const Matrice &	operateur,
		const Tbl &	source,
		const bool	part )

Definition at line 949 of file dal_inverse.C.

◆ dalembert()

virtual void Lorene::dalembert	(	Param &	par,
		Scalar &	fJp1,
		const Scalar &	fJ,
		const Scalar &	fJm1,
		const Scalar &	source ) const

pure virtual

Performs one time-step integration of the d'Alembert scalar equation.

Parameters

par	[input/output] possible parameters to control the resolution of the wave equation. See the actual implementation in the derived class of `Map` for documentation. Note that, at least, param must contain the time step as first `double` parameter.
fJp1	[output] solution $f^{J+1}$ at time J+1 with boundary conditions of outgoing radiation (not exact!)
fJ	[input] solution at time J
fJm1	[input] solution $f^{J-1}$ at time J-1
source	[input] source $\sigma$ of the d'Alembert equation $\diamond u = \sigma$ .

References Map().

◆ dec2_dzpuis()

virtual void Lorene::dec2_dzpuis ( Scalar & ) const

pure virtual

Decreases by 2 the value of dzpuis of a Scalar
and changes accordingly its values in the
compactified external domain (CED).

◆ dec_dzpuis()

virtual void Lorene::dec_dzpuis ( Scalar & ) const

pure virtual

Decreases by 1 the value of dzpuis of a Scalar
and changes accordingly its values in the
compactified external domain (CED).

◆ des_bi_coupe_y() [1/2]

void Lorene::des_bi_coupe_y	(	const Cmp &	uu,
		double	y0,
		double	x_min,
		double	x_max,
		double	z_min,
		double	z_max,
		const char *	title,
		const Cmp *	defsurf,
		const Cmp *	defsurf2,
		bool	draw_bound,
		int	ncour,
		int	nx,
		int	nz )

Definition at line 100 of file des_bi_coupe.C.

◆ des_bi_coupe_y() [2/2]

void Lorene::des_bi_coupe_y	(	const Cmp &	uu,
		double	y0,
		int	nzdes,
		const char *	title,
		const Cmp *	defsurf,
		const Cmp *	defsurf2,
		double	zoom,
		bool	draw_bound,
		int	ncour,
		int	nx,
		int	nz )

Definition at line 71 of file des_bi_coupe.C.

◆ des_coef()

void Lorene::des_coef	(	const double *	cf,
		int	n,
		double	pzero,
		const char *	nomx,
		const char *	nomy,
		const char *	title,
		const char *	device,
		int	newgraph,
		int	nxpage,
		int	nypage )

Definition at line 75 of file des_coef.C.

◆ des_coef_phi()

void Lorene::des_coef_phi	(	const Valeur &	uu,
		int	l,
		int	j,
		int	i,
		double	pzero,
		const char *	nomy,
		const char *	title,
		const char *	device,
		int	newgraph,
		int	nxpage,
		int	nypage )

Definition at line 240 of file des_coef_valeur.C.

◆ des_coef_theta()

void Lorene::des_coef_theta	(	const Valeur &	uu,
		int	l,
		int	k,
		int	i,
		double	pzero,
		const char *	nomy,
		const char *	title,
		const char *	device,
		int	newgraph,
		int	nxpage,
		int	nypage )

Definition at line 162 of file des_coef_valeur.C.

◆ des_coef_xi()

void Lorene::des_coef_xi	(	const Valeur &	uu,
		int	l,
		int	k,
		int	j,
		double	pzero,
		const char *	nomy,
		const char *	title,
		const char *	device,
		int	newgraph,
		int	nxpage,
		int	nypage )

Definition at line 83 of file des_coef_valeur.C.

◆ des_coupe_bin_x()

void Lorene::des_coupe_bin_x	(	const Cmp &	uu1,
		const Cmp &	uu2,
		double	x0,
		double	y_min,
		double	y_max,
		double	z_min,
		double	z_max,
		const char *	title,
		const Cmp *	defsurf1,
		const Cmp *	defsurf2,
		bool	draw_bound,
		int	ncour,
		int	ny,
		int	nz )

Definition at line 74 of file des_coupe_bin.C.

◆ des_coupe_bin_y()

void Lorene::des_coupe_bin_y	(	const Cmp &	uu1,
		const Cmp &	uu2,
		double	y0,
		double	x_min,
		double	x_max,
		double	z_min,
		double	z_max,
		const char *	title,
		const Cmp *	defsurf1,
		const Cmp *	defsurf2,
		bool	draw_bound,
		int	ncour,
		int	nx,
		int	nz )

Definition at line 180 of file des_coupe_bin.C.

◆ des_coupe_bin_z()

void Lorene::des_coupe_bin_z	(	const Cmp &	uu1,
		const Cmp &	uu2,
		double	z0,
		double	x_min,
		double	x_max,
		double	y_min,
		double	y_max,
		const char *	title,
		const Cmp *	defsurf1,
		const Cmp *	defsurf2,
		bool	draw_bound,
		int	ncour,
		int	nx,
		int	ny )

Definition at line 288 of file des_coupe_bin.C.

◆ des_coupe_vect_x() [1/4]

void Lorene::des_coupe_vect_x	(	const Tenseur &	vv,
		double	x0,
		double	scale,
		double	sizefl,
		double	y_min,
		double	y_max,
		double	z_min,
		double	z_max,
		const char *	title,
		const Cmp *	defsurf,
		bool	draw_bound,
		int	ny,
		int	nz )

Definition at line 103 of file des_coupe_vect.C.

◆ des_coupe_vect_x() [2/4]

void Lorene::des_coupe_vect_x	(	const Tenseur &	vv,
		double	x0,
		double	scale,
		double	sizefl,
		int	nzdes,
		const char *	title,
		const Cmp *	defsurf,
		double	zoom,
		bool	draw_bound,
		int	ny,
		int	nz )

Definition at line 72 of file des_coupe_vect.C.

◆ des_coupe_vect_x() [3/4]

void Lorene::des_coupe_vect_x	(	const Vector &	vv,
		double	x0,
		double	scale,
		double	sizefl,
		double	y_min,
		double	y_max,
		double	z_min,
		double	z_max,
		const char *	title,
		const Scalar *	defsurf,
		bool	draw_bound,
		int	ny,
		int	nz )

Definition at line 91 of file des_coupe_vector.C.

◆ des_coupe_vect_x() [4/4]

void Lorene::des_coupe_vect_x	(	const Vector &	vv,
		double	x0,
		double	scale,
		double	sizefl,
		int	nzdes,
		const char *	title,
		const Scalar *	defsurf,
		double	zoom,
		bool	draw_bound,
		int	ny,
		int	nz )

Definition at line 60 of file des_coupe_vector.C.

◆ des_coupe_vect_y() [1/4]

void Lorene::des_coupe_vect_y	(	const Tenseur &	vv,
		double	y0,
		double	scale,
		double	sizefl,
		double	x_min,
		double	x_max,
		double	z_min,
		double	z_max,
		const char *	title,
		const Cmp *	defsurf,
		bool	draw_bound,
		int	nx,
		int	nz )

Definition at line 244 of file des_coupe_vect.C.

◆ des_coupe_vect_y() [2/4]

void Lorene::des_coupe_vect_y	(	const Tenseur &	vv,
		double	y0,
		double	scale,
		double	sizefl,
		int	nzdes,
		const char *	title,
		const Cmp *	defsurf,
		double	zoom,
		bool	draw_bound,
		int	nx,
		int	nz )

Definition at line 212 of file des_coupe_vect.C.

◆ des_coupe_vect_y() [3/4]

void Lorene::des_coupe_vect_y	(	const Vector &	vv,
		double	y0,
		double	scale,
		double	sizefl,
		double	x_min,
		double	x_max,
		double	z_min,
		double	z_max,
		const char *	title,
		const Scalar *	defsurf,
		bool	draw_bound,
		int	nx,
		int	nz )

Definition at line 226 of file des_coupe_vector.C.

◆ des_coupe_vect_y() [4/4]

void Lorene::des_coupe_vect_y	(	const Vector &	vv,
		double	y0,
		double	scale,
		double	sizefl,
		int	nzdes,
		const char *	title,
		const Scalar *	defsurf,
		double	zoom,
		bool	draw_bound,
		int	nx,
		int	nz )

Definition at line 194 of file des_coupe_vector.C.

◆ des_coupe_vect_z() [1/4]

void Lorene::des_coupe_vect_z	(	const Tenseur &	vv,
		double	z0,
		double	scale,
		double	sizefl,
		double	x_min,
		double	x_max,
		double	y_min,
		double	y_max,
		const char *	title,
		const Cmp *	defsurf,
		bool	draw_bound,
		int	nx,
		int	ny )

Definition at line 384 of file des_coupe_vect.C.

◆ des_coupe_vect_z() [2/4]

void Lorene::des_coupe_vect_z	(	const Tenseur &	vv,
		double	z0,
		double	scale,
		double	sizefl,
		int	nzdes,
		const char *	title,
		const Cmp *	defsurf,
		double	zoom,
		bool	draw_bound,
		int	nx,
		int	ny )

Definition at line 353 of file des_coupe_vect.C.

◆ des_coupe_vect_z() [3/4]

void Lorene::des_coupe_vect_z	(	const Vector &	vv,
		double	z0,
		double	scale,
		double	sizefl,
		double	x_min,
		double	x_max,
		double	y_min,
		double	y_max,
		const char *	title,
		const Scalar *	defsurf,
		bool	draw_bound,
		int	nx,
		int	ny )

Definition at line 360 of file des_coupe_vector.C.

◆ des_coupe_vect_z() [4/4]

void Lorene::des_coupe_vect_z	(	const Vector &	vv,
		double	z0,
		double	scale,
		double	sizefl,
		int	nzdes,
		const char *	title,
		const Scalar *	defsurf,
		double	zoom,
		bool	draw_bound,
		int	nx,
		int	ny )

Definition at line 329 of file des_coupe_vector.C.

◆ des_coupe_vtk_x() [1/2]

void Lorene::des_coupe_vtk_x	(	const Scalar &	uu,
		double	x0,
		double	y_min,
		double	y_max,
		double	z_min,
		double	z_max,
		const char *	title,
		int	ny,
		int	nz )

Definition at line 42 of file des_vtk_scalar.C.

◆ des_coupe_vtk_x() [2/2]

void Lorene::des_coupe_vtk_x	(	const Scalar &	uu,
		double	x0,
		int	nzdes,
		const char *	title,
		double	zoom,
		int	ny,
		int	nz )

Definition at line 136 of file des_vtk_scalar.C.

◆ des_coupe_vtk_y() [1/2]

void Lorene::des_coupe_vtk_y	(	const Scalar &	uu,
		double	y0,
		double	x_min,
		double	x_max,
		double	z_min,
		double	z_max,
		const char *	title,
		int	nx,
		int	nz )

Definition at line 165 of file des_vtk_scalar.C.

◆ des_coupe_vtk_y() [2/2]

void Lorene::des_coupe_vtk_y	(	const Scalar &	uu,
		double	y0,
		int	nzdes,
		const char *	title,
		double	zoom,
		int	nx,
		int	nz )

Definition at line 260 of file des_vtk_scalar.C.

◆ des_coupe_vtk_z() [1/2]

void Lorene::des_coupe_vtk_z	(	const Scalar &	uu,
		double	z0,
		double	x_min,
		double	x_max,
		double	y_min,
		double	y_max,
		const char *	title,
		int	nx,
		int	ny )

Definition at line 288 of file des_vtk_scalar.C.

◆ des_coupe_vtk_z() [2/2]

void Lorene::des_coupe_vtk_z	(	const Scalar &	uu,
		double	z0,
		int	nzdes,
		const char *	title,
		double	zoom,
		int	nx,
		int	ny )

Definition at line 380 of file des_vtk_scalar.C.

◆ des_coupe_x() [1/4]

void Lorene::des_coupe_x	(	const Cmp &	uu,
		double	x0,
		double	y_min,
		double	y_max,
		double	z_min,
		double	z_max,
		const char *	title,
		const Cmp *	defsurf,
		bool	draw_bound,
		int	ncour,
		int	ny,
		int	nz )

Definition at line 125 of file des_coupe_x.C.

◆ des_coupe_x() [2/4]

void Lorene::des_coupe_x	(	const Cmp &	uu,
		double	x0,
		int	nzdes,
		const char *	title,
		const Cmp *	defsurf,
		double	zoom,
		bool	draw_bound,
		int	ncour,
		int	ny,
		int	nz )

Definition at line 94 of file des_coupe_x.C.

◆ des_coupe_x() [3/4]

void Lorene::des_coupe_x	(	const Scalar &	uu,
		double	x0,
		double	y_min,
		double	y_max,
		double	z_min,
		double	z_max,
		const char *	title,
		const Scalar *	defsurf,
		bool	draw_bound,
		int	ncour,
		int	ny,
		int	nz )

Definition at line 87 of file des_coupe_scalar.C.

◆ des_coupe_x() [4/4]

void Lorene::des_coupe_x	(	const Scalar &	uu,
		double	x0,
		int	nzdes,
		const char *	title,
		const Scalar *	defsurf,
		double	zoom,
		bool	draw_bound,
		int	ncour,
		int	ny,
		int	nz )

Definition at line 58 of file des_coupe_scalar.C.

◆ des_coupe_y() [1/4]

void Lorene::des_coupe_y	(	const Cmp &	uu,
		double	y0,
		double	x_min,
		double	x_max,
		double	z_min,
		double	z_max,
		const char *	title,
		const Cmp *	defsurf,
		bool	draw_bound,
		int	ncour,
		int	nx,
		int	nz )

Definition at line 124 of file des_coupe_y.C.

◆ des_coupe_y() [2/4]

void Lorene::des_coupe_y	(	const Cmp &	uu,
		double	y0,
		int	nzdes,
		const char *	title,
		const Cmp *	defsurf,
		double	zoom,
		bool	draw_bound,
		int	ncour,
		int	nx,
		int	nz )

Definition at line 95 of file des_coupe_y.C.

◆ des_coupe_y() [3/4]

void Lorene::des_coupe_y	(	const Scalar &	uu,
		double	y0,
		double	x_min,
		double	x_max,
		double	z_min,
		double	z_max,
		const char *	title,
		const Scalar *	defsurf,
		bool	draw_bound,
		int	ncour,
		int	nx,
		int	nz )

Definition at line 204 of file des_coupe_scalar.C.

◆ des_coupe_y() [4/4]

void Lorene::des_coupe_y	(	const Scalar &	uu,
		double	y0,
		int	nzdes,
		const char *	title,
		const Scalar *	defsurf,
		double	zoom,
		bool	draw_bound,
		int	ncour,
		int	nx,
		int	nz )

Definition at line 175 of file des_coupe_scalar.C.

◆ des_coupe_z() [1/4]

void Lorene::des_coupe_z	(	const Cmp &	uu,
		double	z0,
		double	x_min,
		double	x_max,
		double	y_min,
		double	y_max,
		const char *	title,
		const Cmp *	defsurf,
		bool	draw_bound,
		int	ncour,
		int	nx,
		int	ny )

Definition at line 118 of file des_coupe_z.C.

◆ des_coupe_z() [2/4]

void Lorene::des_coupe_z	(	const Cmp &	uu,
		double	z0,
		int	nzdes,
		const char *	title,
		const Cmp *	defsurf,
		double	zoom,
		bool	draw_bound,
		int	ncour,
		int	nx,
		int	ny )

Definition at line 89 of file des_coupe_z.C.

◆ des_coupe_z() [3/4]

void Lorene::des_coupe_z	(	const Scalar &	uu,
		double	z0,
		double	x_min,
		double	x_max,
		double	y_min,
		double	y_max,
		const char *	title,
		const Scalar *	defsurf,
		bool	draw_bound,
		int	ncour,
		int	nx,
		int	ny )

Definition at line 324 of file des_coupe_scalar.C.

◆ des_coupe_z() [4/4]

void Lorene::des_coupe_z	(	const Scalar &	uu,
		double	z0,
		int	nzdes,
		const char *	title,
		const Scalar *	defsurf,
		double	zoom,
		bool	draw_bound,
		int	ncour,
		int	nx,
		int	ny )

Definition at line 294 of file des_coupe_scalar.C.

◆ des_domaine_x()

void Lorene::des_domaine_x	(	const Map &	mp,
		int	l0,
		double	x0,
		const char *	device,
		int	newgraph,
		double	y_min,
		double	y_max,
		double	z_min,
		double	z_max,
		const char *	nomy,
		const char *	nomz,
		const char *	title,
		int	nxpage,
		int	nypage )

Definition at line 90 of file des_domaine.C.

◆ des_domaine_y()

void Lorene::des_domaine_y	(	const Map &	mp,
		int	l0,
		double	y0,
		const char *	device,
		int	newgraph,
		double	x_min,
		double	x_max,
		double	z_min,
		double	z_max,
		const char *	nomx,
		const char *	nomz,
		const char *	title,
		int	nxpage,
		int	nypage )

Definition at line 209 of file des_domaine.C.

◆ des_domaine_z()

void Lorene::des_domaine_z	(	const Map &	mp,
		int	l0,
		double	z0,
		const char *	device,
		int	newgraph,
		double	x_min,
		double	x_max,
		double	y_min,
		double	y_max,
		const char *	nomx,
		const char *	nomy,
		const char *	title,
		int	nxpage,
		int	nypage )

Definition at line 327 of file des_domaine.C.

◆ des_equipot()

void Lorene::des_equipot	(	float *	uutab,
		int	nx,
		int	ny,
		float	xmin,
		float	xmax,
		float	ymin,
		float	ymax,
		int	ncour,
		const char *	nomx,
		const char *	nomy,
		const char *	title,
		const char *	device,
		int	newgraph,
		int	nxpage,
		int	nypage )

Definition at line 74 of file des_equipot.C.

◆ des_evol() [1/2]

void Lorene::des_evol	(	const Evolution< double > &	uu,
		const char *	nomy,
		const char *	title,
		int	ngraph,
		const char *	device,
		bool	closeit,
		bool	show_time,
		const char *	nomx )

Definition at line 64 of file des_evolution.C.

◆ des_evol() [2/2]

void Lorene::des_evol	(	const Evolution< double > &	uu,
		int	j_min,
		int	j_max,
		const char *	nomy,
		const char *	title,
		int	ngraph,
		const char *	device,
		bool	closeit,
		bool	show_time,
		const char *	nomx )

Definition at line 79 of file des_evolution.C.

◆ des_map_et()

void Lorene::des_map_et	(	const Map_et &	mp,
		int	lz )

Definition at line 75 of file des_map_et.C.

◆ des_meridian() [1/2]

void Lorene::des_meridian	(	const Scalar &	uu,
		double	r_min,
		double	r_max,
		const char *	nomy,
		int	ngraph,
		const char *	device,
		bool	closeit,
		bool	draw_bound )

Definition at line 313 of file des_prof_scalar.C.

◆ des_meridian() [2/2]

void Lorene::des_meridian	(	const Sym_tensor &	hh,
		double	r_min,
		double	r_max,
		const char *	name,
		int	ngraph0,
		const char *	device,
		bool	closeit )

Definition at line 336 of file des_prof_scalar.C.

◆ des_points() [1/2]

void Lorene::des_points	(	const Scalar &	uu,
		double	scale,
		double	theta,
		double	phi,
		const char *	nomx,
		const char *	nomy,
		const char *	title,
		bool	draw_bound )

Definition at line 445 of file des_prof_scalar.C.

◆ des_points() [2/2]

void Lorene::des_points	(	const Scalar &	uu,
		double	theta,
		double	phi,
		const char *	nomy,
		const char *	title,
		bool	draw_bound )

Definition at line 373 of file des_prof_scalar.C.

◆ des_profile() [1/6]

void Lorene::des_profile	(	const Cmp &	uu,
		double	r_min,
		double	r_max,
		double	scale,
		double	theta,
		double	phi,
		const char *	nomx,
		const char *	nomy,
		const char *	title )

Definition at line 119 of file des_prof_cmp.C.

◆ des_profile() [2/6]

void Lorene::des_profile	(	const Cmp &	uu,
		double	r_min,
		double	r_max,
		double	theta,
		double	phi,
		const char *	nomy,
		const char *	title )

Definition at line 80 of file des_prof_cmp.C.

◆ des_profile() [3/6]

void Lorene::des_profile	(	const float *	uutab,
		int	nx,
		const float *	xtab,
		const char *	nomx,
		const char *	nomy,
		const char *	title,
		const char *	device,
		int	nbound,
		float *	xbound )

Definition at line 325 of file des_profile.C.

◆ des_profile() [4/6]

void Lorene::des_profile	(	const float *	uutab,
		int	nx,
		float	xmin,
		float	xmax,
		const char *	nomx,
		const char *	nomy,
		const char *	title,
		const char *	device,
		int	nbound,
		float *	xbound )

Definition at line 91 of file des_profile.C.

◆ des_profile() [5/6]

void Lorene::des_profile	(	const Scalar &	uu,
		double	r_min,
		double	r_max,
		double	scale,
		double	theta,
		double	phi,
		const char *	nomx,
		const char *	nomy,
		const char *	title,
		bool	draw_bound )

Definition at line 156 of file des_prof_scalar.C.

◆ des_profile() [6/6]

void Lorene::des_profile	(	const Scalar &	uu,
		double	r_min,
		double	r_max,
		double	theta,
		double	phi,
		const char *	nomy,
		const char *	title,
		bool	draw_bound )

Definition at line 93 of file des_prof_scalar.C.

◆ des_profile_mult() [1/3]

void Lorene::des_profile_mult	(	const float *	uutab,
		int	nprof,
		int	nx,
		const float *	xtab,
		const char *	nomx,
		const char *	nomy,
		const char *	title,
		const int *	line_style,
		int	ngraph,
		bool	closeit,
		const char *	device,
		int	nbound,
		float *	xbound )

Definition at line 419 of file des_profile.C.

◆ des_profile_mult() [2/3]

void Lorene::des_profile_mult	(	const float *	uutab,
		int	nprof,
		int	nx,
		float	xmin,
		float	xmax,
		const char *	nomx,
		const char *	nomy,
		const char *	title,
		const int *	line_style,
		int	ngraph,
		bool	closeit,
		const char *	device,
		int	nbound,
		float *	xbound )

Definition at line 183 of file des_profile.C.

◆ des_profile_mult() [3/3]

void Lorene::des_profile_mult	(	const Scalar **	uu,
		int	nprof,
		double	r_min,
		double	r_max,
		const double *	theta,
		const double *	phi,
		double	radial_scale,
		bool	closeit,
		const char *	nomy,
		const char *	title,
		int	ngraph,
		const char *	nomx,
		const int *	line_style,
		const char *	device,
		bool	draw_bound )

Definition at line 225 of file des_prof_scalar.C.

◆ des_surface_x() [1/2]

void Lorene::des_surface_x	(	const Cmp &	defsurf,
		double	x0,
		const char *	device,
		int	newgraph,
		double	y_min,
		double	y_max,
		double	z_min,
		double	z_max,
		const char *	nomy,
		const char *	nomz,
		const char *	title,
		int	nxpage,
		int	nypage )

Definition at line 83 of file des_surface.C.

◆ des_surface_x() [2/2]

void Lorene::des_surface_x	(	const Scalar &	defsurf,
		double	x0,
		const char *	device,
		int	newgraph,
		double	y_min,
		double	y_max,
		double	z_min,
		double	z_max,
		const char *	nomy,
		const char *	nomz,
		const char *	title,
		int	nxpage,
		int	nypage )

Definition at line 70 of file des_surf_scalar.C.

◆ des_surface_y() [1/2]

void Lorene::des_surface_y	(	const Cmp &	defsurf,
		double	y0,
		const char *	device,
		int	newgraph,
		double	x_min,
		double	x_max,
		double	z_min,
		double	z_max,
		const char *	nomx,
		const char *	nomz,
		const char *	title,
		int	nxpage,
		int	nypage )

Definition at line 203 of file des_surface.C.

◆ des_surface_y() [2/2]

void Lorene::des_surface_y	(	const Scalar &	defsurf,
		double	y0,
		const char *	device,
		int	newgraph,
		double	x_min,
		double	x_max,
		double	z_min,
		double	z_max,
		const char *	nomx,
		const char *	nomz,
		const char *	title,
		int	nxpage,
		int	nypage )

Definition at line 190 of file des_surf_scalar.C.

◆ des_surface_z() [1/2]

void Lorene::des_surface_z	(	const Cmp &	defsurf,
		double	z0,
		const char *	device,
		int	newgraph,
		double	x_min,
		double	x_max,
		double	y_min,
		double	y_max,
		const char *	nomx,
		const char *	nomy,
		const char *	title,
		int	nxpage,
		int	nypage )

Definition at line 323 of file des_surface.C.

◆ des_surface_z() [2/2]

void Lorene::des_surface_z	(	const Scalar &	defsurf,
		double	z0,
		const char *	device,
		int	newgraph,
		double	x_min,
		double	x_max,
		double	y_min,
		double	y_max,
		const char *	nomx,
		const char *	nomy,
		const char *	title,
		int	nxpage,
		int	nypage )

Definition at line 310 of file des_surf_scalar.C.

◆ des_vect()

void Lorene::des_vect	(	float *	vvx,
		float *	vvy,
		int	nx,
		int	ny,
		float	xmin,
		float	xmax,
		float	ymin,
		float	ymax,
		double	scale,
		double	sizefl,
		const char *	nomx,
		const char *	nomy,
		const char *	title,
		const char *	device,
		int	newgraph,
		int	nxpage,
		int	nypage )

Definition at line 72 of file des_vect.C.

◆ des_vect_bin_x()

void Lorene::des_vect_bin_x	(	const Tenseur &	vv1,
		const Tenseur &	vv2,
		double	x0,
		double	scale,
		double	sizefl,
		double	y_min,
		double	y_max,
		double	z_min,
		double	z_max,
		const char *	title,
		const Cmp *	defsurf1,
		const Cmp *	defsurf2,
		bool	draw_bound,
		int	ny,
		int	nz )

Definition at line 75 of file des_vect_bin.C.

◆ des_vect_bin_y()

void Lorene::des_vect_bin_y	(	const Tenseur &	vv1,
		const Tenseur &	vv2,
		double	y0,
		double	scale,
		double	sizefl,
		double	x_min,
		double	x_max,
		double	z_min,
		double	z_max,
		const char *	title,
		const Cmp *	defsurf1,
		const Cmp *	defsurf2,
		bool	draw_bound,
		int	nx,
		int	nz )

Definition at line 224 of file des_vect_bin.C.

◆ des_vect_bin_z()

void Lorene::des_vect_bin_z	(	const Tenseur &	vv1,
		const Tenseur &	vv2,
		double	z0,
		double	scale,
		double	sizefl,
		double	x_min,
		double	x_max,
		double	y_min,
		double	y_max,
		const char *	title,
		const Cmp *	defsurf1,
		const Cmp *	defsurf2,
		bool	draw_bound,
		int	nx,
		int	ny )

Definition at line 371 of file des_vect_bin.C.

◆ des_vtk_xyz() [1/2]

void Lorene::des_vtk_xyz	(	const Scalar &	uu,
		double	x_min,
		double	x_max,
		double	y_min,
		double	y_max,
		double	z_min,
		double	z_max,
		const char *	title,
		int	nx,
		int	ny,
		int	nz )

Definition at line 409 of file des_vtk_scalar.C.

◆ des_vtk_xyz() [2/2]

void Lorene::des_vtk_xyz	(	const Scalar &	uu,
		int	nzdes,
		const char *	title,
		int	nx,
		int	ny,
		int	nz )

Definition at line 507 of file des_vtk_scalar.C.

◆ Dirichlet_BC_Amu()

void Lorene::Dirichlet_BC_Amu	(	const Evolution_std< Vector > &	vb_evol,
		const Evolution_std< Vector > &	dvb_evol,
		Tbl &	ccA,
		Tbl &	ccmu )

Definition at line 296 of file wave_utilities.C.

◆ Dirichlet_BC_AtB()

void Lorene::Dirichlet_BC_AtB	(	const Evolution_std< Sym_tensor > &	hb_evol,
		const Evolution_std< Sym_tensor > &	dhb_evol,
		Tbl &	ccA,
		Tbl &	ccB )

Definition at line 251 of file wave_utilities.C.

◆ dirichlet_binaire() [1/3]

void Lorene::dirichlet_binaire	(	const Cmp &	source_un,
		const Cmp &	source_deux,
		const Valeur &	boundary_un,
		const Valeur &	boundary_deux,
		Cmp &	sol_un,
		Cmp &	sol_deux,
		int	num_front,
		double	precision )

Definition at line 80 of file pde_frontiere_bin.C.

◆ dirichlet_binaire() [2/3]

void Lorene::dirichlet_binaire	(	const Cmp &	source_un,
		const Cmp &	source_deux,
		double	bound_un,
		double	bound_deux,
		Cmp &	sol_un,
		Cmp &	sol_deux,
		int	num_front,
		double	precision )

Definition at line 199 of file pde_frontiere_bin.C.

◆ dirichlet_binaire() [3/3]

void Lorene::dirichlet_binaire	(	const Scalar &	source_un,
		const Scalar &	source_deux,
		const Valeur &	boundary_un,
		const Valeur &	boundary_deux,
		Scalar &	sol_un,
		Scalar &	sol_deux,
		int	num_front,
		double	precision )

Definition at line 224 of file pde_frontiere_bin.C.

◆ div_cost()

virtual void Lorene::div_cost ( Scalar & ) const

pure virtual

Division by $\cos\theta$ of a Scalar.

◆ div_r()

virtual void Lorene::div_r ( Scalar & ) const

pure virtual

Division by r of a Scalar.

◆ div_r_zec()

virtual void Lorene::div_r_zec ( Scalar & ) const

pure virtual

Division by r (in the compactified external domain only) of a Scalar.

◆ div_rsint()

virtual void Lorene::div_rsint ( Scalar & ) const

pure virtual

Division by $r\sin\theta$ of a Scalar.

◆ div_sint()

virtual void Lorene::div_sint ( Scalar & ) const

pure virtual

Division by $\sin\theta$ of a Scalar.

◆ div_tant()

virtual void Lorene::div_tant ( Scalar & ) const

pure virtual

Division by $\tan\theta$ of a Scalar.

◆ division_xpun()

Cmp Lorene::division_xpun	(	const Cmp &	source,
		int	num_front )

Definition at line 62 of file division_xpun.C.

◆ dlpsdlh()

double Lorene::dlpsdlh	(	double	log10PressSmall,
		double	log10PressLarge,
		double	dlpsdlhSmall,
		double	dlpsdlhLarge,
		double	dx,
		double	u )

Definition at line 1150 of file eos_multi_poly.C.

◆ dlpsdlnb()

double Lorene::dlpsdlnb	(	double	log10HSmall,
		double	log10HLarge,
		double	dlpsdlnbSmall,
		double	dlpsdlnbLarge,
		double	log10H )

Definition at line 1163 of file eos_multi_poly.C.

◆ donne_lm()

void Lorene::donne_lm	(	int	nz,
		int	zone,
		int	j,
		int	k,
		Base_val	base,
		int &	m_quant,
		int &	l_quant,
		int &	base_r )

Definition at line 243 of file donne_lm.C.

◆ donne_lm_nonsym()

void Lorene::donne_lm_nonsym	(	int	j,
		int	k,
		int &	m_quant,
		int &	l_quant )

Definition at line 139 of file donne_lm.C.

◆ donne_lm_nonsym_anti()

void Lorene::donne_lm_nonsym_anti	(	int	j,
		int	k,
		int &	m_quant,
		int &	l_quant )

Definition at line 150 of file donne_lm.C.

◆ donne_lm_nonsymTP()

void Lorene::donne_lm_nonsymTP	(	int	j,
		int	k,
		int &	m_quant,
		int &	l_quant )

Definition at line 127 of file donne_lm.C.

◆ donne_lm_sym()

void Lorene::donne_lm_sym	(	int	j,
		int	k,
		int &	m_quant,
		int &	l_quant )

Definition at line 161 of file donne_lm.C.

◆ donne_lm_t_leg_ii()

void Lorene::donne_lm_t_leg_ii	(	int	j,
		int	k,
		int &	m_quant,
		int &	l_quant )

Definition at line 224 of file donne_lm.C.

◆ donne_lm_t_leg_ip()

void Lorene::donne_lm_t_leg_ip	(	int	j,
		int	k,
		int &	m_quant,
		int &	l_quant )

Definition at line 173 of file donne_lm.C.

◆ donne_lm_t_leg_mi()

void Lorene::donne_lm_t_leg_mi	(	int	j,
		int	k,
		int &	m_quant,
		int &	l_quant )

Definition at line 196 of file donne_lm.C.

◆ donne_lm_t_leg_mp()

void Lorene::donne_lm_t_leg_mp	(	int	j,
		int	k,
		int &	m_quant,
		int &	l_quant )

Definition at line 185 of file donne_lm.C.

◆ donne_lm_t_leg_pi()

void Lorene::donne_lm_t_leg_pi	(	int	j,
		int	k,
		int &	m_quant,
		int &	l_quant )

Definition at line 207 of file donne_lm.C.

◆ donne_para_poisson_vect()

virtual Param * Lorene::donne_para_poisson_vect	(	Param &	para,
		int	i ) const

pure virtual

Function intended to be used by Map::poisson_vect and Map::poisson_vect_oohara .

It constructs the sets of parameters used for each scalar Poisson equation from the one for the vectorial one.

Parameters

para	[input] : the `Param` used for the resolution of the vectorial Poisson equation : \ `para.int()` maximum number of iteration.\ `para.double(0)` relaxation parameter.\ `para.double(1)` required precision. \ `para.tenseur_mod()` source of the vectorial part at the previous step.\ `para.cmp_mod()` source of the scalar part at the previous step.
i	[input] number of the scalar Poisson equation that is being solved (values from 0 to 2 for the componants of the vectorial part and 3 for the scalar one).

Returns: the pointer on the parameter set used for solving the scalar Poisson equation labelled by i .

◆ dsdr() [1/2]

virtual void Lorene::dsdr	(	const Cmp &	ci,
		Cmp &	resu ) const

pure virtual

Computes $\partial/ \partial r$ of a Cmp .

Note that in the compactified external domain (CED), it computes $-\partial/ \partial u = r^2 \partial/ \partial r$ .

Parameters

ci	[input] field to consider
resu	[output] derivative of `ci`

◆ dsdr() [2/2]

virtual void Lorene::dsdr	(	const Scalar &	uu,
		Scalar &	resu ) const

pure virtual

Computes $\partial/ \partial r$ of a Scalar .

Note that in the compactified external domain (CED), the dzpuis flag of the output is 2 if the input has dzpuis = 0, and is increased by 1 in other cases.

Parameters

uu	[input] field to consider
resu	[output] derivative of `uu`

◆ dsdradial()

virtual void Lorene::dsdradial	(	const Scalar &	uu,
		Scalar &	resu ) const

pure virtual

Computes $\partial/ \partial r$ of a Scalar if the description is affine and $\partial/ \partial \ln r$ if it is logarithmic.

Note that in the compactified external domain (CED), the dzpuis flag of the output is 2 if the input has dzpuis = 0, and is increased by 1 in other cases.

Parameters

uu	[input] field to consider
resu	[output] derivative of `uu`

◆ dsdt()

virtual void Lorene::dsdt	(	const Scalar &	uu,
		Scalar &	resu ) const

pure virtual

Computes $\partial/ \partial \theta$ of a Scalar .

Parameters

uu	[input] scalar field
resu	[output] derivative of `uu`

◆ dsdx_1d()

void Lorene::dsdx_1d	(	int	,
		double **	,
		int	)

Definition at line 238 of file dsdx_1d.C.

◆ dsdxi() [1/2]

virtual void Lorene::dsdxi	(	const Cmp &	ci,
		Cmp &	resu ) const

pure virtual

Computes $\partial/ \partial \xi$ of a Cmp .

Note that in the compactified external domain (CED), it computes $-\partial/ \partial u = \xi^2 \partial/ \partial \xi$ .

Parameters

ci	[input] field to consider
resu	[output] derivative of `ci`

◆ dsdxi() [2/2]

virtual void Lorene::dsdxi	(	const Scalar &	uu,
		Scalar &	resu ) const

pure virtual

Computes $\partial/ \partial xi$ of a Scalar .

Note that in the compactified external domain (CED), the dzpuis flag of the output is 2 if the input has dzpuis = 0, and is increased by 1 in other cases.

Parameters

uu	[input] field to consider
resu	[output] derivative of `uu`

◆ elliptic_solver()

Mtbl_cf Lorene::elliptic_solver	(	const Param_elliptic &	ope_var,
		const Mtbl_cf &	source )

Definition at line 84 of file sol_elliptic.C.

◆ elliptic_solver_boundary()

Mtbl_cf Lorene::elliptic_solver_boundary	(	const Param_elliptic &	ope_var,
		const Mtbl_cf &	source,
		const Mtbl_cf &	bound,
		double	fact_dir,
		double	fact_neu )

Definition at line 65 of file sol_elliptic_boundary.C.

◆ elliptic_solver_fixe_der_zero()

Mtbl_cf Lorene::elliptic_solver_fixe_der_zero	(	double	valeur,
		const Param_elliptic &	ope_var,
		const Mtbl_cf &	source )

Definition at line 46 of file sol_elliptic_fixe_der_zero.C.

◆ elliptic_solver_no_zec()

Mtbl_cf Lorene::elliptic_solver_no_zec	(	const Param_elliptic &	ope_var,
		const Mtbl_cf &	source,
		double	val )

Definition at line 73 of file sol_elliptic_no_zec.C.

◆ elliptic_solver_only_zec()

Mtbl_cf Lorene::elliptic_solver_only_zec	(	const Param_elliptic &	ope_var,
		const Mtbl_cf &	source,
		double	val )

Definition at line 66 of file sol_elliptic_only_zec.C.

◆ elliptic_solver_sin_zec()

Mtbl_cf Lorene::elliptic_solver_sin_zec	(	const Param_elliptic &	ope_var,
		const Mtbl_cf &	source,
		double *	amplis,
		double *	phases )

Definition at line 76 of file sol_elliptic_sin_zec.C.

◆ enthal()

double Lorene::enthal	(	const double	x,
		const Param &	parent )

Definition at line 1025 of file eos_bf_poly.C.

◆ enthal1()

double Lorene::enthal1	(	const double	x,
		const Param &	parent )

Definition at line 1000 of file eos_bf_poly.C.

◆ enthal23()

double Lorene::enthal23	(	const double	x,
		const Param &	parent )

Definition at line 1009 of file eos_bf_poly.C.

◆ et_rot_diff_fzero()

double Lorene::et_rot_diff_fzero	(	double	omeg,
		const Param &	par )

Definition at line 172 of file et_rot_diff_faitomeg.C.

◆ evolve_outgoing_BC()

void Lorene::evolve_outgoing_BC	(	double	dt,
		int	nz_bound,
		const Scalar &	phi,
		Scalar &	sphi,
		Tbl &	xij,
		Tbl &	xijm1,
		Tbl &	ccc,
		int	dl = 0 )

Definition at line 195 of file wave_utilities.C.

◆ exp_filter_r_all_domains()

void Lorene::exp_filter_r_all_domains	(	Scalar &	ss,
		int	p,
		double	alpha )

Definition at line 130 of file scalar_exp_filter.C.

◆ facto_ini()

int * Lorene::facto_ini ( int n )

Definition at line 95 of file facto_ini.C.

◆ fc()

double Lorene::fc ( double xx )

Definition at line 516 of file eos_fitting.C.

◆ ff()

double Lorene::ff	(	double	xx,
		const double	cc )

Definition at line 138 of file blackhole_rah_iso.C.

◆ flat_met_cart()

const Metric_flat & Map::flat_met_cart ( ) const

Returns the flat metric associated with the Cartesian coordinates and with components expressed in the triad bvect_cart.

Definition at line 331 of file map.C.

References bvect_cart, and p_flat_met_cart.

◆ flat_met_spher()

const Metric_flat & Map::flat_met_spher ( ) const

Returns the flat metric associated with the spherical coordinates and with components expressed in the triad bvect_spher.

Definition at line 321 of file map.C.

References bvect_spher, and p_flat_met_spher.

◆ fonc_bhns_orbit_cf()

double Lorene::fonc_bhns_orbit_cf	(	double	om,
		const Param &	parf )

Definition at line 582 of file bin_bhns_extr_orbit.C.

◆ fonc_bhns_orbit_ks()

double Lorene::fonc_bhns_orbit_ks	(	double	om,
		const Param &	parf )

Definition at line 545 of file bin_bhns_extr_orbit.C.

◆ fonc_bin_ns_bh_orbit()

double Lorene::fonc_bin_ns_bh_orbit	(	double	om,
		const Param &	parf )

Definition at line 279 of file bin_ns_bh_orbit.C.

◆ fonc_binaire_axe()

double Lorene::fonc_binaire_axe	(	double	x_rot,
		const Param &	paraxe )

Definition at line 800 of file binaire_orbite.C.

◆ fonc_binaire_orbit()

double Lorene::fonc_binaire_orbit	(	double	om,
		const Param &	parf )

Definition at line 857 of file binaire_orbite.C.

◆ fonc_binary_axe()

double Lorene::fonc_binary_axe	(	double	x_rot,
		const Param &	paraxe )

Definition at line 425 of file binary_orbite.C.

◆ fonc_binary_orbit()

double Lorene::fonc_binary_orbit	(	double	om,
		const Param &	parf )

Definition at line 543 of file binary_orbite.C.

◆ fonc_binary_xcts_axe()

double Lorene::fonc_binary_xcts_axe	(	double	x_rot,
		const Param &	paraxe )

Definition at line 373 of file binary_orbit_xcts.C.

◆ fonc_binary_xcts_orbit()

double Lorene::fonc_binary_xcts_orbit	(	double	om,
		const Param &	parf )

Definition at line 430 of file binary_orbit_xcts.C.

◆ fonc_des_domaine_x()

double Lorene::fonc_des_domaine_x	(	double	vrho,
		const Param &	par )

Definition at line 448 of file des_domaine.C.

◆ fonc_des_domaine_y()

double Lorene::fonc_des_domaine_y	(	double	vrho,
		const Param &	par )

Definition at line 469 of file des_domaine.C.

◆ fonc_des_domaine_z()

double Lorene::fonc_des_domaine_z	(	double	vrho,
		const Param &	par )

Definition at line 490 of file des_domaine.C.

◆ fonc_des_surf_scal_x()

double Lorene::fonc_des_surf_scal_x	(	double	vrho,
		const Param &	par )

Definition at line 439 of file des_surf_scalar.C.

◆ fonc_des_surf_scal_y()

double Lorene::fonc_des_surf_scal_y	(	double	vrho,
		const Param &	par )

Definition at line 460 of file des_surf_scalar.C.

◆ fonc_des_surf_scal_z()

double Lorene::fonc_des_surf_scal_z	(	double	vrho,
		const Param &	par )

Definition at line 481 of file des_surf_scalar.C.

◆ fonc_des_surface_x()

double Lorene::fonc_des_surface_x	(	double	vrho,
		const Param &	par )

Definition at line 452 of file des_surface.C.

◆ fonc_des_surface_y()

double Lorene::fonc_des_surface_y	(	double	vrho,
		const Param &	par )

Definition at line 473 of file des_surface.C.

◆ fonc_des_surface_z()

double Lorene::fonc_des_surface_z	(	double	vrho,
		const Param &	par )

Definition at line 494 of file des_surface.C.

◆ fonc_expansion()

double Lorene::fonc_expansion	(	double	rr,
		const Param &	par_expansion )

Definition at line 1116 of file isol_hor.C.

◆ fonc_invr_map_et_coq()

double Lorene::fonc_invr_map_et_coq	(	double	x,
		const Param &	par )

Definition at line 630 of file map_et_radius.C.

◆ fonc_invr_map_et_noyau()

double Lorene::fonc_invr_map_et_noyau	(	double	x,
		const Param &	par )

Definition at line 612 of file map_et_radius.C.

◆ fonc_invr_map_et_zec()

double Lorene::fonc_invr_map_et_zec	(	double	x,
		const Param &	par )

Definition at line 648 of file map_et_radius.C.

◆ fonct_etoile_rot_isco()

double Lorene::fonct_etoile_rot_isco	(	double	xi,
		const Param &	par )

Definition at line 338 of file et_rot_isco.C.

◆ func_binbhns_orbit_is()

double Lorene::func_binbhns_orbit_is	(	double	om,
		const Param &	parorb )

Definition at line 669 of file bin_bhns_orbit.C.

◆ func_binbhns_orbit_ks()

double Lorene::func_binbhns_orbit_ks	(	double	om,
		const Param &	parorb )

Definition at line 608 of file bin_bhns_orbit.C.

◆ funct_compobj_QI_isco()

double Lorene::funct_compobj_QI_isco	(	double	xi,
		const Param &	par )

Definition at line 528 of file compobj_QI_global.C.

◆ funct_compobj_QI_rmb()

double Lorene::funct_compobj_QI_rmb	(	double	zeros,
		const Param &	par )

Definition at line 548 of file compobj_QI_global.C.

◆ funct_star_rot_isco()

double Lorene::funct_star_rot_isco	(	double	xi,
		const Param &	par )

Definition at line 326 of file star_rot_isco.C.

◆ gc()

double Lorene::gc ( double xx )

Definition at line 524 of file eos_fitting.C.

◆ get_bvect_cart()

const Base_vect_cart & Lorene::get_bvect_cart ( ) const

Returns the Cartesian basis $(\partial/\partial x,\partial/\partial y,\partial/\partial z)$ associated with the coordinates (x,y,z) of the mapping, i.e.

the Cartesian coordinates related to $(r, \theta, \phi)$ by means of usual formulae.

Definition at line 791 of file map.h.

References bvect_cart.

◆ get_bvect_spher()

const Base_vect_spher & Lorene::get_bvect_spher ( ) const

Returns the orthonormal vectorial basis $(\partial/\partial r,1/r\partial/\partial \theta, 1/(r\sin\theta)\partial/\partial \phi)$ associated with the coordinates $(r, \theta, \phi)$ of the mapping.

Definition at line 783 of file map.h.

References bvect_spher.

◆ get_legendre_data()

void Lorene::get_legendre_data	(	int	np,
		Tbl *&	p_Pni,
		Tbl *&	p_wn )

Definition at line 191 of file leg_ini.C.

◆ get_mg()

const Mg3d * Lorene::get_mg ( ) const

Gives the Mg3d on which the mapping is defined.

Definition at line 765 of file map.h.

◆ get_operateur_dal()

void Lorene::get_operateur_dal	(	const Param &	par,
		const int &	lzone,
		const int &	base_r,
		int &	type_dal,
		Matrice &	operateur )

Definition at line 549 of file get_operateur.C.

◆ get_ori_x()

double Lorene::get_ori_x ( ) const

Returns the x coordinate of the origin.

Definition at line 768 of file map.h.

◆ get_ori_y()

double Lorene::get_ori_y ( ) const

Returns the y coordinate of the origin.

Definition at line 770 of file map.h.

◆ get_ori_z()

double Lorene::get_ori_z ( ) const

Returns the z coordinate of the origin.

Definition at line 772 of file map.h.

◆ get_rot_phi()

double Lorene::get_rot_phi ( ) const

Returns the angle between the x –axis and X –axis.

Definition at line 775 of file map.h.

◆ gg()

double Lorene::gg	(	double	xx,
		const double	cc )

Definition at line 215 of file blackhole_r_coord.C.

◆ hc()

double Lorene::hc ( double xx )

Definition at line 539 of file eos_fitting.C.

◆ helmholtz_minus_mat()

Matrice Lorene::helmholtz_minus_mat	(	int	n,
		int	lq,
		double	alpha,
		double	beta,
		double	masse,
		int	base_r )

Definition at line 334 of file helmholtz_minus_mat.C.

◆ helmholtz_plus_mat()

Matrice Lorene::helmholtz_plus_mat	(	int	n,
		int	lq,
		double	alpha,
		double	beta,
		double	masse,
		int	base_r )

Definition at line 229 of file helmholtz_plus_mat.C.

◆ homothetie()

virtual void Lorene::homothetie ( double lambda )

pure virtual

Sets a new radial scale.

Parameters

lambda [input] factor by which the value of r is to be multiplied

◆ huntm()

void Lorene::huntm	(	const Tbl &	xx,
		double &	x,
		int &	i_low )

Definition at line 93 of file interpol_herm.C.

◆ ibase_non_def_p()

void Lorene::ibase_non_def_p	(	const int *	,
		const int *	,
		const int *	,
		double *	,
		double *	)

Definition at line 370 of file valeur_coef_i.C.

◆ ibase_non_def_r()

void Lorene::ibase_non_def_r	(	const int *	,
		const int *	,
		double *	,
		const int *	,
		double *	)

Definition at line 359 of file valeur_coef_i.C.

◆ ibase_non_def_t()

void Lorene::ibase_non_def_t	(	const int *	,
		const int *	,
		double *	,
		const int *	,
		double *	)

Definition at line 364 of file valeur_coef_i.C.

◆ ide()

double Lorene::ide ( double x )

Definition at line 70 of file change_var.C.

◆ inc2_dzpuis()

virtual void Lorene::inc2_dzpuis ( Scalar & ) const

pure virtual

Increases by 2 the value of dzpuis of a Scalar
and changes accordingly its values in the
compactified external domain (CED).

◆ inc_dzpuis()

virtual void Lorene::inc_dzpuis ( Scalar & ) const

pure virtual

Increases by 1 the value of dzpuis of a Scalar
and changes accordingly its values in the
compactified external domain (CED).

◆ initialize_outgoing_BC()

void Lorene::initialize_outgoing_BC	(	int	nz_bound,
		const Scalar &	phi,
		const Scalar &	dphi,
		Tbl &	xij )

Definition at line 155 of file wave_utilities.C.

◆ int1d_cheb()

double Lorene::int1d_cheb	(	int	nr,
		const double *	cf )

Definition at line 69 of file int1d_cheb.C.

◆ int1d_chebi()

double Lorene::int1d_chebi	(	int	nr,
		const double *	cf )

Definition at line 75 of file int1d_chebi.C.

◆ int1d_chebp()

double Lorene::int1d_chebp	(	int	nr,
		const double *	cf )

Definition at line 72 of file int1d_chebp.C.

◆ integrale()

virtual Tbl * Lorene::integrale ( const Cmp & ) const

pure virtual

Computes the integral over all space of a Cmp .

The computed quantity is $\int u \, r^2 \sin\theta \, dr\, d\theta \, d\phi$ . The routine allocates a Tbl (size: mg->nzone ) to store the result (partial integral) in each domain and returns a pointer to it.

◆ integrale2d()

double Lorene::integrale2d ( const Scalar & fi )

Definition at line 40 of file integrale2d.C.

◆ interpol_herm()

void Lorene::interpol_herm	(	const Tbl &	xtab,
		const Tbl &	ytab,
		const Tbl &	dytab,
		double	x,
		int &	i,
		double &	y,
		double &	dy )

Definition at line 175 of file interpol_herm.C.

◆ interpol_herm_2d()

void Lorene::interpol_herm_2d	(	const Tbl &	xtab,
		const Tbl &	ytab,
		const Tbl &	ftab,
		const Tbl &	dfdxtab,
		const Tbl &	dfdytab,
		const Tbl &	d2fdxdytab,
		double	x,
		double	y,
		double &	f,
		double &	dfdx,
		double &	dfdy )

Definition at line 242 of file interpol_herm.C.

◆ interpol_herm_2d_new_avec()

void Lorene::interpol_herm_2d_new_avec	(	double	y,
		double	z,
		double	mu1_11,
		double	mu1_21,
		double	mu2_11,
		double	mu2_12,
		double	p_11,
		double	p_21,
		double	p_12,
		double	p_22,
		double	n1_11,
		double	n1_21,
		double	n1_12,
		double	n1_22,
		double	n2_11,
		double	n2_21,
		double	n2_12,
		double	n2_22,
		double	cross_11,
		double	cross_21,
		double	cross_12,
		double	cross_22,
		double &	f,
		double &	dfdy,
		double &	dfdz )

Definition at line 769 of file interpol_bifluid.C.

◆ interpol_herm_2d_new_sans()

void Lorene::interpol_herm_2d_new_sans	(	double	y,
		double	z,
		double	mu1_11,
		double	mu1_21,
		double	mu2_11,
		double	mu2_12,
		double	p_11,
		double	p_21,
		double	p_12,
		double	p_22,
		double	n1_11,
		double	n1_21,
		double	n1_12,
		double	n1_22,
		double	n2_11,
		double	n2_21,
		double	n2_12,
		double	n2_22,
		double &	f,
		double &	dfdy,
		double &	dfdz )

Definition at line 870 of file interpol_bifluid.C.

◆ interpol_herm_2d_sans()

void Lorene::interpol_herm_2d_sans	(	const Tbl &	xtab,
		const Tbl &	ytab,
		const Tbl &	ftab,
		const Tbl &	dfdxtab,
		const Tbl &	dfdytab,
		double	x,
		double	y,
		double &	f,
		double &	dfdx,
		double &	dfdy )

Definition at line 370 of file interpol_herm.C.

◆ interpol_herm_2nd_der()

void Lorene::interpol_herm_2nd_der	(	const Tbl &	xtab,
		const Tbl &	ytab,
		const Tbl &	dytab,
		const Tbl &	d2ytab,
		double	x,
		int &	i,
		double &	y,
		double &	dy )

Definition at line 482 of file interpol_herm.C.

◆ interpol_herm_der()

void Lorene::interpol_herm_der	(	const Tbl &	xtab,
		const Tbl &	ytab,
		const Tbl &	dytab,
		double	x,
		int &	i,
		double &	y,
		double &	dy,
		double &	ddy )

Definition at line 206 of file interpol_herm.C.

◆ interpol_linear()

void Lorene::interpol_linear	(	const Tbl &	xtab,
		const Tbl &	ytab,
		double	x,
		int &	i,
		double &	y )

Definition at line 147 of file interpol_herm.C.

◆ interpol_mixed_3d()

void Lorene::interpol_mixed_3d	(	const Tbl &	xtab,
		const Tbl &	ytab,
		const Tbl &	ztab,
		const Tbl &	ftab,
		const Tbl &	dfdytab,
		const Tbl &	dfdztab,
		const Tbl &	d2fdydztab,
		double	x,
		double	y,
		double	z,
		double &	f,
		double &	dfdy,
		double &	dfdz )

Definition at line 64 of file interpol_bifluid.C.

◆ interpol_mixed_3d_mod()

void Lorene::interpol_mixed_3d_mod	(	const Tbl &	xtab,
		const Tbl &	ytab,
		const Tbl &	ztab,
		const Tbl &	ftab,
		const Tbl &	dfdytab,
		const Tbl &	dfdztab,
		double	x,
		double	y,
		double	z,
		double &	f,
		double &	dfdy,
		double &	dfdz )

Definition at line 431 of file interpol_bifluid.C.

◆ interpol_mixed_3d_new()

void Lorene::interpol_mixed_3d_new	(	double	m1,
		double	m2,
		const Tbl &	xtab,
		const Tbl &	ytab,
		const Tbl &	ztab,
		const Tbl &	ftab,
		const Tbl &	dfdytab,
		const Tbl &	dfdztab,
		const Tbl &	d2fdydztab,
		const Tbl &	dlpsddelta_car,
		const Tbl &	d2lpsdlent1ddelta_car,
		const Tbl &	d2lpsdlent2ddelta_car,
		const Tbl &	mu2_P,
		const Tbl &	n_p_P,
		const Tbl &	press_P,
		const Tbl &	mu1_N,
		const Tbl &	n_n_N,
		const Tbl &	press_N,
		const Tbl &	delta_car_n0,
		const Tbl &	mu1_n0,
		const Tbl &	mu2_n0,
		const Tbl &	delta_car_p0,
		const Tbl &	mu1_p0,
		const Tbl &	mu2_p0,
		double	x,
		double	y,
		double	z,
		double &	f,
		double &	dfdy,
		double &	dfdz,
		double &	alpha )

Definition at line 969 of file interpol_bifluid.C.

◆ ipasprevu_p()

void Lorene::ipasprevu_p	(	const int *	,
		const int *	,
		const int *	,
		double *	,
		double *	)

Definition at line 353 of file valeur_coef_i.C.

◆ ipasprevu_r()

void Lorene::ipasprevu_r	(	const int *	,
		const int *	,
		double *	,
		const int *	,
		double *	)

Definition at line 341 of file valeur_coef_i.C.

◆ ipasprevu_t()

void Lorene::ipasprevu_t	(	const int *	,
		const int *	,
		double *	,
		const int *	,
		double *	)

Definition at line 347 of file valeur_coef_i.C.

◆ jac02_base_scal_1z()

int Lorene::jac02_base_scal_1z	(	int	type_r,
		int	type_t,
		int	type_p )

Definition at line 61 of file jac02_base_scal.C.

◆ jacobi()

double * Lorene::jacobi	(	int	,
		double	)

Definition at line 3 of file jacobi.C.

◆ jacobipointsgl()

Tbl Lorene::jacobipointsgl ( int n )

Definition at line 7 of file jacobipointsgl.C.

◆ lap_cpt_mat()

Matrice Lorene::lap_cpt_mat	(	int	n,
		int	l,
		int	base_r )

Definition at line 303 of file lap_cpt_mat.C.

◆ lapang()

virtual void Lorene::lapang	(	const Scalar &	uu,
		Scalar &	lap ) const

pure virtual

Computes the angular Laplacian of a scalar field.

Parameters

uu	[input] Scalar field u (represented as a `Scalar` ) the Laplacian $\Delta u$ of which is to be computed
lap	[output] Angular Laplacian of u (see documentation of `Scalar`

◆ laplacien() [1/2]

virtual void Lorene::laplacien	(	const Cmp &	uu,
		int	zec_mult_r,
		Cmp &	lap ) const

pure virtual

Computes the Laplacian of a scalar field (Cmp version).

◆ laplacien() [2/2]

virtual void Lorene::laplacien	(	const Scalar &	uu,
		int	zec_mult_r,
		Scalar &	lap ) const

pure virtual

Computes the Laplacian of a scalar field.

Parameters

uu	[input] Scalar field u (represented as a `Scalar` ) the Laplacian $\Delta u$ of which is to be computed
zec_mult_r	[input] Determines the quantity computed in the compactified external domain (CED) : \ zec_mult_r = 0 : $\Delta u$ \ zec_mult_r = 2 : $r^2 \, \Delta u$ \ zec_mult_r = 4 (default) : $r^4 \, \Delta u$
lap	[output] Laplacian of u

◆ laplacien_mat()

Matrice Lorene::laplacien_mat	(	int	n,
		int	l,
		double	echelle,
		int	puis,
		int	base_r )

Definition at line 558 of file laplacien_mat.C.

◆ leg_base_scal_1z()

int Lorene::leg_base_scal_1z	(	int	type_r,
		int	type_t,
		int	type_p )

Definition at line 50 of file leg_base_scal.C.

◆ leg_base_scal_odd_1z()

int Lorene::leg_base_scal_odd_1z	(	int	type_r,
		int	type_t,
		int	type_p )

Definition at line 225 of file leg_base_scal.C.

◆ legendre()

double * Lorene::legendre	(	int	m,
		int	nt )

Definition at line 95 of file legendre.C.

◆ legendre_collocation_points()

void Lorene::legendre_collocation_points	(	int	nr,
		double *	colloc )

Definition at line 99 of file leg_ini.C.

◆ legendre_norm()

double * Lorene::legendre_norm	(	int	m,
		int	nt )

Definition at line 102 of file legendre_norm.C.

◆ load_file()

char * Lorene::load_file ( const char * fname )

Definition at line 42 of file read_variable.C.

◆ load_file_buffered()

char * Lorene::load_file_buffered ( const char * fname )

Definition at line 75 of file read_variable.C.

◆ logp()

double Lorene::logp	(	double	log10PressSmall,
		double	log10PressLarge,
		double	dlpsdlhSmall,
		double	dlpsdlhLarge,
		double	dx,
		double	u )

Definition at line 1136 of file eos_multi_poly.C.

◆ Map() [1/3]

Map::Map ( const Map & mp )

protected

Copy constructor.

Definition at line 157 of file map.C.

References bvect_cart, bvect_spher, Map(), p_cmp_zero, p_flat_met_cart, p_flat_met_spher, and p_mp_angu.

◆ Map() [2/3]

Map::Map ( const Mg3d & mgi )

explicitprotected

Constructor from a multi-domain 3D grid.

Definition at line 139 of file map.C.

References bvect_cart, bvect_spher, p_cmp_zero, p_flat_met_cart, p_flat_met_spher, and p_mp_angu.

◆ Map() [3/3]

Map::Map	(	const Mg3d &	mgi,
		FILE *	fd )

protected

Constructor from a file (see sauve(FILE* ) ).

Definition at line 176 of file map.C.

References bvect_cart, bvect_spher, fread_be(), p_cmp_zero, p_flat_met_cart, p_flat_met_spher, and p_mp_angu.

◆ map_af_fait_cosp()

Mtbl * Lorene::map_af_fait_cosp ( const Map * cvi )

Definition at line 492 of file map_af_fait.C.

◆ map_af_fait_cost()

Mtbl * Lorene::map_af_fait_cost ( const Map * cvi )

Definition at line 424 of file map_af_fait.C.

◆ map_af_fait_d2rdtdx()

Mtbl * Lorene::map_af_fait_d2rdtdx ( const Map * cvi )

Definition at line 825 of file map_af_fait.C.

◆ map_af_fait_d2rdx2()

Mtbl * Lorene::map_af_fait_d2rdx2 ( const Map * cvi )

Definition at line 789 of file map_af_fait.C.

◆ map_af_fait_drdt()

Mtbl * Lorene::map_af_fait_drdt ( const Map * cvi )

Definition at line 681 of file map_af_fait.C.

◆ map_af_fait_dxdr()

Mtbl * Lorene::map_af_fait_dxdr ( const Map * cvi )

Definition at line 617 of file map_af_fait.C.

◆ map_af_fait_lapr_tp()

Mtbl * Lorene::map_af_fait_lapr_tp ( const Map * cvi )

Definition at line 807 of file map_af_fait.C.

◆ map_af_fait_phi()

Mtbl * Lorene::map_af_fait_phi ( const Map * cvi )

Definition at line 218 of file map_af_fait.C.

◆ map_af_fait_r()

Mtbl * Lorene::map_af_fait_r ( const Map * cvi )

Definition at line 116 of file map_af_fait.C.

◆ map_af_fait_sinp()

Mtbl * Lorene::map_af_fait_sinp ( const Map * cvi )

Definition at line 458 of file map_af_fait.C.

◆ map_af_fait_sint()

Mtbl * Lorene::map_af_fait_sint ( const Map * cvi )

Definition at line 390 of file map_af_fait.C.

◆ map_af_fait_sr2d2rdt2()

Mtbl * Lorene::map_af_fait_sr2d2rdt2 ( const Map * cvi )

Definition at line 861 of file map_af_fait.C.

◆ map_af_fait_sr2drdt()

Mtbl * Lorene::map_af_fait_sr2drdt ( const Map * cvi )

Definition at line 753 of file map_af_fait.C.

◆ map_af_fait_sr2stdrdp()

Mtbl * Lorene::map_af_fait_sr2stdrdp ( const Map * cvi )

Definition at line 771 of file map_af_fait.C.

◆ map_af_fait_srdrdt()

Mtbl * Lorene::map_af_fait_srdrdt ( const Map * cvi )

Definition at line 717 of file map_af_fait.C.

◆ map_af_fait_srstdrdp()

Mtbl * Lorene::map_af_fait_srstdrdp ( const Map * cvi )

Definition at line 735 of file map_af_fait.C.

◆ map_af_fait_sstd2rdpdx()

Mtbl * Lorene::map_af_fait_sstd2rdpdx ( const Map * cvi )

Definition at line 843 of file map_af_fait.C.

◆ map_af_fait_stdrdp()

Mtbl * Lorene::map_af_fait_stdrdp ( const Map * cvi )

Definition at line 699 of file map_af_fait.C.

◆ map_af_fait_tet()

Mtbl * Lorene::map_af_fait_tet ( const Map * cvi )

Definition at line 180 of file map_af_fait.C.

◆ map_af_fait_x()

Mtbl * Lorene::map_af_fait_x ( const Map * cvi )

Definition at line 256 of file map_af_fait.C.

◆ map_af_fait_xa()

Mtbl * Lorene::map_af_fait_xa ( const Map * cvi )

Definition at line 310 of file map_af_fait.C.

◆ map_af_fait_xsr()

Mtbl * Lorene::map_af_fait_xsr ( const Map * cvi )

Definition at line 532 of file map_af_fait.C.

◆ map_af_fait_y()

Mtbl * Lorene::map_af_fait_y ( const Map * cvi )

Definition at line 274 of file map_af_fait.C.

◆ map_af_fait_ya()

Mtbl * Lorene::map_af_fait_ya ( const Map * cvi )

Definition at line 340 of file map_af_fait.C.

◆ map_af_fait_z()

Mtbl * Lorene::map_af_fait_z ( const Map * cvi )

Definition at line 292 of file map_af_fait.C.

◆ map_af_fait_za()

Mtbl * Lorene::map_af_fait_za ( const Map * cvi )

Definition at line 370 of file map_af_fait.C.

◆ map_et_fait_cosp()

Mtbl * Lorene::map_et_fait_cosp ( const Map * cvi )

Definition at line 466 of file map_et_fait.C.

◆ map_et_fait_cost()

Mtbl * Lorene::map_et_fait_cost ( const Map * cvi )

Definition at line 400 of file map_et_fait.C.

◆ map_et_fait_d2rdtdx()

Mtbl * Lorene::map_et_fait_d2rdtdx ( const Map * cvi )

Definition at line 1199 of file map_et_fait_der.C.

◆ map_et_fait_d2rdx2()

Mtbl * Lorene::map_et_fait_d2rdx2 ( const Map * cvi )

Definition at line 998 of file map_et_fait_der.C.

◆ map_et_fait_drdt()

Mtbl * Lorene::map_et_fait_drdt ( const Map * cvi )

Definition at line 159 of file map_et_fait_der.C.

◆ map_et_fait_dxdr()

Mtbl * Lorene::map_et_fait_dxdr ( const Map * cvi )

Definition at line 82 of file map_et_fait_der.C.

◆ map_et_fait_lapr_tp()

Mtbl * Lorene::map_et_fait_lapr_tp ( const Map * cvi )

Definition at line 1076 of file map_et_fait_der.C.

◆ map_et_fait_phi()

Mtbl * Lorene::map_et_fait_phi ( const Map * cvi )

Definition at line 196 of file map_et_fait.C.

◆ map_et_fait_r()

Mtbl * Lorene::map_et_fait_r ( const Map * cvi )

Definition at line 78 of file map_et_fait.C.

◆ map_et_fait_rsx2drdx()

Mtbl * Lorene::map_et_fait_rsx2drdx ( const Map * cvi )

Definition at line 879 of file map_et_fait_der.C.

◆ map_et_fait_rsxdxdr()

Mtbl * Lorene::map_et_fait_rsxdxdr ( const Map * cvi )

Definition at line 767 of file map_et_fait_der.C.

◆ map_et_fait_sinp()

Mtbl * Lorene::map_et_fait_sinp ( const Map * cvi )

Definition at line 433 of file map_et_fait.C.

◆ map_et_fait_sint()

Mtbl * Lorene::map_et_fait_sint ( const Map * cvi )

Definition at line 367 of file map_et_fait.C.

◆ map_et_fait_sr2d2rdt2()

Mtbl * Lorene::map_et_fait_sr2d2rdt2 ( const Map * cvi )

Definition at line 1353 of file map_et_fait_der.C.

◆ map_et_fait_sr2drdt()

Mtbl * Lorene::map_et_fait_sr2drdt ( const Map * cvi )

Definition at line 528 of file map_et_fait_der.C.

◆ map_et_fait_sr2stdrdp()

Mtbl * Lorene::map_et_fait_sr2stdrdp ( const Map * cvi )

Definition at line 647 of file map_et_fait_der.C.

◆ map_et_fait_srdrdt()

Mtbl * Lorene::map_et_fait_srdrdt ( const Map * cvi )

Definition at line 317 of file map_et_fait_der.C.

◆ map_et_fait_srstdrdp()

Mtbl * Lorene::map_et_fait_srstdrdp ( const Map * cvi )

Definition at line 423 of file map_et_fait_der.C.

◆ map_et_fait_sstd2rdpdx()

Mtbl * Lorene::map_et_fait_sstd2rdpdx ( const Map * cvi )

Definition at line 1276 of file map_et_fait_der.C.

◆ map_et_fait_stdrdp()

Mtbl * Lorene::map_et_fait_stdrdp ( const Map * cvi )

Definition at line 238 of file map_et_fait_der.C.

◆ map_et_fait_tet()

Mtbl * Lorene::map_et_fait_tet ( const Map * cvi )

Definition at line 159 of file map_et_fait.C.

◆ map_et_fait_x()

Mtbl * Lorene::map_et_fait_x ( const Map * cvi )

Definition at line 233 of file map_et_fait.C.

◆ map_et_fait_xa()

Mtbl * Lorene::map_et_fait_xa ( const Map * cvi )

Definition at line 287 of file map_et_fait.C.

◆ map_et_fait_xsr()

Mtbl * Lorene::map_et_fait_xsr ( const Map * cvi )

Definition at line 505 of file map_et_fait.C.

◆ map_et_fait_y()

Mtbl * Lorene::map_et_fait_y ( const Map * cvi )

Definition at line 251 of file map_et_fait.C.

◆ map_et_fait_ya()

Mtbl * Lorene::map_et_fait_ya ( const Map * cvi )

Definition at line 317 of file map_et_fait.C.

◆ map_et_fait_z()

Mtbl * Lorene::map_et_fait_z ( const Map * cvi )

Definition at line 269 of file map_et_fait.C.

◆ map_et_fait_za()

Mtbl * Lorene::map_et_fait_za ( const Map * cvi )

Definition at line 347 of file map_et_fait.C.

◆ map_log_fait_cosp()

Mtbl * Lorene::map_log_fait_cosp ( const Map * cvi )

Definition at line 467 of file map_log_fait.C.

◆ map_log_fait_cost()

Mtbl * Lorene::map_log_fait_cost ( const Map * cvi )

Definition at line 399 of file map_log_fait.C.

◆ map_log_fait_d2rdtdx()

Mtbl * Lorene::map_log_fait_d2rdtdx ( const Map * cvi )

Definition at line 923 of file map_log_fait.C.

◆ map_log_fait_d2rdx2()

Mtbl * Lorene::map_log_fait_d2rdx2 ( const Map * cvi )

Definition at line 822 of file map_log_fait.C.

◆ map_log_fait_drdt()

Mtbl * Lorene::map_log_fait_drdt ( const Map * cvi )

Definition at line 714 of file map_log_fait.C.

◆ map_log_fait_dxdlnr()

Mtbl * Lorene::map_log_fait_dxdlnr ( const Map * cvi )

Definition at line 977 of file map_log_fait.C.

◆ map_log_fait_dxdr()

Mtbl * Lorene::map_log_fait_dxdr ( const Map * cvi )

Definition at line 616 of file map_log_fait.C.

◆ map_log_fait_lapr_tp()

Mtbl * Lorene::map_log_fait_lapr_tp ( const Map * cvi )

Definition at line 905 of file map_log_fait.C.

◆ map_log_fait_phi()

Mtbl * Lorene::map_log_fait_phi ( const Map * cvi )

Definition at line 193 of file map_log_fait.C.

◆ map_log_fait_r()

Mtbl * Lorene::map_log_fait_r ( const Map * cvi )

Definition at line 57 of file map_log_fait.C.

◆ map_log_fait_sinp()

Mtbl * Lorene::map_log_fait_sinp ( const Map * cvi )

Definition at line 433 of file map_log_fait.C.

◆ map_log_fait_sint()

Mtbl * Lorene::map_log_fait_sint ( const Map * cvi )

Definition at line 365 of file map_log_fait.C.

◆ map_log_fait_sr2d2rdt2()

Mtbl * Lorene::map_log_fait_sr2d2rdt2 ( const Map * cvi )

Definition at line 959 of file map_log_fait.C.

◆ map_log_fait_sr2drdt()

Mtbl * Lorene::map_log_fait_sr2drdt ( const Map * cvi )

Definition at line 786 of file map_log_fait.C.

◆ map_log_fait_sr2stdrdp()

Mtbl * Lorene::map_log_fait_sr2stdrdp ( const Map * cvi )

Definition at line 804 of file map_log_fait.C.

◆ map_log_fait_srdrdt()

Mtbl * Lorene::map_log_fait_srdrdt ( const Map * cvi )

Definition at line 750 of file map_log_fait.C.

◆ map_log_fait_srstdrdp()

Mtbl * Lorene::map_log_fait_srstdrdp ( const Map * cvi )

Definition at line 768 of file map_log_fait.C.

◆ map_log_fait_sstd2rdpdx()

Mtbl * Lorene::map_log_fait_sstd2rdpdx ( const Map * cvi )

Definition at line 941 of file map_log_fait.C.

◆ map_log_fait_stdrdp()

Mtbl * Lorene::map_log_fait_stdrdp ( const Map * cvi )

Definition at line 732 of file map_log_fait.C.

◆ map_log_fait_tet()

Mtbl * Lorene::map_log_fait_tet ( const Map * cvi )

Definition at line 155 of file map_log_fait.C.

◆ map_log_fait_x()

Mtbl * Lorene::map_log_fait_x ( const Map * cvi )

Definition at line 231 of file map_log_fait.C.

◆ map_log_fait_xa()

Mtbl * Lorene::map_log_fait_xa ( const Map * cvi )

Definition at line 285 of file map_log_fait.C.

◆ map_log_fait_xsr()

Mtbl * Lorene::map_log_fait_xsr ( const Map * cvi )

Definition at line 507 of file map_log_fait.C.

◆ map_log_fait_y()

Mtbl * Lorene::map_log_fait_y ( const Map * cvi )

Definition at line 249 of file map_log_fait.C.

◆ map_log_fait_ya()

Mtbl * Lorene::map_log_fait_ya ( const Map * cvi )

Definition at line 315 of file map_log_fait.C.

◆ map_log_fait_z()

Mtbl * Lorene::map_log_fait_z ( const Map * cvi )

Definition at line 267 of file map_log_fait.C.

◆ map_log_fait_za()

Mtbl * Lorene::map_log_fait_za ( const Map * cvi )

Definition at line 345 of file map_log_fait.C.

◆ mat_cos_legmp()

double * Lorene::mat_cos_legmp	(	int	np,
		int	nt )

Definition at line 92 of file mat_cos_legmp.C.

◆ mat_cosi_legip()

double * Lorene::mat_cosi_legip	(	int	np,
		int	nt )

Definition at line 109 of file mat_cosi_legip.C.

◆ mat_cosp_legpp()

double * Lorene::mat_cosp_legpp	(	int	np,
		int	nt )

Definition at line 109 of file mat_cosp_legpp.C.

◆ mat_cossinc_leg()

double * Lorene::mat_cossinc_leg	(	int	np,
		int	nt )

Definition at line 111 of file mat_cossinc_leg.C.

◆ mat_cossinci_legi()

double * Lorene::mat_cossinci_legi	(	int	np,
		int	nt )

Definition at line 110 of file mat_cossinci_legi.C.

◆ mat_cossincp_legp()

double * Lorene::mat_cossincp_legp	(	int	np,
		int	nt )

Definition at line 112 of file mat_cossincp_legp.C.

◆ mat_leg_cossinc()

double * Lorene::mat_leg_cossinc	(	int	np,
		int	nt )

Definition at line 106 of file mat_leg_cossinc.C.

◆ mat_legi_cossinci()

double * Lorene::mat_legi_cossinci	(	int	np,
		int	nt )

Definition at line 109 of file mat_legi_cossinci.C.

◆ mat_legii_sinp()

double * Lorene::mat_legii_sinp	(	int	np,
		int	nt )

Definition at line 98 of file mat_legii_sinp.C.

◆ mat_legip_cosi()

double * Lorene::mat_legip_cosi	(	int	np,
		int	nt )

Definition at line 109 of file mat_legip_cosi.C.

◆ mat_legmi_sin()

double * Lorene::mat_legmi_sin	(	int	np,
		int	nt )

Definition at line 90 of file mat_legmi_sin.C.

◆ mat_legmp_cos()

double * Lorene::mat_legmp_cos	(	int	np,
		int	nt )

Definition at line 93 of file mat_legmp_cos.C.

◆ mat_legp_cossincp()

double * Lorene::mat_legp_cossincp	(	int	np,
		int	nt )

Definition at line 113 of file mat_legp_cossincp.C.

◆ mat_legpi_sini()

double * Lorene::mat_legpi_sini	(	int	np,
		int	nt )

Definition at line 112 of file mat_legpi_sini.C.

◆ mat_legpp_cosp()

double * Lorene::mat_legpp_cosp	(	int	np,
		int	nt )

Definition at line 111 of file mat_legpp_cosp.C.

◆ mat_sin_legmi()

double * Lorene::mat_sin_legmi	(	int	np,
		int	nt )

Definition at line 91 of file mat_sin_legmi.C.

◆ mat_sini_legpi()

double * Lorene::mat_sini_legpi	(	int	np,
		int	nt )

Definition at line 112 of file mat_sini_legpi.C.

◆ mat_sinp_legii()

double * Lorene::mat_sinp_legii	(	int	np,
		int	nt )

Definition at line 99 of file mat_sinp_legii.C.

◆ matrice_raccord_impair()

Matrice Lorene::matrice_raccord_impair	(	int	cont,
		double	alpha_kernel )

Definition at line 85 of file cmp_raccord.C.

◆ matrice_raccord_pair()

Matrice Lorene::matrice_raccord_pair	(	int	cont,
		double	alpha_kernel )

Definition at line 62 of file cmp_raccord.C.

◆ moins_log()

double Lorene::moins_log ( double x )

Definition at line 82 of file change_var.C.

◆ moins_sur()

double Lorene::moins_sur ( double x )

Definition at line 94 of file change_var.C.

◆ monitor_scalar()

const Tbl & Lorene::monitor_scalar	(	const Scalar &	uu,
		Tbl &	resu )

Definition at line 744 of file tslice_dirac_max_evolve.C.

◆ mp_angu()

virtual const Map_af & Lorene::mp_angu ( int ) const

pure virtual

Returns the "angular" mapping for the outside of domain l_zone.

Valid only for the class Map_af.

◆ mult2_xm1_1d_cheb()

void Lorene::mult2_xm1_1d_cheb	(	int	nr,
		const double *	cf,
		double *	cresu )

Definition at line 81 of file mult2_xm1_1d_cheb.C.

◆ mult2_xp1_1d()

void Lorene::mult2_xp1_1d	(	int	nr,
		double **	tb,
		int	base_r )

Definition at line 93 of file mult2_xp1_1d.C.

◆ mult_cost()

virtual void Lorene::mult_cost ( Scalar & ) const

pure virtual

Multiplication by $\cos\theta$ of a Scalar.

◆ mult_r() [1/2]

virtual void Lorene::mult_r ( Cmp & ci ) const

pure virtual

Multiplication by r of a Cmp .

In the CED, there is only a decrement of dzpuis

◆ mult_r() [2/2]

virtual void Lorene::mult_r ( Scalar & uu ) const

pure virtual

Multiplication by r of a Scalar , the dzpuis
of uu is not changed.

◆ mult_r_zec()

virtual void Lorene::mult_r_zec ( Scalar & ) const

pure virtual

Multiplication by r (in the compactified external domain only) of a Scalar.

◆ mult_rsint()

virtual void Lorene::mult_rsint ( Scalar & ) const

pure virtual

Multiplication by $r\sin\theta$ of a Scalar.

◆ mult_sint()

virtual void Lorene::mult_sint ( Scalar & ) const

pure virtual

Multiplication by $\sin\theta$ of a Scalar.

◆ mult_xm1_1d_cheb()

void Lorene::mult_xm1_1d_cheb	(	int	nr,
		const double *	cf,
		double *	cresu )

Definition at line 82 of file mult_xm1_1d_cheb.C.

◆ multx2_1d()

void Lorene::multx2_1d	(	int	nr,
		double **	tb,
		int	base_r )

Definition at line 193 of file multx2_1d.C.

◆ multx_1d()

void Lorene::multx_1d	(	int	nr,
		double **	tb,
		int	base_r )

Definition at line 133 of file multx_1d.C.

◆ multxpun_1d()

void Lorene::multxpun_1d	(	int	nr,
		double **	tb,
		int	base_r )

Definition at line 106 of file multxpun_1d.C.

◆ neumann_binaire() [1/3]

void Lorene::neumann_binaire	(	const Cmp &	source_un,
		const Cmp &	source_deux,
		const Valeur &	boundary_un,
		const Valeur &	boundary_deux,
		Cmp &	sol_un,
		Cmp &	sol_deux,
		int	num_front,
		double	precision )

Definition at line 347 of file pde_frontiere_bin.C.

◆ neumann_binaire() [2/3]

void Lorene::neumann_binaire	(	const Cmp &	source_un,
		const Cmp &	source_deux,
		double	bound_un,
		double	bound_deux,
		Cmp &	sol_un,
		Cmp &	sol_deux,
		int	num_front,
		double	precision )

Definition at line 498 of file pde_frontiere_bin.C.

◆ neumann_binaire() [3/3]

void Lorene::neumann_binaire	(	const Scalar &	source_un,
		const Scalar &	source_deux,
		const Valeur &	boundary_un,
		const Valeur &	boundary_deux,
		Scalar &	sol_un,
		Scalar &	sol_deux,
		int	num_front,
		double	precision )

Definition at line 520 of file pde_frontiere_bin.C.

◆ nondeg_ptens_rr()

Matrice Lorene::nondeg_ptens_rr	(	const Matrice &	lap,
		int	l,
		double	echelle,
		int	puis,
		int	base_r )

Definition at line 355 of file prepa_ptens_rr.C.

◆ nondeg_pvect_r()

Matrice Lorene::nondeg_pvect_r	(	const Matrice &	lap,
		int	l,
		double	echelle,
		int	puis,
		int	base_r )

Definition at line 373 of file prepa_pvect_r.C.

◆ nullite_plm()

int Lorene::nullite_plm	(	int	j,
		int	nt,
		int	k,
		int	np,
		Base_val	base )

Definition at line 249 of file nullite_plm.C.

◆ nullite_plm_nonsym()

int Lorene::nullite_plm_nonsym	(	int	j,
		int	nt,
		int	k,
		int	np )

Definition at line 120 of file nullite_plm.C.

◆ nullite_plm_nonsym_anti()

int Lorene::nullite_plm_nonsym_anti	(	int	j,
		int	nt,
		int	k,
		int	np )

Definition at line 133 of file nullite_plm.C.

◆ nullite_plm_sym()

int Lorene::nullite_plm_sym	(	int	j,
		int	nt,
		int	k,
		int	np )

Definition at line 151 of file nullite_plm.C.

◆ nullite_plm_t_leg()

int Lorene::nullite_plm_t_leg	(	int	j,
		int	nt,
		int	k,
		int	np )

Definition at line 106 of file nullite_plm.C.

◆ nullite_plm_t_leg_ii()

int Lorene::nullite_plm_t_leg_ii	(	int	j,
		int	nt,
		int	k,
		int	np )

Definition at line 199 of file nullite_plm.C.

◆ nullite_plm_t_leg_ip()

int Lorene::nullite_plm_t_leg_ip	(	int	j,
		int	nt,
		int	k,
		int	np )

Definition at line 165 of file nullite_plm.C.

◆ nullite_plm_t_leg_mi()

int Lorene::nullite_plm_t_leg_mi	(	int	j,
		int	nt,
		int	k,
		int	np )

Definition at line 233 of file nullite_plm.C.

◆ nullite_plm_t_leg_mp()

int Lorene::nullite_plm_t_leg_mp	(	int	j,
		int	nt,
		int	k,
		int	np )

Definition at line 219 of file nullite_plm.C.

◆ nullite_plm_t_leg_pi()

int Lorene::nullite_plm_t_leg_pi	(	int	j,
		int	nt,
		int	k,
		int	np )

Definition at line 179 of file nullite_plm.C.

◆ one()

double Lorene::one ( double )

Definition at line 62 of file change_var.C.

◆ ope_ptens_rr_mat()

Matrice Lorene::ope_ptens_rr_mat	(	int	n,
		int	l,
		double	echelle,
		int	puis,
		int	base_r )

Definition at line 491 of file ope_ptens_rr_mat.C.

◆ ope_pvect_r_mat()

Matrice Lorene::ope_pvect_r_mat	(	int	n,
		int	l,
		double	echelle,
		int	puis,
		int	base_r )

Definition at line 502 of file ope_pvect_r_mat.C.

◆ operator<<() [1/35]

ostream & Lorene::operator<<	(	ostream &	,
		const Bin_ns_ncp &	)

Display

◆ operator<<() [2/35]

ostream & Lorene::operator<<	(	ostream &	o,
		const Map &	cv )

Operator <<.

Definition at line 239 of file map.C.

References Map().

◆ operator<<() [3/35]

ostream & Lorene::operator<<	(	ostream &	flux,
		const Matrice &	source )

Definition at line 330 of file matrice.C.

◆ operator<<() [4/35]

ostream & Lorene::operator<<	(	ostream &	flux,
		const Tenseur &	source )

Definition at line 1256 of file tenseur.C.

◆ operator<<() [5/35]

ostream & Lorene::operator<<	(	ostream &	flux,
		const Tensor &	source )

Definition at line 826 of file tensor.C.

◆ operator<<() [6/35]

ostream & Lorene::operator<<	(	ostream &	flux,
		const Time_slice &	sigma )

Definition at line 453 of file time_slice.C.

◆ operator<<() [7/35]

ostream & Lorene::operator<<	(	ostream &	o,
		const Base_val &	bi )

Definition at line 238 of file base_val.C.

◆ operator<<() [8/35]

ostream & Lorene::operator<<	(	ostream &	o,
		const Cmp &	ci )

Definition at line 577 of file cmp.C.

◆ operator<<() [9/35]

ostream & Lorene::operator<<	(	ostream &	o,
		const Coord &	ci )

Definition at line 101 of file coord.C.

◆ operator<<() [10/35]

ostream & Lorene::operator<<	(	ostream &	o,
		const Dim_tbl &	titi )

Definition at line 195 of file dim_tbl.C.

◆ operator<<() [11/35]

ostream & Lorene::operator<<	(	ostream &	o,
		const Grille_val &	titi )

Definition at line 243 of file grille_val.C.

◆ operator<<() [12/35]

ostream & Lorene::operator<<	(	ostream &	o,
		const Itbl &	t )

Definition at line 291 of file itbl.C.

◆ operator<<() [13/35]

ostream & Lorene::operator<<	(	ostream &	o,
		const Mg3d &	g )

Definition at line 399 of file mg3d.C.

◆ operator<<() [14/35]

ostream & Lorene::operator<<	(	ostream &	o,
		const Mtbl &	mt )

Definition at line 365 of file mtbl.C.

◆ operator<<() [15/35]

ostream & Lorene::operator<<	(	ostream &	o,
		const Mtbl_cf &	mt )

Definition at line 366 of file mtbl_cf.C.

◆ operator<<() [16/35]

ostream & Lorene::operator<<	(	ostream &	o,
		const Tbl &	t )

Definition at line 391 of file tbl.C.

◆ operator<<() [17/35]

ostream & Lorene::operator<<	(	ostream &	o,
		const Tbl_val &	t )

Definition at line 351 of file tbl_val.C.

◆ operator<<() [18/35]

ostream & Lorene::operator<<	(	ostream &	o,
		const Valeur &	vi )

Definition at line 496 of file valeur.C.

◆ operator<<() [19/35]

ostream & Lorene::operator<<	(	ostream &	ost,
		const Base_vect &	bvect )

Definition at line 162 of file base_vect.C.

◆ operator<<() [20/35]

ostream & Lorene::operator<<	(	ostream &	ost,
		const Bin_bhns &	bibi )

Definition at line 224 of file bin_bhns.C.

◆ operator<<() [21/35]

ostream & Lorene::operator<<	(	ostream &	ost,
		const Bin_bhns_extr &	bibi )

Definition at line 203 of file bin_bhns_extr.C.

◆ operator<<() [22/35]

ostream & Lorene::operator<<	(	ostream &	ost,
		const Bin_ns_bh &	bibi )

Display

Definition at line 475 of file bin_ns_bh.C.

◆ operator<<() [23/35]

ostream & Lorene::operator<<	(	ostream &	ost,
		const Binaire &	bibi )

Display

Definition at line 251 of file binaire.C.

◆ operator<<() [24/35]

ostream & Lorene::operator<<	(	ostream &	ost,
		const Binary &	bibi )

Definition at line 227 of file binary.C.

◆ operator<<() [25/35]

ostream & Lorene::operator<<	(	ostream &	ost,
		const Binary_xcts &	bibi )

Definition at line 212 of file binary_xcts.C.

◆ operator<<() [26/35]

ostream & Lorene::operator<<	(	ostream &	ost,
		const Black_hole &	bh )

Definition at line 280 of file blackhole.C.

◆ operator<<() [27/35]

ostream & Lorene::operator<<	(	ostream &	ost,
		const Compobj &	co )

Definition at line 233 of file compobj.C.

◆ operator<<() [28/35]

ostream & Lorene::operator<<	(	ostream &	ost,
		const Diff &	ope )

Definition at line 83 of file diff.C.

◆ operator<<() [29/35]

ostream & Lorene::operator<<	(	ostream &	ost,
		const Eos &	eqetat )

Definition at line 191 of file eos.C.

◆ operator<<() [30/35]

ostream & Lorene::operator<<	(	ostream &	ost,
		const Eos_bifluid &	eqetat )

Definition at line 264 of file eos_bifluid.C.

◆ operator<<() [31/35]

ostream & Lorene::operator<<	(	ostream &	ost,
		const Etoile &	et )

Definition at line 506 of file etoile.C.

◆ operator<<() [32/35]

ostream & Lorene::operator<<	(	ostream &	ost,
		const Hot_eos &	eqetat )

Definition at line 143 of file hoteos.C.

◆ operator<<() [33/35]

ostream & Lorene::operator<<	(	ostream &	ost,
		const Metric &	meti )

Definition at line 439 of file metric.C.

◆ operator<<() [34/35]

ostream & Lorene::operator<<	(	ostream &	ost,
		const Scalar &	ci )

Definition at line 702 of file scalar.C.

◆ operator<<() [35/35]

ostream & Lorene::operator<<	(	ostream &	ost,
		const Star &	et )

Definition at line 412 of file star.C.

◆ operator=()

virtual void Lorene::operator= ( const Map_af & )

pure virtual

Assignment to an affine mapping.

◆ operator==()

virtual bool Lorene::operator== ( const Map & ) const

pure virtual

Comparison operator (egality).

References Map().

◆ operator>>()

virtual ostream & Lorene::operator>> ( ostream & ) const

privatepure virtual

Operator >>.

◆ part_ln()

double Lorene::part_ln ( double x )

Definition at line 74 of file change_var.C.

◆ part_ln_der()

double Lorene::part_ln_der ( double x )

Definition at line 78 of file change_var.C.

◆ pas_fait()

void Lorene::pas_fait ( )

Definition at line 88 of file map_log_pas_fait.C.

◆ pasprevu_p()

void Lorene::pasprevu_p	(	const int *	,
		const int *	,
		double *	)

Definition at line 361 of file valeur_coef.C.

◆ pasprevu_r()

void Lorene::pasprevu_r	(	const int *	,
		const int *	,
		double *	,
		const int *	,
		double *	)

Definition at line 349 of file valeur_coef.C.

◆ pasprevu_t()

void Lorene::pasprevu_t	(	const int *	,
		const int *	,
		double *	,
		const int *	,
		double *	)

Definition at line 355 of file valeur_coef.C.

◆ phi_funct_cossin()

void Lorene::phi_funct_cossin	(	int	np,
		double *	ff )

Definition at line 177 of file base_val_phi_funct.C.

◆ phi_funct_cossin_i()

void Lorene::phi_funct_cossin_i	(	int	np,
		double *	ff )

Definition at line 232 of file base_val_phi_funct.C.

◆ phi_funct_cossin_p()

void Lorene::phi_funct_cossin_p	(	int	np,
		double *	ff )

Definition at line 207 of file base_val_phi_funct.C.

◆ phi_funct_pas_prevu()

void Lorene::phi_funct_pas_prevu	(	int	,
		double *	)

Definition at line 165 of file base_val_phi_funct.C.

◆ plus_log()

double Lorene::plus_log ( double x )

Definition at line 90 of file change_var.C.

◆ plus_sur()

double Lorene::plus_sur ( double x )

Definition at line 86 of file change_var.C.

◆ pointsgausslobatto()

double * Lorene::pointsgausslobatto ( int n )

Definition at line 8 of file pointsgausslobatto.C.

◆ pois_vect_r0()

Scalar Lorene::pois_vect_r0 ( const Scalar & source )

Definition at line 59 of file pois_vect_r0.C.

◆ poisson()

virtual void Lorene::poisson	(	const Cmp &	source,
		Param &	par,
		Cmp &	uu ) const

pure virtual

Computes the solution of a scalar Poisson equation.

Parameters

source	[input] source $\sigma$ of the Poisson equation $\Delta u = \sigma$ .
par	[input/output] possible parameters to control the resolution of the Poisson equation. See the actual implementation in the derived class of `Map` for documentation.
uu	[input/output] solution u with the boundary condition u =0 at spatial infinity.

◆ poisson2d()

virtual void Lorene::poisson2d	(	const Cmp &	source_mat,
		const Cmp &	source_quad,
		Param &	par,
		Cmp &	uu ) const

pure virtual

Computes the solution of a 2-D Poisson equation.

The 2-D Poisson equation writes

$\‍[{\partial^2 u\over\partial r^2} + {1\over r} {\partial u \over \partial r} + {1\over r^2} {\partial^2 u\over\partial \theta^2} = \sigma \ . \‍]$

Parameters

source_mat	[input] Compactly supported part of the source $\sigma$ of the 2-D Poisson equation (typically matter terms)
source_quad	[input] Non-compactly supported part of the source $\sigma$ of the 2-D Poisson equation (typically quadratic terms)
par	[input/output] possible parameters to control the resolution of the Poisson equation. See the actual implementation in the derived class of `Map` for documentation.
uu	[input/output] solution u with the boundary condition u =0 at spatial infinity.

◆ poisson_angu()

virtual void Lorene::poisson_angu	(	const Scalar &	source,
		Param &	par,
		Scalar &	uu,
		double	lambda = 0 ) const

pure virtual

Computes the solution of the generalized angular Poisson equation.

The generalized angular Poisson equation is $\Delta_{\theta\varphi} u + \lambda u = \sigma$ , where $\Delta_{\theta\varphi} u := \frac{\partial^2 u} {\partial \theta^2} + \frac{1}{\tan \theta} \frac{\partial u} {\partial \theta} +\frac{1}{\sin^2 \theta}\frac{\partial^2 u} {\partial \varphi^2}$ .

Parameters

source	[input] source $\sigma$ of the equation $\Delta_{\theta\varphi} u + \lambda u = \sigma$ .
par	[input/output] possible parameters to control the resolution of the Poisson equation. See the actual implementation in the derived class of `Map` for documentation.
uu	[input/output] solution u
lambda	[input] coefficient $\lambda$ in the above equation (default value = 0)

◆ poisson_compact() [1/2]

virtual void Lorene::poisson_compact	(	const Cmp &	source,
		const Cmp &	aa,
		const Tenseur &	bb,
		const Param &	par,
		Cmp &	psi ) const

pure virtual

Resolution of the elliptic equation $a \Delta\psi + {\bf b} \cdot \nabla \psi = \sigma$ in the case where the stellar interior is covered by a single domain.

Parameters

source	[input] source $\sigma$ of the above equation
aa	[input] factor a in the above equation
bb	[input] vector b in the above equation
par	[input/output] possible parameters to control the resolution of the equation. See the actual implementation in the derived class of `Map` for documentation.
psi	[input/output] solution $\psi$ which satisfies $\psi(0)=0$ .

◆ poisson_compact() [2/2]

virtual void Lorene::poisson_compact	(	int	nzet,
		const Cmp &	source,
		const Cmp &	aa,
		const Tenseur &	bb,
		const Param &	par,
		Cmp &	psi ) const

pure virtual

Resolution of the elliptic equation $a \Delta\psi + {\bf b} \cdot \nabla \psi = \sigma$ in the case of a multidomain stellar interior.

Parameters

nzet	[input] number of domains covering the stellar interior
source	[input] source $\sigma$ of the above equation
aa	[input] factor a in the above equation
bb	[input] vector b in the above equation
par	[input/output] possible parameters to control the resolution of the equation. See the actual implementation in the derived class of `Map` for documentation.
psi	[input/output] solution $\psi$ which satisfies $\psi(0)=0$ .

◆ poisson_frontiere()

virtual void Lorene::poisson_frontiere	(	const Cmp &	source,
		const Valeur &	limite,
		int	raccord,
		int	num_front,
		Cmp &	pot,
		double	= 0.,
		double	= 0. ) const

pure virtual

Computes the solution of a Poisson equation from the domain num_front+1 .

imposing a boundary condition at the boundary between the domains num_front and num_front+1 .

Parameters

source	[input] : source of the equation.
limite	[input] : `limite`[num_front] contains the angular function being the boudary condition.
raccord	[input] : 1 for the Dirichlet problem and 2 for the Neumann one and 3 for Dirichlet-Neumann.
num_front	[input] : index of the boudary at which the boundary condition has to be imposed.
pot	[output] : result.
fact_dir	[input] : Valeur by which we multiply the quantity we solve. (in the case of Dirichlet-Neumann boundary condition.)
fact_neu	[input] : Valeur by which we multiply the radial derivative of the quantity we solve. (in the case of Dirichlet-Neumann boundary condition.)

◆ poisson_interne()

virtual void Lorene::poisson_interne	(	const Cmp &	source,
		const Valeur &	limite,
		Param &	par,
		Cmp &	pot ) const

pure virtual

Computes the solution of a Poisson equation in the shell, imposing a boundary condition at the surface of the star.

Parameters

source	[input] : source of the equation.
limite	[input] : `limite`[num_front] contains the angular function being the boudary condition.
par	[input] : parameters of the computation.
pot	[output] : result.

◆ poisson_regular()

virtual void Lorene::poisson_regular	(	const Cmp &	source,
		int	k_div,
		int	nzet,
		double	unsgam1,
		Param &	par,
		Cmp &	uu,
		Cmp &	uu_regu,
		Cmp &	uu_div,
		Tenseur &	duu_div,
		Cmp &	source_regu,
		Cmp &	source_div ) const

pure virtual

Computes the solution of a scalar Poisson equation.

The regularized source

Parameters

source	[input] source $\sigma$ of the Poisson equation $\Delta u = \sigma$ .
k_div	[input] regularization degree of the procedure
nzet	[input] number of domains covering the star
unsgam1	[input] parameter $1/(\gamma-1)$ where $\gamma$ denotes the adiabatic index.
par	[input/output] possible parameters to control the resolution of the Poisson equation. See the actual implementation in the derived class of `Map` for documentation.
uu	[input/output] solution u with the boundary condition u =0 at spatial infinity.
uu_regu	[output] solution of the regular part of the source.
uu_div	[output] solution of the diverging part of the source.
duu_div	[output] derivative of the diverging potential
source_regu	[output] regularized source
source_div	[output] diverging part of the source

◆ poisson_tau()

virtual void Lorene::poisson_tau	(	const Cmp &	source,
		Param &	par,
		Cmp &	uu ) const

pure virtual

Computes the solution of a scalar Poisson equationwith a Tau method.

Parameters

source	[input] source $\sigma$ of the Poisson equation $\Delta u = \sigma$ .
par	[input/output] possible parameters to control the resolution of the Poisson equation. See the actual implementation in the derived class of `Map` for documentation.
uu	[input/output] solution u with the boundary condition u =0 at spatial infinity.

◆ poisson_vect_binaire() [1/2]

void Lorene::poisson_vect_binaire	(	double	lambda,
		const Tenseur &	source_un,
		const Tenseur &	source_deux,
		const Valeur &	bound_x_un,
		const Valeur &	bound_y_un,
		const Valeur &	bound_z_un,
		const Valeur &	bound_x_deux,
		const Valeur &	bound_y_deux,
		const Valeur &	bound_z_deux,
		Tenseur &	sol_un,
		Tenseur &	sol_deux,
		int	num_front,
		double	precision )

Definition at line 316 of file poisson_vect_frontiere.C.

◆ poisson_vect_binaire() [2/2]

void Lorene::poisson_vect_binaire	(	double	lambda,
		const Vector &	source_un,
		const Vector &	source_deux,
		const Valeur &	bound_x_un,
		const Valeur &	bound_y_un,
		const Valeur &	bound_z_un,
		const Valeur &	bound_x_deux,
		const Valeur &	bound_y_deux,
		const Valeur &	bound_z_deux,
		Vector &	sol_un,
		Vector &	sol_deux,
		int	num_front,
		double	precision )

Definition at line 588 of file poisson_vect_frontiere.C.

◆ poisson_vect_boundary()

void Lorene::poisson_vect_boundary	(	double	lambda,
		const Vector &	source,
		Vector &	shift,
		const Valeur &	lim_x,
		const Valeur &	lim_y,
		const Valeur &	lim_z,
		int	num_front,
		double	precision,
		int	itermax )

Definition at line 197 of file poisson_vect_frontiere.C.

◆ poisson_vect_frontiere()

void Lorene::poisson_vect_frontiere	(	double	lambda,
		const Tenseur &	source,
		Tenseur &	shift,
		const Valeur &	lim_x,
		const Valeur &	lim_y,
		const Valeur &	lim_z,
		int	num_front,
		double	precision,
		int	itermax )

Definition at line 85 of file poisson_vect_frontiere.C.

◆ poly_leg()

void Lorene::poly_leg	(	int	n,
		double &	poly,
		double &	pder,
		double &	polym1,
		double &	pderm1,
		double &	polym2,
		double &	pderm2,
		double	x )

Definition at line 67 of file leg_ini.C.

◆ prepa_helmholtz_minus_nondege()

Matrice Lorene::prepa_helmholtz_minus_nondege	(	const Matrice &	ope,
		int	base_r )

Definition at line 166 of file prepa_helmholtz_minus.C.

◆ prepa_helmholtz_plus_nondege()

Matrice Lorene::prepa_helmholtz_plus_nondege	(	const Matrice &	ope,
		int	base_r )

Definition at line 121 of file prepa_helmholtz_plus.C.

◆ prepa_nondege()

Matrice Lorene::prepa_nondege	(	const Matrice &	lap,
		int	l,
		double	echelle,
		int	puis,
		int	base_r )

Definition at line 694 of file prepa_poisson.C.

◆ prepare_fft()

fftw_plan Lorene::prepare_fft	(	int	n,
		Tbl *&	pg )

Definition at line 14 of file fftw_ini.C.

◆ primr()

virtual void Lorene::primr	(	const Scalar &	uu,
		Scalar &	resu,
		bool	null_infty ) const

pure virtual

Computes the radial primitive which vanishes for $r\to \infty$ .

i.e. the function $F(r,\theta,\varphi) = \int_r^\infty f(r',\theta,\varphi) \, dr'$

Parameters

uu	[input] function f (must have a `dzpuis` = 2)
resu	[input] function F
null_infty	if true (default), the primitive is null at infinity (or on the grid boundary). F is null at the center otherwise

◆ prolonge_c1()

Cmp Lorene::prolonge_c1	(	const Cmp &	uu,
		const int	nzet )

Definition at line 31 of file prolonge_c1.C.

◆ puis()

double Lorene::puis	(	double	,
		double	)

Definition at line 989 of file eos_bf_poly.C.

◆ raccord_c1() [1/2]

Cmp Lorene::raccord_c1	(	const Cmp &	uu,
		int	l1 )

Definition at line 53 of file raccord_c1.C.

◆ raccord_c1() [2/2]

Scalar Lorene::raccord_c1	(	const Scalar &	uu,
		int	l1 )

Definition at line 137 of file raccord_c1.C.

◆ radial_smoothing()

void Lorene::radial_smoothing	(	double *	tab,
		const double *	rr,
		int	n,
		double	rho )

Definition at line 95 of file tbl_val_smooth.C.

◆ reevaluate() [1/2]

virtual void Lorene::reevaluate	(	const Map *	mp_prev,
		int	nzet,
		Cmp &	uu ) const

pure virtual

Recomputes the values of a Cmp at the collocation points after a change in the mapping.

Parameters

mp_prev	[input] Previous value of the mapping.
nzet	[input] Number of domains where the computation must be done: the computation is performed for the domains of index $0\le {\tt l} \le {\tt nzet-1}$ ; `uu` is set to zero in the other domains.
uu	[input/output] input : `Cmp` previously computed on the mapping `mp_prev` ; ouput : values of (logically) the same `Cmp` at the grid points defined by `this`.

References Map().

◆ reevaluate() [2/2]

virtual void Lorene::reevaluate	(	const Map *	mp_prev,
		int	nzet,
		Scalar &	uu ) const

pure virtual

Recomputes the values of a Scalar at the collocation points after a change in the mapping.

Parameters

mp_prev	[input] Previous value of the mapping.
nzet	[input] Number of domains where the computation must be done: the computation is performed for the domains of index $0\le {\tt l} \le {\tt nzet-1}$ ; `uu` is set to zero in the other domains.
uu	[input/output] input : `Scalar` previously computed on the mapping `mp_prev` ; ouput : values of (logically) the same `Scalae` at the grid points defined by `this`.

References Map().

◆ reevaluate_symy() [1/2]

virtual void Lorene::reevaluate_symy	(	const Map *	mp_prev,
		int	nzet,
		Cmp &	uu ) const

pure virtual

Recomputes the values of a Cmp at the collocation points after a change in the mapping.

Case where the Cmp is symmetric with respect the plane y=0.

Parameters

mp_prev	[input] Previous value of the mapping.
nzet	[input] Number of domains where the computation must be done: the computation is performed for the domains of index $0\le {\tt l} \le {\tt nzet-1}$ ; `uu` is set to zero in the other domains.
uu	[input/output] input : `Cmp` previously computed on the mapping `mp_prev` ; ouput : values of (logically) the same `Cmp` at the grid points defined by `this`.

References Map().

◆ reevaluate_symy() [2/2]

virtual void Lorene::reevaluate_symy	(	const Map *	mp_prev,
		int	nzet,
		Scalar &	uu ) const

pure virtual

Recomputes the values of a Scalar at the collocation points after a change in the mapping.

Case where the Scalar is symmetric with respect the plane y=0.

Parameters

mp_prev	[input] Previous value of the mapping.
nzet	[input] Number of domains where the computation must be done: the computation is performed for the domains of index $0\le {\tt l} \le {\tt nzet-1}$ ; `uu` is set to zero in the other domains.
uu	[input/output] input : `Scalar` previously computed on the mapping `mp_prev` ; ouput : values of (logically) the same `Scalar` at the grid points defined by `this`.

References Map().

◆ regle()

double Lorene::regle	(	Tenseur &	shift_auto,
		const Tenseur &	shift_comp,
		double	omega,
		double	omega_local )

Definition at line 90 of file regularise_shift.C.

◆ regularise()

Tbl Lorene::regularise	(	Tbl	coef,
		int	nr,
		int	base_r )

Definition at line 136 of file cmp_raccord.C.

◆ reset_coord()

virtual void Lorene::reset_coord ( )

protectedvirtual

Resets all the member Coords.

◆ resize()

virtual void Lorene::resize	(	int	l,
		double	lambda )

pure virtual

Rescales the outer boundary of one domain.

The inner boundary is unchanged. The inner boundary of the next domain is changed to match the new outer boundary.

Parameters

l	[input] index of the domain
lambda	[input] factor by which the value of $R(\theta, \varphi)$ defining the outer boundary of the domain is to be multiplied.

◆ rotate_propre_impair()

void Lorene::rotate_propre_impair	(	Valeur &	so,
		bool	sens )

Definition at line 196 of file valeur_val_propre_1d.C.

◆ rotate_propre_pair()

void Lorene::rotate_propre_pair	(	Valeur &	so,
		bool	sens )

Definition at line 66 of file valeur_val_propre_1d.C.

◆ runge_kutta3_wave_sys()

void Lorene::runge_kutta3_wave_sys	(	double	dt,
		const Scalar &	fff,
		const Scalar &	phi,
		Scalar &	fnext,
		Scalar &	phinext,
		int	dl = 0 )

Definition at line 136 of file wave_utilities.C.

◆ sauve()

virtual void Lorene::sauve ( FILE * ) const

virtual

Save in a file.

◆ save_profile()

void Lorene::save_profile	(	const Scalar &	uu,
		double	r_min,
		double	r_max,
		double	theta,
		double	phi,
		const char *	filename )

Definition at line 56 of file save_profile.C.

◆ sec_membre_raccord()

Tbl Lorene::sec_membre_raccord	(	Tbl	coef,
		int	cont,
		double	alpha_shell )

Definition at line 109 of file cmp_raccord.C.

◆ secmembre_kerr()

Sym_tensor Lorene::secmembre_kerr	(	const Sym_tensor &	hij,
		const Sym_tensor &	aa,
		const Scalar &	nn,
		const Scalar &	ppsi,
		const Vector &	bb )

Definition at line 14 of file secmembre_kerr.C.

◆ separation()

void Lorene::separation	(	const Cmp &	c1,
		const Cmp &	c2,
		Cmp &	res1,
		Cmp &	res2,
		int	decrois,
		int	puiss,
		int	lmax,
		double	precision,
		const double	relax = 0.5,
		const int	itemax = 100,
		const int	flag = 1 )

Definition at line 74 of file separation.C.

◆ serie_lindquist_moins()

double Lorene::serie_lindquist_moins	(	double	rayon,
		double	distance,
		double	xa,
		double	ya,
		double	za,
		double	precision,
		double	itemax )

Definition at line 92 of file lindquist.C.

◆ serie_lindquist_plus()

double Lorene::serie_lindquist_plus	(	double	rayon,
		double	distance,
		double	xa,
		double	ya,
		double	za,
		double	precision,
		double	itemax )

Definition at line 62 of file lindquist.C.

◆ set_lindquist()

void Lorene::set_lindquist	(	Cmp &	psi_un,
		Cmp &	psi_deux,
		double	rayon,
		double	precision )

Definition at line 162 of file lindquist.C.

◆ set_ori()

void Lorene::set_ori	(	double	xa0,
		double	ya0,
		double	za0 )

Sets a new origin.

◆ set_rot_phi()

void Lorene::set_rot_phi ( double phi0 )

Sets a new rotation angle.

◆ sh_ptens_rr()

Tbl Lorene::sh_ptens_rr	(	int	n,
		int	l,
		double	echelle,
		int	base_r )

Definition at line 383 of file sh_ptens_rr.C.

◆ sh_pvect_r()

Tbl Lorene::sh_pvect_r	(	int	n,
		int	l,
		double	echelle,
		int	base_r )

Definition at line 414 of file sh_pvect_r.C.

◆ sol_dalembert()

Mtbl_cf Lorene::sol_dalembert	(	Param &	par,
		const Map_af &	mapping,
		const Mtbl_cf &	source )

Definition at line 113 of file dalembert.C.

◆ sol_poisson()

Mtbl_cf Lorene::sol_poisson	(	const Map_af &	mapping,
		const Mtbl_cf &	source,
		int	dzpuis,
		bool	match = true )

Definition at line 179 of file poisson.C.

◆ sol_poisson_compact() [1/2]

Mtbl_cf Lorene::sol_poisson_compact	(	const Map_af &	mapping,
		const Mtbl_cf &	source,
		const Tbl &	ac,
		const Tbl &	bc,
		bool	)

Definition at line 224 of file poisson_compact.C.

◆ sol_poisson_compact() [2/2]

Mtbl_cf Lorene::sol_poisson_compact	(	const Mtbl_cf &	source,
		double	a,
		double	b,
		bool	reamorce )

Definition at line 90 of file poisson_compact.C.

◆ sol_poisson_falloff()

Mtbl_cf Lorene::sol_poisson_falloff	(	const Map_af &	mapping,
		const Mtbl_cf &	source,
		const int	k_falloff )

Definition at line 82 of file poisson_falloff.C.

◆ sol_poisson_frontiere()

Mtbl_cf Lorene::sol_poisson_frontiere	(	const Map_af &	mapping,
		const Mtbl_cf &	source,
		const Mtbl_cf &	limite,
		int	type_raccord,
		int	num_front,
		int	dzpuis,
		double	fact_dir = 0.,
		double	fact_neu = 0. )

Definition at line 108 of file poisson_frontiere.C.

◆ sol_poisson_frontiere_double()

Mtbl_cf Lorene::sol_poisson_frontiere_double	(	const Map_af &	mapping,
		const Mtbl_cf &	source,
		const Mtbl_cf &	lim_func,
		const Mtbl_cf &	lim_der,
		int	num_zone )

Definition at line 71 of file poisson_frontiere_double.C.

◆ sol_poisson_interne()

Mtbl_cf Lorene::sol_poisson_interne	(	const Map_af &	mapping,
		const Mtbl_cf &	source,
		const Mtbl_cf &	lim_der )

Definition at line 69 of file poisson_interne.C.

◆ sol_poisson_tau()

Mtbl_cf Lorene::sol_poisson_tau	(	const Map_af &	mapping,
		const Mtbl_cf &	source,
		int	dzpuis )

Definition at line 91 of file poisson_tau.C.

◆ sol_poisson_ylm()

Mtbl_cf Lorene::sol_poisson_ylm	(	const Map_af &	mapping,
		const Mtbl_cf &	source,
		const int	nylm,
		const double *	intvec )

Definition at line 82 of file poisson_ylm.C.

◆ solh()

Tbl Lorene::solh	(	int	n,
		int	l,
		double	echelle,
		int	base_r )

Definition at line 547 of file solh.C.

◆ solh_helmholtz_minus()

Tbl Lorene::solh_helmholtz_minus	(	int	n,
		int	lq,
		double	alpha,
		double	beta,
		double	masse,
		int	base_r )

Definition at line 237 of file solh_helmholtz_minus.C.

◆ solh_helmholtz_plus()

Tbl Lorene::solh_helmholtz_plus	(	int	n,
		int	lq,
		double	alpha,
		double	beta,
		double	masse,
		int	base_r )

Definition at line 160 of file solh_helmholtz_plus.C.

◆ solp()

Tbl Lorene::solp	(	const Matrice &	lap,
		const Matrice &	nondege,
		double	alpha,
		double	beta,
		const Tbl &	source,
		int	puis,
		int	base_r )

Definition at line 496 of file solp.C.

◆ solp_helmholtz_minus()

Tbl Lorene::solp_helmholtz_minus	(	const Matrice &	lap,
		const Matrice &	nondege,
		const Tbl &	source,
		double	alpha,
		double	beta,
		int	lq,
		int	base_r )

Definition at line 232 of file solp_helmholtz_minus.C.

◆ solp_helmholtz_plus()

Tbl Lorene::solp_helmholtz_plus	(	const Matrice &	lap,
		const Matrice &	nondege,
		const Tbl &	source,
		double	alpha,
		double	beta,
		int	base_r )

Definition at line 143 of file solp_helmholtz_plus.C.

◆ som_phi_cossin()

void Lorene::som_phi_cossin	(	double *	ti,
		const int	np,
		const double	phi,
		double *	xo )

Definition at line 88 of file som_phi.C.

◆ som_phi_cossin_asymy()

void Lorene::som_phi_cossin_asymy	(	double *	ti,
		const int	np,
		const double	phi,
		double *	xo )

Definition at line 370 of file som_asymy.C.

◆ som_phi_cossin_i()

void Lorene::som_phi_cossin_i	(	double *	ti,
		const int	np,
		const double	phi,
		double *	xo )

Definition at line 116 of file som_phi.C.

◆ som_phi_cossin_p()

void Lorene::som_phi_cossin_p	(	double *	ti,
		const int	np,
		const double	phi,
		double *	xo )

Definition at line 102 of file som_phi.C.

◆ som_phi_cossin_symy()

void Lorene::som_phi_cossin_symy	(	double *	ti,
		const int	np,
		const double	phi,
		double *	xo )

Definition at line 448 of file som_symy.C.

◆ som_phi_pas_prevu()

void Lorene::som_phi_pas_prevu	(	double *	,
		const int	,
		const double	,
		double *	)

Definition at line 81 of file som_phi.C.

◆ som_r_cheb()

void Lorene::som_r_cheb	(	double *	ti,
		const int	nr,
		const int	nt,
		const int	np,
		const double	x,
		double *	trtp )

Definition at line 126 of file som_r.C.

◆ som_r_cheb_asymy()

void Lorene::som_r_cheb_asymy	(	double *	ti,
		const int	nr,
		const int	nt,
		const int	np,
		const double	x,
		double *	trtp )

Cas R_CHEB ///.

Definition at line 80 of file som_asymy.C.

References x.

◆ som_r_cheb_symy()

void Lorene::som_r_cheb_symy	(	double *	ti,
		const int	nr,
		const int	nt,
		const int	np,
		const double	x,
		double *	trtp )

Cas R_CHEB ///.

Definition at line 81 of file som_symy.C.

References x.

◆ som_r_chebi()

void Lorene::som_r_chebi	(	double *	ti,
		const int	nr,
		const int	nt,
		const int	np,
		const double	x,
		double *	trtp )

Definition at line 244 of file som_r.C.

◆ som_r_chebp()

void Lorene::som_r_chebp	(	double *	ti,
		const int	nr,
		const int	nt,
		const int	np,
		const double	x,
		double *	trtp )

Definition at line 185 of file som_r.C.

◆ som_r_chebpi_i()

void Lorene::som_r_chebpi_i	(	double *	ti,
		const int	nr,
		const int	nt,
		const int	np,
		const double	x,
		double *	trtp )

Definition at line 540 of file som_r.C.

◆ som_r_chebpi_p()

void Lorene::som_r_chebpi_p	(	double *	ti,
		const int	nr,
		const int	nt,
		const int	np,
		const double	x,
		double *	trtp )

Definition at line 472 of file som_r.C.

◆ som_r_chebpim_i()

void Lorene::som_r_chebpim_i	(	double *	ti,
		const int	nr,
		const int	nt,
		const int	np,
		const double	x,
		double *	trtp )

Definition at line 414 of file som_r.C.

◆ som_r_chebpim_i_asymy()

void Lorene::som_r_chebpim_i_asymy	(	double *	ti,
		const int	nr,
		const int	nt,
		const int	np,
		const double	x,
		double *	trtp )

Cas R_CHEBPIM_I ///.

Definition at line 227 of file som_asymy.C.

References x.

◆ som_r_chebpim_i_symy()

void Lorene::som_r_chebpim_i_symy	(	double *	ti,
		const int	nr,
		const int	nt,
		const int	np,
		const double	x,
		double *	trtp )

Cas R_CHEBPIM_I ///.

Definition at line 268 of file som_symy.C.

References x.

◆ som_r_chebpim_p()

void Lorene::som_r_chebpim_p	(	double *	ti,
		const int	nr,
		const int	nt,
		const int	np,
		const double	x,
		double *	trtp )

Definition at line 356 of file som_r.C.

◆ som_r_chebpim_p_asymy()

void Lorene::som_r_chebpim_p_asymy	(	double *	ti,
		const int	nr,
		const int	nt,
		const int	np,
		const double	x,
		double *	trtp )

Cas R_CHEBPIM_P ///.

Definition at line 177 of file som_asymy.C.

References x.

◆ som_r_chebpim_p_symy()

void Lorene::som_r_chebpim_p_symy	(	double *	ti,
		const int	nr,
		const int	nt,
		const int	np,
		const double	x,
		double *	trtp )

Cas R_CHEBPIM_P ///.

Definition at line 205 of file som_symy.C.

References x.

◆ som_r_chebu()

void Lorene::som_r_chebu	(	double *	ti,
		const int	nr,
		const int	nt,
		const int	np,
		const double	x,
		double *	trtp )

Definition at line 301 of file som_r.C.

◆ som_r_chebu_asymy()

void Lorene::som_r_chebu_asymy	(	double *	ti,
		const int	nr,
		const int	nt,
		const int	np,
		const double	x,
		double *	trtp )

Cas R_CHEBU ///.

Definition at line 128 of file som_asymy.C.

References x.

◆ som_r_chebu_symy()

void Lorene::som_r_chebu_symy	(	double *	ti,
		const int	nr,
		const int	nt,
		const int	np,
		const double	x,
		double *	trtp )

Cas R_CHEBU ///.

Definition at line 144 of file som_symy.C.

References x.

◆ som_r_jaco02()

void Lorene::som_r_jaco02	(	double *	ti,
		const int	nr,
		const int	nt,
		const int	np,
		const double	x,
		double *	trtp )

Definition at line 783 of file som_r.C.

◆ som_r_leg()

void Lorene::som_r_leg	(	double *	ti,
		const int	nr,
		const int	nt,
		const int	np,
		const double	x,
		double *	trtp )

Definition at line 607 of file som_r.C.

◆ som_r_legi()

void Lorene::som_r_legi	(	double *	ti,
		const int	nr,
		const int	nt,
		const int	np,
		const double	x,
		double *	trtp )

Definition at line 725 of file som_r.C.

◆ som_r_legp()

void Lorene::som_r_legp	(	double *	ti,
		const int	nr,
		const int	nt,
		const int	np,
		const double	x,
		double *	trtp )

Definition at line 666 of file som_r.C.

◆ som_r_pas_prevu()

void Lorene::som_r_pas_prevu	(	double *	,
		const int	,
		const int	,
		const int	,
		const double	,
		double *	)

Definition at line 115 of file som_r.C.

◆ som_tet_cos()

void Lorene::som_tet_cos	(	double *	ti,
		const int	nt,
		const int	np,
		const double	tet,
		double *	to )

Definition at line 121 of file som_tet.C.

◆ som_tet_cos_i()

void Lorene::som_tet_cos_i	(	double *	ti,
		const int	nt,
		const int	np,
		const double	tet,
		double *	to )

Definition at line 220 of file som_tet.C.

◆ som_tet_cos_p()

void Lorene::som_tet_cos_p	(	double *	ti,
		const int	nt,
		const int	np,
		const double	tet,
		double *	to )

Definition at line 171 of file som_tet.C.

◆ som_tet_cossin_c()

void Lorene::som_tet_cossin_c	(	double *	ti,
		const int	nt,
		const int	np,
		const double	tet,
		double *	to )

Definition at line 631 of file som_tet.C.

◆ som_tet_cossin_ci()

void Lorene::som_tet_cossin_ci	(	double *	ti,
		const int	nt,
		const int	np,
		const double	tet,
		double *	to )

Definition at line 476 of file som_tet.C.

◆ som_tet_cossin_ci_asymy()

void Lorene::som_tet_cossin_ci_asymy	(	double *	ti,
		const int	nt,
		const int	np,
		const double	tet,
		double *	to )

Cas T_COSSIN_CI ///.

Definition at line 325 of file som_asymy.C.

References cos(), sin(), and tet.

◆ som_tet_cossin_ci_symy()

void Lorene::som_tet_cossin_ci_symy	(	double *	ti,
		const int	nt,
		const int	np,
		const double	tet,
		double *	to )

Cas T_COSSIN_CI ///.

Definition at line 392 of file som_symy.C.

References cos(), sin(), and tet.

◆ som_tet_cossin_cp()

void Lorene::som_tet_cossin_cp	(	double *	ti,
		const int	nt,
		const int	np,
		const double	tet,
		double *	to )

Definition at line 424 of file som_tet.C.

◆ som_tet_cossin_cp_asymy()

void Lorene::som_tet_cossin_cp_asymy	(	double *	ti,
		const int	nt,
		const int	np,
		const double	tet,
		double *	to )

Cas T_COSSIN_CP ///.

Definition at line 281 of file som_asymy.C.

References cos(), sin(), and tet.

◆ som_tet_cossin_cp_symy()

void Lorene::som_tet_cossin_cp_symy	(	double *	ti,
		const int	nt,
		const int	np,
		const double	tet,
		double *	to )

Cas T_COSSIN_CP ///.

Definition at line 337 of file som_symy.C.

References cos(), sin(), and tet.

◆ som_tet_cossin_s()

void Lorene::som_tet_cossin_s	(	double *	ti,
		const int	nt,
		const int	np,
		const double	tet,
		double *	to )

Definition at line 682 of file som_tet.C.

◆ som_tet_cossin_si()

void Lorene::som_tet_cossin_si	(	double *	ti,
		const int	nt,
		const int	np,
		const double	tet,
		double *	to )

Definition at line 580 of file som_tet.C.

◆ som_tet_cossin_sp()

void Lorene::som_tet_cossin_sp	(	double *	ti,
		const int	nt,
		const int	np,
		const double	tet,
		double *	to )

Definition at line 528 of file som_tet.C.

◆ som_tet_pas_prevu()

void Lorene::som_tet_pas_prevu	(	double *	,
		const int	,
		const int	,
		const double	,
		double *	)

Definition at line 110 of file som_tet.C.

◆ som_tet_sin()

void Lorene::som_tet_sin	(	double *	ti,
		const int	nt,
		const int	np,
		const double	tet,
		double *	to )

Definition at line 274 of file som_tet.C.

◆ som_tet_sin_i()

void Lorene::som_tet_sin_i	(	double *	ti,
		const int	nt,
		const int	np,
		const double	tet,
		double *	to )

Definition at line 373 of file som_tet.C.

◆ som_tet_sin_p()

void Lorene::som_tet_sin_p	(	double *	ti,
		const int	nt,
		const int	np,
		const double	tet,
		double *	to )

Definition at line 323 of file som_tet.C.

◆ srdsdt() [1/2]

virtual void Lorene::srdsdt	(	const Cmp &	ci,
		Cmp &	resu ) const

pure virtual

Computes $1/r \partial/ \partial \theta$ of a Cmp .

Note that in the compactified external domain (CED), it computes $1/u \partial/ \partial \theta = r \partial/ \partial \theta$ .

Parameters

ci	[input] field to consider
resu	[output] derivative of `ci`

◆ srdsdt() [2/2]

virtual void Lorene::srdsdt	(	const Scalar &	uu,
		Scalar &	resu ) const

pure virtual

Computes $1/r \partial/ \partial \theta$ of a Scalar .

Note that in the compactified external domain (CED), the dzpuis flag of the output is 2 if the input has dzpuis = 0, and is increased by 1 in other cases.

Parameters

uu	[input] field to consider
resu	[output] derivative of `uu`

◆ srstdsdp() [1/2]

virtual void Lorene::srstdsdp	(	const Cmp &	ci,
		Cmp &	resu ) const

pure virtual

Computes $1/(r\sin\theta) \partial/ \partial \phi$ of a Cmp .

Note that in the compactified external domain (CED), it computes $1/(u\sin\theta) \partial/ \partial \phi = r/\sin\theta \partial/ \partial \phi$ .

Parameters

ci	[input] field to consider
resu	[output] derivative of `ci`

◆ srstdsdp() [2/2]

virtual void Lorene::srstdsdp	(	const Scalar &	uu,
		Scalar &	resu ) const

pure virtual

Computes $1/(r\sin\theta) \partial/ \partial \phi$ of a Scalar .

Note that in the compactified external domain (CED), the dzpuis flag of the output is 2 if the input has dzpuis = 0, and is increased by 1 in other cases.

Parameters

uu	[input] field to consider
resu	[output] derivative of `uu`

◆ std_base_scal_1z()

int Lorene::std_base_scal_1z	(	int	type_r,
		int	type_t,
		int	type_p )

Definition at line 89 of file std_base_scal.C.

◆ std_base_scal_odd_1z()

int Lorene::std_base_scal_odd_1z	(	int	type_r,
		int	type_t,
		int	type_p )

Definition at line 264 of file std_base_scal.C.

◆ stdsdp()

virtual void Lorene::stdsdp	(	const Scalar &	uu,
		Scalar &	resu ) const

pure virtual

Computes $1/\sin\theta \partial/ \partial \varphi$ of a Scalar .

Parameters

uu	[input] scalar field
resu	[output] derivative of `uu`

◆ strot_dirac_diff_fzero()

double Lorene::strot_dirac_diff_fzero	(	double	omeg,
		const Param &	par )

Definition at line 148 of file strot_dirac_diff_faitomeg.C.

◆ sx2_1d()

void Lorene::sx2_1d	(	int	nr,
		double **	tb,
		int	base_r )

Definition at line 204 of file sx2_1d.C.

◆ sx_1d()

void Lorene::sx_1d	(	int	nr,
		double **	tb,
		int	base_r )

Definition at line 172 of file sx_1d.C.

◆ sxdsdx_1d()

void Lorene::sxdsdx_1d	(	int	nr,
		double **	tb,
		int	base_r )

Definition at line 208 of file sxdsdx_1d.C.

◆ sxm1_1d_cheb()

void Lorene::sxm1_1d_cheb	(	int	nr,
		double *	cf )

Definition at line 73 of file sxm1_1d_cheb.C.

◆ sxp12_1d()

void Lorene::sxp12_1d	(	int	nr,
		double **	tb,
		int	base_r )

Definition at line 93 of file sxp12_1d.C.

◆ sxpun_1d()

void Lorene::sxpun_1d	(	int	,
		double **	,
		int	)

Definition at line 144 of file sxpun_1d.C.

◆ sxpundsdx_1d()

void Lorene::sxpundsdx_1d	(	int	nr,
		double **	tb,
		int	base_r )

Definition at line 94 of file sxpundsdx_1d.C.

◆ tensor_coupe_l()

void Lorene::tensor_coupe_l	(	Sym_tensor &	ten,
		int	ntt,
		int	cutoff )

Definition at line 47 of file spectral_cutoff.C.

◆ tensorelliptic()

void Lorene::tensorelliptic	(	Scalar	source,
		Scalar &	resu,
		double	fitd1,
		double	fit2d1,
		double	fit0d2 = 0.,
		double	fit1d2 = 0.,
		double	fit0d3 = 0.,
		double	fit1d3 = 0. )

Definition at line 12 of file tensorelliptic.C.

◆ tensorellipticBt()

void Lorene::tensorellipticBt	(	Scalar	source,
		Scalar &	resu,
		double	fitd1,
		double	fit2d1,
		double	fit0d2 = 0.,
		double	fit1d2 = 0.,
		double	fit0d3 = 0.,
		double	fit1d3 = 0. )

Definition at line 16 of file tensorellipticBt.C.

◆ tensorellipticCt()

void Lorene::tensorellipticCt	(	Scalar	source,
		Scalar &	resu,
		double	fitd1,
		double	fit2d1,
		double	fit0d2,
		double	fit1d2,
		double	fit0d3,
		double	fit1d3 )

phi.set_spectral_va().ylm_i() ;

Definition at line 16 of file tensorellipticCt.C.

References Lorene::Matrice::annule_hard(), Lorene::Mtbl_cf::annule_hard(), Lorene::Tbl::annule_hard(), Lorene::Valeur::base, Lorene::Mtbl_cf::dsdx(), Lorene::Diff_dsdx2::get_matrice(), Lorene::Diff_dsdx::get_matrice(), Lorene::Diff_sx2::get_matrice(), Lorene::Diff_x2dsdx2::get_matrice(), Lorene::Diff_x3dsdx2::get_matrice(), Lorene::Diff_x4dsdx2::get_matrice(), Lorene::Diff_xdsdx2::get_matrice(), Lorene::Diff_xdsdx::get_matrice(), get_mg(), Lorene::Tensor::get_mp(), Lorene::Scalar::get_spectral_base(), Lorene::Scalar::get_spectral_va(), Lorene::Base_val::give_quant_numbers(), Lorene::Matrice::inverse(), Lorene::Scalar::mult_r(), phi, Lorene::Matrice::set(), Lorene::Mtbl_cf::set(), Lorene::Tbl::set(), Lorene::Valeur::set_base(), Lorene::Matrice::set_lu(), Lorene::Scalar::set_spectral_va(), Lorene::Scalar::val_grid_point(), Lorene::Mtbl_cf::val_in_bound_jk(), Lorene::Mtbl_cf::val_out_bound_jk(), and Lorene::Valeur::ylm().

◆ theta_funct_cos()

void Lorene::theta_funct_cos	(	int	nt,
		double *	ff )

Definition at line 222 of file base_val_theta_funct.C.

◆ theta_funct_cos_i()

void Lorene::theta_funct_cos_i	(	int	nt,
		double *	ff )

Definition at line 273 of file base_val_theta_funct.C.

◆ theta_funct_cos_p()

void Lorene::theta_funct_cos_p	(	int	nt,
		double *	ff )

Definition at line 256 of file base_val_theta_funct.C.

◆ theta_funct_cossin_c()

void Lorene::theta_funct_cossin_c	(	int	nt,
		double *	ff )

Definition at line 469 of file base_val_theta_funct.C.

◆ theta_funct_cossin_ci()

void Lorene::theta_funct_cossin_ci	(	int	nt,
		double *	ff )

Definition at line 360 of file base_val_theta_funct.C.

◆ theta_funct_cossin_cp()

void Lorene::theta_funct_cossin_cp	(	int	nt,
		double *	ff )

Definition at line 324 of file base_val_theta_funct.C.

◆ theta_funct_cossin_s()

void Lorene::theta_funct_cossin_s	(	int	nt,
		double *	ff )

Definition at line 505 of file base_val_theta_funct.C.

◆ theta_funct_cossin_si()

void Lorene::theta_funct_cossin_si	(	int	nt,
		double *	ff )

Definition at line 433 of file base_val_theta_funct.C.

◆ theta_funct_cossin_sp()

void Lorene::theta_funct_cossin_sp	(	int	nt,
		double *	ff )

Definition at line 397 of file base_val_theta_funct.C.

◆ theta_funct_pas_prevu()

void Lorene::theta_funct_pas_prevu	(	int	,
		double *	)

Definition at line 210 of file base_val_theta_funct.C.

◆ theta_funct_sin()

void Lorene::theta_funct_sin	(	int	nt,
		double *	ff )

Definition at line 239 of file base_val_theta_funct.C.

◆ theta_funct_sin_i()

void Lorene::theta_funct_sin_i	(	int	nt,
		double *	ff )

Definition at line 307 of file base_val_theta_funct.C.

◆ theta_funct_sin_p()

void Lorene::theta_funct_sin_p	(	int	nt,
		double *	ff )

Definition at line 290 of file base_val_theta_funct.C.

◆ tilde_laplacian()

void Lorene::tilde_laplacian	(	const Scalar &	B_in,
		Scalar &	tilde_lap,
		int	dl = -1 )

Definition at line 75 of file wave_utilities.C.

◆ trigo_ini()

double * Lorene::trigo_ini ( int n )

Definition at line 93 of file trigo_ini.C.

◆ val1_dern_1d()

double Lorene::val1_dern_1d	(	int	n,
		const Tbl &	tb,
		int	base_r )

Definition at line 56 of file val_dern_1d.C.

◆ val_lx() [1/2]

virtual void Lorene::val_lx	(	double	rr,
		double	theta,
		double	pphi,
		const Param &	par,
		int &	l,
		double &	xi ) const

pure virtual

Computes the domain index l and the value of $\xi$ corresponding to a point given by its physical coordinates $(r, \theta, \phi)$ .

This version enables to pass some parameters to control the accuracy of the computation.

Parameters

rr	[input] value of r
theta	[input] value of $\theta$
pphi	[input] value of $\phi$
par	[input/output] parameters to control the accuracy of the computation
l	[output] value of the domain index
xi	[output] value of $\xi$

◆ val_lx() [2/2]

virtual void Lorene::val_lx	(	double	rr,
		double	theta,
		double	pphi,
		int &	l,
		double &	xi ) const

pure virtual

Computes the domain index l and the value of $\xi$ corresponding to a point given by its physical coordinates $(r, \theta, \phi)$ .

Parameters

rr	[input] value of r
theta	[input] value of $\theta$
pphi	[input] value of $\phi$
l	[output] value of the domain index
xi	[output] value of $\xi$

◆ val_r()

virtual double Lorene::val_r	(	int	l,
		double	xi,
		double	theta,
		double	pphi ) const

pure virtual

Returns the value of the radial coordinate r for a given $(\xi, \theta', \phi')$ in a given domain.

Parameters

l	[input] index of the domain
xi	[input] value of $\xi$
theta	[input] value of $\theta'$
pphi	[input] value of $\phi'$

Returns: value of $r=R_l(\xi, \theta', \phi')$

◆ val_solh()

Tbl Lorene::val_solh	(	int	,
		double	,
		double	,
		int	)

Definition at line 166 of file val_solh.C.

◆ val_solp()

Tbl Lorene::val_solp	(	const Tbl &	sp,
		double	alpha,
		int	base_r )

Definition at line 225 of file val_solp.C.

◆ valeur_equipot_fonc()

double Lorene::valeur_equipot_fonc	(	double	,
		const Param &	)

Definition at line 211 of file valeur_equipot.C.

◆ valm1_dern_1d()

double Lorene::valm1_dern_1d	(	int	n,
		const Tbl &	tb,
		int	base_r )

Definition at line 86 of file val_dern_1d.C.

◆ write_formatted() [1/2]

void Lorene::write_formatted	(	const double &	x,
		ostream &	ost )

Definition at line 52 of file write_formatted.C.

◆ write_formatted() [2/2]

void Lorene::write_formatted	(	const Tbl &	tb,
		ostream &	ost )

Definition at line 61 of file write_formatted.C.

◆ xdsdx_1d()

void Lorene::xdsdx_1d	(	int	nr,
		double **	tb,
		int	base_r )

Definition at line 139 of file xdsdx_1d.C.

◆ xdsdx_mat()

Matrice Lorene::xdsdx_mat	(	int	n,
		int	l,
		int	base_r )

Definition at line 209 of file xdsdx_mat.C.

◆ xpundsdx_1d()

void Lorene::xpundsdx_1d	(	int	nr,
		double **	tb,
		int	base_r )

Definition at line 96 of file xpundsdx_1d.C.

◆ ylm_i_pasprevu()

void Lorene::ylm_i_pasprevu	(	const int *	,
		const double *	,
		double *	)

Definition at line 268 of file valeur_ylm_i.C.

◆ ylm_pasprevu()

void Lorene::ylm_pasprevu	(	const int *	,
		const double *	,
		double *	)

Definition at line 273 of file valeur_ylm.C.

◆ zero()

double Lorene::zero ( double )

Definition at line 66 of file change_var.C.

◆ ~Map()

Map::~Map ( )

virtual

Destructor.

Definition at line 213 of file map.C.

References p_cmp_zero, p_flat_met_cart, p_flat_met_spher, and p_mp_angu.

Variable Documentation

◆ bvect_cart

Base_vect_cart Lorene::bvect_cart

Cartesian basis $(\partial/\partial x,\partial/\partial y,\partial/\partial z)$ associated with the coordinates (x,y,z) of the mapping, i.e.

the Cartesian coordinates related to $(r, \theta, \phi)$ by means of usual formulae.

Definition at line 697 of file map.h.

◆ cosp

Coord Lorene::cosp

$\cos\phi$

Definition at line 724 of file map.h.

◆ cost

Coord Lorene::cost

$\cos\theta$

Definition at line 722 of file map.h.

◆ p_cmp_zero

Cmp* Lorene::p_cmp_zero

The null Cmp.

To be used by the Tenseur class when necessary to return a null Cmp .

Definition at line 713 of file map.h.

◆ p_flat_met_cart

Metric_flat* Lorene::p_flat_met_cart

mutable

Pointer onto the flat metric associated with the Cartesian coordinates and with components expressed in the triad bvect_cart.

Definition at line 707 of file map.h.

◆ p_flat_met_spher

Metric_flat* Lorene::p_flat_met_spher

mutable

Pointer onto the flat metric associated with the spherical coordinates and with components expressed in the triad bvect_spher.

Definition at line 702 of file map.h.

◆ p_mp_angu

Map_af* Lorene::p_mp_angu

mutable

Pointer on the "angular" mapping.

Definition at line 715 of file map.h.

◆ phi

Coord Lorene::phi

$\phi$ coordinate centered on the grid

Definition at line 720 of file map.h.

◆ r

Coord Lorene::r

r coordinate centered on the grid

Definition at line 718 of file map.h.

◆ sinp

Coord Lorene::sinp

$\sin\phi$

Definition at line 723 of file map.h.

◆ sint

Coord Lorene::sint

$\sin\theta$

Definition at line 721 of file map.h.

◆ tet

Coord Lorene::tet

$\theta$ coordinate centered on the grid

Definition at line 719 of file map.h.

◆ x

Coord Lorene::x

x coordinate centered on the grid

Definition at line 726 of file map.h.

◆ xa

Coord Lorene::xa

Absolute x coordinate.

Definition at line 730 of file map.h.

◆ y

Coord Lorene::y

y coordinate centered on the grid

Definition at line 727 of file map.h.

◆ ya

Coord Lorene::ya

Absolute y coordinate.

Definition at line 731 of file map.h.

◆ z

Coord Lorene::z

z coordinate centered on the grid

Definition at line 728 of file map.h.

◆ za

Coord Lorene::za

Absolute z coordinate.

Definition at line 732 of file map.h.

Classes

Functions

Variables

Detailed Description

Function Documentation

◆ _cl_cpt_pas_prevu() [1/2]

◆ _cl_cpt_pas_prevu() [2/2]

◆ _cl_cpt_r_chebi() [1/2]

◆ _cl_cpt_r_chebi() [2/2]

◆ _cl_cpt_r_chebp() [1/2]

◆ _cl_cpt_r_chebp() [2/2]

◆ _cl_helmholtz_minus_2d_pas_prevu() [1/2]

◆ _cl_helmholtz_minus_2d_pas_prevu() [2/2]

◆ _cl_helmholtz_minus_2d_r_cheb() [1/2]

◆ _cl_helmholtz_minus_2d_r_cheb() [2/2]

◆ _cl_helmholtz_minus_2d_r_chebu() [1/2]

◆ _cl_helmholtz_minus_2d_r_chebu() [2/2]

◆ _cl_helmholtz_minus_2d_r_chebu_deux() [1/2]

◆ _cl_helmholtz_minus_2d_r_chebu_deux() [2/2]

◆ _cl_helmholtz_minus_pas_prevu() [1/2]

◆ _cl_helmholtz_minus_pas_prevu() [2/2]

◆ _cl_helmholtz_minus_pseudo_1d_pas_prevu() [1/2]

◆ _cl_helmholtz_minus_pseudo_1d_pas_prevu() [2/2]

◆ _cl_helmholtz_minus_pseudo_1d_r_chebu() [1/2]

◆ _cl_helmholtz_minus_pseudo_1d_r_chebu() [2/2]

◆ _cl_helmholtz_minus_pseudo_1d_r_chebu_deux() [1/2]

◆ _cl_helmholtz_minus_pseudo_1d_r_chebu_deux() [2/2]

◆ _cl_helmholtz_minus_r_cheb() [1/2]

◆ _cl_helmholtz_minus_r_cheb() [2/2]

◆ _cl_helmholtz_minus_r_chebi() [1/2]

◆ _cl_helmholtz_minus_r_chebi() [2/2]

◆ _cl_helmholtz_minus_r_chebp() [1/2]

◆ _cl_helmholtz_minus_r_chebp() [2/2]

◆ _cl_helmholtz_minus_r_chebu() [1/2]

◆ _cl_helmholtz_minus_r_chebu() [2/2]

◆ _cl_helmholtz_plus_pas_prevu() [1/2]

◆ _cl_helmholtz_plus_pas_prevu() [2/2]

◆ _cl_helmholtz_plus_r_cheb() [1/2]

◆ _cl_helmholtz_plus_r_cheb() [2/2]

◆ _cl_helmholtz_plus_r_chebp() [1/2]

◆ _cl_helmholtz_plus_r_chebp() [2/2]

◆ _cl_pas_prevu() [1/2]

◆ _cl_pas_prevu() [2/2]

◆ _cl_poisson_2d_pas_prevu() [1/2]

◆ _cl_poisson_2d_pas_prevu() [2/2]

◆ _cl_poisson_2d_r_cheb() [1/2]

◆ _cl_poisson_2d_r_cheb() [2/2]

◆ _cl_poisson_2d_r_chebi() [1/2]

◆ _cl_poisson_2d_r_chebi() [2/2]

◆ _cl_poisson_2d_r_chebp() [1/2]

◆ _cl_poisson_2d_r_chebp() [2/2]

◆ _cl_poisson_2d_r_chebu() [1/2]

◆ _cl_poisson_2d_r_chebu() [2/2]

◆ _cl_poisson_2d_r_chebu_deux() [1/2]

◆ _cl_poisson_2d_r_chebu_deux() [2/2]

◆ _cl_poisson_2d_r_chebu_quatre() [1/2]

◆ _cl_poisson_2d_r_chebu_quatre() [2/2]

◆ _cl_poisson_2d_r_chebu_trois() [1/2]

◆ _cl_poisson_2d_r_chebu_trois() [2/2]

◆ _cl_poisson_pseudo_1d_pas_prevu() [1/2]

◆ _cl_poisson_pseudo_1d_pas_prevu() [2/2]

◆ _cl_poisson_pseudo_1d_r_cheb() [1/2]

◆ _cl_poisson_pseudo_1d_r_cheb() [2/2]

◆ _cl_poisson_pseudo_1d_r_chebi() [1/2]

◆ _cl_poisson_pseudo_1d_r_chebi() [2/2]

◆ _cl_poisson_pseudo_1d_r_chebp() [1/2]

◆ _cl_poisson_pseudo_1d_r_chebp() [2/2]

◆ _cl_ptens_rr_cheb()

◆ _cl_ptens_rr_chebi()

◆ _cl_ptens_rr_chebp()

◆ _cl_ptens_rr_chebu()

◆ _cl_ptens_rr_pas_prevu()

◆ _cl_pvect_r_cheb()

◆ _cl_pvect_r_chebi()

◆ _cl_pvect_r_chebp()

◆ _cl_pvect_r_chebu()

◆ _cl_pvect_r_pas_prevu()

◆ _cl_r_cheb() [1/2]

◆ _cl_r_cheb() [2/2]

◆ _cl_r_chebi() [1/2]