LORENE
map_log_pas_fait.C
1/*
2 * Methods not yet implemented in class Map_log
3 *
4 * (see file map.h for documentation)
5 *
6 */
7
8/*
9 * Copyright (c) 2004 Philippe Grandclement
10 *
11 * This file is part of LORENE.
12 *
13 * LORENE is free software; you can redistribute it and/or modify
14 * it under the terms of the GNU General Public License as published by
15 * the Free Software Foundation; either version 2 of the License, or
16 * (at your option) any later version.
17 *
18 * LORENE is distributed in the hope that it will be useful,
19 * but WITHOUT ANY WARRANTY; without even the implied warranty of
20 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
21 * GNU General Public License for more details.
22 *
23 * You should have received a copy of the GNU General Public License
24 * along with LORENE; if not, write to the Free Software
25 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
26 *
27 */
28
29
30char map_log_pas_fait_C[] = "$Header $" ;
31
32/*
33 * $Id: map_log_pas_fait.C,v 1.11 2014/10/13 08:53:06 j_novak Exp $
34 * $Log: map_log_pas_fait.C,v $
35 * Revision 1.11 2014/10/13 08:53:06 j_novak
36 * Lorene classes and functions now belong to the namespace Lorene.
37 *
38 * Revision 1.10 2014/10/06 15:13:13 j_novak
39 * Modified #include directives to use c++ syntax.
40 *
41 * Revision 1.9 2014/01/08 09:41:22 b_peres
42 * change map_log_pas_fait
43 *
44 * Revision 1.8 2012/01/17 10:34:56 j_penner
45 * *** empty log message ***
46 *
47 * Revision 1.7 2008/09/29 13:23:51 j_novak
48 * Implementation of the angular mapping associated with an affine
49 * mapping. Things must be improved to take into account the domain index.
50 *
51 * Revision 1.6 2006/04/25 07:21:59 p_grandclement
52 * Various changes for the NS_BH project
53 *
54 * Revision 1.5 2005/11/24 09:25:07 j_novak
55 * Added the Scalar version for the Laplacian
56 *
57 * Revision 1.4 2005/08/25 12:14:09 p_grandclement
58 * Addition of a new method to solve the scalar Poisson equation, based on a multi-domain Tau-method
59 *
60 * Revision 1.3 2005/04/04 21:31:31 e_gourgoulhon
61 * Added argument lambda to method poisson_angu
62 * to deal with the generalized angular Poisson equation:
63 * Lap_ang u + lambda u = source.
64 *
65 * Revision 1.2 2004/11/23 12:54:45 f_limousin
66 * Function poisson_frontiere(...) has two new default arguments,
67 * to deal with the case of a Dirichlet + Neumann boundary condition.
68 *
69 * Revision 1.1 2004/06/22 08:49:58 p_grandclement
70 * Addition of everything needed for using the logarithmic mapping
71 *
72 *
73 * $Header: /cvsroot/Lorene/C++/Source/Map/map_log_pas_fait.C,v 1.11 2014/10/13 08:53:06 j_novak Exp $
74 *
75 */
76
77// headers C
78#include <cmath>
79
80// headers Lorene
81#include "itbl.h"
82#include "tbl.h"
83#include "coord.h"
84#include "grilles.h"
85#include "map.h"
86
87namespace Lorene {
88void pas_fait() {
89 cout << "Function not implemented for Map_log..." << endl ;
90 abort() ;
91}
92
93 void Map_log::homothetie (double) {
94 pas_fait() ;
95}
96
97 void Map_log::resize (int, double) {
98 pas_fait() ;
99}
100
101 void Map_log::adapt (const Cmp&, const Param&, int) {
102 pas_fait();
103}
104
105 void Map_log::dsdr (const Cmp&, Cmp&) const {
106 pas_fait() ;
107}
108
109 void Map_log::dsdxi (const Cmp&, Cmp&) const {
110 pas_fait() ;
111}
112
113 void Map_log::srdsdt (const Cmp&, Cmp&) const {
114 pas_fait() ;
115}
116
117 void Map_log::srstdsdp (const Cmp&, Cmp&) const {
118 pas_fait() ;
119}
120
121 void Map_log::srdsdt (const Scalar&, Scalar&) const {
122 pas_fait() ;
123}
124
125 void Map_log::srstdsdp (const Scalar&, Scalar&) const {
126 pas_fait() ;
127}
128
129 void Map_log::dsdt (const Scalar&, Scalar&) const {
130 pas_fait() ;
131}
132
133 void Map_log::stdsdp (const Scalar&, Scalar&) const {
134 pas_fait() ;
135}
136
137 void Map_log::laplacien (const Cmp&, int, Cmp&) const {
138 pas_fait() ;
139}
140
141 void Map_log::laplacien (const Scalar&, int, Scalar&) const {
142 pas_fait() ;
143}
144
145 void Map_log::lapang (const Scalar&, Scalar&) const {
146 pas_fait() ;
147}
148
149 Tbl* Map_log::integrale (const Cmp&) const {
150 pas_fait() ;
151 return 0x0 ;
152}
153
154 void Map_log::poisson (const Cmp&, Param&, Cmp&) const {
155 pas_fait() ;
156}
157
158void Map_log::poisson_tau (const Cmp&, Param&, Cmp&) const {
159 pas_fait() ;
160}
161
162 void Map_log::poisson_regular (const Cmp&, int, int, double, Param&, Cmp&, Cmp&, Cmp&,
163 Tenseur&, Cmp&, Cmp&) const {
164 pas_fait() ;
165}
166
167 void Map_log::poisson_angu (const Scalar&, Param&, Scalar&, double) const {
168 pas_fait() ;
169}
170
172 pas_fait() ;
173 return 0x0 ;
174}
175
176 void Map_log::poisson_frontiere (const Cmp&, const Valeur&, int, int, Cmp&, double, double) const {
177 pas_fait() ;
178}
179
180 void Map_log::poisson_frontiere_double (const Cmp&, const Valeur&, const Valeur&, int, Cmp&) const {
181 pas_fait() ;
182}
183
184 void Map_log::poisson_interne (const Cmp&, const Valeur&, Param&, Cmp&) const {
185 pas_fait() ;
186}
187
188 void Map_log::poisson2d (const Cmp&, const Cmp&, Param&, Cmp&) const {
189 pas_fait() ;
190}
191
192 void Map_log::dalembert (Param&, Scalar&, const Scalar&, const Scalar&, const Scalar&) const {
193 pas_fait() ;
194}
195
196const Map_af& Map_log::mp_angu(int) const {
197 pas_fait() ;
198 p_mp_angu = new Map_af(*this) ;
199 return *p_mp_angu ;
200}
201
202void Map_log::primr(const Scalar&, Scalar&, bool) const {
203 pas_fait() ;
204}
205
206void Map_log::poisson_falloff(const Cmp&, Param&, Cmp&, int) const {
207 pas_fait() ;
208}
209
210void Map_log::poisson_ylm(const Cmp&, Param&, Cmp&, int, double*) const {
211 pas_fait() ;
212}
213}
Component of a tensorial field *** DEPRECATED : use class Scalar instead ***.
Definition cmp.h:446
Affine radial mapping.
Definition map.h:2027
virtual void poisson2d(const Cmp &, const Cmp &, Param &, Cmp &) const
< Not implemented
virtual void poisson(const Cmp &, Param &, Cmp &) const
< Not implemented
virtual void srdsdt(const Cmp &, Cmp &) const
< Not implemented
virtual Param * donne_para_poisson_vect(Param &, int) const
< Not implemented
virtual void dalembert(Param &, Scalar &, const Scalar &, const Scalar &, const Scalar &) const
< Not implemented
virtual void srstdsdp(const Cmp &, Cmp &) const
< Not implemented
virtual void homothetie(double)
Sets a new radial scale.
virtual void dsdxi(const Scalar &ci, Scalar &resu) const
Computes of a Scalar.
virtual Tbl * integrale(const Cmp &) const
< Not implemented
virtual void adapt(const Cmp &, const Param &, int)
< Not implemented
virtual void poisson_frontiere_double(const Cmp &, const Valeur &, const Valeur &, int, Cmp &) const
< Not implemented
virtual void poisson_tau(const Cmp &, Param &, Cmp &) const
< Not implemented
virtual void lapang(const Scalar &, Scalar &) const
< Not implemented
virtual void poisson_ylm(const Cmp &, Param &, Cmp &, int, double *) const
< Not implemented
virtual void primr(const Scalar &, Scalar &, bool) const
< Not implemented
virtual void poisson_angu(const Scalar &, Param &, Scalar &, double=0) const
< Not implemented
virtual void poisson_regular(const Cmp &, int, int, double, Param &, Cmp &, Cmp &, Cmp &, Tenseur &, Cmp &, Cmp &) const
< Not implemented
virtual void laplacien(const Scalar &, int, Scalar &) const
< Not implemented
virtual void dsdt(const Scalar &, Scalar &) const
< Not implemented
virtual void poisson_falloff(const Cmp &, Param &, Cmp &, int) const
< Not implemented
virtual void resize(int, double)
< Not implemented
virtual void poisson_interne(const Cmp &, const Valeur &, Param &, Cmp &) const
< Not implemented
virtual void stdsdp(const Scalar &, Scalar &) const
< Not implemented
virtual void dsdr(const Scalar &ci, Scalar &resu) const
Computes of a Scalar.
virtual const Map_af & mp_angu(int) const
Returns the "angular" mapping for the outside of domain l_zone.
virtual void poisson_frontiere(const Cmp &, const Valeur &, int, int, Cmp &, double=0., double=0.) const
< Not implemented
Map_af * p_mp_angu
Pointer on the "angular" mapping.
Definition map.h:715
Parameter storage.
Definition param.h:125
Tensor field of valence 0 (or component of a tensorial field).
Definition scalar.h:387
Basic array class.
Definition tbl.h:161
Tensor handling *** DEPRECATED : use class Tensor instead ***.
Definition tenseur.h:301
Values and coefficients of a (real-value) function.
Definition valeur.h:287
Lorene prototypes.
Definition app_hor.h:64