2 # -*- coding: latin-1 -*-
9 def __convert__(self,valeur):
10 if type(valeur) == types.StringType: return None
11 if len(valeur) != self.ntuple: return None
15 return "Date : jj/mm/aaaa "
25 def __init__(self,ntuple):
28 def __convert__(self,valeur):
29 if type(valeur) == types.StringType:
31 if len(valeur) != self.ntuple:
36 return "Tuple de %s elements" % self.ntuple
40 JdC = JDC_CATA (code = 'ARTEMIS',
43 # =======================================================================
44 # Catalog entry for the MAP function : c_pre_interfaceBody_mesh
45 # =======================================================================
47 VERSION_CATALOGUE="TRUNK_20210323"
48 # -----------------------------------------------------------------------
49 COMPUTATION_ENVIRONMENT = PROC(nom= "COMPUTATION_ENVIRONMENT",op = None,
50 # -----------------------------------------------------------------------
51 # -----------------------------------
52 INPUT = FACT(statut='o',
53 # -----------------------------------
54 # -----------------------------------
55 DATA = FACT(statut='o',
56 # -----------------------------------
57 # -----------------------------------
58 GEOMETRY_FILE = SIMP(statut ='f',
59 # -----------------------------------
60 typ = ('Fichier','All Files (*)'), max='**',
61 fr = """Nom du fichier contenant le maillage du calcul a realiser.""",
62 ang = """Name of the file which contains the computational mesh.""",
64 # -----------------------------------
65 BOTTOM_TOPOGRAPHY_SMOOTHING = SIMP(statut ='f',
66 # -----------------------------------
69 fr = """Nombre de lissages effectues sur la topographie.
70 Chaque lissage, effectue a l aide d une matrice de masse,
72 Utilise lorsque les donnees de bathymetrie donnent des resultats
73 trop irreguliers apres interpolation.""",
74 ang = """Number of smoothings done on the topography.
75 Each smoothing, using a mass matrix, is conservative.
76 It is used when bathymetric data provide too irregular results
77 after interpolation.""",
79 # -----------------------------------
80 FORTRAN_FILE = SIMP(statut ='f',
81 # -----------------------------------
82 typ = 'FichierOuRepertoire',
84 fr = """Nom du fichier FORTRAN a soumettre, contenant les
85 sous-programmes specifiques au modele.""",
86 ang = """Name of the FORTRAN file to be submitted, including specific
87 subroutines of the model.""",
89 # -----------------------------------
90 BOUNDARY_CONDITIONS_FILE = SIMP(statut ='f',
91 # -----------------------------------
92 typ = ('Fichier','All Files (*)'), max='**',
93 fr = """Nom du fichier contenant les types de conditions aux limites.
94 Ce fichier est construit de facon automatique par le mailleur et \stbtel
95 au moyen de couleurs affectees aux noeuds des frontieres du domaine
97 ang = """Name of the boundary conditions file. It is automatically built
98 by \stbtel or by the mesh generator MATISSE.""",
100 # -----------------------------------
101 BOTTOM_TOPOGRAPHY_FILE = SIMP(statut ='f',
102 # -----------------------------------
103 typ = ('Fichier','All Files (*)'), max='**',
105 fr = """Nom du fichier eventuel contenant la bathymetrie associee au
107 Si ce mot-cle est utilise, c est cette bathymetrie qui sera
108 utilisee pour le calcul.""",
109 ang = """Name of a potential bathymetry file. If this keyword is specified,
110 the bathymetry which it is defining is accounted for.""",
112 # -----------------------------------
113 BINARY_DATA_FILE_1 = SIMP(statut ='f',
114 # -----------------------------------
115 typ = ('Fichier','All Files (*)'), max='**',
117 fr = """Fichier de donnees, code en binaire, mis a la disposition de
119 ang = """Data file, written in binary mode, at the disposal of the user.""",
121 # -----------------------------------
122 BINARY_DATA_FILE_2 = SIMP(statut ='f',
123 # -----------------------------------
124 typ = ('Fichier','All Files (*)'), max='**',
126 fr = """Fichier de donnees, code en binaire, mis a la disposition de
128 ang = """Data file, written in binary mode, at the disposal of the user.""",
130 # -----------------------------------
131 FORMATTED_DATA_FILE_1 = SIMP(statut ='f',
132 # -----------------------------------
133 typ = ('Fichier','All Files (*)'), max='**',
135 fr = """Fichier de donnees formate mis a la disposition de l utilisateur.""",
136 ang = """Data file, written in ASCII mode, at the disposal of the user.""",
138 # -----------------------------------
139 FORMATTED_DATA_FILE_2 = SIMP(statut ='f',
140 # -----------------------------------
141 typ = ('Fichier','All Files (*)'), max='**',
143 fr = """Fichier de donnees formate mis a la disposition de l utilisateur.""",
144 ang = """Data file, written in ASCII mode, at the disposal of the user.""",
146 # -----------------------------------
147 VALIDATION = SIMP(statut ='f',
148 # -----------------------------------
151 fr = """Option utilisee principalement pour le dossier de validation.
152 Le \telkey{FICHIER DE REFERENCE} est alors considere comme une
153 reference a laquelle on va comparer le calcul. La comparaison est
154 effectuee par le sous-programme \telfile{BIEF\_VALIDA} qui peut etre une
155 comparaison avec une solution exacte par exemple.""",
156 ang = """This option is primarily used for the validation documents.
157 The \telkey{REFERENCE FILE} is then considered as a
158 reference which the computation is going to be compared with.
159 The comparison is made by the subroutine \telfile{BIEF\_VALIDA},
160 which can be modified as to
161 so as to include, for example, a comparison with an exact solution.""",
163 # -----------------------------------
164 b_VALIDATIONG = BLOC(condition="VALIDATION == True",
165 # -----------------------------------
166 # -----------------------------------
167 REFERENCE_FILE_FORMAT = SIMP(statut ='f',
168 # -----------------------------------
170 into = ['SERAFIN','SERAFIND','MED'],
172 fr = """Format du \telkey{FICHIER DE REFERENCE}.
173 Les valeurs possibles sont :
175 \item SERAFIN : format standard simple precision pour \tel ;
176 \item SERAFIND: format standard double precision pour \tel ;
177 \item MED : format MED double precision base sur HDF5.
179 ang = """\telkey{REFERENCE FILE} format.
182 \item SERAFIN : classical single precision format in \tel,
183 \item SERAFIND: classical double precision format in \tel,
184 \item MED : MED double precision format based on HDF5.
187 # -----------------------------------
188 REFERENCE_FILE = SIMP(statut ='f',
189 # -----------------------------------
190 typ = ('Fichier','All Files (*)'), max='**',
192 fr = """Fichier de resultats de reference pour la validation.""",
193 ang = """Binary-coded result file for validation.""",
196 # -----------------------------------
197 GEOMETRY_FILE_FORMAT = SIMP(statut ='f',
198 # -----------------------------------
200 into = ['SERAFIN','SERAFIND','MED'],
202 fr = """Format du \telkey{FICHIER DE GEOMETRIE}.
203 Les valeurs possibles sont :
205 \item SERAFIN : format standard simple precision pour \tel ;
206 \item SERAFIND: format standard double precision pour \tel ;
207 \item MED : format MED double precision base sur HDF5.
209 ang = """Format of the \telkey{GEOMETRY FILE}.
212 \item SERAFIN : classical single precision format in \tel,
213 \item SERAFIND: classical double precision format in \tel,
214 \item MED : MED double precision format based on HDF5.
217 # -----------------------------------
218 BINARY_DATA_FILE_1_FORMAT = SIMP(statut ='f',
219 # -----------------------------------
221 into = ['SERAFIN','SERAFIND','MED'],
223 fr = """Format du \telkey{FICHIER DE DONNEES BINAIRE 1}.
224 Les valeurs possibles sont :
226 \item SERAFIN : format standard simple precision pour \tel ;
227 \item SERAFIND: format standard double precision pour \tel ;
228 \item MED : format MED double precision base sur HDF5.
230 ang = """\telkey{BINARY DATA FILE 1} format.
233 \item SERAFIN : classical single precision format in \tel,
234 \item SERAFIND: classical double precision format in \tel,
235 \item MED : MED double precision format based on HDF5.
238 # -----------------------------------
239 BINARY_DATA_FILE_2_FORMAT = SIMP(statut ='f',
240 # -----------------------------------
242 into = ['SERAFIN','SERAFIND','MED'],
244 fr = """Format du \telkey{FICHIER DE DONNEES BINAIRE 2}.
245 Les valeurs possibles sont :
247 \item SERAFIN : format standard simple precision pour \tel ;
248 \item SERAFIND: format standard double precision pour \tel ;
249 \item MED : format MED double precision base sur HDF5.
251 ang = """\telkey{BINARY DATA FILE 2} format.
254 \item SERAFIN : classical single precision format in \tel,
255 \item SERAFIND: classical double precision format in \tel,
256 \item MED : MED double precision format based on HDF5.
261 # -----------------------------------
262 GLOBAL = FACT(statut='o',
263 # -----------------------------------
264 # -----------------------------------
265 TITLE = SIMP(statut ='f',
266 # -----------------------------------
269 fr = """Titre du cas etudie.""",
270 ang = """Title of the studied case.""",
272 # -----------------------------------
273 VECTOR_LENGTH = SIMP(statut ='f',
274 # -----------------------------------
277 fr = """Longueur du vecteur pour les machines vectorielles.""",
278 ang = """Vector length on vector machines.""",
280 # -----------------------------------
281 PARALLEL_PROCESSORS = SIMP(statut ='f',
282 # -----------------------------------
285 fr = """Nombre de processeurs pour la decomposition en parallele :
287 \item 0 : 1 machine, compilation sans bibliotheque de parallelisme ;
288 \item 1 : 1 machine, compilation avec bibliotheque de parallelisme ;
289 \item 2 : 2 processeurs ou machines en parallele.
292 ang = """Number of processors for domain partition:
294 \item 0: 1 machine, compiling without parallel library,
295 \item 1: 1 machine, compiling with a parallel library,
296 \item 2: 2 processors or machines in parallel.
300 # -----------------------------------
301 CHECKING_THE_MESH = SIMP(statut ='f',
302 # -----------------------------------
305 fr = """Si OUI on appelle le sous-programme \telfile{CHECKMESH}
306 qui verifie la coherence du maillage, points superposes, etc.""",
307 ang = """If this keyword is equal to YES, a call to subroutine
308 \telfile{CHECKMESH} will look for errors in the mesh,
309 superimposed points, etc.""",
312 # -----------------------------------
313 OUTPUT = FACT(statut='o',
314 # -----------------------------------
315 # -----------------------------------
316 RESULTS = FACT(statut='o',
317 # -----------------------------------
318 # -----------------------------------
319 GRAPHIC_PRINTOUT_PERIOD = SIMP(statut ='f',
320 # -----------------------------------
323 fr = """Determine la periode, en nombre de periodes de houle,
324 d impression des \telkey{VARIABLES POUR LES SORTIES GRAPHIQUES}
325 (voir ce mot-cle) dans le \telkey{FICHIER DES RESULTATS}.""",
326 ang = """Fixes the period, in number of wave periods, for the writing
327 of the \telkey{VARIABLES FOR GRAPHIC PRINTOUTS} (see this keyword)
328 in the \telkey{RESULTS FILE}.""",
330 # -----------------------------------
331 VARIABLES_FOR_GRAPHIC_PRINTOUTS = SIMP(statut ='f',
332 # -----------------------------------
333 typ = 'TXM', min=0, max='**',
334 into = ["wave height","wave phase","velocity u (free surface)(t=0)","velocity v (free surface)(t=0)","free surface elevation (t=0)","bottom elevation","still water height","phase velocity","group velocity","wave number","real potential","imaginal potential","prive(1,1)","prive(1,2)","prive(1,3)","prive(1,4)","first mean spectral period","second mean spectral period","third mean spectral period","force along X","force along Y","wave incidence radian","breaking rate","SXX stress","SXY stress","SYY stress"],
336 fr = """Noms des variables que l utilisateur veut ecrire dans
337 le \telkey{FICHIER DES RESULTATS}.
338 Le choix des separateurs est libre.
339 Les possibilites offertes sont les suivantes :
341 \item HS hauteur de la houle ;
342 \item PHAS phase de la houle ;
343 \item U0 vitesse u en surface (a $t$ = 0) ;
344 \item V0 vitesse v en surface (a $t$ = 0) ;
345 \item ZS cote de la surface libre (a $t$ = 0) ;
347 \item HW hauteur d eau au repos ;
348 \item C vitesse de phase ;
349 \item CG vitesse de groupe ;
350 \item K nombre d onde ;
351 \item PHIR potentiel reel ;
352 \item PHII potentiel imaginaire ;
353 \item D prive(1,1) (variable 13) ;
354 \item E prive(1,2) (variable 14) ;
355 \item F prive(1,3) (variable 15) ;
356 \item G prive(1,4) (variable 16) ;
357 \item T01 premiere periode moyenne spectrale ;
358 \item T02 deuxieme periode moyenne spectrale ;
359 \item TM troisieme periode moyenne spectrale ;
360 \item FX force en X ;
361 \item FY force en Y ;
362 \item INC incidence de la houle ;
363 \item QB taux de deferlement ;
364 \item SXX contrainte SXX ;
365 \item SXY contrainte SXY ;
366 \item SYY contrainte SYY.
368 L utilisateur dispose de 4 champs libres, qu il peut
369 utiliser pour ecrire dans le fichier des resultats des variables
370 qu il cree lui-meme. Ces variables propres a l utlisateur doivent
371 etre calculees dans le sous-programme \telfile{CALRES} et le nom que
372 l on desire leur donner doit etre ecrit dans le sous-programme
375 \telfile{D, E, F, G} qui correspondent aux tableaux
376 \telfile{PRIVE(1,1), PRIVE(1,2), PRIVE(1,3), PRIVE(1,4)}.
377 A la difference des variables
378 precedentes, celles-ci sont conservees dans tout le programme, et
379 peuvent donc etre reutilisees.
380 Dans ce dernier cas ne pas oublier de donner une taille
381 suffisante au tableau PRIVE,
382 en precisant le parametre \telfile{NPRIV}
383 (dans le programme principal).""",
384 ang = """Names of the variables that the user wants to write in the
385 \telkey{RESULTS FILE}.
386 Separators between variable names can be choosen free.
387 The allowable values are:
389 \item HS=wave height,
390 \item PHAS=wave phase,
391 \item U0=velocity u (free surface at $t$ = 0),
392 \item V0=velocity v (free surface at $t$ = 0),
393 \item ZS=free surface elevation (at $t$ = 0),
394 \item ZF=bottom elevation,
395 \item HW=still water height,
396 \item C=phase velocity,
397 \item CG=group velocity,
399 \item PHIR=real potential,
400 \item PHII=imaginal potential,
405 \item T01=first mean spectral period,
406 \item T02=second mean spectral period,
407 \item TM=third mean spectral period,
408 \item FX=force along X,
409 \item FY=force along Y,
410 \item INC=wave incidence radian,
411 \item QB=breaking rate,
412 \item SXX=SXX stress,
413 \item SXY=SXY stress,
414 \item SYY=SYY stress.
416 The user has 4 free variables at his/her disposal to create other
417 variables by him/herself. These variables have to be computed
418 in the \telfile{CALRES} subroutine, and the name that we want to
419 attribute has to be precibed in the \telfile{NOMVAR} subroutine.
420 The 4 free variable fields are:
421 \telfile{D, E, F, G} which corresponds to the private arrays
422 \telfile{PRIVE(1,1), PRIVE(1,2), PRIVE(1,3) and PRIVE (1,4)}.
423 Contrary to the previous
424 variables, these are conserved all through the computation, and can
426 Do not forget to specify the number of private arrays you want to
427 use in the principal programme (variable \telfile{NPRIV}).""",
429 # -----------------------------------
430 RESULTS_FILE = SIMP(statut ='f',
431 # -----------------------------------
432 typ = ('Fichier','All Files (*)','Sauvegarde'), max='**',
434 fr = """Nom du fichier dans lequel seront ecrits les resultats du calcul,
435 avec la periodicite donnee par le mot cle
436 \telkey{PERIODE DE SORTIE GRAPHIQUE}.
437 Sur IBM, ce fichier est alloue automatiquement s il n existe pas,
438 avec les caracteristiques suivantes :
439 Format d enregistrement : VBS ;
440 Longueur d enregistrement : X ;
441 Taille de bloc : 6204 ;
442 Nombre de pistes : 50 en primaire, 10 en secondaire.
443 La place memoire ainsi reservee est suffisante pour la plupart des
444 calculs de dimension moyenne.""",
445 ang = """Name of the results file corresponding to the computations and
446 which contains the variables specified by the keyword
447 \telkey{VARIABLES FOR GRAPHIC PRINTOUTS}.""",
449 # -----------------------------------
450 BINARY_RESULTS_FILE = SIMP(statut ='f',
451 # -----------------------------------
452 typ = ('Fichier','All Files (*)','Sauvegarde'), max='**',
454 fr = """Fichier des resultats, code en binaire, mis a la disposition de
456 ang = """Results file, written in binary mode, at the disposal of the user.""",
458 # -----------------------------------
459 FORMATTED_RESULTS_FILE = SIMP(statut ='f',
460 # -----------------------------------
461 typ = ('Fichier','All Files (*)','Sauvegarde'), max='**',
463 fr = """Fichier des resultats formate mis a la disposition de l utilisateur.""",
464 ang = """Results file, written in ASCII mode, at the disposal of the user.""",
466 # -----------------------------------
467 NUMBER_OF_PRIVATE_VARIABLES = SIMP(statut ='f',
468 # -----------------------------------
471 fr = """Permet de fixer le nombre de variables privees.""",
472 ang = """Give the number of private variables.""",
474 # -----------------------------------
475 RESULTS_FILE_FORMAT = SIMP(statut ='f',
476 # -----------------------------------
478 into = ['SERAFIN','SERAFIND','MED'],
480 fr = """Format du \telkey{FICHIER DE RESULTATS}.
481 Les valeurs possibles sont :
483 \item SERAFIN : format standard simple precision pour \tel ;
484 \item SERAFIND: format standard double precision pour \tel ;
485 \item MED : format MED double precision base sur HDF5.
487 ang = """Format of the \telkey{RESULTS FILE}. Possible values are:
489 \item SERAFIN : classical single precision format in \tel,
490 \item SERAFIND: classical double precision format in \tel,
491 \item MED : MED double precision format based on HDF5.
495 # -----------------------------------
496 LISTING = FACT(statut='o',
497 # -----------------------------------
498 # -----------------------------------
499 LISTING_PRINTOUT_PERIOD = SIMP(statut ='f',
500 # -----------------------------------
503 fr = """Determine la periode, en nombre de periodes de houle,
504 d impression des \telkey{VARIABLES A IMPRIMER} (voir ce mot-cle). Pour
505 la mise au point, il faut savoir que la sortie des resultats est
506 effectuee systematiquement sur le fichier de retour d execution du code
507 (actuellement accessible par le menu 3.e de SPF sur IBM).""",
508 ang = """Fixes the period, in number of wave periods, for the writing
509 of the \telkey{VARIABLES TO BE PRINTED} (see this keyword).""",
511 # -----------------------------------
512 LISTING_PRINTOUT = SIMP(statut ='f',
513 # -----------------------------------
516 fr = """Sortie des resultats sur support papier.
517 Si l on met NON le listing ne contient que l en-tete et la mention
518 FIN NORMALE DU PROGRAMME.
519 Commande a eviter.""",
520 ang = """If NO is specified for this keyword, the printout listing just
521 contains the head and the sentence END OF PROGRAM.
522 It is advised not to use this way.""",
524 # -----------------------------------
525 INFORMATIONS_ABOUT_SOLVER = SIMP(statut ='f',
526 # -----------------------------------
529 fr = """Donne le nombre d iterations necessaires a la convergence du solveur.""",
530 ang = """Gives the iterations number which was necessary for the solver
533 # -----------------------------------
534 VARIABLES_TO_BE_PRINTED = SIMP(statut ='f',
535 # -----------------------------------
537 into = ["wave height","wave phase","velocity u (free surface)(t=0)","velocity v (free surface)(t=0)","free surface elevation (t=0)","bottom elevation","still water height","phase velocity","group velocity","wave number","real potential","imaginal potential","prive(1,1)","prive(1,2)","prive(1,3)","prive(1,4)","first mean spectral period","second mean spectral period","third mean spectral period","force along X","force along Y","wave incidence radian","breaking rate","SXX stress","SXY stress","SYY stress"],
539 fr = """Nom des variables que l utilisateur desire ecrire a l ecran.
540 Memes possibilites que pour les sorties graphiques.""",
541 ang = """Name of variables taht the user whishes to write on the screen.
542 Possibilities are the same as for graphic outputs.""",
545 # -----------------------------------
546 FREE_SURFACE = FACT(statut='o',
547 # -----------------------------------
548 # -----------------------------------
549 FREE_SURFACE_ANIMATION = SIMP(statut ='f',
550 # -----------------------------------
553 fr = """Option utilisee si l on veut produire le fichier de phases
554 et amplitudes qui servira a calculer la position de la surface libre
555 en tout point du maillage.
556 A besoin des noms de \telkey{FICHIER DES PHASES ET AMPLITUDES} et
557 \telkey{FICHIER DE SURFACE LIBRE}.""",
558 ang = """This option informs that the phase and amplitude file is to
559 be generated. This file will be used to determine the free surface
560 elevation throughout the model area.
561 Remember to give \telkey{AMPLITUDE AND PHASE FILE} and
562 \telkey{FREE SURFACE FILE}.""",
564 # -----------------------------------
565 AMPLITUDE_AND_PHASE_FILE = SIMP(statut ='f',
566 # -----------------------------------
567 typ = ('Fichier','All Files (*)','Sauvegarde'), max='**',
569 fr = """Nom du fichier dans lequel seront ecrits les phases et amplitudes
570 pour toutes les periodes et directions simulees dans le fichier des
572 ang = """Name of the results file corresponding to the computations and
573 which contains the phase and amplitude at every point for all the
574 periods and directions specified in the steering file.""",
576 # -----------------------------------
577 AMPLITUDE_AND_PHASE_FILE_FORMAT = SIMP(statut ='f',
578 # -----------------------------------
581 fr = """Format du \telkey{FICHIER DES PHASES ET AMPLITUDES}.
582 Les valeurs possibles sont :
584 \item SERAFIN : format standard simple precision pour \tel ;
585 \item SERAFIND: format standard double precision pour \tel ;
586 \item MED : format MED double precision base sur HDF5.
588 ang = """Format of the \telkey{AMPLITUDE AND PHASE FILE}.
589 Possible choices are:
591 \item SERAFIN : classical single precision format in \tel,
592 \item SERAFIND: classical double precision format in \tel,
593 \item MED : MED double precision format based on HDF5.
596 # -----------------------------------
597 FREE_SURFACE_FILE = SIMP(statut ='f',
598 # -----------------------------------
599 typ = 'TXM', max='**',
601 fr = """Nom du fichier dans lequel sera ecrite la surface libre fonction du
602 temps pour permettre une animation du fichier.""",
603 ang = """Name of the results file corresponding to the computations and
604 which contains the free surface at every point as a function of time.
605 This file can be animated to check free surface variations with time.""",
607 # -----------------------------------
608 FREE_SURFACE_FILE_FORMAT = SIMP(statut ='f',
609 # -----------------------------------
612 fr = """Format du \telkey{FICHIER DE SURFACE LIBRE}.
613 Les valeurs possibles sont :
615 \item SERAFIN : format standard simple precision pour \tel ;
616 \item SERAFIND: format standard double precision pour \tel ;
617 \item MED : format MED double precision base sur HDF5.
619 ang = """Format of the \telkey{FREE SURFACE FILE}.
622 \item SERAFIN : classical single precision format in \tel,
623 \item SERAFIND: classical double precision format in \tel,
624 \item MED : MED double precision format based on HDF5.
627 # -----------------------------------
628 FIRST_TIME_IN_THE_FREE_SURFACE_FILE = SIMP(statut ='f',
629 # -----------------------------------
632 fr = """Determine le temps a partir duquel debute l ecriture
633 des resultats dans le \telkey{FICHIER DE SURFACE LIBRE}.""",
634 ang = """Determines the time from which the results are written
635 in the \telkey{FREE SURFACE FILE}.""",
637 # -----------------------------------
638 TIME_STEP = SIMP(statut ='f',
639 # -----------------------------------
642 fr = """Definit le pas de temps en secondes pour la sortie graphique
643 \telkey{FICHIER DE SURFACE LIBRE}.""",
644 ang = """Specifies the time step in seconds in
645 \telkey{FREE SURFACE FILE}.""",
647 # -----------------------------------
648 NUMBER_OF_TIME_STEPS = SIMP(statut ='f',
649 # -----------------------------------
652 fr = """Definit le nombre de pas de temps pour la sortie graphique
653 \telkey{FICHIER DE SURFACE LIBRE}.""",
654 ang = """Specifies the number of time steps in
655 \telkey{FREE SURFACE FILE}.""",
660 # -----------------------------------------------------------------------
661 GENERAL_PARAMETERS = PROC(nom= "GENERAL_PARAMETERS",op = None,
662 # -----------------------------------------------------------------------
663 # -----------------------------------
664 DEBUGGER = SIMP(statut ='f',
665 # -----------------------------------
668 fr = """Pour imprimer la sequence des appels, mettre 1.""",
669 ang = """If 1, calls of subroutines will be printed in the listing.""",
671 # -----------------------------------
672 TIME = FACT(statut='o',
673 # -----------------------------------
674 # -----------------------------------
675 ORIGINAL_DATE_OF_TIME = SIMP(statut ='f',
676 # -----------------------------------
677 typ = 'I', min= 3, max= 3,
679 fr = """Permet de fixer la date d origine des temps du modele lors
680 de la prise en compte de la force generatrice de la maree.""",
681 ang = """Give the date of the time origin of the model when taking into
682 account the tide generating force.""",
684 # -----------------------------------
685 ORIGINAL_HOUR_OF_TIME = SIMP(statut ='f',
686 # -----------------------------------
687 typ = 'I', min= 3, max= 3,
689 fr = """Permet de fixer l heure d origine des temps du modele lors
690 de la prise en compte de la force generatrice de la maree.""",
691 ang = """Give the time of the time origin of the model when taking into
692 account the tide generating force.""",
695 # -----------------------------------
696 LOCATION = FACT(statut='o',
697 # -----------------------------------
698 # -----------------------------------
699 ORIGIN_COORDINATES = SIMP(statut ='f',
700 # -----------------------------------
701 typ = 'I', min= 2, max= 2,
703 fr = """Valeur en metres, utilise pour eviter les trop grands
705 dans le format SERAFIN mais pas d autre traitement pour l instant.""",
706 ang = """Value in metres, used to avoid large real numbers,
707 added in SERAFIN format, but so far no other treatment.""",
711 # -----------------------------------------------------------------------
712 NUMERICAL_PARAMETERS = PROC(nom= "NUMERICAL_PARAMETERS",op = None,
713 # -----------------------------------------------------------------------
714 # -----------------------------------
715 MATRIX_STORAGE = SIMP(statut ='f',
716 # -----------------------------------
718 into = ["Classical EBE","Assembled EBE","Edge-based storage"],
719 defaut = "Edge-based storage",
720 fr = """Permet de definir la methode de stockage des matrices.
721 Les choix possibles sont :
723 \item 1 : EBE classique ;
724 \item 2 : EBE assemble ;
725 \item 3 : stockage par segments.
727 Attention, avec 2, il faut une numerotation speciale des points.""",
728 ang = """Defines the method to store matrices. The possible choices are:
730 \item 1: classical EBE,
731 \item 2: assembled EBE,
732 \item 3: edge-based storage.
734 Beware, with option 2, a special numbering of points is required.""",
736 # -----------------------------------
737 MATRIX_VECTOR_PRODUCT = SIMP(statut ='f',
738 # -----------------------------------
741 fr = """Les choix possibles sont :
743 \item 1 : Ancien Produit ;
744 \item 2 : Nouveau Produit Frontal.
746 ang = """Possible choices are:
748 \item 1: Classical Product,
749 \item 2: New Frontal Product.
752 # -----------------------------------
753 ZERO = SIMP(statut ='f',
754 # -----------------------------------
757 fr = """Non active pour l instant.""",
758 ang = """Non active at the moment.""",
760 # -----------------------------------
761 SOLVER_INFO = FACT(statut='o',
762 # -----------------------------------
763 # -----------------------------------
764 MAXIMUM_NUMBER_OF_ITERATIONS_FOR_SOLVER = SIMP(statut ='f',
765 # -----------------------------------
768 fr = """Les algorithmes utilises pour la resolution du systeme
769 matriciel etant iteratifs, il est necessaire de limiter le nombre
770 d iterations autorisees.""",
771 ang = """Algorithms used for solving the matrix system are iterative.
772 It is then necessary to limit the maximum number of iterations.""",
774 # -----------------------------------
775 PRECONDITIONING = SIMP(statut ='f',
776 # -----------------------------------
778 into = ["no preconditioning","diagonal preconditioning","block-diagonal preconditioning","absolute value diagonal preconditioning","Crout preconditioning"],
779 defaut = "diagonal preconditioning",
780 fr = """Permet de preconditionner le systeme de l etape de propagation afin
781 d accelerer la convergence lors de sa resolution.
783 \item 0 : pas de preconditionnement ;
784 \item 2 : preconditionnement diagonal ;
785 \item 3 : preconditionnement bloc-diagonal ;
786 \item 5 : preconditionnement diagonal en valeur absolue ;
787 \item 7 : preconditionnement de Crout par element.
789 Certains preconditionnements sont cumulables
790 (les diagonaux 2 ou 3 avec les autres).
791 Pour cette raison on ne retient que les nombres premiers pour
792 designer les preconditionnements. Si l on souhaite en cumuler
793 plusieurs on formera le produit des options correspondantes.""",
794 ang = """Enables to apply preconditionning the matrix system to accelerate
795 the convergence of the solver.
797 \item 0: no preconditionning,
798 \item 2: diagonal preconditionning,
799 \item 3: block-diagonal preconditionning,
800 \item 5: diagonal preconditionning in absolute value,
801 \item 7: Element Crout preconditionning.
803 Few of them can be combined
804 (numbers 2 or 3 with the other).
805 To combine some preconditionnings, impose the product of the previous
806 numbers: example 6 means preconditioning 2 and 3 applied.""",
808 # -----------------------------------
809 SOLVER = SIMP(statut ='f',
810 # -----------------------------------
812 into = ["conjugate gradient","conjugate residual","conjugate gradient on a normal equation","minimum error","squared conjugate gradient","CGSTAB","GMRES","direct","parallel direct (MUMPS)"],
814 fr = """Permet de choisir le solveur utilise pour la resolution de l etape de
815 propagation. Toutes les methodes proposees actuellement s apparentent
816 au Gradient Conjugue. Ce sont :
818 \item 1 : gradient conjugue ;
819 \item 2 : residu conjugue ;
820 \item 3 : gradient conjugue sur equation normale ;
821 \item 4 : erreur minimale ;
822 \item 5 : gradient conjugue carre (non programme) ;
823 \item 6 : gradient conjugue de type CGSTAB ;
825 \item 8 : solveur direct.
827 ang = """Enables to choose the solver used for solving the matrix system.
830 \item 1: conjugate gradient,
831 \item 2: conjugate residual,
832 \item 3: conjugate gradient on the normal equation,
833 \item 4: minimum error,
834 \item 5: squared conjugate gradient (not programmed),
835 \item 6: CGSTAB conjugate gradient,
837 \item 8: direct solver.
840 # -----------------------------------
841 SOLVER_OPTION = SIMP(statut ='f',
842 # -----------------------------------
845 fr = """Parametre definissant la dimension de l espace de Krylov
846 pour le solveur 7 (GMRES).""",
847 ang = """Defines the dimension of the Krylov space when using
848 the solver 7 (GMRES).""",
850 # -----------------------------------
851 SOLVER_ACCURACY = SIMP(statut ='f',
852 # -----------------------------------
855 fr = """Precision demandee pour la resolution de l equation de Berkhoff.""",
856 ang = """Accuracy requested for the linear system solver.""",
859 # -----------------------------------
860 DISSIPATION = FACT(statut='o',
861 # -----------------------------------
862 # -----------------------------------
863 SUB_ITERATIONS_ACCURACY_FOR_DISSIPATION = SIMP(statut ='f',
864 # -----------------------------------
867 fr = """Donne la precision requise pour les sous-iterations du calcul
868 du coefficient de dissipation.""",
869 ang = """Fixes the accuracy requested for sub-iterations necessary to
870 determine the dissipation coefficients.""",
872 # -----------------------------------
873 MAXIMUM_OF_SUB_ITERATIONS = SIMP(statut ='f',
874 # -----------------------------------
877 fr = """Donne le nombre maximum admis de sous-iterations pour le calcul
878 du coefficient de dissipation.""",
879 ang = """Fixes the maximum number of sub-iterations for the computation
882 # -----------------------------------
883 DISSIPATION_RELAXATION = SIMP(statut ='f',
884 # -----------------------------------
887 fr = """Donne le coefficient de relaxation entre deux sous-iterations
888 pour le calcul du coefficient de dissipation.""",
889 ang = """Fixes the relaxation coefficient used between two sub-iterations
890 for the computation of the dissipation term.""",
894 # -----------------------------------------------------------------------
895 BOUNDARY_CONDITIONS = PROC(nom= "BOUNDARY_CONDITIONS",op = None,
896 # -----------------------------------------------------------------------
897 # -----------------------------------
898 PHASE_REFERENCE_COORDINATES = SIMP(statut ='f',
899 # -----------------------------------
900 typ = 'R', min= 2, max= 2,
902 fr = """Coordonnees pour l origine des phases. Ne change rien
903 aux hauteurs de vagues calculees.""",
904 ang = """Coordinates of reference point for phase. Will
905 not change the wave height computed.""",
907 # -----------------------------------
908 RANDOM_WAVE = FACT(statut='o',
909 # -----------------------------------
910 # -----------------------------------
911 NUMBER_OF_PERIODS = SIMP(statut ='f',
912 # -----------------------------------
915 fr = """Valeur utilisee avec l option
916 \telkey{HOULE ALEATOIRE MONODIRECTIONNELLE} = OUI
918 \telkey{HOULE ALEATOIRE MULTIDIRECTIONNELLE} = OUI.
919 Pour un calcul en houle aleatoire monodirectionnelle ou
920 multidirectionnelle, nombre de bandes d egale energie servant a
921 discretiser le spectre d energie en frequence.""",
922 ang = """Used with option
923 \telkey{MONODIRECTIONAL RANDOM WAVE} = YES
925 \telkey{MULTIDIRECTIONAL RANDOM WAVE} = YES.
926 It fixes the number of iso-energy frequency bands which discretize
927 the energy spectrum.""",
929 # -----------------------------------
930 PEAK_PERIOD = SIMP(statut ='f',
931 # -----------------------------------
934 fr = """Valeur utilisee avec l option
935 \telkey{HOULE ALEATOIRE MONODIRECTIONNELLE} = OUI
937 \telkey{HOULE ALEATOIRE MULTIDIRECTIONNELLE} = OUI.
938 Fixe la periode de pic (en secondes) du spectre d energie.""",
939 ang = """Used with option
940 \telkey{MONODIRECTIONAL RANDOM WAVE} = YES
942 \telkey{MULTIDIRECTIONAL RANDOM WAVE} = YES.
943 Fixes the peak period (in seconds) of the energy spectrum.""",
945 # -----------------------------------
946 GAMMA = SIMP(statut ='f',
947 # -----------------------------------
950 fr = """Valeur utilisee avec l option
951 \telkey{HOULE ALEATOIRE MONODIRECTIONNELLE} = OUI
953 \telkey{HOULE ALEATOIRE MULTIDIRECTIONNELLE} = OUI.
954 Indique la valeur de $\gamma$ pour le spectre d energie :
956 \item GAMMA = 1 : spectre de Pierson-Moskowitz ;
957 \item GAMMA = 3.3 : spectre de JONSWAP moyen (valeur par defaut).
959 ang = """Used with option
960 \telkey{MONODIRECTIONAL RANDOM WAVE} = YES
962 \telkey{MULTIDIRECTIONAL RANDOM WAVE} = YES.
963 Fixes the $\gamma$ value tor the JONSWAP wave energy spectrum:
965 \item GAMMA = 1: Pierson-Moskowitz,
966 \item GAMMA = 3.3: mean JONSWAP spectrum (default value).
969 # -----------------------------------
970 MINIMUM_SPECTRAL_PERIOD = SIMP(statut ='f',
971 # -----------------------------------
974 fr = """Valeur de la periode minimum voulue en secondes
975 si on veut tronquer le spectre pour le calcul
976 des periodes en houle aleatoire (voir sous-programme \telfile{PERALE}).""",
977 ang = """Minimum period value requested in seconds
978 if it is necessary to alter the energy spectrum
979 for the computation of the periods in the case
980 of random waves (see \telfile{PERALE} subroutine).""",
982 # -----------------------------------
983 MAXIMUM_SPECTRAL_PERIOD = SIMP(statut ='f',
984 # -----------------------------------
987 fr = """Valeur de la periode maximum voulue en secondes
988 si on veut tronquer le spectre pour le calcul
989 des periodes en houle aleatoire (voir sous-programme \telfile{PERALE}).""",
990 ang = """Maximum period value requested in seconds
991 if it is necessary to alter the energy spectrum
992 for the computation of the periods in the case
993 of random waves (see \telfile{PERALE} subroutine).""",
995 # -----------------------------------
996 MONODIRECTIONAL = FACT(statut='o',
997 # -----------------------------------
998 # -----------------------------------
999 MONODIRECTIONAL_RANDOM_WAVE = SIMP(statut ='f',
1000 # -----------------------------------
1003 fr = """Oui, si l on veut effectuer un calcul en houle aleatoire
1004 monodirectionnelle (voir reels index 12, 13 et entier index 10).""",
1005 ang = """Yes, if one wants to run computation in random monodirectional waves
1006 (see real keywords of index 12, 13 and integer of index 10).""",
1009 # -----------------------------------
1010 MULTIDIRECTIONAL = FACT(statut='o',
1011 # -----------------------------------
1012 # -----------------------------------
1013 MULTIDIRECTIONAL_RANDOM_WAVE = SIMP(statut ='f',
1014 # -----------------------------------
1017 fr = """Oui, si l on veut effectuer un calcul en houle aleatoire
1018 multidirectionnelle (voir les reels index 12, 13, 14, 15 et 16 et
1019 les entiers index 10 et 11.""",
1020 ang = """Yes, if one wants to run computation in random multidirectional waves
1021 (see real keywords of index 12, 13 and integer of index 10).""",
1023 # -----------------------------------
1024 NUMBER_OF_DIRECTIONS = SIMP(statut ='f',
1025 # -----------------------------------
1028 fr = """Valeur utilisee avec l option
1029 \telkey{HOULE ALEATOIRE MULTIDIRECTIONNELLE} = OUI.
1030 Pour un calcul en houle aleatoire multidirectionnelle,
1031 nombre de bandes d egale energie servant a discretiser le spectre
1032 directionnel d energie.""",
1033 ang = """Used with the option
1034 \telkey{MULTIDIRECTIONAL RANDOM WAVE} = YES.
1035 It fixes the number of iso-energy bands which discretizes the wave
1036 directional spectrum.""",
1038 # -----------------------------------
1039 MINIMUM_ANGLE_OF_PROPAGATION = SIMP(statut ='f',
1040 # -----------------------------------
1043 fr = """Valeur utilisee avec l option
1044 \telkey{HOULE ALEATOIRE MULTIDIRECTIONNELLE} = OUI.
1045 Indique la borne inferieure de l intervalle des directions de
1046 propagation dans le cas d une houle aleatoire multidirectionnelle
1047 L angle est donne en degres et est compte positivement dans le sens
1048 direct a partir de l axe $x$.""",
1049 ang = """Used with the option
1050 \telkey{MULTIDIRECTIONAL RANDOM WAVE} = YES.
1051 Fixes the minimum value (in degrees) of the directions range. It is
1052 counted positively in the trigonometric sense relatively to the $x$
1055 # -----------------------------------
1056 MAXIMUM_ANGLE_OF_PROPAGATION = SIMP(statut ='f',
1057 # -----------------------------------
1060 fr = """Valeur utilisee avec l option
1061 \telkey{HOULE ALEATOIRE MULTIDIRECTIONNELLE} = OUI.
1062 Indique la borne superieure de l intervalle des directions de
1063 propagation dans le cas d une houle aleatoire multidirectionnelle.
1064 L angle est donne en degres et est compte positivement dans le sens
1065 direct a partir de l axe $x$.""",
1066 ang = """Used with the option
1067 \telkey{MULTIDIRECTIONAL RANDOM WAVE} = YES.
1068 Fixes the maximum value (in degrees) of the directions range. It is
1069 counted positively in the trigonometric sense relatively to the $x$
1072 # -----------------------------------
1073 S_EXPONENT = SIMP(statut ='f',
1074 # -----------------------------------
1077 fr = """Valeur utilisee avec l option
1078 \telkey{HOULE ALEATOIRE MULTIDIRECTIONNELLE} = OUI.
1079 Indique la valeur maximale de l exposant $s$ dans l expression donnant
1080 la repartition directionnelle de la houle.
1081 Cette expression est celle donnee par Goda dans Random Seas and
1082 Design of Maritime Structures - University of Tokyo Press:
1083 G(f,teta) = G0 * (cos(teta/2))**2s. f est la frequence et teta est
1084 la direction de propagation de la houle.""",
1085 ang = """Used with the option
1086 \telkey{MULTIDIRECTIONAL RANDOM WAVE} = YES.
1087 Fixes the maximum value of exponent $S$ in the Goda formula used to
1088 express the directional wave energy spreading.
1089 See GODA Y., Random Seas and Design of Maritime Structures - Univ.
1090 of Tokyo Press, 1987.""",
1094 # -----------------------------------
1095 PERIODS_SCANNING = FACT(statut='o',
1096 # -----------------------------------
1097 # -----------------------------------
1098 PERIOD_SCANNING = SIMP(statut ='f',
1099 # -----------------------------------
1102 fr = """Oui, si l on veut effectuer plusieurs calculs en balayant un
1103 intervalle de periodes (voir reels index 8,9 et 10).""",
1104 ang = """Yes, if one wants to run computations by scanning a period range
1105 (resonance computations, see also reals of index 8, 9, and 10).""",
1107 # -----------------------------------
1108 DATA = FACT(statut='o',
1109 # -----------------------------------
1110 # -----------------------------------
1111 BEGINNING_PERIOD_FOR_PERIOD_SCANNING = SIMP(statut ='f',
1112 # -----------------------------------
1115 fr = """Valeur utilisee avec l option
1116 \telkey{BALAYAGE EN PERIODE} = OUI.
1117 Indique la borne gauche de l intervalle de periodes a parcourir
1118 (pour par exemple rechercher les periodes de resonances).""",
1119 ang = """Used with the option
1120 \telkey{PERIOD SCANNING} = YES.
1121 Fixes the minimum value (in seconds) of the period range to be used for
1122 the period scanning.""",
1124 # -----------------------------------
1125 ENDING_PERIOD_FOR_PERIOD_SCANNING = SIMP(statut ='f',
1126 # -----------------------------------
1129 fr = """Valeur utilisee avec l option
1130 \telkey{BALAYAGE EN PERIODE} = OUI.
1131 Indique la borne droite de l intervalle de periodes a parcourir
1132 (pour par exemple rechercher les periodes de resonances).""",
1133 ang = """Used with the option
1134 \telkey{PERIOD SCANNING} = YES.
1135 Fixes the maximum value (in seconds) of the period range to be used for
1136 the period scanning.""",
1138 # -----------------------------------
1139 STEP_FOR_PERIOD_SCANNING = SIMP(statut ='f',
1140 # -----------------------------------
1143 fr = """Valeur utilisee avec l option
1144 \telkey{BALAYAGE EN PERIODE} = OUI.
1145 Indique le pas a prendre pour effectuer le balayage en periodes
1146 (pour par exemple rechercher les periodes de resonances).""",
1147 ang = """Used with the option
1148 \telkey{PERIOD SCANNING} = YES.
1149 Fixes the value of the period step (in seconds) to be used for
1150 the period scanning.""",
1154 # -----------------------------------
1155 MONOCHROMATIC_WAVE = FACT(statut='o',
1156 # -----------------------------------
1157 # -----------------------------------
1158 WAVE_PERIOD = SIMP(statut ='f',
1159 # -----------------------------------
1162 fr = """Definit la periode de la houle en mode monochromatique.""",
1163 ang = """Defines the wave period for monochromatic mode.""",
1165 # -----------------------------------
1166 DIRECTION_OF_WAVE_PROPAGATION = SIMP(statut ='f',
1167 # -----------------------------------
1170 fr = """Donne la direction du vecteur d onde de la houle incidente. L angle
1171 est donne en degres et est compte positivement dans le sens direct
1172 a partir de l axe des $x$.
1173 Il s agit de la direction principale de propagation.
1174 Cette direction est la meme a toutes les frontieres maritimes.
1175 Si l utilisateur veut specifier des directions differentes sur
1176 differentes frontieres, il doit le faire dans son FORTRAN dans le
1177 sous-programme \telfile{BORH} en specifiant la variable
1178 \telfile{TETAB}.""",
1179 ang = """Fixes the direction towards the incident waves at boundaries go to.
1180 It is counted in degrees and positively in the trigonometric sense
1181 relatively to the $x$ axis.
1182 This value is prescribed as a constant value along all the wave
1183 incident type boundaries. If one wants to specify a non uniform value,
1184 the user has to specify the value \telfile{TETAB} in the subroutine
1187 # -----------------------------------
1188 WAVE_HEIGHTS_SMOOTHING = SIMP(statut ='f',
1189 # -----------------------------------
1192 fr = """OUI si on souhaite lisser les hauteurs de houle
1193 pour ameliorer le calcul des contraintes de radiation
1194 (actif uniquement en houle reguliere).
1195 Valeur par defaut = NON.""",
1196 ang = """YES when one wants to smooth the wave heights
1197 to improve the radiation stresses computation
1198 (only used in regular wave mode).
1199 Default value = NO.""",
1202 # -----------------------------------
1203 AUTOMATIC_TETAP_ANGLE = FACT(statut='o',
1204 # -----------------------------------
1205 # -----------------------------------
1206 SUB_ITERATIONS_ACCURACY_FOR_TETAP = SIMP(statut ='f',
1207 # -----------------------------------
1210 fr = """Donne la precision requise pour les sous-iterations du calcul
1211 automatique de cos($\theta_p$).""",
1212 ang = """Fixes the accuracy requested for sub-iterations necessary to
1213 determine value of $\theta_p$ (criterion on cos($\theta_p$)).""",
1215 # -----------------------------------
1216 AUTOMATIC_TETAP_CALCULATION = SIMP(statut ='f',
1217 # -----------------------------------
1220 fr = """Si = OUI : calcul automatique des angles $\theta_p$
1221 (basee sur la direction de la vitesse).""",
1222 ang = """If = TRUE: automatic calculation of $\theta_p$
1223 (based on velocity direction).""",
1225 # -----------------------------------
1226 MAXIMUM_OF_SUB_ITERATIONS_FOR_TETAP = SIMP(statut ='f',
1227 # -----------------------------------
1230 fr = """Donne le nombre maximum admis de sous-iterations pour le calcul
1231 automatique de $\theta_p$.""",
1232 ang = """Fixes the maximum number of sub-iterations for the automatic
1233 computation of $\theta_p$.""",
1235 # -----------------------------------
1236 RELAXATION_ON_TETAP = SIMP(statut ='f',
1237 # -----------------------------------
1240 fr = """Donne le coefficient de relaxation entre deux sous-iterations
1241 pour le calcul de l angle d incidence automatique.""",
1242 ang = """Fixes the relaxation coefficient used between two sub-iterations
1243 for the computation of automatic $\theta_p$.""",
1246 # -----------------------------------
1247 AUTOMATIC_PHASE = FACT(statut='o',
1248 # -----------------------------------
1249 # -----------------------------------
1250 AUTOMATIC_CALCULATION_OF_PHASE = SIMP(statut ='f',
1251 # -----------------------------------
1254 fr = """OUI : calcul automatique de la phase
1255 (basee sur une profondeur de reference).""",
1256 ang = """TRUE: automatic calculation of incident phase
1257 (based on reference water depth).""",
1259 # -----------------------------------
1260 REFERENCE_WATER_DEPTH_FOR_AUTOMATIC_PHASE = SIMP(statut ='f',
1261 # -----------------------------------
1264 fr = """Profondeur de reference pour le calcul de la phase.
1265 Essayez de mettre la frontiere incidente sur une zone
1266 de bathymetrie homogene.
1267 La profondeur a renseigner doit etre representative de la profondeur
1268 d eau sur la frontiere.""",
1269 ang = """Water depth for automatic incident phase calculation.
1270 Try to put the incident wave boundary on a regular topography zone.
1271 The reference water depth should be representative of the water depth
1272 on the boundary.""",
1276 # -----------------------------------------------------------------------
1277 PHYSICAL_PARAMETERS = PROC(nom= "PHYSICAL_PARAMETERS",op = None,
1278 # -----------------------------------------------------------------------
1279 # -----------------------------------
1280 GRAVITY_ACCELERATION = SIMP(statut ='f',
1281 # -----------------------------------
1284 fr = """Fixe la valeur de l acceleration de la pesanteur en m/s$^2$.""",
1285 ang = """Sets the value of the acceleration due to gravity in m/s$^2$.""",
1287 # -----------------------------------
1288 INITIALIZATION = FACT(statut='o',
1289 # -----------------------------------
1290 # -----------------------------------
1291 INITIAL_WATER_LEVEL = SIMP(statut ='f',
1292 # -----------------------------------
1295 fr = """Valeur utilisee avec l option
1296 \telkey{CONDITIONS INITIALES} : ''COTE CONSTANTE''.""",
1297 ang = """Value to be used with the option
1298 \telkey{INITIAL CONDITIONS}: ''CONSTANT ELEVATION''.""",
1300 # -----------------------------------
1301 INITIAL_DEPTH = SIMP(statut ='f',
1302 # -----------------------------------
1305 fr = """Valeur utilisee avec l option
1306 \telkey{CONDITIONS INITIALES} : ''HAUTEUR CONSTANTE''.""",
1307 ang = """Value to be used along with the option
1308 \telkey{INITIAL CONDITIONS}: ''CONSTANT DEPTH''.""",
1310 # -----------------------------------
1311 INITIAL_CONDITIONS = SIMP(statut ='f',
1312 # -----------------------------------
1314 into = ['ZERO ELEVATION','CONSTANT ELEVATION','ZERO DEPTH','CONSTANT DEPTH','SPECIAL'],
1315 defaut = 'ZERO ELEVATION',
1316 fr = """Permet de definir les conditions initiales sur les hauteurs d eau.
1317 Les valeurs possibles sont :
1319 \item COTE NULLE : Initialise la cote de surface libre a 0.
1320 Les hauteurs d eau initiales sont alors retrouvees en
1321 faisant la difference entre les cotes de surface libre
1323 \item COTE CONSTANTE : Initialise la cote de surface libre a la
1324 valeur donnee par le mot-cle \telkey{COTE INITIALE}. Les hauteurs
1325 d eau initiales sont calculees comme precedemment.
1326 \item HAUTEUR NULLE : Initialise les hauteurs d eau a 0.
1327 \item HAUTEUR CONSTANTE : Initialise les hauteurs d eau a la valeur
1328 donnee par le mot-cle \telkey{HAUTEUR INITIALE}.
1329 \item PARTICULIERES : Les conditions initiales sur la hauteur d eau
1330 doivent etre precisees dans le sous-programme \telfile{CONDIH}.
1332 ang = """Enables to define the initial conditions on water depths.
1333 The possible values are as follows:
1335 \item ZERO ELEVATION: fixes the free surface level to 0.
1336 Water depths are then equal to the difference between
1337 free surface level and bottom level,
1338 \item CONSTANT ELEVATION: fixes the free surface level to the value
1339 specified by the keyword \telkey{INITIAL WATER LEVEL}. Water
1340 level are then computed as before,
1341 \item ZERO DEPTH: initializes the water depths to 0,
1342 \item CONSTANT DEPTH: initializes the water depths to the value
1343 specified by the keyword \telkey{INITIAL DEPTH},
1344 \item SPECIAL: initial conditions on water depths are to be
1345 precised in the subroutine \telfile{CONDIH}.
1349 # -----------------------------------
1350 DISSIPATION = FACT(statut='o',
1351 # -----------------------------------
1352 # -----------------------------------
1353 BATHYMETRIC_BREAKING = FACT(statut='o',
1354 # -----------------------------------
1355 # -----------------------------------
1356 BREAKING = SIMP(statut ='f',
1357 # -----------------------------------
1360 fr = """Oui, si l on souhaite integrer le processus de deferlement
1361 bathymetrique (voir reels index 18, 19, 20, 21, 22, 23
1362 et entiers index 12, 13).""",
1363 ang = """Yes, if one wants to account for breaking process (see also
1364 reals of index 18, 19, 20, 21, 22, 23, and integer of index
1367 # -----------------------------------
1368 KDALLY = SIMP(statut ='f',
1369 # -----------------------------------
1372 fr = """Donne le coefficient $K$ dans la formulation de la dissipation
1373 par deferlement d apres Dally et al., 1984.""",
1374 ang = """Fixes the coefficient $K$ used in the formulation of the dissipation
1375 coefficient proposed by Dally et al. 1984.""",
1377 # -----------------------------------
1378 BREAKING_LAW = SIMP(statut ='f',
1379 # -----------------------------------
1381 into = ["BATTJES \& JANSSEN","DALLY"],
1382 defaut = ["BATTJES \& JANSSEN"],
1383 fr = """Specifie la formulation choisie pour le coefficient de dissipation
1384 par deferlement. N est effectif qu en houle reguliere.
1386 \item 1 : Formulation de Battjes \& Jansen, 1978 ;
1387 \item 2 : Formulation de Dally et al., 1984.
1389 En houle aleatoire, la seule formulation utilisee est celle de
1390 Battjes \& Janssen, 1978.""",
1391 ang = """Specifies the formulation chosen for calculating the dissipation
1392 coefficient through breaking. Only effective for monochromatic wave
1395 \item 1: Formulation of Battjes \& Janssen, 1978,
1396 \item 2: Formulation of Dally et al., 1984.
1398 In random wave mode, the formulation of B \& J, 1978 is the only one
1401 # -----------------------------------
1402 ALPHA = SIMP(statut ='f',
1403 # -----------------------------------
1406 fr = """Donne le coefficient $\alpha$ dans la formulation de la dissipation
1407 par deferlement en houle aleatoire d apres Battjes \& Janssen.""",
1408 ang = """Fixes the coefficient $\alpha$ used in the formulation of the
1409 dissipation coefficient through breaking proposed by Battjes \& Janssen,
1410 1978 for random waves.""",
1412 # -----------------------------------
1413 GAMMAS = SIMP(statut ='f',
1414 # -----------------------------------
1417 fr = """Donne le coefficient $\gamma_s$ dans le critere de la hauteur de
1418 deferlement. Ne pas confondre avec le coefficient $\gamma$ qui
1419 intervient dans la formule du spectre de JONSWAP.""",
1420 ang = """Fixes the coefficient $\gamma_s$ used in the criterion of the critical
1421 breaking wave height. Do not confuse with coefficient $\gamma$
1422 used in the JONSWAP spectrum.""",
1424 # -----------------------------------
1425 GDALLY = SIMP(statut ='f',
1426 # -----------------------------------
1429 fr = """Donne le coefficient $\Gamma$ dans la formulation de la dissipation par
1430 Dally et al., 1984. Ne pas confondre avec $\gamma$ (Formule de JONSWAP)
1431 et Gammas (Critere de deferlement).""",
1432 ang = """Fixes the $\Gamma$ coefficient used in the formulation of Dally et al.,
1433 1984, for the dissipation coefficient in surf-breaking. Do not confuse
1434 with the coefficient $\gamma$ used in the JONSWAP formulae and
1435 coefficient gammas used to determine the breaking wave height
1439 # -----------------------------------
1440 BOTTOM_FRICTION = FACT(statut='o',
1441 # -----------------------------------
1442 # -----------------------------------
1443 FRICTION = SIMP(statut ='f',
1444 # -----------------------------------
1447 fr = """Oui, si on veut prendre en compte le frottement sur le fond dans
1449 ang = """Yes, if one wants to include dissipation through bottom friction
1450 in the computation.""",
1452 # -----------------------------------
1453 FLUID_KINEMATIC_VISCOSITY = SIMP(statut ='f',
1454 # -----------------------------------
1455 typ = 'R', max='**',
1457 fr = """Viscosite cinematique du fluide (eau) en m$^2$/s.
1459 \item 1.793E-6 : Pour une temperature de 0 C ;
1460 \item 1.567E-6 : Pour une temperature de 4 C ;
1461 \item 1.237E-6 : Pour une temperature de 12 C ;
1462 \item 1.112E-6 : Pour une temperature de 16 C ;
1463 \item 1.011E-6 : Pour une temperature de 20 C ;
1464 \item 0.802E-6 : Pour une temperature de 30 C ;
1465 \item 0.661E-6 : Pour une temperature de 40 C.
1466 \item 1.0E-6 : Valeur par defaut.
1468 ang = """Kinematic viscosity of the fluid (water) in m$^2$/s.
1470 \item 1.793E-6: for a temperature of 0 C,
1471 \item 1.567E-6: for a temperature of 4 C,
1472 \item 1.237E-6: for a temperature of 12 C,
1473 \item 1.112E-6: for a temperature of 16 C,
1474 \item 1.011E-6: for a temperature of 20 C,
1475 \item 0.802E-6: for a temperature of 30 C,
1476 \item 0.661E-6: for a temperature of 40 C,
1477 \item 1.0E-6: default value.
1480 # -----------------------------------
1481 DIAMETER90 = SIMP(statut ='f',
1482 # -----------------------------------
1483 typ = 'R', max='**',
1485 fr = """\telfile{DIAM90} represente le diametre maximum, en m, de 90 \%
1486 en poids des sediments.
1488 \item 1.0E-3 : Pour des sables tres grossiers ;
1489 \item 0.5E-3 : Pour des sables grossiers ;
1490 \item 0.25E-3 : Pour des sables moyens ;
1491 \item 0.125E-3 : Pour des sables fins ;
1492 \item 0.062E-3 : Pour des sables tres fins ;
1493 \item 0.15E-3 : Valeur par defaut.
1495 ang = """\telfile{DIAM90} is the maximum grain diameter, in m, which defines
1496 90 \% of the total weight of sediment.
1498 \item 1.0E-3: for very coarse sand,
1499 \item 0.5E-3: for coarse sand,
1500 \item 0.25E-3: for medium sand,
1501 \item 0.125E-3: for fine sand,
1502 \item 0.062E-3: for very fine sand,
1503 \item 0.15E-3: default value.
1506 # -----------------------------------
1507 DIAMETER50 = SIMP(statut ='f',
1508 # -----------------------------------
1509 typ = 'R', max='**',
1511 fr = """\telfile{DIAM50} represente le diametre maximum de 50 \% en poids des
1512 sediments. En general, on a \telfile{DIAM90} = 1.5 $\times$
1514 \telfile{DIAM50} est plus souvent donne dans des tables
1516 \item 0.66E-3 : Pour des sables tres grossiers ;
1517 \item 0.33E-3 : Pour des sables grossiers ;
1518 \item 0.17E-3 : Pour des sables moyens ;
1519 \item 0.083E-3 : Pour des sables fins ;
1520 \item 0.040E-3 : Pour des sables tres fins ;
1521 \item 0.10E-3 : Valeur par defaut.
1523 ang = """\telfile{DIAM50} is the maximum grain diameter, in m, which defines
1524 50 \% of the total weight of sediment. Usually, we have
1525 \telfile{DIAM90} = 1.5 $\times$ \telfile{DIAM50}.
1526 \telfile{DIAM50} is a more common value used.
1528 \item 0.66E-3: for very coarse sand,
1529 \item 0.33E-3: for coarse sand,
1530 \item 0.17E-3: for medium sand,
1531 \item 0.083E-3: for fine sand,
1532 \item 0.040E-3: for very fine sand,
1533 \item 0.10E-3: default value.
1536 # -----------------------------------
1537 SEDIMENT_SPECIFIC_WEIGHT = SIMP(statut ='f',
1538 # -----------------------------------
1541 fr = """Masse volumique du sediment en kg/m$^3$.""",
1542 ang = """Sediment specific weight in kg/m$^3$.""",
1544 # -----------------------------------
1545 FLUID_SPECIFIC_MASS = SIMP(statut ='f',
1546 # -----------------------------------
1549 fr = """Masse volumique du fluide (eau) en kg/m$^3$.""",
1550 ang = """Fluid specific weight (water) in kg/m$^3$.""",
1552 # -----------------------------------
1553 HYDRAULIC_REGIME_IMPOSED = SIMP(statut ='f',
1554 # -----------------------------------
1557 fr = """Utilise avec l option \telkey{FROTTEMENT} = OUI.
1558 Permet de choisir d imposer le regime hydraulique dans le cas
1559 d un calcul automatique du facteur de frottement sur fonds sableux.""",
1560 ang = """Used with the option \telkey{FRICTION} = YES.
1561 Enables to impose the hydraulic regime in the case of an automatic
1562 calculation of the friction factor for sandy beds.""",
1564 # -----------------------------------
1565 SKIN_ROUGHNESS_ONLY = SIMP(statut ='f',
1566 # -----------------------------------
1569 fr = """Utilise avec l option \telkey{FROTTEMENT} = OUI.
1570 Permet de choisir de ne prendre en compte
1571 que la rugosite de peau dans le cas d un calcul automatique
1572 du facteur de frottement sur fonds sableux.""",
1573 ang = """Used with the option \telkey{FRICTION} = YES.
1574 Enables to restrict the total roughness to the skin roughness
1575 in the case of an automatic calculation of the friction
1576 factor for sandy beds.""",
1578 # -----------------------------------
1579 HYDRAULIC_REGIME_TYPE = SIMP(statut ='f',
1580 # -----------------------------------
1581 typ = 'TXM', max='**',
1582 into = ["laminar regime","smooth-turbulent regime","rough-turbulent regime","transient regime"],
1583 defaut = ["laminar regime"],
1584 fr = """Utilise si le mot-cle \telkey{REGIME HYDRAULIQUE IMPOSE} = OUI.
1585 Determine le regime hydraulique.
1587 \item regime laminaire ;
1588 \item turbulent lisse ;
1589 \item turbulent rugueux ;
1592 ang = """Used with option \telkey{HYDRAULIC REGIME IMPOSED} = YES.
1593 Determines the type of the hydraulic regime (laminar,
1594 smooth-turbulent, rough-turbulent, transient).
1596 \item laminar regime,
1597 \item smooth-turbulent regime,
1598 \item rough-turbulent regime,
1599 \item transient regime.
1602 # -----------------------------------
1603 BOTTOM_FRICTION_LAW = SIMP(statut ='f',
1604 # -----------------------------------
1605 typ = 'TXM', max='**',
1606 into = ["Kostense formulation integrating Ue calculation (1986)","Putnam \& Johnson formulation (1949)"],
1607 defaut = ["Kostense formulation integrating Ue calculation (1986)"],
1608 fr = """Utilise avec l option \telkey{FROTTEMENT} = OUI.
1609 Fixe le choix de la formulation du frottement :
1611 \item 1 : Kostense et al., 1986 ;
1612 \item 2 : Putnam \& Johnson, 1949.
1614 ang = """Used with the option \telkey{FRICTION} = YES.
1615 Fixes the formulation used for bottom friction law:
1617 \item 1: Kostense et al., 1986,
1618 \item 2: Putnam \& Johnson, 1949.
1621 # -----------------------------------
1622 FRICTION_FACTOR_IMPOSED = SIMP(statut ='f',
1623 # -----------------------------------
1626 fr = """Utilise avec l option \telkey{FROTTEMENT} = OUI.
1627 OUI permet de choisir d imposer un facteur de frottement, par un
1628 mot-cle s il est uniforme (voir le reel d index 29) ou en
1629 programmant dans le sous-programme \telfile{FWSPEC}.
1630 Si NON, \artemis considere par defaut que les fonds sont sableux,
1631 et calcule automatiquement le facteur de frottement avec les
1632 caracteristiques du sediment et de l ecoulement.""",
1633 ang = """Used with the option \telkey{FRICTION} = YES.
1634 If YES, enables the user to impose a friction factor, by a keyword
1635 for a constant value (see real of index 29) or by programming in
1636 the \telfile{FWSPEC} subroutine for non-uniform value.
1637 If NO, \artemis automatically computes the friction factor assuming
1638 that the bottom is sandy and uses the characteristics of sediment
1641 # -----------------------------------
1642 FRICTION_FACTOR = SIMP(statut ='f',
1643 # -----------------------------------
1646 fr = """Utilise si le mot-cle \telkey{FACTEUR DE FROTTEMENT IMPOSE} = OUI.
1647 Fixe le facteur de frottement choisi uniforme sur le domaine.""",
1648 ang = """Used with the option \telkey{FRICTION FACTOR IMPOSED} = YES.
1649 Fixes the value of the friction factor uniform over the domain.""",
1651 # -----------------------------------
1652 FRICTION_COEFFICIENT = SIMP(statut ='f',
1653 # -----------------------------------
1656 fr = """A ne pas confondre avec le \telkey{FACTEUR DE FROTTEMENT}.
1657 Non utilise dans \artemis.
1658 On le laisse par coherence avec \telemac{2d}.""",
1659 ang = """Do not confuse with the \telkey{FRICTION FACTOR}.
1660 Not used in \artemis.
1661 It is let here for consistence with \telemac{2d}.""",
1663 # -----------------------------------
1664 RIPPLES_COEFFICIENT = SIMP(statut ='f',
1665 # -----------------------------------
1666 typ = 'R', max='**',
1668 fr = """Specifie le coefficient de rides utilise dans la formule de
1669 Van Rijn pour calculer le facteur de frottement :
1671 \item 1.0 : pour des rides seules,
1672 \item 0.7 : pour des rides superposees a des vagues de sable.
1674 ang = """Fixes the ripples coefficient used in the formulae of Van Rijn
1675 to calculate the friction factor:
1677 \item 1.0: for single ripples,
1678 \item 0.7: for ripples superimposed to sand waves.
1683 # -----------------------------------
1684 CURRENT_INFO = FACT(statut='o',
1685 # -----------------------------------
1686 # -----------------------------------
1687 SUB_ITERATIONS_ACCURACY_FOR_CURRENT = SIMP(statut ='f',
1688 # -----------------------------------
1691 fr = """Donne la precision requise pour les sous-iterations du calcul
1692 du nombre d onde en presence de courant (vecteur d onde).""",
1693 ang = """Fixes the accuracy requested for sub-iterations necessary to
1694 determine the wave vector.""",
1696 # -----------------------------------
1697 CURRENT = SIMP(statut ='f',
1698 # -----------------------------------
1701 fr = """Si = OUI : Prise en compte de la refraction de la houle par le courant.
1702 Modele retenu : Kostense et Al. (1988).""",
1703 ang = """If = TRUE: Wave refraction due to current is described using
1704 Kostense model (1988).""",
1707 # -----------------------------------
1708 VARYING_TOPOGRAPHY = FACT(statut='o',
1709 # -----------------------------------
1710 # -----------------------------------
1711 RAPIDLY_VARYING_TOPOGRAPHY = SIMP(statut ='f',
1712 # -----------------------------------
1714 into = ["mild-slope equation","gradient second order term","curvature second order term","gradient + curvature second order terms"],
1715 defaut = ["mild-slope equation"],
1716 fr = """Prise en compte des fortes pentes et courbures dans Berkhoff
1718 \item 0 : Berkhoff simple ;
1719 \item 1 : prise en compte terme pente en grad($h$)$^2$ ;
1720 \item 2 : prise en compte terme courbure en laplacien($h$) ;
1721 \item 3 : prise en compte des termes de pente et courbure.
1723 Modele retenu pour les fonctions E1 et E2 : Chamberlain
1724 et Porter (1995).""",
1725 ang = """Extension of mild-slope equation with second
1726 order bottom effects
1728 \item 0: mild-slope equation,
1729 \item 1: gradient second order term: grad($h$)$^2$,
1730 \item 2: curvature second order term: laplacian($h$),
1731 \item 3: gradient + curvature second order terms.
1733 Model used for functions E1 and E2 expression: Chamberlain
1734 and Porter (1995).""",
1738 # -----------------------------------------------------------------------
1739 INTERNAL = PROC(nom= "INTERNAL",op = None,
1740 # -----------------------------------------------------------------------
1741 UIinfo = {"groupes": ("CACHE")},
1742 # -----------------------------------
1743 STEERING_FILE = SIMP(statut ='f',
1744 # -----------------------------------
1745 typ = ('Fichier','All Files (*)'), max='**',
1747 fr = """Nom du fichier contenant les parametres du calcul a realiser.""",
1748 ang = """Name of the steering file used for the computation.""",
1750 # -----------------------------------
1751 PARTITIONING_TOOL = SIMP(statut ='f',
1752 # -----------------------------------
1754 into = ['METIS','SCOTCH','PARMETIS','PTSCOTCH'],
1756 fr = """Choix du partitionneur :
1760 \item 3 : PARMETIS ;
1763 ang = """Partitioning tool selection:
1771 # -----------------------------------
1772 DICTIONARY = SIMP(statut ='f',
1773 # -----------------------------------
1774 typ = ('Fichier','All Files (*)'),
1775 defaut = 'artemis.dico',
1776 fr = """Dictionnaire des mots cles.""",
1777 ang = """Key word dictionary.""",
1779 # -----------------------------------
1780 CONCATENATE_PARTEL_OUTPUT = SIMP(statut ='o',
1781 # -----------------------------------
1784 fr = """Avec cette option, partel ne generera plus un fichier (GEO/CLI/PAR)
1785 par processeur mais une concatenation de ceux-ci, ainsi qu un fichier
1786 d index associe. Ainsi plutot que d avoir 3P fichiers, il n y en a
1788 ang = """With this option, partel no more generates a file (GEO/CLI/PAR) per
1789 process but a single concatenate file of them, associated to an index
1790 file. Then instead of having partel generating 3P files, it only
1791 generates 6 files.""",
1794 # -----------------------------------------------------------------------
1795 NESTING_WITH_TOMAWAC = PROC(nom= "NESTING_WITH_TOMAWAC",op = None,
1796 # -----------------------------------------------------------------------
1797 # -----------------------------------
1798 NESTING_WITHIN_TOMAWAC_OUTER_MODEL = SIMP(statut ='f',
1799 # -----------------------------------
1801 into = ["No nesting","Uses a TOMAWAC spectrum (1 point) as input to ARTEMIS","Uses several TOMAWAC spectra located along ARTEMIS boundary"],
1802 defaut = ["No nesting"],
1803 fr = """A besoin de NOMBRE DE DIRECTION DANS LE SPECTRE TOMAWAC et
1804 NOMBRE DE FREQUENCES DANS LE SPECTRE TOMAWAC pour l option 1.
1805 A besoin des noms de \telkey{FICHIER DE RESULTATS GLOBAL TOMAWAC},
1806 \telkey{FICHIER DE SPECTRE GLOBAL TOMAWAC} et
1807 \telkey{COORDONNEES POUR LE SPECTRE F DE REFERENCE} pour l option 2.
1808 Donner \telkey{INSTANT DE LECTURE DU SPECTRE TOMAWAC} pour 1 et 2""",
1809 ang = """Remember to give NUMBER OF DIRECTIONS IN TOMAWAC SPECTRUM
1810 and NUMBER OF FREQUENCIES IN TOMAWAC SPECTRUM with option 1.
1811 Remember to give \telkey{TOMAWAC OUTER RESULT FILE},
1812 \telkey{TOMAWAC OUTER SPECTRAL FILE} and
1813 \telkey{COORDINATES OF THE REFERENCE F SPECTRUM} if using option 2.
1814 \telkey{INSTANT FOR READING TOMAWAC SPECTRUM} required
1815 in cases 1 and 2.""",
1817 # -----------------------------------
1818 INSTANT_FOR_READING_TOMAWAC_SPECTRUM = SIMP(statut ='f',
1819 # -----------------------------------
1822 fr = """Indique l instant de calcul \tomawac associe au spectre
1823 qui doit etre importe dans \artemis.""",
1824 ang = """Give the instant of the \tomawac computation at which we
1825 want to import the spectrum for \artemis.""",
1827 # -----------------------------------
1828 COORDINATES_OF_THE_REFERENCE_F_SPECTRUM = SIMP(statut ='f',
1829 # -----------------------------------
1830 typ = 'R', min= 2, max= 2,
1831 defaut = [-99999.9,-99999.9],
1832 fr = """Coordonnees du point de reference pour le spectre en
1834 ang = """Coordinates for the frequency spectrum reference point.""",
1836 # -----------------------------------
1837 INPUT = FACT(statut='o',
1838 # -----------------------------------
1839 # -----------------------------------
1840 DATA = FACT(statut='o',
1841 # -----------------------------------
1842 # -----------------------------------
1843 TOMAWAC_OUTER_SPECTRAL_FILE = SIMP(statut ='f',
1844 # -----------------------------------
1845 typ = ('Fichier','All Files (*)'), max='**',
1847 fr = """Nom du fichier de spectre provenant d un modele global
1849 ang = """Name of the spectral file from an outer \tomawac wave
1852 # -----------------------------------
1853 TOMAWAC_OUTER_SPECTRAL_FILE_FORMAT = SIMP(statut ='f',
1854 # -----------------------------------
1857 fr = """Format du \telkey{FICHIER DE SPECTRE GLOBAL TOMAWAC}.
1858 Les valeurs possibles sont :
1860 \item SERAFIN : format standard simple precision pour \tel ;
1861 \item SERAFIND: format standard double precision pour \tel ;
1862 \item MED : format MED double precision base sur HDF5.
1864 ang = """Format of the \telkey{TOMAWAC OUTER SPECTRAL FILE}.
1865 Possible choices are:
1867 \item SERAFIN : classical single precision format in \tel,
1868 \item SERAFIND: classical double precision format in \tel,
1869 \item MED : MED double precision format based on HDF5.
1872 # -----------------------------------
1873 TOMAWAC_LIQUID_BOUNDARY_FILE = SIMP(statut ='f',
1874 # -----------------------------------
1875 typ = ('Fichier','All Files (*)'), max='**',
1877 fr = """Nom du fichier de frontieres liquides provenant d un modele
1878 global \tomawac.""",
1879 ang = """Name of a file containing the liquid boundaries derived
1880 from an outer \tomawac wave model.""",
1882 # -----------------------------------
1883 TOMAWAC_LIQUID_BOUNDARY_FILE_FORMAT = SIMP(statut ='f',
1884 # -----------------------------------
1885 typ = 'TXM', max='**',
1887 fr = """Format du \telkey{FICHIER DE FRONTIERES LIQUIDES TOMAWAC}.
1888 Les valeurs possibles sont :
1890 \item SERAFIN : format standard simple precision pour \tel ;
1891 \item SERAFIND: format standard double precision pour \tel ;
1892 \item MED : format MED double precision base sur HDF5.
1894 ang = """Format of the \telkey{TOMAWAC LIQUID BOUNDARY FILE}.
1895 Possible choices are:
1897 \item SERAFIN : classical single precision format in \tel,
1898 \item SERAFIND: classical double precision format in \tel,
1899 \item MED : MED double precision format based on HDF5.
1904 # -----------------------------------
1905 OUTPUT = FACT(statut='o',
1906 # -----------------------------------
1907 # -----------------------------------
1908 RESULTS = FACT(statut='o',
1909 # -----------------------------------
1910 # -----------------------------------
1911 TOMAWAC_OUTER_RESULT_FILE = SIMP(statut ='f',
1912 # -----------------------------------
1913 typ = ('Fichier','All Files (*)'), max='**',
1915 fr = """Nom du fichier de resultats 2D provenant d un modele global
1917 ang = """Name of a file containing the results of an outer \tomawac
1920 # -----------------------------------
1921 TOMAWAC_OUTER_RESULT_FILE_FORMAT = SIMP(statut ='f',
1922 # -----------------------------------
1925 fr = """Format du \telkey{FICHIER DE RESULTATS GLOBAL TOMAWAC}.
1926 Les valeurs possibles sont :
1928 \item SERAFIN : format standard simple precision pour \tel ;
1929 \item SERAFIND: format standard double precision pour \tel ;
1930 \item MED : format MED double precision base sur HDF5.
1932 ang = """Format of the \telkey{TOMAWAC OUTER RESULT FILE}.
1933 Possible choices are:
1935 \item SERAFIN : classical single precision format in \tel,
1936 \item SERAFIND: classical double precision format in \tel,
1937 \item MED : MED double precision format based on HDF5.
1944 COMPUTATION_ENVIRONMENT();\
1945 GENERAL_PARAMETERS();\
1946 NUMERICAL_PARAMETERS();\
1947 BOUNDARY_CONDITIONS();\
1948 PHYSICAL_PARAMETERS();\
1949 NESTING_WITH_TOMAWAC();\
1951 Ordre_Des_Commandes = (
1952 'COMPUTATION_ENVIRONMENT',
1953 'GENERAL_PARAMETERS',
1954 'NUMERICAL_PARAMETERS',
1955 'BOUNDARY_CONDITIONS',
1956 'PHYSICAL_PARAMETERS',
1958 'NESTING_WITH_TOMAWAC')
1962 except Exception as excpt:
1964 enum = source+'.artemis_enum_auto'
1965 dicoCasEn = source+'.artemis_dicoCasEnToCata'
1966 dicoCasFr = source+'.artemis_dicoCasFrToCata'