From: pascale.noyret Date: Tue, 21 Jul 2020 13:42:36 +0000 (+0200) Subject: et test telemac X-Git-Tag: V9_5_MT^0 X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=7a00190da5b2bcfc536f1bdfcfde113e427f0155;p=tools%2Feficas.git et test telemac --- diff --git a/MT/images/443-3.jpg b/MT/images/443-3.jpg new file mode 100644 index 00000000..88424b2b Binary files /dev/null and b/MT/images/443-3.jpg differ diff --git a/MT/images/Bouquet_PN.jpg b/MT/images/Bouquet_PN.jpg new file mode 100755 index 00000000..50e5295c Binary files /dev/null and b/MT/images/Bouquet_PN.jpg differ diff --git a/MT/images/__init__.py b/MT/images/__init__.py new file mode 100644 index 00000000..6e9bbe36 --- /dev/null +++ b/MT/images/__init__.py @@ -0,0 +1,2 @@ +# +# diff --git a/MT/images/cymbidium-atropurpureum-f2.jpg b/MT/images/cymbidium-atropurpureum-f2.jpg new file mode 100644 index 00000000..33c427ee Binary files /dev/null and b/MT/images/cymbidium-atropurpureum-f2.jpg differ diff --git a/MT/images/dicoDesIcones.py b/MT/images/dicoDesIcones.py new file mode 100644 index 00000000..3327825d --- /dev/null +++ b/MT/images/dicoDesIcones.py @@ -0,0 +1,8 @@ +dicoIcones={ + 'MATERIAUX' : "/home/A96028/QT5GitEficasTravail/eficas/MT/images/443-3.jpg", + 'ZONE' : "/home/A96028/QT5GitEficasTravail/eficas/MT/images/Bouquet_PN.jpg", + 'PALIER' : "/home/A96028/QT5GitEficasTravail/eficas/MT/images/cymbidium-atropurpureum-f2.jpg", + 'PALIER_TORSION' : "/home/A96028/QT5GitEficasTravail/eficas/MT/images/images.jpeg", + 'BUTEE' : "/home/A96028/QT5GitEficasTravail/eficas/MT/images/rose.JPG", +} +dicoImages={} diff --git a/MT/images/images.jpeg b/MT/images/images.jpeg new file mode 100644 index 00000000..02b96306 Binary files /dev/null and b/MT/images/images.jpeg differ diff --git a/MT/images/rose.JPG b/MT/images/rose.JPG new file mode 100755 index 00000000..d91a4e98 Binary files /dev/null and b/MT/images/rose.JPG differ diff --git a/Telemac/prefs_TELEMAC.py b/Telemac/prefs_TELEMAC.py index e85327c5..def24cac 100644 --- a/Telemac/prefs_TELEMAC.py +++ b/Telemac/prefs_TELEMAC.py @@ -41,7 +41,7 @@ docPath=repIni catalogues=( #('TELEMAC','default',os.path.join(repIni,'Telemac_Cata_nouveau.py'),'TELEMAC','python'), #('TELEMAC','cas',os.path.join(repIni,'Telemac_Cata.py'),'TELEMAC','TELEMAC'), - ('2D','cas',os.path.join(repIni,'Telemac2d_Cata_auto.py'),'TELEMAC','TELEMAC'), + ('2D','cas',os.path.join(repIni,'telemac2d_cata_auto.py'),'TELEMAC','TELEMAC'), #('TELEMAC','cas',os.path.join(repIni,'Telemac_Cata.py'),'python','TELEMAC3'), #('TELEMAC','comm',os.path.join(repIni,'Telemac_Cata.py'),'TELEMAC2','python'), ) diff --git a/Telemac/telemac2d_cata_auto.py b/Telemac/telemac2d_cata_auto.py new file mode 100644 index 00000000..5fe6197c --- /dev/null +++ b/Telemac/telemac2d_cata_auto.py @@ -0,0 +1,4455 @@ + +# -*- coding: latin-1 -*- + +from Accas import * +class DateJJMMAAAA: + def __init__(self): + self.ntuple=3 + + def __convert__(self,valeur): + if type(valeur) == types.StringType: return None + if len(valeur) != self.ntuple: return None + return valeur + + def info(self): + return "Date : jj/mm/aaaa " + + __repr__=info + __str__=info + +class grma(GEOM): + pass + +import types +class Tuple: + def __init__(self,ntuple): + self.ntuple=ntuple + + def __convert__(self,valeur): + if type(valeur) == types.StringType: + return None + if len(valeur) != self.ntuple: + return None + return valeur + + def info(self): + return "Tuple de %s elements" % self.ntuple + + + +JdC = JDC_CATA (code = 'TELEMAC2D', + execmodul = None, + ) +# ======================================================================= +# Catalog entry for the MAP function : c_pre_interfaceBody_mesh +# ======================================================================= + +VERSION_CATALOGUE="TRUNK_20180306" +# ----------------------------------------------------------------------- +COMPUTATION_ENVIRONMENT = PROC(nom= "COMPUTATION_ENVIRONMENT",op = None, +# ----------------------------------------------------------------------- + UIinfo = {"groupes": ("CACHE")}, +# ----------------------------------- + INITIALIZATION = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + TITLE = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + defaut = '', + fr = """Titre du cas etudie. Ce titre figurera sur les dessins.""", + ang = """Title of the case being considered. This title shall be marked on the +drawings.""", + ), +# ----------------------------------- + INITIAL_CONDITIONS = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ['ZERO ELEVATION','CONSTANT ELEVATION','ZERO DEPTH','CONSTANT DEPTH','SPECIAL','PARTICULIERES','PARTICULAR','TPXO SATELLITE ALTIMETRY'], + defaut = 'ZERO ELEVATION', + fr = """Permet de definir les conditions initiales sur +les hauteurs d''eau. +Les valeurs possibles sont : + - COTE NULLE. Initialise la cote de surface libre a 0. + Les hauteurs d''eau initiales sont alors retrouvees en + faisant la difference entre les cotes de surface libre + et du fond. + - COTE CONSTANTE .Initialise la cote de surface libre a la + valeur donnee par le mot-cle COTE INITIALE. Les hauteurs + d''eau initiales sont calculees comme precedemment. + - HAUTEUR NULLE .Initialise les hauteurs d''eau a 0. + - HAUTEUR CONSTANTE. Initialise les hauteurs d''eau a la valeur + donnee par le mot-cle HAUTEUR INITIALE. + - PARTICULIERES. Les conditions initiales sur la hauteur d''eau + doivent etre precisees dans le sous-programme CONDIN. + - ALTIMETRIE SATELLITE TPXO. Les conditions initiales sur la hauteur + d''eau et les vitesses sont etiblies sur la base des donnees + satellite TPXO dont les 8 premiers constistuents +ont ete extrait + et sauves dans le fichier BASE DE DONNEES DE MAREE.""", + ang = """Makes it possible to define the initial conditions with +the water depth. +The possible values are as follows: + - ZERO ELEVATION-. Initializes the free surface elevation to 0. +The initial water depths are then found by computing the difference +between the free surface and the bottom. + - CONSTANT ELEVATION-. Initializes the water elevation to the value +given by the keyword -INITIAL ELEVATION-. The initial water depths +are computed as in the previous case. + - ZERO DEPTH-. Initializes the water depths to 0. + - CONSTANT DEPTH-. Initializes the water depths to the value given +by the key-word -INITIAL DEPTH-. + - SPECIAL-. The initial conditions with the water depth should be +stated in the CONDIN subroutine. + - TPXO SATELITE ALTIMETRY. The initial conditions on the +free surface and +velocities are established from the TPXO satellite program data, +the harmonic +constituents of which are stored in the TIDE DATA BASE file.""", + ), +# ----------------------------------- + b_INITIAL_CONDITIONSG = BLOC(condition="INITIAL_CONDITIONS == 'CONSTANT ELEVATION'", +# ----------------------------------- +# ----------------------------------- + INITIAL_ELEVATION = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0., + fr = """Valeur utilisee avec l''option : + CONDITIONS INITIALES - COTE CONSTANTE""", + ang = """Value to be used with the option : +INITIAL CONDITIONS -CONSTANT ELEVATION""", + ), + ), +# ----------------------------------- + b_INITIAL_CONDITIONSH = BLOC(condition="INITIAL_CONDITIONS == 'CONSTANT DEPTH'", +# ----------------------------------- +# ----------------------------------- + INITIAL_DEPTH = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0., + fr = """Valeur utilisee avec l''option : +CONDITIONS INITIALES :-HAUTEUR CONSTANTE-""", + ang = """Value to be used along with the option: + INITIAL CONDITIONS -CONSTANT DEPTH-""", + ), + ), +# ----------------------------------- + BINARY_DATA_FILE_1_FORMAT = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + into = ['BIN','SERAFIN','SERAFIND','MED'], + defaut = 'BIN', + fr = """Format du fichier de geometrie. +Les valeurs possibles sont : +- BIN : format binaire standard +- SERAFIN : format standard simple precision pour Telemac; +- SERAFIND: format standard double precision pour Telemac; +- MED : format MED base sur HDF5""", + ang = """Geometry file format. +Possible values are: +- BIN : Standard binary format +- SERAFIN : classical single precision format in Telemac; +- SERAFIND: classical double precision format in Telemac; +- MED : MED format based on HDF5""", + ), +# ----------------------------------- + BINARY_DATA_FILE_1 = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Fichier de donnees code en binaire mis a la disposition +de l''utilisateur. +Les donnees de ce fichier seront a lire sur le canal 24.""", + ang = """Binary-coded data file made available to the user. +The data in this file shall be read on channel 24.""", + ), +# ----------------------------------- + BINARY_DATA_FILE_2_FORMAT = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + into = ['BIN','SERAFIN','SERAFIND','MED'], + defaut = 'BIN', + fr = """Format du fichier de geometrie. +Les valeurs possibles sont : +- BIN : format binaire standard +- SERAFIN : format standard simple precision pour Telemac; +- SERAFIND: format standard double precision pour Telemac; +- MED : format MED base sur HDF5""", + ang = """Geometry file format. +Possible values are: +- BIN : Standard binary format +- SERAFIN : classical single precision format in Telemac; +- SERAFIND: classical double precision format in Telemac; +- MED : MED format based on HDF5""", + ), +# ----------------------------------- + BINARY_DATA_FILE_2 = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Fichier de donnees code en binaire mis a la disposition +de l''utilisateur. +Les donnees de ce fichier seront a lire sur le canal 25.""", + ang = """Binary-coded data file made available to the user. +The data in this file shall be read on channel 25.""", + ), +# ----------------------------------- + FORMATTED_DATA_FILE_1 = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Fichier de donnees formate mis a la disposition de +l''utilisateur. +Les donnees de ce fichier seront a lire sur le canal 26.""", + ang = """Formatted data file made available to the user. +The data in this file shall be read on channel 26.""", + ), +# ----------------------------------- + FORMATTED_DATA_FILE_2 = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Fichier de donnees formate mis a la disposition de +l''utilisateur. +Les donnees de ce fichier seront a lire sur le canal 27.""", + ang = """Formatted data file made available to the user. +The data in this file shall be read on channel 27.""", + ), +# ----------------------------------- + INPUT_FILES = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + GEOMETRY_FILE_FORMAT = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ['SERAFIN?','SERAFIND','MED'], + defaut = 'SERAFIN?', + fr = """Format du fichier de geometrie. +Les valeurs possibles sont : +- SERAFIN : format standard simple precision pour Telemac; +- SERAFIND: format standard double precision pour Telemac; +- MED : format MED base sur HDF5""", + ang = """Geometry file format. +Possible values are: +- SERAFIN : classical single precision format in Telemac; +- SERAFIND: classical double precision format in Telemac; +- MED : MED format based on HDF5""", + ), +# ----------------------------------- + GEOMETRY_FILE = SIMP(statut ='o', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + fr = """Nom du fichier contenant le maillage du calcul a realiser.""", + ang = """Name of the file containing the mesh. This file may also +contain the topography and the friction coefficients.""", + ), +# ----------------------------------- + FORTRAN_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = 'FichierOuRepertoire', + defaut = 'DEFAUT', + fr = """Nom du fichier FORTRAN a soumettre.""", + ang = """Name of FORTRAN file to be submitted.""", + ), +# ----------------------------------- + BOTTOM_TOPOGRAPHY_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Nom du fichier eventuel contenant la bathymetrie associee au +maillage. +Si ce mot-cle est utilise; c''est cette bathymetrie qui sera utilisee +pour le calcul.""", + ang = """Name of the possible file containing the bathymetric data. +Where this keyword is used, these bathymetric data shall be used in +the computation.""", + ), +# ----------------------------------- + BOTTOM_SMOOTHINGS = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 0, + fr = """Nombre de lissages effectues sur la topographie. +chaque lissage, effectue a l''aide d''une matrice de masse, +est conservatif. +Utilise lorsque les donnees de bathymetrie donnent des resultats +trop irreguliers apres interpolation.""", + ang = """Number of smoothings on bottom topography. +each smoothing is mass conservative. +to be used when interpolation of bathymetry on the mesh gives +very rough results.""", + ), +# ----------------------------------- + BOUNDARY_CONDITIONS_FILE = SIMP(statut ='o', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + fr = """Nom du fichier contenant les types de conditions aux limites. +Ce fichier est rempli de facon automatique par le mailleur au moyen de +couleurs affectees aux noeuds des frontieres du domaine de calcul.""", + ang = """Name of the file containing the types of boundary conditions. +This file is filled automatically by the mesh generator through +through colours that are assigned to the boundary nodes.""", + ), +# ----------------------------------- + VALIDATION = SIMP(statut ='f', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Option utilisee principalement pour le dossier de validation. Le +fichier des resultats du calcul precedent est alors considere comme une +reference a laquelle on va comparer le calcul. La comparaison est +effectuee par le sous-programme VALIDA qui peut etre une comparaison +avec une solution exacte par exemple.""", + ang = """This option is primarily used for the validation documents. The +PREVIOUS COMPUTATION FILE is then considered as a reference which the +computation is going to be compared with. The comparison is made by the +subroutine VALIDA, which can be modified as to so as to include, for +example,a comparison with an exact solution.""", + ), +# ----------------------------------- + REFERENCE_FILE_FORMAT = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + into = ['SERAFIN?','SERAFIND','MED'], + defaut = 'SERAFIN?', + fr = """Format du fichier de resultats du calcul precedent. +Les valeurs possibles sont : +- SERAFIN : format standard simple precision pour Telemac; +- SERAFIND: format standard double precision pour Telemac; +- MED : format MED base sur HDF5""", + ang = """Previous computation results file format. +Possible values are: +- SERAFIN : classical single precision format in Telemac; +- SERAFIND: classical double precision format in Telemac; +- MED : MED format based on HDF5""", + ), +# ----------------------------------- + REFERENCE_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Fichier de resultats de reference pour la validation. Les resultats a +placer dans ce fichier seront a ecrire sur le canal 22.""", + ang = """Binary-coded result file for validation. The results to be entered +into this file shall be written on channel 22.""", + ), + ), +# ----------------------------------- + GLOBAL = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + PARALLEL_PROCESSORS = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 0, + fr = """NOMBRE DE PROCESSEURS EN CALCUL PARALLELE +0 : 1 machine, compilation sans bibliotheque de parallelisme +1 : 1 machine, compilation avec bibliotheque de parallelisme +2 : 2 processeurs ou machines en parallele +etc...""", + ang = """NUMBER OF PROCESSORS FOR PARALLEL PROCESSING +0 : 1 machine, compiling without parallel library +1 : 1 machine, compiling with a parallel library +2 : 2 processors or machines in parallel +etc....""", + ), +# ----------------------------------- + CHECKING_THE_MESH = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Si oui on appelle le sous-programme checkmesh qui verifie +la coherence du maillage, points superposes, etc.""", + ang = """if this key word is equal to yes, a call to subroutine +checkmesh will look for errors in the mesh, superimposed points, etc.""", + ), +# ----------------------------------- + MAXIMUM_NUMBER_OF_BOUNDARIES = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 30, + fr = """nombre maximal de frontieres differentes dans le maillage. +Sert au dimensionnement de la memoire, a augmenter si necessaire""", + ang = """maximal number of boundaries in the mesh. +Used for dimensioning arrays. Can be increased if needed""", + ), +# ----------------------------------- + MAXIMUM_NUMBER_OF_SOURCES = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 20, + fr = """nombre maximal de points sources dans le maillage. +Sert au dimensionnement de la memoire, a augmenter si necessaire""", + ang = """maximal number of punctual sources in the mesh. +Used for dimensioning arrays. Can be increased if needed""", + ), +# ----------------------------------- + MAXIMUM_NUMBER_OF_TRACERS = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 20, + fr = """nombre maximal de traceurs. +Sert au dimensionnement de la memoire, a augmenter si necessaire""", + ang = """maximal number of tracers. +Used for dimensioning arrays. Can be increased if needed""", + ), +# ----------------------------------- + VECTOR_LENGTH = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 1, + fr = """LONGUEUR DU VECTEUR POUR LES MACHINES VECTORIELLES""", + ang = """VECTOR LENGTH ON VECTOR MACHINES""", + ), + ), + ), +# ----------------------------------- + RESTART = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + COMPUTATION_CONTINUED = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Determine si le calcul en cours est independant de tout autre +resultat ou est une reprise effectuee a partir du resultat d''un calcul +precedent. +NON : Il s''agit du premier passage pour ce calcul et il est necessaire +de definir un jeu complet de conditions initiales +OUI : Il s''agit d''une reprise de calcul : +les conditions initiales sont constituees par le dernier pas de +temps du ''FICHIER DU CALCUL PRECEDENT'' du fichier des parametres +utilise pour soumettre le calcul. +Par contre, l''ensemble des donnees du fichier des parametres +peuvent etre redefinies ; ce qui offre la possibilite de changer +par exemple, le pas de temps, le modele de turbulence, le +frottement, d''ajouter ou retirer un traceur ... +De meme, il est necessaire de definir des conditions aux limites +(sous-programme BORD ou valeurs placees dans le fichier des +parametres), qui peuvent egalement etre modifiees.""", + ang = """Determines whether the computation under way is independent +result or is following an earlier result. +NO: It is the first run for this computation and a whole set of +initial conditions should be defined. +YES: It follows a former computation: +the initial conditions consist in the last time step of the +PREVIOUS COMPUTATION FILE in the steering file used for submitting +the computation. +All the data from the steering file may be defined once again, which +provides an opportunity to change, for example, the time step, +the turbulence model, the friction, to add or remove a tracer... +It is also possible to define new boundary conditions.""", + ), +# ----------------------------------- + b_COMPUTATION_CONTINUEDG = BLOC(condition="COMPUTATION_CONTINUED == True", +# ----------------------------------- +# ----------------------------------- + PREVIOUS_COMPUTATION_FILE_FORMAT = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ['SERAFIN?','SERAFIND','MED'], + defaut = 'SERAFIN?', + fr = """Format du fichier de resultats du calcul precedent. +Les valeurs possibles sont : +- SERAFIN : format standard simple precision pour Telemac; +- SERAFIND: format standard double precision pour Telemac; +- MED : format MED base sur HDF5""", + ang = """Previous computation results file format. +Possible values are: +- SERAFIN : classical single precision format in Telemac; +- SERAFIND: classical double precision format in Telemac; +- MED : MED format based on HDF5""", + ), +# ----------------------------------- + PREVIOUS_COMPUTATION_FILE = SIMP(statut ='o', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Nom d''un fichier contenant les resultats d''un calcul +precedent realise sur le meme maillage et dont le dernier pas de temps +enregistre va fournir les conditions initiales pour une suite de de +calcul.""", + ang = """Name of a file containing the results of an earlier +computation which was made on the same mesh. The last recorded time +step will provid the initial conditions for the new computation.""", + ), +# ----------------------------------- + RECORD_NUMBER_FOR_RESTART = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 0, + fr = """En cas de suite de calcul, numero de l''enregistrement +de depart dans le fichier du calcul precedent. 0 signifie +qu''on prend le dernier enregistrement""", + ang = """In case of COMPUTATION CONTINUED, record number to +start from in the PREVIOUS COMPUTATION FILE""", + ), + ), +# ----------------------------------- + INITIAL_TIME_SET_TO_ZERO = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Remet le temps a zero en cas de suite de calcul""", + ang = """Initial time set to zero in case of restart""", + ), + ), +# ----------------------------------- + OUTPUT_FILES = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + RESULTS_FILES = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + NUMBER_OF_FIRST_TIME_STEP_FOR_GRAPHIC_PRINTOUTS = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 0, + fr = """Determine le nombre de pas de temps a partir duquel debute +l''ecriture des resultats dans le FICHIER DES RESULTATS.""", + ang = """Determines the number of time steps after which the results +are first written into the RESULTS FILE.""", + ), +# ----------------------------------- + GRAPHIC_PRINTOUT_PERIOD = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 1, + fr = """ Determine la periode en nombre de pas de temps d''impression des +VARIABLES POUR LES SORTIES GRAPHIQUES (voir ce mot-cle) dans le FICHIER +DES RESULTATS.""", + ang = """ Determines, in number of time steps, the printout period for the +VARIABLES FOR GRAPHIC PRINTOUTS in the RESULTS FILE.""", + ), +# ----------------------------------- + VARIABLES_FOR_GRAPHIC_PRINTOUTS = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', min=0, max='**', + into = ["velocity along x axis (m/s)","velocity along y axis (m/s)","wave celerity (m/s)","water depth (m)","free surface elevation (m)","bottom elevation (m)","Froude number","scalar flowrate of fluid (m2/s)","tracer 1 etc.","All the tracers 1 to 9.","All the tracers 10 to 19.","turbulent kinetic energy in k-epsilon model (J/kg)","dissipation of turbulent energy (W/kg)","turbulent viscosity (m2/s)","flowrate along x axis (m2/s)","flowrate along y axis (m2/s)","scalar velocity (m/s)","wind along x axis (m/s)","wind along y axis (m/s)","air pressure (Pa)","friction coefficient","drift along x (m)","drift along y (m)","Courant number ","supplementary variable N","supplementary variable O","supplementary variable R","supplementary variable Z","maximum elevation","time of maximum elevation","maximum velocity","time of maximum velocity","friction velocity","gradient 1, etc. ","reference level for Nestor "], + defaut = ["velocity along x axis (m/s)","velocity along y axis (m/s)","water depth (m)","bottom elevation (m)"], + fr = """ Noms des variables que l''utilisateur veut ecrire dans le fichier des +resultats. Chaque variable est representee par une lettre. Le choix des +separateurs est libre. Les possibilites offertes sont les suivantes : + - U : vitesse suivant l''axe des x (m/s), + - V : vitesse suivant l''axe des y (m/s), + - C : celerite des ondes (m/s), + - H : hauteur d''eau (m), + - S : cote de surface libre (m), + - B : cote du fond (m), + - F : nombre de Froude, + - Q : debit scalaire du fluide (m2/s), + - Tn: traceur, avec n le numero du traceur, + - K : energie turbulente du modele k-epsilon (J/kg), + - E : dissipation de l''energie turbulente (W/kg), + - D : viscosite turbulente du modele k-epsilon (m2/s), + - I : debit suivant l''axe des x (m2/s), + - J : debit suivant l''axe des y (m2/s), + - M : vitesse scalaire (m/s), + - X : vent suivant l''axe des x (m/s), + - Y : vent suivant l''axe des y (m/s), + - P : pression atmospherique (Pa), + - W : coefficient de frottement sur le fond, + - A : derive en x (m), + - G : derive en y (m), + - L : coefficient de frottement sur le fond, + - Gn: gradient differencie, avec n le numero de reference du gradient. +L''utilisateur dispose egalement de 4 champs libres, qu''il peut +utiliser pour ecrire dans le fichier des resultats des variables qu''il +cree lui-meme. Ces variables propres a l''utlisateur doivent etre +calculees dans le sous-programme PRERES et le nom que l''on desire leur +donner doit etre ecrit dans le sous-programme NOMVAR. Ces 7 champs sont +: + - N, O, R, Z qui correspondent aux tableaux PRIVE(1,1), PRIVE(1,2), + PRIVE(1,3), PRIVE(1,4). +A la difference des variables precedentes, celles-ci sont conservees +dans tout le programme, et peuvent donc etre reutilisees. Dans ce +dernier cas ne pas oublier de donner une taille suffisante au tableau +PRIVE (dans le programme principal). Il est ainsi possible de limiter, +par exemple, la taille des fichiers de resultats pour de tres gros +calculs. Cependant, il faut etre conscient du fait que, dans +l''eventualite d''une reprise de calcul, le code doit disposer, dans le +fichier des resultats, des informations necessaires a sa poursuite, a +savoir : + - les vitesses U et V, + - les hauteurs d''eau H, + - les cotes du fond B. +Toutefois, TELEMAC peut recalculer certaines de ces variables a +partir d''autres qui lui seront fournies (par exemple, il recalculera H +a partir de S et B).""", + ang = """ Names of variables the user wants to write into the results file. Each +variable is represented by a letter. The separators can be freely +selected. The available capabilities are as follows: + - U : velocity along x axis (m/s), + - V : velocity along y axis (m/s), + - C : wave celerity (m/s), + - H : water depth (m), + - S : free surface elevation (m), + - B : bottom elevation (m), + - F : Froude number, + - Q : scalar flowrate of fluid (m2/s), + - Tn : tracer, with n the tracer number, + - K : turbulent kinetic energy in k-epsilon model (J/kg), + - E : dissipation of turbulent energy (W/kg), + - D : turbulent viscosity of k-epsilon model (m2/s), + - I : flowrate along x axis (m2/s), + - J : flowrate along y axis (m2/s), + - M : scalar velocity (m/s), + - X : wind along x axis (m/s) Y : wind along y axis (m/s), + - P : air pressure (Pa), + - W : friction coefficient , + - A : drift along x, + - G : drift along y, + - L : nombre de courant, + - Gn : differentiated gradient, with n the gradient reference number. +Four other variables are also made available to the +user who may use them for writing into the file the results of variables +he creates himself. These user-specific variables should be computed in +the subroutine PRERES and their desired name should be written into the +subroutine NOMVAR. These seven variables are as follows: +- N, O, R, Z +which correspond to arrays PRIVE(1,1) up to PRIVE(1, Unlike the +preceding variables, they are preserved throughout the program, so that +they can be used again. +In the latter case, do not forget to provide the +array PRIVE with sufficiently large dimensions (in FORTRAN file). With +this key-word, one can limit the size of the RESULTS FILE. It should be +kept in mind, however, that if a computation has to be continued, the +RESULTS FILE should contain the appropriate information for running the +code,i.e.: + - velocities U and V, + - water depths H, + - bottom elevations B. +TELEMAC, however, can compute some of these variables from others for +example, it will compute H from S and B.""", + ), +# ----------------------------------- + NUMBER_OF_PRIVATE_ARRAYS = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 0, + fr = """Nombre de tableaux mis a disposition de l utilisateur""", + ang = """Number of arrays for own user programming""", + ), +# ----------------------------------- + NAMES_OF_PRIVATE_VARIABLES = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', min=0, max='**', + fr = """Noms des variables privees en 32 caracteres, 16 pour le nom + 16 pour l''unite. Elles correspondent au bloc PRIVE + et peuvent etre lues dans le fichier de geometrie si elles + y sont presentes avec leur nom""", + ang = """Name of private variables in 32 characters, 16 for the name, + 16 for the unit. They are stored in the block PRIVE and + can be read in the geometry file if they are here with their + name""", + ), +# ----------------------------------- + RESULTS_FILE_FORMAT = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ['SERAFIN?','SERAFIND','MED'], + defaut = 'SERAFIN?', + fr = """Format du fichier de resultats. +Les valeurs possibles sont : +- SERAFIN : format standard simple precision pour Telemac; +- SERAFIND: format standard double precision pour Telemac; +- MED : format MED base sur HDF5""", + ang = """Results file format. Possible values are: +- SERAFIN : classical single precision format in Telemac; +- SERAFIND: classical double precision format in Telemac; +- MED : MED format based on HDF5""", + ), +# ----------------------------------- + RESULTS_FILE = SIMP(statut ='o', +# ----------------------------------- + typ = ('Fichier','All Files (*)','Sauvegarde'), + defaut = '', + fr = """Nom du fichier dans lequel seront ecrits les resultats du +calcul avec la periodicite donnee par le mot cle ''PERIODE POUR LES +SORTIES GRAPHIQUES''.""", + ang = """Name of the file into which the computation results shall be +written, +the periodicity being given by the key-word: +GRAPHIC PRINTOUT PERIOD.""", + ), +# ----------------------------------- + RESULT_FILE_IN_LONGITUDE_LATITUDE = SIMP(statut ='f', +# ----------------------------------- + typ = bool, + defaut = True, + fr = """donne les coordonnees dans le fichier resultats en longitude-latitude +si le fichier geo est aussi donnee en long lat""", + ang = """gives result file in longitude latitude if geo file is +also given in long lat""", + ), +# ----------------------------------- + BINARY_RESULTS_FILE_FORMAT = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + into = ['BIN','SERAFIN','SERAFIND','MED'], + defaut = 'BIN', + fr = """Format du fichier de geometrie. +Les valeurs possibles sont : +- SERAFIN : format standard simple precision pour Telemac; +- SERAFIND: format standard double precision pour Telemac; +- MED : format MED base sur HDF5""", + ang = """Geometry file format. +Possible values are: +- SERAFIN : classical single precision format in Telemac; +- SERAFIND: classical double precision format in Telemac; +- MED : MED format based on HDF5""", + ), +# ----------------------------------- + BINARY_RESULTS_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)','Sauvegarde'), + defaut = '', + fr = """Fichier de resultats code en binaire mis a la disposition +de l''utilisateur. Les resultats a placer dans ce fichier seront a +ecrire sur le canal 28.""", + ang = """Additional binary-coded result file made available +to the user. The results to be entered into this file shall be written +on channel 28.""", + ), +# ----------------------------------- + FORMATTED_RESULTS_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)','Sauvegarde'), + defaut = '', + fr = """Fichier de resultats formate mis a la disposition de +l''utilisateur. +Les resultats a placer dans ce fichier seront a ecrire sur +le canal 29.""", + ang = """Formatted file of results made available to the user. +The results to be entered into this file shall be written +on channel 29.""", + ), + ), +# ----------------------------------- + CONTROL_SECTION = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + CONTROL_SECTIONS = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', min=0, max='**', + fr = """Couples de points (numeros globaux dans le maillage) entre +lesquels les debits instantanes et cumules seront donnes.""", + ang = """Couples of points (global numbers +in the mesh) defining sections + where the instantaneous and cumulated discharges will be given""", + ), +# ----------------------------------- + PRINTING_CUMULATED_FLOWRATES = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """IMPRESSION DU FLUX CUMULE A TRAVERS LES SECTIONS DE CONTROLE""", + ang = """PRINTING THE CUMULATED FLOWRATES THROUGH CONTROL SECTIONS""", + ), +# ----------------------------------- + COMPATIBLE_COMPUTATION_OF_FLUXES = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """FLUX A TRAVERS LES SECTIONS DE CONTROLE, CALCUL COMPATIBLE +AVEC L''IMPERMEABILITE SOUS FORME FAIBLE""", + ang = """FLOWRATES THROUGH CONTROL SECTIONS, COMPUTATION COMPATIBLE +WITH THE WEAK FORMULATION OF NO-FLUX BOUNDARY CONDITION""", + ), +# ----------------------------------- + SECTIONS_INPUT_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """sections input file, partitioned""", + ang = """sections input file, partitioned""", + ), +# ----------------------------------- + SECTIONS_OUTPUT_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)','Sauvegarde'), + defaut = '', + fr = """sections output file, written by the master""", + ang = """sections output file, written by the master""", + ), +# ----------------------------------- + FLUXLINE = SIMP(statut ='f', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """FLUXLINE""", + ang = """Use Fluxline to compute flux over lines""", + ), +# ----------------------------------- + FLUXLINE_INPUT_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Nom du fichier de fluxline, avec des donnees sur les sections""", + ang = """Name of the Fluxline file, with data on cross-sections""", + ), + ), +# ----------------------------------- + LISTING = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + NUMBER_OF_FIRST_TIME_STEP_FOR_LISTING_PRINTOUTS = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 0, + fr = """Determine le nombre de pas de temps a partir duquel debute +l''ecriture des resultats dans le listing.""", + ang = """Determines the number of time steps after which the results +are first written into the listing.""", + ), +# ----------------------------------- + LISTING_PRINTOUT_PERIOD = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 1, + fr = """ Determine la periode en nombre de pas de temps d''impression des +VARIABLES A IMPRIMER (voir ce mot-cle) Pour la mise au point, il faut +savoir que la sortie des resultats est effectuee systematiquement sur le +fichier de retour d''execution du code (actuellement accessible par le +menu 3.f de SPF sur IBM, et dans le fichier !CAS.SORTIE sur station de +travail)""", + ang = """ Determines, in number of time steps, the printout period of the +VARIABLES TO BE PRINTED The results are systematically printed out on +the listing file (file CAS.SORTIE at the workstation).""", + ), +# ----------------------------------- + LISTING_FOR_PRINTOUT_PERIOD = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 1, + fr = """Determine la periode en nombre de pas de temps d''impression +des VARIABLES A IMPRIMER (voir ce mot-cle) Pour la mise au point, +il faut savoir que la sortie des resultats est effectuee +systematiquement sur le fichier de retour d''execution du code +(actuellement accessible par le menu 3.f de SPF sur IBM, et dans +le fichier !CAS.SORTIE sur station de travail)""", + ang = """Determines, in number of time steps, the printout period of +the VARIABLES TO BE PRINTED +The results are systematically printed out on the listing file +(file CAS.SORTIE at the workstation).""", + ), +# ----------------------------------- + LISTING_PRINTOUT = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = True, + fr = """Sortie des resultats sur support papier. +Si l''on met NON le listing ne contient que l''entete et la mention +FIN NORMALE DU PROGRAMME +Commande a eviter""", + ang = """Result printout on hard copy. +When NO is selected, the listing only includes the heading and the +phrase "NORMAL END OF PROGRAM" +In addition, the options MASS BALANCE and VALIDATION are inhibited. +Not recommended for use.""", + ), +# ----------------------------------- + VARIABLES_TO_BE_PRINTED = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', min=0, max='**', + intoSug = ["velocity along x axis (m/s)","velocity along y axis (m/s)","wave celerity (m/s)","water depth (m)","free surface elevation (m)","bottom elevation (m)","Froude number","scalar flowrate of fluid (m2/s)","tracer 1, etc.","turbulent kinetic energy in k-epsilon model (J/kg)","dissipation of turbulent energy (W/kg)","turbulent viscosity of k-epsilon model (m2/s)","flowrate along x axis (m2/s)","flowrate along y axis (m2/s)","scalar velocity (m/s)","wind along x axis (m/s)","wind along y axis (m/s)","air pressure (Pa)","friction coefficient","drift along x (m)","drift along y (m)","nombre de courants ","supplementary variable N","supplementary variable O","supplementary variable R","supplementary variable Z","gradient 1, etc."], + defaut = '', + fr = """Nom des variables que l''utilisateur desire ecrire a l''ecran. Meme +possibilites que pour les sorties graphiques.""", + ang = """Name of the variables that the user wants printed on screen. +Same values available as graphical outputs""", + ), +# ----------------------------------- + MASS_BALANCE = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Determine si l''on effectue ou non le bilan de masse +sur le domaine. +Cette procedure calcule a chaque pas de temps : + - les flux aux entrees et sorties du domaine; + - le flux global a travers l''ensemble des parois du domaine (liquides +ou solides) +- l''erreur relative sur la masse pour ce pas de temps. +En fin de listing, on trouve l''erreur relative sur la masse pour +l''ensemble du calcul. +Il ne s''agit que d''un calcul indicatif car il n''existe pas +d''expression compatible du debit en formulation c,u,v.""", + ang = """Determines whether a check of the mass-balance over +the domain is mader or not. +This procedures computes the following at each time step: +the domain inflows and outflows, +the overall flow across all the boundaries, +the relative error in the mass for that time step. +The relative error in the mass over the whole computation can be found +at the end of the listing.""", + ), +# ----------------------------------- + INFORMATION_ABOUT_SOLVER = SIMP(statut ='f', +# ----------------------------------- + typ = bool, + defaut = True, + fr = """Donne a chaque pas de temps le nombre d''iterations necessaires +a la convergence du solveur de l''etape de propagation.""", + ang = """if YES, prints the number of iterations +that have been necessar +to get the solution of the linear system.""", + ), +# ----------------------------------- + LIST_OF_POINTS = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', min=0, max='**', + fr = """Liste de points remarquables pour les impressions""", + ang = """List of remarkable points for printouts""", + ), +# ----------------------------------- + NAMES_OF_POINTS = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', min=0, max='**', + fr = """Noms des points remarquables pour les impressions""", + ang = """Names of remarkable points for printouts""", + ), + ), +# ----------------------------------- + FOURIER = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + FOURIER_ANALYSIS_PERIODS = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', min=0, max='**', + fr = """Liste des periodes que l''on veut analyser""", + ang = """List of periods to be analysed""", + ), +# ----------------------------------- + TIME_RANGE_FOR_FOURIER_ANALYSIS = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', min= 2, max= 2, + defaut = [0.,0.], + fr = """Pour le calcul du marnage et de la phase de la maree""", + ang = """For computing tidal range and phase of tide""", + ), + ), + ), +) +# ----------------------------------------------------------------------- +HYDRO = PROC(nom= "HYDRO",op = None, +# ----------------------------------------------------------------------- + UIinfo = {"groupes": ("CACHE")}, +# ----------------------------------- + BOUNDARY_CONDITIONS = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + PRESCRIBED_ELEVATIONS = SIMP(statut ='f', +# ----------------------------------- + typ = 'R', max='**', + fr = """Valeurs des cotes imposees aux frontieres liquides entrantes. +Lire la partie du mode d''emploi consacree aux conditions aux limites""", + ang = """Values of prescribed elevations at the inflow boundaries. +The section about boundary conditions is to be read in the manual""", + ), +# ----------------------------------- + PRESCRIBED_FLOWRATES = SIMP(statut ='f', +# ----------------------------------- + typ = 'R', max='**', + fr = """Valeurs des debits imposes aux frontieres liquides entrantes. +Lire la partie du mode d''emploi consacree aux conditions aux limites""", + ang = """Values of prescribed flowrates at the inflow boundaries. +The section about boundary conditions is to be read in the manual""", + ), +# ----------------------------------- + PRESCRIBED_VELOCITIES = SIMP(statut ='f', +# ----------------------------------- + typ = 'R', max='**', + fr = """Valeurs des vitesses imposees aux frontieres liquides entrantes. + Lire la partie du mode d''emploi consacree aux conditions aux limites""", + ang = """Values of prescribed velocities at the liquid inflow boundaries. + Refer to the section dealing with the boundary conditions""", + ), + ), +# ----------------------------------- + BOUNDARY_CONDITIONS_OTHERS = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + STAGE_DISCHARGE_CURVES = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', max='**', + into = ["no","Z(Q)","Q(Z)"], + fr = """Indique si une courbe de tarage doit etre utilisee pour une frontiere +0:non 1:Z(Q) 2: Q(Z)""", + ang = """Says if a discharge-elevation curve must be used for a given boundary +0:NO 1:Z(Q) 2: Q(Z)""", + ), +# ----------------------------------- + b_STAGE_DISCHARGE_CURVESG = BLOC(condition="STAGE_DISCHARGE_CURVES != 'no'", +# ----------------------------------- +# ----------------------------------- + STAGE_DISCHARGE_CURVES_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Nom du fichier contenant les courbes de tarage""", + ang = """Name of the file containing stage-discharge curves""", + ), + ), +# ----------------------------------- + VELOCITY_PROFILES = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', min=0, max='**', + into = ["constant normal profile","u and v given in the conlim file","normal velocity given in ubor in the conlim file","velocity proportional to square root of depth","velocity proportional to square root of depth, variant"], + fr = """1:profil normal constant 2:u et v +donnes dans le fichier conlim + 3:vitesse normale donnee dans ubor dans le fichier conlim + 4:profil en racine de la profondeur + 5:profil en racine de la profondeur, variante""", + ang = """1:constant normal profile 2:u and v given in the conlim file + 3:normal velocity given in ubor in the conlim file + 4:sqrt(depth) profile + 5:sqrt(depth) profile, variant""", + ), +# ----------------------------------- + OPTION_FOR_LIQUID_BOUNDARIES = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', max='**', + into = ["classical","Thompson method based on characteristics"], + fr = """On donne 1 entier par frontiere liquide + 1 : conditions aux limites classiques + 2 : methode de Thompson avec calcul de caracteristiques""", + ang = """One integer per liquid boundary is given + 1 : classical boundary conditions + 2 : Thompson method based on characteristics""", + ), +# ----------------------------------- + LIQUID_BOUNDARIES_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Fichier de variations en temps des conditions aux limites. +Les donnees de ce fichier seront a lire sur le canal 12.""", + ang = """Variations in time of boundary conditions. +Data of this file are read +on channel 12.""", + ), +# ----------------------------------- + ELEMENTS_MASKED_BY_USER = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """SI OUI REMPLIR LE SOUS-PROGRAMME MASKOB""", + ang = """IF YES REWRITE SUBROUTINE MASKOB""", + ), +# ----------------------------------- + b_ELEMENTS_MASKED_BY_USERG = BLOC(condition="ELEMENTS_MASKED_BY_USER == True", +# ----------------------------------- +# ----------------------------------- + Consigne = SIMP(statut ="o", homo="information", typ="TXM", +# ----------------------------------- + defaut = "Rewrite subroutine maskob"), + ), + ), +# ----------------------------------- + PHYSICAL_PARAMETERS_HYDRO = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + FRICTION = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + MAXIMUM_NUMBER_OF_FRICTION_DOMAINS = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 10, + fr = """nombre maximal de zones pouvant etre definies pour le +frottement. Peut etre augmente si necessaire""", + ang = """maximal number of zones defined for the friction. +Could be increased if needed""", + ), +# ----------------------------------- + FRICTION_DATA = SIMP(statut ='f', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Lois de frottements definies par zone""", + ang = """Friction law defined by area""", + ), +# ----------------------------------- + FRICTION_DATA_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """fichier de donnees pour le frottement""", + ang = """friction data file""", + ), +# ----------------------------------- + LAW_OF_BOTTOM_FRICTION = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["NO FRICTION","HAALAND","CHEZY","STRICKLER","MANNING","NIKURADSE"], + fr = """ selectionne le type de formulation utilisee pour le calcul du +frottement sur le fond. Les lois possibles sont les suivantes (cf. Note +de principe) : - 0 : pas de frottement sur le fond; 1 : formule de +Haaland 2 : formule de Chezy 3 : formule de STRICKLER 4 : formule de +MANNING 5 : formule de NIKURADSE""", + ang = """ Selects the type of formulation used for the bottom friction. The +possible laws are as follows (refer to the Principle note): 0: no +friction against bottom, 1: Haaland''s formula 2: CHEZY''s formula 3: +STRICKLER''s formula 4: MANNING''s formula 5: NIKURADSE''s formula""", + ), +# ----------------------------------- + b_LAW_OF_BOTTOM_FRICTIONG = BLOC(condition="LAW_OF_BOTTOM_FRICTION != 'NO FRICTION'", +# ----------------------------------- +# ----------------------------------- + FRICTION_COEFFICIENT = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 50., + fr = """Fixe la valeur du coefficient de frottement pour la +formulation choisie. +Attention; la signification de ce chiffre varie suivant la formule +choisie : + 1 : coefficient lineaire + 2 : coefficient de Chezy + 3 : coefficient de Strickler + 4 : coefficient de Manning + 5 : hauteur de rugosite de Nikuradse""", + ang = """Sets the value of the friction coefficient for the selected +formulation. It is noteworthy that the meaning of this figure changes +according to the selected formula (Chezy, Strickler, etc.) : + 1 : linear coefficient + 2 : Chezy coefficient + 3 : Strickler coefficient + 4 : Manning coefficient + 5 : Nikuradse grain size""", + ), + ), +# ----------------------------------- + MANNING_DEFAULT_VALUE_FOR_COLEBROOK_WHITE_LAW = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0.02, + fr = """valeur par defaut du manning pour la loi de frottement de +Colebrook-White (loi numero 7)""", + ang = """Manning default value for the friction law of Colebrook-White +(law number 7)""", + ), +# ----------------------------------- + DEPTH_IN_FRICTION_TERMS = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["nodal","average"], + defaut = "nodal", + fr = """1 : nodale 2 : moyenne""", + ang = """1: nodal 2: average""", + ), +# ----------------------------------- + NON_SUBMERGED_VEGETATION_FRICTION = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """calcul du frottement du a la vegetation non submergee""", + ang = """friction calculation of the non-submerged vegetation""", + ), +# ----------------------------------- + b_NON_SUBMERGED_VEGETATION_FRICTIONG = BLOC(condition="NON_SUBMERGED_VEGETATION_FRICTION == True", +# ----------------------------------- +# ----------------------------------- + DIAMETER_OF_ROUGHNESS_ELEMENTS = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0.006, + fr = """diametre des elements de frottements""", + ang = """diameter of roughness element""", + ), +# ----------------------------------- + SPACING_OF_ROUGHNESS_ELEMENTS = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0.14, + fr = """espacement des elements de frottement""", + ang = """spacing of rouhness element""", + ), + ), +# ----------------------------------- + LAW_OF_FRICTION_ON_LATERAL_BOUNDARIES = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["NO FRICTION","HAALAND","CHEZY","STRICKLER","MANNING","NIKURADSE","LOG LAW","COLEBROOK-WHITE"], + defaut = "NO FRICTION", + fr = """selectionne le type de formulation utilisee pour le calcul +du frottement sur les parois laterales. +Les lois possibles sont les suivantes (cf. Note de principe) : +0 : pas de frottement +1 : lineaire +2 : Chezy +3 : Strickler +4 : Manning +5 : formule de NIKURADSE +6 : loi en log +7 : Colebrook-White""", + ang = """Selects the type of formulation used +for the friction on lateral boundaries. +The possible laws are as follows (refer to the Principle note): +0: no friction +1: linear +2: Chezy +3: Strickler +4: Manning +5: NIKURADSE''s formula +6 : law log +7 : Colebrook-White""", + ), +# ----------------------------------- + b_LAW_OF_FRICTION_ON_LATERAL_BOUNDARIESG = BLOC(condition="LAW_OF_FRICTION_ON_LATERAL_BOUNDARIES != 'NO FRICTION'", +# ----------------------------------- +# ----------------------------------- + ROUGHNESS_COEFFICIENT_OF_BOUNDARIES = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 100., + fr = """Fixe la valeur du coefficient de frottement sur les frontieres +solides avec un regime turbulent rugueux sur les bords du domaine. +meme convention que pour le coefficient de frottement: + 1 : non programme + 2 : coefficient de Chezy + 3 : coefficient de Strickler + 4 : coefficient de Manning + 5 : hauteur de rugosite de Nikuradse""", + ang = """Sets the value of the friction coefficient of the solid +boundary with the bed roughness option. Same meaning than friction +coefficient""", + ), + ), +# ----------------------------------- + DEFINITION_OF_ZONES = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Declenche l''appel a def\_zones, pour donner + un numero de zone a chaque point""", + ang = """Triggers the call to def\_zones to give a zone number to every point""", + ), +# ----------------------------------- + b_DEFINITION_OF_ZONESG = BLOC(condition="DEFINITION_OF_ZONES == True", +# ----------------------------------- +# ----------------------------------- + Consigne = SIMP(statut ="o", homo="information", typ="TXM", +# ----------------------------------- + defaut = "Rewrite subroutine def_zones"), + ), +# ----------------------------------- + ZONES_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Fichier des zones avec sur chaque ligne +numero de point numero de zone""", + ang = """Zones file, with on every line: +point number zone number""", + ), + ), +# ----------------------------------- + ICE_PROCESSES = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + ICE_PROCESSES = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 1, + fr = """Donne le numero du processus des glaces, avec le numero defini +sur la base multiplicative de nombres premiers (2, 3, 5, 7, 11, 13, +...). Par example, 14 (2x7) rend actif les processus 2 et 7. +Exception a la regle: +si l''entier est 1, il n''y a pas de couplage; +si l''entier est 0, tous les effets suivant sont inclus: + 2- BUDGET THERMIQUE, + 3-..""", + ang = """provides the ice process number with the number being defined +on the basis of a multiplication of primary numbers (2, 3, 5, +7, 11, 13, ...). For instance, 14 (2x7) activate processes 2 +and 7. Exception is made for: +if the number is 1, there will be no ice processes included; +if the number is 0, all processes are included, as follows: + 2- THERMIMAL BUDGET, + 3-..""", + ), + ), +# ----------------------------------- + METEOROLOGY = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + WIND = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Prise en compte ou non des effets du vent.""", + ang = """Determines whether the wind effects are to be taken into +account or not.""", + ), +# ----------------------------------- + b_WINDG = BLOC(condition="WIND == True", +# ----------------------------------- +# ----------------------------------- + WIND_VELOCITY_ALONG_X = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0., + fr = """Composante de la vitesse du vent suivant l''axe des x (m/s).""", + ang = """Wind velocity, component along x axis (m/s).""", + ), +# ----------------------------------- + WIND_VELOCITY_ALONG_Y = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0., + fr = """Composante de la vitesse du vent suivant l''axe des y (m/s).""", + ang = """Wind velocity, component along y axis (m/s).""", + ), +# ----------------------------------- + THRESHOLD_DEPTH_FOR_WIND = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 1., + fr = """Retire la force due au vent dans les petites profondeurs""", + ang = """Wind is not taken into account for small depths""", + ), +# ----------------------------------- + COEFFICIENT_OF_WIND_INFLUENCE = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0., + fr = """Fixe la valeur du coefficient d''entrainement du vent (cf. +Note de principe).""", + ang = """Sets the value of the wind driving coefficient. +Refer to principle note.""", + ), +# ----------------------------------- + OPTION_FOR_WIND = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["constant in time and space","variable in time given by formated file","variable in time and space given by formated file"], + defaut = "constant in time and space", + fr = """donne les options pour introduire le vent: + 1: constant en temps et en espace (donne par le mot cle + VITESSE ET DIRECTION DU VENT) + 2: variable en temps donne par fichier formate + 3: variable en temps et en espace donne par fichier formate + ou un fichier binaire serafin""", + ang = """gives option for managing the wind: + 1: constant in time and space, given by keyword SPEED AND + DIRECTION OF WIND + 2: variable in time and (constant in space), given by formated file + 3: variable in time and space , given by formated file or by + a binary serafin file""", + ), +# ----------------------------------- + b_OPTION_FOR_WINDG = BLOC(condition="OPTION_FOR_WIND == 'constant in time and space'", +# ----------------------------------- +# ----------------------------------- + SPEED_AND_DIRECTION_OF_WIND = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', min= 2, max= 2, + defaut = [0.,0.], + fr = """Donne la vitesse et la direction (en degres de 0 a 360, +0 etant y=0 et x=+inf) du vent lorsqu ils sont consant en temps et +en espace (mot cle OPTION DU VENT = 1)""", + ang = """gives the speed and direction (degre (from 0 to 360), +0 given y=0 anx x=+infinity) when they are constant in time and space +(keyword OPTION FOR WIND = 1)""", + ), + ), +# ----------------------------------- + b_OPTION_FOR_WINDH = BLOC(condition="OPTION_FOR_WIND == 'variable in time given by formated file' or OPTION_FOR_WIND == 'variable in time and space given by formated file'", +# ----------------------------------- +# ----------------------------------- + Consigne = SIMP(statut ="o", homo="information", typ="TXM", +# ----------------------------------- + defaut = "Give the formatted file 3"), + ), + ), +# ----------------------------------- + AIR_PRESSURE = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Permet de decider si l''on prend ou non en compte l''influence +d''un champ de pression.""", + ang = """Provided to decide whether the influence of +an atmosphere field +is taken into account or not.""", + ), +# ----------------------------------- + b_AIR_PRESSUREG = BLOC(condition="AIR_PRESSURE == True", +# ----------------------------------- +# ----------------------------------- + VALUE_OF_ATMOSPHERIC_PRESSURE = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 100000., + fr = """donne la valeur de la pression atmospherique lorsquelle est +constante en temps et en espace""", + ang = """gives the value of atmospheric pressure when it is contant +in time and space""", + ), + ), +# ----------------------------------- + RAIN_OR_EVAPORATION = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Pour ajouter un apport ou une perte d''eau en surface. +Voir le mot-cle PLUIE OU EVAPORATION EN MM PAR JOUR""", + ang = """to add or remove water at the free surface. See the key-word +RAIN OR EVAPORATION IN MM PER DAY""", + ), +# ----------------------------------- + b_RAIN_OR_EVAPORATIONG = BLOC(condition="RAIN_OR_EVAPORATION == True", +# ----------------------------------- +# ----------------------------------- + RAIN_OR_EVAPORATION_IN_MM_PER_DAY = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0.0, + fr = """Pour ajouter un apport ou une perte d''eau en surface""", + ang = """to add or remove water at the free surface""", + ), + ), +# ----------------------------------- + RAINFALL_RUNOFF_MODEL = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + into = ["No infiltration","CN runoff model"], + defaut = "No infiltration", + fr = """Option pour modele pluie-debit. Les options disponibles sont: + 0 : Pas d infiltration (fonction de base) + 1 : Modele CN (Curve Number du SCS)""", + ang = """Option for the rainfall-runoff model. Available options are: + 0 : No infiltration + 1 : CN runoff model (Curve Number method of the SCS)""", + ), +# ----------------------------------- + ANTECEDENT_MOISTURE_CONDITIONS = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 2, + fr = """Donne les conditions d humidite precedant un episode de pluie pour +le modele CN du SCS. Les options disponibles sont: + 1 : conditions precedentes seches + 2 : conditions precedentes normales + 3 : conditions prcedentes mouillees +ce mot cle est uniquement utile pour le modele pluie-debit 1 (CN)""", + ang = """Gives the antecedent moisture conditions before a rainfall + event for the SCS CN runoff model. Available options are: + 1 : dry antecedent conditions + 2 : normal antecedent conditions + 3 : wet antecedent conditions +This keyword is only usefull for runoff model 1 (SCS CN model)""", + ), +# ----------------------------------- + DURATION_OF_RAIN_OR_EVAPORATION_IN_HOURS = SIMP(statut ='f', +# ----------------------------------- + typ = 'R', + defaut = 1.E6, + fr = """Donne la duree de la pluie en heure, par defaut pluie infinie""", + ang = """Gives the duration of the rain in hour, +default value is infinite""", + ), +# ----------------------------------- + ASCII_ATMOSPHERIC_DATA_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Fichier de donnees en ascii contenant les informations +atmospheriques variables en temps""", + ang = """Ascii data file containing the atmospheric data varying in +time""", + ), +# ----------------------------------- + BINARY_ATMOSPHERIC_DATA_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Fichier de donnees code en binaire contenant les informations +atmospheriques variables en temps et en espace sur le maillage""", + ang = """Binary-coded data file containing the atmospheric data varying in +time and space on the mesh""", + ), +# ----------------------------------- + BINARY_ATMOSPHERIC_DATA_FILE_FORMAT = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + into = ['SERAFIN?','SERAFIND','MED'], + defaut = 'SERAFIN?', + fr = """Format du fichier binaire de donn\E9es atmospheriques. +Les valeurs possibles sont : +- SERAFIN : format standard simple precision pour Telemac; +- SERAFIND: format standard double precision pour Telemac; +- MED : format MED base sur HDF5""", + ang = """Binary atmospheric file format. +Possible values are: +- SERAFIN : classical single precision format in Telemac; +- SERAFIND: classical double precision format in Telemac; +- MED : MED format based on HDF5""", + ), +# ----------------------------------- + OPTION_FOR_INITIAL_ABSTRACTION_RATIO = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 1, + fr = """Donne le ratio entre pertes initiales IA et la retention potenti +maximale S pour le modele pluie-debit SCS CN. Les options disponibles so + 1 : IA/S = 0.2 (methode standard) + 2 : IA/S = 0.05 (methode revisee, cf. Woodward, Hawkins et al. 2003. A + cette option les coefficients CN fournis en entree sont alors + automatiquement corriges, cf. manuel utilisateur). +Ce mot cle est uniquement utile pour le modele pluie-d�bit 1 (CN)""", + ang = """Gives the ratio for Initial Abstraction to Maximal Potential +Retention S for the SCS CN runoff model. Available options are: + 1 : IA/S = 0.2 (standard method) + 2 : IA/S = 0.05 (revised method, see Woodward, Hawkins et al. 2003. Wi + this option the CN values given in input are automatically convers + see user manual). +This keyword is only useful for runoff model 1 (SCS CN model)""", + ), + ), +# ----------------------------------- + WAVE = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + WAVE_DRIVEN_CURRENTS = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Active la prise en compte des courants de houle""", + ang = """Wave driven currents are taken into account.""", + ), +# ----------------------------------- + b_WAVE_DRIVEN_CURRENTSG = BLOC(condition="WAVE_DRIVEN_CURRENTS == True", +# ----------------------------------- +# ----------------------------------- + RECORD_NUMBER_IN_WAVE_FILE = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 1, + fr = """Numero d enregistrement dans le fichier des courants de houle""", + ang = """Record number to read in the wave driven currents file""", + ), + ), +# ----------------------------------- + WAVE_ENHANCED_FRICTION_FACTOR = SIMP(statut ='f', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Active la prise en compte des interactions non-lineaires entre la +houle et les courant pour le calcul du courant de houle (cf OConnor and +Yoo, 1988, Coast Eng.12.)""", + ang = """Wave friction enhancement for the calculation of the wave generated +longshore current (cf OConnor and Yoo, 1988, Coast Eng.12.)""", + ), + ), +# ----------------------------------- + ESTIMATION = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + PARAMETER_ESTIMATION = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ['','FRICTION','FRICTION, STEADY'], + defaut = '', + fr = """Liste des parametres a estimer, choix : FROTTEMENT + ou FROTTEMENT, PERMANENT""", + ang = """List of parameter to be estimated, choice : FRICTION + or FRICTION, STEADY""", + ), +# ----------------------------------- + COST_FUNCTION = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + into = ["Computed with h,u,v","Computed with c,u,v"], + defaut = "Computed with h,u,v", + fr = """1 : calculee sur h, u , v 2 : calculee avec c, u , v""", + ang = """1: computed with h, u , v 2: computed with c, u , v""", + ), +# ----------------------------------- + IDENTIFICATION_METHOD = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["list of tests","gradient simple","conj gradient","Lagrange interp."], + defaut = "gradient simple", + fr = """0 : plan d''experience +1 : gradient simple +2 : gradient conj. +3 : interp. de Lagrange""", + ang = """0 : list of tests +1: gradient +2 : conj. gradient +3 : lagrange interp.""", + ), +# ----------------------------------- + TOLERANCES_FOR_IDENTIFICATION = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', min= 4, max= 4, + defaut = [1.E-3,1.E-3,1.E-3,1.E-4], + fr = """4 nombres : precision absolue sur H, U, V, + et precision relative sur la fonction cout""", + ang = """4 numbers: absolute precision on H, U V, + and relative precision on the cost function""", + ), +# ----------------------------------- + MAXIMUM_NUMBER_OF_ITERATIONS_FOR_IDENTIFICATION = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 20, + fr = """chaque iteration comprend au moins un + calcul direct et un calcul adjoint""", + ang = """every iteration implies at least a direct and + an adjoint computation""", + ), + ), +# ----------------------------------- + SOURCES = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + ABSCISSAE_OF_SOURCES = SIMP(statut ='f', +# ----------------------------------- + typ = 'R', min=0, max='**', + fr = """Valeurs des abscisses des sources de debit et de traceur.""", + ang = """abscissae of sources of flowrate and/or tracer""", + ), +# ----------------------------------- + ORDINATES_OF_SOURCES = SIMP(statut ='f', +# ----------------------------------- + typ = 'R', min=0, max='**', + fr = """Valeurs des ordonnees des sources de debit et de traceur.""", + ang = """ordinates of sources of flowrate and/or tracer""", + ), +# ----------------------------------- + WATER_DISCHARGE_OF_SOURCES = SIMP(statut ='f', +# ----------------------------------- + typ = 'R', min=0, max='**', + fr = """Valeurs des debits des sources.""", + ang = """values of water discharge of sources""", + ), +# ----------------------------------- + VELOCITIES_OF_THE_SOURCES_ALONG_X = SIMP(statut ='f', +# ----------------------------------- + typ = 'R', min=0, max='**', + fr = """Vitesses du courant a chacune des sources. Si elles ne sont pas +donnees, on considere que la vitesse est celle du courant""", + ang = """Velocities at the sources. If they are not given, the velocity +of the flow at this location is taken""", + ), +# ----------------------------------- + VELOCITIES_OF_THE_SOURCES_ALONG_Y = SIMP(statut ='f', +# ----------------------------------- + typ = 'R', min=0, max='**', + fr = """Vitesses du courant a chacune des sources""", + ang = """Velocities at the sources""", + ), +# ----------------------------------- + TYPE_OF_SOURCES = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["Normal","Dirac"], + defaut = "Normal", + fr = """1: Source portee par une base elements finis +2: Source portee par une fonction de Dirac""", + ang = """1: Source term multiplied by a finite element basis +2: Source term multiplied by a Dirac function""", + ), +# ----------------------------------- + SOURCES_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Nom du fichier contenant les informations variables +en temps des sources""", + ang = """Name of the file containing time-dependent +information on sources""", + ), +# ----------------------------------- + GLOBAL_NUMBERS_OF_SOURCE_NODES = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', min=0, max='**', + fr = """ Numeros globaux des noeuds du maillage sur lequels sont affectes des +points source""", + ang = """ Global numbers of nodes in the mesh that correspond to source point +locations""", + ), + ), +# ----------------------------------- + WATER_QUALITY_INFO = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + WATER_QUALITY_PROCESS = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 1, + fr = """Donne le numero du processus de qualite d''eau, defini +comme une combinaison multiplicative de nombres premiers +(2,3,5,7,11 et 13) avec les cas particuliers 0 et 1 : +\begin{itemize} +\item 0 : tous ; +\item 1 : rien ; +\item 2 : O2 ; +\item 3 : BIOMASS ; +\item 5 : EUTRO ; +\item 7 : MICROPOL ; +\item 11 : THERMIC ; +\item 13 : AED2. +\item 17 : Loi de degradation +\item 19 : Court-cicuit temporaire pour les glaces +\end{itemize} +Example: 110 = 2x5x11 activera O2, EUTRO et THERMIC ensemble. +On notera que AED2, pour l instant, n est pas disponible en 2D""", + ang = """Gives the water quality process number, defined as +a multiplicative combination of prime numbers (2,3,5,7,11 + et 13) with 0 and 1 having a special role: +\begin{itemize} +\item 0: all, +\item 1: none, +\item 2: O2, +\item 3: BIOMASS, +\item 5: EUTRO, +\item 7: MICROPOL, +\item 11: THERMIC, +\item 13: AED2. +\item 17: Degradation law +\item 19: Ghost process for ice modelling +\end{itemize} +Example: 110 = 2x5x11 activate O2, EUTRO and THERMIC together. +It is noted that AED2 is not available in 2D, for the time being.""", + ), + ), +# ----------------------------------- + ADVANCED_PHY = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + WATER_DENSITY = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 1000., + fr = """Fixe la valeur de la masse volumique de l''eau.""", + ang = """set the value of water density""", + ), +# ----------------------------------- + GRAVITY_ACCELERATION = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 9.81, + fr = """Fixe la valeur de l''acceleration de la pesanteur.""", + ang = """Set the value of the acceleration due to gravity.""", + ), +# ----------------------------------- + VERTICAL_STRUCTURES = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Prise en compte de la force de trainee de structures verticales +(il faut alors remplir la subroutine DRAGFO)""", + ang = """drag forces from vertical structures are taken into account. +(subroutine DRAGFO must then be implemented)""", + ), +# ----------------------------------- + b_VERTICAL_STRUCTURESG = BLOC(condition="VERTICAL_STRUCTURES == True", +# ----------------------------------- +# ----------------------------------- + Consigne = SIMP(statut ="o", homo="information", typ="TXM", +# ----------------------------------- + defaut = "Fill the subroutine DRAGFO"), + ), + ), + ), +# ----------------------------------- + NUMERICAL_PARAMETERS_HYDRO = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + EQUATIONS = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ['SAINT-VENANT FE','SAINT-VENANT FV','BOUSSINESQ'], + defaut = 'SAINT-VENANT FE', + fr = """CHOIX DES EQUATIONS A RESOUDRE : SAINT-VENANT ELEMENTS FINIS, +SAINT-VENANT VOLUMES FINIS OU BOUSSINESQ 20 CARACTERES""", + ang = """CHOICE OF EQUATIONS TO SOLVE : SAINT-VENANT FINITE ELEMENTS, +SAINT-VENANT FINITE VOLUMES OR BOUSSINESQ 20 CHARACTERS""", + ), +# ----------------------------------- + b_EQUATIONSG = BLOC(condition="EQUATIONS == 'SAINT-VENANT FV'", +# ----------------------------------- +# ----------------------------------- + FINITE_VOLUME_SCHEME = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["Roe scheme","kinetic order 1","kinetic order 2","Zokagoa scheme order 1","Tchamen scheme order 1","HLLC scheme order 1","WAF scheme order 2"], + defaut = "kinetic order 1", + fr = """0 : schema de Roe 1 : cinetique ordre 1 2 : cinetique ordre 2 +3 : schema de Zokagoa 4 : schema de Tchamen 5 : HLLC ordre 1 +6 : WAF ordre 2""", + ang = """0: Roe scheme 1: kinetic order 1 2: kinetic order 2 +3 : Zokagoa scheme 4 : Tchamen scheme 5 : HLLC order 1 +6 : WAF order 2""", + ), + ), +# ----------------------------------- + TREATMENT_OF_THE_LINEAR_SYSTEM = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["coupled","Wave equation"], + defaut = "coupled", + fr = """1 : Traitement couple 2 : equation d onde""", + ang = """1 : Coupled 2 : wave equation""", + ), + ), +# ----------------------------------- + FLUID = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + CORIOLIS_EFFECT = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + CORIOLIS = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Prise en compte ou non de la force de Coriolis.""", + ang = """The Coriolis force is taken into account or ignored.""", + ), +# ----------------------------------- + CORIOLIS_COEFFICIENT = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0., + fr = """Fixe la valeur du coefficient de la force de Coriolis. +Celui-ci doit etre calcule en fonction de la latitude l par la formule + FCOR = 2w sin(l) , w etant la vitesse de rotation de la terre. + w = 7.2921 10-5 rad/s +Les composantes de la force de Coriolis sont alors : + FU = FCOR x V + FV = - FCOR x U""", + ang = """Sets the value of the Coriolis force coefficient, in cartesian +coordinates. +This coefficient, denoted FCOR in the code, should be equal to +2 w sin(l)d where w denotes the earth angular speed of rotation +and l the latitude. w = 7.27 10-5 rad/sec +The Coriolis force components are then: +FU = FCOR x V, +FV = -FCOR x U +In spherical coordinates, the latitudes are known""", + ), + ), +# ----------------------------------- + TSUNAMI = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + OPTION_FOR_TSUNAMI_GENERATION = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["No Tsunami","Tsunami generated on the basis of the Okada model 1992"], + defaut = "No Tsunami", + fr = """""", + ang = """""", + ), +# ----------------------------------- + PHYSICAL_CHARACTERISTICS_OF_THE_TSUNAMI = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', min=10, max=10, + defaut = [100.,210000.,75000.,13.6,81.,41.,110.,0.,0.,3.], + fr = """""", + ang = """""", + ), + ), +# ----------------------------------- + SECONDARY_CURRENTS_INFO = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + SECONDARY_CURRENTS = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Pour prendre en compte les courants secondaires""", + ang = """Using the parametrisation for secondary currents""", + ), +# ----------------------------------- + b_SECONDARY_CURRENTSG = BLOC(condition="SECONDARY_CURRENTS == True", +# ----------------------------------- +# ----------------------------------- + PRODUCTION_COEFFICIENT_FOR_SECONDARY_CURRENTS = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 7.071, + fr = """Une constante dans les termes de creation de Omega""", + ang = """A constant in the production terms of Omega""", + ), +# ----------------------------------- + DISSIPATION_COEFFICIENT_FOR_SECONDARY_CURRENTS = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 5.E-1, + fr = """Coefficient de dissipation de Omega""", + ang = """Coefficient of dissipation term of Omega""", + ), + ), + ), + ), +) +# ----------------------------------------------------------------------- +GENERAL_PARAMETERS = PROC(nom= "GENERAL_PARAMETERS",op = None, +# ----------------------------------------------------------------------- + UIinfo = {"groupes": ("CACHE")}, +# ----------------------------------- + DEBUGGER = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 0, + fr = """Pour imprimer la sequence des appels, mettre 1""", + ang = """If 1, calls of subroutines will be printed in the listing""", + ), +# ----------------------------------- + TIME = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + TIME_STEP = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 1., + fr = """Definit le pas de temps en secondes. Remarque : Pour une bonne +precision; il est souhaitable de choisir le pas de temps de telle sorte +que le nombre de Courant de propagation soit inferieur a 2 ; voir 3. +Ceci peut etre realisable en hydraulique fluviale ; mais ne l''est +pratiquement jamais en hydraulique maritime ou l''on peut atteindre des +valeurs de 50.""", + ang = """Specifies the time step in seconds.""", + ), +# ----------------------------------- + NUMBER_OF_TIME_STEPS = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 1, + fr = """ Definit le nombre de pas de temps effectues lors de l''execution du +code.""", + ang = """ Specifies the number of time steps performed when running the code.""", + ), +# ----------------------------------- + DURATION = SIMP(statut ='f', +# ----------------------------------- + typ = 'R', + defaut = 0., + fr = """Duree de la simulation. alternative au parametre nombre de pas +de temps. On en deduit le nombre de pas de temps en prenant l''entier le + plus proche de (duree du calcul/pas de temps). Si le nombre de pas de +temps est aussi donne, on prend la plus grande valeur""", + ang = """Duration of simulation. May be used instead of the parameter +NUMBER OF TIME STEPS. The nearest integer to (duration/time step) is +taken. +If NUMBER OF TIME STEPS is also given, the greater value is taken""", + ), +# ----------------------------------- + ORIGINAL_DATE_OF_TIME = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', min= 3, max= 3, + defaut = [1900,1,1], + fr = """Permet de fixer la date d''origine des temps du modele lors +de la prise en compte de la force generatrice de la maree.""", + ang = """Give the date of the time origin of the model when taking into +account the tide generating force.""", + ), +# ----------------------------------- + ORIGINAL_HOUR_OF_TIME = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', min= 3, max= 3, + defaut = [0,0,0], + fr = """ Permet de fixer l''heure d''origine des temps du modele lors de la +prise en compte de la force generatrice de la maree.""", + ang = """ Give the time of the time origin of the model when taking into account +of the tide generator force.""", + ), +# ----------------------------------- + STOP_IF_A_STEADY_STATE_IS_REACHED = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """A UTILISER AVEC LE MOT-CLE : CRITERES D''ARRET""", + ang = """TO BE USED WITH THE KEY-WORD: STOP CRITERIA""", + ), +# ----------------------------------- + b_STOP_IF_A_STEADY_STATE_IS_REACHEDG = BLOC(condition="STOP_IF_A_STEADY_STATE_IS_REACHED == True", +# ----------------------------------- +# ----------------------------------- + STOP_CRITERIA = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', min= 3, max= 3, + defaut = [1.E-4,1.E-4,1.E-4], + fr = """Criteres d''arret pour un ecoulement permanent +ces coefficients sont respectivement appliques a + 1) U et V + 2) H + 3) T +A utiliser avec le mot-cle : ARRET SI UN ETAT PERMANENT EST ATTEINT""", + ang = """Stop criteria for a steady state +These coefficients are applied respectively to + 1) U and V + 2) H + 3) T +To be used with the key-word: STOP IF A STEADY STATE IS REACHED""", + ), + ), +# ----------------------------------- + CONTROL_OF_LIMITS = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Utiliser avec le mot-cle : valeurs limites, le programme +s''arrete si les limites sur u,v,h ou t sont depassees""", + ang = """Use with the key-word : limit values, +the program is stopped if +the limits on u,v,h, or t are trespassed""", + ), +# ----------------------------------- + b_CONTROL_OF_LIMITSG = BLOC(condition="CONTROL_OF_LIMITS == True", +# ----------------------------------- +# ----------------------------------- + LIMIT_VALUES = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', min= 8, max= 8, + defaut = [-1000.,9000.,-1000.,1000.,-1000.,1000.,-1000.,1000.], + fr = """Utilise avec le mot-cle CONTROLE DES LIMITES + valeurs mini et maxi acceptables pour H,U,V et T dans l''ordre + suivant : min(H) max(H) min(U) max(U) + min(V) max(V) min(T) max(T)""", + ang = """To be used with the key-word CONTROL OF LIMITS + min and max acceptable values for H,U,V et T in the following + order : min(H) max(H) min(U) max(U) + min(V) max(V) min(T) max(T)""", + ), + ), +# ----------------------------------- + VARIABLE_TIME_STEP = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """ Pas de temps variable pour avoir un nombre de courant souhaite""", + ang = """ Variable time-step to get a given Courant number""", + ), +# ----------------------------------- + b_VARIABLE_TIME_STEPG = BLOC(condition="VARIABLE_TIME_STEP == True", +# ----------------------------------- +# ----------------------------------- + DESIRED_COURANT_NUMBER = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 1., + fr = """Nombre de Courant souhaite en cas de pas de temps variable""", + ang = """Desired Courant number when VARIABLE TIME-STEP is set to YES""", + ), + ), + ), +# ----------------------------------- + LOCATION = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + ORIGIN_COORDINATES = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', min= 2, max= 2, + defaut = [0,0], + fr = """Valeur en metres, utilise +pour eviter les trops grands nombres, transmis +dans le format Selafin mais pas d''autre traitement pour l''instant""", + ang = """Value in metres, used to avoid large real numbers, +added in Selafin format, but so far no other treatment""", + ), +# ----------------------------------- + SPHERICAL_COORDINATES = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Choix des coordonnees spheriques pour la realisation du calcul +( pour les grands domaines de calcul). +Attention : cette option est etroitement liee au +maillage qui doit avoir +ete saisi sur une carte marine en projection de Mercator. +Il faut de plus relever sur la carte la LATITUDE DU POINT ORIGINE +(autre mot-cle) qui correspond dans le maillage a l''ordonnee y = 0.""", + ang = """Selection of spherical coordinates to perform the computation +(for large computation domains). +Warning: this option is closely related to the mesh that should have +been entered onto a nautical chart drawn as per Mercator projection +The LATITUDE OF ORIGIN POINT (another keyword), which corresponds to +ordinate y=0 in the mesh, must moreover be given.""", + ), +# ----------------------------------- + b_SPHERICAL_COORDINATESG = BLOC(condition="SPHERICAL_COORDINATES == True", +# ----------------------------------- +# ----------------------------------- + LATITUDE_OF_ORIGIN_POINT = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 48., + fr = """Determine l''origine utilisee pour le calcul de latitudes +lorsque l''on effectue un calcul en coordonnees spheriques.""", + ang = """Determines the origin used for computing latitudes when +a computation is made in spherical coordinates. +this latitude is in particular used to compute the Coriolis force. +In cartesian coordinates, Coriolis coefficient is considered constant.""", + ), + ), +# ----------------------------------- + LONGITUDE_OF_ORIGIN_POINT = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0., + fr = """Fixe la valeur de la longitude du point origine du modele, +lors de l''utilisation de la force generatrice de la maree.""", + ang = """Give the value of the longitude of the origin point +of the model, when taking into account of the tide generator force.""", + ), +# ----------------------------------- + NORTH = SIMP(statut ='f', +# ----------------------------------- + typ = 'R', + defaut = 0., + fr = """Direction du nord en degres, par rapport a l''axe des y +dans le sens trigonometrique. Notation decimale 10.5 signifie 10 degres + et trente minutes.""", + ang = """Angle of the North with the y axis, in degrees. 10.5 means +10 degrees and 30 minutes.""", + ), +# ----------------------------------- + SPATIAL_PROJECTION_TYPE = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["CARTESIAN, NOT GEOREFERENCED","MERCATOR","LATITUDE LONGITUDE"], + defaut = "CARTESIAN, NOT GEOREFERENCED", + fr = """Option 2 ou 3 obligatoire pour les coordonnees spheriques +Option 3 : latitude et longitude en degres !""", + ang = """Option 2 or 3 mandatory for spherical coordinates +Option 3: latitude and longitude in degrees!""", + ), + ), +) +# ----------------------------------------------------------------------- +NUMERICAL_PARAMETERS = PROC(nom= "NUMERICAL_PARAMETERS",op = None, +# ----------------------------------------------------------------------- + UIinfo = {"groupes": ("CACHE")}, +# ----------------------------------- + SOLVER_INFO = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + SOLVER = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["conjugate gradient on a normal equation","conjugate gradient","conjugate residual","minimum error","cgstab","gmres","direct"], + defaut = "conjugate gradient on a normal equation", + fr = """Permet de choisir le solveur utilise pour la resolution de +l''etape de propagation. Toutes les methodes proposees actuellement +s''apparentent au Gradient Conjugue. Ce sont : + 1 : gradient conjugue + 2 : residu conjugue + 3 : gradient conjugue sur equation normale + 4 : erreur minimale + 5 : gradient conjugue carre (non programme) + 6 : gradient conjugue carre stabilise (cgstab) + 7 : gmres (voir aussi option du solveur) + 8 : direct""", + ang = """Makes it possible to select the solver used for solving the +propagation step. All the currently available methods are variations +of the Conjugate Gradient method. They are as follows: +1: conjugate gradient +2: conjugate residual +3: conjugate gradient on a normal equation +4: minimum error +5: conjugate gradient squared (not implemented) +6: conjugate gradient squared stabilised (cgstab) +7: gmres (see option for solver) +8: direct""", + ), +# ----------------------------------- + b_SOLVERG = BLOC(condition="SOLVER == 'gmres'", +# ----------------------------------- +# ----------------------------------- + SOLVER_OPTION = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 2, + fr = """si le solveur est GMRES (7) le mot cle est la dimension de +l''espace de KRYLOV (valeurs conseillees entre 2 et 15)""", + ang = """WHEN GMRES (7) IS CHOSEN, DIMENSION OF THE KRYLOV SPACE +TRY VALUES BETWEEN 2 AND 15""", + ), + ), +# ----------------------------------- + SOLVER_ACCURACY = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 1.E-4, + fr = """Precision demandee pour la resolution de l''etape de propagation + (cf. Note de principe).""", + ang = """Required accuracy for solving the propagation step +(refer to Principle note).""", + ), +# ----------------------------------- + MAXIMUM_NUMBER_OF_ITERATIONS_FOR_SOLVER = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 100, + fr = """Les algorithmes utilises pour la resolution de l''etape de +propagation etant iteratifs; il est necessaire de limiter le nombre +d''iterations autorisees. +Remarque : un maximum de 40 iterations par pas de temps semble +raisonnable.""", + ang = """Since the algorithms used for solving the propagation step are +iterative, the allowed number of iterations should be limited. +NOTE: a maximum number of 40 iterations per time step seems to be +reasonable.""", + ), +# ----------------------------------- + CONTINUITY_CORRECTION = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Corrige les vitesses sur les points avec hauteur imposee ou +l''equation de continuite n''a pas ete resolue""", + ang = """Correction of the velocities on points with a prescribed +elevation, where the continuity equation has not been solved""", + ), +# ----------------------------------- + PRECONDITIONING = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["diagonal","no preconditioning","block-diagonal (4-9 matrices)","absolute value of diagonal","crout","gauss-seidel","diagonal and crout"], + defaut = "diagonal", + fr = """Permet de preconditionner le systeme de l''etape de propagation +afin d''accelerer la convergence lors de sa resolution. + - 0 : pas de preconditionnement; + - 2 : preconditionnement diagonal. + - 3 : preconditionnement diagonal-bloc + - 7 : preconditionnement de Crout par element ou segment + -11 : preconditionnement de Gauss-Seidel par element ou segment +Certains preconditionnements sont cumulables +(les diagonaux 2 ou 3 avec les autres) +Pour cette raison on ne retient que les nombres premiers pour +designer les preconditionnements. Si l''on souhaite en cumuler +plusieurs on formera le produit des options correspondantes.""", + ang = """Choice of the preconditioning in the propagation step linear +system that the convergence is speeded up when it is being solved. + 0: no preconditioning + 2: diagonal preconditioning + 3: block-diagonal preconditioning (systemes a 4 ou 9 matrices) + 7: Crout''s preconditioning per element or segment +11: Gauss-Seidel''s preconditioning per element or segment +Some operations (either 2 or 3 diagonal preconditioning) can be +performed concurrently with the others. +Only prime numbers are therefore kept to denote the preconditioning +operations. When several of them are to be performed concurrently, +the product of relevant options shall be made.""", + ), +# ----------------------------------- + C_U_PRECONDITIONING = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = True, + fr = """Changement de variable de H en C dans le systeme lineaire final""", + ang = """Change of variable from H to C in the final linear system""", + ), +# ----------------------------------- + FINITE_ELEMENT_ASSEMBLY = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + into = ["normal","Integer I8","Compensated"], + defaut = "normal", + fr = """1 : normal 2 : avec des entiers I8 3:compense""", + ang = """1: normal 2: with I8 integers 3:compensation""", + ), + ), +# ----------------------------------- + DISCRETISATIONS_IMPLICITATION = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + IMPLICITATION_FOR_DEPTH = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0.55, + fr = """Fixe la valeur du coefficient d''implicitation sur C dans l''etape de +propagation (cf. Note de principe). Les valeurs inferieures a 0.5 +donnent un schema instable.""", + ang = """Sets the value of the implicitation coefficient for C (the celerity of +waves) in the propagation step (refer to principle note). Values below +0.5 result in an unstable scheme.""", + ), +# ----------------------------------- + IMPLICITATION_FOR_VELOCITY = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0.55, + fr = """Fixe la valeur du coefficient d''implicitation sur la vitesse dans +l''etape de propagation (cf. Note de principe). Les valeurs inferieures +a 0.5 donnent un schema instable.""", + ang = """Sets the value of the implicitation coefficient for velocity in the +propagation step (refer to principle note). Values below 0.5 result in +an unstable condition.""", + ), +# ----------------------------------- + DISCRETIZATIONS_IN_SPACE = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', max='**', + into = ["linear","quasi-bubble","quadratic"], + defaut = ["linear","linear","linear","linear"], + fr = """ Choix de la discretisation pour chaque variable ces coefficients sont +respectivement appliques a 1) U et V 2) H 3) T 4) K ET EPSILON (NON +PROGRAMME) 11 : lineaire 12 : quasi-bulle 13 : quadratique""", + ang = """ Choice of space discretisation for every variable These coefficients +are applied respectively to 1) U and V 2) H 3) T 4) K and EPSILON (NOT +IMPLEMENTED) 11: linear 12: quasi-bubble 13: quadratic""", + ), +# ----------------------------------- + b_DISCRETIZATIONS_IN_SPACEG = BLOC(condition="DISCRETIZATIONS_IN_SPACE != None", +# ----------------------------------- +# ----------------------------------- + Consigne = SIMP(statut ="o", homo="information", typ="TXM", +# ----------------------------------- + defaut = "Choice of space discretisation for every variable. These coefficients are applied respectively to 1) U and V 2) H 3) T 4) K and EPSILON"), + ), + ), +# ----------------------------------- + PROPAGATION_INFO = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + PROPAGATION = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = True, + fr = """Prise en compte ou non de la propagation de la vitesse et de la +hauteur d''eau. +La diffusion etant contenue dans cette etape sera supprimee aussi.""", + ang = """Determines whether the propagation step is taken into account +or not. +The diffusion being included in that step will be deleted as well.""", + ), +# ----------------------------------- + b_PROPAGATIONG = BLOC(condition="PROPAGATION == True", +# ----------------------------------- +# ----------------------------------- + MEAN_DEPTH_FOR_LINEARIZATION = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0., + fr = """Fixe la hauteur d''eau autour de laquelle s''effectue la +linearisation lorsque l''option PROPAGATION LINEARISEE est choisie.""", + ang = """Sets the water depth about which the linearization is made +when the LINEARIZED PROPAGATION OPTION is selected.""", + ), +# ----------------------------------- + INITIAL_GUESS_FOR_U = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["zero","previous","extrapolation"], + defaut = "previous", + fr = """Tir initial du solveur de l''etape de propagation. +Offre la possibilite de modifier la valeur initiale de U, a chaque +iteration, dans l''etape de propagation en utilisant les valeurs +finales de cette variable aux pas de temps precedents. Ceci peut +permettre d''accelerer la vitesse de convergence lors de la resolution +du systeme. Trois possibilites sont offertes : + 0 : U = 0 + 1 : U = U(n) + 2 : U = 2 U(n)- U(n-1) (extrapolation)""", + ang = """Initial guess for the solver in the propagation step. +Makes it possible to modify the initial value of U, upon each +iteration in the propagation step, by using the ultimate values this +variable had in the earlier time steps. Thus, the convergence can be +speeded up when the system is being solved. 3 options are available: + 0 : U = 0 + 1 : U = U(n) + 2 : U = 2 U(n)- U(n-1) (extrapolation)""", + ), + ), +# ----------------------------------- + INITIAL_GUESS_FOR_H = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["zero","previous","extrapolation"], + defaut = "previous", + fr = """ Tir initial du solveur de l''etape de propagation. Offre la +possibilite de modifier la valeur initiale de DH, accroissement de H, a +chaque iteration, dans l''etape de propagation en utilisant les valeurs +finales de cette variable aux pas de temps precedents. Ceci peut +permettre d''accelerer la vitesse de convergence lors de la resolution +du systeme. Trois possibilites sont offertes : + 0 : DH = 0. + 1 : DH = DHn (valeur finale de DH au pas de temps precedent), + 2 : DH = 2DHn - DHn-1 (extrapolation).""", + ang = """Initial guess for the solver in the propagation step. +Makes it possible to modify the initial value of C, upon each +iteration in the propagation step, by using the ultimate values this +variable had in the earlier time steps. Thus, the convergence can be +speeded up when the system is being solved. 3 options are available: + 0: DH = 0 + 1: DH = DHn (ultimate DH value in the next previous time step) + 2: DH = 2DHn - DHn-1 (extrapolation)""", + ), +# ----------------------------------- + LINEARIZED_PROPAGATION = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Permet de lineariser l''etape de propagation; +par exemple lors de la realisation de cas tests +pour lesquels on dispose +d''une solution analytique dans le cas linearise.""", + ang = """Provided for linearizing the propagation step, e.g. when +performing test-cases for which an analytical +solution in the linearized +case is available.""", + ), + ), +# ----------------------------------- + ADVECTION_INFO = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + ADVECTION = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = True, + fr = """Prise en compte ou non des termes de convection. +En cas de reponse positive; +on peut encore supprimer certains termes de convection avec +les mots-cles CONVECTION DE ...""", + ang = """Are the advection terms taken into account or not? +If YES, some advection terms can still be deleted using the keywords +-ADVECTION OF ..-""", + ), +# ----------------------------------- + ADVECTION_OF_H = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = True, + fr = """Prise en compte ou non de la convection de H. +Il s''agit en fait dans la version 2.0 de la convection de C""", + ang = """The advection of H is taken into account or ignored. +Actually, in version 2.0, the matter is about C advection.""", + ), +# ----------------------------------- + ADVECTION_OF_U_AND_V = SIMP(statut ='f', +# ----------------------------------- + typ = bool, + defaut = True, + fr = """Prise en compte ou non de la convection de U et V.""", + ang = """The advection of U and V is taken into account or ignored.""", + ), +# ----------------------------------- + b_ADVECTION_OF_U_AND_VG = BLOC(condition="ADVECTION_OF_U_AND_V == True", +# ----------------------------------- +# ----------------------------------- + SCHEME_FOR_ADVECTION_OF_VELOCITIES = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["NO ADVECTION","CHARACTERISTICS","EXPLICIT + SUPG","EXPLICIT LEO POSTMA","EXPLICIT + MURD SCHEME N","EXPLICIT + MURD SCHEME PSI","N-SCHEME FOR TIDAL FLATS","N-SCHEME FOR TIDAL FLATS","ERIA SCHEME"], + defaut = "CHARACTERISTICS", + fr = """Choix du schema de convection pour les vitesses, +remplace FORME DE LA CONVECTION""", + ang = """Choice of the advection scheme for the velocities, +replaces TYPE OF ADVECTION""", + ), + ), +# ----------------------------------- + TYPE_OF_ADVECTION = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', max='**', + into = ["CHARACTERISTICS","SUPG","CONSERVATIVE N-SCHEME LP","CONSERVATIVE N-SCHEME","CONSERVATIVE PSI-SCHEME","EDGE-BASED N-SCHEME LP","EDGE-BASED N-SCHEME","ERIA SCHEME"], + defaut = ["CHARACTERISTICS","CONSERVATIVE PSI-SCHEME","CHARACTERISTICS","CHARACTERISTICS"], + fr = """Choix du schema de convection pour chaque variable +ces coefficients sont respectivement appliques a +1) U et V 2) H 3) T 4) K ET EPSILON +1 : caracteristiques sur h +2 : SUPG +3 : Schema N conservatif +4 : Schema N conservatif +5 : Schema PSI conservatif +13 : Schema N par segment +14 : Schema N par segment +15 : Schema ERIA +Second integer must be 5""", + ang = """Choice of advection schemes for every variable +These coefficients are applied respectively to +1) U et V 2) H 3) T 4) K and EPSILON +1: characteristics +2: SUPG +3: Conservative N-scheme +4: Conservative N-scheme +5: Conservative PSI-scheme +13 : Edge-based N-scheme +14 : Edge-based N-scheme +15 : ERIA scheme +Second integer must be 5""", + ), +# ----------------------------------- + b_TYPE_OF_ADVECTIONG = BLOC(condition="TYPE_OF_ADVECTION != None", +# ----------------------------------- +# ----------------------------------- + Consigne = SIMP(statut ="o", homo="information", typ="TXM", +# ----------------------------------- + defaut = "Choice of space discretisation for every variable. These coefficients are applied respectively to 1) U and V 2) H 3) T 4) K and EPSILON"), + ), +# ----------------------------------- + OPTION_FOR_CHARACTERISTICS = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["strong","weak"], + defaut = "strong", + fr = """1: forme forte 2: forme faible""", + ang = """1: strong form 2: weak form""", + ), +# ----------------------------------- + SUPG_OPTION = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', min=0, max='**', + defaut = [2,2,2,2], + fr = """0:pas de decentrement SUPG 1:SUPG classique 2:SUPG modifiee +ces coefficients sont respectivement appliques a +1) U et V 2) H 3) T 4) K ET EPSILON""", + ang = """0:no upwinding 1: classical SUPG 2:modified SUPG +These coefficients are applied respectively to +1) U et V 2) H 3) T 4) K and EPSILON""", + ), +# ----------------------------------- + NUMBER_OF_GAUSS_POINTS_FOR_WEAK_CHARACTERISTICS = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 3, + fr = """Voir les release notes 6.3""", + ang = """See release notes 6.3""", + ), +# ----------------------------------- + MASS_LUMPING_FOR_WEAK_CHARACTERISTICS = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0., + fr = """Applique a la matrice de masse""", + ang = """To be applied to the mass matrix""", + ), +# ----------------------------------- + b_MAXIMUM_NUMBER_OF_ITERATIONS_FOR_ADVECTION_SCHEMESF = BLOC(condition="(ADVECTION_OF_TRACERS == True and SCHEME_FOR_ADVECTION_OF_TRACERS == 'EDGE-BASED N-SCHEME') or (ADVECTION_OF_K_AND_EPSILON == True and SCHEME_FOR_ADVECTION_OF_K_EPSILON == 'EDGE-BASED N-SCHEME') or (ADVECTION_OF_U_AND_V == True and SCHEME_FOR_ADVECTION_OF_VELOCITIES == 'EDGE-BASED N-SCHEME')", +# ----------------------------------- + ), +# ----------------------------------- + MAXIMUM_NUMBER_OF_ITERATIONS_FOR_ADVECTION_SCHEMES = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 10, + fr = """Seulement pour schemes 13 et 14""", + ang = """Only for schemes 13 and 14""", + ), +# ----------------------------------- + UPWIND_COEFFICIENTS = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', min= 4, max= 4, + defaut = [1.,1.,1.,1], + fr = """Coefficients utilises par la methode S.U.P.G. +ces coefficients sont respectivement appliques a + 1) U et V + 2) H ou C + 3) T + 4) K ET EPSILON""", + ang = """Upwind coefficients used by the S.U.P.G. method +These coefficients are applied respectively to + 1) U and V + 2) H or C + 3) T + 4) K and epsilon""", + ), +# ----------------------------------- + MASS_LUMPING_ON_H = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0., + fr = """TELEMAC offre la possibilite d''effectuer du mass-lumping +sur H ou U. +Ceci revient a ramener tout ou partie (suivant la valeur de ce +coefficient) des matrices AM1 (h) ou AM2 (U) et AM3 (V) sur +leur diagonale. +Cette technique permet d''accelerer le code dans des proportions tres +importantes et de le rendre egalement beaucoup plus stable. Cependant +les solutions obtenues se trouvent lissees. +Ce parametre fixe le taux de mass-lumping effectue sur h.""", + ang = """TELEMAC provides an opportunity to carry out mass-lumping +either on C,H or on the velocity. +This is equivalent to bringing the matrices AM1 (h) or AM2 (U) and +AM3 (V) wholly or partly, back onto their diagonal. +Thanks to that technique, the code can be speeded up to a quite +significant extent and it can also be made much more stable. The +resulting solutions, however, become artificially smoothed. +This parameter sets the extent of mass-lumping that is performed on h.""", + ), +# ----------------------------------- + MASS_LUMPING_ON_VELOCITY = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0., + fr = """Fixe le taux de mass-lumping effectue sur la vitesse.""", + ang = """Sets the amount of mass-lumping that is performed on the velocity.""", + ), +# ----------------------------------- + SCHEME_OPTION_FOR_ADVECTION_OF_VELOCITIES = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 1, + fr = """Si present remplace et a priorite sur : +OPTION POUR LES CARACTERISTIQUES +OPTION DE SUPG +Si schema PSI ou N : 1=explicite 2=predicteur-correcteur +3=predicteur-correcteur deuxieme ordre en temps +4=implicite""", + ang = """If present replaces and has priority over: +OPTION FOR CHARACTERISTICS +SUPG OPTION +if N or PSI SCHEME: 1=explicit 2=predictor-corrector +3= predictor-corrector second-order in time 4= implicit""", + ), +# ----------------------------------- + FREE_SURFACE_GRADIENT_COMPATIBILITY = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 1., + fr = """Des valeurs inferieures a 1 suppriment les oscillations +parasites""", + ang = """Values less than 1 suppress spurious oscillations""", + ), +# ----------------------------------- + NUMBER_OF_SUB_ITERATIONS_FOR_NON_LINEARITIES = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 1, + fr = """Permet de reactualiser, pour un meme pas de temps, les champs +convecteur et propagateur au cours de plusieurs sous-iterations. A la +premiere sous-iteration, ces champs sont donnes par C et le champ de +vitesses au pas de temps precedent. Aux iterations suivantes, ils sont +pris egaux au champ de vitesse obtenu a la fin de la sous-iteration +precedente. Cette technique permet d''ameliorer la prise en compte des +non linearites.""", + ang = """Used for updating, within one time step, the advection and +propagation field. +upon the first sub-iteration, these fields are given by +C and the velocity field in the previous time step. At subsequent +iterations, the results of the previous sub-iteration is used to +update the advection and propagation field. +The non-linearities can be taken into account through this technique.""", + ), +# ----------------------------------- + b_TREATMENT_OF_FLUXES_AT_THE_BOUNDARIESF = BLOC(condition="(ADVECTION_OF_TRACERS == True and SCHEME_FOR_ADVECTION_OF_TRACERS in ['EDGE-BASED N-SCHEME','SUPG','CONSERVATIVE N-SCHEME','CONSERVATIVE PSI-SCHEME']) or (ADVECTION_OF_K_AND_EPSILON == True and SCHEME_FOR_ADVECTION_OF_K_EPSILON in ['EDGE-BASED N-SCHEME','SUPG','CONSERVATIVE N-SCHEME','CONSERVATIVE PSI-SCHEME']) or (ADVECTION_OF_U_AND_V == True and SCHEME_FOR_ADVECTION_OF_VELOCITIES in ['EDGE-BASED N-SCHEME','SUPG','CONSERVATIVE N-SCHEME','CONSERVATIVE PSI-SCHEME'])", +# ----------------------------------- + ), +# ----------------------------------- + TREATMENT_OF_FLUXES_AT_THE_BOUNDARIES = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', min=0, max='**', + into = ["Priority to prescribed values","Priority to fluxes"], + defaut = ["Priority to prescribed values","Priority to prescribed values"], + fr = """Utilise pour les schemas SUPG, PSI et N, avec option 2, on ne retrouve +pas exactement les valeurs imposees des traceurs, mais le flux est +correct""", + ang = """Used so far only with the SUPG, PSI and N schemes. With option 2, +Dirichlet prescribed values are not obeyed, but the fluxes are correct""", + ), +# ----------------------------------- + NUMBER_OF_CORRECTIONS_OF_DISTRIBUTIVE_SCHEMES = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = [1], + fr = """Pour les options avec predicteur-correcteur""", + ang = """For predictor-corrector options""", + ), +# ----------------------------------- + NUMBER_OF_SUB_STEPS_OF_DISTRIBUTIVE_SCHEMES = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 1, + fr = """ Pour les options predicteur-correcteur avec schema localement +implicite""", + ang = """ Only for implicit scheme with predictor-corrector""", + ), +# ----------------------------------- + PSI_SCHEME_OPTION = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + into = ["explicit","predictor-corrector"], + defaut = "explicit", + fr = """ 1: explicite 2: predicteur-correcteur""", + ang = """ 1: explicit 2: predictor-corrector""", + ), + ), +# ----------------------------------- + DIFFUSION = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + DIFFUSION_OF_VELOCITY = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = True, + fr = """Permet de decider si l''on prend ou non en compte la diffusion +des vitesses.""", + ang = """Makes it possible to decide whether the diffusion of velocity +(i.e. viscosity) is taken into account or not.""", + ), +# ----------------------------------- + b_DIFFUSION_OF_VELOCITYG = BLOC(condition="DIFFUSION_OF_VELOCITY == True", +# ----------------------------------- +# ----------------------------------- + IMPLICITATION_FOR_DIFFUSION_OF_VELOCITY = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 1., + fr = """Fixe la valeur du coefficient d''implicitation sur les termes de +diffusion des vitesses""", + ang = """Sets the value of the implicitation coefficient for the diffusion of +velocity""", + ), +# ----------------------------------- + OPTION_FOR_THE_DIFFUSION_OF_VELOCITIES = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["div( nu grad(U) )","1/h div ( h nu grad(U)"], + defaut = "div( nu grad(U) )", + fr = """1: Diffusion de la forme div( nu grad(U) ) +2: Diffusion de la forme 1/h div ( h nu grad(U) )""", + ang = """1: Diffusion in the form div( nu grad(U) ) +2: Diffusion in the form 1/h div ( h nu grad(U) )""", + ), + ), + ), +# ----------------------------------- + AUTOMATIC_DIFFERENTIATION = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + AD_NUMBER_OF_DERIVATIVES = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 0, + fr = """Definit le nombre de derivees utilisateurs, dans le cadre +de la differentiation algorithmique.""", + ang = """Defines the number of user derivatives, within the framework +of the algorithmic differentiation.""", + ), +# ----------------------------------- + AD_NAMES_OF_DERIVATIVES = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', min= 2, max= 2, + fr = """Noms des differentiateurs utilisateurs en 32 caracteres, + 16 pour le nom, 16 pour l''unite.""", + ang = """Name of user differentiators in 32 characters, + 16 for the name, 16 for the unit.""", + ), +# ----------------------------------- + AD_SYMBOLIC_LINEAR_SOLVER = SIMP(statut ='f', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Permet le solveur lineaire symbolique pour l AD.""", + ang = """Enables the symbolic linear solver for AD.""", + ), +# ----------------------------------- + AD_LINEAR_SOLVER_RESET_DERIVATIVES = SIMP(statut ='f', +# ----------------------------------- + typ = bool, + defaut = True, + fr = """Remet a zero les derivees pour l AD.""", + ang = """Resets the derivatives for AD.""", + ), +# ----------------------------------- + AD_LINEAR_SOLVER_DERIVATIVE_CONVERGENCE = SIMP(statut ='f', +# ----------------------------------- + typ = bool, + defaut = True, + fr = """Solveur lineaire iteratif : test de convergence des derivees +pour l AD.""", + ang = """Iterative linear solvers: derivative convergence test for AD.""", + ), + ), +# ----------------------------------- + ADVANCED = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + MATRIX_STORAGE = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["classical EBE","Edge-based storage"], + defaut = "Edge-based storage", + fr = """1 : EBE classique 3 : Stockage par segments""", + ang = """1 : classical EBE 3 : Edge-based storage""", + ), +# ----------------------------------- + MATRIX_VECTOR_PRODUCT = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 1, + fr = """1 : classique 2 : frontal +attention, avec 2, il faut une numerotation speciale des points""", + ang = """1 : classic 2 : frontal +beware, with option 2, a special numbering of points is required""", + ), +# ----------------------------------- + NEWMARK_TIME_INTEGRATION_COEFFICIENT = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 1., + fr = """1. : Euler explicite 0.5 : ordre 2 en temps""", + ang = """1. : Euler explicit 0.5 : order 2 in time""", + ), +# ----------------------------------- + ZERO = SIMP(statut ='f', +# ----------------------------------- + typ = 'R', + defaut = 1.E-10, + fr = """Non active pour l''instant.""", + ang = """Not yet implemented""", + ), +# ----------------------------------- + PROPAGATION_OPTION = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 3, + fr = """Non active pour l''instant.""", + ang = """Not yet implemented.""", + ), +# ----------------------------------- + OPTION_OF_THE_HYDROSTATIC_RECONSTRUCTION = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 1, + fr = """donne l option de la reconstruction hydrostatique +(option utile uniquement pour les volumes finis): +1: option d Audusse, 2: option de Noelle""", + ang = """gives the option for hydrostatic reconstruction +(used only for finite volumes): +1: option of Audusse, 2: option of Noelle""", + ), +# ----------------------------------- + CONVERGENCE_STUDY = SIMP(statut ='f', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Active une etude de convergence par rapport a une +solution analytique sur un maillage fin""", + ang = """Activates a convergence study compared +to an analytical solution on a fine mesh""", + ), +# ----------------------------------- + REFINEMENT_LEVELS = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 0, + fr = """Donne le nombre de raffinements que l''utilisateur +veut utiliser pour l''etude de convergence +(en activant CONVERGENCE). Chaque niveau multiplie par 4 le +nombre d''elements.""", + ang = """Gives the number of refinement levels that the +user wants to use in the convergence study (when activating +CONVERGENCE). Each level multiplies the number of elements by +4""", + ), + ), +) +# ----------------------------------------------------------------------- +TURBULENCE = PROC(nom= "TURBULENCE",op = None, +# ----------------------------------------------------------------------- + UIinfo = {"groupes": ("CACHE")}, +# ----------------------------------- + VELOCITY_DIFFUSIVITY = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 1.E-6, + fr = """Fixe de facon uniforme pour l''ensemble du domaine; +la valeur du coefficient de diffusion de viscosite globale (dynamique + +turbulente). Cette valeur peut avoir une influence non negligeable sur +la forme et la taille des recirculations.""", + ang = """Sets, in an even way for the whole domain, the value of the +coefficient of global (dynamic+turbulent) viscosity. this value may +have a significant effect both on the shapes and sizes of +recirculation zones.""", + ), +# ----------------------------------- + TURBULENCE_MODEL = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["CONSTANT VISCOSITY","ELDER","K-EPSILON MODEL","SMAGORINSKI","MIXING LENGTH","SPALART-ALLMARAS"], + defaut = "CONSTANT VISCOSITY", + fr = """3 choix sont possibles actuellement : viscosite constante (1) +modele de Elder (2) ou modele k-epsilon (3). +Attention : si on choisit l''option 1 +il ne faut pas oublier d''ajuster la valeur du mot-cle COEFFICIENT DE +DIFFUSION DES VITESSES. +si on choisit l''option 2 +il ne faut pas oublier d''ajuster les deux valeurs du mot-cle : +COEFFICIENTS ADIMENSIONNELS DE DISPERSION +Si on choisit l''option 3; +ce meme parametre doit retrouver sa vraie valeur physique car elle est +utilisee comme telle dans le modele de turbulence""", + ang = """The current alternatives are as follows: constant viscosity (1) +elder''s model (2) or k-epsilon model (3). +NOTE: when option 1 is chosen, it should be kept in mind that the +value of the keyword VELOCITY DIFFUSIVITY has to be ajusted. +When option 2 is chosen, the two values of key-word : +NON-DIMENSIONAL DISPERSION COEFFICIENTS are used +When option 3 is chosen, this parameter should recover its true +physical value, since it is used as such in the turbulence model.""", + ), +# ----------------------------------- + b_TURBULENCE_MODELG = BLOC(condition="TURBULENCE_MODEL == 'CONSTANT VISCOSITY'", +# ----------------------------------- + ), +# ----------------------------------- + b_TURBULENCE_MODELH = BLOC(condition="TURBULENCE_MODEL == 'Elder'", +# ----------------------------------- +# ----------------------------------- + NON_DIMENSIONAL_DISPERSION_COEFFICIENTS = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', min= 2, max= 2, + defaut = [6.,0.6], + fr = """Coefficients longitudinal et transversal dans la formule de +Elder. Utilises uniquement avec le modele de turbulence 2""", + ang = """Longitudinal and transversal coefficients in elder s formula. + Used only with turbulence model number 2""", + ), + ), +# ----------------------------------- + ACCURACY_OF_SPALART_ALLMARAS = SIMP(statut ='f', +# ----------------------------------- + typ = 'R', + defaut = 1.E-9, + fr = """Fixe la precision demandee sur le modele spalart-allmaras pour +le test d''arret dans l''etape de diffusion et termes sources de k et +epsilon.""", + ang = """Sets the required accuracy for the model spalart-allmaras in +the diffusion and source-terms step of the k-epsilon model.""", + ), +# ----------------------------------- + INFORMATION_ABOUT_SPALART_ALLMARAS_MODEL = SIMP(statut ='f', +# ----------------------------------- + typ = bool, + defaut = True, + fr = """si oui les informations du solveur du modele spalart-allmaras +sont imprimees""", + ang = """if yes, informations about solver of spalart-allmaras model +are printed to the listing""", + ), +# ----------------------------------- + SOLVER_INFO = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + SOLVER_FOR_K_EPSILON_MODEL = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["conjugate gradient","conjugate residuals","conjugate gradient on normal equation","minimum error","conjugate gradient squared","conjugate gradient squared stabilised (cgstab)","gmres (see option for the solver for k-epsilon model)","direct"], + defaut = "conjugate gradient", + fr = """Permet de choisir le solveur utilise pour la resolution +du systeme du modele k-epsilon : +1 : gradient conjugue +2 : residu conjugue +3 : gradient conjugue sur equation normale +4 : erreur minimale +5 : gradient conjugue carre +6 : gradient conjugue carre stabilise (cgstab) +7 : gmres (voir aussi option du solveur pour le modele k-epsilon) +8 : direct""", + ang = """Makes it possible to select the solver used for solving +the system of the k-epsilon model. +1: conjugate gradient +2: conjugate residuals +3: conjugate gradient on normal equation +4: minimum error +5: conjugate gradient squared +6: conjugate gradient squared stabilised (cgstab) +7: gmres (see option for the solver for k-epsilon model) +8: direct""", + ), +# ----------------------------------- + OPTION_FOR_THE_SOLVER_FOR_K_EPSILON_MODEL = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 2, + fr = """si le solveur est GMRES (7) le mot cle est la dimension de +l''espace de KRILOV (valeurs conseillees entre 2 et 15)""", + ang = """WHEN GMRES (7) IS CHOSEN, DIMENSION OF THE KRYLOV SPACE +TRY VALUES BETWEEN 2 AND 15""", + ), +# ----------------------------------- + PRECONDITIONING_FOR_K_EPSILON_MODEL = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["diagonal","no preconditioning","crout","diagonal and crout"], + defaut = "diagonal", + fr = """Permet de preconditionner le systeme relatif au +modele k-epsilon +0 : pas de preconditionnement; +2 : preconditionnement diagonal. +7 : preconditionnement de Crout par element.""", + ang = """Preconditioning of the linear system in the diffusion step of +the k-epsilon model. +0: no preconditioning +2: diagonal preconditioning +7: Crout''s preconditioning per element""", + ), + ), +# ----------------------------------- + ADVANCED = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + TURBULENCE_REGIME_FOR_SOLID_BOUNDARIES = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + into = ["smooth","rough"], + defaut = "rough", + fr = """ Permet de choisir le regime de turbulence aux parois 1 : regime +turbulent lisse. 2 : regime turbulent rugueux.""", + ang = """ Provided for selecting the type of friction on the walls 1: smooth 2: +rough""", + ), +# ----------------------------------- + INFORMATION_ABOUT_K_EPSILON_MODEL = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = True, + fr = """Donne le nombre d''iterations du solveur de l''etape de +diffusion et termes sources du modele k-epsilon.""", + ang = """Gives the number of iterations of the solver in the diffusion +and source terms step of the k-epsilon model.""", + ), +# ----------------------------------- + ADVECTION_OF_K_AND_EPSILON = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = True, + fr = """Prise en compte ou non de la convection de k et epsilon.""", + ang = """The k and epsilon advection is taken into account or ignored.""", + ), +# ----------------------------------- + b_ADVECTION_OF_K_AND_EPSILONG = BLOC(condition="ADVECTION_OF_K_AND_EPSILON == True", +# ----------------------------------- +# ----------------------------------- + SCHEME_FOR_ADVECTION_OF_K_EPSILON = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + into = ["NO ADVECTION","CHARACTERISTICS","EXPLICIT + SUPG","EXPLICIT LEO POSTMA","EXPLICIT + MURD SCHEME N","EXPLICIT + MURD SCHEME PSI","LEO POSTMA FOR TIDAL FLATS","N-SCHEME FOR TIDAL FLATS","ERIA SCHEME FOR TIDAL FLATS"], + defaut = "CHARACTERISTICS", + fr = """Choix du schema de convection pour k et epsilon, +remplace FORME DE LA CONVECTION""", + ang = """Choice of the advection scheme for k and epsilon, +replaces TYPE OF ADVECTION""", + ), + ), +# ----------------------------------- + SCHEME_OPTION_FOR_ADVECTION_OF_K_EPSILON = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 1, + fr = """Si present remplace et a priorite sur : +OPTION POUR LES CARACTERISTIQUES +OPTION DE SUPG +Si schema PSI ou N : 1=explicite 2=predicteur-correcteur +3=predicteur-correcteur deuxieme ordre en temps +4=implicite""", + ang = """If present replaces and has priority over: +OPTION FOR CHARACTERISTICS +SUPG OPTION +if N or PSI SCHEME: 1=explicit 2=predictor-corrector +3= predictor-corrector second-order in time 4= implicit""", + ), +# ----------------------------------- + TIME_STEP_REDUCTION_FOR_K_EPSILON_MODEL = SIMP(statut ='f', +# ----------------------------------- + typ = 'R', + defaut = 1., + fr = """Coefficient reducteur du pas de temps pour le modele k-epsilon (qui +est normalement identique a celui du systeme hydrodynamique). +Utilisation deconseillee""", + ang = """Time step reduction coefficient for k-epsilon model (which is normally +same the same as that of the hydrodynamic system) Not recommended for +use.""", + ), + ), +# ----------------------------------- + ACCURACY = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + ACCURACY_OF_K = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 1.E-9, + fr = """Fixe la precision demandee sur k pour le test d''arret dans +l''etape de diffusion et termes sources du modele k-epsilon.""", + ang = """Sets the required accuracy for computing k in the diffusion +and source terms step of the k-epsilon model.""", + ), +# ----------------------------------- + ACCURACY_OF_EPSILON = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 1.E-9, + fr = """Fixe la precision demandee sur epsilon pour le test d''arret +dans l''etape de diffusion et termes sources de k et epsilon.""", + ang = """Sets the required accuracy for computing epsilon in +the diffusion and source-terms step of the k-epsilon model.""", + ), +# ----------------------------------- + MAXIMUM_NUMBER_OF_ITERATIONS_FOR_K_AND_EPSILON = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 50, + fr = """Fixe le nombre maximum d''iterations accepte lors de la +resolution du systeme diffusion-termes sources du modele k-epsilon.""", + ang = """Sets the maximum number of iterations that are acceptable when +solving the diffusion source-terms step of the k-epsilon model.""", + ), + ), +) +# ----------------------------------------------------------------------- +TIDAL_FLATS_INFO = PROC(nom= "TIDAL_FLATS_INFO",op = None, +# ----------------------------------------------------------------------- +# ----------------------------------- + TIDAL_FLATS = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = True, + fr = """permet de supprimer les tests sur les bancs decouvrants, dans +les cas ou l''on est certain qu''il n''y en aura pas. +En cas de doute : oui""", + ang = """When no, the specific +treatments for tidal flats are by-passed. +This spares time, but of course you must be sure that you have no +tidal flats""", + ), +# ----------------------------------- + b_TIDAL_FLATSG = BLOC(condition="TIDAL_FLATS == True", +# ----------------------------------- +# ----------------------------------- + OPTION_FOR_THE_TREATMENT_OF_TIDAL_FLATS = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["EQUATIONS SOLVED EVERYWHERE WITH CORRECTION ON TIDAL FLATS","DRY ELEMENTS FROZEN","LIKE 1 BUT WITH POROSITY (DEFINA METHOD)"], + defaut = "EQUATIONS SOLVED EVERYWHERE WITH CORRECTION ON TIDAL FLATS", + fr = """Utilise si BANCS DECOUVRANTS est vrai +1 : EQUATIONS RESOLUES PARTOUT AVEC +CORRECTION SUR LES BANCS DECOUVRANTS +2 : GEL DES ELEMENTS DECOUVRANTS +3 : COMME 1 MAIS AVEC POROSITE (METHODE DEFINA)""", + ang = """Used if TIDAL FLATS is true +1 : EQUATIONS SOLVED EVERYWHERE WITH CORRECTION ON TIDAL FLATS +2 : DRY ELEMENTS FROZEN +3 : LIKE 1 BUT WITH POROSITY (DEFINA METHOD)""", + ), +# ----------------------------------- + b_OPTION_FOR_THE_TREATMENT_OF_TIDAL_FLATSG = BLOC(condition="OPTION_FOR_THE_TREATMENT_OF_TIDAL_FLATS == 'EQUATIONS SOLVED EVERYWHERE WITH CORRECTION ON TIDAL FLATS'", +# ----------------------------------- +# ----------------------------------- + TREATMENT_OF_NEGATIVE_DEPTHS = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["SMOOTHING","FLUX CONTROL","FLUX CONTROL (ERIA)"], + defaut = "SMOOTHING", + fr = """Seulement avec OPTION DE TRAITEMENT DES BANCS DECOUVRANTS = 1 + 0 : pas de traitement + 1 : lissage + 2 : limitation des flux, approche par segment + 3 : limitation des flux, approche par triangle""", + ang = """Only with OPTION FOR THE TREATMENT OF TIDAL FLATS=1 + 0:no treatment + 1:smoothing + 2:flux control, by segment + 3:flux control, by element""", + ), + ), +# ----------------------------------- + THRESHOLD_FOR_NEGATIVE_DEPTHS = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0., + fr = """En dessous du seuil, les hauteurs negatives sont lissees""", + ang = """Below the threshold the negative depths are smoothed""", + ), +# ----------------------------------- + THRESHOLD_DEPTH_FOR_RECEDING_PROCEDURE = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0., + fr = """Si > 0., declenche la procedure de ressuyage qui evite le +franchissement parasite des digues mal discretisees""", + ang = """If > 0., will trigger the receding procedure that avoids overwhelming +of dykes which are too loosely discretised""", + ), +# ----------------------------------- + H_CLIPPING = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Determine si l''on desire ou non limiter par valeur inferieure +la hauteur d''eau H (dans le cas des bancs decouvrants par exemple).""", + ang = """Determines whether limiting the water depth H by a lower value +desirable or not. (for instance in the case of tidal flats) +This key-word may have an influence on mass conservation since +the truncation of depth is equivalent to adding mass.""", + ), +# ----------------------------------- + b_H_CLIPPINGG = BLOC(condition="H_CLIPPING == True", +# ----------------------------------- +# ----------------------------------- + MINIMUM_VALUE_OF_DEPTH = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0., + fr = """Fixe la valeur minimale de a lorsque l''option CLIPPING DE H est +activee.""", + ang = """Sets the minimum H value when option H CLIPPING is implemented. Not +fully implemented.""", + ), + ), + ), +) +# ----------------------------------------------------------------------- +TRACERS = PROC(nom= "TRACERS",op = None, +# ----------------------------------------------------------------------- +# ----------------------------------- + BOUNDARY_CONDITIONS_FOR_TRACERS = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + PRESCRIBED_TRACERS_VALUES = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', max='**', + fr = """Valeurs du traceur imposees aux frontieres liquides entrantes. +Lire la partie du mode d''emploi consacree aux conditions aux limites""", + ang = """Tracer values prescribed at the inflow boundaries. +Read the usermanual section dealing with the boundary conditions""", + ), + ), +# ----------------------------------- + SETTING = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + NUMBER_OF_TRACERS = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 0, + fr = """Definit le nombre de traceurs.""", + ang = """Defines the number of tracers""", + ), +# ----------------------------------- + NAMES_OF_TRACERS = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', min=0, max='**', + fr = """Noms des traceurs en 32 caracteres, 16 pour le nom 16 pour l''unite""", + ang = """Name of tracers in 32 characters, 16 for the name, 16 for the unit.""", + ), +# ----------------------------------- + INITIAL_VALUES_OF_TRACERS = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', min=0, max='**', + defaut = [0.,0.], + fr = """Fixe la valeur initiale du traceur.""", + ang = """Sets the initial value of the tracer.""", + ), +# ----------------------------------- + DENSITY_EFFECTS = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """PRISE EN COMPTE DU GRADIENT HORIZONTAL DE DENSITE + LE TRACEUR EST ALORS LA SALINITE""", + ang = """THE HORIZONTAL GRADIENT OF DENSITY IS TAKEN INTO ACCOUNT + THE TRACER IS THEN THE SALINITY""", + ), +# ----------------------------------- + b_DENSITY_EFFECTSG = BLOC(condition="DENSITY_EFFECTS == True", +# ----------------------------------- +# ----------------------------------- + MEAN_TEMPERATURE = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 20., + fr = """TEMPERATURE DE REFERENCE POUR LE CALCUL DES EFFETS DE DENSITE +A UTILISER AVEC LE MOT-CLE \telkey{EFFETS DE DENSITE}""", + ang = """REFERENCE TEMPERATURE FOR DENSITY EFFECTS +TO BE USED WITH THE KEY-WORD \telkey{DENSITY EFFECTS}""", + ), + ), +# ----------------------------------- + b_DENSITY_EFFECTSH = BLOC(condition="DENSITY_EFFECTS == True", +# ----------------------------------- +# ----------------------------------- + Consigne = SIMP(statut ="o", homo="information", typ="TXM", +# ----------------------------------- + defaut = "The first tracer must be the salinity in kg/m3"), + ), + ), +# ----------------------------------- + SOLVER_TRA = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + SOLVER_FOR_DIFFUSION_OF_TRACERS = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', min=0, max='**', + into = ["conjugate gradient","conjugate residual","conjugate gradient on a normal equation","minimum error","squared conjugate gradient","cgstab","gmres (see option for the solver for tracer diffusion)","direct"], + defaut = ["conjugate gradient","conjugate gradient"], + fr = """ 1 : gradient conjugue 2 : residu conjugue 3 : gradient conjugue sur +equation normale 4 : erreur minimale 5 : gradient conjugue carre""", + ang = """ 1 : conjugate gradient 2 : conjugate gradient 3 : conjugate gradient +on a normal equation 4 : minimum error 5 : squared conjugate gradient 6 +: cgstab 7 : gmres (see option for the solver for tracer diffusion) 8 : +direct""", + ), +# ----------------------------------- + SOLVER_OPTION_FOR_TRACERS_DIFFUSION = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', min=0, max='**', + defaut = [2], + fr = """si le solveur est GMRES (7) le mot cle est la dimension de +l''espace de KRILOV (valeurs conseillees entre 2 et 15)""", + ang = """WHEN GMRES (7) IS CHOSEN, DIMENSION OF THE KRYLOV SPACE +TRY VALUES BETWEEN 2 AND 15""", + ), +# ----------------------------------- + PRECONDITIONING_FOR_DIFFUSION_OF_TRACERS = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', min=0, max='**', + into = ["no preconditioning ","diagonal","crout","diagonal and crout"], + defaut = ["diagonal"], + fr = """Permet de preconditionner le systeme relatif au traceur. +Memes definition et possibilites que pour le mot-cle +PRECONDITIONNEMENT. + 0 : pas de preconditionnement; + 2 : preconditionnement diagonal. + 7 : Crout par element""", + ang = """Preconditioning of the linear system in the tracer diffusion +step. +Same definition and possibilities as for the keyword PRECONDITIONING + 0: no preconditioning + 2: diagonal preconditioning + 7: Crout''s preconditioning per element.""", + ), + ), +# ----------------------------------- + ACCURACY_TRA = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + ACCURACY_FOR_DIFFUSION_OF_TRACERS = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 1.E-6, + fr = """Fixe la precision demandee pour le calcul de la diffusion +du traceur.""", + ang = """Sets the required accuracy for computing the tracer +diffusion.""", + ), +# ----------------------------------- + MAXIMUM_NUMBER_OF_ITERATIONS_FOR_DIFFUSION_OF_TRACERS = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 60, + fr = """ Limite le nombre d''iterations du solveur a chaque pas de temps pour +le calcul de la diffusion du traceur.""", + ang = """Limits the number of solver iterations at each time step for +the diffusion of tracer.""", + ), + ), +# ----------------------------------- + SOURCES_TRA = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + VALUES_OF_THE_TRACERS_AT_THE_SOURCES = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', min=0, max='**', + fr = """Valeurs des traceurs a chacune des sources""", + ang = """Values of the tracers at the sources""", + ), + ), +# ----------------------------------- + METEOROLOGY_TRA = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + VALUES_OF_TRACERS_IN_THE_RAIN = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', min=0, max='**', + fr = """generalement ce traceur est la temperature, dans ce cas +cette valeur est a modifier, sinon la valeur 0 est raisonnable""", + ang = """most often, this tracer is temperature, in this case +this value should be modified, otherwise, default value of 0 seems +reasonable""", + ), + ), +# ----------------------------------- + NUMERICAL = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + ADVECTION_OF_TRACERS = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = True, + fr = """Prise en compte ou non de la convection du traceur passif.""", + ang = """The advection of the passive tracer is taken into account +or ignored.""", + ), +# ----------------------------------- + b_ADVECTION_OF_TRACERSG = BLOC(condition="ADVECTION_OF_TRACERS == True", +# ----------------------------------- +# ----------------------------------- + SCHEME_FOR_ADVECTION_OF_TRACERS = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', min=0, max='**', + into = ["NO ADVECTION","CHARACTERISTICS","EXPLICIT + SUPG","EXPLICIT LEO POSTMA","EXPLICIT + MURD SCHEME N","EXPLICIT + MURD SCHEME PSI","LEO POSTMA FOR TIDAL FLATS","N-SCHEME FOR TIDAL FLATS","ERIA SCHEME FOR TIDAL FLATS"], + defaut = ["CHARACTERISTICS"], + fr = """Choix du schema de convection pour les traceurs, +remplace FORME DE LA CONVECTION""", + ang = """Choice of the advection scheme for the tracers, +replaces TYPE OF ADVECTION""", + ), + ), +# ----------------------------------- + IMPLICITATION_COEFFICIENT_OF_TRACERS = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0.6, + fr = """Fixe la valeur du coefficient d''implicitation du traceur""", + ang = """Sets the value of the implicitation coefficient +for the tracer""", + ), +# ----------------------------------- + DIFFUSION_OF_TRACERS = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = True, + fr = """Prise en compte ou non de la diffusion du traceur passif.""", + ang = """The diffusion of the passive tracer is taken into account +or ignored.""", + ), +# ----------------------------------- + b_DIFFUSION_OF_TRACERSG = BLOC(condition="DIFFUSION_OF_TRACERS == True", +# ----------------------------------- +# ----------------------------------- + COEFFICIENT_FOR_DIFFUSION_OF_TRACERS = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', min=0, max='**', + defaut = [1.E-6], + fr = """Fixe la valeur du coefficient de diffusion du traceur. +L''influence de ce parametre sur l''evolution du traceur dans +le temps est importante.""", + ang = """Sets the value of the tracer diffusivity.""", + ), + ), +# ----------------------------------- + OPTION_FOR_THE_DIFFUSION_OF_TRACERS = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', min=0, max='**', + into = ["div( nu grad(T) )","1/h div ( h nu grad(T)"], + defaut = ["div( nu grad(T) )"], + fr = """1: Diffusion de la forme div( nu grad(T) ) +2: Diffusion de la forme 1/h div ( h nu grad(T) )""", + ang = """1: Diffusion in the form div( nu grad(T) ) +2: Diffusion in the form 1/h div ( h nu grad(T) )""", + ), +# ----------------------------------- + SCHEME_OPTION_FOR_ADVECTION_OF_TRACERS = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', min=0, max='**', + defaut = [1], + fr = """Si present remplace et a priorite sur : +OPTION POUR LES CARACTERISTIQUES +OPTION DE SUPG +Si schema PSI ou N : 1=explicite 2=predicteur-correcteur +3=predicteur-correcteur deuxieme ordre en temps +4=implicite""", + ang = """If present replaces and has priority over: +OPTION FOR CHARACTERISTICS +SUPG OPTION +if N or PSI SCHEME: 1=explicit 2=predictor-corrector +3= predictor-corrector second-order in time 4= implicit""", + ), +# ----------------------------------- + MASS_LUMPING_ON_TRACERS = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0., + fr = """Fixe le taux de mass-lumping effectue sur le traceur.""", + ang = """Sets the amount of mass-lumping that is performed on + the tracer.""", + ), + ), +) +# ----------------------------------------------------------------------- +PARTICLE_TRANSPORT = PROC(nom= "PARTICLE_TRANSPORT",op = None, +# ----------------------------------------------------------------------- +# ----------------------------------- + DROGUES = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + NUMBER_OF_DROGUES = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 0, + fr = """Permet d''effectuer un suivi de flotteurs""", + ang = """Number of drogues in the computation. +The user must then fill the subroutine FLOT specifying +the coordinates of the starting points, their departure +and arrival times. +The trajectory of drogues is recorded in the BINARY RESULTS +FILE that must be given in the steering file""", + ), +# ----------------------------------- + b_NUMBER_OF_DROGUESG = BLOC(condition="NUMBER_OF_DROGUES != 0", +# ----------------------------------- +# ----------------------------------- + DROGUES_FILE = SIMP(statut ='o', +# ----------------------------------- + typ = ('Fichier','All Files (*)','Sauvegarde'), + defaut = '', + fr = """Fichier de resultat avec les positions des flotteurs""", + ang = """Results file with positions of drogues""", + ), +# ----------------------------------- + PRINTOUT_PERIOD_FOR_DROGUES = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 1, + fr = """Nombre de pas de temps entre 2 sorties de positions de +flotteurs dans le fichier des resultats binaire supplementaire +N affecte pas la qualite du calcul de la trajectoire""", + ang = """Number of time steps between 2 outputs of drogues +positions in the binary file""", + ), + ), + ), +# ----------------------------------- + ALGAES = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + ALGAE_TRANSPORT_MODEL = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Si oui, les flotteurs seront des algues""", + ang = """If yes, the floats or particles will be algae""", + ), +# ----------------------------------- + b_ALGAE_TRANSPORT_MODELG = BLOC(condition="ALGAE_TRANSPORT_MODEL == True", +# ----------------------------------- +# ----------------------------------- + ALGAE_TYPE = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["SPHERE","IRIDAEA FLACCIDA (CLOSE TO ULVA)","PELVETIOPSIS LIMITATA","GIGARTINA LEPTORHYNCHOS"], + defaut = "SPHERE", + fr = """Type des algues. Pour le choix 1 les algues seront +modelisees comme des spheres, pour les autres choix voir Gaylord +et al. (1994).""", + ang = """Algae type. For choice 1 the algae particles will be +modeled as spheres, and for the other choices see Gaylord et +al. (1994)""", + ), +# ----------------------------------- + DIAMETER_OF_ALGAE = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0.1, + fr = """Diametre des algues en m""", + ang = """Diametre of algae in m""", + ), +# ----------------------------------- + DENSITY_OF_ALGAE = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 1050., + fr = """Masse volumique des algues en kg/m3""", + ang = """Density of algae in kg/m3""", + ), +# ----------------------------------- + THICKNESS_OF_ALGAE = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0.01, + fr = """Epaisseur des algues en m""", + ang = """Thickness of algae in m""", + ), + ), + ), +# ----------------------------------- + OIL_SPILL = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + OIL_SPILL_MODEL = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """POUR DECLENCHER LE MODELE DE DERIVE DE NAPPES, DANS +CE CAS LE FICHIER DE COMMANDES MIGRHYCAR EST NECESSAIRE""", + ang = """WILL TRIGGER THE OIL SPILL MODEL, IN THIS CASE +THE MIGRHYCAR STEERING FILE IS NEEDED""", + ), +# ----------------------------------- + b_OIL_SPILL_MODELG = BLOC(condition="OIL_SPILL_MODEL == True", +# ----------------------------------- +# ----------------------------------- + OIL_SPILL_STEERING_FILE = SIMP(statut ='o', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Contient les donnees pour le modele de derive de nappes""", + ang = """Contains data for the oil spill model""", + ), + ), + ), +# ----------------------------------- + BROWNIAN_MOTION = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + STOCHASTIC_DIFFUSION_MODEL = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["No model","brownian movement"], + defaut = "No model", + fr = """Pour les particules : flotteurs, hydrocarbures""", + ang = """Meant for particles: drogues, oil spills""", + ), + ), +# ----------------------------------- + LAGRANGIAN_DRIFTS = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + NUMBER_OF_LAGRANGIAN_DRIFTS = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 0, + fr = """Permet d''effectuer simultanement plusieurs calculs de derives +lagrangiennes initiees a des pas differents""", + ang = """Provided for performing several computations of lagrangian +drifts starting at different times. +Add A and G in the VARIABLES FOR GRAPHIC PRINTOUTS key-word""", + ), +# ----------------------------------- + b_NUMBER_OF_LAGRANGIAN_DRIFTSG = BLOC(condition="NUMBER_OF_LAGRANGIAN_DRIFS != 0", +# ----------------------------------- +# ----------------------------------- + Consigne = SIMP(statut ="o", homo="information", typ="TXM", +# ----------------------------------- + defaut = "Add 'drift along x (m)' and 'drift along y (m)' in VARIABLES FOR GRAPHIC PRINTOUTS"), + ), + ), +) +# ----------------------------------------------------------------------- +HYDRAULIC_STRUCTURES = PROC(nom= "HYDRAULIC_STRUCTURES",op = None, +# ----------------------------------------------------------------------- +# ----------------------------------- + WEIRS = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + NUMBER_OF_WEIRS = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 0, + fr = """Nombre de seuils qui seront traites par des conditions aux +limites. Ces seuils doivent etre decrits comme des frontieres du +domaine de calcul, et leurs caracteristiques sont donnees dans le +fichier de donnees des seuils (voir la documentation ecrite)""", + ang = """Number of weirs that will be treated by boundary conditions. +They must be described as boundaries of the domain and their features +are given in the weir data file (see written documentation)""", + ), +# ----------------------------------- + b_NUMBER_OF_WEIRSG = BLOC(condition="NUMBER_OF_WEIRS != 0", +# ----------------------------------- +# ----------------------------------- + WEIRS_DATA_FILE = SIMP(statut ='o', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Fichier de description des seuils presents dans le modele""", + ang = """Description of weirs existing in the model""", + ), +# ----------------------------------- + TYPE_OF_WEIRS = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["HORIZONTAL WITH SAME NUMBER OF NODES UPSTREAM/DOWNSTREAM","GENERAL"], + defaut = "HORIZONTAL WITH SAME NUMBER OF NODES UPSTREAM/DOWNSTREAM", + fr = """Methode de traitement des seuils. Deux Solutions: +- HORIZONTAL AVEC MEME NOMBRE DE NOEUDS AMONT/AVAL (Solution historique + avec bord) +- GENERALE (Nouvelle solution avec pts sources)""", + ang = """Method for treatment of weirs. Two options: +- HORIZONTAL WITH SAME NUMBER OF NODES UPSTREAM/DOWNSTREAM (Historical + solution with bord) +- GENERAL (New solution with sources points""", + ), + ), + ), +# ----------------------------------- + CULVERTS = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + NUMBER_OF_CULVERTS = SIMP(statut ='o', +# ----------------------------------- + typ = 'I', + defaut = 0, + fr = """Nombre de buses ou ponts traites comme des termes sources ou +puits. Ces buses doivent etre decrits comme des sources dans le +fichier cas. Leurs caracteristiques sont donnees dans le +fichier de donnees des buses (voir la documentation ecrite)""", + ang = """Number of culverts, tubes or bridges treated as source terms. +They must be described as sources in the domain and their features +are given in the culverts data file (see written documentation)""", + ), +# ----------------------------------- + b_NUMBER_OF_CULVERTSG = BLOC(condition="NUMBER_OF_CULVERTS != 0", +# ----------------------------------- +# ----------------------------------- + CULVERTS_DATA_FILE = SIMP(statut ='o', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Fichier de description des buses/ponts presents dans le modele""", + ang = """Description of culverts/tubes/bridges existing in the model""", + ), + ), +# ----------------------------------- + OPTION_FOR_CULVERTS = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 1, + fr = """Option pour le traitement des buses. Il existe deux formulations +dans Telemac""", + ang = """Option for the treatment of culverts. There are two options in +Telemac""", + ), + ), +# ----------------------------------- + BREACHES = FACT(statut='f', +# ----------------------------------- +# ----------------------------------- + BREACH = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Prise en compte de breches dans le calcul par +modification altimetrique dans le maillage. La description +des breches se fait avec le fichier de donnees des breches.""", + ang = """Take in account some breaches during the computation +by modifying the bottom level of the mesh. Brech description +is done with the breaches data file.""", + ), +# ----------------------------------- + b_BREACHG = BLOC(condition="BREACH == True", +# ----------------------------------- +# ----------------------------------- + BREACHES_DATA_FILE = SIMP(statut ='o', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Fichier de description des breches""", + ang = """Description of breaches""", + ), + ), + ), +) +# ----------------------------------------------------------------------- +TIDES = PROC(nom= "TIDES",op = None, +# ----------------------------------------------------------------------- +# ----------------------------------- + BINARY_DATABASE_1_FOR_TIDE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Base de donnees binaire 1 tiree du fichier du modele de maree. + Dans le cas des donnees satellitaires de TPXO, ce fichier correspond + aux donnees de niveau d''eau, par exemple h\_tpxo7.2""", + ang = """Binary database 1 extracted from the tidal model file. + In the case of the TPXO satellite altimetry model, this file should + be for free surface level, for instance h\_tpxo7.2""", + ), +# ----------------------------------- + BINARY_DATABASE_2_FOR_TIDE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Base de donnees binaire 2 tiree du fichier du modele de maree. + Dans le cas des donnees satellitaires de TPXO, ce fichier correspond + aux donnees de vitesse de marrees, par exemple u\_tpxo7.2""", + ang = """Binary database 2 extracted from the tidal model file. + In the case of the TPXO satellite altimetry model, this file should + be for tidal velocities, for instance u\_tpxo7.2""", + ), +# ----------------------------------- + GEOGRAPHIC_SYSTEM = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["NO DEFAULT VALUE","DEFINED BY USER","WGS84 LONGITUDE/LATITUDE IN REAL DEGREES","WGS84 NORTHERN UTM","WGS84 SOUTHERN UTM","LAMBERT","MERCATOR FOR TELEMAC"], + defaut = "NO DEFAULT VALUE", + fr = """Systeme de coordonnees geographiques dans lequel est construit +le modele numerique. +Indiquer la zone correspondante avec le mot-cle. +Indique le systeme de coordonnees geographiques dans lequel est +construit le modele numerique. Les choix possibles sont : +\begin{itemize} +\item 0 : defini par l''utilisateur ; +\item 1 : WGS84 longitude/latitude en degres reels ; +\item 2 : WGS84 nord UTM ; +\item 3 : WGS84 sud UTM ; +\item 4 : Lambert ; +\item 5 : projection Mercator. +\end{itemize}""", + ang = """Geographic coordinates system in which the numerical model is +built. Indicate the corresponding zone with the keyword. +The possible choices are: +\begin{itemize} +\item 0: defined by the user, +\item 1: WGS84 longitude/latitude in real degrees, +\item 2: WGS84 Northern UTM, +\item 3: WGS84 Southern UTM, +\item 4: Lambert, +\item 5: Mercator projection. +\end{itemize}""", + ), +# ----------------------------------- + b_GEOGRAPHIC_SYSTEMG = BLOC(condition="GEOGRAPHIC_SYSTEM in ['WGS84 NOTHERN UTM','WGS84 SOUTHERN UTM','LAMBERT']", +# ----------------------------------- +# ----------------------------------- + ZONE_NUMBER_IN_GEOGRAPHIC_SYSTEM = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + into = ["NO DEFAULT VALUE","LAMBERT 1 NORTH","LAMBERT 2 CENTER","LAMBERT 3 SOUTH","LAMBERT 4 CORSICA","LAMBERT 2 EXTENDED","LAMBERT 93","UTM ZONE, E.G."], + defaut = "NO DEFAULT VALUE", + fr = """Numero de zone (fuseau ou type de projection) lors de +l''utilisation d''une projection plane. Indiquer le systeme +geographique dans lequel est construit le modele numerique avec le +mot-cle \telkey{SYSTEME GEOGRAPHIQUE}. +Les choix possibles sont : +\begin{itemize} +\item 1 : Lambert 1 nord ; +\item 2 : Lambert 2 centre ; +\item 3 : Lambert 3 sud ; +\item 4 : Lambert 4 Corse ; +\item 22 : Lambert 2 etendu ; +\item 93 : Lambert 93 ; +\item X : Valeur UTM de la zone WGS84 (X est le numero de la zone). +\end{itemize}""", + ang = """Number of zone when using a plane projection. +Indicate the geographic system in which the numerical model is built +with the keyword \telkey{GEOGRAPHIC SYSTEM}. +Possible choices are: +\begin{itemize} +\item 1: Lambert 1 north, +\item 2: Lambert 2 center, +\item 3: Lambert 3 south, +\item 4: Lambert 4 Corsica, +\item 22: Lambert 22 extended, +\item 93: Lambert 93 extended, +\item X: UTM zone with WGS84 (X is the number of the zone). +\end{itemize}""", + ), + ), +# ----------------------------------- + LAMBERT_93_CONVERSION_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Nom du fichier GR3DF97A, grille de conversion pour Lambert 93.""", + ang = """Name of file GR3DF97A, conversion grid for Lambert 93.""", + ), +# ----------------------------------- + COEFFICIENT_TO_CALIBRATE_SEA_LEVEL = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 0., + fr = """Coefficient pour ajuster le niveau de mer""", + ang = """Coefficient to calibrate the sea level""", + ), +# ----------------------------------- + GLOBAL_NUMBER_OF_THE_POINT_TO_CALIBRATE_HIGH_WATER = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 0, + fr = """Numero global du point par rapport auquel les ondes de maree sont +dephasees pour debuter le calcul par une pleine mer (en marees +schematiques seulement). Ne concerne que les bases de constantes +harmoniques de type TPXO.""", + ang = """Global number of the point with respect to which the tidal +constituents have their phase shifted to start the calculation with a +high water (for schematic tides only). Only harmonic constants databases +like TPXO are concerned.""", + ), +# ----------------------------------- + MINOR_CONSTITUENTS_INFERENCE = SIMP(statut ='f', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Pour la base de donnees TPXO uniquement. +Interpolation de composantes harmoniques mineures +a partir de celles lues dans les fichiers d''entree +lies aux mots-cles BASE BINAIRE 1 DE DONNEES DE MAREE +et BASE BINAIRE 2 DE DONNEES DE MAREE""", + ang = """For TPXO tidal data base only. +Inference of minor constituents from the one read in input files +linked to keywords BINARY DATABASE 1 FOR TIDE +and BINARY DATABASE 2 FOR TIDE""", + ), +# ----------------------------------- + BOUNDARY_CONDITIONS = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + OPTION_FOR_TIDAL_BOUNDARY_CONDITIONS = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', max='**', + into = ["No tide","Real tide (recommended methodology)","Astronomical tide","Mean spring tide","Mean tide","Mean neap tide","Astronomical neap tide","Real tide (methodology before 2010)"], + fr = """Option pour les conditions aux limites de maree. Pour des marees +reelles, l option 1 est recommandee. Depuis la version 7.1, ce mot-cle +est un tableau avec une valeur donnee par frontiere liquide, separee par +point-virgules. Ceci permet d''avoir des conditions de maree (ou pas) +calculees sur des frontieres liquides avec vitesses ou hauteur d eau +imposees. Ca evite un conflit lors de l utilisation de seuils dans le +domaine. 0 est le code pour des conditions autres que des conditions de +maree. ATTENTION depuis la version 7.1 ! Les anciens modeles doivent +etre changes si la frontiere de maree n a pas le numero 1. Dans ce cas, +le mot-cle doit etre change et plus de valeurs doivent etre donnees. +Calage possible par les mots-cles COEFFICIENT POUR CALAGE EN MARNAGE et +COEFFICIENT POUR CALAGE EN NIVEAU.""", + ang = """Option for tidal boundary conditions. For real tides, option 1 is +recommended. This keyword has been an array with a value given per +liquid boundary, separated by semicolons, since version 7.1. This +enables to have tidal conditions (or not) computed on liquid boundaries +with prescribed velocities or depths, avoiding a clash when using weirs +in the domain. 0 codes for conditions other than tidal. BEWARE since +version 7.1! Old models must be changed if their tidal boundary is not +number 1. In that case this keyword must be changed and more values +given. Possible calibration with the keywords COEFFICIENT TO ADJUST +TIDAL RANGE, COEFFICENT TO CALIBRATE TIDAL VELOCITIES, and COEFFICIENT +TO ADJUST SEA LEVEL.""", + ), +# ----------------------------------- + TIDAL_DATA_BASE = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ["NO DEFAULT VALUE","JMJ","TPXO","MISCELLANEOUS (LEGOS-NEA, FES20XX, PREVIMER...)"], + defaut = "NO DEFAULT VALUE", + fr = """Pour JMJ, renseigner la localisation du fichier bdd\_jmj et geofin +dans les mots-cles BASE DE DONNEES DE MAREE et FICHIER DU MODELE DE +MAREE. Pour TPXO, LEGOS-NEA, FES20XX et PREVIMER, l''utilisateur doit +telecharger les fichiers de constantes harmoniques sur internet""", + ang = """For JMJ, indicate the location of the files bdd\_jmj and geofin with +keywords TIDE DATA BASE and TIDAL MODEL FILE. For TPXO, LEGOS-NEA, +FES20XX and PREVIMER, the user has to download files of harmonic +constituents on the internet""", + ), +# ----------------------------------- + b_TIDAL_DATA_BASEG = BLOC(condition="TIDAL_DATA_BASE == 'TPXO'", +# ----------------------------------- + ), +# ----------------------------------- + HARMONIC_CONSTANTS_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Constantes harmoniques extraites du fichier du modele de maree""", + ang = """Harmonic constants extracted from the tidalmodel file""", + ), +# ----------------------------------- + TIDAL_MODEL_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Fichier de geometrie du modele dont sont extraites +les constantes harmoniques""", + ang = """Geometry file of the model from which harmonic constituents +are extracted""", + ), +# ----------------------------------- + TIDAL_MODEL_FILE_FORMAT = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + into = ['SERAFIN?','SERAFIND','MED'], + defaut = 'SERAFIN?', + fr = """Format du \telkey{FICHIER DU MODELE DE MAREE}. +Les valeurs possibles sont : +\begin{itemize} +\item SERAFIN : format standard simple precision pour \tel ; +\item SERAFIND: format standard double precision pour \tel ; +\item MED : format MED double precision base sur HDF5. +\end{itemize}""", + ang = """Format of the \telkey{TIDAL MODEL FILE}. +Possible choices are: +\begin{itemize} +\item SERAFIN : classical single precision format in \tel, +\item SERAFIND: classical double precision format in \tel, +\item MED : MED double precision format based on HDF5. +\end{itemize}""", + ), +# ----------------------------------- + ASCII_DATABASE_FOR_TIDE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Base de donnees de constantes harmoniques +tirees du fichier du modele de maree. +Ancien nom en version 6.1 : BASE DE DONNEES DE MAREE""", + ang = """Tide data base of harmonic constituents +extracted from the tidal model file. +Old name in 6.1 version: TIDE DATA BASE""", + ), +# ----------------------------------- + COEFFICIENT_TO_CALIBRATE_TIDAL_RANGE = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 1., + fr = """Coefficient pour ajuster le marnage de l''onde de maree +aux frontieres maritimes""", + ang = """Coefficient to calibrate the tidal range of tidal wave +at tidal open boundary conditions""", + ), +# ----------------------------------- + COEFFICIENT_TO_CALIBRATE_TIDAL_VELOCITIES = SIMP(statut ='o', +# ----------------------------------- + typ = 'R', + defaut = 999999., + fr = """Coefficient pour ajuster les composantes de vitesse +de l''onde de maree aux frontieres maritimes. +La valeur par defaut 999999. signifie que c''est la racine carree +du COEFFICIENT DE CALAGE DU MARNAGE qui est prise""", + ang = """Coefficient to calibrate the tidal velocities of tidal wave +at tidal open boundary conditions. +Default value 999999. means that the square root of +COEFFICIENT TO CALIBRATE TIDAL RANGE is taken""", + ), +# ----------------------------------- + LOCAL_NUMBER_OF_THE_POINT_TO_CALIBRATE_HIGH_WATER = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 0, + fr = """Numero local du point entre 1 et le nombre de points de frontiere +maritime (du FICHIER DES CONSTANTES HARMONIQUES) ou les conditions aux +limites de maree sont calculees avec les bases de donnees JMJ, NEA, FES, +PREVIMER (sauf les bases de type TPXO). Les ondes de maree sont +dephasees par rapport a ce point pour debuter le calcul par une pleine +mer (en marees schematiques seulement).""", + ang = """Local number between 1 and the number of tidal boundary points (of the +HARMONIC CONSTANTS FILE) where the tidal boundary conditions are +computed with JMJ, NEA, FES, PREVIMER databases (except TPXO-type +databases). The tidal constituents have their phase shifted with respect +to this point to start the simulation with a high water (for schematic +tides only).""", + ), + ), +# ----------------------------------- + PHYSICAL_PARAMETERS = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + TIDE_GENERATING_FORCE = SIMP(statut ='o', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Active la prise en compte de la force generatrice de la maree""", + ang = """The tide generating force is taken into account.""", + ), +# ----------------------------------- + b_TIDE_GENERATING_FORCEG = BLOC(condition="TIDE_GENERATING_FORCE == True", +# ----------------------------------- + ), + ), +) +# ----------------------------------------------------------------------- +COUPLING = PROC(nom= "COUPLING",op = None, +# ----------------------------------------------------------------------- +# ----------------------------------- + COUPLING_WITH = SIMP(statut ='o', +# ----------------------------------- + typ = 'TXM', + into = ['SISYPHE','TOMAWAC','DELWAQ'], + defaut = '', + fr = """Liste des codes avec lesquels on couple Telemac-2D + SISYPHE : couplage interne avec Sisyphe + TOMAWAC : couplage interne avec Tomawac + DELWAQ : sortie de fichiers de resultats pour Delwaq""", + ang = """List of codes to be coupled with Telemac-2D + SISYPHE : internal coupling with Sisyphe + TOMAWAC : internal coupling with Tomawac + DELWAQ: will yield results file for Delwaq""", + ), +# ----------------------------------- + NAMES_OF_CLANDESTINE_VARIABLES = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', min= 2, max= 2, + fr = """Noms de variables qui ne sont pas utilisees par TELEMAC; +mais qui doivent etre conservees lors de son execution. +Ceci peut etre utilise entre autres lors du couplage de TELEMAC +avec un autre code. +Les variables clandestines sont alors des variables propres a l''autre +code et sont rendues dans le fichier de resultats.""", + ang = """Names of variables that are not used by TELEMAC, but should be +preserved when it is being run. This keyword may be used, for instance +when it if TELEMAC is coupled with another code. Thus, the clandestine +variables belong to the other code and are given back in the results +file.""", + ), +# ----------------------------------- + COUPLING_DIRECTORY = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + defaut = '', + fr = """Nom complet du dossier d echange des fichiers + pour couplage de codes""", + ang = """Name with full path of the directory where the files will + be exchanged for coupling""", + ), +# ----------------------------------- + DELWAQ = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + DELWAQ_STEERING_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)','Sauvegarde'), + defaut = '', + fr = """Fichier de resultats pour le couplage avec Delwaq""", + ang = """Results file for coupling with Delwaq""", + ), +# ----------------------------------- + DELWAQ_PRINTOUT_PERIOD = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 1, + fr = """Periode de sortie des resultats pour Delwaq""", + ang = """Printout period for Delwaq file""", + ), +# ----------------------------------- + EXCHANGES_BETWEEN_NODES_DELWAQ_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)','Sauvegarde'), + defaut = '', + fr = """Fichier de resultats pour le couplage avec Delwaq""", + ang = """Results file for coupling with Delwaq""", + ), +# ----------------------------------- + NODES_DISTANCES_DELWAQ_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)','Sauvegarde'), + defaut = '', + fr = """Fichier de resultats pour le couplage avec Delwaq""", + ang = """Results file for coupling with Delwaq""", + ), +# ----------------------------------- + BOTTOM_SURFACES_DELWAQ_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)','Sauvegarde'), + defaut = '', + fr = """Fichier de resultats pour le couplage avec Delwaq""", + ang = """Results file for coupling with Delwaq""", + ), +# ----------------------------------- + VOLUMES_DELWAQ_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)','Sauvegarde'), + defaut = '', + fr = """Fichier de resultats pour le couplage avec Delwaq""", + ang = """Results file for coupling with Delwaq""", + ), +# ----------------------------------- + EXCHANGE_AREAS_DELWAQ_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)','Sauvegarde'), + defaut = '', + fr = """Fichier de resultats pour le couplage avec Delwaq""", + ang = """Results file for coupling with Delwaq""", + ), +# ----------------------------------- + VERTICAL_FLUXES_DELWAQ_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)','Sauvegarde'), + defaut = '', + fr = """Fichier de resultats pour le couplage avec Delwaq""", + ang = """Results file for coupling with Delwaq""", + ), +# ----------------------------------- + VELOCITY_DELWAQ_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)','Sauvegarde'), + defaut = '', + fr = """Fichier de resultats pour le couplage avec Delwaq""", + ang = """Results file for coupling with Delwaq""", + ), +# ----------------------------------- + DIFFUSIVITY_DELWAQ_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)','Sauvegarde'), + defaut = '', + fr = """Fichier de resultats pour le couplage avec Delwaq""", + ang = """Results file for coupling with Delwaq""", + ), +# ----------------------------------- + TEMPERATURE_DELWAQ_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)','Sauvegarde'), + defaut = '', + fr = """Fichier de resultats pour le couplage avec Delwaq""", + ang = """Results file for coupling with Delwaq""", + ), +# ----------------------------------- + SALINITY_DELWAQ_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)','Sauvegarde'), + defaut = '', + fr = """Fichier de resultats pour le couplage avec Delwaq""", + ang = """Results file for coupling with Delwaq""", + ), +# ----------------------------------- + VELOCITY_FOR_DELWAQ = SIMP(statut ='f', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Decide de la sortie de la vitesse pour Delwaq""", + ang = """Triggers output of velocity for Delwaq""", + ), +# ----------------------------------- + DIFFUSIVITY_FOR_DELWAQ = SIMP(statut ='f', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Decide de la sortie du coefficient de diffusion pour Delwaq""", + ang = """Triggers output of diffusion for Delwaq""", + ), +# ----------------------------------- + TEMPERATURE_FOR_DELWAQ = SIMP(statut ='f', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Decide de la sortie de la temperature pour Delwaq""", + ang = """Triggers output of temperature for Delwaq""", + ), +# ----------------------------------- + SALINITY_FOR_DELWAQ = SIMP(statut ='f', +# ----------------------------------- + typ = bool, + defaut = False, + fr = """Decide de la sortie de la salinite pour Delwaq""", + ang = """Triggers output of salinity for Delwaq""", + ), + ), +# ----------------------------------- + SISYPHE = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + SISYPHE_STEERING_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + defaut = '', + fr = """Fichier des parametres de Sisyphe en cas de couplage interne""", + ang = """Sisyphe parameter file in case of internal coupling""", + ), +# ----------------------------------- + COUPLING_PERIOD_FOR_SISYPHE = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 1, + fr = """pour eviter de faire le couplage a chaque pas de temps""", + ang = """to avoid coupling at every time-step""", + ), + ), +# ----------------------------------- + TOMAWAC = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + TOMAWAC_STEERING_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + defaut = '', + fr = """Fichier des parametres de Tomawac en cas de couplage interne""", + ang = """Tomawac parameter file in case of internal coupling""", + ), +# ----------------------------------- + COUPLING_PERIOD_FOR_TOMAWAC = SIMP(statut ='f', +# ----------------------------------- + typ = 'I', + defaut = 1, + fr = """pour eviter de faire le couplage a chaque pas de temps""", + ang = """to avoid coupling at every time-step""", + ), + ), +# ----------------------------------- + WAQTEL = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + WAQTEL_STEERING_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + defaut = '', + fr = """fichier des parametres physiques pour les processus de qualite d eau +(internes non ceux de DELWAQ)""", + ang = """file for physical parameters of waq processes (local ones of +Telemac-tracer not those of DELWAQ)""", + ), + ), +# ----------------------------------- + KHIONE = FACT(statut='o', +# ----------------------------------- +# ----------------------------------- + KHIONE_STEERING_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + defaut = '', + fr = """Fichier des parametres physiques pour les processus liees aux glaces""", + ang = """Steering file for physical parameters of ice processes""", + ), + ), +) +# ----------------------------------------------------------------------- +INTERNAL = PROC(nom= "INTERNAL",op = None, +# ----------------------------------------------------------------------- +# ----------------------------------- + LANGUAGE = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + into = ["FRANCAIS","ANGLAIS"], + defaut = "ANGLAIS", + fr = """1 : FRANCAIS 2 : ANGLAIS""", + ang = """1: FRENCH 2: ENGLISH""", + ), +# ----------------------------------- + STEERING_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = '', + fr = """Nom du fichier contenant les parametres du calcul a realiser.""", + ang = """Name of the file containing the parameters of the computation +Written by the user.""", + ), +# ----------------------------------- + DICTIONARY = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), + defaut = 'telemac2d.dico', + fr = """Dictionnaire des mots cles.""", + ang = """Key word dictionary.""", + ), +# ----------------------------------- + PARTITIONING_TOOL = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + into = ['METIS','SCOTCH','PARMETIS','PTSCOTCH'], + defaut = 'METIS', + fr = """CHOIX DU PARTITIONNEUR +1 : METIS +2 : SCOTCH +3 : PARMETIS +4 : PTSCOTCH +etc...""", + ang = """PARTITIONING TOOL SELECTION +1 : METIS +2 : SCOTCH +3 : PARMETIS +4 : PTSCOTCH +etc...""", + ), +# ----------------------------------- + RELEASE = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + defaut = 'TRUNK', + fr = """Numero de version des bibliotheques utilisees par TELEMAC. +SUR UNE STATION DE TRAVAIL +5 versions sont donnees correspondant a : +TELEMAC,DAMO,UTILE,BIEF,HP""", + ang = """version number of the libraries used by TELEMAC. +ON A WORKSTATION +5 numbers are given, corresponding to the libraries called: +TELEMAC,DAMO,UTILE,BIEF,HP""", + ), +# ----------------------------------- + LIST_OF_FILES = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', min=46, max=46, + defaut = 'STEERING FILE;DICTIONARY;FORTRAN FILE;GEOMETRY FILE;BOUNDARY CONDITIONS FILE;RESULTS FILE;PREVIOUS COMPUTATION FILE;BOTTOM TOPOGRAPHY FILE;BINARY DATA FILE 1;BINARY DATA FILE 2;FORMATTED DATA FILE 1;FORMATTED DATA FILE 2;BINARY RESULTS FILE;FORMATTED RESULTS FILE;REFERENCE FILE;LIQUID BOUNDARIES FILE;FRICTION DATA FILE;VOLUMES DELWAQ FILE;EXCHANGE AREAS DELWAQ FILE;VERTICAL FLUXES DELWAQ FILE;SALINITY DELWAQ FILE;VELOCITY DELWAQ FILE;DIFFUSIVITY DELWAQ FILE;BOTTOM SURFACES DELWAQ FILE;EXCHANGES BETWEEN NODES DELWAQ FILE;NODES DISTANCES DELWAQ FILE;TEMPERATURE DELWAQ FILE;DELWAQ STEERING FILE;STAGE-DISCHARGE CURVES FILE;SOURCES FILE;SECTIONS INPUT FILE;SECTIONS OUTPUT FILE;OIL SPILL STEERING FILE;HARMONIC CONSTANTS FILE;TIDAL MODEL FILE;ASCII DATABASE FOR TIDE;BINARY DATABASE 1 FOR TIDE;BINARY DATABASE 2 FOR TIDE;WEIRS DATA FILE;CULVERTS DATA FILE;BREACHES DATA FILE;DROGUES FILE;ZONES FILE;FLUXLINE INPUT FILE;ASCII ATMOSPHERIC DATA FILE;BINARY ATMOSPHERIC DATA FILE', + fr = """Noms des fichiers exploites par le code""", + ang = """File names of the used files""", + ), +# ----------------------------------- + DESCRIPTION_OF_LIBRARIES = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', min=11, max=11, + defaut = 'builds|PPP|lib|telemac2dMMMVVV.LLL;builds|PPP|lib|sisypheMMMVVV.LLL;builds|PPP|lib|tomawacMMMVVV.LLL;builds|PPP|lib|nestorMMMVVV.LLL;builds|PPP|lib|waqtelMMMVVV.LLL;builds|PPP|lib|stbtelMMMVVV.LLL;builds|PPP|lib|biefMMMVVV.LLL;builds|PPP|lib|hermesMMMVVV.LLL;builds|PPP|lib|damoMMMVVV.LLL;builds|PPP|lib|parallelMMMVVV.LLL;builds|PPP|lib|specialMMMVVV.LLL', + fr = """Description des librairies de T2D""", + ang = """LIBRARIES description""", + ), +# ----------------------------------- + DEFAULT_EXECUTABLE = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + defaut = 'builds|PPP|bin|telemac2dMMMVVV.exe', + fr = """Executable par defaut de T2D""", + ang = """Default executable for T2D""", + ), +# ----------------------------------- + DEFAULT_PARALLEL_EXECUTABLE = SIMP(statut ='f', +# ----------------------------------- + typ = 'TXM', + defaut = 'builds|PPP|bin|telemac2dMMMVVV.exe', + fr = """Executable parallele par defaut de T2D""", + ang = """Default parallel executable for T2D""", + ), +) +# ----------------------------------------------------------------------- +MISCELLANEOUS = PROC(nom= "MISCELLANEOUS",op = None, +# ----------------------------------------------------------------------- + UIinfo = {"groupes": ("CACHE")}, +# ----------------------------------- + NESTOR_ACTION_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), max='**', + defaut = '', + fr = """Nom du fichier de commandes de nestor""", + ang = """Name of the Nestor steering file""", + ), +# ----------------------------------- + NESTOR_POLYGON_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), max='**', + defaut = '', + fr = """Nom du fichier de polygons de Nestor""", + ang = """Name of the Nestor polygon file""", + ), +# ----------------------------------- + NESTOR_SURFACE_REFERENCE_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), max='**', + defaut = '', + fr = """Nom du fichier de reference surface de Nestor""", + ang = """Name of the Nestor file which contains the reference + water surface""", + ), +# ----------------------------------- + NESTOR_RESTART_FILE = SIMP(statut ='f', +# ----------------------------------- + typ = ('Fichier','All Files (*)'), max='**', + defaut = '', + fr = """Nom du fichier de Nestor restart""", + ang = """Name of the Nestor restart file""", + ), +) +TEXTE_NEW_JDC = "\ +COMPUTATION_ENVIRONMENT();\ +HYDRO();\ +GENERAL_PARAMETERS();\ +NUMERICAL_PARAMETERS();\ +TURBULENCE();\ +MISCELLANEOUS();\ +" +Ordre_Des_Commandes = ( +'COMPUTATION_ENVIRONMENT', +'HYDRO', +'GENERAL_PARAMETERS', +'NUMERICAL_PARAMETERS', +'TURBULENCE', +'TIDAL_FLATS_INFO', +'TRACERS', +'PARTICLE_TRANSPORT', +'HYDRAULIC_STRUCTURES', +'TIDES', +'COUPLING', +'INTERNAL', +'MISCELLANEOUS') +try: + import TelApy + source = "eficas" +except Exception as excpt: + source = "Telemac" +enum = source+'.telemac2d_enum_auto' +dicoCasEn = source+'.telemac2d_dicoCasEnToCata' +dicoCasFr = source+'.telemac2d_dicoCasFrToCata' diff --git a/Telemac/telemac2d_dicoCasEnToCata.py b/Telemac/telemac2d_dicoCasEnToCata.py new file mode 100644 index 00000000..88eb63c3 --- /dev/null +++ b/Telemac/telemac2d_dicoCasEnToCata.py @@ -0,0 +1,650 @@ +dicoCataToEngTelemac = { + "TITLE" : "TITLE", + "INITIAL_CONDITIONS" : "INITIAL CONDITIONS", + "INITIAL_ELEVATION" : "INITIAL ELEVATION", + "INITIAL_DEPTH" : "INITIAL DEPTH", + "BINARY_DATA_FILE_1_FORMAT" : "BINARY DATA FILE 1 FORMAT", + "BINARY_DATA_FILE_1" : "BINARY DATA FILE 1", + "BINARY_DATA_FILE_2_FORMAT" : "BINARY DATA FILE 2 FORMAT", + "BINARY_DATA_FILE_2" : "BINARY DATA FILE 2", + "FORMATTED_DATA_FILE_1" : "FORMATTED DATA FILE 1", + "FORMATTED_DATA_FILE_2" : "FORMATTED DATA FILE 2", + "GEOMETRY_FILE_FORMAT" : "GEOMETRY FILE FORMAT", + "GEOMETRY_FILE" : "GEOMETRY FILE", + "FORTRAN_FILE" : "FORTRAN FILE", + "BOTTOM_TOPOGRAPHY_FILE" : "BOTTOM TOPOGRAPHY FILE", + "BOTTOM_SMOOTHINGS" : "BOTTOM SMOOTHINGS", + "BOUNDARY_CONDITIONS_FILE" : "BOUNDARY CONDITIONS FILE", + "VALIDATION" : "VALIDATION", + "REFERENCE_FILE_FORMAT" : "REFERENCE FILE FORMAT", + "REFERENCE_FILE" : "REFERENCE FILE", + "PARALLEL_PROCESSORS" : "PARALLEL PROCESSORS", + "CHECKING_THE_MESH" : "CHECKING THE MESH", + "MAXIMUM_NUMBER_OF_BOUNDARIES" : "MAXIMUM NUMBER OF BOUNDARIES", + "MAXIMUM_NUMBER_OF_SOURCES" : "MAXIMUM NUMBER OF SOURCES", + "MAXIMUM_NUMBER_OF_TRACERS" : "MAXIMUM NUMBER OF TRACERS", + "VECTOR_LENGTH" : "VECTOR LENGTH", + "COMPUTATION_CONTINUED" : "COMPUTATION CONTINUED", + "PREVIOUS_COMPUTATION_FILE_FORMAT" : "PREVIOUS COMPUTATION FILE FORMAT", + "PREVIOUS_COMPUTATION_FILE" : "PREVIOUS COMPUTATION FILE", + "RECORD_NUMBER_FOR_RESTART" : "RECORD NUMBER FOR RESTART", + "INITIAL_TIME_SET_TO_ZERO" : "INITIAL TIME SET TO ZERO", + "NUMBER_OF_FIRST_TIME_STEP_FOR_GRAPHIC_PRINTOUTS" : "NUMBER OF FIRST TIME STEP FOR GRAPHIC PRINTOUTS", + "GRAPHIC_PRINTOUT_PERIOD" : "GRAPHIC PRINTOUT PERIOD", + "VARIABLES_FOR_GRAPHIC_PRINTOUTS" : "VARIABLES FOR GRAPHIC PRINTOUTS", + "NUMBER_OF_PRIVATE_ARRAYS" : "NUMBER OF PRIVATE ARRAYS", + "NAMES_OF_PRIVATE_VARIABLES" : "NAMES OF PRIVATE VARIABLES", + "RESULTS_FILE_FORMAT" : "RESULTS FILE FORMAT", + "RESULTS_FILE" : "RESULTS FILE", + "RESULT_FILE_IN_LONGITUDE_LATITUDE" : "RESULT FILE IN LONGITUDE-LATITUDE", + "BINARY_RESULTS_FILE_FORMAT" : "BINARY RESULTS FILE FORMAT", + "BINARY_RESULTS_FILE" : "BINARY RESULTS FILE", + "FORMATTED_RESULTS_FILE" : "FORMATTED RESULTS FILE", + "CONTROL_SECTIONS" : "CONTROL SECTIONS", + "PRINTING_CUMULATED_FLOWRATES" : "PRINTING CUMULATED FLOWRATES", + "COMPATIBLE_COMPUTATION_OF_FLUXES" : "COMPATIBLE COMPUTATION OF FLUXES", + "SECTIONS_INPUT_FILE" : "SECTIONS INPUT FILE", + "SECTIONS_OUTPUT_FILE" : "SECTIONS OUTPUT FILE", + "FLUXLINE" : "FLUXLINE", + "FLUXLINE_INPUT_FILE" : "FLUXLINE INPUT FILE", + "NUMBER_OF_FIRST_TIME_STEP_FOR_LISTING_PRINTOUTS" : "NUMBER OF FIRST TIME STEP FOR LISTING PRINTOUTS", + "LISTING_PRINTOUT_PERIOD" : "LISTING PRINTOUT PERIOD", + "LISTING_FOR_PRINTOUT_PERIOD" : "LISTING FOR PRINTOUT PERIOD", + "LISTING_PRINTOUT" : "LISTING PRINTOUT", + "VARIABLES_TO_BE_PRINTED" : "VARIABLES TO BE PRINTED", + "MASS_BALANCE" : "MASS-BALANCE", + "INFORMATION_ABOUT_SOLVER" : "INFORMATION ABOUT SOLVER", + "LIST_OF_POINTS" : "LIST OF POINTS", + "NAMES_OF_POINTS" : "NAMES OF POINTS", + "FOURIER_ANALYSIS_PERIODS" : "FOURIER ANALYSIS PERIODS", + "TIME_RANGE_FOR_FOURIER_ANALYSIS" : "TIME RANGE FOR FOURIER ANALYSIS", + "PRESCRIBED_ELEVATIONS" : "PRESCRIBED ELEVATIONS", + "PRESCRIBED_FLOWRATES" : "PRESCRIBED FLOWRATES", + "PRESCRIBED_VELOCITIES" : "PRESCRIBED VELOCITIES", + "STAGE_DISCHARGE_CURVES" : "STAGE-DISCHARGE CURVES", + "STAGE_DISCHARGE_CURVES_FILE" : "STAGE-DISCHARGE CURVES FILE", + "VELOCITY_PROFILES" : "VELOCITY PROFILES", + "OPTION_FOR_LIQUID_BOUNDARIES" : "OPTION FOR LIQUID BOUNDARIES", + "LIQUID_BOUNDARIES_FILE" : "LIQUID BOUNDARIES FILE", + "ELEMENTS_MASKED_BY_USER" : "ELEMENTS MASKED BY USER", + "MAXIMUM_NUMBER_OF_FRICTION_DOMAINS" : "MAXIMUM NUMBER OF FRICTION DOMAINS", + "FRICTION_DATA" : "FRICTION DATA", + "FRICTION_DATA_FILE" : "FRICTION DATA FILE", + "LAW_OF_BOTTOM_FRICTION" : "LAW OF BOTTOM FRICTION", + "FRICTION_COEFFICIENT" : "FRICTION COEFFICIENT", + "MANNING_DEFAULT_VALUE_FOR_COLEBROOK_WHITE_LAW" : "MANNING DEFAULT VALUE FOR COLEBROOK-WHITE LAW", + "DEPTH_IN_FRICTION_TERMS" : "DEPTH IN FRICTION TERMS", + "NON_SUBMERGED_VEGETATION_FRICTION" : "NON-SUBMERGED VEGETATION FRICTION", + "DIAMETER_OF_ROUGHNESS_ELEMENTS" : "DIAMETER OF ROUGHNESS ELEMENTS", + "SPACING_OF_ROUGHNESS_ELEMENTS" : "SPACING OF ROUGHNESS ELEMENTS", + "LAW_OF_FRICTION_ON_LATERAL_BOUNDARIES" : "LAW OF FRICTION ON LATERAL BOUNDARIES", + "ROUGHNESS_COEFFICIENT_OF_BOUNDARIES" : "ROUGHNESS COEFFICIENT OF BOUNDARIES", + "DEFINITION_OF_ZONES" : "DEFINITION OF ZONES", + "ZONES_FILE" : "ZONES FILE", + "ICE_PROCESSES" : "ICE PROCESSES", + "WIND" : "WIND", + "OPTION_FOR_WIND" : "OPTION FOR WIND", + "COEFFICIENT_OF_WIND_INFLUENCE" : "COEFFICIENT OF WIND INFLUENCE", + "WIND_VELOCITY_ALONG_X" : "WIND VELOCITY ALONG X", + "WIND_VELOCITY_ALONG_Y" : "WIND VELOCITY ALONG Y", + "SPEED_AND_DIRECTION_OF_WIND" : "SPEED AND DIRECTION OF WIND", + "THRESHOLD_DEPTH_FOR_WIND" : "THRESHOLD DEPTH FOR WIND", + "AIR_PRESSURE" : "AIR PRESSURE", + "VALUE_OF_ATMOSPHERIC_PRESSURE" : "VALUE OF ATMOSPHERIC PRESSURE", + "RAIN_OR_EVAPORATION" : "RAIN OR EVAPORATION", + "RAIN_OR_EVAPORATION_IN_MM_PER_DAY" : "RAIN OR EVAPORATION IN MM PER DAY", + "RAINFALL_RUNOFF_MODEL" : "RAINFALL-RUNOFF MODEL", + "ANTECEDENT_MOISTURE_CONDITIONS" : "ANTECEDENT MOISTURE CONDITIONS", + "DURATION_OF_RAIN_OR_EVAPORATION_IN_HOURS" : "DURATION OF RAIN OR EVAPORATION IN HOURS", + "ASCII_ATMOSPHERIC_DATA_FILE" : "ASCII ATMOSPHERIC DATA FILE", + "BINARY_ATMOSPHERIC_DATA_FILE" : "BINARY ATMOSPHERIC DATA FILE", + "BINARY_ATMOSPHERIC_DATA_FILE_FORMAT" : "BINARY ATMOSPHERIC DATA FILE FORMAT", + "OPTION_FOR_INITIAL_ABSTRACTION_RATIO" : "OPTION FOR INITIAL ABSTRACTION RATIO", + "WAVE_DRIVEN_CURRENTS" : "WAVE DRIVEN CURRENTS", + "RECORD_NUMBER_IN_WAVE_FILE" : "RECORD NUMBER IN WAVE FILE", + "WAVE_ENHANCED_FRICTION_FACTOR" : "WAVE ENHANCED FRICTION FACTOR", + "PARAMETER_ESTIMATION" : "PARAMETER ESTIMATION", + "COST_FUNCTION" : "COST FUNCTION", + "IDENTIFICATION_METHOD" : "IDENTIFICATION METHOD", + "TOLERANCES_FOR_IDENTIFICATION" : "TOLERANCES FOR IDENTIFICATION", + "MAXIMUM_NUMBER_OF_ITERATIONS_FOR_IDENTIFICATION" : "MAXIMUM NUMBER OF ITERATIONS FOR IDENTIFICATION", + "ABSCISSAE_OF_SOURCES" : "ABSCISSAE OF SOURCES", + "ORDINATES_OF_SOURCES" : "ORDINATES OF SOURCES", + "WATER_DISCHARGE_OF_SOURCES" : "WATER DISCHARGE OF SOURCES", + "VELOCITIES_OF_THE_SOURCES_ALONG_X" : "VELOCITIES OF THE SOURCES ALONG X", + "VELOCITIES_OF_THE_SOURCES_ALONG_Y" : "VELOCITIES OF THE SOURCES ALONG Y", + "TYPE_OF_SOURCES" : "TYPE OF SOURCES", + "SOURCES_FILE" : "SOURCES FILE", + "GLOBAL_NUMBERS_OF_SOURCE_NODES" : "GLOBAL NUMBERS OF SOURCE NODES", + "WATER_QUALITY_PROCESS" : "WATER QUALITY PROCESS", + "WATER_DENSITY" : "WATER DENSITY", + "GRAVITY_ACCELERATION" : "GRAVITY ACCELERATION", + "VERTICAL_STRUCTURES" : "VERTICAL STRUCTURES", + "EQUATIONS" : "EQUATIONS", + "TREATMENT_OF_THE_LINEAR_SYSTEM" : "TREATMENT OF THE LINEAR SYSTEM", + "FINITE_VOLUME_SCHEME" : "FINITE VOLUME SCHEME", + "CORIOLIS" : "CORIOLIS", + "CORIOLIS_COEFFICIENT" : "CORIOLIS COEFFICIENT", + "OPTION_FOR_TSUNAMI_GENERATION" : "OPTION FOR TSUNAMI GENERATION", + "PHYSICAL_CHARACTERISTICS_OF_THE_TSUNAMI" : "PHYSICAL CHARACTERISTICS OF THE TSUNAMI", + "SECONDARY_CURRENTS" : "SECONDARY CURRENTS", + "PRODUCTION_COEFFICIENT_FOR_SECONDARY_CURRENTS" : "PRODUCTION COEFFICIENT FOR SECONDARY CURRENTS", + "DISSIPATION_COEFFICIENT_FOR_SECONDARY_CURRENTS" : "DISSIPATION COEFFICIENT FOR SECONDARY CURRENTS", + "DEBUGGER" : "DEBUGGER", + "TIME_STEP" : "TIME STEP", + "NUMBER_OF_TIME_STEPS" : "NUMBER OF TIME STEPS", + "DURATION" : "DURATION", + "ORIGINAL_DATE_OF_TIME" : "ORIGINAL DATE OF TIME", + "ORIGINAL_HOUR_OF_TIME" : "ORIGINAL HOUR OF TIME", + "STOP_IF_A_STEADY_STATE_IS_REACHED" : "STOP IF A STEADY STATE IS REACHED", + "STOP_CRITERIA" : "STOP CRITERIA", + "CONTROL_OF_LIMITS" : "CONTROL OF LIMITS", + "LIMIT_VALUES" : "LIMIT VALUES", + "VARIABLE_TIME_STEP" : "VARIABLE TIME-STEP", + "DESIRED_COURANT_NUMBER" : "DESIRED COURANT NUMBER", + "ORIGIN_COORDINATES" : "ORIGIN COORDINATES", + "SPHERICAL_COORDINATES" : "SPHERICAL COORDINATES", + "LATITUDE_OF_ORIGIN_POINT" : "LATITUDE OF ORIGIN POINT", + "LONGITUDE_OF_ORIGIN_POINT" : "LONGITUDE OF ORIGIN POINT", + "NORTH" : "NORTH", + "SPATIAL_PROJECTION_TYPE" : "SPATIAL PROJECTION TYPE", + "SOLVER" : "SOLVER", + "SOLVER_OPTION" : "SOLVER OPTION", + "SOLVER_ACCURACY" : "SOLVER ACCURACY", + "MAXIMUM_NUMBER_OF_ITERATIONS_FOR_SOLVER" : "MAXIMUM NUMBER OF ITERATIONS FOR SOLVER", + "CONTINUITY_CORRECTION" : "CONTINUITY CORRECTION", + "PRECONDITIONING" : "PRECONDITIONING", + "C_U_PRECONDITIONING" : "C-U PRECONDITIONING", + "FINITE_ELEMENT_ASSEMBLY" : "FINITE ELEMENT ASSEMBLY", + "IMPLICITATION_FOR_DEPTH" : "IMPLICITATION FOR DEPTH", + "IMPLICITATION_FOR_VELOCITY" : "IMPLICITATION FOR VELOCITY", + "DISCRETIZATIONS_IN_SPACE" : "DISCRETIZATIONS IN SPACE", + "PROPAGATION" : "PROPAGATION", + "INITIAL_GUESS_FOR_H" : "INITIAL GUESS FOR H", + "LINEARIZED_PROPAGATION" : "LINEARIZED PROPAGATION", + "INITIAL_GUESS_FOR_U" : "INITIAL GUESS FOR U", + "MEAN_DEPTH_FOR_LINEARIZATION" : "MEAN DEPTH FOR LINEARIZATION", + "ADVECTION" : "ADVECTION", + "ADVECTION_OF_H" : "ADVECTION OF H", + "ADVECTION_OF_U_AND_V" : "ADVECTION OF U AND V", + "TYPE_OF_ADVECTION" : "TYPE OF ADVECTION", + "OPTION_FOR_CHARACTERISTICS" : "OPTION FOR CHARACTERISTICS", + "SUPG_OPTION" : "SUPG OPTION", + "NUMBER_OF_GAUSS_POINTS_FOR_WEAK_CHARACTERISTICS" : "NUMBER OF GAUSS POINTS FOR WEAK CHARACTERISTICS", + "MASS_LUMPING_FOR_WEAK_CHARACTERISTICS" : "MASS-LUMPING FOR WEAK CHARACTERISTICS", + "MAXIMUM_NUMBER_OF_ITERATIONS_FOR_ADVECTION_SCHEMES" : "MAXIMUM NUMBER OF ITERATIONS FOR ADVECTION SCHEMES", + "UPWIND_COEFFICIENTS" : "UPWIND COEFFICIENTS", + "MASS_LUMPING_ON_H" : "MASS-LUMPING ON H", + "MASS_LUMPING_ON_VELOCITY" : "MASS-LUMPING ON VELOCITY", + "SCHEME_FOR_ADVECTION_OF_VELOCITIES" : "SCHEME FOR ADVECTION OF VELOCITIES", + "SCHEME_OPTION_FOR_ADVECTION_OF_VELOCITIES" : "SCHEME OPTION FOR ADVECTION OF VELOCITIES", + "FREE_SURFACE_GRADIENT_COMPATIBILITY" : "FREE SURFACE GRADIENT COMPATIBILITY", + "NUMBER_OF_SUB_ITERATIONS_FOR_NON_LINEARITIES" : "NUMBER OF SUB-ITERATIONS FOR NON-LINEARITIES", + "TREATMENT_OF_FLUXES_AT_THE_BOUNDARIES" : "TREATMENT OF FLUXES AT THE BOUNDARIES", + "NUMBER_OF_CORRECTIONS_OF_DISTRIBUTIVE_SCHEMES" : "NUMBER OF CORRECTIONS OF DISTRIBUTIVE SCHEMES", + "NUMBER_OF_SUB_STEPS_OF_DISTRIBUTIVE_SCHEMES" : "NUMBER OF SUB-STEPS OF DISTRIBUTIVE SCHEMES", + "PSI_SCHEME_OPTION" : "PSI SCHEME OPTION", + "DIFFUSION_OF_VELOCITY" : "DIFFUSION OF VELOCITY", + "OPTION_FOR_THE_DIFFUSION_OF_VELOCITIES" : "OPTION FOR THE DIFFUSION OF VELOCITIES", + "IMPLICITATION_FOR_DIFFUSION_OF_VELOCITY" : "IMPLICITATION FOR DIFFUSION OF VELOCITY", + "AD_NUMBER_OF_DERIVATIVES" : "AD NUMBER OF DERIVATIVES", + "AD_NAMES_OF_DERIVATIVES" : "AD NAMES OF DERIVATIVES", + "AD_SYMBOLIC_LINEAR_SOLVER" : "AD SYMBOLIC LINEAR SOLVER", + "AD_LINEAR_SOLVER_RESET_DERIVATIVES" : "AD LINEAR SOLVER RESET DERIVATIVES", + "AD_LINEAR_SOLVER_DERIVATIVE_CONVERGENCE" : "AD LINEAR SOLVER DERIVATIVE CONVERGENCE", + "MATRIX_STORAGE" : "MATRIX STORAGE", + "MATRIX_VECTOR_PRODUCT" : "MATRIX-VECTOR PRODUCT", + "NEWMARK_TIME_INTEGRATION_COEFFICIENT" : "NEWMARK TIME INTEGRATION COEFFICIENT", + "ZERO" : "ZERO", + "PROPAGATION_OPTION" : "PROPAGATION OPTION", + "OPTION_OF_THE_HYDROSTATIC_RECONSTRUCTION" : "OPTION OF THE HYDROSTATIC RECONSTRUCTION", + "CONVERGENCE_STUDY" : "CONVERGENCE STUDY", + "REFINEMENT_LEVELS" : "REFINEMENT LEVELS", + "VELOCITY_DIFFUSIVITY" : "VELOCITY DIFFUSIVITY", + "TURBULENCE_MODEL" : "TURBULENCE MODEL", + "ACCURACY_OF_SPALART_ALLMARAS" : "ACCURACY OF SPALART-ALLMARAS", + "INFORMATION_ABOUT_SPALART_ALLMARAS_MODEL" : "INFORMATION ABOUT SPALART-ALLMARAS MODEL", + "SOLVER_FOR_K_EPSILON_MODEL" : "SOLVER FOR K-EPSILON MODEL", + "OPTION_FOR_THE_SOLVER_FOR_K_EPSILON_MODEL" : "OPTION FOR THE SOLVER FOR K-EPSILON MODEL", + "PRECONDITIONING_FOR_K_EPSILON_MODEL" : "PRECONDITIONING FOR K-EPSILON MODEL", + "NON_DIMENSIONAL_DISPERSION_COEFFICIENTS" : "NON-DIMENSIONAL DISPERSION COEFFICIENTS", + "TURBULENCE_REGIME_FOR_SOLID_BOUNDARIES" : "TURBULENCE REGIME FOR SOLID BOUNDARIES", + "INFORMATION_ABOUT_K_EPSILON_MODEL" : "INFORMATION ABOUT K-EPSILON MODEL", + "ADVECTION_OF_K_AND_EPSILON" : "ADVECTION OF K AND EPSILON", + "SCHEME_FOR_ADVECTION_OF_K_EPSILON" : "SCHEME FOR ADVECTION OF K-EPSILON", + "SCHEME_OPTION_FOR_ADVECTION_OF_K_EPSILON" : "SCHEME OPTION FOR ADVECTION OF K-EPSILON", + "TIME_STEP_REDUCTION_FOR_K_EPSILON_MODEL" : "TIME STEP REDUCTION FOR K-EPSILON MODEL", + "ACCURACY_OF_K" : "ACCURACY OF K", + "ACCURACY_OF_EPSILON" : "ACCURACY OF EPSILON", + "MAXIMUM_NUMBER_OF_ITERATIONS_FOR_K_AND_EPSILON" : "MAXIMUM NUMBER OF ITERATIONS FOR K AND EPSILON", + "TIDAL_FLATS" : "TIDAL FLATS", + "OPTION_FOR_THE_TREATMENT_OF_TIDAL_FLATS" : "OPTION FOR THE TREATMENT OF TIDAL FLATS", + "TREATMENT_OF_NEGATIVE_DEPTHS" : "TREATMENT OF NEGATIVE DEPTHS", + "THRESHOLD_FOR_NEGATIVE_DEPTHS" : "THRESHOLD FOR NEGATIVE DEPTHS", + "THRESHOLD_DEPTH_FOR_RECEDING_PROCEDURE" : "THRESHOLD DEPTH FOR RECEDING PROCEDURE", + "H_CLIPPING" : "H CLIPPING", + "MINIMUM_VALUE_OF_DEPTH" : "MINIMUM VALUE OF DEPTH", + "PRESCRIBED_TRACERS_VALUES" : "PRESCRIBED TRACERS VALUES", + "NUMBER_OF_TRACERS" : "NUMBER OF TRACERS", + "NAMES_OF_TRACERS" : "NAMES OF TRACERS", + "INITIAL_VALUES_OF_TRACERS" : "INITIAL VALUES OF TRACERS", + "DENSITY_EFFECTS" : "DENSITY EFFECTS", + "MEAN_TEMPERATURE" : "MEAN TEMPERATURE", + "SOLVER_FOR_DIFFUSION_OF_TRACERS" : "SOLVER FOR DIFFUSION OF TRACERS", + "SOLVER_OPTION_FOR_TRACERS_DIFFUSION" : "SOLVER OPTION FOR TRACERS DIFFUSION", + "PRECONDITIONING_FOR_DIFFUSION_OF_TRACERS" : "PRECONDITIONING FOR DIFFUSION OF TRACERS", + "ACCURACY_FOR_DIFFUSION_OF_TRACERS" : "ACCURACY FOR DIFFUSION OF TRACERS", + "MAXIMUM_NUMBER_OF_ITERATIONS_FOR_DIFFUSION_OF_TRACERS" : "MAXIMUM NUMBER OF ITERATIONS FOR DIFFUSION OF TRACERS", + "VALUES_OF_THE_TRACERS_AT_THE_SOURCES" : "VALUES OF THE TRACERS AT THE SOURCES", + "VALUES_OF_TRACERS_IN_THE_RAIN" : "VALUES OF TRACERS IN THE RAIN", + "ADVECTION_OF_TRACERS" : "ADVECTION OF TRACERS", + "IMPLICITATION_COEFFICIENT_OF_TRACERS" : "IMPLICITATION COEFFICIENT OF TRACERS", + "DIFFUSION_OF_TRACERS" : "DIFFUSION OF TRACERS", + "COEFFICIENT_FOR_DIFFUSION_OF_TRACERS" : "COEFFICIENT FOR DIFFUSION OF TRACERS", + "OPTION_FOR_THE_DIFFUSION_OF_TRACERS" : "OPTION FOR THE DIFFUSION OF TRACERS", + "SCHEME_FOR_ADVECTION_OF_TRACERS" : "SCHEME FOR ADVECTION OF TRACERS", + "SCHEME_OPTION_FOR_ADVECTION_OF_TRACERS" : "SCHEME OPTION FOR ADVECTION OF TRACERS", + "MASS_LUMPING_ON_TRACERS" : "MASS-LUMPING ON TRACERS", + "NUMBER_OF_DROGUES" : "NUMBER OF DROGUES", + "PRINTOUT_PERIOD_FOR_DROGUES" : "PRINTOUT PERIOD FOR DROGUES", + "DROGUES_FILE" : "DROGUES FILE", + "ALGAE_TRANSPORT_MODEL" : "ALGAE TRANSPORT MODEL", + "ALGAE_TYPE" : "ALGAE TYPE", + "DIAMETER_OF_ALGAE" : "DIAMETER OF ALGAE", + "DENSITY_OF_ALGAE" : "DENSITY OF ALGAE", + "THICKNESS_OF_ALGAE" : "THICKNESS OF ALGAE", + "OIL_SPILL_MODEL" : "OIL SPILL MODEL", + "OIL_SPILL_STEERING_FILE" : "OIL SPILL STEERING FILE", + "STOCHASTIC_DIFFUSION_MODEL" : "STOCHASTIC DIFFUSION MODEL", + "NUMBER_OF_LAGRANGIAN_DRIFTS" : "NUMBER OF LAGRANGIAN DRIFTS", + "NUMBER_OF_WEIRS" : "NUMBER OF WEIRS", + "WEIRS_DATA_FILE" : "WEIRS DATA FILE", + "TYPE_OF_WEIRS" : "TYPE OF WEIRS", + "NUMBER_OF_CULVERTS" : "NUMBER OF CULVERTS", + "CULVERTS_DATA_FILE" : "CULVERTS DATA FILE", + "OPTION_FOR_CULVERTS" : "OPTION FOR CULVERTS", + "BREACH" : "BREACH", + "BREACHES_DATA_FILE" : "BREACHES DATA FILE", + "BINARY_DATABASE_1_FOR_TIDE" : "BINARY DATABASE 1 FOR TIDE", + "BINARY_DATABASE_2_FOR_TIDE" : "BINARY DATABASE 2 FOR TIDE", + "GEOGRAPHIC_SYSTEM" : "GEOGRAPHIC SYSTEM", + "ZONE_NUMBER_IN_GEOGRAPHIC_SYSTEM" : "ZONE NUMBER IN GEOGRAPHIC SYSTEM", + "LAMBERT_93_CONVERSION_FILE" : "LAMBERT 93 CONVERSION FILE", + "COEFFICIENT_TO_CALIBRATE_SEA_LEVEL" : "COEFFICIENT TO CALIBRATE SEA LEVEL", + "GLOBAL_NUMBER_OF_THE_POINT_TO_CALIBRATE_HIGH_WATER" : "GLOBAL NUMBER OF THE POINT TO CALIBRATE HIGH WATER", + "MINOR_CONSTITUENTS_INFERENCE" : "MINOR CONSTITUENTS INFERENCE", + "OPTION_FOR_TIDAL_BOUNDARY_CONDITIONS" : "OPTION FOR TIDAL BOUNDARY CONDITIONS", + "TIDAL_DATA_BASE" : "TIDAL DATA BASE", + "HARMONIC_CONSTANTS_FILE" : "HARMONIC CONSTANTS FILE", + "TIDAL_MODEL_FILE" : "TIDAL MODEL FILE", + "TIDAL_MODEL_FILE_FORMAT" : "TIDAL MODEL FILE FORMAT", + "ASCII_DATABASE_FOR_TIDE" : "ASCII DATABASE FOR TIDE", + "COEFFICIENT_TO_CALIBRATE_TIDAL_RANGE" : "COEFFICIENT TO CALIBRATE TIDAL RANGE", + "COEFFICIENT_TO_CALIBRATE_TIDAL_VELOCITIES" : "COEFFICIENT TO CALIBRATE TIDAL VELOCITIES", + "LOCAL_NUMBER_OF_THE_POINT_TO_CALIBRATE_HIGH_WATER" : "LOCAL NUMBER OF THE POINT TO CALIBRATE HIGH WATER", + "TIDE_GENERATING_FORCE" : "TIDE GENERATING FORCE", + "COUPLING_WITH" : "COUPLING WITH", + "NAMES_OF_CLANDESTINE_VARIABLES" : "NAMES OF CLANDESTINE VARIABLES", + "COUPLING_DIRECTORY" : "COUPLING DIRECTORY", + "DELWAQ_STEERING_FILE" : "DELWAQ STEERING FILE", + "DELWAQ_PRINTOUT_PERIOD" : "DELWAQ PRINTOUT PERIOD", + "EXCHANGES_BETWEEN_NODES_DELWAQ_FILE" : "EXCHANGES BETWEEN NODES DELWAQ FILE", + "NODES_DISTANCES_DELWAQ_FILE" : "NODES DISTANCES DELWAQ FILE", + "BOTTOM_SURFACES_DELWAQ_FILE" : "BOTTOM SURFACES DELWAQ FILE", + "VOLUMES_DELWAQ_FILE" : "VOLUMES DELWAQ FILE", + "EXCHANGE_AREAS_DELWAQ_FILE" : "EXCHANGE AREAS DELWAQ FILE", + "VERTICAL_FLUXES_DELWAQ_FILE" : "VERTICAL FLUXES DELWAQ FILE", + "VELOCITY_DELWAQ_FILE" : "VELOCITY DELWAQ FILE", + "DIFFUSIVITY_DELWAQ_FILE" : "DIFFUSIVITY DELWAQ FILE", + "TEMPERATURE_DELWAQ_FILE" : "TEMPERATURE DELWAQ FILE", + "SALINITY_DELWAQ_FILE" : "SALINITY DELWAQ FILE", + "VELOCITY_FOR_DELWAQ" : "VELOCITY FOR DELWAQ", + "DIFFUSIVITY_FOR_DELWAQ" : "DIFFUSIVITY FOR DELWAQ", + "TEMPERATURE_FOR_DELWAQ" : "TEMPERATURE FOR DELWAQ", + "SALINITY_FOR_DELWAQ" : "SALINITY FOR DELWAQ", + "SISYPHE_STEERING_FILE" : "SISYPHE STEERING FILE", + "COUPLING_PERIOD_FOR_SISYPHE" : "COUPLING PERIOD FOR SISYPHE", + "TOMAWAC_STEERING_FILE" : "TOMAWAC STEERING FILE", + "COUPLING_PERIOD_FOR_TOMAWAC" : "COUPLING PERIOD FOR TOMAWAC", + "WAQTEL_STEERING_FILE" : "WAQTEL STEERING FILE", + "KHIONE_STEERING_FILE" : "KHIONE STEERING FILE", + "LANGUAGE" : "LANGUAGE", + "STEERING_FILE" : "STEERING FILE", + "DICTIONARY" : "DICTIONARY", + "PARTITIONING_TOOL" : "PARTITIONING TOOL", + "RELEASE" : "RELEASE", + "LIST_OF_FILES" : "LIST OF FILES", + "DESCRIPTION_OF_LIBRARIES" : "DESCRIPTION OF LIBRARIES", + "DEFAULT_EXECUTABLE" : "DEFAULT EXECUTABLE", + "DEFAULT_PARALLEL_EXECUTABLE" : "DEFAULT PARALLEL EXECUTABLE", + "NESTOR" : "NESTOR", + "NESTOR_ACTION_FILE" : "NESTOR ACTION FILE", + "NESTOR_POLYGON_FILE" : "NESTOR POLYGON FILE", + "NESTOR_SURFACE_REFERENCE_FILE" : "NESTOR SURFACE REFERENCE FILE", + "NESTOR_RESTART_FILE" : "NESTOR RESTART FILE", +} +dicoCasEnToCata = { + "TITLE" : "TITLE", + "INITIAL CONDITIONS" : "INITIAL_CONDITIONS", + "INITIAL ELEVATION" : "INITIAL_ELEVATION", + "INITIAL DEPTH" : "INITIAL_DEPTH", + "BINARY DATA FILE 1 FORMAT" : "BINARY_DATA_FILE_1_FORMAT", + "BINARY DATA FILE 1" : "BINARY_DATA_FILE_1", + "BINARY DATA FILE 2 FORMAT" : "BINARY_DATA_FILE_2_FORMAT", + "BINARY DATA FILE 2" : "BINARY_DATA_FILE_2", + "FORMATTED DATA FILE 1" : "FORMATTED_DATA_FILE_1", + "FORMATTED DATA FILE 2" : "FORMATTED_DATA_FILE_2", + "GEOMETRY FILE FORMAT" : "GEOMETRY_FILE_FORMAT", + "GEOMETRY FILE" : "GEOMETRY_FILE", + "FORTRAN FILE" : "FORTRAN_FILE", + "BOTTOM TOPOGRAPHY FILE" : "BOTTOM_TOPOGRAPHY_FILE", + "BOTTOM SMOOTHINGS" : "BOTTOM_SMOOTHINGS", + "BOUNDARY CONDITIONS FILE" : "BOUNDARY_CONDITIONS_FILE", + "VALIDATION" : "VALIDATION", + "REFERENCE FILE FORMAT" : "REFERENCE_FILE_FORMAT", + "REFERENCE FILE" : "REFERENCE_FILE", + "PARALLEL PROCESSORS" : "PARALLEL_PROCESSORS", + "CHECKING THE MESH" : "CHECKING_THE_MESH", + "MAXIMUM NUMBER OF BOUNDARIES" : "MAXIMUM_NUMBER_OF_BOUNDARIES", + "MAXIMUM NUMBER OF SOURCES" : "MAXIMUM_NUMBER_OF_SOURCES", + "MAXIMUM NUMBER OF TRACERS" : "MAXIMUM_NUMBER_OF_TRACERS", + "VECTOR LENGTH" : "VECTOR_LENGTH", + "COMPUTATION CONTINUED" : "COMPUTATION_CONTINUED", + "PREVIOUS COMPUTATION FILE FORMAT" : "PREVIOUS_COMPUTATION_FILE_FORMAT", + "PREVIOUS COMPUTATION FILE" : "PREVIOUS_COMPUTATION_FILE", + "RECORD NUMBER FOR RESTART" : "RECORD_NUMBER_FOR_RESTART", + "INITIAL TIME SET TO ZERO" : "INITIAL_TIME_SET_TO_ZERO", + "NUMBER OF FIRST TIME STEP FOR GRAPHIC PRINTOUTS" : "NUMBER_OF_FIRST_TIME_STEP_FOR_GRAPHIC_PRINTOUTS", + "GRAPHIC PRINTOUT PERIOD" : "GRAPHIC_PRINTOUT_PERIOD", + "VARIABLES FOR GRAPHIC PRINTOUTS" : "VARIABLES_FOR_GRAPHIC_PRINTOUTS", + "NUMBER OF PRIVATE ARRAYS" : "NUMBER_OF_PRIVATE_ARRAYS", + "NAMES OF PRIVATE VARIABLES" : "NAMES_OF_PRIVATE_VARIABLES", + "RESULTS FILE FORMAT" : "RESULTS_FILE_FORMAT", + "RESULTS FILE" : "RESULTS_FILE", + "RESULT FILE IN LONGITUDE-LATITUDE" : "RESULT_FILE_IN_LONGITUDE_LATITUDE", + "BINARY RESULTS FILE FORMAT" : "BINARY_RESULTS_FILE_FORMAT", + "BINARY RESULTS FILE" : "BINARY_RESULTS_FILE", + "FORMATTED RESULTS FILE" : "FORMATTED_RESULTS_FILE", + "CONTROL SECTIONS" : "CONTROL_SECTIONS", + "PRINTING CUMULATED FLOWRATES" : "PRINTING_CUMULATED_FLOWRATES", + "COMPATIBLE COMPUTATION OF FLUXES" : "COMPATIBLE_COMPUTATION_OF_FLUXES", + "SECTIONS INPUT FILE" : "SECTIONS_INPUT_FILE", + "SECTIONS OUTPUT FILE" : "SECTIONS_OUTPUT_FILE", + "FLUXLINE" : "FLUXLINE", + "FLUXLINE INPUT FILE" : "FLUXLINE_INPUT_FILE", + "NUMBER OF FIRST TIME STEP FOR LISTING PRINTOUTS" : "NUMBER_OF_FIRST_TIME_STEP_FOR_LISTING_PRINTOUTS", + "LISTING PRINTOUT PERIOD" : "LISTING_PRINTOUT_PERIOD", + "LISTING FOR PRINTOUT PERIOD" : "LISTING_FOR_PRINTOUT_PERIOD", + "LISTING PRINTOUT" : "LISTING_PRINTOUT", + "VARIABLES TO BE PRINTED" : "VARIABLES_TO_BE_PRINTED", + "MASS-BALANCE" : "MASS_BALANCE", + "INFORMATION ABOUT SOLVER" : "INFORMATION_ABOUT_SOLVER", + "LIST OF POINTS" : "LIST_OF_POINTS", + "NAMES OF POINTS" : "NAMES_OF_POINTS", + "FOURIER ANALYSIS PERIODS" : "FOURIER_ANALYSIS_PERIODS", + "TIME RANGE FOR FOURIER ANALYSIS" : "TIME_RANGE_FOR_FOURIER_ANALYSIS", + "PRESCRIBED ELEVATIONS" : "PRESCRIBED_ELEVATIONS", + "PRESCRIBED FLOWRATES" : "PRESCRIBED_FLOWRATES", + "PRESCRIBED VELOCITIES" : "PRESCRIBED_VELOCITIES", + "STAGE-DISCHARGE CURVES" : "STAGE_DISCHARGE_CURVES", + "STAGE-DISCHARGE CURVES FILE" : "STAGE_DISCHARGE_CURVES_FILE", + "VELOCITY PROFILES" : "VELOCITY_PROFILES", + "OPTION FOR LIQUID BOUNDARIES" : "OPTION_FOR_LIQUID_BOUNDARIES", + "LIQUID BOUNDARIES FILE" : "LIQUID_BOUNDARIES_FILE", + "ELEMENTS MASKED BY USER" : "ELEMENTS_MASKED_BY_USER", + "MAXIMUM NUMBER OF FRICTION DOMAINS" : "MAXIMUM_NUMBER_OF_FRICTION_DOMAINS", + "FRICTION DATA" : "FRICTION_DATA", + "FRICTION DATA FILE" : "FRICTION_DATA_FILE", + "LAW OF BOTTOM FRICTION" : "LAW_OF_BOTTOM_FRICTION", + "FRICTION COEFFICIENT" : "FRICTION_COEFFICIENT", + "MANNING DEFAULT VALUE FOR COLEBROOK-WHITE LAW" : "MANNING_DEFAULT_VALUE_FOR_COLEBROOK_WHITE_LAW", + "DEPTH IN FRICTION TERMS" : "DEPTH_IN_FRICTION_TERMS", + "NON-SUBMERGED VEGETATION FRICTION" : "NON_SUBMERGED_VEGETATION_FRICTION", + "DIAMETER OF ROUGHNESS ELEMENTS" : "DIAMETER_OF_ROUGHNESS_ELEMENTS", + "SPACING OF ROUGHNESS ELEMENTS" : "SPACING_OF_ROUGHNESS_ELEMENTS", + "LAW OF FRICTION ON LATERAL BOUNDARIES" : "LAW_OF_FRICTION_ON_LATERAL_BOUNDARIES", + "ROUGHNESS COEFFICIENT OF BOUNDARIES" : "ROUGHNESS_COEFFICIENT_OF_BOUNDARIES", + "DEFINITION OF ZONES" : "DEFINITION_OF_ZONES", + "ZONES FILE" : "ZONES_FILE", + "ICE PROCESSES" : "ICE_PROCESSES", + "WIND" : "WIND", + "OPTION FOR WIND" : "OPTION_FOR_WIND", + "COEFFICIENT OF WIND INFLUENCE" : "COEFFICIENT_OF_WIND_INFLUENCE", + "WIND VELOCITY ALONG X" : "WIND_VELOCITY_ALONG_X", + "WIND VELOCITY ALONG Y" : "WIND_VELOCITY_ALONG_Y", + "SPEED AND DIRECTION OF WIND" : "SPEED_AND_DIRECTION_OF_WIND", + "THRESHOLD DEPTH FOR WIND" : "THRESHOLD_DEPTH_FOR_WIND", + "AIR PRESSURE" : "AIR_PRESSURE", + "VALUE OF ATMOSPHERIC PRESSURE" : "VALUE_OF_ATMOSPHERIC_PRESSURE", + "RAIN OR EVAPORATION" : "RAIN_OR_EVAPORATION", + "RAIN OR EVAPORATION IN MM PER DAY" : "RAIN_OR_EVAPORATION_IN_MM_PER_DAY", + "RAINFALL-RUNOFF MODEL" : "RAINFALL_RUNOFF_MODEL", + "ANTECEDENT MOISTURE CONDITIONS" : "ANTECEDENT_MOISTURE_CONDITIONS", + "DURATION OF RAIN OR EVAPORATION IN HOURS" : "DURATION_OF_RAIN_OR_EVAPORATION_IN_HOURS", + "ASCII ATMOSPHERIC DATA FILE" : "ASCII_ATMOSPHERIC_DATA_FILE", + "BINARY ATMOSPHERIC DATA FILE" : "BINARY_ATMOSPHERIC_DATA_FILE", + "BINARY ATMOSPHERIC DATA FILE FORMAT" : "BINARY_ATMOSPHERIC_DATA_FILE_FORMAT", + "OPTION FOR INITIAL ABSTRACTION RATIO" : "OPTION_FOR_INITIAL_ABSTRACTION_RATIO", + "WAVE DRIVEN CURRENTS" : "WAVE_DRIVEN_CURRENTS", + "RECORD NUMBER IN WAVE FILE" : "RECORD_NUMBER_IN_WAVE_FILE", + "WAVE ENHANCED FRICTION FACTOR" : "WAVE_ENHANCED_FRICTION_FACTOR", + "PARAMETER ESTIMATION" : "PARAMETER_ESTIMATION", + "COST FUNCTION" : "COST_FUNCTION", + "IDENTIFICATION METHOD" : "IDENTIFICATION_METHOD", + "TOLERANCES FOR IDENTIFICATION" : "TOLERANCES_FOR_IDENTIFICATION", + "MAXIMUM NUMBER OF ITERATIONS FOR IDENTIFICATION" : "MAXIMUM_NUMBER_OF_ITERATIONS_FOR_IDENTIFICATION", + "ABSCISSAE OF SOURCES" : "ABSCISSAE_OF_SOURCES", + "ORDINATES OF SOURCES" : "ORDINATES_OF_SOURCES", + "WATER DISCHARGE OF SOURCES" : "WATER_DISCHARGE_OF_SOURCES", + "VELOCITIES OF THE SOURCES ALONG X" : "VELOCITIES_OF_THE_SOURCES_ALONG_X", + "VELOCITIES OF THE SOURCES ALONG Y" : "VELOCITIES_OF_THE_SOURCES_ALONG_Y", + "TYPE OF SOURCES" : "TYPE_OF_SOURCES", + "SOURCES FILE" : "SOURCES_FILE", + "GLOBAL NUMBERS OF SOURCE NODES" : "GLOBAL_NUMBERS_OF_SOURCE_NODES", + "WATER QUALITY PROCESS" : "WATER_QUALITY_PROCESS", + "WATER DENSITY" : "WATER_DENSITY", + "GRAVITY ACCELERATION" : "GRAVITY_ACCELERATION", + "VERTICAL STRUCTURES" : "VERTICAL_STRUCTURES", + "EQUATIONS" : "EQUATIONS", + "TREATMENT OF THE LINEAR SYSTEM" : "TREATMENT_OF_THE_LINEAR_SYSTEM", + "FINITE VOLUME SCHEME" : "FINITE_VOLUME_SCHEME", + "CORIOLIS" : "CORIOLIS", + "CORIOLIS COEFFICIENT" : "CORIOLIS_COEFFICIENT", + "OPTION FOR TSUNAMI GENERATION" : "OPTION_FOR_TSUNAMI_GENERATION", + "PHYSICAL CHARACTERISTICS OF THE TSUNAMI" : "PHYSICAL_CHARACTERISTICS_OF_THE_TSUNAMI", + "SECONDARY CURRENTS" : "SECONDARY_CURRENTS", + "PRODUCTION COEFFICIENT FOR SECONDARY CURRENTS" : "PRODUCTION_COEFFICIENT_FOR_SECONDARY_CURRENTS", + "DISSIPATION COEFFICIENT FOR SECONDARY CURRENTS" : "DISSIPATION_COEFFICIENT_FOR_SECONDARY_CURRENTS", + "DEBUGGER" : "DEBUGGER", + "TIME STEP" : "TIME_STEP", + "NUMBER OF TIME STEPS" : "NUMBER_OF_TIME_STEPS", + "DURATION" : "DURATION", + "ORIGINAL DATE OF TIME" : "ORIGINAL_DATE_OF_TIME", + "ORIGINAL HOUR OF TIME" : "ORIGINAL_HOUR_OF_TIME", + "STOP IF A STEADY STATE IS REACHED" : "STOP_IF_A_STEADY_STATE_IS_REACHED", + "STOP CRITERIA" : "STOP_CRITERIA", + "CONTROL OF LIMITS" : "CONTROL_OF_LIMITS", + "LIMIT VALUES" : "LIMIT_VALUES", + "VARIABLE TIME-STEP" : "VARIABLE_TIME_STEP", + "DESIRED COURANT NUMBER" : "DESIRED_COURANT_NUMBER", + "ORIGIN COORDINATES" : "ORIGIN_COORDINATES", + "SPHERICAL COORDINATES" : "SPHERICAL_COORDINATES", + "LATITUDE OF ORIGIN POINT" : "LATITUDE_OF_ORIGIN_POINT", + "LONGITUDE OF ORIGIN POINT" : "LONGITUDE_OF_ORIGIN_POINT", + "NORTH" : "NORTH", + "SPATIAL PROJECTION TYPE" : "SPATIAL_PROJECTION_TYPE", + "SOLVER" : "SOLVER", + "SOLVER OPTION" : "SOLVER_OPTION", + "SOLVER ACCURACY" : "SOLVER_ACCURACY", + "MAXIMUM NUMBER OF ITERATIONS FOR SOLVER" : "MAXIMUM_NUMBER_OF_ITERATIONS_FOR_SOLVER", + "CONTINUITY CORRECTION" : "CONTINUITY_CORRECTION", + "PRECONDITIONING" : "PRECONDITIONING", + "C-U PRECONDITIONING" : "C_U_PRECONDITIONING", + "FINITE ELEMENT ASSEMBLY" : "FINITE_ELEMENT_ASSEMBLY", + "IMPLICITATION FOR DEPTH" : "IMPLICITATION_FOR_DEPTH", + "IMPLICITATION FOR VELOCITY" : "IMPLICITATION_FOR_VELOCITY", + "DISCRETIZATIONS IN SPACE" : "DISCRETIZATIONS_IN_SPACE", + "PROPAGATION" : "PROPAGATION", + "INITIAL GUESS FOR H" : "INITIAL_GUESS_FOR_H", + "LINEARIZED PROPAGATION" : "LINEARIZED_PROPAGATION", + "INITIAL GUESS FOR U" : "INITIAL_GUESS_FOR_U", + "MEAN DEPTH FOR LINEARIZATION" : "MEAN_DEPTH_FOR_LINEARIZATION", + "ADVECTION" : "ADVECTION", + "ADVECTION OF H" : "ADVECTION_OF_H", + "ADVECTION OF U AND V" : "ADVECTION_OF_U_AND_V", + "TYPE OF ADVECTION" : "TYPE_OF_ADVECTION", + "OPTION FOR CHARACTERISTICS" : "OPTION_FOR_CHARACTERISTICS", + "SUPG OPTION" : "SUPG_OPTION", + "NUMBER OF GAUSS POINTS FOR WEAK CHARACTERISTICS" : "NUMBER_OF_GAUSS_POINTS_FOR_WEAK_CHARACTERISTICS", + "MASS-LUMPING FOR WEAK CHARACTERISTICS" : "MASS_LUMPING_FOR_WEAK_CHARACTERISTICS", + "MAXIMUM NUMBER OF ITERATIONS FOR ADVECTION SCHEMES" : "MAXIMUM_NUMBER_OF_ITERATIONS_FOR_ADVECTION_SCHEMES", + "UPWIND COEFFICIENTS" : "UPWIND_COEFFICIENTS", + "MASS-LUMPING ON H" : "MASS_LUMPING_ON_H", + "MASS-LUMPING ON VELOCITY" : "MASS_LUMPING_ON_VELOCITY", + "SCHEME FOR ADVECTION OF VELOCITIES" : "SCHEME_FOR_ADVECTION_OF_VELOCITIES", + "SCHEME OPTION FOR ADVECTION OF VELOCITIES" : "SCHEME_OPTION_FOR_ADVECTION_OF_VELOCITIES", + "FREE SURFACE GRADIENT COMPATIBILITY" : "FREE_SURFACE_GRADIENT_COMPATIBILITY", + "NUMBER OF SUB-ITERATIONS FOR NON-LINEARITIES" : "NUMBER_OF_SUB_ITERATIONS_FOR_NON_LINEARITIES", + "TREATMENT OF FLUXES AT THE BOUNDARIES" : "TREATMENT_OF_FLUXES_AT_THE_BOUNDARIES", + "NUMBER OF CORRECTIONS OF DISTRIBUTIVE SCHEMES" : "NUMBER_OF_CORRECTIONS_OF_DISTRIBUTIVE_SCHEMES", + "NUMBER OF SUB-STEPS OF DISTRIBUTIVE SCHEMES" : "NUMBER_OF_SUB_STEPS_OF_DISTRIBUTIVE_SCHEMES", + "PSI SCHEME OPTION" : "PSI_SCHEME_OPTION", + "DIFFUSION OF VELOCITY" : "DIFFUSION_OF_VELOCITY", + "OPTION FOR THE DIFFUSION OF VELOCITIES" : "OPTION_FOR_THE_DIFFUSION_OF_VELOCITIES", + "IMPLICITATION FOR DIFFUSION OF VELOCITY" : "IMPLICITATION_FOR_DIFFUSION_OF_VELOCITY", + "AD NUMBER OF DERIVATIVES" : "AD_NUMBER_OF_DERIVATIVES", + "AD NAMES OF DERIVATIVES" : "AD_NAMES_OF_DERIVATIVES", + "AD SYMBOLIC LINEAR SOLVER" : "AD_SYMBOLIC_LINEAR_SOLVER", + "AD LINEAR SOLVER RESET DERIVATIVES" : "AD_LINEAR_SOLVER_RESET_DERIVATIVES", + "AD LINEAR SOLVER DERIVATIVE CONVERGENCE" : "AD_LINEAR_SOLVER_DERIVATIVE_CONVERGENCE", + "MATRIX STORAGE" : "MATRIX_STORAGE", + "MATRIX-VECTOR PRODUCT" : "MATRIX_VECTOR_PRODUCT", + "NEWMARK TIME INTEGRATION COEFFICIENT" : "NEWMARK_TIME_INTEGRATION_COEFFICIENT", + "ZERO" : "ZERO", + "PROPAGATION OPTION" : "PROPAGATION_OPTION", + "OPTION OF THE HYDROSTATIC RECONSTRUCTION" : "OPTION_OF_THE_HYDROSTATIC_RECONSTRUCTION", + "CONVERGENCE STUDY" : "CONVERGENCE_STUDY", + "REFINEMENT LEVELS" : "REFINEMENT_LEVELS", + "VELOCITY DIFFUSIVITY" : "VELOCITY_DIFFUSIVITY", + "TURBULENCE MODEL" : "TURBULENCE_MODEL", + "ACCURACY OF SPALART-ALLMARAS" : "ACCURACY_OF_SPALART_ALLMARAS", + "INFORMATION ABOUT SPALART-ALLMARAS MODEL" : "INFORMATION_ABOUT_SPALART_ALLMARAS_MODEL", + "SOLVER FOR K-EPSILON MODEL" : "SOLVER_FOR_K_EPSILON_MODEL", + "OPTION FOR THE SOLVER FOR K-EPSILON MODEL" : "OPTION_FOR_THE_SOLVER_FOR_K_EPSILON_MODEL", + "PRECONDITIONING FOR K-EPSILON MODEL" : "PRECONDITIONING_FOR_K_EPSILON_MODEL", + "NON-DIMENSIONAL DISPERSION COEFFICIENTS" : "NON_DIMENSIONAL_DISPERSION_COEFFICIENTS", + "TURBULENCE REGIME FOR SOLID BOUNDARIES" : "TURBULENCE_REGIME_FOR_SOLID_BOUNDARIES", + "INFORMATION ABOUT K-EPSILON MODEL" : "INFORMATION_ABOUT_K_EPSILON_MODEL", + "ADVECTION OF K AND EPSILON" : "ADVECTION_OF_K_AND_EPSILON", + "SCHEME FOR ADVECTION OF K-EPSILON" : "SCHEME_FOR_ADVECTION_OF_K_EPSILON", + "SCHEME OPTION FOR ADVECTION OF K-EPSILON" : "SCHEME_OPTION_FOR_ADVECTION_OF_K_EPSILON", + "TIME STEP REDUCTION FOR K-EPSILON MODEL" : "TIME_STEP_REDUCTION_FOR_K_EPSILON_MODEL", + "ACCURACY OF K" : "ACCURACY_OF_K", + "ACCURACY OF EPSILON" : "ACCURACY_OF_EPSILON", + "MAXIMUM NUMBER OF ITERATIONS FOR K AND EPSILON" : "MAXIMUM_NUMBER_OF_ITERATIONS_FOR_K_AND_EPSILON", + "TIDAL FLATS" : "TIDAL_FLATS", + "OPTION FOR THE TREATMENT OF TIDAL FLATS" : "OPTION_FOR_THE_TREATMENT_OF_TIDAL_FLATS", + "TREATMENT OF NEGATIVE DEPTHS" : "TREATMENT_OF_NEGATIVE_DEPTHS", + "THRESHOLD FOR NEGATIVE DEPTHS" : "THRESHOLD_FOR_NEGATIVE_DEPTHS", + "THRESHOLD DEPTH FOR RECEDING PROCEDURE" : "THRESHOLD_DEPTH_FOR_RECEDING_PROCEDURE", + "H CLIPPING" : "H_CLIPPING", + "MINIMUM VALUE OF DEPTH" : "MINIMUM_VALUE_OF_DEPTH", + "PRESCRIBED TRACERS VALUES" : "PRESCRIBED_TRACERS_VALUES", + "NUMBER OF TRACERS" : "NUMBER_OF_TRACERS", + "NAMES OF TRACERS" : "NAMES_OF_TRACERS", + "INITIAL VALUES OF TRACERS" : "INITIAL_VALUES_OF_TRACERS", + "DENSITY EFFECTS" : "DENSITY_EFFECTS", + "MEAN TEMPERATURE" : "MEAN_TEMPERATURE", + "SOLVER FOR DIFFUSION OF TRACERS" : "SOLVER_FOR_DIFFUSION_OF_TRACERS", + "SOLVER OPTION FOR TRACERS DIFFUSION" : "SOLVER_OPTION_FOR_TRACERS_DIFFUSION", + "PRECONDITIONING FOR DIFFUSION OF TRACERS" : "PRECONDITIONING_FOR_DIFFUSION_OF_TRACERS", + "ACCURACY FOR DIFFUSION OF TRACERS" : "ACCURACY_FOR_DIFFUSION_OF_TRACERS", + "MAXIMUM NUMBER OF ITERATIONS FOR DIFFUSION OF TRACERS" : "MAXIMUM_NUMBER_OF_ITERATIONS_FOR_DIFFUSION_OF_TRACERS", + "VALUES OF THE TRACERS AT THE SOURCES" : "VALUES_OF_THE_TRACERS_AT_THE_SOURCES", + "VALUES OF TRACERS IN THE RAIN" : "VALUES_OF_TRACERS_IN_THE_RAIN", + "ADVECTION OF TRACERS" : "ADVECTION_OF_TRACERS", + "IMPLICITATION COEFFICIENT OF TRACERS" : "IMPLICITATION_COEFFICIENT_OF_TRACERS", + "DIFFUSION OF TRACERS" : "DIFFUSION_OF_TRACERS", + "COEFFICIENT FOR DIFFUSION OF TRACERS" : "COEFFICIENT_FOR_DIFFUSION_OF_TRACERS", + "OPTION FOR THE DIFFUSION OF TRACERS" : "OPTION_FOR_THE_DIFFUSION_OF_TRACERS", + "SCHEME FOR ADVECTION OF TRACERS" : "SCHEME_FOR_ADVECTION_OF_TRACERS", + "SCHEME OPTION FOR ADVECTION OF TRACERS" : "SCHEME_OPTION_FOR_ADVECTION_OF_TRACERS", + "MASS-LUMPING ON TRACERS" : "MASS_LUMPING_ON_TRACERS", + "NUMBER OF DROGUES" : "NUMBER_OF_DROGUES", + "PRINTOUT PERIOD FOR DROGUES" : "PRINTOUT_PERIOD_FOR_DROGUES", + "DROGUES FILE" : "DROGUES_FILE", + "ALGAE TRANSPORT MODEL" : "ALGAE_TRANSPORT_MODEL", + "ALGAE TYPE" : "ALGAE_TYPE", + "DIAMETER OF ALGAE" : "DIAMETER_OF_ALGAE", + "DENSITY OF ALGAE" : "DENSITY_OF_ALGAE", + "THICKNESS OF ALGAE" : "THICKNESS_OF_ALGAE", + "OIL SPILL MODEL" : "OIL_SPILL_MODEL", + "OIL SPILL STEERING FILE" : "OIL_SPILL_STEERING_FILE", + "STOCHASTIC DIFFUSION MODEL" : "STOCHASTIC_DIFFUSION_MODEL", + "NUMBER OF LAGRANGIAN DRIFTS" : "NUMBER_OF_LAGRANGIAN_DRIFTS", + "NUMBER OF WEIRS" : "NUMBER_OF_WEIRS", + "WEIRS DATA FILE" : "WEIRS_DATA_FILE", + "TYPE OF WEIRS" : "TYPE_OF_WEIRS", + "NUMBER OF CULVERTS" : "NUMBER_OF_CULVERTS", + "CULVERTS DATA FILE" : "CULVERTS_DATA_FILE", + "OPTION FOR CULVERTS" : "OPTION_FOR_CULVERTS", + "BREACH" : "BREACH", + "BREACHES DATA FILE" : "BREACHES_DATA_FILE", + "BINARY DATABASE 1 FOR TIDE" : "BINARY_DATABASE_1_FOR_TIDE", + "BINARY DATABASE 2 FOR TIDE" : "BINARY_DATABASE_2_FOR_TIDE", + "GEOGRAPHIC SYSTEM" : "GEOGRAPHIC_SYSTEM", + "ZONE NUMBER IN GEOGRAPHIC SYSTEM" : "ZONE_NUMBER_IN_GEOGRAPHIC_SYSTEM", + "LAMBERT 93 CONVERSION FILE" : "LAMBERT_93_CONVERSION_FILE", + "COEFFICIENT TO CALIBRATE SEA LEVEL" : "COEFFICIENT_TO_CALIBRATE_SEA_LEVEL", + "GLOBAL NUMBER OF THE POINT TO CALIBRATE HIGH WATER" : "GLOBAL_NUMBER_OF_THE_POINT_TO_CALIBRATE_HIGH_WATER", + "MINOR CONSTITUENTS INFERENCE" : "MINOR_CONSTITUENTS_INFERENCE", + "OPTION FOR TIDAL BOUNDARY CONDITIONS" : "OPTION_FOR_TIDAL_BOUNDARY_CONDITIONS", + "TIDAL DATA BASE" : "TIDAL_DATA_BASE", + "HARMONIC CONSTANTS FILE" : "HARMONIC_CONSTANTS_FILE", + "TIDAL MODEL FILE" : "TIDAL_MODEL_FILE", + "TIDAL MODEL FILE FORMAT" : "TIDAL_MODEL_FILE_FORMAT", + "ASCII DATABASE FOR TIDE" : "ASCII_DATABASE_FOR_TIDE", + "COEFFICIENT TO CALIBRATE TIDAL RANGE" : "COEFFICIENT_TO_CALIBRATE_TIDAL_RANGE", + "COEFFICIENT TO CALIBRATE TIDAL VELOCITIES" : "COEFFICIENT_TO_CALIBRATE_TIDAL_VELOCITIES", + "LOCAL NUMBER OF THE POINT TO CALIBRATE HIGH WATER" : "LOCAL_NUMBER_OF_THE_POINT_TO_CALIBRATE_HIGH_WATER", + "TIDE GENERATING FORCE" : "TIDE_GENERATING_FORCE", + "COUPLING WITH" : "COUPLING_WITH", + "NAMES OF CLANDESTINE VARIABLES" : "NAMES_OF_CLANDESTINE_VARIABLES", + "COUPLING DIRECTORY" : "COUPLING_DIRECTORY", + "DELWAQ STEERING FILE" : "DELWAQ_STEERING_FILE", + "DELWAQ PRINTOUT PERIOD" : "DELWAQ_PRINTOUT_PERIOD", + "EXCHANGES BETWEEN NODES DELWAQ FILE" : "EXCHANGES_BETWEEN_NODES_DELWAQ_FILE", + "NODES DISTANCES DELWAQ FILE" : "NODES_DISTANCES_DELWAQ_FILE", + "BOTTOM SURFACES DELWAQ FILE" : "BOTTOM_SURFACES_DELWAQ_FILE", + "VOLUMES DELWAQ FILE" : "VOLUMES_DELWAQ_FILE", + "EXCHANGE AREAS DELWAQ FILE" : "EXCHANGE_AREAS_DELWAQ_FILE", + "VERTICAL FLUXES DELWAQ FILE" : "VERTICAL_FLUXES_DELWAQ_FILE", + "VELOCITY DELWAQ FILE" : "VELOCITY_DELWAQ_FILE", + "DIFFUSIVITY DELWAQ FILE" : "DIFFUSIVITY_DELWAQ_FILE", + "TEMPERATURE DELWAQ FILE" : "TEMPERATURE_DELWAQ_FILE", + "SALINITY DELWAQ FILE" : "SALINITY_DELWAQ_FILE", + "VELOCITY FOR DELWAQ" : "VELOCITY_FOR_DELWAQ", + "DIFFUSIVITY FOR DELWAQ" : "DIFFUSIVITY_FOR_DELWAQ", + "TEMPERATURE FOR DELWAQ" : "TEMPERATURE_FOR_DELWAQ", + "SALINITY FOR DELWAQ" : "SALINITY_FOR_DELWAQ", + "SISYPHE STEERING FILE" : "SISYPHE_STEERING_FILE", + "COUPLING PERIOD FOR SISYPHE" : "COUPLING_PERIOD_FOR_SISYPHE", + "TOMAWAC STEERING FILE" : "TOMAWAC_STEERING_FILE", + "COUPLING PERIOD FOR TOMAWAC" : "COUPLING_PERIOD_FOR_TOMAWAC", + "WAQTEL STEERING FILE" : "WAQTEL_STEERING_FILE", + "KHIONE STEERING FILE" : "KHIONE_STEERING_FILE", + "LANGUAGE" : "LANGUAGE", + "STEERING FILE" : "STEERING_FILE", + "DICTIONARY" : "DICTIONARY", + "PARTITIONING TOOL" : "PARTITIONING_TOOL", + "RELEASE" : "RELEASE", + "LIST OF FILES" : "LIST_OF_FILES", + "DESCRIPTION OF LIBRARIES" : "DESCRIPTION_OF_LIBRARIES", + "DEFAULT EXECUTABLE" : "DEFAULT_EXECUTABLE", + "DEFAULT PARALLEL EXECUTABLE" : "DEFAULT_PARALLEL_EXECUTABLE", + "NESTOR" : "NESTOR", + "NESTOR ACTION FILE" : "NESTOR_ACTION_FILE", + "NESTOR POLYGON FILE" : "NESTOR_POLYGON_FILE", + "NESTOR SURFACE REFERENCE FILE" : "NESTOR_SURFACE_REFERENCE_FILE", + "NESTOR RESTART FILE" : "NESTOR_RESTART_FILE", +} diff --git a/Telemac/telemac2d_dicoCasFrToCata.py b/Telemac/telemac2d_dicoCasFrToCata.py new file mode 100644 index 00000000..59f59785 --- /dev/null +++ b/Telemac/telemac2d_dicoCasFrToCata.py @@ -0,0 +1,650 @@ +dicoCataToFrTelemac = { + "TITLE" : "TITRE", + "INITIAL_CONDITIONS" : "CONDITIONS INITIALES", + "INITIAL_ELEVATION" : "COTE INITIALE", + "INITIAL_DEPTH" : "HAUTEUR INITIALE", + "BINARY_DATA_FILE_1_FORMAT" : "FORMAT DU FICHIER DE DONNEES BINAIRE 1", + "BINARY_DATA_FILE_1" : "FICHIER DE DONNEES BINAIRE 1", + "BINARY_DATA_FILE_2_FORMAT" : "FORMAT DU FICHIER DE DONNEES BINAIRE 2", + "BINARY_DATA_FILE_2" : "FICHIER DE DONNEES BINAIRE 2", + "FORMATTED_DATA_FILE_1" : "FICHIER DE DONNEES FORMATE 1", + "FORMATTED_DATA_FILE_2" : "FICHIER DE DONNEES FORMATE 2", + "GEOMETRY_FILE_FORMAT" : "FORMAT DU FICHIER DE GEOMETRIE", + "GEOMETRY_FILE" : "FICHIER DE GEOMETRIE", + "FORTRAN_FILE" : "FICHIER FORTRAN", + "BOTTOM_TOPOGRAPHY_FILE" : "FICHIER DES FONDS", + "BOTTOM_SMOOTHINGS" : "LISSAGES DU FOND", + "BOUNDARY_CONDITIONS_FILE" : "FICHIER DES CONDITIONS AUX LIMITES", + "VALIDATION" : "VALIDATION", + "REFERENCE_FILE_FORMAT" : "FORMAT DU FICHIER DE REFERENCE", + "REFERENCE_FILE" : "FICHIER DE REFERENCE", + "PARALLEL_PROCESSORS" : "PROCESSEURS PARALLELES", + "CHECKING_THE_MESH" : "VERIFICATION DU MAILLAGE", + "MAXIMUM_NUMBER_OF_BOUNDARIES" : "NOMBRE MAXIMUM DE FRONTIERES", + "MAXIMUM_NUMBER_OF_SOURCES" : "NOMBRE MAXIMUM DE SOURCES", + "MAXIMUM_NUMBER_OF_TRACERS" : "NOMBRE MAXIMUM DE TRACEURS", + "VECTOR_LENGTH" : "LONGUEUR DU VECTEUR", + "COMPUTATION_CONTINUED" : "SUITE DE CALCUL", + "PREVIOUS_COMPUTATION_FILE_FORMAT" : "FORMAT DU FICHIER DU CALCUL PRECEDENT", + "PREVIOUS_COMPUTATION_FILE" : "FICHIER DU CALCUL PRECEDENT", + "RECORD_NUMBER_FOR_RESTART" : "ENREGISTREMENT POUR SUITE DE CALCUL", + "INITIAL_TIME_SET_TO_ZERO" : "REMISE A ZERO DU TEMPS", + "NUMBER_OF_FIRST_TIME_STEP_FOR_GRAPHIC_PRINTOUTS" : "NUMERO DU PREMIER PAS DE TEMPS POUR LES SORTIES GRAPHIQUES", + "GRAPHIC_PRINTOUT_PERIOD" : "PERIODE POUR LES SORTIES GRAPHIQUES", + "VARIABLES_FOR_GRAPHIC_PRINTOUTS" : "VARIABLES POUR LES SORTIES GRAPHIQUES", + "NUMBER_OF_PRIVATE_ARRAYS" : "NOMBRE DE TABLEAUX PRIVES", + "NAMES_OF_PRIVATE_VARIABLES" : "NOMS DES VARIABLES PRIVEES", + "RESULTS_FILE_FORMAT" : "FORMAT DU FICHIER DES RESULTATS", + "RESULTS_FILE" : "FICHIER DES RESULTATS", + "RESULT_FILE_IN_LONGITUDE_LATITUDE" : "FICHIER RESULTAT EN LONGITUDE-LATITUDE", + "BINARY_RESULTS_FILE_FORMAT" : "FORMAT DU FICHIER DE RESULTATS BINAIRE", + "BINARY_RESULTS_FILE" : "FICHIER DE RESULTATS BINAIRE", + "FORMATTED_RESULTS_FILE" : "FICHIER DE RESULTATS FORMATE", + "CONTROL_SECTIONS" : "SECTIONS DE CONTROLE", + "PRINTING_CUMULATED_FLOWRATES" : "IMPRESSION DU CUMUL DES FLUX", + "COMPATIBLE_COMPUTATION_OF_FLUXES" : "CALCUL COMPATIBLE DES FLUX", + "SECTIONS_INPUT_FILE" : "FICHIER DES SECTIONS DE CONTROLE", + "SECTIONS_OUTPUT_FILE" : "FICHIER DE SORTIE DES SECTIONS DE CONTROLE", + "FLUXLINE" : "FLUXLINE", + "FLUXLINE_INPUT_FILE" : "FICHIER DE FLUXLINE", + "NUMBER_OF_FIRST_TIME_STEP_FOR_LISTING_PRINTOUTS" : "NUMERO DU PREMIER PAS DE TEMPS POUR LES SORTIES LISTING", + "LISTING_PRINTOUT_PERIOD" : "PERIODE DE SORTIE LISTING", + "LISTING_FOR_PRINTOUT_PERIOD" : "PERIODE POUR LES SORTIES LISTING", + "LISTING_PRINTOUT" : "SORTIE LISTING", + "VARIABLES_TO_BE_PRINTED" : "VARIABLES A IMPRIMER", + "MASS_BALANCE" : "BILAN DE MASSE", + "INFORMATION_ABOUT_SOLVER" : "INFORMATIONS SUR LE SOLVEUR", + "LIST_OF_POINTS" : "LISTE DE POINTS", + "NAMES_OF_POINTS" : "NOMS DES POINTS", + "FOURIER_ANALYSIS_PERIODS" : "PERIODES D'ANALYSE DE FOURIER", + "TIME_RANGE_FOR_FOURIER_ANALYSIS" : "BORNES EN TEMPS POUR L'ANALYSE DE FOURIER", + "PRESCRIBED_ELEVATIONS" : "COTES IMPOSEES", + "PRESCRIBED_FLOWRATES" : "DEBITS IMPOSES", + "PRESCRIBED_VELOCITIES" : "VITESSES IMPOSEES", + "STAGE_DISCHARGE_CURVES" : "COURBES DE TARAGE", + "STAGE_DISCHARGE_CURVES_FILE" : "FICHIER DES COURBES DE TARAGE", + "VELOCITY_PROFILES" : "PROFILS DE VITESSE", + "OPTION_FOR_LIQUID_BOUNDARIES" : "OPTION POUR LES FRONTIERES LIQUIDES", + "LIQUID_BOUNDARIES_FILE" : "FICHIER DES FRONTIERES LIQUIDES", + "ELEMENTS_MASKED_BY_USER" : "ELEMENTS MASQUES PAR L'UTILISATEUR", + "MAXIMUM_NUMBER_OF_FRICTION_DOMAINS" : "NOMBRE MAXIMUM DE DOMAINES DE FROTTEMENT", + "FRICTION_DATA" : "DONNEES POUR LE FROTTEMENT", + "FRICTION_DATA_FILE" : "FICHIER DE DONNEES POUR LE FROTTEMENT", + "LAW_OF_BOTTOM_FRICTION" : "LOI DE FROTTEMENT SUR LE FOND", + "FRICTION_COEFFICIENT" : "COEFFICIENT DE FROTTEMENT", + "MANNING_DEFAULT_VALUE_FOR_COLEBROOK_WHITE_LAW" : "VALEUR PAR DEFAUT DU MANNING POUR LA LOI DE COLEBROOK-WHITE", + "DEPTH_IN_FRICTION_TERMS" : "HAUTEUR DANS LES TERMES DE FROTTEMENT", + "NON_SUBMERGED_VEGETATION_FRICTION" : "FROTTEMENT POUR LA VEGETATION NON SUBMERGEE", + "DIAMETER_OF_ROUGHNESS_ELEMENTS" : "DIAMETRE DES ELEMENTS DE FROTTEMENT", + "SPACING_OF_ROUGHNESS_ELEMENTS" : "ESPACEMENT DES ELEMENTS DE FROTTEMENT", + "LAW_OF_FRICTION_ON_LATERAL_BOUNDARIES" : "LOI DE FROTTEMENT SUR LES PAROIS LATERALES", + "ROUGHNESS_COEFFICIENT_OF_BOUNDARIES" : "COEFFICIENT DE RUGOSITE DES BORDS", + "DEFINITION_OF_ZONES" : "DEFINITION DE ZONES", + "ZONES_FILE" : "FICHIER DES ZONES", + "ICE_PROCESSES" : "PROCESSUS LIES AUX GLACES", + "WIND" : "VENT", + "OPTION_FOR_WIND" : "OPTION DU VENT", + "COEFFICIENT_OF_WIND_INFLUENCE" : "COEFFICIENT D'INFLUENCE DU VENT", + "WIND_VELOCITY_ALONG_X" : "VITESSE DU VENT SUIVANT X", + "WIND_VELOCITY_ALONG_Y" : "VITESSE DU VENT SUIVANT Y", + "SPEED_AND_DIRECTION_OF_WIND" : "VITESSE ET DIRECTION DU VENT", + "THRESHOLD_DEPTH_FOR_WIND" : "PROFONDEUR LIMITE POUR LE VENT", + "AIR_PRESSURE" : "PRESSION ATMOSPHERIQUE", + "VALUE_OF_ATMOSPHERIC_PRESSURE" : "VALEUR DE LA PRESSION ATMOSPHERIQUE", + "RAIN_OR_EVAPORATION" : "PLUIE OU EVAPORATION", + "RAIN_OR_EVAPORATION_IN_MM_PER_DAY" : "PLUIE OU EVAPORATION EN MM PAR JOUR", + "RAINFALL_RUNOFF_MODEL" : "MODELE PLUIE-DEBIT", + "ANTECEDENT_MOISTURE_CONDITIONS" : "CONDITIONS D'HUMIDITE PRECEDENTE", + "DURATION_OF_RAIN_OR_EVAPORATION_IN_HOURS" : "DUREE DE LA PLUIE OU EVAPORATION EN HEURES", + "ASCII_ATMOSPHERIC_DATA_FILE" : "FICHIER ASCII DE DONNEES ATMOSPHERIQUES", + "BINARY_ATMOSPHERIC_DATA_FILE" : "FICHIER BINAIRE DE DONNEES ATMOSPHERIQUES", + "BINARY_ATMOSPHERIC_DATA_FILE_FORMAT" : "FORMAT DU FICHIER BINAIRE DE DONNEES ATMOSPHERIQUES", + "OPTION_FOR_INITIAL_ABSTRACTION_RATIO" : "OPTION POUR RATIO DES PERTES INITIALES", + "WAVE_DRIVEN_CURRENTS" : "COURANTS DE HOULE", + "RECORD_NUMBER_IN_WAVE_FILE" : "NUMERO DE L'ENREGISTREMENT DANS LE FICHIER DE HOULE", + "WAVE_ENHANCED_FRICTION_FACTOR" : "AUGMENTATION DU FROTTEMENT PAR LA HOULE", + "PARAMETER_ESTIMATION" : "ESTIMATION DE PARAMETRE", + "COST_FUNCTION" : "FONCTION COUT", + "IDENTIFICATION_METHOD" : "METHODE D'IDENTIFICATION", + "TOLERANCES_FOR_IDENTIFICATION" : "PRECISIONS POUR L'IDENTIFICATION", + "MAXIMUM_NUMBER_OF_ITERATIONS_FOR_IDENTIFICATION" : "MAXIMUM D'ITERATIONS POUR L'IDENTIFICATION", + "ABSCISSAE_OF_SOURCES" : "ABSCISSES DES SOURCES", + "ORDINATES_OF_SOURCES" : "ORDONNEES DES SOURCES", + "WATER_DISCHARGE_OF_SOURCES" : "DEBITS DES SOURCES", + "VELOCITIES_OF_THE_SOURCES_ALONG_X" : "VITESSES DES SOURCES SELON X", + "VELOCITIES_OF_THE_SOURCES_ALONG_Y" : "VITESSES DES SOURCES SELON Y", + "TYPE_OF_SOURCES" : "TYPE DES SOURCES", + "SOURCES_FILE" : "FICHIER DES SOURCES", + "GLOBAL_NUMBERS_OF_SOURCE_NODES" : "NUMEROS GLOBAUX DES NOEUDS DES SOURCES", + "WATER_QUALITY_PROCESS" : "PROCESSUS QUALITE D'EAU", + "WATER_DENSITY" : "MASSE VOLUMIQUE DE L'EAU", + "GRAVITY_ACCELERATION" : "ACCELERATION DE LA PESANTEUR", + "VERTICAL_STRUCTURES" : "STRUCTURES VERTICALES", + "EQUATIONS" : "EQUATIONS", + "TREATMENT_OF_THE_LINEAR_SYSTEM" : "TRAITEMENT DU SYSTEME LINEAIRE", + "FINITE_VOLUME_SCHEME" : "SCHEMA EN VOLUMES FINIS", + "CORIOLIS" : "CORIOLIS", + "CORIOLIS_COEFFICIENT" : "COEFFICIENT DE CORIOLIS", + "OPTION_FOR_TSUNAMI_GENERATION" : "OPTION POUR LA GENERATION DE TSUNAMI", + "PHYSICAL_CHARACTERISTICS_OF_THE_TSUNAMI" : "PARAMETRES PHYSIQUES DU TSUNAMI", + "SECONDARY_CURRENTS" : "COURANTS SECONDAIRES", + "PRODUCTION_COEFFICIENT_FOR_SECONDARY_CURRENTS" : "COEFFICIENT DE PRODUCTION POUR COURANTS SECONDAIRES", + "DISSIPATION_COEFFICIENT_FOR_SECONDARY_CURRENTS" : "COEFFICIENT DE DISSIPATION POUR COURANTS SECONDAIRES", + "DEBUGGER" : "DEBUGGER", + "TIME_STEP" : "PAS DE TEMPS", + "NUMBER_OF_TIME_STEPS" : "NOMBRE DE PAS DE TEMPS", + "DURATION" : "DUREE DU CALCUL", + "ORIGINAL_DATE_OF_TIME" : "DATE DE L'ORIGINE DES TEMPS", + "ORIGINAL_HOUR_OF_TIME" : "HEURE DE L'ORIGINE DES TEMPS", + "STOP_IF_A_STEADY_STATE_IS_REACHED" : "ARRET SI UN ETAT PERMANENT EST ATTEINT", + "STOP_CRITERIA" : "CRITERES D'ARRET", + "CONTROL_OF_LIMITS" : "CONTROLE DES LIMITES", + "LIMIT_VALUES" : "VALEURS LIMITES", + "VARIABLE_TIME_STEP" : "PAS DE TEMPS VARIABLE", + "DESIRED_COURANT_NUMBER" : "NOMBRE DE COURANT SOUHAITE", + "ORIGIN_COORDINATES" : "COORDONNEES DE L'ORIGINE", + "SPHERICAL_COORDINATES" : "COORDONNEES SPHERIQUES", + "LATITUDE_OF_ORIGIN_POINT" : "LATITUDE DU POINT ORIGINE", + "LONGITUDE_OF_ORIGIN_POINT" : "LONGITUDE DU POINT ORIGINE", + "NORTH" : "NORD", + "SPATIAL_PROJECTION_TYPE" : "TYPE DE PROJECTION SPATIALE", + "SOLVER" : "SOLVEUR", + "SOLVER_OPTION" : "OPTION DU SOLVEUR", + "SOLVER_ACCURACY" : "PRECISION DU SOLVEUR", + "MAXIMUM_NUMBER_OF_ITERATIONS_FOR_SOLVER" : "MAXIMUM D'ITERATIONS POUR LE SOLVEUR", + "CONTINUITY_CORRECTION" : "CORRECTION DE CONTINUITE", + "PRECONDITIONING" : "PRECONDITIONNEMENT", + "C_U_PRECONDITIONING" : "PRECONDITIONNEMENT C-U", + "FINITE_ELEMENT_ASSEMBLY" : "ASSEMBLAGE EN ELEMENTS FINIS", + "IMPLICITATION_FOR_DEPTH" : "IMPLICITATION POUR LA HAUTEUR", + "IMPLICITATION_FOR_VELOCITY" : "IMPLICITATION POUR LA VITESSE", + "DISCRETIZATIONS_IN_SPACE" : "DISCRETISATIONS EN ESPACE", + "PROPAGATION" : "PROPAGATION", + "INITIAL_GUESS_FOR_H" : "ORDRE DU TIR INITIAL POUR H", + "LINEARIZED_PROPAGATION" : "PROPAGATION LINEARISEE", + "INITIAL_GUESS_FOR_U" : "ORDRE DU TIR INITIAL POUR U", + "MEAN_DEPTH_FOR_LINEARIZATION" : "PROFONDEUR MOYENNE POUR LA LINEARISATION", + "ADVECTION" : "CONVECTION", + "ADVECTION_OF_H" : "CONVECTION DE H", + "ADVECTION_OF_U_AND_V" : "CONVECTION DE U ET V", + "TYPE_OF_ADVECTION" : "FORME DE LA CONVECTION", + "OPTION_FOR_CHARACTERISTICS" : "OPTION POUR LES CARACTERISTIQUES", + "SUPG_OPTION" : "OPTION DE SUPG", + "NUMBER_OF_GAUSS_POINTS_FOR_WEAK_CHARACTERISTICS" : "NOMBRE DE POINTS DE GAUSS POUR LES CARACTERISTIQUES FAIBLES", + "MASS_LUMPING_FOR_WEAK_CHARACTERISTICS" : "MASS-LUMPING POUR LES CARACTERISTIQUES FAIBLES", + "MAXIMUM_NUMBER_OF_ITERATIONS_FOR_ADVECTION_SCHEMES" : "MAXIMUM D'ITERATIONS POUR LES SCHEMAS DE CONVECTION", + "UPWIND_COEFFICIENTS" : "COEFFICIENTS DE DECENTREMENT", + "MASS_LUMPING_ON_H" : "MASS-LUMPING SUR H", + "MASS_LUMPING_ON_VELOCITY" : "MASS-LUMPING SUR LA VITESSE", + "SCHEME_FOR_ADVECTION_OF_VELOCITIES" : "SCHEMA POUR LA CONVECTION DES VITESSES", + "SCHEME_OPTION_FOR_ADVECTION_OF_VELOCITIES" : "OPTION DU SCHEMA POUR LA CONVECTION DES VITESSES", + "FREE_SURFACE_GRADIENT_COMPATIBILITY" : "COMPATIBILITE DU GRADIENT DE SURFACE LIBRE", + "NUMBER_OF_SUB_ITERATIONS_FOR_NON_LINEARITIES" : "NOMBRE DE SOUS-ITERATIONS POUR LES NON-LINEARITES", + "TREATMENT_OF_FLUXES_AT_THE_BOUNDARIES" : "TRAITEMENT DES FLUX AUX FRONTIERES", + "NUMBER_OF_CORRECTIONS_OF_DISTRIBUTIVE_SCHEMES" : "NOMBRE DE CORRECTIONS DES SCHEMAS DISTRIBUTIFS", + "NUMBER_OF_SUB_STEPS_OF_DISTRIBUTIVE_SCHEMES" : "NOMBRE DE SOUS-PAS DES SCHEMAS DISTRIBUTIFS", + "PSI_SCHEME_OPTION" : "OPTION DU SCHEMA PSI", + "DIFFUSION_OF_VELOCITY" : "DIFFUSION DES VITESSES", + "OPTION_FOR_THE_DIFFUSION_OF_VELOCITIES" : "OPTION POUR LA DIFFUSION DES VITESSES", + "IMPLICITATION_FOR_DIFFUSION_OF_VELOCITY" : "IMPLICITATION POUR LA DIFFUSION DES VITESSES", + "AD_NUMBER_OF_DERIVATIVES" : "AD NOMBRE DE DERIVEES", + "AD_NAMES_OF_DERIVATIVES" : "AD NOMS DES DERIVEES", + "AD_SYMBOLIC_LINEAR_SOLVER" : "AD SOLVEUR LINEAIRE SYMBOLIQUE", + "AD_LINEAR_SOLVER_RESET_DERIVATIVES" : "AD REMISE A ZERO DES DERIVEES DU SOLVEUR LINEAIRE", + "AD_LINEAR_SOLVER_DERIVATIVE_CONVERGENCE" : "AD CONVERGENCE DES DERIVEES POUR LE SOLVEUR LINEAIRE", + "MATRIX_STORAGE" : "STOCKAGE DES MATRICES", + "MATRIX_VECTOR_PRODUCT" : "PRODUIT MATRICE-VECTEUR", + "NEWMARK_TIME_INTEGRATION_COEFFICIENT" : "COEFFICIENT D'INTEGRATION EN TEMPS DE NEWMARK", + "ZERO" : "ZERO", + "PROPAGATION_OPTION" : "OPTION DE PROPAGATION", + "OPTION_OF_THE_HYDROSTATIC_RECONSTRUCTION" : "OPTION DE LA RECONSTRUCION HYDROSTATIQUE", + "CONVERGENCE_STUDY" : "ETUDE DE CONVERGENCE", + "REFINEMENT_LEVELS" : "NIVEAUX DE RAFFINEMENT", + "VELOCITY_DIFFUSIVITY" : "COEFFICIENT DE DIFFUSION DES VITESSES", + "TURBULENCE_MODEL" : "MODELE DE TURBULENCE", + "ACCURACY_OF_SPALART_ALLMARAS" : "PRECISION SUR SPALART-ALLMARAS", + "INFORMATION_ABOUT_SPALART_ALLMARAS_MODEL" : "INFORMATION SUR LE MODELE SPALART-ALLMARAS", + "SOLVER_FOR_K_EPSILON_MODEL" : "SOLVEUR POUR LE MODELE K-EPSILON", + "OPTION_FOR_THE_SOLVER_FOR_K_EPSILON_MODEL" : "OPTION DU SOLVEUR POUR LE MODELE K-EPSILON", + "PRECONDITIONING_FOR_K_EPSILON_MODEL" : "PRECONDITIONNEMENT POUR LE MODELE K-EPSILON", + "NON_DIMENSIONAL_DISPERSION_COEFFICIENTS" : "COEFFICIENTS ADIMENSIONNELS DE DISPERSION", + "TURBULENCE_REGIME_FOR_SOLID_BOUNDARIES" : "REGIME DE TURBULENCE POUR LES PAROIS", + "INFORMATION_ABOUT_K_EPSILON_MODEL" : "INFORMATIONS SUR LE MODELE K-EPSILON", + "ADVECTION_OF_K_AND_EPSILON" : "CONVECTION DE K ET EPSILON", + "SCHEME_FOR_ADVECTION_OF_K_EPSILON" : "SCHEMA POUR LA CONVECTION DU K-EPSILON", + "SCHEME_OPTION_FOR_ADVECTION_OF_K_EPSILON" : "OPTION DU SCHEMA POUR LA CONVECTION DU K-EPSILON", + "TIME_STEP_REDUCTION_FOR_K_EPSILON_MODEL" : "REDUCTION DU PAS DE TEMPS POUR LE MODELE K-EPSILON", + "ACCURACY_OF_K" : "PRECISION SUR K", + "ACCURACY_OF_EPSILON" : "PRECISION SUR EPSILON", + "MAXIMUM_NUMBER_OF_ITERATIONS_FOR_K_AND_EPSILON" : "MAXIMUM D'ITERATIONS POUR K ET EPSILON", + "TIDAL_FLATS" : "BANCS DECOUVRANTS", + "OPTION_FOR_THE_TREATMENT_OF_TIDAL_FLATS" : "OPTION DE TRAITEMENT DES BANCS DECOUVRANTS", + "TREATMENT_OF_NEGATIVE_DEPTHS" : "TRAITEMENT DES HAUTEURS NEGATIVES", + "THRESHOLD_FOR_NEGATIVE_DEPTHS" : "SEUIL POUR LES PROFONDEURS NEGATIVES", + "THRESHOLD_DEPTH_FOR_RECEDING_PROCEDURE" : "PROFONDEUR LIMITE POUR PROCEDURE DE RESSUYAGE", + "H_CLIPPING" : "CLIPPING DE H", + "MINIMUM_VALUE_OF_DEPTH" : "VALEUR MINIMUM DE H", + "PRESCRIBED_TRACERS_VALUES" : "VALEURS IMPOSEES DES TRACEURS", + "NUMBER_OF_TRACERS" : "NOMBRE DE TRACEURS", + "NAMES_OF_TRACERS" : "NOMS DES TRACEURS", + "INITIAL_VALUES_OF_TRACERS" : "VALEURS INITIALES DES TRACEURS", + "DENSITY_EFFECTS" : "EFFETS DE DENSITE", + "MEAN_TEMPERATURE" : "TEMPERATURE MOYENNE", + "SOLVER_FOR_DIFFUSION_OF_TRACERS" : "SOLVEUR POUR LA DIFFUSION DES TRACEURS", + "SOLVER_OPTION_FOR_TRACERS_DIFFUSION" : "OPTION DU SOLVEUR POUR LA DIFFUSION DES TRACEURS", + "PRECONDITIONING_FOR_DIFFUSION_OF_TRACERS" : "PRECONDITIONNEMENT POUR LA DIFFUSION DES TRACEURS", + "ACCURACY_FOR_DIFFUSION_OF_TRACERS" : "PRECISION POUR LA DIFFUSION DES TRACEURS", + "MAXIMUM_NUMBER_OF_ITERATIONS_FOR_DIFFUSION_OF_TRACERS" : "MAXIMUM D'ITERATIONS POUR LA DIFFUSION DES TRACEURS", + "VALUES_OF_THE_TRACERS_AT_THE_SOURCES" : "VALEURS DES TRACEURS DES SOURCES", + "VALUES_OF_TRACERS_IN_THE_RAIN" : "VALEURS DES TRACEURS DANS LA PLUIE", + "ADVECTION_OF_TRACERS" : "CONVECTION DES TRACEURS", + "IMPLICITATION_COEFFICIENT_OF_TRACERS" : "COEFFICIENT D'IMPLICITATION DES TRACEURS", + "DIFFUSION_OF_TRACERS" : "DIFFUSION DES TRACEURS", + "COEFFICIENT_FOR_DIFFUSION_OF_TRACERS" : "COEFFICIENT DE DIFFUSION DES TRACEURS", + "OPTION_FOR_THE_DIFFUSION_OF_TRACERS" : "OPTION POUR LA DIFFUSION DES TRACEURS", + "SCHEME_FOR_ADVECTION_OF_TRACERS" : "SCHEMA POUR LA CONVECTION DES TRACEURS", + "SCHEME_OPTION_FOR_ADVECTION_OF_TRACERS" : "OPTION DU SCHEMA POUR LA CONVECTION DES TRACEURS", + "MASS_LUMPING_ON_TRACERS" : "MASS-LUMPING SUR LES TRACEURS", + "NUMBER_OF_DROGUES" : "NOMBRE DE FLOTTEURS", + "PRINTOUT_PERIOD_FOR_DROGUES" : "PERIODE POUR LES SORTIES DE FLOTTEURS", + "DROGUES_FILE" : "FICHIER DES FLOTTEURS", + "ALGAE_TRANSPORT_MODEL" : "MODELE DE TRANSPORT DES ALGUES", + "ALGAE_TYPE" : "TYPE DES ALGUES", + "DIAMETER_OF_ALGAE" : "DIAMETRE DES ALGUES", + "DENSITY_OF_ALGAE" : "MASSE VOLUMIQUE DES ALGUES", + "THICKNESS_OF_ALGAE" : "EPAISSEUR DES ALGUES", + "OIL_SPILL_MODEL" : "MODELE DE NAPPES D'HYDROCARBURES", + "OIL_SPILL_STEERING_FILE" : "FICHIER DE COMMANDES HYDROCARBURES", + "STOCHASTIC_DIFFUSION_MODEL" : "MODELE DE DIFFUSION STOCHASTIQUE", + "NUMBER_OF_LAGRANGIAN_DRIFTS" : "NOMBRE DE DERIVES LAGRANGIENNES", + "NUMBER_OF_WEIRS" : "NOMBRE DE SEUILS", + "WEIRS_DATA_FILE" : "FICHIER DE DONNEES DES SEUILS", + "TYPE_OF_WEIRS" : "TYPE DES SEUILS", + "NUMBER_OF_CULVERTS" : "NOMBRE DE BUSES", + "CULVERTS_DATA_FILE" : "FICHIER DE DONNEES DES BUSES", + "OPTION_FOR_CULVERTS" : "OPTION POUR LES BUSES", + "BREACH" : "BRECHE", + "BREACHES_DATA_FILE" : "FICHIER DE DONNEES DES BRECHES", + "BINARY_DATABASE_1_FOR_TIDE" : "BASE BINAIRE 1 DE DONNEES DE MAREE", + "BINARY_DATABASE_2_FOR_TIDE" : "BASE BINAIRE 2 DE DONNEES DE MAREE", + "GEOGRAPHIC_SYSTEM" : "SYSTEME GEOGRAPHIQUE", + "ZONE_NUMBER_IN_GEOGRAPHIC_SYSTEM" : "NUMERO DE FUSEAU OU PROJECTION DANS LE SYSTEME GEOGRAPHIQUE", + "LAMBERT_93_CONVERSION_FILE" : "FICHIER DE CONVERSION LAMBERT 93", + "COEFFICIENT_TO_CALIBRATE_SEA_LEVEL" : "COEFFICIENT DE CALAGE DU NIVEAU DE MER", + "GLOBAL_NUMBER_OF_THE_POINT_TO_CALIBRATE_HIGH_WATER" : "NUMERO GLOBAL DU POINT POUR CALER LA PLEINE MER", + "MINOR_CONSTITUENTS_INFERENCE" : "INTERPOLATION DE COMPOSANTES MINEURES", + "OPTION_FOR_TIDAL_BOUNDARY_CONDITIONS" : "OPTION POUR LES CONDITIONS AUX LIMITES DE MAREE", + "TIDAL_DATA_BASE" : "BASE DE DONNEES DE MAREE", + "HARMONIC_CONSTANTS_FILE" : "FICHIER DES CONSTANTES HARMONIQUES", + "TIDAL_MODEL_FILE" : "FICHIER DU MODELE DE MAREE", + "TIDAL_MODEL_FILE_FORMAT" : "FORMAT DU FICHIER DU MODELE DE MAREE", + "ASCII_DATABASE_FOR_TIDE" : "BASE ASCII DE DONNEES DE MAREE", + "COEFFICIENT_TO_CALIBRATE_TIDAL_RANGE" : "COEFFICIENT DE CALAGE DU MARNAGE", + "COEFFICIENT_TO_CALIBRATE_TIDAL_VELOCITIES" : "COEFFICIENT DE CALAGE DES VITESSES DE COURANT", + "LOCAL_NUMBER_OF_THE_POINT_TO_CALIBRATE_HIGH_WATER" : "NUMERO LOCAL DU POINT POUR CALER LA PLEINE MER", + "TIDE_GENERATING_FORCE" : "FORCE GENERATRICE DE LA MAREE", + "COUPLING_WITH" : "COUPLAGE AVEC", + "NAMES_OF_CLANDESTINE_VARIABLES" : "NOMS DES VARIABLES CLANDESTINES", + "COUPLING_DIRECTORY" : "DOSSIER DE COUPLAGE", + "DELWAQ_STEERING_FILE" : "FICHIER DE COMMANDE DELWAQ", + "DELWAQ_PRINTOUT_PERIOD" : "PERIODE DE SORTIE POUR DELWAQ", + "EXCHANGES_BETWEEN_NODES_DELWAQ_FILE" : "FICHIER DELWAQ DES ECHANGES ENTRE NOEUDS", + "NODES_DISTANCES_DELWAQ_FILE" : "FICHIER DELWAQ DES DISTANCES ENTRE NOEUDS", + "BOTTOM_SURFACES_DELWAQ_FILE" : "FICHIER DELWAQ DES SURFACES DU FOND", + "VOLUMES_DELWAQ_FILE" : "FICHIER DELWAQ DES VOLUMES", + "EXCHANGE_AREAS_DELWAQ_FILE" : "FICHIER DELWAQ DES SURFACES DE FLUX", + "VERTICAL_FLUXES_DELWAQ_FILE" : "FICHIER DELWAQ DES FLUX VERTICAUX", + "VELOCITY_DELWAQ_FILE" : "FICHIER DELWAQ DE LA VITESSE", + "DIFFUSIVITY_DELWAQ_FILE" : "FICHIER DELWAQ DE LA DIFFUSION", + "TEMPERATURE_DELWAQ_FILE" : "FICHIER DELWAQ DE LA TEMPERATURE", + "SALINITY_DELWAQ_FILE" : "FICHIER DELWAQ DE LA SALINITE", + "VELOCITY_FOR_DELWAQ" : "VITESSE POUR DELWAQ", + "DIFFUSIVITY_FOR_DELWAQ" : "DIFFUSION POUR DELWAQ", + "TEMPERATURE_FOR_DELWAQ" : "TEMPERATURE POUR DELWAQ", + "SALINITY_FOR_DELWAQ" : "SALINITE POUR DELWAQ", + "SISYPHE_STEERING_FILE" : "FICHIER DES PARAMETRES DE SISYPHE", + "COUPLING_PERIOD_FOR_SISYPHE" : "PERIODE DE COUPLAGE POUR SISYPHE", + "TOMAWAC_STEERING_FILE" : "FICHIER DES PARAMETRES DE TOMAWAC", + "COUPLING_PERIOD_FOR_TOMAWAC" : "PERIODE DE COUPLAGE POUR TOMAWAC", + "WAQTEL_STEERING_FILE" : "FICHIER DES PARAMETRES DE WAQTEL", + "KHIONE_STEERING_FILE" : "FICHIER DES PARAMETRES DE KHIONE", + "LANGUAGE" : "LANGUE", + "STEERING_FILE" : "FICHIER DES PARAMETRES", + "DICTIONARY" : "DICTIONNAIRE", + "PARTITIONING_TOOL" : "PARTITIONNEUR", + "RELEASE" : "NUMERO DE VERSION", + "LIST_OF_FILES" : "LISTE DES FICHIERS", + "DESCRIPTION_OF_LIBRARIES" : "DESCRIPTION DES LIBRAIRIES", + "DEFAULT_EXECUTABLE" : "EXECUTABLE PAR DEFAUT", + "DEFAULT_PARALLEL_EXECUTABLE" : "EXECUTABLE PARALLELE PAR DEFAUT", + "NESTOR" : "NESTOR", + "NESTOR_ACTION_FILE" : "FICHIER DE NESTOR ACTION", + "NESTOR_POLYGON_FILE" : "FICHIER DE NESTOR POLYGON", + "NESTOR_SURFACE_REFERENCE_FILE" : "FICHIER DE NESTOR DE SURFACE REFERENCE", + "NESTOR_RESTART_FILE" : "FICHIER DE NESTOR RESTART", +} +dicoCasFrToCata = { + "TITRE" : "TITLE", + "CONDITIONS INITIALES" : "INITIAL_CONDITIONS", + "COTE INITIALE" : "INITIAL_ELEVATION", + "HAUTEUR INITIALE" : "INITIAL_DEPTH", + "FORMAT DU FICHIER DE DONNEES BINAIRE 1" : "BINARY_DATA_FILE_1_FORMAT", + "FICHIER DE DONNEES BINAIRE 1" : "BINARY_DATA_FILE_1", + "FORMAT DU FICHIER DE DONNEES BINAIRE 2" : "BINARY_DATA_FILE_2_FORMAT", + "FICHIER DE DONNEES BINAIRE 2" : "BINARY_DATA_FILE_2", + "FICHIER DE DONNEES FORMATE 1" : "FORMATTED_DATA_FILE_1", + "FICHIER DE DONNEES FORMATE 2" : "FORMATTED_DATA_FILE_2", + "FORMAT DU FICHIER DE GEOMETRIE" : "GEOMETRY_FILE_FORMAT", + "FICHIER DE GEOMETRIE" : "GEOMETRY_FILE", + "FICHIER FORTRAN" : "FORTRAN_FILE", + "FICHIER DES FONDS" : "BOTTOM_TOPOGRAPHY_FILE", + "LISSAGES DU FOND" : "BOTTOM_SMOOTHINGS", + "FICHIER DES CONDITIONS AUX LIMITES" : "BOUNDARY_CONDITIONS_FILE", + "VALIDATION" : "VALIDATION", + "FORMAT DU FICHIER DE REFERENCE" : "REFERENCE_FILE_FORMAT", + "FICHIER DE REFERENCE" : "REFERENCE_FILE", + "PROCESSEURS PARALLELES" : "PARALLEL_PROCESSORS", + "VERIFICATION DU MAILLAGE" : "CHECKING_THE_MESH", + "NOMBRE MAXIMUM DE FRONTIERES" : "MAXIMUM_NUMBER_OF_BOUNDARIES", + "NOMBRE MAXIMUM DE SOURCES" : "MAXIMUM_NUMBER_OF_SOURCES", + "NOMBRE MAXIMUM DE TRACEURS" : "MAXIMUM_NUMBER_OF_TRACERS", + "LONGUEUR DU VECTEUR" : "VECTOR_LENGTH", + "SUITE DE CALCUL" : "COMPUTATION_CONTINUED", + "FORMAT DU FICHIER DU CALCUL PRECEDENT" : "PREVIOUS_COMPUTATION_FILE_FORMAT", + "FICHIER DU CALCUL PRECEDENT" : "PREVIOUS_COMPUTATION_FILE", + "ENREGISTREMENT POUR SUITE DE CALCUL" : "RECORD_NUMBER_FOR_RESTART", + "REMISE A ZERO DU TEMPS" : "INITIAL_TIME_SET_TO_ZERO", + "NUMERO DU PREMIER PAS DE TEMPS POUR LES SORTIES GRAPHIQUES" : "NUMBER_OF_FIRST_TIME_STEP_FOR_GRAPHIC_PRINTOUTS", + "PERIODE POUR LES SORTIES GRAPHIQUES" : "GRAPHIC_PRINTOUT_PERIOD", + "VARIABLES POUR LES SORTIES GRAPHIQUES" : "VARIABLES_FOR_GRAPHIC_PRINTOUTS", + "NOMBRE DE TABLEAUX PRIVES" : "NUMBER_OF_PRIVATE_ARRAYS", + "NOMS DES VARIABLES PRIVEES" : "NAMES_OF_PRIVATE_VARIABLES", + "FORMAT DU FICHIER DES RESULTATS" : "RESULTS_FILE_FORMAT", + "FICHIER DES RESULTATS" : "RESULTS_FILE", + "FICHIER RESULTAT EN LONGITUDE-LATITUDE" : "RESULT_FILE_IN_LONGITUDE_LATITUDE", + "FORMAT DU FICHIER DE RESULTATS BINAIRE" : "BINARY_RESULTS_FILE_FORMAT", + "FICHIER DE RESULTATS BINAIRE" : "BINARY_RESULTS_FILE", + "FICHIER DE RESULTATS FORMATE" : "FORMATTED_RESULTS_FILE", + "SECTIONS DE CONTROLE" : "CONTROL_SECTIONS", + "IMPRESSION DU CUMUL DES FLUX" : "PRINTING_CUMULATED_FLOWRATES", + "CALCUL COMPATIBLE DES FLUX" : "COMPATIBLE_COMPUTATION_OF_FLUXES", + "FICHIER DES SECTIONS DE CONTROLE" : "SECTIONS_INPUT_FILE", + "FICHIER DE SORTIE DES SECTIONS DE CONTROLE" : "SECTIONS_OUTPUT_FILE", + "FLUXLINE" : "FLUXLINE", + "FICHIER DE FLUXLINE" : "FLUXLINE_INPUT_FILE", + "NUMERO DU PREMIER PAS DE TEMPS POUR LES SORTIES LISTING" : "NUMBER_OF_FIRST_TIME_STEP_FOR_LISTING_PRINTOUTS", + "PERIODE DE SORTIE LISTING" : "LISTING_PRINTOUT_PERIOD", + "PERIODE POUR LES SORTIES LISTING" : "LISTING_FOR_PRINTOUT_PERIOD", + "SORTIE LISTING" : "LISTING_PRINTOUT", + "VARIABLES A IMPRIMER" : "VARIABLES_TO_BE_PRINTED", + "BILAN DE MASSE" : "MASS_BALANCE", + "INFORMATIONS SUR LE SOLVEUR" : "INFORMATION_ABOUT_SOLVER", + "LISTE DE POINTS" : "LIST_OF_POINTS", + "NOMS DES POINTS" : "NAMES_OF_POINTS", + "PERIODES D'ANALYSE DE FOURIER" : "FOURIER_ANALYSIS_PERIODS", + "BORNES EN TEMPS POUR L'ANALYSE DE FOURIER" : "TIME_RANGE_FOR_FOURIER_ANALYSIS", + "COTES IMPOSEES" : "PRESCRIBED_ELEVATIONS", + "DEBITS IMPOSES" : "PRESCRIBED_FLOWRATES", + "VITESSES IMPOSEES" : "PRESCRIBED_VELOCITIES", + "COURBES DE TARAGE" : "STAGE_DISCHARGE_CURVES", + "FICHIER DES COURBES DE TARAGE" : "STAGE_DISCHARGE_CURVES_FILE", + "PROFILS DE VITESSE" : "VELOCITY_PROFILES", + "OPTION POUR LES FRONTIERES LIQUIDES" : "OPTION_FOR_LIQUID_BOUNDARIES", + "FICHIER DES FRONTIERES LIQUIDES" : "LIQUID_BOUNDARIES_FILE", + "ELEMENTS MASQUES PAR L'UTILISATEUR" : "ELEMENTS_MASKED_BY_USER", + "NOMBRE MAXIMUM DE DOMAINES DE FROTTEMENT" : "MAXIMUM_NUMBER_OF_FRICTION_DOMAINS", + "DONNEES POUR LE FROTTEMENT" : "FRICTION_DATA", + "FICHIER DE DONNEES POUR LE FROTTEMENT" : "FRICTION_DATA_FILE", + "LOI DE FROTTEMENT SUR LE FOND" : "LAW_OF_BOTTOM_FRICTION", + "COEFFICIENT DE FROTTEMENT" : "FRICTION_COEFFICIENT", + "VALEUR PAR DEFAUT DU MANNING POUR LA LOI DE COLEBROOK-WHITE" : "MANNING_DEFAULT_VALUE_FOR_COLEBROOK_WHITE_LAW", + "HAUTEUR DANS LES TERMES DE FROTTEMENT" : "DEPTH_IN_FRICTION_TERMS", + "FROTTEMENT POUR LA VEGETATION NON SUBMERGEE" : "NON_SUBMERGED_VEGETATION_FRICTION", + "DIAMETRE DES ELEMENTS DE FROTTEMENT" : "DIAMETER_OF_ROUGHNESS_ELEMENTS", + "ESPACEMENT DES ELEMENTS DE FROTTEMENT" : "SPACING_OF_ROUGHNESS_ELEMENTS", + "LOI DE FROTTEMENT SUR LES PAROIS LATERALES" : "LAW_OF_FRICTION_ON_LATERAL_BOUNDARIES", + "COEFFICIENT DE RUGOSITE DES BORDS" : "ROUGHNESS_COEFFICIENT_OF_BOUNDARIES", + "DEFINITION DE ZONES" : "DEFINITION_OF_ZONES", + "FICHIER DES ZONES" : "ZONES_FILE", + "PROCESSUS LIES AUX GLACES" : "ICE_PROCESSES", + "VENT" : "WIND", + "OPTION DU VENT" : "OPTION_FOR_WIND", + "COEFFICIENT D'INFLUENCE DU VENT" : "COEFFICIENT_OF_WIND_INFLUENCE", + "VITESSE DU VENT SUIVANT X" : "WIND_VELOCITY_ALONG_X", + "VITESSE DU VENT SUIVANT Y" : "WIND_VELOCITY_ALONG_Y", + "VITESSE ET DIRECTION DU VENT" : "SPEED_AND_DIRECTION_OF_WIND", + "PROFONDEUR LIMITE POUR LE VENT" : "THRESHOLD_DEPTH_FOR_WIND", + "PRESSION ATMOSPHERIQUE" : "AIR_PRESSURE", + "VALEUR DE LA PRESSION ATMOSPHERIQUE" : "VALUE_OF_ATMOSPHERIC_PRESSURE", + "PLUIE OU EVAPORATION" : "RAIN_OR_EVAPORATION", + "PLUIE OU EVAPORATION EN MM PAR JOUR" : "RAIN_OR_EVAPORATION_IN_MM_PER_DAY", + "MODELE PLUIE-DEBIT" : "RAINFALL_RUNOFF_MODEL", + "CONDITIONS D'HUMIDITE PRECEDENTE" : "ANTECEDENT_MOISTURE_CONDITIONS", + "DUREE DE LA PLUIE OU EVAPORATION EN HEURES" : "DURATION_OF_RAIN_OR_EVAPORATION_IN_HOURS", + "FICHIER ASCII DE DONNEES ATMOSPHERIQUES" : "ASCII_ATMOSPHERIC_DATA_FILE", + "FICHIER BINAIRE DE DONNEES ATMOSPHERIQUES" : "BINARY_ATMOSPHERIC_DATA_FILE", + "FORMAT DU FICHIER BINAIRE DE DONNEES ATMOSPHERIQUES" : "BINARY_ATMOSPHERIC_DATA_FILE_FORMAT", + "OPTION POUR RATIO DES PERTES INITIALES" : "OPTION_FOR_INITIAL_ABSTRACTION_RATIO", + "COURANTS DE HOULE" : "WAVE_DRIVEN_CURRENTS", + "NUMERO DE L'ENREGISTREMENT DANS LE FICHIER DE HOULE" : "RECORD_NUMBER_IN_WAVE_FILE", + "AUGMENTATION DU FROTTEMENT PAR LA HOULE" : "WAVE_ENHANCED_FRICTION_FACTOR", + "ESTIMATION DE PARAMETRE" : "PARAMETER_ESTIMATION", + "FONCTION COUT" : "COST_FUNCTION", + "METHODE D'IDENTIFICATION" : "IDENTIFICATION_METHOD", + "PRECISIONS POUR L'IDENTIFICATION" : "TOLERANCES_FOR_IDENTIFICATION", + "MAXIMUM D'ITERATIONS POUR L'IDENTIFICATION" : "MAXIMUM_NUMBER_OF_ITERATIONS_FOR_IDENTIFICATION", + "ABSCISSES DES SOURCES" : "ABSCISSAE_OF_SOURCES", + "ORDONNEES DES SOURCES" : "ORDINATES_OF_SOURCES", + "DEBITS DES SOURCES" : "WATER_DISCHARGE_OF_SOURCES", + "VITESSES DES SOURCES SELON X" : "VELOCITIES_OF_THE_SOURCES_ALONG_X", + "VITESSES DES SOURCES SELON Y" : "VELOCITIES_OF_THE_SOURCES_ALONG_Y", + "TYPE DES SOURCES" : "TYPE_OF_SOURCES", + "FICHIER DES SOURCES" : "SOURCES_FILE", + "NUMEROS GLOBAUX DES NOEUDS DES SOURCES" : "GLOBAL_NUMBERS_OF_SOURCE_NODES", + "PROCESSUS QUALITE D'EAU" : "WATER_QUALITY_PROCESS", + "MASSE VOLUMIQUE DE L'EAU" : "WATER_DENSITY", + "ACCELERATION DE LA PESANTEUR" : "GRAVITY_ACCELERATION", + "STRUCTURES VERTICALES" : "VERTICAL_STRUCTURES", + "EQUATIONS" : "EQUATIONS", + "TRAITEMENT DU SYSTEME LINEAIRE" : "TREATMENT_OF_THE_LINEAR_SYSTEM", + "SCHEMA EN VOLUMES FINIS" : "FINITE_VOLUME_SCHEME", + "CORIOLIS" : "CORIOLIS", + "COEFFICIENT DE CORIOLIS" : "CORIOLIS_COEFFICIENT", + "OPTION POUR LA GENERATION DE TSUNAMI" : "OPTION_FOR_TSUNAMI_GENERATION", + "PARAMETRES PHYSIQUES DU TSUNAMI" : "PHYSICAL_CHARACTERISTICS_OF_THE_TSUNAMI", + "COURANTS SECONDAIRES" : "SECONDARY_CURRENTS", + "COEFFICIENT DE PRODUCTION POUR COURANTS SECONDAIRES" : "PRODUCTION_COEFFICIENT_FOR_SECONDARY_CURRENTS", + "COEFFICIENT DE DISSIPATION POUR COURANTS SECONDAIRES" : "DISSIPATION_COEFFICIENT_FOR_SECONDARY_CURRENTS", + "DEBUGGER" : "DEBUGGER", + "PAS DE TEMPS" : "TIME_STEP", + "NOMBRE DE PAS DE TEMPS" : "NUMBER_OF_TIME_STEPS", + "DUREE DU CALCUL" : "DURATION", + "DATE DE L'ORIGINE DES TEMPS" : "ORIGINAL_DATE_OF_TIME", + "HEURE DE L'ORIGINE DES TEMPS" : "ORIGINAL_HOUR_OF_TIME", + "ARRET SI UN ETAT PERMANENT EST ATTEINT" : "STOP_IF_A_STEADY_STATE_IS_REACHED", + "CRITERES D'ARRET" : "STOP_CRITERIA", + "CONTROLE DES LIMITES" : "CONTROL_OF_LIMITS", + "VALEURS LIMITES" : "LIMIT_VALUES", + "PAS DE TEMPS VARIABLE" : "VARIABLE_TIME_STEP", + "NOMBRE DE COURANT SOUHAITE" : "DESIRED_COURANT_NUMBER", + "COORDONNEES DE L'ORIGINE" : "ORIGIN_COORDINATES", + "COORDONNEES SPHERIQUES" : "SPHERICAL_COORDINATES", + "LATITUDE DU POINT ORIGINE" : "LATITUDE_OF_ORIGIN_POINT", + "LONGITUDE DU POINT ORIGINE" : "LONGITUDE_OF_ORIGIN_POINT", + "NORD" : "NORTH", + "TYPE DE PROJECTION SPATIALE" : "SPATIAL_PROJECTION_TYPE", + "SOLVEUR" : "SOLVER", + "OPTION DU SOLVEUR" : "SOLVER_OPTION", + "PRECISION DU SOLVEUR" : "SOLVER_ACCURACY", + "MAXIMUM D'ITERATIONS POUR LE SOLVEUR" : "MAXIMUM_NUMBER_OF_ITERATIONS_FOR_SOLVER", + "CORRECTION DE CONTINUITE" : "CONTINUITY_CORRECTION", + "PRECONDITIONNEMENT" : "PRECONDITIONING", + "PRECONDITIONNEMENT C-U" : "C_U_PRECONDITIONING", + "ASSEMBLAGE EN ELEMENTS FINIS" : "FINITE_ELEMENT_ASSEMBLY", + "IMPLICITATION POUR LA HAUTEUR" : "IMPLICITATION_FOR_DEPTH", + "IMPLICITATION POUR LA VITESSE" : "IMPLICITATION_FOR_VELOCITY", + "DISCRETISATIONS EN ESPACE" : "DISCRETIZATIONS_IN_SPACE", + "PROPAGATION" : "PROPAGATION", + "ORDRE DU TIR INITIAL POUR H" : "INITIAL_GUESS_FOR_H", + "PROPAGATION LINEARISEE" : "LINEARIZED_PROPAGATION", + "ORDRE DU TIR INITIAL POUR U" : "INITIAL_GUESS_FOR_U", + "PROFONDEUR MOYENNE POUR LA LINEARISATION" : "MEAN_DEPTH_FOR_LINEARIZATION", + "CONVECTION" : "ADVECTION", + "CONVECTION DE H" : "ADVECTION_OF_H", + "CONVECTION DE U ET V" : "ADVECTION_OF_U_AND_V", + "FORME DE LA CONVECTION" : "TYPE_OF_ADVECTION", + "OPTION POUR LES CARACTERISTIQUES" : "OPTION_FOR_CHARACTERISTICS", + "OPTION DE SUPG" : "SUPG_OPTION", + "NOMBRE DE POINTS DE GAUSS POUR LES CARACTERISTIQUES FAIBLES" : "NUMBER_OF_GAUSS_POINTS_FOR_WEAK_CHARACTERISTICS", + "MASS-LUMPING POUR LES CARACTERISTIQUES FAIBLES" : "MASS_LUMPING_FOR_WEAK_CHARACTERISTICS", + "MAXIMUM D'ITERATIONS POUR LES SCHEMAS DE CONVECTION" : "MAXIMUM_NUMBER_OF_ITERATIONS_FOR_ADVECTION_SCHEMES", + "COEFFICIENTS DE DECENTREMENT" : "UPWIND_COEFFICIENTS", + "MASS-LUMPING SUR H" : "MASS_LUMPING_ON_H", + "MASS-LUMPING SUR LA VITESSE" : "MASS_LUMPING_ON_VELOCITY", + "SCHEMA POUR LA CONVECTION DES VITESSES" : "SCHEME_FOR_ADVECTION_OF_VELOCITIES", + "OPTION DU SCHEMA POUR LA CONVECTION DES VITESSES" : "SCHEME_OPTION_FOR_ADVECTION_OF_VELOCITIES", + "COMPATIBILITE DU GRADIENT DE SURFACE LIBRE" : "FREE_SURFACE_GRADIENT_COMPATIBILITY", + "NOMBRE DE SOUS-ITERATIONS POUR LES NON-LINEARITES" : "NUMBER_OF_SUB_ITERATIONS_FOR_NON_LINEARITIES", + "TRAITEMENT DES FLUX AUX FRONTIERES" : "TREATMENT_OF_FLUXES_AT_THE_BOUNDARIES", + "NOMBRE DE CORRECTIONS DES SCHEMAS DISTRIBUTIFS" : "NUMBER_OF_CORRECTIONS_OF_DISTRIBUTIVE_SCHEMES", + "NOMBRE DE SOUS-PAS DES SCHEMAS DISTRIBUTIFS" : "NUMBER_OF_SUB_STEPS_OF_DISTRIBUTIVE_SCHEMES", + "OPTION DU SCHEMA PSI" : "PSI_SCHEME_OPTION", + "DIFFUSION DES VITESSES" : "DIFFUSION_OF_VELOCITY", + "OPTION POUR LA DIFFUSION DES VITESSES" : "OPTION_FOR_THE_DIFFUSION_OF_VELOCITIES", + "IMPLICITATION POUR LA DIFFUSION DES VITESSES" : "IMPLICITATION_FOR_DIFFUSION_OF_VELOCITY", + "AD NOMBRE DE DERIVEES" : "AD_NUMBER_OF_DERIVATIVES", + "AD NOMS DES DERIVEES" : "AD_NAMES_OF_DERIVATIVES", + "AD SOLVEUR LINEAIRE SYMBOLIQUE" : "AD_SYMBOLIC_LINEAR_SOLVER", + "AD REMISE A ZERO DES DERIVEES DU SOLVEUR LINEAIRE" : "AD_LINEAR_SOLVER_RESET_DERIVATIVES", + "AD CONVERGENCE DES DERIVEES POUR LE SOLVEUR LINEAIRE" : "AD_LINEAR_SOLVER_DERIVATIVE_CONVERGENCE", + "STOCKAGE DES MATRICES" : "MATRIX_STORAGE", + "PRODUIT MATRICE-VECTEUR" : "MATRIX_VECTOR_PRODUCT", + "COEFFICIENT D'INTEGRATION EN TEMPS DE NEWMARK" : "NEWMARK_TIME_INTEGRATION_COEFFICIENT", + "ZERO" : "ZERO", + "OPTION DE PROPAGATION" : "PROPAGATION_OPTION", + "OPTION DE LA RECONSTRUCION HYDROSTATIQUE" : "OPTION_OF_THE_HYDROSTATIC_RECONSTRUCTION", + "ETUDE DE CONVERGENCE" : "CONVERGENCE_STUDY", + "NIVEAUX DE RAFFINEMENT" : "REFINEMENT_LEVELS", + "COEFFICIENT DE DIFFUSION DES VITESSES" : "VELOCITY_DIFFUSIVITY", + "MODELE DE TURBULENCE" : "TURBULENCE_MODEL", + "PRECISION SUR SPALART-ALLMARAS" : "ACCURACY_OF_SPALART_ALLMARAS", + "INFORMATION SUR LE MODELE SPALART-ALLMARAS" : "INFORMATION_ABOUT_SPALART_ALLMARAS_MODEL", + "SOLVEUR POUR LE MODELE K-EPSILON" : "SOLVER_FOR_K_EPSILON_MODEL", + "OPTION DU SOLVEUR POUR LE MODELE K-EPSILON" : "OPTION_FOR_THE_SOLVER_FOR_K_EPSILON_MODEL", + "PRECONDITIONNEMENT POUR LE MODELE K-EPSILON" : "PRECONDITIONING_FOR_K_EPSILON_MODEL", + "COEFFICIENTS ADIMENSIONNELS DE DISPERSION" : "NON_DIMENSIONAL_DISPERSION_COEFFICIENTS", + "REGIME DE TURBULENCE POUR LES PAROIS" : "TURBULENCE_REGIME_FOR_SOLID_BOUNDARIES", + "INFORMATIONS SUR LE MODELE K-EPSILON" : "INFORMATION_ABOUT_K_EPSILON_MODEL", + "CONVECTION DE K ET EPSILON" : "ADVECTION_OF_K_AND_EPSILON", + "SCHEMA POUR LA CONVECTION DU K-EPSILON" : "SCHEME_FOR_ADVECTION_OF_K_EPSILON", + "OPTION DU SCHEMA POUR LA CONVECTION DU K-EPSILON" : "SCHEME_OPTION_FOR_ADVECTION_OF_K_EPSILON", + "REDUCTION DU PAS DE TEMPS POUR LE MODELE K-EPSILON" : "TIME_STEP_REDUCTION_FOR_K_EPSILON_MODEL", + "PRECISION SUR K" : "ACCURACY_OF_K", + "PRECISION SUR EPSILON" : "ACCURACY_OF_EPSILON", + "MAXIMUM D'ITERATIONS POUR K ET EPSILON" : "MAXIMUM_NUMBER_OF_ITERATIONS_FOR_K_AND_EPSILON", + "BANCS DECOUVRANTS" : "TIDAL_FLATS", + "OPTION DE TRAITEMENT DES BANCS DECOUVRANTS" : "OPTION_FOR_THE_TREATMENT_OF_TIDAL_FLATS", + "TRAITEMENT DES HAUTEURS NEGATIVES" : "TREATMENT_OF_NEGATIVE_DEPTHS", + "SEUIL POUR LES PROFONDEURS NEGATIVES" : "THRESHOLD_FOR_NEGATIVE_DEPTHS", + "PROFONDEUR LIMITE POUR PROCEDURE DE RESSUYAGE" : "THRESHOLD_DEPTH_FOR_RECEDING_PROCEDURE", + "CLIPPING DE H" : "H_CLIPPING", + "VALEUR MINIMUM DE H" : "MINIMUM_VALUE_OF_DEPTH", + "VALEURS IMPOSEES DES TRACEURS" : "PRESCRIBED_TRACERS_VALUES", + "NOMBRE DE TRACEURS" : "NUMBER_OF_TRACERS", + "NOMS DES TRACEURS" : "NAMES_OF_TRACERS", + "VALEURS INITIALES DES TRACEURS" : "INITIAL_VALUES_OF_TRACERS", + "EFFETS DE DENSITE" : "DENSITY_EFFECTS", + "TEMPERATURE MOYENNE" : "MEAN_TEMPERATURE", + "SOLVEUR POUR LA DIFFUSION DES TRACEURS" : "SOLVER_FOR_DIFFUSION_OF_TRACERS", + "OPTION DU SOLVEUR POUR LA DIFFUSION DES TRACEURS" : "SOLVER_OPTION_FOR_TRACERS_DIFFUSION", + "PRECONDITIONNEMENT POUR LA DIFFUSION DES TRACEURS" : "PRECONDITIONING_FOR_DIFFUSION_OF_TRACERS", + "PRECISION POUR LA DIFFUSION DES TRACEURS" : "ACCURACY_FOR_DIFFUSION_OF_TRACERS", + "MAXIMUM D'ITERATIONS POUR LA DIFFUSION DES TRACEURS" : "MAXIMUM_NUMBER_OF_ITERATIONS_FOR_DIFFUSION_OF_TRACERS", + "VALEURS DES TRACEURS DES SOURCES" : "VALUES_OF_THE_TRACERS_AT_THE_SOURCES", + "VALEURS DES TRACEURS DANS LA PLUIE" : "VALUES_OF_TRACERS_IN_THE_RAIN", + "CONVECTION DES TRACEURS" : "ADVECTION_OF_TRACERS", + "COEFFICIENT D'IMPLICITATION DES TRACEURS" : "IMPLICITATION_COEFFICIENT_OF_TRACERS", + "DIFFUSION DES TRACEURS" : "DIFFUSION_OF_TRACERS", + "COEFFICIENT DE DIFFUSION DES TRACEURS" : "COEFFICIENT_FOR_DIFFUSION_OF_TRACERS", + "OPTION POUR LA DIFFUSION DES TRACEURS" : "OPTION_FOR_THE_DIFFUSION_OF_TRACERS", + "SCHEMA POUR LA CONVECTION DES TRACEURS" : "SCHEME_FOR_ADVECTION_OF_TRACERS", + "OPTION DU SCHEMA POUR LA CONVECTION DES TRACEURS" : "SCHEME_OPTION_FOR_ADVECTION_OF_TRACERS", + "MASS-LUMPING SUR LES TRACEURS" : "MASS_LUMPING_ON_TRACERS", + "NOMBRE DE FLOTTEURS" : "NUMBER_OF_DROGUES", + "PERIODE POUR LES SORTIES DE FLOTTEURS" : "PRINTOUT_PERIOD_FOR_DROGUES", + "FICHIER DES FLOTTEURS" : "DROGUES_FILE", + "MODELE DE TRANSPORT DES ALGUES" : "ALGAE_TRANSPORT_MODEL", + "TYPE DES ALGUES" : "ALGAE_TYPE", + "DIAMETRE DES ALGUES" : "DIAMETER_OF_ALGAE", + "MASSE VOLUMIQUE DES ALGUES" : "DENSITY_OF_ALGAE", + "EPAISSEUR DES ALGUES" : "THICKNESS_OF_ALGAE", + "MODELE DE NAPPES D'HYDROCARBURES" : "OIL_SPILL_MODEL", + "FICHIER DE COMMANDES HYDROCARBURES" : "OIL_SPILL_STEERING_FILE", + "MODELE DE DIFFUSION STOCHASTIQUE" : "STOCHASTIC_DIFFUSION_MODEL", + "NOMBRE DE DERIVES LAGRANGIENNES" : "NUMBER_OF_LAGRANGIAN_DRIFTS", + "NOMBRE DE SEUILS" : "NUMBER_OF_WEIRS", + "FICHIER DE DONNEES DES SEUILS" : "WEIRS_DATA_FILE", + "TYPE DES SEUILS" : "TYPE_OF_WEIRS", + "NOMBRE DE BUSES" : "NUMBER_OF_CULVERTS", + "FICHIER DE DONNEES DES BUSES" : "CULVERTS_DATA_FILE", + "OPTION POUR LES BUSES" : "OPTION_FOR_CULVERTS", + "BRECHE" : "BREACH", + "FICHIER DE DONNEES DES BRECHES" : "BREACHES_DATA_FILE", + "BASE BINAIRE 1 DE DONNEES DE MAREE" : "BINARY_DATABASE_1_FOR_TIDE", + "BASE BINAIRE 2 DE DONNEES DE MAREE" : "BINARY_DATABASE_2_FOR_TIDE", + "SYSTEME GEOGRAPHIQUE" : "GEOGRAPHIC_SYSTEM", + "NUMERO DE FUSEAU OU PROJECTION DANS LE SYSTEME GEOGRAPHIQUE" : "ZONE_NUMBER_IN_GEOGRAPHIC_SYSTEM", + "FICHIER DE CONVERSION LAMBERT 93" : "LAMBERT_93_CONVERSION_FILE", + "COEFFICIENT DE CALAGE DU NIVEAU DE MER" : "COEFFICIENT_TO_CALIBRATE_SEA_LEVEL", + "NUMERO GLOBAL DU POINT POUR CALER LA PLEINE MER" : "GLOBAL_NUMBER_OF_THE_POINT_TO_CALIBRATE_HIGH_WATER", + "INTERPOLATION DE COMPOSANTES MINEURES" : "MINOR_CONSTITUENTS_INFERENCE", + "OPTION POUR LES CONDITIONS AUX LIMITES DE MAREE" : "OPTION_FOR_TIDAL_BOUNDARY_CONDITIONS", + "BASE DE DONNEES DE MAREE" : "TIDAL_DATA_BASE", + "FICHIER DES CONSTANTES HARMONIQUES" : "HARMONIC_CONSTANTS_FILE", + "FICHIER DU MODELE DE MAREE" : "TIDAL_MODEL_FILE", + "FORMAT DU FICHIER DU MODELE DE MAREE" : "TIDAL_MODEL_FILE_FORMAT", + "BASE ASCII DE DONNEES DE MAREE" : "ASCII_DATABASE_FOR_TIDE", + "COEFFICIENT DE CALAGE DU MARNAGE" : "COEFFICIENT_TO_CALIBRATE_TIDAL_RANGE", + "COEFFICIENT DE CALAGE DES VITESSES DE COURANT" : "COEFFICIENT_TO_CALIBRATE_TIDAL_VELOCITIES", + "NUMERO LOCAL DU POINT POUR CALER LA PLEINE MER" : "LOCAL_NUMBER_OF_THE_POINT_TO_CALIBRATE_HIGH_WATER", + "FORCE GENERATRICE DE LA MAREE" : "TIDE_GENERATING_FORCE", + "COUPLAGE AVEC" : "COUPLING_WITH", + "NOMS DES VARIABLES CLANDESTINES" : "NAMES_OF_CLANDESTINE_VARIABLES", + "DOSSIER DE COUPLAGE" : "COUPLING_DIRECTORY", + "FICHIER DE COMMANDE DELWAQ" : "DELWAQ_STEERING_FILE", + "PERIODE DE SORTIE POUR DELWAQ" : "DELWAQ_PRINTOUT_PERIOD", + "FICHIER DELWAQ DES ECHANGES ENTRE NOEUDS" : "EXCHANGES_BETWEEN_NODES_DELWAQ_FILE", + "FICHIER DELWAQ DES DISTANCES ENTRE NOEUDS" : "NODES_DISTANCES_DELWAQ_FILE", + "FICHIER DELWAQ DES SURFACES DU FOND" : "BOTTOM_SURFACES_DELWAQ_FILE", + "FICHIER DELWAQ DES VOLUMES" : "VOLUMES_DELWAQ_FILE", + "FICHIER DELWAQ DES SURFACES DE FLUX" : "EXCHANGE_AREAS_DELWAQ_FILE", + "FICHIER DELWAQ DES FLUX VERTICAUX" : "VERTICAL_FLUXES_DELWAQ_FILE", + "FICHIER DELWAQ DE LA VITESSE" : "VELOCITY_DELWAQ_FILE", + "FICHIER DELWAQ DE LA DIFFUSION" : "DIFFUSIVITY_DELWAQ_FILE", + "FICHIER DELWAQ DE LA TEMPERATURE" : "TEMPERATURE_DELWAQ_FILE", + "FICHIER DELWAQ DE LA SALINITE" : "SALINITY_DELWAQ_FILE", + "VITESSE POUR DELWAQ" : "VELOCITY_FOR_DELWAQ", + "DIFFUSION POUR DELWAQ" : "DIFFUSIVITY_FOR_DELWAQ", + "TEMPERATURE POUR DELWAQ" : "TEMPERATURE_FOR_DELWAQ", + "SALINITE POUR DELWAQ" : "SALINITY_FOR_DELWAQ", + "FICHIER DES PARAMETRES DE SISYPHE" : "SISYPHE_STEERING_FILE", + "PERIODE DE COUPLAGE POUR SISYPHE" : "COUPLING_PERIOD_FOR_SISYPHE", + "FICHIER DES PARAMETRES DE TOMAWAC" : "TOMAWAC_STEERING_FILE", + "PERIODE DE COUPLAGE POUR TOMAWAC" : "COUPLING_PERIOD_FOR_TOMAWAC", + "FICHIER DES PARAMETRES DE WAQTEL" : "WAQTEL_STEERING_FILE", + "FICHIER DES PARAMETRES DE KHIONE" : "KHIONE_STEERING_FILE", + "LANGUE" : "LANGUAGE", + "FICHIER DES PARAMETRES" : "STEERING_FILE", + "DICTIONNAIRE" : "DICTIONARY", + "PARTITIONNEUR" : "PARTITIONING_TOOL", + "NUMERO DE VERSION" : "RELEASE", + "LISTE DES FICHIERS" : "LIST_OF_FILES", + "DESCRIPTION DES LIBRAIRIES" : "DESCRIPTION_OF_LIBRARIES", + "EXECUTABLE PAR DEFAUT" : "DEFAULT_EXECUTABLE", + "EXECUTABLE PARALLELE PAR DEFAUT" : "DEFAULT_PARALLEL_EXECUTABLE", + "NESTOR" : "NESTOR", + "FICHIER DE NESTOR ACTION" : "NESTOR_ACTION_FILE", + "FICHIER DE NESTOR POLYGON" : "NESTOR_POLYGON_FILE", + "FICHIER DE NESTOR DE SURFACE REFERENCE" : "NESTOR_SURFACE_REFERENCE_FILE", + "FICHIER DE NESTOR RESTART" : "NESTOR_RESTART_FILE", +} diff --git a/Telemac/telemac2d_enum_auto.py b/Telemac/telemac2d_enum_auto.py new file mode 100644 index 00000000..489fe61a --- /dev/null +++ b/Telemac/telemac2d_enum_auto.py @@ -0,0 +1,1475 @@ +#/usr/bin/env python +# -*- coding: latin-1 -*- +TelemacdicoEn = { +'VARIABLES_FOR_GRAPHIC_PRINTOUTS' : { + 'U':"velocity along x axis (m/s)", + 'V':"velocity along y axis (m/s)", + 'C':"wave celerity (m/s)", + 'H':"water depth (m)", + 'S':"free surface elevation (m)", + 'B':"bottom elevation (m)", + 'F':"Froude number", + 'Q':"scalar flowrate of fluid (m2/s)", + 'T1':"tracer 1 etc.", + 'T*':"All the tracers 1 to 9.", + 'T1*':"All the tracers 10 to 19.", + 'K':"turbulent kinetic energy in k-epsilon model (J/kg)", + 'E':"dissipation of turbulent energy (W/kg)", + 'D':"turbulent viscosity (m2/s)", + 'I':"flowrate along x axis (m2/s)", + 'J':"flowrate along y axis (m2/s)", + 'M':"scalar velocity (m/s)", + 'X':"wind along x axis (m/s)", + 'Y':"wind along y axis (m/s)", + 'P':"air pressure (Pa)", + 'W':"friction coefficient", + 'A':"drift along x (m)", + 'G':"drift along y (m)", + 'L':"Courant number ", + 'N':"supplementary variable N", + 'O':"supplementary variable O", + 'R':"supplementary variable R", + 'Z':"supplementary variable Z", + 'MAXZ':"maximum elevation", + 'TMXZ':"time of maximum elevation", + 'MAXV':"maximum velocity", + 'TMXV':"time of maximum velocity", + 'US':"friction velocity", + 'G1':"gradient 1, etc. ", + 'ZRL':"reference level for Nestor ", + }, +'VARIABLES_TO_BE_PRINTED' : { + 'U':"velocity along x axis (m/s)", + 'V':"velocity along y axis (m/s)", + 'C':"wave celerity (m/s)", + 'H':"water depth (m)", + 'S':"free surface elevation (m)", + 'B':"bottom elevation (m)", + 'F':"Froude number", + 'Q':"scalar flowrate of fluid (m2/s)", + 'Tn':"tracer 1, etc.", + 'K':"turbulent kinetic energy in k-epsilon model (J/kg)", + 'E':"dissipation of turbulent energy (W/kg)", + 'D':"turbulent viscosity of k-epsilon model (m2/s)", + 'I':"flowrate along x axis (m2/s)", + 'J':"flowrate along y axis (m2/s)", + 'M':"scalar velocity (m/s)", + 'X':"wind along x axis (m/s)", + 'Y':"wind along y axis (m/s)", + 'P':"air pressure (Pa)", + 'W':"friction coefficient", + 'A':"drift along x (m)", + 'G':"drift along y (m)", + 'L':"nombre de courants ", + 'N':"supplementary variable N", + 'O':"supplementary variable O", + 'R':"supplementary variable R", + 'Z':"supplementary variable Z", + 'Gn':"gradient 1, etc.", + }, +'STAGE_DISCHARGE_CURVES' : { + 0:"no", + 1:"Z(Q)", + 2:"Q(Z)", + }, +'VELOCITY_PROFILES' : { + 1:"constant normal profile", + 2:"u and v given in the conlim file", + 3:"normal velocity given in ubor in the conlim file", + 4:"velocity proportional to square root of depth", + 5:"velocity proportional to square root of depth, variant", + }, +'OPTION_FOR_LIQUID_BOUNDARIES' : { + 1:"classical", + 2:"Thompson method based on characteristics", + }, +'LAW_OF_BOTTOM_FRICTION' : { + 0:"NO FRICTION", + 1:"HAALAND", + 2:"CHEZY", + 3:"STRICKLER", + 4:"MANNING", + 5:"NIKURADSE", + }, +'DEPTH_IN_FRICTION_TERMS' : { + 1:"nodal", + 2:"average", + }, +'LAW_OF_FRICTION_ON_LATERAL_BOUNDARIES' : { + 0:"NO FRICTION", + 1:"HAALAND", + 2:"CHEZY", + 3:"STRICKLER", + 4:"MANNING", + 5:"NIKURADSE", + 6:"LOG LAW", + 7:"COLEBROOK-WHITE", + }, +'OPTION_FOR_WIND' : { + 1:"constant in time and space", + 2:"variable in time given by formated file", + 3:"variable in time and space given by formated file", + }, +'RAINFALL_RUNOFF_MODEL' : { + 0:"No infiltration", + 1:"CN runoff model", + }, +'COST_FUNCTION' : { + 1:"Computed with h,u,v", + 2:"Computed with c,u,v", + }, +'IDENTIFICATION_METHOD' : { + 0:"list of tests", + 1:"gradient simple", + 2:"conj gradient", + 3:"Lagrange interp.", + }, +'TYPE_OF_SOURCES' : { + 1:"Normal", + 2:"Dirac", + }, +'TREATMENT_OF_THE_LINEAR_SYSTEM' : { + 1:"coupled", + 2:"Wave equation", + }, +'FINITE_VOLUME_SCHEME' : { + 0:"Roe scheme", + 1:"kinetic order 1", + 2:"kinetic order 2", + 3:"Zokagoa scheme order 1", + 4:"Tchamen scheme order 1", + 5:"HLLC scheme order 1", + 6:"WAF scheme order 2", + }, +'OPTION_FOR_TSUNAMI_GENERATION' : { + 0:"No Tsunami", + 1:"Tsunami generated on the basis of the Okada model 1992", + }, +'SPATIAL_PROJECTION_TYPE' : { + 1:"CARTESIAN, NOT GEOREFERENCED", + 2:"MERCATOR", + 3:"LATITUDE LONGITUDE", + }, +'SOLVER' : { + 3:"conjugate gradient on a normal equation", + 1:"conjugate gradient", + 2:"conjugate residual", + 4:"minimum error", + 6:"cgstab", + 7:"gmres", + 8:"direct", + }, +'PRECONDITIONING' : { + 2:"diagonal", + 0:"no preconditioning", + 3:"block-diagonal (4-9 matrices)", + 5:"absolute value of diagonal", + 7:"crout", + 11:"gauss-seidel", + 14:"diagonal and crout", + }, +'FINITE_ELEMENT_ASSEMBLY' : { + 1:"normal", + 2:"Integer I8", + 3:"Compensated", + }, +'DISCRETIZATIONS_IN_SPACE' : { + 11:"linear", + 12:"quasi-bubble", + 13:"quadratic", + }, +'INITIAL_GUESS_FOR_H' : { + 0:"zero", + 1:"previous", + 2:"extrapolation", + }, +'INITIAL_GUESS_FOR_U' : { + 0:"zero", + 1:"previous", + 2:"extrapolation", + }, +'TYPE_OF_ADVECTION' : { + 1:"CHARACTERISTICS", + 2:"SUPG", + 3:"CONSERVATIVE N-SCHEME LP", + 4:"CONSERVATIVE N-SCHEME", + 5:"CONSERVATIVE PSI-SCHEME", + 13:"EDGE-BASED N-SCHEME LP", + 14:"EDGE-BASED N-SCHEME", + 15:"ERIA SCHEME", + }, +'OPTION_FOR_CHARACTERISTICS' : { + 1:"strong", + 2:"weak", + }, +'SCHEME_FOR_ADVECTION_OF_VELOCITIES' : { + 0:"NO ADVECTION", + 1:"CHARACTERISTICS", + 2:"EXPLICIT + SUPG", + 3:"EXPLICIT LEO POSTMA", + 4:"EXPLICIT + MURD SCHEME N", + 5:"EXPLICIT + MURD SCHEME PSI", + 13:"N-SCHEME FOR TIDAL FLATS", + 14:"N-SCHEME FOR TIDAL FLATS", + 15:"ERIA SCHEME", + }, +'TREATMENT_OF_FLUXES_AT_THE_BOUNDARIES' : { + 1:"Priority to prescribed values", + 2:"Priority to fluxes", + }, +'PSI_SCHEME_OPTION' : { + 1:"explicit", + 2:"predictor-corrector", + }, +'OPTION_FOR_THE_DIFFUSION_OF_VELOCITIES' : { + 1:"div( nu grad(U) )", + 2:"1/h div ( h nu grad(U)", + }, +'MATRIX_STORAGE' : { + 1:"classical EBE", + 3:"Edge-based storage", + }, +'TURBULENCE_MODEL' : { + 1:"CONSTANT VISCOSITY", + 2:"ELDER", + 3:"K-EPSILON MODEL", + 4:"SMAGORINSKI", + 5:"MIXING LENGTH", + 6:"SPALART-ALLMARAS", + }, +'SOLVER_FOR_K_EPSILON_MODEL' : { + 1:"conjugate gradient", + 2:"conjugate residuals", + 3:"conjugate gradient on normal equation", + 4:"minimum error", + 5:"conjugate gradient squared", + 6:"conjugate gradient squared stabilised (cgstab)", + 7:"gmres (see option for the solver for k-epsilon model)", + 8:"direct", + }, +'PRECONDITIONING_FOR_K_EPSILON_MODEL' : { + 2:"diagonal", + 0:"no preconditioning", + 7:"crout", + 14:"diagonal and crout", + }, +'TURBULENCE_REGIME_FOR_SOLID_BOUNDARIES' : { + 1:"smooth", + 2:"rough", + }, +'SCHEME_FOR_ADVECTION_OF_K_EPSILON' : { + 0:"NO ADVECTION", + 1:"CHARACTERISTICS", + 2:"EXPLICIT + SUPG", + 3:"EXPLICIT LEO POSTMA", + 4:"EXPLICIT + MURD SCHEME N", + 5:"EXPLICIT + MURD SCHEME PSI", + 13:"LEO POSTMA FOR TIDAL FLATS", + 14:"N-SCHEME FOR TIDAL FLATS", + 15:"ERIA SCHEME FOR TIDAL FLATS", + }, +'OPTION_FOR_THE_TREATMENT_OF_TIDAL_FLATS' : { + 1:"EQUATIONS SOLVED EVERYWHERE WITH CORRECTION ON TIDAL FLATS", + 2:"DRY ELEMENTS FROZEN", + 3:"LIKE 1 BUT WITH POROSITY (DEFINA METHOD)", + }, +'TREATMENT_OF_NEGATIVE_DEPTHS' : { + 1:"SMOOTHING", + 2:"FLUX CONTROL", + 3:"FLUX CONTROL (ERIA)", + }, +'SOLVER_FOR_DIFFUSION_OF_TRACERS' : { + 1:"conjugate gradient", + 2:"conjugate residual", + 3:"conjugate gradient on a normal equation", + 4:"minimum error", + 5:"squared conjugate gradient", + 6:"cgstab", + 7:"gmres (see option for the solver for tracer diffusion)", + 8:"direct", + }, +'PRECONDITIONING_FOR_DIFFUSION_OF_TRACERS' : { + 0:"no preconditioning ", + 2:"diagonal", + 7:"crout", + 14:"diagonal and crout", + }, +'OPTION_FOR_THE_DIFFUSION_OF_TRACERS' : { + 1:"div( nu grad(T) )", + 2:"1/h div ( h nu grad(T)", + }, +'SCHEME_FOR_ADVECTION_OF_TRACERS' : { + 0:"NO ADVECTION", + 1:"CHARACTERISTICS", + 2:"EXPLICIT + SUPG", + 3:"EXPLICIT LEO POSTMA", + 4:"EXPLICIT + MURD SCHEME N", + 5:"EXPLICIT + MURD SCHEME PSI", + 13:"LEO POSTMA FOR TIDAL FLATS", + 14:"N-SCHEME FOR TIDAL FLATS", + 15:"ERIA SCHEME FOR TIDAL FLATS", + }, +'ALGAE_TYPE' : { + 1:"SPHERE", + 2:"IRIDAEA FLACCIDA (CLOSE TO ULVA)", + 3:"PELVETIOPSIS LIMITATA", + 4:"GIGARTINA LEPTORHYNCHOS", + }, +'STOCHASTIC_DIFFUSION_MODEL' : { + 0:"No model", + 1:"brownian movement", + }, +'TYPE_OF_WEIRS' : { + 1:"HORIZONTAL WITH SAME NUMBER OF NODES UPSTREAM/DOWNSTREAM", + 2:"GENERAL", + }, +'GEOGRAPHIC_SYSTEM' : { + -1:"NO DEFAULT VALUE", + 0:"DEFINED BY USER", + 1:"WGS84 LONGITUDE/LATITUDE IN REAL DEGREES", + 2:"WGS84 NORTHERN UTM", + 3:"WGS84 SOUTHERN UTM", + 4:"LAMBERT", + 5:"MERCATOR FOR TELEMAC", + }, +'ZONE_NUMBER_IN_GEOGRAPHIC_SYSTEM' : { + -1:"NO DEFAULT VALUE", + 1:"LAMBERT 1 NORTH", + 2:"LAMBERT 2 CENTER", + 3:"LAMBERT 3 SOUTH", + 4:"LAMBERT 4 CORSICA", + 22:"LAMBERT 2 EXTENDED", + 93:"LAMBERT 93", + 30:"UTM ZONE, E.G.", + }, +'OPTION_FOR_TIDAL_BOUNDARY_CONDITIONS' : { + 0:"No tide", + 1:"Real tide (recommended methodology)", + 2:"Astronomical tide", + 3:"Mean spring tide", + 4:"Mean tide", + 5:"Mean neap tide", + 6:"Astronomical neap tide", + 7:"Real tide (methodology before 2010)", + }, +'TIDAL_DATA_BASE' : { + -1:"NO DEFAULT VALUE", + 1:"JMJ", + 2:"TPXO", + 3:"MISCELLANEOUS (LEGOS-NEA, FES20XX, PREVIMER...)", + }, +'LANGUAGE' : { + 1:"FRANCAIS", + 2:"ANGLAIS", + }, +} +TelemacdicoFr = { +'VARIABLES_FOR_GRAPHIC_PRINTOUTS' : { + 'U':"vitesse suivant l axe des x (m/s)", + 'V':"vitesse suivant l axe des y (m/s)", + 'C':"celerite des onde (m/s)", + 'H':"hauteur d eau (m)", + 'S':"cote de surface libre (m)", + 'B':"cote du fond (m)", + 'F':"nombre de Froude", + 'Q':"debit scalaire du fluide (m2/s)", + 'T1':"traceur 1, etc.", + 'T*':"Tous les traceurs de 1a 9.", + 'T1*':"Tous les traceurs 10 a 19.", + 'K':"energie turbulente du modele k-epsilon (J/kg)", + 'E':"dissipation de l energie turbulente (W/kg)", + 'D':"viscosite turbulente (m2/s)", + 'I':"debit suivant l axe des x (m2/s)", + 'J':"debit suivant l axe des y (m2/s)", + 'M':"vitesse scalaire (m/s)", + 'X':"vent suivant l axe des x (m/s)", + 'Y':"vent suivant l axe des y (m/s)", + 'P':"pression atmospherique (Pa)", + 'W':"coefficient de frottement sur le fond ", + 'A':"derive en x (m)", + 'G':"derive en y (m)", + 'L':"nombre de Courant ", + 'N':"variable supplementaire N", + 'O':"variable supplementaire O", + 'R':"variable supplementaire R", + 'Z':"variable supplementaire Z", + 'MAXZ':"cote maximum", + 'TMXZ':"temps de la cote maximum", + 'MAXV':"vitesse maximum", + 'TMXV':"temps de la vitesse maximum", + 'US':"vitesse de frottement", + 'G1':"gradient 1, etc. ", + 'ZRL':"reference level for Nestor ", + }, +'VARIABLES_TO_BE_PRINTED' : { + 'U':"vitesse suivant l axe des x (m/s)", + 'V':"vitesse suivant l axe des y (m/s)", + 'C':"celerite des ondes (m/s)", + 'H':"hauteur d eau (m)", + 'S':"cote de surface libre (m)", + 'B':"cote du fond (m)", + 'F':"nombre de Froude", + 'Q':"debit scalaire du fluide (m2/s)", + 'Tn':"traceur 1, etc.", + 'K':"energie turbulente du modele k-epsilon (J/kg)", + 'E':"dissipation de l energie turbulente (W/kg)", + 'D':"viscosite turbulente du modele k-epsilon (m2/s)", + 'I':"debit suivant l axe des x (m2/s)", + 'J':"debit suivant l axe des y (m2/s)", + 'M':"vitesse scalaire (m/s)", + 'X':"vent suivant l axe des x (m/s)", + 'Y':"vent suivant l axe des y (m/s)", + 'P':"pression atmospherique (Pa)", + 'W':"coefficient de frottement sur le fond", + 'A':"derive en x (m)", + 'G':"derive en y (m)", + 'L':"nombre de courants ", + 'N':"variable supplementaire N", + 'O':"variable supplementaire O", + 'R':"variable supplementaire R", + 'Z':"variable supplementaire Z", + 'Gn':"gradient 1, etc.", + }, +'STAGE_DISCHARGE_CURVES' : { + 0:"non", + 1:"Z(Q)", + 2:"Q(Z)", + }, +'VELOCITY_PROFILES' : { + 1:"Profil normal constant", + 2:"u et v dans le fichier conlim", + 3:"Vitesse normale donnee dans ubor dans le fichier conlim", + 4:"vitesse en racine carree de h", + 5:"vitesse en racine carree de h, variante", + }, +'OPTION_FOR_LIQUID_BOUNDARIES' : { + 1:"classique", + 2:"methode de Thompson avec calcul de caracteristiques", + }, +'LAW_OF_BOTTOM_FRICTION' : { + 0:"PAS DE FROTTEMENT", + 1:"HAALAND", + 2:"CHEZY", + 3:"STRICKLER", + 4:"MANNING", + 5:"NIKURADSE", + }, +'DEPTH_IN_FRICTION_TERMS' : { + 1:"nodale", + 2:"moyenne", + }, +'LAW_OF_FRICTION_ON_LATERAL_BOUNDARIES' : { + 0:"PAS DE FROTTEMENT", + 1:"HAALAND", + 2:"CHEZY", + 3:"STRICKLER", + 4:"MANNING", + 5:"NIKURADSE", + 6:"LOG LAW", + 7:"COLEBROOK-WHITE", + }, +'OPTION_FOR_WIND' : { + 1:"constant en temps et en espace", + 2:"variable en temps donne par fichier formate", + 3:"variable en temps et en espace donne par fichier formate", + }, +'RAINFALL_RUNOFF_MODEL' : { + 0:"Pas d infiltration", + 1:"Modele CN", + }, +'COST_FUNCTION' : { + 1:"Calculee sur h,u,v", + 2:"Calculee avec c,u,v", + }, +'IDENTIFICATION_METHOD' : { + 0:"plan d experience", + 1:"gradient simple", + 2:"gradient conj", + 3:"interp. de Lagrange", + }, +'TYPE_OF_SOURCES' : { + 1:"Normal", + 2:"Dirac", + }, +'TREATMENT_OF_THE_LINEAR_SYSTEM' : { + 1:"traitement couple", + 2:"Equation d onde", + }, +'FINITE_VOLUME_SCHEME' : { + 0:"schema de Roe", + 1:"schema cinetique ordre 1", + 2:"schema cinetique ordre 2", + 3:"schema Zokagoa ordre 1", + 4:"schema Tchamen ordre 1", + 5:"schema HLLC ordre 1", + 6:"schema WAF ordre 2", + }, +'OPTION_FOR_TSUNAMI_GENERATION' : { + 0:"Pas de Tsunami", + 1:"Generation d un Tsunami sur la base du modele de Okada 1992", + }, +'SPATIAL_PROJECTION_TYPE' : { + 1:"CARTESIEN, NON GEOREFERENCE", + 2:"MERCATOR", + 3:"LATITUDE LONGITUDE", + }, +'SOLVER' : { + 3:"equation normale", + 1:"gradient conjuge", + 2:"residu conjuge", + 4:"erreur minimale", + 6:"cgstab", + 7:"gmres", + 8:"direct", + }, +'PRECONDITIONING' : { + 2:"diagonal", + 0:"aucun", + 3:"bloc-diagonal (4 ou 9 matrices)", + 5:"valeur absolue diagonale", + 7:"crout", + 11:"gauss-seidel", + 14:"diagonal et crout", + }, +'FINITE_ELEMENT_ASSEMBLY' : { + 1:"normal", + 2:"Entier I8", + 3:"Compense", + }, +'DISCRETIZATIONS_IN_SPACE' : { + 11:"lineaire", + 12:"quasi-bulle", + 13:"quadratique", + }, +'INITIAL_GUESS_FOR_H' : { + 0:"zero", + 1:"precedent", + 2:"extrapolation", + }, +'INITIAL_GUESS_FOR_U' : { + 0:"zero", + 1:"precedent", + 2:"extrapolation", + }, +'TYPE_OF_ADVECTION' : { + 1:"CARACTERISTIQUES", + 2:"SUPG", + 3:"SCHEMA N CONSERVATIF LP", + 4:"SCHEMA N CONSERVATIF", + 5:"SCHEMA PSI CONSERVATIF", + 13:"SCHEMA N PAR SEGMENTS LP", + 14:"SCHEMA N PAR SEGMENTS", + 15:"SCHEMA ERIA", + }, +'OPTION_FOR_CHARACTERISTICS' : { + 1:"fortes", + 2:"faibles", + }, +'SCHEME_FOR_ADVECTION_OF_VELOCITIES' : { + 0:"PAS DE CONVECTION", + 1:"CARACTERISTIQUES", + 2:"EXPLICITE + SUPG", + 3:"EXPLICITE LEO POSTMA", + 4:"EXPLICITE + MURD SCHEMA N", + 5:"EXPLICITE + MURD SCHEMA PSI", + 13:"SCHEMA N POUR BANCS DECOUVRANTS", + 14:"SCHEMA N POUR BANCS DECOUVRANTS", + 15:"SCHEMA ERIA", + }, +'TREATMENT_OF_FLUXES_AT_THE_BOUNDARIES' : { + 1:"Priorite aux valeurs imposees", + 2:"Priorite aux flux", + }, +'PSI_SCHEME_OPTION' : { + 1:"explicite", + 2:"predicteur-correcteur", + }, +'OPTION_FOR_THE_DIFFUSION_OF_VELOCITIES' : { + 1:"div( nu grad(U) )", + 2:"1/h div ( h nu grad(U)", + }, +'MATRIX_STORAGE' : { + 1:"EBE classique", + 3:"Stockage par segments", + }, +'TURBULENCE_MODEL' : { + 1:"VISCOSITE CONSTANTE", + 2:"ELDER", + 3:"MODELE K-EPSILON", + 4:"SMAGORINSKI", + 5:"MIXING LENGTH", + 6:"SPALART-ALLMARAS", + }, +'SOLVER_FOR_K_EPSILON_MODEL' : { + 1:"gradient conjugue", + 2:"residu conjuge", + 3:"gradient conjugue sur equation normal", + 4:"erreur minimale", + 5:"gradient conjugue carre", + 6:"gradient conjugue carre stabilise (cgstab)", + 7:"gmres (voir aussi option du solveur pour le modele k-epsilon", + 8:"direct", + }, +'PRECONDITIONING_FOR_K_EPSILON_MODEL' : { + 2:"diagonal", + 0:"aucun", + 7:"crout", + 14:"diagonal et crout", + }, +'TURBULENCE_REGIME_FOR_SOLID_BOUNDARIES' : { + 1:"lisse", + 2:"rugueux", + }, +'SCHEME_FOR_ADVECTION_OF_K_EPSILON' : { + 0:"PAS DE CONVECTION", + 1:"CARACTERISTIQUES", + 2:"EXPLICITE + SUPG", + 3:"EXPLICITE LEO POSTMA", + 4:"EXPLICITE + MURD SCHEMA N", + 5:"EXPLICITE + MURD SCHEMA PSI", + 13:"LEO POSTMA POUR BANCS DECOUVRANTS", + 14:"SCHEMA N POUR BANCS DECOUVRANTS", + 15:"SCHEMA ERIA POUR BANCS DECOUVRANTS", + }, +'OPTION_FOR_THE_TREATMENT_OF_TIDAL_FLATS' : { + 1:"EQUATIONS RESOLUES PARTOUT, CORRECTION SUR LES BANCS DECOUVRANTS", + 2:"GEL DES ELEMENTS DECOUVRANTS", + 3:"COMME 1 MAIS AVEC POROSITE (METHODE DEFINA)", + }, +'TREATMENT_OF_NEGATIVE_DEPTHS' : { + 1:"LISSAGE", + 2:"LIMITATION DES FLUX", + 3:"LIMITATION DES FLUX (ERIA)", + }, +'SOLVER_FOR_DIFFUSION_OF_TRACERS' : { + 1:"gradient conjuge", + 2:"residu conjuge", + 3:"gradient conjuge sur equation normale", + 4:"erreur minimale", + 5:"gradient conjuge carre", + 6:"cgstab", + 7:"gmres (voir ausi option du solveur)", + 8:"direct", + }, +'PRECONDITIONING_FOR_DIFFUSION_OF_TRACERS' : { + 0:"aucun", + 2:"diagonal", + 7:"crout", + 14:"diagonal et crout", + }, +'OPTION_FOR_THE_DIFFUSION_OF_TRACERS' : { + 1:"div( nu grad(T) )", + 2:"1/h div ( h nu grad(T)", + }, +'SCHEME_FOR_ADVECTION_OF_TRACERS' : { + 0:"PAS DE CONVECTION", + 1:"CARACTERISTIQUES", + 2:"EXPLICITE + SUPG", + 3:"EXPLICITE LEO POSTMA", + 4:"EXPLICITE + MURD SCHEMA N", + 5:"EXPLICITE + MURD SCHEMA PSI", + 13:"LEO POSTMA POUR BANCS DECOUVRANTS", + 14:"SCHEMA N POUR BANCS DECOUVRANTS", + 15:"SCHEMA ERIA POUR BANCS DECOUVRANTS", + }, +'ALGAE_TYPE' : { + 1:"SPHERE", + 2:"IRIDAEA FLACCIDA (PROCHE DES ULVES)", + 3:"PELVETIOPSIS LIMITATA", + 4:"GIGARTINA LEPTORHYNCHOS", + }, +'STOCHASTIC_DIFFUSION_MODEL' : { + 0:"Pas de modele", + 1:"mouvement brownien", + }, +'TYPE_OF_WEIRS' : { + 1:"HORIZONTAL AVEC MEME NOMBRE DE NOEUDS AMONT/AVAL", + 2:"GENERALE", + }, +'GEOGRAPHIC_SYSTEM' : { + -1:"PAS DE VALEUR PAR DEFAUT", + 0:"DEFINI PAR L UTILISATEUR", + 1:"WGS84 LONGITUDE/LATITUDE EN DEGRES REELS", + 2:"WGS84 NORD UTM", + 3:"WGS84 SUD UTM", + 4:"LAMBERT", + 5:"MERCATOR POUR TELEMAC", + }, +'ZONE_NUMBER_IN_GEOGRAPHIC_SYSTEM' : { + -1:"PAS DE VALEUR PAR DEFAUT", + 1:"LAMBERT 1 NORD", + 2:"LAMBERT 2 CENTRE", + 3:"LAMBERT 3 SUD", + 4:"LAMBERT 4 CORSE", + 22:"LAMBERT 2 ETENDU", + 93:"LAMBERT 93", + 30:"ZONE UTM, PAR EXEMPLE", + }, +'OPTION_FOR_TIDAL_BOUNDARY_CONDITIONS' : { + 0:"Pas de maree", + 1:"Maree reelle (methodologie recommandee)", + 2:"Maree de vive-eau exceptionnelle (coef. presque 120)", + 3:"Maree de vive-eau moyenne (coef. presque 95)", + 4:"Maree moyenne (coef. presque 70)", + 5:"Maree de morte-eau moyenne (coef. presque 45)", + 6:"Maree de morte-eau exceptionnelle (coef. presque 20)", + 7:"Maree reelle (methodologie d avant 2010)", + }, +'TIDAL_DATA_BASE' : { + -1:"PAS DE VALEUR PAR DEFAUT", + 1:"JMJ", + 2:"TPXO", + 3:"DIVERS (LEGOS-NEA, FES20XX, PREVIMER...)", + }, +'LANGUAGE' : { + 1:"FRANCAIS", + 2:"ANGLAIS", + }, +} + +DicoCasFrToCata = { + "TITRE":"TITLE", + "CONDITIONS INITIALES":"INITIAL_CONDITIONS", + "COTE INITIALE":"INITIAL_ELEVATION", + "HAUTEUR INITIALE":"INITIAL_DEPTH", + "FORMAT DU FICHIER DE DONNEES BINAIRE 1":"BINARY_DATA_FILE_1_FORMAT", + "FICHIER DE DONNEES BINAIRE 1":"BINARY_DATA_FILE_1", + "FORMAT DU FICHIER DE DONNEES BINAIRE 2":"BINARY_DATA_FILE_2_FORMAT", + "FICHIER DE DONNEES BINAIRE 2":"BINARY_DATA_FILE_2", + "FICHIER DE DONNEES FORMATE 1":"FORMATTED_DATA_FILE_1", + "FICHIER DE DONNEES FORMATE 2":"FORMATTED_DATA_FILE_2", + "FORMAT DU FICHIER DE GEOMETRIE":"GEOMETRY_FILE_FORMAT", + "FICHIER DE GEOMETRIE":"GEOMETRY_FILE", + "FICHIER FORTRAN":"FORTRAN_FILE", + "FICHIER DES FONDS":"BOTTOM_TOPOGRAPHY_FILE", + "LISSAGES DU FOND":"BOTTOM_SMOOTHINGS", + "FICHIER DES CONDITIONS AUX LIMITES":"BOUNDARY_CONDITIONS_FILE", + "VALIDATION":"VALIDATION", + "FORMAT DU FICHIER DE REFERENCE":"REFERENCE_FILE_FORMAT", + "FICHIER DE REFERENCE":"REFERENCE_FILE", + "PROCESSEURS PARALLELES":"PARALLEL_PROCESSORS", + "VERIFICATION DU MAILLAGE":"CHECKING_THE_MESH", + "NOMBRE MAXIMUM DE FRONTIERES":"MAXIMUM_NUMBER_OF_BOUNDARIES", + "NOMBRE MAXIMUM DE SOURCES":"MAXIMUM_NUMBER_OF_SOURCES", + "NOMBRE MAXIMUM DE TRACEURS":"MAXIMUM_NUMBER_OF_TRACERS", + "LONGUEUR DU VECTEUR":"VECTOR_LENGTH", + "SUITE DE CALCUL":"COMPUTATION_CONTINUED", + "FORMAT DU FICHIER DU CALCUL PRECEDENT":"PREVIOUS_COMPUTATION_FILE_FORMAT", + "FICHIER DU CALCUL PRECEDENT":"PREVIOUS_COMPUTATION_FILE", + "ENREGISTREMENT POUR SUITE DE CALCUL":"RECORD_NUMBER_FOR_RESTART", + "REMISE A ZERO DU TEMPS":"INITIAL_TIME_SET_TO_ZERO", + "NUMERO DU PREMIER PAS DE TEMPS POUR LES SORTIES GRAPHIQUES":"NUMBER_OF_FIRST_TIME_STEP_FOR_GRAPHIC_PRINTOUTS", + "PERIODE POUR LES SORTIES GRAPHIQUES":"GRAPHIC_PRINTOUT_PERIOD", + "VARIABLES POUR LES SORTIES GRAPHIQUES":"VARIABLES_FOR_GRAPHIC_PRINTOUTS", + "NOMBRE DE TABLEAUX PRIVES":"NUMBER_OF_PRIVATE_ARRAYS", + "NOMS DES VARIABLES PRIVEES":"NAMES_OF_PRIVATE_VARIABLES", + "FORMAT DU FICHIER DES RESULTATS":"RESULTS_FILE_FORMAT", + "FICHIER DES RESULTATS":"RESULTS_FILE", + "FICHIER RESULTAT EN LONGITUDE-LATITUDE":"RESULT_FILE_IN_LONGITUDE_LATITUDE", + "FORMAT DU FICHIER DE RESULTATS BINAIRE":"BINARY_RESULTS_FILE_FORMAT", + "FICHIER DE RESULTATS BINAIRE":"BINARY_RESULTS_FILE", + "FICHIER DE RESULTATS FORMATE":"FORMATTED_RESULTS_FILE", + "SECTIONS DE CONTROLE":"CONTROL_SECTIONS", + "IMPRESSION DU CUMUL DES FLUX":"PRINTING_CUMULATED_FLOWRATES", + "CALCUL COMPATIBLE DES FLUX":"COMPATIBLE_COMPUTATION_OF_FLUXES", + "FICHIER DES SECTIONS DE CONTROLE":"SECTIONS_INPUT_FILE", + "FICHIER DE SORTIE DES SECTIONS DE CONTROLE":"SECTIONS_OUTPUT_FILE", + "FLUXLINE":"FLUXLINE", + "FICHIER DE FLUXLINE":"FLUXLINE_INPUT_FILE", + "NUMERO DU PREMIER PAS DE TEMPS POUR LES SORTIES LISTING":"NUMBER_OF_FIRST_TIME_STEP_FOR_LISTING_PRINTOUTS", + "PERIODE DE SORTIE LISTING":"LISTING_PRINTOUT_PERIOD", + "PERIODE POUR LES SORTIES LISTING":"LISTING_FOR_PRINTOUT_PERIOD", + "SORTIE LISTING":"LISTING_PRINTOUT", + "VARIABLES A IMPRIMER":"VARIABLES_TO_BE_PRINTED", + "BILAN DE MASSE":"MASS_BALANCE", + "INFORMATIONS SUR LE SOLVEUR":"INFORMATION_ABOUT_SOLVER", + "LISTE DE POINTS":"LIST_OF_POINTS", + "NOMS DES POINTS":"NAMES_OF_POINTS", + "PERIODES D'ANALYSE DE FOURIER":"FOURIER_ANALYSIS_PERIODS", + "BORNES EN TEMPS POUR L'ANALYSE DE FOURIER":"TIME_RANGE_FOR_FOURIER_ANALYSIS", + "COTES IMPOSEES":"PRESCRIBED_ELEVATIONS", + "DEBITS IMPOSES":"PRESCRIBED_FLOWRATES", + "VITESSES IMPOSEES":"PRESCRIBED_VELOCITIES", + "COURBES DE TARAGE":"STAGE_DISCHARGE_CURVES", + "FICHIER DES COURBES DE TARAGE":"STAGE_DISCHARGE_CURVES_FILE", + "PROFILS DE VITESSE":"VELOCITY_PROFILES", + "OPTION POUR LES FRONTIERES LIQUIDES":"OPTION_FOR_LIQUID_BOUNDARIES", + "FICHIER DES FRONTIERES LIQUIDES":"LIQUID_BOUNDARIES_FILE", + "ELEMENTS MASQUES PAR L'UTILISATEUR":"ELEMENTS_MASKED_BY_USER", + "NOMBRE MAXIMUM DE DOMAINES DE FROTTEMENT":"MAXIMUM_NUMBER_OF_FRICTION_DOMAINS", + "DONNEES POUR LE FROTTEMENT":"FRICTION_DATA", + "FICHIER DE DONNEES POUR LE FROTTEMENT":"FRICTION_DATA_FILE", + "LOI DE FROTTEMENT SUR LE FOND":"LAW_OF_BOTTOM_FRICTION", + "COEFFICIENT DE FROTTEMENT":"FRICTION_COEFFICIENT", + "VALEUR PAR DEFAUT DU MANNING POUR LA LOI DE COLEBROOK-WHITE":"MANNING_DEFAULT_VALUE_FOR_COLEBROOK_WHITE_LAW", + "HAUTEUR DANS LES TERMES DE FROTTEMENT":"DEPTH_IN_FRICTION_TERMS", + "FROTTEMENT POUR LA VEGETATION NON SUBMERGEE":"NON_SUBMERGED_VEGETATION_FRICTION", + "DIAMETRE DES ELEMENTS DE FROTTEMENT":"DIAMETER_OF_ROUGHNESS_ELEMENTS", + "ESPACEMENT DES ELEMENTS DE FROTTEMENT":"SPACING_OF_ROUGHNESS_ELEMENTS", + "LOI DE FROTTEMENT SUR LES PAROIS LATERALES":"LAW_OF_FRICTION_ON_LATERAL_BOUNDARIES", + "COEFFICIENT DE RUGOSITE DES BORDS":"ROUGHNESS_COEFFICIENT_OF_BOUNDARIES", + "DEFINITION DE ZONES":"DEFINITION_OF_ZONES", + "FICHIER DES ZONES":"ZONES_FILE", + "PROCESSUS LIES AUX GLACES":"ICE_PROCESSES", + "VENT":"WIND", + "OPTION DU VENT":"OPTION_FOR_WIND", + "COEFFICIENT D'INFLUENCE DU VENT":"COEFFICIENT_OF_WIND_INFLUENCE", + "VITESSE DU VENT SUIVANT X":"WIND_VELOCITY_ALONG_X", + "VITESSE DU VENT SUIVANT Y":"WIND_VELOCITY_ALONG_Y", + "VITESSE ET DIRECTION DU VENT":"SPEED_AND_DIRECTION_OF_WIND", + "PROFONDEUR LIMITE POUR LE VENT":"THRESHOLD_DEPTH_FOR_WIND", + "PRESSION ATMOSPHERIQUE":"AIR_PRESSURE", + "VALEUR DE LA PRESSION ATMOSPHERIQUE":"VALUE_OF_ATMOSPHERIC_PRESSURE", + "PLUIE OU EVAPORATION":"RAIN_OR_EVAPORATION", + "PLUIE OU EVAPORATION EN MM PAR JOUR":"RAIN_OR_EVAPORATION_IN_MM_PER_DAY", + "MODELE PLUIE-DEBIT":"RAINFALL_RUNOFF_MODEL", + "CONDITIONS D'HUMIDITE PRECEDENTE":"ANTECEDENT_MOISTURE_CONDITIONS", + "DUREE DE LA PLUIE OU EVAPORATION EN HEURES":"DURATION_OF_RAIN_OR_EVAPORATION_IN_HOURS", + "FICHIER ASCII DE DONNEES ATMOSPHERIQUES":"ASCII_ATMOSPHERIC_DATA_FILE", + "FICHIER BINAIRE DE DONNEES ATMOSPHERIQUES":"BINARY_ATMOSPHERIC_DATA_FILE", + "FORMAT DU FICHIER BINAIRE DE DONNEES ATMOSPHERIQUES":"BINARY_ATMOSPHERIC_DATA_FILE_FORMAT", + "OPTION POUR RATIO DES PERTES INITIALES":"OPTION_FOR_INITIAL_ABSTRACTION_RATIO", + "COURANTS DE HOULE":"WAVE_DRIVEN_CURRENTS", + "NUMERO DE L'ENREGISTREMENT DANS LE FICHIER DE HOULE":"RECORD_NUMBER_IN_WAVE_FILE", + "AUGMENTATION DU FROTTEMENT PAR LA HOULE":"WAVE_ENHANCED_FRICTION_FACTOR", + "ESTIMATION DE PARAMETRE":"PARAMETER_ESTIMATION", + "FONCTION COUT":"COST_FUNCTION", + "METHODE D'IDENTIFICATION":"IDENTIFICATION_METHOD", + "PRECISIONS POUR L'IDENTIFICATION":"TOLERANCES_FOR_IDENTIFICATION", + "MAXIMUM D'ITERATIONS POUR L'IDENTIFICATION":"MAXIMUM_NUMBER_OF_ITERATIONS_FOR_IDENTIFICATION", + "ABSCISSES DES SOURCES":"ABSCISSAE_OF_SOURCES", + "ORDONNEES DES SOURCES":"ORDINATES_OF_SOURCES", + "DEBITS DES SOURCES":"WATER_DISCHARGE_OF_SOURCES", + "VITESSES DES SOURCES SELON X":"VELOCITIES_OF_THE_SOURCES_ALONG_X", + "VITESSES DES SOURCES SELON Y":"VELOCITIES_OF_THE_SOURCES_ALONG_Y", + "TYPE DES SOURCES":"TYPE_OF_SOURCES", + "FICHIER DES SOURCES":"SOURCES_FILE", + "NUMEROS GLOBAUX DES NOEUDS DES SOURCES":"GLOBAL_NUMBERS_OF_SOURCE_NODES", + "PROCESSUS QUALITE D'EAU":"WATER_QUALITY_PROCESS", + "MASSE VOLUMIQUE DE L'EAU":"WATER_DENSITY", + "ACCELERATION DE LA PESANTEUR":"GRAVITY_ACCELERATION", + "STRUCTURES VERTICALES":"VERTICAL_STRUCTURES", + "EQUATIONS":"EQUATIONS", + "TRAITEMENT DU SYSTEME LINEAIRE":"TREATMENT_OF_THE_LINEAR_SYSTEM", + "SCHEMA EN VOLUMES FINIS":"FINITE_VOLUME_SCHEME", + "CORIOLIS":"CORIOLIS", + "COEFFICIENT DE CORIOLIS":"CORIOLIS_COEFFICIENT", + "OPTION POUR LA GENERATION DE TSUNAMI":"OPTION_FOR_TSUNAMI_GENERATION", + "PARAMETRES PHYSIQUES DU TSUNAMI":"PHYSICAL_CHARACTERISTICS_OF_THE_TSUNAMI", + "COURANTS SECONDAIRES":"SECONDARY_CURRENTS", + "COEFFICIENT DE PRODUCTION POUR COURANTS SECONDAIRES":"PRODUCTION_COEFFICIENT_FOR_SECONDARY_CURRENTS", + "COEFFICIENT DE DISSIPATION POUR COURANTS SECONDAIRES":"DISSIPATION_COEFFICIENT_FOR_SECONDARY_CURRENTS", + "DEBUGGER":"DEBUGGER", + "PAS DE TEMPS":"TIME_STEP", + "NOMBRE DE PAS DE TEMPS":"NUMBER_OF_TIME_STEPS", + "DUREE DU CALCUL":"DURATION", + "DATE DE L'ORIGINE DES TEMPS":"ORIGINAL_DATE_OF_TIME", + "HEURE DE L'ORIGINE DES TEMPS":"ORIGINAL_HOUR_OF_TIME", + "ARRET SI UN ETAT PERMANENT EST ATTEINT":"STOP_IF_A_STEADY_STATE_IS_REACHED", + "CRITERES D'ARRET":"STOP_CRITERIA", + "CONTROLE DES LIMITES":"CONTROL_OF_LIMITS", + "VALEURS LIMITES":"LIMIT_VALUES", + "PAS DE TEMPS VARIABLE":"VARIABLE_TIME_STEP", + "NOMBRE DE COURANT SOUHAITE":"DESIRED_COURANT_NUMBER", + "COORDONNEES DE L'ORIGINE":"ORIGIN_COORDINATES", + "COORDONNEES SPHERIQUES":"SPHERICAL_COORDINATES", + "LATITUDE DU POINT ORIGINE":"LATITUDE_OF_ORIGIN_POINT", + "LONGITUDE DU POINT ORIGINE":"LONGITUDE_OF_ORIGIN_POINT", + "NORD":"NORTH", + "TYPE DE PROJECTION SPATIALE":"SPATIAL_PROJECTION_TYPE", + "SOLVEUR":"SOLVER", + "OPTION DU SOLVEUR":"SOLVER_OPTION", + "PRECISION DU SOLVEUR":"SOLVER_ACCURACY", + "MAXIMUM D'ITERATIONS POUR LE SOLVEUR":"MAXIMUM_NUMBER_OF_ITERATIONS_FOR_SOLVER", + "CORRECTION DE CONTINUITE":"CONTINUITY_CORRECTION", + "PRECONDITIONNEMENT":"PRECONDITIONING", + "PRECONDITIONNEMENT C-U":"C_U_PRECONDITIONING", + "ASSEMBLAGE EN ELEMENTS FINIS":"FINITE_ELEMENT_ASSEMBLY", + "IMPLICITATION POUR LA HAUTEUR":"IMPLICITATION_FOR_DEPTH", + "IMPLICITATION POUR LA VITESSE":"IMPLICITATION_FOR_VELOCITY", + "DISCRETISATIONS EN ESPACE":"DISCRETIZATIONS_IN_SPACE", + "PROPAGATION":"PROPAGATION", + "ORDRE DU TIR INITIAL POUR H":"INITIAL_GUESS_FOR_H", + "PROPAGATION LINEARISEE":"LINEARIZED_PROPAGATION", + "ORDRE DU TIR INITIAL POUR U":"INITIAL_GUESS_FOR_U", + "PROFONDEUR MOYENNE POUR LA LINEARISATION":"MEAN_DEPTH_FOR_LINEARIZATION", + "CONVECTION":"ADVECTION", + "CONVECTION DE H":"ADVECTION_OF_H", + "CONVECTION DE U ET V":"ADVECTION_OF_U_AND_V", + "FORME DE LA CONVECTION":"TYPE_OF_ADVECTION", + "OPTION POUR LES CARACTERISTIQUES":"OPTION_FOR_CHARACTERISTICS", + "OPTION DE SUPG":"SUPG_OPTION", + "NOMBRE DE POINTS DE GAUSS POUR LES CARACTERISTIQUES FAIBLES":"NUMBER_OF_GAUSS_POINTS_FOR_WEAK_CHARACTERISTICS", + "MASS-LUMPING POUR LES CARACTERISTIQUES FAIBLES":"MASS_LUMPING_FOR_WEAK_CHARACTERISTICS", + "MAXIMUM D'ITERATIONS POUR LES SCHEMAS DE CONVECTION":"MAXIMUM_NUMBER_OF_ITERATIONS_FOR_ADVECTION_SCHEMES", + "COEFFICIENTS DE DECENTREMENT":"UPWIND_COEFFICIENTS", + "MASS-LUMPING SUR H":"MASS_LUMPING_ON_H", + "MASS-LUMPING SUR LA VITESSE":"MASS_LUMPING_ON_VELOCITY", + "SCHEMA POUR LA CONVECTION DES VITESSES":"SCHEME_FOR_ADVECTION_OF_VELOCITIES", + "OPTION DU SCHEMA POUR LA CONVECTION DES VITESSES":"SCHEME_OPTION_FOR_ADVECTION_OF_VELOCITIES", + "COMPATIBILITE DU GRADIENT DE SURFACE LIBRE":"FREE_SURFACE_GRADIENT_COMPATIBILITY", + "NOMBRE DE SOUS-ITERATIONS POUR LES NON-LINEARITES":"NUMBER_OF_SUB_ITERATIONS_FOR_NON_LINEARITIES", + "TRAITEMENT DES FLUX AUX FRONTIERES":"TREATMENT_OF_FLUXES_AT_THE_BOUNDARIES", + "NOMBRE DE CORRECTIONS DES SCHEMAS DISTRIBUTIFS":"NUMBER_OF_CORRECTIONS_OF_DISTRIBUTIVE_SCHEMES", + "NOMBRE DE SOUS-PAS DES SCHEMAS DISTRIBUTIFS":"NUMBER_OF_SUB_STEPS_OF_DISTRIBUTIVE_SCHEMES", + "OPTION DU SCHEMA PSI":"PSI_SCHEME_OPTION", + "DIFFUSION DES VITESSES":"DIFFUSION_OF_VELOCITY", + "OPTION POUR LA DIFFUSION DES VITESSES":"OPTION_FOR_THE_DIFFUSION_OF_VELOCITIES", + "IMPLICITATION POUR LA DIFFUSION DES VITESSES":"IMPLICITATION_FOR_DIFFUSION_OF_VELOCITY", + "AD NOMBRE DE DERIVEES":"AD_NUMBER_OF_DERIVATIVES", + "AD NOMS DES DERIVEES":"AD_NAMES_OF_DERIVATIVES", + "AD SOLVEUR LINEAIRE SYMBOLIQUE":"AD_SYMBOLIC_LINEAR_SOLVER", + "AD REMISE A ZERO DES DERIVEES DU SOLVEUR LINEAIRE":"AD_LINEAR_SOLVER_RESET_DERIVATIVES", + "AD CONVERGENCE DES DERIVEES POUR LE SOLVEUR LINEAIRE":"AD_LINEAR_SOLVER_DERIVATIVE_CONVERGENCE", + "STOCKAGE DES MATRICES":"MATRIX_STORAGE", + "PRODUIT MATRICE-VECTEUR":"MATRIX_VECTOR_PRODUCT", + "COEFFICIENT D'INTEGRATION EN TEMPS DE NEWMARK":"NEWMARK_TIME_INTEGRATION_COEFFICIENT", + "ZERO":"ZERO", + "OPTION DE PROPAGATION":"PROPAGATION_OPTION", + "OPTION DE LA RECONSTRUCION HYDROSTATIQUE":"OPTION_OF_THE_HYDROSTATIC_RECONSTRUCTION", + "ETUDE DE CONVERGENCE":"CONVERGENCE_STUDY", + "NIVEAUX DE RAFFINEMENT":"REFINEMENT_LEVELS", + "COEFFICIENT DE DIFFUSION DES VITESSES":"VELOCITY_DIFFUSIVITY", + "MODELE DE TURBULENCE":"TURBULENCE_MODEL", + "PRECISION SUR SPALART-ALLMARAS":"ACCURACY_OF_SPALART_ALLMARAS", + "INFORMATION SUR LE MODELE SPALART-ALLMARAS":"INFORMATION_ABOUT_SPALART_ALLMARAS_MODEL", + "SOLVEUR POUR LE MODELE K-EPSILON":"SOLVER_FOR_K_EPSILON_MODEL", + "OPTION DU SOLVEUR POUR LE MODELE K-EPSILON":"OPTION_FOR_THE_SOLVER_FOR_K_EPSILON_MODEL", + "PRECONDITIONNEMENT POUR LE MODELE K-EPSILON":"PRECONDITIONING_FOR_K_EPSILON_MODEL", + "COEFFICIENTS ADIMENSIONNELS DE DISPERSION":"NON_DIMENSIONAL_DISPERSION_COEFFICIENTS", + "REGIME DE TURBULENCE POUR LES PAROIS":"TURBULENCE_REGIME_FOR_SOLID_BOUNDARIES", + "INFORMATIONS SUR LE MODELE K-EPSILON":"INFORMATION_ABOUT_K_EPSILON_MODEL", + "CONVECTION DE K ET EPSILON":"ADVECTION_OF_K_AND_EPSILON", + "SCHEMA POUR LA CONVECTION DU K-EPSILON":"SCHEME_FOR_ADVECTION_OF_K_EPSILON", + "OPTION DU SCHEMA POUR LA CONVECTION DU K-EPSILON":"SCHEME_OPTION_FOR_ADVECTION_OF_K_EPSILON", + "REDUCTION DU PAS DE TEMPS POUR LE MODELE K-EPSILON":"TIME_STEP_REDUCTION_FOR_K_EPSILON_MODEL", + "PRECISION SUR K":"ACCURACY_OF_K", + "PRECISION SUR EPSILON":"ACCURACY_OF_EPSILON", + "MAXIMUM D'ITERATIONS POUR K ET EPSILON":"MAXIMUM_NUMBER_OF_ITERATIONS_FOR_K_AND_EPSILON", + "BANCS DECOUVRANTS":"TIDAL_FLATS", + "OPTION DE TRAITEMENT DES BANCS DECOUVRANTS":"OPTION_FOR_THE_TREATMENT_OF_TIDAL_FLATS", + "TRAITEMENT DES HAUTEURS NEGATIVES":"TREATMENT_OF_NEGATIVE_DEPTHS", + "SEUIL POUR LES PROFONDEURS NEGATIVES":"THRESHOLD_FOR_NEGATIVE_DEPTHS", + "PROFONDEUR LIMITE POUR PROCEDURE DE RESSUYAGE":"THRESHOLD_DEPTH_FOR_RECEDING_PROCEDURE", + "CLIPPING DE H":"H_CLIPPING", + "VALEUR MINIMUM DE H":"MINIMUM_VALUE_OF_DEPTH", + "VALEURS IMPOSEES DES TRACEURS":"PRESCRIBED_TRACERS_VALUES", + "NOMBRE DE TRACEURS":"NUMBER_OF_TRACERS", + "NOMS DES TRACEURS":"NAMES_OF_TRACERS", + "VALEURS INITIALES DES TRACEURS":"INITIAL_VALUES_OF_TRACERS", + "EFFETS DE DENSITE":"DENSITY_EFFECTS", + "TEMPERATURE MOYENNE":"MEAN_TEMPERATURE", + "SOLVEUR POUR LA DIFFUSION DES TRACEURS":"SOLVER_FOR_DIFFUSION_OF_TRACERS", + "OPTION DU SOLVEUR POUR LA DIFFUSION DES TRACEURS":"SOLVER_OPTION_FOR_TRACERS_DIFFUSION", + "PRECONDITIONNEMENT POUR LA DIFFUSION DES TRACEURS":"PRECONDITIONING_FOR_DIFFUSION_OF_TRACERS", + "PRECISION POUR LA DIFFUSION DES TRACEURS":"ACCURACY_FOR_DIFFUSION_OF_TRACERS", + "MAXIMUM D'ITERATIONS POUR LA DIFFUSION DES TRACEURS":"MAXIMUM_NUMBER_OF_ITERATIONS_FOR_DIFFUSION_OF_TRACERS", + "VALEURS DES TRACEURS DES SOURCES":"VALUES_OF_THE_TRACERS_AT_THE_SOURCES", + "VALEURS DES TRACEURS DANS LA PLUIE":"VALUES_OF_TRACERS_IN_THE_RAIN", + "CONVECTION DES TRACEURS":"ADVECTION_OF_TRACERS", + "COEFFICIENT D'IMPLICITATION DES TRACEURS":"IMPLICITATION_COEFFICIENT_OF_TRACERS", + "DIFFUSION DES TRACEURS":"DIFFUSION_OF_TRACERS", + "COEFFICIENT DE DIFFUSION DES TRACEURS":"COEFFICIENT_FOR_DIFFUSION_OF_TRACERS", + "OPTION POUR LA DIFFUSION DES TRACEURS":"OPTION_FOR_THE_DIFFUSION_OF_TRACERS", + "SCHEMA POUR LA CONVECTION DES TRACEURS":"SCHEME_FOR_ADVECTION_OF_TRACERS", + "OPTION DU SCHEMA POUR LA CONVECTION DES TRACEURS":"SCHEME_OPTION_FOR_ADVECTION_OF_TRACERS", + "MASS-LUMPING SUR LES TRACEURS":"MASS_LUMPING_ON_TRACERS", + "NOMBRE DE FLOTTEURS":"NUMBER_OF_DROGUES", + "PERIODE POUR LES SORTIES DE FLOTTEURS":"PRINTOUT_PERIOD_FOR_DROGUES", + "FICHIER DES FLOTTEURS":"DROGUES_FILE", + "MODELE DE TRANSPORT DES ALGUES":"ALGAE_TRANSPORT_MODEL", + "TYPE DES ALGUES":"ALGAE_TYPE", + "DIAMETRE DES ALGUES":"DIAMETER_OF_ALGAE", + "MASSE VOLUMIQUE DES ALGUES":"DENSITY_OF_ALGAE", + "EPAISSEUR DES ALGUES":"THICKNESS_OF_ALGAE", + "MODELE DE NAPPES D'HYDROCARBURES":"OIL_SPILL_MODEL", + "FICHIER DE COMMANDES HYDROCARBURES":"OIL_SPILL_STEERING_FILE", + "MODELE DE DIFFUSION STOCHASTIQUE":"STOCHASTIC_DIFFUSION_MODEL", + "NOMBRE DE DERIVES LAGRANGIENNES":"NUMBER_OF_LAGRANGIAN_DRIFTS", + "NOMBRE DE SEUILS":"NUMBER_OF_WEIRS", + "FICHIER DE DONNEES DES SEUILS":"WEIRS_DATA_FILE", + "TYPE DES SEUILS":"TYPE_OF_WEIRS", + "NOMBRE DE BUSES":"NUMBER_OF_CULVERTS", + "FICHIER DE DONNEES DES BUSES":"CULVERTS_DATA_FILE", + "OPTION POUR LES BUSES":"OPTION_FOR_CULVERTS", + "BRECHE":"BREACH", + "FICHIER DE DONNEES DES BRECHES":"BREACHES_DATA_FILE", + "BASE BINAIRE 1 DE DONNEES DE MAREE":"BINARY_DATABASE_1_FOR_TIDE", + "BASE BINAIRE 2 DE DONNEES DE MAREE":"BINARY_DATABASE_2_FOR_TIDE", + "SYSTEME GEOGRAPHIQUE":"GEOGRAPHIC_SYSTEM", + "NUMERO DE FUSEAU OU PROJECTION DANS LE SYSTEME GEOGRAPHIQUE":"ZONE_NUMBER_IN_GEOGRAPHIC_SYSTEM", + "FICHIER DE CONVERSION LAMBERT 93":"LAMBERT_93_CONVERSION_FILE", + "COEFFICIENT DE CALAGE DU NIVEAU DE MER":"COEFFICIENT_TO_CALIBRATE_SEA_LEVEL", + "NUMERO GLOBAL DU POINT POUR CALER LA PLEINE MER":"GLOBAL_NUMBER_OF_THE_POINT_TO_CALIBRATE_HIGH_WATER", + "INTERPOLATION DE COMPOSANTES MINEURES":"MINOR_CONSTITUENTS_INFERENCE", + "OPTION POUR LES CONDITIONS AUX LIMITES DE MAREE":"OPTION_FOR_TIDAL_BOUNDARY_CONDITIONS", + "BASE DE DONNEES DE MAREE":"TIDAL_DATA_BASE", + "FICHIER DES CONSTANTES HARMONIQUES":"HARMONIC_CONSTANTS_FILE", + "FICHIER DU MODELE DE MAREE":"TIDAL_MODEL_FILE", + "FORMAT DU FICHIER DU MODELE DE MAREE":"TIDAL_MODEL_FILE_FORMAT", + "BASE ASCII DE DONNEES DE MAREE":"ASCII_DATABASE_FOR_TIDE", + "COEFFICIENT DE CALAGE DU MARNAGE":"COEFFICIENT_TO_CALIBRATE_TIDAL_RANGE", + "COEFFICIENT DE CALAGE DES VITESSES DE COURANT":"COEFFICIENT_TO_CALIBRATE_TIDAL_VELOCITIES", + "NUMERO LOCAL DU POINT POUR CALER LA PLEINE MER":"LOCAL_NUMBER_OF_THE_POINT_TO_CALIBRATE_HIGH_WATER", + "FORCE GENERATRICE DE LA MAREE":"TIDE_GENERATING_FORCE", + "COUPLAGE AVEC":"COUPLING_WITH", + "NOMS DES VARIABLES CLANDESTINES":"NAMES_OF_CLANDESTINE_VARIABLES", + "DOSSIER DE COUPLAGE":"COUPLING_DIRECTORY", + "FICHIER DE COMMANDE DELWAQ":"DELWAQ_STEERING_FILE", + "PERIODE DE SORTIE POUR DELWAQ":"DELWAQ_PRINTOUT_PERIOD", + "FICHIER DELWAQ DES ECHANGES ENTRE NOEUDS":"EXCHANGES_BETWEEN_NODES_DELWAQ_FILE", + "FICHIER DELWAQ DES DISTANCES ENTRE NOEUDS":"NODES_DISTANCES_DELWAQ_FILE", + "FICHIER DELWAQ DES SURFACES DU FOND":"BOTTOM_SURFACES_DELWAQ_FILE", + "FICHIER DELWAQ DES VOLUMES":"VOLUMES_DELWAQ_FILE", + "FICHIER DELWAQ DES SURFACES DE FLUX":"EXCHANGE_AREAS_DELWAQ_FILE", + "FICHIER DELWAQ DES FLUX VERTICAUX":"VERTICAL_FLUXES_DELWAQ_FILE", + "FICHIER DELWAQ DE LA VITESSE":"VELOCITY_DELWAQ_FILE", + "FICHIER DELWAQ DE LA DIFFUSION":"DIFFUSIVITY_DELWAQ_FILE", + "FICHIER DELWAQ DE LA TEMPERATURE":"TEMPERATURE_DELWAQ_FILE", + "FICHIER DELWAQ DE LA SALINITE":"SALINITY_DELWAQ_FILE", + "VITESSE POUR DELWAQ":"VELOCITY_FOR_DELWAQ", + "DIFFUSION POUR DELWAQ":"DIFFUSIVITY_FOR_DELWAQ", + "TEMPERATURE POUR DELWAQ":"TEMPERATURE_FOR_DELWAQ", + "SALINITE POUR DELWAQ":"SALINITY_FOR_DELWAQ", + "FICHIER DES PARAMETRES DE SISYPHE":"SISYPHE_STEERING_FILE", + "PERIODE DE COUPLAGE POUR SISYPHE":"COUPLING_PERIOD_FOR_SISYPHE", + "FICHIER DES PARAMETRES DE TOMAWAC":"TOMAWAC_STEERING_FILE", + "PERIODE DE COUPLAGE POUR TOMAWAC":"COUPLING_PERIOD_FOR_TOMAWAC", + "FICHIER DES PARAMETRES DE WAQTEL":"WAQTEL_STEERING_FILE", + "FICHIER DES PARAMETRES DE KHIONE":"KHIONE_STEERING_FILE", + "LANGUE":"LANGUAGE", + "FICHIER DES PARAMETRES":"STEERING_FILE", + "DICTIONNAIRE":"DICTIONARY", + "PARTITIONNEUR":"PARTITIONING_TOOL", + "NUMERO DE VERSION":"RELEASE", + "LISTE DES FICHIERS":"LIST_OF_FILES", + "DESCRIPTION DES LIBRAIRIES":"DESCRIPTION_OF_LIBRARIES", + "EXECUTABLE PAR DEFAUT":"DEFAULT_EXECUTABLE", + "EXECUTABLE PARALLELE PAR DEFAUT":"DEFAULT_PARALLEL_EXECUTABLE", + "NESTOR":"NESTOR", + "FICHIER DE NESTOR ACTION":"NESTOR_ACTION_FILE", + "FICHIER DE NESTOR POLYGON":"NESTOR_POLYGON_FILE", + "FICHIER DE NESTOR DE SURFACE REFERENCE":"NESTOR_SURFACE_REFERENCE_FILE", + "FICHIER DE NESTOR RESTART":"NESTOR_RESTART_FILE", +} + +DicoCasEnToCata = { + 'TITLE':'TITLE', + 'INITIAL CONDITIONS':'INITIAL_CONDITIONS', + 'INITIAL ELEVATION':'INITIAL_ELEVATION', + 'INITIAL DEPTH':'INITIAL_DEPTH', + 'BINARY DATA FILE 1 FORMAT':'BINARY_DATA_FILE_1_FORMAT', + 'BINARY DATA FILE 1':'BINARY_DATA_FILE_1', + 'BINARY DATA FILE 2 FORMAT':'BINARY_DATA_FILE_2_FORMAT', + 'BINARY DATA FILE 2':'BINARY_DATA_FILE_2', + 'FORMATTED DATA FILE 1':'FORMATTED_DATA_FILE_1', + 'FORMATTED DATA FILE 2':'FORMATTED_DATA_FILE_2', + 'GEOMETRY FILE FORMAT':'GEOMETRY_FILE_FORMAT', + 'GEOMETRY FILE':'GEOMETRY_FILE', + 'FORTRAN FILE':'FORTRAN_FILE', + 'BOTTOM TOPOGRAPHY FILE':'BOTTOM_TOPOGRAPHY_FILE', + 'BOTTOM SMOOTHINGS':'BOTTOM_SMOOTHINGS', + 'BOUNDARY CONDITIONS FILE':'BOUNDARY_CONDITIONS_FILE', + 'VALIDATION':'VALIDATION', + 'REFERENCE FILE FORMAT':'REFERENCE_FILE_FORMAT', + 'REFERENCE FILE':'REFERENCE_FILE', + 'PARALLEL PROCESSORS':'PARALLEL_PROCESSORS', + 'CHECKING THE MESH':'CHECKING_THE_MESH', + 'MAXIMUM NUMBER OF BOUNDARIES':'MAXIMUM_NUMBER_OF_BOUNDARIES', + 'MAXIMUM NUMBER OF SOURCES':'MAXIMUM_NUMBER_OF_SOURCES', + 'MAXIMUM NUMBER OF TRACERS':'MAXIMUM_NUMBER_OF_TRACERS', + 'VECTOR LENGTH':'VECTOR_LENGTH', + 'COMPUTATION CONTINUED':'COMPUTATION_CONTINUED', + 'PREVIOUS COMPUTATION FILE FORMAT':'PREVIOUS_COMPUTATION_FILE_FORMAT', + 'PREVIOUS COMPUTATION FILE':'PREVIOUS_COMPUTATION_FILE', + 'RECORD NUMBER FOR RESTART':'RECORD_NUMBER_FOR_RESTART', + 'INITIAL TIME SET TO ZERO':'INITIAL_TIME_SET_TO_ZERO', + 'NUMBER OF FIRST TIME STEP FOR GRAPHIC PRINTOUTS':'NUMBER_OF_FIRST_TIME_STEP_FOR_GRAPHIC_PRINTOUTS', + 'GRAPHIC PRINTOUT PERIOD':'GRAPHIC_PRINTOUT_PERIOD', + 'VARIABLES FOR GRAPHIC PRINTOUTS':'VARIABLES_FOR_GRAPHIC_PRINTOUTS', + 'NUMBER OF PRIVATE ARRAYS':'NUMBER_OF_PRIVATE_ARRAYS', + 'NAMES OF PRIVATE VARIABLES':'NAMES_OF_PRIVATE_VARIABLES', + 'RESULTS FILE FORMAT':'RESULTS_FILE_FORMAT', + 'RESULTS FILE':'RESULTS_FILE', + 'RESULT FILE IN LONGITUDE-LATITUDE':'RESULT_FILE_IN_LONGITUDE_LATITUDE', + 'BINARY RESULTS FILE FORMAT':'BINARY_RESULTS_FILE_FORMAT', + 'BINARY RESULTS FILE':'BINARY_RESULTS_FILE', + 'FORMATTED RESULTS FILE':'FORMATTED_RESULTS_FILE', + 'CONTROL SECTIONS':'CONTROL_SECTIONS', + 'PRINTING CUMULATED FLOWRATES':'PRINTING_CUMULATED_FLOWRATES', + 'COMPATIBLE COMPUTATION OF FLUXES':'COMPATIBLE_COMPUTATION_OF_FLUXES', + 'SECTIONS INPUT FILE':'SECTIONS_INPUT_FILE', + 'SECTIONS OUTPUT FILE':'SECTIONS_OUTPUT_FILE', + 'FLUXLINE':'FLUXLINE', + 'FLUXLINE INPUT FILE':'FLUXLINE_INPUT_FILE', + 'NUMBER OF FIRST TIME STEP FOR LISTING PRINTOUTS':'NUMBER_OF_FIRST_TIME_STEP_FOR_LISTING_PRINTOUTS', + 'LISTING PRINTOUT PERIOD':'LISTING_PRINTOUT_PERIOD', + 'LISTING FOR PRINTOUT PERIOD':'LISTING_FOR_PRINTOUT_PERIOD', + 'LISTING PRINTOUT':'LISTING_PRINTOUT', + 'VARIABLES TO BE PRINTED':'VARIABLES_TO_BE_PRINTED', + 'MASS-BALANCE':'MASS_BALANCE', + 'INFORMATION ABOUT SOLVER':'INFORMATION_ABOUT_SOLVER', + 'LIST OF POINTS':'LIST_OF_POINTS', + 'NAMES OF POINTS':'NAMES_OF_POINTS', + 'FOURIER ANALYSIS PERIODS':'FOURIER_ANALYSIS_PERIODS', + 'TIME RANGE FOR FOURIER ANALYSIS':'TIME_RANGE_FOR_FOURIER_ANALYSIS', + 'PRESCRIBED ELEVATIONS':'PRESCRIBED_ELEVATIONS', + 'PRESCRIBED FLOWRATES':'PRESCRIBED_FLOWRATES', + 'PRESCRIBED VELOCITIES':'PRESCRIBED_VELOCITIES', + 'STAGE-DISCHARGE CURVES':'STAGE_DISCHARGE_CURVES', + 'STAGE-DISCHARGE CURVES FILE':'STAGE_DISCHARGE_CURVES_FILE', + 'VELOCITY PROFILES':'VELOCITY_PROFILES', + 'OPTION FOR LIQUID BOUNDARIES':'OPTION_FOR_LIQUID_BOUNDARIES', + 'LIQUID BOUNDARIES FILE':'LIQUID_BOUNDARIES_FILE', + 'ELEMENTS MASKED BY USER':'ELEMENTS_MASKED_BY_USER', + 'MAXIMUM NUMBER OF FRICTION DOMAINS':'MAXIMUM_NUMBER_OF_FRICTION_DOMAINS', + 'FRICTION DATA':'FRICTION_DATA', + 'FRICTION DATA FILE':'FRICTION_DATA_FILE', + 'LAW OF BOTTOM FRICTION':'LAW_OF_BOTTOM_FRICTION', + 'FRICTION COEFFICIENT':'FRICTION_COEFFICIENT', + 'MANNING DEFAULT VALUE FOR COLEBROOK-WHITE LAW':'MANNING_DEFAULT_VALUE_FOR_COLEBROOK_WHITE_LAW', + 'DEPTH IN FRICTION TERMS':'DEPTH_IN_FRICTION_TERMS', + 'NON-SUBMERGED VEGETATION FRICTION':'NON_SUBMERGED_VEGETATION_FRICTION', + 'DIAMETER OF ROUGHNESS ELEMENTS':'DIAMETER_OF_ROUGHNESS_ELEMENTS', + 'SPACING OF ROUGHNESS ELEMENTS':'SPACING_OF_ROUGHNESS_ELEMENTS', + 'LAW OF FRICTION ON LATERAL BOUNDARIES':'LAW_OF_FRICTION_ON_LATERAL_BOUNDARIES', + 'ROUGHNESS COEFFICIENT OF BOUNDARIES':'ROUGHNESS_COEFFICIENT_OF_BOUNDARIES', + 'DEFINITION OF ZONES':'DEFINITION_OF_ZONES', + 'ZONES FILE':'ZONES_FILE', + 'ICE PROCESSES':'ICE_PROCESSES', + 'WIND':'WIND', + 'OPTION FOR WIND':'OPTION_FOR_WIND', + 'COEFFICIENT OF WIND INFLUENCE':'COEFFICIENT_OF_WIND_INFLUENCE', + 'WIND VELOCITY ALONG X':'WIND_VELOCITY_ALONG_X', + 'WIND VELOCITY ALONG Y':'WIND_VELOCITY_ALONG_Y', + 'SPEED AND DIRECTION OF WIND':'SPEED_AND_DIRECTION_OF_WIND', + 'THRESHOLD DEPTH FOR WIND':'THRESHOLD_DEPTH_FOR_WIND', + 'AIR PRESSURE':'AIR_PRESSURE', + 'VALUE OF ATMOSPHERIC PRESSURE':'VALUE_OF_ATMOSPHERIC_PRESSURE', + 'RAIN OR EVAPORATION':'RAIN_OR_EVAPORATION', + 'RAIN OR EVAPORATION IN MM PER DAY':'RAIN_OR_EVAPORATION_IN_MM_PER_DAY', + 'RAINFALL-RUNOFF MODEL':'RAINFALL_RUNOFF_MODEL', + 'ANTECEDENT MOISTURE CONDITIONS':'ANTECEDENT_MOISTURE_CONDITIONS', + 'DURATION OF RAIN OR EVAPORATION IN HOURS':'DURATION_OF_RAIN_OR_EVAPORATION_IN_HOURS', + 'ASCII ATMOSPHERIC DATA FILE':'ASCII_ATMOSPHERIC_DATA_FILE', + 'BINARY ATMOSPHERIC DATA FILE':'BINARY_ATMOSPHERIC_DATA_FILE', + 'BINARY ATMOSPHERIC DATA FILE FORMAT':'BINARY_ATMOSPHERIC_DATA_FILE_FORMAT', + 'OPTION FOR INITIAL ABSTRACTION RATIO':'OPTION_FOR_INITIAL_ABSTRACTION_RATIO', + 'WAVE DRIVEN CURRENTS':'WAVE_DRIVEN_CURRENTS', + 'RECORD NUMBER IN WAVE FILE':'RECORD_NUMBER_IN_WAVE_FILE', + 'WAVE ENHANCED FRICTION FACTOR':'WAVE_ENHANCED_FRICTION_FACTOR', + 'PARAMETER ESTIMATION':'PARAMETER_ESTIMATION', + 'COST FUNCTION':'COST_FUNCTION', + 'IDENTIFICATION METHOD':'IDENTIFICATION_METHOD', + 'TOLERANCES FOR IDENTIFICATION':'TOLERANCES_FOR_IDENTIFICATION', + 'MAXIMUM NUMBER OF ITERATIONS FOR IDENTIFICATION':'MAXIMUM_NUMBER_OF_ITERATIONS_FOR_IDENTIFICATION', + 'ABSCISSAE OF SOURCES':'ABSCISSAE_OF_SOURCES', + 'ORDINATES OF SOURCES':'ORDINATES_OF_SOURCES', + 'WATER DISCHARGE OF SOURCES':'WATER_DISCHARGE_OF_SOURCES', + 'VELOCITIES OF THE SOURCES ALONG X':'VELOCITIES_OF_THE_SOURCES_ALONG_X', + 'VELOCITIES OF THE SOURCES ALONG Y':'VELOCITIES_OF_THE_SOURCES_ALONG_Y', + 'TYPE OF SOURCES':'TYPE_OF_SOURCES', + 'SOURCES FILE':'SOURCES_FILE', + 'GLOBAL NUMBERS OF SOURCE NODES':'GLOBAL_NUMBERS_OF_SOURCE_NODES', + 'WATER QUALITY PROCESS':'WATER_QUALITY_PROCESS', + 'WATER DENSITY':'WATER_DENSITY', + 'GRAVITY ACCELERATION':'GRAVITY_ACCELERATION', + 'VERTICAL STRUCTURES':'VERTICAL_STRUCTURES', + 'EQUATIONS':'EQUATIONS', + 'TREATMENT OF THE LINEAR SYSTEM':'TREATMENT_OF_THE_LINEAR_SYSTEM', + 'FINITE VOLUME SCHEME':'FINITE_VOLUME_SCHEME', + 'CORIOLIS':'CORIOLIS', + 'CORIOLIS COEFFICIENT':'CORIOLIS_COEFFICIENT', + 'OPTION FOR TSUNAMI GENERATION':'OPTION_FOR_TSUNAMI_GENERATION', + 'PHYSICAL CHARACTERISTICS OF THE TSUNAMI':'PHYSICAL_CHARACTERISTICS_OF_THE_TSUNAMI', + 'SECONDARY CURRENTS':'SECONDARY_CURRENTS', + 'PRODUCTION COEFFICIENT FOR SECONDARY CURRENTS':'PRODUCTION_COEFFICIENT_FOR_SECONDARY_CURRENTS', + 'DISSIPATION COEFFICIENT FOR SECONDARY CURRENTS':'DISSIPATION_COEFFICIENT_FOR_SECONDARY_CURRENTS', + 'DEBUGGER':'DEBUGGER', + 'TIME STEP':'TIME_STEP', + 'NUMBER OF TIME STEPS':'NUMBER_OF_TIME_STEPS', + 'DURATION':'DURATION', + 'ORIGINAL DATE OF TIME':'ORIGINAL_DATE_OF_TIME', + 'ORIGINAL HOUR OF TIME':'ORIGINAL_HOUR_OF_TIME', + 'STOP IF A STEADY STATE IS REACHED':'STOP_IF_A_STEADY_STATE_IS_REACHED', + 'STOP CRITERIA':'STOP_CRITERIA', + 'CONTROL OF LIMITS':'CONTROL_OF_LIMITS', + 'LIMIT VALUES':'LIMIT_VALUES', + 'VARIABLE TIME-STEP':'VARIABLE_TIME_STEP', + 'DESIRED COURANT NUMBER':'DESIRED_COURANT_NUMBER', + 'ORIGIN COORDINATES':'ORIGIN_COORDINATES', + 'SPHERICAL COORDINATES':'SPHERICAL_COORDINATES', + 'LATITUDE OF ORIGIN POINT':'LATITUDE_OF_ORIGIN_POINT', + 'LONGITUDE OF ORIGIN POINT':'LONGITUDE_OF_ORIGIN_POINT', + 'NORTH':'NORTH', + 'SPATIAL PROJECTION TYPE':'SPATIAL_PROJECTION_TYPE', + 'SOLVER':'SOLVER', + 'SOLVER OPTION':'SOLVER_OPTION', + 'SOLVER ACCURACY':'SOLVER_ACCURACY', + 'MAXIMUM NUMBER OF ITERATIONS FOR SOLVER':'MAXIMUM_NUMBER_OF_ITERATIONS_FOR_SOLVER', + 'CONTINUITY CORRECTION':'CONTINUITY_CORRECTION', + 'PRECONDITIONING':'PRECONDITIONING', + 'C-U PRECONDITIONING':'C_U_PRECONDITIONING', + 'FINITE ELEMENT ASSEMBLY':'FINITE_ELEMENT_ASSEMBLY', + 'IMPLICITATION FOR DEPTH':'IMPLICITATION_FOR_DEPTH', + 'IMPLICITATION FOR VELOCITY':'IMPLICITATION_FOR_VELOCITY', + 'DISCRETIZATIONS IN SPACE':'DISCRETIZATIONS_IN_SPACE', + 'PROPAGATION':'PROPAGATION', + 'INITIAL GUESS FOR H':'INITIAL_GUESS_FOR_H', + 'LINEARIZED PROPAGATION':'LINEARIZED_PROPAGATION', + 'INITIAL GUESS FOR U':'INITIAL_GUESS_FOR_U', + 'MEAN DEPTH FOR LINEARIZATION':'MEAN_DEPTH_FOR_LINEARIZATION', + 'ADVECTION':'ADVECTION', + 'ADVECTION OF H':'ADVECTION_OF_H', + 'ADVECTION OF U AND V':'ADVECTION_OF_U_AND_V', + 'TYPE OF ADVECTION':'TYPE_OF_ADVECTION', + 'OPTION FOR CHARACTERISTICS':'OPTION_FOR_CHARACTERISTICS', + 'SUPG OPTION':'SUPG_OPTION', + 'NUMBER OF GAUSS POINTS FOR WEAK CHARACTERISTICS':'NUMBER_OF_GAUSS_POINTS_FOR_WEAK_CHARACTERISTICS', + 'MASS-LUMPING FOR WEAK CHARACTERISTICS':'MASS_LUMPING_FOR_WEAK_CHARACTERISTICS', + 'MAXIMUM NUMBER OF ITERATIONS FOR ADVECTION SCHEMES':'MAXIMUM_NUMBER_OF_ITERATIONS_FOR_ADVECTION_SCHEMES', + 'UPWIND COEFFICIENTS':'UPWIND_COEFFICIENTS', + 'MASS-LUMPING ON H':'MASS_LUMPING_ON_H', + 'MASS-LUMPING ON VELOCITY':'MASS_LUMPING_ON_VELOCITY', + 'SCHEME FOR ADVECTION OF VELOCITIES':'SCHEME_FOR_ADVECTION_OF_VELOCITIES', + 'SCHEME OPTION FOR ADVECTION OF VELOCITIES':'SCHEME_OPTION_FOR_ADVECTION_OF_VELOCITIES', + 'FREE SURFACE GRADIENT COMPATIBILITY':'FREE_SURFACE_GRADIENT_COMPATIBILITY', + 'NUMBER OF SUB-ITERATIONS FOR NON-LINEARITIES':'NUMBER_OF_SUB_ITERATIONS_FOR_NON_LINEARITIES', + 'TREATMENT OF FLUXES AT THE BOUNDARIES':'TREATMENT_OF_FLUXES_AT_THE_BOUNDARIES', + 'NUMBER OF CORRECTIONS OF DISTRIBUTIVE SCHEMES':'NUMBER_OF_CORRECTIONS_OF_DISTRIBUTIVE_SCHEMES', + 'NUMBER OF SUB-STEPS OF DISTRIBUTIVE SCHEMES':'NUMBER_OF_SUB_STEPS_OF_DISTRIBUTIVE_SCHEMES', + 'PSI SCHEME OPTION':'PSI_SCHEME_OPTION', + 'DIFFUSION OF VELOCITY':'DIFFUSION_OF_VELOCITY', + 'OPTION FOR THE DIFFUSION OF VELOCITIES':'OPTION_FOR_THE_DIFFUSION_OF_VELOCITIES', + 'IMPLICITATION FOR DIFFUSION OF VELOCITY':'IMPLICITATION_FOR_DIFFUSION_OF_VELOCITY', + 'AD NUMBER OF DERIVATIVES':'AD_NUMBER_OF_DERIVATIVES', + 'AD NAMES OF DERIVATIVES':'AD_NAMES_OF_DERIVATIVES', + 'AD SYMBOLIC LINEAR SOLVER':'AD_SYMBOLIC_LINEAR_SOLVER', + 'AD LINEAR SOLVER RESET DERIVATIVES':'AD_LINEAR_SOLVER_RESET_DERIVATIVES', + 'AD LINEAR SOLVER DERIVATIVE CONVERGENCE':'AD_LINEAR_SOLVER_DERIVATIVE_CONVERGENCE', + 'MATRIX STORAGE':'MATRIX_STORAGE', + 'MATRIX-VECTOR PRODUCT':'MATRIX_VECTOR_PRODUCT', + 'NEWMARK TIME INTEGRATION COEFFICIENT':'NEWMARK_TIME_INTEGRATION_COEFFICIENT', + 'ZERO':'ZERO', + 'PROPAGATION OPTION':'PROPAGATION_OPTION', + 'OPTION OF THE HYDROSTATIC RECONSTRUCTION':'OPTION_OF_THE_HYDROSTATIC_RECONSTRUCTION', + 'CONVERGENCE STUDY':'CONVERGENCE_STUDY', + 'REFINEMENT LEVELS':'REFINEMENT_LEVELS', + 'VELOCITY DIFFUSIVITY':'VELOCITY_DIFFUSIVITY', + 'TURBULENCE MODEL':'TURBULENCE_MODEL', + 'ACCURACY OF SPALART-ALLMARAS':'ACCURACY_OF_SPALART_ALLMARAS', + 'INFORMATION ABOUT SPALART-ALLMARAS MODEL':'INFORMATION_ABOUT_SPALART_ALLMARAS_MODEL', + 'SOLVER FOR K-EPSILON MODEL':'SOLVER_FOR_K_EPSILON_MODEL', + 'OPTION FOR THE SOLVER FOR K-EPSILON MODEL':'OPTION_FOR_THE_SOLVER_FOR_K_EPSILON_MODEL', + 'PRECONDITIONING FOR K-EPSILON MODEL':'PRECONDITIONING_FOR_K_EPSILON_MODEL', + 'NON-DIMENSIONAL DISPERSION COEFFICIENTS':'NON_DIMENSIONAL_DISPERSION_COEFFICIENTS', + 'TURBULENCE REGIME FOR SOLID BOUNDARIES':'TURBULENCE_REGIME_FOR_SOLID_BOUNDARIES', + 'INFORMATION ABOUT K-EPSILON MODEL':'INFORMATION_ABOUT_K_EPSILON_MODEL', + 'ADVECTION OF K AND EPSILON':'ADVECTION_OF_K_AND_EPSILON', + 'SCHEME FOR ADVECTION OF K-EPSILON':'SCHEME_FOR_ADVECTION_OF_K_EPSILON', + 'SCHEME OPTION FOR ADVECTION OF K-EPSILON':'SCHEME_OPTION_FOR_ADVECTION_OF_K_EPSILON', + 'TIME STEP REDUCTION FOR K-EPSILON MODEL':'TIME_STEP_REDUCTION_FOR_K_EPSILON_MODEL', + 'ACCURACY OF K':'ACCURACY_OF_K', + 'ACCURACY OF EPSILON':'ACCURACY_OF_EPSILON', + 'MAXIMUM NUMBER OF ITERATIONS FOR K AND EPSILON':'MAXIMUM_NUMBER_OF_ITERATIONS_FOR_K_AND_EPSILON', + 'TIDAL FLATS':'TIDAL_FLATS', + 'OPTION FOR THE TREATMENT OF TIDAL FLATS':'OPTION_FOR_THE_TREATMENT_OF_TIDAL_FLATS', + 'TREATMENT OF NEGATIVE DEPTHS':'TREATMENT_OF_NEGATIVE_DEPTHS', + 'THRESHOLD FOR NEGATIVE DEPTHS':'THRESHOLD_FOR_NEGATIVE_DEPTHS', + 'THRESHOLD DEPTH FOR RECEDING PROCEDURE':'THRESHOLD_DEPTH_FOR_RECEDING_PROCEDURE', + 'H CLIPPING':'H_CLIPPING', + 'MINIMUM VALUE OF DEPTH':'MINIMUM_VALUE_OF_DEPTH', + 'PRESCRIBED TRACERS VALUES':'PRESCRIBED_TRACERS_VALUES', + 'NUMBER OF TRACERS':'NUMBER_OF_TRACERS', + 'NAMES OF TRACERS':'NAMES_OF_TRACERS', + 'INITIAL VALUES OF TRACERS':'INITIAL_VALUES_OF_TRACERS', + 'DENSITY EFFECTS':'DENSITY_EFFECTS', + 'MEAN TEMPERATURE':'MEAN_TEMPERATURE', + 'SOLVER FOR DIFFUSION OF TRACERS':'SOLVER_FOR_DIFFUSION_OF_TRACERS', + 'SOLVER OPTION FOR TRACERS DIFFUSION':'SOLVER_OPTION_FOR_TRACERS_DIFFUSION', + 'PRECONDITIONING FOR DIFFUSION OF TRACERS':'PRECONDITIONING_FOR_DIFFUSION_OF_TRACERS', + 'ACCURACY FOR DIFFUSION OF TRACERS':'ACCURACY_FOR_DIFFUSION_OF_TRACERS', + 'MAXIMUM NUMBER OF ITERATIONS FOR DIFFUSION OF TRACERS':'MAXIMUM_NUMBER_OF_ITERATIONS_FOR_DIFFUSION_OF_TRACERS', + 'VALUES OF THE TRACERS AT THE SOURCES':'VALUES_OF_THE_TRACERS_AT_THE_SOURCES', + 'VALUES OF TRACERS IN THE RAIN':'VALUES_OF_TRACERS_IN_THE_RAIN', + 'ADVECTION OF TRACERS':'ADVECTION_OF_TRACERS', + 'IMPLICITATION COEFFICIENT OF TRACERS':'IMPLICITATION_COEFFICIENT_OF_TRACERS', + 'DIFFUSION OF TRACERS':'DIFFUSION_OF_TRACERS', + 'COEFFICIENT FOR DIFFUSION OF TRACERS':'COEFFICIENT_FOR_DIFFUSION_OF_TRACERS', + 'OPTION FOR THE DIFFUSION OF TRACERS':'OPTION_FOR_THE_DIFFUSION_OF_TRACERS', + 'SCHEME FOR ADVECTION OF TRACERS':'SCHEME_FOR_ADVECTION_OF_TRACERS', + 'SCHEME OPTION FOR ADVECTION OF TRACERS':'SCHEME_OPTION_FOR_ADVECTION_OF_TRACERS', + 'MASS-LUMPING ON TRACERS':'MASS_LUMPING_ON_TRACERS', + 'NUMBER OF DROGUES':'NUMBER_OF_DROGUES', + 'PRINTOUT PERIOD FOR DROGUES':'PRINTOUT_PERIOD_FOR_DROGUES', + 'DROGUES FILE':'DROGUES_FILE', + 'ALGAE TRANSPORT MODEL':'ALGAE_TRANSPORT_MODEL', + 'ALGAE TYPE':'ALGAE_TYPE', + 'DIAMETER OF ALGAE':'DIAMETER_OF_ALGAE', + 'DENSITY OF ALGAE':'DENSITY_OF_ALGAE', + 'THICKNESS OF ALGAE':'THICKNESS_OF_ALGAE', + 'OIL SPILL MODEL':'OIL_SPILL_MODEL', + 'OIL SPILL STEERING FILE':'OIL_SPILL_STEERING_FILE', + 'STOCHASTIC DIFFUSION MODEL':'STOCHASTIC_DIFFUSION_MODEL', + 'NUMBER OF LAGRANGIAN DRIFTS':'NUMBER_OF_LAGRANGIAN_DRIFTS', + 'NUMBER OF WEIRS':'NUMBER_OF_WEIRS', + 'WEIRS DATA FILE':'WEIRS_DATA_FILE', + 'TYPE OF WEIRS':'TYPE_OF_WEIRS', + 'NUMBER OF CULVERTS':'NUMBER_OF_CULVERTS', + 'CULVERTS DATA FILE':'CULVERTS_DATA_FILE', + 'OPTION FOR CULVERTS':'OPTION_FOR_CULVERTS', + 'BREACH':'BREACH', + 'BREACHES DATA FILE':'BREACHES_DATA_FILE', + 'BINARY DATABASE 1 FOR TIDE':'BINARY_DATABASE_1_FOR_TIDE', + 'BINARY DATABASE 2 FOR TIDE':'BINARY_DATABASE_2_FOR_TIDE', + 'GEOGRAPHIC SYSTEM':'GEOGRAPHIC_SYSTEM', + 'ZONE NUMBER IN GEOGRAPHIC SYSTEM':'ZONE_NUMBER_IN_GEOGRAPHIC_SYSTEM', + 'LAMBERT 93 CONVERSION FILE':'LAMBERT_93_CONVERSION_FILE', + 'COEFFICIENT TO CALIBRATE SEA LEVEL':'COEFFICIENT_TO_CALIBRATE_SEA_LEVEL', + 'GLOBAL NUMBER OF THE POINT TO CALIBRATE HIGH WATER':'GLOBAL_NUMBER_OF_THE_POINT_TO_CALIBRATE_HIGH_WATER', + 'MINOR CONSTITUENTS INFERENCE':'MINOR_CONSTITUENTS_INFERENCE', + 'OPTION FOR TIDAL BOUNDARY CONDITIONS':'OPTION_FOR_TIDAL_BOUNDARY_CONDITIONS', + 'TIDAL DATA BASE':'TIDAL_DATA_BASE', + 'HARMONIC CONSTANTS FILE':'HARMONIC_CONSTANTS_FILE', + 'TIDAL MODEL FILE':'TIDAL_MODEL_FILE', + 'TIDAL MODEL FILE FORMAT':'TIDAL_MODEL_FILE_FORMAT', + 'ASCII DATABASE FOR TIDE':'ASCII_DATABASE_FOR_TIDE', + 'COEFFICIENT TO CALIBRATE TIDAL RANGE':'COEFFICIENT_TO_CALIBRATE_TIDAL_RANGE', + 'COEFFICIENT TO CALIBRATE TIDAL VELOCITIES':'COEFFICIENT_TO_CALIBRATE_TIDAL_VELOCITIES', + 'LOCAL NUMBER OF THE POINT TO CALIBRATE HIGH WATER':'LOCAL_NUMBER_OF_THE_POINT_TO_CALIBRATE_HIGH_WATER', + 'TIDE GENERATING FORCE':'TIDE_GENERATING_FORCE', + 'COUPLING WITH':'COUPLING_WITH', + 'NAMES OF CLANDESTINE VARIABLES':'NAMES_OF_CLANDESTINE_VARIABLES', + 'COUPLING DIRECTORY':'COUPLING_DIRECTORY', + 'DELWAQ STEERING FILE':'DELWAQ_STEERING_FILE', + 'DELWAQ PRINTOUT PERIOD':'DELWAQ_PRINTOUT_PERIOD', + 'EXCHANGES BETWEEN NODES DELWAQ FILE':'EXCHANGES_BETWEEN_NODES_DELWAQ_FILE', + 'NODES DISTANCES DELWAQ FILE':'NODES_DISTANCES_DELWAQ_FILE', + 'BOTTOM SURFACES DELWAQ FILE':'BOTTOM_SURFACES_DELWAQ_FILE', + 'VOLUMES DELWAQ FILE':'VOLUMES_DELWAQ_FILE', + 'EXCHANGE AREAS DELWAQ FILE':'EXCHANGE_AREAS_DELWAQ_FILE', + 'VERTICAL FLUXES DELWAQ FILE':'VERTICAL_FLUXES_DELWAQ_FILE', + 'VELOCITY DELWAQ FILE':'VELOCITY_DELWAQ_FILE', + 'DIFFUSIVITY DELWAQ FILE':'DIFFUSIVITY_DELWAQ_FILE', + 'TEMPERATURE DELWAQ FILE':'TEMPERATURE_DELWAQ_FILE', + 'SALINITY DELWAQ FILE':'SALINITY_DELWAQ_FILE', + 'VELOCITY FOR DELWAQ':'VELOCITY_FOR_DELWAQ', + 'DIFFUSIVITY FOR DELWAQ':'DIFFUSIVITY_FOR_DELWAQ', + 'TEMPERATURE FOR DELWAQ':'TEMPERATURE_FOR_DELWAQ', + 'SALINITY FOR DELWAQ':'SALINITY_FOR_DELWAQ', + 'SISYPHE STEERING FILE':'SISYPHE_STEERING_FILE', + 'COUPLING PERIOD FOR SISYPHE':'COUPLING_PERIOD_FOR_SISYPHE', + 'TOMAWAC STEERING FILE':'TOMAWAC_STEERING_FILE', + 'COUPLING PERIOD FOR TOMAWAC':'COUPLING_PERIOD_FOR_TOMAWAC', + 'WAQTEL STEERING FILE':'WAQTEL_STEERING_FILE', + 'KHIONE STEERING FILE':'KHIONE_STEERING_FILE', + 'LANGUAGE':'LANGUAGE', + 'STEERING FILE':'STEERING_FILE', + 'DICTIONARY':'DICTIONARY', + 'PARTITIONING TOOL':'PARTITIONING_TOOL', + 'RELEASE':'RELEASE', + 'LIST OF FILES':'LIST_OF_FILES', + 'DESCRIPTION OF LIBRARIES':'DESCRIPTION_OF_LIBRARIES', + 'DEFAULT EXECUTABLE':'DEFAULT_EXECUTABLE', + 'DEFAULT PARALLEL EXECUTABLE':'DEFAULT_PARALLEL_EXECUTABLE', + 'NESTOR':'NESTOR', + 'NESTOR ACTION FILE':'NESTOR_ACTION_FILE', + 'NESTOR POLYGON FILE':'NESTOR_POLYGON_FILE', + 'NESTOR SURFACE REFERENCE FILE':'NESTOR_SURFACE_REFERENCE_FILE', + 'NESTOR RESTART FILE':'NESTOR_RESTART_FILE', +} +DicoEnumCasFrToEnumCasEn = { +'INITIAL_CONDITIONS':{ + "COTE NULLE":"ZERO ELEVATION", + "COTE CONSTANTE":"CONSTANT ELEVATION", + "HAUTEUR NULLE":"ZERO DEPTH", + "HAUTEUR CONSTANTE":"CONSTANT DEPTH", + "SPECIAL":"SPECIAL", + "PARTICULIERES":"PARTICULIERES", + "PARTICULAR":"PARTICULAR", + "ALTIMETRIE SATELLITE TPXO":"TPXO SATELLITE ALTIMETRY", +}, + +'BINARY_DATA_FILE_1_FORMAT':{ + "BIN":"BIN", + "SERAFIN":"SERAFIN", + "SERAFIND":"SERAFIND", + "MED":"MED", +}, + +'BINARY_DATA_FILE_2_FORMAT':{ + "BIN":"BIN", + "SERAFIN":"SERAFIN", + "SERAFIND":"SERAFIND", + "MED":"MED", +}, + +'GEOMETRY_FILE_FORMAT':{ + "SERAFIN?":"SERAFIN?", + "SERAFIND":"SERAFIND", + "MED":"MED", +}, + +'REFERENCE_FILE_FORMAT':{ + "SERAFIN?":"SERAFIN?", + "SERAFIND":"SERAFIND", + "MED":"MED", +}, + +'PREVIOUS_COMPUTATION_FILE_FORMAT':{ + "SERAFIN?":"SERAFIN?", + "SERAFIND":"SERAFIND", + "MED":"MED", +}, + +'RESULTS_FILE_FORMAT':{ + "SERAFIN?":"SERAFIN?", + "SERAFIND":"SERAFIND", + "MED":"MED", +}, + +'BINARY_RESULTS_FILE_FORMAT':{ + "BIN":"BIN", + "SERAFIN":"SERAFIN", + "SERAFIND":"SERAFIND", + "MED":"MED", +}, + +'BINARY_ATMOSPHERIC_DATA_FILE_FORMAT':{ + "SERAFIN?":"SERAFIN?", + "SERAFIND":"SERAFIND", + "MED":"MED", +}, + +'PARAMETER_ESTIMATION':{ + "":"", + "FROTTEMENT":"FRICTION", + "FROTTEMENT, PERMANENT":"FRICTION, STEADY", +}, + +'EQUATIONS':{ + "SAINT-VENANT EF":"SAINT-VENANT FE", + "SAINT-VENANT VF":"SAINT-VENANT FV", + "BOUSSINESQ":"BOUSSINESQ", +}, + +'TIDAL_MODEL_FILE_FORMAT':{ + "SERAFIN?":"SERAFIN?", + "SERAFIND":"SERAFIND", + "MED":"MED", +}, + +'COUPLING_WITH':{ + "SISYPHE":"SISYPHE", + "TOMAWAC":"TOMAWAC", + "DELWAQ":"DELWAQ", +}, + +'PARTITIONING_TOOL':{ + "METIS":"METIS", + "SCOTCH":"SCOTCH", + "PARMETIS":"PARMETIS", + "PTSCOTCH":"PTSCOTCH", +}, + +}