From 98cccdc845d999a4d2f1ea7e3d6896efdf8c33a7 Mon Sep 17 00:00:00 2001 From: Pascale Noyret Date: Fri, 19 Jun 2009 08:36:49 +0000 Subject: [PATCH] *** empty log message *** --- Accas/__init__.py | 1 + Aster/Cata/cataSTA8/cata.py | 2 +- .../cataSTA9/Macro/calc_europlexus_ops.py | 411 ++++++---- Aster/Cata/cataSTA9/Macro/calc_modal_ops.py | 16 +- .../cataSTA9/Macro/macr_ascouf_calc_ops.py | 4 +- .../cataSTA9/Macro/macr_aspic_calc_ops.py | 4 +- .../Cata/cataSTA9/Macro/post_dyna_alea_ops.py | 7 +- .../Cata/cataSTA9/Macro/post_k1_k2_k3_ops.py | 17 +- Aster/Cata/cataSTA9/Macro/reca_graphique.py | 92 +++ .../Cata/cataSTA9/Macro/simu_point_mat_ops.py | 8 +- Aster/Cata/cataSTA9/Macro/test_fichier_ops.py | 2 +- Aster/Cata/cataSTA9/SD/sd_char_cine.py | 8 +- Aster/Cata/cataSTA9/SD/utilsd.py | 2 +- Aster/Cata/cataSTA9/cata.py | 715 +++++++++--------- 14 files changed, 764 insertions(+), 525 deletions(-) create mode 100644 Aster/Cata/cataSTA9/Macro/reca_graphique.py diff --git a/Accas/__init__.py b/Accas/__init__.py index 2241fee1..67de064c 100644 --- a/Accas/__init__.py +++ b/Accas/__init__.py @@ -83,6 +83,7 @@ from A_VALIDATOR import OrVal,AndVal from A_VALIDATOR import OrdList,NoRepeat,LongStr,Compulsory from A_VALIDATOR import RangeVal, EnumVal, TypeVal, PairVal from A_VALIDATOR import CardVal, InstanceVal +#from A_VALIDATOR import VerifTypeTuple # On remplace la factory des validateurs initialement dans Noyau par celle # de A_VALIDATOR diff --git a/Aster/Cata/cataSTA8/cata.py b/Aster/Cata/cataSTA8/cata.py index 20f6f52c..b3e12c0a 100755 --- a/Aster/Cata/cataSTA8/cata.py +++ b/Aster/Cata/cataSTA8/cata.py @@ -35,7 +35,7 @@ except: pass __version__="$Name: $" -__Id__="$Id: cata.py,v 1.5.4.3 2008-12-08 13:50:34 pnoyret Exp $" +__Id__="$Id: cata.py,v 1.5.4.4 2009-06-02 14:17:48 pnoyret Exp $" EnumTypes = (ListType, TupleType) diff --git a/Aster/Cata/cataSTA9/Macro/calc_europlexus_ops.py b/Aster/Cata/cataSTA9/Macro/calc_europlexus_ops.py index 6b3a4a82..ba32578a 100644 --- a/Aster/Cata/cataSTA9/Macro/calc_europlexus_ops.py +++ b/Aster/Cata/cataSTA9/Macro/calc_europlexus_ops.py @@ -1,4 +1,4 @@ -#@ MODIF calc_europlexus_ops Macro DATE 24/11/2008 AUTEUR ASSIRE A.ASSIRE +#@ MODIF calc_europlexus_ops Macro DATE 28/04/2009 AUTEUR ASSIRE A.ASSIRE # -*- coding: iso-8859-1 -*- # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== @@ -22,6 +22,12 @@ #----------------------------------------------------------------------- #----------------------------- Importation des modules ---------------- #----------------------------------------------------------------------- + +# unite associe au fichier ou le pos-traitement CASTE2000 est fait en commandes epx +# unite_cast2000 = 0 # il ne fait pas le pos-traitement +# __temp +unite_cast2000 = 95 + debug = False dryrun = False @@ -37,6 +43,7 @@ try: import aster from Accas import _F from Utilitai.partition import MAIL_PY + from Utilitai.Utmess import UTMESS except: pass @@ -274,7 +281,8 @@ class EUROPLEXUS: def setlist(self,fact): #print 'types.TypeType(fact)',types.TypeType(fact) if fact is None : return fact - if not types.TypeType(fact) in [types.ListType,types.TupleType] : fact= [fact] + #if not types.TypeType(fact) in [types.ListType,types.TupleType] : fact= [fact] + if not (isinstance(fact,types.ListType) or isinstance(fact,types.TupleType)) : fact= [fact] return fact #----------------------------------------------------------------------- @@ -348,7 +356,15 @@ class EUROPLEXUS: champ_fact = self.ARCHIVAGE if champ_fact is not None : options += ' MEDE' epx[MODULE].append(options) - epx[MODULE].append('\n') + epx[MODULE].append('\n') + + # __temp + fichier_cast2000 = 'fort.%i' %unite_cast2000 + if unite_cast2000 and os.path.isfile(fichier_cast2000) : + sorite_cast2000 = self.pwd + 'REPE_OUT/post.k2000' + epx[MODULE].append('OPNF 12') + epx[MODULE].append(2*' ' + "'%s'" %sorite_cast2000) + epx[MODULE].append('\n') #----------------------------------------------------------------------- def export_MAILLAGE(self,format='CASTEM'): @@ -573,7 +589,7 @@ class EUROPLEXUS: if elem['CARA'] == 'M_T_D_N' : group_ma = self.get_group_ma(elem) vale = elem['VALE'] - epx[MODULE].append('MASSE 123456 %g' %vale) + epx[MODULE].append('MASSE 123456 %s' %vale) epx[MODULE].append(7*' ' + 'LECT') for group in group_ma: epx[MODULE].append(11*' '+group) @@ -602,7 +618,7 @@ class EUROPLEXUS: else : self.listEpais.append({'VALE' : 1., 'GROUP_MA' : group_ma, 'NOM_CMP' : 'X21'}) self.listEpais2.append({'VALE' : 1., 'GROUP_MA' : group_ma, 'NOM_CMP' : 'X22'}) - st = 'EPAIS %g ' %epais + st = 'EPAIS %s ' %epais #ajouter les group_ma qui ont ete affecte par ces caracteristiques epx[MODULE].append(st+'LECT') for group in group_ma: @@ -632,9 +648,9 @@ class EUROPLEXUS: dic_corresp = {'HY':'AY','HZ':'AZ'} epx[MODULE].append(st) # ajouter le vecteur definisant l'orientation de la section - epx[MODULE].append(len(st)*' ' + 'VX %g' %vect_y[0]) - epx[MODULE].append(len(st)*' ' + 'VY %g' %vect_y[1]) - epx[MODULE].append(len(st)*' ' + 'VZ %g' %vect_y[2]) + epx[MODULE].append(len(st)*' ' + 'VX %s' %vect_y[0]) + epx[MODULE].append(len(st)*' ' + 'VY %s' %vect_y[1]) + epx[MODULE].append(len(st)*' ' + 'VZ %s' %vect_y[2]) # ajouter les caracteristiques de la poutre cara = elem['CARA'] vale = elem['VALE'] @@ -642,7 +658,7 @@ class EUROPLEXUS: car = cara[icar] val = vale[icar] car_epx = dic_corresp[car] - epx[MODULE].append(len(st)*' ' + '%s %g' %(car_epx,val)) + epx[MODULE].append(len(st)*' ' + '%s %s' %(car_epx,val)) # ajouter les group_ma qui ont ete affecte par ces caracteristiques epx[MODULE].append(5*' '+'LECT') for group in group_ma: @@ -676,6 +692,8 @@ class EUROPLEXUS: # Traduction des fonctions definies dans FONC_PARASOL #dic_fonc_parasol = self.get_FONC_PARASOL(list_rigi_parasol) dic_fonc_parasol = self.get_FONC_PARASOL() +# if not dic_fonc_parasol: return + epx[MODULE] = ['*--SUPPORT ELASTIQUE'] # si l'utilisateur a lui meme fourni des GROUP_MA de discrets : on commence par la @@ -688,12 +706,12 @@ class EUROPLEXUS: raise 'Discret non defini' vale = self.discretParasol[gma] epx[MODULE].append('SUPPORT') - epx[MODULE].append(6*' '+'KX %g KY %g KZ %g'%(vale[0],vale[1],vale[2])) - epx[MODULE].append(6*' '+'KRX %g KRY %g KRZ %g'%(vale[3],vale[4],vale[5])) + epx[MODULE].append(6*' '+'KX %s KY %s KZ %s'%(vale[0],vale[1],vale[2])) + epx[MODULE].append(6*' '+'KRX %s KRY %s KRZ %s'%(vale[3],vale[4],vale[5])) for cle_fonc_parasol in dic_fonc_parasol.keys() : epx[MODULE].append(6*' ' + '%s %i' %(cle_fonc_parasol,dic_fonc_parasol[cle_fonc_parasol]) ) - epx[MODULE].append(6*' '+'LECT %s TERM'%gma) - group_union += '%s '%gma + epx[MODULE].append(6*' '+'LECT %s TERM'% gma) + group_union += '%s '% gma if len(gmaParasol) > 0 : epx['MODELE'].append(5*' ' + 'APPU ' + group_union) @@ -706,7 +724,8 @@ class EUROPLEXUS: # traduire les rigi_parasol - if list_rigi_parasol : +# AA if list_rigi_parasol : + if list_rigi_parasol and dic_fonc_parasol: # changement de module parce que les supports issus de RIGI_PARASOL doivent etre imprimes apres les materiaux # fichiers_parasol = [] # cles_oblig = ['UNITE_EUROPLEXUS','GROUP_MA_POI1'] @@ -795,7 +814,7 @@ class EUROPLEXUS: # ecriture du group_ma associe # noeud = ressor[0] group_ma = dic_gma[noeud] - epx[MODULE].append(3*' ' + 'LECT %s TERM' %group_ma) + epx[MODULE].append(3*' ' + 'LECT %s TERM' % group_ma) epx[MODULE].append('\n') @@ -806,8 +825,9 @@ class EUROPLEXUS: CREA_GROUP_MA = dicma ) - # Mettre a jour le module modele qd les ressots existent + # Mettre a jour le module modele qd les ressorts existent epx['MODELE'].append(5*' ' + 'APPU ' + group_union) + # Fermer le module modele dans tous les cas self.multidomaine = 0 listInterfaces = self.INTERFACES @@ -834,7 +854,7 @@ class EUROPLEXUS: if self.gmaInterfaces : epx['CHAM_MATER'].append('FANTOME 0. LECT') for gma in self.gmaInterfaces : - epx['CHAM_MATER'].append(15*' '+'%s'%gma) + epx['CHAM_MATER'].append(15*' '+'%s'% gma) epx['CHAM_MATER'].append(' TERM') epx['CHAM_MATER'].append('\n') @@ -842,11 +862,11 @@ class EUROPLEXUS: # DEFINITION REPERES ORTHOTROPIE QUI DOIT ETRE APRES LES SUPPORTS for gma in self.gmaGLRC : if gma not in self.dicOrthotropie : - raise "Erreur : %s non affecte par un repere d'orthotropie : ajouter le mot-cle 'VECTEUR' dans AFFE_CARA_ELEM"%gma + raise "Erreur : %s non affecte par un repere d'orthotropie : ajouter le mot-cle 'VECTEUR' dans AFFE_CARA_ELEM"% gma vale = self.dicOrthotropie[gma] - epx[MODULE].append('COMP ORTS %g %g %g'%(vale[0],vale[1],vale[2])) + epx[MODULE].append('COMP ORTS %s %s %s'%(vale[0],vale[1],vale[2])) epx[MODULE].append(3*' '+'LECT') - epx[MODULE].append(7*' '+'%s'%gma) + epx[MODULE].append(7*' '+'%s'% gma) epx[MODULE].append(3*' '+'TERM') epx[MODULE].append('\n') @@ -869,7 +889,7 @@ class EUROPLEXUS: # Cles de FONC_PARASOL dans l'ordre cles = ['NFKT','NFKR'] # Dictionnaire faisant la correspondance entre la fonction et son numero europlexus - dic_fonc = {} + dic_fonc = {} try : ifonc = self.ifonc if debug: print 'self.ifonc = %s'%ifonc @@ -882,34 +902,36 @@ class EUROPLEXUS: for cle in cles: ifonc += 1 dic_fonc[cle] = ifonc - fonction = self.get_motcle(self.FONC_PARASOL,cle,code_mess='A') + fonction = self.get_motcle(self.FONC_PARASOL,cle,code_mess=None) + if not fonction: return {} # Si les mots-cles sont manquants on passe (temps,valeurs) = fonction.Valeurs() # imprimer les valeurs de la table epx[MODULE].append(5*' ' +'NOPA %i TABLE %i' %(ifonc,len(temps)) ) for ival in range(len(temps)): - epx[MODULE].append(17*' ' +'%g %g' %(temps[ival],valeurs[ival])) +# epx[MODULE].append(17*' ' +'%s %s' %(temps[ival],valeurs[ival])) + epx[MODULE].append(17*' ' +'%s %s' %(temps[ival],valeurs[ival])) self.ifonc = ifonc self.dic_fonc = dic_fonc epx[MODULE].append('\n') return dic_fonc - + #----------------------------------------------------------------------- def export_CHAM_MATER(self): - + epx = self.epx - + # CLe identifiant MODULE = 'CHAM_MATER' - + epx[MODULE] = ['*--DEFINITION DES MATERIAUX'] - + # Entete de la commande Europlexus courante epx[MODULE].append('MATERIAUX') - + # Recuperer la structure sous le mot_cle facteur AFFE de AFFE_MATER affe_mater = self.reupere_structure(self.CHAM_MATER,'AFFE') affe_mater = self.setlist(affe_mater) - + # Dictionnaire stoquant les caracteristiques mecaniques et les group_ma associe a chaque materiau dic_mater = {} typMat = {} @@ -979,11 +1001,12 @@ class EUROPLEXUS: # imprimer les valeurs de la table epx['FONC_MATER'].append(5*' ' +'%i LSQU 2 TABLE %i' %(ifonc,len(x)) ) for ival in range(len(x)): - epx['FONC_MATER'].append(17*' ' +'%g %g' %(x[ival],y[ival])) +# epx['FONC_MATER'].append(17*' ' +'%s %s' %(x[ival],y[ival])) + epx['FONC_MATER'].append(17*' ' +'%s %s' %(x[ival],y[ival])) dic_mater[nom_mater]['BETON'][car] = 'FONC %i'%ifonc self.ifonc=ifonc - - + + cable = self.reupere_structure(concept_mater,'CABLE_PREC') if cable : materCable = cable['MATER'] @@ -1061,12 +1084,12 @@ class EUROPLEXUS: vale = dic_mater[nom_mater][car_aster] car_epx = dic_corresp[car_aster] if vale is not None : - epx[MODULE].append('%s %g' %(car_epx,vale)) + epx[MODULE].append('%s %s' %(car_epx,vale)) for car_aster in dic_corresp2.keys(): vale = dic_mater[nom_mater][car_aster] car_epx = dic_corresp2[car_aster] if vale is not None : - epx[MODULE].append('%s %g' %(car_epx,vale)) + epx[MODULE].append('%s %s' %(car_epx,vale)) else : #GLRC dic_corres1 = {'RHO':'RO','EPAIS':'H','E':'EB','NU':'NUB'} dic_corresNapp = {'E' : 'EA','SY':'FY','OMX':'OMX','OMY':'OMY','RX':'RX','RY':'RY','FS':'FS'} @@ -1081,12 +1104,12 @@ class EUROPLEXUS: vale = dic_mater[nom_mater]['BETON'][car_aster] car_epx = dic_corres1[car_aster] if vale is not None : - epx[MODULE].append('%s %g' %(car_epx,vale)) + epx[MODULE].append('%s %s' %(car_epx,vale)) nlit = len(dic_mater[nom_mater]['NAPPE'])+len(dic_mater[nom_mater]['LINER']) if dic_mater[nom_mater].has_key('CABLE') : nlit+=1 if nlit : - epx[MODULE].append('%s %g' %('NLIT',nlit)) + epx[MODULE].append('%s %s' %('NLIT',nlit)) for nappe in dic_mater[nom_mater]['NAPPE'] : epx[MODULE].append('NAPP') for car_aster in dic_corresNapp.keys(): @@ -1094,27 +1117,27 @@ class EUROPLEXUS: vale = nappe[car_aster] car_epx = dic_corresNapp[car_aster] if vale is not None: - epx[MODULE].append('%s %g' %(car_epx,vale)) + epx[MODULE].append('%s %s' %(car_epx,vale)) if dic_mater[nom_mater].has_key('CABLE') : epx[MODULE].append('PREC') for car_aster in dic_corresPrec.keys(): vale = dic_mater[nom_mater]['CABLE'][car_aster] car_epx = dic_corresPrec[car_aster] if vale is not None : - epx[MODULE].append('%s %g' %(car_epx,vale)) + epx[MODULE].append('%s %s' %(car_epx,vale)) for liner in dic_mater[nom_mater]['LINER'] : epx[MODULE].append('LINR') for car_aster in dic_corresLinr.keys(): vale = liner[car_aster] car_epx = dic_corresLinr[car_aster] if vale is not None : - epx[MODULE].append('%s %g' %(car_epx,vale)) + epx[MODULE].append('%s %s' %(car_epx,vale)) for car_aster in dic_corres2.keys(): vale = dic_mater[nom_mater]['BETON'][car_aster] car_epx = dic_corres2[car_aster] if vale is not None : if type(vale) == float : - epx[MODULE].append('%s %g' %(car_epx,vale)) + epx[MODULE].append('%s %s' %(car_epx,vale)) else : epx[MODULE].append('%s %s' %(car_epx,vale)) for car_aster in dic_corres2b.keys(): @@ -1122,7 +1145,7 @@ class EUROPLEXUS: car_epx = dic_corres2b[car_aster] if vale is not None : if type(vale) == float : - epx[MODULE].append('%s %g' %(car_epx,vale)) + epx[MODULE].append('%s %s' %(car_epx,vale)) else : epx[MODULE].append('%s %s' %(car_epx,vale)) if dic_mater[nom_mater].has_key('CABLE') : @@ -1130,12 +1153,12 @@ class EUROPLEXUS: vale = dic_mater[nom_mater]['CABLE'][car_aster] car_epx = dic_corres3[car_aster] if vale is not None : - epx[MODULE].append('%s %g' %(car_epx,vale)) + epx[MODULE].append('%s %s' %(car_epx,vale)) for car_aster in dic_corres4.keys(): vale = dic_mater[nom_mater]['BETON'][car_aster] car_epx = dic_corres4[car_aster] if vale is not None : - epx[MODULE].append('%s %g' %(car_epx,vale)) + epx[MODULE].append('%s %s' %(car_epx,vale)) # ajouter les group_ma qui ont ete affecte par ces caracteristiques epx[MODULE].append(3*' '+'LECT') @@ -1158,12 +1181,19 @@ class EUROPLEXUS: # Entete de la commande Europlexus courante #epx[MODULE].append('CHARGEMENT') + + try : + test = self.EXCIT[0] + excit_list = self.EXCIT + except : + excit_list = self.setlist(self.EXCIT) - excit_list = self.setlist(self.EXCIT) + #print ' excit_list = ',excit_list + #print ' type(excit_list) = ', type(excit_list) # Traduction de ddl_impo dic_ddl_impo = {'DX':1,'DY':2,'DZ':3,'DRZ':4,'DRY':5,'DRZ':6} - + # Initialisation des variables decrivant le chargement et les conditions de blocage CHARGEMENT = [] LIAISON = [] @@ -1176,7 +1206,9 @@ class EUROPLEXUS: ddl_impo_list = self.setlist(ddl_impo_list) # PRES_REP if pres_rep_list : - if len(CHARGEMENT) == 0 : CHARGEMENT = ['CHARGEMENT'] + if len(CHARGEMENT) == 0 : + CHARGEMENT = ['CHARGEMENT'] + CHARGEMENT.append(2*' ' + '1 FACTO 2') fonction = self.get_motcle(excit,'FONC_MULT',code_mess='A') if fonction is None: UTMESS('F','PLEXUS_7') @@ -1184,9 +1216,7 @@ class EUROPLEXUS: for pres_rep in pres_rep_list : pression = pres_rep['PRES'] group_ma = self.get_group_ma(pres_rep) - - CHARGEMENT.append(2*' ' + '1 FACTO 2') - CHARGEMENT.append(6*' ' +'PRESS COQU %g' %pression) + CHARGEMENT.append(6*' ' +'PRESS COQU %s' %pression) # ajouter les group_ma qui ont ete affecte par ces caracteristiques CHARGEMENT.append(6*' '+'LECT') for group in group_ma: @@ -1195,23 +1225,33 @@ class EUROPLEXUS: # imprimer les valeurs de la table CHARGEMENT.append(6*' ' +'TABLE %i' %len(temps)) for ival in range(len(temps)): - CHARGEMENT.append(10*' ' +'%g %g' %(temps[ival],valeurs[ival])) + CHARGEMENT.append(10*' ' +'%s %s' %(temps[ival],valeurs[ival])) # DDL_IMPO #if debug: print 'ddl_impo_list',ddl_impo_list if ddl_impo_list : #UTMESS('A','PLEXUS_8') - if len(LIAISON) == 0 : LIAISON = ['LIAISON'] +# AA if len(LIAISON) == 0 : LIAISON = ['LIAISON'] + if len(LIAISON) == 0 : LIAISON = ['LINK'] + for ddl_impo in ddl_impo_list: blocage = '' + + # DDL_IMPO / DX for cle in dic_ddl_impo.keys() : - vale = self.get_motcle(ddl_impo,cle,code_mess='None') + vale = self.get_motcle(ddl_impo,cle,code_mess=None) if vale is not None: if vale != 0 : UTMESS('F','PLEXUS_13') else : blocage += `dic_ddl_impo[cle]` + + # LIAISON / ENCASTRE + if ddl_impo.has_key('LIAISON'): + if ddl_impo['LIAISON']=='ENCASTRE': + blocage += ' 123456' + # recupere les entites geometriques for entite in ['GROUP_MA','GROUP_NO'] : - group_ma = self.get_motcle(ddl_impo,entite,code_mess='None') + group_ma = self.get_motcle(ddl_impo,entite,code_mess=None) if group_ma is not None : group_ma = self.setlist(group_ma);break LIAISON.append(' '*2 + 'BLOQ %s' %blocage) @@ -1220,7 +1260,7 @@ class EUROPLEXUS: for group in group_ma: LIAISON.append(10*' '+group) LIAISON.append(6*' '+'TERM') - + if not ddl_impo_list and not pres_rep_list : UTMESS('F','PLEXUS_9') @@ -1231,7 +1271,6 @@ class EUROPLEXUS: for ligne in var : epx[MODULE].append(ligne) epx[MODULE].append('\n') - #----------------------------------------------------------------------- def Correspondance_champ(self): @@ -1310,7 +1349,7 @@ class EUROPLEXUS: for cham_aster in nom_cham: cham_epx = self.dic_champ[cham_aster] st += '%s ' % cham_epx - st += ' %s %g' % (cle_freq_listing,vale_freq_listing) + st += ' %s %s' % (cle_freq_listing,vale_freq_listing) st += ' NOPO NOEL' epx[MODULE].append(st) for cle in cles_entite: @@ -1353,7 +1392,7 @@ class EUROPLEXUS: cle_freq, vale_freq = get_freq2() fichier_alit = self.pwd + self.REPE + os.sep + self.nom_fichiers['ALIT'] - epx[MODULE].append(2*' ' + "FICH ALIT 11 %s %g" %(cle_freq,vale_freq)) + epx[MODULE].append(2*' ' + "FICH ALIT 11 %s %s" %(cle_freq,vale_freq)) # Liste les noeuds a postraiter lnoeuds=sets.Set([]) @@ -1418,7 +1457,7 @@ class EUROPLEXUS: fichier_med = self.pwd + self.REPE + os.sep + self.nom_fichiers['MED'] epx[MODULE].append(2*' ' + "'%s'" %fichier_med) cle_freq,vale_freq = get_freq(champ_fact) - epx[MODULE].append(2*' ' + ' %s %g' %(cle_freq_champ,vale_freq_champ)) + epx[MODULE].append(2*' ' + ' %s %s' %(cle_freq_champ,vale_freq_champ)) # groupes de mailles du modele entite_geo={} @@ -1436,6 +1475,20 @@ class EUROPLEXUS: epx[MODULE].append(6*' '+group) epx[MODULE].append(2*' '+'TERM') + + # ecriture CAST2000 + # __temp + fichier_cast2000 = 'fort.%i' %unite_cast2000 + if unite_cast2000 and os.path.isfile(fichier_cast2000) : + # titre + epx[MODULE].append('\n*-- CAST2000') + fd = open(fichier_cast2000,'r') + lst = fd.readlines() + fd.close() + for st in lst : + st = string.replace(st,'\n','') + epx[MODULE].append(st) + # Une ligne de saut epx[MODULE].append('\n') @@ -1479,7 +1532,7 @@ class EUROPLEXUS: #tables = self.setlist(tables) # Dictionnaire decrivant les legendes des abscisses et ordodonnees des courbes imprimees - # et utilisee dans get_tables + # etl utilisee dans get_tables self.legend_courbes = {} entites_courbe = ['GROUP_NO','GROUP_MA'] entite_EPX={'GROUP_NO' : 'NOEUD', 'GROUP_MA' : 'ELEM'} @@ -1495,16 +1548,16 @@ class EUROPLEXUS: cmp_aster = table['NOM_CMP'] cham_epx = self.dic_champ[cham_aster] cmp_epx = self.dic_cmp[cham_aster][cmp_aster] - # ylabel = cham_aster + '_' + cmp_aster - ylabel = cmp_aster + ylabel = cham_aster + '_' + cmp_aster + #ylabel = cmp_aster if type(entite) is not tuple : entite = [entite,] for el in entite : icourbe+=1 label = ylabel + '_%s'%el - if entite_type == 'MAILLE' : + if entite_type == 'GROUP_MA' : label = label+'_%s'%table['NUM_GAUSS'] st = "COURBE %i '%s' %s COMP %i "% (icourbe,label,cham_epx,cmp_epx) - if entite_type == 'MAILLE' : + if entite_type == 'GROUP_MA' : st=st+"GAUSS %i "%table['NUM_GAUSS'] st=st+"%s LECT %s TERM"%(entite_EPX[entite_type],el) if debug: print 'st = %s'%st @@ -1514,8 +1567,8 @@ class EUROPLEXUS: if debug: print 'st = %s'%st epx[MODULE].append(st) self.legend_courbes[icourbe] = ['TEMPS',label] - - + + # Une ligne de saut epx[MODULE].append('\n') @@ -1583,7 +1636,7 @@ class EUROPLEXUS: idS1 = interface['IDENT_DOMAINE_1'] idS2 = interface['IDENT_DOMAINE_2'] tole = interface['TOLE'] - epx[MODULE].append(3*' '+'MORTAR TOLE %g'%tole) + epx[MODULE].append(3*' '+'MORTAR TOLE %s'%tole) epx[MODULE].append(7*' '+'DOMA %s LECT'%idS1) for gma in Lgma1 : epx[MODULE].append(13*' '+gma) @@ -1601,7 +1654,7 @@ class EUROPLEXUS: cles = ['INST_INIT','PASFIX','INST_FIN'] dcles = {'INST_INIT':'TINI', 'PASFIX':'PASFIX', 'INST_FIN':'TFIN'} for cle in dcles.keys(): - try : calcul += ' %s %g' %(dcles[cle], self.CALCUL[cle]) + try : calcul += ' %s %s' %(dcles[cle], self.CALCUL[cle]) except : pass # Doit etre mis en entier try : calcul += ' %s %d' %('NMAX',self.CALCUL['NMAX']) @@ -1750,14 +1803,15 @@ class EUROPLEXUS: } - dic_cmp_gauss['ECROUISSAGE'] = {'DKT3': {'NOM_CMP' : ('V1','V2'), - 'NOM_CMP_MED' : ('VAR8','VAR9'),}, - 'Q4GS' : {'NOM_CMP' : ('V1','V2'), - 'NOM_CMP_MED' : ('VAR8','VAR9'),}, + dic_cmp_gauss['ECROUISSAGE'] = {'DKT3': {'NOM_CMP' : ('V1','V2','V3','V4','V5','V6','V7','V8','V9','V10','V11','V12','V13','V14','V15','V16','V17','V18','V19'), + 'NOM_CMP_MED' : ('VAR1','VAR2','VAR3','VAR4','VAR5','VAR6','VAR7','VAR8','VAR9','VAR10','VAR11','VAR12','VAR13','VAR14','VAR15','VAR16','VAR17','VAR18','VAR19'),}, + 'Q4GS' : {'NOM_CMP' : ('V1','V2','V3','V4','V5','V6','V7','V8','V9','V10','V11','V12','V13','V14','V15','V16','V17','V18','V19'), + 'NOM_CMP_MED' : ('VAR1','VAR2','VAR3','VAR4','VAR5','VAR6','VAR7','VAR8','VAR9','VAR10','VAR11','VAR12','VAR13','VAR14','VAR15','VAR16','VAR17','VAR18','VAR19'),}, 'POUT' : {} } - + tupVar = ('X1','X2','X3','X4','X5','X6','X7','X8','X9','X10','X11','X12','X13','X14','X15','X16','X17','X18','X19') + # Dictionnaire permettant de traduire le champ epx en med au nom asscie dans aster # AA epx2aster = {'CONTRAINTE':'SIEF_ELGA','ECROUISSAGE':'VARI_ELGA'} epx2aster = {'CONTRAINTE':'SIEF_ELGA','DEFORMATION':'EPSI_ELGA_DEPL','ECROUISSAGE':'VARI_ELGA'} @@ -1832,6 +1886,14 @@ class EUROPLEXUS: PROL_ZERO = 'OUI', AFFE = _F(VALE=(1.,1.), TOUT='OUI', NOM_CMP=('X21','X22')), ) + __UNDEU = CREA_CHAMP( + INFO = self.INFO, + TYPE_CHAM = 'ELGA_NEUT_R', + OPERATION = 'AFFE', + MODELE = self.NEW_MODELE, + PROL_ZERO = 'OUI', + AFFE = _F(VALE=(1.,1./2.), TOUT='OUI', NOM_CMP=('X21','X22')), + ) __FONC1 = FORMULE(VALE='X1*X21',NOM_PARA=('X1','X21')) __FONC2 = FORMULE(VALE='X2*X21',NOM_PARA=('X2','X21')) __FONC3 = FORMULE(VALE='X3*X21',NOM_PARA=('X3','X21')) @@ -1848,6 +1910,26 @@ class EUROPLEXUS: __FONC16 = FORMULE(VALE='X16*X22',NOM_PARA=('X16','X22')) __FONC17 = FORMULE(VALE='X17*X21',NOM_PARA=('X17','X21')) __FONC18 = FORMULE(VALE='X18*X21',NOM_PARA=('X18','X21')) + + __FONE1 = FORMULE(VALE='X1*X21',NOM_PARA=('X1','X21')) + __FONE2 = FORMULE(VALE='X2*X21',NOM_PARA=('X2','X21')) + __FONE3 = FORMULE(VALE='X3*X22',NOM_PARA=('X3','X22')) + __FONE4 = FORMULE(VALE='X4*X21',NOM_PARA=('X4','X21')) + __FONE5 = FORMULE(VALE='X5*X21',NOM_PARA=('X5','X21')) + __FONE6 = FORMULE(VALE='X6*X22',NOM_PARA=('X6','X22')) + __FONE7 = FORMULE(VALE='X7*X21',NOM_PARA=('X7','X21')) + __FONE8 = FORMULE(VALE='X8*X21',NOM_PARA=('X8','X21')) + __FONE9 = FORMULE(VALE='X9*X21',NOM_PARA=('X9','X21')) + __FONE10 = FORMULE(VALE='X10*X21',NOM_PARA=('X10','X21')) + __FONE11 = FORMULE(VALE='X11*X21',NOM_PARA=('X11','X21')) + __FONE12 = FORMULE(VALE='X12*X21',NOM_PARA=('X12','X21')) + __FONE13 = FORMULE(VALE='X13*X21',NOM_PARA=('X13','X21')) + __FONE14 = FORMULE(VALE='X14*X21',NOM_PARA=('X14','X21')) + __FONE15 = FORMULE(VALE='X15*X21',NOM_PARA=('X15','X21')) + __FONE16 = FORMULE(VALE='X16*X21',NOM_PARA=('X16','X21')) + __FONE17 = FORMULE(VALE='X17*X21',NOM_PARA=('X17','X21')) + __FONE18 = FORMULE(VALE='X18*X21',NOM_PARA=('X18','X21')) + __FONE19 = FORMULE(VALE='X19*X21',NOM_PARA=('X19','X21')) __FONCC = CREA_CHAMP( INFO = self.INFO, @@ -1869,14 +1951,17 @@ class EUROPLEXUS: PROL_ZERO = 'OUI', AFFE = _F( TOUT = 'OUI', - NOM_CMP = ('X1','X2'), - VALE_F = (__FONC1,__FONC2)), + NOM_CMP = tupVar, + # VALE_F = (__FONE1,__FONE2) + VALE_F = (__FONE1,__FONE2,__FONE3,__FONE4,__FONE5,__FONE6,__FONE7,__FONE8,__FONE9,__FONE10,__FONE11,__FONE12,__FONE13,__FONE14,__FONE15,__FONE16,__FONE17,__FONE18,__FONE19) + ), ) listEffg = [] i=0 listType=[] __SIG11 = [None]*10 __SIG21 = [None]*10 + __ECR11 = [None]*10 # Pour masquer certaines alarmes from Utilitai.Utmess import MasquerAlarme, RetablirAlarme @@ -1956,12 +2041,57 @@ class EUROPLEXUS: nbChamp = i + + listVari = [0]*nbChamp + + for i in xrange(nbChamp) : + if listType[i] == 'Q4GS' : + try : + __ECR11[i] = LIRE_CHAMP( + INFO = self.INFO, + TYPE_CHAM = 'ELGA_VARI_R', + UNITE = 99, + NUME_PT = 0, + MODELE = self.NEW_MODELE, + MAILLAGE = self.reupere_structure(self.MODELE,'MAILLAGE'), + PROL_ZERO = 'OUI', + NOM_MED = 'CHAMP___ECROUISSAGE__00%d'%(i+1), + NOM_CMP = dic_cmp_gauss['ECROUISSAGE']['Q4GS']['NOM_CMP'], + NOM_CMP_MED = dic_cmp_gauss['ECROUISSAGE']['Q4GS']['NOM_CMP_MED']) + # dicDetr.append({'NOM' : __SIG11}) + DETRUIRE(CONCEPT=_F(NOM = __ECR11[i]), INFO=1) + listVari[i]=1 + except : + err+=1 + elif listType[i] == 'DKT3' : + try : + __ECR11[i] = LIRE_CHAMP( + INFO = self.INFO, + TYPE_CHAM = 'ELGA_VARI_R', + UNITE = 99, + NUME_PT = 0, + MODELE = self.NEW_MODELE, + MAILLAGE = self.reupere_structure(self.MODELE,'MAILLAGE'), + PROL_ZERO = 'OUI', + NOM_MED = 'CHAMP___ECROUISSAGE__00%d'%(i+1), + NOM_CMP = dic_cmp_gauss['ECROUISSAGE']['DKT3']['NOM_CMP'], + NOM_CMP_MED = dic_cmp_gauss['ECROUISSAGE']['DKT3']['NOM_CMP_MED']) + # dicDetr.append({'NOM' : __SIG11}) + DETRUIRE(CONCEPT=_F(NOM = __ECR11[i]), INFO=1) + listVari[i]=1 + except : + err+=1 + + + itot=len(resu.LIST_PARA()['INST']) __EFFG=[None]*itot # __EPSG=[None]*itot __ECRG=[None]*itot __SIG1 = [None]*nbChamp __SIG2 = [None]*nbChamp + __ECR1 = [None]*nbChamp + __ECR2 = [None]*nbChamp for i in xrange(itot) : dicAffe=[] dicAffe2=[] @@ -1972,8 +2102,8 @@ class EUROPLEXUS: dicAsse.append({'TOUT' : 'OUI', 'CHAM_GD' : __EPN2, 'NOM_CMP' : 'X22', 'NOM_CMP_RESU' : 'X22', 'CUMUL' : 'OUI','COEF_R':1.}) dicAsse2 = [{'TOUT' : 'OUI', 'CHAM_GD' : __UNN, 'NOM_CMP' : 'X21', 'NOM_CMP_RESU' : 'X21'}] dicAsse2.append({'TOUT' : 'OUI', 'CHAM_GD' : __UNN, 'NOM_CMP' : 'X22', 'NOM_CMP_RESU' : 'X22', 'CUMUL' : 'OUI','COEF_R':1.}) - dicAsse3 = [{'TOUT' : 'OUI', 'CHAM_GD' : __UNN, 'NOM_CMP' : 'X21', 'NOM_CMP_RESU' : 'X21'}] - dicAsse3.append({'TOUT' : 'OUI', 'CHAM_GD' : __UNN, 'NOM_CMP' : 'X22', 'NOM_CMP_RESU' : 'X22', 'CUMUL' : 'OUI','COEF_R':1.}) + dicAsse3 = [{'TOUT' : 'OUI', 'CHAM_GD' : __UNDEU, 'NOM_CMP' : 'X21', 'NOM_CMP_RESU' : 'X21'}] + dicAsse3.append({'TOUT' : 'OUI', 'CHAM_GD' : __UNDEU, 'NOM_CMP' : 'X22', 'NOM_CMP_RESU' : 'X22', 'CUMUL' : 'OUI','COEF_R':1.}) dicDetr=[] # if 'Q4GS' in self.modelisations : for j in xrange(nbChamp) : @@ -1990,6 +2120,9 @@ class EUROPLEXUS: NOM_CMP = dic_cmp_gauss['CONTRAINTE']['Q4GS']['NOM_CMP'], NOM_CMP_MED = dic_cmp_gauss['CONTRAINTE']['Q4GS']['NOM_CMP_MED'], ) + dicDetr.append({'NOM' : __SIG1[j]}) + dicAsse.append({'TOUT' : 'OUI', 'CHAM_GD' : __SIG1[j], 'NOM_CMP' : tuple(dic_cmp_gauss['CONTRAINTE']['Q4GS']['NOM_CMP']), + 'NOM_CMP_RESU' : ('X1','X2','X3','X4','X5','X6','X7','X8'), 'CUMUL' : 'OUI','COEF_R':1.}) # __EPS1 = LIRE_CHAMP( # INFO = self.INFO, # TYPE_CHAM = 'ELGA_EPSI_R', @@ -2001,24 +2134,23 @@ class EUROPLEXUS: # NOM_MED = 'CHAMP___DEFORM_TOT___001', # NOM_CMP = dic_cmp_gauss['DEFORMATION']['Q4GS']['NOM_CMP'], # NOM_CMP_MED = dic_cmp_gauss['DEFORMATION']['Q4GS']['NOM_CMP_MED']) -# __ECR1 = LIRE_CHAMP( -# INFO = self.INFO, -# TYPE_CHAM = 'ELGA_VARI_R', -# UNITE = 99, -# NUME_PT = resu.LIST_PARA()['NUME_ORDRE'][i], -# MODELE = self.NEW_MODELE, -# MAILLAGE = self.reupere_structure(self.MODELE,'MAILLAGE'), -# PROL_ZERO = 'OUI', -# NOM_MED = 'CHAMP___ECROUISSAGE__001', -# NOM_CMP = dic_cmp_gauss['ECROUISSAGE']['Q4GS']['NOM_CMP'], -# NOM_CMP_MED = dic_cmp_gauss['ECROUISSAGE']['Q4GS']['NOM_CMP_MED']) - dicDetr.append({'NOM' : __SIG1[j]}) - dicAsse.append({'TOUT' : 'OUI', 'CHAM_GD' : __SIG1[j], 'NOM_CMP' : tuple(dic_cmp_gauss['CONTRAINTE']['Q4GS']['NOM_CMP']), - 'NOM_CMP_RESU' : ('X1','X2','X3','X4','X5','X6','X7','X8'), 'CUMUL' : 'OUI','COEF_R':1.}) + if listVari[j] : + __ECR1[j] = LIRE_CHAMP( + INFO = self.INFO, + TYPE_CHAM = 'ELGA_VARI_R', + UNITE = 99, + NUME_PT = resu.LIST_PARA()['NUME_ORDRE'][i], + MODELE = self.NEW_MODELE, + MAILLAGE = self.reupere_structure(self.MODELE,'MAILLAGE'), + PROL_ZERO = 'OUI', + NOM_MED = 'CHAMP___ECROUISSAGE__00%d'%(j+1), + NOM_CMP = dic_cmp_gauss['ECROUISSAGE']['Q4GS']['NOM_CMP'], + NOM_CMP_MED = dic_cmp_gauss['ECROUISSAGE']['Q4GS']['NOM_CMP_MED']) + dicAsse3.append({'TOUT' : 'OUI', 'CHAM_GD' : __ECR1[j], 'NOM_CMP' : tuple(dic_cmp_gauss['ECROUISSAGE']['Q4GS']['NOM_CMP']), + 'NOM_CMP_RESU' : tupVar, 'CUMUL' : 'OUI','COEF_R':1.}) + dicDetr.append({'NOM' : __ECR1[j]}) # dicAsse2.append({'TOUT' : 'OUI', 'CHAM_GD' : __EPS1, 'NOM_CMP' : tuple(dic_cmp_gauss['DEFORMATION']['Q4GS']['NOM_CMP']), # 'NOM_CMP_RESU' : ('X1','X2','X3','X4','X5','X6','X7','X8'), 'CUMUL' : 'OUI','COEF_R':1.}) -# dicAsse3.append({'TOUT' : 'OUI', 'CHAM_GD' : __ECR1, 'NOM_CMP' : tuple(dic_cmp_gauss['ECROUISSAGE']['Q4GS']['NOM_CMP']), -# 'NOM_CMP_RESU' : ('X1','X2'), 'CUMUL' : 'OUI','COEF_R':1.}) else : __SIG2[j] = LIRE_CHAMP( INFO = self.INFO, @@ -2032,6 +2164,9 @@ class EUROPLEXUS: NOM_CMP = dic_cmp_gauss['CONTRAINTE']['DKT3']['NOM_CMP'], NOM_CMP_MED = dic_cmp_gauss['CONTRAINTE']['DKT3']['NOM_CMP_MED'], ) + dicAsse.append({'TOUT' : 'OUI', 'CHAM_GD' : __SIG2[j], 'NOM_CMP' : tuple(dic_cmp_gauss['CONTRAINTE']['DKT3']['NOM_CMP']), + 'NOM_CMP_RESU' : ('X11','X12','X13','X14','X15','X16'), 'CUMUL' : 'OUI','COEF_R':1.}) + dicDetr.append({'NOM' : __SIG2[j]}) # __EPS2 = LIRE_CHAMP( # INFO = self.INFO, # TYPE_CHAM = 'ELGA_EPSI_R', @@ -2043,24 +2178,24 @@ class EUROPLEXUS: # NOM_MED = 'CHAMP___DEFORM_TOT___00%d'%index, # NOM_CMP = dic_cmp_gauss['DEFORMATION']['DKT3']['NOM_CMP'], # NOM_CMP_MED = dic_cmp_gauss['DEFORMATION']['DKT3']['NOM_CMP_MED']), -# __ECR2 = LIRE_CHAMP( -# INFO = self.INFO, -# TYPE_CHAM = 'ELGA_VARI_R', -# UNITE = 99, -# NUME_PT = resu.LIST_PARA()['NUME_ORDRE'][i], -# MODELE = self.NEW_MODELE, -# MAILLAGE = self.reupere_structure(self.MODELE,'MAILLAGE'), -# PROL_ZERO = 'OUI', -# NOM_MED = 'CHAMP___ECROUISSAGE__00%d'%index, -# NOM_CMP = dic_cmp_gauss['ECROUISSAGE']['Q4GS']['NOM_CMP'], -# NOM_CMP_MED = dic_cmp_gauss['ECROUISSAGE']['Q4GS']['NOM_CMP_MED']) - dicAsse.append({'TOUT' : 'OUI', 'CHAM_GD' : __SIG2[j], 'NOM_CMP' : tuple(dic_cmp_gauss['CONTRAINTE']['DKT3']['NOM_CMP']), - 'NOM_CMP_RESU' : ('X11','X12','X13','X14','X15','X16'), 'CUMUL' : 'OUI','COEF_R':1.}) + if listVari[j] : + + __ECR2[j] = LIRE_CHAMP( + INFO = self.INFO, + TYPE_CHAM = 'ELGA_VARI_R', + UNITE = 99, + NUME_PT = resu.LIST_PARA()['NUME_ORDRE'][i], + MODELE = self.NEW_MODELE, + MAILLAGE = self.reupere_structure(self.MODELE,'MAILLAGE'), + PROL_ZERO = 'OUI', + NOM_MED = 'CHAMP___ECROUISSAGE__00%d'%(j+1), + NOM_CMP = dic_cmp_gauss['ECROUISSAGE']['DKT3']['NOM_CMP'], + NOM_CMP_MED = dic_cmp_gauss['ECROUISSAGE']['DKT3']['NOM_CMP_MED']) + dicAsse3.append({'TOUT' : 'OUI', 'CHAM_GD' : __ECR2[j], 'NOM_CMP' : tuple(dic_cmp_gauss['ECROUISSAGE']['DKT3']['NOM_CMP']), + 'NOM_CMP_RESU' : tupVar, 'CUMUL' : 'OUI','COEF_R':1.}) + dicDetr.append({'NOM' : __ECR2[j]}) # dicAsse2.append({'TOUT' : 'OUI', 'CHAM_GD' : __EPS2, 'NOM_CMP' : tuple(dic_cmp_gauss['DEFORMATION']['DKT3']['NOM_CMP']), # 'NOM_CMP_RESU' : ('X11','X12','X13','X14','X15','X16'), 'CUMUL' : 'OUI','COEF_R':1.}) -# dicAsse3.append({'TOUT' : 'OUI', 'CHAM_GD' : __ECR2, 'NOM_CMP' : tuple(dic_cmp_gauss['ECROUISSAGE']['DKT3']['NOM_CMP']), -# 'NOM_CMP_RESU' : ('X11','X12'), 'CUMUL' : 'OUI','COEF_R':1.}) - dicDetr.append({'NOM' : __SIG2[j]}) # dicDetr.append({'NOM' : __EPS2}) # dicDetr.append({'NOM' : __ECR2}) # dicDetr.append({'NOM' : __EPS1}) @@ -2082,16 +2217,16 @@ class EUROPLEXUS: # PROL_ZERO = 'OUI', # MODELE = self.NEW_MODELE, # ASSE = dicAsse2) -# __ECRN = CREA_CHAMP( -# INFO = self.INFO, -# TYPE_CHAM = 'ELGA_NEUT_R', -# OPERATION = 'ASSE', -# PROL_ZERO = 'OUI', -# MODELE = self.NEW_MODELE, -# ASSE = dicAsse3) + __ECRN = CREA_CHAMP( + INFO = self.INFO, + TYPE_CHAM = 'ELGA_NEUT_R', + OPERATION = 'ASSE', + PROL_ZERO = 'OUI', + MODELE = self.NEW_MODELE, + ASSE = dicAsse3) dicDetr.append({'NOM' : __SIGN}) # dicDetr.append({'NOM' : __EPSN}) -# dicDetr.append({'NOM' : __ECRN}) + dicDetr.append({'NOM' : __ECRN}) __EFFGN = CREA_CHAMP( INFO = self.INFO, TYPE_CHAM = 'ELGA_NEUT_R', @@ -2105,15 +2240,15 @@ class EUROPLEXUS: # OPERATION = 'EVAL', # CHAM_F = __FONCC, # CHAM_PARA = (__EPSN)) -# __ECRGN = CREA_CHAMP( -# INFO = self.INFO, -# TYPE_CHAM = 'ELGA_NEUT_R', -# OPERATION = 'EVAL', -# CHAM_F = __FONCC2, -# CHAM_PARA = (__ECRN)) + __ECRGN = CREA_CHAMP( + INFO = self.INFO, + TYPE_CHAM = 'ELGA_NEUT_R', + OPERATION = 'EVAL', + CHAM_F = __FONCC2, + CHAM_PARA = (__ECRN)) dicDetr.append({'NOM' : __EFFGN}) # dicDetr.append({'NOM' : __EPSGN}) -# dicDetr.append({'NOM' : __ECRGN}) + dicDetr.append({'NOM' : __ECRGN}) __EFFG[i] = CREA_CHAMP( INFO = self.INFO, TYPE_CHAM = 'ELGA_SIEF_R', @@ -2137,20 +2272,22 @@ class EUROPLEXUS: # CHAM_GD = __EPSGN, # NOM_CMP = ('X1','X2','X3','X4','X5','X6','X7','X8')+('X11','X12','X13','X14','X15','X16'), # NOM_CMP_RESU = tuple(dic_cmp_gauss['DEFORMATION']['Q4GS']['NOM_CMP']+dic_cmp_gauss['DEFORMATION']['DKT3']['NOM_CMP']))) -# __ECRG[i] = CREA_CHAMP( -# INFO = self.INFO, -# TYPE_CHAM = 'ELGA_VARI_R', -# OPERATION = 'ASSE', -# PROL_ZERO = 'OUI', -# MODELE = self.NEW_MODELE, -# ASSE = _F( -# TOUT = 'OUI', -# CHAM_GD = __ECRGN, -# NOM_CMP = ('X1','X2'), -# NOM_CMP_RESU = tuple(dic_cmp_gauss['ECROUISSAGE']['Q4GS']['NOM_CMP']))) - dicAffe.append({'CHAM_GD' : __EFFG[i], 'MODELE' : self.NEW_MODELE,'CHAM_MATER' : self.CHAM_MATER,'INST': resu.LIST_PARA()['INST'][i]}) + __ECRG[i] = CREA_CHAMP( + INFO = self.INFO, + TYPE_CHAM = 'ELGA_VARI_R', + OPERATION = 'ASSE', + PROL_ZERO = 'OUI', + MODELE = self.NEW_MODELE, + ASSE = _F( + TOUT = 'OUI', + CHAM_GD = __ECRGN, + NOM_CMP = tupVar, + NOM_CMP_RESU = tuple(dic_cmp_gauss['ECROUISSAGE']['Q4GS']['NOM_CMP']))) +# AA dicAffe.append({'CHAM_GD' : __EFFG[i], 'MODELE' : self.NEW_MODELE,'CHAM_MATER' : self.CHAM_MATER,'INST': resu.LIST_PARA()['INST'][i]}) + dicAffe.append({'CHAM_GD' : __EFFG[i], 'MODELE' : self.NEW_MODELE,'CHAM_MATER' : self.CHAM_MATER, 'CARA_ELEM' : self.CARA_ELEM, 'INST': resu.LIST_PARA()['INST'][i]}) # dicAffe2.append({'CHAM_GD' : __EPSG[i], 'MODELE' : self.NEW_MODELE,'CHAM_MATER' : self.CHAM_MATER,'INST': resu.LIST_PARA()['INST'][i]}) -# dicAffe3.append({'CHAM_GD' : __ECRG[i], 'MODELE' : self.NEW_MODELE,'CHAM_MATER' : self.CHAM_MATER,'INST': resu.LIST_PARA()['INST'][i]}) +# AA dicAffe3.append({'CHAM_GD' : __ECRG[i], 'MODELE' : self.NEW_MODELE,'CHAM_MATER' : self.CHAM_MATER,'INST': resu.LIST_PARA()['INST'][i]}) + dicAffe3.append({'CHAM_GD' : __ECRG[i], 'MODELE' : self.NEW_MODELE,'CHAM_MATER' : self.CHAM_MATER, 'CARA_ELEM' : self.CARA_ELEM, 'INST': resu.LIST_PARA()['INST'][i]}) DETRUIRE(CONCEPT=dicDetr, INFO=1) resu = CREA_RESU(reuse=resu, OPERATION = 'AFFE', diff --git a/Aster/Cata/cataSTA9/Macro/calc_modal_ops.py b/Aster/Cata/cataSTA9/Macro/calc_modal_ops.py index c462a3b6..0a7a1bae 100644 --- a/Aster/Cata/cataSTA9/Macro/calc_modal_ops.py +++ b/Aster/Cata/cataSTA9/Macro/calc_modal_ops.py @@ -1,4 +1,4 @@ -#@ MODIF calc_modal_ops Macro DATE 14/10/2008 AUTEUR NISTOR I.NISTOR +#@ MODIF calc_modal_ops Macro DATE 27/04/2009 AUTEUR NISTOR I.NISTOR # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== @@ -20,7 +20,7 @@ #-*- coding: iso-8859-1 -*- -def calc_modal_ops(self,MODELE,CHAM_MATER,CARA_ELEM,AMORTISEMENT, +def calc_modal_ops(self,MODELE,CHAM_MATER,CARA_ELEM,AMORTISSEMENT, SOLVEUR,CHARGE,INST,METHODE,CALC_FREQ, MODE_RIGIDE, VERI_MODE,INFO,**args): """ @@ -47,13 +47,13 @@ def calc_modal_ops(self,MODELE,CHAM_MATER,CARA_ELEM,AMORTISEMENT, if CARA_ELEM != None: motsclece['CARA_ELEM'] =CARA_ELEM if INST != None: motsclece['INST'] =INST - #c'est avec le mot cle AMORTISEMENT qu'on decide si on calcule la matrice C - # d'amortisement + #c'est avec le mot cle AMORTISSEMENT qu'on decide si on calcule la matrice C + # d'amortissement _a=CALC_MATR_ELEM(MODELE=MODELE, OPTION='RIGI_MECA', **motsclece) _b=CALC_MATR_ELEM(MODELE=MODELE, OPTION='MASS_MECA', **motsclece) - if AMORTISEMENT=='OUI': + if AMORTISSEMENT=='OUI': _c=CALC_MATR_ELEM(MODELE=MODELE, OPTION='AMOR_MECA', RIGI_MECA=_a, MASS_MECA=_b,**motsclece) @@ -68,7 +68,7 @@ def calc_modal_ops(self,MODELE,CHAM_MATER,CARA_ELEM,AMORTISEMENT, #assemblages des matrices _rigas=ASSE_MATRICE(MATR_ELEM=_a,NUME_DDL=_num) _masas=ASSE_MATRICE(MATR_ELEM=_b,NUME_DDL=_num) - if AMORTISEMENT=='OUI': + if AMORTISSEMENT=='OUI': _amoras=ASSE_MATRICE(MATR_ELEM=_c,NUME_DDL=_num) #lancement du calcul des modes propres @@ -143,14 +143,14 @@ def calc_modal_ops(self,MODELE,CHAM_MATER,CARA_ELEM,AMORTISEMENT, self.DeclareOut('modes',self.sd) - if AMORTISEMENT=='NON': + if AMORTISSEMENT=='NON': modes=MODE_ITER_SIMULT(MATR_A =_rigas, MATR_B =_masas, METHODE =METHODE, OPTION =mode_rigi, INFO =INFO, **motscit) - elif AMORTISEMENT=='OUI': + elif AMORTISSEMENT=='OUI': modes=MODE_ITER_SIMULT(MATR_A =_rigas, MATR_B =_masas, MATR_C =_amoras, diff --git a/Aster/Cata/cataSTA9/Macro/macr_ascouf_calc_ops.py b/Aster/Cata/cataSTA9/Macro/macr_ascouf_calc_ops.py index e40741a6..d8b9e66f 100644 --- a/Aster/Cata/cataSTA9/Macro/macr_ascouf_calc_ops.py +++ b/Aster/Cata/cataSTA9/Macro/macr_ascouf_calc_ops.py @@ -1,4 +1,4 @@ -#@ MODIF macr_ascouf_calc_ops Macro DATE 14/04/2008 AUTEUR GALENNE E.GALENNE +#@ MODIF macr_ascouf_calc_ops Macro DATE 24/03/2009 AUTEUR GALENNE E.GALENNE # -*- coding: iso-8859-1 -*- # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== @@ -20,7 +20,7 @@ def macr_ascouf_calc_ops(self,TYPE_MAILLAGE,CL_BOL_P2_GV,MAILLAGE,MODELE,CHAM_MATER,CARA_ELEM, - FOND_FISS,CHARGE,RESU_THER,AFFE_MATERIAU, + FOND_FISS,RESU_THER,AFFE_MATERIAU, PRES_REP,ECHANGE,TORS_P1,COMP_INCR,COMP_ELAS, SOLVEUR,CONVERGENCE,NEWTON,RECH_LINEAIRE, INCREMENT,THETA_3D,IMPR_TABLE,IMPRESSION,INFO,TITRE ,**args): diff --git a/Aster/Cata/cataSTA9/Macro/macr_aspic_calc_ops.py b/Aster/Cata/cataSTA9/Macro/macr_aspic_calc_ops.py index 0d416a57..31083379 100644 --- a/Aster/Cata/cataSTA9/Macro/macr_aspic_calc_ops.py +++ b/Aster/Cata/cataSTA9/Macro/macr_aspic_calc_ops.py @@ -1,4 +1,4 @@ -#@ MODIF macr_aspic_calc_ops Macro DATE 14/04/2008 AUTEUR GALENNE E.GALENNE +#@ MODIF macr_aspic_calc_ops Macro DATE 24/03/2009 AUTEUR GALENNE E.GALENNE # -*- coding: iso-8859-1 -*- # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== @@ -20,7 +20,7 @@ def macr_aspic_calc_ops(self,TYPE_MAILLAGE,TUBULURE,MAILLAGE,MODELE,CHAM_MATER,CARA_ELEM, - FOND_FISS_1,FOND_FISS_2,CHARGE,RESU_THER,AFFE_MATERIAU,EQUILIBRE, + FOND_FISS_1,FOND_FISS_2,RESU_THER,AFFE_MATERIAU,EQUILIBRE, PRES_REP,ECHANGE,TORS_CORP,TORS_TUBU,COMP_INCR,COMP_ELAS, THETA_3D,OPTION,SOLVEUR,CONVERGENCE,NEWTON,RECH_LINEAIRE, INCREMENT,PAS_AZIMUT,IMPRESSION,INFO,TITRE,BORNES ,**args): diff --git a/Aster/Cata/cataSTA9/Macro/post_dyna_alea_ops.py b/Aster/Cata/cataSTA9/Macro/post_dyna_alea_ops.py index 481e9b79..9d6e9a96 100644 --- a/Aster/Cata/cataSTA9/Macro/post_dyna_alea_ops.py +++ b/Aster/Cata/cataSTA9/Macro/post_dyna_alea_ops.py @@ -1,4 +1,4 @@ -#@ MODIF post_dyna_alea_ops Macro DATE 06/10/2008 AUTEUR ZENTNER I.ZENTNER +#@ MODIF post_dyna_alea_ops Macro DATE 22/12/2008 AUTEUR COURTOIS M.COURTOIS # -*- coding: iso-8859-1 -*- # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== @@ -383,10 +383,11 @@ def post_dyna_alea_ops(self,INTE_SPEC, FRAGILITE,TITRE,INFO,**args): val_mom={} for i_mom in l_moments : - trapz = Numeric.zeros(len(fvaly),Numeric.Float) + n = len(fvaly) + trapz = Numeric.zeros(n,Numeric.Float) trapz[0] = 0. valy = fvaly*(2*pi*fvalx)**i_mom - trapz[1:] = (valy[1:]+valy[:-1])/2*(fvalx[1:]-fvalx[:-1]) + trapz[1:n] = (valy[1:n]+valy[:-1])/2*(fvalx[1:n]-fvalx[:-1]) prim_y = Numeric.cumsum(trapz) val_mom[i_mom] = prim_y[-1] for i_mom in l_moments : diff --git a/Aster/Cata/cataSTA9/Macro/post_k1_k2_k3_ops.py b/Aster/Cata/cataSTA9/Macro/post_k1_k2_k3_ops.py index 38595c64..7fcb68a6 100644 --- a/Aster/Cata/cataSTA9/Macro/post_k1_k2_k3_ops.py +++ b/Aster/Cata/cataSTA9/Macro/post_k1_k2_k3_ops.py @@ -1,4 +1,4 @@ -#@ MODIF post_k1_k2_k3_ops Macro DATE 17/11/2008 AUTEUR PROIX J-M.PROIX +#@ MODIF post_k1_k2_k3_ops Macro DATE 22/12/2008 AUTEUR COURTOIS M.COURTOIS # -*- coding: iso-8859-1 -*- # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== @@ -1154,10 +1154,11 @@ def post_k1_k2_k3_ops(self,MODELISATION,FOND_FISS,FISSURE,MATER,RESULTAT, # ------------------------------------------------------------------ # --- METHODE 1 --- # ------------------------------------------------------------------ + nabs = len(abscs) x1 = abscs[1:-1] - x2 = abscs[2: ] + x2 = abscs[2:nabs] y1 = saut[:,1:-1]/x1 - y2 = saut[:,2: ]/x2 + y2 = saut[:,2:nabs]/x2 k = abs(y1-x1*(y2-y1)/(x2-x1)) g = coefg*(k[0]+k[1])+coefg3*k[2] kg1 = [max(k[0]),min(k[0]),max(k[1]),min(k[1]),max(k[2]),min(k[2])] @@ -1179,8 +1180,9 @@ def post_k1_k2_k3_ops(self,MODELISATION,FOND_FISS,FISSURE,MATER,RESULTAT, # ------------------------------------------------------------------ # --- METHODE 2 --- # ------------------------------------------------------------------ - x1 = abscs[1: ] - y1 = saut[:,1:] + nabs = len(abscs) + x1 = abscs[1:nabs] + y1 = saut[:,1:nabs] k = abs(y1/x1) g = coefg*(k[0]+k[1])+coefg3*k[2] kg2= [max(k[0]),min(k[0]),max(k[1]),min(k[1]),max(k[2]),min(k[2])] @@ -1201,10 +1203,11 @@ def post_k1_k2_k3_ops(self,MODELISATION,FOND_FISS,FISSURE,MATER,RESULTAT, # ------------------------------------------------------------------ # --- METHODE 3 --- # ------------------------------------------------------------------ + nabs = len(abscs) x1 = abscs[:-1] - x2 = abscs[1: ] + x2 = abscs[1:nabs] y1 = saut[:,:-1] - y2 = saut[:,1: ] + y2 = saut[:,1:nabs] k = (sqrt(y2)*sqrt(x2)+sqrt(y1)*sqrt(x1))*(x2-x1) k = Numeric.sum(transpose(k)) de = abscs[-1] diff --git a/Aster/Cata/cataSTA9/Macro/reca_graphique.py b/Aster/Cata/cataSTA9/Macro/reca_graphique.py new file mode 100644 index 00000000..c3ce8c88 --- /dev/null +++ b/Aster/Cata/cataSTA9/Macro/reca_graphique.py @@ -0,0 +1,92 @@ +#@ MODIF reca_graphique Macro DATE 16/05/2007 AUTEUR ASSIRE A.ASSIRE +# -*- coding: iso-8859-1 -*- +# CONFIGURATION MANAGEMENT OF EDF VERSION +# ====================================================================== +# COPYRIGHT (C) 1991 - 2005 EDF R&D WWW.CODE-ASTER.ORG +# THIS PROGRAM IS FREE SOFTWARE; YOU CAN REDISTRIBUTE IT AND/OR MODIFY +# IT UNDER THE TERMS OF THE GNU GENERAL PUBLIC LICENSE AS PUBLISHED BY +# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR +# (AT YOUR OPTION) ANY LATER VERSION. +# +# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT +# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF +# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU +# GENERAL PUBLIC LICENSE FOR MORE DETAILS. +# +# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE +# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, +# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. +# ====================================================================== + +import string, copy, Numeric, types +import Cata +from Cata.cata import DEFI_FICHIER, IMPR_FONCTION +from Utilitai.Utmess import UTMESS +from Accas import _F + +try: + import Gnuplot +except: + pass + + +#_____________________________________________ +# +# IMPRESSIONS GRAPHIQUES +#_____________________________________________ + +def graphique(FORMAT, L_F, res_exp, reponses, iter, UL_out, interactif): + + if FORMAT=='XMGRACE': + for i in range(len(L_F)): + _tmp = [] + courbe1 = res_exp[i] + _tmp.append( { 'ABSCISSE': courbe1[:,0].tolist(), 'ORDONNEE': courbe1[:,1].tolist(), 'COULEUR': 1 } ) + courbe2 = L_F[i] + _tmp.append( { 'ABSCISSE': courbe2[:,0].tolist(), 'ORDONNEE': courbe2[:,1].tolist(), 'COULEUR': 2 } ) + + motscle2= {'COURBE': _tmp } + if interactif: motscle2['PILOTE']= 'INTERACTIF' + else: motscle2['PILOTE']= 'POSTSCRIPT' + +# DEFI_FICHIER(UNITE=int(UL_out), ACCES='NEW',) + + IMPR_FONCTION(FORMAT='XMGRACE', + UNITE=int(UL_out), + TITRE='Courbe de : ' + reponses[i][0], + SOUS_TITRE='Iteration : ' + str(iter), + LEGENDE_X=reponses[i][1], + LEGENDE_Y=reponses[i][2], + **motscle2 + ); +# DEFI_FICHIER(ACTION='LIBERER',UNITE=int(UL_out),) + + elif FORMAT=='GNUPLOT': + graphe=[] + impr=Gnuplot.Gnuplot() + Gnuplot.GnuplotOpts.prefer_inline_data=1 + impr('set data style linespoints') + impr('set grid') + impr('set pointsize 2.') + impr('set terminal postscript color') + impr('set output "fort.'+str(UL_out)+'"') + + for i in range(len(L_F)): + if interactif: + graphe.append(Gnuplot.Gnuplot(persist=0)) + graphe[i]('set data style linespoints') + graphe[i]('set grid') + graphe[i]('set pointsize 2.') + graphe[i].xlabel(reponses[i][1]) + graphe[i].ylabel(reponses[i][2]) + graphe[i].title(reponses[i][0]+' Iteration '+str(iter)) + graphe[i].plot(Gnuplot.Data(L_F[i],title='Calcul'),Gnuplot.Data(res_exp[i],title='Experimental')) + graphe[i]('pause 5') + + impr.xlabel(reponses[i][1]) + impr.ylabel(reponses[i][2]) + impr.title(reponses[i][0]+' Iteration '+str(iter)) + impr.plot(Gnuplot.Data(L_F[i],title='Calcul'),Gnuplot.Data(res_exp[i],title='Experimental')) + + else: + pass diff --git a/Aster/Cata/cataSTA9/Macro/simu_point_mat_ops.py b/Aster/Cata/cataSTA9/Macro/simu_point_mat_ops.py index 09a27c57..514f5d88 100644 --- a/Aster/Cata/cataSTA9/Macro/simu_point_mat_ops.py +++ b/Aster/Cata/cataSTA9/Macro/simu_point_mat_ops.py @@ -1,4 +1,4 @@ -#@ MODIF simu_point_mat_ops Macro DATE 07/10/2008 AUTEUR GENIAUT S.GENIAUT +#@ MODIF simu_point_mat_ops Macro DATE 22/12/2008 AUTEUR COURTOIS M.COURTOIS # -*- coding: iso-8859-1 -*- # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== @@ -126,13 +126,13 @@ def simu_point_mat_ops(self, COMP_INCR, MATER, INCREMENT, NEWTON,CONVERGENCE,REC FIN """ - UL = UniteAster() - umail = UL.Libre(action='ASSOCIER', nom='simu.mail' ) - fi_mail = open('simu.mail','w') fi_mail.write(texte_ma) fi_mail.close() + UL = UniteAster() + umail = UL.Libre(action='ASSOCIER', nom='simu.mail' ) + __MA = LIRE_MAILLAGE(UNITE=umail) UL.EtatInit() diff --git a/Aster/Cata/cataSTA9/Macro/test_fichier_ops.py b/Aster/Cata/cataSTA9/Macro/test_fichier_ops.py index 62e7d02c..591d5f70 100644 --- a/Aster/Cata/cataSTA9/Macro/test_fichier_ops.py +++ b/Aster/Cata/cataSTA9/Macro/test_fichier_ops.py @@ -1,4 +1,4 @@ -#@ MODIF test_fichier_ops Macro DATE 19/11/2007 AUTEUR COURTOIS M.COURTOIS +#@ MODIF test_fichier_ops Macro DATE 07/04/2009 AUTEUR COURTOIS M.COURTOIS # -*- coding: iso-8859-1 -*- # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== diff --git a/Aster/Cata/cataSTA9/SD/sd_char_cine.py b/Aster/Cata/cataSTA9/SD/sd_char_cine.py index 56317c40..e7a65417 100644 --- a/Aster/Cata/cataSTA9/SD/sd_char_cine.py +++ b/Aster/Cata/cataSTA9/SD/sd_char_cine.py @@ -1,4 +1,4 @@ -#@ MODIF sd_char_cine SD DATE 16/09/2008 AUTEUR PELLET J.PELLET +#@ MODIF sd_char_cine SD DATE 06/05/2009 AUTEUR MACOCCO K.MACOCCO # -*- coding: iso-8859-1 -*- # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== @@ -65,7 +65,7 @@ class sd_char_cine(AsBase): phen, tsca = self.u_veri1() afci=self.AFCI.get() nbloc=afci[0] - assert len(afci)==3*nbloc+1 , afci + assert len(afci)>=3*nbloc+1 , afci for k in range(nbloc) : nuno =afci[3*k +1] nucmp=afci[3*k +2] @@ -86,7 +86,7 @@ class sd_char_cine(AsBase): assert afck[2].strip() != '' , afck else : tsca2 = self.AFCV.type.strip() - assert self.AFCV.lonmax == nbloc , (nbloc,self.AFCV.lonmax) + assert self.AFCV.lonmax >= nbloc , (nbloc,self.AFCV.lonmax) if tsca == 'RE' : assert tsca2=='R', tsca2 # champ de réels @@ -98,6 +98,6 @@ class sd_char_cine(AsBase): # vérification des fonctions : if tsca == 'FT' : afcv = self.AFCV.get() - for fonc in afcv : + for fonc in afcv[:nbloc] : sd2=sd_fonction(fonc); sd2.check(checker) diff --git a/Aster/Cata/cataSTA9/SD/utilsd.py b/Aster/Cata/cataSTA9/SD/utilsd.py index e101a3be..e76c0461 100644 --- a/Aster/Cata/cataSTA9/SD/utilsd.py +++ b/Aster/Cata/cataSTA9/SD/utilsd.py @@ -23,7 +23,7 @@ Utilitaire sur le catalogue des structures de données. """ -__revision__ = "$Id: utilsd.py,v 1.3.4.2 2008-11-28 16:53:33 pnoyret Exp $" +__revision__ = "$Id: utilsd.py,v 1.3.4.3 2009-04-30 14:38:01 pnoyret Exp $" import sys import os diff --git a/Aster/Cata/cataSTA9/cata.py b/Aster/Cata/cataSTA9/cata.py index 9984f964..fb5f176c 100644 --- a/Aster/Cata/cataSTA9/cata.py +++ b/Aster/Cata/cataSTA9/cata.py @@ -1,4 +1,4 @@ -#& MODIF ENTETE DATE 12/02/2008 AUTEUR REZETTE C.REZETTE +#& MODIF ENTETE DATE 07/04/2009 AUTEUR COURTOIS M.COURTOIS # -*- coding: iso-8859-1 -*- # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== @@ -17,12 +17,13 @@ # ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, # 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. # ====================================================================== +# RESPONSABLE COURTOIS M.COURTOIS # faire que la division soit toujours réelle from __future__ import division __version__ = "$Name: $" -__Id__ = "$Id: cata.py,v 1.3.4.2 2008-11-28 16:53:32 pnoyret Exp $" +__Id__ = "$Id: cata.py,v 1.3.4.5 2009-06-02 15:18:51 pnoyret Exp $" import Accas from Accas import * @@ -226,7 +227,7 @@ from SD.co_vect_elem import vect_elem, \ vect_elem_pres_r, vect_elem_pres_c, \ vect_elem_temp_r -#& MODIF COMMUN DATE 20/10/2008 AUTEUR MICHEL S.MICHEL +#& MODIF COMMUN DATE 20/04/2009 AUTEUR PROIX J-M.PROIX # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2003 EDF R&D WWW.CODE-ASTER.ORG @@ -336,7 +337,6 @@ def C_COMP_INCR() : return FACT(statut='f',min=1,max='**', #COMMUN# "META_V_INL", # RESP. : CANO V.CANO "MONOCRISTAL", # RESP. : PROIX J.M.PROIX "MULTIFIBRE", # RESP. : FLEJOU J.L.FLEJOU - "NADAI_B", # RESP. : None "NORTON_HOFF", # RESP. : MICHEL S.MICHEL "PINTO_MENEGOTTO", # RESP. : ROSPARS C.ROSPARS "POLYCRISTAL", # RESP. : PROIX J.M.PROIX @@ -352,7 +352,7 @@ def C_COMP_INCR() : return FACT(statut='f',min=1,max='**', #COMMUN# "VISC_IRRA_LOG", # RESP. : FERNANDES R.FERNANDES "VISC_ISOT_LINE", # RESP. : MICHEL S.MICHEL "VISC_ISOT_TRAC", # RESP. : PROIX J.M.PROIX - "VISCOCHAB", # RESP. : None + "VISCOCHAB", # RESP. : GENIAUT S.GENIAUT "VISC_TAHERI", # RESP. : TAHERI S.TAHERI "VMIS_ASYM_LINE", # RESP. : PROIX J.M.PROIX "VMIS_CIN1_CHAB", # RESP. : PROIX J.M.PROIX @@ -387,7 +387,6 @@ def C_COMP_INCR() : return FACT(statut='f',min=1,max='**', #COMMUN# "VMIS_CINE_LINE", "VMIS_ISOT_TRAC", "VMIS_ISOT_LINE", - "VMIS_ISOT_CINE", "VMIS_ISOT_PUIS", "GLRC_DM", "GRANGER_FP", @@ -395,7 +394,6 @@ def C_COMP_INCR() : return FACT(statut='f',min=1,max='**', #COMMUN# "GRANGER_FP_V", "BETON_UMLV_FP", "ROUSS_PR", - "NADAI_B", "BETON_DOUBLE_DP", "ENDO_ISOT_BETON", "MAZARS" @@ -449,7 +447,13 @@ def C_COMP_INCR() : return FACT(statut='f',min=1,max='**', #COMMUN# "REAC_GEOM","EULER_ALMANSI")), ALGO_C_PLAN =SIMP(statut='f',typ='TXM',defaut="ANALYTIQUE",into=("DEBORST","ANALYTIQUE",)), - RESI_DEBORST =SIMP(statut='f',typ='R',defaut= 1.0E-6), + RESI_DEBO_MAXI = SIMP(statut='f',typ='R', + fr="Critère d'arret absolu pour assurer la condition de contraintes planes", + ), + b_resideborst = BLOC(condition = " RESI_DEBO_MAXI == None ", + fr="Critère d'arret relatif pour assurer la condition de contraintes planes", + RESI_DEBO_RELA = SIMP(statut='f',typ='R',defaut= 1.0E-6), + ), ALGO_1D =SIMP(statut='f',typ='TXM',defaut="ANALYTIQUE",into=("DEBORST","ANALYTIQUE",)), ITER_MAXI_DEBORST =SIMP(statut='f',typ='I',defaut= 1), @@ -480,23 +484,23 @@ def C_COMP_INCR() : return FACT(statut='f',min=1,max='**', #COMMUN# MAILLE =SIMP(statut='f',typ=ma ,validators=NoRepeat(),max='**'), ) ; -#& MODIF COMMUN DATE 21/10/2008 AUTEUR DESOZA T.DESOZA +#& MODIF COMMUN DATE 06/05/2009 AUTEUR MACOCCO K.MACOCCO # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2008 EDF R&D WWW.CODE-ASTER.ORG -# THIS PROGRAM IS FREE SOFTWARE; YOU CAN REDISTRIBUTE IT AND/OR MODIFY -# IT UNDER THE TERMS OF THE GNU GENERAL PUBLIC LICENSE AS PUBLISHED BY -# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR -# (AT YOUR OPTION) ANY LATER VERSION. -# -# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT -# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF -# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU -# GENERAL PUBLIC LICENSE FOR MORE DETAILS. -# -# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE -# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, -# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. +# THIS PROGRAM IS FREE SOFTWARE; YOU CAN REDISTRIBUTE IT AND/OR MODIFY +# IT UNDER THE TERMS OF THE GNU GENERAL PUBLIC LICENSE AS PUBLISHED BY +# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR +# (AT YOUR OPTION) ANY LATER VERSION. +# +# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT +# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF +# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU +# GENERAL PUBLIC LICENSE FOR MORE DETAILS. +# +# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE +# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, +# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. # ====================================================================== # RESPONSABLE DESOZA T.DESOZA def C_CONTACT() : return FACT(statut='f',max='**', @@ -509,66 +513,78 @@ def C_CONTACT() : return FACT(statut='f',max='**', # OPTIONS D'APPARIEMENT # - APPARIEMENT =SIMP(statut='f',typ='TXM',defaut="MAIT_ESCL", - into =("NODAL","MAIT_ESCL")), + b_notxfem =BLOC(condition = "METHODE != 'XFEM' ", + regles=(UN_PARMI('GROUP_MA_ESCL','MAILLE_ESCL'), + UN_PARMI('GROUP_MA_MAIT','MAILLE_MAIT'),), - LISSAGE =SIMP(statut='f',typ='TXM',defaut="NON", - into =("OUI","NON")), - - NORMALE =SIMP(statut='f',typ='TXM',defaut="MAIT", - into =("MAIT","MAIT_ESCL","ESCL"),), - - VECT_MAIT =SIMP(statut='f',typ='TXM',defaut="AUTO", - into =("AUTO","FIXE","VECT_Y")), + GROUP_MA_MAIT =SIMP(statut='f',typ=grma ,validators=NoRepeat(),max='**'), + MAILLE_MAIT =SIMP(statut='f',typ=ma ,validators=NoRepeat(),max='**'), + GROUP_MA_ESCL =SIMP(statut='f',typ=grma ,validators=NoRepeat(),max='**'), + MAILLE_ESCL =SIMP(statut='f',typ=ma ,validators=NoRepeat(),max='**'), - b_nmait_fixe =BLOC(condition = "VECT_MAIT == 'FIXE'", - MAIT_FIXE =SIMP(statut='f',typ='R',min=3,max=3), - ), + APPARIEMENT =SIMP(statut='f',typ='TXM',defaut="MAIT_ESCL", + into =("NODAL","MAIT_ESCL")), - b_nmait_vecty =BLOC(condition = "VECT_MAIT == 'VECT_Y'", - MAIT_VECT_Y =SIMP(statut='f',typ='R',min=3,max=3), - ), + LISSAGE =SIMP(statut='f',typ='TXM',defaut="NON", + into =("OUI","NON")), - VECT_ESCL =SIMP(statut='f',typ='TXM',defaut="AUTO", - into =("AUTO","FIXE","VECT_Y")), + NORMALE =SIMP(statut='f',typ='TXM',defaut="MAIT", + into =("MAIT","MAIT_ESCL","ESCL"),), - b_nescl_fixe =BLOC(condition = "VECT_ESCL == 'FIXE'", - ESCL_FIXE =SIMP(statut='f',typ='R',min=3,max=3), - ), + VECT_MAIT =SIMP(statut='f',typ='TXM',defaut="AUTO", + into =("AUTO","FIXE","VECT_Y")), - b_nescl_vecty =BLOC(condition = "VECT_ESCL == 'VECT_Y'", - ESCL_VECT_Y =SIMP(statut='f',typ='R',min=3,max=3), - ), + b_nmait_fixe =BLOC(condition = "VECT_MAIT == 'FIXE'", + MAIT_FIXE =SIMP(statut='o',typ='R',min=3,max=3), + ), + + b_nmait_vecty =BLOC(condition = "VECT_MAIT == 'VECT_Y'", + MAIT_VECT_Y =SIMP(statut='o',typ='R',min=3,max=3), + ), + VECT_ESCL =SIMP(statut='f',typ='TXM',defaut="AUTO", + into =("AUTO","FIXE","VECT_Y")), + + b_nescl_fixe =BLOC(condition = "VECT_ESCL == 'FIXE'", + ESCL_FIXE =SIMP(statut='o',typ='R',min=3,max=3), + ), + + b_nescl_vecty =BLOC(condition = "VECT_ESCL == 'VECT_Y'", + ESCL_VECT_Y =SIMP(statut='o',typ='R',min=3,max=3), + ), + + + TYPE_APPA =SIMP(statut='f',typ='TXM',defaut="PROCHE", + into =("PROCHE","FIXE")), + + b_appa_fixe =BLOC(condition = "TYPE_APPA == 'FIXE'", + DIRE_APPA =SIMP(statut='f',typ='R',min=3,max=3), + ), + + DIST_MAIT =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)), + DIST_ESCL =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)), + + TOLE_APPA =SIMP(statut='f',typ='R' ,defaut=-1.0), - TYPE_APPA =SIMP(statut='f',typ='TXM',defaut="PROCHE", - into =("PROCHE","FIXE")), - - b_appa_fixe =BLOC(condition = "TYPE_APPA == 'FIXE'", - DIRE_APPA =SIMP(statut='f',typ='R',min=3,max=3), ), - - b_dist_struct =BLOC(condition = "METHODE != 'CONTINUE' and METHODE != 'XFEM' ", - DIST_POUTRE =SIMP(statut='f',typ='TXM',defaut="NON", into=("OUI","NON")), - DIST_COQUE =SIMP(statut='f',typ='TXM',defaut="NON", into=("OUI","NON")), - b_cara =BLOC(condition = "DIST_POUTRE == 'OUI' or DIST_COQUE == 'OUI'", - CARA_ELEM =SIMP(statut='o',typ=(cara_elem) ), + + + b_dist_struct =BLOC(condition = "METHODE != 'CONTINUE' and METHODE != 'XFEM'", + DIST_POUTRE =SIMP(statut='f',typ='TXM',defaut="NON", into=("OUI","NON")), + DIST_COQUE =SIMP(statut='f',typ='TXM',defaut="NON", into=("OUI","NON")), + b_cara =BLOC(condition = "DIST_POUTRE == 'OUI' or DIST_COQUE == 'OUI'", + CARA_ELEM =SIMP(statut='o',typ=(cara_elem) ), ), ), - - DIST_MAIT =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)), - DIST_ESCL =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)), + TOLE_PROJ_EXT =SIMP(statut='f',typ='R' ,defaut=0.50), + +# +# FIN OPTIONS D'APPARIEMENT +# - TOLE_APPA =SIMP(statut='f',typ='R' ,defaut=-1.0), - TOLE_PROJ_EXT =SIMP(statut='f',typ='R' ,defaut=0.50), - - b_xfem =BLOC(condition = "METHODE == 'XFEM' ", FISS_MAIT = SIMP(statut='o',typ=fiss_xfem,max=1), - FISS_ESCL = SIMP(statut='f',typ=fiss_xfem,max=1), - SIGN_MAIT = SIMP(statut='f',typ='TXM',into=("+","-",) ), - SIGN_ESCL = SIMP(statut='f',typ='TXM',into=("+","-",) ), INTEGRATION = SIMP(statut='f',typ='TXM',defaut="FPG4",into=("GAUSS","FPG2","FPG3","FPG4","FPG6", "FPG7","NOEUD","SIMPSON","SIMPSON1","NCOTES","NCOTES1","NCOTES2") ), COEF_REGU_CONT = SIMP(statut='f',typ='R',defaut=100.E+0), @@ -588,14 +604,6 @@ def C_CONTACT() : return FACT(statut='f',max='**', ), ), - b_notxfem =BLOC(condition = "METHODE != 'XFEM' ", - regles=(UN_PARMI('GROUP_MA_ESCL','MAILLE_ESCL'),), - GROUP_MA_MAIT =SIMP(statut='f',typ=grma ,validators=NoRepeat(),max='**'), - MAILLE_MAIT =SIMP(statut='f',typ=ma ,validators=NoRepeat(),max='**'), - GROUP_MA_ESCL =SIMP(statut='f',typ=grma ,validators=NoRepeat(),max='**'), - MAILLE_ESCL =SIMP(statut='f',typ=ma ,validators=NoRepeat(),max='**'), - ), - b_verif =BLOC(condition = "METHODE == 'VERIF' ", @@ -659,10 +667,12 @@ def C_CONTACT() : return FACT(statut='f',max='**', fr="Paramètres de la méthode pénalisée (contact avec ou sans frottement)", E_N =SIMP(statut='f',typ='R'), FROTTEMENT =SIMP(statut='f',typ='TXM',defaut="SANS",into=("SANS","COULOMB",) ), - STOP_SINGULIER =SIMP(statut='f',typ='TXM',defaut="OUI", - into=("OUI","NON")), - NB_RESOL =SIMP(statut='f',typ='I', defaut=10 ), - ITER_MULT_MAXI =SIMP(statut='f',typ='I',defaut=4), + b_dualisation =BLOC(condition = "E_N == None", + STOP_SINGULIER =SIMP(statut='f',typ='TXM',defaut="OUI", + into=("OUI","NON")), + NB_RESOL =SIMP(statut='f',typ='I', defaut=10 ), + ITER_MULT_MAXI =SIMP(statut='f',typ='I',defaut=4), + ), REAC_GEOM =SIMP(statut='f',typ='TXM',defaut="AUTOMATIQUE", into=("AUTOMATIQUE","CONTROLE","SANS")), @@ -673,12 +683,12 @@ def C_CONTACT() : return FACT(statut='f',max='**', SANS_NOEUD =SIMP(statut='f',typ=no ,validators=NoRepeat(),max='**'), SANS_GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'), - + b_frottement =BLOC(condition = "FROTTEMENT == 'COULOMB' ",fr="Paramètres du frottement de Coulomb", COULOMB =SIMP(statut='o',typ='R',), - E_T =SIMP(statut='f',typ='R', + E_T =SIMP(statut='o',typ='R', fr="Active la pénalisation sur le frottement et définit le coefficient de pénalisation"), COEF_MATR_FROT =SIMP(statut='f',typ='R',defaut=0.E+0), ),), @@ -700,8 +710,6 @@ def C_CONTACT() : return FACT(statut='f',max='**', COEF_PENA_CONT =SIMP(statut='f',typ='R',defaut=100.E+0),), # -------------------------------- GLISSIERE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON"),), - b_glissiere =BLOC(condition = "GLISSIERE == 'OUI' ", - ALARME_JEU =SIMP(statut='f',typ='R',defaut=0.),), # -------------------------------- COMPLIANCE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON",) ), b_compliance =BLOC(condition = "COMPLIANCE == 'OUI' ",fr="Parametres de la compliance", @@ -773,8 +781,6 @@ def C_CONTACT() : return FACT(statut='f',max='**', fr="Critère de convergence (niveau d'interpénétration autorisé)"), REAC_ITER =SIMP(statut='f',typ='I',defaut=3, fr="Fréquence de réinitialisation de la conjugaison"), ITER_GCP_MAXI =SIMP(statut='f',typ='I',defaut=0, fr="Nombre d'itérations maximal pour le GCP"), - STOP_SINGULIER =SIMP(statut='f',typ='TXM',defaut="OUI", - into=("OUI","NON")), REAC_GEOM =SIMP(statut='f',typ='TXM',defaut="AUTOMATIQUE", into=("AUTOMATIQUE","CONTROLE","SANS")), @@ -2191,7 +2197,7 @@ AFFE_CHAR_CINE_F=OPER(nom="AFFE_CHAR_CINE_F",op= 101,sd_prod=affe_char_cine_f_pr ), INFO =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ), ) ; -#& MODIF COMMANDE DATE 16/09/2008 AUTEUR PELLET J.PELLET +#& MODIF COMMANDE DATE 06/05/2009 AUTEUR MACOCCO K.MACOCCO # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG @@ -2602,7 +2608,7 @@ AFFE_CHAR_MECA=OPER(nom="AFFE_CHAR_MECA",op= 7,sd_prod=char_meca, COEF_MULT =SIMP(statut='f',typ='R',max='**'), METHODE =SIMP(statut='f',typ='TXM',defaut="CONTRAINTE", - into=("CONTRAINTE","GCPC",) ), + into=("CONTRAINTE",) ), ), @@ -3089,7 +3095,7 @@ AFFE_CHAR_MECA_C=OPER(nom="AFFE_CHAR_MECA_C",op= 7,sd_prod=char_meca, ), INFO =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ), ) ; -#& MODIF COMMANDE DATE 16/09/2008 AUTEUR PELLET J.PELLET +#& MODIF COMMANDE DATE 06/05/2009 AUTEUR MACOCCO K.MACOCCO # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG @@ -3297,7 +3303,7 @@ AFFE_CHAR_MECA_F=OPER(nom="AFFE_CHAR_MECA_F",op=7,sd_prod=char_meca, COEF_MULT =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule),max='**'), METHODE =SIMP(statut='f',typ='TXM',defaut="CONTRAINTE", - into=("CONTRAINTE","GCPC",) ), + into=("CONTRAINTE",) ), ), @@ -4830,7 +4836,7 @@ CALC_CHAR_SEISME=OPER(nom="CALC_CHAR_SEISME",op= 92,sd_prod=calc_char_seisme_pr ), TITRE =SIMP(statut='f',typ='TXM',max='**'), ) ; -#& MODIF COMMANDE DATE 30/09/2008 AUTEUR REZETTE C.REZETTE +#& MODIF COMMANDE DATE 24/03/2009 AUTEUR PELLET J.PELLET # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG @@ -5361,8 +5367,8 @@ b_charge =BLOC( condition = "OPTION in ('EPME_ELNO_DEPL','EPSI_ELGA_DEPL','EPME_ PARALLELISME =SIMP(statut='f',typ='TXM',defaut="CENTRALISE", into=("CENTRALISE","DISTRIBUE_MC","DISTRIBUE_MD","DISTRIBUE_SD")), PARTITION =SIMP(statut='f',typ=sd_feti_sdaster), - CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,min=0,max=100), - CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,min=0), + CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,val_min=0), + CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,val_min=0), OUT_OF_CORE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")), ), ), @@ -5532,7 +5538,7 @@ CALC_ESSAI = MACRO(nom = 'CALC_ESSAI', ), ); -#& MODIF COMMANDE DATE 20/10/2008 AUTEUR ASSIRE A.ASSIRE +#& MODIF COMMANDE DATE 28/04/2009 AUTEUR ASSIRE A.ASSIRE # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2008 EDF R&D WWW.CODE-ASTER.ORG @@ -5571,8 +5577,8 @@ CALC_EUROPLEXUS = MACRO(nom="CALC_EUROPLEXUS",op=calc_europlexus_ops,sd_prod=cal CARA_ELEM = SIMP(statut='o',typ=cara_elem), FONC_PARASOL = FACT(statut='f', - NFKT = SIMP(statut='o',typ=(fonction_sdaster,)), - NFKR = SIMP(statut='o',typ=(fonction_sdaster,)), + NFKT = SIMP(statut='f',typ=(fonction_sdaster,)), + NFKR = SIMP(statut='f',typ=(fonction_sdaster,)), GROUP_MA = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'), ), @@ -5661,7 +5667,7 @@ CALC_EUROPLEXUS = MACRO(nom="CALC_EUROPLEXUS",op=calc_europlexus_ops,sd_prod=cal GROUP_NO = SIMP(statut='f',typ=grno,validators=NoRepeat(),max=1), GROUP_MA = SIMP(statut='f',typ=grma,validators=NoRepeat(),max=1), - b_maille = BLOC(condition = "MAILLE != None", regles=(AU_MOINS_UN('NUM_GAUSS')), + b_maille = BLOC(condition = "GROUP_MA != None", regles=(AU_MOINS_UN('NUM_GAUSS')), NUM_GAUSS = SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),), ), b_courbe = BLOC(condition = "COURBE != None", @@ -6034,23 +6040,23 @@ CALC_FONCTION=MACRO(nom="CALC_FONCTION",op=calc_fonction_ops,sd_prod=calc_foncti PROL_GAUCHE_FONC=SIMP(statut='f',typ='TXM',into=("CONSTANT","LINEAIRE","EXCLU") ), INFO =SIMP(statut='f',typ='I',defaut=1,into=(1,2) ), ) -#& MODIF COMMANDE DATE 30/09/2008 AUTEUR REZETTE C.REZETTE +#& MODIF COMMANDE DATE 24/03/2009 AUTEUR PELLET J.PELLET # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG # THIS PROGRAM IS FREE SOFTWARE; YOU CAN REDISTRIBUTE IT AND/OR MODIFY # IT UNDER THE TERMS OF THE GNU GENERAL PUBLIC LICENSE AS PUBLISHED BY -# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR -# (AT YOUR OPTION) ANY LATER VERSION. +# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR +# (AT YOUR OPTION) ANY LATER VERSION. # -# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT -# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF -# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU -# GENERAL PUBLIC LICENSE FOR MORE DETAILS. +# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT +# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF +# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU +# GENERAL PUBLIC LICENSE FOR MORE DETAILS. # -# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE -# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, -# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. +# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE +# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, +# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. # ====================================================================== # RESPONSABLE GREFFET N.GREFFET CALC_FORC_AJOU=OPER(nom="CALC_FORC_AJOU",op=199,sd_prod=vect_asse_gene, @@ -6115,8 +6121,8 @@ CALC_FORC_AJOU=OPER(nom="CALC_FORC_AJOU",op=199,sd_prod=vect_asse_gene, PARALLELISME =SIMP(statut='f',typ='TXM',defaut="CENTRALISE", into=("CENTRALISE","DISTRIBUE_MC","DISTRIBUE_MD","DISTRIBUE_SD")), PARTITION =SIMP(statut='f',typ=sd_feti_sdaster), - CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,min=0,max=100), - CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,min=0), + CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,val_min=0), + CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,val_min=0), OUT_OF_CORE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")), ), @@ -6316,23 +6322,23 @@ CALC_INTE_SPEC=OPER(nom="CALC_INTE_SPEC",op= 120,sd_prod=table_fonction, TITRE =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'), INFO =SIMP(statut='f',typ='I',defaut=1,into=(1 , 2) ), ) ; -#& MODIF COMMANDE DATE 30/09/2008 AUTEUR REZETTE C.REZETTE +#& MODIF COMMANDE DATE 24/03/2009 AUTEUR PELLET J.PELLET # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG # THIS PROGRAM IS FREE SOFTWARE; YOU CAN REDISTRIBUTE IT AND/OR MODIFY # IT UNDER THE TERMS OF THE GNU GENERAL PUBLIC LICENSE AS PUBLISHED BY -# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR -# (AT YOUR OPTION) ANY LATER VERSION. +# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR +# (AT YOUR OPTION) ANY LATER VERSION. # -# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT -# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF -# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU -# GENERAL PUBLIC LICENSE FOR MORE DETAILS. +# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT +# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF +# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU +# GENERAL PUBLIC LICENSE FOR MORE DETAILS. # -# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE -# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, -# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. +# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE +# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, +# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. # ====================================================================== # RESPONSABLE GREFFET N.GREFFET CALC_MATR_AJOU=OPER(nom="CALC_MATR_AJOU",op= 152,sd_prod=matr_asse_gene_r, @@ -6388,9 +6394,9 @@ CALC_MATR_AJOU=OPER(nom="CALC_MATR_AJOU",op= 152,sd_prod=matr_asse_gene_r, PARALLELISME =SIMP(statut='f',typ='TXM',defaut="CENTRALISE", into=("CENTRALISE","DISTRIBUE_MC","DISTRIBUE_MD","DISTRIBUE_SD")), PARTITION =SIMP(statut='f',typ=sd_feti_sdaster), - CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,min=0,max=100), - CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,min=0), - OUT_OF_CORE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")), + CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,val_min=0), + CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,val_min=0), + OUT_OF_CORE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")), ), b_petsc =BLOC(condition = "METHODE == 'PETSC' ",fr="Paramètres de la méthode PETSC", @@ -6615,7 +6621,7 @@ CALC_META=OPER(nom="CALC_META",op=194,sd_prod=evol_ther,reentrant='o', OPTION =SIMP(statut='f',typ='TXM' ,into=("META_ELNO_TEMP",) ), ) ; -#& MODIF COMMANDE DATE 14/10/2008 AUTEUR NISTOR I.NISTOR +#& MODIF COMMANDE DATE 27/04/2009 AUTEUR NISTOR I.NISTOR # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2008 EDF R&D WWW.CODE-ASTER.ORG @@ -6638,9 +6644,9 @@ CALC_META=OPER(nom="CALC_META",op=194,sd_prod=evol_ther,reentrant='o', from Macro.calc_modal_ops import calc_modal_ops -def calc_modal_prod(self,AMORTISEMENT,**args): - if AMORTISEMENT=="NON": return mode_meca - if AMORTISEMENT=="OUI": return mode_meca_c +def calc_modal_prod(self,AMORTISSEMENT,**args): + if AMORTISSEMENT=="NON": return mode_meca + if AMORTISSEMENT=="OUI": return mode_meca_c raise AsException("type de concept resultat non prevu") @@ -6649,7 +6655,7 @@ CALC_MODAL=MACRO(nom="CALC_MODAL",op=calc_modal_ops, sd_prod=calc_modal_prod, fr="Calcul des modes propres reels ou complexes dans une seule commande", MODELE =SIMP(statut='o',typ=modele_sdaster), - AMORTISEMENT =SIMP(statut='f',typ='TXM',into=("OUI","NON"),defaut="NON" ), + AMORTISSEMENT =SIMP(statut='f',typ='TXM',into=("OUI","NON"),defaut="NON" ), CHAM_MATER =SIMP(statut='o',typ=cham_mater), INST =SIMP(statut='f',typ='R',defaut=0.), CARA_ELEM =SIMP(statut='f',typ=cara_elem), @@ -6837,23 +6843,23 @@ CALC_NO=OPER(nom="CALC_NO",op= 106,sd_prod=calc_no_prod,reentrant='f', GROUP_NO_RESU =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'), NOEUD_RESU =SIMP(statut='f',typ=ma,validators=NoRepeat(),max='**'), ) ; -#& MODIF COMMANDE DATE 30/09/2008 AUTEUR REZETTE C.REZETTE +#& MODIF COMMANDE DATE 24/03/2009 AUTEUR PELLET J.PELLET # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2003 EDF R&D WWW.CODE-ASTER.ORG -# THIS PROGRAM IS FREE SOFTWARE; YOU CAN REDISTRIBUTE IT AND/OR MODIFY -# IT UNDER THE TERMS OF THE GNU GENERAL PUBLIC LICENSE AS PUBLISHED BY -# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR -# (AT YOUR OPTION) ANY LATER VERSION. -# -# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT -# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF -# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU -# GENERAL PUBLIC LICENSE FOR MORE DETAILS. -# -# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE -# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, -# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. +# THIS PROGRAM IS FREE SOFTWARE; YOU CAN REDISTRIBUTE IT AND/OR MODIFY +# IT UNDER THE TERMS OF THE GNU GENERAL PUBLIC LICENSE AS PUBLISHED BY +# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR +# (AT YOUR OPTION) ANY LATER VERSION. +# +# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT +# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF +# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU +# GENERAL PUBLIC LICENSE FOR MORE DETAILS. +# +# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE +# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, +# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. # ====================================================================== # RESPONSABLE MICHEL S.MICHEL @@ -6864,8 +6870,8 @@ from Macro.calc_precont_ops import calc_precont_ops # CATALOGUE DE LA MACRO "CALC_PRECONT" # ----------------------------------------- # USAGE : -# -# +# +# # =========================================================================== CALC_PRECONT=MACRO(nom="CALC_PRECONT",op=calc_precont_ops,sd_prod=evol_noli, @@ -6902,7 +6908,7 @@ CALC_PRECONT=MACRO(nom="CALC_PRECONT",op=calc_precont_ops,sd_prod=evol_noli, b_subd_extr=BLOC(condition = "SUBD_METHODE == 'EXTRAPOLE'", regles=(AU_MOINS_UN('SUBD_NIVEAU','SUBD_PAS_MINI'),), SUBD_OPTION =SIMP(statut='f',typ='TXM', - into =("IGNORE_PREMIERES","GARDE_DERNIERES",), + into =("IGNORE_PREMIERES","GARDE_DERNIERES",), defaut="IGNORE_PREMIERES", fr="Technique d'extrapolation : les 1ere itérations sont ignorées ou les dernières sont gardées"), SUBD_ITER_IGNO =SIMP(statut='c',typ='I',defaut=3,val_min=0, @@ -6918,7 +6924,7 @@ CALC_PRECONT=MACRO(nom="CALC_PRECONT",op=calc_precont_ops,sd_prod=evol_noli, SUBD_ITER_PLUS =SIMP(statut='c',typ='I',defaut=50,val_min=20, fr="% itération autorisée en plus"), ), - # FIN DE BLOC POUR LA SUBDIVISION DES PAS DE TEMPS + # FIN DE BLOC POUR LA SUBDIVISION DES PAS DE TEMPS ), NEWTON =FACT(statut='d', @@ -6990,8 +6996,8 @@ CALC_PRECONT=MACRO(nom="CALC_PRECONT",op=calc_precont_ops,sd_prod=evol_noli, PARALLELISME =SIMP(statut='f',typ='TXM',defaut="CENTRALISE", into=("CENTRALISE","DISTRIBUE_MC","DISTRIBUE_MD","DISTRIBUE_SD")), PARTITION =SIMP(statut='f',typ=sd_feti_sdaster), - CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,min=0,max=100), - CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,min=0), + CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,val_min=0), + CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,val_min=0), OUT_OF_CORE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")), ), @@ -7267,7 +7273,7 @@ CALC_THETA=OPER(nom="CALC_THETA",op=54,sd_prod=theta_geom,reentrant='n', FORMAT =SIMP(statut='f',typ='TXM',defaut="EXCEL",into=("EXCEL","AGRAF") ), ), ) ; -#& MODIF COMMANDE DATE 21/10/2008 AUTEUR REZETTE C.REZETTE +#& MODIF COMMANDE DATE 07/04/2009 AUTEUR ABBAS M.ABBAS # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2007 EDF R&D WWW.CODE-ASTER.ORG @@ -7300,7 +7306,8 @@ CALCUL=OPER(nom="CALCUL",op=26,sd_prod=table_container,reentrant='f', CHARGE =SIMP(statut='o',typ=(char_meca,char_cine_meca)), FONC_MULT =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)), TYPE_CHARGE =SIMP(statut='f',typ='TXM',defaut="FIXE_CSTE", - into=("FIXE_CSTE","FIXE_PILO","SUIV","DIDI")), + into=("FIXE_CSTE",)), + ), DEPL =SIMP(statut='o',typ=cham_no_sdaster ), INCR_DEPL =SIMP(statut='o',typ=cham_no_sdaster ), @@ -7417,7 +7424,7 @@ COMB_FOURIER=OPER(nom="COMB_FOURIER",op= 161,sd_prod=comb_fourier, NOM_CHAM =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max=6, into=("DEPL","REAC_NODA","SIEF_ELGA_DEPL","EPSI_ELNO_DEPL","SIGM_ELNO_DEPL","TEMP","FLUX_ELNO_TEMP"),), ) ; -#& MODIF COMMANDE DATE 21/04/2008 AUTEUR LEFEBVRE J-P.LEFEBVRE +#& MODIF COMMANDE DATE 08/12/2008 AUTEUR SELLENET N.SELLENET # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG @@ -7435,7 +7442,7 @@ COMB_FOURIER=OPER(nom="COMB_FOURIER",op= 161,sd_prod=comb_fourier, # ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, # 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. # ====================================================================== -# RESPONSABLE PELLET J.PELLET +# RESPONSABLE SELLENET N.SELLENET def comb_matr_asse_prod(COMB_R,COMB_C,CALC_AMOR_GENE,**args): if COMB_C != None: type_mat = AsType(COMB_C[0]['MATR_ASSE']) @@ -9326,7 +9333,7 @@ DEFI_GEOM_FIBRE=OPER(nom="DEFI_GEOM_FIBRE",op= 119, sd_prod=gfibre_sdaster, ) ; -#& MODIF COMMANDE DATE 20/10/2008 AUTEUR ASSIRE A.ASSIRE +#& MODIF COMMANDE DATE 20/04/2009 AUTEUR SFAYOLLE S.FAYOLLE # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2008 EDF R&D WWW.CODE-ASTER.ORG @@ -9344,22 +9351,18 @@ DEFI_GEOM_FIBRE=OPER(nom="DEFI_GEOM_FIBRE",op= 119, sd_prod=gfibre_sdaster, # ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, # 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. # ====================================================================== -# RESPONSABLE MARKOVIC D.MARKOVIC +# RESPONSABLE SFAYOLLE S.FAYOLLE DEFI_GLRC=OPER(nom="DEFI_GLRC",op=57,sd_prod=mater_sdaster,reentrant='f', - UIinfo={"groupes":("Modélisation",)}, - fr="Déterminer les caractéristiques du béton armé homogénéisées à partir des propriétés du béton et de " + UIinfo={"groupes":("Modelisation",)}, + fr="Determiner les caracteristiques du beton arme homogeneisees a partir des proprietes du beton et de " +" plusieurs types d'armature", reuse = SIMP(statut='f',typ=mater_sdaster), BETON =FACT(statut='o',max=1, MATER =SIMP(statut='o',typ=(mater_sdaster) ), EPAIS =SIMP(statut='o',typ='R',val_min=0.E+0 ), - OMT =SIMP(statut='f',typ='R',val_min=0.E+0,defaut=0.0E+0), - EAT =SIMP(statut='f',typ='R',val_min=0.E+0,defaut=0.0E+0), - BT1 =SIMP(statut='f',typ='R',val_min=0.E+0,defaut=0.0E+0), - BT2 =SIMP(statut='f',typ='R',val_min=0.E+0,defaut=0.0E+0), - GAMMA =SIMP(statut='o',typ='R',val_min=0.E+0,val_max=1.E+0), - QP1 =SIMP(statut='o',typ='R',val_min=0.E+0,val_max=1.E+0), - QP2 =SIMP(statut='o',typ='R',val_min=0.E+0,val_max=1.E+0), + GAMMA =SIMP(statut='o',typ='R',val_min=0.E+0,val_max=1.E+0), + QP1 =SIMP(statut='o',typ='R',val_min=0.E+0,val_max=1.E+0), + QP2 =SIMP(statut='o',typ='R',val_min=0.E+0,val_max=1.E+0), C1N1 =SIMP(statut='o',typ='R',val_min=0.E+0), C1N2 =SIMP(statut='o',typ='R',val_min=0.E+0), @@ -9373,36 +9376,40 @@ DEFI_GLRC=OPER(nom="DEFI_GLRC",op=57,sd_prod=mater_sdaster,reentrant='f', C2M1 =SIMP(statut='o',typ='R',val_min=0.E+0), C2M2 =SIMP(statut='o',typ='R',val_min=0.E+0), C2M3 =SIMP(statut='o',typ='R',val_min=0.E+0), - - MP1X =SIMP(statut='f',typ=('R',listr8_sdaster)), - MP2X =SIMP(statut='f',typ=('R',listr8_sdaster)), - MP1Y =SIMP(statut='f',typ=('R',listr8_sdaster)), - MP2Y =SIMP(statut='f',typ=('R',listr8_sdaster)), + + OMT =SIMP(statut='f',typ='R',val_min=0.E+0,defaut=0.0E+0), + EAT =SIMP(statut='f',typ='R',val_min=0.E+0,defaut=0.0E+0), + BT1 =SIMP(statut='f',typ='R',val_min=0.E+0,defaut=0.0E+0), + BT2 =SIMP(statut='f',typ='R',val_min=0.E+0,defaut=0.0E+0), + + MP1X =SIMP(statut='f',typ=('R',listr8_sdaster)), + MP2X =SIMP(statut='f',typ=('R',listr8_sdaster)), + MP1Y =SIMP(statut='f',typ=('R',listr8_sdaster)), + MP2Y =SIMP(statut='f',typ=('R',listr8_sdaster)), ), NAPPE =FACT(statut='o',max=10, MATER =SIMP(statut='o',typ=(mater_sdaster) ), - OMX =SIMP(statut='o',typ='R',val_min=0.E+0), - OMY =SIMP(statut='o',typ='R',val_min=0.E+0), - RX =SIMP(statut='o',typ='R',val_min=-1.E+0,val_max=1.E+0), - RY =SIMP(statut='o',typ='R',val_min=-1.E+0,val_max=1.E+0), - FS =SIMP(statut='f',typ='R',val_min=0.E+0), + OMX =SIMP(statut='o',typ='R',val_min=0.E+0), + OMY =SIMP(statut='o',typ='R',val_min=0.E+0), + RX =SIMP(statut='o',typ='R',val_min=-1.E+0,val_max=1.E+0), + RY =SIMP(statut='o',typ='R',val_min=-1.E+0,val_max=1.E+0), ), CABLE_PREC =FACT(statut='f',max=1, MATER =SIMP(statut='o',typ=(mater_sdaster) ), - OMX =SIMP(statut='o',typ='R',val_min=0.E+0), - OMY =SIMP(statut='o',typ='R',val_min=0.E+0), - RX =SIMP(statut='o',typ='R',val_min=-1.E+0,val_max=1.E+0), - RY =SIMP(statut='o',typ='R',val_min=-1.E+0,val_max=1.E+0), - PREX =SIMP(statut='o',typ='R'), - PREY =SIMP(statut='o',typ='R'), + OMX =SIMP(statut='o',typ='R',val_min=0.E+0), + OMY =SIMP(statut='o',typ='R',val_min=0.E+0), + RX =SIMP(statut='o',typ='R',val_min=-1.E+0,val_max=1.E+0), + RY =SIMP(statut='o',typ='R',val_min=-1.E+0,val_max=1.E+0), + PREX =SIMP(statut='o',typ='R'), + PREY =SIMP(statut='o',typ='R'), ), LINER =FACT(statut='f',max=10, MATER =SIMP(statut='o',typ=(mater_sdaster) ), - OML =SIMP(statut='o',typ='R',val_min=0.E+0), - RLR =SIMP(statut='o',typ='R',val_min=-1.E+0,val_max=1.E+0), + OML =SIMP(statut='o',typ='R',val_min=0.E+0), + RLR =SIMP(statut='o',typ='R',val_min=-1.E+0,val_max=1.E+0), ), IMPRESSION =FACT(statut='f', - UNITE =SIMP(statut='f',typ='I',defaut=8), + UNITE =SIMP(statut='f',typ='I',defaut=8), ), ) ; #& MODIF COMMANDE DATE 21/04/2008 AUTEUR LEFEBVRE J-P.LEFEBVRE @@ -9881,7 +9888,7 @@ DEFI_MAILLAGE=OPER(nom="DEFI_MAILLAGE",op= 88,sd_prod=maillage_sdaster, GROUP_NO_FIN =SIMP(statut='f',typ=grno), ), ) ; -#& MODIF COMMANDE DATE 20/10/2008 AUTEUR MICHEL S.MICHEL +#& MODIF COMMANDE DATE 22/12/2008 AUTEUR PROIX J-M.PROIX # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG @@ -10358,30 +10365,30 @@ DEFI_MATERIAU=OPER(nom="DEFI_MATERIAU",op=5,sd_prod=mater_sdaster, ), VISCOCHAB =FACT(statut='f', K_0 =SIMP(statut='o',typ='R'), - A_K =SIMP(statut='o',typ='R'), - A_R =SIMP(statut='o',typ='R'), + A_K =SIMP(statut='f',typ='R',defaut= 0.E+0 ), + A_R =SIMP(statut='f',typ='R',defaut= 1.E+0 ), K =SIMP(statut='o',typ='R'), N =SIMP(statut='o',typ='R'), - ALP =SIMP(statut='o',typ='R'), - B =SIMP(statut='o',typ='R'), - M_R =SIMP(statut='o',typ='R'), - G_R =SIMP(statut='o',typ='R'), - MU =SIMP(statut='o',typ='R'), + ALP =SIMP(statut='f',typ='R',defaut= 0.E+0 ), + B =SIMP(statut='f',typ='R'), + M_R =SIMP(statut='f',typ='R',defaut= 1.E+0 ), + G_R =SIMP(statut='f',typ='R',defaut= 0.E+0 ), + MU =SIMP(statut='o',typ='R',defaut= 0.E+0 ), Q_M =SIMP(statut='o',typ='R'), Q_0 =SIMP(statut='o',typ='R'), - QR_0 =SIMP(statut='o',typ='R'), - ETA =SIMP(statut='o',typ='R'), + QR_0 =SIMP(statut='f',typ='R',defaut= 0.E+0 ), + ETA =SIMP(statut='f',typ='R',defaut= 0.5E+0 ), C1 =SIMP(statut='o',typ='R'), - M_1 =SIMP(statut='o',typ='R'), - D1 =SIMP(statut='o',typ='R'), - G_X1 =SIMP(statut='o',typ='R'), + M_1 =SIMP(statut='f',typ='R',defaut= 1.E+0 ), + D1 =SIMP(statut='f',typ='R',defaut= 1.E+0 ), + G_X1 =SIMP(statut='f',typ='R',defaut= 0.E+0 ), G1_0 =SIMP(statut='o',typ='R'), C2 =SIMP(statut='o',typ='R'), - M_2 =SIMP(statut='o',typ='R'), - D2 =SIMP(statut='o',typ='R'), - G_X2 =SIMP(statut='o',typ='R'), + M_2 =SIMP(statut='f',typ='R',defaut= 1.E+0 ), + D2 =SIMP(statut='f',typ='R',defaut= 1.E+0 ), + G_X2 =SIMP(statut='f',typ='R',defaut= 0.E+0 ), G2_0 =SIMP(statut='o',typ='R'), - A_I =SIMP(statut='o',typ='R'), + A_I =SIMP(statut='f',typ='R',defaut= 1.E+0 ), ), VISCOCHAB_FO =FACT(statut='f', K_0 =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)), @@ -13553,23 +13560,23 @@ DYNA_ISS_VARI=MACRO(nom="DYNA_ISS_VARI",op=dyna_iss_vari_ops ,sd_prod=table_fonc # INFO =SIMP(statut='f',typ='I' ,defaut=1,into=( 1 , 2)), ) ; -#& MODIF COMMANDE DATE 06/10/2008 AUTEUR DEVESA G.DEVESA +#& MODIF COMMANDE DATE 24/03/2009 AUTEUR PELLET J.PELLET # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG # THIS PROGRAM IS FREE SOFTWARE; YOU CAN REDISTRIBUTE IT AND/OR MODIFY # IT UNDER THE TERMS OF THE GNU GENERAL PUBLIC LICENSE AS PUBLISHED BY -# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR -# (AT YOUR OPTION) ANY LATER VERSION. +# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR +# (AT YOUR OPTION) ANY LATER VERSION. # -# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT -# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF -# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU -# GENERAL PUBLIC LICENSE FOR MORE DETAILS. +# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT +# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF +# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU +# GENERAL PUBLIC LICENSE FOR MORE DETAILS. # -# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE -# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, -# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. +# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE +# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, +# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. # ====================================================================== # RESPONSABLE ANDRIAM H.ANDRIAMBOLOLONA def dyna_line_harm_prod(MATR_RIGI,**args): @@ -13604,7 +13611,7 @@ DYNA_LINE_HARM=OPER(nom="DYNA_LINE_HARM",op= 60,sd_prod=dyna_line_harm_prod, NOM_CHAM =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max=3,into=("DEPL","VITE","ACCE") ), b_reuse =BLOC(condition = "reuse",fr="en mode concept reentrant : RESULTAT obligatoire", RESULTAT =SIMP(statut='o',typ=(dyna_harmo,harm_gene)), - ), + ), EXCIT =FACT(statut='o',max='**', regles=(UN_PARMI('VECT_ASSE','CHARGE'), UN_PARMI('FONC_MULT','FONC_MULT_C','COEF_MULT','COEF_MULT_C'), @@ -13650,8 +13657,8 @@ DYNA_LINE_HARM=OPER(nom="DYNA_LINE_HARM",op= 60,sd_prod=dyna_line_harm_prod, PARALLELISME =SIMP(statut='f',typ='TXM',defaut="CENTRALISE", into=("CENTRALISE","DISTRIBUE_MAILLE","DISTRIBUE_SD")), PARTITION =SIMP(statut='f',typ=sd_feti_sdaster), - CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=0,min=0), - CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,min=0), + CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=0,val_min=0), + CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,val_min=0), OUT_OF_CORE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")), ), ), @@ -13684,8 +13691,8 @@ DYNA_LINE_HARM=OPER(nom="DYNA_LINE_HARM",op= 60,sd_prod=dyna_line_harm_prod, PARALLELISME =SIMP(statut='f',typ='TXM',defaut="CENTRALISE", into=("CENTRALISE","DISTRIBUE_MAILLE","DISTRIBUE_SD")), PARTITION =SIMP(statut='f',typ=sd_feti_sdaster), - CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=0,min=0), - CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,min=0), + CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=0,val_min=0), + CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,val_min=0), OUT_OF_CORE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")), ), ), @@ -13697,8 +13704,8 @@ DYNA_LINE_HARM=OPER(nom="DYNA_LINE_HARM",op= 60,sd_prod=dyna_line_harm_prod, ang="List of sensitivity parameters"), ) ; # Rajouter test icompatibilite vect_asse et sensibilite -# Peut-on aussi rajouter ici le test d incompatibilite charge complexe - derivation -# presents dans le Fortran +# Peut-on aussi rajouter ici le test d incompatibilite charge complexe - derivation +# presents dans le Fortran #& MODIF COMMANDE DATE 06/10/2008 AUTEUR DEVESA G.DEVESA # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== @@ -13878,7 +13885,7 @@ DYNA_LINE_TRAN=OPER(nom="DYNA_LINE_TRAN",op= 48,sd_prod=dyna_trans, TITRE =SIMP(statut='f',typ='TXM',max='**'), INFO =SIMP(statut='f',typ='I',into=(1,2) ), ) ; -#& MODIF COMMANDE DATE 18/11/2008 AUTEUR ABBAS M.ABBAS +#& MODIF COMMANDE DATE 21/04/2009 AUTEUR ABBAS M.ABBAS # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG @@ -13914,7 +13921,7 @@ DYNA_NON_LINE=OPER(nom="DYNA_NON_LINE",op= 70,sd_prod=evol_noli,reentrant='f', # PRESENT_ABSENT('MULT_APPUI','FONC_MULT'), ), TYPE_CHARGE =SIMP(statut='f',typ='TXM',defaut="FIXE_CSTE", - into=("FIXE_CSTE","FIXE_PILO","SUIV","DIDI")), + into=("FIXE_CSTE","SUIV","DIDI")), CHARGE =SIMP(statut='o',typ=(char_meca,char_cine_meca)), FONC_MULT =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)), DEPL =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)), @@ -13957,7 +13964,6 @@ DYNA_NON_LINE=OPER(nom="DYNA_NON_LINE",op= 70,sd_prod=evol_noli,reentrant='f', RELATION =SIMP(statut='o',typ='TXM',defaut="ELAS", into=("ELAS","ELAS_VMIS_LINE","ELAS_VMIS_TRAC","ELAS_VMIS_PUIS", "ELAS_POUTRE_GR","CABLE","ELAS_HYPER")), - ELAS =SIMP(statut='c',typ='I',defaut=1,into=(1,)), DEFORMATION =SIMP(statut='f',typ='TXM',defaut="PETIT" ,into=("PETIT","GREEN","GREEN_GR",) ), regles=(PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),), TOUT =SIMP(statut='f',typ='TXM',into=("OUI",) ), @@ -14074,22 +14080,22 @@ DYNA_NON_LINE=OPER(nom="DYNA_NON_LINE",op= 70,sd_prod=evol_noli,reentrant='f', into=("DIFF_CENT","TCHAMWA","NEWMARK","HHT","THETA_METHODE"),), b_tchamwa = BLOC(condition="SCHEMA=='TCHAMWA'", PHI =SIMP(statut='f',typ='R',defaut= 1.05),), - + b_newmark = BLOC(condition="SCHEMA=='NEWMARK'", BETA =SIMP(statut='f',typ='R',defaut= 0.25), GAMMA =SIMP(statut='f',typ='R',defaut= 0.5),), - + b_hht = BLOC(condition="SCHEMA=='HHT'", ALPHA =SIMP(statut='f',typ='R',defaut= -0.3 ), MODI_EQUI =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON"),),), - + b_theta = BLOC(condition="SCHEMA=='THETA_METHODE'", THETA =SIMP(statut='f',typ='R',defaut= 1.,val_min=0.5,val_max=1. ),), - + b_explicit= BLOC(condition="SCHEMA=='TCHAMWA'or SCHEMA=='DIFF_CENT'", STOP_CFL =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON"),), FORMULATION =SIMP(statut='o',typ='TXM',into=("ACCELERATION",),),), - + b_implicit= BLOC(condition="SCHEMA!='TCHAMWA'and SCHEMA!='DIFF_CENT'", FORMULATION =SIMP(statut='o',max=1,typ='TXM',into=("DEPLACEMENT","VITESSE","ACCELERATION"),),), ), @@ -14124,8 +14130,8 @@ DYNA_NON_LINE=OPER(nom="DYNA_NON_LINE",op= 70,sd_prod=evol_noli,reentrant='f', PARALLELISME =SIMP(statut='f',typ='TXM',defaut="CENTRALISE", into=("CENTRALISE","DISTRIBUE_MC","DISTRIBUE_MD","DISTRIBUE_SD")), PARTITION =SIMP(statut='f',typ=sd_feti_sdaster), - CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,min=0,max=100), - CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,min=0), + CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,val_min=0), + CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,val_min=0), OUT_OF_CORE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")), ), b_gcpc =BLOC(condition="METHODE == 'GCPC'",fr="Paramètres de la méthode du gradient conjugué", @@ -14141,11 +14147,11 @@ DYNA_NON_LINE=OPER(nom="DYNA_NON_LINE",op= 70,sd_prod=evol_noli,reentrant='f', b_petsc_ilu =BLOC(condition = "PRE_COND == 'LDLT_INC' ", NIVE_REMPLISSAGE = SIMP(statut='f',typ='I',defaut= 0 ), REMPLISSAGE = SIMP(statut='f',typ='R',defaut= 1.0), - ), + ), RENUM =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("SANS","RCMK") ), RESI_RELA =SIMP(statut='f',typ='R',defaut= 1.E-6), NMAX_ITER =SIMP(statut='f',typ='I',defaut= -1 ), - ), + ), SYME =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ), ), #------------------------------------------------------------------- @@ -14168,12 +14174,12 @@ DYNA_NON_LINE=OPER(nom="DYNA_NON_LINE",op= 70,sd_prod=evol_noli,reentrant='f', ITER_GLOB_ELAS =SIMP(statut='f',typ='I',defaut=25), TYPE =SIMP(statut='f',typ='TXM',defaut="PIC",into=("PIC","PLATEAU")), b_plateau =BLOC(condition = "TYPE == 'PLATEAU' ", - + PLATEAU_ITER =SIMP(statut='f',typ='I',defaut=3, val_min =2), - PLATEAU_RELA =SIMP(statut='f',typ='R',defaut=1E-3), + PLATEAU_RELA =SIMP(statut='f',typ='R',defaut=1E-3), ), ARRET =SIMP(statut='f',typ='TXM',defaut="OUI"), - + ), #------------------------------------------------------------------- OBSERVATION =FACT(statut='f',max='**', @@ -14229,7 +14235,6 @@ DYNA_NON_LINE=OPER(nom="DYNA_NON_LINE",op= 70,sd_prod=evol_noli,reentrant='f', "RESI_REFE","REFE_NOEU", "RELI_ITER","RELI_COEF", "PILO_PARA", - "LAGR_ECAR","LAGR_INCR","LAGR_ITER", "MATR_ASSE", "ITER_DEBO", "CTCD_ITER","CTCD_GEOM","CTCD_NOEU", @@ -14257,7 +14262,7 @@ DYNA_NON_LINE=OPER(nom="DYNA_NON_LINE",op= 70,sd_prod=evol_noli,reentrant='f', NUME_INIT =SIMP(statut='f',typ='I'), DETR_NUME_SUIV =SIMP(statut='f',typ='TXM',into=("OUI",)), CHAM_EXCLU =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**', - into=("DEPL","SIEF_ELGA","VARI_ELGA","ACCE","VITE","LANL_ELGA")), + into=("DEPL","SIEF_ELGA","VARI_ELGA","ACCE","VITE",)), ), #------------------------------------------------------------------- @@ -14313,7 +14318,7 @@ DYNA_SPEC_MODAL=OPER(nom="DYNA_SPEC_MODAL",op= 147,sd_prod=table_fonction, OPTION =SIMP(statut='f',typ='TXM',defaut="TOUT",into=("TOUT","DIAG") ), TITRE =SIMP(statut='f',typ='TXM',max='**'), ) ; -#& MODIF COMMANDE DATE 30/09/2008 AUTEUR REZETTE C.REZETTE +#& MODIF COMMANDE DATE 24/03/2009 AUTEUR PELLET J.PELLET # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG @@ -14552,8 +14557,8 @@ DYNA_TRAN_MODAL=OPER(nom="DYNA_TRAN_MODAL",op= 74,sd_prod=tran_gene, PARALLELISME =SIMP(statut='f',typ='TXM',defaut="CENTRALISE", into=("CENTRALISE","DISTRIBUE_MC","DISTRIBUE_MD","DISTRIBUE_SD")), PARTITION =SIMP(statut='f',typ=sd_feti_sdaster), - CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,min=0,max=100), - CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,min=0), + CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,val_min=0), + CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,val_min=0), OUT_OF_CORE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")), ), ), @@ -15655,7 +15660,7 @@ IMPR_OAR =MACRO(nom="IMPR_OAR",op= impr_oar_ops, sd_prod=None, UNITE = SIMP(statut='f',typ='I',defaut=38), AJOUT = SIMP(statut='f', typ='TXM', defaut='NON', into=('OUI', 'NON')), ); -#& MODIF COMMANDE DATE 30/09/2008 AUTEUR REZETTE C.REZETTE +#& MODIF COMMANDE DATE 12/01/2009 AUTEUR PELLET J.PELLET # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG @@ -15713,15 +15718,15 @@ IMPR_RESU=PROC(nom="IMPR_RESU",op=39, VERSION =SIMP(statut='f',typ='R',defaut=1.2,into=(1.0,1.2)), ), - RESTREINT =FACT(statut='f',fr="Réduire le maillage et les champs imprimés sur un ensemble de mailles",max=1, + + RESTREINT =FACT(statut='f', max=1, + fr="Pour réduire une ou plusieurs sd_resultat sur un ensemble de mailles", regles=(AU_MOINS_UN('GROUP_MA','MAILLE',),), GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'), MAILLE =SIMP(statut='f',typ=ma,validators=NoRepeat(),max='**'), TOUT_GROUP_MA =SIMP(statut='f',typ='TXM',defaut='NON',into=('OUI','NON'),), GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'), TOUT_GROUP_NO =SIMP(statut='f',typ='TXM',defaut='NON',into=('OUI','NON'),), - MODELE =SIMP(statut='f',typ=modele_sdaster, - fr="Nécessaire s'il y a des cham_elem dans la sd_resultat à imprimer."), ), RESU =FACT(statut='o',max='**', @@ -17501,7 +17506,7 @@ MACR_ADAP_MAIL=MACRO(nom="MACR_ADAP_MAIL",op=macr_adap_mail_ops,sd_prod=macr_ada ang="Incompatible elements for HOMARD" ), # ) ; -#& MODIF COMMANDE DATE 30/09/2008 AUTEUR REZETTE C.REZETTE +#& MODIF COMMANDE DATE 24/03/2009 AUTEUR GALENNE E.GALENNE # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG @@ -17521,12 +17526,11 @@ MACR_ADAP_MAIL=MACRO(nom="MACR_ADAP_MAIL",op=macr_adap_mail_ops,sd_prod=macr_ada # ====================================================================== # RESPONSABLE GALENNE E.GALENNE from Macro.macr_ascouf_calc_ops import macr_ascouf_calc_ops -def macr_ascouf_calc_prod(self,MODELE,CHAM_MATER,CARA_ELEM,FOND_FISS,CHARGE,RESU_THER,**args): +def macr_ascouf_calc_prod(self,MODELE,CHAM_MATER,CARA_ELEM,FOND_FISS,RESU_THER,**args): self.type_sdprod(MODELE,modele_sdaster) if CHAM_MATER != None:self.type_sdprod(CHAM_MATER,cham_mater) if CARA_ELEM != None:self.type_sdprod(CARA_ELEM,cara_elem) if FOND_FISS != None:self.type_sdprod(FOND_FISS,fond_fiss) - if CHARGE != None:self.type_sdprod(CHARGE,char_meca) if RESU_THER != None:self.type_sdprod(RESU_THER,evol_ther) return evol_noli @@ -17553,7 +17557,6 @@ MACR_ASCOUF_CALC=MACRO(nom="MACR_ASCOUF_CALC",op=macr_ascouf_calc_ops,sd_prod=ma CHAM_MATER =SIMP(statut='f',typ=CO,), CARA_ELEM =SIMP(statut='f',typ=CO,), FOND_FISS =SIMP(statut='f',typ=CO,), - CHARGE =SIMP(statut='f',typ=CO,), RESU_THER =SIMP(statut='f',typ=CO,), AFFE_MATERIAU =FACT(statut='o',max=3, @@ -17618,8 +17621,8 @@ MACR_ASCOUF_CALC=MACRO(nom="MACR_ASCOUF_CALC",op=macr_ascouf_calc_ops,sd_prod=ma PARALLELISME =SIMP(statut='f',typ='TXM',defaut="CENTRALISE", into=("CENTRALISE","DISTRIBUE_MC","DISTRIBUE_MD","DISTRIBUE_SD")), PARTITION =SIMP(statut='f',typ=sd_feti_sdaster), - CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,min=0,max=100), - CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,min=0), + CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,val_min=0,), + CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,val_min=0), OUT_OF_CORE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")), ), @@ -17915,7 +17918,7 @@ MACR_ASCOUF_MAIL=MACRO(nom="MACR_ASCOUF_MAIL",op=macr_ascouf_mail_ops,sd_prod=ma INFO =SIMP(statut='f',typ='I',defaut= 1,into=(1,2) ), ) ; -#& MODIF COMMANDE DATE 30/09/2008 AUTEUR REZETTE C.REZETTE +#& MODIF COMMANDE DATE 24/03/2009 AUTEUR GALENNE E.GALENNE # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG @@ -17936,13 +17939,12 @@ MACR_ASCOUF_MAIL=MACRO(nom="MACR_ASCOUF_MAIL",op=macr_ascouf_mail_ops,sd_prod=ma # RESPONSABLE GALENNE E.GALENNE from Macro.macr_aspic_calc_ops import macr_aspic_calc_ops -def macr_aspic_calc_prod(self,MODELE,CHAM_MATER,CARA_ELEM,FOND_FISS_1,FOND_FISS_2,CHARGE,RESU_THER,**args): +def macr_aspic_calc_prod(self,MODELE,CHAM_MATER,CARA_ELEM,FOND_FISS_1,FOND_FISS_2,RESU_THER,**args): if MODELE != None:self.type_sdprod(MODELE,modele_sdaster) if CHAM_MATER != None:self.type_sdprod(CHAM_MATER,cham_mater) if CARA_ELEM != None:self.type_sdprod(CARA_ELEM,cara_elem) if FOND_FISS_1 != None:self.type_sdprod(FOND_FISS_1,fond_fiss) if FOND_FISS_2 != None:self.type_sdprod(FOND_FISS_2,fond_fiss) - if CHARGE != None:self.type_sdprod(CHARGE,char_meca) if RESU_THER != None:self.type_sdprod(RESU_THER,evol_ther) return evol_noli @@ -17964,7 +17966,6 @@ MACR_ASPIC_CALC=MACRO(nom="MACR_ASPIC_CALC",op=macr_aspic_calc_ops,sd_prod=macr_ CARA_ELEM =SIMP(statut='f',typ=CO,), FOND_FISS_1 =SIMP(statut='f',typ=CO,), FOND_FISS_2 =SIMP(statut='f',typ=CO,), - CHARGE =SIMP(statut='f',typ=CO,), RESU_THER =SIMP(statut='f',typ=CO,), AFFE_MATERIAU =FACT(statut='o',max=3, @@ -18059,8 +18060,8 @@ MACR_ASPIC_CALC=MACRO(nom="MACR_ASPIC_CALC",op=macr_aspic_calc_ops,sd_prod=macr_ PARALLELISME =SIMP(statut='f',typ='TXM',defaut="CENTRALISE", into=("CENTRALISE","DISTRIBUE_MC","DISTRIBUE_MD","DISTRIBUE_SD")), PARTITION =SIMP(statut='f',typ=sd_feti_sdaster), - CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,min=0,max=100), - CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,min=0), + CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,val_min=0,), + CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,val_min=0), OUT_OF_CORE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")), ), @@ -19366,23 +19367,23 @@ MACRO_EXPANS=MACRO(nom="MACRO_EXPANS", ), ), ) -#& MODIF COMMANDE DATE 30/09/2008 AUTEUR REZETTE C.REZETTE +#& MODIF COMMANDE DATE 24/03/2009 AUTEUR PELLET J.PELLET # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG # THIS PROGRAM IS FREE SOFTWARE; YOU CAN REDISTRIBUTE IT AND/OR MODIFY # IT UNDER THE TERMS OF THE GNU GENERAL PUBLIC LICENSE AS PUBLISHED BY -# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR -# (AT YOUR OPTION) ANY LATER VERSION. +# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR +# (AT YOUR OPTION) ANY LATER VERSION. # -# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT -# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF -# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU -# GENERAL PUBLIC LICENSE FOR MORE DETAILS. +# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT +# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF +# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU +# GENERAL PUBLIC LICENSE FOR MORE DETAILS. # -# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE -# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, -# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. +# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE +# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, +# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. # ====================================================================== # RESPONSABLE GREFFET N.GREFFET @@ -19478,8 +19479,8 @@ MACRO_MATR_AJOU=MACRO(nom="MACRO_MATR_AJOU",op=macro_matr_ajou_ops,sd_prod=macro PARALLELISME =SIMP(statut='f',typ='TXM',defaut="CENTRALISE", into=("CENTRALISE","DISTRIBUE_MC","DISTRIBUE_MD","DISTRIBUE_SD")), PARTITION =SIMP(statut='f',typ=sd_feti_sdaster), - CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,min=0,max=100), - CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,min=0), + CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,val_min=0), + CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,val_min=0), OUT_OF_CORE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")), ), @@ -19992,7 +19993,7 @@ MAJ_CATA=PROC(nom="MAJ_CATA",op=20, ELEMENT =FACT(statut='f',), ) ; -#& MODIF COMMANDE DATE 30/09/2008 AUTEUR REZETTE C.REZETTE +#& MODIF COMMANDE DATE 24/03/2009 AUTEUR PELLET J.PELLET # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG @@ -20094,8 +20095,8 @@ MECA_STATIQUE=OPER(nom="MECA_STATIQUE",op=46,sd_prod=evol_elas, PARALLELISME =SIMP(statut='f',typ='TXM',defaut="CENTRALISE", into=("CENTRALISE","DISTRIBUE_MC","DISTRIBUE_MD","DISTRIBUE_SD")), PARTITION =SIMP(statut='f',typ=sd_feti_sdaster), - CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,min=0,max=100), - CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,min=0), + CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,val_min=0), + CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,val_min=0), OUT_OF_CORE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")), ), @@ -20170,7 +20171,7 @@ MODE_ITER_CYCL=OPER(nom="MODE_ITER_CYCL",op= 80,sd_prod=mode_cycl, ), INFO =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ), ) ; -#& MODIF COMMANDE DATE 05/05/2008 AUTEUR NISTOR I.NISTOR +#& MODIF COMMANDE DATE 06/05/2009 AUTEUR MACOCCO K.MACOCCO # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG @@ -20188,7 +20189,7 @@ MODE_ITER_CYCL=OPER(nom="MODE_ITER_CYCL",op= 80,sd_prod=mode_cycl, # ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, # 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. # ====================================================================== -# RESPONSABLE NISTOR I.NISTOR +# RESPONSABLE O.BOITEAU def mode_iter_inv_prod(MATR_A,MATR_C,TYPE_RESU,**args ): if TYPE_RESU == "MODE_FLAMB" : return mode_flamb @@ -20267,7 +20268,7 @@ MODE_ITER_INV=OPER(nom="MODE_ITER_INV",op= 44,sd_prod=mode_iter_inv_prod INFO =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ), TITRE =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'), ) ; -#& MODIF COMMANDE DATE 05/05/2008 AUTEUR NISTOR I.NISTOR +#& MODIF COMMANDE DATE 06/05/2009 AUTEUR MACOCCO K.MACOCCO # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG @@ -20285,7 +20286,7 @@ MODE_ITER_INV=OPER(nom="MODE_ITER_INV",op= 44,sd_prod=mode_iter_inv_prod # ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, # 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. # ====================================================================== -# RESPONSABLE NISTOR I.NISTOR +# RESPONSABLE O.BOITEAU def mode_iter_simult_prod(MATR_A,MATR_C,TYPE_RESU,**args ): if TYPE_RESU == "MODE_FLAMB" : return mode_flamb @@ -20417,7 +20418,7 @@ MODE_ITER_SIMULT=OPER(nom="MODE_ITER_SIMULT",op= 45,sd_prod=mode_iter_simult_pr INFO =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ), TITRE =SIMP(statut='f',typ='TXM',max='**'), ) ; -#& MODIF COMMANDE DATE 30/09/2008 AUTEUR REZETTE C.REZETTE +#& MODIF COMMANDE DATE 24/03/2009 AUTEUR PELLET J.PELLET # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG @@ -20514,8 +20515,8 @@ MODE_STATIQUE=OPER(nom="MODE_STATIQUE",op= 93,sd_prod=mode_stat_prod, PARALLELISME =SIMP(statut='f',typ='TXM',defaut="CENTRALISE", into=("CENTRALISE","DISTRIBUE_MC","DISTRIBUE_MD","DISTRIBUE_SD")), PARTITION =SIMP(statut='f',typ=sd_feti_sdaster), - CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,min=0,max=100), - CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,min=0), + CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,val_min=0), + CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,val_min=0), OUT_OF_CORE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")), ), @@ -20738,7 +20739,7 @@ MODI_MAILLAGE=OPER(nom="MODI_MAILLAGE",op= 154,sd_prod=maillage_sdaster, ), INFO =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ), ) ; -#& MODIF COMMANDE DATE 21/04/2008 AUTEUR GENIAUT S.GENIAUT +#& MODIF COMMANDE DATE 20/04/2009 AUTEUR GENIAUT S.GENIAUT # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2004 EDF R&D WWW.CODE-ASTER.ORG @@ -20764,7 +20765,7 @@ MODI_MODELE_XFEM=OPER(nom="MODI_MODELE_XFEM",op= 113,sd_prod=modele_sdaster,docu MODELE_IN =SIMP(statut='o',typ=modele_sdaster,min=1,max=1,), FISSURE =SIMP(statut='o',typ=fiss_xfem,min=1,max='**',), - CRITERE =SIMP(statut='f',typ='R',defaut=1.67E-8), + CRITERE =SIMP(statut='f',typ='R',defaut=1.1E-4), INFO =SIMP(statut='f',typ='I',defaut= 1,into=(1,2,)), CONTACT =SIMP(statut='f',typ='TXM',defaut='NON',into=("OUI","NON"),min=1,max=1,), ) ; @@ -22251,7 +22252,7 @@ POST_MAIL_XFEM=OPER(nom="POST_MAIL_XFEM",op= 187,sd_prod=maillage_sdaster, INFO =SIMP(statut='f',typ='I',defaut= 1,into=(1,2,) ), ); -#& MODIF COMMANDE DATE 03/11/2008 AUTEUR MACOCCO K.MACOCCO +#& MODIF COMMANDE DATE 24/03/2009 AUTEUR GALENNE E.GALENNE # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG @@ -22408,7 +22409,6 @@ POST_RCCM=OPER(nom="POST_RCCM",op= 165,sd_prod=table_sdaster, NOM_SITU =SIMP(statut='f',typ='TXM',fr="nom de la situation" ), NUME_GROUPE =SIMP(statut='o',typ='I',fr="numéros du groupe de la situation" ), CHAR_ETAT =SIMP(statut='o',typ='I',max='**',fr="numeros de chargements etat A" ), - NUME_RESU_THER =SIMP(statut='f',typ='I',max='**',fr="numeros de transitoires thermiques" ), ), SITUATION =FACT(statut='o',max='**',fr="Situation",ang="situation_ang", NB_OCCUR =SIMP(statut='o',typ='I',fr="nombre d'occurences de la situation" ), @@ -22508,7 +22508,6 @@ POST_RCCM=OPER(nom="POST_RCCM",op= 165,sd_prod=table_sdaster, NOM_SITU =SIMP(statut='f',typ='TXM',fr="nom de la situation" ), NUME_GROUPE =SIMP(statut='o',typ='I',fr="numéros du groupe de la situation" ), CHAR_ETAT =SIMP(statut='o',typ='I',max='**',fr="numeros de chargements etat A" ), - NUME_RESU_THER =SIMP(statut='f',typ='I',max='**',fr="numeros de transitoires thermiques" ), TEMP_REF =SIMP(statut='f',typ='R',fr="temperature référence"), ), SITUATION =FACT(statut='o',max='**',fr="Situation",ang="situation_ang", @@ -23051,7 +23050,7 @@ PROD_MATR_CHAM=OPER(nom="PROD_MATR_CHAM",op= 156,sd_prod=cham_no_sdaster, CHAM_NO =SIMP(statut='o',typ=cham_no_sdaster), TITRE =SIMP(statut='f',typ='TXM',max='**'), ) ; -#& MODIF COMMANDE DATE 21/04/2008 AUTEUR LEFEBVRE J-P.LEFEBVRE +#& MODIF COMMANDE DATE 06/04/2009 AUTEUR PELLET J.PELLET # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG @@ -23129,6 +23128,14 @@ PROJ_CHAMP=OPER(nom="PROJ_CHAMP",op= 166,sd_prod=proj_champ_prod,reentrant='f', NUME_MODE =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**' ), NOEUD_CMP =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'), + b_acce_reel =BLOC(condition="(FREQ != None)or(LIST_FREQ != None)or(INST != None)or(LIST_INST != None)", + CRITERE =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU",),), + b_prec_rela=BLOC(condition="(CRITERE=='RELATIF')", + PRECISION =SIMP(statut='f',typ='R',defaut= 1.E-6,),), + b_prec_abso=BLOC(condition="(CRITERE=='ABSOLU')", + PRECISION =SIMP(statut='o',typ='R',),), + ), + CAS_FIGURE =SIMP(statut='f',typ='TXM',into=("2D","3D","2.5D","1.5D",), fr="Pour indiquer au programme le type de projection souhaité"), @@ -23345,7 +23352,7 @@ PROJ_VECT_BASE=OPER(nom="PROJ_VECT_BASE",op= 72,sd_prod=vect_asse_gene, VECT_ASSE =SIMP(statut='f',typ=cham_no_sdaster), VECT_ASSE_GENE =SIMP(statut='f',typ=vect_asse_gene ), ) ; -#& MODIF COMMANDE DATE 20/10/2008 AUTEUR GALENNE E.GALENNE +#& MODIF COMMANDE DATE 24/03/2009 AUTEUR MESSIER J.MESSIER # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2008 EDF R&D WWW.CODE-ASTER.ORG @@ -23390,7 +23397,7 @@ PROPA_FISS=MACRO(nom="PROPA_FISS",op=propa_fiss_ops,sd_prod=propa_fiss_prod, b_hamilton =BLOC(condition="(METHODE_PROPA=='HAMILTON')", MODELE =SIMP(statut='o',typ=modele_sdaster), RAYON =SIMP(statut='o',typ='R',), - METHODE =SIMP(statut='f',typ='TXM',into=("SIMPLEXE","UPWIND",),defaut="SIMPLEXE"), + METHODE =SIMP(statut='f',typ='TXM',into=("SIMPLEXE",),defaut="SIMPLEXE"), FISSURE = SIMP(statut='o',typ=CO), TABLE = SIMP(statut='o',typ=table_sdaster), ), @@ -23863,7 +23870,7 @@ RESOUDRE=OPER(nom="RESOUDRE",op=15,sd_prod=cham_no_sdaster,reentrant='f', TITRE =SIMP(statut='f',typ='TXM',max='**'), INFO =SIMP(statut='f',typ='I',into=(1,2) ), ) ; -#& MODIF COMMANDE DATE 21/10/2008 AUTEUR NISTOR I.NISTOR +#& MODIF COMMANDE DATE 06/04/2009 AUTEUR DEVESA G.DEVESA # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2008 EDF R&D WWW.CODE-ASTER.ORG @@ -23897,13 +23904,11 @@ REST_COND_TRAN=OPER(nom="REST_COND_TRAN",op= 78,sd_prod=rest_cond_tran_prod, reentrant='n', UIinfo={"groupes":("Matrices/vecteurs",)}, regles=( - EXCLUS('TOUT_ORDRE','NUME_ORDRE','INST','LIST_INST','TOUT_INST'), - EXCLUS('NOEUD','GROUP_NO'), - EXCLUS('MAILLE','GROUP_MA'), + EXCLUS('TOUT_ORDRE','NUME_ORDRE','INST','LIST_INST','TOUT_INST'), EXCLUS('MACR_ELEM_DYNA','BASE_MODALE'),), RESULTAT =SIMP(statut='f',typ=(evol_noli,dyna_trans) ), BASE_MODALE =SIMP(statut='f',typ=(base_modale,mode_meca) ), - NUME_DDL =SIMP(statut='f',typ=nume_ddl_sdaster ), +# NUME_DDL =SIMP(statut='f',typ=nume_ddl_sdaster ), MACR_ELEM_DYNA =SIMP(statut='f',typ=macr_elem_dyna), TOUT_INST =SIMP(statut='f',typ='TXM',into=("OUI",) ), INST =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**' ), @@ -23916,17 +23921,13 @@ REST_COND_TRAN=OPER(nom="REST_COND_TRAN",op= 78,sd_prod=rest_cond_tran_prod, b_prec_abso=BLOC(condition="(CRITERE=='ABSOLU')", PRECISION =SIMP(statut='o',typ='R',),), INTERPOL =SIMP(statut='f',typ='TXM',defaut="NON",into=("NON","LIN") ), - NOM_CHAM =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max=8,defaut="ACCE", - into=("DEPL","VITE","ACCE","ACCE_ABSOLU","EFGE_ELNO_DEPL","SIPO_ELNO_DEPL", - "SIGM_ELNO_DEPL","FORC_NODA",) ), TOUT_CHAM =SIMP(statut='f',typ='TXM',into=("OUI",) ), - GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'), - NOEUD =SIMP(statut='f',typ=no ,validators=NoRepeat(),max='**'), - GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'), - MAILLE =SIMP(statut='f',typ=ma ,validators=NoRepeat(),max='**'), + b_nom_cham=BLOC(condition="TOUT_CHAM == None", + NOM_CHAM =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max=3,defaut="ACCE", + into=("DEPL","VITE","ACCE",) ),), TITRE =SIMP(statut='f',typ='TXM',max='**' ), ) ; -#& MODIF COMMANDE DATE 21/10/2008 AUTEUR NISTOR I.NISTOR +#& MODIF COMMANDE DATE 26/01/2009 AUTEUR BRIE N.BRIE # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2008 EDF R&D WWW.CODE-ASTER.ORG @@ -23959,9 +23960,9 @@ REST_GENE_PHYS=OPER(nom="REST_GENE_PHYS",op= 75,sd_prod=rest_gene_phys_prod, reentrant='n', UIinfo={"groupes":("Matrices/vecteurs",)}, regles=( - EXCLUS('INST','LIST_INST','TOUT_INST'), - EXCLUS('TOUT_ORDRE','NUME_ORDRE','NUME_MODE'), - EXCLUS('FREQ','LIST_FREQ'), + EXCLUS('INST','LIST_INST','TOUT_INST', + 'TOUT_ORDRE','NUME_ORDRE','NUME_MODE',), + EXCLUS('FREQ','LIST_FREQ'), EXCLUS('MULT_APPUI','CORR_STAT'), EXCLUS('MULT_APPUI','NOEUD','GROUP_NO'), EXCLUS('CORR_STAT','NOEUD','GROUP_NO'), @@ -23970,14 +23971,14 @@ REST_GENE_PHYS=OPER(nom="REST_GENE_PHYS",op= 75,sd_prod=rest_gene_phys_prod, PRESENT_PRESENT('ACCE_MONO_APPUI','DIRECTION'),), RESU_GENE =SIMP(statut='f',typ=(tran_gene,mode_gene,harm_gene) ), MODE_MECA =SIMP(statut='f',typ=mode_meca ), - BASE_MODALE =SIMP(statut='f',typ=(base_modale,mode_meca) ), +# BASE_MODALE =SIMP(statut='f',typ=(base_modale,mode_meca) ), NUME_DDL =SIMP(statut='f',typ=nume_ddl_sdaster ), TOUT_INST =SIMP(statut='f',typ='TXM',into=("OUI",) ), INST =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**' ), LIST_INST =SIMP(statut='f',typ=listr8_sdaster ), TOUT_ORDRE =SIMP(statut='f',typ='TXM',into=("OUI",) ), NUME_ORDRE =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**' ), - NUME_MODE =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**' ), + NUME_MODE =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**' ), FREQ =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**' ), LIST_FREQ =SIMP(statut='f',typ=listr8_sdaster ), CRITERE =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("ABSOLU","RELATIF") ), @@ -23988,10 +23989,11 @@ REST_GENE_PHYS=OPER(nom="REST_GENE_PHYS",op= 75,sd_prod=rest_gene_phys_prod, INTERPOL =SIMP(statut='f',typ='TXM',defaut="NON",into=("NON","LIN") ), MULT_APPUI =SIMP(statut='f',typ='TXM',into=("OUI",) ), CORR_STAT =SIMP(statut='f',typ='TXM',into=("OUI",) ), - NOM_CHAM =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max=8,defaut="ACCE", - into=("DEPL","VITE","ACCE","ACCE_ABSOLU","EFGE_ELNO_DEPL","SIPO_ELNO_DEPL", - "SIGM_ELNO_DEPL","FORC_NODA",) ), TOUT_CHAM =SIMP(statut='f',typ='TXM',into=("OUI",) ), + b_nom_cham=BLOC(condition="TOUT_CHAM == None", + NOM_CHAM =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max=8,defaut="ACCE", + into=("DEPL","VITE","ACCE","ACCE_ABSOLU","EFGE_ELNO_DEPL","SIPO_ELNO_DEPL", + "SIGM_ELNO_DEPL","FORC_NODA",) ),), GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'), NOEUD =SIMP(statut='f',typ=no ,validators=NoRepeat(),max='**'), GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'), @@ -24000,7 +24002,7 @@ REST_GENE_PHYS=OPER(nom="REST_GENE_PHYS",op= 75,sd_prod=rest_gene_phys_prod, DIRECTION =SIMP(statut='f',typ='R',min=3,max=3 ), TITRE =SIMP(statut='f',typ='TXM',max='**' ), ) ; -#& MODIF COMMANDE DATE 21/10/2008 AUTEUR NISTOR I.NISTOR +#& MODIF COMMANDE DATE 26/01/2009 AUTEUR BRIE N.BRIE # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2008 EDF R&D WWW.CODE-ASTER.ORG @@ -24036,23 +24038,26 @@ REST_SOUS_STRUC=OPER(nom="REST_SOUS_STRUC",op= 77,sd_prod=rest_sous_struc_prod, reentrant='n', UIinfo={"groupes":("Matrices/vecteurs",)}, regles=(UN_PARMI('RESU_GENE','RESULTAT'), - EXCLUS('TOUT_ORDRE','NUME_ORDRE','INST','LIST_INST','TOUT_INST'), - EXCLUS('TOUT_INST','NUME_ORDRE','INST','LIST_INST','TOUT_ORDRE'), +# ajout d'une regle de Ionel et Nicolas: +# UN_PARMI('NOM_CHAM','TOUT_CHAM'), +# + EXCLUS('TOUT_ORDRE','NUME_ORDRE','INST','LIST_INST','TOUT_INST','NUME_MODE', + 'FREQ', 'LIST_FREQ'), # Doc U à revoir - EXCLUS('NOEUD','GROUP_NO'), - EXCLUS('MAILLE','GROUP_MA'), - PRESENT_PRESENT('RESULTAT','SQUELETTE'), + EXCLUS('NOEUD','GROUP_NO'), + EXCLUS('MAILLE','GROUP_MA'), + PRESENT_PRESENT('RESULTAT','SQUELETTE'), ), RESULTAT =SIMP(statut='f',typ=(evol_noli,dyna_trans, mode_meca,base_modale) ), RESU_GENE =SIMP(statut='f',typ=(tran_gene,mode_gene,mode_cycl,harm_gene) ), - BASE_MODALE =SIMP(statut='f',typ=(base_modale,mode_meca) ), +# BASE_MODALE =SIMP(statut='f',typ=(base_modale,mode_meca) ), NUME_DDL =SIMP(statut='f',typ=nume_ddl_sdaster ), MODE_MECA =SIMP(statut='f',typ=mode_meca ), TOUT_ORDRE =SIMP(statut='f',typ='TXM',into=("OUI",) ), NUME_ORDRE =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**' ), - NUME_MODE =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**' ), + NUME_MODE =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**' ), TOUT_INST =SIMP(statut='f',typ='TXM',into=("OUI",) ), INST =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**' ), LIST_INST =SIMP(statut='f',typ=listr8_sdaster ), @@ -24064,10 +24069,11 @@ REST_SOUS_STRUC=OPER(nom="REST_SOUS_STRUC",op= 77,sd_prod=rest_sous_struc_prod, b_prec_abso=BLOC(condition="(CRITERE=='ABSOLU')", PRECISION =SIMP(statut='o',typ='R',),), INTERPOL =SIMP(statut='f',typ='TXM',defaut="NON",into=("NON","LIN") ), - NOM_CHAM =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max=8,defaut="ACCE", - into=("DEPL","VITE","ACCE","ACCE_ABSOLU","EFGE_ELNO_DEPL","SIPO_ELNO_DEPL", - "SIGM_ELNO_DEPL","FORC_NODA",) ), TOUT_CHAM =SIMP(statut='f',typ='TXM',into=("OUI",) ), + b_nom_cham=BLOC(condition="TOUT_CHAM == None", + NOM_CHAM =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max=8,defaut="ACCE", + into=("DEPL","VITE","ACCE","ACCE_ABSOLU","EFGE_ELNO_DEPL","SIPO_ELNO_DEPL", + "SIGM_ELNO_DEPL","FORC_NODA",) ),), GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'), NOEUD =SIMP(statut='f',typ=no ,validators=NoRepeat(),max='**'), GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'), @@ -24412,7 +24418,7 @@ STANLEY=MACRO(nom="STANLEY",op=stanley_ops,sd_prod=None, fr="Unité logique définissant le fichier (fort.N) dans lequel on écrit les md5"), ) ; -#& MODIF COMMANDE DATE 18/11/2008 AUTEUR ABBAS M.ABBAS +#& MODIF COMMANDE DATE 07/04/2009 AUTEUR ABBAS M.ABBAS # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG @@ -24465,7 +24471,7 @@ STAT_NON_LINE=OPER(nom="STAT_NON_LINE",op=70,sd_prod=evol_noli, RELATION =SIMP(statut='o',typ='TXM',defaut="ELAS", into=("ELAS","ELAS_VMIS_LINE","ELAS_VMIS_TRAC","ELAS_VMIS_PUIS", "ELAS_POUTRE_GR","CABLE","ELAS_HYPER")), - + DEFORMATION =SIMP(statut='f',typ='TXM',defaut="PETIT" ,into=("PETIT","GREEN","GREEN_GR",) ), regles=(PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),), TOUT =SIMP(statut='f',typ='TXM',into=("OUI",) ), @@ -24585,7 +24591,7 @@ STAT_NON_LINE=OPER(nom="STAT_NON_LINE",op=70,sd_prod=evol_noli, ), PILOTAGE =FACT(statut='f', regles=(EXCLUS('NOEUD','GROUP_NO'),PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),), - TYPE =SIMP(statut='o',typ='TXM',into=("DDL_IMPO","LONG_ARC","PRED_ELAS","PRED_ELAS_INCR","DEFORMATION","ANA_LIM") ), + TYPE =SIMP(statut='o',typ='TXM',into=("DDL_IMPO","LONG_ARC","PRED_ELAS","DEFORMATION","ANA_LIM") ), COEF_MULT =SIMP(statut='f',typ='R',defaut= 1.0E+0), ETA_PILO_MAX =SIMP(statut='f',typ='R'), ETA_PILO_MIN =SIMP(statut='f',typ='R'), @@ -24622,12 +24628,12 @@ STAT_NON_LINE=OPER(nom="STAT_NON_LINE",op=70,sd_prod=evol_noli, ITER_GLOB_ELAS =SIMP(statut='f',typ='I',defaut=25), TYPE =SIMP(statut='f',typ='TXM',defaut="PIC",into=("PIC","PLATEAU")), b_plateau =BLOC(condition = "TYPE == 'PLATEAU' ", - + PLATEAU_ITER =SIMP(statut='f',typ='I',defaut=3, val_min =2), - PLATEAU_RELA =SIMP(statut='f',typ='R',defaut=1E-3), - ), - - + PLATEAU_RELA =SIMP(statut='f',typ='R',defaut=1E-3), + ), + + ARRET =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")), ), SOLVEUR =FACT(statut='d', @@ -24660,8 +24666,8 @@ STAT_NON_LINE=OPER(nom="STAT_NON_LINE",op=70,sd_prod=evol_noli, PARALLELISME =SIMP(statut='f',typ='TXM',defaut="CENTRALISE", into=("CENTRALISE","DISTRIBUE_MC","DISTRIBUE_MD","DISTRIBUE_SD")), PARTITION =SIMP(statut='f',typ=sd_feti_sdaster), - CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,min=0,max=100), - CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,min=0), + CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,val_min=0), + CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,val_min=0), OUT_OF_CORE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")), ), b_feti =BLOC(condition = "METHODE == 'FETI' ",fr="Paramètres de la méthode FETI 1", @@ -24691,9 +24697,9 @@ STAT_NON_LINE=OPER(nom="STAT_NON_LINE",op=70,sd_prod=evol_noli, ), RENUM =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("SANS","RCMK") ), RESI_RELA =SIMP(statut='f',typ='R',defaut= 1.E-6), NMAX_ITER =SIMP(statut='f',typ='I',defaut= -1 ), - ), - - + ), + + SYME =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ), ), ARCHIVAGE =FACT(statut='f', @@ -24707,7 +24713,7 @@ STAT_NON_LINE=OPER(nom="STAT_NON_LINE",op=70,sd_prod=evol_noli, NUME_INIT =SIMP(statut='f',typ='I'), DETR_NUME_SUIV =SIMP(statut='f',typ='TXM',into=("OUI",)), CHAM_EXCLU =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**', - into=("DEPL","SIEF_ELGA","VARI_ELGA","LANL_ELGA")), + into=("DEPL","SIEF_ELGA","VARI_ELGA")), ), OBSERVATION =FACT(statut='f',max='**', NOM_CMP =SIMP(statut='o',typ='TXM',max='**' ), @@ -24762,7 +24768,6 @@ STAT_NON_LINE=OPER(nom="STAT_NON_LINE",op=70,sd_prod=evol_noli, "RESI_REFE","REFE_NOEU", "RELI_ITER","RELI_COEF", "PILO_PARA", - "LAGR_ECAR","LAGR_INCR","LAGR_ITER", "MATR_ASSE", "ITER_DEBO", "CTCD_ITER","CTCD_GEOM","CTCD_NOEU", @@ -24840,23 +24845,23 @@ TEST_FICHIER=MACRO(nom="TEST_FICHIER", op=test_fichier_ops, INFO =SIMP(statut='f',typ='I',defaut=1,into=(1,2) ), ) -#& MODIF COMMANDE DATE 21/04/2008 AUTEUR LEFEBVRE J-P.LEFEBVRE +#& MODIF COMMANDE DATE 26/01/2009 AUTEUR PELLET J.PELLET # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG # THIS PROGRAM IS FREE SOFTWARE; YOU CAN REDISTRIBUTE IT AND/OR MODIFY # IT UNDER THE TERMS OF THE GNU GENERAL PUBLIC LICENSE AS PUBLISHED BY -# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR -# (AT YOUR OPTION) ANY LATER VERSION. +# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR +# (AT YOUR OPTION) ANY LATER VERSION. # -# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT -# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF -# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU -# GENERAL PUBLIC LICENSE FOR MORE DETAILS. +# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT +# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF +# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU +# GENERAL PUBLIC LICENSE FOR MORE DETAILS. # -# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE -# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, -# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. +# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE +# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, +# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. # ====================================================================== # RESPONSABLE COURTOIS M.COURTOIS TEST_FONCTION=PROC(nom="TEST_FONCTION",op= 135, @@ -24872,7 +24877,7 @@ TEST_FONCTION=PROC(nom="TEST_FONCTION",op= 135, fr="Paramètre de sensibilité.", ang="Sensitivity parameter"), NOM_PARA =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max=2), - VALE_PARA =SIMP(statut='o',typ='R' ,validators=NoRepeat(),max=2), + VALE_PARA =SIMP(statut='o',typ='R' ,max=2), VALE_REFE =SIMP(statut='f',typ='R',max='**' ), VALE_REFE_C =SIMP(statut='f',typ='C',max='**' ), VALE_ABS =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ), @@ -24882,7 +24887,7 @@ TEST_FONCTION=PROC(nom="TEST_FONCTION",op= 135, defaut= 1.E-3 ), REFERENCE =SIMP(statut='f',typ='TXM', into=("ANALYTIQUE","SOURCE_EXTERNE","NON_REGRESSION","AUTRE_ASTER") ), - b_version = BLOC (condition = "REFERENCE == 'NON_REGRESSION'", + b_version = BLOC (condition = "REFERENCE == 'NON_REGRESSION'", VERSION =SIMP(statut='f',typ='TXM' ), ), ), @@ -24898,7 +24903,7 @@ TEST_FONCTION=PROC(nom="TEST_FONCTION",op= 135, ATTR_REFE =SIMP(statut='o',typ='TXM' ), REFERENCE =SIMP(statut='f',typ='TXM', into=("ANALYTIQUE","SOURCE_EXTERNE","NON_REGRESSION","AUTRE_ASTER") ), - b_version =BLOC(condition = "REFERENCE == 'NON_REGRESSION'", + b_version =BLOC(condition = "REFERENCE == 'NON_REGRESSION'", VERSION =SIMP(statut='f',typ='TXM' ), ), ), @@ -24908,10 +24913,10 @@ TEST_FONCTION=PROC(nom="TEST_FONCTION",op= 135, INTE_SPEC =SIMP(statut='o',typ=table_fonction), NOEUD_I =SIMP(statut='f',typ=no), NUME_ORDRE_I =SIMP(statut='f',typ='I' ), - b_nume_ordre_i = BLOC (condition = "NUME_ORDRE_I != None", + b_nume_ordre_i = BLOC (condition = "NUME_ORDRE_I != None", NUME_ORDRE_J =SIMP(statut='o',typ='I' ), ), - b_noeud_i = BLOC (condition = "NOEUD_I != None", + b_noeud_i = BLOC (condition = "NOEUD_I != None", NOEUD_J =SIMP(statut='o',typ=no), NOM_CMP_I =SIMP(statut='o',typ='TXM' ), NOM_CMP_J =SIMP(statut='o',typ='TXM' ), @@ -24925,7 +24930,7 @@ TEST_FONCTION=PROC(nom="TEST_FONCTION",op= 135, defaut= 1.E-3 ), REFERENCE =SIMP(statut='f',typ='TXM', into=("ANALYTIQUE","SOURCE_EXTERNE","NON_REGRESSION","AUTRE_ASTER") ), - b_version =BLOC(condition = "REFERENCE == 'NON_REGRESSION'", + b_version =BLOC(condition = "REFERENCE == 'NON_REGRESSION'", VERSION =SIMP(statut='f',typ='TXM' ), ), ), @@ -25206,7 +25211,7 @@ TEST_TEMPS=MACRO(nom="TEST_TEMPS",op=test_temps_ops, sd_prod=None, INFO = SIMP(statut='f',typ='I',defaut=1,into=(1,2) ), ) -#& MODIF COMMANDE DATE 30/09/2008 AUTEUR REZETTE C.REZETTE +#& MODIF COMMANDE DATE 24/03/2009 AUTEUR PELLET J.PELLET # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG @@ -25301,9 +25306,9 @@ THER_LINEAIRE=OPER(nom="THER_LINEAIRE",op=25,sd_prod=evol_ther,reentrant='f', PARALLELISME =SIMP(statut='f',typ='TXM',defaut="CENTRALISE", into=("CENTRALISE","DISTRIBUE_MC","DISTRIBUE_MD","DISTRIBUE_SD")), PARTITION =SIMP(statut='f',typ=sd_feti_sdaster), - CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,min=0,max=100), - CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,min=0), - OUT_OF_CORE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")), + CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,val_min=0), + CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,val_min=0), + OUT_OF_CORE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")), ), b_petsc =BLOC(condition = "METHODE == 'PETSC' ",fr="Paramètres de la méthode PETSC", @@ -25312,7 +25317,7 @@ THER_LINEAIRE=OPER(nom="THER_LINEAIRE",op=25,sd_prod=evol_ther,reentrant='f', b_petsc_ilu =BLOC(condition = "PRE_COND == 'LDLT_INC' ", NIVE_REMPLISSAGE = SIMP(statut='f',typ='I',defaut= 0 ), REMPLISSAGE = SIMP(statut='f',typ='R',defaut= 1.0), - ), + ), RENUM =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("SANS","RCMK") ), RESI_RELA =SIMP(statut='f',typ='R',defaut= 1.E-6), NMAX_ITER =SIMP(statut='f',typ='I',defaut= -1 ), @@ -25335,7 +25340,7 @@ THER_LINEAIRE=OPER(nom="THER_LINEAIRE",op=25,sd_prod=evol_ther,reentrant='f', TITRE =SIMP(statut='f',typ='TXM',max='**'), INFO =SIMP(statut='f',typ='I',into=(1,2)), ) ; -#& MODIF COMMANDE DATE 30/09/2008 AUTEUR REZETTE C.REZETTE +#& MODIF COMMANDE DATE 24/03/2009 AUTEUR PELLET J.PELLET # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG @@ -25450,8 +25455,8 @@ THER_NON_LINE=OPER(nom="THER_NON_LINE",op= 186,sd_prod=evol_ther,reentrant='f', PARALLELISME =SIMP(statut='f',typ='TXM',defaut="CENTRALISE", into=("CENTRALISE","DISTRIBUE_MC","DISTRIBUE_MD","DISTRIBUE_SD")), PARTITION =SIMP(statut='f',typ=sd_feti_sdaster), - CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,min=0,max=100), - CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,min=0), + CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,val_min=0), + CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,val_min=0), OUT_OF_CORE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")), ), @@ -25506,7 +25511,7 @@ THER_NON_LINE=OPER(nom="THER_NON_LINE",op= 186,sd_prod=evol_ther,reentrant='f', INFO =SIMP(statut='f',typ='I',into=(1,2) ), ) ; -#& MODIF COMMANDE DATE 30/09/2008 AUTEUR REZETTE C.REZETTE +#& MODIF COMMANDE DATE 24/03/2009 AUTEUR PELLET J.PELLET # CONFIGURATION MANAGEMENT OF EDF VERSION # ====================================================================== # COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG @@ -25577,9 +25582,9 @@ THER_NON_LINE_MO=OPER(nom="THER_NON_LINE_MO",op= 171,sd_prod=evol_ther, PARALLELISME =SIMP(statut='f',typ='TXM',defaut="CENTRALISE", into=("CENTRALISE","DISTRIBUE_MC","DISTRIBUE_MD","DISTRIBUE_SD")), PARTITION =SIMP(statut='f',typ=sd_feti_sdaster), - CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,min=0,max=100), - CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,min=0), - OUT_OF_CORE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")), + CHARGE_PROC0_MA =SIMP(statut='f',typ='I',defaut=100,val_min=0), + CHARGE_PROC0_SD =SIMP(statut='f',typ='I',defaut=0,val_min=0), + OUT_OF_CORE =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")), ), b_petsc =BLOC(condition = "METHODE == 'PETSC' ",fr="Paramètres de la méthode PETSC", ALGORITHME =SIMP(statut='f',typ='TXM',into=("BCGS","BICG","CG","CR","GMRES","TFQMR",),defaut="CG" ), -- 2.39.2