*** empty log message ***

diff --git a/Aster/Cata/cataSTA9/Macro/calc_europlexus_ops.py b/Aster/Cata/cataSTA9/Macro/calc_europlexus_ops.py
index 6b3a4a82f482833e16c4cbdca4c3782f6911aa0e..ba32578ab19c4e4a99fba5024a2bcd9132a8784a 100644 (file)
--- 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 '<INFO> excit_list = ',excit_list
+    #print '<INFO> 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 c462a3b621f5a4e51886c85f841bbf6cd29a92d4..0a7a1baef69089f220ac511e515d6b8b7ffd73d7 100644 (file)
--- 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 e40741a6fed7211fba9ba3a14a491bf8059dedee..d8b9e66f7c8d6a5f89c1c888a8d13ec83b9e278a 100644 (file)
--- 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 0d416a57df12042d4e7497e1d4154f5237e04fa7..310833796b4ab55c27b6ab02aadd891d2defe46a 100644 (file)
--- 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 481e9b790b6dd44072373efc5aeac135a71bb33e..9d6e9a969ed9b80ead8631c2972bbdaa127b67e9 100644 (file)
--- 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 38595c64717903bf225452895df69ca02cb9950c..7fcb68a6a6b43c529006eaae1c42433364016e5e 100644 (file)
--- 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 (file)
index 0000000..c3ce8c8
--- /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 09a27c57493b732dc53187d2cb274deb84a621d4..514f5d88b8fc20312d7e27ddae2eba983de8c6a4 100644 (file)
--- 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 62e7d02cb5e828c016d7f9660531e83241b8306c..591d5f708d236966b8183aca7fa4148be489d0b4 100644 (file)
--- 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/cata.py b/Aster/Cata/cataSTA9/cata.py
index a291fe2b0db55bfee37ffc4d78d7433ea69e5471..d4b69e4ec2c6ebcc80cea8e4a1608a09fd4dc8a9 100644 (file)
--- 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
 # ======================================================================
@@ -17,6 +17,7 @@
 # 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
@@ -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 22/12/2008   AUTEUR PROIX J-M.PROIX
+#& 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
@@ -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"
@@ -486,23 +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 21/10/2008   AUTEUR DESOZA T.DESOZA 
 #            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='**',
@@ -519,13 +517,13 @@ def C_CONTACT() : return FACT(statut='f',max='**',
                                  into  =("NODAL","MAIT_ESCL")),
 
            LISSAGE         =SIMP(statut='f',typ='TXM',defaut="NON",
-                                 into  =("OUI","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")),
+                                 into  =("AUTO","FIXE","VECT_Y")),                      
 
            b_nmait_fixe     =BLOC(condition = "VECT_MAIT == 'FIXE'",
              MAIT_FIXE     =SIMP(statut='f',typ='R',min=3,max=3),
@@ -536,7 +534,7 @@ def C_CONTACT() : return FACT(statut='f',max='**',
            ),
 
            VECT_ESCL       =SIMP(statut='f',typ='TXM',defaut="AUTO",
-                                 into  =("AUTO","FIXE","VECT_Y")),
+                                 into  =("AUTO","FIXE","VECT_Y")),                      
 
            b_nescl_fixe     =BLOC(condition = "VECT_ESCL == 'FIXE'",
              ESCL_FIXE     =SIMP(statut='f',typ='R',min=3,max=3),
@@ -548,12 +546,12 @@ def C_CONTACT() : return FACT(statut='f',max='**',
 
 
            TYPE_APPA       =SIMP(statut='f',typ='TXM',defaut="PROCHE",
-                                 into  =("PROCHE","FIXE")),
-
+                                 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")),
@@ -561,15 +559,15 @@ def C_CONTACT() : return FACT(statut='f',max='**',
                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_APPA       =SIMP(statut='f',typ='R'  ,defaut=-1.0),
-           TOLE_PROJ_EXT   =SIMP(statut='f',typ='R'  ,defaut=0.50),
-
-
+           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),
@@ -679,7 +677,7 @@ 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",
@@ -802,23 +800,23 @@ def C_CONTACT() : return FACT(statut='f',max='**',
 
 
 
-#& MODIF COMMUN  DATE 14/10/2008   AUTEUR DELMAS J.DELMAS
+#& MODIF COMMUN  DATE 14/10/2008   AUTEUR DELMAS J.DELMAS 
 #            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 VABHHTS J.PELLET
 # ce fichier contient la liste des "into" possibles pour le mot cle NOM_CHAM
@@ -996,26 +994,26 @@ def C_NOM_CHAM_INTO() : return  ("ACCE",    #COMMUN#
                         "VITE_ABSOLU",
                         "VITE_VENT",
                         )
-#& MODIF COMMUN  DATE 19/05/2008   AUTEUR DELMAS J.DELMAS
+#& MODIF COMMUN  DATE 19/05/2008   AUTEUR DELMAS J.DELMAS 
 #            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.
+# 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.        
 # ======================================================================
 # ce fichier contient la liste des  noms des grandeurs de CODE_ASTER
-def C_NOM_GRANDEUR() : return  ( #COMMUN#
+def C_NOM_GRANDEUR() : return  ( #COMMUN# 
 "ABSC_R",
 "ADRSJEVE",
 "ADRSJEVN",
@@ -1142,23 +1140,23 @@ def C_NOM_GRANDEUR() : return  ( #COMMUN#
 "WEIBULL",
 "XCONTAC",
                                  )
-#& MODIF COMMUN  DATE 29/03/2007   AUTEUR GRANET S.GRANET
+#& MODIF COMMUN  DATE 29/03/2007   AUTEUR GRANET S.GRANET 
 #            CONFIGURATION MANAGEMENT OF EDF VERSION
 # ======================================================================
 # COPYRIGHT (C) 1991 - 2004  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.        
 # ======================================================================
 # ce fichier contient la liste des PARA possibles pour les fonctions et les nappes
 def C_PARA_FONCTION() : return  ( #COMMUN#
@@ -1167,23 +1165,23 @@ def C_PARA_FONCTION() : return  ( #COMMUN#
                    "AMOR","ABSC","SIGM","HYDR","SECH","PORO","SAT",
                    "PGAZ","PCAP","PLIQ","PVAP","PAD","VITE","ENDO",
                    "NORM","EPAIS","NEUT1","NEUT2",)
-#& MODIF COMMUN  DATE 27/06/2005   AUTEUR D6BHHJP J.P.LEFEBVRE
+#& MODIF COMMUN  DATE 27/06/2005   AUTEUR D6BHHJP J.P.LEFEBVRE 
 #            CONFIGURATION MANAGEMENT OF EDF VERSION
 # ======================================================================
 # COPYRIGHT (C) 1991 - 2004  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.        
 # ======================================================================
 #
 # ce fichier contient la liste des "into" possibles pour le mot cle TYPE_CHAM
@@ -1194,7 +1192,7 @@ def C_TYPE_CHAM_INTO() : #COMMUN#
              l.append(typ+"_"+gd)
    return tuple(l)
 
-#& MODIF COMMANDE  DATE 07/10/2008   AUTEUR COURTOIS M.COURTOIS
+#& MODIF COMMANDE  DATE 23/10/2008   AUTEUR TORKHANI M.TORKHANI 
 #            CONFIGURATION MANAGEMENT OF EDF VERSION
 # ======================================================================
 # COPYRIGHT (C) 1991 - 2001  EDF R&D                  WWW.CODE-ASTER.ORG
@@ -1212,85 +1210,701 @@ def C_TYPE_CHAM_INTO() : #COMMUN#
 # ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER,
 #    1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE.
 # ======================================================================
-# RESPONSABLE LEFEBVRE J.P.LEFEBVRE
-DEBUT=MACRO(nom="DEBUT",op=ops.build_debut ,repetable='n',
-            UIinfo={"groupes":("Gestion du travail",)},
-           fr="Ouverture d'une étude. Allocation des ressources mémoire et disque et fichiers",
-          sd_prod=ops.DEBUT,
+# RESPONSABLE FLEJOU J-L.FLEJOU
+AFFE_CARA_ELEM=OPER(nom="AFFE_CARA_ELEM",op=  19,sd_prod=cara_elem,
+                    fr="Affectation de caractéristiques à des éléments de structure",
+                    reentrant='n',
+            UIinfo={"groupes":("Modélisation",)},
+         regles=(AU_MOINS_UN('POUTRE','BARRE','COQUE','CABLE','DISCRET','DISCRET_2D','MASSIF',
+                             'GRILLE','MULTIFIBRE','RIGI_PARASOL'),
+                             PRESENT_PRESENT('MULTIFIBRE','GEOM_FIBRE'),),
+         MODELE          =SIMP(statut='o',typ=modele_sdaster ),
+         INFO            =SIMP(statut='f',typ='I', defaut= 1 ,into=(1,2) ),
+         VERIF           =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**',into=("MAILLE","NOEUD") ),
 
-         PAR_LOT         =SIMP(fr="mode de traitement des commandes",statut='f',typ='TXM',
-                           into=("OUI","NON"),defaut="OUI"),
-         IMPR_MACRO      =SIMP(fr="affichage des sous-commandes produites par les macros dans le fichier mess",
-                           statut='f',typ='TXM',into=("OUI","NON"),defaut="NON"),
-#         FORMAT_HDF      =SIMP(fr="sauvegarde de la base GLOBALE au format HDF",statut='f',
-#                               typ='TXM',defaut="NON",into=("OUI","NON",) ),
-         BASE            =FACT(fr="définition des paramètres associés aux bases JEVEUX",
-                               statut='f',min=1,max=2,
-           FICHIER         =SIMP(fr="nom de la base",statut='o',typ='TXM',
-                                 into=('GLOBALE','VOLATILE'),),
-           TITRE           =SIMP(statut='f',typ='TXM'),
-           CAS             =SIMP(statut='f',typ='TXM'),
-           NMAX_ENRE       =SIMP(fr="nombre maximum d enregistrements",statut='f',typ='I'),
-           LONG_ENRE       =SIMP(fr="longueur des enregistrements",statut='f',typ='I'),
-           LONG_REPE       =SIMP(fr="longueur du répertoire",statut='f',typ='I'),
+#============================================================================
+         POUTRE          =FACT(statut='f',max='**',
+           regles=(UN_PARMI('MAILLE','GROUP_MA'),),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           SECTION         =SIMP(statut='o',typ='TXM' ,into=("GENERALE","RECTANGLE","CERCLE") ),
+           PREC_AIRE       =SIMP(statut='f',typ='R',defaut=0.01),
+           PREC_INERTIE    =SIMP(statut='f',typ='R',defaut=0.1),
+           b_generale      =BLOC( condition = "SECTION=='GENERALE'",
+             VARI_SECT       =SIMP(statut='f',typ='TXM',into=("CONSTANT","HOMOTHETIQUE"),defaut="CONSTANT"),
+             b_constant      =BLOC( condition = "VARI_SECT=='CONSTANT'",
+               CARA            =SIMP(statut='o',typ='TXM',validators=NoRepeat(),min=4 ,max=15,
+                                 fr="A,IY,IZ,JX sont des paramètres obligatoires",
+                                 into=("A","IY","IZ","AY","AZ","EY","EZ","JX","RY","RZ","RT",
+                                       "JG","IYR2","IZR2","AI") ),
+               VALE            =SIMP(statut='o',typ='R',min=4 ,max=15),
+             ),
+             b_homothetique  =BLOC( condition = "VARI_SECT=='HOMOTHETIQUE'",
+               CARA            =SIMP(statut='o',typ='TXM',validators=NoRepeat(),min=8 ,max=30,
+                                 fr="A1,A2,IY1,IY2,IZ1,IZ2,JX1,JX2 sont des paramètres obligatoires",
+                                 into=("A1","IY1","IZ1","AY1","AZ1","EY1","EZ1","JX1","RY1",
+                                       "RZ1","RT1","JG1","IYR21","IZR21","AI1",
+                                       "A2","IY2","IZ2","AY2","AZ2","EY2","EZ2","JX2","RY2",
+                                       "RZ2","RT2","JG2","IYR22","IZR22","AI2") ),
+               VALE            =SIMP(statut='o',typ='R',min=8 ,max=30),
+             ),
+           ),
+           b_rectangle     =BLOC( condition = "SECTION=='RECTANGLE'",
+             VARI_SECT       =SIMP(statut='f',typ='TXM',into=("CONSTANT","HOMOTHETIQUE","AFFINE"),defaut="CONSTANT"),
+             b_constant      =BLOC( condition = "VARI_SECT=='CONSTANT'",
+               CARA            =SIMP(statut='o',typ='TXM',validators=NoRepeat(),min=1 ,max=4,
+                                 into=("H","EP", "HY","HZ","EPY","EPZ") ),
+               VALE            =SIMP(statut='o',typ='R',min=1 ,max=4),
+             ),
+             b_homothetique  =BLOC( condition = "VARI_SECT=='HOMOTHETIQUE'",
+               CARA            =SIMP(statut='o',typ='TXM',validators=NoRepeat(),min=2 ,max=8,
+                                     into=("H1","HZ1","HY1","EP1","EPY1","EPZ1",
+                                           "H2","HZ2","HY2","EP2","EPY2","EPZ2") ),
+               VALE            =SIMP(statut='o',typ='R',min=2 ,max=8),
+             ),
+             b_affine =BLOC( condition = "VARI_SECT=='AFFINE'",
+               CARA            =SIMP(statut='o',typ='TXM',validators=NoRepeat(),min=3 ,max=6,
+                                     into=("HY","EPY", "HZ1","EPZ1","HZ2","EPZ2") ),
+               VALE            =SIMP(statut='o',typ='R',min=3 ,max=6),
+             ),
+           ),
+           b_cercle        =BLOC( condition = "SECTION=='CERCLE'",
+             VARI_SECT       =SIMP(statut='f',typ='TXM',into=("CONSTANT","HOMOTHETIQUE"),defaut="CONSTANT"),
+             b_constant      =BLOC( condition = "VARI_SECT=='CONSTANT'",
+               CARA            =SIMP(statut='o',typ='TXM',validators=NoRepeat(),min=1 ,max=2,
+                                 fr="R est un paramètre obligatoire",
+                                     into=("R","EP") ),
+               VALE            =SIMP(statut='o',typ='R',min=1 ,max=2),
+             ),
+             b_homothetique  =BLOC( condition = "VARI_SECT=='HOMOTHETIQUE'",
+               CARA            =SIMP(statut='o',typ='TXM',validators=NoRepeat(),min=2 ,max=4,
+                                 fr="R1, R2 sont des paramètres obligatoires",
+                                     into=("R1","R2","EP1","EP2") ),
+               VALE            =SIMP(statut='o',typ='R',min=2 ,max=4),
+             ),
+             MODI_METRIQUE   =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+             FCX             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+             TUYAU_NSEC      =SIMP(statut='f',typ='I',val_max=32,defaut=16),
+             TUYAU_NCOU      =SIMP(statut='f',typ='I',val_max=10,defaut=3),
+           ),
          ),
 
-         IMPRESSION      =FACT(statut='f',min=1,max=3,
-           FICHIER         =SIMP(statut='o',typ='TXM'),
-           UNITE           =SIMP(statut='o',typ='I'),
+#============================================================================
+         BARRE           =FACT(statut='f',max='**',
+           regles=(UN_PARMI('MAILLE','GROUP_MA'),),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           SECTION         =SIMP(statut='o',typ='TXM',into=("GENERALE","RECTANGLE","CERCLE") ),
+           b_generale      =BLOC( condition = "SECTION=='GENERALE'",
+             CARA            =SIMP(statut='o',typ='TXM',into=("A",) ),
+             VALE            =SIMP(statut='o',typ='R',min=1,max=1 ),
+           ),
+           b_rectangle     =BLOC( condition = "SECTION=='RECTANGLE'",
+             CARA            =SIMP(statut='o',typ='TXM',into=("H","EP",
+                                                              "HZ","HY","EPY","EPZ"),
+                                                        validators=NoRepeat(),min=1,max=4 ),
+             VALE            =SIMP(statut='o',typ='R',min=1,max=4 ),
+           ),
+           b_cercle        =BLOC( condition = "SECTION=='CERCLE'",
+             CARA            =SIMP(statut='o',typ='TXM',validators=NoRepeat(),min=1,max=2,into=("R","EP") ),
+             VALE            =SIMP(statut='o',typ='R',min=1,max=2 ),
+           ),
+           FCX             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
          ),
 
-         CATALOGUE       =FACT(statut='f',min=1,max=10,
-           FICHIER         =SIMP(statut='o',typ='TXM'),
-           TITRE           =SIMP(statut='f',typ='TXM'),
-           UNITE           =SIMP(statut='f',typ='I'),
+#============================================================================
+         COQUE           =FACT(statut='f',max='**',
+           regles=(UN_PARMI('MAILLE','GROUP_MA' ),
+                   PRESENT_PRESENT( 'EXCENTREMENT','INER_ROTA' ),
+                   AU_MOINS_UN('EPAIS','EPAIS_F',),PRESENT_ABSENT('EPAIS','EPAIS_F',),
+                   EXCLUS('ANGL_REP','VECTEUR'),),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           EPAIS           =SIMP(statut='f',typ='R' ),
+           EPAIS_F         =SIMP(statut='f',typ=(para_sensi,),min=1 ,max=1 ),
+           ANGL_REP        =SIMP(statut='f',typ='R',min=2,max=2),
+           VECTEUR         =SIMP(statut='f',typ='R',min=3,max=3),
+           A_CIS           =SIMP(statut='c',typ='R',defaut= 0.8333333E0),
+           COEF_RIGI_DRZ   =SIMP(statut='f',typ='R',defaut= 1.0E-5 ),
+           COQUE_NCOU      =SIMP(statut='f',typ='I',defaut= 1 ),
+           EXCENTREMENT    =SIMP(statut='f',typ='R' ),
+           INER_ROTA       =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           MODI_METRIQUE   =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
          ),
 
-         CODE            =FACT(fr="définition d'un nom pour l'ensemble d'une étude",
-                               statut='f',min=1,max=1,
-           NOM             =SIMP(statut='o',typ='TXM'),
-           NIV_PUB_WEB     =SIMP(statut='o',typ='TXM',into=('INTERNET','INTRANET')),
-           VISU_EFICAS     =SIMP(statut='f',typ='TXM',into=('OUI','NON'),defaut='OUI'),
+#============================================================================
+         CABLE           =FACT(statut='f',max='**',
+           regles=(UN_PARMI('MAILLE','GROUP_MA'),),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           N_INIT          =SIMP(statut='f',typ='R',defaut= 5000. ),
+           SECTION         =SIMP(statut='f',typ='R' ),
+           FCX             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
          ),
 
-         ERREUR          =FACT(fr="comportement en cas d'erreur",statut='f',min=1,max=1,
-           ERREUR_F        =SIMP(statut='f',typ='TXM',into=('ABORT','EXCEPTION'),),
+#============================================================================
+         DISCRET         =FACT(statut='f',max='**',
+           REPERE          =SIMP(statut='f',typ='TXM',into=("LOCAL","GLOBAL") ),
+           AMOR_HYST       =SIMP(statut='f',typ='R' ),
+           SYME            =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           CARA            =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max=1,
+          fr="Affectation de matrices de rigidité, de masse ou d'amortissement à des mailles ou noeuds",
+                                 into=("K_T_D_N","K_T_D_L","K_TR_D_N","K_TR_D_L",
+                                       "K_T_N",  "K_T_L",  "K_TR_N",  "K_TR_L",
+                                       "M_T_D_N","M_TR_D_N","M_T_N",
+                                       "M_T_L",  "M_TR_N",  "M_TR_L",
+                                       "A_T_D_N","A_TR_D_N","A_T_D_L","A_TR_D_L",
+                                       "A_T_N",  "A_T_L",   "A_TR_N", "A_TR_L",
+                                       "K_T_N_NS",  "K_T_L_NS",  "K_TR_N_NS",  "K_TR_L_NS",
+                                       "M_T_N_NS",
+                                       "M_T_L_NS",  "M_TR_N_NS",  "M_TR_L_NS",
+                                       "A_T_N_NS",  "A_T_L_NS",  "A_TR_N_NS",  "A_TR_L_NS") ),
+
+# affection des caractéristiques de RIGIDITE/AMORTISSEMENT
+              b_K_T_D_N  =BLOC(condition = "(CARA=='K_T_D_N')or(CARA=='A_T_D_N')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE     =SIMP(statut='f',typ='R',min=3 ,max=3 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=3 ,max=3 ),),
+              b_K_T_D_L  =BLOC(condition = "(CARA=='K_T_D_L')or(CARA=='A_T_D_L')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=3 ,max=3 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=3 ,max=3 ),),
+              b_K_TR_D_N =BLOC(condition = "(CARA=='K_TR_D_N')or(CARA=='A_TR_D_N')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=6 ,max=6 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=6 ,max=6 ),),
+              b_K_TR_D_L =BLOC(condition = "(CARA=='K_TR_D_L')or(CARA=='A_TR_D_L')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=6 ,max=6 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=6 ,max=6 ),),
+              b_K_T_N    =BLOC(condition = "(CARA=='K_T_N')or(CARA=='A_T_N')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=6 ,max=6 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=6 ,max=6 ),),
+              b_K_T_L    =BLOC(condition = "(CARA=='K_T_L')or(CARA=='A_T_L')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=21,max=21),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=21 ,max=21 ),),
+              b_K_TR_N   =BLOC(condition = "(CARA=='K_TR_N')or(CARA=='A_TR_N')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=21,max=21),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=21 ,max=21 ),),
+              b_K_TR_L   =BLOC(condition = "(CARA=='K_TR_L')or(CARA=='A_TR_L')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=78,max=78),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=78 ,max=78 ),),
+              b_K_T_N_NS    =BLOC(condition = "(CARA=='K_T_N_NS')or(CARA=='A_T_N_NS')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=9 ,max=9 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=9 ,max=9 ),),
+              b_K_T_L_NS    =BLOC(condition = "(CARA=='K_T_L_NS')or(CARA=='A_T_L_NS')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=36,max=36),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=36 ,max=36 ),),
+              b_K_TR_N_NS   =BLOC(condition = "(CARA=='K_TR_N_NS')or(CARA=='A_TR_N_NS')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=36,max=36),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=36 ,max=36 ),),
+              b_K_TR_L_NS   =BLOC(condition = "(CARA=='K_TR_L_NS')or(CARA=='A_TR_L_NS')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=144,max=144),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=144 ,max=144 ),),
+
+# affection des caractéristiques de MASSE
+              b_M_T_D_N  =BLOC(condition = "CARA=='M_T_D_N'",
+          fr="NOEUD: 1 valeur de masse",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=1 ,max=1 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=1 ,max=1 ),),
+              b_M_TR_D_N =BLOC(condition = "CARA=='M_TR_D_N'",
+          fr="NOEUD: 1 valeur de masse, 6 valeurs du tenseur d'inertie, 3 composantes du vecteur d'excentricité",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=10,max=10),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=10 ,max=10 ),),
+              b_M_T_N    =BLOC(condition = "CARA=='M_T_N'",
+          fr="NOEUD: 6 valeurs de masse (triangulaire supérieure par colonne)",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=6 ,max=6 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=6 ,max=6 ),),
+              b_M_T_L    =BLOC(condition = "CARA=='M_T_L'",
+          fr="SEGMENT: 21 valeurs de masse (triangulaire supérieure par colonne)",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=21,max=21),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=21 ,max=21 ),),
+              b_M_TR_N   =BLOC(condition = "CARA=='M_TR_N'",
+          fr="NOEUD: 21 valeurs de masse (triangulaire supérieure par colonne)",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=21,max=21),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=21 ,max=21 ),),
+              b_M_TR_L   =BLOC(condition = "CARA=='M_TR_L'",
+          fr="SEGMENT: 78 valeurs de masse (triangulaire supérieure par colonne)",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=78,max=78),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=78 ,max=78 ),),
+              b_M_T_N_NS    =BLOC(condition = "CARA=='M_T_N_NS'",
+          fr="NOEUD: 9 valeurs de masse (pleine)",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=9 ,max=9 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=9 ,max=9 ),),
+              b_M_T_L_NS    =BLOC(condition = "CARA=='M_T_L_NS'",
+          fr="SEGMENT: 36 valeurs de masse (pleine)",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=36,max=36),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=36 ,max=36 ),),
+              b_M_TR_N_NS   =BLOC(condition = "CARA=='M_TR_N_NS'",
+          fr="NOEUD: 36 valeurs de masse (pleine)",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=36,max=36),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=36 ,max=36 ),),
+              b_M_TR_L_NS   =BLOC(condition = "CARA=='M_TR_L_NS'",
+          fr="SEGMENT: 144 valeurs de masse (pleine)",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=144,max=144),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=144 ,max=144 ),),
          ),
 
-         DEBUG           =FACT(fr="option de déboggage reservée aux développeurs",
-                               statut='f',min=1,max=1,
-           JXVERI          =SIMP(fr="vérifie l intégrité de la segmentation mémoire",
-                                 statut='f',typ='TXM',into=('OUI','NON'),defaut='NON'),
-           SDVERI          =SIMP(fr="vérifie la conformité des SD produites par les commandes",
-                                 statut='f',typ='TXM',into=('OUI','NON')),
-           JEVEUX          =SIMP(fr="force les déchargement sur disque",
-                                 statut='f',typ='TXM',into=('OUI','NON'),defaut='NON'),
-           ENVIMA          =SIMP(fr="imprime les valeurs définies dans ENVIMA",
-                                 statut='f',typ='TXM',into=('TEST',)),
+#============================================================================
+         DISCRET_2D      =FACT(statut='f',max='**',
+           REPERE          =SIMP(statut='f',typ='TXM',into=("LOCAL","GLOBAL") ),
+           AMOR_HYST       =SIMP(statut='f',typ='R' ),
+           SYME            =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           CARA            =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max=1,
+          fr="Affectation de matrices de rigidité, de masse ou d'amortissement à des mailles ou noeuds",
+                                 into=("K_T_D_N","K_T_D_L","K_TR_D_N","K_TR_D_L",
+                                       "K_T_N",  "K_T_L",  "K_TR_N",  "K_TR_L",
+                                       "M_T_D_N","M_T_N",  "M_TR_D_N",
+                                       "M_T_L",  "M_TR_N",  "M_TR_L",
+                                       "A_T_D_N","A_TR_D_N","A_T_D_L","A_TR_D_L",
+                                       "A_T_N",  "A_T_L",   "A_TR_N", "A_TR_L",
+                                       "K_T_N_NS",  "K_T_L_NS",  "K_TR_N_NS",  "K_TR_L_NS",
+                                       "M_T_N_NS",  "M_T_L_NS",  "M_TR_N_NS",  "M_TR_L_NS",
+                                       "A_T_N_NS",  "A_T_L_NS",   "A_TR_N_NS", "A_TR_L_NS") ),
+
+# affection des caractéristiques de RIGIDITE/AMORTISSEMENT
+              b_K_T_D_N  =BLOC(condition = "(CARA=='K_T_D_N')or(CARA=='A_T_D_N')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=2 ,max=2 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=2 ,max=2 ),),
+              b_K_T_D_L  =BLOC(condition = "(CARA=='K_T_D_L')or(CARA=='A_T_D_L')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=2 ,max=2 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=2 ,max=2 ),),
+              b_K_TR_D_N =BLOC(condition = "(CARA=='K_TR_D_N')or(CARA=='A_TR_D_N')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=3 ,max=3 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=3 ,max=3 ),),
+              b_K_TR_D_L =BLOC(condition = "(CARA=='K_TR_D_L')or(CARA=='A_TR_D_L')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=3 ,max=3 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=3 ,max=3 ),),
+              b_K_T_N    =BLOC(condition = "(CARA=='K_T_N')or(CARA=='A_T_N')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=3 ,max=3 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=3 ,max=3 ),),
+              b_K_T_L    =BLOC(condition = "(CARA=='K_T_L')or(CARA=='A_T_L')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=10,max=10),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=10 ,max=10 ),),
+              b_K_TR_N   =BLOC(condition = "(CARA=='K_TR_N')or(CARA=='A_TR_N')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=6 ,max=6),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=6 ,max=6 ),),
+              b_K_TR_L   =BLOC(condition = "(CARA=='K_TR_L')or(CARA=='A_TR_L')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=21,max=21),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=21 ,max=21 ),),
+              
+              b_K_T_N_NS    =BLOC(condition = "(CARA=='K_T_N_NS')or(CARA=='A_T_N_NS')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=4 ,max=4 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=4 ,max=4 ),),
+              b_K_T_L_NS    =BLOC(condition = "(CARA=='K_T_L_NS')or(CARA=='A_T_L_NS')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=16,max=16),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=16 ,max=16 ),),
+              b_K_TR_N_NS   =BLOC(condition = "(CARA=='K_TR_N_NS')or(CARA=='A_TR_N_NS')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=9 ,max=9),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=9 ,max=9 ),),
+              b_K_TR_L_NS   =BLOC(condition = "(CARA=='K_TR_L_NS')or(CARA=='A_TR_L_NS')",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=36,max=36),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=36 ,max=36 ),),
+
+# affection des caractéristiques de MASSE
+              b_M_T_D_N  =BLOC(condition = "CARA=='M_T_D_N'",
+          fr="NOEUD: 1 valeur de masse",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=1 ,max=1 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=1 ,max=1 ),),
+              b_M_TR_D_N =BLOC(condition = "CARA=='M_TR_D_N'",
+          fr="NOEUD: 1 valeur de masse(m), 1 valeur d'inertie(Izz), 2 composantes du vecteur d'excentricité(ex,ey) ",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=4 ,max=4 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=4 ,max=4 ),),
+              b_M_T_N    =BLOC(condition = "CARA=='M_T_N'",
+          fr="NOEUD: 3 valeurs de masse (triangulaire supérieure par colonne)",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=3 ,max=3 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=3 ,max=3 ),),
+              b_M_T_L    =BLOC(condition = "CARA=='M_T_L'",
+          fr="SEGMENT: 10 valeurs de masse (triangulaire supérieure par colonne)",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=10,max=10),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=10 ,max=10 ),),
+              b_M_TR_N   =BLOC(condition = "CARA=='M_TR_N'",
+          fr="NOEUD: 6 valeurs de masse (triangulaire supérieure par colonne)",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=6 ,max=6 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=6 ,max=6 ),),
+              b_M_TR_L   =BLOC(condition = "CARA=='M_TR_L'",
+          fr="SEGMENT: 21 valeurs de masse (triangulaire supérieure par colonne)",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=21,max=21),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=21 ,max=21 ),),
+              b_M_T_N_NS    =BLOC(condition = "CARA=='M_T_N_NS'",
+          fr="NOEUD: 4 valeurs de masse (triangulaire supérieure par colonne)",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=4 ,max=4 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=4 ,max=4 ),),
+              b_M_T_L_NS    =BLOC(condition = "CARA=='M_T_L_NS'",
+          fr="SEGMENT: 16 valeurs de masse (triangulaire supérieure par colonne)",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=16,max=16),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=16 ,max=16 ),),
+              b_M_TR_N_NS   =BLOC(condition = "CARA=='M_TR_N_NS'",
+          fr="NOEUD: 9 valeurs de masse (triangulaire supérieure par colonne)",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               NOEUD    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_NO =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=9 ,max=9 ),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=9 ,max=9 ),),
+              b_M_TR_L_NS   =BLOC(condition = "CARA=='M_TR_L_NS'",
+          fr="SEGMENT: 36 valeurs de masse (triangulaire supérieure par colonne)",
+                               regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                                       AU_MOINS_UN('VALE','VALE_F',),PRESENT_ABSENT('VALE','VALE_F',),),
+                               MAILLE   =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               VALE =SIMP(statut='f',typ='R',min=36,max=36),
+                               VALE_F =SIMP(statut='f',typ=(para_sensi,),min=36 ,max=36 ),),
          ),
 
-         MEMOIRE         =FACT(fr="mode de gestion mémoire utilisé",statut='d',min=1,max=1,
-           GESTION         =SIMP(statut='f',typ='TXM',into=('COMPACTE','RAPIDE'),defaut='RAPIDE'),
-           TYPE_ALLOCATION =SIMP(statut='f',typ='I',into=(1,2,3,4),defaut=1),
-           TAILLE          =SIMP(statut='f',typ='I'),
-           TAILLE_BLOC     =SIMP(statut='f',typ='R',defaut=800.),
-           PARTITION       =SIMP(statut='f',typ='R'),
-           DYNAMIQUE       =SIMP(statut='f',typ='I',defaut=1),
+#============================================================================
+         ORIENTATION     =FACT(statut='f',max='**',
+           regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO' ),),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           CARA            =SIMP(statut='o',typ='TXM',
+                                 into=("VECT_Y","ANGL_VRIL","VECT_X_Y","ANGL_NAUT","GENE_TUYAU") ),
+           VALE            =SIMP(statut='o',typ='R',max='**'),
+           PRECISION       =SIMP(statut='f',typ='R',defaut= 1.0E-4 ),
+           CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU") ),
          ),
 
-         RESERVE_CPU     =FACT(fr="reserve de temps pour terminer une execution",statut='d',max=1,
-           regles=(EXCLUS('VALE','POURCENTAGE'),),
-#          par défaut VALE fixée à 10. dans le FORTRAN si CODE présent
-           VALE            =SIMP(statut='f',typ='I',val_min=0,),
-#          par défaut 10% dans le FORTRAN
-           POURCENTAGE     =SIMP(statut='f',typ='R',val_min=0.,val_max=1.0),
-#          valeur en secondes de la réserve maximum bornée à 900 secondes
-           BORNE           =SIMP(statut='f',typ='I',val_min=0,defaut=900),),
+#============================================================================
+         DEFI_ARC        =FACT(statut='f',max='**',
+           regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                   UN_PARMI('ORIE_ARC','CENTRE','NOEUD_CENTRE','GROUP_NO_CENTRE',
+                            'POIN_TANG','NOEUD_POIN_TANG','GROUP_NO_POIN_TG'),
+                   PRESENT_PRESENT('ORIE_ARC','RAYON'),
+                   EXCLUS('COEF_FLEX','COEF_FLEX_XY'),
+                   EXCLUS('COEF_FLEX','COEF_FLEX_XZ'),
+                   EXCLUS('INDI_SIGM','INDI_SIGM_XY'),
+                   EXCLUS('INDI_SIGM','INDI_SIGM_XZ'),
+                   PRESENT_PRESENT('COEF_FLEX_XY','COEF_FLEX_XZ'),
+                   PRESENT_PRESENT('INDI_SIGM_XY','INDI_SIGM_XZ'),),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           ORIE_ARC        =SIMP(statut='f',typ='R'),
+           CENTRE          =SIMP(statut='f',typ='R',max='**'),
+           NOEUD_CENTRE    =SIMP(statut='f',typ=no),
+           GROUP_NO_CENTRE =SIMP(statut='f',typ=grno),
+           POIN_TANG       =SIMP(statut='f',typ='R',max='**'),
+           NOEUD_POIN_TANG =SIMP(statut='f',typ=no),
+           GROUP_NO_POIN_TG=SIMP(statut='f',typ=grno),
+           RAYON           =SIMP(statut='f',typ='R'),
+           COEF_FLEX       =SIMP(statut='f',typ='R'),
+           INDI_SIGM       =SIMP(statut='f',typ='R'),
+           COEF_FLEX_XY    =SIMP(statut='f',typ='R'),
+           INDI_SIGM_XY    =SIMP(statut='f',typ='R'),
+           COEF_FLEX_XZ    =SIMP(statut='f',typ='R'),
+           INDI_SIGM_XZ    =SIMP(statut='f',typ='R'),
+           PRECISION       =SIMP(statut='f',typ='R',defaut= 1.0E-3),
+           CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU") ),
+         ),
 
-         IGNORE_ALARM = SIMP(statut='f', typ='TXM', max='**', fr="Alarmes que l'utilisateur souhaite délibérément ignorer"),
+#============================================================================
+         MASSIF          =FACT(statut='f',max='**',
+           regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                   UN_PARMI('ANGL_REP','ANGL_AXE','ANGL_EULER'),
+                   EXCLUS('ANGL_REP','ANGL_EULER'),
+                   EXCLUS('ANGL_REP','ANGL_AXE'),
+                   EXCLUS('ANGL_REP','ORIG_AXE'),
+                   PRESENT_PRESENT('ANGL_AXE','ORIG_AXE'), ),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           ANGL_REP        =SIMP(statut='f',typ='R',max=3),
+           ANGL_EULER      =SIMP(statut='f',typ='R',min=3,max=3),
+           ANGL_AXE        =SIMP(statut='f',typ='R',max=2),
+           ORIG_AXE        =SIMP(statut='f',typ='R',max=3),
+         ),
 
-);
-#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE
+
+#============================================================================
+         POUTRE_FLUI     =FACT(statut='f',max='**',
+           regles=(UN_PARMI('MAILLE','GROUP_MA'),),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           B_T             =SIMP(statut='o',typ='R'),
+           B_N             =SIMP(statut='o',typ='R'),
+           B_TN            =SIMP(statut='o',typ='R',defaut= 0.E+0 ),
+           A_FLUI          =SIMP(statut='o',typ='R'),
+           A_CELL          =SIMP(statut='o',typ='R'),
+           COEF_ECHELLE    =SIMP(statut='o',typ='R'),
+         ),
+
+#============================================================================
+         GRILLE          =FACT(statut='f',max='**',
+           regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                   EXCLUS('ANGL_REP','ORIG_AXE'),
+                   ENSEMBLE('ORIG_AXE','AXE')),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           SECTION         =SIMP(statut='o',typ='R'),
+           ANGL_REP        =SIMP(statut='f',typ='R',max=2),
+           EXCENTREMENT    =SIMP(statut='f',typ='R'),
+           ORIG_AXE        =SIMP(statut='f',typ='R',max='**'),
+           AXE             =SIMP(statut='f',typ='R',max='**'),
+           COEF_RIGI_DRZ   =SIMP(statut='f',typ='R',defaut= 1.0E-10 ),
+           GRILLE_NCOU     =SIMP(statut='f',typ='I',defaut= 1,),
+         ),
+
+#============================================================================
+         RIGI_PARASOL    =FACT(statut='f',max='**',
+            regles=(UN_PARMI('COEF_GROUP','FONC_GROUP'),
+                    UN_PARMI('COOR_CENTRE','NOEUD_CENTRE','GROUP_NO_CENTRE'),
+                    EXCLUS('GROUP_MA_POI1','GROUP_MA_SEG2'),),
+            GROUP_MA        =SIMP(statut='o',typ=ma,validators=NoRepeat(),max='**',
+               fr="Surface servant à répartir les caractéristiques des discrets"),
+            GROUP_MA_POI1   =SIMP(statut='f',typ=ma,validators=NoRepeat(),max=1,
+               fr="Mailles de type point correspondant aux discrets"),
+            GROUP_MA_SEG2   =SIMP(statut='f',typ=ma,validators=NoRepeat(),max=1,
+               fr="Mailles de type seg2 correspondant aux discrets"),
+            FONC_GROUP      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+            COEF_GROUP      =SIMP(statut='f',typ='R',max='**'),
+            REPERE          =SIMP(statut='f',typ='TXM',into=("LOCAL","GLOBAL") ),
+            CARA            =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max=2,
+                            into=("K_TR_D_N","K_T_D_N","K_TR_D_L","K_T_D_L",
+                                  "A_TR_D_N","A_T_D_N","A_TR_D_L","A_T_D_L") ),
+            VALE            =SIMP(statut='o',typ='R',max='**'),
+            GROUP_NO_CENTRE =SIMP(statut='f',typ=grno),
+            NOEUD_CENTRE    =SIMP(statut='f',typ=no),
+            COOR_CENTRE     =SIMP(statut='f',typ='R',min=2,max=3),
+            UNITE_EUROPLEXUS=SIMP(statut='f',typ='I'),
+         ),
+
+#============================================================================
+         RIGI_MISS_3D    =FACT(statut='f',max='**',
+           GROUP_MA_POI1   =SIMP(statut='o',typ=ma,max=1),
+           GROUP_MA_SEG2   =SIMP(statut='f',typ=ma,max=1),
+           FREQ_EXTR       =SIMP(statut='o',typ='R',max=1),
+           UNITE_RESU_IMPE =SIMP(statut='f',typ='I',defaut=30),
+         ),
+
+#============================================================================
+         GEOM_FIBRE = SIMP(statut='f',max=1,typ=gfibre_sdaster,
+                   fr="Donner le nom de la SD regroupant tous les groupes de fibres (issue de DEFI_GEOM_FIBRE)"),
+         MULTIFIBRE     =FACT(statut='f',max='**',
+              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='**'),
+
+              GROUP_FIBRE     =SIMP(statut='o',typ='TXM',max='**'),
+
+         ),
+
+
+
+) ;
+#& MODIF COMMANDE  DATE 16/09/2008   AUTEUR PELLET J.PELLET 
 #            CONFIGURATION MANAGEMENT OF EDF VERSION
 # ======================================================================
 # COPYRIGHT (C) 1991 - 2001  EDF R&D                  WWW.CODE-ASTER.ORG
@@ -1308,52 +1922,280 @@ DEBUT=MACRO(nom="DEBUT",op=ops.build_debut ,repetable='n',
 # 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
-LIRE_MAILLAGE=OPER(nom="LIRE_MAILLAGE",op=   1,sd_prod=maillage_sdaster,
-                   fr="Crée un maillage par lecture d'un fichier au format Aster ou Med",
-                   ang="Readings of a mesh file",
-                   reentrant='n',
-            UIinfo={"groupes":("Maillage",)},
-#
-         UNITE           =SIMP(statut='f',typ='I',defaut= 20 ),
-#
-         FORMAT          =SIMP(statut='f',typ='TXM',defaut="ASTER",into=("ASTER","MED"),
-                            fr="Format du fichier : ASTER ou MED.",
-                            ang="Format of the file : ASTER or MED.",),
-#
-         ABSC_CURV       =FACT(statut='f',min=0,
-               TOUT          =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+# RESPONSABLE None
+AFFE_CHAR_ACOU=OPER(nom="AFFE_CHAR_ACOU",op=  68,sd_prod=char_acou,
+                    fr="Affectation de charges et conditions aux limites acoustiques constantes",
+                    reentrant='n',
+            UIinfo={"groupes":("Modélisation",)},
+         regles=(AU_MOINS_UN('PRES_IMPO','VITE_FACE','IMPE_FACE','LIAISON_UNIF' ),),
+         MODELE          =SIMP(statut='o',typ=modele_sdaster ),
+         VERI_DDL        =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         METHODE         =SIMP(statut='c',typ='TXM',fr="Stratégie de résolution pour les pressions imposées",
+                               into=('DUALISATION',),defaut='DUALISATION',),
+                               # METHODE='ELIMINATION' est traité dans le fortran mais dangereux actuellement
+         PRES_IMPO       =FACT(statut='f',max='**',
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE','GROUP_NO','NOEUD'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           PRES            =SIMP(statut='o',typ='C' ),
          ),
-#
-         VERI_MAIL       =FACT(statut='d',
-               VERIF         =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
-               APLAT         =SIMP(statut='f',typ='R',defaut= 1.0E-3 ),
+         VITE_FACE       =FACT(statut='f',max='**',
+             regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                     PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           VNOR            =SIMP(statut='o',typ='C' ),
+         ),
+         IMPE_FACE       =FACT(statut='f',max='**',
+             regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                     PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           IMPE            =SIMP(statut='o',typ='C' ),
          ),
+         LIAISON_UNIF    =FACT(statut='f',max='**',
+           regles=(UN_PARMI('GROUP_NO','NOEUD','GROUP_MA','MAILLE' ),),
+           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='**'),
+           DDL             =SIMP(statut='o',typ='TXM',max='**'),
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.
 #
-         b_format_med =BLOC( condition = " ( FORMAT == 'MED' ) " ,
-                             fr="Informations complémentaires pour la lecture MED.",
-                             ang="Further information for MED readings.",
-#
-# Pour une lecture dans un fichier MED, on peut préciser le nom sous lequel
-# le maillage y a été enregistré. Par défaut, on va le chercher sous le nom du concept à créer.
-            NOM_MED    = SIMP(statut='f',typ='TXM',
-                              fr="Nom du maillage dans le fichier MED.",
-                              ang="Name of the mesh into the MED file.",),
-            INFO_MED   = SIMP(statut='f',typ='I',defaut= 1,into=(1,2) ),
+# 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.
 #
-            RENOMME = FACT(statut='f', max='**',
-                                 fr="Renommer un nom de groupe MED",
-                 NOM_MED     = SIMP(statut='o', typ=grma,
-                                    fr="Nom du groupe dans le fichier MED"),
-                 NOM         = SIMP(statut='o', typ=grma, validators=LongStr(1,8),
-                                    fr="Nom du groupe dans le maillage ASTER"),
-            ),
+# 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 PELLET J.PELLET
+def affe_char_cine_prod(MECA_IMPO,THER_IMPO,ACOU_IMPO,EVOL_IMPO,**args):
+  if MECA_IMPO != None  : return char_cine_meca
+  if THER_IMPO != None  : return char_cine_ther
+  if ACOU_IMPO != None  : return char_cine_acou
+  if EVOL_IMPO != None  :
+      if AsType(EVOL_IMPO) in (evol_elas,evol_noli) :
+          return char_cine_meca
+      elif AsType(EVOL_IMPO) in (evol_ther,) :
+          return char_cine_ther
+      else :
+          raise AsException("Extension à faire ...")
+
+  raise AsException("type de concept resultat non prevu")
+
+
+AFFE_CHAR_CINE=OPER(nom="AFFE_CHAR_CINE",op= 101,sd_prod=affe_char_cine_prod
+                    ,fr="Affectation de conditions aux limites cinématiques constantes pour un traitement sans dualisation",
+                     reentrant='n',
+            UIinfo={"groupes":("Modélisation",)},
+         regles=(UN_PARMI('MECA_IMPO','THER_IMPO','ACOU_IMPO','EVOL_IMPO'),
+                 ),
+         MODELE          =SIMP(statut='o',typ=modele_sdaster ),
+         EVOL_IMPO  =SIMP(statut='f',typ=(evol_noli,evol_elas,evol_ther),fr="Pour imposer tous les ddls d'un evol_xxx"),
+         MECA_IMPO       =FACT(statut='f',max='**',
+           regles=(UN_PARMI('TOUT','GROUP_MA','MAILLE','GROUP_NO','NOEUD'),
+                   AU_MOINS_UN('DX','DY','DZ','DRX','DRY','DRZ','GRX','PRES','PHI',
+                               'TEMP','PRE1','PRE2','UI2','UI3','VI2','VI3','WI2','WI3','UO2',
+                               'UO3','VO2','VO3','WO2','WO3','UI4','UI5','VI4','VI5','WI4',
+                               'WI5','UO4','UO5','VO4','VO5','WO4','WO5','UI6','UO6','VI6',
+                               'VO6','WI6','WO6','WO','WI1','WO1','GONF','DCX','DCY','DCZ',
+                               'H1X','H1Y','H1Z','E1X','E1Y','E1Z','E2X','E2Y','E2Z',
+                               'E3X','E3Y','E3Z','E4X','E4Y','E4Z','V11','V12','V13','V21','V22',
+                               'V23','V31','V32','V33','PRES11','PRES12','PRES13','PRES21',
+                               'PRES22','PRES23','PRES31','PRES32','PRES33'),),
+             TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+             NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+             DX              =SIMP(statut='f',typ='R' ),
+             DY              =SIMP(statut='f',typ='R' ),
+             DZ              =SIMP(statut='f',typ='R' ),
+             DRX             =SIMP(statut='f',typ='R' ),
+             DRY             =SIMP(statut='f',typ='R' ),
+             DRZ             =SIMP(statut='f',typ='R' ),
+             GRX             =SIMP(statut='f',typ='R' ),
+             PRES            =SIMP(statut='f',typ='R' ),
+             PHI             =SIMP(statut='f',typ='R' ),
+             TEMP            =SIMP(statut='f',typ='R' ),
+             PRE1            =SIMP(statut='f',typ='R' ),
+             PRE2            =SIMP(statut='f',typ='R' ),
+             UI2             =SIMP(statut='f',typ='R' ),
+             UI3             =SIMP(statut='f',typ='R' ),
+             UI4             =SIMP(statut='f',typ='R' ),
+             UI5             =SIMP(statut='f',typ='R' ),
+             UI6             =SIMP(statut='f',typ='R' ),
+             UO2             =SIMP(statut='f',typ='R' ),
+             UO3             =SIMP(statut='f',typ='R' ),
+             UO4             =SIMP(statut='f',typ='R' ),
+             UO5             =SIMP(statut='f',typ='R' ),
+             UO6             =SIMP(statut='f',typ='R' ),
+             VI2             =SIMP(statut='f',typ='R' ),
+             VI3             =SIMP(statut='f',typ='R' ),
+             VI4             =SIMP(statut='f',typ='R' ),
+             VI5             =SIMP(statut='f',typ='R' ),
+             VI6             =SIMP(statut='f',typ='R' ),
+             VO2             =SIMP(statut='f',typ='R' ),
+             VO3             =SIMP(statut='f',typ='R' ),
+             VO4             =SIMP(statut='f',typ='R' ),
+             VO5             =SIMP(statut='f',typ='R' ),
+             VO6             =SIMP(statut='f',typ='R' ),
+             WI2             =SIMP(statut='f',typ='R' ),
+             WI3             =SIMP(statut='f',typ='R' ),
+             WI4             =SIMP(statut='f',typ='R' ),
+             WI5             =SIMP(statut='f',typ='R' ),
+             WI6             =SIMP(statut='f',typ='R' ),
+             WO2             =SIMP(statut='f',typ='R' ),
+             WO3             =SIMP(statut='f',typ='R' ),
+             WO4             =SIMP(statut='f',typ='R' ),
+             WO5             =SIMP(statut='f',typ='R' ),
+             WO6             =SIMP(statut='f',typ='R' ),
+             WO              =SIMP(statut='f',typ='R' ),
+             WI1             =SIMP(statut='f',typ='R' ),
+             WO1             =SIMP(statut='f',typ='R' ),
+             GONF            =SIMP(statut='f',typ='R' ),
+             DCX             =SIMP(statut='f',typ='R' ),
+             DCY             =SIMP(statut='f',typ='R' ),
+             DCZ             =SIMP(statut='f',typ='R' ),
+             H1X             =SIMP(statut='f',typ='R' ),
+             H1Y             =SIMP(statut='f',typ='R' ),
+             H1Z             =SIMP(statut='f',typ='R' ),
+             E1X             =SIMP(statut='f',typ='R' ),
+             E1Y             =SIMP(statut='f',typ='R' ),
+             E1Z             =SIMP(statut='f',typ='R' ),
+             E2X             =SIMP(statut='f',typ='R' ),
+             E2Y             =SIMP(statut='f',typ='R' ),
+             E2Z             =SIMP(statut='f',typ='R' ),
+             E3X             =SIMP(statut='f',typ='R' ),
+             E3Y             =SIMP(statut='f',typ='R' ),
+             E3Z             =SIMP(statut='f',typ='R' ),
+             E4X             =SIMP(statut='f',typ='R' ),
+             E4Y             =SIMP(statut='f',typ='R' ),
+             E4Z             =SIMP(statut='f',typ='R' ),
+             V11             =SIMP(statut='f',typ='R' ),
+             V12             =SIMP(statut='f',typ='R' ),
+             V13             =SIMP(statut='f',typ='R' ),
+             V21             =SIMP(statut='f',typ='R' ),
+             V22             =SIMP(statut='f',typ='R' ),
+             V23             =SIMP(statut='f',typ='R' ),
+             V31             =SIMP(statut='f',typ='R' ),
+             V32             =SIMP(statut='f',typ='R' ),
+             V33             =SIMP(statut='f',typ='R' ),
+             PRES11          =SIMP(statut='f',typ='R' ),
+             PRES12          =SIMP(statut='f',typ='R' ),
+             PRES13          =SIMP(statut='f',typ='R' ),
+             PRES21          =SIMP(statut='f',typ='R' ),
+             PRES22          =SIMP(statut='f',typ='R' ),
+             PRES23          =SIMP(statut='f',typ='R' ),
+             PRES31          =SIMP(statut='f',typ='R' ),
+             PRES32          =SIMP(statut='f',typ='R' ),
+             PRES33          =SIMP(statut='f',typ='R' ),
+         ),
+         THER_IMPO       =FACT(statut='f',max='**',
+           regles=(UN_PARMI('TOUT','GROUP_MA','MAILLE','GROUP_NO','NOEUD'),
+                   AU_MOINS_UN('TEMP','TEMP_INF','TEMP_SUP'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           TEMP_SUP        =SIMP(statut='f',typ='R' ),
+           TEMP            =SIMP(statut='f',typ='R' ),
+           TEMP_INF        =SIMP(statut='f',typ='R' ),
+         ),
+         ACOU_IMPO       =FACT(statut='f',max='**',
+           regles=(UN_PARMI('TOUT','GROUP_MA','MAILLE','GROUP_NO','NOEUD'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           PRES            =SIMP(statut='o',typ='C' ),
          ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.
 #
-         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=(1,2) ),
+# 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 PELLET J.PELLET
+def affe_char_cine_f_prod(MECA_IMPO,THER_IMPO,**args):
+  if MECA_IMPO != None  : return char_cine_meca
+  if THER_IMPO != None  : return char_cine_ther
+  raise AsException("type de concept resultat non prevu")
+
+AFFE_CHAR_CINE_F=OPER(nom="AFFE_CHAR_CINE_F",op= 101,sd_prod=affe_char_cine_f_prod,
+                      fr="Affectation de conditions aux limites cinématiques fonction d'un (ou plusieurs) paramètres"
+                        +" pour un traitement sans dualisation",
+                     reentrant='n',
+            UIinfo={"groupes":("Modélisation",)},
+         regles=(UN_PARMI('MECA_IMPO','THER_IMPO')),
+         MODELE          =SIMP(statut='o',typ=modele_sdaster ),
+         MECA_IMPO       =FACT(statut='f',max='**',
+           regles=(UN_PARMI('TOUT','GROUP_MA','MAILLE','GROUP_NO','NOEUD'),
+                   AU_MOINS_UN('DX','DY','DZ','DRX','DRY','DRZ','GRX','PRES','TEMP','PHI'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           DX              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DY              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DZ              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DRX             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DRY             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DRZ             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           GRX             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           PRES            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           TEMP            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           PHI             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+         THER_IMPO       =FACT(statut='f',max='**',
+           regles=(UN_PARMI('TOUT','GROUP_MA','MAILLE','GROUP_NO','NOEUD'),
+                   AU_MOINS_UN('TEMP','TEMP_INF','TEMP_SUP' ),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           TEMP_SUP        =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           TEMP            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           TEMP_INF        =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
 )  ;
-#& MODIF COMMANDE  DATE 01/09/2008   AUTEUR DELMAS J.DELMAS
+#& MODIF COMMANDE  DATE 16/09/2008   AUTEUR PELLET J.PELLET 
 #            CONFIGURATION MANAGEMENT OF EDF VERSION
 # ======================================================================
 # COPYRIGHT (C) 1991 - 2001  EDF R&D                  WWW.CODE-ASTER.ORG
@@ -1371,64 +2213,2064 @@ LIRE_MAILLAGE=OPER(nom="LIRE_MAILLAGE",op=   1,sd_prod=maillage_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 PELLET J.PELLET
-AFFE_MODELE=OPER(nom="AFFE_MODELE",op=18,sd_prod=modele_sdaster,
+# RESPONSABLE DESROCHES X.DESROCHES
+AFFE_CHAR_MECA=OPER(nom="AFFE_CHAR_MECA",op=   7,sd_prod=char_meca,
+                    fr="Affectation de charges et conditions aux limites mécaniques constantes",
+                     reentrant='n',
             UIinfo={"groupes":("Modélisation",)},
-                 fr="Définir le phénomène physique modélisé et le type d'éléments finis sur le maillage",reentrant='n',
-         regles=(AU_MOINS_UN('AFFE','AFFE_SOUS_STRUC'),),
-         MAILLAGE        =SIMP(statut='o',typ=(maillage_sdaster) ),
-         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2) ),
-         VERIF           =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max=2,into=("MAILLE","NOEUD") ),
+         regles=(AU_MOINS_UN('DDL_IMPO','FACE_IMPO','CHAMNO_IMPO','LIAISON_DDL','LIAISON_XFEM','FORCE_NODALE',
+                             'FORCE_FACE','FORCE_ARETE','FORCE_CONTOUR','FORCE_INTERNE',
+                             'PRES_REP','FORCE_POUTRE','FORCE_COQUE','LIAISON_OBLIQUE',
+                             'FORCE_ELEC','INTE_ELEC','PESANTEUR','ROTATION','IMPE_FACE',
+                             'VITE_FACE','RELA_CINE_BP','EPSI_INIT','CONTACT',
+                             'LIAISON_GROUP','LIAISON_UNIF','FLUX_THM_REP','LIAISON_SOLIDE',
+                             'LIAISON_ELEM','ONDE_FLUI','LIAISON_CHAMNO','VECT_ASSE','LIAISON_COQUE',
+                             'LIAISON_MAIL','LIAISON_CYCL','FORCE_TUYAU',
+                             'EFFE_FOND','EVOL_CHAR','ARLEQUIN','DDL_POUTRE','GRAPPE_FLUIDE',
+                             'LIAISON_UNILATER'),
+                         ),
+         VERI_NORM       =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         MODELE          =SIMP(statut='o',typ=(modele_sdaster) ),
+         EVOL_CHAR       =SIMP(statut='f',fr="Champ de pression issu d'un autre calcul",
+                               typ=evol_char ),
+
+         PESANTEUR       =SIMP(statut='f',typ='R',fr="Champ de pesanteur",min=4,max=4),
+         METHODE         =SIMP(statut='c',typ='TXM',fr="Stratégie de résolution pour les déplacements imposés",
+                               into=('DUALISATION',),defaut='DUALISATION',),
+                               # METHODE='ELIMINATION' est traité dans le fortran mais dangereux actuellement
+         ROTATION        =SIMP(statut='f',typ='R',fr="Champ de rotation", min=4,max=4),
+         b_rotation      =BLOC ( condition = "ROTATION != None",
+           CENTRE          =SIMP(statut='f',typ='R',defaut=(0.,0.,0.),max=3),),
+
+         DDL_IMPO        =FACT(statut='f',max='**',
+             fr="Impose à des noeuds une ou plusieurs valeurs de déplacement (ou de certaines grandeurs asscociées)",
+             regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE','GROUP_NO','NOEUD'),
+                     AU_MOINS_UN('DX','DY','DZ','DRX','DRY','DRZ','GRX','PRES','PHI',
+                                 'TEMP','PRE1','PRE2','UI2','UI3','VI2','VI3','WI2','WI3','UO2',
+                                 'UO3','VO2','VO3','WO2','WO3','UI4','UI5','VI4','VI5','WI4',
+                                 'WI5','UO4','UO5','VO4','VO5','WO4','WO5','UI6','UO6','VI6',
+                                 'VO6','WI6','WO6','WO','WI1','WO1','GONF','LIAISON','DCX',
+                                 'DCY','DCZ','H1X','H1Y','H1Z','E1X','E1Y','E1Z','E2X','E2Y','E2Z',
+                                 'E3X','E3Y','E3Z','E4X','E4Y','E4Z','LAGS_C','V11','V12','V13','V21','V22',
+                                 'V23','V31','V32','V33','PRES11','PRES12','PRES13','PRES21','PRES22','PRES23',
+                                 'PRES31','PRES32','PRES33',),),
+             TOUT            =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='**'),
+             LIAISON         =SIMP(statut='f',typ='TXM',into=('ENCASTRE',)),
+             DX              =SIMP(statut='f',typ='R' ),
+             DY              =SIMP(statut='f',typ='R' ),
+             DZ              =SIMP(statut='f',typ='R' ),
+             DRX             =SIMP(statut='f',typ='R' ),
+             DRY             =SIMP(statut='f',typ='R' ),
+             DRZ             =SIMP(statut='f',typ='R' ),
+             GRX             =SIMP(statut='f',typ='R' ),
+             PRES            =SIMP(statut='f',typ='R' ),
+             PHI             =SIMP(statut='f',typ='R' ),
+             TEMP            =SIMP(statut='f',typ='R' ),
+             PRE1            =SIMP(statut='f',typ='R' ),
+             PRE2            =SIMP(statut='f',typ='R' ),
+             UI2             =SIMP(statut='f',typ='R' ),
+             UI3             =SIMP(statut='f',typ='R' ),
+             UI4             =SIMP(statut='f',typ='R' ),
+             UI5             =SIMP(statut='f',typ='R' ),
+             UI6             =SIMP(statut='f',typ='R' ),
+             UO2             =SIMP(statut='f',typ='R' ),
+             UO3             =SIMP(statut='f',typ='R' ),
+             UO4             =SIMP(statut='f',typ='R' ),
+             UO5             =SIMP(statut='f',typ='R' ),
+             UO6             =SIMP(statut='f',typ='R' ),
+             VI2             =SIMP(statut='f',typ='R' ),
+             VI3             =SIMP(statut='f',typ='R' ),
+             VI4             =SIMP(statut='f',typ='R' ),
+             VI5             =SIMP(statut='f',typ='R' ),
+             VI6             =SIMP(statut='f',typ='R' ),
+             VO2             =SIMP(statut='f',typ='R' ),
+             VO3             =SIMP(statut='f',typ='R' ),
+             VO4             =SIMP(statut='f',typ='R' ),
+             VO5             =SIMP(statut='f',typ='R' ),
+             VO6             =SIMP(statut='f',typ='R' ),
+             WI2             =SIMP(statut='f',typ='R' ),
+             WI3             =SIMP(statut='f',typ='R' ),
+             WI4             =SIMP(statut='f',typ='R' ),
+             WI5             =SIMP(statut='f',typ='R' ),
+             WI6             =SIMP(statut='f',typ='R' ),
+             WO2             =SIMP(statut='f',typ='R' ),
+             WO3             =SIMP(statut='f',typ='R' ),
+             WO4             =SIMP(statut='f',typ='R' ),
+             WO5             =SIMP(statut='f',typ='R' ),
+             WO6             =SIMP(statut='f',typ='R' ),
+             WO              =SIMP(statut='f',typ='R' ),
+             WI1             =SIMP(statut='f',typ='R' ),
+             WO1             =SIMP(statut='f',typ='R' ),
+             GONF            =SIMP(statut='f',typ='R' ),
+             DCX             =SIMP(statut='f',typ='R' ),
+             DCY             =SIMP(statut='f',typ='R' ),
+             DCZ             =SIMP(statut='f',typ='R' ),
+             H1X             =SIMP(statut='f',typ='R' ),
+             H1Y             =SIMP(statut='f',typ='R' ),
+             H1Z             =SIMP(statut='f',typ='R' ),
+             E1X             =SIMP(statut='f',typ='R' ),
+             E1Y             =SIMP(statut='f',typ='R' ),
+             E1Z             =SIMP(statut='f',typ='R' ),
+             E2X             =SIMP(statut='f',typ='R' ),
+             E2Y             =SIMP(statut='f',typ='R' ),
+             E2Z             =SIMP(statut='f',typ='R' ),
+             E3X             =SIMP(statut='f',typ='R' ),
+             E3Y             =SIMP(statut='f',typ='R' ),
+             E3Z             =SIMP(statut='f',typ='R' ),
+             E4X             =SIMP(statut='f',typ='R' ),
+             E4Y             =SIMP(statut='f',typ='R' ),
+             E4Z             =SIMP(statut='f',typ='R' ),
+             LAGS_C          =SIMP(statut='f',typ='R' ),
+             V11             =SIMP(statut='f',typ='R' ),
+             V12             =SIMP(statut='f',typ='R' ),
+             V13             =SIMP(statut='f',typ='R' ),
+             V21             =SIMP(statut='f',typ='R' ),
+             V22             =SIMP(statut='f',typ='R' ),
+             V23             =SIMP(statut='f',typ='R' ),
+             V31             =SIMP(statut='f',typ='R' ),
+             V32             =SIMP(statut='f',typ='R' ),
+             V33             =SIMP(statut='f',typ='R' ),
+             PRES11          =SIMP(statut='f',typ='R' ),
+             PRES12          =SIMP(statut='f',typ='R' ),
+             PRES13          =SIMP(statut='f',typ='R' ),
+             PRES21          =SIMP(statut='f',typ='R' ),
+             PRES22          =SIMP(statut='f',typ='R' ),
+             PRES23          =SIMP(statut='f',typ='R' ),
+             PRES31          =SIMP(statut='f',typ='R' ),
+             PRES32          =SIMP(statut='f',typ='R' ),
+             PRES33          =SIMP(statut='f',typ='R' ),
+           ),
+
+
+
+         DDL_POUTRE    =FACT(statut='f',max='**',
+             fr="Bloque des DDLs dans un repère local d'une poutre",
+             regles=(AU_MOINS_UN('GROUP_NO','NOEUD'),
+                     AU_MOINS_UN('DX','DY','DZ','DRX','DRY','DRZ'),
+                     UN_PARMI('VECT_Y','ANGL_VRIL'),),
+             GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+             NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+             DX              =SIMP(statut='f',typ='R' ),
+             DY              =SIMP(statut='f',typ='R' ),
+             DZ              =SIMP(statut='f',typ='R' ),
+             DRX             =SIMP(statut='f',typ='R' ),
+             DRY             =SIMP(statut='f',typ='R' ),
+             DRZ             =SIMP(statut='f',typ='R' ),
+#  définition du repère local
+             VECT_Y          =SIMP(statut='f',typ='R',min=3,max=3),
+             ANGL_VRIL       =SIMP(statut='f',typ='R',),
+#  restriction sur les mailles servant à définir le repère local
+             GROUP_MA        =SIMP(statut='f',typ=grma,),
+             MAILLE          =SIMP(statut='f',typ=ma,),
+                            ),
+
+
+
+           FACE_IMPO       =FACT(statut='f',max='**',
+             fr="Impose à tous les noeuds d'une face une ou plusieurs valeurs de déplacement (ou de certaines grandeurs associées)",
+             regles=(UN_PARMI('GROUP_MA','MAILLE',),
+                     AU_MOINS_UN('DX','DY','DZ','DRX','DRY','DRZ','GRX','PRES','PHI',
+                                 'TEMP','PRE1','PRE2','DNOR','DTAN'),
+                     EXCLUS('DNOR','DX'),
+                     EXCLUS('DNOR','DY'),
+                     EXCLUS('DNOR','DZ'),
+                     EXCLUS('DNOR','DRX'),
+                     EXCLUS('DNOR','DRY'),
+                     EXCLUS('DNOR','DRZ'),
+                     EXCLUS('DTAN','DX'),
+                     EXCLUS('DTAN','DY'),
+                     EXCLUS('DTAN','DZ'),
+                     EXCLUS('DTAN','DRX'),
+                     EXCLUS('DTAN','DRY'),
+                     EXCLUS('DTAN','DRZ'),),
+#  rajout d'un mot clé REPERE :/ LOCAL /GLOBAL
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             SANS_GROUP_MA   =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             SANS_MAILLE     =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             SANS_GROUP_NO   =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+             SANS_NOEUD      =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+             DX              =SIMP(statut='f',typ='R' ),
+             DY              =SIMP(statut='f',typ='R' ),
+             DZ              =SIMP(statut='f',typ='R' ),
+             DRX             =SIMP(statut='f',typ='R' ),
+             DRY             =SIMP(statut='f',typ='R' ),
+             DRZ             =SIMP(statut='f',typ='R' ),
+             DNOR            =SIMP(statut='f',typ='R' ),
+             DTAN            =SIMP(statut='f',typ='R' ),
+             GRX             =SIMP(statut='f',typ='R' ),
+             PRES            =SIMP(statut='f',typ='R' ),
+             PHI             =SIMP(statut='f',typ='R' ),
+             TEMP            =SIMP(statut='f',typ='R' ),
+             PRE1            =SIMP(statut='f',typ='R' ),
+             PRE2            =SIMP(statut='f',typ='R' ),
+           ),
+
+         CHAMNO_IMPO  =FACT(statut='f',max='**',
+             fr="Impose des DDLs aux valeurs d'un concept cham_no_sdaster",
+#  type de cham_no_sdaster CO()
+             CHAM_NO         =SIMP(statut='o',typ=cham_no_sdaster), #CO()
+             COEF_MULT       =SIMP(statut='o',typ='R' ),
+             NUME_LAGR       =SIMP(statut='f',typ='TXM',defaut="NORMAL",into=("NORMAL","APRES") ),
+           ),
+
+
+           LIAISON_DDL     =FACT(statut='f',max='**',
+             fr="Définit une relation linéaire entre des DDLs de deux ou plusieurs noeuds",
+             regles=(UN_PARMI('GROUP_NO','NOEUD'),),
+             GROUP_NO        =SIMP(statut='f',typ=grno ,max='**'),
+             NOEUD           =SIMP(statut='f',typ=no   ,max='**'),
+             DDL             =SIMP(statut='o',typ='TXM',max='**'),
+             COEF_MULT       =SIMP(statut='o',typ='R'  ,max='**'),
+             COEF_IMPO       =SIMP(statut='o',typ='R' ),
+           ),
+
+           LIAISON_OBLIQUE =FACT(statut='f',max='**',
+             fr="Applique à des noeuds la meme valeur de déplacement définie composante par composante"
+              +" dans un repère oblique quelconque",
+             regles=(UN_PARMI('GROUP_NO','NOEUD'),
+                     UN_PARMI('DX','DY','DZ','DRX','DRY','DRZ'),),
+             GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+             NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+             ANGL_NAUT       =SIMP(statut='o',typ='R',max=3),
+             DX              =SIMP(statut='f',typ='R' ),
+             DY              =SIMP(statut='f',typ='R' ),
+             DZ              =SIMP(statut='f',typ='R' ),
+             DRX             =SIMP(statut='f',typ='R' ),
+             DRY             =SIMP(statut='f',typ='R' ),
+             DRZ             =SIMP(statut='f',typ='R' ),
+           ),
+
+           LIAISON_GROUP   =FACT(statut='f',max='**',
+             fr="Définit la meme relation linéaire entre certains DDLs de couples de noeuds",
+             regles=(UN_PARMI('GROUP_MA_1','MAILLE_1','GROUP_NO_1','NOEUD_1'),
+                     UN_PARMI('GROUP_MA_2','MAILLE_2','GROUP_NO_2','NOEUD_2'),
+                     EXCLUS('GROUP_MA_1','GROUP_NO_2'),
+                     EXCLUS('GROUP_MA_1','NOEUD_2'),
+                     EXCLUS('GROUP_NO_1','GROUP_MA_2'),
+                     EXCLUS('GROUP_NO_1','MAILLE_2'),
+                     EXCLUS('MAILLE_1','GROUP_NO_2'),
+                     EXCLUS('MAILLE_1','NOEUD_2'),
+                     EXCLUS('NOEUD_1','GROUP_MA_2'),
+                     EXCLUS('NOEUD_1','MAILLE_2'),
+                     EXCLUS('SANS_NOEUD','SANS_GROUP_NO'),),
+
+               GROUP_MA_1      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+               MAILLE_1        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+               GROUP_MA_2      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+               MAILLE_2        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+               GROUP_NO_1      =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+               NOEUD_1         =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+               GROUP_NO_2      =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+               NOEUD_2         =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+
+             SANS_NOEUD      =SIMP(statut='f',typ=no   ,validators=NoRepeat(),max='**'),
+             SANS_GROUP_NO   =SIMP(statut='f',typ=grno ,validators=NoRepeat(),max='**'),
+             DDL_1           =SIMP(statut='o',typ='TXM',max='**'),
+             COEF_MULT_1     =SIMP(statut='o',typ='R'  ,max='**'),
+             DDL_2           =SIMP(statut='o',typ='TXM',max='**'),
+             COEF_MULT_2     =SIMP(statut='o',typ='R'  ,max='**'),
+             COEF_IMPO       =SIMP(statut='o',typ='R' ),
+             SOMMET          =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             TRAN            =SIMP(statut='f',typ='R',max=3),
+             ANGL_NAUT       =SIMP(statut='f',typ='R',max=3),
+             CENTRE          =SIMP(statut='f',typ='R',max=3),
+           ),
+
+           LIAISON_MAIL    =FACT(statut='f',max='**',
+             fr="Définit des relations linéaires permettant de recoller deux bords d'une structure",
+             regles=(AU_MOINS_UN('GROUP_MA_MAIT','MAILLE_MAIT'),
+                     AU_MOINS_UN('GROUP_MA_ESCL','MAILLE_ESCL','GROUP_NO_ESCL','NOEUD_ESCL'),
+                     PRESENT_PRESENT('DDL_MAIT','DDL_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='**'),
+              GROUP_NO_ESCL   =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+              NOEUD_ESCL      =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+              TRAN            =SIMP(statut='f',typ='R',max=3 ),
+              ANGL_NAUT       =SIMP(statut='f',typ='R',max=3 ),
+              CENTRE          =SIMP(statut='f',typ='R',max=3 ),
+              DDL_MAIT        =SIMP(statut='f',typ='TXM',into=("DNOR",) ),
+              DDL_ESCL        =SIMP(statut='f',typ='TXM',into=("DNOR",) ),
+              ELIM_MULT       =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+         ),
+
+           LIAISON_CYCL    =FACT(statut='f',max='**',
+             fr="Définit des relations linéaires permettant de recoller les bords de deux parties symétriquement cycliques",
+             regles=(AU_MOINS_UN('GROUP_MA_MAIT1','MAILLE_MAIT1'),
+                     AU_MOINS_UN('GROUP_MA_ESCL','MAILLE_ESCL','GROUP_NO_ESCL','NOEUD_ESCL'),
+                     PRESENT_PRESENT('DDL_MAIT','DDL_ESCL'),
+                     ),
+              GROUP_MA_MAIT1   =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+              MAILLE_MAIT1     =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+              GROUP_MA_MAIT2   =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+              MAILLE_MAIT2     =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='**'),
+              GROUP_NO_ESCL   =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+              NOEUD_ESCL     =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+              TRAN            =SIMP(statut='f',typ='R',max=3 ),
+              ANGL_NAUT       =SIMP(statut='f',typ='R',max=3 ),
+              CENTRE          =SIMP(statut='f',typ='R',max=3 ),
+              COEF_MAIT1            =SIMP(statut='f',typ='R',max=1 ),
+              COEF_MAIT2            =SIMP(statut='f',typ='R',max=1 ),
+              COEF_ESCL            =SIMP(statut='f',typ='R',max=1 ),
+              DDL_MAIT        =SIMP(statut='f',typ='TXM',into=("DNOR",) ),
+              DDL_ESCL        =SIMP(statut='f',typ='TXM',into=("DNOR",) ),
+         ),
+
+
+           LIAISON_SOLIDE  =FACT(statut='f',max='**',
+             fr="Modélise une partie indéformable d'une structure."
+              +" Les mots clés TRAN et ANGL_NAUT permettent d'imposer le déplacement de la partie indéformable.",
+             regles=(UN_PARMI('GROUP_NO','NOEUD','GROUP_MA','MAILLE'),
+                     ENSEMBLE('CENTRE','ANGL_NAUT'),),
+             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='**'),
+             TRAN            =SIMP(statut='f',typ='R',max=3 ),
+             ANGL_NAUT       =SIMP(statut='f',typ='R',max=3 ),
+             CENTRE          =SIMP(statut='f',typ='R',max=3 ),
+             DIST_MIN        =SIMP(statut='f',typ='R'),
+             NUME_LAGR       =SIMP(statut='f',typ='TXM',defaut="NORMAL",into=("NORMAL","APRES") ),
+           ),
+
+           LIAISON_ELEM    =FACT(statut='f',max='**',
+             fr="Modélise le raccord d'une partie massive 3D avec une poutre ou avec un tuyau, le raccord d'une coque"
+              +" avec une poutre ou avec un tuyau",
+             regles=(UN_PARMI('GROUP_MA_1','MAILLE_1'),
+                     UN_PARMI('GROUP_NO_2','NOEUD_2'),),
+             OPTION          =SIMP(statut='o',typ='TXM',into=("3D_TUYAU","3D_POU","COQ_POU","COQ_TUYAU") ),
+             GROUP_MA_1      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE_1        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             GROUP_NO_2      =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+             NOEUD_2         =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+             NUME_LAGR       =SIMP(statut='f',typ='TXM',defaut="NORMAL",into=("NORMAL","APRES") ),
+             CARA_ELEM       =SIMP(statut='f',typ=(cara_elem) ),
+             AXE_POUTRE      =SIMP(statut='f',typ='R',max=3),
+             ANGL_MAX        =SIMP(statut='f',typ='R',defaut= 1. ),
+           ),
+
+           LIAISON_UNIF    =FACT(statut='f',max='**',
+             fr="Impose une meme valeur (inconnue) à des DDLs d'un ensemble de noeuds",
+             regles=(UN_PARMI('GROUP_NO','NOEUD','GROUP_MA','MAILLE'),),
+             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='**'),
+             DDL             =SIMP(statut='o',typ='TXM',max='**'),
+           ),
+
+         LIAISON_CHAMNO  =FACT(statut='f',max='**',
+             fr="Définit une relation linéaire entre tous les DDLs présents dans un concept CHAM_NO",
+#  type de cham_no_sdaster CO()
+             CHAM_NO         =SIMP(statut='o',typ=cham_no_sdaster), #CO()
+             COEF_IMPO       =SIMP(statut='o',typ='R' ),
+             NUME_LAGR       =SIMP(statut='f',typ='TXM',defaut="NORMAL",into=("NORMAL","APRES") ),
+           ),
+
+         LIAISON_XFEM      =SIMP(statut='f',typ='TXM',into=("OUI","NON"),defaut="NON" ),
+
+         CONTACT_XFEM      =SIMP(statut='f',typ=char_meca,min=1,max=1,),
+
+
+#         SIMP(statut='f',typ='TXM',defaut="NON" ),
+
+         VECT_ASSE       =SIMP(statut='f',typ=cham_no_sdaster ),
 #
-#====
-# Définition des grandeurs caractéristiques
-#====
+# LIAISON UNILATERALE
 #
-         GRANDEUR_CARA =FACT(statut='f',max=1,
-         fr="Grandeurs caractéristiques pour l'adimensionnement des indicateurs d'erreur HM",
-         ang="Characteristic data for HM error estimators adimensionalisation",
+         LIAISON_UNILATER=FACT(statut='f',max='**',
+           fr="Définit les zones soumises à des conditions de liaison unilaterale (inegalite sur un DDL)",
+           regles=(UN_PARMI('GROUP_MA','MAILLE','GROUP_NO','NOEUD'),),
+
+           GROUP_MA        =SIMP(statut='f',typ=grma ,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma   ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno ,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no   ,validators=NoRepeat(),max='**'),
+
+           SANS_NOEUD      =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           SANS_GROUP_NO   =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+
+           NB_RESOL        =SIMP(statut='f',typ='I', defaut=10 ),
+
+           NOM_CMP         =SIMP(statut='o',typ='TXM',max='**'),
+
+           COEF_IMPO       =SIMP(statut='f',typ='R'),
+           COEF_MULT       =SIMP(statut='f',typ='R',max='**'),
+
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="CONTRAINTE",
+                                 into=("CONTRAINTE","GCPC",) ),
+
+
+        ),
 #
-            LONGUEUR      =SIMP(statut='f',typ='R',val_min=0,
-                                fr ="Longueur caractéristique",
-                                ang="Characteristic length",),
-            PRESSION      =SIMP(statut='f',typ='R',val_min=0,
-                                fr ="Pression caractéristique",
-                                ang="Characteristic pressure",),
-            TEMPERATURE   =SIMP(statut='f',typ='R',val_min=0,
-                                fr ="Température caractéristique",
-                                ang="Characteristic temperature",),),
+# CONTACT
 #
-         AFFE_SOUS_STRUC =FACT(statut='f',
-           regles=(UN_PARMI('TOUT','SUPER_MAILLE'),),
-           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
-           SUPER_MAILLE    =SIMP(statut='f',typ=ma,validators=NoRepeat(),max='**'),
-           PHENOMENE       =SIMP(statut='f',typ='TXM',defaut="MECANIQUE",into=("MECANIQUE",) ),
+         CONTACT         = C_CONTACT(),
+#
+# FORCES
+#
+         FORCE_NODALE    =FACT(statut='f',fr="Applique à des noeuds des forces nodales",max='**',
+           regles=(AU_MOINS_UN('GROUP_NO','NOEUD'),
+                   AU_MOINS_UN('FX','FY','FZ','MX','MY','MZ' ),),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           FX              =SIMP(statut='f',typ='R' ),
+           FY              =SIMP(statut='f',typ='R' ),
+           FZ              =SIMP(statut='f',typ='R' ),
+           MX              =SIMP(statut='f',typ='R' ),
+           MY              =SIMP(statut='f',typ='R' ),
+           MZ              =SIMP(statut='f',typ='R' ),
+           ANGL_NAUT       =SIMP(statut='f',typ='R',max=3),
          ),
-         AFFE            =FACT(statut='f',max='**',
-           regles=(UN_PARMI('TOUT','GROUP_MA','GROUP_NO','MAILLE','NOEUD'),),
+
+         FORCE_FACE      =FACT(statut='f',max='**',
+             fr="Applique des forces surfaciques sur une face d'élément volumique",
+             regles=(AU_MOINS_UN('GROUP_MA','MAILLE'),
+                     AU_MOINS_UN('FX','FY','FZ'),),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             FX              =SIMP(statut='f',typ='R' ),
+             FY              =SIMP(statut='f',typ='R' ),
+             FZ              =SIMP(statut='f',typ='R' ),
+           ),
+
+         FORCE_ARETE     =FACT(statut='f',max='**',
+         fr="Applique des forces linéiques à une arete d'élément volumique ou de coque",
+             regles=(AU_MOINS_UN('GROUP_MA','MAILLE',),
+                     AU_MOINS_UN('FX','FY','FZ','MX','MY','MZ' ),),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             FX              =SIMP(statut='f',typ='R' ),
+             FY              =SIMP(statut='f',typ='R' ),
+             FZ              =SIMP(statut='f',typ='R' ),
+             MX              =SIMP(statut='f',typ='R' ),
+             MY              =SIMP(statut='f',typ='R' ),
+             MZ              =SIMP(statut='f',typ='R' ),
+           ),
+
+         FORCE_CONTOUR   =FACT(statut='f',max='**',
+             fr="Applique des forces linéiques au bord d'un domaine 2D ou AXIS ou AXIS_FOURIER",
+             regles=(AU_MOINS_UN('GROUP_MA','MAILLE'),
+                     AU_MOINS_UN('FX','FY','FZ','MX','MY','MZ'),),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             FX              =SIMP(statut='f',typ='R' ),
+             FY              =SIMP(statut='f',typ='R' ),
+             FZ              =SIMP(statut='f',typ='R' ),
+             MX              =SIMP(statut='f',typ='R' ),
+             MY              =SIMP(statut='f',typ='R' ),
+             MZ              =SIMP(statut='f',typ='R' ),
+           ),
+
+         FORCE_INTERNE   =FACT(statut='f',max='**',
+             fr="Applique des forces volumiques (2D ou 3D) à un domaine volumique",
+             regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                     PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                     AU_MOINS_UN('FX','FY','FZ' ),),
+             TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             FX              =SIMP(statut='f',typ='R' ),
+             FY              =SIMP(statut='f',typ='R' ),
+             FZ              =SIMP(statut='f',typ='R' ),
+           ),
+
+         SIGM_INTERNE   =FACT(statut='f',max='**',
+             fr="Applique des contraintes volumiques (2D ou 3D) à un domaine volumique",
+             #INST            =SIMP(statut='f',typ='R' ),
+             SIGM            =SIMP(statut='o',typ=(cham_elem,carte_sdaster)),
+           ),
+
+         PRES_REP        =FACT(statut='f',max='**',
+             fr="Applique une pression à un domaine de milieu continu 2D ou 3D, ou à un domaine de coques et tuyaux",
+             regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE','FISSURE'),
+                     PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE','FISSURE'),
+                     AU_MOINS_UN('PRES','CISA_2D' ),),
+             TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             FISSURE         =SIMP(statut='f',typ=fiss_xfem,min=1,max=100,),
+             PRES            =SIMP(statut='f',typ='R' ),
+             CISA_2D         =SIMP(statut='f',typ='R' ),
+           ),
+
+         EFFE_FOND       =FACT(statut='f',max='**',
+           fr="Calcul l'effet de fond sur une branche de tuyauterie (modélisation 3D) soumise à une pression",
+           regles=(AU_MOINS_UN('GROUP_MA','MAILLE'),),
+           GROUP_MA_INT    =SIMP(statut='o',typ=grma,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           PRES            =SIMP(statut='o',typ='R' ),
+         ),
+
+         EPSI_INIT       =FACT(statut='f',max='**',
+             fr="Applique un chargement de déformation initiale à un élément 2D, 3D ou de structure",
+             regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                     PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                     AU_MOINS_UN('EPXX','EPYY','EPZZ','EPXY','EPXZ','EPYZ','EPX',
+                                 'KY','KZ','EXX','EYY','EXY','KXX','KYY','KXY'),),
+             TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             EPXX            =SIMP(statut='f',typ='R' ),
+             EPYY            =SIMP(statut='f',typ='R' ),
+             EPZZ            =SIMP(statut='f',typ='R' ),
+             EPXY            =SIMP(statut='f',typ='R' ),
+             EPXZ            =SIMP(statut='f',typ='R' ),
+             EPYZ            =SIMP(statut='f',typ='R' ),
+             EPX             =SIMP(statut='f',typ='R' ),
+             KY              =SIMP(statut='f',typ='R' ),
+             KZ              =SIMP(statut='f',typ='R' ),
+             EXX             =SIMP(statut='f',typ='R' ),
+             EYY             =SIMP(statut='f',typ='R' ),
+             EXY             =SIMP(statut='f',typ='R' ),
+             KXX             =SIMP(statut='f',typ='R' ),
+             KYY             =SIMP(statut='f',typ='R' ),
+             KXY             =SIMP(statut='f',typ='R' ),
+           ),
+
+         ARLEQUIN        =FACT(statut='f',min=1,max='**',
+           fr="Définit les paramètres de la méthode Arlequin",
+           GROUP_MA_1     =SIMP(statut='o',typ=grma,max='**'),
+           GROUP_MA_2     =SIMP(statut='o',typ=grma,max='**'),
+           GROUP_MA_COLL  =SIMP(statut='f',typ=grma,max='**'),
+           CARA_ELEM      =SIMP(statut='f',typ=cara_elem ),
+           COND_LIM       =SIMP(statut='f',typ=char_meca ),
+           COLLAGE        =SIMP(statut='f',typ='TXM',defaut="GROSSIER",into=("GROSSIER","FIN","GROUP_MA_1","GROUP_MA_2"),),
+           regles         =(UN_PARMI('POIDS_1','POIDS_2','POIDS_GROSSIER','POIDS_FIN',),),
+           POIDS_1        =SIMP(statut='f',typ='R'),
+           POIDS_2        =SIMP(statut='f',typ='R'),
+           POIDS_GROSSIER =SIMP(statut='f',typ='R'),
+           UNITE_GMSH     =SIMP(statut='f',typ='I',defaut=0,max=1),
+           POIDS_FIN      =SIMP(statut='f',typ='R'),),
+
+        FORCE_POUTRE    =FACT(statut='f',max='**',
+             fr="Applique des forces linéiques sur des éléments de type poutre",
+             regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                     PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                     AU_MOINS_UN('FX','FY','FZ','N','VY','VZ'),
+                     PRESENT_ABSENT('FX','N','VY','VZ'),
+                     PRESENT_ABSENT('FY','N','VY','VZ'),
+                     PRESENT_ABSENT('FZ','N','VY','VZ'),
+                     PRESENT_ABSENT('N','FX','FY','FZ'),
+                     PRESENT_ABSENT('VY','FX','FY','FZ'),
+                     PRESENT_ABSENT('VZ','FX','FY','FZ'),),
+             TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             TYPE_CHARGE     =SIMP(statut='f',typ='TXM',defaut="FORCE",into=("VENT","FORCE",) ),
+#  rajour d'un mot clé REPERE :/ LOCAL /GLOBAL
+               FX              =SIMP(statut='f',typ='R' ),
+               FY              =SIMP(statut='f',typ='R' ),
+               FZ              =SIMP(statut='f',typ='R' ),
+
+               N               =SIMP(statut='f',typ='R' ),
+               VY              =SIMP(statut='f',typ='R' ),
+               VZ              =SIMP(statut='f',typ='R' ),
+
+           ),
+
+         FORCE_TUYAU     =FACT(statut='f',max='**',
+             fr="Applique une pression sur des éléments TUYAU",
+             regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                     PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),),
+             TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             PRES            =SIMP(statut='f',typ='R' ),
+           ),
+
+         FORCE_COQUE     =FACT(statut='f',max='**',
+             fr="Applique des forces surfaciques sur des éléments de types coques",
+             regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                     PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                     AU_MOINS_UN('FX','FY','FZ','MX','MY','MZ','PRES','F1','F2','F3','MF1','MF2'),
+                     PRESENT_ABSENT('FX','PRES','F1','F2','F3','MF1','MF2'),
+                     PRESENT_ABSENT('FY','PRES','F1','F2','F3','MF1','MF2'),
+                     PRESENT_ABSENT('FZ','PRES','F1','F2','F3','MF1','MF2'),
+                     PRESENT_ABSENT('MX','PRES','F1','F2','F3','MF1','MF2'),
+                     PRESENT_ABSENT('MY','PRES','F1','F2','F3','MF1','MF2'),
+                     PRESENT_ABSENT('MZ','PRES','F1','F2','F3','MF1','MF2'),
+                     PRESENT_ABSENT('F1','FX','FY','FZ','MX','MY','MZ','PRES'),
+                     PRESENT_ABSENT('F2','FX','FY','FZ','MX','MY','MZ','PRES'),
+                     PRESENT_ABSENT('F3','FX','FY','FZ','MX','MY','MZ','PRES'),
+                     PRESENT_ABSENT('MF1','FX','FY','FZ','MX','MY','MZ','PRES'),
+                     PRESENT_ABSENT('MF2','FX','FY','FZ','MX','MY','MZ','PRES'),
+                     PRESENT_ABSENT('PRES','FX','FY','FZ','MX','MY','MZ','F1','F2','F3','MF1','MF2'),),
+#  rajour d'un mot clé REPERE :/ LOCAL /GLOBAL
+             TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+
+               FX              =SIMP(statut='f',typ='R' ),
+               FY              =SIMP(statut='f',typ='R' ),
+               FZ              =SIMP(statut='f',typ='R' ),
+               MX              =SIMP(statut='f',typ='R' ),
+               MY              =SIMP(statut='f',typ='R' ),
+               MZ              =SIMP(statut='f',typ='R' ),
+
+               F1              =SIMP(statut='f',typ='R' ),
+               F2              =SIMP(statut='f',typ='R' ),
+               F3              =SIMP(statut='f',typ='R' ),
+               MF1             =SIMP(statut='f',typ='R' ),
+               MF2             =SIMP(statut='f',typ='R' ),
+
+             PRES            =SIMP(statut='f',typ='R' ),
+             PLAN            =SIMP(statut='f',typ='TXM',defaut="MAIL",into=("SUP","INF","MOY","MAIL",) ),
+           ),
+
+
+           GRAPPE_FLUIDE   =FACT(statut='f',max='**',
+             fr="Définit les données de calcul des forces fluides lors des études de chute de grappe",
+             regles=(EXCLUS('GROUP_NO_EXTR','NOEUD_EXTR'),
+                     EXCLUS('GROUP_NO_ORIG','NOEUD_ORIG'),
+                     PRESENT_PRESENT('CARA_HYDR','VALE_HYDR'),
+                     PRESENT_PRESENT('CARA_GRAPPE','VALE_GRAPPE'),
+                     PRESENT_PRESENT('CARA_COMMANDE','VALE_COMMANDE'),
+                     PRESENT_PRESENT('CARA_MANCHETTE','VALE_MANCHETTE'),
+                     PRESENT_PRESENT('CARA_GUIDE','VALE_GUIDE'),
+                     PRESENT_PRESENT('CARA_ASSEMBLAGE','VALE_ASSEMBLAGE'),
+                     PRESENT_PRESENT('CARA_PDC','VALE_PDC'),),
+             GROUP_MA        =SIMP(statut='f',typ=grma,max=1),
+             GROUP_NO_EXTR   =SIMP(statut='f',typ=grno,max=1),
+             NOEUD_EXTR      =SIMP(statut='f',typ=no,max=1),
+             GROUP_NO_ORIG   =SIMP(statut='f',typ=grno,max=1),
+             NOEUD_ORIG      =SIMP(statut='f',typ=no,max=1),
+             Z0              =SIMP(statut='f',typ='R' ),
+             CARA_HYDR       =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**',
+                                 fr="définition des données hydrauliques",
+                                 into=("Q","ROC","ROD","ROP","ROM","ROML","ROG","NUC","NUM",
+                                       "NUML","NUG","P2","P3","P4","CGG","G") ),
+             VALE_HYDR       =SIMP(statut='f',typ='R',max='**',
+                                 fr="valeurs des données hydrauliques",),
+             CARA_GRAPPE     =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**',
+                                 fr="définition des données géométriques de la grappe",
+                                 into=("M","DTIGE","DTMOY","ROTIGE","LTIGE","LLT","LCT",
+                                       "VARAI","RORAI","DCRAY","ROCRAY","LCRAY","LCHUT",
+                                       "CFCM","CFCI","CFCG","HRUGC","HRUGTC","NCA") ),
+             VALE_GRAPPE     =SIMP(statut='f',typ='R',max='**',
+                                 fr="valeurs des données géométriques de la grappe",),
+             CARA_COMMANDE   =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**',
+                                 fr="définition des données géométriques du mécanisme de commande",
+                                 into=("LI","LML","LG","LIG","DIML","DEML","DCSP",
+                                       "DG","HRUGML","HRUGCSP","HRUGG") ),
+             VALE_COMMANDE   =SIMP(statut='f',typ='R',max='**',
+                                 fr="valeurs des données géométriques du mécanisme de commande",),
+             CARA_MANCHETTE  =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**',
+                                 fr="définition des données géométriques de la manchette et son adaptateur",
+                                 into=("LM","LA","LIM","DIMT","DEMT","DCMT","VMT",
+                                       "ROMT","DA","HRUGM","HRUGA") ),
+             VALE_MANCHETTE  =SIMP(statut='f',typ='R',max='**',
+                                 fr="valeurs des données géométriques de la manchette et son adaptateur",),
+             CARA_GUIDE      =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**',
+                                 fr="définition des données géométriques des tubes guides",
+                                 into=("NRET","L0","L1","L2","L3","L4","DTG","DR",
+                                       "DOR","D0","D00","HRUGTG") ),
+             VALE_GUIDE      =SIMP(statut='f',typ='R',max='**',
+                                 fr="valeurs des données géométriques des tubes guides",),
+             CARA_ASSEMBLAGE =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**',
+                                 fr="définition des données géométriques des assemblages",
+                                 into=("SASS","DCC","DTI","NGM","NGMDP","KM","KS","KI",
+                                       "KES","KEI","KF") ),
+             VALE_ASSEMBLAGE =SIMP(statut='f',typ='R',max='**',
+                                 fr="valeurs des données géométriques des assemblages",),
+             CARA_PDC        =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**',
+                                 fr="définition des coefficients de perte de charge singulière",
+                                 into=("CD0","CD1","CD2","CDELARG","CDRET","CDM","CDA","CDML",
+                                       "CDI","CDG") ),
+             VALE_PDC        =SIMP(statut='f',typ='R',max='**',
+                                 fr="valeurs des coefficients de perte de charge singulière",),
+             DIRE_FORC_FPLAQ  =SIMP(statut='f',typ='R',min=3,max=3,
+                                 fr="direction d'application de la force de plaquage",),
+             UNITE_IMPR_FORCE =SIMP(statut='f',typ='I',
+                                 fr="unité d'impression des forces",),
+             UNITE_IMPR_NOEUD =SIMP(statut='f',typ='I',
+                                 fr="unité d'impression des noeuds par zone",),
+           ),
+
+           LIAISON_COQUE   =FACT(statut='f',max='**',
+             fr="Permet de représenter le raccord entre des éléments de coques au moyen des relations linéaires",
+             GROUP_MA_1      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE_1        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             GROUP_NO_1      =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+             NOEUD_1         =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+             GROUP_MA_2      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE_2        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             GROUP_NO_2      =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+             NOEUD_2         =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+             NUME_LAGR       =SIMP(statut='f',typ='TXM',defaut="NORMAL",into=("NORMAL","APRES") ),
+           ),
+
+         RELA_CINE_BP    =FACT(statut='f',max='**',
+           fr="Etablir des relations cinématiques permettant de relier les noeuds cable aux noeuds du béton, et spécifier"
+              +" la prise en compte des contraintes initiales dans les cables",
+           CABLE_BP        =SIMP(statut='o',typ=cabl_precont ),
+           SIGM_BPEL       =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+           RELA_CINE       =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           DIST_MIN        =SIMP(statut='f',typ='R'),
+         ),
+
+         FORCE_ELEC      =FACT(statut='f',max='**',
+             fr="Appliquer la force de LAPLACE agissant sur un conducteur principal, due à la présence d'un conducteur"
+                 +" secondaire droit",
+             regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                     PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),),
+
+             TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+
+             POSITION        =SIMP(statut='f',typ='TXM',fr="Direction prédéfinie",into=("PARA","INFI","FINI",) ),
+             b_fxyz  =BLOC ( condition = "POSITION == None",
+                  FX   =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+                  FY   =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+                  FZ   =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+                       ),
+
+             b_para     =BLOC ( condition = "POSITION == 'PARA'",
+               regles=(UN_PARMI('TRANS','DIST'),),
+               TRANS           =SIMP(statut='f',typ='R',max=3),
+               DIST            =SIMP(statut='f',typ='R' ),
+               b_point2        =BLOC ( condition = "DIST != None",
+                 POINT2           =SIMP(statut='o',typ='R',max=3),
+               ),
+             ),
+             b_fini_infi     =BLOC ( condition = "(POSITION == 'FINI') or (POSITION == 'INFI')",
+               POINT1          =SIMP(statut='o',typ='R',max=3),
+               POINT2          =SIMP(statut='o',typ='R',max=3),
+             ),
+           ),
+
+
+
+
+        INTE_ELEC       =FACT(statut='f',max='**',
+             fr="Appliquer la force de LAPLACE agissant sur un conducteur principal, due à la présence d'un conducteur"
+               +" secondaire non nécessairement droit",
+             regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                     PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                     AU_MOINS_UN('GROUP_MA_2','MAILLE_2','TRANS','SYME'),
+                     EXCLUS('TRANS','SYME'),),
+             TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             GROUP_MA_2      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE_2        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             TRANS           =SIMP(statut='f',typ='R' ,max='**'),
+             SYME            =SIMP(statut='f',typ='R' ,max='**'),
+           ),
+
+
+         IMPE_FACE       =FACT(statut='f',fr="Applique une impédance acoustique à une face",max='**',
+             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='**'),
+             IMPE            =SIMP(statut='o',typ='R' ),
+           ),
+
+         VITE_FACE       =FACT(statut='f',fr="Impose des vitesses normales à une face (phénomène ACOUSTIQUE), ",max='**',
+             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='**'),
+             VNOR            =SIMP(statut='o',typ='R' ),
+           ),
+
+
+
+         ONDE_FLUI       =FACT(statut='f',max='**',
+             fr="Applique une amplitude de pression d'onde incidente sinusoidale arrivant normalement à une face",
+             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='**'),
+             PRES            =SIMP(statut='o',typ='R' ),
+           ),
+
+         FLUX_THM_REP    =FACT(statut='f',max='**',
+             fr="Applique à un domaine de milieu continu 2D ou 3D un flux de chaleur et/ou un apport de masse fluide"
+                 +" (flux hydraulique)",
+             regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                     PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                     AU_MOINS_UN('FLUN','FLUN_HYDR1','FLUN_HYDR2'),),
+             TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             FLUN            =SIMP(statut='f',typ='R' ),
+             FLUN_HYDR1      =SIMP(statut='f',typ='R' ),
+             FLUN_HYDR2      =SIMP(statut='f',typ='R' ),
+           ),
+
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+)  ;
+
+
+#& MODIF COMMANDE  DATE 16/09/2008   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.
+#
+# 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 DESROCHES X.DESROCHES
+AFFE_CHAR_MECA_C=OPER(nom="AFFE_CHAR_MECA_C",op=   7,sd_prod=char_meca,
+                     fr="Affectation de charges et conditions aux limites mécaniques complexes",
+                     reentrant='n',
+            UIinfo={"groupes":("Modélisation",)},
+         regles=(AU_MOINS_UN('DDL_IMPO','FORCE_POUTRE','LIAISON_DDL', ),),
+         MODELE          =SIMP(statut='o',typ=modele_sdaster ),
+         VERI_DDL        =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         METHODE         =SIMP(statut='c',typ='TXM',fr="Stratégie de résolution pour les déplacements imposés",
+                               into=('DUALISATION',),defaut='DUALISATION',),
+                               # METHODE='ELIMINATION' est traité dans le fortran mais dangereux actuellement
+         DDL_IMPO        =FACT(statut='f',max='**',
+           fr="Impose à des noeuds une ou plusieurs valeurs de déplacement (ou de certaines grandeurs asscociées)",
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE','GROUP_NO','NOEUD',),
+                   AU_MOINS_UN('DX','DY','DZ','DRX','DRY','DRZ','GRX','PRES','PHI','LIAISON', ),),
            TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
            GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
            MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
            NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-           PHENOMENE       =SIMP(statut='o',typ='TXM',
-                                 into=("MECANIQUE","THERMIQUE","ACOUSTIQUE") ),
-                b_mecanique     =BLOC( condition = "PHENOMENE=='MECANIQUE'",
-                                        fr="modélisations mécaniques",
-                    MODELISATION    =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',into=(
-                                  "2D_DIS_T",        # RESP. : FLEJOU J.L.FLEJOU
-                                  "2D_DIS_TR",       # RESP. : FLEJOU J.L.FLEJOU
-                                  "2D_FLUI_ABSO",    # RESP. : DEVESA G.DEVESA
-                                  "2D_FLUI_PESA",    # RESP. : GREFFET N.GREFFET
-                                  "2D_FLUI_STRU",    # RESP. : GREFFET N.GREFFET
-                                  "2D_FLUIDE",       # RESP. : GREFFET N.GREFFET
-                                  "3D",              # RESP. : DESROCHES X.DESROCHES
-                                  "3D_ABSO",         # RESP. : DEVESA G.DEVESA
-                                  "3D_FAISCEAU",     # RESP. : VOLDOIRE F.VOLDOIRE
-                                  "3D_FLUI_ABSO",    # RESP. : DEVESA G.DEVESA
-                                  "3D_FLUIDE",       # RESP. : GREFFET N.GREFFET
-                                  "3D_INCO",         # RESP. : MICHEL S.MICHEL
-                                  "3D_INCO_GD",      # RESP. : MICHEL S.MICHEL
+           LIAISON         =SIMP(statut='f',typ='TXM',into=('ENCASTRE',)),
+           DX              =SIMP(statut='f',typ='C' ),
+           DY              =SIMP(statut='f',typ='C' ),
+           DZ              =SIMP(statut='f',typ='C' ),
+           DRX             =SIMP(statut='f',typ='C' ),
+           DRY             =SIMP(statut='f',typ='C' ),
+           DRZ             =SIMP(statut='f',typ='C' ),
+           GRX             =SIMP(statut='f',typ='C' ),
+           PRES            =SIMP(statut='f',typ='C' ),
+           PHI             =SIMP(statut='f',typ='C' ),
+         ),
+         FORCE_POUTRE    =FACT(statut='f',max='**',
+           fr="Applique des forces linéiques sur des éléments de type poutre",
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                   PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                   AU_MOINS_UN('FX','FY','FZ','N','VY','VZ',),
+                   PRESENT_ABSENT('FX','N','VY','VZ',),
+                   PRESENT_ABSENT('FY','N','VY','VZ',),
+                   PRESENT_ABSENT('FZ','N','VY','VZ',),
+                   PRESENT_ABSENT('N','FX','FY','FZ',),
+                   PRESENT_ABSENT('VY', 'FX','FY','FZ',),
+                   PRESENT_ABSENT('VZ','FX','FY','FZ', ),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           TYPE_CHARGE     =SIMP(statut='f',typ='TXM',defaut="FORCE",into=("VENT","FORCE") ),
+           FX              =SIMP(statut='f',typ='C' ),
+           FY              =SIMP(statut='f',typ='C' ),
+           FZ              =SIMP(statut='f',typ='C' ),
+           N               =SIMP(statut='f',typ='C' ),
+           VY              =SIMP(statut='f',typ='C' ),
+           VZ              =SIMP(statut='f',typ='C' ),
+         ),
+         LIAISON_DDL     =FACT(statut='f',max='**',
+           fr="Définit une relation linéaire entre les DDLs de deux ou plusieurs noeuds",
+           regles=(UN_PARMI('GROUP_NO','NOEUD', ),),
+           GROUP_NO        =SIMP(statut='f',typ=grno,max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,max='**'),
+           DDL             =SIMP(statut='o',typ='TXM',max='**'),
+           COEF_MULT       =SIMP(statut='o',typ='R'  ,max='**'),
+           COEF_IMPO       =SIMP(statut='o',typ='C' ),
+         ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+)  ;
+#& MODIF COMMANDE  DATE 16/09/2008   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.
+#
+# 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 DESROCHES X.DESROCHES
+AFFE_CHAR_MECA_F=OPER(nom="AFFE_CHAR_MECA_F",op=7,sd_prod=char_meca,
+                      fr="Affectation de charges et conditions aux limites mécaniques fonction d'un (ou plusieurs) paramètres",
+                      reentrant='n',
+            UIinfo={"groupes":("Modélisation",)},
+        regles=(AU_MOINS_UN('DDL_IMPO','FACE_IMPO','LIAISON_DDL','FORCE_NODALE',
+                            'FORCE_FACE','FORCE_ARETE','FORCE_CONTOUR','FORCE_INTERNE',
+                            'PRES_REP','FORCE_POUTRE','VITE_FACE','IMPE_FACE','ONDE_PLANE',
+                            'LIAISON_OBLIQUE','EPSI_INIT','LIAISON_GROUP','LIAISON_UNIF',
+                            'LIAISON_SOLIDE','FORCE_COQUE','LIAISON_COQUE','FORCE_TUYAU',
+                            'EFFE_FOND','FLUX_THM_REP','LIAISON_UNILATER'),),
+         VERI_DDL        =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         VERI_NORM       =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         MODELE          =SIMP(statut='o',typ=modele_sdaster),
+         METHODE         =SIMP(statut='c',typ='TXM',fr="Stratégie de résolution pour les déplacements imposés",
+                               into=('DUALISATION',),defaut='DUALISATION',),
+                               # METHODE='ELIMINATION' est traité dans le fortran mais dangereux actuellement
+
+         DDL_IMPO        =FACT(statut='f',max='**',
+           fr="Impose à des noeuds une ou plusieurs valeurs de déplacement (ou de certaines grandeurs asscociées) fournies"
+               +" par l'intermédiaire d'un concept fonction ",
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE','GROUP_NO','NOEUD'),
+                   AU_MOINS_UN('DX','DY','DZ','DRX','DRY','DRZ','GRX','PRES','PHI',
+                               'TEMP','PRE1','PRE2','LIAISON','DCX','DCY','DCZ','H1X',
+                               'H1Y','H1Z','E1X','E1Y','E1Z','E2X','E2Y','E2Z',
+                               'E3X','E3Y','E3Z','E4X','E4Y','E4Z','LAGS_C'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           LIAISON         =SIMP(statut='f',typ='TXM',into=('ENCASTRE',)),
+           DX              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DY              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DZ              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DRX             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DRY             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DRZ             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           GRX             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           PRES            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           PHI             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           TEMP            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           PRE1            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           PRE2            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DCX             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DCY             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DCZ             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           H1X             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           H1Y             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           H1Z             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           E1X             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           E1Y             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           E1Z             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           E2X             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           E2Y             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           E2Z             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           E3X             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           E3Y             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           E3Z             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           E4X             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           E4Y             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           E4Z             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           LAGS_C          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         FACE_IMPO       =FACT(statut='f',max='**',
+           fr="Impose à tous les noeuds d'une face une ou plusieurs valeurs de déplacement (ou de certaines grandeurs associées)"
+              +" fournies par l'intérmédiaire d'un concept fonction",
+           regles=(UN_PARMI('GROUP_MA','MAILLE'),
+                   AU_MOINS_UN('DX','DY','DZ','DRX','DRY','DRZ','GRX','PRES','PHI','TEMP','PRE1','PRE2','DNOR','DTAN'),
+                   EXCLUS('DNOR','DX'),
+                   EXCLUS('DNOR','DY'),
+                   EXCLUS('DNOR','DZ'),
+                   EXCLUS('DNOR','DRX'),
+                   EXCLUS('DNOR','DRY'),
+                   EXCLUS('DNOR','DRZ'),
+                   EXCLUS('DTAN','DX'),
+                   EXCLUS('DTAN','DY'),
+                   EXCLUS('DTAN','DZ'),
+                   EXCLUS('DTAN','DRX'),
+                   EXCLUS('DTAN','DRY'),
+                   EXCLUS('DTAN','DRZ'),),
+#  rajout d un mot cle REPERE : / GLOBAL / LOCAL
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           SANS_GROUP_MA   =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           SANS_MAILLE     =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           SANS_GROUP_NO   =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           SANS_NOEUD      =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           DX              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DY              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DZ              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DRX             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DRY             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DRZ             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           GRX             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           PRES            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           PHI             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           TEMP            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           PRE1            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           PRE2            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DNOR            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DTAN            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         LIAISON_DDL     =FACT(statut='f',max='**',
+           fr="Définit une relation linéaire entre des DDLs de deux ou plusieurs noeuds, les valeurs sont fournies par"
+               +" l'intermediaire d'un concept de type fonction",
+           regles=(UN_PARMI('GROUP_NO','NOEUD'),UN_PARMI('COEF_MULT','COEF_MULT_FONC'),),
+           GROUP_NO        =SIMP(statut='f',typ=grno,max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,max='**'),
+           DDL             =SIMP(statut='o',typ='TXM',max='**'),
+           COEF_MULT       =SIMP(statut='f',typ='R',max='**'),
+           COEF_MULT_FONC  =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule),max='**'),
+           COEF_IMPO       =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         LIAISON_OBLIQUE =FACT(statut='f',max='**',
+           fr="Applique à des noeuds la meme valeur de déplacement définie composante par composante dans un repère oblique"
+              +" quelconque, les valeurs sont fournis par l'intermédiaire d'un concept fonction",
+           regles=(UN_PARMI('GROUP_NO','NOEUD'),
+                   UN_PARMI('DX','DY','DZ','DRX','DRY','DRZ'),),
+           GROUP_NO        =SIMP(statut='f',typ=grno,max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,max='**'),
+           ANGL_NAUT       =SIMP(statut='o',typ='R',max=3),
+           DX              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DY              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DZ              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DRX             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DRY             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DRZ             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         LIAISON_GROUP   =FACT(statut='f',max='**',
+           fr="Définit la meme relation linéaire entre certains DDLs de couples de noeuds, les valeurs sont fournies par"
+               +" l'intermédiaire de concept fonction",
+           regles=(UN_PARMI('GROUP_MA_1','MAILLE_1','GROUP_NO_1','NOEUD_1'),
+                   UN_PARMI('GROUP_MA_2','MAILLE_2','GROUP_NO_2','NOEUD_2'),
+                   EXCLUS('GROUP_MA_1','GROUP_NO_2'),
+                   EXCLUS('GROUP_MA_1','NOEUD_2'),
+                   EXCLUS('GROUP_NO_1','GROUP_MA_2'),
+                   EXCLUS('GROUP_NO_1','MAILLE_2'),
+                   EXCLUS('MAILLE_1','GROUP_NO_2'),
+                   EXCLUS('MAILLE_1','NOEUD_2'),
+                   EXCLUS('NOEUD_1','GROUP_MA_2'),
+                   EXCLUS('NOEUD_1','MAILLE_2'),
+                   EXCLUS('SANS_NOEUD','SANS_GROUP_NO'),),
+           GROUP_MA_1      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE_1        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO_1      =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD_1         =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           GROUP_MA_2      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE_2        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO_2      =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD_2         =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           SANS_NOEUD      =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           SANS_GROUP_NO   =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           DDL_1           =SIMP(statut='o',typ='TXM',max='**'),
+           COEF_MULT_1     =SIMP(statut='o',typ='R',max='**'),
+           DDL_2           =SIMP(statut='o',typ='TXM',max='**'),
+           COEF_MULT_2     =SIMP(statut='o',typ='R',max='**'),
+           COEF_IMPO       =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           SOMMET          =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           TRAN            =SIMP(statut='f',typ='R',max=3),
+           ANGL_NAUT       =SIMP(statut='f',typ='R',max=3),
+           CENTRE          =SIMP(statut='f',typ='R',max=3),
+         ),
+#
+# LIAISON UNILATERALE
+#
+         LIAISON_UNILATER=FACT(statut='f',max='**',
+           fr="Définit les zones soumises à des conditions de liaison unilaterale (inegalite sur un DDL)",
+           regles=(UN_PARMI('GROUP_MA','MAILLE','GROUP_NO','NOEUD'),),
+
+           GROUP_MA        =SIMP(statut='f',typ=grma ,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma   ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno ,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no   ,validators=NoRepeat(),max='**'),
+
+           SANS_NOEUD      =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           SANS_GROUP_NO   =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+
+           NB_RESOL        =SIMP(statut='f',typ='I', defaut=10 ),
+
+           NOM_CMP         =SIMP(statut='o',typ='TXM',max='**'),
+
+           COEF_IMPO       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+           COEF_MULT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule),max='**'),
+
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="CONTRAINTE",
+                                 into=("CONTRAINTE","GCPC",) ),
+
+
+        ),
+
+          LIAISON_UNIF    =FACT(statut='f',max='**',
+           fr="Impose une meme valeur (inconnue) à des DDLs d'un ensemble de noeuds",
+           regles=(UN_PARMI('GROUP_NO','NOEUD','GROUP_MA','MAILLE'),),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           DDL             =SIMP(statut='o',typ='TXM',max='**'),
+         ),
+
+
+         LIAISON_SOLIDE  =FACT(statut='f',max='**',
+           fr="Modélise une partie indéformable d'une structure."
+            +" Les mots clés TRAN et ANGL_NAUT permettent d'imposer le déplacement de la partie indéformable.",
+           regles=(UN_PARMI('GROUP_NO','NOEUD','GROUP_MA','MAILLE'),
+                   ENSEMBLE('CENTRE','ANGL_NAUT'),),
+           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='**'),
+           TRAN            =SIMP(statut='f',typ='R',max=3 ),
+           ANGL_NAUT       =SIMP(statut='f',typ='R',max=3 ),
+           CENTRE          =SIMP(statut='f',typ='R',max=3 ),
+           DIST_MIN        =SIMP(statut='f',typ='R'),
+           NUME_LAGR       =SIMP(statut='f',typ='TXM',defaut="NORMAL",into=("NORMAL","APRES") ),
+         ),
+
+
+
+         FORCE_NODALE    =FACT(statut='f',max='**',
+           fr="Applique à des noeuds des forces nodales dont les valeurs des composantes sont fournies par l'intermédiaire"
+               +" d'un concept fonction",
+           regles=(UN_PARMI('GROUP_NO','NOEUD'),
+                   AU_MOINS_UN('FX','FY','FZ','MX','MY','MZ'),),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           FX              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FY              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FZ              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           MX              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           MY              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           MZ              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           ANGL_NAUT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule),max=3 ),
+         ),
+
+         FORCE_FACE      =FACT(statut='f',max='**',
+           fr="Applique des forces surfaciques sur une face d'élément volumique dont les valeurs des composantes sont fournies"
+               +" par l'intermédiaire d'un concept fonction",
+           regles=(AU_MOINS_UN('GROUP_MA','MAILLE'),
+                   AU_MOINS_UN('FX','FY','FZ'),),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           FX              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FY              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FZ              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+         FORCE_ARETE     =FACT(statut='f',max='**',
+           fr="Applique des forces linéiques à une arete d'élément volumique ou de coque dont les valeurs des composantes sont"
+               +" fournies par l'intermédiaire d'un concept fonction",
+           regles=(AU_MOINS_UN('GROUP_MA','MAILLE'),
+                   AU_MOINS_UN('FX','FY','FZ','MX','MY','MZ'),),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           FX              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FY              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FZ              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           MX              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           MY              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           MZ              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+         FORCE_CONTOUR   =FACT(statut='f',max='**',
+           fr="Applique des forces linéiques au bord d'un domaine 2D ou AXIS ou AXIS_FOURIER, dont les valeurs des composantes"
+               +" sont fournies par l'intermédiaire d'un concept fonction",
+           regles=(AU_MOINS_UN('GROUP_MA','MAILLE'),
+                   AU_MOINS_UN('FX','FY','FZ','MX','MY','MZ'),),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           FX              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FY              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FZ              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           MX              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           MY              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           MZ              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         FORCE_INTERNE   =FACT(statut='f',max='**',
+           fr="Applique des forces volumiques (2D ou 3D) à un domaine volumique, dont les valeurs des composantes sont fournies"
+               +" par l'intermédiaire d'un concept fonction",
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                   PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                   AU_MOINS_UN('FX','FY','FZ'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           FX              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FY              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FZ              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         PRES_REP        =FACT(statut='f',max='**',
+           fr="Applique une pression à un domaine de milieu continu 2D ou 3D ou à un domaine de coques et tuyaux, dont les"
+               +" valeurs imposées (pression et/ou cisaillement) sont fournies par l'intermédiaire d'un concept fonction",
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE','FISSURE'),
+                   PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE','FISSURE'),
+                   AU_MOINS_UN('PRES','CISA_2D'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           FISSURE         =SIMP(statut='f',typ=fiss_xfem,min=1,max=100,),
+           PRES            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           CISA_2D         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         EFFE_FOND       =FACT(statut='f',max='**',
+           fr="Calcul l'effet de fond sur une branche de tuyauterie (modélisation 3D) soumise"
+               +" à une pression dont la valeur est fournie par l'intermédiaire d'un concept fonction",
+           regles=(AU_MOINS_UN('GROUP_MA','MAILLE'),),
+           GROUP_MA_INT    =SIMP(statut='o',typ=grma,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           PRES            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         EPSI_INIT       =FACT(statut='f',max='**',
+           fr="Applique un chargement de déformation initiale à un élément 2D, 3D ou de structure dont les composantes"
+               +" du tenseur de déformation sont fournies par l'intermédiaire d'un concept fonction",
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                   PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                   AU_MOINS_UN('EPXX','EPYY','EPZZ','EPXY','EPXZ','EPYZ'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           EPXX            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           EPYY            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           EPZZ            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           EPXY            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           EPXZ            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           EPYZ            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         FORCE_POUTRE    =FACT(statut='f',max='**',
+           fr="Applique des forces linéiques sur des éléments de type poutre dont les valeurs sont fournies par"
+               +" l'intermédiaire d'un concept fonction",
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                   PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                   AU_MOINS_UN('FX','FY','FZ','N','VY','VZ'),
+                   PRESENT_ABSENT('FX','N','VY','VZ'),
+                   PRESENT_ABSENT('FY','N','VY','VZ'),
+                   PRESENT_ABSENT('FZ','N','VY','VZ'),
+                   PRESENT_ABSENT('N','FX','FY','FZ'),
+                   PRESENT_ABSENT('VY','FX','FY','FZ'),
+                   PRESENT_ABSENT('VZ','FX','FY','FZ'),),
+#  rajout d un mot cle REPERE : / GLOBAL / LOCAL
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           TYPE_CHARGE     =SIMP(statut='f',typ='TXM',defaut="FORCE",into=("VENT","FORCE") ),
+           FX              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FY              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FZ              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           N               =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           VY              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           VZ              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         FORCE_TUYAU     =FACT(statut='f',max='**',
+           fr="Applique une pression sur des éléments TUYAU, la valeur est fournie par l'intermédiaire d'un concept fonction",
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                   PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           PRES            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         FORCE_COQUE     =FACT(statut='f',max='**',
+           fr="Applique des forces surfaciques sur des éléments de types coques dont les valeurs sont fournies par"
+               +" l'intermédiaires d'un concept fonction",
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                   PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                   AU_MOINS_UN('FX','FY','FZ','MX','MY','MZ','PRES','F1','F2','F3','MF1','MF2'),
+                   PRESENT_ABSENT('FX','PRES','F1','F2','F3','MF1','MF2'),
+                   PRESENT_ABSENT('FY','PRES','F1','F2','F3','MF1','MF2'),
+                   PRESENT_ABSENT('FZ','PRES','F1','F2','F3','MF1','MF2'),
+                   PRESENT_ABSENT('MX','PRES','F1','F2','F3','MF1','MF2'),
+                   PRESENT_ABSENT('MY','PRES','F1','F2','F3','MF1','MF2'),
+                   PRESENT_ABSENT('MZ','PRES','F1','F2','F3','MF1','MF2'),
+                   PRESENT_ABSENT('F1','PRES','FX','FY','FZ','MX','MY','MZ'),
+                   PRESENT_ABSENT('F2','PRES','FX','FY','FZ','MX','MY','MZ'),
+                   PRESENT_ABSENT('F3','PRES','FX','FY','FZ','MX','MY','MZ'),
+                   PRESENT_ABSENT('MF1','PRES','FX','FY','FZ','MX','MY','MZ'),
+                   PRESENT_ABSENT('MF2','PRES','FX','FY','FZ','MX','MY','MZ'),
+                   PRESENT_ABSENT('PRES','FX','FY','FZ','MX','MY','MZ','F1','F2','F3','MF1','MF2'),),
+#  rajout d un mot cle REPERE : / GLOBAL / LOCAL
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           FX              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FY              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FZ              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           MX              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           MY              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           MZ              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           F1              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           F2              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           F3              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           MF1             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           MF2             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           PRES            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           PLAN            =SIMP(statut='f',typ='TXM',defaut="MAIL",
+                                 into=("SUP","INF","MOY","MAIL") ),
+         ),
+
+         LIAISON_COQUE   =FACT(statut='f',max='**',
+           fr="Permet de représenter le raccord entre des éléments de coques au moyen des relations linéaires",
+           GROUP_MA_1      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE_1        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO_1      =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD_1         =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           GROUP_MA_2      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE_2        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO_2      =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD_2         =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           NUME_LAGR       =SIMP(statut='f',typ='TXM',defaut="NORMAL",into=("NORMAL","APRES",) ),
+         ),
+
+
+         VITE_FACE       =FACT(statut='f',max='**',
+           fr="Impose des vitesses normales à une face (phénomène ACOUSTIQUE) dont les valeurs sont fournies par"
+               +" l'intermédiaire d'un concept fonction",
+           regles=(AU_MOINS_UN('GROUP_MA','MAILLE'),
+                   PRESENT_ABSENT('GROUP_MA','MAILLE'),),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           VNOR            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+         IMPE_FACE       =FACT(statut='f',max='**',
+           fr="Applique à une face une impédance acoustique dont la valeur est fournie par l'intermédiaire"
+               +" d'un concept fonction",
+           regles=(AU_MOINS_UN('GROUP_MA','MAILLE'),
+                   PRESENT_ABSENT('GROUP_MA','MAILLE'),),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           IMPE            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+         ONDE_PLANE      =FACT(statut='f',max='**',
+           fr="Impose un chargement sismique par onde plane dont la valeur est fournie par l'intermédiaire"
+               +" d'un concept fonction",
+           DIRECTION       =SIMP(statut='o',typ='R',max='**'),
+           TYPE_ONDE       =SIMP(statut='o',typ='TXM' ),
+           FONC_SIGNAL     =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DIST_ORIG       =SIMP(statut='o',typ='R' ),
+         ),
+
+
+
+         FLUX_THM_REP    =FACT(statut='f',max='**',
+           fr="Applique à un domaine continue 2D ou 3D un flux de chaleur et/ou un apport de masse fluide (flux hydraulique)"
+               +" dont les valeurs des flux sont fournies par l'intermédiaire d'un concept fonction",
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                   PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                   AU_MOINS_UN('FLUN','FLUN_HYDR1','FLUN_HYDR2'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           FLUN            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FLUN_HYDR1      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FLUN_HYDR2      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+)  ;
+
+
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 None
+AFFE_CHAR_OPS011=OPER(nom="AFFE_CHAR_OPS011",op= 190,sd_prod=char_ther,
+                      fr="Affectation de charges et conditions limites thermiques spécifique à CARA_TORSION",
+                      reentrant='n',
+            UIinfo={"groupes":("Outils métier",)},
+         regles=(AU_MOINS_UN('CARA_TORSION', ),),
+         MODELE          =SIMP(statut='o',typ=modele_sdaster ),
+         VERI_DDL        =SIMP(statut='f',typ='TXM',defaut="OUI",
+                               into=("OUI","NON") ),
+         CARA_TORSION    =FACT(statut='f',max='**',
+           regles=(UN_PARMI('TOUT','GROUP_MA'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+         ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=(1,2) ),
+)  ;
+#& MODIF COMMANDE  DATE 16/09/2008   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.
+#
+# 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 DESROCHES X.DESROCHES
+AFFE_CHAR_THER=OPER(nom="AFFE_CHAR_THER",op=34,sd_prod=char_ther
+                    ,fr="Affectation de charges et conditions aux limites thermiques constantes",
+                    reentrant='n',
+            UIinfo={"groupes":("Modélisation",)},
+      regles=(AU_MOINS_UN('TEMP_IMPO','SOURCE','FLUX_REP','ECHANGE',
+                          'ECHANGE_PAROI','GRAD_TEMP_INIT','LIAISON_DDL','LIAISON_GROUP',
+                          'LIAISON_UNIF','LIAISON_CHAMNO','RAYONNEMENT','LIAISON_MAIL' ),),
+         MODELE          =SIMP(statut='o',typ=(modele_sdaster) ),
+         METHODE         =SIMP(statut='c',typ='TXM',fr="Stratégie de résolution pour les températures imposées",
+                               into=('DUALISATION',),defaut='DUALISATION',),
+                               # METHODE='ELIMINATION' est traité dans le fortran mais dangereux actuellement
+
+         TEMP_IMPO       =FACT(statut='f',max='**',
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE','GROUP_NO','NOEUD'),
+                   AU_MOINS_UN('TEMP_SUP','TEMP','TEMP_INF'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           TEMP            =SIMP(statut='f',typ='R'),
+           TEMP_INF        =SIMP(statut='f',typ='R'),
+           TEMP_SUP        =SIMP(statut='f',typ='R'), ),
+
+         FLUX_REP        =FACT(statut='f',max='**',
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                   PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                   PRESENT_PRESENT('CARA_TORSION','GROUP_MA'),
+                   AU_MOINS_UN('FLUN','FLUN_INF','FLUN_SUP','CARA_TORSION') ),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           FLUN            =SIMP(statut='f',typ='R'),
+           FLUN_INF        =SIMP(statut='f',typ='R'),
+           FLUN_SUP        =SIMP(statut='f',typ='R'),
+           CARA_TORSION    =SIMP(statut='f',typ=table_sdaster),
+         ),
+
+
+         RAYONNEMENT     =FACT(statut='f',max='**',
+           fr="Attention, exprimer les températures en Celsius si rayonnement",
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                   PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           SIGMA           =SIMP(statut='o',typ='R'),
+           EPSILON         =SIMP(statut='o',typ='R'),
+           TEMP_EXT        =SIMP(statut='o',typ='R'),
+         ),
+
+         ECHANGE         =FACT(statut='f',max='**',
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                   PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                   AU_MOINS_UN('COEF_H','COEF_H_INF','COEF_H_SUP'),
+                   ENSEMBLE('COEF_H','TEMP_EXT',),
+                   ENSEMBLE('COEF_H_INF','TEMP_EXT_INF'),
+                             ENSEMBLE('COEF_H_SUP','TEMP_EXT_SUP'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           COEF_H          =SIMP(statut='f',typ='R'),
+           TEMP_EXT        =SIMP(statut='f',typ='R'),
+           COEF_H_INF      =SIMP(statut='f',typ='R'),
+           TEMP_EXT_INF    =SIMP(statut='f',typ='R'),
+           COEF_H_SUP      =SIMP(statut='f',typ='R'),
+           TEMP_EXT_SUP    =SIMP(statut='f',typ='R'),
+         ),
+
+         SOURCE          =FACT(statut='f',max='**',
+           regles=(UN_PARMI('SOUR','SOUR_CALCULEE',),
+                   PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                   PRESENT_ABSENT('SOUR_CALCULEE','TOUT','GROUP_MA','MAILLE'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           SOUR            =SIMP(statut='f',typ='R'),
+           SOUR_CALCULEE   =SIMP(statut='f',typ=(cham_elem) ),
+         ),
+
+         GRAD_TEMP_INIT  =FACT(statut='f',max='**',
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                   PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                   AU_MOINS_UN('FLUX_X','FLUX_Y','FLUX_Z'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           FLUX_X          =SIMP(statut='f',typ='R' ),
+           FLUX_Y          =SIMP(statut='f',typ='R' ),
+           FLUX_Z          =SIMP(statut='f',typ='R' ),
+                         ),
+
+         LIAISON_DDL     =FACT(statut='f',max='**',
+           regles=(UN_PARMI('GROUP_NO','NOEUD', ),),
+           GROUP_NO        =SIMP(statut='f',typ=grno,max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,max='**'),
+           DDL             =SIMP(statut='f',typ='TXM',max='**',
+                                 into=("TEMP","TEMP_INF","TEMP_SUP") ),
+           COEF_MULT       =SIMP(statut='o',typ='R',max='**'),
+           COEF_IMPO       =SIMP(statut='o',typ='R' ),
+         ),
+
+         LIAISON_GROUP   =FACT(statut='f',max='**',
+           regles=(UN_PARMI('GROUP_MA_1','MAILLE_1','GROUP_NO_1','NOEUD_1'),
+                   UN_PARMI('GROUP_MA_2','MAILLE_2','GROUP_NO_2','NOEUD_2'),
+                             EXCLUS('GROUP_MA_1','GROUP_NO_2'),
+                             EXCLUS('GROUP_MA_1','NOEUD_2'),
+                   EXCLUS('GROUP_NO_1','GROUP_MA_2'),
+                             EXCLUS('GROUP_NO_1','MAILLE_2'),
+                             EXCLUS('MAILLE_1','GROUP_NO_2'),
+                             EXCLUS('MAILLE_1','NOEUD_2'),
+                             EXCLUS('NOEUD_1','GROUP_MA_2'),
+                             EXCLUS('NOEUD_1','MAILLE_2'),
+                             EXCLUS('SANS_NOEUD','SANS_GROUP_NO'),),
+           GROUP_MA_1      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE_1        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO_1      =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD_1         =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           GROUP_MA_2      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE_2        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO_2      =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD_2         =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           SANS_NOEUD      =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           SANS_GROUP_NO   =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           DDL_1           =SIMP(statut='f',typ='TXM',max='**',defaut="TEMP",
+                                 into=("TEMP","TEMP_INF","TEMP_SUP") ),
+           COEF_MULT_1     =SIMP(statut='o',typ='R',max='**'),
+           DDL_2           =SIMP(statut='f',typ='TXM',max='**',defaut="TEMP",
+                                 into=("TEMP","TEMP_INF","TEMP_SUP",) ),
+           COEF_MULT_2     =SIMP(statut='o',typ='R',max='**'),
+           COEF_IMPO       =SIMP(statut='o',typ='R' ),
+           SOMMET          =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           TRAN            =SIMP(statut='f',typ='R',max='**'),
+           ANGL_NAUT       =SIMP(statut='f',typ='R',max='**'),
+           CENTRE          =SIMP(statut='f',typ='R',max='**'),
+         ),
+
+         LIAISON_MAIL    =FACT(statut='f',max='**',
+           regles=(AU_MOINS_UN('GROUP_MA_MAIT','MAILLE_MAIT'),
+                   AU_MOINS_UN('GROUP_MA_ESCL','MAILLE_ESCL','GROUP_NO_ESCL',
+                               'NOEUD_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='**'),
+           GROUP_NO_ESCL   =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD_ESCL      =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           TRAN            =SIMP(statut='f',typ='R',max='**' ),
+           ANGL_NAUT       =SIMP(statut='f',typ='R',max='**' ),
+           CENTRE          =SIMP(statut='f',typ='R',max='**' ),
+           ELIM_MULT       =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+         ),
+
+         ECHANGE_PAROI   =FACT(statut='f',max='**',
+           regles=(UN_PARMI('GROUP_MA_1','MAILLE_1'),
+                   UN_PARMI('GROUP_MA_2','MAILLE_2'),),
+           GROUP_MA_1      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE_1        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_MA_2      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE_2        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           COEF_H          =SIMP(statut='f',typ='R'),
+           TRAN            =SIMP(statut='f',typ='R',min=2,max=3),
+           ANGL_NAUT       =SIMP(statut='f',typ='R',max=3),
+           CENTRE          =SIMP(statut='f',typ='R',min=2,max=3),
+                         ),
+
+         LIAISON_UNIF    =FACT(statut='f',max='**',
+           regles=(UN_PARMI('GROUP_NO','NOEUD','GROUP_MA','MAILLE'),),
+           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='**'),
+           DDL             =SIMP(statut='f',typ='TXM',max='**',defaut="TEMP",
+                                 into=("TEMP","TEMP_INF","TEMP_SUP") ),
+         ),
+
+         LIAISON_CHAMNO  =FACT(statut='f',max='**',
+           CHAM_NO         =SIMP(statut='o',typ=cham_no_sdaster),# CO()# "il faut definir une structure de donnee generique chamno"
+           COEF_IMPO       =SIMP(statut='o',typ='R' ),
+           NUME_LAGR       =SIMP(statut='f',typ='TXM',defaut="NORMAL",into=("NORMAL","APRES") ),
+         ),
+
+         CONVECTION      =FACT(statut='f',max='**',
+           VITESSE         =SIMP(statut='o',typ=(cham_no_sdaster) ),
+         ),
+
+
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=(1,2) ),
+)  ;
+#& MODIF COMMANDE  DATE 16/09/2008   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.
+#
+# 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 DESROCHES X.DESROCHES
+AFFE_CHAR_THER_F=OPER(nom="AFFE_CHAR_THER_F",op=34,sd_prod=char_ther,
+                     fr="Affectation de charges et conditions aux limites thermiques fonction d'un (ou plusieurs)"
+                         +" paramètres (temps, ...)",
+                     reentrant='n',
+            UIinfo={"groupes":("Modélisation",)},
+      regles=(AU_MOINS_UN('TEMP_IMPO','SOURCE','FLUX_REP','FLUX_NL','ECHANGE',
+                          'ECHANGE_PAROI','LIAISON_DDL','LIAISON_GROUP','LIAISON_UNIF',
+                          'GRAD_TEMP_INIT','RAYONNEMENT'),),
+         MODELE          =SIMP(statut='o',typ=(modele_sdaster) ),
+
+         TEMP_IMPO       =FACT(statut='f',max='**',
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE','GROUP_NO','NOEUD'),
+                   AU_MOINS_UN('TEMP_SUP','TEMP','TEMP_INF'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           DDL             =SIMP(statut='f',typ='TXM',into=("TEMP",) ),
+           TEMP            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           TEMP_INF        =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           TEMP_SUP        =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         FLUX_REP        =FACT(statut='f',max='**',
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                   PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                   AU_MOINS_UN('FLUN','FLUN_INF','FLUN_SUP','FLUX_X','FLUX_Y','FLUX_Z'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           FLUN            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FLUN_INF        =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FLUN_SUP        =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FLUX_X          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FLUX_Y          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FLUX_Z          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         FLUX_NL         =FACT(statut='f',max='**',
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                   PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           FLUN            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+
+         RAYONNEMENT     =FACT(statut='f',max='**',
+           fr="Attention, exprimer les températures en Celsius si rayonnement",
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                   PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           SIGMA           =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           EPSILON         =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           TEMP_EXT        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+
+
+         ECHANGE         =FACT(statut='f',max='**',
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                   PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                   AU_MOINS_UN('COEF_H','COEF_H_INF','COEF_H_SUP'),
+                   ENSEMBLE('COEF_H','TEMP_EXT'),
+                   ENSEMBLE('COEF_H_INF','TEMP_EXT_INF'),
+                   ENSEMBLE('COEF_H_SUP','TEMP_EXT_SUP'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           COEF_H          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           TEMP_EXT        =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           COEF_H_INF      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           TEMP_EXT_INF    =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           COEF_H_SUP      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           TEMP_EXT_SUP    =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+
+         SOURCE          =FACT(statut='f',max='**',
+           regles=(UN_PARMI('TOUT','GROUP_MA','MAILLE'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           SOUR            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         GRAD_TEMP_INIT  =FACT(statut='f',max='**',
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),
+                   PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                   AU_MOINS_UN('FLUX_X','FLUX_Y','FLUX_Z'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           FLUX_X          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FLUX_Y          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FLUX_Z          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         ECHANGE_PAROI   =FACT(statut='f',max='**',
+           regles=(UN_PARMI('GROUP_MA_1','MAILLE_1'),
+                        UN_PARMI('GROUP_MA_2','MAILLE_2'),),
+           GROUP_MA_1      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE_1        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_MA_2      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE_2        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           COEF_H          =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           TRAN            =SIMP(statut='f',typ='R',min=2,max=3),
+           ANGL_NAUT       =SIMP(statut='f',typ='R',max=3),
+           CENTRE          =SIMP(statut='f',typ='R',min=2,max=3),
+         ),
+
+        LIAISON_DDL     =FACT(statut='f',max='**',
+           regles=(UN_PARMI('GROUP_NO','NOEUD'),),
+           GROUP_NO        =SIMP(statut='f',typ=grno,max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,max='**'),
+           DDL             =SIMP(statut='f',typ='TXM',max='**',into=("TEMP","TEMP_INF","TEMP_SUP") ),
+           COEF_MULT       =SIMP(statut='o',typ='R',max='**'),
+           COEF_IMPO       =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         LIAISON_GROUP   =FACT(statut='f',max='**',
+           regles=(UN_PARMI('GROUP_MA_1','MAILLE_1','GROUP_NO_1','NOEUD_1'),
+                   UN_PARMI('GROUP_MA_2','MAILLE_2','GROUP_NO_2','NOEUD_2'),
+                             EXCLUS('GROUP_MA_1','GROUP_NO_2'),
+                        EXCLUS('GROUP_MA_1','NOEUD_2'),
+                   EXCLUS('GROUP_NO_1','GROUP_MA_2'),
+                        EXCLUS('GROUP_NO_1','MAILLE_2'),
+                        EXCLUS('MAILLE_1','GROUP_NO_2'),
+                        EXCLUS('MAILLE_1','NOEUD_2'),
+                        EXCLUS('NOEUD_1','GROUP_MA_2'),
+                        EXCLUS('NOEUD_1','MAILLE_2'),
+                        EXCLUS('SANS_NOEUD','SANS_GROUP_NO'),),
+           GROUP_MA_1      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE_1        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO_1      =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD_1         =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           GROUP_MA_2      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE_2        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO_2      =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD_2         =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           SANS_NOEUD      =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           SANS_GROUP_NO   =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           DDL_1           =SIMP(statut='f',typ='TXM',max='**',defaut="TEMP",
+                                 into=("TEMP","TEMP_INF","TEMP_SUP") ),
+           COEF_MULT_1     =SIMP(statut='o',typ='R',max='**'),
+           DDL_2           =SIMP(statut='f',typ='TXM',max='**',defaut="TEMP",
+                                 into=("TEMP","TEMP_INF","TEMP_SUP") ),
+           COEF_MULT_2     =SIMP(statut='o',typ='R',max='**'),
+           COEF_IMPO       =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           SOMMET          =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           TRAN            =SIMP(statut='f',typ='R',max='**'),
+           ANGL_NAUT       =SIMP(statut='f',typ='R',max='**'),
+           CENTRE          =SIMP(statut='f',typ='R',max='**'),
+         ),
+
+         LIAISON_UNIF    =FACT(statut='f',max='**',
+           regles=(UN_PARMI('GROUP_NO','NOEUD','GROUP_MA','MAILLE'),),
+           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='**'),
+           DDL             =SIMP(statut='f',typ='TXM',defaut="TEMP",
+                                 into=("TEMP","TEMP_INF","TEMP_SUP") ),
+         ),
+
+         CONVECTION      =FACT(statut='f',max='**',
+           VITESSE         =SIMP(statut='o',typ=cham_no_sdaster ),
+         ),
+
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=(1,2) ),
+)  ;
+#& MODIF COMMANDE  DATE 22/07/2008   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.
+#
+# 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 PELLET J.PELLET
+AFFE_MATERIAU=OPER(nom="AFFE_MATERIAU",op=6,sd_prod=cham_mater,
+                   fr="Affecter des matériaux à des zones géométriques d'un maillage",
+                         reentrant='n',
+            UIinfo={"groupes":("Modélisation",)},
+         MAILLAGE        =SIMP(statut='o',typ=maillage_sdaster),
+         MODELE          =SIMP(statut='f',typ=modele_sdaster),
+
+         #  affectation du nom du matériau (par mailles):
+         #  ----------------------------------------------
+         AFFE            =FACT(statut='o',max='**',
+           regles=(UN_PARMI('TOUT','GROUP_MA','MAILLE'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           MATER           =SIMP(statut='o',typ=mater_sdaster,max=30),
+         ),
+
+         #  affectation du nom du matériau (par noeuds):
+         #  ----------------------------------------------
+         AFFE_NOEUD        =FACT(statut='f',max='**',
+           regles=(UN_PARMI('TOUT','GROUP_MA','MAILLE'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           MATER           =SIMP(statut='o',typ=mater_sdaster,max=1),
+         ),
+
+         #  affectation de comportement (multifibres pour l'instant):
+         #  ----------------------------------------------
+         AFFE_COMPOR        =FACT(statut='f',max='**',
+           regles=(UN_PARMI('TOUT','GROUP_MA','MAILLE'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           COMPOR          =SIMP(statut='o',typ=compor_sdaster,max=1),
+         ),
+
+         #  affectation des variables de commande :
+         #  --------------------------------------------------
+         # un mot clé caché qui ne sert qu'à boucler sur les VARC possibles :
+         LIST_NOM_VARC =SIMP(statut='c',typ='TXM', defaut=("TEMP","CORR","IRRA","HYDR","SECH","EPSA",
+                                                           "M_ACIER","M_ZIRC","NEUT1","NEUT2")),
+
+         AFFE_VARC    =FACT(statut='f',max='**',
+          regles=(PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                  PRESENT_ABSENT('GROUP_MA','TOUT'),
+                  PRESENT_ABSENT('MAILLE','TOUT'),
+                  AU_MOINS_UN('EVOL','CHAMP_GD','VALE_REF'),
+                  EXCLUS('EVOL','CHAMP_GD'),
+                  ),
+
+          TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ), # [défaut]
+          GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+          MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+
+          NOM_VARC        =SIMP(statut='o',typ='TXM', into=("TEMP","CORR","IRRA","HYDR","SECH","M_ACIER","M_ZIRC",
+                                                            "EPSA","NEUT1","NEUT2")),
+          CHAMP_GD        =SIMP(statut='f',typ=cham_gd_sdaster,),
+          EVOL            =SIMP(statut='f',typ=evol_sdaster,),
+
+          B_EVOL          =BLOC(condition="EVOL!=None",
+              NOM_CHAM      =SIMP(statut='f',typ='TXM'),
+              PROL_DROITE   =SIMP(statut='f',typ='TXM',defaut="EXCLU",into=("CONSTANT","LINEAIRE","EXCLU") ),
+              PROL_GAUCHE   =SIMP(statut='f',typ='TXM',defaut="EXCLU",into=("CONSTANT","LINEAIRE","EXCLU") ),
+              FONC_INST     =SIMP(statut='f',typ=(fonction_sdaster,formule)),
+          ),
+          VALE_REF          =SIMP(statut='f',typ='R'),
+         ),
+
+         #  mots clés cachés pour les variables de commande NEUTi :
+         #  -------------------------------------------------------
+         VARC_NEUT1   =FACT(statut='d',
+           NOM_VARC        =SIMP(statut='c',typ='TXM',defaut="NEUT1"),
+           GRANDEUR        =SIMP(statut='c',typ='TXM',defaut="NEUT_R"),
+           CMP_GD          =SIMP(statut='c',typ='TXM',max=1,min=1,defaut=("X1")),
+           CMP_VARC        =SIMP(statut='c',typ='TXM',max=1,min=1,defaut=("NEUT1")),
+         ),
+         VARC_NEUT2   =FACT(statut='d',
+           NOM_VARC        =SIMP(statut='c',typ='TXM',defaut="NEUT2"),
+           GRANDEUR        =SIMP(statut='c',typ='TXM',defaut="NEUT_R"),
+           CMP_GD          =SIMP(statut='c',typ='TXM',max=1,min=1,defaut=("X1")),
+           CMP_VARC        =SIMP(statut='c',typ='TXM',max=1,min=1,defaut=("NEUT2")),
+         ),
+
+         #  mots clés cachés pour variable de commande TEMP :
+         #  --------------------------------------------------
+         VARC_TEMP    =FACT(statut='d',
+           NOM_VARC        =SIMP(statut='c',typ='TXM',defaut="TEMP"),
+           GRANDEUR        =SIMP(statut='c',typ='TXM',defaut="TEMP_R"),
+           CMP_GD          =SIMP(statut='c',typ='TXM',max=1,min=1,defaut=("TEMP",)),
+           CMP_VARC        =SIMP(statut='c',typ='TXM',max=1,min=1,defaut=("TEMP",)),
+           VALE_DEF        =SIMP(statut='c',typ='R',max=1,min=1,defaut=(0.,)),
+         ),
+
+         #  mots clés cachés pour variable de commande SECH :
+         #  --------------------------------------------------
+         VARC_SECH    =FACT(statut='d',
+           NOM_VARC        =SIMP(statut='c',typ='TXM',defaut="SECH"),
+           GRANDEUR        =SIMP(statut='c',typ='TXM',defaut="TEMP_R"),
+           CMP_GD          =SIMP(statut='c',typ='TXM',max=1,min=1,defaut=("TEMP",)),
+           CMP_VARC        =SIMP(statut='c',typ='TXM',max=1,min=1,defaut=("SECH",)),
+         ),
+
+         #  mots clés cachés pour variable de commande HYDR :
+         #  --------------------------------------------------
+         VARC_HYDR    =FACT(statut='d',
+           NOM_VARC        =SIMP(statut='c',typ='TXM',defaut="HYDR"),
+           GRANDEUR        =SIMP(statut='c',typ='TXM',defaut="HYDR_R"),
+           CMP_GD          =SIMP(statut='c',typ='TXM',max=1,min=1,defaut=("HYDR",)),
+           CMP_VARC        =SIMP(statut='c',typ='TXM',max=1,min=1,defaut=("HYDR",)),
+         ),
+
+         #  mots clés cachés pour variable de commande CORR :
+         #  --------------------------------------------------
+         VARC_CORR    =FACT(statut='d',
+           NOM_VARC        =SIMP(statut='c',typ='TXM',defaut="CORR"),
+           GRANDEUR        =SIMP(statut='c',typ='TXM',defaut="CORR_R"),
+           CMP_GD          =SIMP(statut='c',typ='TXM',max=1,min=1,defaut=("CORR",)),
+           CMP_VARC        =SIMP(statut='c',typ='TXM',max=1,min=1,defaut=("CORR",)),
+         ),
+
+         #  mots clés cachés pour variable de commande IRRA :
+         #  --------------------------------------------------
+         VARC_IRRA    =FACT(statut='d',
+           NOM_VARC        =SIMP(statut='c',typ='TXM',defaut="IRRA"),
+           GRANDEUR        =SIMP(statut='c',typ='TXM',defaut="IRRA_R"),
+           CMP_GD          =SIMP(statut='c',typ='TXM',max=1,min=1,defaut=("IRRA",)),
+           CMP_VARC        =SIMP(statut='c',typ='TXM',max=1,min=1,defaut=("IRRA",)),
+         ),
+
+         #  mots clés cachés pour variable de commande EPSA :
+         #  --------------------------------------------------
+         VARC_EPSA    =FACT(statut='d',
+           NOM_VARC        =SIMP(statut='c',typ='TXM',defaut="EPSA"),
+           GRANDEUR        =SIMP(statut='c',typ='TXM',defaut="EPSI_R"),
+           CMP_GD          =SIMP(statut='c',typ='TXM',max=6,min=6,defaut=("EPXX","EPYY","EPZZ","EPXY","EPXZ","EPYZ",)),
+           CMP_VARC        =SIMP(statut='c',typ='TXM',max=6,min=6,defaut=("EPSAXX","EPSAYY","EPSAZZ","EPSAXY","EPSAXZ","EPSAYZ",)),
+         ),
+         #  mots clés cachés pour variable de commande metallurgique ACIER :
+         #  -----------------------------------------------------------------
+         VARC_M_ACIER  =FACT(statut='d',
+           NOM_VARC        =SIMP(statut='c',typ='TXM',defaut="M_ACIER"),
+           GRANDEUR        =SIMP(statut='c',typ='TXM',defaut="VARI_R"),
+           CMP_GD          =SIMP(statut='c',typ='TXM',max=7,min=7,defaut=("V1","V2","V3","V4","V5","V6","V7")),
+           CMP_VARC        =SIMP(statut='c',typ='TXM',max=7,min=7,defaut=("PFERRITE","PPERLITE","PBAINITE",
+                                                                          "PMARTENS","TAUSTE","TRANSF","TACIER",)),
+         ),
+         #  mots clés cachés pour variable de commande metallurgique ZIRCALOY :
+         #  --------------------------------------------------------------------
+         VARC_M_ZIRC  =FACT(statut='d',
+           NOM_VARC        =SIMP(statut='c',typ='TXM',defaut="M_ZIRC"),
+           GRANDEUR        =SIMP(statut='c',typ='TXM',defaut="VARI_R"),
+           CMP_GD          =SIMP(statut='c',typ='TXM',max=4,min=4,defaut=("V1","V2","V3","V4")),
+           CMP_VARC        =SIMP(statut='c',typ='TXM',max=4,min=4,defaut=("ALPHPUR","ALPHBETA","TZIRC","TEMPS")),
+         ),
+
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2) ),
+)  ;
+
+
+#& MODIF COMMANDE  DATE 01/09/2008   AUTEUR DELMAS J.DELMAS 
+#            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.
+#
+# 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 PELLET J.PELLET
+AFFE_MODELE=OPER(nom="AFFE_MODELE",op=18,sd_prod=modele_sdaster,
+            UIinfo={"groupes":("Modélisation",)},
+                 fr="Définir le phénomène physique modélisé et le type d'éléments finis sur le maillage",reentrant='n',
+         regles=(AU_MOINS_UN('AFFE','AFFE_SOUS_STRUC'),),
+         MAILLAGE        =SIMP(statut='o',typ=(maillage_sdaster) ),
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2) ),
+         VERIF           =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max=2,into=("MAILLE","NOEUD") ),
+#
+#====
+# Définition des grandeurs caractéristiques
+#====
+#
+         GRANDEUR_CARA =FACT(statut='f',max=1,
+         fr="Grandeurs caractéristiques pour l'adimensionnement des indicateurs d'erreur HM",
+         ang="Characteristic data for HM error estimators adimensionalisation",
+#
+            LONGUEUR      =SIMP(statut='f',typ='R',val_min=0,
+                                fr ="Longueur caractéristique",
+                                ang="Characteristic length",),
+            PRESSION      =SIMP(statut='f',typ='R',val_min=0,
+                                fr ="Pression caractéristique",
+                                ang="Characteristic pressure",),
+            TEMPERATURE   =SIMP(statut='f',typ='R',val_min=0,
+                                fr ="Température caractéristique",
+                                ang="Characteristic temperature",),),
+#
+         AFFE_SOUS_STRUC =FACT(statut='f',
+           regles=(UN_PARMI('TOUT','SUPER_MAILLE'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           SUPER_MAILLE    =SIMP(statut='f',typ=ma,validators=NoRepeat(),max='**'),
+           PHENOMENE       =SIMP(statut='f',typ='TXM',defaut="MECANIQUE",into=("MECANIQUE",) ),
+         ),
+         AFFE            =FACT(statut='f',max='**',
+           regles=(UN_PARMI('TOUT','GROUP_MA','GROUP_NO','MAILLE','NOEUD'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           PHENOMENE       =SIMP(statut='o',typ='TXM',
+                                 into=("MECANIQUE","THERMIQUE","ACOUSTIQUE") ),
+                b_mecanique     =BLOC( condition = "PHENOMENE=='MECANIQUE'",
+                                        fr="modélisations mécaniques",
+                    MODELISATION    =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',into=(
+                                  "2D_DIS_T",        # RESP. : FLEJOU J.L.FLEJOU
+                                  "2D_DIS_TR",       # RESP. : FLEJOU J.L.FLEJOU
+                                  "2D_FLUI_ABSO",    # RESP. : DEVESA G.DEVESA
+                                  "2D_FLUI_PESA",    # RESP. : GREFFET N.GREFFET
+                                  "2D_FLUI_STRU",    # RESP. : GREFFET N.GREFFET
+                                  "2D_FLUIDE",       # RESP. : GREFFET N.GREFFET
+                                  "3D",              # RESP. : DESROCHES X.DESROCHES
+                                  "3D_ABSO",         # RESP. : DEVESA G.DEVESA
+                                  "3D_FAISCEAU",     # RESP. : VOLDOIRE F.VOLDOIRE
+                                  "3D_FLUI_ABSO",    # RESP. : DEVESA G.DEVESA
+                                  "3D_FLUIDE",       # RESP. : GREFFET N.GREFFET
+                                  "3D_INCO",         # RESP. : MICHEL S.MICHEL
+                                  "3D_INCO_GD",      # RESP. : MICHEL S.MICHEL
                                   "3D_SI",           # RESP. : DESROCHES X.DESROCHES
                                   "3D_GRAD_EPSI",    # RESP. : MICHEL S.MICHEL
                                   "3D_GRAD_VARI",    # RESP. : MICHEL S.MICHEL
@@ -1576,34 +4418,20432 @@ AFFE_MODELE=OPER(nom="AFFE_MODELE",op=18,sd_prod=modele_sdaster,
                                   "VF1",             # RESP. : GRANET S.GRANET
                                                                      )  )  ),
 
-                b_thermique     =BLOC( condition = "PHENOMENE=='THERMIQUE'",
-                                        fr="modélisations thermiques",
-                    MODELISATION    =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',into=(
-                                  "3D",              # RESP. : DURAND C.DURAND
-                                  "3D_DIAG",         # RESP. : DURAND C.DURAND
-                                  "AXIS",            # RESP. : DURAND C.DURAND
-                                  "AXIS_DIAG",       # RESP. : DURAND C.DURAND
-                                  "AXIS_FOURIER",    # RESP. : DESROCHES X.DESROCHES
-                                  "COQUE",           # RESP. : DESROCHES X.DESROCHES
-                                  "COQUE_AXIS",      # RESP. : DESROCHES X.DESROCHES
-                                  "COQUE_PLAN",      # RESP. : DESROCHES X.DESROCHES
-                                  "PLAN",            # RESP. : DURAND C.DURAND
-                                  "PLAN_DIAG",       # RESP. : DURAND C.DURAND
-                                                                      ),),),
+                b_thermique     =BLOC( condition = "PHENOMENE=='THERMIQUE'",
+                                        fr="modélisations thermiques",
+                    MODELISATION    =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',into=(
+                                  "3D",              # RESP. : DURAND C.DURAND
+                                  "3D_DIAG",         # RESP. : DURAND C.DURAND
+                                  "AXIS",            # RESP. : DURAND C.DURAND
+                                  "AXIS_DIAG",       # RESP. : DURAND C.DURAND
+                                  "AXIS_FOURIER",    # RESP. : DESROCHES X.DESROCHES
+                                  "COQUE",           # RESP. : DESROCHES X.DESROCHES
+                                  "COQUE_AXIS",      # RESP. : DESROCHES X.DESROCHES
+                                  "COQUE_PLAN",      # RESP. : DESROCHES X.DESROCHES
+                                  "PLAN",            # RESP. : DURAND C.DURAND
+                                  "PLAN_DIAG",       # RESP. : DURAND C.DURAND
+                                                                      ),),),
+
+                b_acoustique    =BLOC( condition = "PHENOMENE=='ACOUSTIQUE'",
+                                        fr="modélisations acoustiques",
+                     MODELISATION    =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',into=(
+                                  "3D",              # RESP. : None
+                                  "PLAN"             # RESP. : None
+                                                                       ), ),),
+
+         ),
+
+         VERI_JACOBIEN  =SIMP(statut='f',typ='TXM',into=('OUI','NON'),defaut='OUI',
+                              fr ="Vérification de la forme des mailles (jacobiens tous de meme signe).",),
+) ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 LEFEBVRE J.P.LEFEBVRE
+AIDE=PROC(nom="AIDE",op=42,
+       UIinfo={"groupes":("Modélisation",)},
+       fr="Interroger et imprimer une documentation partielle sur les noms des concepts déjà définis et sur les couples"
+           +" (type d'éléments, option) disponibles dans la version.",
+       regles=(AU_MOINS_UN('CONCEPT','TYPE_ELEM', ),),
+       UNITE       =SIMP(statut='f',typ='I',defaut=8),  
+       TYPE_ELEM   =FACT(fr="couple type_elem option",statut='f',
+         INITEL       =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON",) ),
+                        ),
+       CONCEPT     =FACT(statut='f',max='**',
+         NOM          =SIMP(fr="liste des noms de concept",statut='f',typ='TXM',validators=NoRepeat(),max='**',defaut="*"),
+         OPTION       =SIMP(fr="option d'édition de concept",statut='f',typ='TXM',defaut="TOUT_TYPE",
+                                 into=("TOUT_TYPE","CREER","A_CREER",) ),
+         ),
+) ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 PELLET J.PELLET
+ASSE_MAILLAGE=OPER(nom="ASSE_MAILLAGE",op= 105,sd_prod=maillage_sdaster,
+                   fr="Assembler deux maillages pour en former un nouveau",
+                   reentrant='n',
+                   UIinfo={"groupes":("Maillage",)},
+         MAILLAGE_1 =  SIMP(statut='o',typ=maillage_sdaster,),
+         MAILLAGE_2 =  SIMP(statut='o',typ=maillage_sdaster,),
+         OPERATION  =  SIMP(statut='o',typ='TXM',into=("SOUS_STR","SUPERPOSE","COLLAGE"),),
+         b_collage  =  BLOC(condition = "OPERATION == 'COLLAGE'",
+           COLLAGE  =  FACT(statut='o',
+              GROUP_MA_1     =SIMP(statut='o',typ=grma),
+              GROUP_MA_2     =SIMP(statut='o',typ=grma),
+                             ),
+                           ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 BODEL C.BODEL
+def asse_matr_gene_prod(METHODE,**args):
+    if   (METHODE=="INITIAL") : return matr_asse_gene_r
+    elif (args['OPTION']=="RIGI_GENE_C") : return matr_asse_gene_c
+    else : return matr_asse_gene_r
+
+ASSE_MATR_GENE=OPER(nom="ASSE_MATR_GENE",op= 128,sd_prod=asse_matr_gene_prod,
+                    fr="Assemblage des matrices généralisées de macro éléments pour construction de la matrice globale généralisée",
+                    reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+         NUME_DDL_GENE   =SIMP(statut='o',typ=nume_ddl_gene ),
+         METHODE          =SIMP(statut='f',typ='TXM',defaut="CLASSIQUE",into=("CLASSIQUE","INITIAL") ),
+         b_option     =BLOC(condition = "METHODE == 'CLASSIQUE'",
+           OPTION          =SIMP(statut='o',typ='TXM',into=("RIGI_GENE","RIGI_GENE_C","MASS_GENE","AMOR_GENE") ),
+           ),
+)  ;
+#& MODIF COMMANDE  DATE 06/10/2008   AUTEUR DEVESA G.DEVESA 
+#            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.                                 
+#
+# 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 PELLET J.PELLET
+def asse_matrice_prod(MATR_ELEM,**args):
+  if AsType(MATR_ELEM) == matr_elem_depl_r : return matr_asse_depl_r
+  if AsType(MATR_ELEM) == matr_elem_depl_c : return matr_asse_depl_c
+  if AsType(MATR_ELEM) == matr_elem_temp_r : return matr_asse_temp_r
+  if AsType(MATR_ELEM) == matr_elem_pres_c : return matr_asse_pres_c
+  raise AsException("type de concept resultat non prevu")
+
+ASSE_MATRICE=OPER(nom="ASSE_MATRICE",op=12,sd_prod=asse_matrice_prod,
+                  fr="Construction d'une matrice assemblée",reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+         MATR_ELEM       =SIMP(statut='o',
+                               typ=(matr_elem_depl_r,matr_elem_depl_c,matr_elem_temp_r,matr_elem_pres_c) ),
+         NUME_DDL        =SIMP(statut='o',typ=nume_ddl_sdaster),
+         SYME            =SIMP(statut='f',typ='TXM',into=("OUI",) ),         
+         CHAR_CINE       =SIMP(statut='f',typ=(char_cine_meca,char_cine_ther,char_cine_acou) ),
+         INFO            =SIMP(statut='f',typ='I',into=(1,2) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 PELLET J.PELLET
+
+ASSE_VECTEUR=OPER(nom="ASSE_VECTEUR",op=13,sd_prod=cham_no_sdaster,
+                  fr="Construire un champ aux noeuds par assemblage de vecteurs élémentaires",reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+         VECT_ELEM       =SIMP(statut='o',typ=vect_elem,max='**'),
+         NUME_DDL        =SIMP(statut='o',typ=nume_ddl_sdaster ),
+         INFO            =SIMP(statut='f',typ='I',into=(1,2,) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 BODEL C.BODEL
+ASSE_VECT_GENE=OPER(nom="ASSE_VECT_GENE",op= 140,sd_prod=vect_asse_gene,
+                    fr="Projection des chargements sur la base modale d'une sous structure",
+                    reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+         NUME_DDL_GENE   =SIMP(statut='o',typ=nume_ddl_gene ),
+         METHODE          =SIMP(statut='f',typ='TXM',defaut="CLASSIQUE",into=("CLASSIQUE","INITIAL") ),
+         b_nume     =BLOC(condition = "METHODE == 'CLASSIQUE'",
+             CHAR_SOUS_STRUC =FACT(statut='o',max='**',
+             SOUS_STRUC      =SIMP(statut='o',typ='TXM' ),
+             VECT_ASSE       =SIMP(statut='o',typ=cham_no_sdaster ),
+           ),
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 DEVESA G.DEVESA
+CALC_AMOR_MODAL=OPER(nom="CALC_AMOR_MODAL",op= 172,sd_prod=listr8_sdaster,
+                     fr="Création d'une liste d'amortissements modaux calculés selon la règle du RCC-G",
+                     reentrant='n',
+            UIinfo={"groupes":("Résolution",)},
+         ENER_SOL        =FACT(statut='o',
+           regles=(UN_PARMI('GROUP_NO_RADIER','GROUP_MA_RADIER'),
+                   PRESENT_ABSENT('COEF_GROUP','FONC_GROUP'),
+#  Peut-on remplacer les deux règles suivantes par un ENSEMBLE_('KRX','KRY','KRZ')
+                   PRESENT_PRESENT('KRX','KRY'),
+                   PRESENT_PRESENT('KRX','KRZ'),
+                   PRESENT_ABSENT('COOR_CENTRE','NOEUD_CENTRE'),
+                   PRESENT_ABSENT('GROUP_NO_CENTRE','NOEUD_CENTRE'),
+                   PRESENT_ABSENT('GROUP_NO_CENTRE','COOR_CENTRE'),),
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="DEPL",into=("DEPL","RIGI_PARASOL") ),
+           MODE_MECA       =SIMP(statut='o',typ=mode_meca ),
+           GROUP_NO_RADIER =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           GROUP_MA_RADIER =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           FONC_GROUP      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           COEF_GROUP      =SIMP(statut='f',typ='R',max='**'),
+           KX              =SIMP(statut='o',typ='R' ),
+           KY              =SIMP(statut='o',typ='R' ),
+           KZ              =SIMP(statut='o',typ='R' ),
+           KRX             =SIMP(statut='f',typ='R' ),
+           KRY             =SIMP(statut='f',typ='R' ),
+           KRZ             =SIMP(statut='f',typ='R' ),
+           GROUP_NO_CENTRE =SIMP(statut='f',typ=grno),
+           NOEUD_CENTRE    =SIMP(statut='f',typ=no),
+           COOR_CENTRE     =SIMP(statut='f',typ='R',max=3),
+         ),
+         AMOR_INTERNE    =FACT(statut='o',
+           ENER_POT        =SIMP(statut='o',typ=table_sdaster ),
+           GROUP_MA        =SIMP(statut='o',typ=grma,validators=NoRepeat(),max='**'),
+           AMOR_REDUIT     =SIMP(statut='o',typ='R',max='**'),
+         ),
+         AMOR_SOL        =FACT(statut='o',
+           AMOR_REDUIT     =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           FONC_AMOR_GEO   =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule),max='**' ),
+           HOMOGENE        =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           SEUIL           =SIMP(statut='f',typ='R',defaut= 0.3 ),
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 ASSIRE A.ASSIRE
+
+CALC_CHAM_ELEM=OPER(nom="CALC_CHAM_ELEM",op=38,sd_prod=cham_elem,
+                    fr="Calculer un champ élémentaire en thermique et en accoustique à partir de champs déjà calculés",
+                    reentrant='n',
+            UIinfo={"groupes":("Post traitements",)},
+         MODELE          =SIMP(statut='o',typ=modele_sdaster),
+         CHAM_MATER      =SIMP(statut='o',typ=cham_mater),
+         CARA_ELEM       =SIMP(statut='f',typ=cara_elem),
+
+         regles=(EXCLUS('TOUT','GROUP_MA',),EXCLUS('TOUT','MAILLE',),),
+         TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+         GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+         MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+
+#
+#
+#  introduire un mot cle de type modelisation : mécanique,thermique,...
+#
+
+         OPTION          =SIMP(statut='o',typ='TXM',
+                               into=("FLUX_ELGA_TEMP","FLUX_ELNO_TEMP",
+                                     "PRES_ELNO_DBEL","PRES_ELNO_REEL","PRES_ELNO_IMAG",
+                                     "COOR_ELGA"), ),
+
+         b_thermique  =BLOC(condition="OPTION in ('FLUX_ELNO_TEMP','FLUX_ELGA_TEMP',)",
+           TEMP            =SIMP(statut='o',typ=(cham_no_sdaster,)),
+         ),
+
+         b_acoustique  =BLOC(condition="OPTION in ('PRES_ELNO_DBEL','PRES_ELNO_REEL','PRES_ELNO_IMAG',)",
+           PRES            =SIMP(statut='o',typ=(cham_no_sdaster,)),
+         ),
+
+
+
+         EXCIT           =FACT(statut='f',max='**',
+               regles=(EXCLUS('FONC_MULT','COEF_MULT', ),),
+               CHARGE          =SIMP(statut='o',typ=(char_meca,char_ther,char_acou)),
+               FONC_MULT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+               COEF_MULT       =SIMP(statut='f',typ='R'), ),
+
+         INST            =SIMP(statut='f',typ='R',defaut= 0.E+0),
+         ACCE            =SIMP(statut='f',typ=cham_no_sdaster),
+         NUME_COUCHE     =SIMP(statut='f',typ='I',defaut= 1),
+         NIVE_COUCHE     =SIMP(statut='f',typ='TXM',defaut="MOY",into=("SUP","INF","MOY") ),
+         MODE_FOURIER    =SIMP(statut='f',typ='I',defaut= 0 ),
+         ANGLE           =SIMP(statut='f',typ='I',defaut= 0),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 PELLET J.PELLET
+
+CALC_CHAR_CINE=OPER(nom="CALC_CHAR_CINE",op= 102,sd_prod=cham_no_sdaster,
+                    fr="Calcul des seconds membres associés à des charges cinématiques (conditions aux limites non dualisées)",
+                    reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+         NUME_DDL        =SIMP(statut='o',typ=nume_ddl_sdaster ),
+         CHAR_CINE       =SIMP(statut='o',typ=(char_cine_meca,char_cine_ther,char_cine_acou ),validators=NoRepeat(),max='**' ),
+         INST            =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2 ) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 DEVESA G.DEVESA
+def calc_char_seisme_prod(MATR_MASS,**args ):
+  if AsType(MATR_MASS) == matr_asse_depl_r : return cham_no_sdaster
+  raise AsException("type de concept resultat non prevu")
+
+CALC_CHAR_SEISME=OPER(nom="CALC_CHAR_SEISME",op=  92,sd_prod=calc_char_seisme_prod,
+                      reentrant='n',fr="Calcul du chargement sismique",
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+         regles=(UN_PARMI('MONO_APPUI','MODE_STAT' ),),
+         MATR_MASS       =SIMP(statut='o',typ=matr_asse_depl_r,fr="Matrice de masse" ),
+         DIRECTION       =SIMP(statut='o',typ='R',max=6,fr="Directions du séisme imposé"),
+         MONO_APPUI      =SIMP(statut='f',typ='TXM',into=("OUI",) ),         
+         MODE_STAT       =SIMP(statut='f',typ=(mode_stat_depl,mode_stat_acce,mode_stat_forc,) ),
+         b_mode_stat     =BLOC ( condition = "MODE_STAT != None",
+           regles=(UN_PARMI('NOEUD','GROUP_NO' ),),
+           NOEUD           =SIMP(statut='f',typ=no,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+         ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& 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.
+#
+# 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 ASSIRE A.ASSIRE
+def calc_elem_prod(RESULTAT,**args):
+   if AsType(RESULTAT) != None : return AsType(RESULTAT)
+   raise AsException("type de concept resultat non prevu")
+
+CALC_ELEM=OPER(nom="CALC_ELEM",op=58,sd_prod=calc_elem_prod,reentrant='f',
+            UIinfo={"groupes":("Post traitements",)},
+            fr="Compléter ou créer un résultat en calculant des champs par éléments (contraintes, déformations,... )",
+     MODELE          =SIMP(statut='f',typ=modele_sdaster),
+     CHAM_MATER      =SIMP(statut='f',typ=cham_mater),
+     CARA_ELEM       =SIMP(statut='f',typ=cara_elem),
+
+     RESULTAT        =SIMP(statut='o',typ=resultat_sdaster,
+                                      fr="Résultat d'une commande globale"),
+
+     regles=(EXCLUS('TOUT_ORDRE','NUME_ORDRE','INST','FREQ','NUME_MODE',
+                    'NOEUD_CMP','LIST_INST','LIST_FREQ','LIST_ORDRE','NOM_CAS'),
+             CONCEPT_SENSIBLE("SEPARE"),
+             DERIVABLE('RESULTAT'),),
+     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='**'),
+     NOEUD_CMP       =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+     NOM_CAS         =SIMP(statut='f',typ='TXM' ),
+     INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+     FREQ            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+     LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+     LIST_FREQ       =SIMP(statut='f',typ=listr8_sdaster),
+     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'),),
+     LIST_ORDRE      =SIMP(statut='f',typ=listis_sdaster),
+     TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+     GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**',
+                           fr="le calcul ne sera effectué que sur ces mailles là"),
+     MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**',
+                           fr="le calcul ne sera effectué que sur ces mailles là"),
+
+#    definition d'un repere local
+
+     REPE_COQUE      =FACT(statut='f',max='**',
+                           fr="définiton du lieu de post-traitement",
+                           regles=EXCLUS('ANGL_REP','VECTEUR'),
+          TOUT         =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+          GROUP_MA     =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**',),
+          MAILLE       =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**',),
+
+          NUME_COUCHE  =SIMP(statut='f',typ='I',defaut= 1,
+                             fr="numero de couche dans l'épaisseur de la coque ou du tuyau" ),
+          NIVE_COUCHE  =SIMP(statut='f',typ='TXM',defaut="MOY",into=("SUP","INF","MOY"),
+                             fr="position dans l'épaisseur de la coque, ou de la couche" ),
+
+          ANGLE        =SIMP(statut='f',typ='I',defaut= 0,
+                             fr="angle de dépouillement pour les tuyaux, en degres à partir de la génératrice" ),
+
+          PLAN         =SIMP(statut='f',typ='TXM',defaut="MAIL",into=("SUP","INF","MOY","MAIL"),
+                               fr="Plan de calcul pour les plaques excentrées" ),
+
+          ANGL_REP     =SIMP(statut='f',typ='R',min=2,max=2,
+                           fr="définition du repere de post-traitement, par défaut ANGL_REP=(0.,0.)"),
+          VECTEUR      =SIMP(statut='f',typ='R',min=3,max=3,
+                           fr="définition du repere de post-traitement, par défaut VECTEUR=(1.,0.,0.)"),
+                            ),
+
+#    options pour des resultats lineaires
+
+     b_lineaire =BLOC( condition = "AsType(RESULTAT) in (evol_elas,dyna_trans,dyna_harmo,mode_meca,\
+                                                               mode_stat,mode_stat_depl,mode_stat_acce,mode_stat_forc,\
+                                                               mult_elas,fourier_elas,base_modale,mode_flamb)",
+                                                               fr="options mecaniques lineaires",
+          TYPE_OPTION =SIMP(statut='f',typ='TXM',defaut='TOUTES',fr="type d'options mecaniques lineaires",
+                           into=("SIGM_MASSIF","SIGM_STRUCT","EPSI","ENER","CRIT","DERIVEES",
+                                 "INDI_ERREUR","AUTRES","TOUTES"),
+                           ),
+          b_toutes=BLOC( condition = "TYPE_OPTION == 'TOUTES'",fr="toutes les options evol elas",
+               OPTION =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',defaut="SIEF_ELNO_ELGA",
+                              #  contraintes
+                           into=( "SIEF_ELNO_ELGA","SIGM_ELNO_DEPL","SIEF_ELGA_DEPL",
+                                  "SIPO_ELNO_DEPL","EFGE_ELNO_DEPL","EFGE_ELNO_CART","SIGM_ELNO_CART",
+                                  "SIGM_ELNO_SIEF","SIPO_ELNO_SIEF","SIGM_ELNO_TUYO","ARCO_ELNO_SIGM",
+                              # déformations
+                                 "EPSI_ELNO_DEPL","EPSI_ELGA_DEPL","EPSG_ELGA_DEPL","EPSG_ELNO_DEPL",
+                                 "EPME_ELNO_DEPL","EPME_ELGA_DEPL","DEGE_ELNO_DEPL","EPSI_ELNO_TUYO",
+                                 "EPVC_ELNO","EPVC_ELGA",
+                              #  ENER
+                                 "EPOT_ELEM_DEPL","ECIN_ELEM_DEPL","ENEL_ELGA","ENEL_ELNO_ELGA",
+                                 "ETOT_ELGA","ETOT_ELNO_ELGA","ETOT_ELEM",
+                              #  estimateurs erreur
+                                 "SIGM_NOZ1_ELGA","ERZ1_ELEM_SIGM","SIGM_NOZ2_ELGA","ERZ2_ELEM_SIGM",
+                                 "SIRE_ELNO_DEPL","ERRE_ELEM_SIGM","ERRE_ELNO_ELEM",
+                                 "QIRE_ELEM_SIGM","QIRE_ELNO_ELEM","QIZ1_ELEM_SIGM","QIZ2_ELEM_SIGM",
+                                 "SING_ELEM","SING_ELNO_ELEM",
+                              #  CRIT
+                                 "EQUI_ELNO_SIGM","EQUI_ELGA_SIGM","CRIT_ELNO_RUPT",
+                                 "EQUI_ELNO_EPSI","EQUI_ELGA_EPSI","EQUI_ELNO_EPME","EQUI_ELGA_EPME",
+                                 "ENDO_ELGA","ENDO_ELNO_ELGA",
+                                 "ENDO_ELNO_SIGA","ENDO_ELNO_SINO","SIEQ_ELNO_TUYO","EPEQ_ELNO_TUYO",
+                              #  derivees
+                                 "DEUL_ELGA_DEPL","DEDE_ELNO_DLDE","DESI_ELNO_DLSI",
+                              #  autres
+                                 "VALE_NCOU_MAXI","PRES_DBEL_DEPL"),),
+
+               NOM_CHAM  =SIMP(statut='f',typ='TXM',fr="nom du champ pour VALE_NCOU_MAXI", ),
+               NOM_CMP   =SIMP(statut='f',typ='TXM',fr="nom de la composante pour VALE_NCOU_MAXI",  ),
+
+                b_erre_qi =BLOC(condition = "OPTION in ('QIRE_ELEM_SIGM','QIZ1_ELEM_SIGM','QIZ2_ELEM_SIGM') or \
+                                        (type(OPTION)==type(()) and 'QIRE_ELEM_SIGM' in OPTION) or \
+                                        (type(OPTION)==type(()) and 'QIZ1_ELEM_SIGM' in OPTION) or \
+                                        (type(OPTION)==type(()) and 'QIZ2_ELEM_SIGM' in OPTION)",
+                    RESU_DUAL=SIMP(statut='o',typ=evol_elas,fr="resultat du probleme dual"),),
+
+               b_sing =BLOC(condition= "OPTION == 'SING_ELEM' or \
+                               (type(OPTION)==type(()) and  'SING_ELEM' in OPTION)",
+                    PREC_ERR=SIMP(statut='o',typ='R',val_min= 0.,
+                                  fr="precision demandee pour calculer la carte de taille des elements"),
+                    TYPE_ESTI=SIMP(statut='f',typ='TXM',into=("ERRE_ELEM_SIGM","ERZ1_ELEM_SIGM","ERZ2_ELEM_SIGM",
+                                                              "QIRE_ELEM_SIGM","QIZ1_ELEM_SIGM","QIZ2_ELEM_SIGM",),
+                                   fr="choix de l'estimateur d'erreur"),),
+
+               EXCIT           =FACT(statut='f',max='**',
+                                     fr="Charges contenant les températures, les efforts répartis pour les poutres...",
+                                     regles=(EXCLUS('FONC_MULT','FONC_MULT_C','COEF_MULT','COEF_MULT_C'),),
+                    CHARGE          =SIMP(statut='o',typ=char_meca ),
+                    FONC_MULT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                    FONC_MULT_C     =SIMP(statut='f',typ=fonction_c),
+                    COEF_MULT       =SIMP(statut='f',typ='R'),
+                    COEF_MULT_C     =SIMP(statut='f',typ='C'),
+                    PHAS_DEG        =SIMP(statut='f',typ='R'),
+                    PUIS_PULS       =SIMP(statut='f',typ='I'),
+                    TYPE_CHARGE     =SIMP(statut='f',typ='TXM',defaut="FIXE",into=("FIXE",),),),
+
+
+                            ),
+#             fin bloc b_toutes
+
+          b_sigm_massif =BLOC( condition = "TYPE_OPTION == 'SIGM_MASSIF'",
+                                     fr="options de contraintes elasticite 2D et 3D",
+              OPTION =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',defaut='SIEF_ELNO_ELGA',
+                            fr="option de calcul des contraintes",
+                           into=( "SIEF_ELNO_ELGA","SIGM_ELNO_DEPL","SIEF_ELGA_DEPL",),),
+
+                    b_charge =BLOC( condition = "OPTION in ('SIGM_ELNO_DEPL','SIEF_ELGA_DEPL',) or \
+                                      (type(OPTION)==type(()) and  'SIGM_ELNO_DEPL' in OPTION ) or \
+                                      (type(OPTION)==type(()) and  'SIEF_ELGA_DEPL' in OPTION ) ",
+                                      fr="charge contenant les temperatures ou autre charge",
+                         EXCIT           =FACT(statut='f',max='**',
+                         CHARGE          =SIMP(statut='o',typ=char_meca ),),
+                                    ),
+                                  ),
+
+          b_sigm_struct =BLOC( condition = "TYPE_OPTION == 'SIGM_STRUCT'",
+                                      fr="options de contraintes elasticite poutres, coques, tuyaux",
+               OPTION =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',defaut='SIEF_ELNO_ELGA',
+                            fr="option de calcul des contraintes ou efforts generalises",
+                            into=( "SIEF_ELNO_ELGA","SIGM_ELNO_DEPL","SIEF_ELGA_DEPL","SIGM_ELNO_TUYO",
+                                   "SIPO_ELNO_DEPL","EFGE_ELNO_DEPL","EFGE_ELNO_CART","SIGM_ELNO_CART",
+                                   "SIGM_ELNO_SIEF","SIPO_ELNO_SIEF"),),
+
+               b_charge =BLOC( condition = "OPTION in ('SIGM_ELNO_DEPL','SIEF_ELGA_DEPL',\
+                                                       'SIPO_ELNO_DEPL','EFGE_ELNO_DEPL',) or \
+                                            (type(OPTION)==type(()) and  'SIGM_ELNO_DEPL' in OPTION ) or \
+                                            (type(OPTION)==type(()) and  'SIEF_ELGA_DEPL' in OPTION ) or \
+                                            (type(OPTION)==type(()) and  'SIPO_ELNO_DEPL' in OPTION ) or \
+                                            (type(OPTION)==type(()) and  'EFGE_ELNO_DEPL' in OPTION ) ",
+                                            fr="charge contenant les temperatures ou les efforts répartis (poutres) ou autre",
+                    EXCIT           =FACT(statut='f',max='**',
+                                          regles=(EXCLUS('FONC_MULT','FONC_MULT_C','COEF_MULT','COEF_MULT_C'),),
+                         CHARGE          =SIMP(statut='f',typ=char_meca ),
+                         FONC_MULT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                         FONC_MULT_C     =SIMP(statut='f',typ=fonction_c),
+                         COEF_MULT       =SIMP(statut='f',typ='R'),
+                         COEF_MULT_C     =SIMP(statut='f',typ='C'),
+                         PHAS_DEG        =SIMP(statut='f',typ='R'),
+                         PUIS_PULS       =SIMP(statut='f',typ='I'),
+                         TYPE_CHARGE     =SIMP(statut='f',typ='TXM',defaut="FIXE",into=("FIXE",),),),
+                             ),
+
+
+                            ),
+#          fin bloc contraintes struct
+
+          b_epsi         =BLOC( condition = "TYPE_OPTION=='EPSI'",
+               OPTION    =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',
+                           into=("EPSI_ELNO_DEPL","EPSI_ELGA_DEPL","EPME_ELNO_DEPL","EPME_ELGA_DEPL",
+                                 "DEGE_ELNO_DEPL","EPSI_ELNO_TUYO","EPVC_ELNO","EPVC_ELGA",),
+                                 ),
+b_charge =BLOC( condition = "OPTION in ('EPME_ELNO_DEPL','EPSI_ELGA_DEPL','EPME_ELGA_DEPL','EPSI_ELNO_DEPL','EPSI_ELNO_TUYO' ) or \
+                                      (type(OPTION)==type(()) and  'EPSI_ELNO_DEPL' in OPTION ) or \
+                                      (type(OPTION)==type(()) and  'EPSI_ELNO_TUYO' in OPTION ) or \
+                                      (type(OPTION)==type(()) and  'EPSI_ELGA_DEPL' in OPTION ) or \
+                                      (type(OPTION)==type(()) and  'EPME_ELNO_DEPL' in OPTION ) or \
+                                      (type(OPTION)==type(()) and  'EPME_ELGA_DEPL' in OPTION ) ",
+                                      fr="charge contenant les temperatures",
+                    EXCIT           =FACT(statut='f',max='**',
+                         CHARGE          =SIMP(statut='o',typ=(char_meca,char_ther,char_acou) ),),
+                                 ),
+                                       ),
+          b_ener         =BLOC( condition = "TYPE_OPTION=='ENER'",
+               OPTION    =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',
+                           into=("EPOT_ELEM_DEPL","ECIN_ELEM_DEPL","ENEL_ELGA","ENEL_ELNO_ELGA",
+                                 "ETOT_ELGA","ETOT_ELNO_ELGA","ETOT_ELEM",),
+                                 ),
+               b_charge =BLOC( condition = "OPTION in ('EPOT_ELEM_DEPL','ECIN_ELEM_DEPL','ENEL_ELGA','ENEL_ELNO_ELGA',) or \
+                                      (type(OPTION)==type(()) and  'EPOT_ELEM_DEPL' in OPTION ) or \
+                                      (type(OPTION)==type(()) and  'ENEL_ELGA' in OPTION ) or \
+                                      (type(OPTION)==type(()) and  'ENEL_ELNO_ELGA' in OPTION ) or \
+                                      (type(OPTION)==type(()) and  'ECIN_ELEM_DEPL' in OPTION ) ",
+                                      fr="charge contenant les temperatures",
+                    EXCIT           =FACT(statut='f',max='**',
+                         CHARGE          =SIMP(statut='f',typ=(char_meca,char_ther,char_acou) ),),
+                              ),
+                                 ),
+
+          b_crit         =BLOC( condition = "TYPE_OPTION=='CRIT'",
+               OPTION    =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',
+                           into=("EQUI_ELNO_SIGM","EQUI_ELGA_SIGM",
+                                 "EQUI_ELNO_EPSI","EQUI_ELGA_EPSI","EQUI_ELNO_EPME","EQUI_ELGA_EPME",
+                                 "ENDO_ELGA","ENDO_ELNO_ELGA",
+                                 "ENDO_ELNO_SIGA","ENDO_ELNO_SINO","CRIT_ELNO_RUPT","SIEQ_ELNO_TUYO","EPEQ_ELNO_TUYO",
+                                 ) ),
+                EXCIT           =FACT(statut='f',max='**',fr="charge contenant les temperatures",
+                     CHARGE          =SIMP(statut='o',typ=(char_meca,char_ther,char_acou) ),),
+                                 ),
+
+          b_derivees         =BLOC( condition = "TYPE_OPTION=='DERIVEES'",
+                  OPTION    =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',
+                           into=("DEUL_ELGA_DEPL","DEDE_ELNO_DLDE","DESI_ELNO_DLSI",
+                                 ) ),),
+
+          b_autres         =BLOC( condition = "TYPE_OPTION=='AUTRES'",
+                  OPTION    =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',
+                           into=("VALE_NCOU_MAXI","PRES_DBEL_DEPL",
+                                 ) ),
+               b_maxi    =BLOC( condition = "OPTION=='VALE_NCOU_MAXI' or \
+                                (type(OPTION)==type(()) and 'VALE_NCOU_MAXI' in OPTION)",
+                    NOM_CHAM  =SIMP(statut='o',typ='TXM',fr="Nom du champ pour VALE_NCOU_MAXI" ),
+                    NOM_CMP   =SIMP(statut='o',typ='TXM',fr="Nom de la composante pour VALE_NCOU_MAXI"),),
+                                 ),
+
+          b_indi_erreur        =BLOC( condition = "TYPE_OPTION=='INDI_ERREUR'",
+               OPTION    =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',defaut="ERRE_ELEM_SIGM",
+                           into=("SIGM_NOZ1_ELGA","ERZ1_ELEM_SIGM","SIGM_NOZ2_ELGA","ERZ2_ELEM_SIGM",
+                                 "SIRE_ELNO_DEPL","ERRE_ELEM_SIGM","ERRE_ELNO_ELEM",
+                                 "QIRE_ELEM_SIGM","QIRE_ELNO_ELEM","QIZ1_ELEM_SIGM","QIZ2_ELEM_SIGM",
+                                 "SING_ELEM","SING_ELNO_ELEM",
+                                 )),
+
+               b_erre_qi =BLOC(condition = "OPTION in ('QIRE_ELEM_SIGM','QIZ1_ELEM_SIGM','QIZ2_ELEM_SIGM') or \
+                                        (type(OPTION)==type(()) and 'QIRE_ELEM_SIGM' in OPTION) or \
+                                        (type(OPTION)==type(()) and 'QIZ1_ELEM_SIGM' in OPTION) or \
+                                        (type(OPTION)==type(()) and 'QIZ2_ELEM_SIGM' in OPTION)",
+                    RESU_DUAL=SIMP(statut='o',typ=evol_elas,fr="resultat du probleme dual"),),
+
+               b_sing =BLOC(condition= "OPTION == 'SING_ELEM' or \
+                               (type(OPTION)==type(()) and  'SING_ELEM' in OPTION)",
+                    PREC_ERR=SIMP(statut='o',typ='R',val_min= 0.,
+                                  fr="precision demandee pour calculer la carte de taille des elements" ),
+                    TYPE_ESTI=SIMP(statut='f',typ='TXM',into=("ERRE_ELEM_SIGM","ERZ1_ELEM_SIGM","ERZ2_ELEM_SIGM",
+                                                              "QIRE_ELEM_SIGM","QIZ1_ELEM_SIGM","QIZ2_ELEM_SIGM",),
+                                   fr="choix de l'estimateur d'erreur"),),
+
+               EXCIT           =FACT(statut='f',max='**',fr="charge contenant les temperatures",
+                     CHARGE          =SIMP(statut='o',typ=(char_meca,char_ther,char_acou) ),),
+                                 ),
+                                 ),
+#    fin bloc lineaire
+
+#    statique ou dynamique non lineaire : evol_noli
+     b_noli          =BLOC( condition = "AsType(RESULTAT) == evol_noli",fr="options mecaniques non lineaires",
+          TYPE_OPTION =SIMP(statut='f',typ='TXM',defaut='TOUTES',fr="type d'options mecaniques non lineaires",
+                           into=("SIGM_MASSIF","SIGM_STRUCT","EPSI","ENER","CRIT",
+                                 "VARI","INDI_ERREUR","TOUTES","AUTRES"),
+                          ),
+          b_toutes =BLOC( condition = "TYPE_OPTION == 'TOUTES'",fr="toutes les options evol elas",
+               OPTION      =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',
+                           into=( "SIEF_ELNO_ELGA",
+                                  "SIGM_ELNO_TUYO","SIGM_ELNO_COQU","ARCO_ELNO_SIGM",
+                                  "SIGM_ELNO_SIEF","SIPO_ELNO_SIEF","EFGE_ELNO_CART",
+                                  # EPSI
+                                  "EPSI_ELNO_DEPL","EPSI_ELGA_DEPL","EPSG_ELNO_DEPL","EPSG_ELGA_DEPL",
+                                 "EPME_ELNO_DEPL","EPME_ELGA_DEPL","EPMG_ELNO_DEPL","EPMG_ELGA_DEPL",
+                                 "DEGE_ELNO_DEPL","EPSI_ELNO_TUYO",
+                                 "EPSP_ELNO","EPSP_ELGA",
+                                 "EPFD_ELNO","EPFD_ELGA","EPVC_ELNO","EPVC_ELGA",
+                                 "EPFP_ELNO","EPFP_ELGA",
+                                 "VARI_ELNO_ELGA","VARI_ELNO_TUYO","VARI_ELNO_COQU","CRIT_ELNO_RUPT",
+                                 "EXTR_ELGA_VARI","EXTR_ELNO_VARI",
+                                 # CRIT
+                                 "EQUI_ELNO_SIGM","EQUI_ELGA_SIGM","SIEQ_ELNO_TUYO","EPEQ_ELNO_TUYO",
+                                 "ERRE_ELEM_SIGM","ERRE_ELNO_ELEM","ERZ1_ELEM_SIGM","ERZ2_ELEM_SIGM",
+                                 "QIRE_ELEM_SIGM","QIRE_ELNO_ELEM","QIZ1_ELEM_SIGM","QIZ2_ELEM_SIGM",
+                                 "EQUI_ELNO_EPSI","EQUI_ELGA_EPSI","EQUI_ELNO_EPME","EQUI_ELGA_EPME",
+                                 "DCHA_ELNO_SIGM","DCHA_ELGA_SIGM","RADI_ELNO_SIGM","RADI_ELGA_SIGM",
+                                 "ENDO_ELGA","ENDO_ELNO_ELGA","INDI_LOCA_ELGA","SING_ELEM",
+                                 "SING_ELNO_ELEM","ENDO_ELNO_SIGA","ENDO_ELNO_SINO",
+                                 "PMPB_ELNO_SIEF","PMPB_ELGA_SIEF","ENEL_ELGA","ENEL_ELNO_ELGA",
+                                 "ETOT_ELGA","ETOT_ELNO_ELGA","ETOT_ELEM","VALE_NCOU_MAXI"),
+                               ),
+               NORME =SIMP(statut='f',typ='TXM',defaut="VMIS",
+                                 into=("VMIS","TOTAL","VMIS_CINE","TOTAL_CINE"),
+                                 fr="Type de norme pour les options RADI_ et DCHA_"),
+
+               NOM_CHAM  =SIMP(statut='f',typ='TXM',fr="Nom du champ pour VALE_NCOU_MAXI"),
+               NOM_CMP   =SIMP(statut='f',typ='TXM',fr="Nom de la composante pour VALE_NCOU_MAXI"),
+
+               b_erre_qi =BLOC(condition = "OPTION in ('QIRE_ELEM_SIGM','QIZ1_ELEM_SIGM','QIZ2_ELEM_SIGM') or \
+                                        (type(OPTION)==type(()) and 'QIRE_ELEM_SIGM' in OPTION) or \
+                                        (type(OPTION)==type(()) and 'QIZ1_ELEM_SIGM' in OPTION) or \
+                                        (type(OPTION)==type(()) and 'QIZ2_ELEM_SIGM' in OPTION)",
+                    RESU_DUAL=SIMP(statut='o',typ=(evol_elas,evol_noli),fr="resultat du probleme dual"),),
+
+               b_sing =BLOC(condition= "OPTION == 'SING_ELEM' or \
+                               (type(OPTION)==type(()) and  'SING_ELEM' in OPTION)",
+                    PREC_ERR=SIMP(statut='o',typ='R',val_min= 0.,
+                                  fr="precision demandee pour calculer la carte de taille des elements" ),
+                    TYPE_ESTI=SIMP(statut='f',typ='TXM',into=("ERRE_ELEM_SIGM","ERZ1_ELEM_SIGM","ERZ2_ELEM_SIGM",
+                                                              "QIRE_ELEM_SIGM","QIZ1_ELEM_SIGM","QIZ2_ELEM_SIGM",),
+                                   fr="choix de l'estimateur d'erreur"),),
+
+
+               b_extr = BLOC( condition = "OPTION in ('EXTR_ELNO_VARI','EXTR_ELGA_VARI')",
+                             NOM_VARI =SIMP(statut='o',typ='TXM',min= 1,max=1,fr="nom de la variable à extraire",
+                         into=("DPORO","DRHOLQ","DPVP","SATLIQ","EVP","IND_ETA","D","IND_END","TEMP_MAX","GAMP","PCR",
+                               "SEUIL_HYD","IND_HYD","PCOHE","COMP_ROC","SEUIL_ISO","ANG_DEV","X11","X22","X33","X12","X13","X23",
+                               "DIST_DEV","DEV_SUR_CRIT","DIST_ISO","NB_ITER","ARRET","NB_REDE","SIGNE",
+                               "RDEV_1","RDEV_2","RDEV_3","RISO","EPSIVPLA","IND_1","IND_2","IND_3","IND_4",),),
+                            ),
+               EXCIT           =FACT(statut='f',max='**',
+                                      regles=(EXCLUS('FONC_MULT','FONC_MULT_C','COEF_MULT','COEF_MULT_C'),),
+                    CHARGE          =SIMP(statut='o',typ=char_meca ),
+                    FONC_MULT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                    FONC_MULT_C     =SIMP(statut='f',typ=fonction_c),
+                    COEF_MULT       =SIMP(statut='f',typ='R'),
+                    COEF_MULT_C     =SIMP(statut='f',typ='C'),
+                    PHAS_DEG        =SIMP(statut='f',typ='R'),
+                    PUIS_PULS       =SIMP(statut='f',typ='I'),
+                    TYPE_CHARGE     =SIMP(statut='f',typ='TXM',defaut="FIXE",into=("FIXE",),),),
+                         ),
+
+          b_sigm_massif =BLOC( condition = "TYPE_OPTION == 'SIGM_MASSIF'",
+                                      fr="options de contraintes non lin 2D et 3D",
+               OPTION =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',
+                              #  contraintes
+                           into=( "SIEF_ELNO_ELGA",),),
+                            ),
+
+          b_sigm_struct =BLOC( condition = "TYPE_OPTION == 'SIGM_STRUCT'",
+                                       fr="options de contraintes non lin poutres, coques",
+               OPTION =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',
+                              #  contraintes
+                           into=( "SIEF_ELNO_ELGA","EFGE_ELNO_CART","SIGM_ELNO_TUYO","SIGM_ELNO_COQU",
+                           "SIGM_ELNO_SIEF","SIPO_ELNO_SIEF",),),
+                             ),
+
+          b_epsi         =BLOC( condition = "TYPE_OPTION=='EPSI'",
+               OPTION    =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',
+                           into=( "EPSI_ELNO_DEPL","EPSI_ELGA_DEPL","EPSG_ELNO_DEPL","EPSG_ELGA_DEPL",
+                                 "EPME_ELNO_DEPL","EPME_ELGA_DEPL","EPMG_ELNO_DEPL","EPMG_ELGA_DEPL",
+                                 "EPSP_ELNO","EPSP_ELGA","DEGE_ELNO_DEPL","EPVC_ELNO","EPVC_ELGA",
+                                 "EPFD_ELNO","EPFD_ELGA","EPFP_ELNO","EPFP_ELGA"),
+                                 ),
+               EXCIT           =FACT(statut='f',max='**',fr="charge contenant les temperatures",
+                    CHARGE          =SIMP(statut='o',typ=(char_meca,char_ther,char_acou) ),),
+                                 ),
+         b_epstuyo       =BLOC( condition = "OPTION == 'EPSI_ELNO_TUYO' or \
+                                  (type(OPTION)==type(()) and  'EPSI_ELNO_TUYO' in OPTION) ",
+              EXCIT           =FACT(statut='f',max='**',fr="charge contenant les temperatures",
+                    CHARGE          =SIMP(statut='o',typ=(char_meca,char_ther,char_acou) ),),
+                               ),
+
+          b_vari         =BLOC( condition = "TYPE_OPTION=='VARI'",
+                                       fr="Calcul et extraction des variables internes",
+                   OPTION    =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',
+                                   into=("VARI_ELNO_ELGA","VARI_ELNO_TUYO","VARI_ELNO_COQU",
+                                         "EXTR_ELGA_VARI","EXTR_ELNO_VARI"),
+                                 ),
+          b_extr         =BLOC( condition = "OPTION in ('EXTR_ELNO_VARI','EXTR_ELGA_VARI')",
+                   NOM_VARI =SIMP(statut='o',typ='TXM',min= 1,max=1,fr="nom de la variable à extraire",
+                         into=("DPORO","DRHOLQ","DPVP","SATLIQ","EVP","IND_ETA","D","IND_END","TEMP_MAX","GAMP","PCR",
+                               "SEUIL_HYD","IND_HYD","PCOHE","COMP_ROC","SEUIL_ISO","ANG_DEV","X11","X22","X33","X12","X13","X23",
+                               "DIST_DEV","DEV_SUR_CRIT","DIST_ISO","NB_ITER","ARRET","NB_REDE","SIGNE",
+                               "RDEV_1","RDEV_2","RDEV_3","RISO","EPSIVPLA","IND_1","IND_2","IND_3","IND_4"),),
+                            ),
+                           ),
+
+          b_ener         =BLOC( condition = "TYPE_OPTION=='ENER'",
+               OPTION    =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',
+                           into=("ETOT_ELGA","ETOT_ELNO_ELGA","ETOT_ELEM","ENEL_ELGA","ENEL_ELNO_ELGA",),
+                                 ),
+               EXCIT           =FACT(statut='f',max='**',fr="charge contenant les temperatures",
+                    CHARGE          =SIMP(statut='o',typ=(char_meca,char_ther,char_acou) ),),
+                                 ),
+
+          b_crit         =BLOC( condition = "TYPE_OPTION=='CRIT'",
+               OPTION    =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',
+                           into=("EQUI_ELNO_SIGM","EQUI_ELGA_SIGM",
+                                 "EQUI_ELNO_EPSI","EQUI_ELGA_EPSI","EQUI_ELNO_EPME","EQUI_ELGA_EPME",
+                                 "ENDO_ELNO_SIGA","ENDO_ELNO_SINO","CRIT_ELNO_RUPT",
+                                 "ENDO_ELGA","ENDO_ELNO_ELGA",
+                                 "PMPB_ELNO_SIEF","PMPB_ELGA_SIEF","SIEQ_ELNO_TUYO","EPEQ_ELNO_TUYO",
+                                 ) ),
+                                 ),
+
+          b_autres         =BLOC( condition = "TYPE_OPTION=='AUTRES'",
+                  OPTION    =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',
+                           into=("VALE_NCOU_MAXI",) ),
+               b_maxi    =BLOC( condition = "OPTION=='VALE_NCOU_MAXI' or \
+                                (type(OPTION)==type(()) and 'VALE_NCOU_MAXI' in OPTION)",
+                    NOM_CHAM  =SIMP(statut='o',typ='TXM',fr="Nom du champ pour VALE_NCOU_MAXI" ),
+                    NOM_CMP   =SIMP(statut='o',typ='TXM',fr="Nom de la composante pour VALE_NCOU_MAXI"),),
+                                 ),
+
+          b_indi_erreur         =BLOC( condition = "TYPE_OPTION=='INDI_ERREUR'",
+               OPTION    =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',defaut="ERRE_ELEM_SIGM",
+                           into=("ERRE_ELEM_SIGM","ERRE_ELNO_ELEM","ERZ1_ELEM_SIGM","ERZ2_ELEM_SIGM",
+                                 "DCHA_ELNO_SIGM","DCHA_ELGA_SIGM","RADI_ELNO_SIGM","RADI_ELGA_SIGM",
+                                 "QIRE_ELEM_SIGM","QIRE_ELNO_ELEM","QIZ1_ELEM_SIGM","QIZ2_ELEM_SIGM",
+                                 "SING_ELEM","SING_ELNO_ELEM",) ),
+
+               b_erre_qi =BLOC(condition = "OPTION in ('QIRE_ELEM_SIGM','QIZ1_ELEM_SIGM','QIZ2_ELEM_SIGM') or \
+                                        (type(OPTION)==type(()) and 'QIRE_ELEM_SIGM' in OPTION) or \
+                                        (type(OPTION)==type(()) and 'QIZ1_ELEM_SIGM' in OPTION) or \
+                                        (type(OPTION)==type(()) and 'QIZ2_ELEM_SIGM' in OPTION)",
+                RESU_DUAL    =SIMP(statut='o',typ=(evol_elas,evol_noli),fr="resultat du probleme dual")),
+
+               b_sing =BLOC(condition= "OPTION == 'SING_ELEM' or \
+                               (type(OPTION)==type(()) and  'SING_ELEM' in OPTION)",
+                    PREC_ERR=SIMP(statut='o',typ='R',val_min= 0.,
+                                  fr="precision demandee pour calculer la carte de taille des elements" ),
+                    TYPE_ESTI=SIMP(statut='f',typ='TXM',into=("ERRE_ELEM_SIGM","ERZ1_ELEM_SIGM","ERZ2_ELEM_SIGM",
+                                                              "QIRE_ELEM_SIGM","QIZ1_ELEM_SIGM","QIZ2_ELEM_SIGM",),
+                                   fr="choix de l'estimateur d'erreur"),),
+
+               b_indic = BLOC( condition ="OPTION in ('DCHA_ELNO_SIGM','DCHA_ELGA_SIGM','RADI_ELNO_SIGM','RADI_ELGA_SIGM') or\
+                                            (type(OPTION)==type(()) and 'DCHA_ELNO_SIGM' in OPTION) or\
+                                            (type(OPTION)==type(()) and 'DCHA_ELGA_SIGM' in OPTION) or\
+                                            (type(OPTION)==type(()) and 'RADI_ELNO_SIGM' in OPTION) or\
+                                            (type(OPTION)==type(()) and 'RADI_ELGA_SIGM' in OPTION) ",
+                    NORME =SIMP(statut='f',typ='TXM',defaut="VMIS",
+                                 into=("VMIS","TOTAL","VMIS_CINE","TOTAL_CINE") ),
+                                 ),
+                                 ),
+                                 ),
+#          fin bloc evol_noli
+
+#           thermique : evol_ther, fourier_ther
+     b_ther          =BLOC( condition = "AsType(RESULTAT) in (evol_ther,fourier_ther,)" ,fr="options thermiques",
+          OPTION          =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',
+                           into=("DEUL_ELGA_TEMP","DETE_ELNO_DLTE","FLUX_ELGA_TEMP","FLUX_ELNO_TEMP",
+                                  "HYDR_ELNO_ELGA","DURT_ELGA_META","DURT_ELNO_META",
+                                  "SOUR_ELGA_ELEC","ERRE_ELEM_TEMP","ERRE_ELNO_ELEM",),),
+               EXCIT           =FACT(statut='f',max='**',
+                    regles=(EXCLUS('FONC_MULT','FONC_MULT_C','COEF_MULT','COEF_MULT_C'),),
+                    CHARGE          =SIMP(statut='o',typ=char_ther ),
+                    FONC_MULT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                    FONC_MULT_C     =SIMP(statut='f',typ=fonction_c),
+                    COEF_MULT       =SIMP(statut='f',typ='R'),
+                    COEF_MULT_C     =SIMP(statut='f',typ='C'),
+                    PHAS_DEG        =SIMP(statut='f',typ='R'),
+                    PUIS_PULS       =SIMP(statut='f',typ='I'),
+                    TYPE_CHARGE     =SIMP(statut='f',typ='TXM',defaut="FIXE",into=("FIXE",),),
+                                     ),
+                                 ),
+
+#    acoustique
+     b_acou          =BLOC( condition = "AsType(RESULTAT) in (acou_harmo,mode_acou,)",fr="options acoustiques",
+          OPTION          =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',
+                           into=("PRES_ELNO_DBEL","PRES_ELNO_REEL","PRES_ELNO_IMAG",
+                                 "INTE_ELNO_ACTI","INTE_ELNO_REAC",
+                                 ),),
+          EXCIT           =FACT(statut='f',max='**',
+                regles=(EXCLUS('FONC_MULT','FONC_MULT_C','COEF_MULT','COEF_MULT_C'),),
+                CHARGE          =SIMP(statut='o',typ=char_acou ),
+                FONC_MULT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                FONC_MULT_C     =SIMP(statut='f',typ=fonction_c),
+                COEF_MULT       =SIMP(statut='f',typ='R'),
+                COEF_MULT_C     =SIMP(statut='f',typ='C'),
+                PHAS_DEG        =SIMP(statut='f',typ='R'),
+                PUIS_PULS       =SIMP(statut='f',typ='I'),
+                TYPE_CHARGE     =SIMP(statut='f',typ='TXM',defaut="FIXE",into=("FIXE",),),),
+                                 ),
+
+
+#    Choix du solveur (utilisé actuellement pour estimateur d'erreur ZZ1) :
+     SOLVEUR         =FACT(statut='d', fr="Méthode de résolution des systèmes linéaires",
+     METHODE         =SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("LDLT","MUMPS","MULT_FRONT",) ),
+
+
+       b_ldlt          =BLOC(condition = "METHODE == 'LDLT' ",fr="Paramètres de la méthode LDLT",
+         RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("RCMK","SANS") ),
+         NPREC           =SIMP(statut='f',typ='I',defaut=8),
+         STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+       ),
+
+       b_mult_front    =BLOC(condition = "METHODE == 'MULT_FRONT' ",fr="Paramètres de la méthode multi frontale",
+         RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+         NPREC           =SIMP(statut='f',typ='I',defaut=8),
+         STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+       ),
+
+
+       b_mumps        =BLOC(condition = "METHODE == 'MUMPS' ",fr="Paramètres de la méthode MUMPS",
+         TYPE_RESOL      =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("NONSYM","SYMGEN","SYMDEF","AUTO")),
+         PRETRAITEMENTS  =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("SANS","AUTO")),
+         RENUM           =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("AMD","AMF","PORD","METIS","QAMD","AUTO")),
+         ELIM_LAGR2      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+         PCENT_PIVOT     =SIMP(statut='f',typ='I',defaut=10,),
+         RESI_RELA       =SIMP(statut='f',typ='R',defaut=-1.0,),
+         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,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")),
+         ),
+     ),
+
+
+
+     SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                           fr="Liste des paramètres de sensibilité.",
+                           ang="List of sensitivity parameters"),
+     INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+     TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+) ;
+#& MODIF COMMANDE  DATE 21/10/2008   AUTEUR NISTOR I.NISTOR 
+#            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.        
+# ======================================================================
+
+# RESPONSABLE NISTOR I.NISTOR
+
+from Macro.calc_essai_ops import calc_essai_ops
+
+def calc_essai_prod(self,RESU_FLUDELA,RESU_IDENTIFICATION,RESU_TURBULENT, RESU_MODIFSTRU,**args):
+
+    if RESU_FLUDELA != None:
+        for res in RESU_FLUDELA:
+            self.type_sdprod(res['TABLE'],table_sdaster)
+    if RESU_IDENTIFICATION != None:
+        for res in RESU_IDENTIFICATION:
+            self.type_sdprod(res['TABLE'],table_fonction)
+    if RESU_TURBULENT != None:
+        for res in RESU_TURBULENT:
+            self.type_sdprod(res['FONCTION'],fonction_sdaster)
+
+
+    MTYPES = {
+        'MODELE'    : modele_sdaster,
+        'MODE_MECA' : mode_meca,
+        'NUME_DDL'  : nume_ddl_sdaster,
+        'MAILLAGE'  : maillage_sdaster,
+        'MASS_MECA' : matr_asse_depl_r,
+        'RIGI_MECA' : matr_asse_depl_r,
+        'AMOR_MECA' : matr_asse_depl_r,
+        'MACR_ELEM' : macr_elem_stat,
+        'PROJ_MESU' : mode_gene,
+        'BASE_ES' : base_modale,
+        'BASE_LMME' : mode_meca,
+        'MODE_STA' : mode_stat_forc,
+              }
+    if RESU_MODIFSTRU != None:
+        for res in RESU_MODIFSTRU:
+            for mc, typ in MTYPES.items():
+                if res[mc]:
+                    self.type_sdprod(res[mc], typ)
+    return None
+
+
+CALC_ESSAI = MACRO(nom       = 'CALC_ESSAI',
+                   op        = calc_essai_ops,
+                   sd_prod   = calc_essai_prod,
+                   reentrant = 'n',
+                   UIinfo    = {"groupes":("Outils métier",)},
+                   fr        = "Outil de post-traitement interactif pour Meidee ",
+                   UNITE_FIMEN = SIMP( statut='f',typ='I',max='**' ),
+                   INTERACTIF  = SIMP( statut='f',typ='TXM',into=('OUI','NON'),defaut='OUI' ),
+                   RESU_FLUDELA        = FACT( statut='f',max='**',
+                                               TABLE = SIMP(statut='f', typ=CO),
+                                             ),
+                   RESU_TURBULENT      = FACT( statut='f',max=1,
+                                               FONCTION = SIMP(statut='f', typ=CO),
+                                             ),
+                   RESU_IDENTIFICATION = FACT( statut='f',max='**',
+                                               TABLE = SIMP(statut='f', typ=CO),
+                                             ),
+                   RESU_MODIFSTRU = FACT( statut='f', max=1,
+                                          MODELE=SIMP(statut='f',typ=CO,defaut=None),
+                                          MODE_MECA=SIMP(statut='f',typ=CO,defaut=None),
+                                          MAILLAGE=SIMP(statut='f',typ=CO,defaut=None),
+                                          NUME_DDL=SIMP(statut='f',typ=CO,defaut=None),
+                                          MASS_MECA=SIMP(statut='f',typ=CO,defaut=None),
+                                          RIGI_MECA=SIMP(statut='f',typ=CO,defaut=None),
+                                          AMOR_MECA=SIMP(statut='f',typ=CO,defaut=None),
+                                          MACR_ELEM=SIMP(statut='f',typ=CO,defaut=None),
+                                          PROJ_MESU=SIMP(statut='f',typ=CO,defaut=None),
+                                          BASE_ES=SIMP(statut='f',typ=CO,defaut=None),
+                                          BASE_LMME=SIMP(statut='f',typ=CO,defaut=None),
+                                          MODE_STA=SIMP(statut='f',typ=CO,defaut=None),
+                                         ),
+                   UNITE_RESU = SIMP( statut='f',typ='I'),
+
+                   b_inter    = BLOC( condition="INTERACTIF=='NON'",
+
+                             EXPANSION        = FACT( statut='f',max='**',
+                                                      CALCUL           = SIMP(statut='o',typ=mode_meca),
+                                                      NUME_MODE_CALCUL = SIMP(statut='f',typ='I',validators=NoRepeat(),
+                                                                              max='**',defaut=0),
+                                                      MESURE           = SIMP(statut='o',typ=mode_meca),
+                                                      NUME_MODE_MESURE = SIMP(statut='f',typ='I',validators=NoRepeat(),
+                                                                              max='**',defaut=0),
+                                                      RESOLUTION       = SIMP(statut='f',typ='TXM',defaut='SVD',into=('SVD','LU')),
+                                                      b_reso           = BLOC(condition = "RESOLUTION=='SVD'",
+                                                                              EPS = SIMP(statut='f',typ='R', defaut = 0.)
+                                                                       )
+                                                    ),
+                             MEIDEE_FLUDELA   = FACT( statut='f', max='**',
+                                                      MESURE1 = SIMP(statut='o',typ=mode_meca),
+                                                      MESURE2 = SIMP(statut='o',typ=mode_meca),
+                                                      MESURE3 = SIMP(statut='o',typ=mode_meca),
+                                                      BASE    = SIMP(statut='o',typ=mode_meca),
+                                                    ),
+                             MEIDEE_TURBULENT = FACT( statut='f', max='**',
+                                                      INTE_SPEC      = SIMP(statut='o',typ=table_sdaster),
+                                                      NUME_MODE_DECONV = SIMP(statut='f',typ='I',validators=NoRepeat(),
+                                                                              max=1,defaut=0),
+                                                      NUME_MODE_LOCAL  = SIMP(statut='f',typ='I',validators=NoRepeat(),
+                                                                              max='**',defaut=0),
+                                                      BASE = SIMP(statut='o',typ=mode_meca),
+                                                      MESURE = SIMP(statut='o',typ=(mode_meca,base_modale)),
+                                                    ),
+                             IDENTIFICATION   = FACT( statut='f',max='**',   
+                                                      ALPHA   = SIMP(statut='f',typ='R', defaut = 0.),
+                                                      EPS     = SIMP(statut='f',typ='R', defaut = 0.),
+                                                      OBSERVABILITE  = SIMP(statut='o',typ=(mode_meca, base_modale)),
+                                                      COMMANDABILITE = SIMP(statut='o',typ=(mode_meca, base_modale)),
+                                                      INTE_SPEC      = SIMP(statut='o',typ=table_sdaster),
+                                                      RESU_EXPANSION = SIMP(statut='f',typ='TXM',defaut='NON',into=('OUI','NON')),
+                                                      BASE           = SIMP(statut='o',typ=mode_meca),
+                                                     ),
+                             MODIFSTRUCT = FACT( statut='f', max=1,
+                                                 MESURE = SIMP(statut='o', typ=mode_meca),
+                                                 MODELE_SUP = SIMP(statut='o', typ=modele_sdaster),
+                                                 MATR_RIGI = SIMP(statut='o', typ=matr_asse_depl_r),
+                                                 RESOLUTION = SIMP(statut='o', typ='TXM',
+                                                               into=('ES', 'LMME')),
+                                                 b_resol = BLOC( condition = "RESOLUTION=='LMME'",
+                                                                 MATR_MASS = SIMP(statut='o', typ=matr_asse_depl_r),
+                                                                ),
+                                                 NUME_MODE_MESU   = SIMP(statut='o', typ='I',max='**'),
+                                                 NUME_MODE_CALCUL = SIMP(statut='o', typ='I',max='**'),
+                                                 MODELE_MODIF = SIMP(statut='o', typ=modele_sdaster),
+                                               ),
+
+                             # Si on realise une modification structurale, on donne les DDL capteurs et interface
+                             b_inter    = BLOC( condition="MODIFSTRUCT!=None",
+                                   GROUP_NO_CAPTEURS  = FACT( statut='f', max='**',
+                                                              GROUP_NO = SIMP(statut='f',typ='TXM', max='**'),
+                                                              NOM_CMP  = SIMP(statut='f',typ='TXM', max='**'),
+                                                            ),
+                                   GROUP_NO_EXTERIEUR = FACT( statut='f', max='**',
+                                                              GROUP_NO = SIMP(statut='f',typ='TXM', max='**'),
+                                                              NOM_CMP  = SIMP(statut='f',typ='TXM', max='**'),
+                                                            ),
+                                               ),
+                                          ),
+                        );
+
+#& 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
+# 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 ASSIRE A.ASSIRE
+from Macro.calc_europlexus_ops import calc_europlexus_ops
+
+import types
+
+def calc_europlexus_prod(self,COURBE=None,**args):
+  if COURBE is not None:
+      self.type_sdprod(args['TABLE_COURBE'],table_sdaster) 
+  return evol_noli
+
+CALC_EUROPLEXUS = MACRO(nom="CALC_EUROPLEXUS",op=calc_europlexus_ops,sd_prod=calc_europlexus_prod,
+        reentrant='n',
+        #UIinfo={"groupes":("Dynamique rapide",)},
+        fr="Chainage Code_Aster-Europlexus",
+
+        LOGICIEL = SIMP(statut='f', typ='TXM', defaut='/home/europlex/EPXD/EUROPLEXUS_GESTION/runepx_d'),
+
+        MODELE     = SIMP(statut='o',typ=modele_sdaster),
+        CARA_ELEM  = SIMP(statut='o',typ=cara_elem),
+
+        FONC_PARASOL = FACT(statut='f',
+           NFKT       = SIMP(statut='f',typ=(fonction_sdaster,)),
+           NFKR       = SIMP(statut='f',typ=(fonction_sdaster,)),
+           GROUP_MA   = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           ),
+
+
+        CHAM_MATER = SIMP(statut='o',typ=cham_mater),
+
+        EXCIT      = FACT(statut='o',max='**',
+           CHARGE         = SIMP(statut='o',typ=(char_meca,)),
+           FONC_MULT      = SIMP(statut='o',typ=(fonction_sdaster,)),
+          ),
+
+        DIME = FACT(statut='o', regles=(AU_MOINS_UN('UNITE_DIME','Q4GS','FORCE',
+                                                    'PT6L','ZONE','POUT','ECRO',
+                                                    'APPU','BLOQ','PRESS','PMAT',
+                                                    'DKT3','DEPL','FNOM','TABLE','FTAB',
+                                                    'MTTI','NEPE','LIAI',), ),                   
+           UNITE_DIME=SIMP(statut='f',typ='I'),
+
+           Q4GS  = SIMP(statut='f',typ='I'),
+           FORCE = SIMP(statut='f',typ='I'),
+           PT6L  = SIMP(statut='f',typ='I'),
+           ZONE  = SIMP(statut='f',typ='I'),
+           POUT  = SIMP(statut='f',typ='I'),
+           ECRO  = SIMP(statut='f',typ='I'),
+           APPU  = SIMP(statut='f',typ='I'),
+           BLOQ  = SIMP(statut='f',typ='I'),
+           PRESS = SIMP(statut='f',typ='I',min=2,max=2,),
+           PMAT  = SIMP(statut='f',typ='I'),
+           DKT3  = SIMP(statut='f',typ='I'),
+           DEPL  = SIMP(statut='f',typ='I'),
+           FNOM  = SIMP(statut='f',typ='I'),
+           TABLE = SIMP(statut='f',typ='I',min=2,max=2,),
+           FTAB  = SIMP(statut='f',typ='I'),
+           MTTI  = SIMP(statut='f',typ='I'),
+           NEPE  = SIMP(statut='f',typ='I'),
+           LIAI  = SIMP(statut='f',typ='I'),
+             ),
+
+        CALCUL = FACT(statut='o',
+           TYPE_DISCRETISATION  = SIMP(statut='o',typ='TXM',defaut='AUTO',into=('AUTO','UTIL')),
+           INST_FIN             = SIMP(statut='o',typ='R'),
+           INST_INIT            = SIMP(statut='o',typ='R'),
+           NMAX                 = SIMP(statut='f',typ='R'),
+
+           b_auto =BLOC( condition = "TYPE_DISCRETISATION=='AUTO'",
+              CSTAB  = SIMP(statut='o',typ='R',max='**',defaut=0.3),
+#              DTMAX  = SIMP(statut='f',typ='R',max='**'),
+                       ),
+
+           b_util =BLOC( condition = "TYPE_DISCRETISATION=='UTIL'",
+              PASFIX   = SIMP(statut='o',typ='R',max='**'),
+                       ),
+           ),
+
+
+        OBSERVATION     =FACT(statut='f',max='**',
+           SUIVI_DDL       = SIMP(statut='o',typ='TXM',defaut="OUI",max=1,into=("OUI","NON")),
+        b_suivi          =BLOC(condition = "SUIVI_DDL == 'OUI' ",
+                               regles=( AU_MOINS_UN('PAS_NBRE','PAS_INST',), 
+                                        EXCLUS('PAS_NBRE','PAS_INST',), 
+                                        EXCLUS('GROUP_NO','TOUT_GROUP_NO',), 
+                                        EXCLUS('GROUP_MA','TOUT_GROUP_MA',), ),
+           NOM_CHAM        = SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**', defaut = ('DEPL',), 
+                                  into=('DEPL','VITE','ACCE','SIEF_ELGA','EPSI_ELGA','VARI_ELGA'),),
+           PAS_INST        = SIMP(statut='f',typ='R'),
+           PAS_NBRE        = SIMP(statut='f',typ='I'),
+           GROUP_NO        = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           GROUP_MA        = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           TOUT_GROUP_NO   = SIMP(statut='f',typ='TXM',into=('OUI',),),
+           TOUT_GROUP_MA   = SIMP(statut='f',typ='TXM',into=('OUI',),),
+                             ),
+        ),
+
+
+        ARCHIVAGE        =FACT(statut='f', regles=( AU_MOINS_UN('PAS_NBRE','PAS_INST',), EXCLUS('PAS_NBRE','PAS_INST',), ),
+           PAS_INST     = SIMP(statut='f',typ='R'),
+           PAS_NBRE     = SIMP(statut='f',typ='I'),
+           CONT_GENER   = SIMP(statut='o',typ='TXM',defaut="NON",max=1,into=("OUI","NON")),
+                             ),                
+        COURBE  =  FACT(statut='f',max='**', regles=(EXCLUS('GROUP_NO','GROUP_MA')),
+           UNITE_ALIT = SIMP(statut='f',typ='I'),
+            NOM_CHAM   = SIMP(statut='f',typ='TXM'),
+            NOM_CMP    = SIMP(statut='f',typ='TXM'),
+#             NOEUD      = SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+#             MAILLE     = SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+            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 = "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",
+                        regles=(AU_MOINS_UN('PAS_NBRE_COURBE','PAS_INST_COURBE',),
+                                AU_MOINS_UN('TABLE_COURBE',)),          
+          PAS_INST_COURBE      = SIMP(statut='f',typ='R'),
+          PAS_NBRE_COURBE       = SIMP(statut='f',typ='I'),
+                  TABLE_COURBE      = SIMP(statut='f', typ=CO),
+          ),
+        DOMAINES = FACT(statut='f',max='**',
+             GROUP_MA = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             IDENTIFIANT =  SIMP(statut='f',typ='I'),), 
+        INTERFACES = FACT(statut='f',max='**',
+             GROUP_MA_1 = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             GROUP_MA_2 = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             TOLE        =  SIMP(statut='f',typ='R'),
+             IDENT_DOMAINE_1  = SIMP(statut='f',typ='I'), 
+             IDENT_DOMAINE_2  = SIMP(statut='f',typ='I'),),
+
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=( 1, 2 ) ),
+        ) ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 ANGLES J.ANGLES
+def calc_fatigue_prod(TYPE_CALCUL,OPTION,**args):
+  if TYPE_CALCUL == "CUMUL_DOMMAGE" : return cham_elem
+  if TYPE_CALCUL == "FATIGUE_MULTI" and OPTION == "DOMA_ELGA": return cham_elem
+  if TYPE_CALCUL == "FATIGUE_MULTI" and OPTION == "DOMA_NOEUD": return cham_no_sdaster
+  raise AsException("type de calcul non prevu")
+
+CALC_FATIGUE=OPER(nom="CALC_FATIGUE",op= 151,sd_prod=calc_fatigue_prod,reentrant='n',
+                  fr="Calculer un champ de dommage de fatigue subit par une structure et déterminer le plan critique"
+                      +" dans lequel le cisaillement est maximal.",
+            UIinfo={"groupes":("Post traitements",)},
+
+         TYPE_CALCUL = SIMP(statut='o',typ='TXM',
+                               into=("CUMUL_DOMMAGE","FATIGUE_MULTI",) ),
+
+         b_cumul_domma   =BLOC(condition = "TYPE_CALCUL == 'CUMUL_DOMMAGE'",
+                               fr="Calcul d un champ de dommage subi par une structure.",
+           regles=(PRESENT_PRESENT('DOMMAGE','MATER', ),),
+           OPTION          =SIMP(statut='o',typ='TXM',
+                                 into=("DOMA_ELNO_SIGM","DOMA_ELGA_SIGM",
+                                       "DOMA_ELNO_EPSI","DOMA_ELGA_EPSI",
+                                       "DOMA_ELNO_EPME","DOMA_ELGA_EPME") ),
+           HISTOIRE        =FACT(statut='o',
+             RESULTAT        =SIMP(statut='o',typ=(evol_elas,dyna_trans,
+                                                   evol_noli) ),
+             EQUI_GD         =SIMP(statut='f',typ='TXM',defaut="VMIS_SG",
+                                 into=("VMIS_SG","INVA_2_SG") ),
+           ),
+           DOMMAGE         =SIMP(statut='o',typ='TXM',
+                               into=("WOHLER","MANSON_COFFIN","TAHERI_MANSON",
+                                     "TAHERI_MIXTE",) ),
+           MATER           =SIMP(statut='o',typ=(mater_sdaster) ),
+           TAHERI_NAPPE    =SIMP(statut='f',typ=(nappe_sdaster,formule) ),
+           TAHERI_FONC     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         b_fatigue_multi   =BLOC(condition = "TYPE_CALCUL == 'FATIGUE_MULTI'",
+                                 fr="Plan critique dans le cas de la fatigue multiaxiale à grand nombre de cycles.",
+           TYPE_CHARGE   =SIMP(statut='o',typ='TXM',into=("PERIODIQUE","NON_PERIODIQUE") ),
+           OPTION        =SIMP(statut='o',typ='TXM',into=("DOMA_ELGA","DOMA_NOEUD") ),
+           RESULTAT      =SIMP(statut='o',typ=(evol_elas, evol_noli) ),
+           CHAM_MATER    =SIMP(statut='o',typ=(cham_mater) ),
+           MAILLAGE      =SIMP(statut='o',typ=maillage_sdaster ),
+           regles=(UN_PARMI('GROUP_NO','NOEUD','GROUP_MA','MAILLE'),),
+           GROUP_MA      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**' ),
+           MAILLE        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**' ),
+           GROUP_NO      =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**' ),
+           NOEUD         =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**' ),
+           COEF_PREECROU =SIMP(statut='f',typ='R',defaut= 1.0E+0),
+           b_period       =BLOC(condition = "TYPE_CHARGE == 'PERIODIQUE'",
+               CRITERE       =SIMP(statut='o',typ='TXM',into=("MATAKE_MODI_AC","DANG_VAN_MODI_AC","VMIS_TRESCA") ),
+               b_fati_p  =BLOC(condition = "(CRITERE == 'MATAKE_MODI_AC' or CRITERE == 'DANG_VAN_MODI_AC')",
+                   METHODE       =SIMP(statut='o',typ='TXM',into=("CERCLE_EXACT",) ),
+               ),
+           ),
+           b_non_period   =BLOC(condition = "TYPE_CHARGE == 'NON_PERIODIQUE'",
+               CRITERE       =SIMP(statut='o',typ='TXM',
+                                   into=("MATAKE_MODI_AV","DANG_VAN_MODI_AV","FATESOCI_MODI_AV","VMIS_TRESCA") ),
+               b_fati_np  =BLOC(condition = 
+                               "(CRITERE == 'MATAKE_MODI_AV' or CRITERE == 'DANG_VAN_MODI_AV' or CRITERE == 'FATESOCI_MODI_AV')",
+                   PROJECTION    =SIMP(statut='o',typ='TXM',into=("UN_AXE", "DEUX_AXES") ),
+                   DELTA_OSCI    =SIMP(statut='f',typ='R',defaut= 0.0E+0),  
+               ),
+           ),
+         ),
+
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=(1,2) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 ADOBES A.ADOBES
+CALC_FLUI_STRU=OPER(nom="CALC_FLUI_STRU",op= 144,sd_prod=melasflu_sdaster,
+                    reentrant='n',
+                    fr="Calculer les paramètres modaux d'une structure soumise à un écoulement",
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+         VITE_FLUI       =FACT(statut='f',
+                               fr="Définir la plage de vitesse fluide étudiée",
+           VITE_MIN        =SIMP(statut='f',typ='R' ),
+           VITE_MAX        =SIMP(statut='f',typ='R' ),
+           NB_POIN         =SIMP(statut='f',typ='I' ),
+         ),
+         BASE_MODALE     =FACT(statut='o',
+                               
+           regles=(AU_MOINS_UN('AMOR_REDUIT','AMOR_UNIF','AMOR_REDUIT_CONN'),),
+           MODE_MECA       =SIMP(statut='o',typ=mode_meca ),
+           NUME_ORDRE      =SIMP(statut='f',typ='I',max='**'),
+           AMOR_REDUIT     =SIMP(statut='f',typ='R',max='**',val_min=0.E+00),
+           AMOR_UNIF       =SIMP(statut='f',typ='R',val_min=0.E+00 ),
+           AMOR_REDUIT_CONN=SIMP(statut='f',typ='R',max='**',val_min=0.E+00),
+         ),
+         TYPE_FLUI_STRU  =SIMP(statut='o',typ=type_flui_stru ),
+         IMPRESSION      =FACT(statut='f',
+                               fr="Choix des informations à imprimer dans le fichier RESULTAT",
+           PARA_COUPLAGE   =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           DEFORMEE        =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 COURTOIS M.COURTOIS
+def calc_fonc_interp_prod(FONCTION, NOM_PARA_FONC, **args):
+   if   AsType(FONCTION) == nappe_sdaster:
+      return nappe_sdaster
+   elif AsType(FONCTION) == fonction_sdaster:
+      return fonction_sdaster
+   elif AsType(FONCTION) == fonction_c:
+      return fonction_c
+   elif AsType(FONCTION) == formule_c:
+      return fonction_c
+   elif AsType(FONCTION) == formule:
+      if NOM_PARA_FONC != None:
+         return nappe_sdaster
+      return fonction_sdaster
+   elif AsType(FONCTION) == para_sensi:
+      return para_sensi
+   raise AsException("type de concept resultat non prevu")
+
+CALC_FONC_INTERP=OPER(nom="CALC_FONC_INTERP",op= 134,sd_prod=calc_fonc_interp_prod,
+                      docu="U4.32.01-e",reentrant='n',
+           fr="Définit une fonction (ou une nappe) à partir d'une fonction FORMULE à 1 ou 2 variables",
+           UIinfo={"groupes":("Fonction",)},
+         regles=(UN_PARMI('VALE_PARA','LIST_PARA'),),
+         FONCTION        =SIMP(statut='o',typ=(formule,fonction_sdaster,nappe_sdaster,fonction_c) ),
+         VALE_PARA       =SIMP(statut='f',typ='R',max='**'),
+         LIST_PARA       =SIMP(statut='f',typ=listr8_sdaster ),
+         NOM_RESU        =SIMP(statut='f',typ='TXM'),
+         NOM_PARA        =SIMP(statut='f',typ='TXM'),
+         INTERPOL        =SIMP(statut='f',typ='TXM',max=2,into=("NON","LIN","LOG") ),
+         PROL_DROITE     =SIMP(statut='f',typ='TXM',into=("EXCLU","CONSTANT","LINEAIRE") ),
+         PROL_GAUCHE     =SIMP(statut='f',typ='TXM',into=("EXCLU","CONSTANT","LINEAIRE") ),
+         NOM_PARA_FONC   =SIMP(statut='f',typ='TXM'),
+         b_eval_nappe    =BLOC(condition = "NOM_PARA_FONC != None",             
+            regles=(UN_PARMI('VALE_PARA_FONC','LIST_PARA_FONC'),),
+            VALE_PARA_FONC  =SIMP(statut='f',typ='R',max='**'),
+            LIST_PARA_FONC  =SIMP(statut='f',typ=listr8_sdaster ),
+            INTERPOL_FONC   =SIMP(statut='f',typ='TXM',max=2,into=("NON","LIN","LOG")),
+            PROL_DROITE_FONC=SIMP(statut='f',typ='TXM',into=("EXCLU","CONSTANT","LINEAIRE") ),
+            PROL_GAUCHE_FONC=SIMP(statut='f',typ='TXM',into=("EXCLU","CONSTANT","LINEAIRE") ),
+         ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2 ) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 COURTOIS M.COURTOIS
+from Macro.calc_fonction_ops import calc_fonction_ops
+def calc_fonction_prod(self,DERIVE,EXTRACTION,INTEGRE,INVERSE,COMB,COMB_C,
+                       ENVELOPPE,FRACTILE,SPEC_OSCI,ASSE,FFT,COMPOSE,CORR_ACCE,PUISSANCE,
+                       LISS_ENVELOP,ABS, **args):
+
+   if (INTEGRE     != None): return fonction_sdaster
+   if (DERIVE      != None): return fonction_sdaster
+   if (INVERSE     != None): return fonction_sdaster
+   if (COMB        != None): 
+      type_vale=AsType(COMB[0]['FONCTION'])
+      for mcfact in COMB :
+          if(AsType(mcfact['FONCTION'])!=type_vale):
+             raise AsException("CALC_FONCTION/COMB : pas de types hétérogènes nappe/fonction")
+      return type_vale
+   if (COMB_C      != None):
+      vale=COMB_C[0]['FONCTION']
+      if(AsType(vale) == nappe_sdaster):
+         for mcfact in COMB_C[1:] :
+             if(AsType(mcfact['FONCTION'])!=nappe_sdaster):
+                raise AsException("CALC_FONCTION/COMB_C : pas de types hétérogènes nappe/fonction")
+         return nappe_sdaster
+      else:
+         for mcfact in COMB_C :
+             if(AsType(mcfact['FONCTION'])==nappe_sdaster):
+                raise AsException("CALC_FONCTION/COMB_C : pas de types hétérogènes nappe/fonction")
+         return fonction_c
+   if (ENVELOPPE   != None): return AsType(ENVELOPPE[0]['FONCTION'])
+   if (FRACTILE    != None): return AsType(FRACTILE[0] ['FONCTION'])
+   if (EXTRACTION  != None): return fonction_sdaster
+   if (SPEC_OSCI   != None): return nappe_sdaster
+   if (COMPOSE     != None): return fonction_sdaster
+   if (ASSE        != None): return fonction_sdaster
+   if (FFT         != None):
+      vale=FFT[0]['FONCTION']
+      if (AsType(vale) == fonction_sdaster )  : return fonction_c
+      if (AsType(vale) == fonction_c) : return fonction_sdaster
+   if (CORR_ACCE   != None): return fonction_sdaster
+   if (LISS_ENVELOP!= None): return nappe_sdaster
+   if (PUISSANCE   != None): return AsType(PUISSANCE[0]['FONCTION'])
+   if (ABS         != None): return fonction_sdaster
+   raise AsException("type de concept resultat non prevu")
+
+CALC_FONCTION=MACRO(nom="CALC_FONCTION",op=calc_fonction_ops,sd_prod=calc_fonction_prod
+                    ,fr="Effectue des opérations mathématiques sur des concepts de type fonction",
+                     reentrant='n',
+            UIinfo={"groupes":("Fonction",)},
+         regles=(UN_PARMI('DERIVE','INTEGRE','SPEC_OSCI','COMB','COMB_C','ENVELOPPE',
+                          'COMPOSE','EXTRACTION','ASSE','FFT','CORR_ACCE', 'PUISSANCE',
+                          'LISS_ENVELOP','INVERSE','ABS','FRACTILE'),),
+         FFT             =FACT(statut='f',fr="Transformée de Fourier ou de son inverse",
+           FONCTION        =SIMP(statut='o',typ=(fonction_sdaster,fonction_c) ),
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="PROL_ZERO",into=("PROL_ZERO","TRONCATURE","COMPLET") ),
+           b_syme          =BLOC ( condition = " AsType(FONCTION)==fonction_c ",
+             SYME           =SIMP(statut='f',typ='TXM',into=('OUI','NON'),defaut='OUI' ),  
+           ),
+         ),
+         DERIVE          =FACT(statut='f',fr="Dérivée d une fonction",
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="DIFF_CENTREE",into=("DIFF_CENTREE",) ),
+           FONCTION        =SIMP(statut='o',typ=fonction_sdaster ),
+         ),
+         INTEGRE         =FACT(statut='f',fr="Intégrale d'une fonction",
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="TRAPEZE",into=("SIMPSON","TRAPEZE") ),
+           FONCTION        =SIMP(statut='o',typ=fonction_sdaster),
+           COEF            =SIMP(statut='f',typ='R',defaut= 0.E+0,fr="Valeur de la constante d intégration" ),
+         ),
+         LISS_ENVELOP    = FACT(statut='f',fr="Lissage d une enveloppe",
+           NAPPE           =SIMP(statut='o',typ=nappe_sdaster ),
+           FREQ_MIN        =SIMP(statut='f',typ='R',defaut =0.2),
+           FREQ_MAX        =SIMP(statut='f',typ='R',defaut =35.5),
+           ELARG           =SIMP(statut='f',typ='R',defaut =0.1 ),
+           TOLE_LISS       =SIMP(statut='f',typ='R',defaut =0.25 ),
+         ),
+         SPEC_OSCI       =FACT(statut='f',fr="Spectre d'oscillateur",
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="NIGAM",into=("NIGAM",) ),
+           FONCTION        =SIMP(statut='o',typ=fonction_sdaster ),
+           AMOR_REDUIT     =SIMP(statut='f',typ='R',max='**'),
+           LIST_FREQ       =SIMP(statut='f',typ=listr8_sdaster ),
+           FREQ            =SIMP(statut='f',typ='R',max='**'),
+           NORME           =SIMP(statut='o',typ='R',fr="Valeur de la norme du spectre d oscillateur" ),
+           NATURE          =SIMP(statut='f',typ='TXM',defaut="ACCE",into=("DEPL","VITE","ACCE") ),
+           NATURE_FONC     =SIMP(statut='f',typ='TXM',defaut="ACCE",into=("DEPL","VITE","ACCE") ),
+         ),
+         ABS             =FACT(statut='f',fr="Valeur absolue d'une fonction",
+           FONCTION        =SIMP(statut='o',typ=fonction_sdaster,),
+         ),
+         COMB            =FACT(statut='f',max='**',fr="Combinaison linéaire réelle de fonctions",
+           FONCTION        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster) ),
+           COEF            =SIMP(statut='o',typ='R',fr="Coefficient réel de la combinaison linéaire associée à la fonction" ),
+         ),
+         COMB_C          =FACT(statut='f',max='**',fr="Combinaison linéaire complexe de fonctions",
+           regles=(UN_PARMI('COEF_R','COEF_C'),),
+           FONCTION        =SIMP(statut='o',typ=(fonction_sdaster,fonction_c,nappe_sdaster) ),
+           COEF_R          =SIMP(statut='f',typ='R',fr="Coefficient réel de la combinaison linéaire associée à la fonction" ),
+           COEF_C          =SIMP(statut='f',typ='C',fr="Coefficient complexe de la combinaison linéaire associée à la fonction" ),
+         ),
+         b_comb          =BLOC ( condition = " (COMB != None) or (COMB_C != None)",
+             LIST_PARA      =SIMP(statut='f',typ=listr8_sdaster ),  
+         ),
+         COMPOSE         =FACT(statut='f',fr="Composition de deux fonctions FONC_RESU(FONC_PARA)",
+           FONC_RESU       =SIMP(statut='o',typ=fonction_sdaster),
+           FONC_PARA       =SIMP(statut='o',typ=fonction_sdaster),
+         ),
+         EXTRACTION      =FACT(statut='f',fr="Extraction sur une fonction complexe",
+           FONCTION        =SIMP(statut='o',typ=fonction_c),
+           PARTIE          =SIMP(statut='o',typ='TXM',into=("REEL","IMAG","MODULE","PHASE"),fr="Partie à extraire"),
+         ),
+         ENVELOPPE       =FACT(statut='f',fr="Enveloppe d une famille de fonctions",
+           FONCTION        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster),max='**' ),
+           CRITERE         =SIMP(statut='f',typ='TXM',defaut="SUP",into=("SUP","INF"),fr="Type de l enveloppe" ),
+         ),
+         FRACTILE        =FACT(statut='f',fr="Fractile d une famille de fonctions ou de nappes",
+           FONCTION        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster),max='**' ),
+           FRACT           =SIMP(statut='o',typ='R',defaut=1.,val_min=0.,val_max=1.,fr="Valeur du fractile" ),
+         ),
+         ASSE            =FACT(statut='f',fr="Concatenation de fonctions",
+           FONCTION        =SIMP(statut='o',typ=fonction_sdaster,min=2,max=2 ),
+           SURCHARGE       =SIMP(statut='f',typ='TXM',defaut="DROITE",into=("DROITE","GAUCHE")),
+         ),
+         CORR_ACCE       =FACT(statut='f',fr="Correction d un accelerogramme reel",
+            CORR_DEPL       =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")),
+            FONCTION        =SIMP(statut='o',typ=fonction_sdaster ),
+         ),
+         PUISSANCE       =FACT(statut='f',fr="Fonction élevée à une puissance",
+            FONCTION      =SIMP(statut='o', typ=(fonction_sdaster,nappe_sdaster) ),
+            EXPOSANT      =SIMP(statut='f', typ='I', defaut=1 ),
+         ),
+         INVERSE         =FACT(statut='f',fr="Inverse d'une fonction",
+            FONCTION      =SIMP(statut='o', typ=fonction_sdaster),
+         ),     
+         NOM_PARA        =SIMP(statut='f',typ='TXM',into=C_PARA_FONCTION() ),
+         NOM_RESU        =SIMP(statut='f',typ='TXM' ),
+         INTERPOL        =SIMP(statut='f',typ='TXM',max=2,into=("NON","LIN","LOG") ),
+         PROL_DROITE     =SIMP(statut='f',typ='TXM',into=("CONSTANT","LINEAIRE","EXCLU") ),
+         PROL_GAUCHE     =SIMP(statut='f',typ='TXM',into=("CONSTANT","LINEAIRE","EXCLU") ),
+         NOM_PARA_FONC   =SIMP(statut='f',typ='TXM',into=C_PARA_FONCTION() ),
+         INTERPOL_FONC   =SIMP(statut='f',typ='TXM',max=2,into=("NON","LIN","LOG") ),
+         PROL_DROITE_FONC=SIMP(statut='f',typ='TXM',into=("CONSTANT","LINEAIRE","EXCLU") ),
+         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 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.
+#
+# 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 GREFFET N.GREFFET
+CALC_FORC_AJOU=OPER(nom="CALC_FORC_AJOU",op=199,sd_prod=vect_asse_gene,
+                   fr="Calculer l'effet de surpression hydrodynamique due au mouvement d'entrainement de la structure"
+                       +" en analyse sismique",
+                   reentrant ='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+
+        regles=(EXCLUS('MODE_MECA','MODELE_GENE'),
+                PRESENT_PRESENT( 'MODELE_GENE','NUME_DDL_GENE'),
+                UN_PARMI('MONO_APPUI', 'NOEUD','GROUP_NO'),
+                UN_PARMI('MONO_APPUI','MODE_STAT')),
+
+         MODELE_FLUIDE   =SIMP(statut='o',typ=modele_sdaster ),
+         MODELE_INTERFACE=SIMP(statut='o',typ=modele_sdaster ),
+         CHAM_MATER      =SIMP(statut='o',typ=cham_mater ),
+         CHARGE          =SIMP(statut='o',typ=char_ther ),
+         MODE_MECA       =SIMP(statut='f',typ=mode_meca ),
+         MODELE_GENE     =SIMP(statut='f',typ=modele_gene ),
+         NUME_DDL_GENE   =SIMP(statut='f',typ=nume_ddl_gene ),
+         DIST_REFE       =SIMP(statut='f',typ='R',defaut= 1.E-2 ),
+         AVEC_MODE_STAT  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         NUME_MODE_MECA  =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+         POTENTIEL       =SIMP(statut='f',typ=evol_ther ),
+         NOEUD_DOUBLE    =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+
+         DIRECTION       =SIMP(statut='o',typ='R',max=3),
+         MONO_APPUI      =SIMP(statut='f',typ='TXM',into=("OUI",),),
+         NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+         GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+         MODE_STAT       =SIMP(statut='f',typ=(mode_stat_depl,mode_stat_acce,mode_stat_forc,),),
+
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2 ) ),
+
+         SOLVEUR         =FACT(statut='d',
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("MULT_FRONT","LDLT","GCPC","MUMPS","PETSC") ),
+           b_mult_front    = BLOC ( condition = "METHODE == 'MULT_FRONT' ",fr="Paramètres de la méthode multi frontale",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+           ),
+           b_ldlt          =BLOC( condition = "METHODE == 'LDLT' ",fr="Paramètres de la méthode LDLT",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("RCMK","SANS") ),
+           ),
+           b_ldlt_mult     =BLOC( condition = "METHODE == 'LDLT' or METHODE == 'MULT_FRONT' ",
+                                   fr="Paramètres relatifs à la non iversibilité de la matrice à factorise",
+             NPREC           =SIMP(statut='f',typ='I',defaut= 8 ),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+           b_gcpc          =BLOC (condition = "METHODE == 'GCPC' ", fr="Paramètres de la méthode du gradient conjugué",
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC",),defaut="LDLT_INC" ),
+             NIVE_REMPLISSAGE=SIMP(statut='f',typ='I',defaut=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= 0 ),
+           ),
+           b_mumps        =BLOC(condition = "METHODE == 'MUMPS' ",fr="Paramètres de la méthode MUMPS",
+             TYPE_RESOL      =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("NONSYM","SYMGEN","SYMDEF","AUTO")),
+             PRETRAITEMENTS  =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("SANS","AUTO")),
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("AMD","AMF","PORD","METIS","QAMD","AUTO")),
+             ELIM_LAGR2      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+             PCENT_PIVOT     =SIMP(statut='f',typ='I',defaut=10,),
+             RESI_RELA       =SIMP(statut='f',typ='R',defaut=1.0E-6,),
+             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,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" ),
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC","JACOBI","SOR"),defaut="LDLT_INC" ),
+             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 ),
+           ),
+                           ),
+
+           ) ;
+#& MODIF COMMANDE  DATE 20/10/2008   AUTEUR GALENNE E.GALENNE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2006  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.        
+# ======================================================================
+# RESPONSABLE GALENNE E.GALENNE
+CALC_G=OPER(nom="CALC_G",op=100,sd_prod=table_sdaster,
+            fr="Calcul du taux de restitution d'énergie par la méthode theta en thermo-élasticité"
+                        +" et les facteurs d'intensité de contraintes.",
+                    reentrant='f',
+            UIinfo={"groupes":("Post traitements",)},
+         regles=(EXCLUS('COMP_ELAS','COMP_INCR'),
+                 CONCEPT_SENSIBLE("ENSEMBLE"),
+                 REUSE_SENSIBLE(),
+                 DERIVABLE('RESULTAT'),),
+
+         THETA          =FACT(statut='o',
+           THETA           =SIMP(statut='f',typ=(theta_geom,cham_no_sdaster),),
+           FOND_FISS       =SIMP(statut='f',typ=fond_fiss,max=1),
+           FISSURE         =SIMP(statut='f',typ=fiss_xfem,max=1),
+           DTAN_ORIG       =SIMP(statut='f',typ='R',max='**'),
+           DTAN_EXTR       =SIMP(statut='f',typ='R',max='**'),
+           NB_POINT_FOND   =SIMP(statut='f',typ='I',val_min=2),
+           regles=(EXCLUS('FOND_FISS','FISSURE'),
+                 EXCLUS('FOND_FISS','NB_POINT_FOND'),
+                 EXCLUS('FOND_FISS','DTAN_ORIG'),
+                 EXCLUS('FOND_FISS','DTAN_EXTR'),),
+          b_theta        =BLOC(condition="THETA == None",fr="calcul de theta",
+            regles=(UN_PARMI('R_INF','R_INF_FO'),
+                 PRESENT_PRESENT('R_INF','R_SUP'),
+                PRESENT_PRESENT('R_INF_FO','R_SUP_FO'), ),
+             NUME_FOND        =SIMP(statut='f',typ='I',defaut=1),
+             R_INF           =SIMP(statut='f',typ='R'),
+             R_SUP           =SIMP(statut='f',typ='R'),
+             MODULE          =SIMP(statut='f',typ='R',defaut=1.),
+             DIRE_THETA      =SIMP(statut='f',typ=cham_no_sdaster ),
+             DIRECTION       =SIMP(statut='f',typ='R',max=3,min=3),
+             R_INF_FO        =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             R_SUP_FO        =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),             
+             MODULE_FO       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             ),
+            ),
+
+         RESULTAT        =SIMP(statut='o',typ=(evol_elas,evol_noli,dyna_trans,mode_meca,mult_elas),),
+
+         b_no_mult          =BLOC(condition="(AsType(RESULTAT) != mult_elas)",
+         regles=(EXCLUS('TOUT_ORDRE','NUME_ORDRE','LIST_ORDRE','INST','LIST_INST',
+                  'TOUT_MODE','NUME_MODE','LIST_MODE','FREQ','LIST_FREQ'),),
+            
+            TOUT_ORDRE      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+            NUME_ORDRE      =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+            LIST_ORDRE      =SIMP(statut='f',typ=listis_sdaster),
+            INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+            LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+            TOUT_MODE       =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+            NUME_MODE       =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+            LIST_MODE       =SIMP(statut='f',typ=listis_sdaster),
+            LIST_FREQ       =SIMP(statut='f',typ=listr8_sdaster),
+            FREQ            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+       
+           b_acce_reel     =BLOC(condition="(INST != None)or(LIST_INST != None)or(FREQ != None)or(LIST_FREQ != 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'),),
+            ),
+         ),
+
+         b_mult_elas     =BLOC(condition="(AsType(RESULTAT) == mult_elas)",
+            NOM_CAS         =SIMP(statut='f',typ='TXM',validators=NoRepeat() ),
+         ),
+
+        
+         EXCIT           =FACT(statut='f',max='**',
+               CHARGE          =SIMP(statut='f',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",into=("FIXE",) ),
+         ),
+         SYME_CHAR       =SIMP(statut='f',typ='TXM',defaut="SANS",into=("SYME","ANTI","SANS") ),
+ 
+         COMP_ELAS       =FACT(statut='f',
+               RELATION        =SIMP(statut='f',typ='TXM',defaut="ELAS",
+                                     into=("ELAS","ELAS_VMIS_LINE","ELAS_VMIS_TRAC","ELAS_VMIS_PUIS") ),
+               CALCUL_CONTRAINTE =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+               DEFORMATION     =SIMP(statut='f',typ='TXM',defaut="PETIT",into=("PETIT","GREEN") ),
+      regles=(PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),),
+               TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+               GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+               MAILLE          =SIMP(statut='f',typ=ma,validators=NoRepeat(),max='**'),
+         ),  
+         COMP_INCR       =FACT(statut='f',
+               RELATION        =SIMP(statut='f',typ='TXM',defaut="ELAS",
+                                     into=("ELAS","VMIS_ISOT_TRAC","VMIS_ISOT_LINE","VMIS_CINE_LINE","ELAS_VMIS_PUIS") ),
+               DEFORMATION     =SIMP(statut='f',typ='TXM',defaut="PETIT",into=("PETIT","PETIT_REAC") ),
+      regles=(PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),),
+               TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+               GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+               MAILLE          =SIMP(statut='f',typ=ma,validators=NoRepeat(),max='**'),
+         ),
+         ETAT_INIT       =FACT(statut='f',
+           SIGM            =SIMP(statut='f',typ=cham_elem),
+           DEPL            =SIMP(statut='f',typ=cham_no_sdaster),
+         ),
+          
+         LISSAGE         =FACT(statut='d',
+           DEGRE           =SIMP(statut='f',typ='I',defaut=5,into=(0,1,2,3,4,5,6,7) ),
+           LISSAGE_THETA   =SIMP(statut='f',typ='TXM',defaut="LEGENDRE",into=("LEGENDRE","LAGRANGE","LAGRANGE_REGU"),),
+           LISSAGE_G       =SIMP(statut='f',typ='TXM',defaut="LEGENDRE",into=("LEGENDRE","LAGRANGE",
+                                 "LAGRANGE_NO_NO","LAGRANGE_REGU"),),
+         ),
+
+         OPTION          =SIMP(statut='o',typ='TXM',max=1,defaut='CALC_G',
+              into=("CALC_G","CALC_G_GLOB","CALC_K_G","K_G_MODA","G_MAX","G_MAX_GLOB","G_BILI",
+                    "G_BILI_GLOB","CALC_K_MAX"),),
+
+         b_g_max    =BLOC(condition="(OPTION=='G_MAX') or (OPTION=='G_MAX_GLOB')",
+           BORNES          =FACT(statut='o',max='**',
+                NUME_ORDRE     =SIMP(statut='o',typ='I'),
+                VALE_MIN       =SIMP(statut='o',typ='R'),
+                VALE_MAX       =SIMP(statut='o',typ='R'),
+                                ),
+         ),
+         b_k_max    =BLOC(condition="(OPTION=='CALC_K_MAX')",
+           SIGNES          =FACT(statut='o',max=1,
+                CHARGE_S       =SIMP(statut='o',typ='I',validators=NoRepeat(),max='**'),
+                CHARGE_NS      =SIMP(statut='o',typ='I',validators=NoRepeat(),max='**'),
+                                ),
+         ),
+
+         SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                           fr="Liste des paramètres de sensibilité.",
+                           ang="List of sensitivity parameters"),
+
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2) ),
+);
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 ZENTNER I.ZENTNER
+CALC_INTE_SPEC=OPER(nom="CALC_INTE_SPEC",op= 120,sd_prod=table_fonction,
+                    fr="Calcul d'une matrice interspectrale à partir d'une fonction du temps",
+                    reentrant='n',
+            UIinfo={"groupes":("Fonction",)},
+         INST_INIT       =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+         INST_FIN        =SIMP(statut='o',typ='R' ),
+         DUREE_ANALYSE   =SIMP(statut='f',typ='R' ),
+         DUREE_DECALAGE  =SIMP(statut='f',typ='R' ),
+         NB_POIN         =SIMP(statut='o',typ='I' ),
+         FONCTION        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule),max='**' ),
+         TITRE           =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1 , 2) ),
+)  ;
+#& 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.
+#
+# 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 GREFFET N.GREFFET
+CALC_MATR_AJOU=OPER(nom="CALC_MATR_AJOU",op= 152,sd_prod=matr_asse_gene_r,
+                    fr="Calcul des matrices de masse, d'amortissement ou de rigidité ajoutés",
+                    reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+         regles=(EXCLUS('MODE_MECA','CHAM_NO','MODELE_GENE'),
+                 PRESENT_ABSENT('NUME_DDL_GENE','CHAM_NO'),
+                 PRESENT_PRESENT('MODELE_GENE','NUME_DDL_GENE'),),
+         MODELE_FLUIDE   =SIMP(statut='o',typ=modele_sdaster ),
+         MODELE_INTERFACE=SIMP(statut='o',typ=modele_sdaster ),
+         CHAM_MATER      =SIMP(statut='o',typ=cham_mater ),
+         CHARGE          =SIMP(statut='o',typ=char_ther ),
+         MODE_MECA       =SIMP(statut='f',typ=mode_meca ),
+         CHAM_NO         =SIMP(statut='f',typ=cham_no_sdaster ),
+         MODELE_GENE     =SIMP(statut='f',typ=modele_gene ),
+         NUME_DDL_GENE   =SIMP(statut='f',typ=nume_ddl_gene ),
+         DIST_REFE       =SIMP(statut='f',typ='R',defaut= 1.E-2 ),
+         AVEC_MODE_STAT  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         NUME_MODE_MECA  =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+         OPTION          =SIMP(statut='o',typ='TXM',into=("MASS_AJOU","AMOR_AJOU","RIGI_AJOU") ),
+         POTENTIEL       =SIMP(statut='f',typ=evol_ther ),
+         NOEUD_DOUBLE    =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2 ) ),
+
+         SOLVEUR         =FACT(statut='d',
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("MULT_FRONT","LDLT","GCPC","MUMPS","PETSC") ),
+           b_mult_front    = BLOC ( condition = "METHODE == 'MULT_FRONT' ",fr="Paramètres de la méthode multi frontale",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+           ),
+           b_ldlt          =BLOC( condition = "METHODE == 'LDLT' ",fr="Paramètres de la méthode LDLT",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("RCMK","SANS") ),
+           ),
+           b_ldlt_mult     =BLOC( condition = "METHODE == 'LDLT' or METHODE == 'MULT_FRONT' ",
+                                   fr="Paramètres relatifs à la non iversibilité de la matrice à factorise",
+             NPREC           =SIMP(statut='f',typ='I',defaut= 8 ),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+           b_gcpc          =BLOC (condition = "METHODE == 'GCPC' ", fr="Paramètres de la méthode du gradient conjugué",
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC",),defaut="LDLT_INC" ),
+             NIVE_REMPLISSAGE=SIMP(statut='f',typ='I',defaut=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= 0 ),
+           ),
+           b_mumps        =BLOC(condition = "METHODE == 'MUMPS' ",fr="Paramètres de la méthode MUMPS",
+             TYPE_RESOL      =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("NONSYM","SYMGEN","SYMDEF","AUTO")),
+             PRETRAITEMENTS  =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("SANS","AUTO")),
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("AMD","AMF","PORD","METIS","QAMD","AUTO")),
+             ELIM_LAGR2      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+             PCENT_PIVOT     =SIMP(statut='f',typ='I',defaut=10,),
+             RESI_RELA       =SIMP(statut='f',typ='R',defaut=1.0E-6,),
+             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,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" ),
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC","JACOBI","SOR"),defaut="LDLT_INC" ),
+             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 ),
+           ),
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 17/11/2008   AUTEUR DELMAS J.DELMAS 
+#            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.
+#
+# 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 PELLET J.PELLET
+def calc_matr_elem_prod(OPTION,**args):
+  if OPTION == "RIGI_MECA"        : return matr_elem_depl_r
+  if OPTION == "RIGI_FLUI_STRU"   : return matr_elem_depl_r
+  if OPTION == "MASS_MECA"        : return matr_elem_depl_r
+  if OPTION == "MASS_FLUI_STRU"   : return matr_elem_depl_r
+  if OPTION == "RIGI_GEOM"        : return matr_elem_depl_r
+  if OPTION == "RIGI_ROTA"        : return matr_elem_depl_r
+  if OPTION == "MECA_GYRO"        : return matr_elem_depl_r
+  if OPTION == "AMOR_MECA"        : return matr_elem_depl_r
+  if OPTION == "IMPE_MECA"        : return matr_elem_depl_r
+  if OPTION == "ONDE_FLUI"        : return matr_elem_depl_r
+  if OPTION == "AMOR_MECA_ABSO"   : return matr_elem_depl_r
+  if OPTION == "RIGI_MECA_HYST"   : return matr_elem_depl_c
+  if OPTION == "RIGI_THER"        : return matr_elem_temp_r
+  if OPTION == "MASS_THER"        : return matr_elem_temp_r
+  if OPTION == "MASS_MECA_DIAG"   : return matr_elem_depl_r
+  if OPTION == "RIGI_ACOU"        : return matr_elem_pres_c
+  if OPTION == "MASS_ACOU"        : return matr_elem_pres_c
+  if OPTION == "AMOR_ACOU"        : return matr_elem_pres_c
+  raise AsException("type de concept resultat non prevu")
+
+CALC_MATR_ELEM=OPER(nom="CALC_MATR_ELEM",op=   9,sd_prod=calc_matr_elem_prod
+                    ,fr="Calcul des matrices élémentaires",reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+
+         OPTION          =SIMP(statut='o',typ='TXM',
+                               into=("RIGI_MECA","MASS_MECA","RIGI_GEOM",
+                                     "AMOR_MECA","RIGI_THER","MASS_THER","IMPE_MECA",
+                                     "ONDE_FLUI","AMOR_MECA_ABSO","MASS_FLUI_STRU","RIGI_FLUI_STRU",
+                                     "RIGI_ROTA","MECA_GYRO","MASS_MECA_DIAG","RIGI_ACOU",
+                                     "MASS_ACOU","AMOR_ACOU","RIGI_MECA_HYST") ),
+         MODELE            =SIMP(statut='o',typ=modele_sdaster ),
+
+         # mots clés facultatifs que l'on a du mal à mettre dans les blocs
+         # sans gener MACRO_MATR_ASSE :
+         #------------------------------------------------------------------
+         INST=SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+
+
+         b_rigi_meca = BLOC( condition = "OPTION=='RIGI_MECA'",
+           CHAM_MATER      =SIMP(statut='f',typ=cham_mater ),
+           CARA_ELEM       =SIMP(statut='f',typ=cara_elem ),
+           MODE_FOURIER    =SIMP(statut='f',typ='I',defaut= 0 ),
+           CHARGE          =SIMP(statut='f',typ=char_meca,validators=NoRepeat(),max='**' ),
+         ),
+
+         b_mass_meca   =BLOC(condition = "(OPTION=='MASS_MECA') or (OPTION=='MASS_MECA_DIAG')",
+           CHAM_MATER      =SIMP(statut='f',typ=cham_mater ),
+           CARA_ELEM       =SIMP(statut='f',typ=cara_elem ),
+           CHARGE          =SIMP(statut='f',typ=char_meca,validators=NoRepeat(),max='**'),
+         ),
+
+         b_rigi_geom       =BLOC(condition = "OPTION=='RIGI_GEOM'",
+           CARA_ELEM         =SIMP(statut='f',typ=cara_elem ),
+           SIEF_ELGA         =SIMP(statut='o',typ=cham_elem ),
+           MODE_FOURIER      =SIMP(statut='f',typ='I',defaut= 0 ),
+         ),
+
+         b_rigi_rota       =BLOC(condition = "OPTION=='RIGI_ROTA'",
+           CHAM_MATER        =SIMP(statut='o',typ=cham_mater ),
+           CHARGE            =SIMP(statut='o',typ=char_meca,validators=NoRepeat(),max='**' ),
+         ),
+
+         b_meca_gyro = BLOC( condition = "OPTION=='MECA_GYRO'",
+           CHAM_MATER      =SIMP(statut='o',typ=cham_mater ),
+           CARA_ELEM       =SIMP(statut='o',typ=cara_elem ),
+           CHARGE          =SIMP(statut='f',typ=char_meca,validators=NoRepeat(),max='**' ),
+         ),
+
+         b_amor_meca       =BLOC(condition = "OPTION=='AMOR_MECA'",
+           regles=(AU_MOINS_UN('CARA_ELEM','RIGI_MECA'),
+                   ENSEMBLE('RIGI_MECA','MASS_MECA','CHAM_MATER'), ),
+           CARA_ELEM         =SIMP(statut='f',typ=cara_elem ),
+           CHAM_MATER        =SIMP(statut='f',typ=cham_mater ),
+           RIGI_MECA         =SIMP(statut='f',typ=matr_elem_depl_r ),
+           MASS_MECA         =SIMP(statut='f',typ=matr_elem_depl_r ),
+           CHARGE            =SIMP(statut='f',typ=char_meca,validators=NoRepeat(),max='**'),
+         ),
+
+         b_amor_meca_abso  =BLOC(condition = "OPTION=='AMOR_MECA_ABSO'",
+           regles=(AU_MOINS_UN('CARA_ELEM','RIGI_MECA'),
+                   ENSEMBLE('RIGI_MECA','MASS_MECA','CHAM_MATER'), ),
+           CARA_ELEM         =SIMP(statut='f',typ=cara_elem ),
+           CHAM_MATER        =SIMP(statut='o',typ=cham_mater ),
+           RIGI_MECA         =SIMP(statut='f',typ=matr_elem_depl_r ),
+           MASS_MECA         =SIMP(statut='f',typ=matr_elem_depl_r ),
+           CHARGE            =SIMP(statut='f',typ=char_meca,validators=NoRepeat(),max='**'),
+         ),
+
+         b_rigi_meca_hyst  =BLOC( condition = "OPTION=='RIGI_MECA_HYST'",
+           CHARGE            =SIMP(statut='f',typ=char_meca ,validators=NoRepeat(),max='**' ),
+           CHAM_MATER        =SIMP(statut='f',typ=cham_mater ),
+           CARA_ELEM         =SIMP(statut='f',typ=cara_elem ),
+           RIGI_MECA         =SIMP(statut='o',typ=matr_elem_depl_r ),
+         ),
+
+         b_rigi_ther       =BLOC(condition = "OPTION=='RIGI_THER'",
+           CHAM_MATER        =SIMP(statut='o',typ=cham_mater ),
+           CARA_ELEM         =SIMP(statut='f',typ=cara_elem ),
+           MODE_FOURIER      =SIMP(statut='f',typ='I',defaut= 0 ),
+           CHARGE            =SIMP(statut='f',typ=char_ther,validators=NoRepeat(),max='**' ),
+         ),
+
+         b_mass_ther       =BLOC(condition = "OPTION=='MASS_THER'",
+           CHAM_MATER        =SIMP(statut='o',typ=cham_mater ),
+           CARA_ELEM         =SIMP(statut='f',typ=cara_elem ),
+           CHARGE            =SIMP(statut='f',typ=char_ther ,validators=NoRepeat(),max='**' ),
+         ),
+
+         b_rigi_acou       =BLOC(condition = "OPTION=='RIGI_ACOU'",
+           CHAM_MATER        =SIMP(statut='o',typ=cham_mater ),
+           CHARGE            =SIMP(statut='f',typ=char_acou ,validators=NoRepeat(),max='**' ),
+         ),
+
+         b_mass_acou       =BLOC(condition = "(OPTION=='MASS_ACOU') or (OPTION=='AMOR_ACOU')",
+           CHAM_MATER        =SIMP(statut='o',typ=cham_mater ),
+           CHARGE            =SIMP(statut='f',typ=char_acou ,validators=NoRepeat(),max='**' ),
+         ),
+
+         b_rigi_flui       =BLOC(condition = "OPTION=='RIGI_FLUI_STRU'",
+           CARA_ELEM         =SIMP(statut='o',typ=cara_elem ),
+           CHAM_MATER        =SIMP(statut='o',typ=cham_mater ),
+           CHARGE            =SIMP(statut='o',typ=char_meca ,validators=NoRepeat(),max='**' ),
+         ),
+
+         b_mass_flui       =BLOC(condition = "OPTION=='MASS_FLUI_STRU'",
+           CARA_ELEM         =SIMP(statut='o',typ=cara_elem ),
+           CHAM_MATER        =SIMP(statut='o',typ=cham_mater ),
+           CHARGE            =SIMP(statut='o',typ=char_meca ,validators=NoRepeat(),max='**'),
+         ),
+
+         b_impe_meca       =BLOC(condition = "(OPTION=='IMPE_MECA') or (OPTION=='ONDE_FLUI')",
+           CHAM_MATER        =SIMP(statut='o',typ=cham_mater ),
+           CHARGE            =SIMP(statut='o',typ=char_meca,validators=NoRepeat(),max='**' ),
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 30/09/2008   AUTEUR REZETTE C.REZETTE 
+#            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.                                 
+#
+# 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 CANO V.CANO
+CALC_META=OPER(nom="CALC_META",op=194,sd_prod=evol_ther,reentrant='o',
+            UIinfo={"groupes":("Post traitements",)},
+               fr="Calcule l'évolution métallurgique à partir du résultat d'un calcul thermique",
+         MODELE          =SIMP(statut='o',typ=modele_sdaster ),
+         CHAM_MATER      =SIMP(statut='o',typ=cham_mater ),
+         RESULTAT        =SIMP(statut='o',typ=evol_ther ),
+         ETAT_INIT       =FACT(statut='o',
+            regles=(UN_PARMI('EVOL_THER', 'META_INIT_ELNO'),),
+            EVOL_THER       =SIMP(statut='f',typ=evol_ther ),
+            META_INIT_ELNO  =SIMP(statut='f',typ=carte_sdaster ),
+            b_etat     =BLOC(condition="EVOL_THER != None",
+               regles=(UN_PARMI('NUME_INIT', 'INST_INIT',),),
+               NUME_INIT       =SIMP(statut='f',typ='I'),
+               INST_INIT       =SIMP(statut='f',typ='R'),
+               b_inst     =BLOC(condition="INST_INIT != 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',),),
+               ),
+            ),
+         ),
+         COMP_INCR       =FACT(statut='o',max=1,
+           RELATION        =SIMP(statut='o',typ='TXM',into=("ACIER","ZIRC",) ),
+           ACIER           =SIMP(statut='c',typ='I',defaut=7,into=(7,) ),
+           ZIRC            =SIMP(statut='c',typ='I',defaut=4,into=(4,) ),
+      regles=(PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma, validators=NoRepeat(), max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma, validators=NoRepeat(), max='**'),
+         ),
+         OPTION          =SIMP(statut='f',typ='TXM'     
+                             ,into=("META_ELNO_TEMP",) ),
+)  ;
+#& 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
+# 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 NISTOR I.NISTOR
+
+from Macro.calc_modal_ops import calc_modal_ops
+
+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")
+
+
+CALC_MODAL=MACRO(nom="CALC_MODAL",op=calc_modal_ops,
+            UIinfo={"groupes":("Résolution",)},
+                      sd_prod=calc_modal_prod,
+                    fr="Calcul des modes propres reels ou complexes dans une seule commande",
+         MODELE          =SIMP(statut='o',typ=modele_sdaster),
+         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),
+         CHARGE          =SIMP(statut='f',typ=char_meca,validators=NoRepeat(),max='**'),  
+         SOLVEUR         =FACT(statut='d',
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("MULT_FRONT","LDLT") ),
+         b_mult_front    =BLOC(condition="METHODE=='MULT_FRONT'",fr="Paramètres associés à la méthode multifrontale",
+           RENUM           =SIMP(statut='f',typ='TXM',into=("MD","MDA","METIS"),defaut="METIS" ),
+         ),
+         b_ldlt          =BLOC(condition="METHODE=='LDLT'",fr="Paramètres associés à la méthode LDLT",
+           RENUM           =SIMP(statut='f',typ='TXM',into=("RCMK","SANS"),defaut="RCMK"  ),
+         ),),
+         METHODE         =SIMP(statut='f',typ='TXM',defaut="SORENSEN",
+                               into=("TRI_DIAG","JACOBI","SORENSEN","QZ") ),
+         b_tri_diag =BLOC(condition = "METHODE == 'TRI_DIAG'",
+           PREC_ORTHO      =SIMP(statut='f',typ='R',defaut= 1.E-12,val_min=0.E+0 ),
+           NMAX_ITER_ORTHO =SIMP(statut='f',typ='I',defaut= 5,val_min=0 ),
+           PREC_LANCZOS    =SIMP(statut='f',typ='R',defaut= 1.E-8,val_min=0.E+0 ),
+           NMAX_ITER_QR    =SIMP(statut='f',typ='I',defaut= 30,val_min=0 ), 
+         ),
+         b_jacobi =BLOC(condition = "METHODE == 'JACOBI'",
+           PREC_BATHE      =SIMP(statut='f',typ='R',defaut= 1.E-10,val_min=0.E+0 ),
+           NMAX_ITER_BATHE =SIMP(statut='f',typ='I',defaut= 40,val_min=0 ),
+           PREC_JACOBI     =SIMP(statut='f',typ='R',defaut= 1.E-2,val_min=0.E+0 ),
+           NMAX_ITER_JACOBI=SIMP(statut='f',typ='I',defaut= 12,val_min=0 ),
+         ),
+         b_sorensen =BLOC(condition = "METHODE == 'SORENSEN'",
+           PREC_SOREN      =SIMP(statut='f',typ='R',defaut= 0.E+0,val_min=0.E+0 ),  
+           NMAX_ITER_SOREN =SIMP(statut='f',typ='I',defaut= 20,val_min=0 ),  
+           PARA_ORTHO_SOREN=SIMP(statut='f',typ='R',defaut= 0.717,val_min=0.E+0 ),
+         ),
+         b_qz =BLOC(condition = "METHODE == 'QZ'",
+           TYPE_QZ      =SIMP(statut='f',typ='TXM',defaut="QZ_SIMPLE",into=("QZ_QR","QZ_SIMPLE","QZ_EQUI") ),  
+         ), 
+         MODE_RIGIDE          =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON"),
+                               fr="Calcul des modes de corps rigide, uniquement pour la méthode TRI_DIAG" ),
+         CALC_FREQ       =FACT(statut='d',min=0,
+             OPTION      =SIMP(statut='f',typ='TXM',defaut="PLUS_PETITE",into=("PLUS_PETITE","BANDE","CENTRE","TOUT"),
+                                   fr="Choix de l option et par conséquent du shift du problème modal" ),
+             b_plus_petite =BLOC(condition = "OPTION == 'PLUS_PETITE'",fr="Recherche des plus petites valeurs propres",
+               NMAX_FREQ       =SIMP(statut='f',typ='I',defaut= 10,val_min=0 ),
+             ),
+             b_centre       =BLOC(condition = "OPTION == 'CENTRE'",
+                                  fr="Recherche des valeurs propres les plus proches d une valeur donnée",
+               FREQ            =SIMP(statut='o',typ='R',
+                                     fr="Fréquence autour de laquelle on cherche les fréquences propres"),
+               AMOR_REDUIT     =SIMP(statut='f',typ='R',),
+               NMAX_FREQ       =SIMP(statut='f',typ='I',defaut= 10,val_min=0 ),
+             ),
+             b_bande         =BLOC(condition = "(OPTION == 'BANDE')",
+                                   fr="Recherche des valeurs propres dans une bande donnée",
+               FREQ            =SIMP(statut='o',typ='R',min=2,validators=NoRepeat(),max=2,
+                                     fr="Valeur des deux fréquences délimitant la bande de recherche"),
+             ),           
+             APPROCHE        =SIMP(statut='f',typ='TXM',defaut="REEL",into=("REEL","IMAG","COMPLEXE"),
+                                   fr="Choix du pseudo-produit scalaire pour la résolution du problème quadratique" ),           
+             regles=(EXCLUS('DIM_SOUS_ESPACE','COEF_DIM_ESPACE'),),
+             DIM_SOUS_ESPACE =SIMP(statut='f',typ='I' ),
+             COEF_DIM_ESPACE =SIMP(statut='f',typ='I' ),
+             NPREC_SOLVEUR   =SIMP(statut='f',typ='I',defaut= 8,val_min=0 ),
+             NMAX_ITER_SHIFT =SIMP(statut='f',typ='I',defaut= 5,val_min=0 ),
+             PREC_SHIFT      =SIMP(statut='f',typ='R',defaut= 5.E-2,val_min=0.E+0 ),
+             SEUIL_FREQ      =SIMP(statut='f',typ='R',defaut= 1.E-2,val_min=0.E+0 ),
+             STOP_FREQ_VIDE  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+
+        VERI_MODE       =FACT(statut='d',min=0,
+           STOP_ERREUR     =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           PREC_SHIFT      =SIMP(statut='f',typ='R',defaut= 5.E-3,val_min=0.E+0 ),
+           SEUIL           =SIMP(statut='f',typ='R',defaut= 1.E-6,val_min=0.E+0,
+                                 fr="Valeur limite admise pour l ereur a posteriori des modes" ),
+           STURM           =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         ),
+
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+)  ;
+#& MODIF COMMANDE  DATE 06/10/2008   AUTEUR DEVESA G.DEVESA 
+#            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.                                 
+#
+# 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 DESROCHES X.DESROCHES
+def calc_no_prod(RESULTAT,**args):
+   if AsType(RESULTAT) != None : return AsType(RESULTAT)
+   raise AsException("type de concept resultat non prevu")
+
+CALC_NO=OPER(nom="CALC_NO",op= 106,sd_prod=calc_no_prod,reentrant='f',
+            fr="Enrichir une SD Résultat par des champs aux noeuds calculés à partir de champs aux éléments évalués aux noeuds",
+            UIinfo={"groupes":("Post traitements",)},
+         RESULTAT        =SIMP(statut='o',typ=resultat_sdaster),
+         SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                               fr="Liste des paramètres de sensibilité.",
+                               ang="List of sensitivity parameters"),
+
+         regles=(EXCLUS('TOUT_ORDRE','NUME_ORDRE','INST','FREQ','NUME_MODE',
+                        'NOEUD_CMP','LIST_INST','LIST_FREQ','LIST_ORDRE','NOM_CAS'),
+                 CONCEPT_SENSIBLE("SEPARE"),
+                 DERIVABLE('RESULTAT'),),
+         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='**'),
+         NOEUD_CMP       =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+         NOM_CAS         =SIMP(statut='f',typ='TXM' ),
+         INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+         FREQ            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+         LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+         LIST_FREQ       =SIMP(statut='f',typ=listr8_sdaster),
+         LIST_ORDRE      =SIMP(statut='f',typ=listis_sdaster),
+         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',),),
+         OPTION          =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',
+                               into=("FORC_NODA","REAC_NODA",
+                                     "FORC_NODA_NONL",
+                                     "DCHA_NOEU_SIGM",
+                                     "DEGE_NOEU_DEPL",
+                                     "DETE_NOEU_DLTE",
+                                     "DEDE_NOEU_DLDE",
+                                     "DESI_NOEU_DLSI",
+                                     "DURT_NOEU_META",
+                                     "EFGE_NOEU_CART","EFGE_NOEU_DEPL",
+                                     "ENDO_NOEU_SINO",
+                                     "ENEL_NOEU_ELGA",
+                                     "EPMG_NOEU_DEPL",
+                                     "EPSA_NOEU",
+                                     "EPSG_NOEU_DEPL",
+                                     "EPSI_NOEU_DEPL",
+                                     "EPSP_NOEU"     ,"EPSP_NOEU_ZAC",
+                                     "EPVC_NOEU","EPFD_NOEU","EPFP_NOEU","EPFP_NOEU",
+                                     "EQUI_NOEU_EPME","EQUI_NOEU_EPSI","EQUI_NOEU_SIGM",
+                                     "ERRE_NOEU_ELEM","QIRE_NOEU_ELEM",
+                                     "FLUX_NOEU_TEMP",
+                                     "HYDR_NOEU_ELGA",
+                                     "INTE_NOEU_ACTI","INTE_NOEU_REAC",
+                                     "META_NOEU_TEMP",
+                                     "PMPB_NOEU_SIEF",
+                                     "PRES_NOEU_DBEL","PRES_NOEU_IMAG","PRES_NOEU_REEL",
+                                     "RADI_NOEU_SIGM",
+                                     "SIEF_NOEU"     ,"SIEF_NOEU_ELGA",
+                                     "SIGM_NOEU_CART","SIGM_NOEU_COQU","SIGM_NOEU_DEPL",
+                                     "SIGM_NOEU_SIEF","SIGM_NOEU_ZAC",
+                                     "SIPO_NOEU_DEPL","SIPO_NOEU_SIEF",
+                                     "SIRE_NOEU_DEPL",
+                                     "VARI_NOEU","EXTR_NOEU_VARI","VARI_NOEU_ELGA",
+                                     "ARCO_NOEU_SIGM",) ),
+
+         b_forc_reac     =BLOC(condition = """(OPTION == 'FORC_NODA') or (type(OPTION) == type(()) and 'FORC_NODA' in OPTION) or\
+ (OPTION == 'REAC_NODA') or (type(OPTION) == type(()) and 'REAC_NODA' in OPTION)""",
+             MODELE          =SIMP(statut='f',typ=modele_sdaster),
+         ),
+         b_forc_nonl     =BLOC(condition = """(OPTION == 'FORC_NODA_NONL')""",
+             MODELE          =SIMP(statut='f',typ=modele_sdaster),
+             COMP_INCR       =C_COMP_INCR(),
+         ),
+         
+         CHAM_MATER      =SIMP(statut='f',typ=cham_mater),
+         CARA_ELEM       =SIMP(statut='f',typ=cara_elem),
+         EXCIT           =FACT(statut='f',max='**',
+           CHARGE          =SIMP(statut='f',typ=(char_meca,char_ther,char_acou) ),
+           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") ),
+         ),
+         TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+         GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+         MAILLE          =SIMP(statut='f',typ=ma,validators=NoRepeat(),max='**'),
+         GROUP_MA_RESU   =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+         MAILLE_RESU     =SIMP(statut='f',typ=ma,validators=NoRepeat(),max='**'),
+         GROUP_NO_RESU   =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+         NOEUD_RESU      =SIMP(statut='f',typ=ma,validators=NoRepeat(),max='**'),
+)  ;
+#& 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.
+# ======================================================================
+# RESPONSABLE MICHEL S.MICHEL
+
+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,
+                   fr="Imposer la tension définie par le BPEL dans les cables",
+                   reentrant='f',UIinfo={"groupe":("Modélisation",)},
+         reuse =SIMP(statut='f',typ='evol_noli'),
+         MODELE           =SIMP(statut='o',typ=modele_sdaster),
+         CHAM_MATER       =SIMP(statut='o',typ=cham_mater),
+         CARA_ELEM        =SIMP(statut='o',typ=cara_elem),
+         CABLE_BP         =SIMP(statut='o',typ=cabl_precont,validators=NoRepeat(),max='**'),
+         CABLE_BP_INACTIF =SIMP(statut='f',typ=cabl_precont,validators=NoRepeat(),max='**'),
+         INCREMENT        =FACT(statut='o',
+           LIST_INST       =SIMP(statut='o',typ=listr8_sdaster),
+           INST_INIT       =SIMP(statut='f',typ='R'),
+           INST_FIN        =SIMP(statut='f',typ='R'),
+           PRECISION       =SIMP(statut='f',typ='R',defaut=1.0E-6 ),
+           # DEBUT DE BLOC POUR LA SUBDIVISION DES PAS DE TEMPS
+           SUBD_METHODE    =SIMP( statut='f',typ='TXM',
+              into =("AUCUNE","UNIFORME","EXTRAPOLE"),
+              defaut="AUCUNE",
+              fr="Méthode de subdivision des pas de temps en cas de non-convergence"
+           ),
+           b_subd_unif=BLOC(condition = "SUBD_METHODE == 'UNIFORME'",
+             regles=(AU_MOINS_UN('SUBD_NIVEAU','SUBD_PAS_MINI'),),
+             SUBD_COEF_PAS_1=SIMP(statut='f',typ='R',defaut=1.0,val_min=0.0,
+                fr="Coefficient multiplicateur de la 1ère subdivision"),
+             SUBD_PAS       =SIMP(statut='f',typ='I',defaut=4,val_min=2,
+                fr="Nombre de subdivision d'un pas de temps"),
+             SUBD_NIVEAU=SIMP(statut='f',typ='I',val_min=2,
+                fr="Nombre maximum de niveau de subdivision d'un pas de temps"),
+             SUBD_PAS_MINI=SIMP(statut='f',typ='R',val_min=0.0,
+                fr="Pas de temps en dessous duquel on ne subdivise plus"),
+           ),
+           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",),
+                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,
+                fr="Les n premières itérations sont ignorées pour l'extrapolation"),
+             SUBD_ITER_FIN  =SIMP(statut='c',typ='I',defaut=8,val_min=3,
+                fr="Seules les n dernières itérations sont prises pour l'extrapolation"),
+             SUBD_PAS       =SIMP(statut='c',typ='I',defaut=4,val_min=2,
+                fr="Nombre de subdivision d'un pas de temps en cas divergence"),
+             SUBD_NIVEAU=SIMP(statut='f',typ='I',val_min=2,
+                fr="Nombre maximum de niveau de subdivision d'un pas de temps"),
+             SUBD_PAS_MINI=SIMP(statut='f',typ='R',val_min=0.0,
+                fr="Pas de temps en dessous duquel on ne subdivise plus"),
+             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
+         ),
+
+         NEWTON          =FACT(statut='d',
+            REAC_INCR       =SIMP(statut='f',typ='I',defaut= 1 ),
+            PREDICTION      =SIMP(statut='f',typ='TXM',into=("DEPL_CALCULE","TANGENTE","ELASTIQUE","EXTRAPOL") ),
+            MATRICE         =SIMP(statut='f',typ='TXM',defaut="TANGENTE",into=("TANGENTE","ELASTIQUE") ),
+            PAS_MINI_ELAS   =SIMP(statut='f',typ='R',defaut=0.0E+0),
+            REAC_ITER       =SIMP(statut='f',typ='I',defaut=0),
+            EVOL_NOLI       =SIMP(statut='f',typ=evol_noli),
+          ),
+         RECH_LINEAIRE   =FACT(statut='f',
+           RESI_LINE_RELA  =SIMP(statut='f',typ='R',defaut= 1.0E-1 ),
+           ITER_LINE_MAXI  =SIMP(statut='f',typ='I',defaut= 3),
+         ),
+          CONVERGENCE     =FACT(statut='d',
+            RESI_GLOB_MAXI  =SIMP(statut='f',typ='R'),
+            RESI_GLOB_RELA  =SIMP(statut='f',typ='R'),
+            ITER_GLOB_MAXI  =SIMP(statut='f',typ='I',defaut=10),
+            ITER_GLOB_ELAS  =SIMP(statut='f',typ='I',defaut=25),
+            ARRET           =SIMP(statut='f',typ='TXM',defaut="OUI"),
+          ),
+          ETAT_INIT       =FACT(statut='f',
+            regles=(AU_MOINS_UN('EVOL_NOLI','DEPL','SIGM','VARI',),
+                    EXCLUS('EVOL_NOLI','DEPL',),
+                    EXCLUS('EVOL_NOLI','SIGM',),
+                    EXCLUS('EVOL_NOLI','VARI',),
+                    EXCLUS('NUME_ORDRE','INST'), ),
+            DEPL            =SIMP(statut='f',typ=cham_no_sdaster),
+            SIGM            =SIMP(statut='f',typ=(carte_sdaster,cham_elem)),
+            VARI            =SIMP(statut='f',typ=cham_elem),
+            EVOL_NOLI       =SIMP(statut='f',typ=evol_noli),
+            NUME_ORDRE      =SIMP(statut='f',typ='I'),
+            INST            =SIMP(statut='f',typ='R'),
+            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',),),
+            NUME_DIDI       =SIMP(statut='f',typ='I'),
+            INST_ETAT_INIT  =SIMP(statut='f',typ='R'),
+          ),
+          SOLVEUR         =FACT(statut='d',
+            METHODE         =SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("MULT_FRONT","LDLT","GCPC","MUMPS","PETSC") ),
+            b_mult_front    =BLOC(condition = "METHODE == 'MULT_FRONT' ",fr="Paramètres de la méthode multi frontale",
+              RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+            ),
+            b_ldlt         =BLOC(condition = "METHODE == 'LDLT' ",fr="Paramètres de la méthode LDLT",
+              RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("RCMK","SANS") ),
+            ),
+            b_ldlt_mult    =BLOC(condition = "METHODE == 'LDLT' or METHODE == 'MULT_FRONT' ",
+                                    fr="Paramètres relatifs à la non inversibilité de la matrice à factorise",
+              NPREC           =SIMP(statut='f',typ='I',defaut= 8 ),
+              STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON","DECOUPE") ),
+            ),
+            b_gcpc         =BLOC(condition = "METHODE == 'GCPC' ", fr="Paramètres de la méthode du gradient conjugué",
+              PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC",),defaut="LDLT_INC" ),
+              NIVE_REMPLISSAGE=SIMP(statut='f',typ='I',defaut= 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= 0 ),
+            ),
+            b_mumps        =BLOC(condition = "METHODE == 'MUMPS' ",fr="Paramètres de la méthode MUMPS",
+              TYPE_RESOL      =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("NONSYM","SYMGEN","SYMDEF","AUTO")),
+              PRETRAITEMENTS  =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("SANS","AUTO")),
+              RENUM           =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("AMD","AMF","PORD","METIS","QAMD","AUTO")),
+              ELIM_LAGR2      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+              PCENT_PIVOT     =SIMP(statut='f',typ='I',defaut=10,),
+              RESI_RELA       =SIMP(statut='f',typ='R',defaut=1.0E-6,),
+              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,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" ),
+              PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC","JACOBI","SOR"),defaut="LDLT_INC" ),
+              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") ),
+          ),
+          INFO            =SIMP(statut='f',typ='I',into=(1,2) ),
+          TITRE           =SIMP(statut='f',typ='TXM',max='**' ),
+
+          EXCIT           =FACT(statut='o',max='**',
+            CHARGE          =SIMP(statut='o',typ=char_meca),
+          ),
+
+         COMP_INCR       =C_COMP_INCR(),
+  )  ;
+#& MODIF COMMANDE  DATE 21/10/2008   AUTEUR CORUS M.CORUS 
+#            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.        
+# ======================================================================
+
+# RESPONSABLE CORUS M.CORUS
+
+from Macro.calc_spec_ops import calc_spec_ops
+
+CALC_SPEC=MACRO(nom="CALC_SPEC",op= calc_spec_ops,sd_prod=table_fonction,
+                     reentrant='n',
+                     fr="Calcule une matrice interspectrale ou des fonctions de transferts",
+                     UIinfo={"groupes":("Fonction",)},
+         TAB_ECHANT      =FACT(statut='f',
+           NOM_TAB         =SIMP(statut='o',typ=table_sdaster),
+           LONGUEUR_ECH    =FACT(statut='f',
+             DUREE           =SIMP(statut='f',typ='R'),
+             POURCENT        =SIMP(statut='f',typ='R'),
+             NB_PTS          =SIMP(statut='f',typ='I'),
+                              ),
+           RECOUVREMENT  =FACT(statut='f',
+             DUREE           =SIMP(statut='f',typ='R'),
+             POURCENT        =SIMP(statut='f',typ='R'),
+             NB_PTS          =SIMP(statut='f',typ='I'),
+                                ),
+                              ),
+         ECHANT          =FACT(statut='f',max='**',
+           NUME_ORDRE_I    =SIMP(statut='o',typ='I' ),
+           NUME_MES        =SIMP(statut='o',typ='I' ),
+           FONCTION        =SIMP(statut='o',typ=fonction_sdaster),
+                              ),
+#-- Cas de la matrice interspectrale --#
+         INTERSPE        =FACT(statut='f',
+           FENETRE         =SIMP(statut='f',typ='TXM',defaut="RECT",into=("RECT","HAMM","HANN","EXPO","PART",)),
+           BLOC_DEFI_FENE  =BLOC(condition = "FENETRE == 'EXPO' or FENETRE == 'PART' ", 
+#             DEFI_FENE       =SIMP(statut='f',typ='R',max='**'),
+                                 ),
+                              ),
+#-- Cas des transferts - estimateurs H1 / H2 / Hv + Coherence --#
+         TRANSFERT       =FACT(statut='f',
+           ESTIM           =SIMP(statut='f',typ='TXM',defaut="H1",into=("H1","H2","CO",)),
+           REFER           =SIMP(statut='o',typ='I',max='**'),
+           FENETRE         =SIMP(statut='f',typ='TXM',defaut="RECT",into=("RECT","HAMM","HANN","EXPO","PART",)),
+           DEFI_FENE       =SIMP(statut='f',typ='R',max='**'),
+
+                              ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+);
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.        
+# ======================================================================
+# -*- coding: iso-8859-1 -*-
+# RESPONSABLE COURTOIS M.COURTOIS
+
+def calc_table_prod(self, TABLE, ACTION, **kargs):
+   """Typage du concept produit.
+   """
+   l_typ = [AsType(TABLE),]
+   for mcf in ACTION:
+      dmc = mcf.cree_dict_valeurs(mcf.mc_liste)
+      if dmc.get('TABLE') != None:
+         l_typ.append(AsType(dmc['TABLE']))
+   # une table_fonction étant une table
+   if table_fonction in l_typ:
+      return table_fonction
+   else:
+      return table_sdaster
+
+
+from Macro.calc_table_ops import calc_table_ops
+
+CALC_TABLE=MACRO(nom="CALC_TABLE",op=calc_table_ops, sd_prod=calc_table_prod,
+                 fr="Opérations sur une table",
+                 reentrant='f',
+   regles=(DERIVABLE('TABLE'),),
+   TABLE  = SIMP(statut='o',typ=table_sdaster),
+   ACTION = FACT(statut='o', max='**',
+                    fr = "Suite des opérations à effectuer sur la table",
+      OPERATION = SIMP(statut='o', typ='TXM',
+                  into=('FILTRE', 'EXTR', 'RENOMME', 'TRI', 'COMB', 'AJOUT', 'OPER',)),
+      
+      b_filtre = BLOC(condition="OPERATION == 'FILTRE'",
+                      fr="Sélectionne les lignes de la table vérifiant un critère",
+         NOM_PARA  = SIMP(statut='o',typ='TXM'),
+         CRIT_COMP = SIMP(statut='f',typ='TXM',defaut="EQ",
+                          into=('EQ','NE','GT','LT','GE','LE','REGEXP',
+                                'VIDE','NON_VIDE','MAXI','ABS_MAXI','MINI','ABS_MINI'),),
+         b_vale = BLOC(condition = "(CRIT_COMP in ('EQ','NE','GT','LT','GE','LE'))",
+            regles=(UN_PARMI('VALE','VALE_I','VALE_K','VALE_C',),),
+            VALE   = SIMP(statut='f',typ='R',max='**'),
+            VALE_I = SIMP(statut='f',typ='I',max='**'),
+            VALE_C = SIMP(statut='f',typ='C',max='**'),
+            VALE_K = SIMP(statut='f',typ='TXM',max='**'),
+         ),
+         b_regexp = BLOC(condition = "CRIT_COMP == 'REGEXP'",
+            VALE_K = SIMP(statut='f',typ='TXM',max='**'),
+         ),
+         b_crit = BLOC(condition = "CRIT_COMP in ('EQ','NE')",
+            CRITERE   = SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU") ),
+            PRECISION = SIMP(statut='f',typ='R',defaut= 1.0E-3 ),
+         ),
+      ),
+      
+      b_extr = BLOC(condition="OPERATION ==  'EXTR'",
+                    fr="Extrait une ou plusieurs colonnes de la table",
+         NOM_PARA = SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',
+                         fr="Noms des colonnes à extraire"),
+      ),
+   
+      b_renomme = BLOC(condition="OPERATION == 'RENOMME'",
+                       fr="Renomme un ou plusieurs paramètres de la table",
+         NOM_PARA = SIMP(statut='o', typ='TXM', validators=NoRepeat(), min=2, max=2,
+                         fr="Couple (ancien nom du paramètre, nouveau nom du paramètre)",),
+      ),
+   
+      b_tri = BLOC(condition="OPERATION == 'TRI'",
+                   fr="Ordonne les lignes de la table selon les valeurs d'un ou plusieurs paramètres",
+         NOM_PARA = SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**'),
+         ORDRE    = SIMP(statut='f',typ='TXM',defaut="CROISSANT",
+                         into=("CROISSANT","DECROISSANT") ),
+      ),
+      
+      b_comb = BLOC(condition="OPERATION == 'COMB'",
+                    fr="Combine deux tables ayant éventuellement des paramètres communs",
+         TABLE    = SIMP(statut='o',typ=table_sdaster,
+                         fr="Table dont les colonnes vont venir surcharger la table initiale"),
+         NOM_PARA = SIMP(statut='f',typ='TXM',max='**',
+                         fr="Noms des paramètres dont les valeurs doivent etre identiques dans les deux tables "\
+                            "pour que les colonnes soient combinées"),
+      ),
+      
+      b_append = BLOC(condition="OPERATION == 'AJOUT'",
+                    fr="Ajoute une ligne à la table initiale",
+         NOM_PARA = SIMP(statut='o',typ='TXM',max='**',
+                         fr="Noms des paramètres dont les valeurs sont fournies sous VALE"),
+         VALE     = SIMP(statut='o',typ=assd,max='**', fr='Valeurs des paramètres'),
+      ),
+      
+      b_oper = BLOC(condition="OPERATION == 'OPER'",
+                    fr="Applique une formule dans laquelle les variables sont les paramètres de la table",
+         FORMULE  = SIMP(statut='o',typ=formule,
+                         fr="Formule à appliquer aux colonnes de la table"),
+         NOM_PARA = SIMP(statut='o',typ='TXM',
+                         fr="Nom de la nouvelle colonne"),
+      ),
+   ),
+   
+   SENSIBILITE = SIMP(statut='f',typ=(para_sensi,theta_geom),max=1,
+                      fr="Paramètre de sensibilité",
+                      ang="Sensitivity parameter"),
+   TITRE = SIMP(statut='f',typ='TXM',max='**',
+                fr="Titre de la table produite"),
+   INFO  = SIMP(statut='f',typ='I',defaut=1,into=(1,2) ),
+)
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 GALENNE E.GALENNE
+CALC_THETA=OPER(nom="CALC_THETA",op=54,sd_prod=theta_geom,reentrant='n',
+            UIinfo={"groupes":("Post traitements",)},
+                fr="Définir un champ theta pour le calcul du taux de restitution d'énergie"
+                    +" ou des facteurs d'intensité de contraintes",
+         regles=(UN_PARMI('THETA_2D','THETA_3D','THETA_BANDE'),
+                 PRESENT_ABSENT('THETA_2D','DIRE_THETA'),
+                 EXCLUS('DIRECTION','DIRE_THETA'),),
+         OPTION          =SIMP(statut='f',typ='TXM',defaut="COURONNE",into=("COURONNE","BANDE") ),
+         MODELE          =SIMP(statut='o',typ=(modele_sdaster) ),
+         THETA_3D        =FACT(statut='f',max='**',
+           regles=(UN_PARMI('TOUT','GROUP_NO','NOEUD'),
+                   UN_PARMI('MODULE','MODULE_FO'),
+                   ENSEMBLE('MODULE','R_INF','R_SUP'),
+                   ENSEMBLE('MODULE_FO','R_INF_FO','R_SUP_FO'),),
+           TOUT            =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='**'),
+           MODULE          =SIMP(statut='f',typ='R'),
+           R_INF           =SIMP(statut='f',typ='R'),
+           R_SUP           =SIMP(statut='f',typ='R'),
+           MODULE_FO       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+           R_INF_FO        =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+           R_SUP_FO        =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                         ),
+         b_theta_3d     =BLOC(condition="THETA_3D != None",
+           FOND_FISS       =SIMP(statut='o',typ=fond_fiss),),
+         DIRE_THETA      =SIMP(statut='f',typ=cham_no_sdaster ),
+         DIRECTION       =SIMP(statut='f',typ='R',max='**'),
+         THETA_2D        =FACT(statut='f',max='**',
+           regles=(UN_PARMI('GROUP_NO','NOEUD'),),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           MODULE          =SIMP(statut='o',typ='R'),
+           R_INF           =SIMP(statut='o',typ='R'),
+           R_SUP           =SIMP(statut='o',typ='R'),
+         ),
+         THETA_BANDE     =FACT(statut='f',max='**',
+           MODULE          =SIMP(statut='o',typ='R'),
+           R_INF           =SIMP(statut='o',typ='R'),
+           R_SUP           =SIMP(statut='o',typ='R'),
+         ),
+         GRAD_NOEU_THETA =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+         IMPRESSION      =FACT(statut='f',
+           UNITE           =SIMP(statut='f',typ='I',defaut=8),  
+           FORMAT          =SIMP(statut='f',typ='TXM',defaut="EXCEL",into=("EXCEL","AGRAF") ),
+         ),
+)  ;
+#& 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
+# 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 ABBAS M.ABBAS
+
+CALCUL=OPER(nom="CALCUL",op=26,sd_prod=table_container,reentrant='f',
+            UIinfo={"groupes":("Résolution",)},
+            fr="Calculer des objets élémentaires comme une matrice tangente, intégrer une loi de comportement, etc...",
+     OPTION          =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',defaut="COMPORTEMENT",
+                           into=( "COMPORTEMENT","MATR_TANG_ELEM","FORC_INT_ELEM"),),
+     MODELE          =SIMP(statut='o',typ=modele_sdaster),
+     CARA_ELEM       =SIMP(statut='f',typ=cara_elem),
+     CHAM_MATER      =SIMP(statut='o',typ=cham_mater),
+     TABLE           =SIMP(statut='f',typ=table_container),
+     EXCIT           =FACT(statut='o',max='**',
+       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",)),
+
+     ),
+     DEPL            =SIMP(statut='o',typ=cham_no_sdaster ),
+     INCR_DEPL       =SIMP(statut='o',typ=cham_no_sdaster ),
+     SIGM            =SIMP(statut='o',typ=cham_elem),
+     VARI            =SIMP(statut='o',typ=cham_elem),
+     INCREMENT       =FACT(statut='o',
+          LIST_INST       =SIMP(statut='o',typ=listr8_sdaster),
+          NUME_ORDRE      =SIMP(statut='o',typ='I'),),
+     COMP_INCR       =C_COMP_INCR(),
+     COMP_ELAS       =FACT(statut='f',max='**',
+          RESI_INTE_RELA  =SIMP(statut='f',typ='R',defaut= 1.0E-6),
+          ITER_INTE_MAXI  =SIMP(statut='f',typ='I',defaut= 10 ),
+          ITER_INTE_PAS   =SIMP(statut='f',typ='I',defaut= 0 ),
+          RESO_INTE       =SIMP(statut='f',typ='TXM',defaut="IMPLICITE",
+                                into=("RUNGE_KUTTA_2","RUNGE_KUTTA_4","IMPLICITE")),
+          RELATION        =SIMP(statut='o',typ='TXM',defaut="ELAS",
+                                into=("ELAS","ELAS_VMIS_LINE","ELAS_VMIS_TRAC",
+                                     "ELAS_POUTRE_GR","CABLE","ELAS_HYPER")),
+          DEFORMATION     =SIMP(statut='f',typ='TXM',defaut="PETIT" ,into=("PETIT","GREEN","GREEN_GR",) ),),
+     INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+) ;
+
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 PELLET J.PELLET
+def calc_vect_elem_prod(OPTION,**args):
+  if OPTION == "CHAR_MECA" :      return vect_elem_depl_r
+  if OPTION == "CHAR_THER" :      return vect_elem_temp_r
+  if OPTION == "CHAR_ACOU" :      return vect_elem_pres_c
+  if OPTION == "FORC_NODA" :      return vect_elem_depl_r
+  raise AsException("type de concept resultat non prevu")
+
+CALC_VECT_ELEM=OPER(nom="CALC_VECT_ELEM",op=8,sd_prod=calc_vect_elem_prod,reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+                    fr="Calcul des seconds membres élémentaires",
+         OPTION          =SIMP(statut='o',typ='TXM',into=("CHAR_MECA","CHAR_THER","CHAR_ACOU",
+                                                           "FORC_NODA") ),
+         b_char_meca     =BLOC(condition = "OPTION=='CHAR_MECA'",
+           regles=(AU_MOINS_UN('CHARGE','MODELE'),),
+           CHARGE          =SIMP(statut='f',typ=char_meca,validators=NoRepeat(),max='**'),
+           MODELE          =SIMP(statut='f',typ=modele_sdaster),
+           b_charge     =BLOC(condition = "CHARGE != None", fr="modèle ne contenant pas de sous-structure",
+              CHAM_MATER   =SIMP(statut='f',typ=cham_mater),
+              CARA_ELEM    =SIMP(statut='f',typ=cara_elem),
+              INST         =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+              MODE_FOURIER =SIMP(statut='f',typ='I',defaut= 0 ),
+           ),  
+           b_modele     =BLOC(condition = "(MODELE != None)",fr="modèle contenant une sous-structure",
+              SOUS_STRUC      =FACT(statut='o',min=01,
+                regles=(UN_PARMI('TOUT','SUPER_MAILLE'),),
+                CAS_CHARGE  =SIMP(statut='o',typ='TXM' ),
+                TOUT        =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                SUPER_MAILLE=SIMP(statut='f',typ=ma,validators=NoRepeat(),max='**',),
+              ),
+           ),
+         ),
+         b_char_ther     =BLOC(condition = "OPTION=='CHAR_THER'",
+           CARA_ELEM        =SIMP(statut='f',typ=cara_elem),
+           CHARGE           =SIMP(statut='o',typ=char_ther,validators=NoRepeat(),max='**'),
+           INST             =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+         ),
+              
+         b_char_acou     =BLOC(condition = "OPTION=='CHAR_ACOU'",
+           CHAM_MATER        =SIMP(statut='o',typ=cham_mater),
+           CHARGE            =SIMP(statut='o',typ=char_acou,validators=NoRepeat(),max='**'),
+         ),
+         
+         b_forc_noda     =BLOC(condition = "OPTION=='FORC_NODA'",
+           SIEF_ELGA         =SIMP(statut='o',typ=cham_elem),
+           CARA_ELEM         =SIMP(statut='f',typ=cara_elem),
+           MODELE            =SIMP(statut='f',typ=modele_sdaster),
+         ),       
+) ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 DESROCHES X.DESROCHES
+COMB_FOURIER=OPER(nom="COMB_FOURIER",op= 161,sd_prod=comb_fourier,
+                  reentrant='n',fr="Recombiner les modes de Fourier d'une SD Résultat dans des directions particulières",
+            UIinfo={"groupes":("Post traitements",)},
+         RESULTAT        =SIMP(statut='o',typ=(fourier_elas,fourier_ther),),
+         ANGL            =SIMP(statut='o',typ='R',max='**'),
+         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 08/12/2008   AUTEUR SELLENET N.SELLENET 
+#            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.
+#
+# 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 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'])
+    if type_mat in  (matr_asse_depl_c,matr_asse_depl_r) : return matr_asse_depl_c
+    if type_mat in  (matr_asse_gene_c,matr_asse_gene_r) : return matr_asse_gene_c
+    if type_mat in  (matr_asse_temp_c,matr_asse_temp_r) : return matr_asse_temp_c
+    if type_mat in  (matr_asse_pres_c,matr_asse_pres_r) : return matr_asse_pres_c
+  elif COMB_R != None:
+    type_mat = AsType(COMB_R[0]['MATR_ASSE'])
+    if type_mat in  (matr_asse_depl_c,matr_asse_depl_r) : return matr_asse_depl_r
+    if type_mat in  (matr_asse_temp_c,matr_asse_temp_r) : return matr_asse_temp_r
+    if type_mat in  (matr_asse_pres_c,matr_asse_pres_r) : return matr_asse_pres_r
+    if type_mat in  (matr_asse_gene_c,matr_asse_gene_r) : return matr_asse_gene_r
+  elif CALC_AMOR_GENE != None: return matr_asse_gene_r
+  raise AsException("type de concept resultat non prevu")
+
+COMB_MATR_ASSE=OPER(nom="COMB_MATR_ASSE",op=  31,sd_prod=comb_matr_asse_prod,
+                    fr="Effectuer la combinaison linéaire de matrices assemblées",
+                    reentrant='f',
+            UIinfo={"groupes":("Résultats et champs",)},
+         regles=(UN_PARMI('COMB_R','COMB_C','CALC_AMOR_GENE' ),),
+         COMB_R          =FACT(statut='f',max='**',
+           PARTIE          =SIMP(statut='f',typ='TXM',into=("REEL","IMAG") ),
+           MATR_ASSE       =SIMP(statut='o',typ=(matr_asse_depl_r,matr_asse_depl_c,matr_asse_temp_r,matr_asse_temp_c
+                                                ,matr_asse_pres_r,matr_asse_pres_c,matr_asse_gene_r,matr_asse_gene_c ) ),
+           COEF_R          =SIMP(statut='o',typ='R' ),
+         ),
+         COMB_C          =FACT(statut='f',max='**',
+           regles=(UN_PARMI('COEF_R','COEF_C' ),),
+           MATR_ASSE       =SIMP(statut='o',typ=(matr_asse_depl_r,matr_asse_depl_c,matr_asse_temp_r,matr_asse_temp_c
+                                                ,matr_asse_pres_r,matr_asse_pres_c,matr_asse_gene_r,matr_asse_gene_c ) ),
+           COEF_R          =SIMP(statut='f',typ='R' ),
+           COEF_C          =SIMP(statut='f',typ='C' ),
+         ),
+         CALC_AMOR_GENE   =FACT(statut='f',
+           RIGI_GENE    = SIMP(statut='o', typ=matr_asse_gene_r),
+           MASS_GENE    = SIMP(statut='o', typ=matr_asse_gene_r),
+           regles=(UN_PARMI('AMOR_REDUIT','LIST_AMOR' ),),
+           AMOR_REDUIT  = SIMP(statut='f',typ='R',max='**'),
+           LIST_AMOR    = SIMP(statut='f',typ=listr8_sdaster ),
+         ),
+         SANS_CMP        =SIMP(statut='f',typ='TXM',into=("LAGR",) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 AUDEBERT S.AUDEBERT
+COMB_SISM_MODAL=OPER(nom="COMB_SISM_MODAL",op= 109,sd_prod=mode_stat,
+                     fr="Réponse sismique par recombinaison modale par une méthode spectrale",
+                     reentrant='n',
+            UIinfo={"groupes":("Post traitements",)},
+         regles=(EXCLUS('TOUT_ORDRE','NUME_ORDRE','FREQ','NUME_MODE','LIST_FREQ','LIST_ORDRE'),
+                 UN_PARMI('AMOR_REDUIT','LIST_AMOR','AMOR_GENE' ),),
+         MODE_MECA       =SIMP(statut='o',typ=mode_meca ),
+         TOUT_ORDRE      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+         NUME_ORDRE      =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+         LIST_ORDRE      =SIMP(statut='f',typ=listis_sdaster ),
+         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 ),
+         b_freq          =BLOC(condition = "FREQ != None or LIST_FREQ != None",
+           PRECISION       =SIMP(statut='f',typ='R',defaut= 1.E-3 ),
+           CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU") ),
+         ),
+         MODE_CORR       =SIMP(statut='f',typ=mode_stat_acce ),
+         
+         AMOR_REDUIT     =SIMP(statut='f',typ='R',max='**'),
+         LIST_AMOR       =SIMP(statut='f',typ=listr8_sdaster ),
+         AMOR_GENE       =SIMP(statut='f',typ=matr_asse_gene_r ),
+         
+         MASS_INER       =SIMP(statut='f',typ=table_sdaster ),
+         CORR_FREQ       =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         
+         EXCIT           =FACT(statut='o',max='**',
+           regles=(UN_PARMI('MONO_APPUI','NOEUD','GROUP_NO'),
+                   UN_PARMI('AXE','TRI_AXE','TRI_SPEC' ),
+                   UN_PARMI('MONO_APPUI','MULTI_APPUI' ),),
+           
+           MONO_APPUI      =SIMP(statut='f',typ='TXM',into=("OUI",),
+                                 fr="excitation imposée unique" ),
+           MULTI_APPUI =SIMP(statut='f',typ='TXM',into=("CORRELE","DECORRELE",),
+                                 fr="excitations décorrélés en multi-appuis: cumul sur les modes puis sur les appuis" ),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           AXE             =SIMP(statut='f',typ='R',max=3,fr="Excitation suivant un seul axe",),
+           TRI_AXE         =SIMP(statut='f',typ='R',max=3,fr="Excitation suivant les trois axes mais avec le meme spectre",),
+           TRI_SPEC        =SIMP(statut='f',typ='TXM',into=("OUI",),
+                                 fr="Excitation suivant les trois axes  avec trois spectres"),
+           b_axe           =BLOC(condition = "AXE != None",fr="Excitation suivant un seul axe",
+             SPEC_OSCI       =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule),),
+             ECHELLE         =SIMP(statut='f',typ='R',),
+           ),
+           b_tri_axe       =BLOC(condition = "TRI_AXE != None",fr="Excitation suivant les trois axes mais avec le meme spectre",
+             SPEC_OSCI       =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule),),
+             ECHELLE         =SIMP(statut='f',typ='R',),
+           ),
+           b_tri_spec      =BLOC(condition = "TRI_SPEC != None",fr="Excitation suivant les trois axes  avec trois spectres",
+             SPEC_OSCI       =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule),min=3,max=3 ),
+             ECHELLE         =SIMP(statut='f',typ='R',min=3,max=3),
+           ),       
+           NATURE          =SIMP(statut='f',typ='TXM',defaut="ACCE",into=("ACCE","VITE","DEPL") ),
+         ),
+         COMB_MODE       =FACT(statut='o',
+           TYPE            =SIMP(statut='o',typ='TXM',into=("SRSS","CQC","DSC","ABS","DPC") ),
+           DUREE           =SIMP(statut='f',typ='R' ),
+         ),
+         COMB_DIRECTION  =FACT(statut='f',
+           TYPE            =SIMP(statut='f',typ='TXM',into=("QUAD","NEWMARK") ),
+         ),
+         COMB_MULT_APPUI =FACT(statut='f',max='**',
+           regles=(UN_PARMI('TOUT','NOEUD','GROUP_NO' ),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           TYPE_COMBI      =SIMP(statut='f',typ='TXM',into=("QUAD","LINE",) ),
+         ),
+         COMB_DEPL_APPUI=FACT(statut='f',max='**',
+           regles=(UN_PARMI('TOUT','LIST_CAS'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",)),
+           LIST_CAS       =SIMP(statut='f',typ='I',max='**'),
+           TYPE_COMBI      =SIMP(statut='f',typ='TXM',into=("QUAD","LINE","ABS") ),
+         ),
+         DEPL_MULT_APPUI =FACT(statut='f',max='**',
+           regles=(UN_PARMI('NOEUD','GROUP_NO'),
+                   AU_MOINS_UN('DX','DY','DZ' ),),
+           NOM_CAS         =SIMP(statut='o',typ='TXM',max='**'),
+           NUME_CAS        =SIMP(statut='o',typ='I',max='**'),
+           MODE_STAT       =SIMP(statut='f',typ=(mode_stat_depl,), ),
+           NOEUD_REFE      =SIMP(statut='f',typ=no),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           DX              =SIMP(statut='f',typ='R' ),
+           DY              =SIMP(statut='f',typ='R' ),
+           DZ              =SIMP(statut='f',typ='R' ),
+         ),
+         OPTION          =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max=9,
+                               into=("DEPL","VITE","ACCE_ABSOLU","SIGM_ELNO_DEPL","SIEF_ELGA_DEPL",
+                                     "EFGE_ELNO_DEPL","REAC_NODA","FORC_NODA","EFGE_ELNO_CART",
+                                     "SIPO_ELNO_DEPL") ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2 ) ),
+         IMPRESSION      =FACT(statut='f',max='**',
+           regles=(EXCLUS('TOUT','NIVEAU'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           NIVEAU          =SIMP(statut='f',typ='TXM',into=("SPEC_OSCI","MASS_EFFE","MAXI_GENE"),validators=NoRepeat(),max=3 ),
+         ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& MODIF COMMANDE  DATE 30/09/2008   AUTEUR REZETTE C.REZETTE 
+#            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.
+#
+# 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 PELLET J.PELLET
+def crea_champ_prod(TYPE_CHAM,**args):
+  if TYPE_CHAM[0:5] == "CART_" :
+     return carte_sdaster
+  elif TYPE_CHAM[0:5] == "NOEU_" :
+     return cham_no_sdaster
+  elif TYPE_CHAM[0:2] == "EL"    :
+     return cham_elem
+  else :
+     raise AsException("type de concept resultat_sdaster non prevu")
+
+
+CREA_CHAMP=OPER(nom="CREA_CHAMP",op= 195,sd_prod=crea_champ_prod,
+                fr="Création d'un champ ",reentrant='f',
+            UIinfo={"groupes":("Résultats et champs",)},
+         TYPE_CHAM       =SIMP(statut='o',typ='TXM',into=C_TYPE_CHAM_INTO()),
+      # TYPE_CHAM doit etre de la forme : CART_xx, NOEU_xx, ELEM_xx, ELGA_xx ou ELNO_xx
+      # ou xx est le nom d'une grandeur définie dans le catalogue des grandeurs
+#        SI CREATION D'UN CHAM_NO, POUR IMPOSER LA NUMEROTATION DES DDLS :
+#        ------------------------------------------------------------------
+         regles=(EXCLUS('NUME_DDL','CHAM_NO',)),
+         NUME_DDL        =SIMP(statut='f',typ=(nume_ddl_sdaster) ),
+         CHAM_NO         =SIMP(statut='f',typ=(cham_no_sdaster) ),
+
+#        SI CREATION D'UN CHAM_ELEM, POUR aider a l'allocation du champ :
+#        (PAR DEFAUT : TOU_INI_ELNO/_ELGA/_ELEM)
+#        ------------------------------------------------------------------
+         OPTION         =SIMP(statut='f',typ='TXM'),
+
+         OPERATION       =SIMP(statut='o',typ='TXM',into=("AFFE","ASSE","EVAL","EXTR","DISC","NORMALE","R2C","C2R") ),
+
+#        ------------------------------------------------------------------
+         b_norm          =BLOC(condition = "OPERATION == 'NORMALE'",
+                               regles=(AU_MOINS_UN('GROUP_MA','MAILLE',),),
+             MODELE          =SIMP(statut='o',typ=(modele_sdaster) ),
+             GROUP_MA        =SIMP(statut='f',typ=grma ,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma   ,validators=NoRepeat(),max='**'),
+                             ),
+#        ------------------------------------------------------------------
+         b_affe          =BLOC(condition = "OPERATION == 'AFFE'",
+             regles=(UN_PARMI('MAILLAGE','MODELE'),),
+             MAILLAGE        =SIMP(statut='f',typ=(maillage_sdaster) ),
+             MODELE          =SIMP(statut='f',typ=(modele_sdaster) ),
+             b_affe_modele   =BLOC(condition = "MODELE != None",
+                 PROL_ZERO       =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON",) ), ),
+             AFFE            =FACT(statut='o',max='**',
+                regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE','GROUP_NO','NOEUD',),
+                        UN_PARMI('VALE','VALE_I','VALE_C','VALE_F', ),),
+                TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                GROUP_MA        =SIMP(statut='f',typ=grma ,validators=NoRepeat(),max='**'),
+                MAILLE          =SIMP(statut='f',typ=ma   ,validators=NoRepeat(),max='**'),
+                GROUP_NO        =SIMP(statut='f',typ=grno ,validators=NoRepeat(),max='**'),
+                NOEUD           =SIMP(statut='f',typ=no   ,validators=NoRepeat(),max='**'),
+                NOM_CMP         =SIMP(statut='o',typ='TXM',max='**'),
+                VALE            =SIMP(statut='f',typ='R',max='**' ),
+                VALE_I          =SIMP(statut='f',typ='I',max='**' ),
+                VALE_C          =SIMP(statut='f',typ='C',max='**' ),
+                VALE_F          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule),max='**'),
+                                   ),
+                             ),
+#        ------------------------------------------------------------------
+         b_asse          =BLOC(condition = "OPERATION == 'ASSE'",
+             regles=(UN_PARMI('MAILLAGE','MODELE'),),
+             MAILLAGE        =SIMP(statut='f',typ=(maillage_sdaster) ),
+             MODELE          =SIMP(statut='f',typ=(modele_sdaster) ),
+             b_asse_modele   =BLOC(condition = "MODELE != None",
+                 PROL_ZERO       =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON",) ), ),
+             ASSE            =FACT(statut='o',max='**',
+                regles=(AU_MOINS_UN('TOUT','GROUP_MA','GROUP_NO','MAILLE','NOEUD',),
+                PRESENT_PRESENT('NOM_CMP_RESU','NOM_CMP', ),),
+                TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                CHAM_GD         =SIMP(statut='o',typ=cham_gd_sdaster),
+                NOM_CMP         =SIMP(statut='f',typ='TXM',max='**' ),
+                NOM_CMP_RESU    =SIMP(statut='f',typ='TXM',max='**' ),
+                CUMUL           =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON",) ),
+                COEF_R          =SIMP(statut='f',typ='R',defaut= 1. ),
+                COEF_C          =SIMP(statut='f',typ='C',max=1),
+                                    ),
+                             ),
+#        ------------------------------------------------------------------
+         b_eval          =BLOC(condition = "OPERATION == 'EVAL'",
+             CHAM_F          =SIMP(statut='o',typ=cham_gd_sdaster),
+             CHAM_PARA       =SIMP(statut='o',typ=cham_gd_sdaster,max='**'),
+                             ),
+#        ------------------------------------------------------------------
+         b_r2c           =BLOC(condition = "OPERATION == 'R2C'",
+             CHAM_GD          =SIMP(statut='o',typ=cham_gd_sdaster),
+                             ),
+#        ------------------------------------------------------------------
+         b_c2r           =BLOC(condition = "OPERATION == 'C2R'",
+             CHAM_GD          =SIMP(statut='o',typ=cham_gd_sdaster),
+             PARTIE           =SIMP(statut='o',typ='TXM',into=('REEL','IMAG','MODULE','PHASE'),),
+                             ),
+#        ------------------------------------------------------------------
+         b_disc          =BLOC(condition = "OPERATION == 'DISC'",
+             MODELE          =SIMP(statut='f',typ=(modele_sdaster) ),
+             PROL_ZERO       =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON",) ),
+             CHAM_GD         =SIMP(statut='o',typ=cham_gd_sdaster),
+                             ),
+#        ------------------------------------------------------------------
+         b_extr          =BLOC(condition = "OPERATION == 'EXTR'",
+             regles=(AU_MOINS_UN('MAILLAGE','FISSURE','RESULTAT','TABLE'),),
+             MAILLAGE        =SIMP(statut='f',typ=(maillage_sdaster) ),
+             FISSURE         =SIMP(statut='f',typ=(fiss_xfem) ),
+             RESULTAT        =SIMP(statut='f',typ=(resultat_sdaster) ),
+             TABLE           =SIMP(statut='f',typ=(table_sdaster),min=1,max=1),
+             b_extr_maillage =BLOC(condition = "MAILLAGE != None and TABLE == None",
+                 NOM_CHAM        =SIMP(statut='o',typ='TXM',into=("GEOMETRIE",)),
+             ),
+             b_extr_fissure  =BLOC(condition = "FISSURE != None",
+                 NOM_CHAM        =SIMP(statut='o',typ='TXM',into=("LTNO","LNNO","GRLTNO","GRLNNO","STNO","STNOR","BASLOC")),
+             ),
+             b_extr_table    =BLOC(condition = "TABLE != None",
+                      regles=( EXCLUS('MODELE','MAILLAGE'),
+                               EXCLUS('PROL_ZERO','MAILLAGE'),),
+                      MAILLAGE        =SIMP(statut='f',typ=(maillage_sdaster),),
+                      MODELE          =SIMP(statut='f',typ=(modele_sdaster),),
+                      OPTION          =SIMP(statut='f',typ='TXM'),
+                      PROL_ZERO       =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON",) ),
+                 ),
+             b_extr_resultat =BLOC(condition = "RESULTAT != None",
+                 regles=(DERIVABLE('RESULTAT'),),
+                 SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),
+                                   fr="Paramètre de sensibilité.",
+                                   ang="Sensitivity parameter"),
+                 NOM_CHAM        =SIMP(statut='o',typ='TXM',into=C_NOM_CHAM_INTO()),
+                 TYPE_MAXI       =SIMP(statut='f',typ='TXM',into=("MAXI","MINI","MAXI_ABS","MINI_ABS","NORM_TRAN",) ),
+
+                 # si TYPE_MAXI, on spécifie en général plusieurs numéros d'ordre :
+                 b_type_maxi =BLOC(condition = "TYPE_MAXI != None",
+                      TYPE_RESU       =SIMP(statut='o',typ='TXM',defaut="VALE",into=("VALE","INST",) ),
+
+                      regles=(EXCLUS('TOUT_ORDRE','LIST_INST','LIST_FREQ','NUME_ORDRE','INST',
+                                      'FREQ','NUME_MODE','NOEUD_CMP','NOM_CAS','ANGL'),),
+                      TOUT_ORDRE      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                      LIST_INST       =SIMP(statut='f',typ=(listr8_sdaster) ),
+                      LIST_FREQ       =SIMP(statut='f',typ=(listr8_sdaster) ),
+                      NUME_ORDRE      =SIMP(statut='f',typ='I',max='**'),
+                      INST            =SIMP(statut='f',typ='R',max='**'),
+                      FREQ            =SIMP(statut='f',typ='R',max='**'),
+                      NUME_MODE       =SIMP(statut='f',typ='I',max='**'),
+                      NOEUD_CMP       =SIMP(statut='f',typ='TXM',max='**'),
+                      NOM_CAS         =SIMP(statut='f',typ='TXM',max='**'),
+                      ANGL            =SIMP(statut='f',typ='R',max='**'),
+                 ),
+
+                 # si .not. TYPE_MAXI, on ne doit spécifier qu'un seul numéro d'ordre :
+                 b_non_type_maxi =BLOC(condition = "TYPE_MAXI == None",
+                      regles=(EXCLUS('NUME_ORDRE','INST','FREQ','NUME_MODE','NOEUD_CMP','NOM_CAS','ANGL'),),
+                      NUME_ORDRE      =SIMP(statut='f',typ='I'),
+                      INST            =SIMP(statut='f',typ='R'),
+                      FREQ            =SIMP(statut='f',typ='R'),
+                      NUME_MODE       =SIMP(statut='f',typ='I'),
+                      NOEUD_CMP       =SIMP(statut='f',typ='TXM',max=2),
+                      NOM_CAS         =SIMP(statut='f',typ='TXM'),
+                      ANGL            =SIMP(statut='f',typ='R'),
+
+                      INTERPOL        =SIMP(statut='f',typ='TXM',defaut="NON",into=("NON","LIN",) ),
+                 ),
+
+                 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',),),
+
+         ),  # fin bloc b_extr
+
+
+               ),
+# FIN DU CATALOGUE : INFO,TITRE ET TYPAGE DU RESULTAT :
+#-----------------------------------------------------
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=(1,2,) ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**' ),
+)  ;
+#& MODIF COMMANDE  DATE 30/06/2008   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.
+#
+# 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 PELLET J.PELLET
+CREA_MAILLAGE=OPER(nom="CREA_MAILLAGE",op= 167,sd_prod=maillage_sdaster,
+            reentrant='n',fr="Crée un maillage à partir d'un maillage existant",
+            UIinfo={"groupes":("Maillage",)},
+         regles=(EXCLUS('COQU_VOLU', 'CREA_FISS', 'CREA_GROUP_MA', 'CREA_MAILLE', 'CREA_POI1',
+                        'DETR_GROUP_MA', 'ECLA_PG', 'HEXA20_27', 'LINE_QUAD', 'MODI_MAILLE',
+                        'QUAD_LINE', 'REPERE','RESTREINT'),),
+
+
+
+         # le MAILLAGE est inutile si ECLA_PG
+         MAILLAGE        =SIMP(statut='f',typ=maillage_sdaster ),
+
+         CREA_POI1       =FACT(statut='f',max='**',fr="Création de mailles de type POI1 à partir de noeuds",
+           regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE','GROUP_NO','NOEUD' ),),
+           NOM_GROUP_MA    =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+         ),
+         CREA_MAILLE     =FACT(statut='f',max='**',fr="Duplication de mailles",
+           regles=(AU_MOINS_UN('TOUT','MAILLE','GROUP_MA'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           PREF_MAILLE     =SIMP(statut='o',typ='TXM' ),
+           PREF_NUME       =SIMP(statut='f',typ='I' ),
+         ),
+         CREA_GROUP_MA   =FACT(statut='f',max='**',fr="Duplication de mailles et création de groupes de mailles",
+           regles=(AU_MOINS_UN('TOUT','MAILLE','GROUP_MA' ),),
+           NOM             =SIMP(statut='o',typ='TXM'),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           PREF_MAILLE     =SIMP(statut='o',typ='TXM' ),
+           PREF_NUME       =SIMP(statut='f',typ='I' ),
+         ),
+         DETR_GROUP_MA   =FACT(statut='f',fr="Destruction de groupes de mailles",
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           NB_MAILLE       =SIMP(statut='f',typ='I',defaut= 0,
+                                 fr="Nombre minimal de mailles que doit contenir le groupe pour etre détruit",  ),
+         ),
+         RESTREINT   =FACT(statut='f',fr="Restreindre un maillage à des groupes de mailles",max=1,
+           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'),),
+         ),
+         COQU_VOLU   =FACT(statut='f',
+                           fr="Creation de mailles volumiques à partir de mailles surfaciques",
+           NOM             =SIMP(statut='o',typ='TXM'),
+           GROUP_MA        =SIMP(statut='o',typ=grma,validators=NoRepeat(),max ='**'),
+           EPAIS           =SIMP(statut='o',typ='R' ),
+           PREF_MAILLE     =SIMP(statut='f',typ='TXM',defaut="MS" ),
+           PREF_NOEUD      =SIMP(statut='f',typ='TXM',defaut="NS" ),
+           PREF_NUME       =SIMP(statut='f',typ='I'  ,defaut=1 ),
+           PLAN            =SIMP(statut='o',typ='TXM',into=("SUP","MOY","INF")),
+           b_MOY =BLOC(condition = "PLAN == 'MOY'",
+             TRANSLATION   =SIMP(statut='o',typ='TXM',into=("SUP","INF") ),
+           ),
+         ),
+         MODI_MAILLE     =FACT(statut='f',max='**',fr="Modification du type de mailles",
+           regles=(AU_MOINS_UN('TOUT','MAILLE','GROUP_MA' ),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           MAILLE          =SIMP(statut='f',typ=ma,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma  ,validators=NoRepeat(),max='**'),
+           OPTION          =SIMP(statut='o',typ='TXM',into=("TRIA6_7","QUAD8_9","SEG3_4","QUAD_TRIA3"),
+                                 fr="Choix de la transformation" ),
+           b_NOS =BLOC(condition = "OPTION == 'TRIA6_7'  or  OPTION == 'QUAD8_9'  or  OPTION == 'SEG3_4'",
+             PREF_NOEUD      =SIMP(statut='f',typ='TXM',defaut="NS"),
+             PREF_NUME       =SIMP(statut='f',typ='I',defaut= 1 ),
+           ),
+           b_QTR =BLOC(condition = "OPTION == 'QUAD_TRIA3'",
+             PREF_MAILLE     =SIMP(statut='f',typ='TXM',defaut="MS" ),
+             PREF_NUME       =SIMP(statut='f',typ='I',defaut= 1 ),
+           ),
+         ),
+         CREA_FISS = FACT(statut='f',max='**',fr="Creation d'une fissure potentielle avec elts de joint ou elts à disc",
+           NOM             =SIMP(statut='o',typ='TXM'),
+           GROUP_NO_1      =SIMP(statut='o',typ=grno),
+           GROUP_NO_2      =SIMP(statut='o',typ=grno),
+           PREF_MAILLE     =SIMP(statut='o',typ='TXM'),
+           PREF_NUME       =SIMP(statut='f',typ='I',defaut=1 ),
+         ),
+         LINE_QUAD     =FACT(statut='f',fr="Passage linéaire -> quadratique",
+           regles=(AU_MOINS_UN('TOUT','MAILLE','GROUP_MA' ),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           MAILLE          =SIMP(statut='f',typ=ma,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma  ,validators=NoRepeat(),max='**'),
+           PREF_NOEUD      =SIMP(statut='f',typ='TXM',defaut="NS"),
+           PREF_NUME       =SIMP(statut='f',typ='I',defaut= 1 ),
+         ),
+         HEXA20_27     =FACT(statut='f',fr="Passage HEXA20 -> HEXA27",
+           regles=(AU_MOINS_UN('TOUT','MAILLE','GROUP_MA' ),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           MAILLE          =SIMP(statut='f',typ=ma,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma  ,validators=NoRepeat(),max='**'),
+           PREF_NOEUD      =SIMP(statut='f',typ='TXM',defaut="NS"),
+           PREF_NUME       =SIMP(statut='f',typ='I',defaut= 1 ),
+         ),
+         QUAD_LINE     =FACT(statut='f',fr="Passage quadratique -> linéaire",
+           regles=(AU_MOINS_UN('TOUT','MAILLE','GROUP_MA' ),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           MAILLE          =SIMP(statut='f',typ=ma,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma  ,validators=NoRepeat(),max='**'),
+         ),
+         REPERE          =FACT(statut='f',max='**',
+                               fr="changement de repère servant à déterminer les caractéristiques d'une section de poutre",
+           TABLE           =SIMP(statut='o',typ=table_sdaster,
+                                 fr="Nom de la table contenant les caractéristiques de la section de poutre" ),
+           NOM_ORIG        =SIMP(statut='f',typ='TXM',into=("CDG","TORSION"),fr="Origine du nouveau repère" ),
+           NOM_ROTA        =SIMP(statut='f',typ='TXM',into=("INERTIE",),fr="Direction du repére"  ),
+           b_cdg =BLOC(condition = "NOM_ORIG == 'CDG'",
+             GROUP_MA        =SIMP(statut='f',typ=grma,
+                                   fr="Nom du groupe de mailles dont le centre de gravité sera l origine du nouveau repère"),
+           ),
+         ),
+         ECLA_PG         =FACT(statut='f',
+                               fr="Eclatement des mailles en petites mailles contenant chacune un seul point de gauss",
+           MODELE          =SIMP(statut='o',typ=modele_sdaster ),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           SHRINK          =SIMP(statut='f',typ='R',defaut= 0.9, fr="Facteur de réduction" ),
+           TAILLE_MIN      =SIMP(statut='f',typ='R',defaut= 0.0, fr="Taille minimale d'un coté" ),
+           NOM_CHAM        =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+         ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+#
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=(1,2) ),
+)  ;
+#& MODIF COMMANDE  DATE 20/10/2008   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.
+#
+# 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 LEFEBVRE J.P.LEFEBVRE
+def crea_resu_prod(TYPE_RESU,**args):
+  if TYPE_RESU == "EVOL_ELAS"    : return evol_elas
+  if TYPE_RESU == "EVOL_NOLI"    : return evol_noli
+  if TYPE_RESU == "EVOL_THER"    : return evol_ther
+  if TYPE_RESU == "MULT_ELAS"    : return mult_elas
+  if TYPE_RESU == "MODE_MECA"    : return mode_meca
+  if TYPE_RESU == "FOURIER_ELAS" : return fourier_elas
+  if TYPE_RESU == "FOURIER_THER" : return fourier_ther
+  if TYPE_RESU == "EVOL_VARC"    : return evol_varc
+  if TYPE_RESU == "EVOL_CHAR"    : return evol_char
+  raise AsException("type de concept resultat non prevu")
+
+CREA_RESU=OPER(nom="CREA_RESU",op=124,sd_prod=crea_resu_prod,reentrant='f',
+            UIinfo={"groupes":("Modélisation",)},
+               fr="Créer ou enrichir une structure de donnees resultat à partir de champs aux noeuds",
+
+         OPERATION =SIMP(statut='o',typ='TXM',into=("AFFE","ASSE","ECLA_PG","PERM_CHAM","PROL_RTZ","PREP_VRC1","PREP_VRC2",),
+                         fr="choix de la fonction a activer",),
+
+
+         # Création par affectation de champs :
+         #-------------------------------------
+         b_affe       =BLOC(condition = "OPERATION == 'AFFE'",
+
+           TYPE_RESU    =SIMP(statut='o',position='global',typ='TXM',into=("MODE_MECA","MULT_ELAS","EVOL_ELAS","EVOL_NOLI",
+                                                        "FOURIER_ELAS","EVOL_THER","EVOL_VARC","EVOL_CHAR","FOURIER_THER") ),
+           NOM_CHAM     =SIMP(statut='o',typ='TXM',into=C_NOM_CHAM_INTO()),
+
+           b_mode       =BLOC(condition = "TYPE_RESU == 'MODE_MECA'",
+             MATR_A         =SIMP(statut='f',typ=matr_asse_depl_r,),
+             MATR_B         =SIMP(statut='f',typ=matr_asse_depl_r,),
+           ),
+
+           AFFE         =FACT(statut='o',max='**',
+             CHAM_GD       =SIMP(statut='o',typ=(cham_gd_sdaster)),
+             MODELE        =SIMP(statut='f',typ=modele_sdaster),
+             CHAM_MATER    =SIMP(statut='f',typ=cham_mater),
+             CARA_ELEM     =SIMP(statut='f',typ=cara_elem),
+
+             b_mult_elas     =BLOC(condition = "TYPE_RESU == 'MULT_ELAS' ",
+                NOM_CAS         =SIMP(statut='f',typ='TXM' ),
+             ),
+             b_evol          =BLOC(condition = "((TYPE_RESU=='EVOL_ELAS') or (TYPE_RESU=='EVOL_NOLI') or (TYPE_RESU=='EVOL_THER')\
+                                                                          or (TYPE_RESU=='EVOL_VARC') or (TYPE_RESU=='EVOL_CHAR'))",
+                regles=(UN_PARMI('INST','LIST_INST'),),
+                INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+                LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+                NUME_INIT       =SIMP(statut='f',typ='I', val_min=1),
+                NUME_FIN        =SIMP(statut='f',typ='I', val_min=1),
+                PRECISION       =SIMP(statut='f',typ='R',defaut= 0.0 ),
+                CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU") ),
+             ),
+             b_fourier       =BLOC(condition = "((TYPE_RESU == 'FOURIER_ELAS') or (TYPE_RESU == 'FOURIER_THER')) ",
+                NUME_MODE       =SIMP(statut='f',typ='I'),
+                TYPE_MODE       =SIMP(statut='f',typ='TXM',defaut="SYME",into=("SYME","ANTI","TOUS") ),
+             ),
+             b_mode       =BLOC(condition = "TYPE_RESU == 'MODE_MECA'",
+                NUME_MODE       =SIMP(statut='f',typ='I'),
+                FREQ            =SIMP(statut='f',typ='R'),
+             ),
+           ),
+         ),
+
+
+         # Création par assemblage d'evol_ther :
+         #-----------------------------------------
+         b_asse       =BLOC(condition = "OPERATION == 'ASSE'",
+           TYPE_RESU    =SIMP(statut='o',position='global',typ='TXM',into=("EVOL_THER",) ),
+           ASSE         =FACT(statut='o',max='**',
+             RESULTAT       =SIMP(statut='o',typ=evol_ther),
+             TRANSLATION    =SIMP(statut='f',typ='R',defaut= 0. ),
+           ),
+         ),
+
+
+         b_ecla_pg    =BLOC(condition = "OPERATION == 'ECLA_PG'",
+
+           TYPE_RESU       =SIMP(statut='o',typ='TXM',into=("EVOL_ELAS","EVOL_NOLI","EVOL_THER"), ),
+
+           ECLA_PG         =FACT(statut='o',
+             regles=(EXCLUS('TOUT_ORDRE','NUME_ORDRE','INST','LIST_INST','LIST_ORDRE'),),
+             NOM_CHAM        =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**'),
+             MODELE_INIT     =SIMP(statut='o',typ=modele_sdaster),
+             TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             RESU_INIT       =SIMP(statut='o',typ=resultat_sdaster),
+             MAILLAGE        =SIMP(statut='o',typ=maillage_sdaster),
+             TOUT_ORDRE      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             NUME_ORDRE      =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+             LIST_ORDRE      =SIMP(statut='f',typ=listis_sdaster),
+             INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+             LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+             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',),),
+           ),
+         ),
+
+
+         b_perm_cham =BLOC(condition = "OPERATION == 'PERM_CHAM'",
+
+           TYPE_RESU       =SIMP(statut='o',typ='TXM',into=("EVOL_NOLI",) ),
+           NOM_CHAM        =SIMP(statut='f',typ='TXM',into=("DEPL","SIEF_ELGA","VARI_ELGA",),validators=NoRepeat(),max='**' ),
+           RESU_INIT       =SIMP(statut='o',typ=evol_noli),
+           INST_INIT       =SIMP(statut='f',typ='R'),
+           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',),),
+           MAILLAGE_INIT   =SIMP(statut='o',typ=maillage_sdaster,),
+           RESU_FINAL      =SIMP(statut='o',typ=evol_noli,),
+           MAILLAGE_FINAL  =SIMP(statut='o',typ=maillage_sdaster,),
+           PERM_CHAM       =FACT(statut='o',max='**',
+              GROUP_MA_FINAL =SIMP(statut='o',typ=grma),
+              GROUP_MA_INIT  =SIMP(statut='o',typ=grma),
+              TRAN           =SIMP(statut='o',typ='R',min=3,max=3),
+              PRECISION      =SIMP(statut='f',typ='R',defaut=1.0E-3),
+           ),
+         ),
+
+         b_prol_rtz   =BLOC(condition = "OPERATION == 'PROL_RTZ'",
+
+           TYPE_RESU       =SIMP(statut='o',typ='TXM',into=("EVOL_THER",) ),
+
+           PROL_RTZ        =FACT(statut='o',
+              regles=(EXCLUS('INST','LIST_INST'),),
+              MAILLAGE_FINAL  =SIMP(statut='o',typ=maillage_sdaster,),
+              TABLE           =SIMP(statut='o',typ=table_sdaster,fr="Table issue de post_releve_t"),
+              INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+              LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+              b_acce_reel     =BLOC(condition="(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',),),
+              ),
+              PROL_DROITE     =SIMP(statut='f',typ='TXM',defaut="EXCLU",into=("CONSTANT","LINEAIRE","EXCLU",),),
+              PROL_GAUCHE     =SIMP(statut='f',typ='TXM',defaut="EXCLU",into=("CONSTANT","LINEAIRE","EXCLU",),),
+              REPERE          =SIMP(statut='o',typ='TXM',into=("CYLINDRIQUE",),),
+              ORIGINE         =SIMP(statut='o',typ='R',min=3,max=3),
+              AXE_Z           =SIMP(statut='o',typ='R',min=3,max=3),
+           ),
+         ),
+
+         b_prep_vrc1      =BLOC(condition = "OPERATION == 'PREP_VRC1'",
+           # calculer la température dans les couches des coques multicouche à partir d'un champ de fonctions
+           # de fonctions du temps et de l'espace (épaisseur)
+
+           TYPE_RESU    =SIMP(statut='o',position='global',typ='TXM',into=( "EVOL_THER",) ),
+
+           PREP_VRC1        =FACT(statut='o',max=1,
+             CHAM_GD       =SIMP(statut='o',typ=(cham_gd_sdaster)), # carte de fonctions du temps et de l'épaisseur
+             MODELE        =SIMP(statut='o',typ=modele_sdaster),    # modèle mécanique contenant les coques multicouche
+             CARA_ELEM     =SIMP(statut='o',typ=cara_elem),         # CARA_ELEM pour connaitre EPAIS et COQU_NCOU
+             INST          =SIMP(statut='o',typ='R',validators=NoRepeat(),max='**'),
+           ),
+         ),
+
+         b_prep_vrc2      =BLOC(condition = "OPERATION == 'PREP_VRC2'",
+           # calculer la température dans les couches des coques multicouche à partir d'un evol_ther "coque"
+           # contenant TEMP/TEMP_INF/TEMP_SUP
+
+           TYPE_RESU    =SIMP(statut='o',position='global',typ='TXM',into=( "EVOL_THER",) ),
+
+           PREP_VRC2        =FACT(statut='o',max=1,
+             EVOL_THER     =SIMP(statut='o',typ=(evol_ther)),       # evol_ther de type "coque" (TEMP/TEMP_INF/TEMP_SUP)
+             MODELE        =SIMP(statut='o',typ=modele_sdaster),    # modèle mécanique contenant les coques multicouche
+             CARA_ELEM     =SIMP(statut='o',typ=cara_elem),         # CARA_ELEM pour connaitre EPAIS et COQU_NCOU
+           ),
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.        
+# ======================================================================
+# RESPONSABLE COURTOIS M.COURTOIS
+
+def crea_table_prod(TYPE_TABLE, **args):
+   """Typage du concept résultat
+   """
+   if TYPE_TABLE == 'TABLE_FONCTION':
+      return table_fonction
+   else:
+      return table_sdaster
+
+CREA_TABLE=OPER(nom="CREA_TABLE",op=36,sd_prod=crea_table_prod,
+                fr="Création d'une table à partir d'une fonction ou de deux listes",
+                reentrant='f',UIinfo={"groupes":("Table",)},
+
+           regles=(EXCLUS('FONCTION','LISTE'),),
+
+           LISTE=FACT(statut='f',max='**',
+                 fr="Creation d'une table a partir de listes",
+                 regles=(UN_PARMI('LISTE_I','LISTE_R','LISTE_K')), 
+                        PARA     =SIMP(statut='o',typ='TXM'),
+                        TYPE_K   =SIMP(statut='f',typ='TXM',defaut='K8',
+                                    into=('K8','K16','K24')),
+                        NUME_LIGN=SIMP(statut='f',typ='I',max='**'),
+                        LISTE_I  =SIMP(statut='f',typ='I',max='**'),
+                        LISTE_R  =SIMP(statut='f',typ='R',max='**'),
+                        LISTE_K  =SIMP(statut='f',typ='TXM', max='**'),
+           ),
+           FONCTION=FACT(statut='f',
+                    fr="Creation d'une table a partir d'une fonction",
+                        FONCTION=SIMP(statut='o',typ=(fonction_c,fonction_sdaster)),
+                        PARA=SIMP(statut='f',typ='TXM',min=2,max=2),
+           ),
+           b_fonction = BLOC(condition='FONCTION != None',
+               regles=(CONCEPT_SENSIBLE('SEPARE'), REUSE_SENSIBLE(),
+                       DERIVABLE('FONCTION'),),
+               SENSIBILITE = SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                                    fr="Liste des paramètres de sensibilité.",
+                                    ang="List of sensitivity parameters"),
+           ),
+           TYPE_TABLE = SIMP(statut='f', typ='TXM', defaut="TABLE",
+                             into=('TABLE', 'TABLE_FONCTION'),),
+           
+           TITRE=SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+
+
+
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2007  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.        
+# ======================================================================
+# RESPONSABLE LEFEBVRE J.P.LEFEBVRE
+
+DEBUG=PROC(nom="DEBUG",op=137,
+            UIinfo={"groupes":("Utilitaires",)},
+               fr="Permettre de changer entre 2 commandes quelques variables globales de debug",
+
+     SDVERI          =SIMP(fr="vérifie la conformité des SD produites par les commandes",
+                           statut='f',typ='TXM',into=('OUI','NON')),
+     JXVERI          =SIMP(fr="vérifie l intégrité de la segmentation mémoire",
+                           statut='f',typ='TXM',into=('OUI','NON')),
+     JEVEUX          =SIMP(fr="force les déchargement sur disque",
+                           statut='f',typ='TXM',into=('OUI','NON')),
+     IMPR_MACRO      =SIMP(fr="affichage des sous-commandes produites par les macros dans le fichier mess",
+                           statut='f',typ='TXM',into=("OUI","NON")),
+ );
+#& MODIF COMMANDE  DATE 07/10/2008   AUTEUR COURTOIS M.COURTOIS 
+#            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.
+#
+# 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 LEFEBVRE J.P.LEFEBVRE
+DEBUT=MACRO(nom="DEBUT",op=ops.build_debut ,repetable='n',
+            UIinfo={"groupes":("Gestion du travail",)},
+           fr="Ouverture d'une étude. Allocation des ressources mémoire et disque et fichiers",
+          sd_prod=ops.DEBUT,
+
+         PAR_LOT         =SIMP(fr="mode de traitement des commandes",statut='f',typ='TXM',
+                           into=("OUI","NON"),defaut="OUI"),
+         IMPR_MACRO      =SIMP(fr="affichage des sous-commandes produites par les macros dans le fichier mess",
+                           statut='f',typ='TXM',into=("OUI","NON"),defaut="NON"),
+#         FORMAT_HDF      =SIMP(fr="sauvegarde de la base GLOBALE au format HDF",statut='f',
+#                               typ='TXM',defaut="NON",into=("OUI","NON",) ),
+         BASE            =FACT(fr="définition des paramètres associés aux bases JEVEUX",
+                               statut='f',min=1,max=2,
+           FICHIER         =SIMP(fr="nom de la base",statut='o',typ='TXM',
+                                 into=('GLOBALE','VOLATILE'),),
+           TITRE           =SIMP(statut='f',typ='TXM'),
+           CAS             =SIMP(statut='f',typ='TXM'),
+           NMAX_ENRE       =SIMP(fr="nombre maximum d enregistrements",statut='f',typ='I'),
+           LONG_ENRE       =SIMP(fr="longueur des enregistrements",statut='f',typ='I'),
+           LONG_REPE       =SIMP(fr="longueur du répertoire",statut='f',typ='I'),
+         ),
+
+         IMPRESSION      =FACT(statut='f',min=1,max=3,
+           FICHIER         =SIMP(statut='o',typ='TXM'),
+           UNITE           =SIMP(statut='o',typ='I'),
+         ),
+
+         CATALOGUE       =FACT(statut='f',min=1,max=10,
+           FICHIER         =SIMP(statut='o',typ='TXM'),
+           TITRE           =SIMP(statut='f',typ='TXM'),
+           UNITE           =SIMP(statut='f',typ='I'),
+         ),
+
+         CODE            =FACT(fr="définition d'un nom pour l'ensemble d'une étude",
+                               statut='f',min=1,max=1,
+           NOM             =SIMP(statut='o',typ='TXM'),
+           NIV_PUB_WEB     =SIMP(statut='o',typ='TXM',into=('INTERNET','INTRANET')),
+           VISU_EFICAS     =SIMP(statut='f',typ='TXM',into=('OUI','NON'),defaut='OUI'),
+         ),
+
+         ERREUR          =FACT(fr="comportement en cas d'erreur",statut='f',min=1,max=1,
+           ERREUR_F        =SIMP(statut='f',typ='TXM',into=('ABORT','EXCEPTION'),),
+         ),
+
+         DEBUG           =FACT(fr="option de déboggage reservée aux développeurs",
+                               statut='f',min=1,max=1,
+           JXVERI          =SIMP(fr="vérifie l intégrité de la segmentation mémoire",
+                                 statut='f',typ='TXM',into=('OUI','NON'),defaut='NON'),
+           SDVERI          =SIMP(fr="vérifie la conformité des SD produites par les commandes",
+                                 statut='f',typ='TXM',into=('OUI','NON')),
+           JEVEUX          =SIMP(fr="force les déchargement sur disque",
+                                 statut='f',typ='TXM',into=('OUI','NON'),defaut='NON'),
+           ENVIMA          =SIMP(fr="imprime les valeurs définies dans ENVIMA",
+                                 statut='f',typ='TXM',into=('TEST',)),
+         ),
+
+         MEMOIRE         =FACT(fr="mode de gestion mémoire utilisé",statut='d',min=1,max=1,
+           GESTION         =SIMP(statut='f',typ='TXM',into=('COMPACTE','RAPIDE'),defaut='RAPIDE'),
+           TYPE_ALLOCATION =SIMP(statut='f',typ='I',into=(1,2,3,4),defaut=1),
+           TAILLE          =SIMP(statut='f',typ='I'),
+           TAILLE_BLOC     =SIMP(statut='f',typ='R',defaut=800.),
+           PARTITION       =SIMP(statut='f',typ='R'),
+           DYNAMIQUE       =SIMP(statut='f',typ='I',defaut=1),
+         ),
+ 
+         RESERVE_CPU     =FACT(fr="reserve de temps pour terminer une execution",statut='d',max=1,
+           regles=(EXCLUS('VALE','POURCENTAGE'),),
+#          par défaut VALE fixée à 10. dans le FORTRAN si CODE présent
+           VALE            =SIMP(statut='f',typ='I',val_min=0,),
+#          par défaut 10% dans le FORTRAN
+           POURCENTAGE     =SIMP(statut='f',typ='R',val_min=0.,val_max=1.0),
+#          valeur en secondes de la réserve maximum bornée à 900 secondes
+           BORNE           =SIMP(statut='f',typ='I',val_min=0,defaut=900),),
+
+         IGNORE_ALARM = SIMP(statut='f', typ='TXM', max='**', fr="Alarmes que l'utilisateur souhaite délibérément ignorer"),
+
+);
+#& MODIF COMMANDE  DATE 22/07/2008   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.
+#
+# 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 NISTOR I.NISTOR
+DEFI_BASE_MODALE=OPER(nom="DEFI_BASE_MODALE",op=  99,sd_prod=base_modale,
+                     reentrant='f',
+                     fr="Définit la base d'une sous-structuration dynamique ou d'une recombinaison modale",
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+         regles=(UN_PARMI('CLASSIQUE','RITZ','DIAG_MASS','ORTHO_BASE'),),
+         CLASSIQUE       =FACT(statut='f',
+           INTERF_DYNA     =SIMP(statut='o',typ=interf_dyna_clas ),
+           MODE_MECA       =SIMP(statut='o',typ=mode_meca,max='**' ),
+           NMAX_MODE       =SIMP(statut='f',typ='I',defaut= 10 ),
+         ),
+         RITZ            =FACT(statut='f',max='**',
+           regles=(UN_PARMI('MODE_STAT','MODE_MECA','MULT_ELAS','BASE_MODALE'),),
+           MODE_MECA       =SIMP(statut='f',typ=mode_meca,max='**'  ),
+           NMAX_MODE       =SIMP(statut='f',typ='I',defaut= 999 ),
+           MODE_STAT       =SIMP(statut='f',typ=(mode_stat_depl,mode_stat_acce,mode_stat_forc,) ),
+           MULT_ELAS       =SIMP(statut='f',typ=mult_elas ),
+           BASE_MODALE     =SIMP(statut='f',typ=base_modale ),
+         ),
+         b_ritz          =BLOC(condition = "RITZ != None",
+           INTERF_DYNA     =SIMP(statut='f',typ=interf_dyna_clas ),
+           NUME_REF        =SIMP(statut='o',typ=nume_ddl_sdaster ),
+           ORTHO           =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON"),
+                               fr="Reorthonormalisation de la base de Ritz" ),
+           b_ortho          =BLOC(condition = "ORTHO == 'OUI' ",
+             MATRICE          =SIMP(statut='o',typ=(matr_asse_depl_r,matr_asse_depl_c,matr_asse_gene_r,matr_asse_pres_r ) ),
+               ),
+         ),
+        DIAG_MASS        =FACT(statut='f',max='**',
+           MODE_MECA       =SIMP(statut='o',typ=mode_meca,max='**'  ),
+           MODE_STAT       =SIMP(statut='o',typ=(mode_stat_depl,mode_stat_acce,mode_stat_forc,) ),
+         ),
+        ORTHO_BASE        =FACT(statut='f',max='**',
+           BASE       =SIMP(statut='o',typ=(mode_meca,mode_stat_depl,mode_stat_acce,mode_stat_forc,mult_elas,base_modale)),
+           MATRICE    =SIMP(statut='o',typ=(matr_asse_depl_r,matr_asse_depl_c,matr_asse_gene_r,matr_asse_pres_r ) ),
+         ),
+
+
+         SOLVEUR         =FACT(statut='d', fr="Méthode de résolution des systèmes linéaires",
+         METHODE         =SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("LDLT","MULT_FRONT",) ),
+         # remarque : on ne peut pas utiliser MUMPS tant qu'il ne sait pas faire STOP_SINGULIER="NON"
+
+           b_ldlt          =BLOC(condition = "METHODE == 'LDLT' ",fr="Paramètres de la méthode LDLT",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("RCMK","SANS") ),
+             NPREC           =SIMP(statut='f',typ='I',defaut=8),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+           ),
+
+           b_mult_front    =BLOC(condition = "METHODE == 'MULT_FRONT' ",fr="Paramètres de la méthode multi frontale",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+             NPREC           =SIMP(statut='f',typ='I',defaut=8),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+           ),
+         ),
+
+
+
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.        
+# ======================================================================
+# RESPONSABLE MICHEL S.MICHEL
+
+from Macro.defi_cable_bp_ops import defi_cable_bp_ops
+
+# ===========================================================================
+#           CATALOGUE DE LA MACRO "DEFI_CABLE_BP"
+#           -----------------------------------------
+#
+# USAGE :
+# Entrée :
+#  - MODELE
+#  - CABLE
+#  - CHAM_MATER
+#  - CARA_ELEM
+#  - GROUP_MA_BETON
+#  - DEFI_CABLE
+#  - TENSION_INIT
+#  - RECUL_ANCRAGE
+#  - RELAXATION
+#  - CONE
+#      RAYON
+#      LONGUEUR
+#      PRESENT          OUI ou NON deux fois
+#  - TITRE
+#  - INFO               1 / 2
+#
+# ===========================================================================
+
+DEFI_CABLE_BP=MACRO(nom="DEFI_CABLE_BP",op=defi_cable_bp_ops,sd_prod=cabl_precont,
+                   fr="Calculer les profils initiaux de tension le long des cables de précontrainte d'une structure en béton",
+                   reentrant='n',UIinfo={"groupe":("Modélisation",)},
+         MODELE          =SIMP(statut='o',typ=modele_sdaster ),
+         CHAM_MATER      =SIMP(statut='o',typ=cham_mater ),
+         CARA_ELEM       =SIMP(statut='o',typ=cara_elem ),
+         GROUP_MA_BETON  =SIMP(statut='o',typ=grma,max='**'),
+         DEFI_CABLE      =FACT(statut='o',max='**',
+           regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                   UN_PARMI('NOEUD_ANCRAGE','GROUP_NO_ANCRAGE'),),
+           MAILLE          =SIMP(statut='f',typ=ma,min=2,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma),
+           NOEUD_ANCRAGE   =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max=2),
+           GROUP_NO_ANCRAGE=SIMP(statut='f',typ=grno,validators=NoRepeat(),max=2),
+         ),
+         TYPE_ANCRAGE    =SIMP(statut='o',typ='TXM',min=2,max=2,into=("ACTIF","PASSIF") ),
+         TENSION_INIT    =SIMP(statut='o',typ='R',val_min=0.E+0 ),  
+         RECUL_ANCRAGE   =SIMP(statut='o',typ='R',val_min=0.E+0 ),  
+         RELAXATION      =FACT(statut='f',min=0,
+           R_J             =SIMP(statut='o',typ='R',val_min=0.E+0 ),  
+         ),
+         CONE            =FACT(statut='f',
+           RAYON             =SIMP(statut='o',typ='R',val_min=0.E+0 ),  
+           LONGUEUR          =SIMP(statut='o',typ='R',val_min=0.E+0 ),  
+           PRESENT           =SIMP(statut='o',typ='TXM',min=2,max=2,into=("OUI","NON") ),
+         ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**' ),  
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.        
+# ======================================================================
+# RESPONSABLE MICHEL S.MICHEL
+
+DEFI_CABLE_OP=OPER(nom="DEFI_CABLE_OP",op= 180,sd_prod=cabl_precont,reentrant='n',
+            fr="Définit les profils initiaux de tension d'une structure en béton le long des cables de précontrainte"
+               +" (utilisée par la macro DEFI_CABLE_BP)",
+            UIinfo={"groupes":("Modélisation",)},
+         MODELE          =SIMP(statut='o',typ=modele_sdaster ),
+         CHAM_MATER      =SIMP(statut='o',typ=cham_mater ),
+         CARA_ELEM       =SIMP(statut='o',typ=cara_elem ),
+         GROUP_MA_BETON  =SIMP(statut='o',typ=grma,max='**'),
+         DEFI_CABLE      =FACT(statut='o',max='**',
+           regles=(UN_PARMI('MAILLE','GROUP_MA'),
+                   UN_PARMI('NOEUD_ANCRAGE','GROUP_NO_ANCRAGE'),),
+           MAILLE          =SIMP(statut='f',typ=ma,min=2,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma),
+           NOEUD_ANCRAGE   =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max=2),
+           GROUP_NO_ANCRAGE=SIMP(statut='f',typ=grno,validators=NoRepeat(),max=2),
+           GROUP_NO_FUT    =SIMP(statut='f',typ=grno,validators=NoRepeat(),max=2),
+         ),
+         TYPE_ANCRAGE    =SIMP(statut='o',typ='TXM',min=2,max=2,into=("ACTIF","PASSIF") ),
+         TENSION_INIT    =SIMP(statut='o',typ='R',val_min=0.E+0 ),  
+         RECUL_ANCRAGE   =SIMP(statut='o',typ='R',val_min=0.E+0 ),  
+         RELAXATION      =FACT(statut='f',min=0,
+           R_J             =SIMP(statut='o',typ='R',val_min=0.E+0 ),  
+         ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**' ),  
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+         CONE            =FACT(statut='f',min=0,
+           RAYON             =SIMP(statut='o',typ='R',val_min=0.E+0 ),  
+           LONGUEUR          =SIMP(statut='o',typ='R',val_min=0.E+0, defaut=0.E+0 ),  
+           PRESENT           =SIMP(statut='o',typ='TXM',min=2,max=2,into=("OUI","NON") ),
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 30/06/2008   AUTEUR PROIX J-M.PROIX 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2004  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.
+# ======================================================================
+# RESPONSABLE PROIX J.M.PROIX
+DEFI_COMPOR=OPER(nom="DEFI_COMPOR",op=59,sd_prod=compor_sdaster,
+                   fr="Définir le comportement d'un monocristal, d'un polycristal ou de groupes de fibres",
+                   reentrant='n',
+            UIinfo={"groupes":("Modélisation",)},
+# on exclut MULTIFBRE de MONOCRISTAL ou POLYCRISTAL car la structure de données n'est pas organisée pareil pour ces cas
+                  regles=(UN_PARMI('MONOCRISTAL','POLYCRISTAL','MULTIFIBRE'),
+                 PRESENT_PRESENT('MULTIFIBRE','GEOM_FIBRE','MATER_SECT'),
+                         ),
+          MONOCRISTAL    =FACT(statut='f', max='**',
+             MATER           =SIMP(statut='o', typ=mater_sdaster, max=1),
+             ECOULEMENT      =SIMP(statut='o', typ='TXM', max=1,
+                   fr="Donner le nom du mot-clé facteur de DEFI_MATERIAU précisant le type d'écoulement viscoplastique"),
+             ECRO_ISOT       =SIMP(statut='o', typ='TXM', max=1,
+                   fr="Donner le nom du mot-clé facteur de DEFI_MATERIAU précisant le type d'écrouissage isotrope"),
+             ECRO_CINE       =SIMP(statut='o', typ='TXM', max=1,
+                   fr="Donner le nom du mot-clé facteur de DEFI_MATERIAU précisant le type d'écrouissage cinématique"),
+             ELAS            =SIMP(statut='f', typ='TXM', max=1,
+                   fr="Donner le nom du mot-clé facteur de DEFI_MATERIAU précisant le comportement élastique (un et un seul)"),
+             FAMI_SYST_GLIS  =SIMP(statut='o',typ='TXM', max=1,
+                                into=('BASAL', 'PRISMATIQUE', 'OCTAEDRIQUE', 'PYRAMIDAL1',
+                                'PYRAMIDAL2', 'CUBIQUE1', 'CUBIQUE2', 'MACLAGE', 'JOINT_GRAIN', 'RL', 'UNIAXIAL','BCC24'),),
+                                ),
+
+
+          POLYCRISTAL    =FACT(statut='f', max='**',
+           regles=(UN_PARMI('ANGL_REP','ANGL_EULER'),),
+             MONOCRISTAL     =SIMP(statut='o', typ=compor_sdaster, max=1),
+             FRAC_VOL  =SIMP(statut='o', typ='R', max=1,fr="fraction volumique de la phase correspondant au monocristal"),
+             ANGL_REP  =SIMP(statut='f',typ='R',max=3,fr="orientation du monocristal : 3 angles nautiques en degrés"),
+             ANGL_EULER=SIMP(statut='f',typ='R',max=3,fr="orientation du monocristal : 3 angles d'Euler   en degrés"),
+                                ),
+
+
+          b_poly      =BLOC( condition = "POLYCRISTAL!='None'",
+          LOCALISATION     =SIMP(statut='f', typ='TXM', max=1, into=('BZ', 'BETA', 'RL',),
+                fr="Donner le nom de la règle de localisation"),
+
+           b_beta      =BLOC( condition = "LOCALISATION=='BETA'",
+             DL            =SIMP(statut='o',typ='R',max=1),
+             DA            =SIMP(statut='o',typ='R',max=1),
+             ),
+             ),
+
+#####################################################################################
+          GEOM_FIBRE = SIMP(statut='f',max=1,typ=gfibre_sdaster,
+                   fr="Donner le nom du concept regroupant tous les groupes de fibres (issu de DEFI_GEOM_FIBRE)"),
+          MATER_SECT = SIMP(statut='f',max=1,typ=mater_sdaster,
+                   fr="Donner le nom du materiau pour les caracteristiques homogeneisees sur la section"),
+          MULTIFIBRE    = FACT(statut='f',max='**',
+          GROUP_FIBRE        =SIMP(statut='o', typ='TXM', max='**'),
+             MATER           =SIMP(statut='o', typ=mater_sdaster, max=1,
+                                   fr="Donner le nom du materiau pour le groupe de fibres"),
+             ALGO_1D         =SIMP(statut='f',typ='TXM',defaut="ANALYTIQUE",into=("DEBORST","ANALYTIQUE",)),
+             DEFORMATION      =SIMP(statut='f',typ='TXM',defaut="PETIT",
+                                     into=("PETIT","PETIT_REAC","REAC_GEOM")),
+             RELATION        =SIMP(statut='f', typ='TXM', max=1,defaut="ELAS",
+#                                   into=c_relation_into,
+                                  fr="Donner le nom de la relation incrementale pour le groupe de fibres",
+                                 into=(
+                                        "ELAS",
+                                        "ELAS_HYPER",
+                                        "VMIS_ISOT_TRAC",
+                                        "VISC_ISOT_TRAC",
+                                        "VMIS_ISOT_LINE",
+                                        "VISC_ISOT_LINE",
+                                        "VMIS_ISOT_PUIS",
+                                        "VMIS_ECMI_TRAC",
+                                        "VMIS_ECMI_LINE",
+                                        "LABORD_1D",
+                                        "ENDO_FRAGILE",
+                                        "ENDO_ISOT_BETON",
+                                        "ENDO_ORTH_BETON",
+                                        "BETON_REGLE_PR",
+                                        "MAZARS",
+                                        "RUPT_FRAG",
+                                        "VMIS_CINE_LINE",
+                                        "VISC_TAHERI",
+                                        "VISCOCHAB",
+                                        "VMIS_CIN1_CHAB",
+                                        "VMIS_CIN2_CHAB",
+                                        "VISC_CIN1_CHAB",
+                                        "VISC_CIN2_CHAB",
+                                        "ROUSSELIER",
+                                        "ROUSS_PR",
+                                        "ROUSS_VISC",
+                                        "NORTON_HOFF",
+                                        "LEMAITRE",
+                                        "VENDOCHAB",
+                                        "DRUCK_PRAGER",
+                                        "DRUCK_PRAG_N_A",
+                                        "GRANGER_FP",
+                                        "GRANGER_FP_INDT",
+                                        "GRANGER_FP_V",
+                                        "BETON_UMLV_FP",
+                                        "BETON_DOUBLE_DP",
+                                        "KIT_DDI",
+                                        "SANS",
+                                        "CORR_ACIER",
+                                        "ZMAT",
+                                        "GRAN_IRRA_LOG",
+                                     ) ),
+           RELATION_KIT    =SIMP(statut='f',typ='TXM',max='**',validators=NoRepeat(),
+                                 into=(
+# MECA KIT_DDI
+                                       "VMIS_ISOT_TRAC",
+                                       "VMIS_ISOT_LINE",
+                                       "VMIS_ISOT_CINE",
+                                       "VMIS_ISOT_PUIS",
+                                       "GRANGER_FP",
+                                       "GRANGER_FP_INDT",
+                                       "GRANGER_FP_V",
+                                       "BETON_UMLV_FP",
+                                       "ROUSS_PR",
+                                       "NADAI_B",
+                                       "BETON_DOUBLE_DP",
+                                       ),),
+# on pourrait ajouter TOUT_GROUP_FIBRE
+
+                                ) );
+
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 COURTOIS M.COURTOIS
+DEFI_CONSTANTE=OPER(nom="DEFI_CONSTANTE",op=   2,sd_prod=fonction_sdaster,
+                    fr="Définir la valeur d'une grandeur invariante",
+                    reentrant='n',
+            UIinfo={"groupes":("Fonction",)},
+         NOM_RESU        =SIMP(statut='f',typ='TXM',defaut="TOUTRESU"),
+         VALE            =SIMP(statut='o',typ='R',),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 DESROCHES X.DESROCHES
+DEFI_COQU_MULT=OPER(nom="DEFI_COQU_MULT",op=56,sd_prod=mater_sdaster,reentrant='n',
+            UIinfo={"groupes":("Modélisation",)},
+                    fr="Déterminer les caractéristiques matériaux homogénéisées d'une coque multicouche à partir"
+                        +" des caractéristiques de chaque couche",
+         COUCHE          =FACT(statut='o',max='**',
+           EPAIS           =SIMP(statut='o',typ='R',val_min=0.E+0 ),
+           MATER           =SIMP(statut='o',typ=(mater_sdaster) ),
+           ORIENTATION     =SIMP(statut='f',typ='R',defaut= 0.E+0,
+                                 val_min=-90.E+0,val_max=90.E+0   ),
+         ),
+         IMPRESSION      =FACT(statut='f',
+           UNITE           =SIMP(statut='f',typ='I',defaut=8),  
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.        
+# ======================================================================
+# RESPONSABLE LEFEBVRE J.P.LEFEBVRE
+def DEFIC_prod(self,ACTION,UNITE,**args):
+  if ACTION == "ASSOCIER" or ACTION == "RESERVER":
+    if UNITE != None :
+      return
+    else :
+      return entier
+  elif ACTION == "LIBERER"  :
+    return
+  else :
+    raise AsException("ACTION non prevue : %s" % ACTION)
+
+DEFI_FICHIER=MACRO(nom="DEFI_FICHIER",op=ops.build_DEFI_FICHIER,sd_prod=DEFIC_prod,reentrant='n',
+                  UIinfo={"groupes":("Gestion du travail",)},
+                  fr="Ouvre ou ferme un fichier associé à un numéro d'unité logique",
+
+            ACTION        =SIMP(statut='f',typ='TXM',into=("ASSOCIER","LIBERER","RESERVER"),defaut="ASSOCIER"),
+
+            b_associer    =BLOC(condition = "ACTION == 'ASSOCIER'",
+                                fr="Paramètres pour l'ouverture du fichier",
+                                regles=(AU_MOINS_UN('FICHIER','UNITE'),),
+               UNITE      =SIMP(statut='f',typ='I' ,val_min=1),
+               FICHIER    =SIMP(statut='f',typ='TXM',validators=LongStr(1,255)),
+               TYPE       =SIMP(statut='f',typ='TXM',into=("ASCII","BINARY","LIBRE"),defaut="ASCII"),
+
+               b_type_ascii  =BLOC(condition = "TYPE == 'ASCII'",fr="Paramètres pour le type ASCII",
+                  ACCES      =SIMP(statut='f',typ='TXM',into=("NEW","APPEND","OLD"),defaut="NEW"),
+               ),
+               b_type_autre  =BLOC(condition = "TYPE != 'ASCII'",fr="Paramètres pour les types BINARY et LIBRE",
+                  ACCES      =SIMP(statut='f',typ='TXM',into=("NEW","OLD"),defaut="NEW"),
+               ),
+            ),
+
+            b_reserver    =BLOC(condition = "ACTION == 'RESERVER'",
+                                fr="Paramètres pour la réservation de l'unité du fichier",
+                                regles=(AU_MOINS_UN('FICHIER','UNITE'),),
+               UNITE      =SIMP(statut='f',typ='I' ,val_min=1),
+               FICHIER    =SIMP(statut='f',typ='TXM',validators=LongStr(1,255)),
+               TYPE       =SIMP(statut='f',typ='TXM',into=("ASCII",),defaut="ASCII"),
+               ACCES      =SIMP(statut='f',typ='TXM',into=("APPEND",),defaut="APPEND"),
+            ),
+
+            b_liberer    =BLOC(condition = "ACTION == 'LIBERER'",
+                               fr="Paramètres pour la fermeture du fichier",
+                               regles=(UN_PARMI('FICHIER','UNITE'),),
+                  UNITE         =SIMP(statut='f',typ='I' ,val_min=1),
+                  FICHIER   =SIMP(statut='f',typ='TXM',validators=LongStr(1,255)),
+           ),
+
+           INFO          =SIMP(statut='f',typ='I',into=(1,2) ),           
+           )
+#& MODIF COMMANDE  DATE 14/10/2008   AUTEUR GENIAUT S.GENIAUT 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2004  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.
+# ======================================================================
+# RESPONSABLE GENIAUT S.GENIAUT
+
+DEFI_FISS_XFEM=OPER(nom="DEFI_FISS_XFEM",op=  41,sd_prod=fiss_xfem,reentrant='n',
+            UIinfo={"groupes":("Modélisation",)},
+               fr="Définition des caratéristiques d'une fissure avec X-FEM",
+
+    MODELE                =SIMP(statut='o',typ=modele_sdaster),
+    DEFI_FISS             =FACT(statut='o',max=01,
+      regles              =(UN_PARMI('GROUP_MA_FISS','FONC_LT','FORM_FISS'),
+                            ENSEMBLE('FONC_LT','FONC_LN'),
+                            ENSEMBLE('GROUP_MA_FISS','GROUP_MA_FOND')),
+      FONC_LT             =SIMP(statut='f',typ=(fonction_sdaster,formule) ),
+      FONC_LN             =SIMP(statut='f',typ=(fonction_sdaster,formule) ),
+      GROUP_MA_FISS       =SIMP(statut='f',typ=grma,max=01),
+      GROUP_MA_FOND       =SIMP(statut='f',typ=grma),
+      FORM_FISS           =SIMP(statut='f',typ='TXM',into=("ELLIPSE","CYLINDRE","DEMI_PLAN","SEGMENT","DEMI_DROITE") ),
+      b_ellipse           =BLOC(condition = "FORM_FISS == 'ELLIPSE' ",fr="Paramètres de la fissure elliptique",           
+           DEMI_GRAND_AXE =SIMP(statut='o',typ='R',val_min=0.E+0),
+           DEMI_PETIT_AXE =SIMP(statut='o',typ='R',val_min=0.E+0),
+           CENTRE         =SIMP(statut='o',typ='R',min=3,max=3),
+           VECT_X         =SIMP(statut='o',typ='R',min=3,max=3),
+           VECT_Y         =SIMP(statut='o',typ='R',min=3,max=3),
+           COTE_FISS      =SIMP(statut='f',typ='TXM',defaut="IN",into=("IN","OUT",) ),    ),
+      b_cylindre          =BLOC(condition = "FORM_FISS == 'CYLINDRE' ",fr="Paramètres de la fissure cylindrique",
+           DEMI_GRAND_AXE =SIMP(statut='o',typ='R',val_min=0.E+0),
+           DEMI_PETIT_AXE =SIMP(statut='o',typ='R',val_min=0.E+0),
+           CENTRE         =SIMP(statut='o',typ='R',min=3,max=3),
+           VECT_X         =SIMP(statut='o',typ='R',min=3,max=3),
+           VECT_Y         =SIMP(statut='o',typ='R',min=3,max=3),),
+      b_demiplan         =BLOC(condition = "FORM_FISS == 'DEMI_PLAN' ",fr="Paramètres de la fissure plane à front droit", 
+           PFON           =SIMP(statut='o',typ='R',min=3,max=3),
+           NORMALE        =SIMP(statut='o',typ='R',min=3,max=3),
+           DTAN           =SIMP(statut='o',typ='R',min=3,max=3),),
+      b_segment           =BLOC(condition = "FORM_FISS == 'SEGMENT' ",fr="Paramètres de la fissure 2D segment",
+           PFON_ORIG      =SIMP(statut='o',typ='R',min=3,max=3),
+           PFON_EXTR      =SIMP(statut='o',typ='R',min=3,max=3),),
+      b_demidroite         =BLOC(condition = "FORM_FISS == 'DEMI_DROITE' ",fr="Paramètres de la fissure 2D demi-droite",
+           PFON           =SIMP(statut='o',typ='R',min=3,max=3),
+           DTAN           =SIMP(statut='o',typ='R',min=3,max=3),),
+      b_droite            =BLOC(condition = "FORM_FISS == 'DROITE' ",fr="Paramètres de l'interface 2D (fissure traversante)",
+           POINT          =SIMP(statut='o',typ='R',min=3,max=3),
+           DTAN           =SIMP(statut='o',typ='R',min=3,max=3),),
+      b_inclusion         =BLOC(condition = "FORM_FISS == 'INCLUSION' ",fr="Paramètres de l'interface 2D (inclusion)",
+           DEMI_GRAND_AXE =SIMP(statut='o',typ='R',val_min=0.E+0),
+           DEMI_PETIT_AXE =SIMP(statut='o',typ='R',val_min=0.E+0),
+           CENTRE         =SIMP(statut='o',typ='R',min=3,max=3),
+           VECT_X         =SIMP(statut='o',typ='R',min=3,max=3),
+           VECT_Y         =SIMP(statut='o',typ='R',min=3,max=3),),
+    ),
+    GROUP_MA_ENRI         =SIMP(statut='o',typ=grma,max=01),
+    TYPE_ENRI_FOND        =SIMP(statut='f',typ='TXM',into=("TOPOLOGIQUE","GEOMETRIQUE"),defaut="TOPOLOGIQUE" ),
+      b_enri_geom         =BLOC(condition = "TYPE_ENRI_FOND == 'GEOMETRIQUE' ",fr="Paramètres de l enrichissement geometrique",
+           RAYON_ENRI     =SIMP(statut='f',typ='R',val_min=0.E+0),
+
+        b_enri_couches    =BLOC(condition = "(RAYON_ENRI == None) ",fr="Paramètres de l enrichissement à n couches",
+           NB_COUCHES     =SIMP(statut='f',typ='I',defaut=4,val_min=1),
+                          ),
+                        
+                          ),
+
+    ORIE_FOND             =FACT(statut='f',max=01,
+      PFON_INI            =SIMP(statut='o',typ='R',max=03),
+      VECT_ORIE           =SIMP(statut='o',typ='R',max=03),
+      POINT_ORIG          =SIMP(statut='o',typ='R',max=03),
+    ),
+    INFO                  =SIMP(statut='f',typ='I',defaut= 1,into=(1,2,3,) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 ADOBES A.ADOBES
+DEFI_FLUI_STRU=OPER(nom="DEFI_FLUI_STRU",op= 143,sd_prod=type_flui_stru,
+                    reentrant='n',fr="Définit les caractéristiques nécessaires à l'étude dynamique d'une structure sous écoulement",
+            UIinfo={"groupes":("Maillage",)},
+         regles=(  UN_PARMI('FAISCEAU_TRANS','GRAPPE','FAISCEAU_AXIAL','COQUE_COAX',),),
+         FAISCEAU_TRANS  =FACT(statut='f',max='**',
+           regles=(  ENSEMBLE('CSTE_CONNORS','NB_CONNORS','RHO_TUBE'),),
+           COUPLAGE        =SIMP(statut='f',typ='TXM',into=("OUI","NON") ),
+           CARA_ELEM       =SIMP(statut='f',typ=cara_elem ),
+           PROF_VITE_FLUI  =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           PROF_RHO_F_INT  =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           PROF_RHO_F_EXT  =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           NOM_CMP         =SIMP(statut='f',typ='TXM',into=("DX","DY","DZ") ),
+           COEF_MASS_AJOU  =SIMP(statut='f',typ='R' ),
+           TYPE_PAS        =SIMP(statut='f',typ='TXM',into=("CARRE_LIGN","TRIA_LIGN") ),
+           TYPE_RESEAU     =SIMP(statut='f',typ='I' ),
+           UNITE_CD        =SIMP(statut='f',typ='I',defaut=70),
+           UNITE_CK        =SIMP(statut='f',typ='I',defaut=71),            
+           PAS             =SIMP(statut='f',typ='R' ),
+           CSTE_CONNORS    =SIMP(statut='f',typ='R',min=2,max=2,val_min=0.E+00),
+           NB_CONNORS      =SIMP(statut='f',typ='I',val_min=2,),
+           RHO_TUBE        =SIMP(statut='f',typ='R' ),
+         ),
+         GRAPPE          =FACT(statut='f',
+           regles=(ENSEMBLE('GRAPPE_2','NOEUD','CARA_ELEM','MODELE','RHO_FLUI',),
+                   PRESENT_PRESENT('COEF_MASS_AJOU','GRAPPE_2', ),),
+#  peut on créer un bloc a partir de la valeur de couplage  
+           COUPLAGE        =SIMP(statut='o',typ='TXM',into=("OUI","NON") ),
+           GRAPPE_2        =SIMP(statut='f',typ='TXM',
+                                 into=("ASC_CEN","ASC_EXC","DES_CEN","DES_EXC") ),
+           NOEUD           =SIMP(statut='f',typ=no),
+           CARA_ELEM       =SIMP(statut='f',typ=cara_elem ),
+           MODELE          =SIMP(statut='f',typ=modele_sdaster ),
+           COEF_MASS_AJOU  =SIMP(statut='f',typ='R' ),
+           RHO_FLUI        =SIMP(statut='f',typ='R' ),
+           UNITE_CA        =SIMP(statut='f',typ='I',defaut=70),
+           UNITE_KA        =SIMP(statut='f',typ='I',defaut=71),            
+         ),
+         FAISCEAU_AXIAL  =FACT(statut='f',max='**',
+           regles=(UN_PARMI('GROUP_MA','TRI_GROUP_MA'),
+                   UN_PARMI('CARA_ELEM','RAYON_TUBE'),
+                   ENSEMBLE('RAYON_TUBE','COOR_TUBE'),
+                   PRESENT_ABSENT('RAYON_TUBE','TRI_GROUP_MA'),
+                   ENSEMBLE('CARA_PAROI','VALE_PAROI'),
+                   ENSEMBLE('LONG_TYPG','LARG_TYPG','EPAI_TYPG','RUGO_TYPG','COEF_TRAI_TYPG','COEF_DPOR_TYPG',
+                            'COOR_GRILLE','TYPE_GRILLE', ),),
+#  on doit pouvoir mettre des blocs conditionnels mais pas assez d infos pour le faire                            
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           TRI_GROUP_MA    =SIMP(statut='f',typ='TXM' ),
+           VECT_X          =SIMP(statut='f',typ='R',max=3),
+           PROF_RHO_FLUI   =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           PROF_VISC_CINE  =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           CARA_ELEM       =SIMP(statut='f',typ=cara_elem ),
+           RAYON_TUBE      =SIMP(statut='f',typ='R' ),
+           COOR_TUBE       =SIMP(statut='f',typ='R',max='**'),
+           PESANTEUR       =SIMP(statut='f',typ='R',min=4,max=4),
+           RUGO_TUBE       =SIMP(statut='f',typ='R' ),
+           CARA_PAROI      =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max=5,
+                                 into=("YC","ZC","R","HY","HZ") ),
+           VALE_PAROI      =SIMP(statut='f',typ='R',max=5),
+           ANGL_VRIL       =SIMP(statut='f',typ='R' ),
+           LONG_TYPG       =SIMP(statut='f',typ='R',max='**',val_min=0.E+0),
+           LARG_TYPG       =SIMP(statut='f',typ='R',max='**',val_min=0.E+0),
+           EPAI_TYPG       =SIMP(statut='f',typ='R',max='**',val_min=0.E+0),
+           RUGO_TYPG       =SIMP(statut='f',typ='R',max='**',val_min=0.E+0),
+           COEF_TRAI_TYPG  =SIMP(statut='f',typ='R',max='**',val_min=0.E+0),
+           COEF_DPOR_TYPG  =SIMP(statut='f',typ='R',max='**'),
+           COOR_GRILLE     =SIMP(statut='f',typ='R',max='**'),
+           TYPE_GRILLE     =SIMP(statut='f',typ='I',max='**'),
+         ),
+         COQUE_COAX      =FACT(statut='f',
+           MASS_AJOU       =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           GROUP_MA_INT    =SIMP(statut='o',typ=grma),
+           GROUP_MA_EXT    =SIMP(statut='o',typ=grma),
+           VECT_X          =SIMP(statut='o',typ='R',max='**'),
+           CARA_ELEM       =SIMP(statut='o',typ=cara_elem ),
+           MATER_INT       =SIMP(statut='o',typ=mater_sdaster ),
+           MATER_EXT       =SIMP(statut='o',typ=mater_sdaster ),
+           RHO_FLUI        =SIMP(statut='o',typ='R' ),
+           VISC_CINE       =SIMP(statut='o',typ='R' ),
+           RUGOSITE        =SIMP(statut='o',typ='R' ),
+           PDC_MOY_1       =SIMP(statut='o',typ='R' ),
+           PDC_DYN_1       =SIMP(statut='o',typ='R' ),
+           PDC_MOY_2       =SIMP(statut='o',typ='R' ),
+           PDC_DYN_2       =SIMP(statut='o',typ='R' ),
+         ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 COURTOIS M.COURTOIS
+DEFI_FONC_ELEC=OPER(nom="DEFI_FONC_ELEC",op=64,sd_prod=fonction_sdaster,reentrant='n',
+            UIinfo={"groupes":("Outils métier",)},
+                    fr="Définir une fonction du temps intervenant dans le calcul des forces de LAPLACE",
+      regles=(UN_PARMI('COUR_PRIN','COUR'),
+              EXCLUS('COUR','COUR_SECO'), ),
+         FREQ            =SIMP(statut='f',typ='R',defaut= 50.),
+         SIGNAL          =SIMP(statut='f',typ='TXM',defaut="COMPLET",into=("COMPLET","CONTINU") ),
+         COUR            =FACT(statut='f',max='**',
+         fr="Définition du courant de court-circuit",
+           regles=(UN_PARMI('PHI_CC_1','INTC_CC_1'),
+                   UN_PARMI('PHI_CC_2','INTC_CC_2'),),
+           INTE_CC_1       =SIMP(statut='o',typ='R'),
+           TAU_CC_1        =SIMP(statut='o',typ='R'),
+           PHI_CC_1        =SIMP(statut='f',typ='R'),
+           INTC_CC_1       =SIMP(statut='f',typ='R'),
+           INTE_CC_2       =SIMP(statut='o',typ='R'),
+           TAU_CC_2        =SIMP(statut='o',typ='R'),
+           PHI_CC_2        =SIMP(statut='f',typ='R'),
+           INTC_CC_2       =SIMP(statut='f',typ='R'),
+           INST_CC_INIT    =SIMP(statut='o',typ='R'),
+           INST_CC_FIN     =SIMP(statut='o',typ='R'),
+         ),
+         COUR_PRIN       =FACT(statut='f',
+         fr="Définition du courant de court-circuit avec réenclenchement",
+           regles=(UN_PARMI('PHI_CC_1','INTC_CC_1'),),
+           INTE_CC_1       =SIMP(statut='o',typ='R'),
+           TAU_CC_1        =SIMP(statut='o',typ='R'),
+           PHI_CC_1        =SIMP(statut='f',typ='R'),
+           INTC_CC_1       =SIMP(statut='f',typ='R'),
+           INTE_RENC_1     =SIMP(statut='f',typ='R'),
+           TAU_RENC_1      =SIMP(statut='f',typ='R'),
+           PHI_RENC_1      =SIMP(statut='f',typ='R'),
+           INST_CC_INIT    =SIMP(statut='o',typ='R'),
+           INST_CC_FIN     =SIMP(statut='o',typ='R'),
+           INST_RENC_INIT  =SIMP(statut='f',typ='R',defaut= 0.0E+0),
+           INST_RENC_FIN   =SIMP(statut='f',typ='R',defaut= 0.0E+0),
+         ),
+         COUR_SECO       =FACT(statut='f',max='**',
+         fr="Définition du courant de court-circuit avec un intervalle de temps différent de celui de COUR_PRIN",
+           regles=(UN_PARMI('PHI_CC_2','INTC_CC_2'),),
+           INTE_CC_2       =SIMP(statut='o',typ='R'),
+           TAU_CC_2        =SIMP(statut='o',typ='R'),
+           PHI_CC_2        =SIMP(statut='f',typ='R'),
+           INTC_CC_2       =SIMP(statut='f',typ='R'),
+           INTE_RENC_2     =SIMP(statut='f',typ='R'),
+           TAU_RENC_2      =SIMP(statut='f',typ='R'),
+           PHI_RENC_2      =SIMP(statut='f',typ='R'),
+           DIST            =SIMP(statut='f',typ='R',defaut=1.0E+0),
+         ),
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 ADOBES A.ADOBES
+DEFI_FONC_FLUI=OPER(nom="DEFI_FONC_FLUI",op= 142,sd_prod=fonction_sdaster,
+                    reentrant='n',
+            fr="Définit un profil de vitesse d'écoulement fluide le long d'une poutre",
+            UIinfo={"groupes":("Fonction",)},
+         MAILLAGE        =SIMP(statut='o',typ=(maillage_sdaster) ),
+         NOEUD_INIT      =SIMP(statut='o',typ=no),
+         NOEUD_FIN       =SIMP(statut='o',typ=no),
+         VITE            =FACT(statut='o',
+           VALE            =SIMP(statut='f',typ='R',defaut= 1. ),
+           PROFIL          =SIMP(statut='o',typ='TXM',into=("UNIFORME","LEONARD") ),
+           NB_BAV          =SIMP(statut='f',typ='I',defaut= 0,into=( 0 , 2 , 3 ) ),
+         ),
+         INTERPOL        =SIMP(statut='f',typ='TXM',max=2,defaut="LIN",
+                               into=("NON","LIN","LOG") ),
+         PROL_DROITE     =SIMP(statut='f',typ='TXM',defaut="EXCLU",
+                               into=("CONSTANT","LINEAIRE","EXCLU") ),
+         PROL_GAUCHE     =SIMP(statut='f',typ='TXM' ,defaut="EXCLU",
+                               into=("CONSTANT","LINEAIRE","EXCLU") ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2 ) ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 COURTOIS M.COURTOIS
+def defi_fonction_prod(VALE,VALE_PARA,VALE_C,NOEUD_PARA,ABSCISSE,**args):
+  if VALE       != None  : return fonction_sdaster
+  if VALE_C     != None  : return fonction_c
+  if VALE_PARA  != None  : return fonction_sdaster
+  if ABSCISSE   != None  : return fonction_sdaster
+  if NOEUD_PARA != None  : return fonction_sdaster
+  raise AsException("type de concept resultat non prevu")
+
+DEFI_FONCTION=OPER(nom="DEFI_FONCTION",op=3,sd_prod=defi_fonction_prod
+                    ,fr="Définit une fonction réelle ou complexe d'une variable réelle",
+                     reentrant='n',
+            UIinfo={"groupes":("Fonction",)},
+         regles=(UN_PARMI('VALE','VALE_C','VALE_PARA','NOEUD_PARA','ABSCISSE'),),
+         NOM_PARA        =SIMP(statut='o',typ='TXM',into=C_PARA_FONCTION() ),
+         NOM_RESU        =SIMP(statut='f',typ='TXM',defaut="TOUTRESU"),
+         VALE            =SIMP(statut='f',typ='R',min=2,max='**',
+                               fr ="Fonction réelle définie par une liste de couples (abscisse,ordonnée)"),
+         ABSCISSE        =SIMP(statut='f',typ='R',min=2,max='**',
+                               fr ="Liste d abscisses d une fonction réelle"),
+         VALE_C          =SIMP(statut='f',typ='R',min=2,max='**',
+                               fr ="Fonction complexe définie par une liste de couples"),
+         VALE_PARA       =SIMP(statut='f',typ=listr8_sdaster,
+                               fr ="Fonction réelle définie par deux concepts de type listr8" ),
+         b_vale_para     =BLOC(condition = "VALE_PARA != None",
+           VALE_FONC       =SIMP(statut='o',typ=listr8_sdaster ),
+         ),
+         b_abscisse      =BLOC(condition = "ABSCISSE != None",
+           ORDONNEE        =SIMP(statut='o',typ='R',min=2,max='**',
+                               fr ="Liste d ordonnées d une fonction réelle"),
+         ),
+         NOEUD_PARA      =SIMP(statut='f',typ=no,max='**',
+                               fr ="Fonction réelle définie par une liste de noeuds et un maillage"),
+         b_noeud_para    =BLOC(condition = "NOEUD_PARA != None",
+           MAILLAGE        =SIMP(statut='o',typ=maillage_sdaster ),
+           VALE_Y          =SIMP(statut='o',typ='R',max='**'),
+         ),
+
+         INTERPOL        =SIMP(statut='f',typ='TXM',max=2,defaut="LIN",into=("NON","LIN","LOG") ),
+         PROL_DROITE     =SIMP(statut='f',typ='TXM',defaut="EXCLU",into=("CONSTANT","LINEAIRE","EXCLU") ),
+         PROL_GAUCHE     =SIMP(statut='f',typ='TXM',defaut="EXCLU",into=("CONSTANT","LINEAIRE","EXCLU") ),
+         VERIF           =SIMP(statut='f',typ='TXM',defaut="CROISSANT",into=("CROISSANT","NON") ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 GALENNE E.GALENNE
+DEFI_FOND_FISS=OPER(nom="DEFI_FOND_FISS",op=55,sd_prod=fond_fiss,reentrant='n',
+            UIinfo={"groupes":("Post traitements",)},
+                    fr="Définition de lèvres et d'un fond de fissure en 3D",
+         regles=(UN_PARMI('FOND_FISS','FOND_FERME','FOND_INF'),
+                 EXCLUS('FOND_FERME','DTAN_ORIG'),
+                 EXCLUS('FOND_FERME','DTAN_EXTR'),
+                      EXCLUS('FOND_FERME','VECT_GRNO_ORIG'),
+                      EXCLUS('FOND_FERME','VECT_GRNO_EXTR'),
+                 UN_PARMI('LEVRE_SUP','NORMALE'),
+                      EXCLUS('LEVRE_INF','NORMALE'),
+                 ENSEMBLE('DTAN_ORIG','DTAN_EXTR'),
+                 ENSEMBLE('FOND_SUP','FOND_INF'),
+                 EXCLUS('FOND_INF','FOND_FISS'),
+                 EXCLUS('FOND_INF','FOND_FERME'),
+                      ENSEMBLE('VECT_GRNO_ORIG','VECT_GRNO_EXTR'),
+                      EXCLUS('DTAN_ORIG','VECT_GRNO_ORIG'),
+                      EXCLUS('DTAN_EXTR','VECT_GRNO_EXTR') ,),
+           MAILLAGE        =SIMP(statut='o',typ=maillage_sdaster ),
+           FOND_FISS       =FACT(statut='f',
+             regles=(UN_PARMI('GROUP_NO','NOEUD','GROUP_MA','MAILLE'),
+                     EXCLUS('NOEUD_ORIG','GROUP_NO_ORIG'),
+                          EXCLUS('NOEUD_EXTR','GROUP_NO_EXTR'),),
+             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='**'),
+#  à mettre à jour le max vaut-il 1  
+             NOEUD_ORIG      =SIMP(statut='f',typ=no,),
+             GROUP_NO_ORIG   =SIMP(statut='f',typ=grno,),
+             NOEUD_EXTR      =SIMP(statut='f',typ=no,),
+             GROUP_NO_EXTR   =SIMP(statut='f',typ=grno,),
+           ),
+           FOND_FERME      =FACT(statut='f',
+             regles=(UN_PARMI('GROUP_NO','NOEUD','GROUP_MA','MAILLE'),
+                          EXCLUS('NOEUD_ORIG','GROUP_NO_ORIG'),),
+             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='**'),
+             NOEUD_ORIG      =SIMP(statut='f',typ=no,),
+             GROUP_NO_ORIG   =SIMP(statut='f',typ=grno,),
+             MAILLE_ORIG     =SIMP(statut='f',typ=ma,),
+             GROUP_MA_ORIG   =SIMP(statut='f',typ=ma,),
+           ),
+           FOND_INF       =FACT(statut='f',
+             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='**'),
+             NOEUD_ORIG      =SIMP(statut='f',typ=no,),
+             GROUP_NO_ORIG   =SIMP(statut='f',typ=grno,),
+             NOEUD_EXTR      =SIMP(statut='f',typ=no,),
+             GROUP_NO_EXTR   =SIMP(statut='f',typ=grno,),
+           ),
+           FOND_SUP       =FACT(statut='f',
+             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='**'),
+             NOEUD_ORIG      =SIMP(statut='f',typ=no,),
+             GROUP_NO_ORIG   =SIMP(statut='f',typ=grno,),
+             NOEUD_EXTR      =SIMP(statut='f',typ=no,),
+             GROUP_NO_EXTR   =SIMP(statut='f',typ=grno,),
+           ),
+           LEVRE_SUP       =FACT(statut='f',
+             regles=(UN_PARMI('GROUP_MA','MAILLE'),),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           ),
+           LEVRE_INF       =FACT(statut='f',
+             regles=(UN_PARMI('GROUP_MA','MAILLE', ),),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           ),
+           NORMALE         =SIMP(statut='f',typ='R',max='**'),
+           PREC_NORM       =SIMP(statut='f',typ='R',defaut=0.1),
+           DTAN_ORIG       =SIMP(statut='f',typ='R',max='**'),
+           DTAN_EXTR       =SIMP(statut='f',typ='R',max='**'),
+           VECT_GRNO_ORIG  =SIMP(statut='f',typ=grno,validators=NoRepeat(),max=2),
+           VECT_GRNO_EXTR  =SIMP(statut='f',typ=grno,validators=NoRepeat(),max=2),
+           INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2007  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.        
+# ======================================================================
+# RESPONSABLE FLEJOU J.L.FLEJOU
+# 
+DEFI_GEOM_FIBRE=OPER(nom="DEFI_GEOM_FIBRE",op=  119, sd_prod=gfibre_sdaster,
+                    fr="Definition des groupes de fibres pour les elements multifibres",
+                    reentrant='n',
+            UIinfo={"groupes":("Modelisation",)},
+         regles=(AU_MOINS_UN('SECTION','FIBRE'),),
+
+         INFO       =SIMP(statut='f',typ='I', defaut= 1 ,into=(1,2) ),
+#============================================================================
+         SECTION     =FACT(statut='f',max='**',
+              regles=(AU_MOINS_UN('TOUT_SECT','GROUP_MA_SECT','MAILLE_SECT'),
+                      PRESENT_ABSENT('TOUT_SECT','GROUP_MA_SECT','MAILLE_SECT'),),
+
+              GROUP_FIBRE       =SIMP(statut='o',typ='TXM',min=1,max=1),
+              TOUT_SECT         =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+              GROUP_MA_SECT     =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+              MAILLE_SECT       =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+
+              MAILLAGE_SECT     =SIMP(statut='o',typ=maillage_sdaster),
+              COOR_AXE_POUTRE   =SIMP(statut='o',typ='R',min=2,max=2),
+         ),
+
+
+#============================================================================
+         FIBRE     =FACT(statut='f',max='**',
+              GROUP_FIBRE       =SIMP(statut='o',typ='TXM',min=1,max=1),
+              CARA              =SIMP(statut='f',typ='TXM',defaut='SURFACE',into=('SURFACE','DIAMETRE',)),
+              VALE              =SIMP(statut='o',typ='R',max='**'),
+              COOR_AXE_POUTRE   =SIMP(statut='o',typ='R',min=2,max=2),
+          ),
+
+
+) ;
+#& 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
+# 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 SFAYOLLE S.FAYOLLE
+DEFI_GLRC=OPER(nom="DEFI_GLRC",op=57,sd_prod=mater_sdaster,reentrant='f',
+            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 ),
+           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),
+           C1N3            =SIMP(statut='o',typ='R',val_min=0.E+0),
+           C2N1            =SIMP(statut='o',typ='R',val_min=0.E+0),
+           C2N2            =SIMP(statut='o',typ='R',val_min=0.E+0),
+           C2N3            =SIMP(statut='o',typ='R',val_min=0.E+0),
+           C1M1            =SIMP(statut='o',typ='R',val_min=0.E+0),
+           C1M2            =SIMP(statut='o',typ='R',val_min=0.E+0),
+           C1M3            =SIMP(statut='o',typ='R',val_min=0.E+0),
+           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),
+
+           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),
+         ),
+         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'),
+         ),
+         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),
+         ),
+         IMPRESSION      =FACT(statut='f',
+           UNITE           =SIMP(statut='f',typ='I',defaut=8),
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.
+#
+# 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 PELLET J.PELLET
+def defi_group_prod(MAILLAGE,**args):
+  if AsType(MAILLAGE) == maillage_sdaster : return maillage_sdaster
+  if AsType(MAILLAGE) == squelette : return squelette
+  raise AsException("type de concept resultat non prevu")
+
+DEFI_GROUP=OPER(nom="DEFI_GROUP",op= 104,sd_prod=defi_group_prod,
+                fr="Définition de nouveaux groupes de noeuds et/ou de mailles dans un concept maillage",
+                reentrant='o',
+            UIinfo={"groupes":("Maillage",)},
+         regles=(AU_MOINS_UN('CREA_GROUP_MA','CREA_GROUP_NO','DETR_GROUP_NO','DETR_GROUP_MA'),),
+         MAILLAGE        =SIMP(statut='o',typ=(maillage_sdaster,squelette) ),
+         DETR_GROUP_MA   =FACT(statut='f',max='**',
+           NOM             =SIMP(statut='o',typ=grma,validators=NoRepeat(),max='**'),),
+         DETR_GROUP_NO   =FACT(statut='f',max='**',
+           NOM             =SIMP(statut='o',typ=grno,validators=NoRepeat(),max='**'),),
+         CREA_GROUP_MA   =FACT(statut='f',max='**',
+
+regles=(UN_PARMI('TOUT','GROUP_MA','MAILLE','INTERSEC','UNION','DIFFE','OPTION'),),
+#  quel est le concept attendu deriere NOM
+           NOM             =SIMP(statut='o',typ=grma),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           INTERSEC        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           UNION           =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           DIFFE           =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           OPTION          =SIMP(statut='f',typ='TXM',into=("FACE_NORMALE","SPHERE","CYLINDRE","BANDE","APPUI_LACHE") ),
+           b_group_ma      =BLOC(condition = "GROUP_MA != None",
+             regles=(EXCLUS('POSITION','NUME_INIT'),),
+             NUME_INIT       =SIMP(statut='f',typ='I'),
+             POSITION        =SIMP(statut='f',typ='TXM',into=("INIT","FIN","MILIEU") ),
+             b_nume_init   =BLOC(condition = "NUME_INIT != None",
+               NUME_FIN        =SIMP(statut='f',typ='I' ),
+             ),
+           ),
+           b_face_normale  =BLOC(condition = "OPTION == 'FACE_NORMALE'",
+             regles=(UN_PARMI('ANGL_NAUT','VECT_NORMALE'),),
+             ANGL_NAUT       =SIMP(statut='f',typ='R',max=2),
+             VECT_NORMALE    =SIMP(statut='f',typ='R',max=3),
+             ANGL_PREC       =SIMP(statut='f',typ='R',defaut= 0.5 ),
+             VERI_SIGNE      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+           b_sphere        =BLOC(condition = "OPTION == 'SPHERE'",
+             regles=(UN_PARMI('POINT','NOEUD_CENTRE','GROUP_NO_CENTRE'),),
+             POINT           =SIMP(statut='f',typ='R',max=3),
+             NOEUD_CENTRE    =SIMP(statut='f',typ=no),
+             GROUP_NO_CENTRE =SIMP(statut='f',typ=grno),
+             RAYON           =SIMP(statut='o',typ='R' ),
+           ),
+           b_cylindre      =BLOC(condition = "OPTION == 'CYLINDRE'",
+             regles=(UN_PARMI('POINT','NOEUD_CENTRE','GROUP_NO_CENTRE'),
+                     UN_PARMI('ANGL_NAUT','VECT_NORMALE'),),
+             POINT           =SIMP(statut='f',typ='R',max=3),
+             NOEUD_CENTRE    =SIMP(statut='f',typ=no),
+             GROUP_NO_CENTRE =SIMP(statut='f',typ=grno),
+             RAYON           =SIMP(statut='o',typ='R' ),
+             ANGL_NAUT       =SIMP(statut='f',typ='R',max=2),
+             VECT_NORMALE    =SIMP(statut='f',typ='R',max=3),
+           ),
+           b_bande         =BLOC(condition = "OPTION == 'BANDE'",
+             regles=(UN_PARMI('POINT','NOEUD_CENTRE','GROUP_NO_CENTRE'),
+                     UN_PARMI('ANGL_NAUT','VECT_NORMALE'),),
+             POINT           =SIMP(statut='f',typ='R' ,max=3),
+             NOEUD_CENTRE    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max=1),
+             GROUP_NO_CENTRE =SIMP(statut='f',typ=grno,validators=NoRepeat(),max=1),
+             DIST            =SIMP(statut='o',typ='R' ),
+             ANGL_NAUT       =SIMP(statut='f',typ='R',max=2),
+             VECT_NORMALE    =SIMP(statut='f',typ='R',max=3),
+           ),
+           b_app_lache         =BLOC(condition = "OPTION == 'APPUI_LACHE'",
+             regles=(UN_PARMI('NOEUD','GROUP_NO'),),
+             NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+             GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           ),
+         ),
+         CREA_GROUP_NO   =FACT(statut='f',max='**',
+           OPTION          =SIMP(statut='f',typ='TXM',into=("ENV_SPHERE","ENV_CYLINDRE","PLAN",
+                                               "SEGM_DROI_ORDO","NOEUD_ORDO","TUNNEL") ),
+
+           b_option =BLOC(condition = "OPTION == None" ,
+                          regles=(UN_PARMI('TOUT_GROUP_MA','GROUP_MA','GROUP_NO','NOEUD',
+                                                           'INTERSEC','UNION','DIFFE'),),
+              TOUT_GROUP_MA   =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+              GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+              GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+              NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+              INTERSEC        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+              UNION           =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+              DIFFE           =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+
+              b_nom_group_ma  =BLOC(condition = "GROUP_MA != None",
+                NOM           = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                CRIT_NOEUD    = SIMP(statut='f',typ='TXM',defaut="TOUS",
+                                  into=("TOUS","SOMMET","MILIEU","CENTRE"),),
+              ),
+              b_group_no      =BLOC(condition = "GROUP_NO != None",
+                                    regles=(EXCLUS('POSITION','NUME_INIT'),),
+                NUME_INIT       =SIMP(statut='f',typ='I'),
+                POSITION        =SIMP(statut='f',typ='TXM',into=("INIT","FIN","MILIEU") ),
+                b_nume_init     =BLOC(condition = "NUME_INIT != None",
+                  NUME_FIN        =SIMP(statut='f',typ='I' ),
+                ),
+              ),
+              b_nom =BLOC(condition = "GROUP_MA == None and TOUT_GROUP_MA == None" ,
+                NOM             =SIMP(statut='o',typ=geom),
+              ),
+           ),
+
+           b_env_sphere    =BLOC(condition = "OPTION == 'ENV_SPHERE'",
+             regles=(UN_PARMI('POINT','NOEUD_CENTRE','GROUP_NO_CENTRE'),),
+             NOM             =SIMP(statut='o',typ=geom),
+             POINT           =SIMP(statut='f',typ='R' ,max=3),
+             NOEUD_CENTRE    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max=1),
+             GROUP_NO_CENTRE =SIMP(statut='f',typ=grno,validators=NoRepeat(),max=1),
+             RAYON           =SIMP(statut='o',typ='R' ),
+             PRECISION       =SIMP(statut='o',typ='R' ),
+           ),
+           b_env_cylindre  =BLOC(condition = "OPTION == 'ENV_CYLINDRE'",
+             regles=(UN_PARMI('POINT','NOEUD_CENTRE','GROUP_NO_CENTRE'),
+                     UN_PARMI('ANGL_NAUT','VECT_NORMALE'),),
+             NOM             =SIMP(statut='o',typ=geom),
+             POINT           =SIMP(statut='f',typ='R' ,max=3),
+             NOEUD_CENTRE    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max=1),
+             GROUP_NO_CENTRE =SIMP(statut='f',typ=grno,validators=NoRepeat(),max=1),
+             RAYON           =SIMP(statut='o',typ='R' ),
+             ANGL_NAUT       =SIMP(statut='f',typ='R',max=3),
+             VECT_NORMALE    =SIMP(statut='f',typ='R',max=3),
+             PRECISION       =SIMP(statut='o',typ='R' ),
+           ),
+           b_env_plan      =BLOC(condition = "OPTION == 'PLAN'",
+             regles=(UN_PARMI('POINT','NOEUD_CENTRE','GROUP_NO_CENTRE'),
+                     UN_PARMI('ANGL_NAUT','VECT_NORMALE'),),
+             NOM             =SIMP(statut='o',typ=geom),
+             POINT           =SIMP(statut='f',typ='R' ,max=3),
+             NOEUD_CENTRE    =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max=1),
+             GROUP_NO_CENTRE =SIMP(statut='f',typ=grno,validators=NoRepeat(),max=1),
+             ANGL_NAUT       =SIMP(statut='f',typ='R' ,max=3),
+             VECT_NORMALE    =SIMP(statut='f',typ='R' ,max=3),
+             PRECISION       =SIMP(statut='o',typ='R' ),
+           ),
+           b_segm_droi_ordo=BLOC(condition = "OPTION == 'SEGM_DROI_ORDO'",
+             regles=(AU_MOINS_UN('NOEUD','GROUP_NO'),
+                     UN_PARMI('NOEUD_ORIG','GROUP_NO_ORIG'),
+                     UN_PARMI('NOEUD_EXTR','GROUP_NO_EXTR'),),
+             NOM             =SIMP(statut='o',typ=geom),
+             NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+             GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+             NOEUD_ORIG      =SIMP(statut='f',typ=no),
+             GROUP_NO_ORIG   =SIMP(statut='f',typ=grno),
+             NOEUD_EXTR      =SIMP(statut='f',typ=no),
+             GROUP_NO_EXTR   =SIMP(statut='f',typ=grno),
+             PRECISION       =SIMP(statut='o',typ='R' ),
+             CRITERE         =SIMP(statut='o',typ='TXM',into=("ABSOLU","RELATIF") ),
+           ),
+           b_noeud_ordo    =BLOC(condition = "OPTION == 'NOEUD_ORDO'",
+             regles=(EXCLUS('NOEUD_ORIG','GROUP_NO_ORIG'),
+                     EXCLUS('NOEUD_EXTR','GROUP_NO_EXTR'),),
+             NOM             =SIMP(statut='o',typ=geom),
+             GROUP_MA        =SIMP(statut='o',typ=grma,validators=NoRepeat(),max='**'),
+             NOEUD_ORIG      =SIMP(statut='f',typ=no),
+             GROUP_NO_ORIG   =SIMP(statut='f',typ=grno),
+             NOEUD_EXTR      =SIMP(statut='f',typ=no),
+             GROUP_NO_EXTR   =SIMP(statut='f',typ=grno),
+           ),
+           b_tunnel    =BLOC(condition = "OPTION == 'TUNNEL'",
+             regles=(AU_MOINS_UN ('TOUT','GROUP_MA','MAILLE'),
+                     EXCLUS('NOEUD_ORIG','GROUP_NO_ORIG'),
+                     AU_MOINS_UN ('GROUP_MA_AXE','MAILLE_AXE'),),
+             NOM             =SIMP(statut='o',typ=geom),
+             TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             GROUP_MA_AXE    =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE_AXE      =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             NOEUD_ORIG      =SIMP(statut='f',typ=no),
+             GROUP_NO_ORIG   =SIMP(statut='f',typ=grno),
+             RAYON           =SIMP(statut='o',typ='R'),
+             LONGUEUR        =SIMP(statut='f',typ='R'),
+           ),
+         ),
+         ALARME          =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         INFO            =SIMP(statut='f',typ='I',into=( 1 , 2 ) ),
+)  ;
+#& MODIF COMMANDE  DATE 06/05/2008   AUTEUR CORUS M.CORUS 
+#            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.                                 
+#
+# 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 CORUS M.CORUS
+
+DEFI_INTERF_DYNA=OPER(nom="DEFI_INTERF_DYNA",op=  98,sd_prod=interf_dyna_clas,
+                      reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+            fr="Définir les interfaces d'une structure et leur affecter un type",
+         NUME_DDL        =SIMP(statut='o',typ=nume_ddl_sdaster ),
+         INTERFACE       =FACT(statut='o',max='**',
+           regles=(ENSEMBLE('NOM','TYPE'),
+#  erreur doc U sur la condition qui suit
+                   UN_PARMI('NOEUD','GROUP_NO'),),
+           NOM             =SIMP(statut='f',typ='TXM' ),
+           TYPE            =SIMP(statut='f',typ='TXM',into=("MNEAL","CRAIGB","CB_HARMO","AUCUN") ),
+           NOEUD           =SIMP(statut='f',typ=no,max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,max='**'),
+#           DDL_ACTIF       =SIMP(statut='f',typ='TXM',max='**'),
+           MASQUE          =SIMP(statut='f',typ='TXM',max='**'),
+         ),
+         FREQ            =SIMP(statut='f',typ='R',defaut= 1.),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 ZENTNER I.ZENTNER
+from Macro.defi_inte_spec_ops import defi_inte_spec_ops
+
+DEFI_INTE_SPEC=MACRO(nom="DEFI_INTE_SPEC",op= defi_inte_spec_ops,sd_prod=table_fonction,
+                     reentrant='n',
+                     fr="Définit une matrice interspectrale",
+                     UIinfo={"groupes":("Fonction",)},
+
+         DIMENSION       =SIMP(statut='f',typ='I',defaut= 1 ),
+
+         PAR_FONCTION    =FACT(statut='f',max='**',
+           NUME_ORDRE_I    =SIMP(statut='o',typ='I' ),
+           NUME_ORDRE_J    =SIMP(statut='o',typ='I' ),
+           FONCTION        =SIMP(statut='o',typ=fonction_c ),
+         ),
+         KANAI_TAJIMI    =FACT(statut='f',max='**',
+           regles=(EXCLUS('VALE_R','VALE_C'),),
+           NUME_ORDRE_I    =SIMP(statut='o',typ='I' ),
+           NUME_ORDRE_J    =SIMP(statut='o',typ='I' ),
+           FREQ_MIN        =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           FREQ_MAX        =SIMP(statut='f',typ='R',defaut= 100. ),
+           PAS             =SIMP(statut='f',typ='R',defaut= 1. ),
+           AMOR_REDUIT     =SIMP(statut='f',typ='R',defaut= 0.6 ),
+           FREQ_MOY        =SIMP(statut='f',typ='R',defaut= 5. ),
+           VALE_R          =SIMP(statut='f',typ='R' ),
+           VALE_C          =SIMP(statut='f',typ='C' ),
+           INTERPOL        =SIMP(statut='f',typ='TXM',max=2,defaut="LIN",into=("NON","LIN","LOG") ),
+           PROL_DROITE     =SIMP(statut='f',typ='TXM',defaut="EXCLU",into=("CONSTANT","LINEAIRE","EXCLU") ),
+           PROL_GAUCHE     =SIMP(statut='f',typ='TXM',defaut="EXCLU",into=("CONSTANT","LINEAIRE","EXCLU") ),
+         ),
+         CONSTANT        =FACT(statut='f',max='**',
+           regles=(EXCLUS('VALE_R','VALE_C'),),
+           NUME_ORDRE_I    =SIMP(statut='o',typ='I' ),
+           NUME_ORDRE_J    =SIMP(statut='o',typ='I' ),
+           FREQ_MIN        =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           FREQ_MAX        =SIMP(statut='f',typ='R',defaut= 100. ),
+           PAS             =SIMP(statut='f',typ='R',defaut= 1. ),
+           VALE_R          =SIMP(statut='f',typ='R' ),
+           VALE_C          =SIMP(statut='f',typ='C' ),
+           INTERPOL        =SIMP(statut='f',typ='TXM',max=2,defaut="LIN",into=("NON","LIN","LOG") ),
+           PROL_DROITE     =SIMP(statut='f',typ='TXM',defaut="EXCLU",into=("CONSTANT","LINEAIRE","EXCLU") ),
+           PROL_GAUCHE     =SIMP(statut='f',typ='TXM',defaut="EXCLU",into=("CONSTANT","LINEAIRE","EXCLU") ),
+         ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),               
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.
+#
+# 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 COURTOIS M.COURTOIS
+DEFI_LIST_ENTI=OPER(nom="DEFI_LIST_ENTI",op=22,sd_prod=listis_sdaster,
+                    fr="Définir une liste d'entiers strictement croissante",
+                    reentrant='n',
+            UIinfo={"groupes":("Fonction",)},
+
+         OPERATION    =SIMP(statut='o',typ='TXM',defaut='DEFI',into=('DEFI','NUME_ORDRE',)),
+
+
+         # définition d'une liste d'entiers
+         #----------------------------------
+         b_defi       =BLOC(condition = "OPERATION == 'DEFI'",
+             regles=(UN_PARMI('VALE','DEBUT'),
+                     EXCLUS('VALE','INTERVALLE'),),
+             VALE            =SIMP(statut='f',typ='I',max='**'),
+             DEBUT           =SIMP(statut='f',typ='I'),
+             INTERVALLE      =FACT(statut='f',max='**',
+                 regles=(UN_PARMI('NOMBRE','PAS'),),
+                 JUSQU_A         =SIMP(statut='o',typ='I'),
+                 NOMBRE          =SIMP(statut='f',typ='I',val_min=1,),
+                 PAS             =SIMP(statut='f',typ='I',val_min=1,),
+             ),
+         ),
+
+
+         # extraction d'une liste de nume_ordre dans une sd_resultat :
+         #------------------------------------------------------------
+         b_extr       =BLOC(condition = "OPERATION == 'NUME_ORDRE'",
+             RESULTAT        =SIMP(statut='o',typ=resultat_sdaster),
+             PARAMETRE       =SIMP(statut='o',typ='TXM',),
+             INTERV_R        =SIMP(statut='o',typ='R',min=2,max=2),
+         ),
+
+
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 COURTOIS M.COURTOIS
+DEFI_LIST_REEL=OPER(nom="DEFI_LIST_REEL",op=24,sd_prod=listr8_sdaster,
+                    fr="Définir une liste de réels strictement croissante",
+                    reentrant='n',
+            UIinfo={"groupes":("Fonction",)},
+         regles=(UN_PARMI('VALE','DEBUT',),
+                 EXCLUS('VALE','INTERVALLE'),
+                 ENSEMBLE('DEBUT','INTERVALLE')),
+         VALE            =SIMP(statut='f',typ='R',max='**'),
+         DEBUT           =SIMP(statut='f',typ='R'),
+         INTERVALLE      =FACT(statut='f',max='**',
+           regles=(UN_PARMI('NOMBRE','PAS'),),
+           JUSQU_A         =SIMP(statut='o',typ='R'),
+           NOMBRE          =SIMP(statut='f',typ='I'),
+           PAS             =SIMP(statut='f',typ='R'),
+         ),
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 PELLET J.PELLET
+DEFI_MAILLAGE=OPER(nom="DEFI_MAILLAGE",op=  88,sd_prod=maillage_sdaster,
+                   fr="Définition d'un nouveau maillage à partir de macro-éléments",
+                   reentrant='n',
+            UIinfo={"groupes":("Maillage",)},
+         DEFI_SUPER_MAILLE =FACT(statut='o',max='**',
+           MACR_ELEM       =SIMP(statut='o',typ=(macr_elem_stat,macr_elem_dyna),max='**' ),
+           SUPER_MAILLE    =SIMP(statut='f',typ=ma,max='**'),
+           TRAN            =SIMP(statut='f',typ='R',max=3),
+           ANGL_NAUT       =SIMP(statut='f',typ='R',max=3),
+           b_angl_naut     =BLOC(condition = "ANGL_NAUT != None",
+             CENTRE          =SIMP(statut='f',typ='R',max=3),
+           ),
+         ),
+         RECO_GLOBAL     =FACT(statut='f',max='**',
+           regles=(UN_PARMI('TOUT','SUPER_MAILLE'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           SUPER_MAILLE    =SIMP(statut='f',typ=ma,max='**'),
+           CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU") ),
+           PRECISION       =SIMP(statut='f',typ='R',defaut= 1.E-3 ),
+         ),
+         RECO_SUPER_MAILLE =FACT(statut='f',max='**',
+           SUPER_MAILLE    =SIMP(statut='o',typ=ma,max='**'),
+           GROUP_NO        =SIMP(statut='o',typ=grno,max='**'),
+           OPTION          =SIMP(statut='f',typ='TXM',defaut="GEOMETRIQUE",into=("GEOMETRIQUE","NOEUD_A_NOEUD","INVERSE") ),
+           geometrique     =BLOC(condition = "OPTION == 'GEOMETRIQUE'",
+             CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU") ),
+             PRECISION       =SIMP(statut='f',typ='R',defaut= 1.E-3 ),
+           ),
+         ),
+         DEFI_NOEUD      =FACT(statut='f',max='**',
+           regles=(UN_PARMI('TOUT','NOEUD_INIT'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",),
+                                 fr="Renommage de tous les noeuds" ),
+           NOEUD_INIT      =SIMP(statut='f',typ=no,
+                                 fr="Renommage d un seul noeud"),                     
+           b_tout          =BLOC(condition = "TOUT != None",
+             PREFIXE         =SIMP(statut='f',typ='TXM' ),
+             INDEX           =SIMP(statut='o',typ='I',max='**'),
+           ),
+           b_noeud_init    =BLOC(condition = "NOEUD_INIT != None",
+             SUPER_MAILLE    =SIMP(statut='o',typ=ma),
+             NOEUD_FIN       =SIMP(statut='o',typ=no),
+           ),        
+         ),
+         DEFI_GROUP_NO   =FACT(statut='f',max='**',
+           regles=(UN_PARMI('TOUT','SUPER_MAILLE'),
+                AU_MOINS_UN('INDEX','GROUP_NO_FIN'),
+                   ENSEMBLE('GROUP_NO_INIT','GROUP_NO_FIN'),),
+#  la regle ancien catalogue AU_MOINS_UN__: ( INDEX , GROUP_NO_FIN ) incoherente avec doc U           
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",),
+                                 fr="Création de plusieurs groupes de noeuds" ),
+           SUPER_MAILLE    =SIMP(statut='f',typ=ma,
+                                 fr="Création de plusieurs groupes de noeuds"),
+           GROUP_NO_INIT   =SIMP(statut='f',typ=grno,
+                                 fr="Création d un seul groupe de noeuds"),
+           PREFIXE         =SIMP(statut='f',typ='TXM' ),
+           INDEX           =SIMP(statut='f',typ='I',max='**'),
+           GROUP_NO_FIN    =SIMP(statut='f',typ=grno),
+         ),
+)  ;
+#& 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
+# 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 LEFEBVRE J.P.LEFEBVRE
+DEFI_MATERIAU=OPER(nom="DEFI_MATERIAU",op=5,sd_prod=mater_sdaster,
+                   fr="Définition des paramètres décrivant le comportement d un matériau",
+                   reentrant='f',
+            UIinfo={"groupes":("Modélisation",)},
+       regles=(EXCLUS('ELAS','ELAS_FO','ELAS_FLUI','ELAS_ISTR','ELAS_ISTR_FO','ELAS_ORTH',
+                      'ELAS_ORTH_FO','ELAS_COQUE','ELAS_COQUE_FO',
+                      'ELAS_HYPER','ELAS_2NDG',),
+               EXCLUS('THER','THER_FO','THER_ORTH','THER_NL'),
+               EXCLUS('ECRO_LINE','ECRO_LINE_FO','ECRO_PUIS'),
+               EXCLUS('TAHERI','TAHERI_FO'),
+               EXCLUS('ROUSSELIER','ROUSSELIER_FO'),
+               EXCLUS('VISC_SINH','VISC_SINH_FO'),
+               PRESENT_PRESENT('ROUSSELIER','TRACTION'),
+               PRESENT_PRESENT('ROUSSELIER_FO','TRACTION'),
+               EXCLUS('CIN1_CHAB','CIN1_CHAB_FO'),
+               EXCLUS('CIN2_CHAB','CIN2_CHAB_FO'),
+               EXCLUS('VISCOCHAB','VISCOCHAB_FO'),
+               EXCLUS('LEMAITRE','LEMAITRE_FO','VISC_IRRA_LOG',
+               'LEMA_SEUIL','LEMA_SEUIL_FO','LEMAITRE_IRRA','LMARC_IRRA',),
+               EXCLUS('LMARC','LMARC_FO'),
+               EXCLUS('META_LEMA_ANI','META_LEMA_ANI_FO'),
+               EXCLUS('VMIS_POUTRE','VMIS_POUTRE_FO'),
+               EXCLUS('VENDOCHAB','VENDOCHAB_FO'),
+               PRESENT_PRESENT('BPEL_ACIER','ELAS'),
+               EXCLUS('RCCM','RCCM_FO'),
+               EXCLUS('WEIBULL','WEIBULL_FO'),
+               PRESENT_PRESENT('LAIGLE','ELAS'),
+               PRESENT_PRESENT('LETK','ELAS'),
+               PRESENT_PRESENT('DRUCK_PRAGER','ELAS'),
+               PRESENT_PRESENT('ELAS_GONF','ELAS'),
+               PRESENT_PRESENT('HOEK_BROWN','ELAS'),
+               EXCLUS('MAZARS','MAZARS_FO'),
+               PRESENT_PRESENT('JOINT_BA','ELAS'),
+               PRESENT_PRESENT('CABLE','ELAS'),
+               ),
+           MATER      =SIMP(statut='f',typ=mater_sdaster),
+#
+# comportement élastique
+#
+           ELAS            =FACT(statut='f',
+             E               =SIMP(statut='o',typ='R',val_min=0.E+0),
+             NU              =SIMP(statut='o',typ='R',val_min=-1.E+0,val_max=0.5E+0),
+             RHO             =SIMP(statut='f',typ='R'),
+             ALPHA           =SIMP(statut='f',typ='R'),
+             AMOR_ALPHA      =SIMP(statut='f',typ='R'),
+             AMOR_BETA       =SIMP(statut='f',typ='R'),
+             AMOR_HYST       =SIMP(statut='f',typ='R'),
+           ),
+           ELAS_FO         =FACT(statut='f',
+             regles=(PRESENT_PRESENT('ALPHA','TEMP_DEF_ALPHA'),),
+             E               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             NU              =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             RHO             =SIMP(statut='f',typ='R'),
+             TEMP_DEF_ALPHA  =SIMP(statut='f',typ='R'),
+             PRECISION       =SIMP(statut='f',typ='R',defaut= 1.),
+             ALPHA           =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             AMOR_ALPHA      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             AMOR_BETA       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             AMOR_HYST       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             K_DESSIC        =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             B_ENDOGE        =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             FONC_DESORP     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP","INST","HYDR","SECH","NEUT1","NEUT2",) ),
+           ),
+           ELAS_FLUI       =FACT(statut='f',
+             E               =SIMP(statut='o',typ='R'),
+             NU              =SIMP(statut='o',typ='R'),
+             RHO             =SIMP(statut='o',typ='R'),
+             PROF_RHO_F_INT  =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             PROF_RHO_F_EXT  =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             COEF_MASS_AJOU  =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("ABSC",) ),
+           ),
+           ELAS_ISTR       =FACT(statut='f',
+             E_L             =SIMP(statut='o',typ='R'),
+             E_N             =SIMP(statut='o',typ='R'),
+             NU_LT           =SIMP(statut='o',typ='R'),
+             NU_LN           =SIMP(statut='o',typ='R'),
+             G_LN            =SIMP(statut='o',typ='R'),
+             RHO             =SIMP(statut='f',typ='R'),
+             ALPHA_L         =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             ALPHA_N         =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           ),
+           ELAS_ISTR_FO    =FACT(statut='f',
+             regles=(
+                      PRESENT_PRESENT('ALPHA_L','TEMP_DEF_ALPHA'),
+                      PRESENT_PRESENT('ALPHA_N','TEMP_DEF_ALPHA'),
+                    ),
+             E_L             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             E_N             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             NU_LT           =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             NU_LN           =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             G_LN            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             RHO             =SIMP(statut='f',typ='R'),
+             TEMP_DEF_ALPHA  =SIMP(statut='f',typ='R'),
+             PRECISION       =SIMP(statut='f',typ='R',defaut= 1.),
+             ALPHA_L         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             ALPHA_N         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP","INST")),
+           ),
+           ELAS_ORTH       =FACT(statut='f',
+             E_L             =SIMP(statut='o',typ='R'),
+             E_T             =SIMP(statut='o',typ='R'),
+             E_N             =SIMP(statut='f',typ='R'),
+             NU_LT           =SIMP(statut='o',typ='R'),
+             NU_LN           =SIMP(statut='f',typ='R'),
+             NU_TN           =SIMP(statut='f',typ='R'),
+             G_LT            =SIMP(statut='o',typ='R'),
+             G_LN            =SIMP(statut='f',typ='R'),
+             G_TN            =SIMP(statut='f',typ='R'),
+             RHO             =SIMP(statut='f',typ='R'),
+             ALPHA_L         =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             ALPHA_T         =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             ALPHA_N         =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             XT              =SIMP(statut='f',typ='R',defaut= 1. ),
+             XC              =SIMP(statut='f',typ='R',defaut= 1. ),
+             YT              =SIMP(statut='f',typ='R',defaut= 1. ),
+             YC              =SIMP(statut='f',typ='R',defaut= 1. ),
+             S_LT            =SIMP(statut='f',typ='R',defaut= 1. ),
+             AMOR_ALPHA      =SIMP(statut='f',typ='R'),
+             AMOR_BETA       =SIMP(statut='f',typ='R'),
+             AMOR_HYST       =SIMP(statut='f',typ='R'),
+           ),
+           ELAS_ORTH_FO    =FACT(statut='f',
+             regles=(
+                      PRESENT_PRESENT('ALPHA_L','TEMP_DEF_ALPHA'),
+                      PRESENT_PRESENT('ALPHA_N','TEMP_DEF_ALPHA'),
+                      PRESENT_PRESENT('ALPHA_T','TEMP_DEF_ALPHA'),
+                    ),
+             E_L             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             E_T             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             E_N             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             NU_LT           =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             NU_LN           =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             NU_TN           =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             G_LT            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             G_LN            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             G_TN            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             RHO             =SIMP(statut='f',typ='R'),
+             TEMP_DEF_ALPHA  =SIMP(statut='f',typ='R'),
+             PRECISION       =SIMP(statut='f',typ='R',defaut= 1. ),
+             ALPHA_L         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             ALPHA_T         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             ALPHA_N         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP","INST",) ),
+             AMOR_ALPHA      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             AMOR_BETA       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             AMOR_HYST       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+           ),
+           ELAS_HYPER      =FACT(statut='f',
+                                 regles=(UN_PARMI('K','NU'),),
+             C10             =SIMP(statut='f',typ='R',defaut=0.0),
+             C01             =SIMP(statut='o',typ='R'),
+             C20             =SIMP(statut='f',typ='R',defaut=0.0),
+             K               =SIMP(statut='f',typ='R'),
+             RHO             =SIMP(statut='f',typ='R',defaut=0.0),
+             NU              =SIMP(statut='f',typ='R',val_min=-1.E+0,val_max=0.5E+0),
+           ),
+           ELAS_COQUE      =FACT(statut='f',
+             regles=(EXCLUS('MEMB_L','M_LLLL',),
+                     PRESENT_PRESENT('MEMB_L','MEMB_LT', 'MEMB_T','MEMB_G_LT','FLEX_L','FLEX_LT',
+                                     'FLEX_T','FLEX_G_LT','CISA_L','CISA_T',),
+                     PRESENT_PRESENT('M_LLLL','M_LLTT','M_LLLT','M_TTTT','M_TTLT','M_LTLT','F_LLLL',
+                                     'F_LLTT','F_LLLT','F_TTTT','F_TTLT','F_LTLT','MF_LLLL',
+                                     'MF_LLTT','MF_LLLT','MF_TTTT','MF_TTLT','MF_LTLT','MC_LLLZ',
+                                     'MC_LLTZ','MC_TTLZ','MC_TTTZ','MC_LTLZ','MC_LTTZ','FC_LLLZ',
+                                     'FC_LLTZ','FC_TTLZ','FC_TTTZ','FC_LTLZ','FC_LTTZ','C_LZLZ',
+                                     'C_LZTZ','C_TZTZ'),),
+             MEMB_L          =SIMP(statut='f',typ='R'),
+             MEMB_LT         =SIMP(statut='f',typ='R'),
+             MEMB_T          =SIMP(statut='f',typ='R'),
+             MEMB_G_LT       =SIMP(statut='f',typ='R'),
+             FLEX_L          =SIMP(statut='f',typ='R'),
+             FLEX_LT         =SIMP(statut='f',typ='R'),
+             FLEX_T          =SIMP(statut='f',typ='R'),
+             FLEX_G_LT       =SIMP(statut='f',typ='R'),
+             CISA_L          =SIMP(statut='f',typ='R'),
+             CISA_T          =SIMP(statut='f',typ='R'),
+             M_LLLL          =SIMP(statut='f',typ='R'),
+             M_LLTT          =SIMP(statut='f',typ='R'),
+             M_LLLT          =SIMP(statut='f',typ='R'),
+             M_TTTT          =SIMP(statut='f',typ='R'),
+             M_TTLT          =SIMP(statut='f',typ='R'),
+             M_LTLT          =SIMP(statut='f',typ='R'),
+             F_LLLL          =SIMP(statut='f',typ='R'),
+             F_LLTT          =SIMP(statut='f',typ='R'),
+             F_LLLT          =SIMP(statut='f',typ='R'),
+             F_TTTT          =SIMP(statut='f',typ='R'),
+             F_TTLT          =SIMP(statut='f',typ='R'),
+             F_LTLT          =SIMP(statut='f',typ='R'),
+             MF_LLLL         =SIMP(statut='f',typ='R'),
+             MF_LLTT         =SIMP(statut='f',typ='R'),
+             MF_LLLT         =SIMP(statut='f',typ='R'),
+             MF_TTTT         =SIMP(statut='f',typ='R'),
+             MF_TTLT         =SIMP(statut='f',typ='R'),
+             MF_LTLT         =SIMP(statut='f',typ='R'),
+             MC_LLLZ         =SIMP(statut='f',typ='R'),
+             MC_LLTZ         =SIMP(statut='f',typ='R'),
+             MC_TTLZ         =SIMP(statut='f',typ='R'),
+             MC_TTTZ         =SIMP(statut='f',typ='R'),
+             MC_LTLZ         =SIMP(statut='f',typ='R'),
+             MC_LTTZ         =SIMP(statut='f',typ='R'),
+             FC_LLLZ         =SIMP(statut='f',typ='R'),
+             FC_LLTZ         =SIMP(statut='f',typ='R'),
+             FC_TTLZ         =SIMP(statut='f',typ='R'),
+             FC_TTTZ         =SIMP(statut='f',typ='R'),
+             FC_LTLZ         =SIMP(statut='f',typ='R'),
+             FC_LTTZ         =SIMP(statut='f',typ='R'),
+             C_LZLZ          =SIMP(statut='f',typ='R'),
+             C_LZTZ          =SIMP(statut='f',typ='R'),
+             C_TZTZ          =SIMP(statut='f',typ='R'),
+             RHO             =SIMP(statut='f',typ='R'),
+             ALPHA           =SIMP(statut='f',typ='R'),
+           ),
+           ELAS_COQUE_FO   =FACT(statut='f',
+             regles=(EXCLUS('MEMB_L','M_LLLL',),
+                     PRESENT_PRESENT('MEMB_L','MEMB_LT','MEMB_T','MEMB_G_LT','FLEX_L','FLEX_LT',
+                                     'FLEX_T','FLEX_G_LT','CISA_L','CISA_T',),
+                     PRESENT_PRESENT('M_LLLL','M_LLTT','M_LLLT','M_TTTT','M_TTLT','M_LTLT','F_LLLL',
+                                     'F_LLTT','F_LLLT','F_TTTT','F_TTLT','F_LTLT','MF_LLLL','MF_LLTT',
+                                     'MF_LLLT','MF_TTTT','MF_TTLT','MF_LTLT','MC_LLLZ','MC_LLTZ',
+                                     'MC_TTLZ','MC_TTTZ','MC_LTLZ','MC_LTTZ','FC_LLLZ','FC_LLTZ',
+                                     'FC_TTLZ','FC_TTTZ','FC_LTLZ','FC_LTTZ','C_LZLZ','C_LZTZ','C_TZTZ'),),
+             MEMB_L          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MEMB_LT         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MEMB_T          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MEMB_G_LT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             FLEX_L          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             FLEX_LT         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             FLEX_T          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             FLEX_G_LT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             CISA_L          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             CISA_T          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             M_LLLL          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             M_LLTT          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             M_LLLT          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             M_TTTT          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             M_TTLT          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             M_LTLT          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F_LLLL          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F_LLTT          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F_LLLT          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F_TTTT          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F_TTLT          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F_LTLT          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MF_LLLL         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MF_LLTT         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MF_LLLT         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MF_TTTT         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MF_TTLT         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MF_LTLT         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MC_LLLZ         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MC_LLTZ         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MC_TTLZ         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MC_TTTZ         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MC_LTLZ         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MC_LTTZ         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             FC_LLLZ         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             FC_LLTZ         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             FC_TTLZ         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             FC_TTTZ         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             FC_LTLZ         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             FC_LTTZ         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_LZLZ          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_LZTZ          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_TZTZ          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             RHO             =SIMP(statut='f',typ='R'),
+             ALPHA           =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP","INST") ),
+           ),
+           ELAS_2NDG        =FACT(statut='f',
+             A1              =SIMP(statut='o',typ='R'),
+             A2              =SIMP(statut='f',typ='R'),
+             A3              =SIMP(statut='f',typ='R'),
+             A4              =SIMP(statut='f',typ='R'),
+             A5              =SIMP(statut='f',typ='R'),
+           ),
+           CABLE           =FACT(statut='f',
+             EC_SUR_E        =SIMP(statut='f',typ='R',defaut= 1.E-4 ),
+           ),
+#
+# comportement mécanique non linéaire
+#
+           TRACTION        =FACT(statut='f',
+             SIGM            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("EPSI","TEMP","HYDR","SECH",) ),
+           ),
+           ECRO_LINE       =FACT(statut='f',
+             D_SIGM_EPSI     =SIMP(statut='o',typ='R',),
+             SY              =SIMP(statut='o',typ='R',),
+           ),
+           ECRO_LINE_FO    =FACT(statut='f',
+             D_SIGM_EPSI     =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             SY              =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",) ),
+           ),
+           ECRO_PUIS       =FACT(statut='f',
+             SY              =SIMP(statut='o',typ='R',),
+             A_PUIS          =SIMP(statut='o',typ='R',val_min=0.0),
+             N_PUIS          =SIMP(statut='o',typ='R',val_min=1.E-6),
+           ),
+           ECRO_PUIS_FO    =FACT(statut='f',
+             SY              =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             A_PUIS          =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             N_PUIS          =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",) ),
+           ),
+           BETON_ECRO_LINE =FACT(statut='f',
+             D_SIGM_EPSI     =SIMP(statut='o',typ='R'),
+             SYT             =SIMP(statut='o',typ='R'),
+             SYC             =SIMP(statut='f',typ='R'),
+           ),
+           BETON_REGLE_PR =FACT(statut='f',
+             D_SIGM_EPSI     =SIMP(statut='o',typ='R'),
+             SYT             =SIMP(statut='o',typ='R'),
+             SYC             =SIMP(statut='f',typ='R'),
+             EPSC            =SIMP(statut='f',typ='R'),
+             N               =SIMP(statut='f',typ='R'),
+           ),
+           ENDO_ORTH_BETON  =FACT(statut='f',
+             ALPHA            =SIMP(statut='f',typ='R',defaut=0.9),
+             K0               =SIMP(statut='o',typ='R'),
+             K1               =SIMP(statut='o',typ='R'),
+             K2               =SIMP(statut='f',typ='R',defaut=7.E-4),
+             ECROB            =SIMP(statut='o',typ='R'),
+             ECROD            =SIMP(statut='o',typ='R'),
+           ),
+           PRAGER          =FACT(statut='f',
+             C               =SIMP(statut='o',typ='R'),
+           ),
+           PRAGER_FO       =FACT(statut='f',
+             C               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",) ),
+           ),
+           ECRO_FLEJOU     =FACT(statut='f',
+             EP              =SIMP(statut='o',typ='R'),
+             SY              =SIMP(statut='o',typ='R'),
+             SU              =SIMP(statut='o',typ='R'),
+             PUISS           =SIMP(statut='o',typ='R'),
+           ),
+           TAHERI          =FACT(statut='f',
+             R_0             =SIMP(statut='o',typ='R'),
+             ALPHA           =SIMP(statut='o',typ='R'),
+             M               =SIMP(statut='o',typ='R'),
+             A               =SIMP(statut='o',typ='R'),
+             B               =SIMP(statut='o',typ='R'),
+             C1              =SIMP(statut='o',typ='R'),
+             C_INF           =SIMP(statut='o',typ='R'),
+             S               =SIMP(statut='o',typ='R'),
+           ),
+           TAHERI_FO       =FACT(statut='f',
+             R_0             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             ALPHA           =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             M               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             A               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             B               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C1              =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_INF           =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             S               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",) ),
+           ),
+           ROUSSELIER      =FACT(statut='f',
+             D               =SIMP(statut='o',typ='R'),
+             SIGM_1          =SIMP(statut='o',typ='R'),
+             PORO_INIT       =SIMP(statut='o',typ='R'),
+             PORO_CRIT       =SIMP(statut='f',typ='R',defaut= 1. ),
+             PORO_ACCE       =SIMP(statut='f',typ='R',defaut= 1. ),
+             PORO_LIMI       =SIMP(statut='f',typ='R',defaut= 0.999 ),
+             D_SIGM_EPSI_NORM=SIMP(statut='f',typ='R',defaut= 1. ),
+             AN              =SIMP(statut='f',typ='R',defaut= 0. ),
+             DP_MAXI         =SIMP(statut='f',typ='R',defaut= 0.1),
+             BETA            =SIMP(statut='f',typ='R',defaut=0.85),
+           ),
+           ROUSSELIER_FO   =FACT(statut='f',
+             D               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             SIGM_1          =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             PORO_INIT       =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             PORO_CRIT       =SIMP(statut='f',typ='R',defaut= 1. ),
+             PORO_ACCE       =SIMP(statut='f',typ='R',defaut= 1. ),
+             PORO_LIMI       =SIMP(statut='f',typ='R',defaut= 0.999 ),
+             D_SIGM_EPSI_NORM=SIMP(statut='f',typ='R',defaut= 1. ),
+             AN              =SIMP(statut='f',typ='R',defaut= 0. ),
+             DP_MAXI         =SIMP(statut='f',typ='R',defaut= 0.1),
+             BETA            =SIMP(statut='f',typ='R',defaut=0.85),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",) ),
+           ),
+           VISC_SINH      =FACT(statut='f',
+             SIGM_0          =SIMP(statut='o',typ='R'),
+             EPSI_0          =SIMP(statut='o',typ='R'),
+             M               =SIMP(statut='o',typ='R'),
+           ),
+           VISC_SINH_FO      =FACT(statut='f',
+             SIGM_0          =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             EPSI_0          =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             M               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",) ),
+           ),
+           CIN1_CHAB  =FACT(statut='f',
+             R_0             =SIMP(statut='o',typ='R'),
+             R_I             =SIMP(statut='f',typ='R'),
+             B               =SIMP(statut='f',typ='R',defaut= 0.0E+0),
+             C_I             =SIMP(statut='o',typ='R'),
+             K               =SIMP(statut='f',typ='R',defaut= 1.0E+0),
+             W               =SIMP(statut='f',typ='R',defaut= 0.0E+0),
+             G_0             =SIMP(statut='o',typ='R'),
+             A_I             =SIMP(statut='f',typ='R',defaut= 1.0E+0),
+           ),
+           CIN1_CHAB_FO  =FACT(statut='f',
+             R_0             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             R_I             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             B               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_I             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             K               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             W               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             G_0             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             A_I             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",)),
+           ),
+           CIN2_CHAB  =FACT(statut='f',
+             R_0             =SIMP(statut='o',typ='R'),
+             R_I             =SIMP(statut='f',typ='R'),
+             B               =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             C1_I            =SIMP(statut='o',typ='R'),
+             C2_I            =SIMP(statut='o',typ='R'),
+             K               =SIMP(statut='f',typ='R',defaut= 1.),
+             W               =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             G1_0            =SIMP(statut='o',typ='R'),
+             G2_0            =SIMP(statut='o',typ='R'),
+             A_I             =SIMP(statut='f',typ='R',defaut= 1.E+0 ),
+           ),
+           CIN2_CHAB_FO  =FACT(statut='f',
+             R_0             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             R_I             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             B               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C1_I            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C2_I            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             K               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             W               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             G1_0            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             G2_0            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             A_I             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",) ),
+           ),
+           MEMO_ECRO       =FACT(statut='f',
+             MU              =SIMP(statut='o',typ='R'),
+             Q_M             =SIMP(statut='o',typ='R'),
+             Q_0             =SIMP(statut='o',typ='R'),
+             ETA             =SIMP(statut='f',typ='R',defaut= 0.5E+0 ),
+           ),
+           MEMO_ECRO_FO        =FACT(statut='f',
+             MU              =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             Q_M             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             Q_0             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             ETA             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",) ),
+           ),
+           VISCOCHAB       =FACT(statut='f',
+             K_0             =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='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='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='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='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='f',typ='R',defaut= 1.E+0 ),
+           ),
+           VISCOCHAB_FO    =FACT(statut='f',
+             K_0             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             A_K             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             A_R             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             K               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             N               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             ALP             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             B               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             M_R             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             G_R             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MU              =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             Q_M             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             Q_0             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             QR_0            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             ETA             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C1              =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             M_1             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             D1              =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             G_X1            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             G1_0            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C2              =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             M_2             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             D2              =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             G_X2            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             G2_0            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             A_I             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",) ),
+           ),
+           LEMAITRE        =FACT(statut='f',
+             N               =SIMP(statut='o',typ='R'),
+             UN_SUR_K        =SIMP(statut='o',typ='R'),
+             UN_SUR_M        =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           ),
+           LEMAITRE_IRRA    =FACT(statut='f',
+             N               =SIMP(statut='o',typ='R'),
+             UN_SUR_K        =SIMP(statut='o',typ='R'),
+             UN_SUR_M        =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             QSR_K           =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             BETA            =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             PHI_ZERO        =SIMP(statut='f',typ='R',defaut= 1.E+20),
+             L               =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             GRAN_A          =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             GRAN_B          =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             GRAN_S          =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           ),
+           LMARC_IRRA       =FACT(statut='f',
+             DE_0            =SIMP(statut='o',typ='R'),
+             R_0             =SIMP(statut='o',typ='R'),
+             N               =SIMP(statut='o',typ='R'),
+             K               =SIMP(statut='o',typ='R'),
+             Y_I             =SIMP(statut='o',typ='R'),
+             Y_0             =SIMP(statut='o',typ='R'),
+             B               =SIMP(statut='o',typ='R'),
+             A_0             =SIMP(statut='o',typ='R'),
+             RM              =SIMP(statut='o',typ='R'),
+             M               =SIMP(statut='o',typ='R'),
+             P               =SIMP(statut='o',typ='R'),
+             P1              =SIMP(statut='o',typ='R'),
+             P2              =SIMP(statut='o',typ='R'),
+             M11             =SIMP(statut='o',typ='R'),
+             M22             =SIMP(statut='o',typ='R'),
+             M33             =SIMP(statut='o',typ='R'),
+             M66             =SIMP(statut='o',typ='R'),
+             N11             =SIMP(statut='o',typ='R'),
+             N22             =SIMP(statut='o',typ='R'),
+             N33             =SIMP(statut='o',typ='R'),
+             N66             =SIMP(statut='o',typ='R'),
+             Q11             =SIMP(statut='o',typ='R'),
+             Q22             =SIMP(statut='o',typ='R'),
+             Q33             =SIMP(statut='o',typ='R'),
+             Q66             =SIMP(statut='o',typ='R'),
+             R11             =SIMP(statut='o',typ='R'),
+             R22             =SIMP(statut='o',typ='R'),
+             R33             =SIMP(statut='o',typ='R'),
+             R66             =SIMP(statut='o',typ='R'),
+             GRAN_A          =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             GRAN_B          =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             GRAN_S          =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           ),
+          VISC_IRRA_LOG    =FACT(statut='f',
+             A               =SIMP(statut='f',typ='R',defaut= 1.28E-1),
+             B               =SIMP(statut='f',typ='R',defaut= 0.01159),
+             CSTE_TPS        =SIMP(statut='f',typ='R',defaut= 0.3540),
+             ENER_ACT        =SIMP(statut='f',typ='R',defaut= 5000.),
+             FLUX_PHI        =SIMP(statut='o',typ='R',),
+           ),
+          GRAN_IRRA_LOG    =FACT(statut='f',
+             A               =SIMP(statut='f',typ='R',defaut= 1.28E-1),
+             B               =SIMP(statut='f',typ='R',defaut= 0.01159),
+             CSTE_TPS        =SIMP(statut='f',typ='R',defaut= 0.3540),
+             ENER_ACT        =SIMP(statut='f',typ='R',defaut= 5000.),
+             FLUX_PHI        =SIMP(statut='o',typ='R',),
+             GRAN_A          =SIMP(statut='f',typ='R',defaut= 0.E+0),
+             GRAN_B          =SIMP(statut='f',typ='R',defaut= 0.E+0),
+             GRAN_S          =SIMP(statut='f',typ='R',defaut= 0.E+0),
+           ),
+          LEMA_SEUIL   =FACT(statut='f',
+             A               =SIMP(statut='o',typ='R',),
+             S               =SIMP(statut='o',typ='R',),
+           ),
+          LEMA_SEUIL_FO=FACT(statut='f',
+             A               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             S               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",) ),
+           ),
+         IRRAD3M=FACT(statut='f',
+               R02      =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+               EPSI_U   =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+               RM       =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+               AI0      =SIMP(statut='o',typ='R',val_min=0.0),
+               ZETA_F   =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+               ETAI_S   =SIMP(statut='o',typ='R',val_min=0.0),
+               RG0      =SIMP(statut='o',typ='R',val_min=0.0),
+               ALPHA    =SIMP(statut='o',typ='R',val_min=0.0),
+               PHI0     =SIMP(statut='o',typ='R',val_min=0.0),
+               KAPPA    =SIMP(statut='f',typ='R',val_min=0.0,defaut=0.8,val_max=1.0),
+               ZETA_G   =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+               TOLER_ET =SIMP(statut='c',typ='R',val_min=0.0,defaut=0.15 ),
+               VERI_P   =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP","IRRA") ),
+         ),
+           LEMAITRE_FO     =FACT(statut='f',
+             N               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             UN_SUR_K        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             UN_SUR_M        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",) ),
+           ),
+           LMARC           =FACT(statut='f',
+             DE_0            =SIMP(statut='o',typ='R'),
+             R_0             =SIMP(statut='o',typ='R'),
+             N               =SIMP(statut='o',typ='R'),
+             K               =SIMP(statut='o',typ='R'),
+             Y_I             =SIMP(statut='o',typ='R'),
+             Y_0             =SIMP(statut='o',typ='R'),
+             B               =SIMP(statut='o',typ='R'),
+             A_0             =SIMP(statut='o',typ='R'),
+             RM              =SIMP(statut='o',typ='R'),
+             M               =SIMP(statut='o',typ='R'),
+             P               =SIMP(statut='o',typ='R'),
+             P1              =SIMP(statut='o',typ='R'),
+             P2              =SIMP(statut='o',typ='R'),
+             M11             =SIMP(statut='o',typ='R'),
+             M22             =SIMP(statut='o',typ='R'),
+             M33             =SIMP(statut='o',typ='R'),
+             M66             =SIMP(statut='o',typ='R'),
+             N11             =SIMP(statut='o',typ='R'),
+             N22             =SIMP(statut='o',typ='R'),
+             N33             =SIMP(statut='o',typ='R'),
+             N66             =SIMP(statut='o',typ='R'),
+             Q11             =SIMP(statut='o',typ='R'),
+             Q22             =SIMP(statut='o',typ='R'),
+             Q33             =SIMP(statut='o',typ='R'),
+             Q66             =SIMP(statut='o',typ='R'),
+             R11             =SIMP(statut='o',typ='R'),
+             R22             =SIMP(statut='o',typ='R'),
+             R33             =SIMP(statut='o',typ='R'),
+             R66             =SIMP(statut='o',typ='R'),
+           ),
+           LMARC_FO        =FACT(statut='f',
+             DE_0            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             R_0             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             N               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             K               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             Y_I             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             Y_0             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             B               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             A_0             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             RM              =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             M               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             P               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             P1              =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             P2              =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             M11             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             M22             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             M33             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             M66             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             N11             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             N22             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             N33             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             N66             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             Q11             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             Q22             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             Q33             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             Q66             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             R11             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             R22             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             R33             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             R66             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",) ),
+           ),
+             META_LEMA_ANI     =FACT(statut='f',
+             F1_A            =SIMP(statut='o',typ='R'),
+             F2_A            =SIMP(statut='o',typ='R'),
+             C_A             =SIMP(statut='o',typ='R'),
+             F1_M            =SIMP(statut='o',typ='R'),
+             F2_M            =SIMP(statut='o',typ='R'),
+             C_M             =SIMP(statut='o',typ='R'),
+             F1_N            =SIMP(statut='o',typ='R'),
+             F2_N            =SIMP(statut='o',typ='R'),
+             C_N             =SIMP(statut='o',typ='R'),
+             F1_Q            =SIMP(statut='o',typ='R'),
+             F2_Q            =SIMP(statut='o',typ='R'),
+             C_Q             =SIMP(statut='o',typ='R'),
+             F_MRR_RR        =SIMP(statut='o',typ='R'),
+             C_MRR_RR        =SIMP(statut='o',typ='R'),
+             F_MTT_TT        =SIMP(statut='o',typ='R'),
+             C_MTT_TT        =SIMP(statut='o',typ='R'),
+             F_MZZ_ZZ        =SIMP(statut='o',typ='R'),
+             C_MZZ_ZZ        =SIMP(statut='o',typ='R'),
+             F_MRT_RT        =SIMP(statut='o',typ='R'),
+             C_MRT_RT        =SIMP(statut='o',typ='R'),
+             F_MRZ_RZ        =SIMP(statut='o',typ='R'),
+             C_MRZ_RZ        =SIMP(statut='o',typ='R'),
+             F_MTZ_TZ        =SIMP(statut='o',typ='R'),
+             C_MTZ_TZ        =SIMP(statut='o',typ='R'),
+           ),
+             META_LEMA_ANI_FO  =FACT(statut='f',
+             F1_A            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F2_A            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_A             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F1_M            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F2_M            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_M             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F1_N            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F2_N            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_N             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F1_Q            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F2_Q            =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_Q             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F_MRR_RR        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_MRR_RR        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F_MTT_TT        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_MTT_TT        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F_MZZ_ZZ        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_MZZ_ZZ        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F_MRT_RT        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_MRT_RT        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F_MRZ_RZ        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_MRZ_RZ        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F_MTZ_TZ        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_MTZ_TZ        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+           ),
+           VMIS_POUTRE     =FACT(statut='f',
+             NP              =SIMP(statut='o',typ='R'),
+             MEY             =SIMP(statut='o',typ='R'),
+             MPY             =SIMP(statut='o',typ='R'),
+             CAY             =SIMP(statut='o',typ='R'),
+             CBY             =SIMP(statut='o',typ='R'),
+             MEZ             =SIMP(statut='o',typ='R'),
+             MPZ             =SIMP(statut='o',typ='R'),
+             CAZ             =SIMP(statut='o',typ='R'),
+             CBZ             =SIMP(statut='o',typ='R'),
+             MPX             =SIMP(statut='o',typ='R'),
+           ),
+           VMIS_POUTRE_FO  =FACT(statut='f',
+             NP              =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MEY             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MPY             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             CAY             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             CBY             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MEZ             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MPZ             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             CAZ             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             CBZ             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             MPX             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",) ),
+           ),
+           ARME            =FACT(statut='f',
+             KYE             =SIMP(statut='o',typ='R'),
+             DLE             =SIMP(statut='o',typ='R'),
+             KYP             =SIMP(statut='o',typ='R'),
+             DLP             =SIMP(statut='o',typ='R'),
+             KYG             =SIMP(statut='o',typ='R'),
+           ),
+           ASSE_CORN       =FACT(statut='f',
+             NU_1            =SIMP(statut='o',typ='R'),
+             MU_1            =SIMP(statut='o',typ='R'),
+             DXU_1           =SIMP(statut='o',typ='R'),
+             DRYU_1          =SIMP(statut='o',typ='R'),
+             C_1             =SIMP(statut='o',typ='R'),
+             NU_2            =SIMP(statut='o',typ='R'),
+             MU_2            =SIMP(statut='o',typ='R'),
+             DXU_2           =SIMP(statut='o',typ='R'),
+             DRYU_2          =SIMP(statut='o',typ='R'),
+             C_2             =SIMP(statut='o',typ='R'),
+             KY              =SIMP(statut='o',typ='R'),
+             KZ              =SIMP(statut='o',typ='R'),
+             KRX             =SIMP(statut='o',typ='R'),
+             KRZ             =SIMP(statut='o',typ='R'),
+             R_P0            =SIMP(statut='f',typ='R',defaut= 1.E+4 ),
+           ),
+           DIS_CONTACT     =FACT(statut='f',
+             RIGI_NOR        =SIMP(statut='f',typ='R' ),
+             RIGI_TAN        =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             AMOR_NOR        =SIMP(statut='f',typ='R' ),
+             AMOR_TAN        =SIMP(statut='f',typ='R' ),
+             COULOMB         =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             DIST_1          =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             DIST_2          =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             JEU             =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           ),
+           DIS_GRICRA    =FACT(statut='f',
+             KN_AX       =SIMP(statut='o',typ='R' ),
+             KT_AX       =SIMP(statut='o',typ='R' ),
+             COUL_AX     =SIMP(statut='o',typ='R' ),
+             F_SER       =SIMP(statut='f',typ='R' ),
+             F_SER_FO    =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             ET_AX       =SIMP(statut='f',typ='R',defaut=1.e-7 ),
+             ET_ROT      =SIMP(statut='f',typ='R',defaut=1.e-7 ),
+             ANG1        =SIMP(statut='f',typ='R' ),
+             ANG2        =SIMP(statut='f',typ='R' ),
+             PEN1        =SIMP(statut='f',typ='R' ),
+             PEN2        =SIMP(statut='f',typ='R' ),
+             PEN3        =SIMP(statut='f',typ='R' ),
+             ANG1_FO     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             ANG2_FO     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             PEN1_FO     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             PEN2_FO     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             PEN3_FO     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             regles=(EXCLUS('ANG1','ANG1_FO',),
+                     UN_PARMI('ANG1','ANG1_FO',),
+                     EXCLUS('F_SER','F_SER_FO',),
+                     UN_PARMI('F_SER','F_SER_FO',),
+                     PRESENT_PRESENT('ANG1','ANG2','PEN1','PEN2','PEN3',),
+                     PRESENT_PRESENT('ANG1_FO','ANG2_FO','PEN1_FO','PEN2_FO','PEN3_FO',),
+                                     ),
+             VERI_P      =SIMP(statut='c',typ='TXM',max='**',defaut=("DRZ","INST","TEMP",) ),
+           ),
+           NADAI_B         =FACT(statut='f',
+             F_C             =SIMP(statut='o',typ='R',val_min=0.E+0),
+             F_T             =SIMP(statut='o',typ='R',val_min=0.E+0),
+             CRIT_E_C        =SIMP(statut='o',typ='R',val_min=0.E+0,val_max=1.E+0),
+             EPSP_P_C        =SIMP(statut='o',typ='R',val_min=0.E+0),
+             EPSP_R_C        =SIMP(statut='o',typ='R',val_min=0.E+0),
+             EPSI_R_T        =SIMP(statut='o',typ='R',val_min=0.E+0),
+             FAC_T_C         =SIMP(statut='o',typ='R',val_min=0.E+0,val_max=1.E+0),
+           ),
+           BETON_DOUBLE_DP =FACT(statut='f',
+             F_C             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F_T             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             COEF_BIAX       =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             ENER_COMP_RUPT  =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             ENER_TRAC_RUPT  =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             COEF_ELAS_COMP  =SIMP(statut='o',typ='R',val_min=0.E+0,val_max=100.E+0),
+             LONG_CARA       =SIMP(statut='f',typ='R',val_min=0.E+0),
+             ECRO_COMP_P_PIC =SIMP(statut='f',typ='TXM',defaut="LINEAIRE",into=("LINEAIRE","PARABOLE") ),
+             ECRO_TRAC_P_PIC =SIMP(statut='f',typ='TXM',defaut="LINEAIRE",into=("LINEAIRE","EXPONENT") ),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP","INST","HYDR","SECH",) ),
+           ),
+           LABORD_1D=FACT(statut='f',min=0 ,
+             Y01             =SIMP(statut='o',typ='R'),
+             Y02             =SIMP(statut='o',typ='R'),
+             A1              =SIMP(statut='o',typ='R'),
+             A2              =SIMP(statut='o',typ='R'),
+             B1              =SIMP(statut='o',typ='R'),
+             B2              =SIMP(statut='o',typ='R'),
+             BETA1           =SIMP(statut='o',typ='R'),
+             BETA2           =SIMP(statut='o',typ='R'),
+             SIGF            =SIMP(statut='o',typ='R'),
+           ),
+         MAZARS=FACT(statut='f',min=0 ,
+             EPSD0           =SIMP(statut='o',typ='R'),
+             BETA            =SIMP(statut='o',typ='R'),
+             AC              =SIMP(statut='o',typ='R'),
+             BC              =SIMP(statut='o',typ='R'),
+             AT              =SIMP(statut='o',typ='R'),
+             BT              =SIMP(statut='o',typ='R'),
+             CHI             =SIMP(statut='f',typ='R',val_min=0.0E+0,val_max=1.0E+0),
+           ),
+         MAZARS_FO=FACT(statut='f',min=0 ,
+             EPSD0           =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             BETA            =SIMP(statut='o',typ='R'),
+             AC              =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             BC              =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             AT              =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             BT              =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP","SECH","HYDR") ),
+             CHI             =SIMP(statut='f',typ='R'),
+           ),
+         JOINT_BA=FACT(statut='f',min=0 ,max=1,
+             HPEN            =SIMP(statut='o',typ='R',defaut= 1.E+0,val_min=0.E+0),
+             GTT             =SIMP(statut='o',typ='R',val_min=0.E+0),
+             GAMD0           =SIMP(statut='o',typ='R',val_min=1.E-4,val_max=1.E-1),
+             AD1             =SIMP(statut='o',typ='R',val_min=0.E+0),
+             BD1             =SIMP(statut='o',typ='R',defaut= 5.E-1,val_min=1.E-1),
+             GAMD2           =SIMP(statut='o',typ='R',val_min=1.E-4,val_max=1.E+0),
+             AD2             =SIMP(statut='o',typ='R',val_min=0.E+0),
+             BD2             =SIMP(statut='o',typ='R',defaut= 1.E+0,val_min=1.E-1),
+             VIFROT          =SIMP(statut='o',typ='R',val_min=0.E+0),
+             FA              =SIMP(statut='o',typ='R',val_min=0.E+0),
+             FC              =SIMP(statut='o',typ='R',val_min=0.E+0),
+             EPSTR0          =SIMP(statut='o',typ='R',val_min=1.E-4,val_max=1.E+0),
+             ADN             =SIMP(statut='o',typ='R',val_min=0.E+0),
+             BDN             =SIMP(statut='o',typ='R',defaut= 1.E+0,val_min=1.E-1),
+           ),
+          VENDOCHAB       =FACT(statut='f',
+             S               =SIMP(statut='o',typ='R',defaut= 0.E+0),
+             ALPHA_D         =SIMP(statut='o',typ='R',defaut= 0.E+0),
+             BETA_D          =SIMP(statut='o',typ='R',defaut= 0.E+0),
+             N               =SIMP(statut='o',typ='R'),
+             UN_SUR_M        =SIMP(statut='o',typ='R',defaut= 0.E+0),
+             UN_SUR_K        =SIMP(statut='o',typ='R'),
+             R_D             =SIMP(statut='o',typ='R'),
+             A_D             =SIMP(statut='o',typ='R'),
+             K_D             =SIMP(statut='o',typ='R'),
+           ),
+           VENDOCHAB_FO    =FACT(statut='f',
+             S               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             ALPHA_D         =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             BETA_D          =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             N               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             UN_SUR_M        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             UN_SUR_K        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             R_D             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             A_D             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             K_D             =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP","X",) ),
+           ),
+           PINTO_MENEGOTTO =FACT(statut='f',
+             SY              =SIMP(statut='o',typ='R'),
+             EPSI_ULTM       =SIMP(statut='o',typ='R'),
+             SIGM_ULTM       =SIMP(statut='o',typ='R'),
+             ELAN            =SIMP(statut='f',typ='R',defaut= 4. ),
+             EPSP_HARD       =SIMP(statut='o',typ='R'),
+             R_PM            =SIMP(statut='f',typ='R',defaut= 20. ),
+             EP_SUR_E        =SIMP(statut='f',typ='R'),
+             A1_PM           =SIMP(statut='f',typ='R',defaut= 18.5 ),
+             A2_PM           =SIMP(statut='f',typ='R',defaut= 0.15 ),
+             A6_PM           =SIMP(statut='f',typ='R',defaut= 620. ),
+             C_PM            =SIMP(statut='f',typ='R',defaut= 0.5 ),
+             A_PM            =SIMP(statut='f',typ='R',defaut= 6.0E-3 ),
+           ),
+           BPEL_BETON      =FACT(statut='f',
+             PERT_FLUA       =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             PERT_RETR       =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           ),
+           BPEL_ACIER      =FACT(statut='f',
+            regles=(PRESENT_PRESENT('RELAX_1000','F_PRG',),
+                     PRESENT_PRESENT('MU0_RELAX','F_PRG',),),
+             RELAX_1000      =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             MU0_RELAX       =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             F_PRG           =SIMP(statut='f',typ='R'),
+             FROT_COURB      =SIMP(statut='f',typ='R',defaut=0.E+0),
+             FROT_LINE       =SIMP(statut='f',typ='R',defaut=0.E+0),
+           ),
+           CAM_CLAY      =FACT(statut='f',
+             MU              =SIMP(statut='o',typ='R'),
+             PORO            =SIMP(statut='o',typ='R'),
+             LAMBDA          =SIMP(statut='o',typ='R'),
+             KAPA            =SIMP(statut='o',typ='R'),
+             M               =SIMP(statut='o',typ='R'),
+             PRES_CRIT       =SIMP(statut='o',typ='R'),
+             KCAM            =SIMP(statut='f',typ='R',val_min=0.E+0),
+             PTRAC           =SIMP(statut='f',typ='R',val_max=0.E+0),
+               regles=(PRESENT_PRESENT('PTRAC','KCAM',),),
+           ),
+           BARCELONE      =FACT(statut='f',
+             MU              =SIMP(statut='o',typ='R'),
+             PORO            =SIMP(statut='o',typ='R'),
+             LAMBDA          =SIMP(statut='o',typ='R'),
+             KAPA            =SIMP(statut='o',typ='R'),
+             M               =SIMP(statut='o',typ='R'),
+             PRES_CRIT       =SIMP(statut='o',typ='R'),
+             PA            =SIMP(statut='o',typ='R'),
+             R             =SIMP(statut='o',typ='R'),
+             BETA          =SIMP(statut='o',typ='R'),
+             KC            =SIMP(statut='o',typ='R'),
+             PC0_INIT      =SIMP(statut='o',typ='R'),
+             KAPAS         =SIMP(statut='o',typ='R'),
+             LAMBDAS       =SIMP(statut='o',typ='R'),
+             ALPHAB        =SIMP(statut='f',typ='R'),
+           ),
+           CJS             =FACT(statut='f',
+             BETA_CJS        =SIMP(statut='o',typ='R'),
+             RM              =SIMP(statut='o',typ='R'),
+             N_CJS           =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             KP              =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             RC              =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             A_CJS           =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             B_CJS           =SIMP(statut='f',typ='R',defaut= 1.0E+25 ),
+             C_CJS           =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             GAMMA_CJS       =SIMP(statut='o',typ='R'),
+             MU_CJS          =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             PCO             =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             PA              =SIMP(statut='o',typ='R'),
+             Q_INIT          =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+             R_INIT          =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           ),
+           HUJEUX   =FACT(statut='f',
+             N      =SIMP(statut='o',typ='R' ),
+             BETA   =SIMP(statut='o',typ='R' ),
+             B      =SIMP(statut='o',typ='R' ),
+             D      =SIMP(statut='o',typ='R' ),
+             PHI    =SIMP(statut='o',typ='R' ),
+             ANGDIL =SIMP(statut='o',typ='R' ),
+             PCO    =SIMP(statut='o',typ='R' ),
+             PREF   =SIMP(statut='o',typ='R' ),
+             ACYC   =SIMP(statut='o',typ='R' ),
+             AMON   =SIMP(statut='o',typ='R' ),
+             CCYC   =SIMP(statut='o',typ='R' ),
+             CMON   =SIMP(statut='o',typ='R' ),
+             RD_ELA =SIMP(statut='o',typ='R' ),
+             RI_ELA =SIMP(statut='o',typ='R' ),
+             RHYS   =SIMP(statut='o',typ='R' ),
+             RMOB   =SIMP(statut='o',typ='R' ),
+             XM     =SIMP(statut='o',typ='R' ),
+             RD_CYC =SIMP(statut='o',typ='R' ),
+             RI_CYC =SIMP(statut='o',typ='R' ),
+             DILA   =SIMP(statut='o',typ='R' ),
+             PTRAC  =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           ),
+           ECRO_ASYM_LINE  =FACT(statut='f',
+             DC_SIGM_EPSI    =SIMP(statut='o',typ='R'),
+             SY_C            =SIMP(statut='o',typ='R'),
+             DT_SIGM_EPSI    =SIMP(statut='o',typ='R'),
+             SY_T            =SIMP(statut='o',typ='R'),
+           ),
+           GRANGER_FP      =FACT(statut='f',
+             J1              =SIMP(statut='f',typ='R'),
+             J2              =SIMP(statut='f',typ='R'),
+             J3              =SIMP(statut='f',typ='R'),
+             J4              =SIMP(statut='f',typ='R'),
+             J5              =SIMP(statut='f',typ='R'),
+             J6              =SIMP(statut='f',typ='R'),
+             J7              =SIMP(statut='f',typ='R'),
+             J8              =SIMP(statut='f',typ='R'),
+             TAUX_1          =SIMP(statut='f',typ='R'),
+             TAUX_2          =SIMP(statut='f',typ='R'),
+             TAUX_3          =SIMP(statut='f',typ='R'),
+             TAUX_4          =SIMP(statut='f',typ='R'),
+             TAUX_5          =SIMP(statut='f',typ='R'),
+             TAUX_6          =SIMP(statut='f',typ='R'),
+             TAUX_7          =SIMP(statut='f',typ='R'),
+             TAUX_8          =SIMP(statut='f',typ='R'),
+             QSR_K           =SIMP(statut='f',typ='R'),
+           ),
+           GRANGER_FP_INDT =FACT(statut='f',
+             J1              =SIMP(statut='f',typ='R'),
+             J2              =SIMP(statut='f',typ='R'),
+             J3              =SIMP(statut='f',typ='R'),
+             J4              =SIMP(statut='f',typ='R'),
+             J5              =SIMP(statut='f',typ='R'),
+             J6              =SIMP(statut='f',typ='R'),
+             J7              =SIMP(statut='f',typ='R'),
+             J8              =SIMP(statut='f',typ='R'),
+             TAUX_1          =SIMP(statut='f',typ='R'),
+             TAUX_2          =SIMP(statut='f',typ='R'),
+             TAUX_3          =SIMP(statut='f',typ='R'),
+             TAUX_4          =SIMP(statut='f',typ='R'),
+             TAUX_5          =SIMP(statut='f',typ='R'),
+             TAUX_6          =SIMP(statut='f',typ='R'),
+             TAUX_7          =SIMP(statut='f',typ='R'),
+             TAUX_8          =SIMP(statut='f',typ='R'),
+           ),
+           V_GRANGER_FP    =FACT(statut='f',
+             QSR_VEIL        =SIMP(statut='f',typ='R'),
+             FONC_V          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("INST",) ),
+           ),
+           BETON_UMLV_FP   =FACT(statut='f',min=0 ,
+             K_RS            =SIMP(statut='o',typ='R'),
+             ETA_RS          =SIMP(statut='o',typ='R'),
+             K_IS            =SIMP(statut='o',typ='R'),
+             ETA_IS          =SIMP(statut='o',typ='R'),
+             K_RD            =SIMP(statut='o',typ='R'),
+             ETA_RD          =SIMP(statut='o',typ='R'),
+             ETA_ID          =SIMP(statut='o',typ='R'),
+             ETA_FD          =SIMP(statut='f',typ='R'),
+           ),
+           GLRC_DM         =FACT(statut='f',min=0,max=1,
+             GAMMA_T         =SIMP(statut='o',typ='R',val_min=0.E+0,val_max=1.E+0),
+             GAMMA_F         =SIMP(statut='o',typ='R',val_min=0.E+0,val_max=1.E+0),
+             SYT             =SIMP(statut='o',typ='R',val_min=0.E+0),
+             SYF             =SIMP(statut='o',typ='R',val_min=0.E+0),
+             EF              =SIMP(statut='f',typ='R',val_min=0.E+0),
+             NUF             =SIMP(statut='f',typ='R',val_min=0.E+0,val_max=0.5+0),
+           ),
+           GATT_MONERIE    =FACT(statut='f',min=0,max=1,
+             D_GRAIN         =SIMP(statut='o',typ='R',val_min=0.E+0),
+             PORO_INIT       =SIMP(statut='o',typ='R',val_min=0.E+0),
+             EPSI_01         =SIMP(statut='o',typ='R',defaut= 2.7252E-10,val_min=0.E+0),
+             EPSI_02         =SIMP(statut='o',typ='R',defaut= 9.1440E-41,val_min=0.E+0),
+           ),
+           CORR_ACIER   =FACT(statut='f',min=0 ,max=1,
+             D_CORR           =SIMP(statut='o',typ='R'),
+             ECRO_K           =SIMP(statut='o',typ='R'),
+             ECRO_M           =SIMP(statut='o',typ='R'),
+             SY              =SIMP(statut='o',typ='R'),
+             ),
+# Discrets non-linéaires : début
+         DIS_ECRO_CINE  =FACT(statut='f',
+            fr="Loi pour les discrets avec érouissage cinematique.",
+            regles=(PRESENT_PRESENT('LIMY_DX','KCIN_DX',),PRESENT_PRESENT('PUIS_DX','LIMU_DX',),
+                    PRESENT_PRESENT('LIMY_DY','KCIN_DY',),PRESENT_PRESENT('PUIS_DY','LIMU_DY',),
+                    PRESENT_PRESENT('LIMY_DZ','KCIN_DZ',),PRESENT_PRESENT('PUIS_DZ','LIMU_DZ',),
+                    PRESENT_PRESENT('LIMY_RX','KCIN_RX',),PRESENT_PRESENT('PUIS_RX','LIMU_RX',),
+                    PRESENT_PRESENT('LIMY_RY','KCIN_RY',),PRESENT_PRESENT('PUIS_RY','LIMU_RY',),
+                    PRESENT_PRESENT('LIMY_RZ','KCIN_RZ',),PRESENT_PRESENT('PUIS_RZ','LIMU_RZ',),),
+            LIMY_DX =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Effort limite élastique suivant l'axe local x de l'élément."),
+            LIMY_DY =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Effort limite élastique suivant l'axe local y de l'élément."),
+            LIMY_DZ =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Effort limite élastique suivant l'axe local z de l'élément."),
+            LIMY_RX =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Moment limite élastique suivant l'axe local x de l'élément."),
+            LIMY_RY =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Moment limite élastique suivant l'axe local y de l'élément."),
+            LIMY_RZ =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Moment limite élastique suivant l'axe local z de l'élément."),
+            KCIN_DX =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Raideur suivant l'axe local x de l'élément."),
+            KCIN_DY =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Raideur suivant l'axe local y de l'élément."),
+            KCIN_DZ =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Raideur suivant l'axe local z de l'élément."),
+            KCIN_RX =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Raideur suivant l'axe local Rx de l'élément."),
+            KCIN_RY =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Raideur suivant l'axe local Ry de l'élément."),
+            KCIN_RZ =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Raideur suivant l'axe local Rz de l'élément."),
+            LIMU_DX =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Effort limite suivant l'axe local x de l'élément."),
+            LIMU_DY =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Effort limite suivant l'axe local y de l'élément."),
+            LIMU_DZ =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Effort limite suivant l'axe local z de l'élément."),
+            LIMU_RX =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Moment limite suivant l'axe local x de l'élément."),
+            LIMU_RY =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Moment limite suivant l'axe local y de l'élément."),
+            LIMU_RZ =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Moment limite suivant l'axe local z de l'élément."),
+            PUIS_DX =SIMP(statut='f',typ='R',val_min = 1.0,
+               fr="Coefficient de non-linéarité suivant l'axe local x de l'élément."),
+            PUIS_DY =SIMP(statut='f',typ='R',val_min = 1.0,
+               fr="Coefficient de non-linéarité suivant l'axe local y de l'élément."),
+            PUIS_DZ =SIMP(statut='f',typ='R',val_min = 1.0,
+               fr="Coefficient de non-linéarité suivant l'axe local z de l'élément."),
+            PUIS_RX =SIMP(statut='f',typ='R',val_min = 1.0,
+               fr="Coefficient de non-linéarité suivant l'axe local Rx de l'élément."),
+            PUIS_RY =SIMP(statut='f',typ='R',val_min = 1.0,
+               fr="Coefficient de non-linéarité suivant l'axe local Ry de l'élément."),
+            PUIS_RZ =SIMP(statut='f',typ='R',val_min = 1.0,
+               fr="Coefficient de non-linéarité suivant l'axe local Rz de l'élément."),
+         ),
+         DIS_VISC  =FACT(statut='f',
+            fr="Loi pour un discret de type amortisseur visqueux.",
+            regles=(PRESENT_PRESENT('PUIS_DX','COEF_DX',),
+                    PRESENT_PRESENT('PUIS_DY','COEF_DY',),
+                    PRESENT_PRESENT('PUIS_DZ','COEF_DZ',),
+                    PRESENT_PRESENT('PUIS_RX','COEF_RX',),
+                    PRESENT_PRESENT('PUIS_RY','COEF_RY',),
+                    PRESENT_PRESENT('PUIS_RZ','COEF_RZ',),
+                    ),
+            PUIS_DX =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Puissance dans la direction locale Dx de l'élément."),
+            PUIS_DY =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Puissance dans la direction locale Dy de l'élément."),
+            PUIS_DZ =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Puissance dans la direction locale Dz de l'élément."),
+            PUIS_RX =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Puissance autour de la direction locale Rx de l'élément."),
+            PUIS_RY =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Puissance autour de la direction locale Ry de l'élément."),
+            PUIS_RZ =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Puissance autour de la direction locale Rz de l'élément."),
+            COEF_DX =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Coefficient C dans la direction locale Dx de l'élément."),
+            COEF_DY =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Coefficient C dans la direction locale Dy de l'élément."),
+            COEF_DZ =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Coefficient C dans la direction locale Dz de l'élément."),
+            COEF_RX =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Coefficient C autour de la direction locale Rx de l'élément."),
+            COEF_RY =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Coefficient C autour de la direction locale Ry de l'élément."),
+            COEF_RZ =SIMP(statut='f',typ='R',val_min = 0.0,
+               fr="Coefficient C autour de la direction locale Rz de l'élément."),
+         ),
+         DIS_BILI_ELAS  =FACT(statut='f',
+            fr="Loi bi-linéaire pour les discrets.",
+            regles=(PRESENT_PRESENT('KDEB_DX','KFIN_DX','FPRE_DX',),
+                    PRESENT_PRESENT('KDEB_DY','KFIN_DY','FPRE_DY',),
+                    PRESENT_PRESENT('KDEB_DZ','KFIN_DZ','FPRE_DZ',),),
+            KDEB_DX =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule),
+               fr="Raideur début suivant l'axe local x de l'élément."),
+            KDEB_DY =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule),
+               fr="Raideur début suivant l'axe local y de l'élément."),
+            KDEB_DZ =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule),
+               fr="Raideur début  suivant l'axe local z de l'élément."),
+            KFIN_DX =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule),
+               fr="Raideur fin l'axe local x de l'élément."),
+            KFIN_DY =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule),
+               fr="Raideur fin l'axe local y de l'élément."),
+            KFIN_DZ =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule),
+               fr="Raideur fin l'axe local z de l'élément."),
+            FPRE_DX =SIMP(statut='f',typ='R',
+               fr="Effort de préserrage suivant l'axe local x de l'élément."),
+            FPRE_DY =SIMP(statut='f',typ='R',
+               fr="Effort de préserrage suivant l'axe local y de l'élément."),
+            FPRE_DZ =SIMP(statut='f',typ='R',
+               fr="Effort de préserrage suivant l'axe local z de l'élément."),
+            VERI_P  =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",)),
+         ),
+# Discrets non-linéaires : fin
+#
+# comportement thermique
+#
+           THER_NL         =FACT(statut='f',
+             regles=(UN_PARMI('BETA','RHO_CP', ),),
+             LAMBDA          =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             BETA            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             RHO_CP          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",) ),
+           ),
+           THER_HYDR       =FACT(statut='f',
+             LAMBDA          =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             BETA            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             AFFINITE        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             CHALHYDR        =SIMP(statut='o',typ='R'),
+             QSR_K           =SIMP(statut='o',typ='R'),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("HYDR","TEMP",) ),
+           ),
+           THER            =FACT(statut='f',
+             LAMBDA          =SIMP(statut='o',typ='R'),
+             RHO_CP          =SIMP(statut='f',typ='R'),
+           ),
+           THER_FO         =FACT(statut='f',
+             LAMBDA          =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             RHO_CP          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("INST",) ),
+           ),
+           THER_ORTH       =FACT(statut='f',
+             LAMBDA_L        =SIMP(statut='o',typ='R'),
+             LAMBDA_T        =SIMP(statut='o',typ='R'),
+             LAMBDA_N        =SIMP(statut='f',typ='R'),
+             RHO_CP          =SIMP(statut='f',typ='R'),
+           ),
+           THER_COQUE      =FACT(statut='f',
+             COND_LMM        =SIMP(statut='o',typ='R'),
+             COND_TMM        =SIMP(statut='o',typ='R'),
+             COND_LMP        =SIMP(statut='o',typ='R'),
+             COND_TMP        =SIMP(statut='o',typ='R'),
+             COND_LPP        =SIMP(statut='o',typ='R'),
+             COND_TPP        =SIMP(statut='o',typ='R'),
+             COND_LSI        =SIMP(statut='o',typ='R'),
+             COND_TSI        =SIMP(statut='o',typ='R'),
+             COND_NMM        =SIMP(statut='o',typ='R'),
+             COND_NMP        =SIMP(statut='o',typ='R'),
+             COND_NPP        =SIMP(statut='o',typ='R'),
+             COND_NSI        =SIMP(statut='o',typ='R'),
+             CMAS_MM         =SIMP(statut='f',typ='R'),
+             CMAS_MP         =SIMP(statut='f',typ='R'),
+             CMAS_PP         =SIMP(statut='f',typ='R'),
+             CMAS_SI         =SIMP(statut='f',typ='R'),
+           ),
+           THER_COQUE_FO   =FACT(statut='f',
+             COND_LMM        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             COND_TMM        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             COND_LMP        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             COND_TMP        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             COND_LPP        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             COND_TPP        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             COND_LSI        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             COND_TSI        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             COND_NMM        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             COND_NMP        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             COND_NPP        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             COND_NSI        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             CMAS_MM         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             CMAS_MP         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             CMAS_PP         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             CMAS_SI         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+           ),
+           SECH_GRANGER    =FACT(statut='f',
+             A               =SIMP(statut='o',typ='R'),
+             B               =SIMP(statut='o',typ='R'),
+             QSR_K           =SIMP(statut='o',typ='R'),
+             TEMP_0_C        =SIMP(statut='o',typ='R'),
+           ),
+           SECH_MENSI      =FACT(statut='f',
+             A               =SIMP(statut='o',typ='R'),
+             B               =SIMP(statut='o',typ='R'),
+           ),
+           SECH_BAZANT     =FACT(statut='f',
+             D1              =SIMP(statut='o',typ='R'),
+             ALPHA_BAZANT    =SIMP(statut='o',typ='R'),
+             N               =SIMP(statut='o',typ='R'),
+             FONC_DESORP     =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",) ),
+           ),
+           SECH_NAPPE      =FACT(statut='f',
+             FONCTION        =SIMP(statut='o',typ=(nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP","TSEC",) ),
+           ),
+#
+# comportement métallurgique
+#
+           META_ACIER      =FACT(statut='f',
+             TRC             =SIMP(statut='o',typ=(table_sdaster) ),
+             AR3             =SIMP(statut='o',typ='R'),
+             ALPHA           =SIMP(statut='o',typ='R'),
+             MS0             =SIMP(statut='o',typ='R'),
+             AC1             =SIMP(statut='o',typ='R'),
+             AC3             =SIMP(statut='o',typ='R'),
+             TAUX_1          =SIMP(statut='o',typ='R'),
+             TAUX_3          =SIMP(statut='o',typ='R'),
+             LAMBDA0         =SIMP(statut='f',typ='R'),
+             QSR_K           =SIMP(statut='f',typ='R'),
+             D10             =SIMP(statut='f',typ='R'),
+             WSR_K           =SIMP(statut='f',typ='R'),
+           ),
+           META_ZIRC       =FACT(statut='f',
+             TDEQ            =SIMP(statut='o',typ='R'),
+             N               =SIMP(statut='o',typ='R'),
+             K               =SIMP(statut='o',typ='R'),
+             T1C             =SIMP(statut='o',typ='R'),
+             T2C             =SIMP(statut='o',typ='R'),
+             AC              =SIMP(statut='o',typ='R'),
+             M               =SIMP(statut='o',typ='R'),
+             QSR_K           =SIMP(statut='o',typ='R'),
+             T1R             =SIMP(statut='o',typ='R'),
+             T2R             =SIMP(statut='o',typ='R'),
+             AR              =SIMP(statut='o',typ='R'),
+             BR              =SIMP(statut='o',typ='R'),
+           ),
+           DURT_META       =FACT(statut='f',
+             F1_DURT         =SIMP(statut='o',typ='R'),
+             F2_DURT         =SIMP(statut='o',typ='R'),
+             F3_DURT         =SIMP(statut='o',typ='R'),
+             F4_DURT         =SIMP(statut='o',typ='R'),
+             C_DURT          =SIMP(statut='o',typ='R'),
+           ),
+           ELAS_META       =FACT(statut='f',
+             E               =SIMP(statut='o',typ='R'),
+             NU              =SIMP(statut='o',typ='R'),
+             F_ALPHA         =SIMP(statut='o',typ='R'),
+             C_ALPHA         =SIMP(statut='o',typ='R'),
+             PHASE_REFE      =SIMP(statut='o',typ='TXM',into=("CHAUD","FROID")),
+             EPSF_EPSC_TREF  =SIMP(statut='o',typ='R'),
+             PRECISION       =SIMP(statut='f',typ='R',defaut= 1.0E+0),
+             F1_SY           =SIMP(statut='f',typ='R'),
+             F2_SY           =SIMP(statut='f',typ='R'),
+             F3_SY           =SIMP(statut='f',typ='R'),
+             F4_SY           =SIMP(statut='f',typ='R'),
+             C_SY            =SIMP(statut='f',typ='R'),
+             SY_MELANGE      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F1_S_VP         =SIMP(statut='f',typ='R'),
+             F2_S_VP         =SIMP(statut='f',typ='R'),
+             F3_S_VP         =SIMP(statut='f',typ='R'),
+             F4_S_VP         =SIMP(statut='f',typ='R'),
+             C_S_VP          =SIMP(statut='f',typ='R' ),
+             S_VP_MELANGE    =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("META",)),
+           ),
+           ELAS_META_FO    =FACT(statut='f',
+             regles=(
+                      PRESENT_PRESENT('F_ALPHA','TEMP_DEF_ALPHA'),
+                      PRESENT_PRESENT('C_ALPHA','TEMP_DEF_ALPHA'),
+                    ),
+             E               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             NU              =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F_ALPHA         =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_ALPHA         =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             PHASE_REFE      =SIMP(statut='o',typ='TXM',into=("CHAUD","FROID")),
+             EPSF_EPSC_TREF  =SIMP(statut='o',typ='R'),
+             TEMP_DEF_ALPHA  =SIMP(statut='f',typ='R'),
+             PRECISION       =SIMP(statut='f',typ='R',defaut= 1.0E+0),
+             F1_SY           =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F2_SY           =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F3_SY           =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F4_SY           =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_SY            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             SY_MELANGE      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F1_S_VP         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F2_S_VP         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F3_S_VP         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F4_S_VP         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_S_VP          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             S_VP_MELANGE    =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP","META",)),
+           ),
+           META_ECRO_LINE  =FACT(statut='f',
+             F1_D_SIGM_EPSI  =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F2_D_SIGM_EPSI  =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F3_D_SIGM_EPSI  =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F4_D_SIGM_EPSI  =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_D_SIGM_EPSI   =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",)),
+           ),
+           META_TRACTION   =FACT(statut='f',
+             SIGM_F1         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             SIGM_F2         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             SIGM_F3         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             SIGM_F4         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             SIGM_C          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("EPSI","TEMP",)),
+           ),
+           META_VISC_FO    =FACT(statut='f',
+             F1_ETA          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F1_N            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F1_C            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F1_M            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F2_ETA          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F2_N            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F2_C            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F2_M            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F3_ETA          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F3_N            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F3_C            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F3_M            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F4_ETA          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F4_N            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F4_C            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F4_M            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_ETA           =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_N             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_C             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             C_M             =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",) ),
+           ),
+           META_PT         =FACT(statut='f',
+             F1_K            =SIMP(statut='f',typ='R'),
+             F2_K            =SIMP(statut='f',typ='R'),
+             F3_K            =SIMP(statut='f',typ='R'),
+             F4_K            =SIMP(statut='f',typ='R'),
+             F1_D_F_META     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F2_D_F_META     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F3_D_F_META     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             F4_D_F_META     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP","META",) ),
+           ),
+           META_RE         =FACT(statut='f',
+             C_F1_THETA      =SIMP(statut='f',typ='R'),
+             C_F2_THETA      =SIMP(statut='f',typ='R'),
+             C_F3_THETA      =SIMP(statut='f',typ='R'),
+             C_F4_THETA      =SIMP(statut='f',typ='R'),
+             F1_C_THETA      =SIMP(statut='f',typ='R'),
+             F2_C_THETA      =SIMP(statut='f',typ='R'),
+             F3_C_THETA      =SIMP(statut='f',typ='R'),
+             F4_C_THETA      =SIMP(statut='f',typ='R'),
+           ),
+#
+# comportement fluide
+#
+           FLUIDE          =FACT(statut='f',
+             regles=(EXCLUS('CELE_C','CELE_R'),),
+             RHO             =SIMP(statut='o',typ='R'),
+             CELE_C          =SIMP(statut='f',typ='C'),
+             CELE_R          =SIMP(statut='f',typ='R'),
+           ),
+# =================================================================================
+# COMPORTEMENT THERMO_HYDRO_MECANIQUE
+# LES DONNEES NECESSAIRES A LA DEFINITION DU MATERIAU SONT DEPENDANTES
+# DE LA LOI DE COUPLAGE THM DE LA RELATION
+# LE COMPORTEMENT DE COUPLAGE COMP_THM N EST VALABLE QUE POUR LES LOIS
+# DE COUPLAGE : LIQU_SATU,LIQU_GAZ,GAZ,LIQU_GAZ_ATM,LIQU_VAPE_GAZ,LIQU_VAPE
+# ET LIQU_AD_GAZ_VAPE
+# LA CORRESPONDANCE AVEC LES VARIABLES CACHEES EST LA SUIVANTE :
+# 1 -->  LIQU_SATU
+# 2 -->  GAZ
+# 3 -->  LIQU_VAPE
+# 4 -->  LIQU_VAPE_GAZ
+# 5 -->  LIQU_GAZ
+# 6 -->  LIQU_GAZ_ATM
+# 9 -->  LIQU_AD_GAZ_VAPE
+# =================================================================================
+           COMP_THM        = SIMP(statut='f', typ='TXM',
+                                  into = ( "LIQU_SATU"     ,
+                                           "LIQU_GAZ"      ,
+                                           "GAZ"           ,
+                                           "LIQU_GAZ_ATM"  ,
+                                           "LIQU_VAPE_GAZ" ,
+                                           "LIQU_VAPE"     ,
+                                           "LIQU_AD_GAZ_VAPE" ,
+                                          ) ),
+# =================================================================================
+# --- LOI DE COUPLAGE DE TYPE LIQU_SATU -------------------------------------------
+# =================================================================================
+# --- PRESENCE OBLIGATOIRE DES MOT-CLES SUIVANT : ---------------------------------
+# --- THM_INIT, THM_DIFFU, THM_LIQU -----------------------------------------------
+# =================================================================================
+           b_liqusatu      = BLOC(condition = "COMP_THM == 'LIQU_SATU' ",
+                                 fr="Paramètres nécessaires pour une loi de couplage de type LIQU_SATU",
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_INIT   = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           PRE1          = SIMP(statut='o',typ='R'),
+                                           PORO          = SIMP(statut='o',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           TEMP          = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES INUTILES   ----------------------------------------
+# ---------------------------------------------------------------------------------
+                                           PRE2          = SIMP(statut='f',typ='R'),
+                                           PRES_VAPE     = SIMP(statut='f',typ='R'),
+                                           DEGR_SATU     = SIMP(statut='f',typ='R'),
+                                           PRES_ATMO     = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEE CACHEE ---------------------------------------------
+# ---------------------------------------------------------------------------------
+                                           COMP_THM         = SIMP(statut='c',typ='R',defaut= 1.0,),
+                                             ),
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_DIFFU  = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           RHO           = SIMP(statut='o',typ='R'),
+                                           BIOT_COEF     = SIMP(statut='o',typ='R'),
+                                           PESA_X        = SIMP(statut='o',typ='R'),
+                                           PESA_Y        = SIMP(statut='o',typ='R'),
+                                           PESA_Z        = SIMP(statut='o',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           CP            = SIMP(statut='f',typ='R'),
+                                           PERM_IN       = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_END      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                                           regles = (EXCLUS('PERM_IN','PERM_END','PERMIN_X',),
+                                                            PRESENT_PRESENT('PERMIN_X','PERMIN_Y','PERMIN_Z',), ),
+                                           PERMIN_X      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERMIN_Y      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERMIN_Z      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_PHI    = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_PHI    = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_T      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_T      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_S      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_S      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_CT   = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES INUTILES   ----------------------------------------
+# ---------------------------------------------------------------------------------
+                                           R_GAZ         = SIMP(statut='f',typ='R'),
+                                           EMMAG           = SIMP(statut='f',typ='R'),
+                                           SATU_PRES       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_SATU_PRES     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_LIQU       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_PERM_LIQU_SATU=SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_GAZ        =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_PERM_SATU_GAZ =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_PERM_PRES_GAZ =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           SIGMA_T         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_SIGMA_T       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_G_INTR     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           CHAL_VAPO       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_T          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_PV         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_PG         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_S          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_FV_T           = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_FV_PG          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_T          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_PA         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_PL         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_S          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_FA_T           = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES CACHEES -------------------------------------------
+# ---------------------------------------------------------------------------------
+         VERI_P          =SIMP(statut='c',typ='TXM',defaut=("TEMP","SAT","PORO","PGAZ","PCAP","ENDO",) ),
+                                             ),
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_LIQU   = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           RHO           = SIMP(statut='o',typ='R'),
+                                           UN_SUR_K      = SIMP(statut='o',typ='R'),
+                                           VISC          = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_VISC_TEMP   = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           ALPHA         = SIMP(statut='f',typ='R'),
+                                           CP            = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES CACHEES -------------------------------------------
+# ---------------------------------------------------------------------------------
+                                           VERI_P        = SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+                                         ),
+# =================================================================================
+# --- MOT-CLE INUTILE -------------------------------------------------------------
+# =================================================================================
+           THM_GAZ         =FACT(statut='f',
+             MASS_MOL        =SIMP(statut='f',typ='R'),
+             CP              =SIMP(statut='f',typ='R'),
+             VISC            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             D_VISC_TEMP     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+           ),
+# =================================================================================
+# --- MOT-CLE INUTILE -------------------------------------------------------------
+# =================================================================================
+           THM_VAPE_GAZ    =FACT(statut='f',
+             MASS_MOL        =SIMP(statut='f',typ='R'),
+             CP              =SIMP(statut='f',typ='R'),
+             VISC            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             D_VISC_TEMP     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+           ),
+                                 ),
+# =================================================================================
+# --- LOI DE COUPLAGE DE TYPE LIQU_GAZ --------------------------------------------
+# =================================================================================
+# --- PRESENCE OBLIGATOIRE DES MOT-CLES SUIVANT : ---------------------------------
+# --- THM_INIT, THM_DIFFU, THM_LIQU, THM_GAZ --------------------------------------
+# =================================================================================
+           b_liqugaz      = BLOC(condition = "COMP_THM == 'LIQU_GAZ' ",
+                                 fr="Paramètres nécessaires pour une loi de couplage de type LIQU_GAZ",
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_INIT   = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           PRE1             = SIMP(statut='o',typ='R'),
+                                           PRE2             = SIMP(statut='o',typ='R'),
+                                           PORO             = SIMP(statut='o',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           TEMP             = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES INUTILES   ----------------------------------------
+# ---------------------------------------------------------------------------------
+                                           PRES_VAPE        = SIMP(statut='f',typ='R'),
+                                           DEGR_SATU        = SIMP(statut='f',typ='R'),
+                                           PRES_ATMO        = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEE CACHEE ---------------------------------------------
+# ---------------------------------------------------------------------------------
+                                           COMP_THM         = SIMP(statut='c',typ='R',defaut= 5.0,),
+                                             ),
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_DIFFU  = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           R_GAZ            = SIMP(statut='o',typ='R'),
+                                           RHO              = SIMP(statut='o',typ='R'),
+                                           BIOT_COEF        = SIMP(statut='o',typ='R'),
+                                           PESA_X           = SIMP(statut='o',typ='R'),
+                                           PESA_Y           = SIMP(statut='o',typ='R'),
+                                           PESA_Z           = SIMP(statut='o',typ='R'),
+                                           SATU_PRES        = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_SATU_PRES      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_LIQU        = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_PERM_LIQU_SATU = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_GAZ         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_PERM_SATU_GAZ  = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_PERM_PRES_GAZ  = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---Van Genhuchten et Muallen-----------------------------------------------------------------------------
+
+                                           VG_N    = SIMP(statut='f',typ='R'),
+                                           VG_SR    = SIMP(statut='f',typ='R'),
+                                           VG_PR   = SIMP(statut='f',typ='R'),
+                                           VG_SMAX = SIMP(statut='f',typ='R'),
+                                           VG_SATUR = SIMP(statut='f',typ='R'),
+#
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           CP               = SIMP(statut='f',typ='R'),
+                                           PERM_IN          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_END         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERMIN_X      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERMIN_Y      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERMIN_Z      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_PHI    = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_PHI    = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_T      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_T      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_S      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_S      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_CT   = SIMP(statut='f',typ='R'),
+#
+                                  regles = (EXCLUS('PERM_IN','PERM_END','PERMIN_X',),
+                                            PRESENT_PRESENT('PERMIN_X','PERMIN_Y','PERMIN_Z',),
+                                            ENSEMBLE('SATU_PRES','D_SATU_PRES','PERM_LIQU','D_PERM_LIQU_SATU',
+                                                            'PERM_GAZ','D_PERM_SATU_GAZ','D_PERM_PRES_GAZ',),
+                                            ENSEMBLE('VG_N','VG_SR','VG_PR','VG_SMAX','VG_SATUR',),
+                                            UN_PARMI('VG_N','SATU_PRES'),
+                                           ),
+
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES INUTILES   ----------------------------------------
+# ---------------------------------------------------------------------------------
+                                           EMMAG           = SIMP(statut='f',typ='R'),
+                                           SIGMA_T          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_SIGMA_T        = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_G_INTR      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           CHAL_VAPO        = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_T          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_PV         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_PG         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_S          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_FV_T           = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_FV_PG          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_T          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_PA         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_PL         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_S          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_FA_T           = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES CACHEES -------------------------------------------
+# ---------------------------------------------------------------------------------
+          VERI_P           = SIMP(statut='c',typ='TXM',defaut=("TEMP","SAT","PORO","PGAZ","PCAP","ENDO",) ),
+                                             ) ,
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_LIQU   = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           RHO              = SIMP(statut='o',typ='R'),
+                                           UN_SUR_K         = SIMP(statut='o',typ='R'),
+                                           VISC             = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_VISC_TEMP      = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           ALPHA            = SIMP(statut='f',typ='R'),
+                                           CP               = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES CACHEES -------------------------------------------
+# ---------------------------------------------------------------------------------
+                                           VERI_P           = SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+                                             ),
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_GAZ    = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           MASS_MOL        = SIMP(statut='o',typ='R'),
+                                           VISC            = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_VISC_TEMP     = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           CP              = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES CACHEES -------------------------------------------
+# ---------------------------------------------------------------------------------
+                                           VERI_P          = SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+                                             ),
+# =================================================================================
+# --- MOT-CLE INUTILE -------------------------------------------------------------
+# =================================================================================
+           THM_VAPE_GAZ    =FACT(statut='f',
+             MASS_MOL        =SIMP(statut='f',typ='R'),
+             CP              =SIMP(statut='f',typ='R'),
+             VISC            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             D_VISC_TEMP     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+           ),
+                                 ),
+# =================================================================================
+# --- LOI DE COUPLAGE DE TYPE GAZ -------------------------------------------------
+# =================================================================================
+# --- PRESENCE OBLIGATOIRE DES MOT-CLES SUIVANT : ---------------------------------
+# --- THM_INIT, THM_DIFFU, THM_GAZ ------------------------------------------------
+# =================================================================================
+           b_gaz          = BLOC(condition = "COMP_THM == 'GAZ' ",
+                                 fr="Paramètres nécessaires pour une loi de couplage de type GAZ",
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_INIT   = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           TEMP             = SIMP(statut='o',typ='R'),
+                                           PRE1             = SIMP(statut='o',typ='R'),
+                                           PORO             = SIMP(statut='o',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES INUTILES   ----------------------------------------
+# ---------------------------------------------------------------------------------
+                                           PRE2             = SIMP(statut='f',typ='R'),
+                                           PRES_VAPE        = SIMP(statut='f',typ='R'),
+                                           DEGR_SATU        = SIMP(statut='f',typ='R'),
+                                           PRES_ATMO        = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEE CACHEE ---------------------------------------------
+# ---------------------------------------------------------------------------------
+                                           COMP_THM         = SIMP(statut='c',typ='R',defaut= 2.0,),
+                                             ),
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_DIFFU  = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           R_GAZ            = SIMP(statut='o',typ='R'),
+                                           RHO              = SIMP(statut='o',typ='R'),
+                                           BIOT_COEF        = SIMP(statut='o',typ='R'),
+                                           PESA_X           = SIMP(statut='o',typ='R'),
+                                           PESA_Y           = SIMP(statut='o',typ='R'),
+                                           PESA_Z           = SIMP(statut='o',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           CP               = SIMP(statut='f',typ='R'),
+                                           PERM_IN          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_END         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                                           regles = (EXCLUS('PERM_IN','PERM_END','PERMIN_X',),
+                                                            PRESENT_PRESENT('PERMIN_X','PERMIN_Y','PERMIN_Z',), ),
+                                           PERMIN_X      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERMIN_Y      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERMIN_Z      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_PHI    = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_PHI    = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_T      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_T      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_S      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_S      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_CT   = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES INUTILES   ----------------------------------------
+# ---------------------------------------------------------------------------------
+                                           EMMAG           = SIMP(statut='f',typ='R'),
+                                           SATU_PRES       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_SATU_PRES     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_LIQU       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_PERM_LIQU_SATU=SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_GAZ        =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_PERM_SATU_GAZ =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_PERM_PRES_GAZ =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           SIGMA_T         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_SIGMA_T       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_G_INTR     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           CHAL_VAPO       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_T          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_PV         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_PG         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_S          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_FV_T           = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_FV_PG          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_T          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_PA         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_PL         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_S          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_FA_T           = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES CACHEES -------------------------------------------
+# ---------------------------------------------------------------------------------
+            VERI_P          =SIMP(statut='c',typ='TXM',defaut=("TEMP","SAT","PORO","PGAZ","PCAP","ENDO",) ),
+                                             ) ,
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_GAZ    = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           MASS_MOL         = SIMP(statut='o',typ='R'),
+                                           VISC             = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_VISC_TEMP      = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           CP               = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES CACHEES -------------------------------------------
+# ---------------------------------------------------------------------------------
+                                           VERI_P           = SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+                                             ),
+# =================================================================================
+# --- MOT-CLE INUTILE -------------------------------------------------------------
+# =================================================================================
+           THM_LIQU        =FACT(statut='f',
+             RHO             =SIMP(statut='f',typ='R'),
+             UN_SUR_K        =SIMP(statut='f',typ='R'),
+             ALPHA           =SIMP(statut='f',typ='R'),
+             CP              =SIMP(statut='f',typ='R'),
+             VISC            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             D_VISC_TEMP     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             COEF_HENRY      =SIMP(statut='f',typ='R'),
+             VERI_P          =SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+           ),
+# =================================================================================
+# --- MOT-CLE INUTILE -------------------------------------------------------------
+# =================================================================================
+           THM_VAPE_GAZ    =FACT(statut='f',
+             MASS_MOL        =SIMP(statut='f',typ='R'),
+             CP              =SIMP(statut='f',typ='R'),
+             VISC            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             D_VISC_TEMP     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+           ),
+                                 ),
+# =================================================================================
+# --- LOI DE COUPLAGE DE TYPE LIQU_GAZ_ATM ----------------------------------------
+# =================================================================================
+# --- PRESENCE OBLIGATOIRE DES MOT-CLES SUIVANT : ---------------------------------
+# --- THM_INIT, THM_DIFFU, THM_LIQU, THM_GAZ --------------------------------------
+# =================================================================================
+           b_liqugazatm   = BLOC(condition = "COMP_THM == 'LIQU_GAZ_ATM' ",
+                                 fr="Paramètres nécessaires pour une loi de couplage de type LIQU_GAZ_ATM",
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_INIT   = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           PRE1             = SIMP(statut='o',typ='R'),
+                                           PORO             = SIMP(statut='o',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           TEMP             = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES INUTILES   ----------------------------------------
+# ---------------------------------------------------------------------------------
+                                           PRE2             = SIMP(statut='f',typ='R'),
+                                           PRES_VAPE        = SIMP(statut='f',typ='R'),
+                                           DEGR_SATU        = SIMP(statut='f',typ='R'),
+                                           PRES_ATMO        = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEE CACHEE ---------------------------------------------
+# ---------------------------------------------------------------------------------
+                                           COMP_THM         = SIMP(statut='c',typ='R',defaut= 6.0,),
+                                             ),
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_DIFFU  = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           RHO              = SIMP(statut='o',typ='R'),
+                                           BIOT_COEF        = SIMP(statut='o',typ='R'),
+                                           PESA_X           = SIMP(statut='o',typ='R'),
+                                           PESA_Y           = SIMP(statut='o',typ='R'),
+                                           PESA_Z           = SIMP(statut='o',typ='R'),
+                                           SATU_PRES        = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_SATU_PRES      = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_LIQU        = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_PERM_LIQU_SATU = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           CP               = SIMP(statut='f',typ='R'),
+                                           PERM_IN          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_END         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                                           regles = (EXCLUS('PERM_IN','PERM_END','PERMIN_X',),
+                                                            PRESENT_PRESENT('PERMIN_X','PERMIN_Y','PERMIN_Z',), ),
+                                           PERMIN_X      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERMIN_Y      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERMIN_Z      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_PHI    = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_PHI    = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_T      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_T      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_S      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_S      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_CT   = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES INUTILES   ----------------------------------------
+# ---------------------------------------------------------------------------------
+             EMMAG           = SIMP(statut='f',typ='R'),
+             R_GAZ           =SIMP(statut='f',typ='R'),
+             PERM_GAZ        =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             D_PERM_SATU_GAZ =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             D_PERM_PRES_GAZ =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             SIGMA_T         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             D_SIGMA_T       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             PERM_G_INTR     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             CHAL_VAPO       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             FICKV_T          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             FICKV_PV         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             FICKV_PG         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             FICKV_S          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             D_FV_T           = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             D_FV_PG          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             FICKA_T          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             FICKA_PA         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             FICKA_PL         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             FICKA_S          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             D_FA_T           = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES CACHEES -------------------------------------------
+# ---------------------------------------------------------------------------------
+             VERI_P          =SIMP(statut='c',typ='TXM',defaut=("TEMP","SAT","PORO","PGAZ","PCAP","ENDO",) ),
+                                             ) ,
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_LIQU   = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           RHO              = SIMP(statut='o',typ='R'),
+                                           UN_SUR_K         = SIMP(statut='o',typ='R'),
+                                           VISC             = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_VISC_TEMP      = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           ALPHA            = SIMP(statut='f',typ='R'),
+                                           CP               = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES CACHEES -------------------------------------------
+# ---------------------------------------------------------------------------------
+                                           VERI_P           = SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+                                             ),
+# =================================================================================
+# --- MOT-CLE INUTILE -------------------------------------------------------------
+# =================================================================================
+                             THM_GAZ    = FACT(statut='f',
+                                           MASS_MOL         = SIMP(statut='f',typ='R'),
+                                           VISC             = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_VISC_TEMP      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           CP               = SIMP(statut='f',typ='R'),
+                                           VERI_P           = SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+                                             ),
+# =================================================================================
+# --- MOT-CLE INUTILE -------------------------------------------------------------
+# =================================================================================
+           THM_VAPE_GAZ    =FACT(statut='f',
+             MASS_MOL        =SIMP(statut='f',typ='R'),
+             CP              =SIMP(statut='f',typ='R'),
+             VISC            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             D_VISC_TEMP     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+           ),
+                                 ),
+# =================================================================================
+# --- LOI DE COUPLAGE DE TYPE LIQU_VAPE_GAZ ---------------------------------------
+# =================================================================================
+# --- PRESENCE OBLIGATOIRE DES MOT-CLES SUIVANT : ---------------------------------
+# --- THM_INIT, THM_DIFFU, THM_LIQU, THM_GAZ, THM_VAPE_GAZ ------------------------
+# =================================================================================
+           b_liquvapegaz  = BLOC(condition = "COMP_THM == 'LIQU_VAPE_GAZ' ",
+                                 fr="Paramètres nécessaires pour une loi de couplage de type LIQU_VAPE_GAZ",
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_INIT   = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           PRE1             = SIMP(statut='o',typ='R'),
+                                           PRE2             = SIMP(statut='o',typ='R'),
+                                           PORO             = SIMP(statut='o',typ='R'),
+                                           PRES_VAPE        = SIMP(statut='o',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           TEMP             = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES INUTILES   ----------------------------------------
+# ---------------------------------------------------------------------------------
+                                           DEGR_SATU        = SIMP(statut='f',typ='R'),
+                                           PRES_ATMO        = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEE CACHEE ---------------------------------------------
+# ---------------------------------------------------------------------------------
+                                           COMP_THM         = SIMP(statut='c',typ='R',defaut= 4.0,),
+                                             ),
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_DIFFU  = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           R_GAZ            = SIMP(statut='o',typ='R'),
+                                           RHO              = SIMP(statut='o',typ='R'),
+                                           BIOT_COEF        = SIMP(statut='o',typ='R'),
+                                           PESA_X           = SIMP(statut='o',typ='R'),
+                                           PESA_Y           = SIMP(statut='o',typ='R'),
+                                           PESA_Z           = SIMP(statut='o',typ='R'),
+                                           SATU_PRES        = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_SATU_PRES      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_LIQU        = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_PERM_LIQU_SATU = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_GAZ         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_PERM_SATU_GAZ  = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_PERM_PRES_GAZ  = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---Van Genhuchten et Muallen-----------------------------------------------------------------------------
+
+                                           VG_N     = SIMP(statut='f',typ='R'),
+                                           VG_SR    = SIMP(statut='f',typ='R'),
+                                           VG_PR    = SIMP(statut='f',typ='R'),
+                                           VG_SMAX  = SIMP(statut='f',typ='R'),
+                                           VG_SATUR = SIMP(statut='f',typ='R'),
+#
+                                           FICKV_T          = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           CP               = SIMP(statut='f',typ='R'),
+                                           PERM_IN          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_END         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERMIN_X      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERMIN_Y      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERMIN_Z      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_PHI    = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_PHI    = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_T      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_T      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_S      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_S      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_CT   = SIMP(statut='f',typ='R'),
+#
+                                  regles = (EXCLUS('PERM_IN','PERM_END','PERMIN_X',),
+                                            PRESENT_PRESENT('PERMIN_X','PERMIN_Y','PERMIN_Z',),
+                                            ENSEMBLE('SATU_PRES','D_SATU_PRES','PERM_LIQU','D_PERM_LIQU_SATU',
+                                                            'PERM_GAZ','D_PERM_SATU_GAZ','D_PERM_PRES_GAZ',),
+                                            ENSEMBLE('VG_N','VG_SR','VG_PR','VG_SMAX','VG_SATUR',),
+                                            UN_PARMI('VG_N','SATU_PRES'),
+                                           ),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES FACULTATIVE   ----------------------------------
+# ---------------------------------------------------------------------------------
+                                           EMMAG            = SIMP(statut='f',typ='R'),
+                                           SIGMA_T          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_SIGMA_T        = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_G_INTR      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           CHAL_VAPO        = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_PV         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_PG         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_S          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_FV_T           = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_FV_PG          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES INUTILES   ----------------------------------------
+# ---------------------------------------------------------------------------------
+                                           FICKA_T          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_PA         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_PL         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_S          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_FA_T           = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES CACHEES -------------------------------------------
+# ---------------------------------------------------------------------------------
+         VERI_P           = SIMP(statut='c',typ='TXM',defaut=("TEMP","SAT" ,"PORO","PGAZ","PCAP","ENDO","PVAP","PLIQ","PAD",) ),
+                                             ) ,
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_LIQU   = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           RHO              = SIMP(statut='o',typ='R'),
+                                           UN_SUR_K         = SIMP(statut='o',typ='R'),
+                                           VISC             = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_VISC_TEMP      = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           ALPHA            = SIMP(statut='f',typ='R'),
+                                           CP               = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES CACHEES -------------------------------------------
+# ---------------------------------------------------------------------------------
+                                           VERI_P           = SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+                                             ),
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_GAZ    = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           MASS_MOL         = SIMP(statut='o',typ='R'),
+                                           VISC             = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_VISC_TEMP      = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           CP               = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES CACHEES -------------------------------------------
+# ---------------------------------------------------------------------------------
+                                           VERI_P           = SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+                                             ),
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_VAPE_GAZ = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           MASS_MOL         = SIMP(statut='o',typ='R'),
+                                           CP               = SIMP(statut='o',typ='R'),
+                                           VISC             = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_VISC_TEMP      = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES CACHEES -------------------------------------------
+# ---------------------------------------------------------------------------------
+                                           VERI_P           = SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+                                             ),
+                                 ),
+# =================================================================================
+# --- LOI DE COUPLAGE DE TYPE LIQU_AD_GAZ_VAPE -------------------------------------
+# =================================================================================
+# --- PRESENCE OBLIGATOIRE DES MOT-CLES SUIVANT : ---------------------------------
+# --- THM_INIT, THM_DIFFU, THM_LIQU, THM_GAZ, THM_VAPE_GAZ THM_AIR_DISSOUS---------
+# =================================================================================
+           b_liquadvape  = BLOC(condition = "COMP_THM == 'LIQU_AD_GAZ_VAPE' ",
+                                 fr="Paramètres nécessaires pour une loi de couplage de type LIQU_AD_GAZ_VAPE",
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_INIT   = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           PRE1             = SIMP(statut='o',typ='R'),
+                                           PRE2             = SIMP(statut='o',typ='R'),
+                                           PORO             = SIMP(statut='o',typ='R'),
+                                           PRES_VAPE        = SIMP(statut='o',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           TEMP             = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES INUTILES   ----------------------------------------
+# ---------------------------------------------------------------------------------
+                                           DEGR_SATU        = SIMP(statut='f',typ='R'),
+                                           PRES_ATMO        = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEE CACHEE ---------------------------------------------
+# ---------------------------------------------------------------------------------
+                                           COMP_THM         = SIMP(statut='c',typ='R',defaut= 9.0,),
+                                             ),
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_DIFFU  = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           R_GAZ            = SIMP(statut='o',typ='R'),
+                                           RHO              = SIMP(statut='o',typ='R'),
+                                           BIOT_COEF        = SIMP(statut='o',typ='R'),
+                                           PESA_X           = SIMP(statut='o',typ='R'),
+                                           PESA_Y           = SIMP(statut='o',typ='R'),
+                                           PESA_Z           = SIMP(statut='o',typ='R'),
+                                           SATU_PRES        = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_SATU_PRES      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_LIQU        = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_PERM_LIQU_SATU = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_GAZ         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_PERM_SATU_GAZ  = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_PERM_PRES_GAZ  = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---Van Genhuchten et Muallen-----------------------------------------------------------------------------
+                                           VG_N     = SIMP(statut='f',typ='R'),
+                                           VG_SR    = SIMP(statut='f',typ='R'),
+                                           VG_PR    = SIMP(statut='f',typ='R'),
+                                           VG_SMAX  = SIMP(statut='f',typ='R'),
+                                           VG_SATUR = SIMP(statut='f',typ='R'),
+#
+                                           FICKV_T          = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_T          = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           CP               = SIMP(statut='f',typ='R'),
+                                           PERM_IN          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_END         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERMIN_X      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERMIN_Y      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERMIN_Z      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_PHI    = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_PHI    = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_T      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_T      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_S      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_S      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_CT   = SIMP(statut='f',typ='R'),
+#
+                                  regles = (EXCLUS('PERM_IN','PERM_END','PERMIN_X',),
+                                            PRESENT_PRESENT('PERMIN_X','PERMIN_Y','PERMIN_Z',),
+                                            ENSEMBLE('SATU_PRES','D_SATU_PRES','PERM_LIQU','D_PERM_LIQU_SATU',
+                                                            'PERM_GAZ','D_PERM_SATU_GAZ','D_PERM_PRES_GAZ',),
+                                            ENSEMBLE('VG_N','VG_SR','VG_PR','VG_SMAX','VG_SATUR',),
+                                            UN_PARMI('VG_N','SATU_PRES'),
+                                           ),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES FACULTATIVES   ------------------------------------
+# ---------------------------------------------------------------------------------
+                                           EMMAG            = SIMP(statut='f',typ='R'),
+                                           SIGMA_T          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_SIGMA_T        = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_G_INTR      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           CHAL_VAPO        = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_PV         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_PG         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_S          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_FV_T          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_FV_PG          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+#
+                                           FICKA_PA         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_PL         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_S          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_FA_T          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES CACHEES -------------------------------------------
+# ---------------------------------------------------------------------------------
+         VERI_P           = SIMP(statut='c',typ='TXM',defaut=("TEMP","SAT","PORO","PGAZ","PCAP","ENDO","PVAP","PLIQ","PAD",) ),
+                                             ) ,
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_LIQU   = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           RHO              = SIMP(statut='o',typ='R'),
+                                           UN_SUR_K         = SIMP(statut='o',typ='R'),
+                                           VISC             = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_VISC_TEMP      = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           ALPHA            = SIMP(statut='f',typ='R'),
+                                           CP               = SIMP(statut='f',typ='R'),
+                                           LAMB_PHI    = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_PHI = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_T    = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_T = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_CT        = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES CACHEES -------------------------------------------
+# ---------------------------------------------------------------------------------
+                                           VERI_P           = SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+                                             ),
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_GAZ    = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           MASS_MOL         = SIMP(statut='o',typ='R'),
+                                           VISC             = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_VISC_TEMP      = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           CP               = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES CACHEES -------------------------------------------
+# ---------------------------------------------------------------------------------
+                                           VERI_P           = SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+                                             ),
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_VAPE_GAZ = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           MASS_MOL         = SIMP(statut='o',typ='R'),
+                                           CP               = SIMP(statut='o',typ='R'),
+                                           VISC             = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_VISC_TEMP      = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES CACHEES -------------------------------------------
+# ---------------------------------------------------------------------------------
+                                           VERI_P           = SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+                                             ),
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_AIR_DISS = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           CP               = SIMP(statut='o',typ='R'),
+                                           COEF_HENRY       = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           VERI_P      = SIMP(statut='c',typ='TXM',defaut=("TEMP",),),
+                                             ),
+                                 ),
+# =================================================================================
+# --- LOI DE COUPLAGE DE TYPE LIQU_VAPE -------------------------------------------
+# =================================================================================
+# --- PRESENCE OBLIGATOIRE DES MOT-CLES SUIVANT : ---------------------------------
+# --- THM_INIT, THM_DIFFU, THM_LIQU, THM_VAPE_GAZ ---------------------------------
+# =================================================================================
+           b_liquvape  = BLOC(condition = "COMP_THM == 'LIQU_VAPE' ",
+                                 fr="Paramètres nécessaires pour une loi de couplage de type LIQU_VAPE",
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_INIT   = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           PRE1             = SIMP(statut='o',typ='R'),
+                                           PORO             = SIMP(statut='o',typ='R'),
+                                           PRES_VAPE        = SIMP(statut='o',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           TEMP             = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES INUTILES   ----------------------------------------
+# ---------------------------------------------------------------------------------
+                                           PRE2             = SIMP(statut='f',typ='R'),
+                                           DEGR_SATU        = SIMP(statut='f',typ='R'),
+                                           PRES_ATMO        = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEE CACHEE ---------------------------------------------
+# ---------------------------------------------------------------------------------
+                                           COMP_THM         = SIMP(statut='c',typ='R',defaut= 3.0,),
+                                             ),
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_DIFFU  = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           R_GAZ            = SIMP(statut='o',typ='R'),
+                                           RHO              = SIMP(statut='o',typ='R'),
+                                           BIOT_COEF        = SIMP(statut='o',typ='R'),
+                                           PESA_X           = SIMP(statut='o',typ='R'),
+                                           PESA_Y           = SIMP(statut='o',typ='R'),
+                                           PESA_Z           = SIMP(statut='o',typ='R'),
+                                           SATU_PRES        = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_SATU_PRES      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_LIQU        = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_PERM_LIQU_SATU = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_GAZ         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_PERM_SATU_GAZ  = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_PERM_PRES_GAZ  = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---Van Genhuchten et Muallen-----------------------------------------------------------------------------
+
+                                           VG_N    = SIMP(statut='f',typ='R'),
+                                           VG_SR    = SIMP(statut='f',typ='R'),
+                                           VG_PR   = SIMP(statut='f',typ='R'),
+                                           VG_SMAX = SIMP(statut='f',typ='R'),
+                                           VG_SATUR = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           CP               = SIMP(statut='f',typ='R'),
+                                           PERM_IN          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_END         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERMIN_X      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERMIN_Y      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERMIN_Z      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_PHI    = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_PHI    = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_T      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_T      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_S      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_LB_S      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           LAMB_CT   = SIMP(statut='f',typ='R'),
+#
+                                  regles = (EXCLUS('PERM_IN','PERM_END','PERMIN_X',),
+                                            PRESENT_PRESENT('PERMIN_X','PERMIN_Y','PERMIN_Z',),
+                                            ENSEMBLE('SATU_PRES','D_SATU_PRES','PERM_LIQU','D_PERM_LIQU_SATU',
+                                                            'PERM_GAZ','D_PERM_SATU_GAZ','D_PERM_PRES_GAZ',),
+                                            ENSEMBLE('VG_N','VG_SR','VG_PR','VG_SMAX','VG_SATUR',),
+                                            UN_PARMI('VG_N','SATU_PRES'),
+                                           ),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES INUTILES   ----------------------------------------
+# ---------------------------------------------------------------------------------
+                                           EMMAG            = SIMP(statut='f',typ='R'),
+                                           SIGMA_T          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_SIGMA_T        = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           PERM_G_INTR      = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           CHAL_VAPO        = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_T          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_PV         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_PG         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKV_S          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_FV_T           = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_FV_PG          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_T          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_PA         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_PL         = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           FICKA_S          = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_FA_T           = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES CACHEES -------------------------------------------
+# ---------------------------------------------------------------------------------
+            VERI_P           = SIMP(statut='c',typ='TXM',defaut=("TEMP","SAT","PORO","PGAZ","PCAP","ENDO",) ),
+                                             ) ,
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_LIQU   = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           RHO              = SIMP(statut='o',typ='R'),
+                                           UN_SUR_K         = SIMP(statut='o',typ='R'),
+                                           VISC             = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_VISC_TEMP      = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES NECESSAIRE SI THERMIQUE   -------------------------
+# ---------------------------------------------------------------------------------
+                                           ALPHA            = SIMP(statut='f',typ='R'),
+                                           CP               = SIMP(statut='f',typ='R'),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES CACHEES ---------------------------------------------
+# ---------------------------------------------------------------------------------
+                                           VERI_P           = SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+                                             ),
+# =================================================================================
+# --- MOT-CLE OBLIGATOIRE ---------------------------------------------------------
+# =================================================================================
+                             THM_VAPE_GAZ = FACT(statut='o',
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES OBLIGATOIRE   -------------------------------------
+# ---------------------------------------------------------------------------------
+                                           MASS_MOL         = SIMP(statut='o',typ='R'),
+                                           CP               = SIMP(statut='o',typ='R'),
+                                           VISC             = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                           D_VISC_TEMP      = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+# ---------------------------------------------------------------------------------
+# -------------------   DONNEES CACHEES -------------------------------------------
+# ---------------------------------------------------------------------------------
+                                           VERI_P           = SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+                                             ),
+# =================================================================================
+# --- MOT-CLE INUTILE -------------------------------------------------------------
+# =================================================================================
+           THM_GAZ         =FACT(statut='f',
+             MASS_MOL        =SIMP(statut='f',typ='R'),
+             CP              =SIMP(statut='f',typ='R'),
+             VISC            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             D_VISC_TEMP     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',defaut=("TEMP",)),
+           ),
+                                 ),
+# courbes et coefficients associés à la fatigue et au dommage
+#
+           FATIGUE         =FACT(statut='f',
+             regles=(PRESENT_ABSENT('WOHLER','A_BASQUIN','BETA_BASQUIN'),
+                     PRESENT_ABSENT('WOHLER','A0','A1','A2','A3','SL'),
+                     PRESENT_ABSENT('A_BASQUIN','A0','A1','A2','A3','SL'),
+                     ENSEMBLE('A_BASQUIN','BETA_BASQUIN'),
+                     ENSEMBLE('A0','A1','A2','A3','SL'),
+                     PRESENT_PRESENT('A0','E_REFE'),
+                     ENSEMBLE('D0','TAU0'),),
+             WOHLER          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             A_BASQUIN       =SIMP(statut='f',typ='R'),
+             BETA_BASQUIN    =SIMP(statut='f',typ='R'),
+             A0              =SIMP(statut='f',typ='R'),
+             A1              =SIMP(statut='f',typ='R'),
+             A2              =SIMP(statut='f',typ='R'),
+             A3              =SIMP(statut='f',typ='R'),
+             SL              =SIMP(statut='f',typ='R'),
+             MANSON_COFFIN   =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             E_REFE          =SIMP(statut='f',typ='R'),
+             D0              =SIMP(statut='f',typ='R'),
+             TAU0            =SIMP(statut='f',typ='R'),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("SIGM","EPSI",) ),
+           ),
+           DOMMA_LEMAITRE  =FACT(statut='f',
+             S               =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             EPSP_SEUIL      =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             EXP_S           =SIMP(statut='f',typ='R',val_min=0.0E0,defaut=1.0),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",) ),
+           ),
+           CISA_PLAN_CRIT  =FACT(statut='f',
+             CRITERE       =SIMP(statut='o',typ='TXM',into=("MATAKE_MODI_AC",
+                                                            "DANG_VAN_MODI_AC",
+                                                            "DANG_VAN_MODI_AV",
+                                                            "MATAKE_MODI_AV",
+                                                            "FATESOCI_MODI_AV",
+                                                            ) ),
+
+             b_critere_matake =BLOC(condition="CRITERE=='MATAKE_MODI_AC' or CRITERE=='MATAKE_MODI_AV'",
+                         fr="Cisaillement plan critique critère de matake pour les cas amplitude constante et amplitude variable",
+               MATAKE_A         =SIMP(statut='o',typ='R'),
+               MATAKE_B         =SIMP(statut='o',typ='R'),
+               COEF_FLEX_TORS   =SIMP(statut='o',typ='R',val_min=1.0E0,val_max=1.7321E0),
+             ),
+
+             b_critere_dang_van =BLOC(condition="(CRITERE=='DANG_VAN_MODI_AC' or CRITERE=='DANG_VAN_MODI_AV')",
+                                 fr="Critère de Dang Van modifié pour les cas amplitude constante et amplitude variable",
+               D_VAN_A            =SIMP(statut='o',typ='R'),
+               D_VAN_B            =SIMP(statut='o',typ='R'),
+               COEF_CISA_TRAC     =SIMP(statut='o',typ='R',val_min=1.0E0,val_max=1.7321E0),
+             ),
+
+             b_critere_fate_soci =BLOC(condition="CRITERE=='FATESOCI_MODI_AV'",
+                               fr="Critère de Fatemi et Socie, en élasticité ou élastoplasticité, pour le cas amplitude variable",
+               FATSOC_A           =SIMP(statut='o',typ='R'),
+               COEF_CISA_TRAC     =SIMP(statut='o',typ='R',val_min=1.0E0,val_max=1.7321E0),
+             ),
+           ),
+#
+# autres comportements ...
+#
+           WEIBULL         =FACT(statut='f',
+             M               =SIMP(statut='o',typ='R'),
+             VOLU_REFE       =SIMP(statut='o',typ='R'),
+             SIGM_REFE       =SIMP(statut='o',typ='R'),
+             SEUIL_EPSP_CUMU =SIMP(statut='f',typ='R',defaut= 1.0E-6),
+           ),
+           WEIBULL_FO      =FACT(statut='f',
+             M               =SIMP(statut='o',typ='R'),
+             VOLU_REFE       =SIMP(statut='o',typ='R'),
+             SIGM_CNV        =SIMP(statut='o',typ='R'),
+             SIGM_REFE       =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             SEUIL_EPSP_CUMU =SIMP(statut='f',typ='R',defaut= 1.0E-6),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",) ),
+           ),
+           NON_LOCAL       =FACT(statut='f',
+             regles=(AU_MOINS_UN('LONG_CARA','C_GONF','PENA_LAGR',),),
+             LONG_CARA       =SIMP(statut='f',typ='R'),
+             PENA_LAGR       =SIMP(statut='f',typ='R',defaut= 1.0E3),
+             C_GONF          =SIMP(statut='f',typ='R'),
+             COEF_RIGI_MINI  =SIMP(statut='f',typ='R'),
+           ),
+           RUPT_FRAG       =FACT(statut='f',
+             GC              =SIMP(statut='o',typ='R'),
+             SIGM_C          =SIMP(statut='f',typ='R'),
+             PENA_ADHERENCE  =SIMP(statut='f',typ='R',val_min=1.E-12,val_max=1.E+0),
+             PENA_CONTACT    =SIMP(statut='f',typ='R',defaut=1.),
+             PENA_LAGR       =SIMP(statut='f',typ='R',defaut=1.0E2,val_min=1.01E+0),
+             RIGI_GLIS       =SIMP(statut='f',typ='R',defaut=1.0E1),
+           ),
+           RUPT_FRAG_FO   =FACT(statut='f',
+             GC              =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             SIGM_C          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             PENA_ADHERENCE  =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             PENA_CONTACT    =SIMP(statut='f',typ='R',defaut=1.),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",) ),
+           ),
+           RCCM            =FACT(statut='f',
+             regles=(ENSEMBLE('A_AMORC','B_AMORC','D_AMORC','R_AMORC'),),
+             SY_02           =SIMP(statut='f',typ='R'),
+             SM              =SIMP(statut='f',typ='R'),
+             SU              =SIMP(statut='f',typ='R'),
+             SC              =SIMP(statut='f',typ='R'),
+             SH              =SIMP(statut='f',typ='R'),
+             N_KE            =SIMP(statut='f',typ='R'),
+             M_KE            =SIMP(statut='f',typ='R'),
+             A_AMORC         =SIMP(statut='f',typ='R'),
+             B_AMORC         =SIMP(statut='f',typ='R'),
+             D_AMORC         =SIMP(statut='f',typ='R'),
+             R_AMORC         =SIMP(statut='f',typ='R'),
+           ),
+           RCCM_FO         =FACT(statut='f',
+             regles=(ENSEMBLE('A_AMORC','B_AMORC','D_AMORC','R_AMORC'),),
+             SY_02           =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             SM              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             SU              =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             S               =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             N_KE            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             M_KE            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             A_AMORC         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             B_AMORC         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             D_AMORC         =SIMP(statut='f',typ='R'),
+             R_AMORC         =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             VERI_P          =SIMP(statut='c',typ='TXM',max='**',defaut=("TEMP",) ),
+           ),
+           LAIGLE          =FACT(statut='f',
+             GAMMA_ULT       =SIMP(statut='o',typ='R'),
+             GAMMA_E         =SIMP(statut='o',typ='R'),
+             M_ULT           =SIMP(statut='o',typ='R'),
+             M_E             =SIMP(statut='o',typ='R'),
+             A_E             =SIMP(statut='o',typ='R'),
+             M_PIC           =SIMP(statut='o',typ='R'),
+             A_PIC           =SIMP(statut='o',typ='R'),
+             ETA             =SIMP(statut='o',typ='R'),
+             SIGMA_C         =SIMP(statut='o',typ='R'),
+             GAMMA           =SIMP(statut='o',typ='R'),
+             KSI             =SIMP(statut='o',typ='R'),
+             GAMMA_CJS       =SIMP(statut='o',typ='R'),
+             SIGMA_P1        =SIMP(statut='o',typ='R'),
+             PA              =SIMP(statut='o',typ='R'),
+           ),
+           LETK          =FACT(statut='f',
+             PA         =SIMP(statut='o',typ='R',fr="pression atmospherique"),
+             NELAS      =SIMP(statut='o',typ='R',fr="exposant de la loi de variation des modules K et G"),
+             SIGMA_C    =SIMP(statut='o',typ='R',fr="résistance en compression simple "),
+             H0_EXT     =SIMP(statut='o',typ='R',fr="parametre pilotant la résistance en extension"),
+             GAMMA_CJS  =SIMP(statut='o',typ='R',fr="parametre de forme du critere ds le plan deviatoire entre 0 et 1."),
+             XAMS       =SIMP(statut='o',typ='R',fr="parametre non nul intervenant dans les lois d'ecrouissage pre pic"),
+             ETA        =SIMP(statut='o',typ='R',fr="parametre non nul intervenant dans les lois d'ecrouissage post pic"),
+             A_0        =SIMP(statut='o',typ='R',fr="a de la limite d'élasticité initiale"),
+             A_E        =SIMP(statut='o',typ='R',fr="a de la limite de clivage ou seuil intermédiaire"),
+             A_PIC      =SIMP(statut='o',typ='R',fr="a du seuil de pic"),
+             S_0        =SIMP(statut='o',typ='R',fr="s de la limite d'élasticité initiale"),
+             M_0        =SIMP(statut='o',typ='R',fr="m de la limite d'élasticité initiale"),
+             M_E        =SIMP(statut='o',typ='R',fr="m de la limite de clivage ou seuil intermédiaire"),
+             M_PIC      =SIMP(statut='o',typ='R',fr="m du seuil de pic"),
+             M_ULT      =SIMP(statut='o',typ='R',fr="m du seuil residuel"),
+             XI_ULT     =SIMP(statut='o',typ='R',fr="niveau d ecrouissage pour atteindre le seuil residuel"),
+             XI_E       =SIMP(statut='o',typ='R',fr="niveau d ecrouissage pour atteindre le seuil de clivage"),
+             XI_PIC     =SIMP(statut='o',typ='R',fr="niveau d ecrouissage pour atteindre le seuil de pic"),
+             MV_MAX     =SIMP(statut='o',typ='R',fr="m du seuil viscoplastique maximal"),
+             XIV_MAX    =SIMP(statut='o',typ='R',fr="niveau d ecrouissage pour atteindre le seuil viscoplastique maximal"),
+             A          =SIMP(statut='o',typ='R',fr="parametre carcaterisant l amplitude de la vitesse de fluage"),
+             N          =SIMP(statut='o',typ='R',fr="parametre intervenant dans la formule pilotant la cinetique de fluage"),
+             SIGMA_P1   =SIMP(statut='o',typ='R',fr="SIG min de l intersection du seuil de pic et intermediaire "),
+             MU0_V      =SIMP(statut='o',typ='R',fr="relatif à l angle de dilatance des mecanismes pre pic et viscoplastique"),
+             XI0_V      =SIMP(statut='o',typ='R',fr="relatif à l angle de dilatance des mecanismes pre pic et viscoplastique"),
+             MU1        =SIMP(statut='o',typ='R',fr="relatif à l angle de dilatance du mecanisme post pic "),
+             XI1        =SIMP(statut='o',typ='R',fr="relatif à l angle de dilatance du mecanisme post pic "),
+           ),
+           DRUCK_PRAGER  =FACT(statut='f',
+             ALPHA           =SIMP(statut='o',typ='R'),
+             SY              =SIMP(statut='o',typ='R'),
+             P_ULTM          =SIMP(statut='o',typ='R'),
+             ECROUISSAGE = SIMP(statut='o',typ='TXM',into=("LINEAIRE","PARABOLIQUE")),
+             b_lineaire =BLOC(condition="ECROUISSAGE=='LINEAIRE'",
+                                    fr="Loi de comportement de type Drucker Prager avec un ecrouissage lineaire",
+                    H               =SIMP(statut='o',typ='R'),
+                    TYPE_DP         =SIMP(statut='c',typ='R',defaut= 1.0,),
+             ),
+             b_parabolique =BLOC(condition="ECROUISSAGE=='PARABOLIQUE'",
+                                    fr="Loi de comportement de type Drucker Prager avec un ecrouissage parabolique",
+                    SY_ULTM         =SIMP(statut='o',typ='R'),
+                    TYPE_DP         =SIMP(statut='c',typ='R',defaut= 2.0,),
+             ),
+             DILAT           =SIMP(statut='f',typ='R',defaut=0.0),
+           ),
+             HOEK_BROWN          =FACT(statut='f',
+             GAMMA_RUP       =SIMP(statut='o',typ='R'),
+             GAMMA_RES       =SIMP(statut='o',typ='R'),
+             S_END           =SIMP(statut='o',typ='R'),
+             S_RUP           =SIMP(statut='o',typ='R'),
+             M_END           =SIMP(statut='o',typ='R'),
+             M_RUP           =SIMP(statut='o',typ='R'),
+             BETA            =SIMP(statut='o',typ='R'),
+             ALPHAHB         =SIMP(statut='o',typ='R'),
+             PHI_RUP         =SIMP(statut='o',typ='R'),
+             PHI_RES         =SIMP(statut='o',typ='R'),
+             PHI_END         =SIMP(statut='f',typ='R'),
+           ),
+             ELAS_GONF             =FACT(statut='f',
+             BETAM           =SIMP(statut='o',typ='R'),
+             PREF            =SIMP(statut='o',typ='R'),
+           ),
+####  MONOCRISTAL
+
+           ECOU_VISC1      =FACT(statut='f',
+             TYPE_PARA       =SIMP(statut='f',typ='TXM',into=("ECOU_VISC",),),
+             N               =SIMP(statut='o',typ='R'),
+             K               =SIMP(statut='o',typ='R'),
+             C               =SIMP(statut='o',typ='R'),
+           ),
+           ECOU_VISC2      =FACT(statut='f',
+             TYPE_PARA       =SIMP(statut='f',typ='TXM',into=("ECOU_VISC",),),
+             N               =SIMP(statut='o',typ='R'),
+             K               =SIMP(statut='o',typ='R'),
+             C               =SIMP(statut='o',typ='R'),
+             D               =SIMP(statut='o',typ='R'),
+             A               =SIMP(statut='o',typ='R'),
+           ),
+           ECOU_VISC3      =FACT(statut='f',
+             TYPE_PARA       =SIMP(statut='f',typ='TXM',into=("ECOU_VISC",),),
+             K               =SIMP(statut='o',typ='R',fr="Constante de Boltzmann, en eV/K"),
+             TAUMU           =SIMP(statut='o',typ='R',fr="Seuil d ecoulement, en unite de contraintes"),
+             GAMMA0          =SIMP(statut='o',typ='R',fr="Vitesse d ecoulement initiale"),
+             DELTAV          =SIMP(statut='o',typ='R',fr="Volume d activation"),
+             DELTAG0         =SIMP(statut='o',typ='R',fr="Gain d energie lie au franchissement d obstacle"),
+           ),
+           KOCKS_RAUCH      =FACT(statut='f',
+              regles=(UN_PARMI('H','H1'),
+                      PRESENT_PRESENT('H1','H2','H3','H4'),
+                      PRESENT_ABSENT('H','H1','H2','H3','H4','H5','H6'),
+                      ),
+             TYPE_PARA       =SIMP(statut='f',typ='TXM',into=("ECOU_VISC",),),
+             K               =SIMP(statut='o',typ='R',fr="Constante de Boltzmann, en eV/K"),
+             TAUR            =SIMP(statut='o',typ='R',fr="Contraintes de cisaillement à T=0K, en unite de contraintes"),
+             TAU0            =SIMP(statut='o',typ='R',fr="Contraintes critique initiale de cisaillement, en unite de contraintes"),
+             GAMMA0          =SIMP(statut='o',typ='R',fr="Vitesse d ecoulement initiale"),
+             DELTAG0         =SIMP(statut='o',typ='R',fr="Gain d energie lie au franchissement d obstacle"),
+             BSD             =SIMP(statut='o',typ='R',fr="fonction de la taille du grain B/D"),
+             GCB             =SIMP(statut='o',typ='R',fr="distance critique d'annihilation GC/B"),
+             KDCS            =SIMP(statut='o',typ='R',fr="Parametre relatif à la direction principale de la dislocation"),
+             P               =SIMP(statut='o',typ='R',fr="Parametre materiau dépendant de la forme de l'obstacle"),
+             Q               =SIMP(statut='o',typ='R',fr="Parametre materiau dépendant de la forme de l'obstacle"),
+             H               =SIMP(statut='f',typ='R'),
+             H1              =SIMP(statut='f',typ='R'),
+             H2              =SIMP(statut='f',typ='R'),
+             H3              =SIMP(statut='f',typ='R'),
+             H4              =SIMP(statut='f',typ='R'),
+             H5              =SIMP(statut='f',typ='R'),
+             H6              =SIMP(statut='f',typ='R'),
+           ),
+           ECRO_ISOT1      =FACT(statut='f',
+              regles=(UN_PARMI('H','H1'),
+                      PRESENT_PRESENT('H1','H2','H3','H4'),
+                      PRESENT_ABSENT('H','H1','H2','H3','H4','H5','H6'),
+                      ),
+             TYPE_PARA       =SIMP(statut='f',typ='TXM',into=("ECRO_ISOT",),),
+             R_0             =SIMP(statut='o',typ='R'),
+             Q               =SIMP(statut='o',typ='R'),
+             B               =SIMP(statut='o',typ='R'),
+             H               =SIMP(statut='f',typ='R'),
+             H1              =SIMP(statut='f',typ='R'),
+             H2              =SIMP(statut='f',typ='R'),
+             H3              =SIMP(statut='f',typ='R'),
+             H4              =SIMP(statut='f',typ='R'),
+             H5              =SIMP(statut='f',typ='R'),
+             H6              =SIMP(statut='f',typ='R'),
+           ),
+           ECRO_ISOT2      =FACT(statut='f',
+              regles=(UN_PARMI('H','H1'),
+                      PRESENT_PRESENT('H1','H2','H3','H4'),
+                      PRESENT_ABSENT('H','H1','H2','H3','H4','H5','H6'),
+                      ),
+             TYPE_PARA       =SIMP(statut='f',typ='TXM',into=("ECRO_ISOT",),),
+             R_0             =SIMP(statut='o',typ='R'),
+             Q1              =SIMP(statut='o',typ='R'),
+             B1              =SIMP(statut='o',typ='R'),
+             H               =SIMP(statut='f',typ='R'),
+             H1              =SIMP(statut='f',typ='R'),
+             H2              =SIMP(statut='f',typ='R'),
+             H3              =SIMP(statut='f',typ='R'),
+             H4              =SIMP(statut='f',typ='R'),
+             H5              =SIMP(statut='f',typ='R'),
+             H6              =SIMP(statut='f',typ='R'),
+             Q2              =SIMP(statut='o',typ='R'),
+             B2              =SIMP(statut='o',typ='R'),
+           ),
+           ECRO_CINE1      =FACT(statut='f',
+             TYPE_PARA       =SIMP(statut='f',typ='TXM',into=("ECRO_CINE",),),
+             D               =SIMP(statut='o',typ='R'),
+           ),
+           ECRO_CINE2      =FACT(statut='f',
+             TYPE_PARA       =SIMP(statut='f',typ='TXM',into=("ECRO_CINE",),),
+             D               =SIMP(statut='o',typ='R'),
+             GM              =SIMP(statut='o',typ='R'),
+             PM              =SIMP(statut='o',typ='R'),
+             C               =SIMP(statut='o',typ='R'),
+           ),
+
+####  MONOCRISTAL
+
+           DRUCK_PRAGER_FO  =FACT(statut='f',
+             ALPHA           =SIMP(statut='o',typ=(fonction_sdaster,formule)),
+             SY              =SIMP(statut='o',typ=(fonction_sdaster,formule)),
+             P_ULTM          =SIMP(statut='o',typ=(fonction_sdaster,formule)),
+             ECROUISSAGE = SIMP(statut='o',typ='TXM',into=("LINEAIRE","PARABOLIQUE")),
+             b_lineaire =BLOC(condition="ECROUISSAGE=='LINEAIRE'",
+                                    fr="Loi de comportement de type Drucker Prager avec un ecrouissage lineaire",
+                    H               =SIMP(statut='o',typ=(fonction_sdaster,formule)),
+                    TYPE_DP         =SIMP(statut='c',typ='R',defaut= 1.0,),
+             ),
+             b_parabolique =BLOC(condition="ECROUISSAGE=='PARABOLIQUE'",
+                                    fr="Loi de comportement de type Drucker Prager avec un ecrouissage parabolique",
+                    SY_ULTM         =SIMP(statut='o',typ=(fonction_sdaster,formule)),
+                    TYPE_DP         =SIMP(statut='c',typ='R',defaut= 2.0,),
+             ),
+            DILAT           =SIMP(statut='f',typ='R',defaut=0.0),
+           ),
+
+
+           INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 BODEL C.BODEL
+DEFI_MODELE_GENE=OPER(nom="DEFI_MODELE_GENE",op= 126,sd_prod=modele_gene,
+                      reentrant='n',
+            fr="Créer la structure globale à partir des sous-structures en sous-structuration dynamique", 
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+         SOUS_STRUC      =FACT(statut='o',max='**',
+           NOM             =SIMP(statut='o',typ='TXM' ),
+           MACR_ELEM_DYNA  =SIMP(statut='o',typ=macr_elem_dyna ),
+           ANGL_NAUT       =SIMP(statut='f',typ='R',max=3),
+           TRANS           =SIMP(statut='f',typ='R',max=3),
+         ),
+         LIAISON         =FACT(statut='o',max='**',
+           SOUS_STRUC_1    =SIMP(statut='o',typ='TXM' ),
+           INTERFACE_1     =SIMP(statut='o',typ='TXM' ),
+           SOUS_STRUC_2    =SIMP(statut='o',typ='TXM' ),
+           INTERFACE_2     =SIMP(statut='o',typ='TXM' ),
+           regles=(EXCLUS('GROUP_MA_MAIT_1','GROUP_MA_MAIT_2','MAILLE_MAIT_2'),
+                   EXCLUS('MAILLE_MAIT_1','GROUP_MA_MAIT_2','MAILLE_MAIT_2'),),
+           GROUP_MA_MAIT_1   =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE_MAIT_1     =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_MA_MAIT_2   =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE_MAIT_2     =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           OPTION            =SIMP(statut='f',typ='TXM',defaut="CLASSIQUE",into=("REDUIT","CLASSIQUE") ),
+         ),
+         VERIF           =FACT(statut='f',max='**',
+#  dans la doc U stop_erreur est obligatoire         
+           STOP_ERREUR     =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           PRECISION       =SIMP(statut='f',typ='R',defaut= 1.E-3 ),
+           CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU") ),
+         ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 COURTOIS M.COURTOIS
+DEFI_NAPPE=OPER(nom="DEFI_NAPPE",op=4,sd_prod=nappe_sdaster,
+                fr="Définir une fonction réelle de deux variables réelles",
+                reentrant='n',UIinfo={"groupes":("Fonction",)},
+         regles=(UN_PARMI('FONCTION','DEFI_FONCTION'),
+                 EXCLUS('FONCTION','NOM_PARA_FONC',),
+                 ENSEMBLE('NOM_PARA_FONC','DEFI_FONCTION'),),
+         NOM_PARA        =SIMP(statut='o',typ='TXM',into=C_PARA_FONCTION() ),
+         NOM_RESU        =SIMP(statut='f',typ='TXM',defaut="TOUTRESU"),       
+         PARA            =SIMP(statut='o',typ='R',max='**'),
+         FONCTION        =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule),max='**' ),
+         NOM_PARA_FONC   =SIMP(statut='f',typ='TXM',into=C_PARA_FONCTION() ),
+         DEFI_FONCTION   =FACT(statut='f',max='**',
+           VALE            =SIMP(statut='o',typ='R',max='**'),
+           INTERPOL        =SIMP(statut='f',typ='TXM',max=2,defaut="LIN",into=("NON","LIN","LOG") ),
+           PROL_DROITE     =SIMP(statut='f',typ='TXM',defaut="EXCLU",into=("CONSTANT","LINEAIRE","EXCLU") ),
+           PROL_GAUCHE     =SIMP(statut='f',typ='TXM',defaut="EXCLU",into=("CONSTANT","LINEAIRE","EXCLU") ),
+         ),
+         INTERPOL        =SIMP(statut='f',typ='TXM',max=2,defaut="LIN",into=("NON","LIN","LOG") ),
+         PROL_DROITE     =SIMP(statut='f',typ='TXM',defaut="EXCLU",into=("CONSTANT","LINEAIRE","EXCLU") ),
+         PROL_GAUCHE     =SIMP(statut='f',typ='TXM',defaut="EXCLU",into=("CONSTANT","LINEAIRE","EXCLU") ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+         VERIF           =SIMP(statut='f',typ='TXM',into=("CROISSANT",) ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 KHAM M.KHAM
+DEFI_OBSTACLE=OPER(nom="DEFI_OBSTACLE",op=  73,sd_prod=table_fonction,
+                   fr="Définition d'un obstacle plan perpendiculaire à une structure filaire",
+                   reentrant='n',
+         UIinfo={"groupes":("Modélisation",)},
+         TYPE            =SIMP(statut='o',typ='TXM',defaut="CERCLE",
+                             into=("CERCLE","PLAN_Y","PLAN_Z","DISCRET",
+                             "BI_CERCLE","BI_PLAN_Y","BI_PLAN_Z","BI_CERC_INT",
+                             "CRAYON_900","CRAYON_1300","GUID_A_CARTE_900",
+                             "GUID_B_CARTE_900","GUID_C_CARTE_900",
+                             "GUID_D_CARTE_900","GUID_E_CARTE_900",
+                             "GUID_F_CARTE_900","GUID_A_CARTE_1300",
+                             "GUID_B_CARTE_1300","GUID_C_CARTE_1300",
+                             "GUID_D_CARTE_1300","GUID_E_CARTE_1300",
+                             "GUID_F_CARTE_1300","GUID_A_CARSP_900",
+                             "GUID_B_CARSP_900","GUID_C_CARSP_900",
+                             "GUID_D_CARSP_900","GUID_E_CARSP_900",
+                             "GUID_F_CARSP_900","GUID_A_CARSP_1300",
+                             "GUID_B_CARSP_1300","GUID_C_CARSP_1300",
+                             "GUID_D_CARSP_1300","GUID_E_CARSP_1300",
+                             "GUID_F_CARSP_1300","GUID_A_GCONT_900",
+                             "GUID_B_GCONT_900","GUID_C_GCONT_900",
+                             "GUID_D_GCONT_900","GUID_E_GCONT_900",
+                             "GUID_F_GCONT_900","GUID_A_GCONT_1300",
+                             "GUID_B_GCONT_1300","GUID_C_GCONT_1300",
+                             "GUID_D_GCONT_1300","GUID_E_GCONT_1300",
+                             "GUID_F_GCONT_1300","GUID_A_GCOMB_900",
+                             "GUID_B_GCOMB_900","GUID_C_GCOMB_900",
+                             "GUID_D_GCOMB_900","GUID_E_GCOMB_900",
+                             "GUID_F_GCOMB_900","GUID_A_GCOMB_1300",
+                             "GUID_B_GCOMB_1300","GUID_C_GCOMB_1300",
+                             "GUID_D_GCOMB_1300","GUID_E_GCOMB_1300",
+                             "GUID_F_GCOMB_1300",) ),
+         VALE            =SIMP(statut='f',typ='R',max='**'),
+         VERIF           =SIMP(statut='f',typ='TXM',defaut="FERME"),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 GNICOLAS G.NICOLAS
+DEFI_PARA_SENSI=OPER(nom="DEFI_PARA_SENSI",op=   2,sd_prod=para_sensi,
+                    fr="Définition d'un paramètre de sensibilité",
+                    ang="Definition of a sensitive parameter",
+                    reentrant='n',
+            UIinfo={"groupes":("Fonction",)},
+         NOM_RESU        =SIMP(statut='c',typ='TXM',into=("TOUTRESU",),defaut="TOUTRESU",
+                               fr="Nom du concept créé",
+                               ang="Name of the concept"),
+         VALE            =SIMP(statut='o',typ='R',
+                               fr="Valeur du parametre",
+                               ang="Value of the parameter"),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2004  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.        
+# ======================================================================
+# RESPONSABLE ASSIRE A.ASSIRE
+
+from Macro.defi_part_feti_ops import defi_part_feti_ops
+
+DEFI_PART_FETI=MACRO(nom="DEFI_PART_FETI",op=defi_part_feti_ops,sd_prod=sd_feti_sdaster,
+                     reentrant='n',UIinfo={"groupe":("Maillage",)},
+                     fr="Creation partitionnement en sous-domaines pour FETI",
+         regles=(UN_PARMI('MAILLAGE','MODELE'),),
+         MAILLAGE        =SIMP(statut='f',typ=maillage_sdaster),
+         MODELE          =SIMP(statut='f',typ=modele_sdaster),
+         NB_PART         =SIMP(statut='o',typ='I',val_min=2),
+         EXCIT           =FACT(statut='f',max='**',
+           CHARGE          =SIMP(statut='f',typ=(char_meca,char_cine_meca)),),
+
+         # Methode de partitionnement
+         METHODE         =SIMP(statut='f',typ='TXM',into=("PMETIS","SCOTCH","KMETIS",), defaut="SCOTCH" ),
+         
+         LOGICIEL      =SIMP(statut='f',typ='TXM'),
+
+         # Corrige les problemes possibles de non-connexite des sous-domaines
+         CORRECTION_CONNEX    =SIMP(statut='f',typ='TXM',defaut='NON',into=('OUI','NON')),
+
+         # Permet de grouper des mailles dans un meme sous-doamine
+         GROUPAGE        =FACT(statut='f',max='**',
+           GROUP_MA       =SIMP(statut='o',typ=grma,),
+                          ),
+         # Permet d'appliquer des poids sur certaines mailles
+         POIDS_MAILLES   =FACT(statut='f',max='**',
+           GROUP_MA       =SIMP(statut='o',typ=grma,),
+           POIDS          =SIMP(statut='f',typ='I',val_min=2),
+                          ),
+         # Prefixe pour le nom des group_ma definissant les sous-domaines 
+         NOM_GROUP_MA    =SIMP(statut='f',typ='TXM',defaut='SD' ),
+
+         # Traiter les mailles de bords (elles sont enlevees du graphe puis reinjectees)
+         TRAITER_BORDS   =SIMP(statut='f',typ='TXM',defaut='OUI',into=('OUI','NON') ),
+         
+         # Si le mot-clé suivant est renseigné, crée de nouveau group_ma a partir des bords
+         # Note : le calcul FETI sera impossible
+         b_traiter_bords =BLOC(condition="TRAITER_BORDS == 'OUI'", fr="Crée t on des nouveaux group_ma",
+           NOM_GROUP_MA_BORD  =SIMP(statut='f',typ='TXM'),
+             ),
+
+         INFO            =SIMP(statut='f',typ='I',into=(1, 2), defaut=1),
+);
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2004  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.        
+# ======================================================================
+# RESPONSABLE ASSIRE A.ASSIRE
+
+DEFI_PART_OPS=OPER(nom="DEFI_PART_OPS",op=21,sd_prod=sd_feti_sdaster,
+                    fr="Creation partitionnement en sous-domaines pour FETI",
+                    docu="U4.23.05",reentrant='n',
+                    UIinfo={"groupes":("Résolution",)},
+         MODELE          =SIMP(statut='o',typ=(modele_sdaster) ),
+         MAILLAGE        =SIMP(statut='f',typ=(maillage_sdaster) ),
+         NOM             =SIMP(statut='f',typ='TXM',defaut='SD'),
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2,3,4) ),
+         DEFI          =FACT(statut='f',max='**',
+           GROUP_MA        =SIMP(statut='o',typ=grma),
+           GROUP_MA_BORD   =SIMP(statut='f',typ=grma),
+         ),
+         EXCIT           =FACT(statut='f',max='**',
+           CHARGE          =SIMP(statut='f',typ=(char_meca,char_cine_meca)),
+         ),
+);
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.        
+# ======================================================================
+# RESPONSABLE ASSIRE A.ASSIRE
+
+DEFI_PART_PA_OPS=PROC(nom="DEFI_PART_PA_OPS",op=29,
+                    fr="Creation partitionnement en sous-domaines pour FETI",
+                    docu="U4.00.00",
+                    UIinfo={"groupes":("Résolution",)},
+         MAILLAGE        =SIMP(statut='o',typ=(maillage_sdaster,squelette) ),
+         MODELE          =SIMP(statut='f',typ=(modele_sdaster)),
+         NB_PART         =SIMP(statut='o',typ='I',),
+
+         # Methode de partitionnement
+         METHODE         =SIMP(statut='f',typ='TXM',into=("PMETIS","SCOTCH","KMETIS",), defaut="SCOTCH" ),
+         
+         LOGICIEL      =SIMP(statut='f',typ='TXM'),
+
+         # Corrige les problemes possibles de non-connexite des sous-domaines
+         CORRECTION_CONNEX    =SIMP(statut='f',typ='TXM',defaut='NON',into=('OUI','NON')),
+
+         # Permet de grouper des mailles dans un meme sous-doamine
+         GROUPAGE        =FACT(statut='f',max='**',
+           GROUP_MA       =SIMP(statut='o',typ=grma,),
+                          ),
+         # Permet d'appliquer des poids sur certaines mailles
+         POIDS_MAILLES   =FACT(statut='f',max='**',
+           GROUP_MA       =SIMP(statut='o',typ=grma,),
+           POIDS          =SIMP(statut='f',typ='I'),
+                          ),
+         # Prefixe pour le nom des group_ma definissant les sous-domaines 
+         NOM_GROUP_MA    =SIMP(statut='f',typ='TXM',defaut='SD' ),
+
+         # Traiter les mailles de bords (elles sont enlevees du graphe puis reinjectees)
+         TRAITER_BORDS   =SIMP(statut='f',typ='TXM',defaut='OUI',into=('OUI','NON') ),
+
+         # Si le mot-clé suivant est renseigné, crée de nouveau group_ma a partir des bords
+         # Note : le calcul FETI sera impossible
+         b_traiter_bords =BLOC(condition="TRAITER_BORDS == 'OUI'", fr="Crée t on des nouveaux group_ma",
+           NOM_GROUP_MA_BORD  =SIMP(statut='f',typ='TXM'),
+             ),
+
+         INFO            =SIMP(statut='f',typ='I',into=(1, 2), defaut=1),
+
+);
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 ADOBES A.ADOBES
+DEFI_SPEC_TURB=OPER(nom="DEFI_SPEC_TURB",op= 145,sd_prod=spectre_sdaster,
+                    fr="Définition d'un spectre d'excitation turbulente",
+                    reentrant='n',
+            UIinfo={"groupes":("Modélisation",)},
+         regles=(UN_PARMI('SPEC_LONG_COR_1','SPEC_LONG_COR_2','SPEC_LONG_COR_3',
+                          'SPEC_LONG_COR_4','SPEC_CORR_CONV_1','SPEC_CORR_CONV_2',
+                          'SPEC_FONC_FORME','SPEC_EXCI_POINT'),),
+         SPEC_LONG_COR_1 =FACT(statut='f',
+           LONG_COR        =SIMP(statut='o',typ='R' ),
+           PROF_VITE_FLUI  =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           VISC_CINE       =SIMP(statut='o',typ='R' ),
+         ),
+         SPEC_LONG_COR_2 =FACT(statut='f',
+           regles=(ENSEMBLE('FREQ_COUP','PHI0','BETA' ),),
+           LONG_COR        =SIMP(statut='o',typ='R' ),
+           PROF_VITE_FLUI  =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FREQ_COUP       =SIMP(statut='f',typ='R',defaut= 0.1 ),
+           PHI0            =SIMP(statut='f',typ='R',defaut= 1.5E-3 ),
+           BETA            =SIMP(statut='f',typ='R',defaut= 2.7 ),
+         ),
+         SPEC_LONG_COR_3 =FACT(statut='f',
+           regles=(ENSEMBLE('PHI0_1','BETA_1','PHI0_2','BETA_2','FREQ_COUP'),),
+           LONG_COR        =SIMP(statut='o',typ='R' ),
+           PROF_VITE_FLUI  =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           FREQ_COUP       =SIMP(statut='f',typ='R',defaut= 0.2 ),
+           PHI0_1          =SIMP(statut='f',typ='R',defaut= 5.E-3 ),
+           BETA_1          =SIMP(statut='f',typ='R',defaut= 0.5 ),
+           PHI0_2          =SIMP(statut='f',typ='R',defaut= 4.E-5 ),
+           BETA_2          =SIMP(statut='f',typ='R',defaut= 3.5 ),
+         ),
+         SPEC_LONG_COR_4 =FACT(statut='f',
+           regles=(ENSEMBLE('BETA','GAMMA'),),
+           LONG_COR        =SIMP(statut='o',typ='R' ),
+           PROF_VITE_FLUI  =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           TAUX_VIDE       =SIMP(statut='o',typ='R' ),
+           BETA            =SIMP(statut='f',typ='R',defaut= 2. ),
+           GAMMA           =SIMP(statut='f',typ='R',defaut= 4. ),
+         ),
+         SPEC_CORR_CONV_1=FACT(statut='f',
+           LONG_COR_1      =SIMP(statut='o',typ='R' ),
+           LONG_COR_2      =SIMP(statut='f',typ='R' ),
+           VITE_FLUI       =SIMP(statut='o',typ='R' ),
+           RHO_FLUI        =SIMP(statut='o',typ='R' ),
+           FREQ_COUP       =SIMP(statut='f',typ='R' ),
+           K               =SIMP(statut='f',typ='R',defaut= 5.8E-3 ),
+           D_FLUI          =SIMP(statut='o',typ='R' ),
+           COEF_VITE_FLUI_A=SIMP(statut='f',typ='R' ),
+           COEF_VITE_FLUI_O=SIMP(statut='f',typ='R' ),
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="GENERALE",
+                                 into=("AU_YANG","GENERALE","CORCOS") ),
+         ),
+         SPEC_CORR_CONV_2=FACT(statut='f',
+           FONCTION        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           VITE_FLUI       =SIMP(statut='o',typ='R' ),
+           FREQ_COUP       =SIMP(statut='f',typ='R' ),
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="GENERALE",
+                                 into=("AU_YANG","GENERALE","CORCOS",) ),
+           COEF_VITE_FLUI_A=SIMP(statut='f',typ='R' ),
+           COEF_VITE_FLUI_O=SIMP(statut='f',typ='R' ),
+         ),
+         SPEC_FONC_FORME =FACT(statut='f',
+           regles=(UN_PARMI('INTE_SPEC','GRAPPE_1'),
+                   ENSEMBLE('INTE_SPEC','FONCTION'),),
+           INTE_SPEC       =SIMP(statut='f',typ=table_fonction),
+           FONCTION        =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule),max='**'),
+           GRAPPE_1        =SIMP(statut='f',typ='TXM',into=("DEBIT_180","DEBIT_300",) ),
+           NOEUD           =SIMP(statut='o',typ=no),
+           CARA_ELEM       =SIMP(statut='o',typ=cara_elem ),
+           MODELE          =SIMP(statut='o',typ=modele_sdaster ),
+         ),
+         SPEC_EXCI_POINT =FACT(statut='f',
+           regles=(UN_PARMI('INTE_SPEC','GRAPPE_2'),),
+           INTE_SPEC       =SIMP(statut='f',typ=table_fonction),
+           GRAPPE_2        =SIMP(statut='f',typ='TXM',
+                                 into=("ASC_CEN","ASC_EXC","DES_CEN","DES_EXC",) ),
+#  Quels sont les statuts des mots cles à l interieur des deux blocs qui suivent
+           b_inte_spec =BLOC(condition = "INTE_SPEC != None",
+             NATURE          =SIMP(statut='o',typ='TXM',max='**',into=("FORCE","MOMENT",) ),
+             ANGL            =SIMP(statut='o',typ='R',max='**'),
+             NOEUD           =SIMP(statut='o',typ=no,max='**'),
+           ),
+           b_grappe_2      =BLOC(condition = "GRAPPE_2 != None",
+             RHO_FLUI        =SIMP(statut='o',typ='R' ),
+             NOEUD           =SIMP(statut='o',typ=no),
+           ),
+           CARA_ELEM       =SIMP(statut='o',typ=cara_elem ),
+           MODELE          =SIMP(statut='o',typ=modele_sdaster ),
+         ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 BODEL C.BODEL
+DEFI_SQUELETTE=OPER(nom="DEFI_SQUELETTE",op= 110,sd_prod=squelette,
+                    fr="Définit un maillage pour visualiser les résultats d'une sous-structuration dynamique",
+                    reentrant='n',
+            UIinfo={"groupes":("Maillage",)},
+         regles=(UN_PARMI('CYCLIQUE','MODELE_GENE','MAILLAGE'),
+                 PRESENT_PRESENT('CYCLIQUE','SECTEUR'),
+                 EXCLUS('SOUS_STRUC','SECTEUR'),
+                 PRESENT_PRESENT('NOM_GROUP_MA','MODELE_GENE'),
+                 PRESENT_PRESENT('NOM_GROUP_MA','SOUS_STRUC'),),
+         CYCLIQUE    =FACT(statut='f',max='**',
+           regles=(UN_PARMI('MODE_CYCL','MAILLAGE'),
+                   PRESENT_PRESENT('NB_SECTEUR','MAILLAGE'),),
+           MODE_CYCL       =SIMP(statut='f',typ=mode_cycl ),
+           NB_SECTEUR      =SIMP(statut='f',typ='I',validators=NoRepeat(),max=1 ),
+           MAILLAGE        =SIMP(statut='f',typ=maillage_sdaster ),
+         ),
+         MODELE_GENE     =SIMP(statut='f',typ=modele_gene ),
+         SQUELETTE       =SIMP(statut='f',typ=squelette ),
+         RECO_GLOBAL     =FACT(statut='f',max='**',
+           regles=(EXCLUS('TOUT','GROUP_NO_1'),
+                   PRESENT_PRESENT('GROUP_NO_1','GROUP_NO_2'),
+                   PRESENT_PRESENT('GROUP_NO_1','SOUS_STRUC_1'),
+                   PRESENT_PRESENT('GROUP_NO_2','SOUS_STRUC_2'),
+                   PRESENT_PRESENT('SOUS_STRUC_1','SOUS_STRUC_2'),),
+           TOUT            =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI",) ),
+           GROUP_NO_1      =SIMP(statut='f',typ=grno),
+           SOUS_STRUC_1    =SIMP(statut='f',typ='TXM' ),
+           GROUP_NO_2      =SIMP(statut='f',typ=grno),
+           SOUS_STRUC_2    =SIMP(statut='f',typ='TXM' ),
+           PRECISION       =SIMP(statut='f',typ='R',defaut= 1.E-3 ),
+           CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU") ),
+           DIST_REFE       =SIMP(statut='f',typ='R' ),
+         ),
+         NOM_GROUP_MA    =FACT(statut='f',max='**',
+           NOM             =SIMP(statut='o',typ='TXM' ),
+           SOUS_STRUC      =SIMP(statut='o',typ='TXM' ),
+           GROUP_MA        =SIMP(statut='o',typ=grma),
+         ),
+         EXCLUSIF        =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+         MAILLAGE        =SIMP(statut='f',typ=maillage_sdaster ),
+         MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+         GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+         TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+         TRANS           =SIMP(statut='f',typ='R',min=3,max=3),
+         ANGL_NAUT       =SIMP(statut='f',typ='R',min=3,max=3),
+         SOUS_STRUC      =FACT(statut='f',max='**',
+           NOM             =SIMP(statut='f',typ='TXM' ),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+         ),
+         SECTEUR         =FACT(statut='f',max='**',
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+         ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 CANO V.CANO
+DEFI_TRC=OPER(nom="DEFI_TRC",op=94,sd_prod=table_sdaster,reentrant='n',
+            UIinfo={"groupes":("Modélisation",)},
+              fr="Définir d'un diagramme de transformations en refroidissement continu (TRC) de référence d'un acier"
+                +" pour les calculs métallurgiques.",
+         HIST_EXP        =FACT(statut='o',max='**',
+           VALE            =SIMP(statut='o',typ='R',max='**'),
+         ),
+         TEMP_MS         =FACT(statut='o',max='**',
+           SEUIL           =SIMP(statut='o',typ='R'),
+           AKM             =SIMP(statut='o',typ='R'),
+           BKM             =SIMP(statut='o',typ='R'),
+           TPLM            =SIMP(statut='o',typ='R'),
+         ),
+         GRAIN_AUST      =FACT(statut='f',max='**',
+           DREF           =SIMP(statut='f',typ='R'),
+           A              =SIMP(statut='f',typ='R'),
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 21/10/2008   AUTEUR NISTOR I.NISTOR 
+#            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.                                 
+#
+# 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 PELLET J.PELLET
+def depl_interne_prod(DEPL_GLOBAL,**args ):
+    if AsType(DEPL_GLOBAL)     == cham_no_sdaster: return cham_no_sdaster
+    if AsType(DEPL_GLOBAL)     == evol_elas      : return evol_elas
+    if AsType(DEPL_GLOBAL)     == dyna_trans     : return dyna_trans
+    if AsType(DEPL_GLOBAL)     == dyna_harmo     : return dyna_harmo
+    if AsType(DEPL_GLOBAL)     == mode_meca      : return mode_meca
+    if AsType(DEPL_GLOBAL)     == mode_meca_c    : return mode_meca_c
+    if AsType(DEPL_GLOBAL)     == base_modale    : return base_modale
+    raise AsException("type de concept resultat non prevu")
+
+DEPL_INTERNE=OPER(nom="DEPL_INTERNE",op=89,sd_prod=depl_interne_prod,reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+                  fr="Calculer le champ de déplacement à l'intérieur d'une sous-structure statique",
+         DEPL_GLOBAL     =SIMP(statut='o',typ=(cham_no_sdaster,mode_meca,mode_meca_c,base_modale,evol_elas,dyna_trans,dyna_harmo),),
+         SUPER_MAILLE    =SIMP(statut='o',typ=ma,),
+         NOM_CAS         =SIMP(statut='f',typ='TXM',defaut=" "),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 LEFEBVRE J.P.LEFEBVRE
+DETRUIRE=MACRO(nom="DETRUIRE",op=-7,
+            UIinfo={"groupes":("Gestion du travail",)},
+              fr="Détruit des concepts utilisateurs dans la base GLOBALE ou des objets JEVEUX",
+             op_init=ops.detruire,
+             regles=(UN_PARMI('CONCEPT','OBJET',),),
+            CONCEPT     =FACT(statut='f',max='**',
+                regles=(DERIVABLE('NOM'),),
+                NOM         =SIMP(statut='o',typ=assd,validators=NoRepeat(),max='**'),
+                SENSIBILITE =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),
+                                 fr="Paramètre de sensibilité.",
+                                 ang="Sensitivity parameter",max='**'),
+            ),
+            OBJET  =FACT(statut='f',max='**',
+               CLASSE      =SIMP(statut='f',typ='TXM',into=('G','V','L'),defaut='G'),  
+               CHAINE      =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**'),
+               POSITION    =SIMP(statut='f',typ='I'  ,max='**'),
+            ),
+            ALARME        =SIMP(statut='f',typ='TXM',into=('OUI','NON'),defaut='OUI',),
+            INFO          =SIMP(statut='f',typ='I',into=(1,2),defaut=2, ),           
+);
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 ZENTNER I.ZENTNER
+DYNA_ALEA_MODAL=OPER(nom="DYNA_ALEA_MODAL",op= 131,sd_prod=table_fonction,
+                     fr="Calcul de la réponse spectrale d'une structure linéaire sous une excitation connue par sa DSP",
+                     reentrant='n',
+            UIinfo={"groupes":("Résolution",)},
+         BASE_MODALE     =FACT(statut='o',
+           regles=(UN_PARMI('NUME_ORDRE','BANDE'),),
+           MODE_MECA       =SIMP(statut='o',typ=mode_meca ),
+           BANDE           =SIMP(statut='f',typ='R',validators=NoRepeat(),max=2),
+           NUME_ORDRE      =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+           b_bande =BLOC(condition = "BANDE != None",
+             AMOR_UNIF       =SIMP(statut='o',typ='R' ),
+           ),
+           b_nume_ordre =BLOC(condition = "NUME_ORDRE != None",
+             AMOR_REDUIT     =SIMP(statut='o',typ='R',max='**'),
+           ),
+         ),
+         MODE_STAT       =SIMP(statut='f',typ=(mode_stat_depl,mode_stat_acce,mode_stat_forc,)),
+# MODE_STAT devrait etre dans EXCIT car est utile et obligatoire que si NOM_CMP=depl_r, on pourrait
+# ainsi rajouter un bloc du genre  b_mod_stat= BLOC(condition = "(GRANDEUR == None) or (GRANDEUR == 'DEPL_R')",        
+         EXCIT           =FACT(statut='o',
+           INTE_SPEC       =SIMP(statut='o',typ=table_fonction),
+           NUME_VITE_FLUI  =SIMP(statut='f',typ='I' ),
+           OPTION          =SIMP(statut='f',typ='TXM',defaut="TOUT",into=("TOUT","DIAG",) ),
+           MODAL           =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+           b_modal_non = BLOC(condition = "(MODAL == None) or (MODAL == 'NON')",           
+             regles=(UN_PARMI('NOEUD_I','NUME_ORDRE_I'),),
+             NUME_ORDRE_I    =SIMP(statut='f',typ='I',max='**'),
+             NOEUD_I         =SIMP(statut='f',typ=no,max='**'),
+             b_nume_ordre_i  =BLOC(condition = "NUME_ORDRE_I != None",
+               regles=(EXCLUS('CHAM_NO','NOEUD'),),
+# on devrait rajouter EXCLUS('GRANDEUR','CHAM_NO') pour eviter ambiguite car CHAM_NO => GRANDEUR='EFFO'
+# cela impliquerait d'enlever la valeur par defaut a GRANDEUR            
+               NUME_ORDRE_J    =SIMP(statut='o',typ='I',max='**'),
+               CHAM_NO         =SIMP(statut='f',typ=cham_no_sdaster),
+               NOEUD           =SIMP(statut='f',typ=no,max='**'),
+               b_noeud         =BLOC(condition = "NOEUD != None",
+                  NOM_CMP         =SIMP(statut='o',typ='TXM',max='**'),
+                ),  
+               GRANDEUR        =SIMP(statut='f',typ='TXM',defaut="DEPL_R",
+                           into=("DEPL_R","EFFO","SOUR_DEBI_VOLU","SOUR_DEBI_MASS","SOUR_PRESS","SOUR_FORCE")),
+# que se passe-t-il en cas d'incompatibilite entre GRANDEUR et NOM_CMP  
+               DERIVATION      =SIMP(statut='f',typ='I',defaut= 0,into=( 0 , 1 , 2 ) ),
+             ),           
+             b_noeud_i       =BLOC(condition = "NOEUD_I != None",
+               NOEUD_J         =SIMP(statut='o',typ=no,max='**'),
+               NOM_CMP_I       =SIMP(statut='o',typ='TXM',max='**'),
+               NOM_CMP_J       =SIMP(statut='o',typ='TXM',max='**'),
+               NOEUD           =SIMP(statut='o',typ=no,max='**'),
+               NOM_CMP         =SIMP(statut='o',typ='TXM',max='**'),
+# ne serait-il pas bien que NOEUD et NOM_CMP soient facultatifs, car l'information peut etre contenue dans
+# NOEUD_I, NOM_CMP_I ...  => modif. du Fortran
+               GRANDEUR        =SIMP(statut='f',typ='TXM',defaut="DEPL_R",
+                           into=("DEPL_R","EFFO","SOUR_DEBI_VOLU","SOUR_DEBI_MASS","SOUR_PRESS","SOUR_FORCE")),
+# que se passe-t-il en cas d'incompatibilite entre GRANDEUR et NOM_CMP_I  
+               DERIVATION      =SIMP(statut='f',typ='I',defaut= 0,into=( 0 , 1 , 2 ) ),
+             ),
+           ),  
+           b_modal_oui = BLOC(condition = "(MODAL == 'OUI')",
+# dans ce cas, y-a-t-il vraiment la possibilite d'une matrice interspectrale avec plusieurs termes
+             NUME_ORDRE_I    =SIMP(statut='o',typ='I',max='**'),
+             NUME_ORDRE_J    =SIMP(statut='o',typ='I',max='**'),
+             GRANDEUR        =SIMP(statut='f',typ='TXM',defaut="DEPL_R",
+                           into=("DEPL_R","EFFO","SOUR_DEBI_VOLU","SOUR_DEBI_MASS","SOUR_PRESS","SOUR_FORCE")),
+             DERIVATION      =SIMP(statut='f',typ='I',defaut= 0,into=( 0 , 1 , 2 ) ),
+# dans le cas MODAL=OUI, GRANDEUR peut-il etre different de EFFO et doit il etre impose a EFFO   On devrait
+# pouvoir supprimer GRANDEUR et DERIVATION ici   
+           ),  
+                    
+         ),
+         REPONSE         =FACT(statut='f',
+           regles=( ENSEMBLE('FREQ_MIN','FREQ_MAX'),),
+           DERIVATION      =SIMP(statut='f',typ='I',defaut= 0,into=( 0 , 1 , 2 ,) ),
+           OPTION          =SIMP(statut='f',typ='TXM',defaut="TOUT",into=("TOUT","DIAG") ),
+           FREQ_MIN        =SIMP(statut='f',typ='R' ),
+           FREQ_MAX        =SIMP(statut='f',typ='R' ),
+           PAS             =SIMP(statut='f',typ='R' ),
+           b_defaut_freq   =BLOC(condition = "FREQ_MIN == NONE",
+              FREQ_EXCIT      =SIMP(statut='f',typ='TXM',defaut="AVEC",into=("AVEC","SANS") ),
+              NB_POIN_MODE    =SIMP(statut='f',typ='I',defaut= 50 ),
+           ),
+         ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.        
+# ======================================================================
+# RESPONSABLE ZENTNER I.ZENTNER
+from Macro.dyna_iss_vari_ops import dyna_iss_vari_ops
+#
+DYNA_ISS_VARI=MACRO(nom="DYNA_ISS_VARI",op=dyna_iss_vari_ops ,sd_prod=table_fonction,
+                    fr="Calcul du spectre de réponse ou de la reponse temporelle sismique incoherente par decomposition spectrale",
+                    reentrant='n',
+                    UIinfo={"groupes":("Outils métier",)},        
+         NOM_CMP         =SIMP(statut='o',typ='TXM',into=("DX","DY","DZ") ),
+         PRECISION       =SIMP(statut='f',typ='R',defaut=0.999 ),
+         INTERF           =FACT(statut='o',
+            GROUP_NO_INTERF =SIMP(statut='o',typ=grma ,max='**'), 
+            MODE_INTERF  =SIMP(statut='o',typ='TXM',into=("CORP_RIGI","TOUT")),
+         ),      
+         MATR_COHE       =FACT(statut='o',
+            VITE_ONDE       =SIMP(statut='o',typ='R'),
+            PARA_ALPHA     =SIMP(statut='f',typ='R',defaut=0.5),           
+         ),
+#        FONC_MULT     =SIMP(statut='f',typ='R' ),
+         FREQ_INIT       =SIMP(statut='o',typ='R' ),
+         NB_FREQ       =SIMP(statut='o',typ='I' ),
+         PAS             =SIMP(statut='o',typ='R' ),     
+#        LIST_FREQ        =SIMP(statut='o',typ='liste' ),  
+         UNITE_RESU_FORC = SIMP(statut='f',typ='I',defaut=33),
+         UNITE_RESU_IMPE  = SIMP(statut='f',typ='I',defaut=32), 
+         TYPE             = SIMP(statut='f',typ='TXM',into=("BINAIRE","ASCII"), defaut="ASCII"),
+#
+         MATR_GENE         = FACT(statut='o',
+            MATR_MASS     = SIMP(statut='o',typ=(matr_asse_gene_r ) ),
+            MATR_RIGI     = SIMP(statut='o',typ=(matr_asse_gene_r,matr_asse_gene_c ) ),
+            MATR_AMOR     = SIMP(statut='f',typ=(matr_asse_gene_r,matr_asse_gene_c ) ), 
+         ),         
+#         
+#         OPTION        =SIMP(statut='f',typ='TXM',into=("TOUT","DIAG"),defaut="TOUT"),
+#             
+         INFO           =SIMP(statut='f',typ='I' ,defaut=1,into=( 1 , 2)),
+         )  ;
+#& 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.
+#
+# 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 ANDRIAM H.ANDRIAMBOLOLONA
+def dyna_line_harm_prod(MATR_RIGI,**args):
+   if (AsType(MATR_RIGI) == matr_asse_depl_r) : return dyna_harmo
+   elif (AsType(MATR_RIGI) == matr_asse_depl_c) : return dyna_harmo
+   elif (AsType(MATR_RIGI) == matr_asse_pres_c) : return acou_harmo
+   elif (AsType(MATR_RIGI) == matr_asse_gene_r) : return harm_gene
+   elif (AsType(MATR_RIGI) == matr_asse_gene_c) : return harm_gene
+   raise AsException("type de concept resultat non prevu")
+
+DYNA_LINE_HARM=OPER(nom="DYNA_LINE_HARM",op=  60,sd_prod=dyna_line_harm_prod,
+                    fr="Calcul de la réponse dynamique complexe d'un système à une excitation harmonique",
+                    reentrant='f',
+            UIinfo={"groupes":("Résolution",)},
+         regles=(PRESENT_ABSENT('AMOR_REDUIT','MATR_AMOR'),
+                 PRESENT_ABSENT('AMOR_REDUIT','LIST_AMOR'),
+                 PRESENT_ABSENT('MATR_AMOR','LIST_AMOR'),
+                 UN_PARMI('FREQ','LIST_FREQ'),
+                 CONCEPT_SENSIBLE('ENSEMBLE'),),
+         CHAM_MATER      =SIMP(statut='f',typ=cham_mater ),
+         CARA_ELEM       =SIMP(statut='f',typ=cara_elem ),
+         MATR_MASS       =SIMP(statut='o',typ=(matr_asse_depl_r,matr_asse_pres_c,matr_asse_gene_r ) ),
+         MATR_RIGI       =SIMP(statut='o',typ=(matr_asse_depl_r,matr_asse_depl_c,matr_asse_pres_c
+                                              ,matr_asse_gene_r,matr_asse_gene_c ) ),
+         MATR_AMOR       =SIMP(statut='f',typ=(matr_asse_depl_r,matr_asse_pres_c,matr_asse_gene_r ) ),
+         AMOR_REDUIT     =SIMP(statut='f',typ='R',max='**'),
+         LIST_AMOR       =SIMP(statut='f',typ=listr8_sdaster ),
+         MATR_IMPE_PHI   =SIMP(statut='f',typ=(matr_asse_depl_r,matr_asse_gene_r) ),
+         FREQ            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+         LIST_FREQ       =SIMP(statut='f',typ=listr8_sdaster ),
+         TOUT_CHAM       =SIMP(statut='f',typ='TXM',into=("OUI",)),
+         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'),
+                  ),
+           VECT_ASSE       =SIMP(statut='f',position='global',typ=(cham_no_sdaster,vect_asse_gene) ),
+           CHARGE          =SIMP(statut='f',position='global', typ=char_meca ),
+           TYPE_CHARGE     =SIMP(statut='f',typ='TXM',defaut="FIXE",into=("FIXE",) ),
+           FONC_MULT_C     =SIMP(statut='f',typ=(fonction_c,formule_c) ),
+           COEF_MULT_C     =SIMP(statut='f',typ='C' ),
+           FONC_MULT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           COEF_MULT       =SIMP(statut='f',typ='R' ),
+           PHAS_DEG        =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           PUIS_PULS       =SIMP(statut='f',typ='I',defaut= 0 ),
+         ),
+         b_modele_char =BLOC(condition = " CHARGE != None ",
+                       MODELE    =SIMP(statut='o',typ=modele_sdaster ),
+                       ),
+         b_modele_vect =BLOC(condition = " VECT_ASSE != None ",
+                       MODELE    =SIMP(statut='f',typ=modele_sdaster ),
+                       ),
+         EXCIT_RESU      =FACT(statut='f',max='**',
+           RESULTAT        =SIMP(statut='o',typ=(dyna_harmo,harm_gene)),
+           COEF_MULT_C     =SIMP(statut='o',typ='C' ),
+         ),
+         b_matr_gene =BLOC(condition = "AsType(MATR_MASS) in (matr_asse_gene_r,)",
+                           fr="Methode de resolution matrice generalisee",
+          SOLVEUR         =FACT(statut='d',
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="LDLT",into=("LDLT","MUMPS",) ),
+
+           b_ldlt_gene      =BLOC(condition = "METHODE == 'LDLT' ",fr="Paramètres de la méthode LDLT",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("RCMK","SANS") ),
+             NPREC           =SIMP(statut='f',typ='I',defaut=8),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+
+           b_mumps_gene     =BLOC(condition = "METHODE == 'MUMPS' ",fr="Paramètres de la méthode MUMPS",
+             TYPE_RESOL      =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("NONSYM","SYMGEN","SYMDEF","AUTO")),
+             PRETRAITEMENTS  =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("SANS","AUTO")),
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("AMD","AMF","PORD","METIS","QAMD","AUTO")),
+             ELIM_LAGR2      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+             PCENT_PIVOT     =SIMP(statut='f',typ='I',defaut=10,),
+             RESI_RELA       =SIMP(statut='f',typ='R',defaut=-1.0,),
+             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,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_matr_phys =BLOC(condition = "AsType(MATR_MASS) in (matr_asse_depl_r,matr_asse_pres_c,)",
+                           fr="Methode de resolution matrice sur ddl physique",
+          SOLVEUR         =FACT(statut='d',
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("MULT_FRONT","LDLT","MUMPS",) ),
+
+           b_mult_front_phys=BLOC(condition = "METHODE == 'MULT_FRONT' ",fr="Paramètres de la méthode multi frontale",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+             NPREC           =SIMP(statut='f',typ='I',defaut=8),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+
+           b_ldlt_phys      =BLOC(condition = "METHODE == 'LDLT' ",fr="Paramètres de la méthode LDLT",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("RCMK","SANS") ),
+             NPREC           =SIMP(statut='f',typ='I',defaut=8),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+
+           b_mumps_phys     =BLOC(condition = "METHODE == 'MUMPS' ",fr="Paramètres de la méthode MUMPS",
+             TYPE_RESOL      =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("NONSYM","SYMGEN","SYMDEF","AUTO")),
+             PRETRAITEMENTS  =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("SANS","AUTO")),
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("AMD","AMF","PORD","METIS","QAMD","AUTO")),
+             ELIM_LAGR2      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+             PCENT_PIVOT     =SIMP(statut='f',typ='I',defaut=10,),
+             RESI_RELA       =SIMP(statut='f',typ='R',defaut=-1.0,),
+             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,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")),
+             ),
+          ),
+         ),
+
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                               fr="Liste des paramètres de sensibilité.",
+                               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
+#& MODIF COMMANDE  DATE 06/10/2008   AUTEUR DEVESA G.DEVESA 
+#            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.
+#
+# 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 BOYERE E.BOYERE
+DYNA_LINE_TRAN=OPER(nom="DYNA_LINE_TRAN",op=  48,sd_prod=dyna_trans,
+                    fr="Calcul de la réponse dynamique transitoire à une excitation temporelle quelconque",
+                    reentrant='f',
+            UIinfo={"groupes":("Résolution",)},
+#         regles=(UN_PARMI('WILSON','DIFF_CENTRE','ADAPT'),),
+         regles=(UN_PARMI('NEWMARK','WILSON','DIFF_CENTRE','ADAPT'),
+                 CONCEPT_SENSIBLE('ENSEMBLE'),),
+         MODELE          =SIMP(statut='f',typ=modele_sdaster ),
+         CHAM_MATER      =SIMP(statut='f',typ=cham_mater ),
+         CARA_ELEM       =SIMP(statut='f',typ=cara_elem ),
+         MATR_MASS       =SIMP(statut='o',typ=matr_asse_depl_r ),
+         MATR_RIGI       =SIMP(statut='o',typ=matr_asse_depl_r ),
+         MATR_AMOR       =SIMP(statut='f',typ=matr_asse_depl_r ),
+         MODE_STAT       =SIMP(statut='f',typ=(mode_stat_depl,mode_stat_acce,mode_stat_forc,) ),
+         NEWMARK         =FACT(statut='f',
+           ALPHA           =SIMP(statut='f',typ='R',defaut= 0.25 ),
+           DELTA           =SIMP(statut='f',typ='R',defaut= 0.5 ),
+         ),
+         WILSON          =FACT(statut='f',
+           THETA           =SIMP(statut='f',typ='R',defaut= 1.4 ),
+         ),
+         DIFF_CENTRE     =FACT(statut='f',
+         ),
+         ADAPT           =FACT(statut='f',
+         ),
+         ETAT_INIT       =FACT(statut='f',
+           regles=(AU_MOINS_UN('DYNA_TRANS', 'DEPL_INIT', 'VITE_INIT', 'ACCE_INIT'),
+                   PRESENT_ABSENT('DYNA_TRANS', 'DEPL_INIT', 'VITE_INIT', 'ACCE_INIT'),),
+           DYNA_TRANS      =SIMP(statut='f',typ=dyna_trans ),
+           b_dyna_trans    =BLOC(condition = "DYNA_TRANS != None",
+             regles=(EXCLUS('NUME_INIT','INST_INIT' ),),
+             NUME_INIT       =SIMP(statut='f',typ='I' ),
+             INST_INIT       =SIMP(statut='f',typ='R' ),
+             b_inst_init     =BLOC(condition = "INST_INIT != 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',),),
+             ),
+           ),
+           DEPL_INIT       =SIMP(statut='f',typ=cham_no_sdaster),
+           VITE_INIT       =SIMP(statut='f',typ=cham_no_sdaster),
+           ACCE_INIT       =SIMP(statut='f',typ=cham_no_sdaster),
+         ),
+         EXCIT           =FACT(statut='f',max='**',
+           regles=(UN_PARMI('CHARGE','VECT_ASSE'),
+                   EXCLUS('CHARGE','COEF_MULT'),
+                   EXCLUS('FONC_MULT','COEF_MULT'),
+                   EXCLUS('ACCE','COEF_MULT'),
+                   PRESENT_ABSENT('ACCE','FONC_MULT'),
+                   PRESENT_PRESENT('ACCE','VITE','DEPL'),
+                   # PRESENT_ABSENT('MULT_APPUI','FONC_MULT'),
+                   ),
+           VECT_ASSE       =SIMP(statut='f',typ=cham_no_sdaster),
+           CHARGE          =SIMP(statut='f',typ=char_meca ),
+           FONC_MULT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           COEF_MULT       =SIMP(statut='f',typ='R' ),
+           TYPE_CHARGE     =SIMP(statut='f',typ='TXM',defaut="FIXE",into=("FIXE",) ),
+           ACCE            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           VITE            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DEPL            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           MULT_APPUI      =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+           DIRECTION       =SIMP(statut='f',typ='R',max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+         ),
+         EXCIT_RESU      =FACT(statut='f',max='**',
+           RESULTAT        =SIMP(statut='o',typ=dyna_trans ),
+           COEF_MULT       =SIMP(statut='o',typ='R' ),
+         ),
+         AMOR_MODAL      =FACT(statut='f',
+           MODE_MECA       =SIMP(statut='f',typ=mode_meca ),
+           AMOR_REDUIT     =SIMP(statut='f',typ='R',max='**'),
+           NB_MODE         =SIMP(statut='f',typ='I',defaut= 9999 ),
+         ),
+
+         SOLVEUR         =FACT(statut='d',
+         METHODE         =SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("MULT_FRONT","LDLT","GCPC","MUMPS","PETSC") ),
+
+           b_mult_front    =BLOC(condition = "METHODE == 'MULT_FRONT' ",fr="Paramètres de la méthode multi frontale",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+           ),
+
+           b_ldlt          =BLOC(condition = "METHODE == 'LDLT' ",fr="Paramètres de la méthode LDLT",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("RCMK","SANS") ),
+           ),
+
+           b_ldlt_mult     =BLOC(condition = "METHODE == 'LDLT' or METHODE == 'MULT_FRONT'",
+                                   fr="Paramètres relatifs à la non inversibilité de la matrice à factorise",
+             NPREC           =SIMP(statut='f',typ='I',defaut=8),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+
+           b_gcpc         =BLOC(condition = "METHODE == 'GCPC' ", fr="Paramètres de la méthode du gradient conjugué",
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC",),defaut="LDLT_INC" ),
+             NIVE_REMPLISSAGE=SIMP(statut='f',typ='I',defaut= 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= 0 ),
+           ),
+           b_mumps        =BLOC(condition = "METHODE == 'MUMPS' ",fr="Paramètres de la méthode MUMPS",
+             TYPE_RESOL      =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("NONSYM","SYMGEN","SYMDEF","AUTO")),
+             PRETRAITEMENTS  =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("SANS","AUTO")),
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("AMD","AMF","PORD","METIS","QAMD","AUTO")),
+             ELIM_LAGR2      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+             PCENT_PIVOT     =SIMP(statut='f',typ='I',defaut=10,),
+             RESI_RELA       =SIMP(statut='f',typ='R',defaut=-1.0,),
+             PARALLELISME    =SIMP(statut='f',typ='TXM',defaut="CENTRALISE",into=("CENTRALISE","CENTRALISE")),
+             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" ),
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC","JACOBI","SOR"),defaut="LDLT_INC" ),
+             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 ),
+           ),
+         ),
+
+         INCREMENT       =FACT(statut='o',max='**',
+           regles=(UN_PARMI('LIST_INST','FONC_INST','PAS'),),
+           LIST_INST       =SIMP(statut='f',typ=listr8_sdaster ),
+           FONC_INST       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           PAS             =SIMP(statut='f',typ='R' ),
+           b_pas           =BLOC(condition = "PAS != None",
+               INST_INIT       =SIMP(statut='f',typ='R' ),
+               INST_FIN        =SIMP(statut='f',typ='R' ),
+           ),
+           b_list_fonc     =BLOC(condition = "LIST_INST != None or FONC_INST != None",
+               regles=(EXCLUS('INST_FIN','NUME_FIN'),),
+               NUME_FIN        =SIMP(statut='f',typ='I' ),
+               INST_FIN        =SIMP(statut='f',typ='R' ),
+           ),
+           VITE_MIN        =SIMP(statut='f',typ='TXM',defaut="NORM",into=("MAXI","NORM") ),
+           COEF_MULT_PAS   =SIMP(statut='f',typ='R',defaut= 1.1 ),
+           COEF_DIVI_PAS   =SIMP(statut='f',typ='R',defaut= 1.33334 ),
+           PAS_LIMI_RELA   =SIMP(statut='f',typ='R',defaut= 1.E-6 ),
+           NB_POIN_PERIODE =SIMP(statut='f',typ='I',defaut= 50 ),
+           NMAX_ITER_PAS   =SIMP(statut='f',typ='I',defaut= 16 ),
+           PAS_CALCUL      =SIMP(statut='f',typ='I',defaut= 1 ),
+         ),
+         ARCHIVAGE       =FACT(statut='f',
+           regles=(UN_PARMI('LIST_ARCH','PAS_ARCH', ),),
+           LIST_ARCH       =SIMP(statut='f',typ=listis_sdaster ),
+           PAS_ARCH        =SIMP(statut='f',typ='I' ),
+           CHAM_EXCLU      =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**',into=("DEPL","VITE","ACCE") ),
+         ),
+         SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                               fr="Liste des paramétres de sensibilité.",
+                               ang="List of sensitivity parameters",
+         ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         INFO            =SIMP(statut='f',typ='I',into=(1,2) ),
+)  ;
+#& 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
+# 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 GREFFET N.GREFFET
+#
+DYNA_NON_LINE=OPER(nom="DYNA_NON_LINE",op= 70,sd_prod=evol_noli,reentrant='f',
+            fr="Calcul de l'évolution dynamique d'une structure dont le matériau ou la géométrie ont un comportement non linéaire",
+            UIinfo={"groupes":("Résolution",)},
+         regles=(AU_MOINS_UN('COMP_INCR','COMP_ELAS',),
+                 CONCEPT_SENSIBLE('ENSEMBLE'),),
+         MODELE          =SIMP(statut='o',typ=modele_sdaster),
+         CHAM_MATER      =SIMP(statut='o',typ=cham_mater),
+         MODE_STAT       =SIMP(statut='f',typ=(mode_stat_depl,mode_stat_acce,mode_stat_forc,)),
+         CARA_ELEM       =SIMP(statut='f',typ=cara_elem),
+         MASS_DIAG       =SIMP(statut='f',typ='TXM',into=("OUI","NON",) ),
+         EXCIT           =FACT(statut='o',max='**',
+           regles=(PRESENT_ABSENT('FONC_MULT','ACCE'),
+                   PRESENT_PRESENT('ACCE','VITE','DEPL'),
+                   # PRESENT_ABSENT('MULT_APPUI','FONC_MULT'),
+                   ),
+           TYPE_CHARGE     =SIMP(statut='f',typ='TXM',defaut="FIXE_CSTE",
+                                 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)),
+           ACCE            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+           VITE            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+           MULT_APPUI      =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+           DIRECTION       =SIMP(statut='f',typ='R',max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+         ),
+         EXCIT_GENE      =FACT(statut='f',max='**',
+           FONC_MULT       =SIMP(statut='f',typ=fonction_sdaster,max='**' ),
+           VECT_GENE       =SIMP(statut='f',typ=vect_asse_gene,max='**' ),
+         ),
+         SOUS_STRUC      =FACT(statut='f',min=01,max='**',
+                regles=(UN_PARMI('TOUT','SUPER_MAILLE'),),
+                CAS_CHARGE  =SIMP(statut='o',typ='TXM' ),
+                TOUT        =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                SUPER_MAILLE=SIMP(statut='f',typ=ma,validators=NoRepeat(),max='**',),
+                FONC_MULT   =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+              ),
+         AMOR_MODAL      =FACT(statut='f',
+           regles=(EXCLUS('AMOR_REDUIT','LIST_AMOR'),),
+           MODE_MECA       =SIMP(statut='f',typ=mode_meca),
+           AMOR_REDUIT     =SIMP(statut='f',typ='R',max='**' ),
+           LIST_AMOR       =SIMP(statut='f',typ=listr8_sdaster ),
+           NB_MODE         =SIMP(statut='f',typ='I',defaut= 9999 ),
+           REAC_VITE       =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         ),
+         PROJ_MODAL      =FACT(statut='f',max='**',
+           MODE_MECA       =SIMP(statut='o',typ=(mode_meca,base_modale)),
+           NB_MODE         =SIMP(statut='f',typ='I',defaut= 9999 ),
+           regles=(PRESENT_PRESENT('MASS_GENE','RIGI_GENE'),),
+           MASS_GENE       =SIMP(statut='f',typ=matr_asse_gene_r),
+           RIGI_GENE       =SIMP(statut='f',typ=matr_asse_gene_r),
+           AMOR_GENE       =SIMP(statut='f',typ=matr_asse_gene_r),
+         ),
+         COMP_INCR       =C_COMP_INCR(),
+         COMP_ELAS       =FACT(statut='f',max='**',
+           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",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           RESI_INTE_RELA  =SIMP(statut='f',typ='R',defaut= 1.0E-6),
+           ITER_INTE_MAXI  =SIMP(statut='f',typ='I',defaut= 10 ),
+           ITER_INTE_PAS   =SIMP(statut='f',typ='I',defaut= 0 ),
+           RESO_INTE       =SIMP(statut='f',typ='TXM',defaut="IMPLICITE",
+                                 into=("RUNGE_KUTTA_2","RUNGE_KUTTA_4","IMPLICITE")),
+         ),
+#-------------------------------------------------------------------
+         b_reuse =BLOC(condition = "reuse",fr="en mode concept reentrant : ETAT_INIT obligatoire",
+         ETAT_INIT       =FACT(statut='o',
+           regles=(AU_MOINS_UN('EVOL_NOLI','DEPL','VITE','ACCE','SIGM','VARI',),
+                   EXCLUS('EVOL_NOLI','DEPL',),
+                   EXCLUS('EVOL_NOLI','VITE'),
+                   EXCLUS('EVOL_NOLI','ACCE'),
+                   EXCLUS('EVOL_NOLI','SIGM',),
+                   EXCLUS('EVOL_NOLI','VARI',),
+                   EXCLUS('NUME_ORDRE','INST'), ),
+           DEPL            =SIMP(statut='f',typ=cham_no_sdaster),
+           VITE            =SIMP(statut='f',typ=cham_no_sdaster),
+           ACCE            =SIMP(statut='f',typ=cham_no_sdaster),
+           SIGM            =SIMP(statut='f',typ=(cham_elem,carte_sdaster)),
+           VARI            =SIMP(statut='f',typ=cham_elem),
+           EVOL_NOLI       =SIMP(statut='f',typ=evol_noli),
+           NUME_ORDRE      =SIMP(statut='f',typ='I'),
+           INST            =SIMP(statut='f',typ='R'),
+           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',),),
+           NUME_DIDI       =SIMP(statut='f',typ='I'),
+           INST_ETAT_INIT  =SIMP(statut='f',typ='R'),
+         ),),
+         b_not_reuse =BLOC(condition = "not reuse",fr="en mode concept non reentrant : ETAT_INIT facultatif",
+         ETAT_INIT       =FACT(statut='f',
+           regles=(AU_MOINS_UN('EVOL_NOLI','DEPL','VITE','ACCE','SIGM','VARI',),
+                   EXCLUS('EVOL_NOLI','DEPL',),
+                   EXCLUS('EVOL_NOLI','VITE'),
+                   EXCLUS('EVOL_NOLI','ACCE'),
+                   EXCLUS('EVOL_NOLI','SIGM',),
+                   EXCLUS('EVOL_NOLI','VARI',),
+                   EXCLUS('NUME_ORDRE','INST'), ),
+           DEPL            =SIMP(statut='f',typ=cham_no_sdaster),
+           VITE            =SIMP(statut='f',typ=cham_no_sdaster),
+           ACCE            =SIMP(statut='f',typ=cham_no_sdaster),
+           SIGM            =SIMP(statut='f',typ=(cham_elem,carte_sdaster)),
+           VARI            =SIMP(statut='f',typ=cham_elem),
+           EVOL_NOLI       =SIMP(statut='f',typ=evol_noli),
+           NUME_ORDRE      =SIMP(statut='f',typ='I'),
+           INST            =SIMP(statut='f',typ='R'),
+           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',),),
+           NUME_DIDI       =SIMP(statut='f',typ='I'),
+           INST_ETAT_INIT  =SIMP(statut='f',typ='R'),
+         ),),
+#-------------------------------------------------------------------
+         INCREMENT       =FACT(statut='o',
+           regles=(EXCLUS('NUME_INST_INIT','INST_INIT'),
+                   EXCLUS('NUME_INST_FIN','INST_FIN'),),
+           LIST_INST       =SIMP(statut='o',typ=listr8_sdaster),
+           NUME_INST_INIT  =SIMP(statut='f',typ='I'),
+           INST_INIT       =SIMP(statut='f',typ='R'),
+           NUME_INST_FIN   =SIMP(statut='f',typ='I'),
+           INST_FIN        =SIMP(statut='f',typ='R'),
+           PRECISION       =SIMP(statut='f',typ='R',defaut=1.0E-6 ),
+           # DEBUT DE BLOC POUR LA SUBDIVISION DES PAS DE TEMPS
+           SUBD_METHODE    =SIMP( statut='f',typ='TXM',
+              into =("AUCUNE","UNIFORME","EXTRAPOLE"),
+              defaut="UNIFORME",
+              fr="Méthode de subdivision des pas de temps en cas de non-convergence"
+           ),
+           b_subd_unif=BLOC(condition = "SUBD_METHODE == 'UNIFORME'",
+             regles=(AU_MOINS_UN('SUBD_NIVEAU','SUBD_PAS_MINI'),),
+             SUBD_COEF_PAS_1=SIMP(statut='f',typ='R',defaut=1.0,val_min=0.0,
+                fr="Coefficient multiplicateur de la 1ère subdivision"),
+             SUBD_PAS       =SIMP(statut='f',typ='I',defaut=4,val_min=2,
+                fr="Nombre de subdivision d'un pas de temps"),
+             SUBD_NIVEAU=SIMP(statut='f',typ='I',val_min=2,defaut=3,
+                fr="Nombre maximum de niveau de subdivision d'un pas de temps"),
+             SUBD_PAS_MINI=SIMP(statut='f',typ='R',val_min=0.0,
+                fr="Pas de temps en dessous duquel on ne subdivise plus"),
+           ),
+           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",),
+                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,
+                fr="Les n premières itérations sont ignorées pour l'extrapolation"),
+             SUBD_ITER_FIN  =SIMP(statut='c',typ='I',defaut=8,val_min=3,
+                fr="Seules les n dernières itérations sont prises pour l'extrapolation"),
+             SUBD_PAS       =SIMP(statut='c',typ='I',defaut=4,val_min=2,
+                fr="Nombre de subdivision d'un pas de temps en cas divergence"),
+             SUBD_NIVEAU=SIMP(statut='f',typ='I',val_min=2,
+                fr="Nombre maximum de niveau de subdivision d'un pas de temps"),
+             SUBD_PAS_MINI=SIMP(statut='f',typ='R',val_min=0.0,
+                fr="Pas de temps en dessous duquel on ne subdivise plus"),
+             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
+         ),
+#-------------------------------------------------------------------
+         SCHEMA_TEMPS     =FACT(statut='o',
+            SCHEMA          =SIMP(statut='o',min=1,max=1,typ='TXM',
+                                  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"),),),
+         ),
+         NEWTON          =FACT(statut='d',
+           REAC_INCR       =SIMP(statut='f',typ='I',defaut= 1,val_min=0 ),
+           PREDICTION      =SIMP(statut='f',typ='TXM',into=("TANGENTE","ELASTIQUE") ),
+           MATRICE         =SIMP(statut='f',typ='TXM',defaut="TANGENTE",into=("TANGENTE","ELASTIQUE") ),
+           REAC_ITER       =SIMP(statut='f',typ='I',defaut= 0,val_min=0),
+           REAC_ITER_ELAS  =SIMP(statut='f',typ='I',defaut=0,val_min=0),
+           PAS_MINI_ELAS   =SIMP(statut='f',typ='R',defaut=0.0E+0),
+         ),
+         SOLVEUR         =FACT(statut='d',
+           METHODE=SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("MULT_FRONT","LDLT","GCPC","MUMPS","FETI","PETSC") ),
+           b_mult_front    =BLOC(condition= "METHODE == 'MULT_FRONT' ",fr="Paramètres de la méthode multi frontale",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+           ),
+           b_ldlt          =BLOC(condition= "METHODE == 'LDLT'",fr="Paramètres de la méthode LDLT",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("RCMK","SANS") ),
+           ),
+           b_ldlt_mult     =BLOC(condition="METHODE == 'LDLT' or METHODE == 'MULT_FRONT'",
+                                   fr="Paramètres relatifs à la non inversibilité de la matrice à factorise",
+             NPREC           =SIMP(statut='f',typ='I',defaut= 8 ),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON","DECOUPE") ),
+           ),
+           b_mumps        =BLOC(condition = "METHODE == 'MUMPS' ",fr="Paramètres de la méthode MUMPS",
+             TYPE_RESOL      =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("NONSYM","SYMGEN","SYMDEF","AUTO")),
+             PRETRAITEMENTS  =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("SANS","AUTO")),
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("AMD","AMF","PORD","METIS","QAMD","AUTO")),
+             ELIM_LAGR2      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+             PCENT_PIVOT     =SIMP(statut='f',typ='I',defaut=10,),
+             RESI_RELA       =SIMP(statut='f',typ='R',defaut=-1.0,),
+             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,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",
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC",),defaut="LDLT_INC" ),
+             NIVE_REMPLISSAGE=SIMP(statut='f',typ='I',defaut=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= 0 ),
+           ),
+           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" ),
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC","JACOBI","SOR"),defaut="LDLT_INC" ),
+             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") ),
+         ),
+#-------------------------------------------------------------------
+         CONVERGENCE     =FACT(statut='d',
+           regles=(PRESENT_ABSENT('RESI_REFE_RELA','RESI_GLOB_MAXI','RESI_GLOB_RELA'),),
+           b_refe_rela    =BLOC(condition = "RESI_REFE_RELA != None",
+             regles=(AU_MOINS_UN('SIGM_REFE','EPSI_REFE','FLUX_THER_REFE',
+                                  'FLUX_HYD1_REFE','FLUX_HYD2_REFE','VARI_REFE'),),
+             SIGM_REFE       =SIMP(statut='f',typ='R'),
+             EPSI_REFE       =SIMP(statut='f',typ='R'),
+             FLUX_THER_REFE  =SIMP(statut='f',typ='R'),
+             FLUX_HYD1_REFE  =SIMP(statut='f',typ='R'),
+             FLUX_HYD2_REFE  =SIMP(statut='f',typ='R'),
+             VARI_REFE       =SIMP(statut='f',typ='R'),
+           ),
+           RESI_REFE_RELA  =SIMP(statut='f',typ='R'),
+           RESI_GLOB_MAXI  =SIMP(statut='f',typ='R'),
+           RESI_GLOB_RELA  =SIMP(statut='f',typ='R'),
+           ITER_GLOB_MAXI  =SIMP(statut='f',typ='I',defaut=10),
+           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),
+           ),
+           ARRET           =SIMP(statut='f',typ='TXM',defaut="OUI"),
+
+         ),
+#-------------------------------------------------------------------
+         OBSERVATION     =FACT(statut='f',max='**',
+           NOM_CMP         =SIMP(statut='o',typ='TXM',max='**' ),
+           SUIVI_DDL       =SIMP(statut='f',typ='TXM',defaut="NON",max=1,into=("OUI","NON")),
+         b_suivi          =BLOC(condition = "SUIVI_DDL == 'OUI' ",
+                                regles=(UN_PARMI('NOEUD','MAILLE','GROUP_NO','GROUP_MA','VALE_MIN','VALE_MAX'),
+                                                  PRESENT_PRESENT('MAILLE','POINT'),),
+             NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+             GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+             POINT           =SIMP(statut='f',typ='I' ,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             NOM_CHAM        =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',
+                                   into=("DEPL","VITE","ACCE","SIEF_ELGA",
+                                         "VARI_ELGA","FORC_NODA","DEPL_ABSOLU","VITE_ABSOLU","ACCE_ABSOLU",)),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             NUME_SUIVI      =SIMP(statut='o',typ='I' ,min=1,max=4),
+             VALE_MAX        =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max=1,into=("OUI",) ),
+             VALE_MIN        =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max=1,into=("OUI",) ),),
+         b_non_suivi      =BLOC(condition = "SUIVI_DDL == 'NON' ",
+                                regles=(UN_PARMI('NOEUD','GROUP_NO','MAILLE'),PRESENT_PRESENT('MAILLE','POINT'),),
+             NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+             GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+             POINT           =SIMP(statut='f',typ='I' ,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             NOM_CHAM        =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',into=("DEPL","VITE","ACCE","SIEF_ELGA",
+                                              "VARI_ELGA","DEPL_ABSOLU","VITE_ABSOLU","ACCE_ABSOLU")),
+             INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**' ),
+             LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+             PAS_OBSE        =SIMP(statut='f',typ='I'),
+             LIST_ARCH       =SIMP(statut='f',typ=listis_sdaster),
+             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',),),),
+         ),
+
+         AFFICHAGE      = FACT(statut='f',max=16,
+
+            UNITE       = SIMP(statut='f',typ='I',val_min=1),
+
+            LONG_R      = SIMP(statut='f',typ='I',defaut=12,val_min=1,val_max=12),
+            PREC_R      = SIMP(statut='f',typ='I',defaut=5, val_min=1,val_max=8),
+            LONG_I      = SIMP(statut='f',typ='I',defaut=6, val_min=1,val_max=12),
+
+            NOM_COLONNE = SIMP(statut='o',typ='TXM',defaut="STANDARD",
+                                into=("STANDARD","MINIMUM",
+                                      "ITER_NEWT",
+                                      "INCR_TPS",
+                                      "RESI_RELA","RELA_NOEU",
+                                      "RESI_MAXI","MAXI_NOEU",
+                                      "RESI_REFE","REFE_NOEU",
+                                      "RELI_ITER","RELI_COEF",
+                                      "PILO_PARA",
+                                      "MATR_ASSE",
+                                      "ITER_DEBO",
+                                      "CTCD_ITER","CTCD_GEOM","CTCD_NOEU",
+                                      "CTCC_GEOM","CTCC_FROT","CTCC_CONT",
+                                      "SUIV_1","SUIV_2","SUIV_3","SUIV_4",
+                                     ),
+                               ),
+            b_residu    = BLOC(condition = " NOM_COLONNE == 'RESI_RELA' or \
+                    NOM_COLONNE == 'RESI_MAXI' or\
+                    NOM_COLONNE == 'RESI_REFE' or\
+                    NOM_COLONNE == 'CTCD_GEOM' or\
+                    NOM_COLONNE == 'STANDARD' ",
+                            INFO_RESIDU = SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")),
+                          ),
+         ),
+#-------------------------------------------------------------------
+         ARCHIVAGE       =FACT(statut='f',
+           regles=(EXCLUS('PAS_ARCH','LIST_INST','INST'),
+                   EXCLUS('ARCH_ETAT_INIT','NUME_INIT'), ),
+           LIST_INST       =SIMP(statut='f',typ=(listr8_sdaster) ),
+           INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**' ),
+           PAS_ARCH        =SIMP(statut='f',typ='I' ),
+           PRECISION       =SIMP(statut='f',typ='R',defaut= 1.0E-6),
+           ARCH_ETAT_INIT  =SIMP(statut='f',typ='TXM',into=("OUI",)),
+           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",)),
+         ),
+
+#-------------------------------------------------------------------
+         CRIT_FLAMB     =FACT(statut='f',min=1,max=1,
+           NB_FREQ         =SIMP(statut='f',typ='I',max=1,defaut=3),
+           CHAR_CRIT       =SIMP(statut='f',typ='R',min=2,max=2,defaut=(-10.0,10.),
+                            fr="Valeur des deux charges critiques délimitant la bande de recherche en HPP"),
+           INST_CALCUL       =SIMP(statut='f',typ='TXM',defaut="LISTE_ARCHIVAGE",into=("LISTE_ARCHIVAGE","TOUT_PAS",) ),
+         ),
+         MODE_VIBR     =FACT(statut='f',min=1,max=1,
+           MATR_RIGI        =SIMP(statut='f',typ='TXM',defaut="ELASTIQUE",into=("ELASTIQUE","TANGENTE","SECANTE",) ),
+           NB_FREQ          =SIMP(statut='f',typ='I',max=1,defaut=3,
+                            fr="Nombre de fréquences propres à calculer"),
+           BANDE            =SIMP(statut='f',typ='R',min=2,max=2,
+                            fr="Valeur des deux fréquences délimitant la bande de recherche",),
+           INST_CALCUL       =SIMP(statut='f',typ='TXM',defaut="LISTE_ARCHIVAGE",into=("LISTE_ARCHIVAGE","TOUT_PAS",) ),
+         ),
+#-------------------------------------------------------------------
+           SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                               fr="Liste des paramètres de sensibilité",
+                               ang="List of sensitivity parameters"),
+#-------------------------------------------------------------------
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2) ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 ADOBES A.ADOBES
+DYNA_SPEC_MODAL=OPER(nom="DYNA_SPEC_MODAL",op= 147,sd_prod=table_fonction,
+                     fr="Calcul de la réponse par recombinaison modale d'une structure linéaire pour une excitation aléatoire",
+                     reentrant='n',
+            UIinfo={"groupes":("Résolution",)},
+         BASE_ELAS_FLUI  =SIMP(statut='o',typ=melasflu_sdaster ),
+         EXCIT           =FACT(statut='o',
+           INTE_SPEC_GENE  =SIMP(statut='o',typ=table_fonction),
+         ),
+         OPTION          =SIMP(statut='f',typ='TXM',defaut="TOUT",into=("TOUT","DIAG") ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& 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.
+#
+# 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 BOYERE E.BOYERE
+DYNA_TRAN_MODAL=OPER(nom="DYNA_TRAN_MODAL",op=  74,sd_prod=tran_gene,
+                     fr="Calcul de la réponse dynamique transitoire d'un système amorti ou non en coordonées généralisées"
+                        +" par superposition modale ou par sous structuration",
+                     reentrant='f',
+            UIinfo={"groupes":("Résolution",)},
+      regles=(EXCLUS('AMOR_REDUIT','AMOR_GENE','LIST_AMOR'),
+              PRESENT_ABSENT('MODE_STAT','MODE_CORR'),),
+         METHODE         =SIMP(statut='f',typ='TXM',defaut="EULER",
+                               into=("EULER","NEWMARK","DEVOGE","ADAPT","ITMI") ),
+         MASS_GENE       =SIMP(statut='o',typ=matr_asse_gene_r ),
+         RIGI_GENE       =SIMP(statut='o',typ=matr_asse_gene_r ),
+         AMOR_GENE       =SIMP(statut='f',typ=matr_asse_gene_r ),
+         AMOR_REDUIT     =SIMP(statut='f',typ='R',max='**'),
+         LIST_AMOR       =SIMP(statut='f',typ=listr8_sdaster ),
+         MODE_STAT       =SIMP(statut='f',typ=(mode_stat_depl,mode_stat_acce,mode_stat_forc) ),
+         MODE_CORR       =SIMP(statut='f',typ=(mult_elas,mode_stat_acce) ,),
+
+         ETAT_INIT       =FACT(statut='f',
+           regles=(EXCLUS('RESU_GENE','DEPL_INIT_GENE'),
+                   EXCLUS('RESU_GENE','VITE_INIT_GENE'),),
+           RESU_GENE       =SIMP(statut='f',typ=tran_gene ),
+           b_resu_gene     =BLOC(condition = "RESU_GENE != None",
+             INST_INIT       =SIMP(statut='f',typ='R' ),
+             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',),),
+           ),
+           DEPL_INIT_GENE  =SIMP(statut='f',typ=vect_asse_gene ),
+           VITE_INIT_GENE  =SIMP(statut='f',typ=vect_asse_gene ),
+         ),
+         INCREMENT       =FACT(statut='o',max='**',
+           INST_INIT       =SIMP(statut='f',typ='R' ),
+           INST_FIN        =SIMP(statut='o',typ='R' ),
+           PAS             =SIMP(statut='f',typ='R' ),
+           VERI_PAS        =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           VITE_MIN        =SIMP(statut='f',typ='TXM',defaut="NORM",into=("MAXI","NORM") ),
+           COEF_MULT_PAS   =SIMP(statut='f',typ='R',defaut= 1.1 ),
+           COEF_DIVI_PAS   =SIMP(statut='f',typ='R',defaut= 1.3333334 ),
+           PAS_LIMI_RELA   =SIMP(statut='f',typ='R',defaut= 1.0E-6 ),
+           NB_POIN_PERIODE =SIMP(statut='f',typ='I',defaut= 50 ),
+           NMAX_ITER_PAS   =SIMP(statut='f',typ='I',defaut= 16 ),
+         ),
+         ARCHIVAGE       =FACT(statut='f',
+           regles=(UN_PARMI('LIST_ARCH','PAS_ARCH'),),
+           LIST_ARCH       =SIMP(statut='f',typ=listis_sdaster ),
+           PAS_ARCH        =SIMP(statut='f',typ='I' ),
+         ),
+
+         NMAX_ITER       =SIMP(statut='f',typ='I',defaut= 20 ),
+         RESI_RELA       =SIMP(statut='f',typ='R',defaut= 1.0E-3 ),
+         LAMBDA          =SIMP(statut='f',typ='R',defaut= 10. ),
+
+         EXCIT           =FACT(statut='f',max='**',
+           regles=(UN_PARMI('FONC_MULT','COEF_MULT','ACCE'),
+                   PRESENT_PRESENT('ACCE','VITE','DEPL'),
+                   PRESENT_PRESENT('D_FONC_DT','D_FONC_DT2'),
+                   PRESENT_ABSENT('NUME_ORDRE','VECT_GENE','COEF_MULT'),
+                   EXCLUS('MULT_APPUI','CORR_STAT'),
+                   PRESENT_ABSENT('MULT_APPUI','COEF_MULT'),
+                   PRESENT_ABSENT('MULT_APPUI','FONC_MULT'),),
+           VECT_GENE       =SIMP(statut='f',typ=vect_asse_gene ),
+           NUME_ORDRE      =SIMP(statut='f',typ='I' ),
+           FONC_MULT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           COEF_MULT       =SIMP(statut='f',typ='R' ),
+           ACCE            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           VITE            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           DEPL            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           MULT_APPUI      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           DIRECTION       =SIMP(statut='f',typ='R',max='**'),
+           b_loca          =BLOC(condition= "DIRECTION != None",
+             regles=(EXCLUS('NOEUD','GROUP_NO'),),
+             NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+             GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           ),
+           CORR_STAT       =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           D_FONC_DT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           D_FONC_DT2      =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+         CHOC            =FACT(statut='f',max='**',
+           regles=(UN_PARMI('MAILLE','GROUP_MA','NOEUD_1','GROUP_NO_1' ),
+                   EXCLUS('NOEUD_2','GROUP_NO_2'),
+                   PRESENT_ABSENT('GROUP_MA','NOEUD_2','GROUP_NO_2'),
+                   PRESENT_ABSENT('MAILLE','NOEUD_2','GROUP_NO_2'),),
+           INTITULE        =SIMP(statut='f',typ='TXM' ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma,max='**'),
+           NOEUD_1         =SIMP(statut='f',typ=no),
+           NOEUD_2         =SIMP(statut='f',typ=no),
+           GROUP_NO_1      =SIMP(statut='f',typ=grno),
+           GROUP_NO_2      =SIMP(statut='f',typ=grno),
+           OBSTACLE        =SIMP(statut='o',typ=table_fonction),
+           ORIG_OBST       =SIMP(statut='f',typ='R',min=3,max=3),
+           NORM_OBST       =SIMP(statut='o',typ='R',min=3,max=3),
+           ANGL_VRIL       =SIMP(statut='f',typ='R' ),
+           JEU             =SIMP(statut='f',typ='R',defaut= 1. ),
+           DIST_1          =SIMP(statut='f',typ='R',val_min=0.E+0 ),
+           DIST_2          =SIMP(statut='f',typ='R',val_min=0.E+0 ),
+           SOUS_STRUC_1    =SIMP(statut='f',typ='TXM' ),
+           SOUS_STRUC_2    =SIMP(statut='f',typ='TXM' ),
+           REPERE          =SIMP(statut='f',typ='TXM',defaut="GLOBAL"),
+           RIGI_NOR        =SIMP(statut='f',typ='R' ),
+           AMOR_NOR        =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           RIGI_TAN        =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           AMOR_TAN        =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           COULOMB         =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+
+           LAME_FLUIDE     =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+           b_lame          =BLOC(condition="LAME_FLUIDE=='OUI'",
+               ALPHA           =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+               BETA            =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+               CHI             =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+               DELTA           =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           ),
+         ),
+         VERI_CHOC       =FACT(statut='f',max='**',
+           STOP_CRITERE    =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           SEUIL           =SIMP(statut='f',typ='R',defaut= 0.5 ),
+         ),
+         FLAMBAGE        =FACT(statut='f',max='**',
+           regles=(UN_PARMI('NOEUD_1','GROUP_NO_1'),
+                   EXCLUS('NOEUD_2','GROUP_NO_2'),),
+           NOEUD_1         =SIMP(statut='f',typ=no),
+           NOEUD_2         =SIMP(statut='f',typ=no),
+           GROUP_NO_1      =SIMP(statut='f',typ=grno),
+           GROUP_NO_2      =SIMP(statut='f',typ=grno),
+           OBSTACLE        =SIMP(statut='o',typ=table_fonction),
+           ORIG_OBST       =SIMP(statut='f',typ='R',max='**'),
+           NORM_OBST       =SIMP(statut='o',typ='R',max='**'),
+           ANGL_VRIL       =SIMP(statut='f',typ='R' ),
+           JEU             =SIMP(statut='f',typ='R',defaut= 1. ),
+           DIST_1          =SIMP(statut='f',typ='R' ),
+           DIST_2          =SIMP(statut='f',typ='R' ),
+           REPERE          =SIMP(statut='f',typ='TXM',defaut="GLOBAL"),
+           RIGI_NOR        =SIMP(statut='f',typ='R' ),
+           FNOR_CRIT       =SIMP(statut='f',typ='R' ),
+           FNOR_POST_FL    =SIMP(statut='f',typ='R' ),
+           RIGI_NOR_POST_FL=SIMP(statut='f',typ='R' ),
+         ),
+         ANTI_SISM       =FACT(statut='f',max='**',
+           regles=(UN_PARMI('NOEUD_1','GROUP_NO_1'),
+                   UN_PARMI('NOEUD_2','GROUP_NO_2'),),
+           NOEUD_1         =SIMP(statut='f',typ=no),
+           NOEUD_2         =SIMP(statut='f',typ=no),
+           GROUP_NO_1      =SIMP(statut='f',typ=grno),
+           GROUP_NO_2      =SIMP(statut='f',typ=grno),
+           RIGI_K1         =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           RIGI_K2         =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           SEUIL_FX        =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           C               =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           PUIS_ALPHA      =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           DX_MAX          =SIMP(statut='f',typ='R',defaut= 1. ),
+         ),
+         RELA_EFFO_DEPL  =FACT(statut='f',max='**',
+           NOEUD           =SIMP(statut='o',typ=no),
+           SOUS_STRUC      =SIMP(statut='f',typ='TXM' ),
+           NOM_CMP         =SIMP(statut='f',typ='TXM' ),
+           RELATION        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+         RELA_TRANSIS    =FACT(statut='f',max='**',
+           NOEUD           =SIMP(statut='o',typ=no),
+           SOUS_STRUC      =SIMP(statut='f',typ='TXM' ),
+           NOM_CMP         =SIMP(statut='f',typ='TXM' ),
+           RELATION        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+         RELA_EFFO_VITE  =FACT(statut='f',max='**',
+           NOEUD           =SIMP(statut='o',typ=no),
+           SOUS_STRUC      =SIMP(statut='f',typ='TXM' ),
+           NOM_CMP         =SIMP(statut='f',typ='TXM' ),
+           RELATION        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+         b_itmi          =BLOC(condition = "METHODE=='ITMI'",
+                regles=(ENSEMBLE('BASE_ELAS_FLUI','NUME_VITE_FLUI'),),
+                BASE_ELAS_FLUI  =SIMP(statut='f',typ=melasflu_sdaster ),
+                NUME_VITE_FLUI  =SIMP(statut='f',typ='I' ),
+                ETAT_STAT       =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+                PREC_DUREE      =SIMP(statut='f',typ='R',defaut= 1.E-2 ),
+                CHOC_FLUI       =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+                NB_MODE         =SIMP(statut='f',typ='I' ),
+                NB_MODE_FLUI    =SIMP(statut='f',typ='I' ),
+                TS_REG_ETAB     =SIMP(statut='f',typ='R' ),
+         ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+         IMPRESSION      =FACT(statut='f',max='**',
+           regles=(EXCLUS('TOUT','NIVEAU'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           NIVEAU          =SIMP(statut='f',typ='TXM',into=("DEPL_LOC","VITE_LOC","FORC_LOC","TAUX_CHOC") ),
+           INST_INIT       =SIMP(statut='f',typ='R' ),
+           INST_FIN        =SIMP(statut='f',typ='R' ),
+         ),
+
+
+         SOLVEUR         =FACT(statut='d', fr="Méthode de résolution des systèmes linéaires",
+         METHODE         =SIMP(statut='f',typ='TXM',defaut="LDLT",into=("LDLT","MUMPS","MULT_FRONT",) ),
+
+
+           b_ldlt          =BLOC(condition = "METHODE == 'LDLT' ",fr="Paramètres de la méthode LDLT",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("RCMK","SANS") ),
+             NPREC           =SIMP(statut='f',typ='I',defaut=8),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+
+           b_mult_front    =BLOC(condition = "METHODE == 'MULT_FRONT' ",fr="Paramètres de la méthode multi frontale",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+             NPREC           =SIMP(statut='f',typ='I',defaut=8),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+
+
+           b_mumps        =BLOC(condition = "METHODE == 'MUMPS' ",fr="Paramètres de la méthode MUMPS",
+             TYPE_RESOL      =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("NONSYM","SYMGEN","SYMDEF","AUTO")),
+             PRETRAITEMENTS  =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("SANS","AUTO")),
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("AMD","AMF","PORD","METIS","QAMD","AUTO")),
+             ELIM_LAGR2      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+             PCENT_PIVOT     =SIMP(statut='f',typ='I',defaut=10,),
+             RESI_RELA       =SIMP(statut='f',typ='R',defaut=-1.0,),
+             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,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")),
+             ),
+         ),
+
+
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+ )  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.
+#
+# 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 PELLET J.PELLET
+ENGENDRE_TEST=PROC(nom="ENGENDRE_TEST",op=178,
+                   UIinfo={"groupes":("Impression",)},
+                   fr="Engendre des tests pour la non régression du code (pour développeurs)",
+         UNITE           =SIMP(statut='f',typ='I',defaut=8),
+         FORMAT          =SIMP(statut='f',typ='TXM',into=("OBJET",) ),
+         FORMAT_R        =SIMP(statut='f',typ='TXM',defaut="1PE20.13"),
+         PREC_R          =SIMP(statut='f',typ='TXM',defaut="1.E-10"),
+#============================================================================
+         b_aster     =BLOC( condition = "FORMAT==None",
+            CO              =SIMP(statut='o',typ=(cham_gd_sdaster,resultat_sdaster,table_sdaster),
+                                  validators=NoRepeat(),max='**'),
+            TYPE_TEST       =SIMP(statut='f',typ='TXM',defaut="SOMM_ABS",into=("SOMM","SOMM_ABS","MAX","MIN") ),
+         ),
+#============================================================================
+         b_objet     =BLOC( condition = "FORMAT=='OBJET'",
+                            regles=(UN_PARMI('TOUT','CO'),),
+            TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+            CO              =SIMP(statut='f',typ=assd,validators=NoRepeat(),max='**'),
+            TYPE_TEST       =SIMP(statut='f',typ='TXM',defaut="SOMME",into=("SOMME",) ),
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 LEFEBVRE J.P.LEFEBVRE
+
+from Macro.exec_logiciel_ops import exec_logiciel_ops
+def exec_logiciel_prod(self, MAILLAGE, **args):
+   if MAILLAGE != None:
+      mcf = MAILLAGE[0]
+      self.type_sdprod(mcf['MAILLAGE'], maillage_sdaster)
+   return None
+
+EXEC_LOGICIEL = MACRO(nom="EXEC_LOGICIEL",op=exec_logiciel_ops, sd_prod=exec_logiciel_prod,
+                      fr="Exécute un logiciel ou une commande système depuis Aster",
+                      UIinfo={"groupes":("Outils métier",)},
+      
+      regles = (AU_MOINS_UN('LOGICIEL', 'MAILLAGE'),),
+      
+      LOGICIEL = SIMP(statut='f', typ='TXM'),
+      ARGUMENT = SIMP(statut='f', max='**', typ='TXM'),
+
+      MAILLAGE = FACT(statut='f',
+         FORMAT     = SIMP(statut='o', typ='TXM', into=("GMSH", "GIBI", "SALOME")),
+         UNITE_GEOM = SIMP(statut='f', typ='I', val_min=10, val_max=90, defaut=16,
+                           fr="Unité logique définissant le fichier (fort.N) contenant les données géométriques (datg)"),
+         UNITE      = SIMP(statut='f', typ='I', val_min=10, val_max=90, defaut=19,
+                           fr="Unité logique définissant le fichier (fort.N) produit par le mailleur"),
+         MAILLAGE   = SIMP(statut='o', typ=CO),
+      ),
+
+      CODE_RETOUR_MAXI = SIMP(statut='f', typ='I', defaut=0, val_min=-1,
+                              fr="Valeur maximale du code retour toléré (-1 pour l'ignorer)"),
+      
+      INFO     = SIMP(statut='f', typ='I', defaut=2, into=(1,2),),
+)
+#& MODIF COMMANDE  DATE 05/05/2008   AUTEUR NISTOR I.NISTOR 
+#            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.                                 
+#
+# 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 NISTOR I.NISTOR
+
+def extr_mode_prod(FILTRE_MODE,**args):
+  vale=FILTRE_MODE[0]['MODE']
+  if AsType(vale) == mode_meca   : return mode_meca
+  if AsType(vale) == mode_meca_c : return mode_meca_c
+  if AsType(vale) == mode_gene   : return mode_gene
+  raise AsException("type de concept resultat non prevu")
+
+EXTR_MODE=OPER(nom="EXTR_MODE",op= 168,sd_prod=extr_mode_prod,
+               reentrant='n',fr="Extraire séléctivement des modes des structures de données modales",
+            UIinfo={"groupes":("Résolution",)},
+         FILTRE_MODE     =FACT(statut='o',max='**',
+           regles=(UN_PARMI('TOUT_ORDRE','NUME_ORDRE','NUME_MODE','NUME_MODE_EXCLU','FREQ_MIN','CRIT_EXTR',),),
+           MODE            =SIMP(statut='o',typ=(mode_meca,mode_meca_c,mode_gene ) ),
+           TOUT_ORDRE      =SIMP(statut='f',typ='TXM',into=("OUI","NON") ),
+           NUME_ORDRE      =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+           NUME_MODE       =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+           NUME_MODE_EXCLU =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+           FREQ_MIN        =SIMP(statut='f',typ='R' ),
+           CRIT_EXTR       =SIMP(statut='f',typ='TXM',into=("MASS_EFFE_UN","MASS_GENE") ),
+           b_freq_min      =BLOC(condition = "FREQ_MIN != None",  
+             FREQ_MAX        =SIMP(statut='o',typ='R' ),
+             PRECISION       =SIMP(statut='f',typ='R',defaut= 1.E-3 ),
+           ),
+           b_crit_extr     =BLOC(condition = "CRIT_EXTR != None",
+             regles=(AU_MOINS_UN('SEUIL','SEUIL_X','SEUIL_Y','SEUIL_Z'),),
+             SEUIL           =SIMP(statut='f',typ='R'),
+             SEUIL_X         =SIMP(statut='f',typ='R'),
+             SEUIL_Y         =SIMP(statut='f',typ='R'),
+             SEUIL_Z         =SIMP(statut='f',typ='R'),
+           ),    
+         ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         IMPRESSION      =FACT(statut='f',
+           CUMUL           =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+           CRIT_EXTR       =SIMP(statut='f',typ='TXM',defaut="MASS_EFFE_UN",into=("MASS_EFFE_UN","MASS_GENE") ),
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 30/09/2008   AUTEUR REZETTE C.REZETTE 
+#            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.
+#
+# 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 LEFEBVRE J.P.LEFEBVRE
+
+def extr_resu_prod(RESULTAT,**args):
+  if AsType(RESULTAT) == evol_elas    : return evol_elas
+  if AsType(RESULTAT) == evol_noli    : return evol_noli
+  if AsType(RESULTAT) == evol_ther    : return evol_ther
+  if AsType(RESULTAT) == dyna_trans   : return dyna_trans
+  if AsType(RESULTAT) == dyna_harmo   : return dyna_harmo
+  if AsType(RESULTAT) == acou_harmo   : return acou_harmo
+  if AsType(RESULTAT) == mode_meca    : return mode_meca
+  if AsType(RESULTAT) == mode_acou    : return mode_acou
+  if AsType(RESULTAT) == mode_stat_depl :    return mode_stat_depl
+  if AsType(RESULTAT) == mode_stat_acce :    return mode_stat_acce
+  if AsType(RESULTAT) == mode_stat_forc :    return mode_stat_forc
+  if AsType(RESULTAT) == mult_elas    : return mult_elas
+  if AsType(RESULTAT) == fourier_elas : return fourier_elas
+  raise AsException("type de concept resultat non prevu")
+
+EXTR_RESU=OPER(nom="EXTR_RESU",op=176,sd_prod=extr_resu_prod,reentrant='f',
+            UIinfo={"groupes":("Résultats et champs",)},
+            fr="Extraire des champs au sein d'une SD Résultat",
+         regles=(CONCEPT_SENSIBLE('SEPARE'), 
+                 #REUSE_SENSIBLE(),
+                 DERIVABLE('RESULTAT'),),
+         RESULTAT        =SIMP(statut='o',typ=(evol_elas,dyna_trans,dyna_harmo,acou_harmo,mode_meca,
+                                               mode_acou,mode_stat_depl,mode_stat_acce,mode_stat_forc,evol_ther,evol_noli,
+                                               mult_elas,fourier_elas,fourier_ther ) ),
+
+         SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                                   fr="Liste des paramètres de sensibilité.",
+                                   ang="List of sensitivity parameters"),
+
+         ARCHIVAGE       =FACT(statut='f',
+           regles=(  UN_PARMI('NUME_ORDRE', 'INST', 'FREQ', 'NUME_MODE',
+                        'NOEUD_CMP', 'LIST_INST', 'LIST_FREQ', 'LIST_ORDRE',
+                        'NOM_CAS', 'LIST_ARCH', 'PAS_ARCH' ),
+                     EXCLUS( 'CHAM_EXCLU','NOM_CHAM' ),   ),
+           CHAM_EXCLU      =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+           NOM_CHAM        =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**',into=C_NOM_CHAM_INTO()),
+           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',),),
+           LIST_ARCH       =SIMP(statut='f',typ=listis_sdaster),
+           PAS_ARCH        =SIMP(statut='f',typ='I'),
+           NUME_ORDRE      =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+           LIST_ORDRE      =SIMP(statut='f',typ=listis_sdaster),
+           INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+           LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+           FREQ            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+           LIST_FREQ       =SIMP(statut='f',typ=listr8_sdaster),
+           NUME_MODE       =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+           NOEUD_CMP       =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+           NOM_CAS         =SIMP(statut='f',typ='TXM'),
+                               ),
+
+         TITRE           =SIMP(statut='f',typ='TXM',max='**' ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.        
+# ======================================================================
+# RESPONSABLE COURTOIS M.COURTOIS
+
+def extr_table_prod(TYPE_RESU,**args):
+  from Cata import cata
+  typ = TYPE_RESU.lower()
+  if hasattr(cata, typ):
+     return getattr(cata, typ)
+  raise AsException("type de concept resultat non prevu")
+
+EXTR_TABLE=OPER(nom="EXTR_TABLE",op=173,sd_prod=extr_table_prod,reentrant='n',
+            UIinfo={"groupes":("Résultats et champs",)},
+         fr="Extraire d'une table des concepts Code_Aster",
+         TYPE_RESU       =SIMP(statut='o',typ='TXM',),
+
+         TABLE           =SIMP(statut='o',typ=(table_sdaster,table_container)),
+
+         NOM_PARA        =SIMP(statut='o',typ='TXM'),
+
+         FILTRE          =FACT(statut='f',min=1,max='**',
+           NOM_PARA        =SIMP(statut='o',typ='TXM'),
+           CRIT_COMP       =SIMP(statut='f',typ='TXM',defaut="EQ",
+                                 into=("EQ","LT","GT","NE","LE","GE","VIDE",
+                                       "NON_VIDE","MAXI","ABS_MAXI","MINI","ABS_MINI") ),
+           b_vale          =BLOC(condition = "(CRIT_COMP in ('EQ','NE','GT','LT','GE','LE'))",
+              regles=(UN_PARMI('VALE','VALE_I','VALE_K','VALE_C',),),
+              VALE            =SIMP(statut='f',typ='R'),
+              VALE_I          =SIMP(statut='f',typ='I'),
+              VALE_C          =SIMP(statut='f',typ='C'),
+              VALE_K          =SIMP(statut='f',typ='TXM'),),
+
+           CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU") ),
+           PRECISION       =SIMP(statut='f',typ='R',defaut= 1.0E-3 ),
+         ),
+
+         TITRE           =SIMP(statut='f',typ='TXM',max='**' ),  
+)  ;
+#& MODIF COMMANDE  DATE 30/09/2008   AUTEUR REZETTE C.REZETTE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2007  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.        
+# ======================================================================
+# RESPONSABLE PELLET J.PELLET
+
+def factoriser_prod(MATR_ASSE,**args):
+  if AsType(MATR_ASSE) == matr_asse_depl_r : return matr_asse_depl_r
+  if AsType(MATR_ASSE) == matr_asse_depl_c : return matr_asse_depl_c
+  if AsType(MATR_ASSE) == matr_asse_temp_r : return matr_asse_temp_r
+  if AsType(MATR_ASSE) == matr_asse_temp_c : return matr_asse_temp_c
+  if AsType(MATR_ASSE) == matr_asse_pres_r : return matr_asse_pres_r
+  if AsType(MATR_ASSE) == matr_asse_pres_c : return matr_asse_pres_c
+  raise AsException("type de concept resultat non prevu")
+
+FACTORISER=OPER(nom="FACTORISER",op=14,sd_prod=factoriser_prod,
+               fr="Factoriser une matrice assemblée en un produit de deux matrices triangulaires"+
+                  "ou construire une matrice de préconditionnement pour une résolution par gradient conjugué",
+               reentrant='f', UIinfo={"groupes":("Résolution",)},
+         regles=(EXCLUS('BLOC_DEBUT','DDL_DEBUT'),
+                 EXCLUS('BLOC_FIN','DDL_FIN'),),
+         MATR_ASSE       =SIMP(statut='o',typ=(matr_asse_depl_r,matr_asse_depl_c,matr_asse_temp_r,
+                                               matr_asse_temp_c,matr_asse_pres_r,matr_asse_pres_c) ),
+
+         # mots clés pour solveur LDLT et MULT_FRONT:
+         STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         NPREC           =SIMP(statut='f',typ='I',defaut=8,val_min=0,),
+
+         # mots clés pour solveur LDLT :
+         BLOC_DEBUT      =SIMP(statut='f',typ='I',val_min=1,),
+         DDL_DEBUT       =SIMP(statut='f',typ='I',val_min=1,),
+         BLOC_FIN        =SIMP(statut='f',typ='I',val_min=1,),
+         DDL_FIN         =SIMP(statut='f',typ='I',val_min=1,),
+
+         # mots clés pour solveur MUMPS :
+         TYPE_RESOL      =SIMP(statut='f',typ='TXM',defaut='AUTO',into=('NONSYM','SYMGEN','SYMDEF','AUTO')),
+         PRETRAITEMENTS  =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("SANS","AUTO")),
+         PCENT_PIVOT     =SIMP(statut='f',typ='I',defaut=10,),
+         ELIM_LAGR2      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+         OUT_OF_CORE  =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")),
+         
+         # mots clés pour solveur GCPC et PETSc :
+         PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC","JACOBI","SOR"),defaut="LDLT_INC" ),
+         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),
+         ),
+
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         INFO            =SIMP(statut='f',typ='I',into=(1,2) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 LEFEBVRE J.P.LEFEBVRE
+FIN=PROC(nom="FIN",op=9999,repetable='n',fr="Fin d'une étude, fin du travail engagé par une des commandes DEBUT ou POURSUITE",
+            UIinfo={"groupes":("Gestion du travail",)},
+         FORMAT_HDF      =SIMP(fr="sauvegarde de la base GLOBALE au format HDF",statut='f',
+                               typ='TXM',defaut="NON",into=("OUI","NON",) ), 
+         RETASSAGE       =SIMP(fr="provoque le retassage de la base GLOBALE",
+                               statut='f',typ='TXM',defaut="NON",into=("OUI","NON",) ),
+         PERFORMANCE     =SIMP(fr="provoque l'impression d'un résumé des mesures de temps ",
+                               statut='f',typ='TXM',defaut="OUI",into=("OUI","NON",) ),
+         INFO_RESU       =SIMP(fr="provoque l'impression des informations sur les structures de données",
+                               statut='f',typ='TXM',defaut="OUI",into=("OUI","NON",) ),
+         UNITE           =SIMP(statut='f',typ='I',defaut=6),  
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 ADOBES A.ADOBES
+FONC_FLUI_STRU=OPER(nom="FONC_FLUI_STRU",op= 169,sd_prod=fonction_sdaster,
+                    reentrant='n',fr="Crée une fonction constante paramètrée par l'abscisse curviligne",
+            UIinfo={"groupes":("Fonction",)},
+         TYPE_FLUI_STRU  =SIMP(statut='o',typ=(type_flui_stru) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 DURAND C.DURAND
+def formule_prod(self,VALE,VALE_C,**args):
+   if   VALE   != None:
+      return formule
+   elif VALE_C != None:
+      return formule_c
+
+def form_pyth_ops(self,d):
+   NOM_PARA=self.etape['NOM_PARA']
+   VALE    =self.etape['VALE']
+   VALE_C  =self.etape['VALE_C']
+   if type(NOM_PARA) not in (list, tuple):
+      NOM_PARA = [NOM_PARA,]
+   if self.sd == None:
+      return
+   if VALE     != None :
+      texte = ''.join(VALE.splitlines())
+   elif VALE_C != None :
+      texte = ''.join(VALE_C.splitlines())
+   self.sd.setFormule(NOM_PARA, texte.strip())
+
+FORMULE=FORM(nom="FORMULE",op_init=form_pyth_ops,op=-5,
+             sd_prod=formule_prod,UIinfo={"groupes":("Fonction",)},
+             fr="Définit une formule réelle ou complexe à partir de son expression mathématique",
+         regles=(UN_PARMI('VALE','VALE_C',),),
+         VALE     =SIMP(statut='f',typ='TXM'),
+         VALE_C   =SIMP(statut='f',typ='TXM'),
+         NOM_PARA =SIMP(statut='o',typ='TXM',max='**'),
+);
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 ZENTNER I.ZENTNER
+GENE_FONC_ALEA=OPER(nom="GENE_FONC_ALEA",op= 118,sd_prod=table_fonction,
+                    fr="Génération de la fonction temporelle à partir d une matrice interspectrale",
+                    reentrant='n',
+            UIinfo={"groupes":("Fonction",)},
+         INTE_SPEC       =SIMP(statut='o',typ=table_fonction),
+         NUME_VITE_FLUI  =SIMP(statut='f',typ='I' ),
+         INTERPOL        =SIMP(statut='f',typ='TXM',defaut="OUI",into=("NON","OUI") ),
+         b_interpol_oui    =BLOC(condition = "INTERPOL == 'OUI' ",fr="Parametres cas interpolation autorisee",
+           DUREE_TIRAGE    =SIMP(statut='f',typ='R' ),
+           FREQ_INIT       =SIMP(statut='f',typ='R' ),
+           FREQ_FIN        =SIMP(statut='f',typ='R' ),
+             ),
+         NB_POIN         =SIMP(statut='f',typ='I'),
+         NB_TIRAGE       =SIMP(statut='f',typ='I',defaut= 1 ),
+         INIT_ALEA       =SIMP(statut='f',typ='I'),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2002  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.        
+# ======================================================================
+# RESPONSABLE ZENTNER I.ZENTNER
+def gene_matr_alea_prod(MATR_MOYEN,**args ):
+  if (AsType(MATR_MOYEN) == matr_asse_gene_r )  : return matr_asse_gene_r
+  if (AsType(MATR_MOYEN) == macr_elem_dyna) : return macr_elem_dyna
+  raise AsException("type de concept resultat non prevu")
+
+GENE_MATR_ALEA=OPER(nom="GENE_MATR_ALEA",op=  27,
+#sd_prod=matr_asse_gene_r,
+sd_prod=gene_matr_alea_prod,
+               fr="Générer une réalisation d'une matrice aléatoire réelle sym. déf. positive ou d'un macro élément dynamique",
+               reentrant='n',
+            UIinfo={"groupes":("Matrice",)},
+   MATR_MOYEN   = SIMP(statut='o', typ=(matr_asse_gene_r,macr_elem_dyna)),
+
+#    cas matrice generalisee 
+   b_matr =BLOC( condition = "AsType(MATR_MOYEN) in (matr_asse_gene_r,)",
+           COEF_VAR     = SIMP(statut='f', typ='R', defaut=0.1, val_min=0.E+0 ,
+                                fr="coefficient de variation de la matrice a generer" ),
+           ),
+#    cas macr_elem_dyna 
+   b_macr =BLOC( condition = "AsType(MATR_MOYEN) in (macr_elem_dyna,)",
+           fr="cas macr_elem_dyna (sous-structuratio)",
+           COEF_VAR_RIGI     = SIMP(statut='f', typ='R', defaut=0.1, val_min=0.E+0 ,
+                                fr="coefficient de variation de la matrice de raideur" ),
+           COEF_VAR_MASS     = SIMP(statut='f', typ='R', defaut=0., val_min=0.E+0 ,
+                                fr="coefficient de variation de la matrice de masse" ),
+           COEF_VAR_AMOR     = SIMP(statut='f', typ='R', defaut=0., val_min=0.E+0 ,
+                                fr="coefficient de variation de la matrice d'amortissement" ),),
+
+   INIT_ALEA    =SIMP(statut='f',typ='I'),
+) ;
+   
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2002  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.        
+# ======================================================================
+# RESPONSABLE ZENTNER I.ZENTNER
+from Macro.gene_vari_alea_ops import gene_vari_alea_ops,gene_vari_alea_init
+GENE_VARI_ALEA=MACRO(nom="GENE_VARI_ALEA",
+               op_init=gene_vari_alea_init,op=gene_vari_alea_ops,
+               sd_prod=reel,reentrant='n',
+               fr="Générer une réalisation d'une variable aléatoire réelle de loi de probabilité donnée (Gamma ou Exponentielle)",
+               UIinfo={"groupes":("Fonction",)},
+   TYPE       = SIMP(statut='f', typ='TXM', into=("EXP_TRONQUEE", "EXPONENTIELLE", "GAMMA"), defaut="GAMMA"),
+   b_gamma    =BLOC(condition = "TYPE == 'GAMMA' ",fr="Parametres loi gamma",
+           VALE_MOY   = SIMP(statut='f', typ='R', defaut=1.),
+           BORNE_INF  = SIMP(statut='f', typ='R', defaut=0.),
+           COEF_VAR   = SIMP(statut='f', typ='R', defaut=0.1),
+             ),
+   b_expo    =BLOC(condition = "TYPE == 'EXPONENTIELLE' ",fr="Parametres loi exponentielle",
+           VALE_MOY   = SIMP(statut='f', typ='R', defaut=0.),
+           BORNE_INF  = SIMP(statut='f', typ='R', defaut=-1.),
+             ),
+   b_expo_tronq    =BLOC(condition = "TYPE == 'EXP_TRONQUEE' ",fr="Parametres loi exponentielle tronquee",
+           VALE_MOY   = SIMP(statut='f', typ='R', defaut=0.),
+           BORNE_INF  = SIMP(statut='f', typ='R', defaut=-1.),
+           BORNE_SUP  = SIMP(statut='f', typ='R', defaut=1.),
+             ),
+   INIT_ALEA       =SIMP(statut='f',typ='I'),
+)
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.
+#
+# 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 LEFEBVRE J.P.LEFEBVRE
+IMPR_CO=PROC(nom="IMPR_CO",op=17,
+            UIinfo={"groupes":("Impression",)},
+             fr="Imprimer tous les objets JEVEUX qui constituent un concept utilisateur existant (pour les développeurs)",
+         regles=(UN_PARMI('CONCEPT','CHAINE','TOUT' ),),
+
+         UNITE           =SIMP(statut='f',typ='I',defaut=8),
+         NIVEAU          =SIMP(statut='f',typ='I',defaut=2,into=(-1,0,1,2) ),
+         ATTRIBUT        =SIMP(statut='f',typ='TXM',defaut="NON",into=("NON","OUI") ),
+         CONTENU         =SIMP(statut='f',typ='TXM',defaut="OUI",into=("NON","OUI") ),
+         BASE            =SIMP(statut='f',typ='TXM',defaut="G",into=(" ","G","V","L") ),
+         CONCEPT    =FACT(statut='f',max='**',
+             regles=(DERIVABLE('NOM'),),
+             NOM         =SIMP(statut='o',typ=assd,validators=NoRepeat(),max='**'),
+             SENSIBILITE =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),
+                                 fr="Paramètre de sensibilité.",
+                                 ang="Sensitivity parameter",max='**'),),        
+         CHAINE          =SIMP(statut='f',typ='TXM'),
+         POSITION        =SIMP(statut='f',typ='I',defaut=1),
+         TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+)  ;
+#& MODIF COMMANDE  DATE 06/05/2008   AUTEUR CNGUYEN C.NGUYEN 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2004  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.        
+# ======================================================================
+# RESPONSABLE COURTOIS M.COURTOIS
+from Macro.impr_fonction_ops import impr_fonction_ops
+
+IMPR_FONCTION=MACRO(nom="IMPR_FONCTION",op=impr_fonction_ops,sd_prod=None,
+                 fr="Imprime le contenu d'objets de type fonction ou liste de réels dans un fichier destiné à un traceur de courbe",
+            UIinfo={"groupes":("Fonction",)},
+         FORMAT          =SIMP(statut='o',typ='TXM',position='global',defaut='TABLEAU',
+                               into=("TABLEAU","AGRAF","XMGRACE",),),
+         b_pilote = BLOC(condition = "FORMAT == 'XMGRACE'",
+                        fr="Mots-clés propres à XMGRACE",
+           PILOTE          =SIMP(statut='f',typ='TXM',defaut='',
+                                 into=('','POSTSCRIPT','EPS','MIF','SVG','PNM','PNG','JPEG','PDF','INTERACTIF'),
+                            fr="Pilote de sortie, PNG/JPEG/PDF ne sont pas disponibles sur toutes les installations de xmgrace"),
+           UNITE           =SIMP(statut='f',typ='I',val_min=10,val_max=90,defaut=29,
+                                 fr="Unité logique définissant le fichier (fort.N) dans lequel on écrit"),
+         ),
+         b_agraf = BLOC(condition = "FORMAT == 'AGRAF'",
+                        fr="Mots-clés propres à AGRAF",
+           UNITE           =SIMP(statut='o',typ='I',defaut=25,
+                                 fr="Unité logique définissant le fichier (fort.N) dans lequel on écrit"),
+           UNITE_DIGR      =SIMP(statut='o',typ='I',defaut=26,
+                                 fr="Unité logique définissant le fichier dans lequel on écrit les directives Agraf"),
+         ),
+         # unite pour TABLEAU dans le bloc de mise en forme spécifique
+
+         COURBE          =FACT(statut='o',max='**',fr="Définition de la fonction à tracer",
+           regles=(UN_PARMI('FONCTION','LIST_RESU','FONC_X','ABSCISSE'),),
+           FONCTION        =SIMP(statut='f',typ=(fonction_sdaster, formule, fonction_c, nappe_sdaster),
+                                 fr="Fonction réelle ou complexe", ),
+           LIST_RESU       =SIMP(statut='f',typ=listr8_sdaster,
+                                 fr="Liste des ordonnees d'une fonction réelle définie par deux listes", ),
+           FONC_X          =SIMP(statut='f',typ=(fonction_sdaster,formule),
+                                 fr="Fonction abscisses d'une fonction paramétrique",),
+           ABSCISSE        =SIMP(statut='f',typ='R',max='**',
+                                 fr="Valeurs des abscisses", ),
+           b_fonction      =BLOC(condition = "FONCTION != None",
+             LIST_PARA       =SIMP(statut='f',typ=listr8_sdaster ),
+           ),
+           b_fonction_c  =BLOC(condition = "AsType(FONCTION) in (fonction_c, formule_c)",
+                                 fr="Fonction complexe définie par le mot-clé fonction",
+             PARTIE          =SIMP(statut='f',typ='TXM',into=("REEL","IMAG") ),
+           ),
+           b_list_resu     =BLOC(condition = "LIST_RESU != None",
+             LIST_PARA       =SIMP(statut='o',typ=listr8_sdaster ),
+           ),
+           b_fonc_x        =BLOC(condition = "FONC_X != None",
+             FONC_Y          =SIMP(statut='o',typ=(fonction_sdaster,formule),fr="Fonction ordonnées d une fonction paramétrique" ),
+             LIST_PARA       =SIMP(statut='f',typ=listr8_sdaster ),
+           ),
+           b_vale_resu     =BLOC(condition = "ABSCISSE != None",
+             ORDONNEE      =SIMP(statut='o',typ='R',max='**',
+                                 fr="Valeurs des ordonnées"),
+           ),
+
+           # mots-clés utilisant uniquement aux formats autres que TABLEAU
+           # mais ce serait trop pénible de devoir les supprimer quand on change de format
+           # donc on ne les met pas dans un bloc
+           # "pseudo" bloc mise en forme :
+               LEGENDE         =SIMP(statut='f',typ='TXM',
+                                    fr="Légende associée à la fonction" ),
+               STYLE           =SIMP(statut='f',typ='I',val_min=0,
+                                    fr="Style de la ligne représentant la fonction",),
+               COULEUR         =SIMP(statut='f',typ='I',val_min=0,
+                                    fr="Couleur associée à la fonction",),
+               MARQUEUR        =SIMP(statut='f',typ='I',val_min=0,
+                                    fr="Type du marqueur associé à la fonction",),
+               FREQ_MARQUEUR   =SIMP(statut='f',typ='I',defaut=0,
+                                    fr="Fréquence d impression du marqueur associé à la fonction", ),
+           # fin bloc mise en forme
+           
+           TRI             =SIMP(statut='f',typ='TXM',defaut="N",
+                                 fr="Choix du tri effectué sur les abscisses ou sur les ordonnées",
+                                 into=("N","X","Y","XY","YX") ),
+         ),
+         # Mise en page du tableau ou du graphique
+         b_tableau = BLOC(condition = "FORMAT == 'TABLEAU'",
+                          fr="Mots-clés propres au format Tableau",
+           UNITE           =SIMP(statut='o',typ='I',defaut=8,
+                                 fr="Unité logique définissant le fichier (fort.N) dans lequel on écrit"),
+           TITRE           =SIMP(statut='f',typ='TXM',
+                                 fr="Titre associé au graphique" ),
+           SOUS_TITRE      =SIMP(statut='f',typ='TXM',
+                                 fr="Sous-titre du graphique" ),
+           SEPARATEUR      =SIMP(statut='f',typ='TXM',defaut=' ',
+                                 fr="Séparateur des colonnes du tableau (ex : ' ', ';'...)"),
+           COMMENTAIRE     =SIMP(statut='f',typ='TXM',defaut='#',
+                                 fr="Caractère indiquant au traceur de fonction que la ligne peut etre ignorée"),
+           COMM_PARA       =SIMP(statut='f',typ='TXM',defaut='',
+                                 fr="Caractère utilisé pour commentariser la ligne des labels de colonnes"),
+           DEBUT_LIGNE     =SIMP(statut='f',typ='TXM',defaut='',
+                                 fr="Caractère de debut de ligne"),
+           FIN_LIGNE       =SIMP(statut='f',typ='TXM',defaut='\n',
+                                 fr="Caractère de fin de ligne"),
+         ),
+         b_graphique = BLOC(condition = "FORMAT != 'TABLEAU'",
+                        fr="Mise en page du graphique",
+           TITRE           =SIMP(statut='f',typ='TXM',
+                                 fr="Titre associé au graphique" ),
+           SOUS_TITRE      =SIMP(statut='f',typ='TXM',
+                                 fr="Sous-titre du graphique" ),
+           BORNE_X         =SIMP(statut='f',typ='R',min=2,max=2,
+                                 fr="Intervalles de variation des abscisses"),
+           BORNE_Y         =SIMP(statut='f',typ='R',min=2,max=2,
+                                 fr="Intervalles de variation des ordonnées"),
+           ECHELLE_X       =SIMP(statut='f',typ='TXM',defaut="LIN",into=("LIN","LOG"),
+                                 fr="Type d'échelle pour les abscisses" ),
+           ECHELLE_Y       =SIMP(statut='f',typ='TXM',defaut="LIN",into=("LIN","LOG"),
+                                 fr="Type d'échelle pour les ordonnées" ),
+           GRILLE_X        =SIMP(statut='f',typ='R',max=1,val_min=0.,
+                                 fr="Pas du quadrillage vertical" ),
+           GRILLE_Y        =SIMP(statut='f',typ='R',max=1,val_min=0.,
+                                 fr="Pas du quadrillage horizontal" ),
+           LEGENDE_X       =SIMP(statut='f',typ='TXM',
+                                 fr="Légende associée à l'axe des abscisses" ),
+           LEGENDE_Y       =SIMP(statut='f',typ='TXM',
+                                 fr="Légende associée à l'axe des ordonnées" ),
+         ),
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2) ),
+)  ;
+#& MODIF COMMANDE  DATE 30/09/2008   AUTEUR REZETTE C.REZETTE 
+#            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.                                 
+#
+# 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 BOYERE E.BOYERE
+IMPR_GENE=PROC(nom="IMPR_GENE",op= 157,
+            fr="Imprimer le résultat d'un calcul dynamique en variables généralisées au format RESULTAT",
+            UIinfo={"groupes":("Impression",)},
+         FORMAT          =SIMP(statut='f',typ='TXM',defaut="RESULTAT",into=("RESULTAT",) ),
+         UNITE           =SIMP(statut='f',typ='I',defaut=8),  
+         GENE            =FACT(statut='o',max='**',
+           regles=(EXCLUS('TOUT_ORDRE','NUME_ORDRE','INST','FREQ','NUME_MODE',
+                          'LIST_INST','LIST_FREQ','TOUT_MODE','TOUT_INST','LIST_ORDRE'),
+                   EXCLUS('TOUT_MODE','NUME_ORDRE','INST','FREQ','NUME_MODE',
+                          'LIST_INST','LIST_FREQ','TOUT_ORDRE','TOUT_INST','LIST_ORDRE'),
+                   EXCLUS('TOUT_INST','NUME_ORDRE','INST','FREQ','NUME_MODE',
+                          'LIST_INST','LIST_FREQ','TOUT_ORDRE','LIST_ORDRE'),
+                   EXCLUS('TOUT_CMP_GENE','NUME_CMP_GENE'),
+                   EXCLUS('TOUT_CHAM','NOM_CHAM'),
+                   EXCLUS('TOUT_PARA','NOM_PARA'),),
+#  faut-il faire des blocs selon le type de RESU_GENE                   
+           RESU_GENE       =SIMP(statut='o',typ=(vect_asse_gene, tran_gene, mode_gene, harm_gene)),
+           TOUT_ORDRE      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           NUME_ORDRE      =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+           LIST_ORDRE      =SIMP(statut='f',typ=listis_sdaster ),
+           INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+           LIST_INST       =SIMP(statut='f',typ=listr8_sdaster ),
+           TOUT_INST       =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           FREQ            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+           LIST_FREQ       =SIMP(statut='f',typ=listr8_sdaster ),
+           TOUT_MODE       =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           NUME_MODE       =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+           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',),),
+           TOUT_CMP_GENE   =SIMP(statut='f',typ='TXM',into=("OUI","NON") ),
+           NUME_CMP_GENE   =SIMP(statut='f',typ='I',max='**'),
+           TOUT_CHAM       =SIMP(statut='f',typ='TXM',into=("OUI","NON") ),
+           NOM_CHAM        =SIMP(statut='f',typ='TXM',max='**'),
+           TOUT_PARA       =SIMP(statut='f',typ='TXM',into=("OUI","NON") ),
+           NOM_PARA        =SIMP(statut='f',typ='TXM',max='**'),
+           SOUS_TITRE      =SIMP(statut='f',typ='TXM',max='**'),
+           INFO_CMP_GENE   =SIMP(statut='f',typ='TXM',into=("OUI","NON") ),
+           INFO_GENE       =SIMP(statut='f',typ='TXM',into=("OUI","NON") ),
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 LEFEBVRE J.P.LEFEBVRE
+IMPR_JEVEUX=PROC(nom="IMPR_JEVEUX",op=16,
+            UIinfo={"groupes":("Impression",)},
+                 fr="Imprimer le contenu des objets créés par JEVEUX (pour développeur)",
+         ENTITE          =SIMP(fr="choix de l'observation",statut='o',typ='TXM',
+                               into=("DISQUE","MEMOIRE","REPERTOIRE",    
+                                     "OBJET","ATTRIBUT","SYSTEME") ),
+         b_objet      =BLOC(condition = "(ENTITE=='OBJET')",
+            NOMOBJ          =SIMP(fr="nom d'objet",statut='f',typ='TXM' ),  
+            NUMOC           =SIMP(fr="numéro d objet de collection",statut='f',typ='I' ),  
+            NOMOC           =SIMP(fr="nom d'objet de collection",statut='f',typ='TXM' ),  
+         ),
+         b_attribut   =BLOC(condition = "(ENTITE=='ATTRIBUT')",
+            NOMOBJ          =SIMP(fr="nom de collection",statut='f',typ='TXM' ),  
+            NOMATR          =SIMP(fr="nom d attribut de collection",statut='f',typ='TXM',
+                                  into=('$$DESO','$$IADD','$$IADM','$$NOM','$$LONG',
+                                      '$$LONO','$$LUTI','$$NUM') ),
+         ),
+         b_systeme    =BLOC(condition = "(ENTITE=='SYSTEME')",
+            CLASSE          =SIMP(statut='o',typ='TXM',into=('G','V','L') ),  
+            NOMATR          =SIMP(fr="nom d attribut systeme",statut='f',typ='TXM',   
+                                  into=('$$CARA','$$IADD','$$GENR','$$TYPE','$$MARQ',
+                                      '$$DOCU','$$ORIG','$$RNOM','$$LTYP','$$LONG',
+                                      '$$LONO','$$DATE','$$LUTI','$$HCOD','$$INDX',
+                                      '$$TLEC','$$TECR','$$IADM','$$ACCE','$$USADI') ),
+         ),
+         b_repertoire =BLOC(condition = "(ENTITE=='REPERTOIRE')",
+            CLASSE          =SIMP(statut='f',typ='TXM',into=('G','V','L',' '),defaut=' '),  
+         ),
+         b_disque     =BLOC(condition = "(ENTITE=='DISQUE')",
+            CLASSE          =SIMP(statut='f',typ='TXM' ,into=('G','V','L',' '),defaut=' '),  
+         ),
+         IMPRESSION      =FACT(statut='f',
+           NOM             =SIMP(statut='f',typ='TXM' ),  
+           UNITE           =SIMP(statut='f',typ='I'),  
+         ),
+         COMMENTAIRE     =SIMP(statut='f',typ='TXM' ),  
+)  ;
+#& MODIF COMMANDE  DATE 06/05/2008   AUTEUR CORUS M.CORUS 
+#            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.                                 
+#
+# 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 CORUS M.CORUS
+
+IMPR_MACR_ELEM=PROC(nom="IMPR_MACR_ELEM",op= 160,
+                    UIinfo={"groupes":("Impression",)},
+         fr="Impression d'une structure de données MACR_ELEM_DYNA au format IDEAS MISS3D PLEXUS ou CADYRO",
+         MACR_ELEM_DYNA  =SIMP(statut='o',typ=macr_elem_dyna ),
+         FORMAT          =SIMP(statut='f',typ='TXM',defaut="IDEAS",
+                               into=("MISS_3D","IDEAS","CADYRO","PLEXUS") ),
+
+         b_plexus         =BLOC(condition = "FORMAT == 'IDEAS'",
+           UNITE           =SIMP(statut='f',typ='I',defaut=30),
+           VERSION          =SIMP(statut='f',typ='I',defaut= 5,into=( 5 ,) ),
+         ),             
+
+         b_ideas         =BLOC(condition = "FORMAT == 'PLEXUS'",
+           UNITE           =SIMP(statut='f',typ='I',defaut=30),
+           VERSION         =SIMP(statut='f',typ='I',defaut= 5,into=( 5 ,) ),
+         ),                      
+
+         b_miss_3d       =BLOC(condition = "FORMAT == 'MISS_3D'",
+           regles=(EXCLUS('AMOR_REDUIT','LIST_AMOR'),),
+           UNITE           =SIMP(statut='f',typ='I',defaut= 26 ),
+           SOUS_TITRE      =SIMP(statut='f',typ='TXM',max='**'),
+           AMOR_REDUIT     =SIMP(statut='f',typ='R'  ,max='**'),
+           LIST_AMOR       =SIMP(statut='f',typ=listr8_sdaster ),
+           GROUP_MA_INTERF =SIMP(statut='o',typ=grma ,max='**'),
+           GROUP_MA_FLU_STR=SIMP(statut='f',typ=grma,max='**'),
+           GROUP_MA_FLU_SOL=SIMP(statut='f',typ=grma,max='**'),
+           GROUP_MA_SOL_SOL=SIMP(statut='f',typ=grma,max='**'),
+           GROUP_MA_CONTROL=SIMP(statut='f',typ=grma,max='**'),
+           FORMAT_R        =SIMP(statut='f',typ='TXM',defaut="1PE12.5",into=("1PE12.5","1PE16.9") ),
+           IMPR_MODE_MECA  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           IMPR_MODE_STAT  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         ),
+
+         b_cadyro        =BLOC(condition = "FORMAT == 'CADYRO'",
+           SQUELETTE       =SIMP(statut='f',typ=squelette ),
+           UNITE_MODE_MECA =SIMP(statut='f',typ='I',defaut= 26 ),
+           UNITE_MODE_STAT =SIMP(statut='f',typ='I',defaut= 27 ),
+           UNITE_MAILLAGE  =SIMP(statut='f',typ='I',defaut= 28 ),
+           IMPR_MODE_MECA  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           IMPR_MODE_STAT  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         ),
+
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.
+#
+# 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 PELLET J.PELLET
+IMPR_MATRICE=PROC(nom="IMPR_MATRICE",op= 159,
+                  fr="Imprimer sur un fichier au format IDEAS des matrices élémentaires et assemblées",
+                  UIinfo={"groupes":("Impression",)},
+                  regles=(AU_MOINS_UN('MATR_ELEM','MATR_ASSE'),),
+# ======================================================================
+   MATR_ELEM       =FACT(statut='f',max='**',
+#
+           MATRICE     =SIMP(statut='o',typ=(matr_elem, vect_elem)),
+           FORMAT      =SIMP(statut='f',typ='TXM',defaut="IDEAS",into=("IDEAS",) ),
+#
+         b_format_ideas  =BLOC(condition="FORMAT=='IDEAS'",fr="unité logique d'impression et version IDEAS",
+           UNITE       =SIMP(statut='f',typ='I',defaut=30),
+           VERSION     =SIMP(statut='f',typ='I',defaut= 5,into=( 5 ,), ),  ),
+         ),
+# ======================================================================
+   MATR_ASSE       =FACT(statut='f',max='**',
+#
+           MATRICE     =SIMP(statut='o',typ=matr_asse_gd),
+           FORMAT      =SIMP(statut='f',typ='TXM',defaut="IDEAS",into=("IDEAS",) ),
+#
+         b_format_ideas  =BLOC(condition="FORMAT=='IDEAS'",fr="unité logique d'impression et version IDEAS",
+           UNITE       =SIMP(statut='f',typ='I',defaut=30),
+           VERSION     =SIMP(statut='f',typ='I',defaut= 5,into=( 5 ,), ),  ),
+#
+         ),
+# ======================================================================
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 DEVESA G.DEVESA
+IMPR_MISS_3D=PROC(nom="IMPR_MISS_3D",op= 162,
+            UIinfo={"groupes":("Impression",)},
+         fr="Impression des données d'entrée pour une étude sismique avec MISS3D",
+         regles=(UN_PARMI('INST_INIT','FREQ_INIT'),
+                 PRESENT_PRESENT('INST_INIT','INST_FIN'),
+                 PRESENT_PRESENT('FREQ_INIT','FREQ_FIN'),),
+         MACR_ELEM_DYNA  =SIMP(statut='o',typ=macr_elem_dyna ),
+         EXCIT           =FACT(statut='f',max='**',
+           regles=(UN_PARMI('FONC_MULT','COEF_MULT' ),),
+           VECT_ASSE       =SIMP(statut='f',typ=cham_no_sdaster),
+           FONC_MULT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           COEF_MULT       =SIMP(statut='f',typ='R' ),
+         ),
+         EXCIT_SOL       =FACT(statut='f',max='**',
+           DIRECTION       =SIMP(statut='o',typ='R',min=3,max=3),
+           FONC_SIGNAL     =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           NOM_CHAM        =SIMP(statut='f',typ='TXM',defaut="DEPL",
+                                 into=("DEPL","VITE","ACCE","FORC",) ),
+         ),
+         INST_INIT       =SIMP(statut='f',typ='R' ),
+         INST_FIN        =SIMP(statut='f',typ='R' ),
+         FREQ_INIT       =SIMP(statut='f',typ='R' ),
+         FREQ_FIN        =SIMP(statut='f',typ='R' ),
+         PAS             =SIMP(statut='o',typ='R' ),
+         UNITE           =SIMP(statut='f',typ='I',defaut= 26 ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2 ) ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2004  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.        
+# ======================================================================
+# RESPONSABLE THOMASSON D.THOMASSON
+#
+from Macro.impr_oar_ops import impr_oar_ops
+IMPR_OAR =MACRO(nom="IMPR_OAR",op= impr_oar_ops, sd_prod=None,
+               fr="Impression au format OAR",
+               UIinfo={"groupes":("Impression",)},
+   TYPE_CALC = SIMP(statut='o', typ='TXM',into=('COMPOSANT', 'MEF', 'TUYAUTERIE')),
+   b_composant =BLOC(condition = "TYPE_CALC == 'COMPOSANT' ",
+      regles = (AU_MOINS_UN('RESU_MECA','RESU_THER')),
+      DIAMETRE = SIMP(statut='o', typ='R'),
+      ORIGINE  = SIMP(statut='o', typ='TXM', defaut='INTERNE', into=('INTERNE', 'EXTERNE')),
+      COEF_U   = SIMP(statut='f', typ='R',   defaut=1.0),
+      ANGLE_C  = SIMP(statut='o', typ='R',   defaut=0.0),
+      REVET    = SIMP(statut='f', typ='TXM', defaut='NON', into=('OUI', 'NON')),
+      RESU_MECA = FACT(statut='f', max='**',
+         NUM_CHAR  = SIMP(statut='o', typ='I'),
+         TYPE      = SIMP(statut='o', typ='TXM', defaut='FX', into=('FX', 'FY', 'FZ', 'MX', 'MY', 'MZ', 'PRE')),
+         TABLE     = SIMP(statut='o', typ=table_sdaster),
+         TABLE_S   = SIMP(statut='f', typ=table_sdaster)),
+      RESU_THER = FACT(statut='f', max='**',
+         NUM_TRAN  = SIMP(statut='o', typ='I'),
+         TABLE_T   = SIMP(statut='o', typ=table_sdaster),
+         TABLE_TEMP= SIMP(statut='o', typ=table_sdaster),
+         TABLE_S   = SIMP(statut='f', typ=table_sdaster),
+         TABLE_ST  = SIMP(statut='f', typ=table_sdaster)),
+         ),
+   b_mef = BLOC(condition = "TYPE_CALC == 'MEF' ",
+      regles = (AU_MOINS_UN('RESU_MECA','RESU_THER')),
+      DIAMETRE = SIMP(statut='o', typ='R'),
+      ORIGINE  = SIMP(statut='o', typ='TXM', defaut='INTERNE', into=('INTERNE', 'EXTERNE')),
+      COEF_U   = SIMP(statut='f', typ='R',   defaut=1.0),
+      RESU_MECA = FACT(statut='f', max='**',
+         AZI       = SIMP(statut='o', typ='R'),
+         TABLE_T   = SIMP(statut='o', typ=table_sdaster),
+         TABLE_F   = SIMP(statut='o', typ=table_sdaster),
+         TABLE_P   = SIMP(statut='o', typ=table_sdaster),
+         TABLE_CA  = SIMP(statut='o', typ=table_sdaster)),
+      RESU_THER=FACT(statut='f', max='**',
+         AZI       = SIMP(statut='o', typ='R'),
+         NUM_CHAR  = SIMP(statut='o', typ='I'),
+         TABLE_T   = SIMP(statut='o', typ=table_sdaster),
+         TABLE_TI  = SIMP(statut='o', typ=table_sdaster)),
+      ),
+   b_tuyauterie = BLOC(condition = "TYPE_CALC == 'TUYAUTERIE' ",
+      RESU_MECA = FACT(statut='o', max='**',
+         NUM_CHAR  = SIMP(statut='o', typ='I'),
+         TABLE     = SIMP(statut='o', typ=table_sdaster),
+         MAILLAGE  = SIMP(statut='o', typ=maillage_sdaster)),
+         ),
+   UNITE = SIMP(statut='f',typ='I',defaut=38),
+   AJOUT = SIMP(statut='f', typ='TXM', defaut='NON', into=('OUI', 'NON')),
+   );
+#& 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
+# 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 COURTOIS M.COURTOIS
+IMPR_RESU=PROC(nom="IMPR_RESU",op=39,
+            UIinfo={"groupes":("Impression",)},
+               fr="Imprimer un maillage et/ou les résultats d'un calcul (différents formats)",
+         MODELE          =SIMP(statut='f',typ=modele_sdaster),
+
+         FORMAT          =SIMP(statut='f',typ='TXM',position='global',defaut="RESULTAT",
+                                 into=("RESULTAT","IDEAS","ASTER","CASTEM","ENSIGHT","MED","GMSH") ),
+
+         b_format_resultat  =BLOC(condition="FORMAT=='RESULTAT'",fr="unité logique d'impression au format RESULTAT",
+           UNITE           =SIMP(statut='f',typ='I',defaut=8),
+         ),
+
+         b_format_ideas  =BLOC(condition="FORMAT=='IDEAS'",fr="unité logique d'impression et version IDEAS",
+           UNITE           =SIMP(statut='f',typ='I',defaut=30),
+           VERSION         =SIMP(statut='f',typ='I',defaut=5,into=(4,5)),
+         ),
+
+         b_format_aster  =BLOC(condition="FORMAT=='ASTER'",fr="unité logique d'impression au format ASTER",
+           UNITE           =SIMP(statut='f',typ='I',defaut=26),
+         ),
+
+         b_format_castem =BLOC(condition="FORMAT=='CASTEM'",fr="unité logique d'impression et version CASTEM",
+           UNITE           =SIMP(statut='f',typ='I',defaut=37),
+           NIVE_GIBI       =SIMP(statut='f',typ='I',defaut=10,into=(3,10)),
+         ),
+
+         b_format_ensight  =BLOC(condition="FORMAT=='ENSIGHT'",fr="unité logique d'impression au format ENSIGHT",
+           UNITE           =SIMP(statut='f',typ='I',defaut=31),
+         ),
+
+         b_format_med  =BLOC(condition="FORMAT=='MED'",fr="unité logique d'impression au format MED",
+           UNITE           =SIMP(statut='f',typ='I',defaut=80),
+         ),
+
+         b_format_gmsh  =BLOC(condition="FORMAT=='GMSH'",fr="unité logique d'impression et version GMSH",
+           UNITE           =SIMP(statut='f',typ='I',defaut=37),
+           VERSION         =SIMP(statut='f',typ='R',defaut=1.2,into=(1.0,1.2)),
+         ),
+
+
+         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'),),
+         ),
+
+         RESU            =FACT(statut='o',max='**',
+
+           regles=(AU_MOINS_UN('CHAM_GD','RESULTAT','MAILLAGE'),
+                   EXCLUS('CHAM_GD','RESULTAT'),),
+           MAILLAGE        =SIMP(statut='f',typ=(maillage_sdaster,squelette)),
+           CHAM_GD         =SIMP(statut='f',typ=cham_gd_sdaster),
+           RESULTAT        =SIMP(statut='f',typ=resultat_sdaster),
+
+           b_info_med  =BLOC(condition="FORMAT=='MED'",
+             INFO_MAILLAGE   =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+           ),
+
+           b_sensibilite   =BLOC(condition="RESULTAT != None",
+                                 fr="Définition des paramètres de sensibilité",
+                                 ang="Definition of sensitivity parameters",
+             regles=(DERIVABLE('RESULTAT'),),
+             SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                                   fr="Liste des paramètres de sensibilité.",
+                                   ang="List of sensitivity parameters"),),
+
+           b_partie        =BLOC(condition="""(AsType(RESULTAT) in (dyna_harmo, acou_harmo) or
+                          AsType(CHAM_GD) != carte_sdaster) and FORMAT in ('CASTEM', 'GMSH', 'MED')""",
+             PARTIE          =SIMP(statut='f',typ='TXM',into=("REEL","IMAG") ),
+           ),
+           b_extrac        =BLOC(condition="RESULTAT != None",
+                                 fr="extraction d un champ de grandeur",
+             regles=(EXCLUS('TOUT_CHAM','NOM_CHAM'),
+                     EXCLUS('TOUT_ORDRE','NUME_ORDRE','INST','FREQ','NUME_MODE','NOEUD_CMP',
+                            'LIST_INST','LIST_FREQ','LIST_ORDRE','NOM_CAS','ANGL'),),
+             TOUT_CHAM       =SIMP(statut='f',typ='TXM',into=("OUI","NON") ),
+             NOM_CHAM        =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**',into=C_NOM_CHAM_INTO()),
+
+             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='**'),
+             LIST_ORDRE      =SIMP(statut='f',typ=listis_sdaster),
+             NOEUD_CMP       =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+             NOM_CAS         =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+             ANGL            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+             FREQ            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+             LIST_FREQ       =SIMP(statut='f',typ=listr8_sdaster),
+             INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+             LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+
+             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',),),
+             ),
+           ),
+###
+           b_parametres    =BLOC(condition="""(RESULTAT != None)and(FORMAT == 'RESULTAT')""",
+             regles=(EXCLUS('TOUT_PARA','NOM_PARA'),),
+             INFO_RESU       =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+             TOUT_PARA       =SIMP(statut='f',typ='TXM',into=("OUI","NON",) ),
+             NOM_PARA        =SIMP(statut='f',typ='TXM',max='**'),
+             FORM_TABL       =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON","EXCEL") ),
+           ),
+###
+           b_cmp=BLOC(condition="""((CHAM_GD != None)or(RESULTAT != None))and\
+           ((FORMAT == 'CASTEM')or(FORMAT == 'RESULTAT')or(FORMAT == 'IDEAS')or(FORMAT == 'ENSIGHT')or(FORMAT == 'MED'))""",
+                                fr="sélection des composantes",
+             regles=(EXCLUS('TOUT_CMP','NOM_CMP'),),
+             TOUT_CMP        =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             NOM_CMP         =SIMP(statut='f',typ='TXM',max='**'),
+           ),
+###
+           b_gmsh=BLOC(condition="""((CHAM_GD != None)or(RESULTAT != None))and((FORMAT == 'GMSH'))""",
+                                fr="sélection des composantes et des entités toplogiques",
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             TYPE_CHAM       =SIMP(statut='f',typ='TXM',defaut="SCALAIRE",
+                                   into=("VECT_2D","VECT_3D","SCALAIRE","TENS_2D","TENS_3D"),),
+             b_scal          =BLOC(condition = "TYPE_CHAM=='SCALAIRE'",
+               NOM_CMP         =SIMP(statut='f',typ='TXM',max='**' ),),
+             b_vect_2d       =BLOC(condition = "TYPE_CHAM=='VECT_2D'",
+               NOM_CMP         =SIMP(statut='o',typ='TXM',min=2,max=2 ),),
+             b_vect_3d       =BLOC(condition = "TYPE_CHAM=='VECT_3D'",
+               NOM_CMP         =SIMP(statut='o',typ='TXM',min=3,max=3 ),),
+             b_tens_2d       =BLOC(condition = "TYPE_CHAM=='TENS_2D'",
+               NOM_CMP         =SIMP(statut='o',typ='TXM',min=4,max=4 ),),
+             b_tens_3d       =BLOC(condition = "TYPE_CHAM=='TENS_3D'",
+               NOM_CMP         =SIMP(statut='o',typ='TXM',min=6,max=6 ),),
+           ),
+###
+           b_topologie=BLOC(condition="""((CHAM_GD != None)or(RESULTAT != None))and\
+           ((FORMAT == 'RESULTAT')or(FORMAT == 'IDEAS')or(FORMAT == 'MED'))""",
+                                fr="sélection des entités topologiques",
+             TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+             GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           ),
+###
+           b_valeurs=BLOC(condition="(FORMAT == 'RESULTAT')",
+                               fr="sélection sur les valeurs",
+             VALE_MAX        =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             VALE_MIN        =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             BORNE_SUP       =SIMP(statut='f',typ='R'),
+             BORNE_INF       =SIMP(statut='f',typ='R'),
+             IMPR_COOR       =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+             FORMAT_R        =SIMP(statut='f',typ='TXM',defaut="1PE12.5"),
+           ),
+
+           SOUS_TITRE      =SIMP(statut='f',typ='TXM',max='**'),
+         ),
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2) ),
+) ;
+#& MODIF COMMANDE  DATE 05/05/2008   AUTEUR NISTOR I.NISTOR 
+#            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.                                 
+#
+# 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 NISTOR I.NISTOR
+
+IMPR_STURM=PROC(nom="IMPR_STURM",op=32,fr="Calculer et imprimer le nombre de valeurs propres dans un intervalle donné",
+            UIinfo={"groupes":("Résolution",)},
+         MATR_A          =SIMP(statut='o',typ=(matr_asse_depl_r,matr_asse_temp_r,matr_asse_pres_r ) ),
+         MATR_B          =SIMP(statut='o',typ=(matr_asse_depl_r,matr_asse_temp_r,matr_asse_pres_r ) ),
+         TYPE_RESU       =SIMP(statut='f',typ='TXM',defaut="DYNAMIQUE",into=("MODE_FLAMB","DYNAMIQUE"),
+                               fr="Type d analyse" ),
+         b_dynamique  =BLOC(condition = "TYPE_RESU == 'DYNAMIQUE'",
+                            fr="Recheche du nombre de fréquences propres",
+             FREQ_MIN        =SIMP(statut='f',typ='R',defaut= 0.E+0 ,fr="Borne inférieure de l intervalle" ),
+             FREQ_MAX        =SIMP(statut='o',typ='R',fr="Borne supérieure de l intervalle" ),
+         ),
+         b_mode_flamb =BLOC(condition = "TYPE_RESU == 'MODE_FLAMB'",
+                            fr="Recherche du nombre de charges critiques",
+             CHAR_CRIT_MIN   =SIMP(statut='o',typ='R',fr="Borne inférieure de l intervalle" ),
+             CHAR_CRIT_MAX   =SIMP(statut='o',typ='R',fr="Borne supérieure de l intervalle" ),
+         ),
+         NPREC_SOLVEUR   =SIMP(statut='f',typ='I',defaut= 8 ),
+         NMAX_ITER_SHIFT =SIMP(statut='f',typ='I',defaut= 5 ),
+         UNITE           =SIMP(statut='f',typ='I',defaut=8),  
+         PREC_SHIFT      =SIMP(statut='f',typ='R',defaut= 1.E-2 ),
+         SEUIL_FREQ      =SIMP(statut='f',typ='R',defaut= 1.E-2 ),
+)  ;
+#& MODIF COMMANDE  DATE 06/05/2008   AUTEUR CNGUYEN C.NGUYEN 
+#            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.                                 
+#
+# 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 COURTOIS M.COURTOIS
+from Macro.impr_table_ops import impr_table_ops
+
+IMPR_TABLE=MACRO(nom="IMPR_TABLE",op=impr_table_ops,sd_prod=None,
+            UIinfo={"groupes":("Impression",)},
+                fr="Impression du contenu d'une table dans un fichier",
+           regles=(DERIVABLE("TABLE"),),
+   TABLE          =SIMP(statut='o',typ=table_sdaster),
+   SENSIBILITE    =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                         fr="Liste des paramètres de sensibilité.",
+                         ang="List of sensitivity parameters"),
+   FORMAT         =SIMP(statut='f',typ='TXM',defaut="TABLEAU",
+                         into=("TABLEAU","ASTER","TABLEAU_CROISE","AGRAF","XMGRACE",),),
+   b_pilote       =BLOC(condition = "FORMAT == 'XMGRACE'",
+                        fr="Mots-clés propres à XMGRACE",
+      PILOTE         =SIMP(statut='f',typ='TXM',defaut='',
+                           into=('','POSTSCRIPT','EPS','MIF','SVG','PNM','PNG','JPEG','PDF','INTERACTIF'),
+                      fr="Pilote de sortie, PNG/JPEG/PDF ne sont pas disponibles sur toutes les installations de xmgrace"),
+      UNITE          =SIMP(statut='f',typ='I',val_min=10,val_max=90,defaut=29,
+                           fr="Unité logique définissant le fichier (fort.N) dans lequel on écrit"),
+   ),
+   b_unite        =BLOC(condition = "FORMAT != 'XMGRACE'",
+      UNITE          =SIMP(statut='f',typ='I',defaut=8,
+                           fr="Unité logique définissant le fichier (fort.N) dans lequel on écrit"),
+   ),
+   FILTRE         =FACT(statut='f',max='**',
+      NOM_PARA       =SIMP(statut='o',typ='TXM'),
+      CRIT_COMP      =SIMP(statut='f',typ='TXM',defaut="EQ",
+                           into=("EQ","LT","GT","NE","LE","GE","VIDE",
+                                 "NON_VIDE","MAXI","ABS_MAXI","MINI","ABS_MINI"),),
+      b_vale         =BLOC(condition = "(CRIT_COMP in ('EQ','NE','GT','LT','GE','LE'))",
+         regles=(UN_PARMI('VALE','VALE_I','VALE_K','VALE_C',),),
+         VALE           =SIMP(statut='f',typ='R',max='**'),
+         VALE_I         =SIMP(statut='f',typ='I',max='**'),
+         VALE_C         =SIMP(statut='f',typ='C',max='**'),
+         VALE_K         =SIMP(statut='f',typ='TXM',max='**'),
+      ),
+      b_crit         =BLOC(condition = "CRIT_COMP in ('EQ','NE')",
+         CRITERE        =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU") ),
+         PRECISION      =SIMP(statut='f',typ='R',defaut= 1.0E-3 ),
+      ),
+   ),
+   TRI            =FACT(statut='f',
+      NOM_PARA       =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**'),
+      ORDRE          =SIMP(statut='f',typ='TXM',defaut="CROISSANT", # max='**',
+                           into=("CROISSANT","DECROISSANT") ),
+   ),
+   PAGINATION     =SIMP(statut='f',typ='TXM',max='**'),
+   FORMAT_R       =SIMP(statut='f',typ='TXM',defaut="E12.5"),
+   FORMAT_C       =SIMP(statut='f',typ='TXM',defaut="MODULE_PHASE",
+                              into=("MODULE_PHASE","REEL_IMAG") ),
+   NOM_PARA       =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+   IMPR_FONCTION  =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+
+   # Mise en page du tableau ou du graphique
+   b_tableau = BLOC(condition = "FORMAT == 'TABLEAU'",
+                    fr="Mots-clés propres au format Tableau",
+      SEPARATEUR      =SIMP(statut='f',typ='TXM',defaut=' ',
+                            fr="Séparateur des colonnes du tableau (ex : ' ', ';'...)"),
+      COMMENTAIRE     =SIMP(statut='f',typ='TXM',defaut='#',
+                            fr="Caractère indiquant au traceur de fonction que la ligne peut etre ignorée"),
+      COMM_PARA       =SIMP(statut='f',typ='TXM',defaut='',
+                            fr="Caractère utilisé pour commentariser la ligne des labels de colonnes"),
+      DEBUT_LIGNE     =SIMP(statut='f',typ='TXM',defaut='',
+                            fr="Caractère de debut de ligne"),
+      FIN_LIGNE       =SIMP(statut='f',typ='TXM',defaut='\n',
+                            fr="Caractère de fin de ligne"),
+    ),
+
+   # mise en forme pour les formats qui passent par Graph
+   b_forme         =BLOC(condition = "FORMAT == 'XMGRACE'",
+                         fr="Données de mise en forme du graphique",
+      # pour la courbe
+      LEGENDE         =SIMP(statut='f',typ='TXM',
+                            fr="Légende associée à la fonction" ),
+      STYLE           =SIMP(statut='f',typ='I',val_min=0,
+                            fr="Style de la ligne représentant la fonction",),
+      COULEUR         =SIMP(statut='f',typ='I',val_min=0,
+                            fr="Couleur associée à la fonction",),
+      MARQUEUR        =SIMP(statut='f',typ='I',val_min=0,
+                            fr="Type du marqueur associé à la fonction",),
+      FREQ_MARQUEUR   =SIMP(statut='f',typ='I',defaut=0,
+                            fr="Fréquence d impression du marqueur associé à la fonction", ),
+      # format du graphique
+      BORNE_X         =SIMP(statut='f',typ='R',min=2,max=2,
+                            fr="Intervalles de variation des abscisses"),
+      BORNE_Y         =SIMP(statut='f',typ='R',min=2,max=2,
+                            fr="Intervalles de variation des ordonnées"),
+      ECHELLE_X       =SIMP(statut='f',typ='TXM',defaut="LIN",into=("LIN","LOG"),
+                            fr="Type d'échelle pour les abscisses" ),
+      ECHELLE_Y       =SIMP(statut='f',typ='TXM',defaut="LIN",into=("LIN","LOG"),
+                            fr="Type d'échelle pour les ordonnées" ),
+      GRILLE_X        =SIMP(statut='f',typ='R',max=1,val_min=0.,
+                            fr="Pas du quadrillage vertical" ),
+      GRILLE_Y        =SIMP(statut='f',typ='R',max=1,val_min=0.,
+                            fr="Pas du quadrillage horizontal" ),
+      LEGENDE_X       =SIMP(statut='f',typ='TXM',
+                            fr="Légende associée à l'axe des abscisses" ),
+      LEGENDE_Y       =SIMP(statut='f',typ='TXM',
+                            fr="Légende associée à l'axe des ordonnées" ),
+   ),
+
+   TITRE          =SIMP(statut='f',typ='TXM',max='**'),
+   INFO           =SIMP(statut='f',typ='I',defaut=1,into=(1,2) ),
+)  
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 DURAND C.DURAND
+INCLUDE=MACRO(nom="INCLUDE",op=ops.build_include,
+            UIinfo={"groupes":("Gestion du travail",)},
+             fr="Débranchement vers un fichier de commandes secondaires",
+             sd_prod=ops.INCLUDE,op_init=ops.INCLUDE_context,fichier_ini=1,
+         UNITE = SIMP(statut='o',typ='I'),
+         INFO  = SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+);
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 DURAND C.DURAND
+INCLUDE_MATERIAU=MACRO(nom="INCLUDE_MATERIAU",op=-14,
+            UIinfo={"groupes":("Modélisation",)},
+         fr="Récupérer les caractéristiques d'un matériau dans le Catalogue Materiaux d'Aster ",
+         sd_prod=ops.INCLUDE_MATERIAU,op_init=ops.INCLUDE_context,fichier_ini=0,
+         NOM_AFNOR       =SIMP(statut='o',typ='TXM' ),  
+         TYPE_MODELE     =SIMP(statut='o',typ='TXM',into=("REF","PAR") ),
+         VARIANTE        =SIMP(statut='o',typ='TXM',     
+                               into=("A","B","C","D","E","F","G","H","I","J",    
+                                     "K","L","M","N","O","P","Q","R","S","T","U","V",   
+                                     "W","X","Y","Z",) ),
+         TYPE_VALE       =SIMP(statut='o',typ='TXM',into=("NOMI","MINI","MAXI") ),
+         NOM_MATER       =SIMP(statut='o',typ='TXM' ),  
+         UNITE           =SIMP(statut='f',typ='I',defaut= 32 ),  
+         EXTRACTION      =FACT(statut='f',max=99,
+           COMPOR          =SIMP(statut='o',typ='TXM' ),  
+           TEMP_EVAL       =SIMP(statut='o',typ='R' ),  
+         ),
+         UNITE_LONGUEUR  =SIMP(statut='f',typ='TXM',into=("M","MM"),defaut="M" ),  
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=(1,2) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2002  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.        
+# ======================================================================
+# RESPONSABLE LEFEBVRE J.P.LEFEBVRE
+INFO_EXEC_ASTER=OPER(nom="INFO_EXEC_ASTER",op=35,sd_prod=table_sdaster,
+                    fr="Récupère différentes informations propres à l'exécution en cours",
+                    reentrant='n',
+                    UIinfo={"groupes":("Gestion du travail",)},
+
+         regles=(),
+         LISTE_INFO     =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max=3,
+                              into=("CPU_RESTANT","UNITE_LIBRE","ETAT_UNITE"),),
+         b_etat_unite   =BLOC(condition = "'ETAT_UNITE' in LISTE_INFO", 
+            regles=(UN_PARMI('UNITE','FICHIER'),),
+            UNITE          =SIMP(statut='f',typ='I',val_min=1,val_max=99,max=1,
+                                 fr="Unité logique dont on veut obtenir l'état",),
+            FICHIER        =SIMP(statut='f',typ='TXM',validators=LongStr(1,255),
+                                 fr="Nom du fichier dont on veut obtenir l'état",),
+         ),
+         TITRE          =SIMP(statut='f',typ='TXM',max='**'),
+         INFO           =SIMP(statut='f',typ='I',defaut=1,into=(1,2) ),
+)  ;
+#& MODIF COMMANDE  DATE 30/09/2008   AUTEUR REZETTE C.REZETTE 
+#            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.        
+# ======================================================================
+# RESPONSABLE COURTOIS M.COURTOIS
+from Macro.info_fonction_ops import info_fonction_ops
+def info_fonction_prod(self,ECART_TYPE,RMS,NOCI_SEISME,MAX,NORME, **args):
+   if (RMS         != None): return table_sdaster
+   if (MAX         != None): return table_sdaster
+   if (NOCI_SEISME != None): return table_sdaster
+   if (ECART_TYPE  != None): return table_sdaster
+   if (NORME       != None): return table_sdaster
+   raise AsException("type de concept resultat non prevu")
+
+INFO_FONCTION=MACRO(nom="INFO_FONCTION",op=info_fonction_ops,sd_prod=info_fonction_prod
+                    ,fr="Opérations mathématiques sur des concepts de type fonction, fonction_c ou nappe",
+                     reentrant='n',
+            UIinfo={"groupes":("Fonction",)},
+         regles=(UN_PARMI('MAX','RMS','NOCI_SEISME','NORME','ECART_TYPE',),),
+         RMS             =FACT(statut='f',fr="Valeur RMS d'une fonction",max='**',
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="TRAPEZE",into=("SIMPSON","TRAPEZE") ),
+           FONCTION        =SIMP(statut='o',typ=fonction_sdaster ),
+           INST_INIT       =SIMP(statut='f',typ='R',fr="Instant initial définissant le début du signal" ),
+           INST_FIN        =SIMP(statut='f',typ='R',fr="Instant final définissant la fin du signal" ),
+           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,val_min=0.E+0),),
+           b_prec_abso=BLOC(condition="(CRITERE=='ABSOLU')",
+              PRECISION       =SIMP(statut='o',typ='R'),),
+         ),
+         NOCI_SEISME     =FACT(statut='f',
+           regles=(UN_PARMI('FONCTION','SPEC_OSCI',),),
+           FONCTION        =SIMP(statut='f',typ=fonction_sdaster ),
+           SPEC_OSCI       =SIMP(statut='f',typ=nappe_sdaster ),
+           b_option_f      =BLOC(condition="""FONCTION !=None""",
+             OPTION          =SIMP(statut='f',typ='TXM',defaut="TOUT",validators=NoRepeat(),max='**',
+                                   into=("INTE_ARIAS","POUV_DEST","INTE_SPEC","VITE_ABSO_CUMU",
+                                         "DUREE_PHAS_FORT","MAXI","ACCE_SUR_VITE","TOUT",), ),
+             b_amor_red          =BLOC(condition="""OPTION in ("TOUT", "INTE_SPEC") """,
+                AMOR_REDUIT     =SIMP(statut='o',typ='R'),),
+             b_pesanteur         =BLOC(condition="""OPTION in ("TOUT", "INTE_ARIAS", "POUV_DEST", "DUREE_PHAS_FORT") """,
+                PESANTEUR       =SIMP(statut='o',typ='R'),),
+           ),
+           b_option_n      =BLOC(condition="""SPEC_OSCI !=None""",
+             OPTION          =SIMP(statut='f',typ='TXM',defaut="INTE_SPEC",into=("INTE_SPEC",), ),
+             NATURE          =SIMP(statut='o',typ='TXM',into=("DEPL","VITE","ACCE") ),
+             AMOR_REDUIT     =SIMP(statut='o',typ='R'), ),
+           INST_INIT       =SIMP(statut='f',typ='R'),
+           INST_FIN        =SIMP(statut='f',typ='R'),
+           COEF            =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           FREQ_INIT       =SIMP(statut='f',typ='R',defaut= 4.E-1 ),
+           FREQ_FIN        =SIMP(statut='f',typ='R',defaut= 10.E+0 ),
+           LIST_FREQ       =SIMP(statut='f',typ=listr8_sdaster ),
+           FREQ            =SIMP(statut='f',typ='R',max='**'),
+           NORME           =SIMP(statut='f',typ='R',defaut= 1.E+0 ),
+           BORNE_INF       =SIMP(statut='f',typ='R',defaut= 0.05E+0 ),
+           BORNE_SUP       =SIMP(statut='f',typ='R',defaut= 0.95E+0 ),
+           b_acce_reel     =BLOC(condition="(INST_INIT != None)or(INST_FIN != None)or(FREQ_INIT != None)or(FREQ_FIN != 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,val_min=0.E+0),),
+                  b_prec_abso=BLOC(condition="(CRITERE=='ABSOLU')",
+                      PRECISION       =SIMP(statut='o',typ='R'),),
+           ),
+         ),
+         MAX             =FACT(statut='f',fr="Extrémas locaux d'une fonction",
+           FONCTION        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster),max='**' ),
+         ),
+         NORME           =FACT(statut='f',fr="Norme L2 d'une fonction",
+            FONCTION      =SIMP(statut='o', typ=nappe_sdaster),
+         ),     
+         ECART_TYPE      =FACT(statut='f',fr="Ecart-type d'une fonction",
+            METHODE       =SIMP(statut='f',typ='TXM',defaut="TRAPEZE",into=("SIMPSON","TRAPEZE") ),
+            FONCTION      =SIMP(statut='o',typ=fonction_sdaster),
+            INST_INIT     =SIMP(statut='f',typ='R',fr="Instant initial définissant le début du signal" ),
+            INST_FIN      =SIMP(statut='f',typ='R',fr="Instant final définissant la fin du signal" ),
+            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,val_min=0.E+0),),
+            b_prec_abso=BLOC(condition="(CRITERE=='ABSOLU')",
+                PRECISION       =SIMP(statut='o',typ='R'),),
+         ),     
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2) ),
+)
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 DESROCHES X.DESROCHES
+INTE_MAIL_2D=OPER(nom="INTE_MAIL_2D",op=50,sd_prod=courbe_sdaster,
+            UIinfo={"groupes":("Post traitements",)},
+                  fr="Définition d'une courbe dans un maillage 2D",reentrant='n',
+
+         MAILLAGE        =SIMP(statut='o',typ=(maillage_sdaster) ),
+
+         regles=(PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),
+                 AU_MOINS_UN('DEFI_SEGMENT','DEFI_ARC','DEFI_CHEMIN'),
+                 PRESENT_ABSENT('DEFI_CHEMIN','DEFI_SEGMENT','DEFI_ARC'),
+                 PRESENT_ABSENT('DEFI_SEGMENT','NOEUD_ORIG','GROUP_NO_ORIG'),
+                 PRESENT_ABSENT('DEFI_ARC','NOEUD_ORIG','GROUP_NO_ORIG'),
+                 EXCLUS('NOEUD_ORIG','GROUP_NO_ORIG'),
+                 EXCLUS('DEFI_CHEMIN','DEFI_SEGMENT'),
+                 EXCLUS('DEFI_CHEMIN','DEFI_ARC'),),
+
+         TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+         GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+         MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+
+         DEFI_SEGMENT    =FACT(statut='f',max='**',
+           regles=(UN_PARMI('ORIGINE','NOEUD_ORIG','GROUP_NO_ORIG'),
+                   UN_PARMI('EXTREMITE','NOEUD_EXTR','GROUP_NO_EXTR'),),
+           ORIGINE         =SIMP(statut='f',typ='R',min=2,max=2),  
+           NOEUD_ORIG      =SIMP(statut='f',typ=no,),
+           GROUP_NO_ORIG   =SIMP(statut='f',typ=grno,),
+           EXTREMITE       =SIMP(statut='f',typ='R',min=2,max=2),  
+           NOEUD_EXTR      =SIMP(statut='f',typ=no,),
+           GROUP_NO_EXTR   =SIMP(statut='f',typ=grno,),
+         ),
+
+         DEFI_ARC        =FACT(statut='f',max='**',
+           regles=(UN_PARMI('CENTRE','NOEUD_CENTRE','GROUP_NO_CENTRE'),
+                   UN_PARMI('RAYON','ORIGINE','NOEUD_ORIG','GROUP_NO_ORIG'),
+                   UN_PARMI('RAYON','EXTREMITE','NOEUD_EXTR','GROUP_NO_EXTR'),               
+                   PRESENT_PRESENT('RAYON','SECTEUR'),),
+           CENTRE          =SIMP(statut='f',typ='R',min=2,max=2),  
+           NOEUD_CENTRE    =SIMP(statut='f',typ=no,),
+           GROUP_NO_CENTRE =SIMP(statut='f',typ=grno,),
+           RAYON           =SIMP(statut='f',typ='R',val_min=0.E+0),  
+           SECTEUR         =SIMP(statut='f',typ='R',min=2,max=2,
+                                 val_min=-180.E+0,val_max=180E+0),  
+           ORIGINE         =SIMP(statut='f',typ='R',min=2,max=2),  
+           NOEUD_ORIG      =SIMP(statut='f',typ=no,),
+           GROUP_NO_ORIG   =SIMP(statut='f',typ=grno,),
+           EXTREMITE       =SIMP(statut='f',typ='R',min=2,max=2),  
+           NOEUD_EXTR      =SIMP(statut='f',typ=no,),
+           GROUP_NO_EXTR   =SIMP(statut='f',typ=grno,),
+           PRECISION       =SIMP(statut='f',typ='R',defaut= 1.0E-3 ),  
+           CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",    
+                                 into=("RELATIF","ABSOLU",) ),
+         ),
+
+         DEFI_CHEMIN     =FACT(statut='f',max='**',
+           regles=(UN_PARMI('MAILLE','GROUP_MA'),),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+         ),
+
+         NOEUD_ORIG      =SIMP(statut='f',typ=no,),
+         GROUP_NO_ORIG   =SIMP(statut='f',typ=grno,),
+         PRECISION       =SIMP(statut='f',typ='R',defaut=1.0E-3),  
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 DESROCHES X.DESROCHES
+INTE_MAIL_3D=OPER(nom="INTE_MAIL_3D",op=96,sd_prod=surface_sdaster,
+            UIinfo={"groupes":("Post traitements",)},
+                  fr="Définir un chemin de type segment de droite dans un maillage 3D",reentrant='n',
+         MAILLAGE        =SIMP(statut='o',typ=maillage_sdaster),
+         TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+         GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+         MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+         DEFI_SEGMENT    =FACT(statut='o',max='**',
+           regles=(UN_PARMI('ORIGINE','NOEUD_ORIG','GROUP_NO_ORIG'),
+                   UN_PARMI('EXTREMITE','NOEUD_EXTR','GROUP_NO_EXTR'),),
+           ORIGINE         =SIMP(statut='f',typ='R',min=3,max=3),  
+           NOEUD_ORIG      =SIMP(statut='f',typ=no,),
+           GROUP_NO_ORIG   =SIMP(statut='f',typ=grno,),
+           EXTREMITE       =SIMP(statut='f',typ='R',min=3,max=3),  
+           NOEUD_EXTR      =SIMP(statut='f',typ=no,),
+           GROUP_NO_EXTR   =SIMP(statut='f',typ=grno,),
+         ),
+         PRECISION       =SIMP(statut='f',typ='R',defaut=1.0E-6),  
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+)  ;
+#& MODIF COMMANDE  DATE 30/09/2008   AUTEUR REZETTE C.REZETTE 
+#            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.                                 
+#
+# 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 COURTOIS M.COURTOIS
+def lire_champ_prod(TYPE_CHAM=None,**args):
+# Remarque : si cette liste évolue, il faut penser à mettre à jour son
+#            homologue dans macr_adap_mail
+  import string
+#  
+  if TYPE_CHAM[0:5] == "NOEU_" : return cham_no_sdaster
+  if TYPE_CHAM[0:2] == "EL"    : return cham_elem
+  raise AsException("type de concept resultat non prevu")
+
+LIRE_CHAMP=OPER(nom="LIRE_CHAMP",op= 192,sd_prod=lire_champ_prod,
+                fr="Lire un champ dans un fichier au format MED et le stocker dans un concept.",
+                reentrant='n',UIinfo={"groupe":("Résultats et champs",)},
+         MAILLAGE        =SIMP(statut='o',typ=maillage_sdaster,),
+         FORMAT          =SIMP(statut='f',typ='TXM',defaut="MED",into=("MED",),),
+         UNITE           =SIMP(statut='f',typ='I',defaut= 81,),  
+         b_format =BLOC(condition = "FORMAT == 'MED'",
+         regles=( UN_PARMI('NOM_CMP_IDEM','NOM_CMP'),
+                  PRESENT_PRESENT('NOM_CMP','NOM_CMP_MED' ),
+                  EXCLUS('NUME_ORDRE','INST'),
+                  EXCLUS('NUME_PT','INST'),),
+            NOM_MED      =SIMP(statut='o',typ='TXM', ),
+            NOM_CMP_IDEM =SIMP(statut='f',typ='TXM',into=("OUI",), ),
+            NOM_CMP      =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**',),
+            NOM_CMP_MED  =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**',),
+            PROL_ZERO    =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON",),
+               fr="Affecte des valeurs nulles la ou le champ n'est pas defini (sinon il y a NaN)"),
+            NUME_PT      =SIMP(statut='f',typ='I'  ,validators=NoRepeat(),max='**',),
+            NUME_ORDRE   =SIMP(statut='f',typ='I'  ,validators=NoRepeat(),max='**',
+                           fr="Numero d ordre du champ à lire",ang="Rank of the field to be read" ),
+            INST         =SIMP(statut='f',typ='R',fr="Instant associé",ang="Instant" ),
+#
+            b_precision     =BLOC(condition="(INST != None)",
+                  CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU",),
+                  fr="Critère de précision sur le choix de l'instant associé",
+                  ang="Accuracy criterium over instant choice" ),
+                  b_prec_rela=BLOC(condition="(CRITERE=='RELATIF')",
+                      PRECISION       =SIMP(statut='f',typ='R',defaut= 1.E-6,
+                      fr="Précision sur le choix de l'instant associé",ang="Accuracy over instant choice" ),),
+                  b_prec_abso=BLOC(condition="(CRITERE=='ABSOLU')",
+                      PRECISION       =SIMP(statut='o',typ='R',
+                      fr="Précision sur le choix de l'instant associé",ang="Accuracy over instant choice" ),),),
+#
+            NOM_MAIL_MED =SIMP(statut='f',typ='TXM',),
+                  ),
+#        Remarque : si cette liste évolue, il faut penser à mettre à jour son
+#                   homologue dans macr_adap_mail
+         TYPE_CHAM       =SIMP(statut='o',typ='TXM',into=C_TYPE_CHAM_INTO()),
+         b_modele =BLOC(condition = "TYPE_CHAM!=None and TYPE_CHAM[0:2] == 'EL'",
+            MODELE      =SIMP(statut='o',typ=modele_sdaster, ),
+                  ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=(1,2) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 COURTOIS M.COURTOIS
+
+from Macro.lire_fonction_ops import lire_fonction_ops
+
+def lire_fonction_prod(self,TYPE,**args):
+  if   (TYPE == 'FONCTION')  : return fonction_sdaster
+  elif (TYPE == 'FONCTION_C'): return fonction_c
+  elif (TYPE == 'NAPPE'   )  : return nappe_sdaster
+  raise AsException("type de concept resultat non prevu")
+
+LIRE_FONCTION=MACRO(nom="LIRE_FONCTION",op=lire_fonction_ops,sd_prod=lire_fonction_prod,
+                   fr="Lit les valeurs réelles dans un fichier de données représentant une fonction et"
+                     +" crée un concept de type fonction ou nappe",
+                   reentrant='n',
+            UIinfo={"groupes":("Fonction",)},
+         FORMAT          =SIMP(statut='f',typ='TXM',into=("LIBRE",),defaut="LIBRE"  ),
+         TYPE            =SIMP(statut='f',typ='TXM',into=("FONCTION","FONCTION_C","NAPPE"),defaut="FONCTION"  ),
+         SEPAR           =SIMP(statut='f',typ='TXM',into=("None",",",";","/"),defaut="None" ),
+         INDIC_PARA      =SIMP(statut='f',typ='I',min=2,max=2,defaut=[1,1]),
+         b_fonction      =BLOC(condition = "TYPE=='FONCTION' ",
+           INDIC_RESU      =SIMP(statut='f',typ='I',min=2,max=2,defaut=[1,2]), ),
+         b_fonction_c    =BLOC(condition = "TYPE=='FONCTION_C' ",
+           FORMAT_C        =SIMP(statut='f',typ='TXM',defaut="REEL_IMAG",into=("REEL_IMAG","MODULE_PHASE") ),
+           b_reel_imag     =BLOC(condition = "FORMAT_C=='REEL_IMAG' ",
+             INDIC_REEL      =SIMP(statut='o',typ='I',min=2,max=2,defaut=[1,2]),
+             INDIC_IMAG      =SIMP(statut='o',typ='I',min=2,max=2,defaut=[1,3]), ) ,
+           b_modu_phas     =BLOC(condition = "FORMAT_C=='MODULE_PHASE' ",
+             INDIC_MODU      =SIMP(statut='o',typ='I',min=2,max=2,defaut=[1,2]),
+             INDIC_PHAS      =SIMP(statut='o',typ='I',min=2,max=2,defaut=[1,3]), ), ),
+         b_nappe         =BLOC(condition = "TYPE=='NAPPE' ",
+           NOM_PARA_FONC   =SIMP(statut='o',typ='TXM',into=C_PARA_FONCTION() ),
+           INDIC_ABSCISSE  =SIMP(statut='o',typ='I',min=2,max=2,),
+           INTERPOL_FONC   =SIMP(statut='f',typ='TXM',max=2,defaut="LIN",into=("NON","LIN","LOG") ),
+           PROL_DROITE_FONC=SIMP(statut='f',typ='TXM',defaut="EXCLU",into=("CONSTANT","LINEAIRE","EXCLU") ),
+           PROL_GAUCHE_FONC=SIMP(statut='f',typ='TXM',defaut="EXCLU",into=("CONSTANT","LINEAIRE","EXCLU") ),
+           DEFI_FONCTION   =FACT(statut='f',max='**',
+             INDIC_RESU      =SIMP(statut='o',typ='I',min=2,max=2,),),  ),
+         UNITE           =SIMP(statut='o',typ='I' ),
+         NOM_PARA        =SIMP(statut='o',typ='TXM',into=C_PARA_FONCTION() ),
+         NOM_RESU        =SIMP(statut='f',typ='TXM',defaut="TOUTRESU"),
+         INTERPOL        =SIMP(statut='f',typ='TXM',max=2,defaut="LIN",into=("NON","LIN","LOG") ),
+         PROL_DROITE     =SIMP(statut='f',typ='TXM',defaut="EXCLU",into=("CONSTANT","LINEAIRE","EXCLU") ),
+         PROL_GAUCHE     =SIMP(statut='f',typ='TXM',defaut="EXCLU",into=("CONSTANT","LINEAIRE","EXCLU") ),
+         VERIF           =SIMP(statut='f',typ='TXM',defaut="CROISSANT",into=("CROISSANT","NON") ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.        
+# ======================================================================
+# RESPONSABLE DEVESA G.DEVESA
+LIRE_FORC_MISS=OPER(nom="LIRE_FORC_MISS",op= 179,sd_prod=vect_asse_gene,
+                    fr="Création d un vecteur assemblé à partir de base modale",
+                    reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},           
+         BASE            =SIMP(statut='o',typ=base_modale ),
+         NUME_DDL_GENE   =SIMP(statut='o',typ=nume_ddl_gene ),
+         FREQ_EXTR       =SIMP(statut='o',typ='R',max=1),
+         NOM_CMP         =SIMP(statut='o',typ='TXM',into=("DX","DY","DZ") ),
+         NOM_CHAM        =SIMP(statut='f',typ='TXM',into=("DEPL","VITE","ACCE"),defaut="DEPL"),
+         UNITE_RESU_FORC =SIMP(statut='f',typ='I',defaut=30),
+)  ;
+
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.        
+# ======================================================================
+# RESPONSABLE DEVESA G.DEVESA
+LIRE_IMPE_MISS=OPER(nom="LIRE_IMPE_MISS",op= 164,sd_prod=matr_asse_gene_c,
+                    fr="Création d une matrice assemblée à partir de base modale",
+                    reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},           
+         BASE            =SIMP(statut='o',typ=base_modale ),
+         NUME_DDL_GENE   =SIMP(statut='o',typ=nume_ddl_gene ),
+         FREQ_EXTR       =SIMP(statut='o',typ='R',max=1),
+         UNITE_RESU_IMPE =SIMP(statut='f',typ='I',defaut=30),
+         TYPE            =SIMP(statut='f',typ='TXM',defaut="ASCII",into=("BINAIRE","ASCII") ),         
+)  ;
+
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 ZENTNER I.ZENTNER
+
+from Macro.lire_inte_spec_ops import lire_inte_spec_ops
+
+LIRE_INTE_SPEC=MACRO(nom="LIRE_INTE_SPEC",op=lire_inte_spec_ops,sd_prod=table_fonction,
+                    fr="Lecture sur un fichier externe de fonctions complexes pour créer une matrice interspectrale",
+                    reentrant='n',
+            UIinfo={"groupes":("Fonction",)},
+         UNITE           =SIMP(statut='o',typ='I' ),
+         FORMAT_C        =SIMP(statut='f',typ='TXM',defaut="MODULE_PHASE",into=("REEL_IMAG","MODULE_PHASE") ),
+         FORMAT          =SIMP(statut='f',typ='TXM',defaut="ASTER",into=("ASTER","IDEAS") ),
+         NOM_PARA        =SIMP(statut='f',typ='TXM',defaut="FREQ",
+                               into=("DX","DY","DZ","DRX","DRY","DRZ","TEMP",
+                                     "INST","X","Y","Z","EPSI","FREQ","PULS","AMOR","ABSC",) ),
+         NOM_RESU        =SIMP(statut='f',typ='TXM',defaut="DSP" ),
+         INTERPOL        =SIMP(statut='f',typ='TXM',max=2,into=("NON","LIN","LOG") ),
+         PROL_DROITE     =SIMP(statut='f',typ='TXM',into=("CONSTANT","LINEAIRE","EXCLU") ),
+         PROL_GAUCHE     =SIMP(statut='f',typ='TXM',into=("CONSTANT","LINEAIRE","EXCLU") ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 PELLET J.PELLET
+LIRE_MAILLAGE=OPER(nom="LIRE_MAILLAGE",op=   1,sd_prod=maillage_sdaster,
+                   fr="Crée un maillage par lecture d'un fichier au format Aster ou Med",
+                   ang="Readings of a mesh file",
+                   reentrant='n',
+            UIinfo={"groupes":("Maillage",)},
+#
+         UNITE           =SIMP(statut='f',typ='I',defaut= 20 ),
+#
+         FORMAT          =SIMP(statut='f',typ='TXM',defaut="ASTER",into=("ASTER","MED"),
+                            fr="Format du fichier : ASTER ou MED.",
+                            ang="Format of the file : ASTER or MED.",),
+#
+         ABSC_CURV       =FACT(statut='f',min=0,
+               TOUT          =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+         ),
+#
+         VERI_MAIL       =FACT(statut='d',
+               VERIF         =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),  
+               APLAT         =SIMP(statut='f',typ='R',defaut= 1.0E-3 ),  
+         ),
+#
+         b_format_med =BLOC( condition = " ( FORMAT == 'MED' ) " ,
+                             fr="Informations complémentaires pour la lecture MED.",
+                             ang="Further information for MED readings.",
+#
+# Pour une lecture dans un fichier MED, on peut préciser le nom sous lequel
+# le maillage y a été enregistré. Par défaut, on va le chercher sous le nom du concept à créer.
+            NOM_MED    = SIMP(statut='f',typ='TXM',
+                              fr="Nom du maillage dans le fichier MED.",
+                              ang="Name of the mesh into the MED file.",),
+            INFO_MED   = SIMP(statut='f',typ='I',defaut= 1,into=(1,2) ),
+#
+            RENOMME = FACT(statut='f', max='**',
+                                 fr="Renommer un nom de groupe MED",
+                 NOM_MED     = SIMP(statut='o', typ=grma,
+                                    fr="Nom du groupe dans le fichier MED"),
+                 NOM         = SIMP(statut='o', typ=grma, validators=LongStr(1,8),
+                                    fr="Nom du groupe dans le maillage ASTER"),
+            ),
+         ),
+#
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=(1,2) ),
+#
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 DEVESA G.DEVESA
+def lire_miss_3d_prod(TYPE_RESU,**args):
+  if TYPE_RESU == "TRANS" : return dyna_trans
+  if TYPE_RESU == "HARMO" : return dyna_harmo
+  raise AsException("type de concept resultat non prevu")
+
+LIRE_MISS_3D=OPER(nom="LIRE_MISS_3D",op= 163,sd_prod=lire_miss_3d_prod,
+                  fr="Restituer sur base physique une réponse harmonique ou transitoire issue de MISS3D",
+                  reentrant='n',
+            UIinfo={"groupes":("Maillage",)},
+         MACR_ELEM_DYNA  =SIMP(statut='o',typ=macr_elem_dyna ),
+         UNITE           =SIMP(statut='f',typ='I',defaut= 27 ),
+         NOM             =SIMP(statut='f',typ='TXM' ),
+         TYPE_RESU       =SIMP(statut='f',typ='TXM',defaut="TRANS",into=("TRANS","HARMO") ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& MODIF COMMANDE  DATE 30/09/2008   AUTEUR REZETTE C.REZETTE 
+#            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.                                 
+#
+# 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 POTAPOV S.POTAPOV
+
+LIRE_PLEXUS=OPER(nom="LIRE_PLEXUS",op= 184,sd_prod=evol_char,
+                 fr="Lire le fichier de résultats au format IDEAS produit par le logiciel EUROPLEXUS",
+                 reentrant='n',
+            UIinfo={"groupes":("Maillage",)},
+         regles=(UN_PARMI('TOUT_ORDRE','NUME_ORDRE','INST','LIST_INST','LIST_ORDRE'),),
+         UNITE           =SIMP(statut='f',typ='I',defaut= 19 ),
+         FORMAT          =SIMP(statut='f',typ='TXM',defaut="IDEAS",into=("IDEAS",)),
+         MAIL_PLEXUS     =SIMP(statut='o',typ=maillage_sdaster ),
+         MAILLAGE        =SIMP(statut='o',typ=maillage_sdaster ),
+         MODELE          =SIMP(statut='o',typ=modele_sdaster ),
+         TOUT_ORDRE      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+         NUME_ORDRE      =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+         LIST_ORDRE      =SIMP(statut='f',typ=listis_sdaster ),
+         INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+         LIST_INST       =SIMP(statut='f',typ=listr8_sdaster ),
+         b_prec_crit     =BLOC(condition = "LIST_INST != None or 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',),),),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& MODIF COMMANDE  DATE 30/09/2008   AUTEUR REZETTE C.REZETTE 
+#            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.
+#
+# 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 LEFEBVRE J.P.LEFEBVRE
+
+def lire_resu_prod(TYPE_RESU,**args):
+  if TYPE_RESU == "EVOL_CHAR" :  return evol_char
+  if TYPE_RESU == "EVOL_THER" :  return evol_ther
+  if TYPE_RESU == "EVOL_ELAS" :  return evol_elas
+  if TYPE_RESU == "EVOL_NOLI" :  return evol_noli
+  if TYPE_RESU == "DYNA_TRANS" : return dyna_trans
+  if TYPE_RESU == "DYNA_HARMO" : return dyna_harmo
+  if TYPE_RESU == "HARM_GENE" :  return harm_gene
+  if TYPE_RESU == "MODE_MECA" :  return mode_meca
+  if TYPE_RESU == "MODE_MECA_C" : return mode_meca_c
+  if TYPE_RESU == "EVOL_VARC" :  return evol_varc
+  raise AsException("type de concept resultat non prevu")
+
+# pour éviter d'écrire 3 fois cette liste :
+def l_nom_cham_pas_elga(): return (
+     "ACCE", "ACCE_ABSOLU", "CRIT_ELNO_RUPT", "DCHA_ELNO_SIGM",
+     "DCHA_NOEU_SIGM", "DEDE_ELNO_DLDE", "DEDE_NOEU_DLDE", "DEGE_ELNO_DEPL", "DEGE_NOEU_DEPL",
+     "DEPL", "DEPL_ABSOLU", "DESI_ELNO_DLSI", "DESI_NOEU_DLSI", "DETE_ELNO_DLTE", "DETE_NOEU_DLTE",
+     "DURT_ELNO_META", "DURT_NOEU_META", "ECIN_ELEM_DEPL", "EFGE_ELNO_CART", "EFGE_ELNO_DEPL",
+     "EFGE_NOEU_CART", "EFGE_NOEU_DEPL", "ENDO_ELNO_SIGA", "ENDO_ELNO_SINO", "ENDO_NOEU_SINO",
+     "ENEL_ELNO_ELGA", "ENEL_NOEU_ELGA", "EPEQ_ELNO_TUYO", "EPGR_ELNO", "EPME_ELNO_DEPL",
+     "EPMG_ELNO_DEPL", "EPMG_NOEU_DEPL", "EPOT_ELEM_DEPL", "EPSA_ELNO", "EPSA_NOEU",
+     "EPSG_ELNO_DEPL", "EPSG_NOEU_DEPL", "EPSI_ELNO_DEPL", "EPSI_ELNO_TUYO", "EPSI_NOEU_DEPL",
+     "EPSP_ELNO", "EPSP_ELNO_ZAC", "EPSP_NOEU", "EPSP_NOEU_ZAC", "EQUI_ELNO_EPME", "EQUI_ELNO_EPSI",
+     "EQUI_ELNO_SIGM", "EQUI_NOEU_EPME", "EQUI_NOEU_EPSI", "EQUI_NOEU_SIGM", "ERRE_ELEM_NOZ1",
+     "ERRE_ELEM_NOZ2", "ERRE_ELNO_ELGA", "ERRE_NOEU_ELGA", "ERTH_ELEM_TEMP", "ERTH_ELNO_ELEM",
+     "ETOT_ELEM", "ETOT_ELNO_ELGA", "FLUX_ELNO_TEMP", "FLUX_NOEU_TEMP", "FORC_NODA", "FSUR_2D",
+     "FSUR_3D", "FVOL_2D", "FVOL_3D", "GRAD_NOEU_THETA", "HYDR_ELNO_ELGA", "HYDR_NOEU_ELGA",
+     "INTE_ELNO_ACTI", "INTE_ELNO_REAC", "INTE_NOEU_ACTI", "INTE_NOEU_REAC", "IRRA",
+     "META_ELNO_TEMP", "META_NOEU_TEMP", "PMPB_ELNO_SIEF", "PMPB_NOEU_SIEF",
+     "PRES", "PRES_DBEL_DEPL", "PRES_ELNO_DBEL", "PRES_ELNO_IMAG", "PRES_ELNO_REEL",
+     "PRES_NOEU_DBEL", "PRES_NOEU_IMAG", "PRES_NOEU_REEL",
+     "RADI_ELNO_SIGM", "RADI_NOEU_SIGM", "REAC_NODA",
+     "SIEF_ELNO", "SIEF_ELNO_ELGA", "SIEF_NOEU", "SIEF_NOEU_ELGA", "SIEQ_ELNO_TUYO",
+     "SIGM_ELNO_CART", "SIGM_ELNO_COQU", "SIGM_ELNO_DEPL", "SIGM_ELNO_SIEF",
+     "SIGM_ELNO_TUYO", "SIGM_ELNO_ZAC", "SIGM_NOEU_CART", "SIGM_NOEU_COQU",
+     "SIGM_NOEU_DEPL", "SIGM_NOEU_SIEF", "SIGM_NOEU_ZAC", "SIGM_NOZ1_ELGA",
+     "SIGM_NOZ2_ELGA", "SIPO_ELNO_DEPL", "SIPO_ELNO_SIEF", "SIPO_NOEU_DEPL",
+     "SIPO_NOEU_SIEF", "SIRE_ELNO_DEPL", "SIRE_NOEU_DEPL", "TEMP", "THETA",
+     "VALE_CONT", "VALE_NCOU_MAXI", "VARI_ELNO", "VARI_ELNO_COQU",
+     "VARI_ELNO_ELGA", "VARI_ELNO_TUYO", "VARI_NOEU", "VARI_NOEU_ELGA",
+     "VITE", "VITE_ABSOLU", "VITE_VENT",
+                           )
+
+LIRE_RESU=OPER(nom="LIRE_RESU",op=150,sd_prod=lire_resu_prod,reentrant='n',
+            UIinfo={"groupes":("Résultats et champs",)},
+               fr="Lire dans un fichier, soit format IDEAS, soit au format ENSIGHT soit au format MED,"
+                 +" des champs et les stocker dans une SD résultat",
+
+
+# 0) mots clés généraux :
+#----------------------
+         TYPE_RESU       =SIMP(statut='o',typ='TXM',into=("EVOL_THER","EVOL_ELAS","EVOL_NOLI","MODE_MECA",
+                                                          "MODE_MECA_C","DYNA_TRANS","DYNA_HARMO","HARM_GENE",
+                                                          "EVOL_CHAR","EVOL_VARC") ),
+
+         FORMAT          =SIMP(statut='o',typ='TXM',into=("IDEAS","IDEAS_DS58","ENSIGHT","MED") ),
+
+         INFO            =SIMP(statut='f',typ='I',into=(1,2) ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+
+         regles=(UN_PARMI('MAILLAGE','MODELE'),),
+         MAILLAGE        =SIMP(statut='f',typ=maillage_sdaster),
+         MODELE          =SIMP(statut='f',typ=modele_sdaster),
+         COMP_INCR       =C_COMP_INCR(),
+         NB_VARI         =SIMP(statut='f',typ='I' ),
+
+         CHAM_MATER      =SIMP(statut='f',typ=cham_mater,),
+         
+         CARA_ELEM       =SIMP(statut='f',typ=cara_elem,),
+
+          b_evol_elas  = BLOC(condition="TYPE_RESU=='EVOL_ELAS'",
+          EXCIT           =FACT(statut='f',max='**',
+            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",into=("FIXE",) ),),
+           ),
+
+          b_evol_ther  = BLOC(condition="TYPE_RESU=='EVOL_THER'",
+          EXCIT           =FACT(statut='f',max='**',
+            CHARGE          =SIMP(statut='o',typ=(char_ther,char_cine_ther)),
+            FONC_MULT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),),
+           ),
+
+          b_evol_noli  = BLOC(condition="TYPE_RESU=='EVOL_NOLI'",
+          EXCIT           =FACT(statut='f',max='**',
+           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")),
+           DEPL            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+           ACCE            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+           VITE            =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+           MULT_APPUI      =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+           DIRECTION       =SIMP(statut='f',typ='R',max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),),
+         ),
+
+
+# 1) blocs selon le format choisi :
+#---------------------------------
+
+# 1-1 ideas dataset-58 :
+# ----------------------
+         b_dataset_58 = BLOC(condition="FORMAT=='IDEAS_DS58'",
+           UNITE           =SIMP(statut='f',typ='I',defaut= 19 ),
+         ),
+         b_dataset_58_b = BLOC(condition="(FORMAT=='IDEAS_DS58') and ((TYPE_RESU=='DYNA_TRANS') or\
+                                        (TYPE_RESU=='DYNA_HARMO') or (TYPE_RESU=='HARM_GENE'))",
+           UNITE           =SIMP(statut='f',typ='I',defaut= 19 ),
+           NOM_CHAM=SIMP(statut='o',typ='TXM',into=("DEPL","VITE","ACCE","EPSI_NOEU_DEPL","SIEF_NOEU",) ),
+           REDEFI_ORIENT=FACT(statut='f',max='**',
+                              regles=(PRESENT_PRESENT('CODE_DIR','DIRECTION','NOEUD',),),
+                              CODE_DIR =SIMP(statut='f',typ='I',into=(1,2,3,) ),
+                              DIRECTION=SIMP(statut='f',typ='R',min=3,max=3,),
+                              NOEUD    =SIMP(statut='f',typ=no,validators=NoRepeat(),max='**'),),
+         ),
+
+# 1-2 ideas  :
+# ---------
+         b_ideas         =BLOC(condition="FORMAT=='IDEAS'",
+           UNITE           =SIMP(statut='f',typ='I',defaut= 19 ),
+#           TEST            =SIMP(statut='f',typ='TXM',into=("OUI","NON"),defaut="NON" ),
+           NOM_CHAM        =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',into=l_nom_cham_pas_elga()),
+           PROL_ZERO       =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON",),
+             fr="Affecte des valeurs nulles la ou le champ n'est pas defini"),
+           FORMAT_IDEAS    =FACT(statut='f',max='**',
+             regles=(UN_PARMI('POSI_INST','POSI_FREQ'),),
+             NOM_CHAM        =SIMP(statut='o',typ='TXM',into=l_nom_cham_pas_elga()),
+             NUME_DATASET    =SIMP(statut='f',typ='I',into=(55,57,2414) ),
+             RECORD_3        =SIMP(statut='f',typ='I',max=10),
+             RECORD_6        =SIMP(statut='f',typ='I',max=10),
+             RECORD_9        =SIMP(statut='f',typ='I',max=10),
+             POSI_ORDRE      =SIMP(statut='o',typ='I',min=2,max=2),
+             POSI_NUME_MODE  =SIMP(statut='f',typ='I',min=2,max=2),
+             POSI_MASS_GENE  =SIMP(statut='f',typ='I',min=2,max=2),
+             POSI_AMOR_GENE  =SIMP(statut='f',typ='I',min=2,max=2),
+             POSI_INST       =SIMP(statut='f',typ='I',min=2,max=2),
+             POSI_FREQ       =SIMP(statut='f',typ='I',min=2,max=2),
+             NOM_CMP         =SIMP(statut='o',typ='TXM',max='**'),),
+         ),
+             
+         b_mode   =BLOC(condition="((TYPE_RESU=='MODE_MECA')or(TYPE_RESU=='MODE_MECA_C') )and (FORMAT=='IDEAS')",
+             NUME_DDL        =SIMP(statut='f',typ=(nume_ddl_sdaster),max=1,
+                fr="Utile en dynamique pour pouvoir imposer la numérotation des cham_no."),     
+         ),
+
+# 1-3 ensight :
+# -------------
+         b_ensight       =BLOC(condition="FORMAT=='ENSIGHT'",
+           NOM_FICHIER     =SIMP(statut='f',typ='TXM'),
+           NOM_CHAM        =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',into=l_nom_cham_pas_elga()),
+         ),
+
+# 1-4 med :
+# ---------
+         b_med           =BLOC(condition = "FORMAT == 'MED'",fr="Nom du champ dans le fichier MED",
+           UNITE           =SIMP(statut='f',typ='I',defaut= 81, fr="Le fichier est : fort.n.",),
+           FORMAT_MED      =FACT(statut='f',max='**',
+             regles=(ENSEMBLE('NOM_CMP','NOM_CMP_MED'),),
+             NOM_CHAM        =SIMP(statut='o',typ='TXM',into=C_NOM_CHAM_INTO(),),
+             NOM_CHAM_MED    =SIMP(statut='o',typ='TXM',               fr="Nom du champ dans le fichier MED.",  ),
+             NOM_CMP         =SIMP(statut='f',typ='TXM',max='**',      fr="Nom des composantes dans ASTER.", ),
+             NOM_CMP_MED     =SIMP(statut='f',typ='TXM',max='**',      fr="Nom des composantes dans MED.", ),
+           ),
+           PROL_ZERO       =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON",),
+            fr="Affecte des valeurs nulles la ou le champ n'est pas defini (sinon il y a NaN)"),
+         ),
+
+# 2) blocs selon le type du résultat :
+#---------------------------------
+         b_mode_meca     =BLOC(condition="(TYPE_RESU=='MODE_MECA')or(TYPE_RESU=='MODE_MECA_C')",
+           MATR_A         =SIMP(statut='f',typ=matr_asse_depl_r,),
+           MATR_B         =SIMP(statut='f',typ=matr_asse_depl_r,),
+         ),
+
+
+# 3) autres blocs :
+#---------------------------------
+         b_extrac        =BLOC(condition="1",fr="accès à un champ dans la structure de données résultat",
+           regles=(UN_PARMI('TOUT_ORDRE','NUME_ORDRE','LIST_ORDRE','INST','LIST_INST','FREQ','LIST_FREQ'),),
+           TOUT_ORDRE      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           NUME_ORDRE      =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+           INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+           LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+           LIST_ORDRE      =SIMP(statut='f',typ=listis_sdaster),
+           FREQ            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+           LIST_FREQ       =SIMP(statut='f',typ=listr8_sdaster),
+
+           b_acce_reel     =BLOC(condition="(INST != None)or(LIST_INST != None)or(FREQ != None)or(LIST_FREQ != 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',),),
+           ),
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2002  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.        
+# ======================================================================
+# RESPONSABLE COURTOIS M.COURTOIS
+
+from Macro.lire_table_ops import lire_table_ops
+
+LIRE_TABLE=MACRO(nom="LIRE_TABLE",op=lire_table_ops,sd_prod=table_sdaster,
+                 fr="Lecture d'un fichier contenant une table",
+            UIinfo={"groupes":("Table",)},
+         UNITE           =SIMP(statut='o',typ='I' ),
+         FORMAT          =SIMP(statut='f',typ='TXM',into=("ASTER",),defaut="ASTER"),
+         NUME_TABLE      =SIMP(statut='f',typ='I',defaut=1),
+         SEPARATEUR      =SIMP(statut='f',typ='TXM',defaut=' '),
+         PARA            =SIMP(statut='f',typ='TXM',max='**'),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         )  ;
+
+#& MODIF COMMANDE  DATE 21/10/2008   AUTEUR NISTOR I.NISTOR 
+#            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.        
+# ======================================================================
+# RESPONSABLE ANDRIAM H.ANDRIAMBOLOLONA
+
+MAC_MODES=OPER(nom="MAC_MODES",op=  141,sd_prod=table_sdaster,
+               fr="Critere orthogonalite de modes propres",
+               reentrant='n',
+               UIinfo={"groupes":("Résolution",)},
+               regles=(PRESENT_PRESENT('IERI','MATR_ASSE'),),
+         BASE_1     =SIMP(statut='o',typ=(mode_meca,mode_meca_c,mode_flamb,base_modale) ),
+         BASE_2     =SIMP(statut='o',typ=(mode_meca,mode_meca_c,mode_flamb,base_modale) ),
+         MATR_ASSE  =SIMP(statut='f',typ=(matr_asse_depl_r,matr_asse_depl_c) ),
+         IERI       =SIMP(statut='f',typ='TXM',into=("OUI",),),
+         TITRE      =SIMP(statut='f',typ='TXM',max='**'),
+         INFO       =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+)  ;
+#& MODIF COMMANDE  DATE 20/10/2008   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.                                 
+#
+# 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 GNICOLAS G.NICOLAS
+
+
+from Macro.macr_adap_mail_ops import macr_adap_mail_ops
+
+def macr_adap_mail_prod(self,MAJ_CHAM,ADAPTATION,**args):
+#
+# 0. Typage des structures produites
+#
+  maillage_np1=args['MAILLAGE_NP1']
+  self.type_sdprod(maillage_np1,maillage_sdaster)
+#
+  if ( args['MAILLAGE_NP1_ANNEXE'] is not None ) :
+    maillage_np1_annexe=args['MAILLAGE_NP1_ANNEXE']
+    self.type_sdprod(maillage_np1_annexe,maillage_sdaster)
+#
+  if MAJ_CHAM == None:return None
+# Remarque : la liste qui suit doit etre conforme à son homologue de LIRE_CHAMP
+  for ch in MAJ_CHAM:
+    t=ch['TYPE_CHAM']
+    if t[0:5] == "NOEU_":self.type_sdprod(ch['CHAM_MAJ'],cham_no_sdaster)
+    if t[0:2] == "EL":   self.type_sdprod(ch['CHAM_MAJ'],cham_elem)
+  return None
+
+
+MACR_ADAP_MAIL=MACRO(nom="MACR_ADAP_MAIL",op=macr_adap_mail_ops,sd_prod=macr_adap_mail_prod,
+                     fr="Adapter un maillage avec le logiciel HOMARD.",
+                     ang="Mesh adaptation with HOMARD software.",
+                     docu="U7.03.01-b",UIinfo={"groupe":("Maillage",)},
+#
+# 1. Le niveau d'information
+#
+  INFO = SIMP(statut='f',typ='I',defaut=1,into=(1,2,3,4)),
+#
+# 2. Version de HOMARD
+#
+  VERSION_HOMARD = SIMP(statut='f',typ='TXM',defaut="V9_5",
+                        into=("V9_5", "V9_N", "V9_N_PERSO"),
+                        fr="Version de HOMARD",
+                        ang="HOMARD release"),
+#
+# 3. Langue des messages produits par HOMARD
+#
+  LANGUE = SIMP(statut='f',typ='TXM',defaut="FRANCAIS",    
+                into=("FRANCAIS","FRENCH","ANGLAIS","ENGLISH",),
+                fr="Langue des messages produits par HOMARD.",
+                ang="Language for HOMARD messages." ),
+#
+# 4. Les maillages
+# 4.1. Quel que soit le type de traitement, il faut donner  :
+#      A. Le concept du maillage initial (entree)
+#      B. Le concept du maillage final (sortie)
+#
+  MAILLAGE_N   = SIMP(statut='o',typ=maillage_sdaster,
+                      fr="Maillage avant adaptation",
+                      ang="Mesh before adaptation" ),
+#
+  MAILLAGE_NP1 = SIMP(statut='o',typ=CO,
+                      fr="Maillage apres adaptation",
+                      ang="Mesh after adaptation" ),
+#
+# 4.2. Eventuellement, on peut produire un maillage annexe
+#      Actuellement, c'est le maillage n+1, mais de degré différent.
+#
+  MAILLAGE_NP1_ANNEXE = SIMP(statut='f',typ=CO,
+                             fr="Maillage annexe apres adaptation",
+                             ang="Additional mesh after adaptation" ),
+#
+# 5. Le pilotage de l'adaptation, avec les variantes suivantes :
+#  . Raffinement et deraffinement, selon un champ d'indicateurs d'erreur
+#  . Raffinement seul, selon un champ d'indicateurs d'erreur
+#  . Deraffinement seul, selon un champ d'indicateurs d'erreur
+#  . Raffinement seul, selon des zones geometriques
+#  . Raffinement uniforme : toutes les mailles sont divisées
+#  . Deraffinement uniforme : toutes les mailles sont regroupées
+#  . Rien : le maillage est le meme a la sortie et a l'entree
+#
+  ADAPTATION = SIMP(statut='o',typ='TXM',
+                    into=("RAFF_DERA","RAFFINEMENT","DERAFFINEMENT","RAFFINEMENT_ZONE", \
+                          "RAFFINEMENT_UNIFORME","DERAFFINEMENT_UNIFORME","RIEN"),    
+                    fr="Pilotage de l'adaptation : selon un indicateur d'erreur ou uniforme.",
+                    ang="Adaptation control : among an error indicator or uniform" ),
+#
+# 6. Pour de l'adaptation libre, il faut un indicateur d'erreur
+#
+  b_indicateur_d_erreur = BLOC( condition = " (ADAPTATION == 'RAFF_DERA') or \
+                                              (ADAPTATION == 'RAFFINEMENT') or \
+                                              (ADAPTATION == 'DERAFFINEMENT') " ,
+                                fr="Pour une adaptation libre, choix de l'indicateur d'erreur ou d'une zone à raffiner",
+                                ang="For free adaptation, selection of error indicator or zone",
+#
+    regles=(UN_PARMI('CHAM_GD','RESULTAT_N')),
+#
+# 6.1. Repérage de la zone à raffiner à l'aide d'un indicateur
+#
+# 6.1.1. Sous forme de champ de grandeur
+#
+    CHAM_GD    = SIMP(statut='f',typ=cham_gd_sdaster,
+                      fr="Champ de grandeur Code_Aster contenant l'indicateur d'erreur",
+                      ang="Code_Aster champ de grandeur with error indicator" ),
+#
+# 6.1.2. Sous forme de concept resultat_sdaster
+#
+    RESULTAT_N = SIMP(statut='f',typ=(evol_elas,evol_noli,evol_ther) ,
+                      fr="Concept resultat Code_Aster contenant l'indicateur d'erreur",
+                      ang="Code_Aster result with error indicator" ),
+#
+    b_champ_indicateur = BLOC(condition="(RESULTAT_N != None)",
+      INDICATEUR = SIMP(statut='o',typ='TXM',     
+                        fr="Champ de l'indicateur d'erreur dans le résultat",
+                        ang="Error indicator field in the result structure" ),
+    ),
+#
+# 6.1.3. Est-ce un champ dérivé
+#
+    b_sensibilite = BLOC(condition=" (RESULTAT_N != None) or (CHAM_GD != None) ",
+                        fr="Est-ce un champ dérivé",
+                        ang="Is the indicator a derivative field",
+#
+      SENSIBILITE = SIMP(statut='f',typ=(para_sensi,theta_geom),
+                         fr="Paramètre de sensibilité.",
+                         ang="Sensitivity parameter")
+#
+    ),
+#
+# 6.1.4. La composante retenue
+#
+    b_composante = BLOC(condition=" (RESULTAT_N != None) or (CHAM_GD != None) ",
+                        fr="Choix de la composante pour l'indicateur",
+                        ang="Component selection for error indicator",
+#
+      NOM_CMP_INDICA = SIMP(statut='o',typ='TXM',
+                            fr="Composante retenue pour l'indicateur d'erreur",
+                            ang="Selected component for error indicator" ),
+#
+    ),
+#
+# 6.1.5. Le paramètre temporel pour l'indicateur
+#
+    b_parametre_temporel = BLOC(condition="(RESULTAT_N != None)",
+                                fr="Choix éventuel du paramètre temporel pour l'indicateur",
+                                ang="Time selection for error indicator (option)",
+#
+      regles=(EXCLUS('NUME_ORDRE','INST'),),
+#
+# 6.1.5.1. Soit le numero d'ordre
+#
+      NUME_ORDRE = SIMP(statut='f',typ='I',
+                        fr="Numero d ordre",
+                        ang="Rank" ),  
+#
+# 6.1.5.2. Soit l'instant
+# 6.1.5.2.1. Sa valeur
+#
+      INST       = SIMP(statut='f',typ='R',
+                        fr="Instant associé",
+                        ang="Instant" ),
+#
+# 6.1.5.2.2. La précision du choix de l'instant
+#
+      b_precision = BLOC(condition="(INST != None)",
+                         fr="Choix de la précision du choix de l'instant",
+                         ang="Selection for instant choice",
+        CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU",),
+                         fr="Critère de précision sur le choix de l'instant associé",
+                         ang="Accuracy criterium over instant choice"),
+        b_prec_rela=BLOC(condition="(CRITERE=='RELATIF')",
+            PRECISION       =SIMP(statut='f',typ='R',defaut= 1.E-6,
+                             fr="Précision relative sur le choix de l'instant associé",
+                             ang="Relative accuracy over instant choice"),),
+        b_prec_abso=BLOC(condition="(CRITERE=='ABSOLU')",
+            PRECISION       =SIMP(statut='o',typ='R',
+                             fr="Précision absolue sur le choix de l'instant associé",
+                             ang="Absolute accuracy over instant choice"),),
+      ),
+#
+    ),
+#
+# 6.1.6. Type de valeur de l'indicateur : absolue ou relative
+#
+    b_valeur_indicateur = BLOC(condition=" (RESULTAT_N != None) or (CHAM_GD != None) ",
+                               fr="Type de valeur pour l'indicateur",
+                               ang="Value type for error indicator",
+#
+      TYPE_VALEUR_INDICA = SIMP(statut='f',typ='TXM',defaut="V_ABSOLUE",into=("V_ABSOLUE","V_RELATIVE"),
+                                fr="Valeur absolue ou relative pour l'indicateur",
+                                ang="Absolute or relative value for error indicator" ),
+#
+    ),
+#
+# 6.1.7. Type d'opération sur l'indicateur : la valeur par maille ou le max du saut entre mailles
+#
+    b_usage_indicateur = BLOC(condition=" (RESULTAT_N != None) or (CHAM_GD != None) ",
+                              fr="Usage de l'indicateur : direct ou saut",
+                              ang="Use type for error indicator : direct or jump",
+#
+      TYPE_OPER_INDICA = SIMP(statut='f',typ='TXM',defaut="MAILLE",into=("MAILLE","SAUT"),
+                              fr="Usage de l'indicateur : la valeur par maille ou le saut entre mailles voisines",
+                              ang="Use of indicator : value over every mesh or jump between neighbour" ),
+#
+    ),
+#
+  ) ,
+#
+# 7. Les criteres pour de l'adaptation libre avec un indicateur d'erreur :
+#        absolu, relatif, en proportion d'entite
+# 7.1. Pour le raffinement :
+#
+  b_critere_de_raffinement = BLOC( condition = " (ADAPTATION == 'RAFF_DERA') or \
+                                                 (ADAPTATION == 'RAFFINEMENT') " ,
+                                fr="Critère de raffinement.",
+                                ang="Refinement threshold.",
+#
+    regles=(UN_PARMI ( 'CRIT_RAFF_ABS', 'CRIT_RAFF_REL', 'CRIT_RAFF_PE' ),),
+#
+    CRIT_RAFF_ABS = SIMP(statut='f',typ='R',
+                         fr="Critère absolu",
+                         ang="Absolute threshold" ),  
+    CRIT_RAFF_REL = SIMP(statut='f',typ='R',
+                         fr="Critère relatif : fraction réelle entre 0. et 1.",
+                         ang="Relative threshold : ratio between 0. and 1." ),  
+    CRIT_RAFF_PE  = SIMP(statut='f',typ='R',
+                         fr="Pourcentage d'éléments : fraction réelle entre 0. et 1.",
+                         ang="Percentage of elements : ratio between 0. and 1." ),  
+  ) ,
+#
+# 7.2. Pour le deraffinement :
+#
+  b_critere_de_deraffinement = BLOC( condition = " (ADAPTATION == 'RAFF_DERA') or \
+                                                   (ADAPTATION == 'DERAFFINEMENT') " ,
+                                     fr="Critère de déraffinement.",
+                                     ang="Unrefinement threshold.",
+#
+    regles=(UN_PARMI ( 'CRIT_DERA_ABS', 'CRIT_DERA_REL', 'CRIT_DERA_PE' ),),
+#
+    CRIT_DERA_ABS = SIMP(statut='f',typ='R' ,
+                         fr="Critère absolu",
+                         ang="Absolute threshold" ),  
+    CRIT_DERA_REL = SIMP(statut='f',typ='R',
+                         fr="Critère relatif : fraction réelle entre 0. et 1.",
+                         ang="Relative threshold : ratio between 0. and 1." ),  
+    CRIT_DERA_PE  = SIMP(statut='f',typ='R',
+                         fr="Pourcentage d'éléments : fraction réelle entre 0. et 1.",
+                         ang="Percentage of elements : ratio between 0. and 1." ),  
+  ) ,
+#
+# 8. Pour de l'adaptation par zone, définitions des zones
+#
+  b_zone = BLOC( condition = " (ADAPTATION == 'RAFFINEMENT_ZONE') " ,
+                                fr="Pour une adaptation selon une zone à raffiner",
+                                ang="For adaptation among zone",
+    ZONE = FACT(statut='f',max='**',
+                  fr="Définition de zones à raffiner.",
+                  ang="Refined zone definition.",
+#
+      regles=(AU_MOINS_UN('X_MINI','X_CENTRE'),
+              EXCLUS('X_MINI','X_CENTRE',),
+              EXCLUS('Z_MINI','X_CENTRE',),
+              EXCLUS('X_MINI','Z_CENTRE',),
+              EXCLUS('Z_MINI','Z_CENTRE',),
+              PRESENT_PRESENT('X_MINI','X_MAXI','Y_MINI','Y_MAXI'),
+              PRESENT_PRESENT('Z_MINI','Z_MAXI'),
+              PRESENT_PRESENT('X_CENTRE','Y_CENTRE','RAYON'),),
+#
+# 6.2.1. Une boite parallelepipedique
+#
+      X_MINI = SIMP(statut='f',typ='R',
+                    fr="Abscisse minimum de la boite",
+                    ang="Minimum X for the box"),
+      X_MAXI = SIMP(statut='f',typ='R',
+                    fr="Abscisse maximum de la boite",
+                    ang="Maximum X for the box"),
+#
+      Y_MINI = SIMP(statut='f',typ='R',
+                    fr="Orodnnée minimum de la boite",
+                    ang="Minimum Y for the box"),
+      Y_MAXI = SIMP(statut='f',typ='R',
+                    fr="Abscisse maximum de la boite",
+                    ang="Maximum Y for the box"),
+#
+      Z_MINI = SIMP(statut='f',typ='R',
+                    fr="Cote minimum de la boite",
+                    ang="Minimum Z for the box"),
+      Z_MAXI = SIMP(statut='f',typ='R',
+                    fr="Cote maximum de la boite",
+                    ang="Maximum Z for the box"),
+#
+# 6.2.2. Une sphere
+#
+      X_CENTRE = SIMP(statut='f',typ='R',
+                      fr="Abscisse du centre de la sphere",
+                      ang="X for the center of the sphere"),
+      Y_CENTRE = SIMP(statut='f',typ='R',
+                      fr="Ordonnee du centre de la sphere",
+                      ang="Y for the center of the sphere"),
+      Z_CENTRE = SIMP(statut='f',typ='R',
+                      fr="Cote du centre de la sphere",
+                      ang="Z for the center of the sphere"),
+      RAYON = SIMP(statut='f',typ='R',
+                   fr="Rayon de la sphere",
+                   ang="Radius of the sphere"),
+#
+    ) ,
+#
+  ) ,
+#
+# 9. Les niveaux extremes pour le maillage adapte
+# 9.1. Pour le raffinement :
+#
+  b_niveau_maximum = BLOC( condition = " (ADAPTATION == 'RAFF_DERA') or \
+                                         (ADAPTATION == 'RAFFINEMENT') or \
+                                         (ADAPTATION == 'RAFFINEMENT_UNIFORME') or \
+                                         (ADAPTATION == 'RAFFINEMENT_ZONE') " ,
+                           fr="Niveau maximum de profondeur de raffinement",
+                           ang="Maximum level for refinement",
+    NIVE_MAX = SIMP(statut='f',typ='I',
+                    fr="Niveau maximum de profondeur de raffinement",
+                    ang="Maximum level for refinement"),
+  ) ,
+#
+# 9.2. Pour le deraffinement :
+#
+  b_niveau_minimum = BLOC( condition = " (ADAPTATION == 'RAFF_DERA') or \
+                                         (ADAPTATION == 'DERAFFINEMENT') or \
+                                         (ADAPTATION == 'DERAFFINEMENT_UNIFORME') " ,
+                           fr="Niveau minimum de profondeur de déraffinement",
+                           ang="Minimum level for unrefinement",
+    NIVE_MIN = SIMP(statut='f',typ='I',
+                    fr="Niveau minimum de profondeur de déraffinement",
+                    ang="Minimum level for unrefinement"),
+  ) ,
+#
+# 10. Filtrage de l'adaptation par des groupes
+#
+  b_filtrage_par_des_groupes = BLOC( condition = " (ADAPTATION == 'RAFF_DERA') or \
+                                                   (ADAPTATION == 'RAFFINEMENT') or \
+                                                   (ADAPTATION == 'RAFFINEMENT_UNIFORME') or \
+                                                   (ADAPTATION == 'RAFFINEMENT_ZONE') or \
+                                                   (ADAPTATION == 'DERAFFINEMENT') or \
+                                                   (ADAPTATION == 'DERAFFINEMENT_UNIFORME') " ,
+                                fr="Filtrage de l'adaptation par des groupes.",
+                                ang="Filtering of adaptation by groups.",
+#
+    GROUP_MA = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**',
+                    fr="Liste des groupes de mailles pour le filtrage de l'adaptation.",
+                    ang="List of groups of meshes for filtering of adaptation." ),  
+#
+    GROUP_NO = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**',
+                    fr="Liste des groupes de noeuds pour le filtrage de l'adaptation.",
+                    ang="List of groups of nodes for filtering of adaptation." ),  
+  ) ,
+#
+# 11. Suivi d'une frontiere
+#
+  MAILLAGE_FRONTIERE = SIMP(statut='f',typ=maillage_sdaster,
+                           fr="Maillage de la frontiere à suivre",
+                           ang="Boundary mesh" ),
+#
+  b_frontiere = BLOC( condition = " MAILLAGE_FRONTIERE != None " ,
+                      fr="Information complémentaire sur la frontière",
+                      ang="Further information about boundary",
+#
+    GROUP_MA_FRONT = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**',
+                          fr="Liste des groupes de mailles définissant la frontière",
+                          ang="Mesh groups which define the boundary" ),
+#
+  ) ,
+#
+# 12. Mise à jour de champs sur le nouveau maillage
+#
+  MAJ_CHAM = FACT(statut='f',max='**',
+                  fr="Mise à jour de champs sur le nouveau maillage.",
+                  ang="Updating of fields over the new mesh.",
+#
+# 12.1. Le nom du champ de grandeur qui contiendra le resultat de la mise a jour
+#
+    CHAM_MAJ = SIMP(statut='o',typ=CO,
+                    fr="Nom du champ de grandeur qui contiendra le champ mis à jour",
+                    ang="Name of the field for the updated field"),
+#
+# 12.2. Le type du champ qui contiendra le resultat de la mise a jour
+#
+    TYPE_CHAM = SIMP(statut='o',typ='TXM',into=C_TYPE_CHAM_INTO(),
+                     fr="Type du champ qui contiendra le champ mis à jour",
+                     ang="Type of the field for the updated field" ),
+#
+# 12.3. Le champ a interpoler
+#
+    regles=(UN_PARMI('CHAM_GD','RESULTAT')),
+#
+# 12.3.1. Sous forme de champ de grandeur
+#
+    CHAM_GD = SIMP(statut='f',typ=cham_gd_sdaster,
+                   fr="Champ de grandeur Code_Aster contenant le champ à mettre à jour",
+                   ang="Champ de grandeur with field to be updated" ),
+#
+# 12.3.2. Sous forme de champ dans un resultat
+#
+    RESULTAT = SIMP(statut='f',typ=(evol_elas,evol_noli,evol_ther),
+                    fr="Resultat contenant le champ à mettre à jour",
+                    ang="Result with field to be updated" ),
+#
+    b_nom_du_champ = BLOC(condition="(RESULTAT != None)",
+                          fr="Choix éventuel du nom du champ à interpoler",
+                          ang="Selection for the name of the field (option)",
+#
+      NOM_CHAM = SIMP(statut='o',typ='TXM',
+                      fr="Nom du champ à mettre à jour",
+                      ang="Name of the field to be updated" ),
+#
+    ),
+#
+# 12.4. Est-ce un champ dérivé
+#
+    SENSIBILITE = SIMP(statut='f',typ=(para_sensi,theta_geom),
+                       fr="Paramètre de sensibilité.",
+                       ang="Sensitivity parameter"),
+#
+# 12.5. Le paramètre temporel pour le champ a interpoler
+#
+    b_parametre_temporel = BLOC(condition="(RESULTAT != None)",
+                                fr="Choix éventuel du paramètre temporel pour le champ à interpoler",
+                                ang="Time selection for the field (option)",
+#
+      regles=(EXCLUS('NUME_ORDRE','INST'),),
+#
+# 12.5.1. Soit le numero d'ordre
+#
+      NUME_ORDRE = SIMP(statut='f',typ='I',
+                        fr="Numero d ordre du champ à mettre à jour",
+                        ang="Rank of the field to be updated" ),
+#
+# 12.5.2. Soit l'instant
+# 12.5.2.1. Sa valeur
+#
+      INST = SIMP(statut='f',typ='R',
+                  fr="Instant associé",
+                  ang="Instant" ),
+#
+# 12.5.2.2. La précision du choix de l'instant
+#
+      b_precision = BLOC(condition="(INST != None)",
+                         fr="Choix de la précision du choix de l'instant",
+                         ang="Selection for instant choice",
+#
+        CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU",),
+                         fr="Critère de précision sur le choix de l'instant associé",
+                         ang="Accuracy criterium over instant choice"),
+        b_prec_rela=BLOC(condition="(CRITERE=='RELATIF')",
+            PRECISION       =SIMP(statut='f',typ='R',defaut= 1.E-6,
+                             fr="Précision relative sur le choix de l'instant associé",
+                             ang="Relative accuracy over instant choice"),),
+        b_prec_abso=BLOC(condition="(CRITERE=='ABSOLU')",
+            PRECISION       =SIMP(statut='o',typ='R',
+                             fr="Précision absolue sur le choix de l'instant associé",
+                             ang="Absolute accuracy over instant choice"),),
+#
+      ),
+#
+    ),
+  ),
+#
+# 13. Les options d'analyse de maillage ; par defaut, on ne fait que les nombres
+# 13.1. Nombre de noeuds et éléments
+#
+  NOMBRE         = SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON"),
+                          fr="Nombre de noeuds et éléments du maillage",
+                          ang="Number of nodes and éléments in the mesh" ),
+#
+# 13.2. Determination de la qualité des éléments du maillage
+#
+  QUALITE        = SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON"),
+                          fr="Qualité du maillage",
+                          ang="Mesh quality" ),
+#
+# 13.3. Connexite du maillage
+#
+  CONNEXITE      = SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON"),
+                          fr="Connexité du maillage.",
+                          ang="Mesh connexity." ),
+#
+# 13.4. Taille des sous-domaines du maillage
+#
+  TAILLE         = SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON"),
+                          fr="Tailles des sous-domaines du maillage.",
+                          ang="Sizes of mesh sub-domains." ),
+#
+# 13.5. Controle de la non-interpenetration des éléments
+#
+  INTERPENETRATION= SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON"),
+                          fr="Controle de la non interpénétration des éléments.",
+                          ang="Overlapping checking." ),
+#
+# 14. Gestion des éléments autres que ceux compatibles avec HOMARD
+#       "REFUSER" : ils sont refuses (defaut)
+#       "IGNORER" : ils sont ignorés
+#
+  ELEMENTS_NON_HOMARD = SIMP(statut='f',typ='TXM',defaut="REFUSER",into=("REFUSER","IGNORER"),
+                             fr="Acceptation d'éléments incompatibles avec HOMARD",
+                             ang="Incompatible elements for HOMARD" ),
+#
+) ;
+#& 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
+# 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 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,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 RESU_THER  != None:self.type_sdprod(RESU_THER,evol_ther)
+  return evol_noli
+
+MACR_ASCOUF_CALC=MACRO(nom="MACR_ASCOUF_CALC",op=macr_ascouf_calc_ops,sd_prod=macr_ascouf_calc_prod,
+                      fr="Réalise l'analyse thermomécanique du coude dont le maillage a été concu par MACR_ASCOUF_MAIL",
+                      reentrant='n',
+            UIinfo={"groupes":("Outils métier",)},
+         regles=(UN_PARMI('COMP_INCR','COMP_ELAS'),),
+
+         TYPE_MAILLAGE   =SIMP(statut='o',typ='TXM',
+                               into=("SAIN",
+                                     "FISS_COUDE",
+                                     "FISS_AXIS_DEB",
+                                     "SOUS_EPAIS_COUDE"
+                                     ) ),
+
+         CL_BOL_P2_GV    =FACT(statut='f',
+           ANGLE           =SIMP(statut='o',typ='R' ),
+           AZIMUT          =SIMP(statut='f',typ='R',defaut= 90. ),
+         ),
+
+         MAILLAGE        =SIMP(statut='o',typ=maillage_sdaster ),
+         MODELE          =SIMP(statut='o',typ=CO,),
+         CHAM_MATER      =SIMP(statut='f',typ=CO,),
+         CARA_ELEM       =SIMP(statut='f',typ=CO,),
+         FOND_FISS       =SIMP(statut='f',typ=CO,),
+         RESU_THER       =SIMP(statut='f',typ=CO,),
+
+         AFFE_MATERIAU   =FACT(statut='o',max=3,
+           regles=(UN_PARMI('TOUT','GROUP_MA'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ='TXM',into=("COUDE","BOL") ),
+           MATER           =SIMP(statut='o',typ=mater_sdaster ),
+           TEMP_REF        =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+         ),
+
+         PRES_REP        =FACT(statut='f',
+           PRES            =SIMP(statut='o',typ='R' ),
+           EFFE_FOND_P1    =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           PRES_LEVRE      =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+           FONC_MULT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         ECHANGE         =FACT(statut='f',
+           COEF_H          =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+           TEMP_EXT        =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         TORS_P1         =FACT(statut='f',max=6,
+           regles=(AU_MOINS_UN('FX','FY','FZ','MX','MY','MZ'),),
+           FX              =SIMP(statut='f',typ='R' ),
+           FY              =SIMP(statut='f',typ='R' ),
+           FZ              =SIMP(statut='f',typ='R' ),
+           MX              =SIMP(statut='f',typ='R' ),
+           MY              =SIMP(statut='f',typ='R' ),
+           MZ              =SIMP(statut='f',typ='R' ),
+           FONC_MULT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+
+         COMP_INCR       =FACT(statut='f',
+           RELATION        =SIMP(statut='o',typ='TXM',into=("VMIS_ISOT_TRAC",) ),
+           RESI_INTE_RELA  =SIMP(statut='f',typ='R'
+                                ,defaut= 1.0E-6),
+           ITER_INTE_MAXI  =SIMP(statut='f',typ='I',defaut= 10 ),
+           ITER_INTE_PAS   =SIMP(statut='f',typ='I',defaut= 0 ),
+           RESO_INTE       =SIMP(statut='f',typ='TXM',defaut="IMPLICITE",
+                                 into=("RUNGE_KUTTA_2","RUNGE_KUTTA_4","IMPLICITE")),
+         ),
+
+         COMP_ELAS       =FACT(statut='f',
+           RELATION        =SIMP(statut='o',typ='TXM',into=("ELAS","ELAS_VMIS_TRAC") ),
+           RESI_INTE_RELA  =SIMP(statut='f',typ='R',defaut= 1.0E-6),
+           ITER_INTE_MAXI  =SIMP(statut='f',typ='I',defaut= 10 ),
+           ITER_INTE_PAS   =SIMP(statut='f',typ='I',defaut= 0 ),
+           RESO_INTE       =SIMP(statut='f',typ='TXM',defaut="IMPLICITE",
+                                 into=("RUNGE_KUTTA_2","RUNGE_KUTTA_4","IMPLICITE")),
+         ),
+
+         SOLVEUR         =FACT(statut='d',
+          METHODE         =SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("MULT_FRONT","LDLT","GCPC","MUMPS","PETSC") ),
+          b_mumps        =BLOC(condition = "METHODE == 'MUMPS' ",fr="Paramètres de la méthode MUMPS",
+            TYPE_RESOL      =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("NONSYM","SYMGEN","SYMDEF","AUTO")),
+            PRETRAITEMENTS  =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("SANS","AUTO")),
+            RENUM           =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("AMD","AMF","PORD","METIS","QAMD","AUTO")),
+            ELIM_LAGR2      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+            PCENT_PIVOT     =SIMP(statut='f',typ='I',defaut=10,),
+            RESI_RELA       =SIMP(statut='f',typ='R',defaut=1.0E-6,),
+            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,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" ),
+            PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC","JACOBI","SOR"),defaut="LDLT_INC" ),
+            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 ),
+          ),
+           b_mult_front    =BLOC(condition = "METHODE == 'MULT_FRONT' ",fr="Paramètres de la méthode multi frontale",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+           ),
+           b_ldlt         =BLOC(condition = "METHODE == 'LDLT' ",fr="Paramètres de la méthode LDLT",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("RCMK","SANS") ),
+           ),
+           b_ldlt_mult    =BLOC(condition = "METHODE == 'LDLT' or METHODE == 'MULT_FRONT' ",
+                                   fr="Paramètres relatifs à la non inversibilité de la matrice à factorise",
+             NPREC           =SIMP(statut='f',typ='I',defaut= 8 ),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+           b_gcpc         =BLOC(condition = "METHODE == 'GCPC' ", fr="Paramètres de la méthode du gradient conjugué",
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC",),defaut="LDLT_INC" ),
+             NIVE_REMPLISSAGE=SIMP(statut='f',typ='I',defaut= 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= 0 ),
+           ),
+           SYME            =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+         ),
+
+         CONVERGENCE     =FACT(statut='d',
+           RESI_GLOB_MAXI  =SIMP(statut='f',typ='R'),
+           RESI_GLOB_RELA  =SIMP(statut='f',typ='R'),
+           ITER_GLOB_MAXI  =SIMP(statut='f',typ='I',defaut=10),
+           ARRET           =SIMP(statut='f',typ='TXM',defaut="OUI"),
+         ),
+
+         NEWTON          =FACT(statut='d',
+           REAC_INCR       =SIMP(statut='f',typ='I',defaut= 1 ),
+           PREDICTION      =SIMP(statut='f',typ='TXM',into=("DEPL_CALCULE","TANGENTE","ELASTIQUE","EXTRAPOL") ),
+           MATRICE         =SIMP(statut='f',typ='TXM',defaut="TANGENTE",into=("TANGENTE","ELASTIQUE") ),
+           REAC_ITER       =SIMP(statut='f',typ='I',defaut=0),
+           EVOL_NOLI       =SIMP(statut='f',typ=evol_noli),
+         ),
+
+         RECH_LINEAIRE   =FACT(statut='d',
+           RESI_LINE_RELA  =SIMP(statut='f',typ='R',defaut= 1.0E-3 ),
+           ITER_LINE_MAXI  =SIMP(statut='f',typ='I',defaut= 3),
+         ),
+
+         INCREMENT       =FACT(statut='o',
+           regles=(EXCLUS('NUME_INST_INIT','INST_INIT'),
+                   EXCLUS('NUME_INST_FIN','INST_FIN'),),
+           LIST_INST       =SIMP(statut='o',typ=listr8_sdaster),
+           NUME_INST_INIT  =SIMP(statut='f',typ='I'),
+           INST_INIT       =SIMP(statut='f',typ='R'),
+           NUME_INST_FIN   =SIMP(statut='f',typ='I'),
+           INST_FIN        =SIMP(statut='f',typ='R'),
+           PRECISION       =SIMP(statut='f',typ='R',defaut=1.0E-6 ),
+           # DEBUT DE BLOC POUR LA SUBDIVISION DES PAS DE TEMPS
+           SUBD_METHODE    =SIMP( statut='f',typ='TXM',
+              into =("AUCUNE","UNIFORME","EXTRAPOLE"),
+              defaut="AUCUNE",
+              fr="Méthode de subdivision des pas de temps en cas de non-convergence"
+           ),
+           b_subd_unif=BLOC(condition = "SUBD_METHODE == 'UNIFORME'",
+             regles=(AU_MOINS_UN('SUBD_NIVEAU','SUBD_PAS_MINI'),),
+             SUBD_COEF_PAS_1=SIMP(statut='f',typ='R',defaut=1.0,val_min=0.0,
+                fr="Coefficient multiplicateur de la 1ère subdivision"),
+             SUBD_PAS       =SIMP(statut='f',typ='I',defaut=4,val_min=2,
+                fr="Nombre de subdivision d'un pas de temps"),
+             SUBD_NIVEAU=SIMP(statut='f',typ='I',val_min=2,
+                fr="Nombre maximum de niveau de subdivision d'un pas de temps"),
+             SUBD_PAS_MINI=SIMP(statut='f',typ='R',val_min=0.0,
+                fr="Pas de temps en dessous duquel on ne subdivise plus"),
+           ),
+           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",), 
+                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,
+                fr="Les n premières itérations sont ignorées pour l'extrapolation"),
+             SUBD_ITER_FIN  =SIMP(statut='c',typ='I',defaut=8,val_min=3,
+                fr="Seules les n dernières itérations sont prises pour l'extrapolation"),
+             SUBD_PAS       =SIMP(statut='c',typ='I',defaut=4,val_min=2,
+                fr="Nombre de subdivision d'un pas de temps en cas divergence"),
+             SUBD_NIVEAU=SIMP(statut='f',typ='I',val_min=2,
+                fr="Nombre maximum de niveau de subdivision d'un pas de temps"),
+             SUBD_PAS_MINI=SIMP(statut='f',typ='R',val_min=0.0,
+                fr="Pas de temps en dessous duquel on ne subdivise plus"),
+             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 
+         ),
+
+         THETA_3D        =FACT(statut='f',max='**',
+           R_INF           =SIMP(statut='o',typ='R' ),
+           R_SUP           =SIMP(statut='o',typ='R' ),
+         ),
+
+         IMPR_TABLE      =FACT(statut='f',
+           regles=(UN_PARMI('TOUT_PARA','NOM_PARA', ),
+            PRESENT_PRESENT('TOUT_PARA','ANGLE',    ),
+            PRESENT_PRESENT('TOUT_PARA','R_CINTR',  ),
+                   UN_PARMI('POSI_CURV_LONGI','POSI_ANGUL',),),
+           NOM_PARA        =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max=4,
+                                 into=("TRESCA_MEMBRANE",
+                                       "TRESCA_MFLE",
+                                       "TRESCA",
+                                       "SI_LONG"
+                                       "SI_RADI"
+                                       "SI_CIRC"
+                                       ) ),
+           TOUT_PARA       =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           ANGLE           =SIMP(statut='f',typ='R',max='**' ),
+           R_CINTR         =SIMP(statut='f',typ='R',max='**' ),
+           POSI_CURV_LONGI =SIMP(statut='f',typ='R',max='**' ),
+           POSI_ANGUL      =SIMP(statut='f',typ='R',max='**' ),
+           TRANSFORMEE     =SIMP(statut='f',typ='TXM',defaut="COUDE",into=("COUDE","TUBE") ),
+         ),
+
+         IMPRESSION      =FACT(statut='f',
+           FORMAT          =SIMP(statut='f',typ='TXM',defaut="RESULTAT",
+                                 into=("RESULTAT","ASTER","IDEAS","CASTEM") ),
+                                 
+           b_format_ideas  =BLOC(condition="FORMAT=='IDEAS'",fr="version Ideas",
+             VERSION         =SIMP(statut='f',typ='I',defaut=5,into=(4,5)),
+           ),  
+
+           b_format_castem =BLOC(condition="FORMAT=='CASTEM'",fr="version Castem",
+             NIVE_GIBI       =SIMP(statut='f',typ='I',defaut=10,into=(3,10)),
+           ),
+
+         ),
+
+         TITRE           =SIMP(statut='f',typ='TXM' ),
+
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=(1,2) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 GALENNE E.GALENNE
+from Macro.macr_ascouf_mail_ops import macr_ascouf_mail_ops
+MACR_ASCOUF_MAIL=MACRO(nom="MACR_ASCOUF_MAIL",op=macr_ascouf_mail_ops,sd_prod=maillage_sdaster,
+            fr="Engendre le maillage d'un coude sain ou comportant une fissure ou une (ou plusieurs) sous-épaisseur(s)",
+            UIinfo={"groupes":("Outils métier",)},reentrant='n',
+
+         regles=(EXCLUS('SOUS_EPAIS_COUDE','FISS_COUDE','SOUS_EPAIS_MULTI'),),
+
+         EXEC_MAILLAGE   =FACT(statut='o',
+           LOGICIEL        =SIMP(statut='o',typ='TXM',defaut="GIBI2000",into=("GIBI98","GIBI2000") ),
+           UNITE_DATG      =SIMP(statut='f',typ='I',defaut=70),  
+           UNITE_MGIB      =SIMP(statut='f',typ='I',defaut=19),  
+           NIVE_GIBI       =SIMP(statut='f',typ='I',defaut=10,into=(3,4,5,6,7,8,9,10,11)),
+         ),
+
+         TYPE_ELEM       =SIMP(statut='f',typ='TXM',defaut="CU20",into=("CU20","CUB8") ),
+
+         COUDE           =FACT(statut='o',
+           ANGLE           =SIMP(statut='o',typ='R' ),  
+           R_CINTR         =SIMP(statut='o',typ='R' ),  
+           L_TUBE_P1       =SIMP(statut='o',typ='R' ),  
+           L_TUBE_P2       =SIMP(statut='f',typ='R',defaut= 0.E+0 ),  
+           NB_ELEM_EPAIS   =SIMP(statut='f',typ='I',defaut= 3 ),  
+           SYME            =SIMP(statut='f',typ='TXM',defaut="ENTIER",into=("ENTIER","QUART","DEMI") ),
+           TRANSFORMEE     =SIMP(statut='o',typ='TXM',defaut="COUDE",into=("COUDE","TUBE") ),
+           b_transf_coude  =BLOC(condition = "TRANSFORMEE == 'COUDE' ",
+              DEXT            =SIMP(statut='o',typ='R' ),  
+              EPAIS           =SIMP(statut='o',typ='R' ),  
+              SUR_EPAIS       =SIMP(statut='f',typ='R',defaut= 0.E+0 ),  
+              BOL_P2          =SIMP(statut='f',typ='TXM',into=("ASP_MPP","CUVE","GV") ),
+           ),
+           b_transf_tube   =BLOC(condition = "TRANSFORMEE == 'TUBE' ",
+              TRAN_EPAIS      =SIMP(statut='o',typ='TXM',defaut="NON",into=("OUI","NON") ),
+              b_trans_epais_oui    =BLOC(condition = "TRAN_EPAIS == 'OUI' ",
+                      regles=(ENSEMBLE('ANGL_TETA2','EPAIS_TI'),
+                              UN_PARMI('ABSC_CURV_TRAN','POSI_ANGU_TRAN'),),
+                      DEXT_T1         =SIMP(statut='o',typ='R' ),  
+                      EPAIS_T1        =SIMP(statut='o',typ='R' ),  
+                      EPAIS_T2        =SIMP(statut='o',typ='R' ),  
+                      EPAIS_TI        =SIMP(statut='f',typ='R' ),  
+                      ANGL_TETA1      =SIMP(statut='o',typ='R' ),  
+                      ANGL_TETA2      =SIMP(statut='f',typ='R' ),  
+                      ABSC_CURV_TRAN  =SIMP(statut='f',typ='R' ),  
+                      POSI_ANGU_TRAN  =SIMP(statut='f',typ='R' ),  
+              ),
+              b_trans_epais_non    =BLOC(condition = "TRAN_EPAIS == 'NON' ",
+                      DEXT            =SIMP(statut='o',typ='R' ),  
+                      EPAIS           =SIMP(statut='o',typ='R' ),  
+                      SUR_EPAIS       =SIMP(statut='f',typ='R',defaut= 0.E+0 ),  
+                      BOL_P2          =SIMP(statut='f',typ='TXM',into=("ASP_MPP","CUVE","GV") ),
+              ),
+           ),
+         ),
+
+         SOUS_EPAIS_COUDE=FACT(statut='f',
+           regles=(UN_PARMI('POSI_CURV_LONGI','POSI_ANGUL'),
+                   UN_PARMI('POSI_CURV_CIRC','AZIMUT'),),
+           TYPE            =SIMP(statut='o',typ='TXM',into=("AXIS","ELLI") ),
+           AXE_CIRC        =SIMP(statut='f',typ='R' ),  
+           AXE_LONGI       =SIMP(statut='o',typ='R' ),  
+           PROFONDEUR      =SIMP(statut='o',typ='R' ),  
+           POSI_CURV_LONGI =SIMP(statut='f',typ='R' ),  
+           POSI_ANGUL      =SIMP(statut='f',typ='R' ),  
+           POSI_CURV_CIRC  =SIMP(statut='f',typ='R' ),  
+           AZIMUT          =SIMP(statut='f',typ='R' ),  
+           SOUS_EPAIS      =SIMP(statut='o',typ='TXM',into=("INTERNE","EXTERNE") ),
+           NB_ELEM_LONGI   =SIMP(statut='o',typ='I' ),  
+           NB_ELEM_CIRC    =SIMP(statut='o',typ='I' ),  
+           NB_ELEM_RADI    =SIMP(statut='f',typ='I',defaut= 3 ),  
+           EMPREINTE       =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         ),
+
+         SOUS_EPAIS_MULTI=FACT(statut='f',max='**',
+           regles=(UN_PARMI('POSI_CURV_LONGI','POSI_ANGUL'),
+                   UN_PARMI('POSI_CURV_CIRC','AZIMUT'),),
+           TYPE            =SIMP(statut='o',typ='TXM',into=("AXIS","ELLI") ),
+           AXE_CIRC        =SIMP(statut='f',typ='R' ),  
+           AXE_LONGI       =SIMP(statut='o',typ='R' ),  
+           PROFONDEUR      =SIMP(statut='o',typ='R' ),  
+           POSI_CURV_LONGI =SIMP(statut='f',typ='R' ),  
+           POSI_ANGUL      =SIMP(statut='f',typ='R' ),  
+           POSI_CURV_CIRC  =SIMP(statut='f',typ='R' ),  
+           AZIMUT          =SIMP(statut='f',typ='R' ),  
+           SOUS_EPAIS      =SIMP(statut='o',typ='TXM',into=("INTERNE","EXTERNE") ),
+           NB_ELEM_LONGI   =SIMP(statut='o',typ='I' ),  
+           NB_ELEM_CIRC    =SIMP(statut='o',typ='I' ),  
+           EMPREINTE       =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         ),
+
+         FISS_COUDE      =FACT(statut='f',
+           regles=(UN_PARMI('ABSC_CURV','POSI_ANGUL'),),
+           AXIS            =SIMP(statut='f',typ='TXM',into=("OUI","NON"),defaut="NON" ),  
+           b_axis_non    =BLOC(condition = "AXIS == 'NON' ",
+                   LONGUEUR        =SIMP(statut='o',typ='R' ),  
+           ),
+           b_axis_oui    =BLOC(condition = "AXIS == 'OUI' ",
+                   LONGUEUR        =SIMP(statut='f',typ='R' ),  
+           ),
+           PROFONDEUR      =SIMP(statut='o',typ='R' ),  
+           ABSC_CURV       =SIMP(statut='f',typ='R' ),  
+           POSI_ANGUL      =SIMP(statut='f',typ='R' ),  
+           FISSURE         =SIMP(statut='o',typ='TXM',into=("DEB_INT","DEB_EXT") ),
+           AZIMUT          =SIMP(statut='f',typ='R',defaut= 90. ),  
+           ORIEN           =SIMP(statut='o',typ='R',
+                                 into=(45.,-45.,90.,0.E+0) ),
+           NB_TRANCHE      =SIMP(statut='o',typ='I' ),  
+           NB_SECTEUR      =SIMP(statut='o',typ='I' ),  
+           NB_COURONNE     =SIMP(statut='o',typ='I' ),  
+           RAYON_TORE      =SIMP(statut='f',typ='R' ),  
+           COEF_MULT_RC2   =SIMP(statut='f',typ='R',defaut= 1. ),  
+           COEF_MULT_RC3   =SIMP(statut='f',typ='R' ),  
+           ANGL_OUVERTURE  =SIMP(statut='f',typ='R',defaut= 0.5 ),  
+         ),
+
+         IMPRESSION      =FACT(statut='f',max='**',
+           regles=(PRESENT_PRESENT('FICHIER','UNITE'),),
+           FORMAT          =SIMP(statut='f',typ='TXM',defaut="ASTER",   
+                                 into=("ASTER","IDEAS","CASTEM") ),
+           b_format_ideas  =BLOC(condition="FORMAT=='IDEAS'",fr="version Ideas",
+             VERSION         =SIMP(statut='f',typ='I',defaut=5,into=(4,5)),
+           ),  
+           b_format_castem =BLOC(condition="FORMAT=='CASTEM'",fr="version Castem",
+             NIVE_GIBI       =SIMP(statut='f',typ='I',defaut=10,into=(3,10)),
+           ),
+           FICHIER         =SIMP(statut='f',typ='TXM' ),  
+           UNITE           =SIMP(statut='f',typ='I' ),  
+         ),
+
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=(1,2) ),
+)  ;
+#& 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
+# 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 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,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 RESU_THER   != None:self.type_sdprod(RESU_THER,evol_ther)
+  return evol_noli
+
+MACR_ASPIC_CALC=MACRO(nom="MACR_ASPIC_CALC",op=macr_aspic_calc_ops,sd_prod=macr_aspic_calc_prod,
+            fr="Réalise un calcul prédéfini de piquages sains ou fissurés ainsi que les post-traitements associés ",
+            UIinfo={"groupes":("Outils métier",)},reentrant='n',
+         regles=(UN_PARMI('COMP_INCR','COMP_ELAS'),),
+
+         TYPE_MAILLAGE   =SIMP(statut='o',typ='TXM',
+                               into=("SAIN_FIN","SAIN_GROS","FISS_COUR_DEB","FISS_COUR_NONDEB","FISS_LONG_DEB",
+                                     "FISS_LONG_NONDEB","FISS_AXIS_DEB","FISS_AXIS_NONDEB") ),
+
+         TUBULURE        =FACT(statut='o',
+           TYPE            =SIMP(statut='o',typ='TXM',into=("TYPE_1","TYPE_2") ),
+         ),
+         MAILLAGE        =SIMP(statut='o',typ=maillage_sdaster),
+         MODELE          =SIMP(statut='f',typ=CO,),
+         CHAM_MATER      =SIMP(statut='f',typ=CO,),
+         CARA_ELEM       =SIMP(statut='f',typ=CO,),
+         FOND_FISS_1     =SIMP(statut='f',typ=CO,),
+         FOND_FISS_2     =SIMP(statut='f',typ=CO,),
+         RESU_THER       =SIMP(statut='f',typ=CO,),
+
+         AFFE_MATERIAU   =FACT(statut='o',max=3,
+           regles=(UN_PARMI('TOUT','GROUP_MA'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",)),
+           GROUP_MA        =SIMP(statut='f',typ='TXM',into=("TUBU","CORP","SOUD","SOUDCORP","SOUDTUBU") ),
+           MATER           =SIMP(statut='o',typ=mater_sdaster),
+           TEMP_REF        =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+           RCCM            =SIMP(statut='o',typ='TXM',into=("OUI","NON")),
+         ),
+
+         EQUILIBRE       =FACT(statut='o',
+           NOEUD           =SIMP(statut='o',typ=no),
+         ),
+
+         PRES_REP        =FACT(statut='o',
+           PRES            =SIMP(statut='o',typ='R'),
+           NOEUD           =SIMP(statut='f',typ=no),
+           EFFE_FOND       =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+           PRES_LEVRE      =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+           FONC_MULT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+         ),
+
+         ECHANGE         =FACT(statut='f',
+           COEF_H_TUBU     =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+           COEF_H_CORP     =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+           TEMP_EXT        =SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+         ),
+
+         TORS_CORP       =FACT(statut='f',max=6,
+           regles=(AU_MOINS_UN('FX','FY','FZ','MX','MY','MZ'),),
+           NOEUD           =SIMP(statut='o',typ=no),
+           FX              =SIMP(statut='f',typ='R'),
+           FY              =SIMP(statut='f',typ='R'),
+           FZ              =SIMP(statut='f',typ='R'),
+           MX              =SIMP(statut='f',typ='R'),
+           MY              =SIMP(statut='f',typ='R'),
+           MZ              =SIMP(statut='f',typ='R'),
+           FONC_MULT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+         ),
+
+         TORS_TUBU       =FACT(statut='f',max=6,
+           regles=(AU_MOINS_UN('FX','FY','FZ','MX','MY','MZ'),),
+           FX              =SIMP(statut='f',typ='R'),
+           FY              =SIMP(statut='f',typ='R'),
+           FZ              =SIMP(statut='f',typ='R'),
+           MX              =SIMP(statut='f',typ='R'),
+           MY              =SIMP(statut='f',typ='R'),
+           MZ              =SIMP(statut='f',typ='R'),
+           FONC_MULT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+         ),
+
+         COMP_INCR       =FACT(statut='f',
+           RELATION        =SIMP(statut='o',typ='TXM',into=("VMIS_ISOT_TRAC",) ),
+           RESI_INTE_RELA  =SIMP(statut='f',typ='R',defaut=1.0E-6),
+           ITER_INTE_MAXI  =SIMP(statut='f',typ='I',defaut=10),
+           ITER_INTE_PAS   =SIMP(statut='f',typ='I',defaut=0),
+           RESO_INTE       =SIMP(statut='f',typ='TXM',defaut="IMPLICITE",
+                                 into=("RUNGE_KUTTA_2","RUNGE_KUTTA_4","IMPLICITE")),
+         ),
+
+         COMP_ELAS       =FACT(statut='f',
+           RELATION        =SIMP(statut='o',typ='TXM',into=("ELAS","ELAS_VMIS_TRAC") ),
+           RESI_INTE_RELA  =SIMP(statut='f',typ='R',defaut= 1.0E-6),
+           ITER_INTE_MAXI  =SIMP(statut='f',typ='I',defaut= 10 ),
+           ITER_INTE_PAS   =SIMP(statut='f',typ='I',defaut= 0 ),
+           RESO_INTE       =SIMP(statut='f',typ='TXM',defaut="IMPLICITE",
+                                 into=("RUNGE_KUTTA_2","RUNGE_KUTTA_4","IMPLICITE")),
+         ),
+
+         THETA_3D        =FACT(statut='f',max='**',
+           R_INF           =SIMP(statut='o',typ='R'),
+           R_SUP           =SIMP(statut='o',typ='R'),
+         ),
+
+         OPTION          =SIMP(statut='f',typ='TXM',into=("CALC_G_MAX","CALC_G_MAX_LOCAL") ),
+         BORNES          =FACT(statut='f',max='**',
+           NUME_ORDRE      =SIMP(statut='o',typ='I'),
+           VALE_MIN        =SIMP(statut='o',typ='R'),
+           VALE_MAX        =SIMP(statut='o',typ='R'),
+         ),
+
+         SOLVEUR         =FACT(statut='d',
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("MULT_FRONT","LDLT","GCPC","MUMPS","PETSC") ),
+           b_mumps        =BLOC(condition = "METHODE == 'MUMPS' ",fr="Paramètres de la méthode MUMPS",
+             TYPE_RESOL      =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("NONSYM","SYMGEN","SYMDEF","AUTO")),
+             PRETRAITEMENTS  =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("SANS","AUTO")),
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("AMD","AMF","PORD","METIS","QAMD","AUTO")),
+             ELIM_LAGR2      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+             PCENT_PIVOT     =SIMP(statut='f',typ='I',defaut=10,),
+             RESI_RELA       =SIMP(statut='f',typ='R',defaut=1.0E-6,),
+             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,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" ),
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC","JACOBI","SOR"),defaut="LDLT_INC" ),
+             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 ),
+           ),
+           b_mult_front    =BLOC(condition = "METHODE == 'MULT_FRONT' ",fr="Paramètres de la méthode multi frontale",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+           ),
+           b_ldlt          =BLOC(condition = "METHODE == 'LDLT' ",fr="Paramètres de la méthode LDLT",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("RCMK","SANS") ),
+           ),
+           b_ldlt_mult     =BLOC(condition = "METHODE == 'LDLT' or METHODE == 'MULT_FRONT' ",
+                                   fr="Paramètres relatifs à la non iversibilité de la matrice à factorise",
+             NPREC           =SIMP(statut='f',typ='I',defaut= 8 ),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+           b_gcpc          =BLOC(condition = "METHODE == 'GCPC' ", fr="Paramètres de la méthode du gradient conjugué",
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC",),defaut="LDLT_INC" ),
+             NIVE_REMPLISSAGE=SIMP(statut='f',typ='I',defaut= 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= 0 ),
+           ),
+           SYME            =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+         ),
+
+         CONVERGENCE     =FACT(statut='d',
+           RESI_GLOB_MAXI  =SIMP(statut='f',typ='R'),
+           RESI_GLOB_RELA  =SIMP(statut='f',typ='R'),
+           ITER_GLOB_MAXI  =SIMP(statut='f',typ='I',defaut=10),
+           ARRET           =SIMP(statut='f',typ='TXM',defaut="OUI"),
+         ),
+
+         NEWTON          =FACT(statut='d',
+           REAC_INCR       =SIMP(statut='f',typ='I',defaut=1),
+           PREDICTION      =SIMP(statut='f',typ='TXM',into=("TANGENTE","ELASTIQUE","EXTRAPOL","DEPL_CALCULE")),
+           MATRICE         =SIMP(statut='f',typ='TXM',defaut="TANGENTE",into=("TANGENTE","ELASTIQUE")),
+           REAC_ITER       =SIMP(statut='f',typ='I',defaut= 0),
+         ),
+
+         RECH_LINEAIRE   =FACT(statut='d',
+           RESI_LINE_RELA  =SIMP(statut='f',typ='R',defaut=1.0E-3),
+           ITER_LINE_MAXI  =SIMP(statut='f',typ='I',defaut=3),
+         ),
+
+         INCREMENT       =FACT(statut='o',
+           regles=(EXCLUS('NUME_INST_INIT','INST_INIT'),
+                   EXCLUS('NUME_INST_FIN','INST_FIN'),),
+           LIST_INST       =SIMP(statut='o',typ=listr8_sdaster),
+           NUME_INST_INIT  =SIMP(statut='f',typ='I'),
+           INST_INIT       =SIMP(statut='f',typ='R'),
+           NUME_INST_FIN   =SIMP(statut='f',typ='I'),
+           INST_FIN        =SIMP(statut='f',typ='R'),
+           PRECISION       =SIMP(statut='f',typ='R',defaut=1.0E-6 ),
+           # DEBUT DE BLOC POUR LA SUBDIVISION DES PAS DE TEMPS
+           SUBD_METHODE    =SIMP( statut='f',typ='TXM',
+              into =("AUCUNE","UNIFORME","EXTRAPOLE"),
+              defaut="AUCUNE",
+              fr="Méthode de subdivision des pas de temps en cas de non-convergence"
+           ),
+           b_subd_unif=BLOC(condition = "SUBD_METHODE == 'UNIFORME'",
+             regles=(AU_MOINS_UN('SUBD_NIVEAU','SUBD_PAS_MINI'),),
+             SUBD_COEF_PAS_1=SIMP(statut='f',typ='R',defaut=1.0,val_min=0.0,
+                fr="Coefficient multiplicateur de la 1ère subdivision"),
+             SUBD_PAS       =SIMP(statut='f',typ='I',defaut=4,val_min=2,
+                fr="Nombre de subdivision d'un pas de temps"),
+             SUBD_NIVEAU=SIMP(statut='f',typ='I',val_min=2,
+                fr="Nombre maximum de niveau de subdivision d'un pas de temps"),
+             SUBD_PAS_MINI=SIMP(statut='f',typ='R',val_min=0.0,
+                fr="Pas de temps en dessous duquel on ne subdivise plus"),
+           ),
+           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",), 
+                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,
+                fr="Les n premières itérations sont ignorées pour l'extrapolation"),
+             SUBD_ITER_FIN  =SIMP(statut='c',typ='I',defaut=8,val_min=3,
+                fr="Seules les n dernières itérations sont prises pour l'extrapolation"),
+             SUBD_PAS       =SIMP(statut='c',typ='I',defaut=4,val_min=2,
+                fr="Nombre de subdivision d'un pas de temps en cas divergence"),
+             SUBD_NIVEAU=SIMP(statut='f',typ='I',val_min=2,
+                fr="Nombre maximum de niveau de subdivision d'un pas de temps"),
+             SUBD_PAS_MINI=SIMP(statut='f',typ='R',val_min=0.0,
+                fr="Pas de temps en dessous duquel on ne subdivise plus"),
+             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 
+         ),
+
+         PAS_AZIMUT      =SIMP(statut='f',typ='I',defaut=1),
+
+         IMPRESSION      =FACT(statut='f',
+           FORMAT          =SIMP(statut='f',typ='TXM',defaut="RESULTAT",
+                                 into=("RESULTAT","ASTER","CASTEM","IDEAS")),
+                                 
+           b_format_ideas  =BLOC(condition="FORMAT=='IDEAS'",fr="version Ideas",
+             VERSION         =SIMP(statut='f',typ='I',defaut=5,into=(4,5)),
+           ),  
+
+           b_format_castem =BLOC(condition="FORMAT=='CASTEM'",fr="version Castem",
+             NIVE_GIBI       =SIMP(statut='f',typ='I',defaut=10,into=(3,10)),
+           ),
+
+           b_extrac        =BLOC(condition="((FORMAT=='IDEAS')or(FORMAT=='CASTEM'))",
+                                 fr="extraction d un champ de grandeur",
+             regles=(EXCLUS('TOUT_ORDRE','NUME_ORDRE','INST'),),
+             NOM_CHAM        =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max=3,
+                                   into=("DEPL","EQUI_ELNO_SIGM","TEMP")),
+             
+             TOUT_ORDRE      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             NUME_ORDRE      =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+             INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+           ),      
+         ),
+
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+
+         TITRE           =SIMP(statut='f',typ='TXM'),
+)
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 GALENNE E.GALENNE
+
+from Macro.macr_aspic_mail_ops import macr_aspic_mail_ops
+
+MACR_ASPIC_MAIL=MACRO(nom="MACR_ASPIC_MAIL",op= macr_aspic_mail_ops,sd_prod=maillage_sdaster,reentrant='n',
+            fr="Engendre le maillage d'un piquage sain ou avec fissure (longue ou courte)",
+            UIinfo={"groupes":("Outils métier",)},
+
+         EXEC_MAILLAGE   =FACT(statut='o',
+           LOGICIEL        =SIMP(statut='o',typ='TXM',defaut="GIBI2000",into=("GIBI98","GIBI2000")),
+           UNITE_DATG      =SIMP(statut='f',typ='I',defaut=70),  
+           UNITE_MGIB      =SIMP(statut='f',typ='I',defaut=19),  
+           NIVE_GIBI       =SIMP(statut='f',typ='I',defaut=10,into=(3,4,5,6,7,8,9,10,11)),
+         ),
+
+         TYPE_ELEM       =SIMP(statut='f',typ='TXM',defaut="CU20",into=("CU20","CUB8")),
+
+         RAFF_MAIL       =SIMP(statut='f',typ='TXM',defaut="GROS",into=("GROS","FIN")),
+
+         TUBULURE        =FACT(statut='o',
+           E_BASE          =SIMP(statut='o',typ='R'),  
+           DEXT_BASE       =SIMP(statut='o',typ='R'),  
+           L_BASE          =SIMP(statut='o',typ='R'),  
+           L_CHANF         =SIMP(statut='o',typ='R'),  
+           E_TUBU          =SIMP(statut='o',typ='R'),  
+           DEXT_TUBU       =SIMP(statut='o',typ='R'),  
+           Z_MAX           =SIMP(statut='o',typ='R'),  
+           TYPE            =SIMP(statut='o',typ='TXM',into=("TYPE_1","TYPE_2")),
+           L_PENETR        =SIMP(statut='f',typ='R',defaut= 0.0E+0),  
+         ),
+
+         SOUDURE         =FACT(statut='o',
+           H_SOUD          =SIMP(statut='o',typ='R'),  
+           ANGL_SOUD       =SIMP(statut='o',typ='R'),  
+           JEU_SOUD        =SIMP(statut='o',typ='R'),  
+         ),
+
+         CORPS           =FACT(statut='o',
+           E_CORP          =SIMP(statut='o',typ='R'),  
+           DEXT_CORP       =SIMP(statut='o',typ='R'),  
+           X_MAX           =SIMP(statut='o',typ='R'),  
+         ),
+
+         FISS_SOUDURE    =FACT(statut='f',
+           TYPE            =SIMP(statut='o',typ='TXM',into=("LONGUE","COURTE")),
+           AXIS            =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")),
+           PROFONDEUR      =SIMP(statut='o',typ='R'),  
+           LONGUEUR        =SIMP(statut='f',typ='R'),  
+           AZIMUT          =SIMP(statut='o',typ='R'),  
+           RAYON_TORE      =SIMP(statut='f',typ='R'),  
+           POSITION        =SIMP(statut='o',typ='TXM',into=("DROIT","INCLINE")),
+           FISSURE         =SIMP(statut='o',typ='TXM',into=("DEB_INT","DEB_EXT","NON_DEB","TRAVERS")),
+           LIGA_INT        =SIMP(statut='f',typ='R'),  
+           ANGL_OUVERTURE  =SIMP(statut='f',typ='R',defaut= 0.0E+0),  
+           COEF_MULT_RC1   =SIMP(statut='f',typ='R'),  
+           COEF_MULT_RC2   =SIMP(statut='f',typ='R'),  
+           COEF_MULT_RC3   =SIMP(statut='f',typ='R'),  
+           NB_TRANCHE      =SIMP(statut='f',typ='I'),  
+           NB_SECTEUR      =SIMP(statut='f',typ='I'),  
+           NB_COURONNE     =SIMP(statut='f',typ='I'),  
+         ),
+
+         IMPRESSION      =FACT(statut='f',max='**',
+           regles=(PRESENT_PRESENT('FICHIER','UNITE'),),
+           FORMAT          =SIMP(statut='f',typ='TXM',defaut="ASTER",into=("ASTER","IDEAS","CASTEM")),
+
+           b_format_ideas  =BLOC(condition="FORMAT=='IDEAS'",fr="version Ideas",
+             VERSION         =SIMP(statut='f',typ='I',defaut=5,into=(4,5)),
+           ),  
+
+           b_format_castem =BLOC(condition="FORMAT=='CASTEM'",fr="version Castem",
+             NIVE_GIBI       =SIMP(statut='f',typ='I',defaut=10,into=(3,10)),
+           ),
+           FICHIER         =SIMP(statut='f',typ='TXM'),  
+           UNITE           =SIMP(statut='f',typ='I'),  
+         ),
+
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+)  ;
+#& MODIF COMMANDE  DATE 30/06/2008   AUTEUR FLEJOU J-L.FLEJOU 
+#            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.
+# ======================================================================
+# RESPONSABLE FLEJOU J.L.FLEJOU
+
+from Macro.macr_cara_poutre_ops import macr_cara_poutre_ops
+
+MACR_CARA_POUTRE=MACRO(nom="MACR_CARA_POUTRE",op=macr_cara_poutre_ops,sd_prod=table_sdaster,
+                       reentrant='n',
+         UIinfo={"groupes":("Modélisation",)},
+         fr="Calculer les caractéristiques d'une section transversale de poutre à partir d'un maillage 2D de la section",
+         regles=( EXCLUS('SYME_X','GROUP_MA_BORD'),
+                  EXCLUS('SYME_Y','GROUP_MA_BORD'),
+                ),
+
+         MAILLAGE       =SIMP(statut='f',typ=maillage_sdaster,
+                           fr="Nom du concept maillage"),
+         b_maillage=BLOC( condition = "MAILLAGE == None",
+            regles=( PRESENT_PRESENT('FORMAT','UNITE') ),
+            FORMAT         =SIMP(statut='f',typ='TXM',defaut="ASTER",into=("ASTER","MED"),
+                              fr="Format du fichier"),
+            UNITE          =SIMP(statut='f',typ='I',defaut= 20,
+                              fr="Unite correspondant au format du fichier maillage"),
+         ),
+
+         ORIG_INER      =SIMP(statut='f',typ='R',max=3,defaut=(0.E+0,0.E+0),
+                           fr="Point par rapport auquel sont calculées les inerties"),
+         INFO           =SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+
+         SYME_X         =SIMP(statut='f',typ='TXM',into=("OUI",),
+                           fr="demi maillage par rapport a x=0"),
+         SYME_Y         =SIMP(statut='f',typ='TXM',into=("OUI",),
+                           fr="demi maillage par rapport a y=0"),
+
+         GROUP_MA       =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**',
+                           fr="Calcul des caractéristiques équivalentes a plusieurs sections disjointes"),
+
+         GROUP_MA_BORD  =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**',
+                           fr="Groupe(s) de mailles linéiques, bord(s) de(s) section(s)"),
+
+            b_gma_bord  =BLOC( condition = "GROUP_MA_BORD != None",
+               fr=" calcul des carac. mecaniques",
+               regles=(UN_PARMI('NOEUD','GROUP_NO')),
+               NOEUD           =SIMP(statut='f',typ=no,  max='**',
+                                 fr="Simplement pour empecher des pivots nuls le cas echeant. Fournir un noeud quelconque"),
+               GROUP_NO        =SIMP(statut='f',typ=grno,max='**',
+                                 fr="Simplement pour empecher des pivots nuls le cas echeant. Fournir un noeud quelconque"),
+               GROUP_MA_INTE   =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**',
+                                 fr="groupes de mailles linéiques bordant des trous dans la section"),
+            ),
+
+            b_reseau = BLOC( condition ="""(GROUP_MA_BORD != None) and (GROUP_MA != None)""",
+               fr=" calcul des coef de cisaillement équivalents a un reseau de poutres",
+               regles=(ENSEMBLE('LONGUEUR','LIAISON','MATERIAU') ,),
+               LONGUEUR        =SIMP(statut='f',typ='R',
+                                 fr="Longueur du réseau de poutres"),
+               MATERIAU        =SIMP(statut='f',typ=mater_sdaster,
+                                 fr="Materiau elastique lineaire du reseau"),
+               LIAISON         =SIMP(statut='f',typ='TXM',into=("ROTULE","ENCASTREMENT"),
+                                 fr="type de conditions aux limites sur le plancher supérieur" ),
+            ),
+)
+#& MODIF COMMANDE  DATE 30/09/2008   AUTEUR REZETTE C.REZETTE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2004  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.
+# ======================================================================
+# RESPONSABLE LEFEBVRE J.P.LEFEBVRE
+
+from Macro.macr_ecla_pg_ops import macr_ecla_pg_ops
+
+def macr_ecla_pg_prod(self,RESULTAT,MAILLAGE,RESU_INIT,**args):
+  self.type_sdprod(RESULTAT,AsType(RESU_INIT))
+  self.type_sdprod(MAILLAGE,maillage_sdaster)
+  return None
+
+
+MACR_ECLA_PG=MACRO(nom="MACR_ECLA_PG",op=macr_ecla_pg_ops,sd_prod=macr_ecla_pg_prod, reentrant='n',
+             UIinfo={"groupes":("Post traitements",)},
+             fr="Permettre la visualisation des champs aux points de Gauss d'une SD_RESULTAT sans lissage ni interpolation",
+
+
+             # SD résultat ,modèle et champs à "éclater" :
+             RESU_INIT       =SIMP(statut='o',typ=resultat_sdaster,fr="RESULTAT à éclater",),
+             MODELE_INIT     =SIMP(statut='o',typ=modele_sdaster,fr="MODELE à éclater"),
+             NOM_CHAM        =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**'),
+
+             # paramètres numériques de la commande :
+             SHRINK          =SIMP(statut='f',typ='R',defaut= 0.9, fr="Facteur de réduction" ),
+             TAILLE_MIN      =SIMP(statut='f',typ='R',defaut= 0.0, fr="Taille minimale d'un coté" ),
+
+             # concepts produits par la commande :
+             RESULTAT        =SIMP(statut='o',typ=CO,fr="SD_RESULTAT résultat de la commande"),
+             MAILLAGE        =SIMP(statut='o',typ=CO,fr="MAILLAGE associé aux cham_no de la SD_RESULTAT"),
+
+             # Sélection éventuelle d'un sous-ensemble des éléments à visualiser :
+             TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+
+             # Sélection des numéros d'ordre :
+             regles=(EXCLUS('TOUT_ORDRE','NUME_ORDRE','INST','LIST_INST','LIST_ORDRE'),),
+             TOUT_ORDRE      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             NUME_ORDRE      =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+             LIST_ORDRE      =SIMP(statut='f',typ=listis_sdaster),
+             INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+             LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+             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',),),
+            )
+#& MODIF COMMANDE  DATE 06/05/2008   AUTEUR CORUS M.CORUS 
+#            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.                                 
+#
+# 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 CORUS M.CORUS
+
+MACR_ELEM_DYNA=OPER(nom="MACR_ELEM_DYNA",op=  81,sd_prod=macr_elem_dyna,
+                    fr="Définition d'un macro élément pour analyse modale ou harmonique par sous structuration dynamique",
+                    reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+         regles=(EXCLUS('MATR_AMOR','AMOR_REDUIT' ),
+                 PRESENT_ABSENT('MATR_IMPE','MATR_RIGI','MATR_MASS'),),
+         BASE_MODALE     =SIMP(statut='o',typ=base_modale ),
+         MATR_RIGI       =SIMP(statut='f',typ=(matr_asse_depl_r,matr_asse_depl_c),),
+         MATR_MASS       =SIMP(statut='f',typ=matr_asse_depl_r ),
+         MATR_AMOR       =SIMP(statut='f',typ=matr_asse_depl_r ),
+         AMOR_REDUIT     =SIMP(statut='f',typ='R',max='**'), 
+         SANS_GROUP_NO   =SIMP(statut='f',typ=grno ),
+         MATR_IMPE       =SIMP(statut='f',typ=matr_asse_gene_c ),
+         b_matr_impe     =BLOC(condition = "MATR_IMPE != None",
+             FREQ_EXTR       =SIMP(statut='o',typ='R' ),
+             AMOR_SOL        =SIMP(statut='f',typ='R',defaut=0.E+0 ),
+           ),
+         CAS_CHARGE      =FACT(statut='f',max='**',
+           NOM_CAS         =SIMP(statut='o',typ='TXM'),
+           VECT_ASSE_GENE  =SIMP(statut='o',typ=vect_asse_gene ),
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 21/10/2008   AUTEUR NISTOR I.NISTOR 
+#            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.                                 
+#
+# 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 PELLET J.PELLET
+MACR_ELEM_STAT=OPER(nom="MACR_ELEM_STAT",op=86,sd_prod=macr_elem_stat,reentrant='f',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+                    fr="Définition d'un macro-élément pour l'analyse statique par sous-structuration",
+        regles=(AU_MOINS_UN('DEFINITION','RIGI_MECA','MASS_MECA','CAS_CHARGE'),
+                ENSEMBLE('DEFINITION','EXTERIEUR'),),
+         DEFINITION      =FACT(statut='f',
+           regles=(PRESENT_PRESENT('PROJ_MESU','MODE_MESURE'),),
+           MODELE          =SIMP(statut='o',typ=modele_sdaster),
+           CHAM_MATER      =SIMP(statut='f',typ=cham_mater),
+           CARA_ELEM       =SIMP(statut='f',typ=cara_elem),
+           CHAR_MACR_ELEM  =SIMP(statut='f',typ=char_meca),
+           INST            =SIMP(statut='f',typ='R',defaut=0.0E+0 ),
+           NMAX_CAS        =SIMP(statut='f',typ='I',defaut=10),
+           NMAX_CHAR       =SIMP(statut='f',typ='I',defaut=10),
+           PROJ_MESU       =SIMP(statut='f',typ=(mode_gene,tran_gene,harm_gene),max=1),
+           MODE_MESURE     =SIMP(statut='f',typ=( mode_meca,base_modale) ),
+         ),
+         EXTERIEUR       =FACT(statut='f',
+           regles=(AU_MOINS_UN('NOEUD','GROUP_NO'),),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+         ),
+         RIGI_MECA       =FACT(statut='f',
+         ),
+         MASS_MECA       =FACT(statut='f',
+         ),
+         AMOR_MECA       =FACT(statut='f',
+         ),
+         CAS_CHARGE      =FACT(statut='f',max='**',
+           NOM_CAS         =SIMP(statut='o',typ='TXM'),
+           SUIV            =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+           CHARGE          =SIMP(statut='f',typ=char_meca,validators=NoRepeat(),max='**'),
+           INST            =SIMP(statut='f',typ='R',defaut=0.E+0),
+         ),
+
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2004  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.        
+# ======================================================================
+# RESPONSABLE GNICOLAS G.NICOLAS
+
+from Macro.macr_fiabilite_ops import macr_fiabilite_ops
+
+#
+#====
+# 1. Le retour : une liste de rééls.
+#====
+#
+def macr_fiabilite_prod ( self , **args ):
+  return listr8_sdaster
+#
+#====
+# 2. L'entete
+#====
+#
+MACR_FIABILITE = MACRO ( nom="MACR_FIABILITE",op=macr_fiabilite_ops,
+                         docu="U7.03.31",UIinfo={"groupe":("Post traitements",)},
+                         sd_prod=macr_fiabilite_prod,
+                         fr="Calcule les probabiltés de dépassement de seuil (mécanique de fiabilité).",
+                         ang="Fiability mechanics.",
+#
+#====
+# 3. Le niveau d'information
+#====
+#
+   INFO           = SIMP(statut="f",typ="I",defaut=1,into=(1,2)),
+#
+#====
+# 4. Nom et Version du logiciel de fiabilité
+#====
+#
+   LOGICIEL = SIMP(statut="f",typ="TXM",defaut="MEFISTO",
+                   into=("MEFISTO",),
+                   fr="Nom du logiciel de fiabilité.",
+                   ang="Fiability software name."),
+#
+   VERSION = SIMP(statut="f",typ="TXM",defaut="V3_2",
+                  into=("V3_2", "V3_N"),
+                  fr="Version du logiciel de fiabilité.",
+                  ang="Fiability software release."),
+#
+#====
+# 5. Les entrees-sorties du calcul ASTER déterministe
+#====
+#
+# 5.1. ==> Le jeu de commandes déterministe
+#
+   UNITE_ESCL = SIMP(statut="o",typ="I",
+                     fr="Unité logique associée aux commandes du calcul ASTER déterministe.",
+                     ang="Logical unit for the commands of the ASTER deterministic calculation."),
+#
+# 5.2. ==> Le destin des messages produits par ASTER
+#
+   MESS_ASTER = SIMP(statut="f",typ="TXM",defaut="DERNIER",
+                        into=("AUCUN", "DERNIER", "TOUS"),
+                        fr="Quels messages ASTER récupérer.",
+                        ang="Which ASTER messages must be kept."),
+#
+#====
+# 6. Options
+#====
+# 6.1. ==> Générales
+#
+# 6.1.1. ==> La valeur du seuil
+#
+   SEUIL = SIMP(statut="o",typ="R",max=1,
+                fr="Le seuil de défaillance.",
+                ang="Failure threshold."),
+#
+# 6.1.2. ==> Le type du seuil : on a deux cas de figure selon que
+#            la défaillance a lieu au dessus d'un seuil maximum ou
+#            en dessous d'un seuil minimum
+#
+   SEUIL_TYPE = SIMP(statut="o",typ="TXM",max=1,
+                     into=("MINIMUM","MAXIMUM"),
+                     fr="Que faut-il ne pas dépasser : un maximum ou un minimum.",
+                     ang="What is the failure threshold : maximum or minimum."),
+#
+# 6.2. ==> Pour MEFISTO
+#
+### en attente de résolution de AL 2004-006 (1/2)   b_mefisto=BLOC( condition = "LOGICIEL=='MEFISTO'",
+#
+# 6.2.1. ==> Pilotage de la recherche du point de conception
+#
+     RECH_PT_CONCEPT = SIMP(statut="f",typ="TXM",defaut="OUI",
+                            into=("OUI","NON"),
+                            fr="Pour trouver le point de conception.",
+                            ang="To find the design point."),
+#
+     b_rech_pt_concept=BLOC( condition = "RECH_PT_CONCEPT=='OUI'",
+#
+       EPSILON_U = SIMP(statut="f",typ="R",defaut=1.0E-2,
+                        fr="Précision du test d'arret sur les points itératifs dans l'espace standard.",
+                        ang="Precision of stop test for iterative points in standard space."),
+#
+       EPSILON_G = SIMP(statut="f",typ="R",defaut=1.0E-2,
+                        fr="Précision du test d'arret sur la proximité de la surface d'état limite.",
+                        ang="Precision of stop test for limit state surface."),
+#
+       TAU       = SIMP(statut="f",typ="R",defaut=5.0E-1,
+                        fr="Paramètre de la méthode de minimisation.",
+                        ang="Parameter for the minimization method."),
+#
+       OMEGA     = SIMP(statut="f",typ="R",defaut=1.0E-4,
+                        fr="Paramètre de la méthode de minimisation.",
+                        ang="Parameter for the minimization method."),
+#
+       ITER_MAX  = SIMP(statut="f",typ="I",defaut=50,
+                        fr="Nombre maximum d'itérations.",
+                        ang="Maximum number of iterations."),
+     ),
+#
+# 6.2.2. ==> Méthode(s) employée(s) pour la probabilité de défaillance
+#
+     METHODE_FORM = SIMP(statut="f",typ="TXM",defaut="OUI",
+                         into=("OUI","NON"),
+                         fr="Recherche de la probabilité de défaillance avec la méthode FORM.",
+                         ang="Research of failure probability with FORM method."),
+#
+     METHODE_SORM = SIMP(statut="f",typ="TXM",defaut="NON",
+                         into=("OUI","NON"),
+                         fr="Recherche de la probabilité de défaillance avec la méthode SORM.",
+                         ang="Research of failure probability with SORM method."),
+#
+     TIRAGE_IMPORTANCE = SIMP(statut="f",typ="TXM",defaut="NON",
+                              into=("OUI","NON"),
+                              fr="Recherche de la probabilité de défaillance avec le tirage d'importance.",
+                              ang="Research of failure probability with ."),
+#
+     b_tirage_importance=BLOC( condition = "TIRAGE_IMPORTANCE=='OUI'",
+#
+       NB_SIMULATION = SIMP(statut="f",typ="I",defaut=3,
+                            fr="Nombre de simulations pour le tirage d'importance.",
+                            ang="Number of simulation for."),
+#
+     ),
+#
+# 6.2.3. ==> Création d'une surface de réponse polynomiale
+#
+     POLYNOME_TAYLOR   = SIMP(statut="f",typ="TXM",defaut="NON",into=("OUI","NON"),),
+     HGRAD             = SIMP(statut="f",typ="R",defaut=1.0E-2,
+                              fr="Pas incrémental pour le calcul des gradients.",
+                              ang="Step for calculation of gradients."),
+     HHESS             = SIMP(statut="f",typ="R",defaut=1.0E-2,
+                              fr="Pas incrémental pour le calcul des dérivées secondes.",
+                              ang="Step for calculation of second derivatives."),
+#
+# 6.2.4. ==> Recherche d'un plan d'expérience
+#
+     PLAN_EXPERIENCE   = SIMP(statut="f",typ="TXM",defaut="NON",into=("OUI","NON"),
+                              fr="Construction d'un plan d'expérience.",
+                              ang="Construction of an experiment plan."),
+#
+     b_plan_experience=BLOC( condition = "PLAN_EXPERIENCE=='OUI'",
+#
+       ALPHA         = SIMP(statut="f",typ="R",defaut=2.0E-1,
+                            fr="Plan d'expérience : maille du plan de type composite centré.",
+                            ang="Experiment plane : mesh centered composite."),
+#
+       BETA          = SIMP(statut="f",typ="R",defaut=4.0E-1,
+                            fr="Plan d'expérience : maille du plan de type factoriel.",
+                            ang="Experiment plane : mesh factor."),
+#
+     ),
+#
+# 6.2.5. ==> Les tests
+# 6.2.5.1. ==> Test de la sphere
+#
+     T_SPHERE = SIMP(statut="f",typ="TXM",defaut="NON",into=("OUI","NON"),
+                     fr="Test de la sphère.",
+                     ang="Sphere test."),
+#
+     b_test_de_la_sphere=BLOC( condition = "T_SPHERE=='OUI'",
+#
+       METHODE_TEST = SIMP(statut="f",typ="TXM",defaut="GAUSSIENNE",
+                           into=("GAUSSIENNE","PARAMETRIQUE","REJECTION"),
+                           fr="Type de méthode.",
+                           ang="Method."),
+#
+       NB_POINT     = SIMP(statut="f",typ="I",max=1,defaut=60,
+                           fr="Nombre de points de la sphere.",
+                           ang="Number of points over the sphere.")
+     ),
+#
+# 6.2.5.2. ==> Test du maximum fort
+#
+     T_MAXIMUM_FORT = SIMP(statut="f",typ="TXM",defaut="NON",into=("OUI","NON"),
+                           fr="Test du maximum fort.",
+                           ang="Strong maximum test."),
+#
+     b_test_du_maximum_fort=BLOC( condition = "T_MAXIMUM_FORT=='OUI'",
+#
+       COS_LIM = SIMP(statut="f",typ="R",max=1,defaut=1.0,
+                      fr="Cosinus de l'angle d'exclusion.",
+                      ang="Cosine of angle of exclusion."),
+#
+       DPROB   = SIMP(statut="f",typ="R",max=1,defaut=4.3E-1,
+                      fr="Fraction d'iso-densité de probabilité de défaillance.",
+                      ang="Fraction.")
+#
+     ),
+#
+# 6.2.5.3. ==> Test du hessien
+#
+     T_HESSIEN = SIMP(statut="f",typ="TXM",defaut="NON",into=("OUI","NON"),
+                      fr="Test du hessien.",
+                      ang="Hessian test."),
+#
+# 6.2.6. ==> Les correlations entre les variables
+#
+     MATRICE = SIMP(statut="f",typ="R",max="**",
+                    fr="Matrice de corrélation entre les variables.",
+                    ang="Correlation matrix."), 
+#
+### en attente de résolution de AL 2004-006 (2/2)   ),
+#
+#====
+# 7. Definition des paramètres
+#====
+#
+   VARIABLE = FACT(statut="o",min=1,max="**",
+#
+# 7.1. ==> Nom de la variable
+#
+       NOM = SIMP(statut="o",typ="TXM",
+                  fr="Nom de la variable, identique au nom de concept PARA_SENSI.",
+                  ang="Name of the variable, identical to the name of the PARA_SENSI conceipt."),
+#
+# 7.2. ==> Loi de distribution
+#
+       LOI = SIMP(statut="o",typ="TXM",
+                  into=("UNIFORME","NORMALE","LOGNORMALE","NORMALE_TRONQUEE"),
+                  fr="Choix de la loi",
+                  ang="Law."),
+#
+# 7.2.1. ==> Loi normale
+#
+       b_normale=BLOC(condition="LOI=='NORMALE'",
+#
+         VALE_MOY   = SIMP(statut="o",typ="R",max=1,
+                               fr="Valeur moyenne.",
+                               ang="Mean value."),
+#
+         ECART_TYPE = SIMP(statut="o",typ="R",max=1,
+                               fr="Ecart type.",
+                               ang="Standard deviation."),
+#
+       ),
+#
+# 7.2.2. ==> Loi lognormale
+#
+       b_lognormale=BLOC(condition="LOI=='LOGNORMALE'",
+#
+         VALE_MIN       = SIMP(statut="o",typ="R",max=1,
+                                   fr="Valeur minimale.",
+                                   ang="Minimal value."),
+#
+         VALE_MOY       = SIMP(statut="f",typ="R",max=1,
+                                   fr="Valeur moyenne dans l'espace de la loi normale.",
+                                   ang="Mean value in the space of the normal law."),
+#
+         ECART_TYPE     = SIMP(statut="f",typ="R",max=1,
+                                   fr="Ecart type dans l'espace de la loi normale.",
+                                   ang="Standard deviation in the space of the normal law."),
+#
+         VALE_MOY_PHY   = SIMP(statut="f",typ="R",max=1,
+                                   fr="Valeur moyenne dans l'espace physique.",
+                                   ang="Mean value in the physical space."),
+#
+         ECART_TYPE_PHY = SIMP(statut="f",typ="R",max=1,
+                                   fr="Ecart type dans l'espace physique.",
+                                   ang="Standard deviation in the physical space."),
+#
+         regles=(AU_MOINS_UN("VALE_MOY"  ,"VALE_MOY_PHY"),
+                 AU_MOINS_UN("ECART_TYPE","ECART_TYPE_PHY"),
+                 EXCLUS  ("VALE_MOY"  ,"VALE_MOY_PHY"),
+                 EXCLUS  ("VALE_MOY"  ,"ECART_TYPE_PHY"),
+                 EXCLUS  ("ECART_TYPE","VALE_MOY_PHY"),
+                 EXCLUS  ("ECART_TYPE","ECART_TYPE_PHY")),
+#
+       ),
+#
+# 7.2.3. ==> Loi uniforme
+#
+       b_uniforme=BLOC(condition="LOI=='UNIFORME'",
+#
+         VALE_MIN = SIMP(statut="o",typ="R",max=1,
+                             fr="Valeur minimale.",
+                             ang="Minimal value."),
+#
+         VALE_MAX = SIMP(statut="o",typ="R",max=1,
+                             fr="Valeur maximale.",
+                             ang="Maximal value."),
+#
+       ),
+#
+# 7.2.4. ==> Loi normale tronquée
+#
+       b_normale_tronquee=BLOC(condition="LOI=='NORMALE_TRONQUEE'",
+#
+         VALE_MOY   = SIMP(statut="o",typ="R",max=1,
+                               fr="Valeur moyenne de la loi normale complète.",
+                               ang="Mean value for the entire normal law."),
+#
+         ECART_TYPE = SIMP(statut="o",typ="R",max=1,
+                               fr="Ecart type de la loi normale complète.",
+                               ang="Standard deviation for the entire normal law."),
+#
+         VALE_MIN   = SIMP(statut="o",typ="R",max=1,
+                               fr="Valeur minimale.",
+                               ang="Minimal value."),
+#
+         VALE_MAX   = SIMP(statut="o",typ="R",max=1,
+                               fr="Valeur maximale.",
+                               ang="Maximal value."),
+#
+       ),
+#
+# 7.3. ==> Paramètres de calcul
+# 7.3.1. ==> Soit on cherche le point de conception, soit on le connait deja
+#
+       regles=(EXCLUS("POINT_INI","POINT_CONCEPT"),
+               EXCLUS("POINT_REF","POINT_CONCEPT"),),
+#
+# 7.3.2. ==> Quand on cherche le point de conception, on peut préciser le départ de l'algorithme.
+#            Si on ne le fait pas, le programme prendra la valeur moyenne.
+#
+       POINT_INI = SIMP(statut="f",typ="R",max=1,
+                          fr="Point de démarrage de l'algorithme itératif.",
+                          ang="Initial point for iterative process."),
+#
+# 7.3.3. ==> Quand on cherche le point de conception, on peut préciser un point de référence pour normaliser.
+#            Si on ne le fait pas, le programme prendra la valeur moyenne.
+#
+       POINT_REF = SIMP(statut="f",typ="R",max=1,
+                          fr="Point de référence de l'algorithme itératif.",
+                          ang="Reference point for iterative process."),
+#
+# 7.3.4. ==> Quand on cherche uniquement la probabilité de défaillance, il faut donner le point de conception
+#
+       POINT_CONCEPT = SIMP(statut="f",typ="R",max=1,
+                              fr="Point de conception.",
+                              ang="Design point."),
+#
+# 7.4. ==> Mode d'obtention du gradient par rapport à ce paramètre
+#
+       GRADIENT = SIMP(statut="o",typ="TXM",max=1,
+                           into=("OUI","NON"),
+                           fr="ASTER calcule directement le gradient.",
+                       ang="ASTER computes the gradient for this parameter."),
+
+       b_gradient=BLOC(condition="GRADIENT=='NON'",
+         INCREMENT = SIMP(statut="o",typ="R",max=1,
+                             fr="Incrément dans la direction.",
+                         ang="Direction increment."),
+       ),
+
+   ),
+#
+);
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2004  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.        
+# ======================================================================
+# RESPONSABLE GNICOLAS G.NICOLAS
+
+from Macro.macr_fiab_impr_ops import macr_fiab_impr_ops
+
+MACR_FIAB_IMPR=MACRO(nom="MACR_FIAB_IMPR",op=macr_fiab_impr_ops,
+                     docu="U7.04.41",UIinfo={"groupe":("Impression",)},
+                     fr="Imprimer les valeurs à transmettre au logiciel de fiabilité.",
+                     ang="Print values for the fiability software",
+#
+# 1. Le niveau d'information
+#
+   INFO           = SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+#
+# 2. Impression de la valeur de la cible
+#
+# 2.1. ==> La table contenant la valeur à imprimer
+#
+   TABLE_CIBLE = SIMP(statut='o',typ=table_sdaster,
+                 fr="Table contenant la valeur cible.",
+                 ang="Table which includes the target value."),
+#
+# 2.2. ==> Le nom du paramètre associé à la valeur cible dans cette table
+#
+   NOM_PARA_CIBLE = SIMP(statut='o',typ='TXM',
+                    fr="Nom du paramètre associé à la valeur cible.",
+                    ang="Name of the parameter connected to the target value."),
+#
+# 3. Impressions des valeurs des éventuels gradients
+#
+   GRADIENTS = FACT(statut='f',min=1,max='**',
+#
+# 3.1. ==> La table contenant la valeur à imprimer
+#
+       TABLE = SIMP(statut='o',typ=table_sdaster,
+                    fr="Table contenant le gradient.",
+                    ang="Table which includes the gradient."),
+#
+# 3.2. ==> Le paramètre sensible
+#
+       PARA_SENSI = SIMP(statut='o',typ=(para_sensi,theta_geom),
+                       fr="Paramètre sensible associé au gradient.",
+                       ang="Sensitivity parameter connected to the gradient."),
+#
+# 3.3. ==> Le nom du paramètre associé au gradient dans cette table
+#
+       NOM_PARA = SIMP(statut='o',typ='TXM',
+                       fr="Nom du paramètre associé au gradient.",
+                       ang="Name of the parameter connected to the gradient."),
+#
+         ),
+#
+);
+#& MODIF COMMANDE  DATE 20/10/2008   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.                                 
+#
+# 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 GNICOLAS G.NICOLAS
+
+from Macro.macr_adap_mail_ops import macr_adap_mail_ops
+
+MACR_INFO_MAIL=MACRO(nom="MACR_INFO_MAIL",op=macr_adap_mail_ops,
+                     docu="U7.03.02-b",UIinfo={"groupe":("Maillage",)},
+                     fr="Donner des informations sur un maillage.",
+                     ang="To give information about a mesh.",
+#
+# 1. Le niveau d'information
+#
+  INFO = SIMP(statut='f',typ='I',defaut=1,into=(1,2,3,4)),
+#
+# 2. Version de HOMARD
+#
+  VERSION_HOMARD = SIMP(statut='f',typ='TXM',defaut="V9_5",
+                        into=("V9_5", "V9_N", "V9_N_PERSO"),
+                        fr="Version de HOMARD",
+                        ang="HOMARD release"),
+#
+# 3. Langue des messages issus de HOMARD
+#
+  LANGUE = SIMP(statut='f',typ='TXM',defaut="FRANCAIS",    
+                into=("FRANCAIS","FRENCH","ANGLAIS","ENGLISH",),
+                fr="Langue des messages issus de HOMARD.",
+                ang="Language for HOMARD messages." ),
+#
+# 4. Le nom du maillage a analyser
+#
+  MAILLAGE = SIMP(statut='o',typ=maillage_sdaster,
+                  fr="Maillage à analyser.",
+                  ang="Mesh to be checked." ),
+#
+# 5. Suivi d'une frontiere
+#
+  MAILLAGE_FRONTIERE = SIMP(statut='f',typ=maillage_sdaster,
+                           fr="Maillage de la frontiere à suivre",
+                           ang="Boundary mesh" ),
+#
+  b_frontiere = BLOC( condition = " MAILLAGE_FRONTIERE != None " ,
+                      fr="Information complémentaire sur la frontière",
+                      ang="Further information about boundary",
+#
+    GROUP_MA_FRONT = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**',
+                          fr="Groupes de mailles définissant la frontière",
+                          ang="Mesh groups which define the boundary" ),
+#
+                    ) ,
+#
+# 6. Les options ; par defaut, on controle tout
+# 6.1. Nombre de noeuds et elements
+#
+  NOMBRE         = SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON"),
+                        fr="Nombre de noeuds et éléments du maillage",
+                        ang="Number of nodes and elements in the mesh" ),
+#
+# 6.2. Determination de la qualite des elements du maillage
+#
+  QUALITE        = SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON"),
+                        fr="Qualité du maillage",
+                        ang="Mesh quality" ),
+#
+# 6.3. Connexite du maillage
+#
+  CONNEXITE      = SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON"),
+                        fr="Connexité du maillage.",
+                        ang="Mesh connexity." ),
+#
+# 6.4. Taille des sous-domaines du maillage
+#
+  TAILLE         = SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON"),
+                        fr="Tailles des sous-domaines du maillage.",
+                        ang="Sizes of mesh sub-domains." ),
+#
+# 6.5. Controle de la non-interpenetration des elements
+#
+  INTERPENETRATION=SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON"),
+                        fr="Controle de la non interpénétration des éléments.",
+                        ang="Overlapping checking." ),
+#
+# 7. Gestion des éléments autres que ceux compatibles avec HOMARD
+#       "REFUSER" : ils sont refuses (defaut)
+#       "IGNORER" : ils sont ignorés
+#
+  ELEMENTS_NON_HOMARD = SIMP(statut='f',typ='TXM',defaut="REFUSER",into=("REFUSER","IGNORER"),
+                             fr="Acceptation d'éléments incompatibles avec HOMARD",
+                             ang="Incompatible elements for HOMARD" ),
+)  ;
+#& MODIF COMMANDE  DATE 30/09/2008   AUTEUR REZETTE C.REZETTE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2002  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.
+# ======================================================================
+# RESPONSABLE DURAND C.DURAND
+
+from Macro.macr_lign_coupe_ops import macr_lign_coupe_ops
+
+MACR_LIGN_COUPE=MACRO(nom="MACR_LIGN_COUPE",op=macr_lign_coupe_ops,sd_prod=table_sdaster,
+                       reentrant='n',
+            UIinfo={"groupes":("Outils métier",)},
+            fr="Extraction des valeurs d'un résultat dans une ou plusieurs tables sur des lignes de coupe définies"
+             +" par deux points et un intervalle",
+            regles=(UN_PARMI("RESULTAT","CHAM_GD"),),
+
+         RESULTAT        =SIMP(statut='f',typ=(evol_elas,evol_noli,evol_ther) ),
+         CHAM_GD         =SIMP(statut='f',typ=(cham_gd_sdaster)),
+
+         b_extrac        =BLOC(condition = "RESULTAT != None",fr="extraction des résultats",
+                                 regles=(EXCLUS('NUME_ORDRE','LIST_ORDRE','INST','LIST_INST',), ),
+             NUME_ORDRE      =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+             LIST_ORDRE      =SIMP(statut='f',typ=listis_sdaster),
+             INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+             LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+             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',),),
+           ),
+
+# extraction des résultats
+         b_meca        =BLOC(condition = "AsType(RESULTAT) in (evol_elas,evol_noli)",fr="résultat mécanique",
+           NOM_CHAM        =SIMP(statut='f',typ='TXM',defaut='SIGM_NOEU_DEPL' ),
+         ),
+         b_ther        =BLOC(condition = "AsType(RESULTAT) in (evol_ther,)",fr="résultat thermique",
+           NOM_CHAM        =SIMP(statut='f',typ='TXM',defaut='TEMP' ),
+         ),
+         b_cham       =BLOC(condition = "CHAM_GD!=None",
+           NOM_CHAM        =SIMP(statut='f',typ='TXM',),),
+
+         UNITE_MAILLAGE  =SIMP(statut='f',typ='I',defaut=25),
+         MODELE          =SIMP(statut='f',typ=modele_sdaster ),
+
+         VIS_A_VIS       =FACT(statut='f',max='**',
+                             regles=(EXCLUS('GROUP_MA_1','MAILLE_1'),),
+           GROUP_MA_1        =SIMP(statut='f',typ=grma),
+           MAILLE_1          =SIMP(statut='f',typ=ma,max='**'),),
+
+         LIGN_COUPE     =FACT(statut='o',max='**',
+            regles=(EXCLUS("NOM_CMP","INVARIANT","ELEM_PRINCIPAUX","RESULTANTE"),
+                    PRESENT_PRESENT("TRAC_DIR","DIRECTION"),
+                    EXCLUS("TRAC_DIR","TRAC_NOR"),
+                    PRESENT_PRESENT("TRAC_DIR","NOM_CMP"),
+                    PRESENT_PRESENT("TRAC_NOR","NOM_CMP"),),
+
+           INTITULE        =SIMP(statut='f',typ='TXM',),
+           TYPE            =SIMP(statut='o',typ='TXM',max=1,
+                                 into=("GROUP_NO","SEGMENT","ARC","GROUP_MA"),defaut="SEGMENT"),
+           REPERE          =SIMP(statut='f',typ='TXM',defaut="GLOBAL",
+                                into=("GLOBAL","LOCAL","POLAIRE","UTILISATEUR","CYLINDRIQUE"),),
+           OPERATION       =SIMP(statut='f',typ='TXM',into=("EXTRACTION","MOYENNE",),defaut="EXTRACTION",),
+
+           NOM_CMP         =SIMP(statut='f',typ='TXM',max='**'),
+           INVARIANT       =SIMP(statut='f',typ='TXM',into=("OUI",),),
+           ELEM_PRINCIPAUX =SIMP(statut='f',typ='TXM',into=("OUI",),),
+           RESULTANTE      =SIMP(statut='f',typ='TXM',max='**'),
+           TRAC_NOR        =SIMP(statut='f',typ='TXM',into=("OUI",)),
+           TRAC_DIR        =SIMP(statut='f',typ='TXM',into=("OUI",)),
+           DIRECTION       =SIMP(statut='f',typ='R',max='**'),
+
+
+           b_local        =BLOC(condition = "REPERE=='LOCAL' ",
+             VECT_Y          =SIMP(statut='o',typ='R',min=2,max=3),),
+
+           b_utili        =BLOC(condition = "REPERE=='UTILISATEUR'",
+             ANGL_NAUT       =SIMP(statut='o',typ='R',min=3,max=3),),
+
+           b_grno          =BLOC(condition = "TYPE=='GROUP_NO'",
+             GROUP_NO        =SIMP(statut='o',typ=grno, max=1),),
+
+           b_grma          =BLOC(condition = "TYPE=='GROUP_MA'",
+             GROUP_MA        =SIMP(statut='o',typ=grma, max=1),
+             MAILLAGE        =SIMP(statut='o',typ=maillage_sdaster),),
+
+           b_segment       =BLOC(condition = "TYPE=='SEGMENT'",
+             NB_POINTS       =SIMP(statut='o',typ='I',max=1),
+             COOR_ORIG       =SIMP(statut='o',typ='R',min=2,max=3),
+             COOR_EXTR       =SIMP(statut='o',typ='R',min=2,max=3),),
+
+           b_arc           =BLOC(condition = "TYPE=='ARC'",
+             NB_POINTS       =SIMP(statut='o',typ='I',max=1),
+             COOR_ORIG       =SIMP(statut='o',typ='R',min=2,max=3),
+             CENTRE          =SIMP(statut='o',typ='R',min=2,max=3),
+             ANGLE           =SIMP(statut='o',typ='R',max=1),
+             DNOR            =SIMP(statut='f',typ='R',min=2,max=3),),
+
+           b_cylind       =BLOC(condition = ("REPERE=='CYLINDRIQUE' and TYPE!='ARC'"),
+             ORIGINE         =SIMP(statut='f',typ='R',min=2,max=3),
+             AXE_Z           =SIMP(statut='f',typ='R',min=3,max=3),),
+
+           DISTANCE_MAX    =SIMP(statut='f',typ='R',defaut=0.,
+                fr="Si la distance entre un noeud de la ligne de coupe et le maillage coupé "
+                +"est > DISTANCE_MAX, ce noeud sera ignoré."),
+
+         ),
+)  ;
+
+
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 DESROCHES X.DESROCHES
+
+from Macro.macro_elas_mult_ops import macro_elas_mult_ops
+
+def macro_elas_mult_prod(self,NUME_DDL,CAS_CHARGE,**args ):
+  if isinstance(NUME_DDL,CO) :
+    self.type_sdprod(NUME_DDL,nume_ddl_sdaster)
+  else:
+    self.type_sdprod(NUME_DDL,NUME_DDL.__class__)
+  if CAS_CHARGE[0]['NOM_CAS']      != None : return mult_elas
+  if CAS_CHARGE[0]['MODE_FOURIER'] != None : return fourier_elas
+  raise AsException("type de concept resultat non prevu")
+
+MACRO_ELAS_MULT=MACRO(nom="MACRO_ELAS_MULT",op=macro_elas_mult_ops,sd_prod=macro_elas_mult_prod,reentrant='f',
+            UIinfo={"groupes":("Résolution",)},
+         fr="Calculer les réponses statiques linéaires pour différents cas de charges ou modes de Fourier",
+         regles=(UN_PARMI('CHAR_MECA_GLOBAL','CHAR_CINE_GLOBAL','LIAISON_DISCRET', ),),
+         MODELE          =SIMP(statut='o',typ=modele_sdaster),
+         CHAM_MATER      =SIMP(statut='f',typ=cham_mater),
+         CARA_ELEM       =SIMP(statut='f',typ=cara_elem),
+         NUME_DDL        =SIMP(statut='f',typ=(nume_ddl_sdaster,CO)),
+         CHAR_MECA_GLOBAL=SIMP(statut='f',typ=char_meca,validators=NoRepeat(),max='**'),
+         CHAR_CINE_GLOBAL=SIMP(statut='f',typ=char_meca,validators=NoRepeat(),max='**'),
+         LIAISON_DISCRET =SIMP(statut='f',typ='TXM',into=("OUI",)),
+         CAS_CHARGE      =FACT(statut='o',max='**',
+           regles=(UN_PARMI('NOM_CAS','MODE_FOURIER'),
+                   UN_PARMI('CHAR_MECA','CHAR_CINE','VECT_ASSE'),),
+           NOM_CAS         =SIMP(statut='f',typ='TXM' ),
+           MODE_FOURIER    =SIMP(statut='f',typ='I' ),
+           TYPE_MODE       =SIMP(statut='f',typ='TXM',defaut="SYME",into=("SYME","ANTI","TOUS") ),
+           CHAR_MECA       =SIMP(statut='f',typ=char_meca,validators=NoRepeat(),max='**'),
+           CHAR_CINE       =SIMP(statut='f',typ=char_meca,validators=NoRepeat(),max='**'),
+           OPTION          =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**',
+                                 into=("EFGE_ELNO_DEPL","EPOT_ELEM_DEPL","SIGM_ELNO_DEPL","SIEF_ELGA_DEPL",
+                                       "SIGM_ELNO_CART","EFGE_ELNO_CART","DEGE_ELNO_DEPL","EPSI_ELNO_DEPL",
+                                       "EPSI_ELGA_DEPL","EPSG_ELNO_DEPL","EPSG_ELGA_DEPL","EPSP_ELNO","EPSP_ELGA",
+                                       "ECIN_ELEM_DEPL","FLUX_ELGA_TEMP","FLUX_ELNO_TEMP","SOUR_ELGA_ELEC",
+                                       "PRES_ELNO_DBEL","PRES_ELNO_REEL","PRES_ELNO_IMAG","INTE_ELNO_ACTI",
+                                       "INTE_ELNO_REAC","SIGM_NOZ1_ELGA","ERZ1_ELEM_SIGM","SIGM_NOZ2_ELGA",
+                                       "ERZ2_ELEM_SIGM","VNOR_ELEM_DEPL","ERRE_ELNO_ELEM","SIRE_ELNO_DEPL",
+                                       "ERRE_ELEM_SIGM","EQUI_ELNO_SIGM","EQUI_ELGA_SIGM","EQUI_ELNO_EPSI",
+                                       "QIRE_ELEM_SIGM","QIRE_ELNO_ELEM","QIZ1_ELEM_SIGM","QIZ2_ELEM_SIGM",
+                                       "EQUI_ELGA_EPSI","FORC_NODA","REAC_NODA","EPSI_NOEU_DEPL","SIGM_NOEU_DEPL",
+                                       "EFGE_NOEU_DEPL","EQUI_NOEU_SIGM","EQUI_NOEU_EPSI","FLUX_NOEU_TEMP") ),
+           NUME_COUCHE     =SIMP(statut='f',typ='I',defaut=1),
+           NIVE_COUCHE     =SIMP(statut='f',typ='TXM',defaut="MOY",into=("SUP","INF","MOY")),
+           SOUS_TITRE      =SIMP(statut='f',typ='TXM',max='**'),
+           VECT_ASSE       =SIMP(statut='f',typ=cham_no_sdaster),
+         ),
+         SOLVEUR         =FACT(statut='d',
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("MULT_FRONT","LDLT") ),
+           b_mult_front    = BLOC ( condition = "METHODE == 'MULT_FRONT' ",
+                                    fr="Paramètres de la méthode multi frontale",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+           ),
+           b_ldlt          =BLOC(condition = "METHODE == 'LDLT' ",fr="Paramètres de la méthode LDLT",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("RCMK","SANS") ),
+            ),
+           b_ldlt_mult     =BLOC(condition = "METHODE == 'LDLT' or METHODE == 'MULT_FRONT' ",
+                                   fr="Paramètres relatifs à la non inversibilité de la matrice à factorise",
+             NPREC           =SIMP(statut='f',typ='I',defaut= 8 ),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+         ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=(1,2)),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& MODIF COMMANDE  DATE 21/10/2008   AUTEUR NISTOR I.NISTOR 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2006  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.        
+# ======================================================================
+# RESPONSABLE BODEL C.BODEL
+
+from Macro.macro_expans_ops import macro_expans_ops
+
+def macro_expans_prod(self, MODELE_MESURE, RESU_NX, RESU_EX, RESU_ET, RESU_RD, **args):
+    RESU_EXP = MODELE_MESURE['MESURE']
+    self.type_sdprod(RESU_NX, mode_meca)
+    for res in (RESU_EX, RESU_ET, RESU_RD):
+        if isinstance(res, CO):
+            if AsType(RESU_EXP) == mode_meca:
+                self.type_sdprod(res, mode_meca)
+            else:
+                self.type_sdprod(res, dyna_harmo)
+        else:
+            self.type_sdprod(res,res.__class__)
+    return None
+
+MACRO_EXPANS=MACRO(nom="MACRO_EXPANS",
+                   op=macro_expans_ops,
+                   sd_prod=macro_expans_prod,
+                   reentrant='n',
+                   UIinfo={"groupes":("Outils métier",)},
+                   fr="Outil d'expansion de resultats exprimentaux sur une base definie sur un modele numerique",
+                        MODELE_CALCUL   = FACT(statut='o',
+                           MODELE          = SIMP(statut='o',typ=(modele_sdaster) ),
+                           BASE            = SIMP(statut='o',typ=(mode_meca,base_modale,) ), 
+                           NUME_MODE       = SIMP(statut='f',typ='I',validators=NoRepeat(),max='**',defaut=0),
+                           NUME_ORDRE      = SIMP(statut='f',typ='I',validators=NoRepeat(),max='**',defaut=0),
+
+                                             ),
+                        MODELE_MESURE   = FACT(statut='o',
+                           MODELE          = SIMP(statut='o',typ=(modele_sdaster) ),
+                           MESURE          = SIMP(statut='o',typ=(dyna_trans,dyna_harmo,base_modale,mode_meca,mode_meca_c,) ),
+                           NOM_CHAM        = SIMP(statut='f',typ='TXM',defaut="DEPL",
+                                                  into=("DEPL","VITE","ACCE","SIEF_NOEU","EPSI_NOEU_DEPL",) ),
+                           NUME_MODE       = SIMP(statut='f',typ='I',validators=NoRepeat(),max='**',defaut=0),
+                           NUME_ORDRE      = SIMP(statut='f',typ='I',validators=NoRepeat(),max='**',defaut=0),
+
+                                             ),
+                        NUME_DDL       = SIMP(statut='f',typ=(nume_ddl_sdaster)),
+                        RESU_NX        = SIMP(statut='f',typ=(mode_meca,dyna_harmo, CO)),
+                        RESU_EX        = SIMP(statut='f',typ=(mode_meca,dyna_harmo, CO)),
+                        RESU_ET        = SIMP(statut='f',typ=(mode_meca,dyna_harmo, CO)),
+                        RESU_RD        = SIMP(statut='f',typ=(mode_meca,dyna_harmo, CO)),
+                        RESOLUTION     = FACT(statut='f',
+                           METHODE =SIMP(statut='f',typ='TXM',defaut="LU",into=("LU","SVD",) ),
+                           b_svd   =BLOC(condition="METHODE=='SVD'",
+                                         EPS=SIMP(statut='f',typ='R',defaut=0. ),
+                                        ),
+                           REGUL   =SIMP(statut='f',typ='TXM',defaut="NON",into=("NON","NORM_MIN","TIK_RELA",) ),
+                           b_regul =BLOC(condition="REGUL!='NON'",
+                                         regles=(PRESENT_ABSENT('COEF_PONDER','COEF_PONDER_F', ),),
+                                         COEF_PONDER   =SIMP(statut='f',typ='R',defaut=0.     ,max='**' ),
+                                         COEF_PONDER_F =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule),max='**' ),
+                                        ),
+                                             ),
+                   )
+#& 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.
+#
+# 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 GREFFET N.GREFFET
+
+from Macro.macro_matr_ajou_ops import macro_matr_ajou_ops
+
+def macro_matr_ajou_prod(self,MATR_AMOR_AJOU,MATR_MASS_AJOU,MATR_RIGI_AJOU,FORC_AJOU,**args):
+  self.type_sdprod(MATR_AMOR_AJOU,matr_asse_gene_r)
+  self.type_sdprod(MATR_MASS_AJOU,matr_asse_gene_r)
+  self.type_sdprod(MATR_RIGI_AJOU,matr_asse_gene_r)
+  if FORC_AJOU != None:
+    for m in FORC_AJOU:
+      self.type_sdprod(m['VECTEUR'],vect_asse_gene)
+
+  return None
+
+MACRO_MATR_AJOU=MACRO(nom="MACRO_MATR_AJOU",op=macro_matr_ajou_ops,sd_prod=macro_matr_ajou_prod,
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+            fr="Calculer de facon plus condensée qu'avec CALC_MATR_AJOU des matrices de masse, d'amortissement"
+              +" ou de rigidité ajoutés",
+      regles=(AU_MOINS_UN('MODE_MECA','DEPL_IMPO','MODELE_GENE'),
+              AU_MOINS_UN('MATR_MASS_AJOU','MATR_AMOR_AJOU','MATR_RIGI_AJOU'),
+              EXCLUS('MODE_MECA','DEPL_IMPO','MODELE_GENE'),
+              EXCLUS('MONO_APPUI','MODE_STAT',),
+             ),
+         MAILLAGE        =SIMP(statut='o',typ=maillage_sdaster),
+         GROUP_MA_FLUIDE =SIMP(statut='o',typ=grma),
+         GROUP_MA_INTERF =SIMP(statut='o',typ=grma),
+         MODELISATION    =SIMP(statut='o',typ='TXM',into=("PLAN","AXIS","3D")),
+         FLUIDE          =FACT(statut='o',max='**',
+           RHO             =SIMP(statut='o',typ='R'),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",)),
+           GROUP_MA        =SIMP(statut='f',typ=grma),
+           MAILLE          =SIMP(statut='f',typ=ma),
+         ),
+         DDL_IMPO        =FACT(statut='o',max='**',
+           regles=(UN_PARMI('NOEUD','GROUP_NO'),
+                   UN_PARMI('PRES_FLUIDE','PRES_SORTIE'),),
+           NOEUD           =SIMP(statut='f',typ=no),
+           GROUP_NO        =SIMP(statut='f',typ=grno),
+           PRES_FLUIDE     =SIMP(statut='f',typ='R'),
+           PRES_SORTIE     =SIMP(statut='f',typ='R'),
+         ),
+         ECOULEMENT      =FACT(statut='f',
+           GROUP_MA_1      =SIMP(statut='o',typ=grma),
+           GROUP_MA_2      =SIMP(statut='o',typ=grma),
+           VNOR_1          =SIMP(statut='o',typ='R'),
+           VNOR_2          =SIMP(statut='f',typ='R'),
+           POTENTIEL       =SIMP(statut='f',typ=evol_ther),
+         ),
+         MODE_MECA       =SIMP(statut='f',typ=mode_meca),
+         DEPL_IMPO       =SIMP(statut='f',typ=cham_no_sdaster),
+         MODELE_GENE     =SIMP(statut='f',typ=modele_gene),
+         NUME_DDL_GENE   =SIMP(statut='f',typ=nume_ddl_gene),
+         DIST_REFE       =SIMP(statut='f',typ='R',defaut= 1.0E-2),
+         MATR_MASS_AJOU  =SIMP(statut='f',typ=CO,),
+         MATR_RIGI_AJOU  =SIMP(statut='f',typ=CO,),
+         MATR_AMOR_AJOU  =SIMP(statut='f',typ=CO,),
+         MONO_APPUI      =SIMP(statut='f',typ='TXM',into=("OUI",),),
+         MODE_STAT       =SIMP(statut='f',typ=(mode_stat_depl,mode_stat_acce,mode_stat_forc,),),
+         FORC_AJOU       =FACT(statut='f',max='**',
+           DIRECTION     =SIMP(statut='o',typ='R',max=3),
+           NOEUD         =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           GROUP_NO      =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           VECTEUR       =SIMP(statut='o',typ=CO),
+         ),
+         SOLVEUR         =FACT(statut='d',
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("MULT_FRONT","LDLT","GCPC","MUMPS","PETSC") ),
+           b_mult_front    =BLOC(condition = "METHODE == 'MULT_FRONT' ",fr="Paramètres de la méthode multi frontale",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+           ),
+           b_ldlt         =BLOC(condition = "METHODE == 'LDLT' ",fr="Paramètres de la méthode LDLT",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("RCMK","SANS") ),
+           ),
+           b_ldlt_mult    =BLOC(condition = "METHODE == 'LDLT' or METHODE == 'MULT_FRONT' ",
+                                   fr="Paramètres relatifs à la non iversibilité de la matrice à factorise",
+             NPREC           =SIMP(statut='f',typ='I',defaut= 8 ),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+           b_gcpc          =BLOC(condition = "METHODE == 'GCPC' ", fr="Paramètres de la méthode du gradient conjugué",
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC",),defaut="LDLT_INC" ),
+             NIVE_REMPLISSAGE=SIMP(statut='f',typ='I',defaut= 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= 0 ),
+           ),
+           b_mumps        =BLOC(condition = "METHODE == 'MUMPS' ",fr="Paramètres de la méthode MUMPS",
+             TYPE_RESOL      =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("NONSYM","SYMGEN","SYMDEF","AUTO")),
+             PRETRAITEMENTS  =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("SANS","AUTO")),
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("AMD","AMF","PORD","METIS","QAMD","AUTO")),
+             ELIM_LAGR2      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+             PCENT_PIVOT     =SIMP(statut='f',typ='I',defaut=10,),
+             RESI_RELA       =SIMP(statut='f',typ='R',defaut=1.0E-6,),
+             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,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" ),
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC","JACOBI","SOR"),defaut="LDLT_INC" ),
+             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 ),
+           ),
+         ),
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+         NOEUD_DOUBLE    =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")),
+         AVEC_MODE_STAT  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+)
+#& MODIF COMMANDE  DATE 17/11/2008   AUTEUR DELMAS J.DELMAS 
+#            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.
+#
+# 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 PELLET J.PELLET
+
+from Macro.macro_matr_asse_ops import macro_matr_asse_ops
+
+def macro_matr_asse_prod(self,NUME_DDL,MATR_ASSE,**args):
+  if not MATR_ASSE:  raise AsException("Impossible de typer les concepts resultats")
+  if not NUME_DDL :  raise AsException("Impossible de typer les concepts resultats")
+  if isinstance(NUME_DDL,CO) :
+    self.type_sdprod(NUME_DDL,nume_ddl_sdaster)
+  else:
+    self.type_sdprod(NUME_DDL,NUME_DDL.__class__)
+  for m in MATR_ASSE:
+    opti=m['OPTION']
+
+    if opti in ( "RIGI_MECA","RIGI_FLUI_STRU","RIGI_MECA_LAGR" ,
+       "MASS_MECA" , "MASS_FLUI_STRU" ,"RIGI_GEOM" ,"RIGI_ROTA",
+       "AMOR_MECA","IMPE_MECA",
+       "ONDE_FLUI","MASS_MECA_DIAG","MECA_GYRO" ) : t=matr_asse_depl_r
+
+    if opti in ( "RIGI_ACOU","MASS_ACOU","AMOR_ACOU",) : t=matr_asse_pres_c
+
+    if opti in ( "RIGI_THER","MASS_THER","RIGI_THER_CONV" ,
+       "RIGI_THER_CONV_D",) : t=matr_asse_temp_r
+
+    if opti == "RIGI_MECA_HYST"   : t= matr_asse_depl_c
+
+    self.type_sdprod(m['MATRICE'],t)
+  return None
+
+MACRO_MATR_ASSE=MACRO(nom="MACRO_MATR_ASSE",op=macro_matr_asse_ops,
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+                      sd_prod=macro_matr_asse_prod,
+                      fr="Calcul des matrices assemblées (rigidité, masse, amortissement,...) ",
+         MODELE          =SIMP(statut='o',typ=modele_sdaster),
+         CHAM_MATER      =SIMP(statut='f',typ=cham_mater),
+         INST            =SIMP(statut='f',typ='R',defaut=0.),
+         CARA_ELEM       =SIMP(statut='f',typ=cara_elem),
+         CHARGE          =SIMP(statut='f',typ=(char_meca,char_ther,char_acou),validators=NoRepeat(),max='**'),
+         CHAR_CINE       =SIMP(statut='f',typ=(char_cine_meca,char_cine_ther,char_cine_acou) ),
+         NUME_DDL        =SIMP(statut='o',typ=(nume_ddl_sdaster,CO)),
+         SOLVEUR         =FACT(statut='d',
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("MULT_FRONT","LDLT","GCPC","MUMPS","PETSC") ),
+         b_mult_front    =BLOC(condition="METHODE=='MULT_FRONT'",fr="Paramètres associés à la méthode multifrontale",
+           RENUM           =SIMP(statut='f',typ='TXM',into=("MD","MDA","METIS"),defaut="METIS" ),
+         ),
+         b_ldlt          =BLOC(condition="METHODE=='LDLT'",fr="Paramètres associés à la méthode LDLT",
+           RENUM           =SIMP(statut='f',typ='TXM',into=("RCMK","SANS"),defaut="RCMK"  ),
+         ),
+         b_mumps         =BLOC(condition = "METHODE == 'MUMPS' ",fr="Paramètres de la méthode MUMPS",
+           RENUM           =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("AMD","AMF","PORD","METIS","QAMD","AUTO")),
+           OUT_OF_CORE     =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")),
+         ),
+         b_gcpc          =BLOC(condition="METHODE=='GCPC'",fr="Paramètres associés à la méthode gradient conjugué",
+           RENUM           =SIMP(statut='f',typ='TXM',into=("RCMK","SANS"),defaut="RCMK"  ),
+         ),
+         b_petsc         =BLOC(condition = "METHODE == 'PETSC'",fr="Paramètres de la méthode PETSC",
+           RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("SANS","RCMK") ),
+         ),
+         ),
+
+         MATR_ASSE       =FACT(statut='o',max='**',
+             MATRICE         =SIMP(statut='o',typ=CO),
+             OPTION          =SIMP(statut='o',typ='TXM',
+                                   into=("RIGI_MECA","MASS_MECA","MASS_MECA_DIAG",
+                                         "AMOR_MECA","RIGI_MECA_HYST","IMPE_MECA",
+                                         "ONDE_FLUI","RIGI_FLUI_STRU","MASS_FLUI_STRU",
+                                         "RIGI_ROTA","RIGI_GEOM","RIGI_MECA_LAGR","MECA_GYRO",
+                                         "RIGI_THER","MASS_THER",
+                                         "RIGI_ACOU","MASS_ACOU","AMOR_ACOU",)
+                                   ),
+
+             b_rigi_meca = BLOC( condition = "OPTION=='RIGI_MECA'",
+               MODE_FOURIER    =SIMP(statut='f',typ='I',defaut= 0),
+             ),
+
+             b_rigi_geom = BLOC( condition = "OPTION=='RIGI_GEOM'",
+               SIEF_ELGA       =SIMP(statut='o',typ=cham_elem),
+               MODE_FOURIER    =SIMP(statut='f',typ='I',defaut= 0),
+             ),
+
+             b_rigi_meca_lagr = BLOC( condition = "OPTION=='RIGI_MECA_LAGR'",
+               THETA           =SIMP(statut='o',typ=theta_geom),
+               PROPAGATION     =SIMP(statut='f',typ='R'),
+             ),
+
+             b_rigi_ther = BLOC( condition = "OPTION=='RIGI_THER'",
+               MODE_FOURIER    =SIMP(statut='f',typ='I',defaut= 0),
+             ),
+
+         ), # fin MATR_ASSE
+
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+)  ;
+#& MODIF COMMANDE  DATE 02/06/2008   AUTEUR GREFFET N.GREFFET 
+#            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.                                 
+#
+# 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 DEVESA G.DEVESA
+
+from Macro.macro_miss_3d_ops import macro_miss_3d_ops
+
+MACRO_MISS_3D=MACRO(nom="MACRO_MISS_3D",op=macro_miss_3d_ops,
+            fr="Préparation des données puis exécution du logiciel MISS3D",
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+         OPTION          =FACT(statut='o',
+           regles=(UN_PARMI('TOUT','MODULE'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",)),
+           MODULE          =SIMP(statut='f',typ='TXM',into=("PRE_MISS","MISS_EVOL","MISS_IMPE")),
+         ),
+         PROJET          =SIMP(statut='o',typ='TXM'),  
+         REPERTOIRE      =SIMP(statut='f',typ='TXM'),
+         VERSION         =SIMP(statut='f',typ='TXM',into=("V1_3","V1_4",),defaut="V1_4"),
+         UNITE_IMPR_ASTER=SIMP(statut='f',typ='I',defaut=25),  
+         UNITE_OPTI_MISS =SIMP(statut='f',typ='I',defaut=26),  
+         UNITE_MODELE_SOL=SIMP(statut='f',typ='I',defaut=27),  
+         UNITE_RESU_IMPE =SIMP(statut='f',typ='I',defaut=30),
+         UNITE_RESU_FORC =SIMP(statut='f',typ='I',defaut=0),
+         PARAMETRE       =FACT(statut='f',         
+           regles=(PRESENT_PRESENT('FREQ_MIN','FREQ_MAX','FREQ_PAS'),
+                   PRESENT_PRESENT('CONTR_NB','CONTR_LISTE'),
+                   PRESENT_PRESENT('LFREQ_NB','LFREQ_LISTE'),
+                   PRESENT_PRESENT('OFFSET_MAX','OFFSET_NB'),
+                   PRESENT_PRESENT('SPEC_MAX','SPEC_NB'),),
+           FREQ_MIN        =SIMP(statut='f',typ='R'), 
+           FREQ_MAX        =SIMP(statut='f',typ='R'),
+           FREQ_PAS        =SIMP(statut='f',typ='R'),
+           Z0              =SIMP(statut='f',typ='R'), 
+           SURF            =SIMP(statut='f',typ='TXM',into=("OUI","NON",),defaut="NON"),
+           RFIC            =SIMP(statut='f',typ='R'),
+           FICH_RESU_IMPE  =SIMP(statut='f',typ='TXM'),
+           FICH_RESU_FORC  =SIMP(statut='f',typ='TXM'),
+           TYPE            =SIMP(statut='f',typ='TXM',into=("BINAIRE","ASCII",),defaut="ASCII"),
+           DREF            =SIMP(statut='f',typ='R'),
+           ALGO            =SIMP(statut='f',typ='TXM',into=("DEPL","REGU")),
+           OFFSET_MAX      =SIMP(statut='f',typ='R'),
+           OFFSET_NB       =SIMP(statut='f',typ='I'),
+           SPEC_MAX        =SIMP(statut='f',typ='R'),
+           SPEC_NB         =SIMP(statut='f',typ='I'),
+           ISSF            =SIMP(statut='f',typ='TXM',into=("OUI","NON",),defaut="NON"),
+           FICH_POST_TRAI  =SIMP(statut='f',typ='TXM'),
+           CONTR_NB        =SIMP(statut='f',typ='I'),
+           CONTR_LISTE     =SIMP(statut='f',typ='R',max='**'),
+           LFREQ_NB        =SIMP(statut='f',typ='I'),
+           LFREQ_LISTE     =SIMP(statut='f',typ='R',max='**'),
+           DIRE_ONDE       =SIMP(statut='f',typ='R',max='**'),
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 05/05/2008   AUTEUR NISTOR I.NISTOR 
+#            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.                                 
+#
+# 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 NISTOR I.NISTOR
+
+from Macro.macro_mode_meca_ops import macro_mode_meca_ops
+
+MACRO_MODE_MECA=MACRO(nom="MACRO_MODE_MECA",op=macro_mode_meca_ops,sd_prod=mode_meca,
+                     reentrant='n',fr="Lancer une succession de calculs de modes propres réels",
+            UIinfo={"groupes":("Résolution",)},
+         MATR_A          =SIMP(statut='o',typ=matr_asse_depl_r ),
+         MATR_B          =SIMP(statut='o',typ=matr_asse_depl_r ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=(1,2) ),
+#  ce mot cle ne devrait il pas etre dans calc_freq  
+         METHODE         =SIMP(statut='f',typ='TXM',defaut="SORENSEN",    
+                               into=("TRI_DIAG","JACOBI","SORENSEN",) ),
+         b_tri_diag =BLOC(condition = "METHODE == 'TRI_DIAG'",
+           PREC_ORTHO      =SIMP(statut='f',typ='R',defaut= 1.E-12,val_min=0.E+0 ),
+           NMAX_ITER_ORTHO =SIMP(statut='f',typ='I',defaut= 5,val_min=0 ),
+           PREC_LANCZOS    =SIMP(statut='f',typ='R',defaut= 1.E-8,val_min=0.E+0 ),
+           NMAX_ITER_QR    =SIMP(statut='f',typ='I',defaut= 30,val_min=0 ), 
+         ),
+         b_jacobi =BLOC(condition = "METHODE == 'JACOBI'",
+           PREC_BATHE      =SIMP(statut='f',typ='R',defaut= 1.E-10,val_min=0.E+0 ),
+           NMAX_ITER_BATHE =SIMP(statut='f',typ='I',defaut= 40,val_min=0 ),
+           PREC_JACOBI     =SIMP(statut='f',typ='R',defaut= 1.E-2,val_min=0.E+0 ),
+           NMAX_ITER_JACOBI=SIMP(statut='f',typ='I',defaut= 12,val_min=0 ),
+         ),
+         b_sorensen =BLOC(condition = "METHODE == 'SORENSEN'",
+           PREC_SOREN      =SIMP(statut='f',typ='R',defaut= 0.E+0,val_min=0.E+0 ),  
+           NMAX_ITER_SOREN =SIMP(statut='f',typ='I',defaut= 20,val_min=0 ),  
+           PARA_ORTHO_SOREN=SIMP(statut='f',typ='R',defaut= 0.717,val_min=0.E+0 ),
+         ),
+         OPTION          =SIMP(statut='f',typ='TXM',defaut="SANS",    
+                               into=("MODE_RIGIDE","SANS") ),
+         CALC_FREQ       =FACT(statut='d',min=0,
+           regles=(UN_PARMI('FREQ','FREQ_MAX'),
+                   PRESENT_PRESENT('FREQ_MIN','FREQ_MAX'),
+                   PRESENT_PRESENT('FREQ_MAX','NB_BLOC_FREQ'),
+                   EXCLUS('DIM_SOUS_ESPACE','COEF_DIM_ESPACE'),),
+           FREQ            =SIMP(statut='f',typ='R',min=2,validators=NoRepeat(),max='**', ),  
+           FREQ_MIN        =SIMP(statut='f',typ='R' ),  
+           FREQ_MAX        =SIMP(statut='f',typ='R' ),  
+           NB_BLOC_FREQ    =SIMP(statut='f',typ='I' ),  
+           DIM_SOUS_ESPACE =SIMP(statut='f',typ='I' ),  
+           COEF_DIM_ESPACE =SIMP(statut='f',typ='I' ),
+           NPREC_SOLVEUR   =SIMP(statut='f',typ='I',defaut= 8 ),  
+           NMAX_ITER_SHIFT =SIMP(statut='f',typ='I',defaut= 5 ),  
+           PREC_SHIFT      =SIMP(statut='f',typ='R',defaut= 5.E-2 ),  
+           SEUIL_FREQ      =SIMP(statut='f',typ='R' ,defaut= 1.E-2 ),  
+           STOP_FREQ_VIDE  =SIMP(statut='f',typ='TXM',defaut="NON" ,into=("OUI","NON") ),
+         ),
+         VERI_MODE       =FACT(statut='d',min=0,
+           STOP_ERREUR     =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           SEUIL           =SIMP(statut='f',typ='R',defaut= 1.E-6 ),  
+           PREC_SHIFT      =SIMP(statut='f',typ='R',defaut= 5.E-3 ),  
+           STURM           =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         ),
+         NORM_MODE       =FACT(statut='o',max='**',
+           NORME           =SIMP(statut='f',typ='TXM',defaut="TRAN_ROTA",    
+                                 into=("MASS_GENE","RIGI_GENE","EUCL",           
+                                       "EUCL_TRAN","TRAN","TRAN_ROTA") ),
+           INFO            =SIMP(statut='f',typ='I',defaut= 1 ,into=(1,2) ),
+         ),
+         FILTRE_MODE     =FACT(statut='f',
+           CRIT_EXTR       =SIMP(statut='f',typ='TXM',defaut="MASS_EFFE_UN",    
+                                 into=("MASS_EFFE_UN","MASS_GENE") ),
+           SEUIL           =SIMP(statut='f',typ='R',defaut= 1.E-3 ),  
+         ),
+         IMPRESSION      =FACT(statut='d',
+           TOUT_PARA       =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           CUMUL           =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           CRIT_EXTR       =SIMP(statut='f',typ='TXM',defaut="MASS_EFFE_UN",    
+                                 into=("MASS_EFFE_UN","MASS_GENE",) ),
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 BOYERE E.BOYERE
+
+from Macro.macro_proj_base_ops import macro_proj_base_ops
+
+def macro_proj_base_prod(self,MATR_ASSE_GENE,VECT_ASSE_GENE,PROFIL,**args ):
+  if MATR_ASSE_GENE != None:
+    for m in MATR_ASSE_GENE:
+      self.type_sdprod(m['MATRICE'],matr_asse_gene_r)
+  if VECT_ASSE_GENE != None:
+    for v in VECT_ASSE_GENE:
+      self.type_sdprod(v['VECTEUR'],vect_asse_gene)
+  return None
+
+MACRO_PROJ_BASE=MACRO(nom="MACRO_PROJ_BASE",op=macro_proj_base_ops,
+         regles=(AU_MOINS_UN('MATR_ASSE_GENE','VECT_ASSE_GENE')),
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+                      sd_prod=macro_proj_base_prod,
+         fr="Projection des matrices et/ou vecteurs assemblés sur une base (modale ou de RITZ)",
+         BASE            =SIMP(statut='o',typ=(mode_meca,mode_stat,base_modale,mode_gene) ),
+         NB_VECT         =SIMP(statut='f',typ='I',defaut= 9999),
+         PROFIL          =SIMP(statut='f',typ='TXM',defaut="DIAG",into=("PLEIN","DIAG") ),
+         MATR_ASSE_GENE  =FACT(statut='f',max='**',
+           MATRICE         =SIMP(statut='o',typ=CO,),
+           regles=(UN_PARMI('MATR_ASSE','MATR_ASSE_GENE',),),
+           MATR_ASSE       =SIMP(statut='f',typ=matr_asse_depl_r),
+           MATR_ASSE_GENE  =SIMP(statut='f',typ=matr_asse_gene_r),
+         ),
+         VECT_ASSE_GENE  =FACT(statut='f',max='**',
+           VECTEUR         =SIMP(statut='o',typ=CO,),
+           regles=(UN_PARMI('VECT_ASSE','VECT_ASSE_GENE',),),
+           TYPE_VECT       =SIMP(statut='f',typ='TXM',defaut="FORC"),
+           VECT_ASSE       =SIMP(statut='f',typ=cham_no_sdaster),
+           VECT_ASSE_GENE  =SIMP(statut='f',typ=vect_asse_gene),
+         ),
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2002  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.        
+# ======================================================================
+# RESPONSABLE ASSIRE A.ASSIRE
+
+from Macro.macr_recal_ops import macr_recal_ops
+
+def macr_recal_prod(self,**args ):
+  return listr8_sdaster
+
+MACR_RECAL = MACRO(nom="MACR_RECAL",op=macr_recal_ops,
+            UIinfo={"groupes":("Résultats et champs",)},
+                      sd_prod=macr_recal_prod,
+                      fr="Réalise le recalage des calculs Aster sur des résultats expérimentaux"
+                        +" ou sur d'autres résultats de calculs",
+         UNITE_ESCL      =SIMP(statut='o',typ='I'),
+         RESU_EXP        =SIMP(statut='o',typ=assd,max='**'),
+         POIDS           =SIMP(statut='f',typ=assd,max='**'),
+         RESU_CALC       =SIMP(statut='o',typ=assd,max='**'),
+         LIST_PARA       =SIMP(statut='o',typ=assd,max='**'),
+         LIST_DERIV      =SIMP(statut='f',typ=assd,max='**'),
+         ITER_MAXI       =SIMP(statut='f',typ='I',defaut=10),
+         ITER_FONC_MAXI  =SIMP(statut='f',typ='I',defaut=100),
+         RESI_GLOB_RELA  =SIMP(statut='f',typ='R',defaut=1.E-3),
+         UNITE_RESU      =SIMP(statut='f',typ='I',defaut=91),
+         PARA_DIFF_FINI  =SIMP(statut='f',typ='R',defaut=0.001),
+         GRAPHIQUE       =FACT(statut='f',
+           FORMAT          =SIMP(statut='f',typ='TXM',defaut='XMGRACE',into=("XMGRACE","GNUPLOT")),
+           b_pilote = BLOC(condition = "FORMAT == 'XMGRACE'",
+                          fr="Mots-clés propres à XMGRACE",
+             PILOTE          =SIMP(statut='f',typ='TXM',defaut='',
+                                 into=('','POSTSCRIPT','EPS','MIF','SVG','PNM','PNG','JPEG','PDF','INTERACTIF'),
+                            fr="Pilote de sortie, PNG/JPEG/PDF ne sont pas disponibles sur toutes les installations de xmgrace"),
+             UNITE           =SIMP(statut='f',typ='I',val_min=10,val_max=90,defaut=29,
+                                 fr="Unité logique définissant le fichier (fort.N) dans lequel on écrit"),
+         ),
+
+         AFFICHAGE       =SIMP(statut='f',typ='TXM',defaut='TOUTE_ITERATION',into=("TOUTE_ITERATION","ITERATION_FINALE")),),
+         SUIVI_ESCLAVE   =SIMP(statut='f',typ='TXM',defaut='NON',into=("OUI","NON"),),
+
+         METHODE         =SIMP(statut='f',typ='TXM',defaut='LEVENBERG',into=("LEVENBERG","FMIN","FMINBFGS","FMINNCG","EXTERNE")),
+
+         b_gradient =BLOC(condition = "METHODE == 'FMINBFGS' or METHODE == 'FMINNCG'" ,
+            GRADIENT        =SIMP(statut='f',typ='TXM',defaut='NON_CALCULE', into=("NON_CALCULE", "NORMAL", "ADIMENSIONNE" )),
+         ),
+
+         b_gradient_externe =BLOC(condition = "METHODE == 'EXTERNE'" ,
+            GRADIENT        =SIMP(statut='f',typ='TXM',defaut='NON_CALCULE', into=("NON_CALCULE", "NORMAL", "ADIMENSIONNE" )),
+         ),
+
+         b_type_fonctionnelle =BLOC(condition = "METHODE == 'EXTERNE'" ,
+            FONCTIONNELLE   =SIMP(statut='f',typ='TXM',defaut='SCALAIRE',into=("SCALAIRE","VECTORIELLE")),
+         ),
+
+         INFO            =SIMP(statut='f',typ='I',defaut=2,into=( 1, 2 ) ),
+);
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2006  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.        
+# ======================================================================
+# RESPONSABLE VOLDOIRE F.VOLDOIRE
+
+from Macro.macr_spectre_ops import macr_spectre_ops
+
+MACR_SPECTRE=MACRO(nom="MACR_SPECTRE",op=macr_spectre_ops,sd_prod=table_sdaster,
+                       reentrant='n', UIinfo={"groupes":("Outils métier",)},
+                       fr="calcul de spectre, post-traitement de séisme",
+         MAILLAGE      =SIMP(statut='o',typ=maillage_sdaster,),
+         PLANCHER      =FACT(statut='o',max='**',
+            regles=(AU_MOINS_UN('NOEUD','GROUP_NO' ),),
+            NOM           =SIMP(statut='o',typ='TXM',),
+            GROUP_NO      =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+            NOEUD         =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'), ),
+         NOM_CHAM      =SIMP(statut='o',typ='TXM' ,into=('ACCE','DEPL')),
+         CALCUL        =SIMP(statut='o',typ='TXM' ,into=('ABSOLU','RELATIF'),position='global'),
+         b_acce  =BLOC( condition = "NOM_CHAM=='ACCE'",
+           regles=(UN_PARMI('LIST_FREQ','FREQ'),),
+           AMOR_SPEC     =SIMP(statut='o',typ='R',max='**'),
+           LIST_INST     =SIMP(statut='f',typ=listr8_sdaster ),
+           LIST_FREQ     =SIMP(statut='f',typ=listr8_sdaster ),
+           FREQ          =SIMP(statut='f',typ='R',max='**'),
+           NORME         =SIMP(statut='o',typ='R'),  
+           RESU          =FACT(statut='o',max='**',
+                regles=(UN_PARMI('RESU_GENE','RESULTAT'),),
+                RESU_GENE     =SIMP(statut='f',typ=tran_gene),
+                RESULTAT      =SIMP(statut='f',typ=(dyna_trans,evol_noli)),
+                b_calc  =BLOC( condition = "CALCUL=='RELATIF'",
+                   ACCE_X        =SIMP(statut='o',typ=fonction_sdaster),
+                   ACCE_Y        =SIMP(statut='o',typ=fonction_sdaster),
+                   ACCE_Z        =SIMP(statut='o',typ=fonction_sdaster),), ),
+           IMPRESSION    =FACT(statut='f',
+                TRI           =SIMP(statut='f',typ='TXM',defaut='AMOR_SPEC',into=("AMOR_SPEC","DIRECTION",),),
+                FORMAT        =SIMP(statut='f',typ='TXM',defaut='TABLEAU',into=("TABLEAU","XMGRACE",),),
+                UNITE         =SIMP(statut='f',typ='I',val_min=10,val_max=90,defaut=29,
+                                    fr="Unité logique définissant le fichier (fort.N) dans lequel on écrit"),
+                b_pilote = BLOC(condition = "FORMAT == 'XMGRACE'",
+                   PILOTE        =SIMP(statut='f',typ='TXM',defaut='',
+                                 into=('','POSTSCRIPT','EPS','MIF','SVG','PNM','PNG','JPEG','PDF','INTERACTIF'),),),
+                TOUT          =SIMP(statut='f',typ='TXM',defaut='NON',into=("OUI","NON",),),
+                              ),
+         ),
+         b_depl  =BLOC( condition = "NOM_CHAM=='DEPL'",
+           LIST_INST     =SIMP(statut='f',typ=listr8_sdaster),  
+           RESU          =FACT(statut='o',max=3,
+                regles=(UN_PARMI('RESU_GENE','RESULTAT'),),
+                RESU_GENE     =SIMP(statut='f',typ=tran_gene),
+                RESULTAT      =SIMP(statut='f',typ=(dyna_trans,evol_noli)),
+                b_calc  =BLOC( condition = "CALCUL=='ABSOLU'",
+                   DEPL_X        =SIMP(statut='o',typ=fonction_sdaster),
+                   DEPL_Y        =SIMP(statut='o',typ=fonction_sdaster),
+                   DEPL_Z        =SIMP(statut='o',typ=fonction_sdaster),),),
+         ),
+)
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 LEFEBVRE J.P.LEFEBVRE
+MAJ_CATA=PROC(nom="MAJ_CATA",op=20,
+            UIinfo={"groupes":("Gestion du travail",)},
+              fr="Compilation des catalogues de commandes et d'éléments",
+
+         ELEMENT         =FACT(statut='f',),
+
+)  ;
+#& 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.
+#
+# 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 PELLET J.PELLET
+MECA_STATIQUE=OPER(nom="MECA_STATIQUE",op=46,sd_prod=evol_elas,
+                   fr="Résoudre un problème de mécanique statique linéaire",reentrant='f',
+            UIinfo={"groupes":("Résolution",)},
+         regles=(EXCLUS("INST","LIST_INST"),
+                 AU_MOINS_UN('CHAM_MATER','CARA_ELEM',),
+                 CONCEPT_SENSIBLE('ENSEMBLE'),),
+         MODELE          =SIMP(statut='o',typ=modele_sdaster),
+         CHAM_MATER      =SIMP(statut='f',typ=cham_mater,
+         fr="le CHAM_MATER est nécessaire, sauf si le modèle ne contient que des éléments discrets (modélisations DIS_XXX)",
+         ang="CHAM_MATER is compulsory, except if the model contains only discret elements (modelizations DIS_XXX)"),
+         CARA_ELEM       =SIMP(statut='f',typ=cara_elem,
+         fr="le CARA_ELEM est nécessaire dès que le modèle contient des éléments de structure : coques, poutres, ...",
+         ang="CARA_ELEM is compulsory as soon as the model contains structural elements : plates, beams, ..."),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         EXCIT           =FACT(statut='o',max='**',
+           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",into=("FIXE",) ),
+         ),
+         INST            =SIMP(statut='f',typ='R',defaut= 0.E+0 ),
+         LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+         INST_FIN        =SIMP(statut='f',typ='R'),
+         OPTION          =SIMP(statut='f',typ='TXM',into=("SIEF_ELGA_DEPL","SANS"),defaut="SIEF_ELGA_DEPL",max=1,
+             fr="seule option : contraintes aux points de Gauss. Utiliser CALC_ELEM pour les autres.",
+                          ),
+         SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                               fr="Liste des paramètres de sensibilité.",
+                               ang="List of sensitivity parameters"),
+
+         SOLVEUR         =FACT(statut='d',
+         METHODE         =SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("MULT_FRONT","LDLT","GCPC","FETI","MUMPS","PETSC") ),
+
+           b_feti          =BLOC(condition = "METHODE == 'FETI' ",fr="Paramètres de la méthode FETI 1",
+             PARTITION       =SIMP(statut='o',typ=sd_feti_sdaster),
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+             RESI_RELA       =SIMP(statut='f',typ='R',defaut=1.E-6,val_min=0.),
+             NMAX_ITER       =SIMP(statut='f',typ='I',defaut=0,val_min=0),
+             REAC_RESI       =SIMP(statut='f',typ='I',defaut=0,val_min=0),
+             TYPE_REORTHO_DD =SIMP(statut='f',typ='TXM',defaut="GSM",into=("SANS","GS","GSM","IGSM") ),
+             NB_REORTHO_DD   =SIMP(statut='f',typ='I',defaut=0,val_min=0),
+             NB_REORTHO_INST =SIMP(statut='f',typ='I',defaut=0,val_min=0),
+             PRE_COND        =SIMP(statut='f',typ='TXM',defaut="LUMPE",into=("LUMPE","SANS") ),
+             SCALING         =SIMP(statut='f',typ='TXM',defaut="MULT",into=("SANS","MULT") ),
+             VERIF_SDFETI    =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+             TEST_CONTINU    =SIMP(statut='f',typ='R',defaut=1.E-8,val_min=0.),
+             INFO_FETI       =SIMP(statut='f',typ='TXM',defaut='FFFFFFFFFFFFFFFFFFFFFFFF'),
+             STOCKAGE_GI     =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON","CAL") ),
+             NB_SD_PROC0     =SIMP(statut='f',typ='I',defaut=0,val_min=0),
+             ACCELERATION_SM =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+
+           b_mult_front    =BLOC(condition = "METHODE == 'MULT_FRONT' ",fr="Paramètres de la méthode multi frontale",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+           ),
+
+           b_ldlt          =BLOC(condition = "METHODE == 'LDLT' ",fr="Paramètres de la méthode LDLT",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("RCMK","SANS") ),
+           ),
+
+           b_ldlt_mult     =BLOC(condition = "METHODE == 'LDLT' or METHODE == 'MULT_FRONT' or METHODE == 'FETI' ",
+                                   fr="Paramètres relatifs à la non inversibilité de la matrice à factorise",
+             NPREC           =SIMP(statut='f',typ='I',defaut=8),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+
+           b_gcpc         =BLOC(condition = "METHODE == 'GCPC' ", fr="Paramètres de la méthode du gradient conjugué",
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC",),defaut="LDLT_INC" ),
+             NIVE_REMPLISSAGE=SIMP(statut='f',typ='I',defaut= 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= 0 ),
+           ),
+
+           b_mumps        =BLOC(condition = "METHODE == 'MUMPS' ",fr="Paramètres de la méthode MUMPS",
+             TYPE_RESOL      =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("NONSYM","SYMGEN","SYMDEF","AUTO")),
+             PRETRAITEMENTS  =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("SANS","AUTO")),
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("AMD","AMF","PORD","METIS","QAMD","AUTO")),
+             ELIM_LAGR2      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+             PCENT_PIVOT     =SIMP(statut='f',typ='I',defaut=10,),
+             RESI_RELA       =SIMP(statut='f',typ='R',defaut=1.0E-6,),
+             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,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" ),
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC","JACOBI","SOR"),defaut="LDLT_INC" ),
+             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 ),
+           ),
+         ),
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 BODEL C.BODEL
+MODE_ITER_CYCL=OPER(nom="MODE_ITER_CYCL",op=  80,sd_prod=mode_cycl,
+                    fr="Calcul des modes propres d'une structure à répétitivité cyclique à partir"
+                        +" d'une base de modes propres réels",
+                    reentrant='n',
+            UIinfo={"groupes":("Résolution",)},
+         BASE_MODALE     =SIMP(statut='o',typ=base_modale ),
+         NB_MODE         =SIMP(statut='f',typ='I',defaut= 999 ),
+         NB_SECTEUR      =SIMP(statut='o',typ='I' ),
+         LIAISON         =FACT(statut='o',
+           DROITE          =SIMP(statut='o',typ='TXM' ),
+           GAUCHE          =SIMP(statut='o',typ='TXM' ),
+           AXE             =SIMP(statut='f',typ='TXM' ),
+         ),
+         VERI_CYCL       =FACT(statut='f',
+           PRECISION       =SIMP(statut='f',typ='R',defaut= 1.E-3 ),
+           CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF",) ),
+           DIST_REFE       =SIMP(statut='f',typ='R' ),
+         ),
+         CALCUL          =FACT(statut='o',
+           regles=(UN_PARMI('TOUT_DIAM','NB_DIAM'),),
+           TOUT_DIAM       =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           NB_DIAM         =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+           OPTION          =SIMP(statut='f',typ='TXM',defaut="PLUS_PETITE"
+                                ,into=("PLUS_PETITE","CENTRE","BANDE") ),
+           b_centre      =BLOC(condition = "OPTION == 'CENTRE'",
+             FREQ            =SIMP(statut='o',typ='R',),
+           ),
+           b_bande       =BLOC(condition = "OPTION == 'BANDE'",
+             FREQ            =SIMP(statut='o',typ='R',min=2,validators=NoRepeat(),max=2),
+           ),
+#  NMAX_FREQ n a-t-il pas un sens qu avec OPTION CENTRE                                
+           NMAX_FREQ       =SIMP(statut='f',typ='I',defaut= 10 ),
+           PREC_SEPARE     =SIMP(statut='f',typ='R',defaut= 100. ),
+           PREC_AJUSTE     =SIMP(statut='f',typ='R',defaut= 1.E-6 ),
+           NMAX_ITER       =SIMP(statut='f',typ='I',defaut= 50 ),
+         ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+)  ;
+#& MODIF COMMANDE  DATE 05/05/2008   AUTEUR NISTOR I.NISTOR 
+#            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.                                 
+#
+# 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 NISTOR I.NISTOR
+
+def mode_iter_inv_prod(MATR_A,MATR_C,TYPE_RESU,**args ):
+  if TYPE_RESU == "MODE_FLAMB" : return mode_flamb
+  if AsType(MATR_C) == matr_asse_depl_r : return mode_meca_c
+  if AsType(MATR_A) == matr_asse_depl_r : return mode_meca
+  if AsType(MATR_A) == matr_asse_pres_r : return mode_acou
+  if AsType(MATR_A) == matr_asse_gene_r : return mode_gene
+  raise AsException("type de concept resultat non prevu")
+
+MODE_ITER_INV=OPER(nom="MODE_ITER_INV",op=  44,sd_prod=mode_iter_inv_prod
+                    ,fr="Calcul des modes propres par itérations inverses ; valeurs propres et modes réels ou complexes",
+                     reentrant='n',
+            UIinfo={"groupes":("Résolution",)},
+         regles=(CONCEPT_SENSIBLE('ENSEMBLE'),),
+         MATR_A          =SIMP(statut='o',typ=(matr_asse_depl_r,matr_asse_gene_r,matr_asse_pres_r ) ),
+         MATR_B          =SIMP(statut='o',typ=(matr_asse_depl_r,matr_asse_gene_r,matr_asse_pres_r ) ),
+         MATR_C          =SIMP(statut='f',typ=matr_asse_depl_r ),
+         TYPE_RESU       =SIMP(statut='f',typ='TXM',defaut="DYNAMIQUE",   
+                               into=("MODE_FLAMB","DYNAMIQUE"),fr="Type d analyse" ),
+         b_dynam         =BLOC(condition = "TYPE_RESU == 'DYNAMIQUE'",
+           CALC_FREQ       =FACT(statut='o',fr="Choix des paramètres pour le calcul des valeurs propres",
+           
+             OPTION          =SIMP(statut='f',typ='TXM',defaut="AJUSTE",into=("SEPARE","AJUSTE","PROCHE"),
+                                   fr="Choix de l option pour estimer les valeurs propres"  ),
+             FREQ            =SIMP(statut='o',typ='R',max='**'),
+             AMOR_REDUIT     =SIMP(statut='f',typ='R',max='**'),     
+             NMAX_FREQ       =SIMP(statut='f',typ='I',defaut= 0,val_min=0 ),           
+             NMAX_ITER_SEPARE=SIMP(statut='f',typ='I' ,defaut= 30,val_min=0 ),
+             PREC_SEPARE     =SIMP(statut='f',typ='R',defaut= 1.E-4,val_min=0.E+0 ),
+             NMAX_ITER_AJUSTE=SIMP(statut='f',typ='I',defaut= 15,val_min=0 ),
+             PREC_AJUSTE     =SIMP(statut='f',typ='R',defaut= 1.E-4,val_min=0.E+0 ),
+
+             NPREC_SOLVEUR   =SIMP(statut='f',typ='I',defaut= 8,val_min=0 ),
+             NMAX_ITER_SHIFT =SIMP(statut='f',typ='I',defaut= 5,val_min=0 ),
+             PREC_SHIFT      =SIMP(statut='f',typ='R',defaut= 5.E-2,val_min=0.E+0, ),
+             SEUIL_FREQ      =SIMP(statut='f',typ='R',defaut= 1.E-2,val_min=0.E+0, ),
+           ),
+         ),
+         b_flamb        =BLOC(condition = "TYPE_RESU == 'MODE_FLAMB'",
+           CALC_FREQ       =FACT(statut='o',fr="Choix des paramètres pour le calcul des valeurs propres",
+           
+             OPTION          =SIMP(statut='f',typ='TXM',defaut="AJUSTE",into=("SEPARE","AJUSTE","PROCHE"),
+                                 fr="Choix de l option pour estimer les valeurs propres"  ),
+             CHAR_CRIT       =SIMP(statut='o',typ='R',validators=NoRepeat(),max='**' ),
+             NMAX_FREQ       =SIMP(statut='f',typ='I',defaut= 0,val_min=0 ),           
+             NMAX_ITER_SEPARE=SIMP(statut='f',typ='I' ,defaut= 30,val_min=0 ),
+             PREC_SEPARE     =SIMP(statut='f',typ='R',defaut= 1.E-4,val_min=0.E+0, ),
+             NMAX_ITER_AJUSTE=SIMP(statut='f',typ='I',defaut= 15 ),
+             PREC_AJUSTE     =SIMP(statut='f',typ='R',defaut= 1.E-4,val_min=0.E+0, ),
+           
+             NPREC_SOLVEUR   =SIMP(statut='f',typ='I',defaut= 8,val_min=0 ),
+             NMAX_ITER_SHIFT =SIMP(statut='f',typ='I',defaut= 5,val_min=0 ),
+             PREC_SHIFT      =SIMP(statut='f',typ='R',defaut= 5.E-2,val_min=0.E+0, ),
+             SEUIL_FREQ      =SIMP(statut='f',typ='R',defaut= 1.E-2,val_min=0.E+0, ),
+           ),
+         ),
+         CALC_MODE       =FACT(statut='d',min=0,fr="Choix des paramètres pour le calcul des vecteurs propres",
+           OPTION          =SIMP(statut='f',typ='TXM',defaut="DIRECT",into=("DIRECT","RAYLEIGH") ),
+           PREC            =SIMP(statut='f',typ='R',defaut= 1.E-5,val_min=0.E+0,fr="Précision de convergence" ),
+           NMAX_ITER       =SIMP(statut='f',typ='I',defaut= 30,val_min=0 ),
+         ),
+         VERI_MODE       =FACT(statut='d',min=0,
+           STOP_ERREUR     =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           SEUIL           =SIMP(statut='f',typ='R',defaut= 1.E-2,val_min=0.E+0,
+                                 fr="Valeur limite admise pour l ereur a posteriori des modes"  ),
+         ),
+         SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                               fr="Liste des param\350tres de sensibilit\351.",
+                               ang="List of sensitivity parameters",
+         ),
+         b_sensibilite   =BLOC(condition = "SENSIBILITE != None",
+             CHAM_MATER      =SIMP(statut='f',typ=cham_mater ),
+             CARA_ELEM       =SIMP(statut='f',typ=cara_elem ),
+             EXCIT           =FACT(statut='f',max='**',),  # que pour NMDOME
+         ),
+         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 
+#            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.                                 
+#
+# 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 NISTOR I.NISTOR
+
+def mode_iter_simult_prod(MATR_A,MATR_C,TYPE_RESU,**args ):
+  if TYPE_RESU == "MODE_FLAMB" : return mode_flamb
+  if AsType(MATR_C) == matr_asse_depl_r : return mode_meca_c
+  if AsType(MATR_A) == matr_asse_depl_r : return mode_meca
+  if AsType(MATR_A) == matr_asse_depl_c : return mode_meca_c
+  if AsType(MATR_A) == matr_asse_pres_r : return mode_acou
+  if AsType(MATR_A) == matr_asse_gene_r : return mode_gene
+  if AsType(MATR_A) == matr_asse_gene_c : return mode_gene
+
+  raise AsException("type de concept resultat non prevu")
+
+MODE_ITER_SIMULT=OPER(nom="MODE_ITER_SIMULT",op=  45,sd_prod=mode_iter_simult_prod,
+                      fr="Calcul des modes propres par itérations simultanées ; valeurs propres et"
+                         +" modes propres réels ou complexes",
+                      reentrant='n',
+            UIinfo={"groupes":("Résolution",)},
+         regles=(CONCEPT_SENSIBLE('ENSEMBLE'),),
+         MATR_A          =SIMP(statut='o',typ=(matr_asse_depl_r,matr_asse_depl_c,
+                               matr_asse_gene_r,matr_asse_gene_c,matr_asse_pres_r ) ),
+         MATR_B          =SIMP(statut='o',typ=(matr_asse_depl_r,matr_asse_gene_r,matr_asse_pres_r ) ),
+         MATR_C          =SIMP(statut='f',typ=(matr_asse_depl_r,matr_asse_gene_r) ),
+         METHODE         =SIMP(statut='f',typ='TXM',defaut="SORENSEN",
+                               into=("TRI_DIAG","JACOBI","SORENSEN","QZ") ),
+         b_tri_diag =BLOC(condition = "METHODE == 'TRI_DIAG'",
+           PREC_ORTHO      =SIMP(statut='f',typ='R',defaut= 1.E-12,val_min=0.E+0 ),
+           NMAX_ITER_ORTHO =SIMP(statut='f',typ='I',defaut= 5,val_min=0 ),
+           PREC_LANCZOS    =SIMP(statut='f',typ='R',defaut= 1.E-8,val_min=0.E+0 ),
+           NMAX_ITER_QR    =SIMP(statut='f',typ='I',defaut= 30,val_min=0 ), 
+         ),
+         b_jacobi =BLOC(condition = "METHODE == 'JACOBI'",
+           PREC_BATHE      =SIMP(statut='f',typ='R',defaut= 1.E-10,val_min=0.E+0 ),
+           NMAX_ITER_BATHE =SIMP(statut='f',typ='I',defaut= 40,val_min=0 ),
+           PREC_JACOBI     =SIMP(statut='f',typ='R',defaut= 1.E-2,val_min=0.E+0 ),
+           NMAX_ITER_JACOBI=SIMP(statut='f',typ='I',defaut= 12,val_min=0 ),
+         ),
+         b_sorensen =BLOC(condition = "METHODE == 'SORENSEN'",
+           PREC_SOREN      =SIMP(statut='f',typ='R',defaut= 0.E+0,val_min=0.E+0 ),  
+           NMAX_ITER_SOREN =SIMP(statut='f',typ='I',defaut= 20,val_min=0 ),  
+           PARA_ORTHO_SOREN=SIMP(statut='f',typ='R',defaut= 0.717,val_min=0.E+0 ),
+         ),
+         b_qz =BLOC(condition = "METHODE == 'QZ'",
+           TYPE_QZ      =SIMP(statut='f',typ='TXM',defaut="QZ_SIMPLE",into=("QZ_QR","QZ_SIMPLE","QZ_EQUI") ),  
+         ),
+         TYPE_RESU       =SIMP(statut='f',typ='TXM',defaut="DYNAMIQUE",
+                               into=("MODE_FLAMB","DYNAMIQUE"),
+                               fr="Type d analyse" ),
+         OPTION          =SIMP(statut='f',typ='TXM',defaut="SANS",into=("MODE_RIGIDE","SANS"),
+                               fr="Calcul des modes de corps rigide, uniquement pour la méthode TRI_DIAG" ),
+
+         b_flamb         =BLOC(condition = "TYPE_RESU == 'MODE_FLAMB'",
+           CALC_FREQ       =FACT(statut='d',min=0,
+             OPTION       =SIMP(statut='f',typ='TXM',defaut="PLUS_PETITE",into=("PLUS_PETITE","BANDE","CENTRE","TOUT"),
+                                   fr="Choix de l option et par conséquent du shift du problème modal" ),
+             b_plus_petite =BLOC(condition = "OPTION == 'PLUS_PETITE'",fr="Recherche des plus petites valeurs propres",
+               NMAX_FREQ       =SIMP(statut='f',typ='I',defaut= 10,val_min=0 ),
+             ),
+             b_centre      =BLOC(condition = "OPTION == 'CENTRE'",
+                                 fr="Recherche des valeurs propres les plus proches d une valeur donnée",
+               CHAR_CRIT       =SIMP(statut='o',typ='R',
+                                     fr="Charge critique autour de laquelle on cherche les charges critiques propres"),
+               NMAX_FREQ       =SIMP(statut='f',typ='I',defaut= 10,val_min=0 ),
+             ),
+             b_bande       =BLOC(condition = "(OPTION == 'BANDE')",
+                                 fr="Recherche des valeurs propres dans une bande donnée",
+               CHAR_CRIT       =SIMP(statut='o',typ='R',min=2,validators=NoRepeat(),max=2,
+                                     fr="Valeur des deux charges critiques délimitant la bande de recherche"),
+             ),           
+             APPROCHE        =SIMP(statut='f',typ='TXM',defaut="REEL",into=("REEL","IMAG"),
+                                   fr="Choix du pseudo-produit scalaire pour la résolution du problème quadratique" ),           
+             regles=(EXCLUS('DIM_SOUS_ESPACE','COEF_DIM_ESPACE'),),
+             DIM_SOUS_ESPACE =SIMP(statut='f',typ='I' ),
+             COEF_DIM_ESPACE =SIMP(statut='f',typ='I' ),
+             NPREC_SOLVEUR   =SIMP(statut='f',typ='I',defaut= 8,val_min=0 ),
+             NMAX_ITER_SHIFT =SIMP(statut='f',typ='I',defaut= 5,val_min=0 ),
+             PREC_SHIFT      =SIMP(statut='f',typ='R',defaut= 5.E-2,val_min=0.E+0 ),
+             SEUIL_FREQ      =SIMP(statut='f',typ='R',defaut= 1.E-2,val_min=0.E+0 ),
+           ),
+         ),
+
+         b_dynam        =BLOC(condition = "TYPE_RESU == 'DYNAMIQUE'",
+           CALC_FREQ       =FACT(statut='d',min=0,
+             OPTION      =SIMP(statut='f',typ='TXM',defaut="PLUS_PETITE",into=("PLUS_PETITE","BANDE","CENTRE","TOUT"),
+                                   fr="Choix de l option et par conséquent du shift du problème modal" ),
+             b_plus_petite =BLOC(condition = "OPTION == 'PLUS_PETITE'",fr="Recherche des plus petites valeurs propres",
+               NMAX_FREQ       =SIMP(statut='f',typ='I',defaut= 10,val_min=0 ),
+             ),
+             b_centre       =BLOC(condition = "OPTION == 'CENTRE'",
+                                  fr="Recherche des valeurs propres les plus proches d une valeur donnée",
+               FREQ            =SIMP(statut='o',typ='R',
+                                     fr="Fréquence autour de laquelle on cherche les fréquences propres"),
+               AMOR_REDUIT     =SIMP(statut='f',typ='R',),
+               NMAX_FREQ       =SIMP(statut='f',typ='I',defaut= 10,val_min=0 ),
+             ),
+             b_bande         =BLOC(condition = "(OPTION == 'BANDE')",
+                                   fr="Recherche des valeurs propres dans une bande donnée",
+               FREQ            =SIMP(statut='o',typ='R',min=2,validators=NoRepeat(),max=2,
+                                     fr="Valeur des deux fréquences délimitant la bande de recherche"),
+             ),           
+             APPROCHE        =SIMP(statut='f',typ='TXM',defaut="REEL",into=("REEL","IMAG","COMPLEXE"),
+                                   fr="Choix du pseudo-produit scalaire pour la résolution du problème quadratique" ),           
+             regles=(EXCLUS('DIM_SOUS_ESPACE','COEF_DIM_ESPACE'),),
+             DIM_SOUS_ESPACE =SIMP(statut='f',typ='I' ),
+             COEF_DIM_ESPACE =SIMP(statut='f',typ='I' ),
+             NPREC_SOLVEUR   =SIMP(statut='f',typ='I',defaut= 8,val_min=0 ),
+             NMAX_ITER_SHIFT =SIMP(statut='f',typ='I',defaut= 5,val_min=0 ),
+             PREC_SHIFT      =SIMP(statut='f',typ='R',defaut= 5.E-2,val_min=0.E+0 ),
+             SEUIL_FREQ      =SIMP(statut='f',typ='R',defaut= 1.E-2,val_min=0.E+0 ),
+           ),
+         ),
+
+         VERI_MODE       =FACT(statut='d',min=0,
+           STOP_ERREUR     =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           PREC_SHIFT      =SIMP(statut='f',typ='R',defaut= 5.E-3,val_min=0.E+0 ),
+           SEUIL           =SIMP(statut='f',typ='R',defaut= 1.E-6,val_min=0.E+0,
+                                 fr="Valeur limite admise pour l ereur a posteriori des modes" ),
+           STURM           =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         ),
+         SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                               fr="Liste des param\350tres de sensibilit\351.",
+                               ang="List of sensitivity parameters",
+         ),
+         b_sensibilite   =BLOC(condition = "SENSIBILITE != None",
+             CHAM_MATER      =SIMP(statut='f',typ=cham_mater ),
+             CARA_ELEM       =SIMP(statut='f',typ=cara_elem ),
+             EXCIT           =FACT(statut='f',max='**',),  # que pour NMDOME
+         ),
+         STOP_FREQ_VIDE  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),        
+)  ;
+#& 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.
+#
+# 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 NISTOR I.NISTOR
+
+def mode_stat_prod(MODE_STAT,FORCE_NODALE,PSEUDO_MODE,**args):
+ if (MODE_STAT != None)          : return mode_stat_depl
+ if (PSEUDO_MODE !=None)         : return mode_stat_acce
+ if (FORCE_NODALE != None)       : return mode_stat_forc
+ raise AsException("type de concept resultat non prevu")
+MODE_STATIQUE=OPER(nom="MODE_STATIQUE",op= 93,sd_prod=mode_stat_prod,
+                   fr="Calcul de modes statiques pour un déplacement, une force ou une accélération unitaire imposé",
+                   reentrant='n',
+            UIinfo={"groupes":("Résolution",)},
+         MATR_RIGI       =SIMP(statut='o',typ=matr_asse_depl_r ),
+         MATR_MASS       =SIMP(statut='f',typ=matr_asse_depl_r ),
+               regles=(UN_PARMI('MODE_STAT','FORCE_NODALE','PSEUDO_MODE'),),
+         MODE_STAT       =FACT(statut='f',max='**',
+           regles=(UN_PARMI('TOUT','NOEUD','GROUP_NO'),
+                   UN_PARMI('TOUT_CMP','AVEC_CMP','SANS_CMP'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ,),
+           NOEUD           =SIMP(statut='f',typ=no   ,max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno ,max='**'),
+           TOUT_CMP        =SIMP(statut='f',typ='TXM',into=("OUI",) ,),
+           AVEC_CMP        =SIMP(statut='f',typ='TXM',max='**'),
+           SANS_CMP        =SIMP(statut='f',typ='TXM',max='**'),
+         ),
+         FORCE_NODALE    =FACT(statut='f',max='**',
+           regles=(UN_PARMI('TOUT','NOEUD','GROUP_NO'),
+                   UN_PARMI('TOUT_CMP','AVEC_CMP','SANS_CMP'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",), ),
+           NOEUD           =SIMP(statut='f',typ=no   ,max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno ,max='**'),
+           TOUT_CMP        =SIMP(statut='f',typ='TXM',into=("OUI",), ),
+           AVEC_CMP        =SIMP(statut='f',typ='TXM',max='**'),
+           SANS_CMP        =SIMP(statut='f',typ='TXM',max='**'),
+         ),
+         PSEUDO_MODE       =FACT(statut='f',max='**',
+           regles=(UN_PARMI('AXE','DIRECTION','TOUT','NOEUD','GROUP_NO' ),),
+           AXE             =SIMP(statut='f',typ='TXM',into=("X","Y","Z"),max=3),
+           DIRECTION       =SIMP(statut='f',typ='R',min=3,max=3),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",)),
+           NOEUD           =SIMP(statut='f',typ=no   ,max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno ,max='**'),
+           b_dir           =BLOC(condition = "DIRECTION != None",
+             NOM_DIR         =SIMP(statut='f',typ='TXM' ),),
+           b_cmp          =BLOC(condition="TOUT!= None or NOEUD!=None or GROUP_NO!=None",
+             regles=(UN_PARMI('TOUT_CMP','AVEC_CMP','SANS_CMP'),),
+             TOUT_CMP        =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             AVEC_CMP        =SIMP(statut='f',typ='TXM',max='**'),
+             SANS_CMP        =SIMP(statut='f',typ='TXM',max='**'),
+           ),
+         ),
+
+
+         SOLVEUR         =FACT(statut='d', fr="Méthode de résolution des systèmes linéaires",
+         METHODE         =SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("MULT_FRONT","LDLT","GCPC","MUMPS","PETSC") ),
+
+
+           b_ldlt          =BLOC(condition = "METHODE == 'LDLT' ",fr="Paramètres de la méthode LDLT",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("RCMK","SANS") ),
+             NPREC           =SIMP(statut='f',typ='I',defaut=8),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+
+           b_mult_front    =BLOC(condition = "METHODE == 'MULT_FRONT' ",fr="Paramètres de la méthode multi frontale",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+             NPREC           =SIMP(statut='f',typ='I',defaut=8),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+
+
+           b_mumps        =BLOC(condition = "METHODE == 'MUMPS' ",fr="Paramètres de la méthode MUMPS",
+             TYPE_RESOL      =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("NONSYM","SYMGEN","SYMDEF","AUTO")),
+             PRETRAITEMENTS  =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("SANS","AUTO")),
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("AMD","AMF","PORD","METIS","QAMD","AUTO")),
+             ELIM_LAGR2      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+             PCENT_PIVOT     =SIMP(statut='f',typ='I',defaut=10,),
+             RESI_RELA       =SIMP(statut='f',typ='R',defaut=-1.0,),
+             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,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" ),
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC","JACOBI","SOR"),defaut="LDLT_INC" ),
+             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 ),
+           ),
+
+           b_gcpc         =BLOC(condition = "METHODE == 'GCPC' ", fr="Paramètres de la méthode du gradient conjugué",
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC",),defaut="LDLT_INC" ),
+             NIVE_REMPLISSAGE=SIMP(statut='f',typ='I',defaut= 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= 0 ),
+           ),
+         ),
+
+
+
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2 ,) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 ADOBES A.ADOBES
+MODI_BASE_MODALE=OPER(nom="MODI_BASE_MODALE",op= 149,sd_prod=mode_meca,
+                      reentrant='f',
+            fr="Définir la base modale d'une structure sous écoulement",
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+#  la commande modi_base _modale : reentrant = f ou o                      
+         regles=(EXCLUS('AMOR_UNIF','AMOR_REDUIT', ),),
+         BASE            =SIMP(statut='o',typ=mode_meca ),
+         BASE_ELAS_FLUI  =SIMP(statut='o',typ=melasflu_sdaster ),
+         NUME_VITE_FLUI  =SIMP(statut='o',typ='I' ),
+         NUME_ORDRE      =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+         AMOR_REDUIT     =SIMP(statut='f',typ='R',max='**'),
+         AMOR_UNIF       =SIMP(statut='f',typ='R' ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=(1,2) ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& MODIF COMMANDE  DATE 14/10/2008   AUTEUR REZETTE C.REZETTE 
+#            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.
+#
+# 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 PELLET J.PELLET
+MODI_MAILLAGE=OPER(nom="MODI_MAILLAGE",op= 154,sd_prod=maillage_sdaster,
+                   fr="Effectuer des modifications sur un maillage existant: réorienter des mailles servant,"
+                      +" à l'application d'une pression, à la modélisation du contact,...",
+                   reentrant='o',
+            UIinfo={"groupes":("Maillage",)},
+      regles=(AU_MOINS_UN('ORIE_FISSURE','DEFORME','EQUE_PIQUA','ORIE_PEAU_2D',
+                       'ORIE_PEAU_3D','ORIE_NORM_COQUE','PLAQ_TUBE','MODI_MAILLE',
+                       'TRANSLATION','ROTATION','MODI_BASE','ECHELLE','ORIE_SHB','SYMETRIE',
+                       'ORIE_LIGNE',),
+              PRESENT_ABSENT('ORIE_FISSURE','DEFORME','EQUE_PIQUA','ORIE_PEAU_2D',
+                       'ORIE_PEAU_3D','ORIE_NORM_COQUE','PLAQ_TUBE','MODI_MAILLE',
+                       'ORIE_LIGNE'),
+              PRESENT_ABSENT('DEFORME','ORIE_FISSURE','EQUE_PIQUA','ORIE_PEAU_2D',
+                       'ORIE_PEAU_3D','ORIE_NORM_COQUE','PLAQ_TUBE','MODI_MAILLE',
+                       'ORIE_LIGNE'),
+              PRESENT_ABSENT('EQUE_PIQUA','ORIE_FISSURE','DEFORME','ORIE_PEAU_2D',
+                       'ORIE_PEAU_3D','ORIE_NORM_COQUE','PLAQ_TUBE','MODI_MAILLE',
+                       'ORIE_LIGNE'),
+              PRESENT_ABSENT('ORIE_PEAU_2D','ORIE_FISSURE','DEFORME','EQUE_PIQUA',
+                       'ORIE_PEAU_3D','ORIE_NORM_COQUE','PLAQ_TUBE','MODI_MAILLE',
+                       'ORIE_LIGNE'),
+              PRESENT_ABSENT('ORIE_PEAU_3D','ORIE_FISSURE','DEFORME','EQUE_PIQUA','ORIE_PEAU_2D',
+                       'PLAQ_TUBE','MODI_MAILLE',),
+              PRESENT_ABSENT('ORIE_NORM_COQUE','ORIE_FISSURE','DEFORME','EQUE_PIQUA','ORIE_PEAU_2D',
+                       'PLAQ_TUBE','MODI_MAILLE','ORIE_LIGNE'),
+              PRESENT_ABSENT('PLAQ_TUBE','ORIE_FISSURE','DEFORME','EQUE_PIQUA','ORIE_PEAU_2D',
+                       'ORIE_PEAU_3D','ORIE_NORM_COQUE','MODI_MAILLE','ORIE_LIGNE'),
+              PRESENT_ABSENT('MODI_MAILLE','ORIE_FISSURE','DEFORME','EQUE_PIQUA','ORIE_PEAU_2D',
+                       'ORIE_PEAU_3D','ORIE_NORM_COQUE','PLAQ_TUBE','ORIE_LIGNE'),
+              EXCLUS('EQUE_PIQUA','PLAQ_TUBE'),
+              EXCLUS('EQUE_PIQUA','TUBE_COUDE'),
+              EXCLUS('ROTATION','MODI_BASE'),
+              EXCLUS('SYMETRIE','ROTATION'),
+              EXCLUS('SYMETRIE','TRANSLATION'),
+              EXCLUS('SYMETRIE','MODI_BASE'),
+              EXCLUS('SYMETRIE','ECHELLE'),
+              ),
+         MAILLAGE        =SIMP(statut='o',typ=maillage_sdaster ),
+
+         ORIE_FISSURE    =FACT(statut='f',
+           GROUP_MA        =SIMP(statut='o',typ=grma,validators=NoRepeat(),max='**'),
+         ),
+
+         DEFORME         =FACT(statut='f',
+           OPTION          =SIMP(statut='o',typ='TXM',into=("TRAN","TRAN_APPUI") ),
+           DEPL            =SIMP(statut='o',typ=cham_no_sdaster ),
+        b_deform        =BLOC(condition = "OPTION=='TRAN_APPUI'",
+           GROUP_NO_APPUI = SIMP(statut='o',typ=grno,validators=NoRepeat(),max='**' ),
+           GROUP_NO_STRU  = SIMP(statut='o',typ=grno,validators=NoRepeat(),max='**' ),),
+         ),
+
+         EQUE_PIQUA      =FACT(statut='f',
+           GROUP_NO        =SIMP(statut='o',typ=grno),
+           E_BASE          =SIMP(statut='o',typ='R' ),
+           DEXT_BASE       =SIMP(statut='o',typ='R' ),
+           L_BASE          =SIMP(statut='o',typ='R' ),
+           L_CHANF         =SIMP(statut='o',typ='R' ),
+           TYPE            =SIMP(statut='o',typ='TXM',into=("TYPE_1","TYPE_2")),
+           H_SOUD          =SIMP(statut='o',typ='R' ),
+           ANGL_SOUD       =SIMP(statut='o',typ='R' ),
+           JEU_SOUD        =SIMP(statut='o',typ='R' ),
+           E_CORP          =SIMP(statut='o',typ='R' ),
+           DEXT_CORP       =SIMP(statut='o',typ='R' ),
+           AZIMUT          =SIMP(statut='o',typ='R' ),
+           RAFF_MAIL       =SIMP(statut='o',typ='TXM' ),
+           X_MAX           =SIMP(statut='o',typ='R' ),
+         ),
+         ORIE_PEAU_2D    =FACT(statut='f',max='**',
+           GROUP_MA        =SIMP(statut='o',typ=grma,validators=NoRepeat(),max='**'),
+           GROUP_MA_SURF   =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+         ),
+         ORIE_PEAU_3D    =FACT(statut='f',max='**',
+           GROUP_MA        =SIMP(statut='o',typ=grma,validators=NoRepeat(),max='**'),
+           GROUP_MA_VOLU   =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+         ),
+         ORIE_SHB       =FACT(statut='f',max=1,
+           GROUP_MA        =SIMP(statut='o',typ=grma,validators=NoRepeat(),max='**'),
+         ),
+         ORIE_NORM_COQUE =FACT(statut='f',max='**',
+           GROUP_MA        =SIMP(statut='o',typ=grma,validators=NoRepeat(),max='**'),
+           VECT_NORM       =SIMP(statut='f',typ='R',max=3),
+           b_vect_norm     =BLOC(condition = "VECT_NORM != None",
+             regles=UN_PARMI('NOEUD','GROUP_NO'),
+             NOEUD           =SIMP(statut='f',typ=no),
+             GROUP_NO        =SIMP(statut='f',typ=grno),
+           ),
+         ),
+         ORIE_LIGNE =FACT(statut='f',max='**',
+           GROUP_MA        =SIMP(statut='o',typ=grma,validators=NoRepeat(),max='**'),
+           VECT_TANG       =SIMP(statut='f',typ='R',max=3),
+           b_vect_tang     =BLOC(condition = "VECT_TANG != None",
+             regles=UN_PARMI('NOEUD','GROUP_NO'),
+             NOEUD           =SIMP(statut='f',typ=no),
+             GROUP_NO        =SIMP(statut='f',typ=grno),
+           ),
+         ),
+         PLAQ_TUBE       =FACT(statut='f',
+           DEXT            =SIMP(statut='o',typ='R' ),
+           EPAIS           =SIMP(statut='o',typ='R' ),
+           L_TUBE_P1       =SIMP(statut='o',typ='R' ),
+           AZIMUT          =SIMP(statut='f',typ='R',defaut= 90. ),
+           COUTURE         =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON",)  ),
+         ),
+         TUBE_COUDE      =FACT(statut='f',
+           ANGLE           =SIMP(statut='o',typ='R' ),
+           R_CINTR         =SIMP(statut='o',typ='R' ),
+           L_TUBE_P1       =SIMP(statut='o',typ='R' ),
+         ),
+         MODI_MAILLE     =FACT(statut='f',max=1,
+           regles=(AU_MOINS_UN('GROUP_MA_FOND','MAILLE_FOND','GROUP_NO_FOND','NOEUD_FOND'),),
+           OPTION          =SIMP(statut='o',typ='TXM',into=("NOEUD_QUART",) ),
+           GROUP_MA_FOND   =SIMP(statut='f',typ=grma,validators=NoRepeat(),max=1),
+           MAILLE_FOND     =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max=1),
+           GROUP_NO_FOND   =SIMP(statut='f',typ=grno,validators=NoRepeat(),max=1),
+           NOEUD_FOND      =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max=1),
+         ),
+         MODI_BASE       =FACT(statut='f',
+           VECT_X          =SIMP(statut='o',typ='R',min=2,max=3),
+           VECT_Y          =SIMP(statut='f',typ='R',min=2,max=3),
+         ),
+         ECHELLE         =SIMP(statut='f',typ='R',),
+         TRANSLATION     =SIMP(statut='f',typ='R',min=2,max=3),
+         ROTATION        =FACT(statut='f',max='**',
+           POIN_1           =SIMP(statut='o',typ='R',min=2,max=3),
+           ANGL             =SIMP(statut='o',typ='R',defaut= 0.E+0 ),
+           regles=(EXCLUS('DIR','POIN_2'),),
+           POIN_2           =SIMP(statut='f',typ='R',min=2,max=3),
+           DIR              =SIMP(statut='f',typ='R',min=2,max=3),
+         ),
+         SYMETRIE        =FACT(statut='f',max='**',
+                          fr = "Symétrie du maillage par rapport à un plan en 3D ou à une droite en 2D.",
+           POINT           =SIMP(statut='o',typ='R',min=2,max=3,
+                            fr="Point appartenant à la droite ou au plan."),
+           AXE_1           =SIMP(statut='o',typ='R',min=2,max=3,
+                            fr="Vecteur directeur de la droite ou 1er vecteur appartenant au plan."),
+           AXE_2           =SIMP(statut='f',typ='R',min=3,max=3,
+                            fr="2nd vecteur appartenant du plan."),
+         ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+)  ;
+#& 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
+# 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 GENIAUT S.GENIAUT
+
+MODI_MODELE_XFEM=OPER(nom="MODI_MODELE_XFEM",op= 113,sd_prod=modele_sdaster,docu="U4.44.12-e",reentrant='f',
+            UIinfo={"groupes":("Modélisation",)},
+                           fr="Engendrer ou enrichir une structure de donnees en affectant les cham_gd associes",
+                           
+    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=1.1E-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,),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 KHAM M.KHAM
+MODI_OBSTACLE=OPER(nom="MODI_OBSTACLE",op=182,sd_prod=table_fonction,
+            fr="Calculer les obstacles dans les systèmes guidage-tube après usure",
+            reentrant='f',
+            UIinfo={"groupes":("Modélisation",)},
+      regles=(PRESENT_ABSENT('R_MOBILE','CRAYON'),
+              PRESENT_PRESENT('V_USUR_TUBE','V_USUR_OBST'),),
+         OBSTACLE        =SIMP(statut='f',typ=table_fonction),
+         GUIDE           =SIMP(statut='o',typ=table_sdaster),
+         CRAYON          =SIMP(statut='f',typ=table_sdaster),
+         TABL_USURE      =SIMP(statut='f',typ=table_sdaster),
+         INST            =SIMP(statut='f',typ='R'),  
+         R_MOBILE        =SIMP(statut='f',typ='R'),  
+         PERCEMENT       =SIMP(statut='f',typ='R',defaut=1),  
+         V_USUR_TUBE     =SIMP(statut='f',typ='R',max='**'),
+         V_USUR_OBST     =SIMP(statut='f',typ='R',max='**'),
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+)  ;
+#& MODIF COMMANDE  DATE 30/09/2008   AUTEUR REZETTE C.REZETTE 
+#            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.
+#
+# 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 DESROCHES X.DESROCHES
+def modi_repere_prod(RESULTAT,**args):
+  if AsType(RESULTAT) != None : return AsType(RESULTAT)
+
+MODI_REPERE=OPER(nom="MODI_REPERE",op=191,sd_prod=modi_repere_prod,reentrant='n',
+            UIinfo={"groupes":("Résultats et champs",)},
+                    fr="Calcule des résultats dans le repère cylindrique",
+         RESULTAT        =SIMP(statut='o',typ=resultat_sdaster),
+
+         regles=(EXCLUS('TOUT_ORDRE','NUME_ORDRE','INST','FREQ','NUME_MODE',
+                        'NOEUD_CMP','LIST_INST','LIST_FREQ','NOM_CAS'),),
+         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='**'),
+         NOEUD_CMP       =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+         NOM_CAS         =SIMP(statut='f',typ='TXM' ),
+
+         INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+         FREQ            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+         LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+         LIST_FREQ       =SIMP(statut='f',typ=listr8_sdaster),
+
+         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',),),
+
+         MODI_CHAM       =FACT(statut='o',max='**',
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           TYPE_CHAM       =SIMP(statut='o',typ='TXM',
+                                 into=("VECT_2D","VECT_3D","TORS_3D","TENS_2D","TENS_3D"),),
+           NOM_CHAM        =SIMP(statut='o',typ='TXM',into=C_NOM_CHAM_INTO()),
+           b_vect_2d       =BLOC(condition = "TYPE_CHAM=='VECT_2D'",
+              NOM_CMP         =SIMP(statut='o',typ='TXM',min=2,max=2 ),),
+           b_vect_3d       =BLOC(condition = "TYPE_CHAM=='VECT_3D'",
+              NOM_CMP         =SIMP(statut='o',typ='TXM',min=3,max=3 ),),
+           b_tors_3d       =BLOC(condition = "TYPE_CHAM=='TORS_3D'",
+              NOM_CMP         =SIMP(statut='o',typ='TXM',min=6,max=6 ),),
+           b_tens_2d       =BLOC(condition = "TYPE_CHAM=='TENS_2D'",
+              NOM_CMP         =SIMP(statut='o',typ='TXM',min=4,max=4 ),),
+           b_tens_3d       =BLOC(condition = "TYPE_CHAM=='TENS_3D'",
+              NOM_CMP         =SIMP(statut='o',typ='TXM',min=6,max=6 ),),
+         ),
+         DEFI_REPERE     =FACT(statut='o',
+         regles=(UN_PARMI('ANGL_NAUT','ORIGINE'),),
+           REPERE          =SIMP(statut='f',typ='TXM',defaut="UTILISATEUR",
+                                 into=("UTILISATEUR","CYLINDRIQUE"),),
+           ANGL_NAUT       =SIMP(statut='f',typ='R',max=3),
+           ORIGINE         =SIMP(statut='f',typ='R',min=2,max=3),
+           AXE_Z           =SIMP(statut='f',typ='R',min=3,max=3),
+         ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+)  ;
+#& MODIF COMMANDE  DATE 05/05/2008   AUTEUR NISTOR I.NISTOR 
+#            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.                                 
+#
+# 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 NISTOR I.NISTOR
+
+def norm_mode_prod(MODE,**args ):
+  if AsType(MODE) == mode_meca   : return mode_meca
+  if AsType(MODE) == mode_meca_c : return mode_meca_c
+  if AsType(MODE) == mode_flamb  : return mode_flamb
+  if AsType(MODE) == base_modale : return base_modale
+  raise AsException("type de concept resultat non prevu")
+
+NORM_MODE=OPER(nom="NORM_MODE",op=  37,sd_prod=norm_mode_prod,
+               fr="Normer des modes propres en fonction d'un critère choisi par l'utilisateur",
+               reentrant='f',
+            UIinfo={"groupes":("Résolution",)},
+         regles=(UN_PARMI('NORME','NOEUD','AVEC_CMP','SANS_CMP'),
+                 CONCEPT_SENSIBLE('SEPARE'),
+                 DERIVABLE('MODE'),),
+         MODE       =SIMP(statut='o',typ=(mode_meca,mode_flamb,base_modale) ),
+         NORME      =SIMP(statut='f',typ='TXM',fr="Norme prédéfinie : masse généralisée, euclidienne,...",
+                          into=("MASS_GENE","RIGI_GENE","EUCL","EUCL_TRAN","TRAN","TRAN_ROTA") ),
+         NOEUD      =SIMP(statut='f',typ=no, fr="Composante donnée d un noeud spécifié égale à 1"),
+         b_noeud    =BLOC(condition = "NOEUD != None",
+           NOM_CMP    =SIMP(statut='o',typ='TXM' ),
+         ),
+         AVEC_CMP   =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+         SANS_CMP   =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+         MODE_SIGNE =FACT(statut='f',fr="Imposer un signe sur une des composantes des modes",
+           NOEUD      =SIMP(statut='o',typ=no,fr="Noeud ou sera imposé le signe"),
+           NOM_CMP    =SIMP(statut='o',typ='TXM',fr="Composante du noeud ou sera imposé le signe" ),
+           SIGNE      =SIMP(statut='f',typ='TXM',defaut="POSITIF",into=("NEGATIF","POSITIF"),
+                            fr="Choix du signe" ),
+         ),
+         SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                               fr="Liste des param\350tres de sensibilit\351.",
+                               ang="List of sensitivity parameters",
+         ),
+         b_base    =BLOC(condition = "AsType(MODE) == base_modale",
+              MASSE = SIMP(statut='o',typ=(matr_asse_depl_r,matr_asse_gene_r,matr_asse_pres_r ), ),
+              RAIDE = SIMP(statut='o',typ=(matr_asse_depl_r,matr_asse_depl_c,matr_asse_gene_r,matr_asse_pres_r ), ),
+              AMOR  = SIMP(statut='f',typ=(matr_asse_depl_r,matr_asse_gene_r) ),
+         ),
+         TITRE      =SIMP(statut='f',typ='TXM',max='**'),
+         INFO       =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2) ),
+)  ;
+#& MODIF COMMANDE  DATE 08/08/2008   AUTEUR DESOZA T.DESOZA 
+#            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.
+#
+# 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 PELLET J.PELLET
+NUME_DDL=OPER(nom="NUME_DDL",op=11,sd_prod=nume_ddl_sdaster,reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+              fr="Etablissement de la numérotation des ddl avec ou sans renumérotation et du stockage de la matrice",
+                  regles=(UN_PARMI('MATR_RIGI','MODELE'),),
+         MATR_RIGI       =SIMP(statut='f',validators=NoRepeat(),max=100,
+                               typ=(matr_elem_depl_r ,matr_elem_depl_c,matr_elem_temp_r ,matr_elem_pres_c) ),
+         MODELE          =SIMP(statut='f',typ=modele_sdaster ),
+         b_modele        =BLOC(condition = "MODELE != None",
+           CHARGE     =SIMP(statut='f',validators=NoRepeat(),max='**',typ=(char_meca,char_ther,char_acou, ),),
+         ),
+         METHODE         =SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("MULT_FRONT","LDLT","GCPC","PETSC","MUMPS") ),
+         b_mult_front    =BLOC(condition="METHODE=='MULT_FRONT'",fr="paramètres associés à la méthode multifrontale",
+           RENUM           =SIMP(statut='f',typ='TXM',into=("MD","MDA","METIS"),defaut="METIS" ),
+         ),
+         b_ldlt          =BLOC(condition="METHODE=='LDLT'",fr="paramètres associés à la méthode LDLT",
+           RENUM           =SIMP(statut='f',typ='TXM',into=("RCMK","SANS"),defaut="RCMK"  ),
+         ),
+         b_mumps        =BLOC(condition = "METHODE == 'MUMPS' ",fr="Paramètres de la méthode MUMPS",
+           RENUM         =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("AMD","AMF","PORD","METIS","QAMD","AUTO")),
+         ),
+         b_gcpc          =BLOC(condition="METHODE=='GCPC' or METHODE=='PETSC'",fr="paramètres associés à la GCPC ou PETSc",
+           RENUM           =SIMP(statut='f',typ='TXM',into=("RCMK","SANS"),defaut="RCMK"  ),
+         ),
+         INFO            =SIMP(statut='f',typ='I',into=(1,2)),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 BODEL C.BODEL
+NUME_DDL_GENE=OPER(nom="NUME_DDL_GENE",op= 127,sd_prod=nume_ddl_gene,
+                   fr="Etablissement de la numérotation des ddl d'un modèle établi en coordonnées généralisées",
+                    reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+         regles=UN_PARMI('MODELE_GENE','BASE'),
+         MODELE_GENE     =SIMP(statut='f',typ=modele_gene ),
+             b_modele_gene     =BLOC(condition = "MODELE_GENE != None",
+               STOCKAGE     =SIMP(statut='f',typ='TXM',defaut="LIGN_CIEL",into=("LIGN_CIEL","PLEIN") ),
+               METHODE            =SIMP(statut='f',typ='TXM',defaut="CLASSIQUE",into=("INITIAL","CLASSIQUE") ),
+                                    ),
+         BASE     =SIMP(statut='f',typ=(mode_meca,mode_stat,base_modale,mode_gene ) ),
+             b_base     =BLOC(condition = "BASE != None",
+               STOCKAGE     =SIMP(statut='f',typ='TXM',defaut="DIAG",into=("DIAG","PLEIN") ),
+               NB_VECT     =SIMP(statut='f',typ='I',defaut= 9999 ),
+                             ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2007  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.        
+# ======================================================================
+# RESPONSABLE BODEL C.BODEL
+
+from Macro.observation_ops import observation_ops
+
+
+def observation_prod(self, RESULTAT, **args):
+    if AsType(RESULTAT) == base_modale or AsType(RESULTAT) == mode_meca :
+        return base_modale
+    elif AsType(RESULTAT) == evol_elas :
+        return evol_elas
+    elif AsType(RESULTAT) == dyna_harmo :
+        return dyna_harmo
+    else :
+        return None
+
+OBSERVATION=MACRO(nom="OBSERVATION",op=observation_ops,
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+                      sd_prod=observation_prod,
+                      fr="Calcul de l'observabilite d'un champ aux noeuds ",
+#
+         MODELE_1        =SIMP(statut='o',typ=modele_sdaster),
+         MODELE_2        =SIMP(statut='o',typ=modele_sdaster),
+         RESULTAT        =SIMP(statut='o',typ=(mode_meca,base_modale) ),
+         NOM_CHAM        =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max=1),
+
+#        ------------------------------------------------------------------
+
+         regles=(UN_PARMI('TOUT_ORDRE','NUME_ORDRE','FREQ','LIST_FREQ','NUME_MODE' ),),
+         TOUT_ORDRE      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+         NUME_ORDRE      =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),
+         NUME_MODE       =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**' ),
+         LIST_ORDRE      =SIMP(statut='f',typ=listis_sdaster),
+         INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**' ),
+         LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+         NOEUD_CMP       =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+
+#        ------------------------------------------------------------------
+#        OPTIONS DE PROJ_CHAMP (SANS MC FACTEUR PARTICULIER)
+#        ------------------------------------------------------------------
+         PROJECTION     =SIMP(statut='f',max=1,typ='TXM',into=("OUI","NON"),defaut="NON"),
+         CAS_FIGURE      =SIMP(statut='f',typ='TXM',into=("2D","3D","2.5D","1.5D",) ),
+         DISTANCE_MAX    =SIMP(statut='f',typ='R',
+                fr="Distance maximale entre le noeud et l'élément le plus proche, lorsque le noeud n'est dans aucun élément."),
+         ALARME          =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+
+         TYPE_CHAM       =SIMP(statut='f',typ='TXM',into=("NOEU",), 
+                fr="Pour forcer le type des champs projetés. NOEU -> cham_no"),
+
+#           PROL_ZERO       =SIMP(statut='f',typ='TXM',into=("OUI","NON"),defaut="NON",
+#                fr="Si le résultat est un mode_xxx ou une base_xxx, on peut prolonger"
+#                   +" les champs par zéro la ou la projection ne donne pas de valeurs."),
+
+         NUME_DDL        =SIMP(statut='f',typ=(nume_ddl_sdaster) ),
+         VIS_A_VIS       =FACT(statut='f',max='**',
+             regles=(AU_MOINS_UN('TOUT_1','GROUP_MA_1','MAILLE_1','GROUP_NO_1','NOEUD_1'),
+                     AU_MOINS_UN('TOUT_2','GROUP_MA_2','MAILLE_2','GROUP_NO_2','NOEUD_2'),),
+             TOUT_1          =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             GROUP_MA_1      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE_1        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             GROUP_NO_1      =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+             NOEUD_1         =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+             TOUT_2          =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             GROUP_MA_2      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             MAILLE_2        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             GROUP_NO_2      =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+             NOEUD_2         =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+             CAS_FIGURE      =SIMP(statut='f',typ='TXM',into=("2D","3D","2.5D","1.5D",) ),
+             ),
+
+#        ------------------------------------------------------------------
+#        MODI_REPERE
+#        ------------------------------------------------------------------
+         MODI_REPERE     =FACT(statut='f',max='**',
+         regles=(UN_PARMI('REPERE'),
+                 AU_MOINS_UN('TOUT','GROUP_MA','MAILLE','GROUP_NO','NOEUD'),),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+#
+           TYPE_CHAM       =SIMP(statut='f',typ='TXM',
+                                 into=("VECT_2D","VECT_3D","TORS_3D","TENS_2D","TENS_3D"),
+                                       defaut="VECT_3D"),
+           b_vect_2d       =BLOC(condition = "TYPE_CHAM=='VECT_2D'",
+              NOM_CMP         =SIMP(statut='o',typ='TXM',min=2,max=2 ),),
+           b_vect_3d       =BLOC(condition = "TYPE_CHAM=='VECT_3D'",
+              NOM_CMP         =SIMP(statut='f',typ='TXM',min=3,max=3,defaut=('DX','DY','DZ') ),),
+           b_tors_3d       =BLOC(condition = "TYPE_CHAM=='TORS_3D'",
+              NOM_CMP         =SIMP(statut='o',typ='TXM',min=6,max=6 ),),
+           b_tens_2d       =BLOC(condition = "TYPE_CHAM=='TENS_2D'",
+              NOM_CMP         =SIMP(statut='o',typ='TXM',min=4,max=4 ),),
+           b_tens_3d       =BLOC(condition = "TYPE_CHAM=='TENS_3D'",
+              NOM_CMP         =SIMP(statut='o',typ='TXM',min=6,max=6 ),),
+
+           REPERE          =SIMP(statut='o',typ='TXM',
+                                 into=("UTILISATEUR","CYLINDRIQUE","NORMALE"),),
+           b_normale       =BLOC(condition = "REPERE=='NORMALE'",
+             regles=(UN_PARMI('VECT_X','VECT_Y')),
+             VECT_X          =SIMP(statut='f',typ='R',min=3,max=3),
+             VECT_Y          =SIMP(statut='f',typ='R',min=3,max=3), ),
+           b_utilisateur   =BLOC(condition = "REPERE=='UTILISATEUR'",
+             ANGL_NAUT       =SIMP(statut='o',typ='R',max=3)),
+           b_cylindrique   =BLOC(condition = "REPERE=='CYLINDRIQUE'",
+             ORIGINE         =SIMP(statut='o',typ='R',min=2,max=3),
+             AXE_Z           =SIMP(statut='o',typ='R',min=3,max=3)),
+         ),
+
+#        ------------------------------------------------------------------
+#        FILTRE DES DDL
+#        ------------------------------------------------------------------
+         FILTRE     =FACT(statut='f',max='**',
+           regles=(UN_PARMI('DDL_ACTIF'),
+#                           'MASQUE'),
+           AU_MOINS_UN('TOUT','GROUP_MA','MAILLE','GROUP_NO','NOEUD'),),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+#
+           DDL_ACTIF       =SIMP(statut='f',typ='TXM',max=6),
+# TODO : mettre en place le systeme de masques
+#           MASQUE          =SIMP(statut='f',typ='TXM',max=6),
+         ),
+#        ------------------------------------------------------------------
+
+         TITRE           =SIMP(statut='f',typ='TXM',max='**' ),
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+      )  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.        
+# ======================================================================
+# RESPONSABLE GENIAUT S.GENIAUT
+POST_CHAM_XFEM=OPER(nom="POST_CHAM_XFEM",op= 196,sd_prod=evol_noli,
+                    reentrant='n',UIinfo={"groupes":("Post traitements",)},
+            fr="Calcul des champs DEPL et SIEF_ELGA sur le maillage fissuré",
+    MAILLAGE_SAIN = SIMP(statut='o',typ=maillage_sdaster),
+    MAILLAGE_FISS = SIMP(statut='o',typ=maillage_sdaster),
+    NOM_CHAM      = SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',into=("DEPL","SIEF_ELGA","VARI_ELGA"),),
+    MODELE        = SIMP(statut='o',typ=modele_sdaster,),
+    RESULTAT      = SIMP(statut='o',typ=resultat_sdaster),
+      b_elga      = BLOC(condition = "NOM_CHAM in ('SIEF_ELGA','VARI_ELGA') or \
+                                      (type(NOM_CHAM)==type(()) and 'SIEF_ELGA' in NOM_CHAM) or \
+                                      (type(NOM_CHAM)==type(()) and 'VARI_ELGA' in NOM_CHAM)",
+      MODELE_VISU = SIMP(statut='o',typ=modele_sdaster,),
+                         ),
+    INFO           =SIMP(statut='f',typ='I',defaut= 1,into=(1,2,) ),
+);                     
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 ZENTNER I.ZENTNER
+from Macro.post_dyna_alea_ops import post_dyna_alea_ops
+POST_DYNA_ALEA=MACRO(nom="POST_DYNA_ALEA",op= post_dyna_alea_ops,sd_prod=table_sdaster,
+                    fr="Traitements statistiques de résultats de type interspectre et impression sur fichiers",
+                    reentrant='n',
+            UIinfo={"groupes":("Post traitements",)},
+         regles=(UN_PARMI('FRAGILITE','INTE_SPEC'),),
+         FRAGILITE  =FACT(statut='f',fr="donnees pour courbe de fragilite",max='**', 
+                    TABL_RESU  =SIMP(statut='o',typ=table_sdaster),
+                    regles=(UN_PARMI('VALE','LIST_PARA'),),
+                    VALE       = SIMP(statut='f',typ='R', min=1,validators=NoRepeat(),max='**' ), 
+                    LIST_PARA  = SIMP(statut='f',typ=listr8_sdaster), 
+                    AM_INI     =  SIMP(statut='f',typ='R',defaut= 0.4 ), 
+                    BETA_INI   = SIMP(statut='f',typ='R',defaut= 0.3 ), 
+                    FRACTILE   = SIMP(statut='f',typ='R', min=1,validators=NoRepeat(),max='**'),
+                    b_inte_spec_f  = BLOC(condition="""FRACTILE !=None""",
+                        NB_TIRAGE =SIMP(statut='f',typ='I' ),),                   
+                 ),
+         INTE_SPEC       =SIMP(statut='f',typ=table_fonction),
+         b_inte_spec_f      =BLOC(condition="""INTE_SPEC !=None""",
+            regles=(UN_PARMI('NOEUD_I','NUME_ORDRE_I','OPTION'),),
+            NUME_VITE_FLUI  =SIMP(statut='f',typ='I' ),  
+            TOUT_ORDRE      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+            NUME_ORDRE_I    =SIMP(statut='f',typ='I',max='**' ),
+            NOEUD_I         =SIMP(statut='f',typ=no,max='**'),         
+            OPTION          =SIMP(statut='f',typ='TXM',into=("DIAG",) ),
+            b_nume_ordre_i =BLOC(condition = "NUME_ORDRE_I != None",
+               NUME_ORDRE_J    =SIMP(statut='o',typ='I',max='**' ),   
+                                ),  
+            b_noeud_i      =BLOC(condition = "NOEUD_I != None",
+               NOEUD_J         =SIMP(statut='o',typ=no,max='**'),
+               NOM_CMP_I       =SIMP(statut='o',typ='TXM',max='**' ),  
+               NOM_CMP_J       =SIMP(statut='o',typ='TXM',max='**' ),     
+                                ), 
+            MOMENT          =SIMP(statut='f',typ='I',max='**',fr="Moments spectraux en complément des cinq premiers" ), 
+            ),  
+         TITRE           =SIMP(statut='f',typ='TXM',max='**' ),  
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=(1,2) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 BOYERE E.BOYERE
+POST_DYNA_MODA_T=OPER(nom="POST_DYNA_MODA_T",op= 130,sd_prod=table_sdaster,
+                      fr="Post-traiter les résultats en coordonnées généralisées produit par DYNA_TRAN_MODAL",
+                      reentrant='n',
+            UIinfo={"groupes":("Post traitements",)},
+        regles=(UN_PARMI('CHOC','RELA_EFFO_DEPL', ),),
+         RESU_GENE       =SIMP(statut='o',typ=tran_gene ),
+         CHOC            =FACT(statut='f',max='**',
+                               fr="Analyse des non linéarités de choc",
+           INST_INIT       =SIMP(statut='f',typ='R',defaut= -1. ),  
+           INST_FIN        =SIMP(statut='f',typ='R',defaut= 999. ),  
+           NB_BLOC         =SIMP(statut='f',typ='I',defaut= 1 ),  
+           SEUIL_FORCE     =SIMP(statut='f',typ='R',defaut= 0.E+0 ),  
+           DUREE_REPOS     =SIMP(statut='f',typ='R',defaut= 0.E+0 ),  
+           OPTION          =SIMP(statut='f',typ='TXM',defaut="USURE",into=("IMPACT","USURE") ),
+           NB_CLASSE       =SIMP(statut='f',typ='I',defaut= 10 ),  
+         ),
+         RELA_EFFO_DEPL  =FACT(statut='f',
+                               fr="Analyse des relationsnon linéaires effort-déplacement",
+           NOEUD           =SIMP(statut='o',typ=no),
+           NOM_CMP         =SIMP(statut='o',typ='TXM' ),  
+         ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=(1,2) ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**' ),  
+)  ;
+#& MODIF COMMANDE  DATE 03/11/2008   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.
+#
+# 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 DESROCHES X.DESROCHES
+POST_ELEM=OPER(nom="POST_ELEM",op=107,sd_prod=table_sdaster,reentrant='n',
+            UIinfo={"groupes":("Post traitements",)},
+               fr="Calcul de quantités globales (masse, inerties, énergie, ...) sur tout ou partie du modèle",
+
+         regles=(UN_PARMI('MASS_INER', 'ENER_POT', 'ENER_CIN','TRAV_EXT','MINMAX',
+                          'WEIBULL', 'RICE_TRACEY', 'CARA_GEOM','CHAR_LIMITE',
+                          'CARA_POUTRE', 'INDIC_ENER', 'INDIC_SEUIL',
+                          'AIRE_INTERNE','ENER_ELAS','ENER_TOTALE','INTEGRALE'),
+                ),
+
+         MASS_INER      = FACT(statut='f',max='**',
+                               regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),),
+                               TOUT         = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                               MAILLE       = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA     = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               ORIG_INER    = SIMP(statut='f',typ='R',min=3,max=3 ),
+                              ),
+         b_mass_iner = BLOC(condition = "( MASS_INER != None )",
+                       fr="calcul de la masse, les inerties et le centre de gravité",
+                       regles=(EXCLUS('CHAM_GD','RESULTAT'),
+                               EXCLUS('TOUT_ORDRE','NUME_ORDRE','INST','FREQ','NUME_MODE',
+                                      'NOEUD_CMP','LIST_ORDRE','LIST_INST','LIST_FREQ','NOM_CAS'),),
+                       MODELE         = SIMP(statut='f',typ=modele_sdaster),
+                       CHAM_MATER     = SIMP(statut='f',typ=cham_mater),
+                       CARA_ELEM      = SIMP(statut='f',typ=cara_elem),
+                       CHARGE         = SIMP(statut='f',typ=(char_meca,char_cine_meca,
+                                        char_ther,char_acou),validators=NoRepeat(),max='**' ),
+                       NUME_COUCHE    = SIMP(statut='f',typ='I',defaut=1),
+                       NIVE_COUCHE    = SIMP(statut='f',typ='TXM',defaut="MOY",into=("INF","SUP","MOY"),),
+                       MODE_FOURIER   = SIMP(statut='f',typ='I',defaut=0),
+                       GEOMETRIE      = SIMP(statut='f',typ='TXM',defaut="INITIALE",into=("INITIALE","DEFORMEE")),
+                       CHAM_GD        = SIMP(statut='f',typ=(cham_no_sdaster,cham_elem) ),
+                       RESULTAT       = SIMP(statut='f',typ=(mode_meca,evol_elas,evol_noli,mult_elas,
+                                                             fourier_elas,dyna_trans) ),
+                       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',),),
+                       TOUT_ORDRE     = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                       NUME_ORDRE     = SIMP(statut='f',typ='I',),
+                       LIST_ORDRE     = SIMP(statut='f',typ=listis_sdaster),
+                       INST           = SIMP(statut='f',typ='R',),
+                       LIST_INST      = SIMP(statut='f',typ=listr8_sdaster),
+                       FREQ           = SIMP(statut='f',typ='R',),
+                       LIST_FREQ      = SIMP(statut='f',typ=listr8_sdaster),
+                       NUME_MODE      = SIMP(statut='f',typ='I',),
+                       NOEUD_CMP      = SIMP(statut='f',typ='TXM',min=2,validators=NoRepeat(),max=2),
+                       NOM_CAS        = SIMP(statut='f',typ='TXM',),
+         ),
+
+         ENER_POT       = FACT(statut='f',max='**',
+                               regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),),
+                               TOUT         = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                               MAILLE       = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA     = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                              ),
+         b_ener_pot = BLOC(condition = "( ENER_POT  != None )",
+                       fr="calcul de l'énergie potentielle de déformation",
+                       regles=(UN_PARMI('CHAM_GD','RESULTAT'),
+                               EXCLUS('TOUT_ORDRE','NUME_ORDRE','INST','FREQ','NUME_MODE',
+                                      'NOEUD_CMP','LIST_ORDRE','LIST_INST','LIST_FREQ','NOM_CAS'),),
+                       MODELE         = SIMP(statut='f',typ=modele_sdaster),
+                       CHAM_MATER     = SIMP(statut='f',typ=cham_mater),
+                       CARA_ELEM      = SIMP(statut='f',typ=cara_elem),
+                       CHARGE         = SIMP(statut='f',typ=(char_meca,char_cine_meca,
+                       char_ther,char_acou),validators=NoRepeat(),max='**' ),
+                       NUME_COUCHE    = SIMP(statut='f',typ='I',defaut=1),
+                       NIVE_COUCHE    = SIMP(statut='f',typ='TXM',defaut="MOY",into=("INF","SUP","MOY"),),
+                       ANGLE          = SIMP(statut='f',typ='I',defaut=0),
+                       MODE_FOURIER   = SIMP(statut='f',typ='I',defaut=0),
+                       CHAM_GD        = SIMP(statut='f',typ=(cham_no_sdaster,cham_elem) ),
+                       RESULTAT       = SIMP(statut='f',typ=(mode_meca,evol_elas,evol_ther,evol_noli,dyna_trans,mult_elas) ),
+                       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',),),
+                       TOUT_ORDRE     = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                       NUME_ORDRE     = SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+                       LIST_ORDRE     = SIMP(statut='f',typ=listis_sdaster),
+                       INST           = SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+                       LIST_INST      = SIMP(statut='f',typ=listr8_sdaster),
+                       FREQ           = SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+                       LIST_FREQ      = SIMP(statut='f',typ=listr8_sdaster),
+                       NUME_MODE      = SIMP(statut='f',typ='I'  ,validators=NoRepeat(),max='**'),
+                       NOEUD_CMP      = SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+                       NOM_CAS        = SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+         ),
+
+         ENER_CIN       = FACT(statut='f',max='**',
+                               regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),),
+                               OPTION       = SIMP(statut='f',typ='TXM',
+                                                   into=("MASS_MECA","MASS_MECA_DIAG"),
+                                                   defaut="MASS_MECA" ),
+                               TOUT         = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                               MAILLE       = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA     = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                              ),
+         b_ener_cin = BLOC(condition = "( ENER_CIN != None )",
+                       fr="calcul de l'énergie cinétique",
+                       regles=(UN_PARMI('CHAM_GD','RESULTAT'),
+                               EXCLUS('TOUT_ORDRE','NUME_ORDRE','INST','FREQ','NUME_MODE',
+                                      'NOEUD_CMP','LIST_ORDRE','LIST_INST','LIST_FREQ','NOM_CAS'),),
+                       MODELE         = SIMP(statut='f',typ=modele_sdaster),
+                       CHAM_MATER     = SIMP(statut='f',typ=cham_mater),
+                       CARA_ELEM      = SIMP(statut='f',typ=cara_elem),
+                       CHARGE         = SIMP(statut='f',typ=(char_meca,char_cine_meca,
+                       char_ther,char_acou),validators=NoRepeat(),max='**' ),
+                       NUME_COUCHE    = SIMP(statut='f',typ='I',defaut=1),
+                       NIVE_COUCHE    = SIMP(statut='f',typ='TXM',defaut="MOY",into=("INF","SUP","MOY"),),
+                       ANGLE          = SIMP(statut='f',typ='I',defaut=0),
+                       MODE_FOURIER   = SIMP(statut='f',typ='I',defaut=0),
+                       CHAM_GD        = SIMP(statut='f',typ=(cham_no_sdaster,cham_elem) ),
+                       RESULTAT       = SIMP(statut='f',typ=(mode_meca,evol_elas,evol_ther,evol_noli,dyna_trans) ),
+                       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',),),
+                       TOUT_ORDRE     = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                       NUME_ORDRE     = SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+                       LIST_ORDRE     = SIMP(statut='f',typ=listis_sdaster),
+                       INST           = SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+                       LIST_INST      = SIMP(statut='f',typ=listr8_sdaster),
+                       FREQ           = SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+                       LIST_FREQ      = SIMP(statut='f',typ=listr8_sdaster),
+                       NUME_MODE      = SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+                       NOEUD_CMP      = SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+                       NOM_CAS        = SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+         ),
+
+         ENER_ELAS      = FACT(statut='f',max='**',
+                               regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),),
+                               TOUT         = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                               MAILLE       = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA     = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                              ),
+         b_ener_elas = BLOC(condition = "( ENER_ELAS != None )",
+                       fr="calcul de l'énergie de déformation élastique",
+                       MODELE         = SIMP(statut='f',typ=modele_sdaster),
+                       CHAM_MATER     = SIMP(statut='f',typ=cham_mater),
+                       CARA_ELEM      = SIMP(statut='f',typ=cara_elem),
+                       CHARGE         = SIMP(statut='f',typ=(char_meca,char_cine_meca,
+                       char_ther,char_acou),validators=NoRepeat(),max='**' ),
+                       NUME_COUCHE    = SIMP(statut='f',typ='I',defaut=1),
+                       NIVE_COUCHE    = SIMP(statut='f',typ='TXM',defaut="MOY",into=("INF","SUP","MOY"),),
+                       MODE_FOURIER   = SIMP(statut='f',typ='I',defaut=0),
+                       RESULTAT       = SIMP(statut='o',typ=(evol_noli) ),
+                       regles=(EXCLUS('TOUT_ORDRE','NUME_ORDRE','LIST_ORDRE','INST','LIST_INST'),),
+                       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',),),
+                       TOUT_ORDRE     = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                       NUME_ORDRE     = SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+                       LIST_ORDRE     = SIMP(statut='f',typ=listis_sdaster),
+                       INST           = SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+                       LIST_INST      = SIMP(statut='f',typ=listr8_sdaster),
+         ),
+
+         ENER_TOTALE    = FACT(statut='f',max='**',
+                               regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),),
+                               TOUT         = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                               MAILLE       = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA     = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                              ),
+         b_ener_totale = BLOC(condition = "( ENER_TOTALE != None )",
+                       fr="calcul de l'énergie de déformation totale",
+                       MODELE         = SIMP(statut='f',typ=modele_sdaster),
+                       CHAM_MATER     = SIMP(statut='f',typ=cham_mater),
+                       CARA_ELEM      = SIMP(statut='f',typ=cara_elem),
+                       CHARGE         = SIMP(statut='f',typ=(char_meca,char_cine_meca,
+                       char_ther,char_acou),validators=NoRepeat(),max='**' ),
+                       NUME_COUCHE    = SIMP(statut='f',typ='I',defaut=1),
+                       NIVE_COUCHE    = SIMP(statut='f',typ='TXM',defaut="MOY",into=("INF","SUP","MOY"),),
+                       MODE_FOURIER   = SIMP(statut='f',typ='I',defaut=0),
+                       RESULTAT       = SIMP(statut='o',typ=(evol_noli) ),
+                       regles=(EXCLUS('TOUT_ORDRE','NUME_ORDRE','LIST_ORDRE','INST','LIST_INST'),),
+                       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',),),
+                       TOUT_ORDRE     = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                       NUME_ORDRE     = SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+                       LIST_ORDRE     = SIMP(statut='f',typ=listis_sdaster),
+                       INST           = SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+                       LIST_INST      = SIMP(statut='f',typ=listr8_sdaster),
+         ),
+
+         INTEGRALE  = FACT(statut='f',max='**',
+                               regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),),
+                               TOUT         = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                               MAILLE       = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA     = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               NOM_CHAM     = SIMP(statut='o',typ='TXM',into=C_NOM_CHAM_INTO()),
+                               NOM_CMP      = SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**'),
+                               DEJA_INTEGRE = SIMP(statut='f',typ='TXM',into=("OUI","NON",),),
+                              ),
+         b_integrale = BLOC(condition = "( INTEGRALE != None )",
+                       fr="calcul de la moyenne d'une composante",
+                       regles=(EXCLUS('TOUT_ORDRE','NUME_ORDRE','LIST_ORDRE','INST','LIST_INST'),),
+                       MODELE         = SIMP(statut='f',typ=modele_sdaster),
+                       RESULTAT       = SIMP(statut='o',typ=(evol_noli,evol_ther,evol_elas,evol_char) ),
+                       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',),),
+                       TOUT_ORDRE     = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                       NUME_ORDRE     = SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+                       LIST_ORDRE     = SIMP(statut='f',typ=listis_sdaster),
+                       INST           = SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+                       LIST_INST      = SIMP(statut='f',typ=listr8_sdaster),
+         ),
+
+
+         MINMAX  = FACT(statut='f',max=1,
+                       fr="calcul des extrema en espace d'une CMP d'un champ, pour tous les instants spécifiés",
+                       regles=(UN_PARMI('CHAM_GD','RESULTAT'),
+                               PRESENT_PRESENT('CHAM_GD','MODELE'),
+                               PRESENT_PRESENT('RESULTAT','NOM_CHAM'),
+                               AU_MOINS_UN('TOUT','GROUP_MA'),),
+                       TOUT         = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                       GROUP_MA     = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                       RESULTAT       = SIMP(statut='f',typ=(evol_noli,evol_ther,evol_elas) ),
+                       NOM_CHAM       = SIMP(statut='f',typ='TXM',into=C_NOM_CHAM_INTO()),
+                       CHAM_GD        = SIMP(statut='f',typ=(cham_no_sdaster,cham_elem) ),
+                       MODELE         = SIMP(statut='f',typ=modele_sdaster),
+                       NOM_CMP        = SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**'),
+              b_minmax = BLOC(condition = "( RESULTAT != None )",
+                       regles=(EXCLUS('TOUT_ORDRE','NUME_ORDRE','LIST_ORDRE','INST','LIST_INST'),),
+                              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',),),
+                              TOUT_ORDRE     = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                              NUME_ORDRE     = SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+                              LIST_ORDRE     = SIMP(statut='f',typ=listis_sdaster),
+                              INST           = SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+                              LIST_INST      = SIMP(statut='f',typ=listr8_sdaster),
+                              ),
+         ),
+
+         WEIBULL        = FACT(statut='f',max='**',
+                               regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),),
+                               TOUT         = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                               MAILLE       = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA     = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               OPTION       = SIMP(statut='f',typ='TXM',
+                                                   into=("SIGM_ELGA","SIGM_ELMOY"),
+                                                   defaut="SIGM_ELGA"),
+                               CORR_PLAST   = SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")),
+                               COEF_MULT    = SIMP(statut='f',typ='R',defaut=1.),
+                              ),
+         b_weibull = BLOC(condition = "( WEIBULL != None )",
+                       fr="calcul du champ élémentaire de la puissance m-ième de la contrainte de Weibull",
+                       regles=(UN_PARMI('CHAM_GD','RESULTAT'),
+                               EXCLUS('TOUT_ORDRE','NUME_ORDRE','LIST_ORDRE','INST','LIST_INST'),),
+                       MODELE         = SIMP(statut='f',typ=modele_sdaster),
+                       CHAM_MATER     = SIMP(statut='f',typ=cham_mater),
+                       CARA_ELEM      = SIMP(statut='f',typ=cara_elem),
+                       CHARGE         = SIMP(statut='f',typ=(char_meca,char_cine_meca,
+                       char_ther,char_acou),validators=NoRepeat(),max='**' ),
+                       NUME_COUCHE    = SIMP(statut='f',typ='I',defaut=1),
+                       NIVE_COUCHE    = SIMP(statut='f',typ='TXM',defaut="MOY",into=("INF","SUP","MOY"),),
+                       MODE_FOURIER   = SIMP(statut='f',typ='I',defaut=0),
+                       CHAM_GD        = SIMP(statut='f',typ=(cham_no_sdaster,cham_elem) ),
+                       RESULTAT       = SIMP(statut='f',typ=(evol_noli) ),
+                       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',),),
+                       TOUT_ORDRE     = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                       NUME_ORDRE     = SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+                       LIST_ORDRE     = SIMP(statut='f',typ=listis_sdaster),
+                       INST           = SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+                       LIST_INST      = SIMP(statut='f',typ=listr8_sdaster),
+         ),
+
+         RICE_TRACEY    = FACT(statut='f',max='**',
+                               regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),),
+                               TOUT         = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                               MAILLE       = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA     = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               OPTION       = SIMP(statut='f',typ='TXM',
+                                                   into=("SIGM_ELGA","SIGM_ELMOY"),
+                                                   defaut="SIGM_ELGA"),
+                               LOCAL        = SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+                              ),
+         b_rice_tracey = BLOC(condition = "( RICE_TRACEY != None )",
+                       fr="calcul du taux de croissance d'une cavité sphérique par rapport à un domaine",
+                       regles=(UN_PARMI('CHAM_GD','RESULTAT'),
+                               EXCLUS('TOUT_ORDRE','NUME_ORDRE','LIST_ORDRE','INST','LIST_INST'),),
+                       MODELE         = SIMP(statut='f',typ=modele_sdaster),
+                       CHAM_MATER     = SIMP(statut='f',typ=cham_mater),
+                       CARA_ELEM      = SIMP(statut='f',typ=cara_elem),
+                       CHARGE         = SIMP(statut='f',typ=(char_meca,char_cine_meca,
+                       char_ther,char_acou),validators=NoRepeat(),max='**' ),
+                       NUME_COUCHE    = SIMP(statut='f',typ='I',defaut=1),
+                       NIVE_COUCHE    = SIMP(statut='f',typ='TXM',defaut="MOY",into=("INF","SUP","MOY"),),
+                       MODE_FOURIER   = SIMP(statut='f',typ='I',defaut=0),
+                       CHAM_GD        = SIMP(statut='f',typ=(cham_no_sdaster,cham_elem) ),
+                       RESULTAT       = SIMP(statut='f',typ=(evol_noli) ),
+                       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',),),
+                       TOUT_ORDRE     = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                       NUME_ORDRE     = SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+                       LIST_ORDRE     = SIMP(statut='f',typ=listis_sdaster),
+                       INST           = SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+                       LIST_INST      = SIMP(statut='f',typ=listr8_sdaster),
+         ),
+
+         INDIC_ENER     = FACT(statut='f',max='**',
+                               regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),),
+                               TOUT         = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                               MAILLE       = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA     = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                              ),
+         b_indic_ener = BLOC(condition = "( INDIC_ENER != None )",
+                       fr="calcul un indicateur global de perte de proportionnalité du chargement",
+                       MODELE         = SIMP(statut='f',typ=modele_sdaster),
+                       CHAM_MATER     = SIMP(statut='f',typ=cham_mater),
+                       CHARGE         = SIMP(statut='f',typ=(char_meca,char_cine_meca,
+                       char_ther,char_acou),validators=NoRepeat(),max='**' ),
+                       MODE_FOURIER   = SIMP(statut='f',typ='I',defaut=0),
+                       RESULTAT       = SIMP(statut='o',typ=(evol_noli) ),
+                       regles=(EXCLUS('TOUT_ORDRE','NUME_ORDRE','LIST_ORDRE','INST','LIST_INST'),),
+                       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',),),
+                       TOUT_ORDRE     = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                       NUME_ORDRE     = SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+                       LIST_ORDRE     = SIMP(statut='f',typ=listis_sdaster),
+                       INST           = SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+                       LIST_INST      = SIMP(statut='f',typ=listr8_sdaster),
+         ),
+
+         INDIC_SEUIL    = FACT(statut='f',max='**',
+                               regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),),
+                               TOUT         = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                               MAILLE       = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA     = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                              ),
+         b_indic_seuil = BLOC(condition = "( INDIC_SEUIL != None )",
+                       fr="calcul un indicateur global de perte de proportionnalité du chargement",
+                       MODELE         = SIMP(statut='f',typ=modele_sdaster),
+                       CHAM_MATER     = SIMP(statut='f',typ=cham_mater),
+                       CHARGE         = SIMP(statut='f',typ=(char_meca,char_cine_meca,
+                       char_ther,char_acou),validators=NoRepeat(),max='**' ),
+                       MODE_FOURIER   = SIMP(statut='f',typ='I',defaut=0),
+                       RESULTAT       = SIMP(statut='o',typ=(evol_noli) ),
+                       regles=(EXCLUS('TOUT_ORDRE','NUME_ORDRE','LIST_ORDRE','INST','LIST_INST'),),
+                       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',),),
+                       TOUT_ORDRE     = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                       NUME_ORDRE     = SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+                       LIST_ORDRE     = SIMP(statut='f',typ=listis_sdaster),
+                       INST           = SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+                       LIST_INST      = SIMP(statut='f',typ=listr8_sdaster),
+         ),
+
+         CHAR_LIMITE    = FACT(statut='f',min=0,
+                               CHAR_CSTE = SIMP(statut='f',typ='TXM',into=("OUI","NON"),defaut="NON")
+                              ),
+         b_char_limite = BLOC(condition = "( CHAR_LIMITE != None )",
+                       fr="post-traitement du calcul de la charge limite",
+                       MODELE         = SIMP(statut='f',typ=modele_sdaster),
+                       CHAM_MATER     = SIMP(statut='f',typ=cham_mater),
+                       CARA_ELEM      = SIMP(statut='f',typ=cara_elem),
+                       CHARGE         = SIMP(statut='f',typ=(char_meca,char_cine_meca,
+                       char_ther,char_acou),validators=NoRepeat(),max='**' ),
+                       MODE_FOURIER   = SIMP(statut='f',typ='I',defaut=0),
+                       RESULTAT       = SIMP(statut='o',typ=(evol_noli) ),
+                       regles=(EXCLUS('TOUT_ORDRE','NUME_ORDRE','LIST_ORDRE','INST','LIST_INST'),),
+                       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',),),
+                       TOUT_ORDRE     = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                       NUME_ORDRE     = SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+                       LIST_ORDRE     = SIMP(statut='f',typ=listis_sdaster),
+                       INST           = SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+                       LIST_INST      = SIMP(statut='f',typ=listr8_sdaster),
+         ),
+
+         CARA_GEOM      = FACT(statut='f',max='**',
+                               regles=(AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),),
+                               TOUT         = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                               MAILLE       = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+                               GROUP_MA     = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               SYME_X       = SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+                               SYME_Y       = SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+                               ORIG_INER    = SIMP(statut='f',typ='R',min=2,max=2),
+                              ),
+         b_cara_geom = BLOC(condition = "( CARA_GEOM != None )",
+                       fr="calcul des caractéristiques géométriques d'un section de poutre",
+                       MODELE         = SIMP(statut='f',typ=modele_sdaster),
+                       CHAM_MATER     = SIMP(statut='f',typ=cham_mater),
+                       CHARGE         = SIMP(statut='f',typ=(char_meca,char_cine_meca,
+                       char_ther,char_acou),validators=NoRepeat(),max='**' ),
+                       MODE_FOURIER   = SIMP(statut='f',typ='I',defaut=0),
+         ),
+
+         CARA_POUTRE    = FACT(statut='f',max='**',
+                               regles=(AU_MOINS_UN('TOUT','GROUP_MA'),
+                                       ENSEMBLE('LONGUEUR','LIAISON','MATERIAU'),),
+                               TOUT          = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                               GROUP_MA      = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               GROUP_MA_INTE = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+                               CARA_GEOM     = SIMP(statut='o',typ=table_sdaster),
+                               RT            = SIMP(statut='f',typ='R'),
+                               LAPL_PHI      = SIMP(statut='f',typ=evol_ther),
+                               LAPL_PHI_Y    = SIMP(statut='f',typ=evol_ther),
+                               LAPL_PHI_Z    = SIMP(statut='f',typ=evol_ther),
+                               LIAISON       = SIMP(statut='f',typ='TXM',into=("ROTULE","ENCASTREMENT")),
+                               LONGUEUR      = SIMP(statut='f',typ='R'),
+                               MATERIAU      = SIMP(statut='f',typ=mater_sdaster),
+                               OPTION        = SIMP(statut='f',typ='TXM',
+                                                    into=("CARA_TORSION","CARA_CISAILLEMENT","CARA_GAUCHI") ),
+                             ),
+         b_cara_poutre = BLOC(condition = "( CARA_POUTRE != None )",
+                       fr="calcul des caractéristiques mécaniques d'un section de poutre",
+                       MODELE         = SIMP(statut='f',typ=modele_sdaster),
+                       CHAM_MATER     = SIMP(statut='f',typ=cham_mater),
+                       CHARGE         = SIMP(statut='f',typ=(char_meca,char_cine_meca,
+                       char_ther,char_acou),validators=NoRepeat(),max='**' ),
+                       MODE_FOURIER   = SIMP(statut='f',typ='I',defaut=0),
+         ),
+
+          AIRE_INTERNE   = FACT(statut='f',max='**',
+                                GROUP_MA_BORD  = SIMP(statut='o',typ=grma,validators=NoRepeat(),max='**'),
+                               ),
+         b_aire_interne = BLOC(condition = "( AIRE_INTERNE != None )",
+                       fr="calcul de l'aire d'un trou dans un maillage 2D",
+                       MODELE         = SIMP(statut='f',typ=modele_sdaster),
+         ),
+
+         TRAV_EXT       = FACT(statut='f',),
+         b_trav_ext = BLOC(condition = "( TRAV_EXT != None )",
+                       fr="calcul du travail des efforts extérieurs",
+                       RESULTAT       = SIMP(statut='o',typ=(evol_elas,evol_noli,dyna_trans) ),
+                       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',),),
+                       TOUT_ORDRE     = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+         ),
+
+         TITRE           =SIMP(statut='f',typ='TXM',max='**' ),
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+
+ )  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 ZENTNER I.ZENTNER
+POST_FATI_ALEA=OPER(nom="POST_FATI_ALEA",op=170,sd_prod=table_sdaster,reentrant='n',
+            UIinfo={"groupes":("Post traitements",)},
+                    fr="Calculer le dommage de fatigue subi par une structure soumise à une sollicitation de type aléatoire",
+         regles=(ENSEMBLE('MOMENT_SPEC_0','MOMENT_SPEC_2'),
+                 PRESENT_PRESENT( 'MOMENT_SPEC_4','MOMENT_SPEC_0'),
+                 UN_PARMI('TABL_POST_ALEA','MOMENT_SPEC_0'), ),
+         MOMENT_SPEC_0   =SIMP(statut='f',typ='R'),  
+         MOMENT_SPEC_2   =SIMP(statut='f',typ='R'),  
+         MOMENT_SPEC_4   =SIMP(statut='f',typ='R'),  
+         TABL_POST_ALEA  =SIMP(statut='f',typ=table_sdaster),
+         COMPTAGE        =SIMP(statut='o',typ='TXM',into=("PIC","NIVEAU")),
+         DUREE           =SIMP(statut='f',typ='R',defaut= 1.),  
+         CORR_KE         =SIMP(statut='f',typ='TXM',into=("RCCM",)),
+         DOMMAGE         =SIMP(statut='o',typ='TXM',into=("WOHLER",)),
+         MATER           =SIMP(statut='o',typ=mater_sdaster),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),  
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.
+#
+# 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 ANGLES J.ANGLES
+POST_FATIGUE=OPER(nom="POST_FATIGUE",op=136,sd_prod=table_sdaster,reentrant='n',
+            UIinfo={"groupes":("Post traitements",)},
+                  fr="Calculer en un point, le dommage de fatigue subi par une structure soumise à une histoire de chargement",
+
+         CHARGEMENT = SIMP(statut='o',typ='TXM',into=("UNIAXIAL","PERIODIQUE","QUELCONQUE")),
+
+         b_uniaxial = BLOC( condition = "CHARGEMENT=='UNIAXIAL'",
+                      regles=(PRESENT_PRESENT('CORR_KE','MATER'),
+                              PRESENT_PRESENT('CORR_SIGM_MOYE','MATER'),
+                              PRESENT_PRESENT('DOMMAGE','MATER'),),
+             HISTOIRE       = FACT(statut='o',
+                                 regles=(UN_PARMI('SIGM','EPSI'),),
+                                 SIGM  = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                 EPSI  = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),),
+             COMPTAGE       = SIMP(statut='o',typ='TXM',into=("RAINFLOW","RCCM","NATUREL")),
+             DELTA_OSCI     = SIMP(statut='f',typ='R',defaut= 0.0E+0),
+             COEF_MULT      = FACT(statut='f',
+                                 KT    = SIMP(statut='o',typ='R'),),
+             CORR_KE        = SIMP(statut='f',typ='TXM',into=("RCCM",)),
+             DOMMAGE        = SIMP(statut='f',typ='TXM',into=("WOHLER","MANSON_COFFIN",
+                                                              "TAHERI_MANSON","TAHERI_MIXTE")),
+             MATER          = SIMP(statut='f',typ=mater_sdaster),
+             CORR_SIGM_MOYE = SIMP(statut='f',typ='TXM',into=("GOODMAN","GERBER")),
+             TAHERI_NAPPE   = SIMP(statut='f',typ=(nappe_sdaster,formule)),
+             TAHERI_FONC    = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+             CUMUL          = SIMP(statut='f',typ='TXM',into=("LINEAIRE",)),
+         ),
+
+         b_periodique = BLOC( condition = "CHARGEMENT=='PERIODIQUE'",
+             HISTOIRE       = FACT(statut='o',
+                                 SIGM_XX  = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                 SIGM_YY  = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                 SIGM_ZZ  = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                 SIGM_XY  = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                 SIGM_XZ  = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                 SIGM_YZ  = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),),
+             CRITERE        = SIMP(statut='o',typ='TXM',into=("CROSSLAND","PAPADOPOULOS")),
+             DOMMAGE        = SIMP(statut='f',typ='TXM',into=("WOHLER",)),
+             MATER          = SIMP(statut='o',typ=mater_sdaster),
+             COEF_CORR      = SIMP(statut='f',typ='R'),
+         ),
+
+         b_quelconque = BLOC( condition = "CHARGEMENT=='QUELCONQUE'",
+             HISTOIRE       = FACT(statut='o',
+                                 SIGM_XX  = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                 SIGM_YY  = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                 SIGM_ZZ  = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                 SIGM_XY  = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                 SIGM_XZ  = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                 SIGM_YZ  = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                 EPSP     = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),
+                                 TEMP     = SIMP(statut='o',typ=(fonction_sdaster,nappe_sdaster,formule)),),
+             DOMMAGE        = SIMP(statut='f',typ='TXM',into=("LEMAITRE",),),
+             MATER          = SIMP(statut='o',typ=mater_sdaster),
+             CUMUL          = SIMP(statut='f',typ='TXM',into=("LINEAIRE",)),
+         ),
+
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2006  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.        
+# ======================================================================
+# RESPONSABLE WADIER Y.WADIER
+
+from Macro.post_gp_ops import post_gp_ops
+def post_gp_prod(self, TABL_RESU, **kargs):
+   """Typage des sd_prod
+   """
+   if TABL_RESU != None:
+      self.type_sdprod(TABL_RESU, table_sdaster)
+   return table_sdaster
+
+POST_GP=MACRO(nom="POST_GP", op=post_gp_ops, sd_prod=post_gp_prod,
+              fr="Calcul du critère énergétique Gp suite à un calcul thermo-mécanique",
+              reentrant='n',
+              UIinfo={"groupes":("Post traitements",)},
+              regles=(UN_PARMI('IDENTIFICATION', 'PREDICTION'),
+                      UN_PARMI('THETA_2D','THETA_3D'),
+                      UN_PARMI('PAS_ENTAILLE','LIST_EP_COPEAUX'),
+                      PRESENT_PRESENT('THETA_2D','DIRECTION'),),
+      
+      # Résultat, modèle, comportement, chargement
+      RESULTAT     = SIMP(statut='o',typ=(evol_elas,evol_noli,dyna_trans,mode_meca),),
+      RESU_THER    = SIMP(statut='f',typ=evol_ther,),
+      MODELE       = SIMP(statut='o',typ=modele_sdaster),
+      MATER        = SIMP(statut='o',typ=mater_sdaster),
+      
+      COMP_ELAS    = FACT(statut='o',
+            RELATION    = SIMP(statut='f',typ='TXM',defaut="ELAS",
+                            into=("ELAS","ELAS_VMIS_LINE","ELAS_VMIS_TRAC"),),
+            DEFORMATION = SIMP(statut='f',typ='TXM',defaut="PETIT",into=("PETIT","GREEN"),),
+      ),
+      
+      EXCIT        = FACT(statut='f', max='**',
+            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", into=("FIXE",)),
+      ),
+      SYME_CHAR    = SIMP(statut='f',typ='TXM',defaut="SANS",into=("SYME","ANTI","SANS")),
+      
+      DIRECTION    = SIMP(statut='f', typ='R', max=3),
+
+      THETA_2D     = FACT(statut='f', max='**',
+                          fr="paramètres de définition des champs theta",
+            GROUP_NO    = SIMP(statut='o', typ=grno, validators=NoRepeat(), max='**'),
+            R_INF       = SIMP(statut='o', typ='R'),
+            R_SUP       = SIMP(statut='o', typ='R'),
+      ),
+
+
+      THETA_3D        =FACT(statut='f',max='**',
+            GROUP_MA        =SIMP(statut='o',typ=grma,validators=NoRepeat(),max='**'),
+            R_INF           =SIMP(statut='o',typ='R'),
+            R_SUP           =SIMP(statut='o',typ='R'),
+                         ),
+         b_theta_3d     =BLOC(condition="THETA_3D != None",
+            LISSAGE         =FACT(statut='d',
+                DEGRE            =SIMP(statut='f',typ='I',defaut=5,into=(0,1,2,3,4,5,6,7) ),
+                LISSAGE_THETA    =SIMP(statut='f',typ='TXM',defaut="LEGENDRE",
+                                  into=("LEGENDRE","LAGRANGE","LAGRANGE_REGU"),),
+                LISSAGE_G        =SIMP(statut='f',typ='TXM',defaut="LEGENDRE",
+                                  into=("LEGENDRE","LAGRANGE","LAGRANGE_NO_NO","LAGRANGE_REGU"),),
+                             ),
+    
+            FOND_FISS       =SIMP(statut='o',typ=fond_fiss,max=1,),
+            NB_TRANCHES     =SIMP(statut='o',typ='I',max=1,
+                            fr="nombre de tranches: nombre de segments maillant le fond de fissure",),
+                         ),
+
+      # prise en compte de la traction compression
+      TRAC_COMP    = SIMP(statut='f',typ='TXM',into=("OUI",),
+                          fr="prise en compte de la traction-compression (plus lent)",
+                         ),
+
+      # copeaux
+      GROUP_MA        = SIMP(statut='o', typ=grma, validators=NoRepeat(), max='**'),
+      PAS_ENTAILLE    = SIMP(statut='f', typ='R', val_min=0.),
+      LIST_EP_COPEAUX = SIMP(statut='f', typ='R', max='**'),
+      
+      # critère sur Gp
+      CRIT_MAXI_GP = SIMP(statut='f', typ='TXM', defaut="ABSOLU",
+                          into=("RELATIF","ABSOLU")),
+      
+      # correction axisymétrie
+      RAYON_AXIS   = SIMP(statut='f', typ='R', val_min=0., defaut=1.),
+      
+      # identification
+      IDENTIFICATION = FACT(statut='f', max=1,
+            KJ_CRIT     = SIMP(statut='o', typ='R', val_min=0., max='**'),
+            TEMP        = SIMP(statut='o', typ='R', val_min=0., max='**'),
+      ),
+      
+      # prédiction
+      PREDICTION   = FACT(statut='f', max=1,
+            GP_CRIT     = SIMP(statut='o', typ='R', val_min=0., max='**'),
+            TEMP        = SIMP(statut='o', typ='R', val_min=0., max='**'),
+      ),
+      
+      # table résultat
+      TABL_RESU    = SIMP(statut='o', typ=CO,),
+      
+      INFO         = SIMP(statut='f', typ='I', defaut=1, into=(1, 2),),
+)
+#& MODIF COMMANDE  DATE 20/10/2008   AUTEUR GALENNE E.GALENNE 
+#            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.                                 
+#
+# 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 GALENNE E.GALENNE
+from Macro.post_k1_k2_k3_ops import post_k1_k2_k3_ops
+POST_K1_K2_K3=MACRO(nom="POST_K1_K2_K3",op=post_k1_k2_k3_ops,sd_prod=table_sdaster,
+                   fr="Calcul des facteurs d'intensité de contraintes en 2D et en 3D par extrapolation des sauts de déplacements"
+                     +" sur les lèvres de la fissure",
+                   reentrant='n',
+            UIinfo={"groupes":("Post traitements",)},
+
+           regles=(UN_PARMI('RESULTAT','TABL_DEPL_SUP'),
+                  EXCLUS('FISSURE','FOND_FISS'),
+                  PRESENT_PRESENT('FISSURE','RESULTAT'),
+                  PRESENT_PRESENT('FOND_FISS','VECT_K1'),
+                  PRESENT_PRESENT('TABL_DEPL_SUP','VECT_K1'),
+                   #PRESENT_PRESENT('RESULTAT','FOND_FISS'),
+                   ),
+
+         MODELISATION  =SIMP(statut='o',typ='TXM',
+                             into=("3D","AXIS","D_PLAN","C_PLAN"),
+                             fr="Modélisation cohérente avec celle utilisée pour le calcul des déplacements"),
+         FOND_FISS     =SIMP(statut='f',typ=fond_fiss),
+         FISSURE     =SIMP(statut='f',typ=fiss_xfem),
+         b_fond_fiss   =BLOC (condition="(FOND_FISS!= None)",
+                         MAILLAGE      = SIMP(statut='o',typ=maillage_sdaster),
+                         TYPE_MAILLAGE = SIMP(statut='f',typ='TXM',into=("LIBRE","REGLE"),defaut="REGLE"),
+                         NB_NOEUD_COUPE= SIMP(statut='f',typ='I'),
+                         NOEUD         = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                         GROUP_NO      = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                         SANS_NOEUD    = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+                         SANS_GROUP_NO = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+                         TOUT          = SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                         EVOL_THER     = SIMP(statut='f',typ=(evol_ther),fr="Température sur le fond de fissure")
+                         ),
+         b_fissure   =BLOC (condition="(FISSURE!= None)",
+                         MAILLAGE       = SIMP(statut='o',typ=maillage_sdaster),
+                         NB_NOEUD_COUPE = SIMP(statut='f',typ='I' ,defaut=5 ),
+                         NB_POINT_FOND  = SIMP(statut='f',typ='I' ,),
+                         NUME_FOND      = SIMP(statut='f',typ='I',defaut=1),
+                         DTAN_ORIG      = SIMP(statut='f',typ='R',max='**'),
+                         DTAN_EXTR      = SIMP(statut='f',typ='R',max='**'),
+                         ),
+         MATER         =SIMP(statut='o',typ=mater_sdaster,
+                             fr="Matériau homogène et isotrope cohérent avec celui utilisé pour le calcul des déplacements"),
+         RESULTAT      =SIMP(statut='f',typ=(evol_elas,evol_noli),
+                             fr="Déplacement des noeuds de la lèvre supérieure et inférieure"),
+         TABL_DEPL_SUP =SIMP(statut='f',typ=table_sdaster,
+                             fr="Table issue de post_releve_t sur les noeuds de la lèvre supérieure"),
+         TABL_DEPL_INF =SIMP(statut='f',typ=table_sdaster,
+                             fr="Table issue de post_releve_t sur les noeuds de la lèvre inférieure"),
+         ABSC_CURV_MAXI=SIMP(statut='o',typ='R',
+                             fr="Distance maximum à partir du fond de fissure à utiliser pour le calcul"),  
+         PREC_VIS_A_VIS= SIMP(statut='f',typ='R',defaut=0.1),
+         TOUT_ORDRE    =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+         NUME_ORDRE    =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+         LIST_ORDRE    =SIMP(statut='f',typ=listis_sdaster),
+         INST          =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+         LIST_INST     =SIMP(statut='f',typ=listr8_sdaster),
+             b_acce_reel     =BLOC(condition="(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',),),
+             ),
+         SYME_CHAR       =SIMP(statut='f',typ='TXM',defaut="SANS",into=("SYME","SANS") ),
+         INFO          =SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+         VECT_K1       =SIMP(statut='f',typ='R',max=3,min=3,
+                             fr="Vecteur normal au plan de fissure, orienté de la lèvre inférieure vers la lèvre supérieure"),  
+         TITRE         =SIMP(statut='f',typ='TXM',max='**'),  
+)  ;
+#& MODIF COMMANDE  DATE 03/06/2008   AUTEUR DURAND C.DURAND 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2002  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.      
+# ======================================================================
+# RESPONSABLE C.MESSELIER-GOUZE
+#
+POST_K_BETA=OPER(nom="POST_K_BETA",op=198,sd_prod=table_sdaster,
+                   fr="Calcul des facteurs d'intensité de contraintes par la méthode K_BETA",
+                   reentrant='n',
+            UIinfo={"groupes":("Post traitements",)},
+         MAILLAGE      = SIMP(statut='o',typ=maillage_sdaster),
+         MATER_REV     = SIMP(statut='o',typ=mater_sdaster),
+         EPAIS_REV     = SIMP(statut='o',typ='R'),
+         FISSURE       = FACT(statut='o',
+            DECALAGE       = SIMP(statut='f',typ='R',defaut=-2.e-04),
+            PROFONDEUR     = SIMP(statut='o',typ='R'),
+            LONGUEUR       = SIMP(statut='o',typ='R'),
+            ORIENTATION    = SIMP(statut='o',typ='TXM',
+                                 into=("CIRC","LONGI"),),
+         ),
+         K1D           = FACT(statut='o',max='**',
+            TABL_MECA_REV  = SIMP(statut='o',typ=(table_sdaster)),
+            TABL_MECA_MDB  = SIMP(statut='o',typ=(table_sdaster)),
+            TABL_THER      = SIMP(statut='o',typ=(table_sdaster)),
+            INTITULE       = SIMP(statut='o',typ='TXM' ), 
+         ),
+         TITRE         = SIMP(statut='f',typ='TXM',max='**'),  
+);
+#& MODIF COMMANDE  DATE 30/09/2008   AUTEUR REZETTE C.REZETTE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2006  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.        
+# ======================================================================
+# RESPONSABLE GALENNE E.GALENNE
+
+from Macro.post_k_trans_ops import post_k_trans_ops
+
+POST_K_TRANS=MACRO(nom="POST_K_TRANS",op=post_k_trans_ops,sd_prod=table_sdaster,
+            fr="Calcul des facteurs d intensite des contrainte par recombinaison modale",reentrant='n',
+            UIinfo={"groupes":("Post traitements",)},
+        RESU_TRANS      =SIMP(statut='o',typ=tran_gene), 
+        K_MODAL         =FACT(statut='o',
+           TABL_K_MODA     =SIMP(statut='f',typ=table_sdaster,),
+           RESU_MODA       =SIMP(statut='f',typ=mode_meca,),
+           FOND_FISS       =SIMP(statut='f',typ=fond_fiss,),
+           FISSURE         =SIMP(statut='f',typ=fiss_xfem,),
+           THETA           =SIMP(statut='f',typ=(theta_geom,cham_no_sdaster)),
+           R_INF           =SIMP(statut='f',typ='R'),
+           R_SUP           =SIMP(statut='f',typ='R'),
+           MODULE          =SIMP(statut='f',typ='R'),
+           DIRE_THETA      =SIMP(statut='f',typ=cham_no_sdaster ),
+           DIRECTION       =SIMP(statut='f',typ='R',max='**'),
+           R_INF_FO        =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+           R_SUP_FO        =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),             
+           MODULE_FO       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+           DEGRE           =SIMP(statut='f',typ='I',into=(0,1,2,3,4,5,6,7) ),
+           LISSAGE_THETA   =SIMP(statut='f',typ='TXM',into=("LEGENDRE","LAGRANGE","LAGRANGE_REGU"),),
+           LISSAGE_G       =SIMP(statut='f',typ='TXM',into=("LEGENDRE","LAGRANGE","LAGRANGE_NO_NO","LAGRANGE_REGU"),),
+
+
+           regles=(UN_PARMI('TABL_K_MODA','RESU_MODA'),
+                   UN_PARMI('FISSURE','FOND_FISS'),
+                   EXCLUS('MODULE','MODULE_FO'),
+                   PRESENT_PRESENT('R_INF','R_SUP'),
+                   PRESENT_PRESENT('R_INF_FO','R_SUP_FO'), ),
+         ),
+        regles=(EXCLUS('TOUT_ORDRE','NUME_ORDRE','INST','LIST_INST','LIST_ORDRE'),),
+        TOUT_ORDRE      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+        NUME_ORDRE      =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+        LIST_ORDRE      =SIMP(statut='f',typ=listis_sdaster),
+        INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+        LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+        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'),),
+        INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+        TITRE           =SIMP(statut='f',typ='TXM'),
+)
+
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.        
+# ======================================================================
+# RESPONSABLE GENIAUT S.GENIAUT
+POST_MAIL_XFEM=OPER(nom="POST_MAIL_XFEM",op= 187,sd_prod=maillage_sdaster,
+                    reentrant='n',UIinfo={"groupes":("Maillage",)},
+            fr="Crée un maillage se conformant à la fissure pour le post-traitement des éléments XFEM",
+    MODELE        = SIMP(statut='o',typ=modele_sdaster),
+    MAILLAGE_SAIN = SIMP(statut='o',typ=maillage_sdaster),
+    PREF_NOEUD_X   =SIMP(statut='f',typ='TXM',defaut="NX",validators=LongStr(1,2),),
+    PREF_NOEUD_M   =SIMP(statut='f',typ='TXM',defaut="NM",validators=LongStr(1,2),),
+    PREF_NOEUD_P   =SIMP(statut='f',typ='TXM',defaut="NP",validators=LongStr(1,2),),
+    PREF_MAILLE_X  =SIMP(statut='f',typ='TXM',defaut="MX",validators=LongStr(1,2),),
+    TITRE         = SIMP(statut='f',typ='TXM',max='**'),
+    INFO           =SIMP(statut='f',typ='I',defaut= 1,into=(1,2,) ),
+
+);                     
+#& 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
+# 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 PARTIC               
+#
+# 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 GALENNE E.GALENNE
+POST_RCCM=OPER(nom="POST_RCCM",op= 165,sd_prod=table_sdaster,
+               fr="Vérification des critères de niveau 0 et certains critères de niveau A du RCC-M-B3200 (Edition 1991)",
+               reentrant='n',
+            UIinfo={"groupes":("Post traitements",)},
+         TYPE_RESU       =SIMP(statut='f',typ='TXM',defaut="VALE_MAX",into=("VALE_MAX","DETAILS") ),
+         INFO            =SIMP(statut='f',typ='I',into=(1,2) ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         TYPE_RESU_MECA  =SIMP(statut='o',typ='TXM',into=("EVOLUTION","UNITAIRE","TUYAUTERIE") ),
+
+# ======================================================================
+     b_evolution  =BLOC(condition="(TYPE_RESU_MECA == 'EVOLUTION')",
+
+         OPTION          =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',
+                               into=("PM_PB","SN","FATIGUE_ZH210","AMORCAGE") ),
+         MATER           =SIMP(statut='o',typ=mater_sdaster ),
+         SY_MAX          =SIMP(statut='f',typ='R',
+                               fr="limite élastique utilisée pour le calcul du rochet thermique" ),
+
+         TRANSITOIRE     =FACT(statut='o',max='**',fr="transitoire à dépouiller",
+           regles=(EXCLUS('TOUT_ORDRE','INST','LIST_INST'),
+                   UN_PARMI('TABL_RESU_MECA','TABL_SIGM_THETA'),),
+           NB_OCCUR        =SIMP(statut='f',typ='I',defaut= 1,
+                                 fr="nombre d occurences réelles de ce transitoire" ),
+           TABL_RESU_MECA  =SIMP(statut='f',typ=table_sdaster,
+                                 fr="relevé des contraintes sur le chemin"),
+           TABL_SIGM_THER  =SIMP(statut='f',typ=table_sdaster,
+                                 fr="résultat sous chargement thermique seul" ),
+           TABL_RESU_PRES  =SIMP(statut='f',typ=table_sdaster,
+                                 fr="table relevé des contraintes sous chargement de pression" ),
+           TABL_SIGM_THETA =SIMP(statut='f',typ=table_sdaster,
+                                 fr="table relevé des contraintes a la distance d de la singularité pour chacun des angles THETA" ),
+           TOUT_ORDRE      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+           LIST_INST       =SIMP(statut='f',typ=listr8_sdaster ),
+           b_inst          =BLOC(condition = "(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',),),),
+           ),
+         ),
+
+# ======================================================================
+     b_unitaire  =BLOC(condition="(TYPE_RESU_MECA == 'UNITAIRE')",
+
+         OPTION          =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',
+                               into=("PM_PB","SN","FATIGUE") ),
+         MATER           =SIMP(statut='o',typ=mater_sdaster ),
+         SY_MAX          =SIMP(statut='f',typ='R',
+                               fr="limite élastique utilisée pourle calcul du rochet thermique" ),
+         TYPE_KE         =SIMP(statut='f',typ='TXM',defaut="KE_MECA",into=("KE_MECA","KE_MIXTE"),
+                               fr="Ke meca seul ou partition mecanique + thermique" ),
+         CHAR_MECA   =FACT(statut='o',max='**',fr="Chargements mécaniques",
+                           regles=(UN_PARMI('MX','MX_TUBU'),),
+           NUME_CHAR     =SIMP(statut='o',typ='I',fr="numéro du chargement" ),
+           NOM_CHAR      =SIMP(statut='f',typ='TXM',fr="nom du chargement" ),
+           MX            =SIMP(statut='f',typ='R',fr="moment suivant x", ),
+           MX_TUBU       =SIMP(statut='f',typ='R',fr="moment suivant x, tubulure", ),
+           b_1_tenseur     =BLOC( condition = "MX != None",
+             FX            =SIMP(statut='f',typ='R',fr="effort suivant x", ),
+             FY            =SIMP(statut='f',typ='R',fr="effort suivant y", ),
+             FZ            =SIMP(statut='f',typ='R',fr="effort suivant z", ),
+             MY            =SIMP(statut='o',typ='R',fr="moment suivant y", ),
+             MZ            =SIMP(statut='o',typ='R',fr="moment suivant z", ),
+           ),
+           b_2_tenseurs    =BLOC( condition = "MX_TUBU != None",
+             FX_TUBU       =SIMP(statut='f',typ='R',fr="effort suivant x, tubulure", ),
+             FY_TUBU       =SIMP(statut='f',typ='R',fr="effort suivant y, tubulure", ),
+             FZ_TUBU       =SIMP(statut='f',typ='R',fr="effort suivant z, tubulure", ),
+             MY_TUBU       =SIMP(statut='o',typ='R',fr="moment suivant y, tubulure", ),
+             MZ_TUBU       =SIMP(statut='o',typ='R',fr="moment suivant z, tubulure", ),
+             FX_CORP       =SIMP(statut='f',typ='R',fr="effort suivant x, corps du piquage", ),
+             FY_CORP       =SIMP(statut='f',typ='R',fr="effort suivant y, corps du piquage", ),
+             FZ_CORP       =SIMP(statut='f',typ='R',fr="effort suivant z, corps du piquage", ),
+             MX_CORP       =SIMP(statut='o',typ='R',fr="moment suivant x, corps du piquage", ),
+             MY_CORP       =SIMP(statut='o',typ='R',fr="moment suivant y, corps du piquage", ),
+             MZ_CORP       =SIMP(statut='o',typ='R',fr="moment suivant z, corps du piquage", ),
+           ),
+
+                         ),
+         RESU_MECA_UNIT =FACT(statut='o',fr="resultats mécaniques unitaires",
+                              regles=(UN_PARMI('TABL_MX','TABL_MX_TUBU'),),
+           TABL_MX       =SIMP(statut='f',typ=table_sdaster,
+                               fr="table relevé des contraintes pour chargement unitaire MX"),
+           TABL_MX_TUBU  =SIMP(statut='f',typ=table_sdaster,
+                               fr="table relevé des contraintes pour chargement unitaire MX_TUBU"),
+           b_1_tenseur     =BLOC( condition = "TABL_MX != None",
+             TABL_FX       =SIMP(statut='f',typ=table_sdaster,
+                                 fr="table relevé des contraintes pour chargement unitaire FX"),
+             TABL_FY       =SIMP(statut='f',typ=table_sdaster,
+                                 fr="table relevé des contraintes pour chargement unitaire FY"),
+             TABL_FZ       =SIMP(statut='f',typ=table_sdaster,
+                                 fr="table relevé des contraintes pour chargement unitaire FZ"),
+             TABL_MY       =SIMP(statut='o',typ=table_sdaster,
+                                 fr="table relevé des contraintes pour chargement unitaire MY"),
+             TABL_MZ       =SIMP(statut='o',typ=table_sdaster,
+                                 fr="table relevé des contraintes pour chargement unitaire MZ"),
+           ),
+           b_2_tenseurs    =BLOC( condition = "TABL_MX_TUBU != None",
+             TABL_FX_TUBU  =SIMP(statut='f',typ=table_sdaster,
+                                 fr="table relevé des contraintes pour chargement unitaire FX_TUBU"),
+             TABL_FY_TUBU  =SIMP(statut='f',typ=table_sdaster,
+                                 fr="table relevé des contraintes pour chargement unitaire FY_TUBU"),
+             TABL_FZ_TUBU  =SIMP(statut='f',typ=table_sdaster,
+                                 fr="table relevé des contraintes pour chargement unitaire FZ_TUBU"),
+             TABL_MY_TUBU  =SIMP(statut='o',typ=table_sdaster,
+                                 fr="table relevé des contraintes pour chargement unitaire MY_TUBU"),
+             TABL_MZ_TUBU  =SIMP(statut='o',typ=table_sdaster,
+                                 fr="table relevé des contraintes pour chargement unitaire MZ_TUBU"),
+             TABL_FX_CORP  =SIMP(statut='f',typ=table_sdaster,
+                                 fr="table relevé des contraintes pour chargement unitaire FX_CORP"),
+             TABL_FY_CORP  =SIMP(statut='f',typ=table_sdaster,
+                                 fr="table relevé des contraintes pour chargement unitaire FY_CORP"),
+             TABL_FZ_CORP  =SIMP(statut='f',typ=table_sdaster,
+                                 fr="table relevé des contraintes pour chargement unitaire FZ_CORP"),
+             TABL_MX_CORP  =SIMP(statut='o',typ=table_sdaster,
+                                 fr="table relevé des contraintes pour chargement unitaire MX_CORP"),
+             TABL_MY_CORP  =SIMP(statut='o',typ=table_sdaster,
+                                 fr="table relevé des contraintes pour chargement unitaire MY_CORP"),
+             TABL_MZ_CORP  =SIMP(statut='o',typ=table_sdaster,
+                                 fr="table relevé des contraintes pour chargement unitaire MZ_CORP"),
+           ),
+           TABL_PRES     =SIMP(statut='o',typ=table_sdaster,
+                               fr="table relevé des contraintes pour chargement unitaire de pression"),
+                         ),
+
+          RESU_THER   =FACT(statut='f',max='**',fr="resultats thermiques",
+           NUME_RESU_THER =SIMP(statut='o',typ='I',fr="numéro de la table de résultat thermique" ),
+           TABL_RESU_THER =SIMP(statut='o',typ=table_sdaster,
+                              fr="table relevé des contraintes sous chargement thermique seul" ),
+                           ),
+         SEISME         =FACT(statut='f',max='**',fr="Situation séisme",ang="situation_ang",
+              NB_OCCUR         =SIMP(statut='o',typ='I',fr="nombre d'occurences de la situation" ),
+              NB_CYCL_SEISME   =SIMP(statut='o',typ='I',fr="nombre de cycles associé au séisme" ),
+              NUME_SITU        =SIMP(statut='o',typ='I',fr="numéro de la situation" ),
+              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" ),
+                               ),
+         SITUATION         =FACT(statut='o',max='**',fr="Situation",ang="situation_ang",
+              NB_OCCUR         =SIMP(statut='o',typ='I',fr="nombre d'occurences de la situation" ),
+              NUME_SITU        =SIMP(statut='o',typ='I',fr="numéro de la situation" ),
+              NOM_SITU         =SIMP(statut='f',typ='TXM',fr="nom de la situation" ),
+              COMBINABLE       =SIMP(statut='f',typ='TXM',defaut= "OUI",into=("OUI","NON"),fr="non = sous-cycle" ),
+              NUME_GROUPE      =SIMP(statut='f',typ='I',
+                                     fr="numéros des groupes de la situation" ),
+              NUME_PASSAGE     =SIMP(statut='f',typ='I',min=2,max=2,
+                                     fr="numéro des situations de passage" ),
+              NUME_RESU_THER   =SIMP(statut='f',typ='I',max=1,fr="numeros de transitoires thermiques" ),
+              CHAR_ETAT_A      =SIMP(statut='o',typ='I',max='**',fr="numeros de chargements etat A" ),
+              CHAR_ETAT_B      =SIMP(statut='o',typ='I',max='**',fr="numeros de chargements etat B" ),
+              PRES_A           =SIMP(statut='o',typ='R',fr="pression etat A"),
+              PRES_B           =SIMP(statut='o',typ='R',fr="pression etat B"),
+              TEMP_REF_A       =SIMP(statut='f',typ='R',fr="temperature référence etat A"),
+              TEMP_REF_B       =SIMP(statut='f',typ='R',fr="temperature référence etat B"),
+                               ),
+                      ),
+# ======================================================================
+     b_tuyauterie  =BLOC(condition="(TYPE_RESU_MECA == 'TUYAUTERIE')",
+
+         OPTION          =SIMP(statut='o',typ='TXM',into=("FATIGUE",) ),
+         CHAM_MATER      =SIMP(statut='o',typ=cham_mater ),
+         TYPE_KE         =SIMP(statut='f',typ='TXM',defaut="KE_MECA",into=("KE_MECA","KE_MIXTE"),
+                               fr="Ke meca seul ou partition mecanique + thermique" ),
+         MODELE          =SIMP(statut='o',typ=modele_sdaster),
+         CARA_ELEM       =SIMP(statut='o',typ=cara_elem),
+         ZONE_ANALYSE =FACT(statut='o',fr="liste des mailles ou des noeuds analysés",
+            regles=(PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),),
+            TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+            GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+            MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+            ),
+         RESU_MECA   =FACT(statut='o',max='**',fr="Chargements mécaniques",
+           regles=(UN_PARMI('CHAM_GD','RESULTAT'),),
+           NUME_CHAR     =SIMP(statut='o',typ='I',fr="numéro du chargement" ),
+           NOM_CHAR      =SIMP(statut='f',typ='TXM',fr="nom du chargement" ),
+           CHAM_GD         =SIMP(statut='f',typ=cham_gd_sdaster),
+           RESULTAT        =SIMP(statut='f',typ=resultat_sdaster),
+           b_extrac        =BLOC(condition="RESULTAT != None",
+                                 fr="extraction d un champ de grandeur",
+             regles=(UN_PARMI('TOUT_ORDRE','NUME_ORDRE','INST','NOEUD_CMP'),),
+             NOM_CHAM        =SIMP(statut='o',typ='TXM',into=("EFGE_ELNO_DEPL","SIEF_ELNO_ELGA"),),
+             TOUT_ORDRE      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             NUME_ORDRE      =SIMP(statut='f',typ='I',),
+             INST            =SIMP(statut='f',typ='R',),
+             NOEUD_CMP       =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+             b_acce_reel     =BLOC(condition="(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',),),
+             ),
+           ),
+                          ),
+         INDI_SIGM =FACT(statut='o',max='**',fr="indices de contraintes",
+            regles=(PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),),
+            C1              =SIMP(statut='f',typ='R',defaut=1.0,fr="indice de contraintes C1 du RCCM"),
+            K1              =SIMP(statut='f',typ='R',defaut=1.0,fr="indice de contraintes K1 du RCCM"),
+            C2              =SIMP(statut='f',typ='R',defaut=1.0,fr="indice de contraintes C2 du RCCM"),
+            K2              =SIMP(statut='f',typ='R',defaut=1.0,fr="indice de contraintes K2 du RCCM"),
+            C3              =SIMP(statut='f',typ='R',defaut=0.5,fr="indice de contraintes C3 du RCCM"),
+            K3              =SIMP(statut='f',typ='R',defaut=1.0,fr="indice de contraintes K3 du RCCM"),
+            TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",),),
+            GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**',
+                             fr="groupe(s) de mailles ou sont affectés les indices de contraintes"),
+            MAILLE          =SIMP(statut='f',typ=ma,validators=NoRepeat(),max='**',
+                             fr="liste des mailles ou sont affectés les indices de contraintes"),
+            b_grma     =BLOC(condition="(GROUP_MA != None)or(MAILLE != None)",
+               GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+               NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+            ),
+            TYPE_ELEM_STANDARD =SIMP(statut='f',typ='TXM',into=("DRO","COU","TRN","TEE"),
+                              fr="type d'élément de tuyauterie ou sont affectés les indices de contraintes"),
+                         ),
+          RESU_THER   =FACT(statut='f',max='**',fr="resultats thermiques",
+            regles=(PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),AU_MOINS_UN('TOUT','GROUP_MA','MAILLE'),),
+            NUME_RESU_THER =SIMP(statut='o',typ='I',fr="numéro de la table de résultat thermique" ),
+            TABL_RESU_THER =SIMP(statut='o',typ=table_sdaster,
+                              fr="table relevé des températures sur la section"),
+            TABL_MOYE_THER =SIMP(statut='o',typ=table_sdaster,
+                              fr="table relevé des moyennes sur la section"),
+            TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+            GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+            MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+            b_grma     =BLOC(condition="(GROUP_MA != None)or(MAILLE != None)",
+               GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+               NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+            ),
+                           ),
+         SEISME         =FACT(statut='f',max='**',fr="Situation séisme",ang="situation_ang",
+              NB_OCCUR         =SIMP(statut='o',typ='I',fr="nombre d'occurences de la situation" ),
+              NB_CYCL_SEISME   =SIMP(statut='o',typ='I',fr="nombre de cycles associé au séisme" ),
+              NUME_SITU        =SIMP(statut='o',typ='I',fr="numéro de la situation" ),
+              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" ),
+              TEMP_REF         =SIMP(statut='f',typ='R',fr="temperature référence"),
+                               ),
+         SITUATION         =FACT(statut='o',max='**',fr="Situation",ang="situation_ang",
+              NB_OCCUR         =SIMP(statut='o',typ='I',fr="nombre d'occurences de la situation" ),
+              NUME_SITU        =SIMP(statut='o',typ='I',fr="numéro de la situation" ),
+              NOM_SITU         =SIMP(statut='f',typ='TXM',fr="nom de la situation" ),
+              COMBINABLE       =SIMP(statut='f',typ='TXM',defaut= "OUI",into=("OUI","NON"),fr="non = sous-cycle" ),
+              NUME_GROUPE      =SIMP(statut='f',typ='I',
+                                     fr="numéros des groupes de la situation" ),
+              NUME_PASSAGE     =SIMP(statut='f',typ='I',min=2,max=2,
+                                     fr="numéro des situations de passage" ),
+              NUME_RESU_THER   =SIMP(statut='f',typ='I',max='**',fr="numeros de transitoires thermiques" ),
+              CHAR_ETAT_A      =SIMP(statut='o',typ='I',max='**',fr="numeros de chargements etat A" ),
+              CHAR_ETAT_B      =SIMP(statut='o',typ='I',max='**',fr="numeros de chargements etat B" ),
+              PRES_A           =SIMP(statut='o',typ='R',fr="pression etat A"),
+              PRES_B           =SIMP(statut='o',typ='R',fr="pression etat B"),
+              TEMP_REF_A       =SIMP(statut='f',typ='R',fr="temperature référence etat A"),
+              TEMP_REF_B       =SIMP(statut='f',typ='R',fr="temperature référence etat B"),
+                               ),
+               ),
+)  ;
+#& MODIF COMMANDE  DATE 30/09/2008   AUTEUR REZETTE C.REZETTE 
+# ======================================================================
+#            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.                                 
+#
+# 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 DESROCHES X.DESROCHES
+POST_RELEVE_T=OPER(nom="POST_RELEVE_T",op=51,sd_prod=table_sdaster,reentrant='f',
+            fr="Extraire des valeurs de composantes de champs de grandeurs pour y effectuer des calculs (moyenne,invariants,..)"
+               +" ou pour les exprimer dans d'autres repères",
+            docu="U4.81.21",UIinfo={"groupes":("Post traitements",)},
+
+         ACTION          =FACT(statut='o',max='**',
+                               regles=(UN_PARMI('RESULTAT','CHAM_GD'),), 
+
+           OPERATION       =SIMP(statut='o',typ='TXM',into=("EXTRACTION","MOYENNE","EXTREMA"),validators=NoRepeat(),max=2),
+           INTITULE        =SIMP(statut='o',typ='TXM'),  
+
+           CHAM_GD         =SIMP(statut='f',typ=(cham_no_sdaster,
+                                                 cham_elem,),),
+           RESULTAT        =SIMP(statut='f',typ=resultat_sdaster),
+#
+#  1. Sensibilité
+#  1.1. Cas d'un résultat réel
+#       Cas d'un résultat harmonique dont on veut partie réelle ou imaginaire
+#
+           b_sensibilite   =BLOC(condition=" (RESULTAT != None) and \
+                                      (   AsType(RESULTAT) in (evol_elas,evol_ther,evol_noli,dyna_trans, \
+                                                               mode_meca,mode_flamb,mode_acou,base_modale,mode_stat, \
+                                                               mult_elas,fourier_elas,fourier_ther) or \
+                                        ( AsType(RESULTAT) in (dyna_harmo,acou_harmo) and FORMAT_C != 'MODULE' ) )",
+                                 fr="Définition des paramètres de sensibilité",
+                                 ang="Definition of sensitivity parameters",
+             regles=(CONCEPT_SENSIBLE("SEPARE"), REUSE_SENSIBLE(),
+                     DERIVABLE('RESULTAT'),),
+             SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                                   fr="Liste des paramètres de sensibilité.",
+                                   ang="List of sensitivity parameters"),
+
+           ),
+#
+#  1.2. Cas d'un résultat harmonique dont on veut le module
+#
+           b_sensibilite_harmo =BLOC(condition=" (RESULTAT != None) and \
+                                      ( AsType(RESULTAT) in (dyna_harmo,acou_harmo) and FORMAT_C == 'MODULE' )",
+                                     fr="Définition des paramètres de sensibilité",
+                                     ang="Definition of sensitivity parameters",
+             regles=(CONCEPT_SENSIBLE("SEPARE"), REUSE_SENSIBLE(),
+                     DERIVABLE('RESULTAT'),),
+             SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                                   fr="Liste des paramètres de sensibilité.",
+                                   ang="List of sensitivity parameters"),
+               b_sensibilite_harmo =BLOC(condition=" SENSIBILITE != None",
+                                         fr="Option pour la sensibilite",
+                                         ang="Option for sensitivity",
+               SENSIBILITE_OPTION =SIMP(statut='o',typ='TXM',into=("MODULE_SENSIBILITE","SENSIBILITE_MODULE",),
+                                        fr="Option : module de la dérivée ou dérivée du module",
+                                        ang="Option : modulus of derivative or derivative of modulus"),
+               ),
+           ),
+
+           b_extrac        =BLOC(condition = "RESULTAT != None",fr="extraction des résultats",
+                                 regles=(EXCLUS('TOUT_ORDRE','NUME_ORDRE','LIST_ORDRE','NUME_MODE','LIST_MODE',         
+                                                'INST','LIST_INST','FREQ','LIST_FREQ','NOEUD_CMP','NOM_CAS'), ),           
+             NOM_CHAM        =SIMP(statut='o',typ='TXM' ),  
+             TOUT_ORDRE      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             NUME_ORDRE      =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),  
+             LIST_ORDRE      =SIMP(statut='f',typ=listis_sdaster),
+             NUME_MODE       =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),  
+             LIST_MODE       =SIMP(statut='f',typ=listis_sdaster),
+             NOEUD_CMP       =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+             NOM_CAS         =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),  
+             FREQ            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),  
+             LIST_FREQ       =SIMP(statut='f',typ=listr8_sdaster),
+             INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),  
+             LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+             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',),),
+           ),
+
+           b_extrema   =BLOC(condition="OPERATION == 'EXTREMA'",
+                             fr="recherche de MIN MAX",
+                             regles=(EXCLUS('TOUT_CMP','NOM_CMP'),),
+              TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+              GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+              MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+              GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+              NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+              TOUT_CMP        =SIMP(statut='f',typ='TXM',into=("OUI",)),
+              NOM_CMP         =SIMP(statut='f',typ='TXM',max='**'),  
+           ),
+
+           b_autre   =BLOC(condition="OPERATION != 'EXTREMA'",
+                           fr="extraction et moyenne",
+                           regles=(AU_MOINS_UN('CHEMIN','GROUP_NO','NOEUD'),
+                                   EXCLUS('CHEMIN','GROUP_NO'),
+                                   EXCLUS('CHEMIN','NOEUD'),
+                                   PRESENT_ABSENT('CHEMIN','GROUP_MA','MAILLE'),
+                                   UN_PARMI('TOUT_CMP','NOM_CMP','INVARIANT','ELEM_PRINCIPAUX','RESULTANTE'),
+                                   PRESENT_PRESENT('TRAC_DIR','DIRECTION'),          
+                                   ENSEMBLE('MOMENT','POINT'),
+                                   PRESENT_PRESENT('MOMENT','RESULTANTE'),
+                                   PRESENT_ABSENT('TOUT_CMP','TRAC_DIR','TRAC_NOR'),
+                                   EXCLUS('TRAC_DIR','TRAC_NOR'),
+                                   PRESENT_PRESENT('ORIGINE','AXE_Z'),),
+                   
+              CHEMIN          =SIMP(statut='f',typ=(courbe_sdaster,surface_sdaster) ),
+              TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+              GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+              MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+              GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+              NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+
+              TOUT_CMP        =SIMP(statut='f',typ='TXM',into=("OUI",)),
+              NOM_CMP         =SIMP(statut='f',typ='TXM',max='**'),  
+              INVARIANT       =SIMP(statut='f',typ='TXM',into=("OUI",)),
+              ELEM_PRINCIPAUX =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+              RESULTANTE      =SIMP(statut='f',typ='TXM',max='**'),  
+
+              MOMENT          =SIMP(statut='f',typ='TXM',max='**'),  
+              POINT           =SIMP(statut='f',typ='R',max='**'),  
+
+              REPERE          =SIMP(statut='f',typ='TXM',defaut="GLOBAL",
+                                 into=("GLOBAL","LOCAL","POLAIRE","UTILISATEUR","CYLINDRIQUE"),),
+              ANGL_NAUT       =SIMP(statut='f',typ='R',min=3,max=3),  
+              ORIGINE         =SIMP(statut='f',typ='R',min=3,max=3),  
+              AXE_Z           =SIMP(statut='f',typ='R',min=3,max=3),  
+
+              TRAC_NOR        =SIMP(statut='f',typ='TXM',into=("OUI",)),
+              TRAC_DIR        =SIMP(statut='f',typ='TXM',into=("OUI",)),
+              DIRECTION       =SIMP(statut='f',typ='R',max='**'),  
+ 
+              VECT_Y          =SIMP(statut='f',typ='R',max='**'),  
+              MOYE_NOEUD      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+           ),
+
+           FORMAT_C        =SIMP(statut='f',typ='TXM',defaut="MODULE",into=("MODULE","REEL","IMAG")),
+
+         ),
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),  
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 ZENTNER I.ZENTNER
+POST_USURE=OPER(nom="POST_USURE",op=153,sd_prod=table_sdaster,reentrant='f',
+            UIinfo={"groupes":("Post traitements",)},
+                fr="Calcul des volumes d'usure et des profondeurs d'usure d'après la puissance d'usure",
+         regles=(UN_PARMI('TUBE_NEUF','RESU_GENE','PUIS_USURE'),
+                 PRESENT_PRESENT('RESU_GENE','NOEUD','LOI_USURE'),
+                 PRESENT_PRESENT('PUIS_USURE','LOI_USURE'),),
+         TUBE_NEUF       =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+         ETAT_INIT       =FACT(statut='f',
+           TABL_USURE      =SIMP(statut='f',typ=table_sdaster),
+           INST_INIT       =SIMP(statut='f',typ='R'),  
+                         ),
+         RESU_GENE       =SIMP(statut='f',typ=tran_gene),
+         NOEUD           =SIMP(statut='f',typ=no,),
+         INST_INIT       =SIMP(statut='f',typ='R',defaut=-1.0E+0),  
+         INST_FIN        =SIMP(statut='f',typ='R'),  
+         NB_BLOC         =SIMP(statut='f',typ='I',defaut= 1 ),  
+         PUIS_USURE      =SIMP(statut='f',typ='R'),  
+         LOI_USURE       =SIMP(statut='f',typ='TXM',into=("ARCHARD","KWU_EPRI","EDF_MZ")),
+         b_archard       =BLOC(condition = "LOI_USURE == 'ARCHARD'",
+           regles=(UN_PARMI('MOBILE','MATER_USURE','SECTEUR'), 
+                   EXCLUS('MATER_USURE','OBSTACLE'),
+                   EXCLUS('MOBILE','USURE_OBST'),),
+           MOBILE          =FACT(statut='f',
+             COEF_USURE      =SIMP(statut='o',typ='R'), 
+           ),   
+           OBSTACLE        =FACT(statut='f',
+             COEF_USURE      =SIMP(statut='o',typ='R'), 
+           ),
+           SECTEUR         =FACT(statut='f',max='**',
+             CONTACT         =SIMP(statut='f',typ='TXM',into=("TUBE_BAV","TUBE_ALESAGE","TUBE_4_ENCO",  
+                                                              "GRAPPE_ALESAGE","TUBE_3_ENCO","TUBE_TUBE", 
+                                                              "GRAPPE_1_ENCO","GRAPPE_2_ENCO")),
+             COEF_USUR_MOBILE=SIMP(statut='f',typ='R'),  
+             COEF_USUR_OBST  =SIMP(statut='f',typ='R'),  
+             ANGL_INIT       =SIMP(statut='f',typ='R'),  
+             ANGL_FIN        =SIMP(statut='f',typ='R'),  
+           ),
+           MATER_USURE     =SIMP(statut='f',typ='TXM'),  
+           USURE_OBST      =SIMP(statut='f',typ='TXM',into=("OUI",)),
+         ),
+         b_kwu_epri        =BLOC(condition = "LOI_USURE == 'KWU_EPRI'",
+           regles=(UN_PARMI('MOBILE','MATER_USURE'), 
+                   EXCLUS('MATER_USURE','OBSTACLE'),
+                   EXCLUS('MOBILE','USURE_OBST'),),
+           MOBILE          =FACT(statut='f',
+             COEF_FNOR       =SIMP(statut='f',typ='R'),  
+             COEF_VTAN       =SIMP(statut='f',typ='R'),  
+             COEF_USURE      =SIMP(statut='f',typ='R'),  
+             COEF_K          =SIMP(statut='f',typ='R',defaut=5.0E+0),  
+             COEF_C          =SIMP(statut='f',typ='R',defaut=10.0E+0),  
+           ),   
+           OBSTACLE        =FACT(statut='f',
+             COEF_FNOR       =SIMP(statut='f',typ='R' ),  
+             COEF_VTAN       =SIMP(statut='f',typ='R' ),  
+             COEF_USURE      =SIMP(statut='o',typ='R'), 
+             COEF_K          =SIMP(statut='f',typ='R',defaut=5.0E+0),  
+             COEF_C          =SIMP(statut='f',typ='R',defaut=10.0E+0),  
+           ),   
+           MATER_USURE     =SIMP(statut='f',typ='TXM'),  
+           USURE_OBST      =SIMP(statut='f',typ='TXM',into=("OUI",)),
+           FNOR_MAXI       =SIMP(statut='f',typ='R' ),  
+           VTAN_MAXI       =SIMP(statut='f',typ='R' ),  
+         ),
+         b_edf_mz          =BLOC(condition = "LOI_USURE == 'EDF_MZ'",
+           regles=(UN_PARMI('MOBILE','MATER_USURE'), 
+                   EXCLUS('MATER_USURE','OBSTACLE'),
+                   EXCLUS('MOBILE','USURE_OBST'),),
+           MOBILE          =FACT(statut='f',
+             COEF_USURE      =SIMP(statut='f',typ='R',defaut=1.0E-13),  
+             COEF_B          =SIMP(statut='f',typ='R',defaut=1.2E+0),  
+             COEF_N          =SIMP(statut='f',typ='R',defaut=2.44E-8),  
+             COEF_S          =SIMP(statut='f',typ='R',defaut=1.14E-16),  
+           ),   
+           OBSTACLE        =FACT(statut='f',
+             COEF_USURE      =SIMP(statut='o',typ='R',defaut=1.0E-13), 
+             COEF_B          =SIMP(statut='f',typ='R',defaut=1.2E+0),  
+             COEF_N          =SIMP(statut='f',typ='R',defaut=2.44E-8),  
+             COEF_S          =SIMP(statut='f',typ='R',defaut=1.14E-16),  
+           ),   
+           MATER_USURE     =SIMP(statut='f',typ='TXM'),  
+           USURE_OBST      =SIMP(statut='f',typ='TXM',into=("OUI",)),
+         ),
+         b_tube_neuf       =BLOC(condition = "TUBE_NEUF == 'OUI'",
+            TABL_USURE      =SIMP(statut='o',typ=table_sdaster),
+            INST            =SIMP(statut='f',typ='R'),
+         ),
+         CONTACT         =SIMP(statut='f',typ='TXM',into=("TUBE_BAV","TUBE_ALESAGE","TUBE_4_ENCO",    
+                                                          "GRAPPE_ALESAGE","TUBE_3_ENCO","TUBE_TUBE",        
+                                                          "GRAPPE_1_ENCO","GRAPPE_2_ENCO")),
+         RAYON_MOBILE    =SIMP(statut='f',typ='R'),  
+         RAYON_OBST      =SIMP(statut='f',typ='R'),  
+         LARGEUR_OBST    =SIMP(statut='f',typ='R'),  
+         ANGL_INCLI      =SIMP(statut='f',typ='R'),  
+         ANGL_ISTHME     =SIMP(statut='f',typ='R'),  
+         ANGL_IMPACT     =SIMP(statut='f',typ='R'),  
+         INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),  
+         LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+         COEF_INST       =SIMP(statut='f',typ='R',defaut=1.0E+0),  
+         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 
+#            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.                                 
+#
+# 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 TAHERI S.TAHERI
+POST_ZAC=OPER(nom="POST_ZAC",op= 175,sd_prod=mult_elas,reentrant='n',
+            UIinfo={"groupes":("Post traitements",)},
+              fr="Déterminer l'état adapté ou accommodé par la méthode de Zarka-Casier d'une structure sous"
+                +" chargement cyclique élastique affine ou non",
+         MODELE          =SIMP(statut='o',typ=modele_sdaster),
+         CHAM_MATER      =SIMP(statut='o',typ=cham_mater),
+         EXCIT           =FACT(statut='o',max='**',
+           CHARGE          =SIMP(statut='o',typ=char_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",)),
+         ),
+         EVOL_ELAS       =SIMP(statut='o',typ=evol_elas),
+         b_evol_elas     =BLOC(condition="EVOL_ELAS != None",
+           regles=(UN_PARMI('NUME_ORDRE','LIST_INST','INST'),),
+           NUME_ORDRE      =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),  
+           LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+           INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),  
+         ),
+         TEMP_ZAC        =SIMP(statut='f',typ='R',defaut=0.0E+0),  
+         EVOL_NOLI       =SIMP(statut='f',typ=evol_noli),
+         b_evol_noli     =BLOC(condition="EVOL_NOLI != None",
+           INST_MAX        =SIMP(statut='o',typ='R'),  
+         ),
+         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',),),
+)  ;
+#& MODIF COMMANDE  DATE 16/09/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.
+#
+# 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 LEFEBVRE J.P.LEFEBVRE
+
+POURSUITE=MACRO(nom="POURSUITE",op=ops.build_poursuite,repetable='n',
+                fr="Poursuite d'une étude à partir de la sauvegarde au format JEVEUX ou HDF de sa base globale",
+                sd_prod = ops.POURSUITE,
+            UIinfo={"groupes":("Gestion du travail",)},
+                op_init = ops.POURSUITE_context,fichier_ini = 1,
+         FORMAT_HDF      =SIMP(fr="sauvegarde de la base GLOBALE au format HDF",statut='f',
+                               typ='TXM',defaut="NON",into=("OUI","NON",) ),
+         PAR_LOT         =SIMP(fr="mode de traitement des commandes",statut='f',typ='TXM',
+                           into=("OUI","NON"),defaut="OUI"),
+         IMPR_MACRO      =SIMP(fr="affichage des sous-commandes produites par les macros dans le fichier mess",
+                           statut='f',typ='TXM',into=("OUI","NON"),defaut="NON"),
+         BASE            =FACT(fr="définition des paramètres associés aux bases JEVEUX",
+                               statut='f',min=1,max=2,
+           FICHIER         =SIMP(fr="nom de la base",statut='o',typ='TXM'),
+           TITRE           =SIMP(statut='f',typ='TXM'),
+           CAS             =SIMP(statut='f',typ='TXM'),
+           NMAX_ENRE       =SIMP(fr="nombre maximum d enregistrements",statut='f',typ='I'),
+           LONG_ENRE       =SIMP(fr="longueur des enregistrements",statut='f',typ='I'),
+           LONG_REPE       =SIMP(fr="longueur du répertoire",statut='f',typ='I'),
+         ),
+         IMPRESSION      =FACT(statut='f',min=1,max=3,
+           FICHIER         =SIMP(statut='o',typ='TXM'),
+           UNITE           =SIMP(statut='o',typ='I'),
+         ),
+         CATALOGUE       =FACT(statut='f',min=1,max=10,
+           FICHIER         =SIMP(statut='o',typ='TXM'),
+           TITRE           =SIMP(statut='f',typ='TXM'),
+           UNITE           =SIMP(statut='f',typ='I'),
+         ),
+         ERREUR          =FACT(fr="comportement en cas d'erreur",statut='f',min=1,max=1,
+           ERREUR_F        =SIMP(statut='f',typ='TXM',into=('ABORT','EXCEPTION'),defaut='ABORT'),
+         ),
+         DEBUG           =FACT(fr="option de déboggage reservée aux développeurs",
+                               statut='f',min=1,max=1,
+           JXVERI          =SIMP(fr="vérifie l intégrité de la segmentation mémoire",
+                                 statut='f',typ='TXM',into=('OUI','NON'),defaut='NON'),
+           SDVERI          =SIMP(fr="vérifie la conformité des SD produites par les commandes",
+                                 statut='f',typ='TXM',into=('OUI','NON')),
+           JEVEUX          =SIMP(fr="force les déchargement sur disque",
+                                 statut='f',typ='TXM',into=('OUI','NON'),defaut='NON'),
+           ENVIMA          =SIMP(fr="imprime les valeurs définies dans ENVIMA",
+                                 statut='f',typ='TXM',into=('TEST',)),
+         ),
+         MEMOIRE         =FACT(fr="mode de gestion mémoire utilisé",statut='d',min=1,max=1,
+           GESTION         =SIMP(statut='f',typ='TXM',into=('COMPACTE','RAPIDE'),defaut='RAPIDE'),
+           TYPE_ALLOCATION =SIMP(statut='f',typ='I',into=(1,2,3,4),defaut=1),
+           TAILLE          =SIMP(statut='f',typ='I'),
+           TAILLE_BLOC     =SIMP(statut='f',typ='R',defaut=800.),
+           PARTITION       =SIMP(statut='f',typ='R' ),
+           DYNAMIQUE       =SIMP(statut='f',typ='I',defaut=1),
+         ),
+ 
+         RESERVE_CPU     =FACT(fr="reserve de temps pour terminer une execution",statut='d',max=1,
+           regles=(EXCLUS('VALE','POURCENTAGE'),),
+           VALE            =SIMP(statut='f',typ='I',val_min=0),
+#                            valeur par défaut fixée à 10. dans le FORTRAN si CODE présent
+           POURCENTAGE     =SIMP(statut='f',typ='R',val_min=0.,val_max=1.0),
+#                           valeur par défaut fixée à 10% dans le FORTRAN
+           BORNE           =SIMP(statut='f',typ='I',val_min=0,defaut=900) ),
+#          valeur en pourcentage du temps maximum bornée à 900 secondes
+
+         CODE            =FACT("définition d'un nom pour l'ensemble d'une étude",
+                               statut='f',min=1,max=1,
+           NOM             =SIMP(statut='o',typ='TXM'),
+         ),
+
+
+         IGNORE_ALARM = SIMP(statut='f', typ='TXM', max='**', fr="Alarmes que l'utilisateur souhaite délibérément ignorer"),
+
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 COURTOIS M.COURTOIS
+
+PRE_GIBI=PROC(nom="PRE_GIBI",op=49,
+            UIinfo={"groupes":("Gestion du travail",)},
+              fr="Conversion d'un fichier de maillage GIBI au format Aster",
+         UNITE_GIBI      =SIMP(statut='f',typ='I',defaut=19),  
+         UNITE_MAILLAGE  =SIMP(statut='f',typ='I',defaut=20),  
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 COURTOIS M.COURTOIS
+
+PRE_GMSH=PROC(nom="PRE_GMSH",op=47,
+            UIinfo={"groupes":("Gestion du travail",)},
+               fr="Conversion d'un fichier de maillage GMSH au format Aster",
+         UNITE_GMSH      =SIMP(statut='f',typ='I',defaut=19),  
+         UNITE_MAILLAGE  =SIMP(statut='f',typ='I',defaut=20),  
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 MIKCHEVITCH A.MIKCHEVITCH
+PRE_IDEAS=PROC(nom="PRE_IDEAS",op=47,
+            UIinfo={"groupes":("Gestion du travail",)},
+               fr="Conversion d'un fichier universel IDEAS-SUPERTAB au format Aster",
+         UNITE_IDEAS     =SIMP(statut='f',typ='I',defaut=19),  
+         UNITE_MAILLAGE  =SIMP(statut='f',typ='I',defaut=20),  
+         CREA_GROUP_COUL =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 PELLET J.PELLET
+
+PROD_MATR_CHAM=OPER(nom="PROD_MATR_CHAM",op= 156,sd_prod=cham_no_sdaster,
+                    fr="Effectuer le produit d'une matrice par un vecteur",
+                    reentrant='n',
+            UIinfo={"groupes":("Résultats et champs",)},
+         MATR_ASSE       =SIMP(statut='o',typ=(matr_asse_depl_r,matr_asse_depl_c,matr_asse_temp_r,matr_asse_pres_c ) ),
+         CHAM_NO         =SIMP(statut='o',typ=cham_no_sdaster),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+)  ;
+#& 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
+# 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 PELLET J.PELLET
+def proj_champ_prod(RESULTAT=None,CHAM_NO_REFE=None,**args ):
+    if AsType(RESULTAT) != None : return AsType(RESULTAT)
+    if CHAM_NO_REFE     != None : return cham_no_sdaster
+    raise AsException("type de concept resultat non prevu")
+
+
+PROJ_CHAMP=OPER(nom="PROJ_CHAMP",op= 166,sd_prod=proj_champ_prod,reentrant='f',
+            UIinfo={"groupes":("Résultats et champs",)},
+                fr="Projeter les champs aux noeuds d'une SD résultat de type evol_xxx sur un autre maillage",
+
+
+         METHODE         =SIMP(statut='f',typ='TXM',defaut="ELEM",
+                               into=("NUAGE_DEG_0","NUAGE_DEG_1","ELEM",) ),
+
+
+         # Méthode NUAGE_xxx :
+         #--------------------
+         b_nuage         =BLOC(condition="(METHODE=='NUAGE_DEG_1') or (METHODE=='NUAGE_DEG_0')",
+                               fr="Lissage d'un nuage de points",
+           CHAM_NO         =SIMP(statut='o',typ=cham_no_sdaster),
+           CHAM_NO_REFE    =SIMP(statut='o',typ=cham_no_sdaster),
+         ),
+
+
+
+         # Méthode ELEM :
+         #--------------------
+         b_elem          =BLOC(condition="METHODE=='ELEM'",
+                              fr="Utilisation des fonctions de forme du maillage initial",
+           regles=(EXCLUS('TOUT_ORDRE','NUME_ORDRE','INST','FREQ','LIST_INST','LIST_FREQ','LIST_ORDRE'),
+                   EXCLUS('TOUT_CHAM','NOM_CHAM',),
+                   CONCEPT_SENSIBLE('SEPARE'),
+                   REUSE_SENSIBLE(),
+                   DERIVABLE('RESULTAT'),),
+           RESULTAT        =SIMP(statut='o',typ=resultat_sdaster),
+           SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                               fr="Liste des paramètres de sensibilité.",
+                               ang="List of sensitivity parameters",),
+           MODELE_1        =SIMP(statut='o',typ=modele_sdaster),
+           MODELE_2        =SIMP(statut='o',typ=modele_sdaster),
+
+           NOM_PARA        =SIMP(statut='f',typ='TXM', max='**'),
+           TOUT_CHAM       =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           NOM_CHAM        =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**'),
+
+           NUME_DDL        =SIMP(statut='f',typ=(nume_ddl_sdaster),
+                fr="Utile en dynamique pour pouvoir imoser la numérotation des cham_no."),
+
+
+           TOUT_ORDRE      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           NUME_ORDRE      =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**' ),
+           LIST_ORDRE      =SIMP(statut='f',typ=listis_sdaster),
+           INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**' ),
+           LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+           FREQ            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**' ),
+           LIST_FREQ       =SIMP(statut='f',typ=listr8_sdaster),
+           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"),
+           DISTANCE_MAX    =SIMP(statut='f',typ='R',
+                fr="Distance maximale entre le noeud et l'élément le plus proche, lorsque le noeud n'est dans aucun élément."),
+           TRANSF_GEOM_2   =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule),min=2,max=3,
+                fr="2 (ou 3) fonctions fx,fy,fz définissant la transformation géométrique à appliquer"+
+                   " aux noeuds du MODELE_2 avant la projection."),
+
+           ALARME          =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+
+           TYPE_CHAM       =SIMP(statut='f',typ='TXM',into=("NOEU",),
+                fr="Pour forcer le type des champs projetés. NOEU -> cham_no"),
+
+           PROL_ZERO       =SIMP(statut='f',typ='TXM',into=("OUI","NON"),defaut="NON",
+                fr="Pour prolonger les champs par zéro là ou la projection ne donne pas de valeurs."),
+
+         ),
+
+
+
+         # Mots clés utilisables avec les 2 méthodes :
+         #---------------------------------------------
+         TITRE           =SIMP(statut='f',typ='TXM',max='**' ),
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+
+         VIS_A_VIS       =FACT(statut='f',max='**',
+           regles=(AU_MOINS_UN('TOUT_1','GROUP_MA_1','MAILLE_1','GROUP_NO_1','NOEUD_1'),
+                   AU_MOINS_UN('TOUT_2','GROUP_MA_2','MAILLE_2','GROUP_NO_2','NOEUD_2'),),
+           TOUT_1          =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA_1      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE_1        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO_1      =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD_1         =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           TOUT_2          =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA_2      =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE_2        =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           GROUP_NO_2      =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+           NOEUD_2         =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+           CAS_FIGURE      =SIMP(statut='f',typ='TXM',into=("2D","3D","2.5D","1.5D",) ),
+           TRANSF_GEOM_2   =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule),min=2,max=3,
+                fr="2 (ou 3) fonctions fx,fy,fz définissant la transformation géométrique à appliquer"+
+                   " aux noeuds du MODELE_2 avant la projection."),
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 BOYERE E.BOYERE
+def matr_asse_gene_prod(MATR_ASSE,MATR_ASSE_GENE,**args):
+  if AsType(MATR_ASSE) == matr_asse_depl_r  : return matr_asse_gene_r
+  if AsType(MATR_ASSE_GENE) == matr_asse_gene_r  : return matr_asse_gene_r
+  if AsType(MATR_ASSE) == matr_asse_depl_c  : return matr_asse_gene_c
+  if AsType(MATR_ASSE_GENE) == matr_asse_gene_c  : return matr_asse_gene_c
+  raise AsException("type de concept resultat non prevu")
+
+PROJ_MATR_BASE=OPER(nom="PROJ_MATR_BASE",op=  71,sd_prod=matr_asse_gene_prod,
+                    fr="Projection d'une matrice assemblée sur une base (modale ou de RITZ)",
+                    reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+         regles=(UN_PARMI('MATR_ASSE','MATR_ASSE_GENE'),),            
+         BASE            =SIMP(statut='o',typ=(mode_meca,base_modale,mode_gene,mode_stat ) ),
+         NUME_DDL_GENE   =SIMP(statut='o',typ=nume_ddl_gene ),
+         MATR_ASSE       =SIMP(statut='f',typ=(matr_asse_depl_r,matr_asse_depl_c) ),
+         MATR_ASSE_GENE  =SIMP(statut='f',typ=(matr_asse_gene_r,matr_asse_gene_c) ),
+)  ;
+
+#& MODIF COMMANDE  DATE 21/10/2008   AUTEUR NISTOR I.NISTOR 
+#            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.                                 
+#
+# 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 ANDRIAM H.ANDRIAMBOLOLONA
+def proj_mesu_modal_prod(MODELE_MESURE,**args):
+     vale=MODELE_MESURE['MESURE']
+     if  AsType(vale) == dyna_trans   : return tran_gene
+     if  AsType(vale) == dyna_harmo   : return harm_gene
+     if  AsType(vale) == mode_meca    : return mode_gene
+     if  AsType(vale) == mode_meca_c  : return mode_gene
+     if  AsType(vale) == base_modale  : return mode_gene
+     raise AsException("type de concept resultat non prevu")
+
+PROJ_MESU_MODAL=OPER(nom="PROJ_MESU_MODAL",op= 193,
+                     sd_prod=proj_mesu_modal_prod,
+                     reentrant='n',
+            UIinfo={"groupes":("Résultats et champs",)},
+                     fr="Calcul des coordonnees généralisees de mesure experimentale relatives a une base de projection",
+
+         MODELE_CALCUL   =FACT(statut='o',
+           MODELE          =SIMP(statut='o',typ=(modele_sdaster) ),
+           BASE            =SIMP(statut='o',typ=(mode_meca,base_modale,) ),
+                         ),
+         MODELE_MESURE   =FACT(statut='o',
+           MODELE          =SIMP(statut='o',typ=(modele_sdaster) ),
+           MESURE          =SIMP(statut='o',typ=(dyna_trans,dyna_harmo,base_modale,mode_meca,mode_meca_c,) ),
+           NOM_CHAM        =SIMP(statut='f',typ='TXM',defaut="DEPL",into=("DEPL","VITE","ACCE","SIEF_NOEU","EPSI_NOEU_DEPL",) ),
+                         ),
+         CORR_MANU       =FACT(statut='f',max='**',
+           regles=(PRESENT_PRESENT('NOEU_CALCUL','NOEU_MESURE'),),
+           NOEU_CALCUL     =SIMP(statut='f',typ=no),
+           NOEU_MESURE     =SIMP(statut='f',typ=no),
+                         ),
+         NOM_PARA        =SIMP(statut='f',typ='TXM',max='**'),
+         RESOLUTION      =FACT(statut='f',
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="LU",into=("LU","SVD",) ),
+           b_svd =BLOC(condition="METHODE=='SVD'",
+                       EPS=SIMP(statut='f',typ='R',defaut=0. ),
+                      ),
+           REGUL           =SIMP(statut='f',typ='TXM',defaut="NON",into=("NON","NORM_MIN","TIK_RELA",) ),
+           b_regul =BLOC(condition="REGUL!='NON'",
+                         regles=(PRESENT_ABSENT('COEF_PONDER','COEF_PONDER_F', ),),
+                         COEF_PONDER   =SIMP(statut='f',typ='R',defaut=0.     ,max='**' ),  
+                         COEF_PONDER_F =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule),max='**' ),
+                        ),
+             ),
+
+          ); 
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 ADOBES A.ADOBES
+PROJ_SPEC_BASE=OPER(nom="PROJ_SPEC_BASE",op= 146,sd_prod=table_fonction,reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+            fr="Projecter un ou plusieurs spectres de turbulence sur une (ou plusieurs) base(s) modale(s) ",
+      regles=(UN_PARMI('BASE_ELAS_FLUI','MODE_MECA','CHAM_NO'),),
+         SPEC_TURB       =SIMP(statut='o',typ=spectre_sdaster,validators=NoRepeat(),max='**' ),
+         TOUT_CMP        =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+         BASE_ELAS_FLUI  =SIMP(statut='f',typ=melasflu_sdaster ),
+         MODE_MECA       =SIMP(statut='f',typ=mode_meca ),
+         CHAM_NO         =SIMP(statut='f',typ=cham_no_sdaster),
+         FREQ_INIT       =SIMP(statut='o',typ='R',val_min=0.E+0 ),  
+         FREQ_FIN        =SIMP(statut='o',typ='R',val_min=0.E+0 ),  
+         NB_POIN         =SIMP(statut='o',typ='I' ),  
+         OPTION          =SIMP(statut='f',typ='TXM',defaut="TOUT",into=("TOUT","DIAG")),
+         GROUP_MA        =SIMP(statut='f',typ=grma),
+#  Quel est le type attendu derriere  MODELE_INTERFACE         
+         MODELE_INTERFACE=SIMP(statut='f',typ=modele_sdaster),
+         VECT_X          =SIMP(statut='f',typ='R',min=3,max=3 ),  
+         VECT_Y          =SIMP(statut='f',typ='R',min=3,max=3 ),  
+         ORIG_AXE        =SIMP(statut='f',typ='R',min=3,max=3 ),  
+         TITRE           =SIMP(statut='f',typ='TXM',max='**' ),  
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 BOYERE E.BOYERE
+
+PROJ_VECT_BASE=OPER(nom="PROJ_VECT_BASE",op=  72,sd_prod=vect_asse_gene,
+                    fr="Projection d'un vecteur assemblé sur une base (modale ou de RITZ)",
+                    reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+         regles=(UN_PARMI('VECT_ASSE','VECT_ASSE_GENE'),),              
+         BASE            =SIMP(statut='o',typ=(mode_meca,base_modale,mode_gene,mode_stat ) ),
+         NUME_DDL_GENE   =SIMP(statut='o',typ=nume_ddl_gene ),
+         TYPE_VECT       =SIMP(statut='f',typ='TXM',defaut="FORC"),
+         VECT_ASSE       =SIMP(statut='f',typ=cham_no_sdaster),
+         VECT_ASSE_GENE  =SIMP(statut='f',typ=vect_asse_gene ),
+)  ;
+#& 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
+# 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 GALENNE E.GALENNE
+
+
+from Macro.propa_fiss_ops import propa_fiss_ops
+
+def propa_fiss_prod(self,**args):
+  if  args.has_key('MA_TOT2')  : 
+      MA_TOT2 = args['MA_TOT2']
+      self.type_sdprod(MA_TOT2,maillage_sdaster)
+  if args.has_key('MA_XFEM2')  :
+      MA_XFEM2 = args['MA_XFEM2']
+      self.type_sdprod(MA_XFEM2,maillage_sdaster)
+  if args.has_key('FISSURE')  :
+      FISSURE = args['FISSURE']
+      self.type_sdprod(FISSURE,fiss_xfem)
+  return None
+
+PROPA_FISS=MACRO(nom="PROPA_FISS",op=propa_fiss_ops,sd_prod=propa_fiss_prod,
+            fr="Propagation de fissure avec X-FEM",reentrant='n',
+            UIinfo={"groupes":("Post traitements",)},
+
+        METHODE_PROPA = SIMP(statut='o',typ='TXM',
+                               into=("HAMILTON","MAILLAGE","INITIALISATION") ),
+            
+        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",),defaut="SIMPLEXE"),
+              FISSURE =  SIMP(statut='o',typ=CO),
+              TABLE   =       SIMP(statut='o',typ=table_sdaster),
+                                ),          
+
+        b_maillage    =BLOC(condition="(METHODE_PROPA=='MAILLAGE')",
+               MA_STRUC       = SIMP(statut='o',typ=maillage_sdaster), 
+               MA_XFEM1       = SIMP(statut='o',typ=maillage_sdaster), 
+               FISSURE1       = SIMP(statut='o',typ=fiss_xfem),
+               DTAN_ORIG      = SIMP(statut='f',typ='R',max=3),
+               DTAN_EXTR      = SIMP(statut='f',typ='R',max=3),
+               METHODE_POSTK  = SIMP(statut='f',typ='I',into=(1,2,3),max=1),
+               ITERATION      = SIMP(statut='o',typ='I',max=1),
+               HYPOTHESE      = SIMP(statut='f',typ='TXM',into=("PLAN","NON_PLAN"),defaut="NON_PLAN"),
+               MA_XFEM2       = SIMP(statut='f',typ=CO), 
+               MA_TOT2        = SIMP(statut='o',typ=CO), 
+               TABLE          = SIMP(statut='o',typ=table_sdaster),
+                                ),      
+                                    
+        b_init    =BLOC(condition="(METHODE_PROPA=='INITIALISATION')",
+               MA_STRUC    = SIMP(statut='o',typ=maillage_sdaster), 
+               FORM_FISS   = SIMP(statut='o',typ='TXM', into=("DEMI_DROITE","DEMI_PLAN"), ),
+               PFON        = SIMP(statut='f',typ='R',max=3),
+               DTAN        = SIMP(statut='o',typ='R',min=3,max=3),
+               POINT_ORIG        = SIMP(statut='f',typ='R',min=3,max=3),
+               POINT_EXTR        = SIMP(statut='f',typ='R',min=3,max=3),
+               NB_POINT_FOND   = SIMP(statut='f',typ='I',),
+               regles=(PRESENT_PRESENT('POINT_ORIG','POINT_EXTR',),
+                       UN_PARMI('PFON','POINT_ORIG'),),
+               MA_TOT2     = SIMP(statut='o',typ=CO), 
+               MA_XFEM2       = SIMP(statut='f',typ=CO), 
+                                ),          
+       
+        LOI_PROPA     =FACT(statut='f',max=1,
+               LOI =SIMP(statut='o',typ='TXM',into=("PARIS",),defaut="PARIS"),
+               b_paris  =BLOC( condition = "LOI=='PARIS'",
+                     C        = SIMP(statut='f',typ='R',),
+                     M        = SIMP(statut='o',typ='R',),
+                     DA_MAX   = SIMP(statut='f',typ='R',max=1),
+                     regles=(UN_PARMI('C','DA_MAX'),),
+                     ),
+            ),
+            
+        INFO          = SIMP(statut='f',typ='I',defaut=1,into=(1,2)),
+)
+
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2006  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.        
+# ======================================================================
+# RESPONSABLE GENIAUT S.GENIAUT
+
+PROPA_XFEM=OPER(nom="PROPA_XFEM",op=10,sd_prod=fiss_xfem,reentrant='n',
+                UIinfo={"groupes":("Modélisation",)},
+                fr="Propagation de fissure avec X-FEM",
+    
+    MODELE        =SIMP(statut='o',typ=modele_sdaster),
+        
+    TABLE         =SIMP(statut='o',typ=table_sdaster),
+
+    LOI_PROPA     =FACT(statut='o',max=1,
+      LOI            =SIMP(statut='o',typ='TXM',into=("PARIS",),defaut="PARIS"),
+      b_paris        =BLOC( condition = "LOI=='PARIS'",
+        C            =SIMP(statut='o',typ='R',),
+        M            =SIMP(statut='o',typ='R',),),
+            ),
+            
+    RAYON          =SIMP(statut='o',typ='R',),
+          
+    METHODE =SIMP(statut='f',typ='TXM',into=("SIMPLEXE","UPWIND",),defaut="SIMPLEXE"),
+
+#    RUNGE_KUTTA    =SIMP(statut='f',typ='I',into=("1","2",),defaut=1),
+
+    INFO           =SIMP(statut='f',typ='I',defaut= 1,into=(1,2) ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 PARROT A.PARROT
+RECA_WEIBULL=OPER(nom="RECA_WEIBULL",op= 197,sd_prod=table_sdaster,
+                     fr="Recaler les paramètres du modèle de WEIBULL sur des données expérimentales",reentrant='n',
+            UIinfo={"groupes":("Post traitements",)},
+         LIST_PARA       =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max=2,into=("SIGM_REFE","M",) ),
+         RESU            =FACT(statut='o',max='**',
+           regles=(EXCLUS('TOUT_ORDRE','NUME_ORDRE','INST','LIST_INST',),
+                   AU_MOINS_UN('TOUT','GROUP_MA','MAILLE', ),),
+           EVOL_NOLI       =SIMP(statut='o',typ=(evol_noli) ),
+           MODELE          =SIMP(statut='o',typ=(modele_sdaster) ),
+           CHAM_MATER      =SIMP(statut='o',typ=(cham_mater) ),
+           TEMPE           =SIMP(statut='f',typ='R' ),
+           LIST_INST_RUPT  =SIMP(statut='o',typ='R',validators=NoRepeat(),max='**' ),
+           TOUT_ORDRE      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           NUME_ORDRE      =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**' ),
+           INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**' ),
+           LIST_INST       =SIMP(statut='f',typ=(listr8_sdaster) ),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+           COEF_MULT       =SIMP(statut='f',typ='R',defaut= 1.E0 ),
+                         ),
+         OPTION          =SIMP(statut='f',typ='TXM',defaut="SIGM_ELGA",into=("SIGM_ELGA","SIGM_ELMOY",) ),
+         CORR_PLAST      =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON",) ),
+         METHODE         =SIMP(statut='f',typ='TXM',defaut="MAXI_VRAI",into=("MAXI_VRAI","REGR_LINE",) ),
+         INCO_GLOB_RELA  =SIMP(statut='f',typ='R',defaut= 1.0E-3 ),
+         ITER_GLOB_MAXI  =SIMP(statut='f',typ='I',defaut= 10 ),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2 ,) ),
+                       )  ;
+#& MODIF COMMANDE  DATE 30/09/2008   AUTEUR REZETTE C.REZETTE 
+#            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.
+#
+# 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 COURTOIS M.COURTOIS
+def recu_fonction_prod(RESULTAT=None,TABLE=None,RESU_GENE=None,
+                       BASE_ELAS_FLUI=None,CHAM_GD=None,NAPPE=None,
+                       NOM_PARA_TABL=None,**args):
+   if AsType(RESULTAT)  == dyna_harmo or \
+      AsType(RESU_GENE) == harm_gene or \
+      (TABLE != None and NOM_PARA_TABL == "FONCTION_C"):
+      return fonction_c
+   else:
+      return fonction_sdaster
+
+RECU_FONCTION=OPER(nom="RECU_FONCTION",op=90,sd_prod=recu_fonction_prod,
+                   fr="Extraire sous forme d'une fonction, l'évolution d'une grandeur en fonction d'une autre",
+                   reentrant='f',
+            UIinfo={"groupes":("Fonction",)},
+         regles=(UN_PARMI('CHAM_GD','RESULTAT','RESU_GENE','TABLE','BASE_ELAS_FLUI','NAPPE'),),
+
+         CHAM_GD         =SIMP(statut='f',typ=(cham_no_sdaster,cham_elem,),),
+         RESULTAT        =SIMP(statut='f',typ=resultat_sdaster),
+         RESU_GENE       =SIMP(statut='f',typ=(tran_gene, mode_gene, harm_gene)),
+         TABLE           =SIMP(statut='f',typ=(table_sdaster,table_fonction)),
+         BASE_ELAS_FLUI  =SIMP(statut='f',typ=melasflu_sdaster),
+         NAPPE           =SIMP(statut='f',typ=nappe_sdaster),
+
+# ======= SENSIBILITE =================================================
+         b_sensibilite   =BLOC(condition="RESULTAT != None",
+                                 fr="Définition des paramètres de sensibilité",
+                                 ang="Definition of sensitivity parameters",
+           regles=(CONCEPT_SENSIBLE('SEPARE'), REUSE_SENSIBLE(),
+                   DERIVABLE('RESULTAT'),),
+           SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                                   fr="Liste des paramètres de sensibilité.",
+                                   ang="List of sensitivity parameters"),),
+# ======= ACCES A LA SD RESULTAT =================================================
+         b_acces = BLOC ( condition = "(RESULTAT != None) or (RESU_GENE != None)",
+                          fr="acces a une SD résultat",
+# on ne peut pas mettre de regles, le défaut TOUT_ORDRE est pris en compte dans le fortran
+           TOUT_ORDRE      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           NUME_ORDRE      =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+           LIST_ORDRE      =SIMP(statut='f',typ=listis_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 ),
+           FREQ            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**'),
+           LIST_FREQ       =SIMP(statut='f',typ=listr8_sdaster ),
+           NUME_MODE       =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+           b_prec = BLOC ( condition = "(INST != None) or (LIST_INST != None) or (FREQ != None) or (LIST_FREQ != 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',),),
+             INTERP_NUME     =SIMP(statut='f',typ='TXM',into=("NON","LIN") ),
+           ),
+         ),
+# ======= BASE_ELAS_FLUI =================================================
+         b_base_elas_flui = BLOC ( condition = "BASE_ELAS_FLUI != None",
+                                   fr="Récupération de la fonction à partir d un concept melasflu",
+           regles=(UN_PARMI('TOUT_ORDRE','NUME_ORDRE'),),
+           TOUT_ORDRE      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           NUME_ORDRE      =SIMP(statut='f',typ='I',validators=NoRepeat(),max='**'),
+           NUME_MODE       =SIMP(statut='o',typ='I' ),
+           PARA_X          =SIMP(statut='o',typ='TXM',into=("VITE_FLU",) ),
+           PARA_Y          =SIMP(statut='o',typ='TXM',into=("FREQ","AMOR") ),
+         ),
+
+# ======= TABLE =================================================
+         b_table = BLOC ( condition = "TABLE != None",
+                          fr="Récupération de la fonction à partir d un concept table",
+                          regles=(UN_PARMI('PARA_X','NOM_PARA_TABL'),
+                                  PRESENT_PRESENT('PARA_X','PARA_Y'),),
+           PARA_X        = SIMP(statut='f',typ='TXM',
+                                 fr="1ère colonne de la table qui définit la fonction à récupérer", ),
+           PARA_Y        = SIMP(statut='f',typ='TXM',
+                                 fr="2ème colonne de la table qui définit la fonction à récupérer", ),
+           #b_tabl_fonc = BLOC(condition = "AsType(TABLE) == table_fonction",
+           NOM_PARA_TABL = SIMP(statut='f',typ='TXM',into=("FONCTION","FONCTION_C"),
+                                fr="Nom du paramètre de la table contenant la fonction" ),
+           #),
+
+           FILTRE        = FACT(statut='f',max='**',
+              NOM_PARA        =SIMP(statut='o',typ='TXM' ),
+              CRIT_COMP       =SIMP(statut='f',typ='TXM',defaut="EQ",
+                                    into=("EQ","LT","GT","NE","LE","GE","VIDE",
+                                          "NON_VIDE","MAXI","ABS_MAXI","MINI","ABS_MINI") ),
+              b_vale          =BLOC(condition = "(CRIT_COMP in ('EQ','NE','GT','LT','GE','LE'))",
+                 regles=(UN_PARMI('VALE','VALE_I','VALE_K','VALE_C',),),
+                 VALE            =SIMP(statut='f',typ='R' ),
+                 VALE_I          =SIMP(statut='f',typ='I' ),
+                 VALE_C          =SIMP(statut='f',typ='C' ),
+                 VALE_K          =SIMP(statut='f',typ='TXM' ),),
+
+              CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU") ),
+              PRECISION       =SIMP(statut='f',typ='R',defaut= 1.E-3 ),
+           ),
+         ),
+
+# ======= RESULTAT =================================================
+         b_resu = BLOC ( condition = "RESULTAT != None", fr="Opérandes en cas de RESULTAT",
+                         regles=(UN_PARMI('NOM_CHAM','NOM_PARA_RESU'),),
+           NOM_CHAM        =SIMP(statut='f',typ='TXM',into=C_NOM_CHAM_INTO()),
+           NOM_PARA_RESU   =SIMP(statut='f',typ='TXM' ),
+           b_cham = BLOC ( condition = "NOM_CHAM != None",
+                           regles=(AU_MOINS_UN('MAILLE','GROUP_MA','GROUP_NO','NOEUD'),
+                                   PRESENT_ABSENT('POINT','NOEUD','GROUP_NO'),
+                                   PRESENT_ABSENT('SOUS_POINT','NOEUD','GROUP_NO'),
+                                   EXCLUS('GROUP_MA','MAILLE'),
+                                   EXCLUS('GROUP_NO','NOEUD'),),
+             NOM_CMP         =SIMP(statut='o',typ='TXM' ),
+             MAILLE          =SIMP(statut='f',typ=ma),
+             GROUP_MA        =SIMP(statut='f',typ=grma),
+             NOEUD           =SIMP(statut='f',typ=no),
+             GROUP_NO        =SIMP(statut='f',typ=grno),
+             POINT           =SIMP(statut='f',typ='I' ),
+             SOUS_POINT      =SIMP(statut='f',typ='I' ),
+           ),
+         ),
+
+# ======= RESU_GENE =================================================
+         b_tran_gene = BLOC ( condition = "AsType(RESU_GENE) == tran_gene",
+                              fr="Récupération d'une fonction à partir d un concept TRAN_GENE",
+                              regles=(UN_PARMI('NOM_CHAM','NOEUD_CHOC','GROUP_NO_CHOC'),),
+             NOM_CHAM        =SIMP(statut='f',typ='TXM',into=("DEPL","VITE","ACCE","PTEM") ),
+             NOEUD_CHOC      =SIMP(statut='f',typ=no),
+             GROUP_NO_CHOC   =SIMP(statut='f',typ=grno),
+           b_cham = BLOC ( condition = "(NOM_CHAM=='DEPL') or (NOM_CHAM=='VITE') or (NOM_CHAM=='ACCE')",
+                           regles=(UN_PARMI('GROUP_NO','NOEUD'),
+                                   EXCLUS('MULT_APPUI','CORR_STAT'),),
+             NOM_CMP         =SIMP(statut='o',typ='TXM' ),
+             NOEUD           =SIMP(statut='f',typ=no),
+             GROUP_NO        =SIMP(statut='f',typ=grno),
+             MULT_APPUI      =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             CORR_STAT       =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             ACCE_MONO_APPUI =SIMP(statut='f',typ=(fonction_sdaster,formule)),
+           ),
+           b_choc = BLOC ( condition = "(NOEUD_CHOC != None) or (GROUP_NO_CHOC != None)",
+                           regles=(PRESENT_PRESENT('SOUS_STRUC','INTITULE'),),
+             PARA_X          =SIMP(statut='o',typ='TXM',
+                              into=("INST","FN","FT1","FT2","VN","VT1","VT2","DXLOC","DYLOC","DZLOC") ),
+             PARA_Y          =SIMP(statut='o',typ='TXM',
+                              into=("INST","FN","FT1","FT2","VN","VT1","VT2","DXLOC","DYLOC","DZLOC") ),
+             LIST_PARA       =SIMP(statut='f',typ=listr8_sdaster ),
+             INTITULE        =SIMP(statut='f',typ='TXM' ),
+             SOUS_STRUC      =SIMP(statut='f',typ='TXM' ),
+           ),
+         ),
+         b_harm_gene = BLOC ( condition = "AsType(RESU_GENE)==harm_gene",
+                              fr="Récupération d'une fonction à partir d un concept HARM_GENE",
+                              regles=(UN_PARMI('NOM_CHAM','NOM_PARA_RESU'),),
+             NOM_CHAM        =SIMP(statut='f',typ='TXM',into=C_NOM_CHAM_INTO()),
+             NOM_PARA_RESU   =SIMP(statut='f',typ='TXM' ),
+           b_cham = BLOC ( condition = "NOM_CHAM != None",
+                           regles=(UN_PARMI('NUME_CMP_GENE','NOM_CMP'),),
+             NUME_CMP_GENE   =SIMP(statut='f',typ='I' ),
+             NOM_CMP         =SIMP(statut='f',typ='TXM' ),
+             b_cmp = BLOC ( condition = "NOM_CMP != None",
+                            regles=(UN_PARMI('NOEUD','GROUP_NO'),),
+               NOEUD         =SIMP(statut='f',typ=no),
+               GROUP_NO      =SIMP(statut='f',typ=grno),
+             ),
+           ),
+         ),
+         b_mode_gene = BLOC ( condition = "AsType(RESU_GENE)==mode_gene",
+                              fr="Récupération d'une fonction à partir d un concept MODE_GENE",
+                              regles=(UN_PARMI('NOM_CHAM','NOM_PARA_RESU'),),
+             NOM_CHAM        =SIMP(statut='f',typ='TXM',into=C_NOM_CHAM_INTO()),
+             NOM_PARA_RESU   =SIMP(statut='f',typ='TXM' ),
+           b_cham = BLOC ( condition = "NOM_CHAM != None",
+                           regles=(UN_PARMI('NUME_CMP_GENE','NOM_CMP'),),
+             NUME_CMP_GENE   =SIMP(statut='f',typ='I' ),
+             NOM_CMP         =SIMP(statut='f',typ='TXM' ),
+             b_cmp = BLOC ( condition = "NOM_CMP != None",
+                            regles=(UN_PARMI('NOEUD','GROUP_NO'),
+                                    UN_PARMI('SQUELETTE','SOUS_STRUC'),),
+               NOEUD         =SIMP(statut='f',typ=no),
+               GROUP_NO      =SIMP(statut='f',typ=grno),
+               SQUELETTE     =SIMP(statut='f',typ=squelette ),
+               SOUS_STRUC    =SIMP(statut='f',typ='TXM' ),  
+             ),
+           ),
+         ),
+
+# ======= CHAM_GD =================================================
+         b_cham_gd = BLOC ( condition = "(CHAM_GD != None)", fr="Opérandes en cas de CHAM_GD",
+                            regles=(AU_MOINS_UN('MAILLE','GROUP_MA','GROUP_NO','NOEUD'),
+                                    PRESENT_ABSENT('POINT','NOEUD','GROUP_NO'),
+                                    PRESENT_ABSENT('SOUS_POINT','NOEUD','GROUP_NO'),
+                                    EXCLUS('GROUP_MA','MAILLE'),
+                                    EXCLUS('GROUP_NO','NOEUD'),),
+           NOM_CMP         =SIMP(statut='o',typ='TXM' ),
+           MAILLE          =SIMP(statut='f',typ=ma),
+           GROUP_MA        =SIMP(statut='f',typ=grma),
+           NOEUD           =SIMP(statut='f',typ=no),
+           GROUP_NO        =SIMP(statut='f',typ=grno),
+           POINT           =SIMP(statut='f',typ='I' ),
+           SOUS_POINT      =SIMP(statut='f',typ='I' ),
+         ),
+
+# ======= NAPPE =================================================
+         b_nappe = BLOC ( condition = "(NAPPE != None)", fr="Opérandes en cas de NAPPE",
+         VALE_PARA_FONC  =SIMP(statut='o',typ='R' ),
+         PRECISION       =SIMP(statut='f',typ='R',defaut= 1.E-3 ),
+         CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU") ),
+         ),
+
+# ======= SURCHARGE DES ATTRIBUTS =================================================
+         NOM_PARA        =SIMP(statut='f',typ='TXM', into=C_PARA_FONCTION() ),
+         NOM_RESU        =SIMP(statut='f',typ='TXM' ),
+         INTERPOL        =SIMP(statut='f',typ='TXM',max=2,into=("NON","LIN","LOG") ),
+         PROL_DROITE     =SIMP(statut='f',typ='TXM',into=("CONSTANT","LINEAIRE","EXCLU") ),
+         PROL_GAUCHE     =SIMP(statut='f',typ='TXM',into=("CONSTANT","LINEAIRE","EXCLU") ),
+
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         INFO            =SIMP(statut='f',typ='I',defaut= 1,into=( 1 , 2 ) ),
+)  ;
+#& MODIF COMMANDE  DATE 30/09/2008   AUTEUR REZETTE C.REZETTE 
+#            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.                                 
+#
+# 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 BOYERE E.BOYERE
+RECU_GENE=OPER(nom="RECU_GENE",op=  76,sd_prod=vect_asse_gene,reentrant='n',
+            UIinfo={"groupes":("Résultats et champs",)},
+               fr="Extraire d'un champ de grandeur (déplacements, vitesses ou accélérations) à partir de résultats"
+                  +" en coordonnées généralisées",
+         RESU_GENE       =SIMP(statut='o',typ=tran_gene ),
+         INST            =SIMP(statut='o',typ='R' ),
+         NOM_CHAM        =SIMP(statut='f',typ='TXM',defaut="DEPL",into=("DEPL","VITE","ACCE") ),
+         INTERPOL        =SIMP(statut='f',typ='TXM',defaut="NON",into=("NON","LIN") ),
+         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',),),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 COURTOIS M.COURTOIS
+RECU_TABLE=OPER(nom="RECU_TABLE",op= 174,sd_prod=table_sdaster,
+         fr="Récupérer dans une table les valeurs d'un paramètre d'une SD Résultat ou d'extraire une table contenue"
+            +" dans une autre SD pour celles qui le permettent",
+         UIinfo={"groupes":("Résultats et champs",)},reentrant='n',
+         CO              =SIMP(statut='o',typ=assd),
+         regles=(UN_PARMI('NOM_TABLE','NOM_PARA')),
+         NOM_TABLE       =SIMP(statut='f',typ='TXM' ),
+         NOM_PARA        =SIMP(statut='f',typ='TXM',max='**'),  
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),  
+)  ;
+#& MODIF COMMANDE  DATE 08/08/2008   AUTEUR DESOZA T.DESOZA 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2007  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.
+# ======================================================================
+# RESPONSABLE PELLET J.PELLET
+
+RESOUDRE=OPER(nom="RESOUDRE",op=15,sd_prod=cham_no_sdaster,reentrant='f',
+               fr="Résolution par méthode directe un système d'équations linéaires préalablement factorisé par FACT_LDLT"+
+                  "ou Résolution d'un système linéaire par la méthode du gradient conjugué préconditionné",
+               UIinfo={"groupes":("Résolution",)},
+         MATR           =SIMP(statut='o',typ=(matr_asse_depl_r,matr_asse_depl_c,matr_asse_temp_r,
+                                               matr_asse_temp_c,matr_asse_pres_r,matr_asse_pres_c) ),
+         CHAM_NO         =SIMP(statut='o',typ=cham_no_sdaster),
+         CHAM_CINE       =SIMP(statut='f',typ=cham_no_sdaster),
+
+         # mot-clé commun aux solveurs MUMPS, GCPC et PETSc:
+         RESI_RELA       =SIMP(statut='f',typ='R',defaut=1.E-6),
+
+         # mot-clé commun aux solveurs GCPC et PETSc:
+         NMAX_ITER       =SIMP(statut='f',typ='I',defaut= 0 ),
+         MATR_PREC       =SIMP(statut='f',typ=(matr_asse_depl_r,matr_asse_temp_r,matr_asse_pres_r ) ),
+
+         # mots-clés pour solveur PETSc:
+         ALGORITHME      =SIMP(statut='f',typ='TXM',into=("BCGS","BICG","CG","CR","GMRES","TFQMR",),defaut="CG" ),
+
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         INFO            =SIMP(statut='f',typ='I',into=(1,2) ),
+)  ;
+#& 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
+# 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 DEVESA G.DEVESA
+def rest_cond_tran_prod(RESULTAT,**args ):
+ 
+  if AsType(RESULTAT) == evol_noli  : return dyna_trans
+  if AsType(RESULTAT) == dyna_trans : return dyna_trans
+
+  raise AsException("type de concept resultat non prevu")
+
+REST_COND_TRAN=OPER(nom="REST_COND_TRAN",op=  78,sd_prod=rest_cond_tran_prod,
+                    fr="Restituer dans la base physique des résultats issus d'un calcul" 
+                        +"non-lineaire avec projection modale ou d'un calcul transitoire linear"
+                        +"avec condensation dynamique",
+                    reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+        regles=(
+                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 ),
+         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='**' ),  
+         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='**' ),
+         CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("ABSOLU","RELATIF") ),
+         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',),),
+         INTERPOL        =SIMP(statut='f',typ='TXM',defaut="NON",into=("NON","LIN") ),
+         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=3,defaut="ACCE",   
+                               into=("DEPL","VITE","ACCE",) ),),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**' ),  
+)  ;
+#& 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
+# 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 BOYERE E.BOYERE
+
+def rest_gene_phys_prod(RESU_GENE,**args ):
+  if AsType(RESU_GENE) == tran_gene : return dyna_trans
+  if AsType(RESU_GENE) == mode_gene : return mode_meca
+  if AsType(RESU_GENE) == harm_gene : return dyna_harmo
+  
+  raise AsException("type de concept resultat non prevu")
+
+REST_GENE_PHYS=OPER(nom="REST_GENE_PHYS",op=  75,sd_prod=rest_gene_phys_prod,
+                    fr="Restituer dans la base physique des résultats en coordonnées généralisées",
+                    reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+        regles=(
+                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'),             
+                EXCLUS('NOEUD','GROUP_NO'),
+                EXCLUS('MAILLE','GROUP_MA'),
+                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) ),
+         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='**' ), 
+         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") ),
+         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',),),
+         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",) ),
+         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='**'),
+         MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+         ACCE_MONO_APPUI =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+         DIRECTION       =SIMP(statut='f',typ='R',min=3,max=3 ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**' ),  
+)  ;
+#& 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
+# 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 CORUS M.CORUS
+def rest_sous_struc_prod(RESU_GENE,RESULTAT,**args ):
+  if AsType(RESU_GENE) == tran_gene : return dyna_trans
+  if AsType(RESU_GENE) == mode_gene : return mode_meca
+  if AsType(RESU_GENE) == mode_cycl : return mode_meca
+  if AsType(RESU_GENE) == harm_gene : return dyna_harmo
+  if AsType(RESULTAT)  == evol_noli      : return evol_noli
+  if AsType(RESULTAT)  == dyna_trans     : return dyna_trans
+  if AsType(RESULTAT)  == mode_meca      : return mode_meca
+  if AsType(RESULTAT)  == base_modale    : return base_modale
+  raise AsException("type de concept resultat non prevu")
+
+REST_SOUS_STRUC=OPER(nom="REST_SOUS_STRUC",op=  77,sd_prod=rest_sous_struc_prod,
+          fr="Restituer dans la base physique des résultats obtenus par sous-structuration",
+                    reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+        regles=(UN_PARMI('RESU_GENE','RESULTAT'),
+# 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'),
+
+                ),
+         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) ),
+         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='**' ),  
+         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 ),
+         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") ),
+         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',),),
+         INTERPOL        =SIMP(statut='f',typ='TXM',defaut="NON",into=("NON","LIN") ),
+         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='**'),
+         MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+         CYCLIQUE    =FACT(statut='f',max='**',
+           NB_SECTEUR      =SIMP(statut='f',typ='I',validators=NoRepeat(),max=1 ),
+           NUME_DIAMETRE    =SIMP(statut='f',typ='I',validators=NoRepeat(),max=1 ),
+           RESULTAT2       =SIMP(statut='f',typ=(evol_elas,evol_noli,dyna_trans,evol_char,
+                                               mode_meca,mode_stat_depl,base_modale) ),
+         ),
+
+         SQUELETTE       =SIMP(statut='f',typ=squelette ),
+         SOUS_STRUC      =SIMP(statut='f',typ='TXM' ),  
+         SECTEUR         =SIMP(statut='f',typ='I',defaut= 1 ),  
+         TITRE           =SIMP(statut='f',typ='TXM',max='**' ),  
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 ADOBES A.ADOBES
+REST_SPEC_PHYS=OPER(nom="REST_SPEC_PHYS",op= 148,sd_prod=table_fonction,
+                    reentrant='n',
+            fr="Calculer la réponse d'une structure dans la base physique",
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+         regles=(AU_MOINS_UN('BASE_ELAS_FLUI','MODE_MECA'),),        
+         BASE_ELAS_FLUI  =SIMP(statut='f',typ=melasflu_sdaster ),
+         MODE_MECA       =SIMP(statut='f',typ=(mode_meca, base_modale ),),
+         BANDE           =SIMP(statut='f',typ='R',min=2,validators=NoRepeat(),max=2    ),  
+         NUME_ORDRE      =SIMP(statut='f',typ='I'      ,validators=NoRepeat(),max='**' ),
+         TOUT_ORDRE       =SIMP(statut='f',typ='TXM',defaut="NON",  into=("OUI","NON")  ),
+         INTE_SPEC_GENE  =SIMP(statut='o',typ=table_fonction),
+         NOEUD           =SIMP(statut='o',typ=no   ,max='**'),
+         MAILLE          =SIMP(statut='f',typ=ma   ,max='**'),
+         NOM_CMP         =SIMP(statut='o',typ='TXM',max='**'),  
+         NOM_CHAM        =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max=7,    
+                               into=("DEPL","VITE","ACCE","EFGE_ELNO_DEPL",
+                                     "SIPO_ELNO_DEPL","SIGM_ELNO_DEPL","FORC_NODA") ),
+         MODE_STAT       =SIMP(statut='f',typ=(mode_stat_depl,mode_stat_acce,mode_stat_forc), ),
+         EXCIT           =FACT(statut='f',
+           NOEUD           =SIMP(statut='o',typ=no   ,max='**'),
+           NOM_CMP         =SIMP(statut='o',typ='TXM',max='**'),  
+         ),
+         MOUVEMENT       =SIMP(statut='f',typ='TXM',defaut="ABSOLU",into=("RELATIF","ABSOLU","DIFFERENTIEL") ),
+         OPTION          =SIMP(statut='f',typ='TXM',defaut="DIAG_DIAG",    
+                               into=("DIAG_TOUT","DIAG_DIAG","TOUT_TOUT","TOUT_DIAG") ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**' ),  
+)  ;
+#& MODIF COMMANDE  DATE 06/10/2008   AUTEUR DEVESA G.DEVESA 
+#            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.        
+# ======================================================================
+# RESPONSABLE DEVESA G.DEVESA
+def rest_spec_temp_prod(RESU_GENE,RESULTAT,**args):
+  if AsType(RESULTAT) == dyna_harmo    : return dyna_trans
+  if AsType(RESU_GENE) == harm_gene    : return tran_gene
+  if AsType(RESULTAT) == dyna_trans    : return dyna_harmo
+  if AsType(RESU_GENE) == tran_gene    : return harm_gene
+  raise AsException("type de concept resultat non prevu")
+
+
+REST_SPEC_TEMP=OPER(nom="REST_SPEC_TEMP",op=181,sd_prod=rest_spec_temp_prod,
+              fr="Transformée de Fourier d'un résultat",
+              reentrant='n',
+            UIinfo={"groupes":("Matrices/vecteurs",)},
+         regles=UN_PARMI('RESU_GENE','RESULTAT'),
+         RESU_GENE       =SIMP(statut='f',typ=(harm_gene,tran_gene,) ),
+         RESULTAT        =SIMP(statut='f',typ=(dyna_harmo,dyna_trans,) ),
+         METHODE         =SIMP(statut='f',typ='TXM',defaut="PROL_ZERO",into=("PROL_ZERO","TRONCATURE") ),
+         SYMETRIE        =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         TOUT_CHAM       =SIMP(statut='f',typ='TXM',into=("OUI",)),
+         NOM_CHAM        =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max=3,into=("DEPL","VITE","ACCE") ),
+);
+#& MODIF COMMANDE  DATE 30/09/2008   AUTEUR REZETTE C.REZETTE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2006  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.        
+# ======================================================================
+# RESPONSABLE PROIX J.M.PROIX
+# -*- coding: iso-8859-1 -*-
+
+from Macro.simu_point_mat_ops import simu_point_mat_ops
+
+SIMU_POINT_MAT=MACRO(nom="SIMU_POINT_MAT", op=simu_point_mat_ops,sd_prod=table_sdaster,
+                   UIinfo={"groupes":("Résolution",)},
+                   fr="Calcul de l'évolution mécanique, en quasi-statique,"
+                      +" d'un point matériel en non linéaire",
+   COMP_INCR       =C_COMP_INCR(),
+   COMP_ELAS       =FACT(statut='f',max='**',
+           RESI_INTE_RELA  =SIMP(statut='f',typ='R',defaut= 1.0E-6),
+           ITER_INTE_MAXI  =SIMP(statut='f',typ='I',defaut= 10 ),
+           RELATION        =SIMP(statut='o',typ='TXM',defaut="ELAS",
+                                 into=("ELAS","ELAS_VMIS_LINE","ELAS_VMIS_TRAC",
+                                      "ELAS_POUTRE_GR","CABLE","ELAS_HYPER")),
+           DEFORMATION     =SIMP(statut='f',typ='TXM',defaut="PETIT" ,into=("PETIT","GREEN","GREEN_GR",) ),
+         ),
+   MATER           =SIMP(statut='o',typ=mater_sdaster,max=30),
+   INCREMENT       =FACT(statut='o',
+           LIST_INST       =SIMP(statut='o',typ=listr8_sdaster),
+           NUME_INST_INIT  =SIMP(statut='f',typ='I'),
+           INST_INIT       =SIMP(statut='f',typ='R'),
+           NUME_INST_FIN   =SIMP(statut='f',typ='I'),
+           INST_FIN        =SIMP(statut='f',typ='R'),
+           PRECISION       =SIMP(statut='f',typ='R',defaut= 1.E-6,),
+           # DEBUT DE BLOC POUR LA SUBDIVISION DES PAS DE TEMPS
+           SUBD_METHODE    =SIMP( statut='f',typ='TXM',
+              into =("AUCUNE","UNIFORME","EXTRAPOLE"),
+              defaut="AUCUNE",
+              fr="Méthode de subdivision des pas de temps en cas de non-convergence"
+           ),
+           b_subd_unif=BLOC(condition = "SUBD_METHODE == 'UNIFORME'",
+             regles=(AU_MOINS_UN('SUBD_NIVEAU','SUBD_PAS_MINI'),),
+             SUBD_COEF_PAS_1=SIMP(statut='f',typ='R',defaut=1.0,val_min=0.0,
+                fr="Coefficient multiplicateur de la 1ère subdivision"),
+             SUBD_PAS       =SIMP(statut='f',typ='I',defaut=4,val_min=2,
+                fr="Nombre de subdivision d'un pas de temps"),
+             SUBD_NIVEAU=SIMP(statut='f',typ='I',val_min=2,
+                fr="Nombre maximum de niveau de subdivision d'un pas de temps"),
+             SUBD_PAS_MINI=SIMP(statut='f',typ='R',val_min=0.0,
+                fr="Pas de temps en dessous duquel on ne subdivise plus"),
+           ),
+           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",), 
+                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,
+                fr="Les n premières itérations sont ignorées pour l'extrapolation"),
+             SUBD_ITER_FIN  =SIMP(statut='c',typ='I',defaut=8,val_min=3,
+                fr="Seules les n dernières itérations sont prises pour l'extrapolation"),
+             SUBD_PAS       =SIMP(statut='c',typ='I',defaut=4,val_min=2,
+                fr="Nombre de subdivision d'un pas de temps en cas divergence"),
+             SUBD_NIVEAU=SIMP(statut='f',typ='I',val_min=2,
+                fr="Nombre maximum de niveau de subdivision d'un pas de temps"),
+             SUBD_PAS_MINI=SIMP(statut='f',typ='R',val_min=0.0,
+                fr="Pas de temps en dessous duquel on ne subdivise plus"),
+             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 
+         ),
+   NEWTON          =FACT(statut='d',
+           PREDICTION      =SIMP(statut='f',typ='TXM',into=("TANGENTE","ELASTIQUE","EXTRAPOL") ),
+           MATRICE         =SIMP(statut='f',typ='TXM',defaut="TANGENTE",into=("TANGENTE","ELASTIQUE") ),
+           PAS_MINI_ELAS   =SIMP(statut='f',typ='R',defaut=0.0E+0),
+           REAC_ITER       =SIMP(statut='f',typ='I',defaut=1),
+           REAC_ITER_ELAS  =SIMP(statut='f',typ='I',defaut=0),
+         ),
+   RECH_LINEAIRE   =FACT(statut='f',                                          
+     RESI_LINE_RELA  =SIMP(statut='f',typ='R',defaut= 1.0E-1 ),               
+     ITER_LINE_MAXI  =SIMP(statut='f',typ='I',defaut= 3),                     
+     ITER_LINE_CRIT  =SIMP(statut='f',typ='I',defaut= 20),                    
+     PAS_MINI_CRIT   =SIMP(statut='f',typ='R',defaut=0.0E+0),                 
+     RHO_MIN         =SIMP(statut='f',typ='R',defaut=1.0E-2),                 
+     RHO_MAX         =SIMP(statut='f',typ='R',defaut=1.0E+1),                 
+     RHO_EXCL        =SIMP(statut='f',typ='R',defaut=0.9E-2,val_min=0.),      
+   ),                                                                         
+   CONVERGENCE     =FACT(statut='d',
+     regles=(PRESENT_ABSENT('RESI_REFE_RELA','RESI_GLOB_MAXI','RESI_GLOB_RELA'),),
+     SIGM_REFE       =SIMP(statut='f',typ='R'),
+     EPSI_REFE       =SIMP(statut='f',typ='R'),
+     RESI_REFE_RELA  =SIMP(statut='f',typ='R'),
+     RESI_GLOB_MAXI  =SIMP(statut='f',typ='R'),
+     RESI_GLOB_RELA  =SIMP(statut='f',typ='R'),
+     ITER_GLOB_MAXI  =SIMP(statut='f',typ='I',defaut=50),
+     ITER_GLOB_ELAS  =SIMP(statut='f',typ='I',defaut=25),
+     ARRET           =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+   ),
+   SUIVI_DDL      = FACT(statut='f',max=4,                                                                   
+       NUME_SUIVI      =SIMP(statut='o',typ='I' ,min=1,max=4),                                               
+       NOM_CHAM        =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max=1,                               
+                             into=("DEPL","SIEF_ELGA","VARI_ELGA",)),                                        
+       NOM_CMP         =SIMP(statut='o',typ='TXM',max=1 ),                                                   
+   ),                                                                                                        
+   ARCHIVAGE       =FACT(statut='f',
+     regles=(EXCLUS('PAS_ARCH','LIST_INST','INST'),
+            EXCLUS('ARCH_ETAT_INIT','NUME_INIT'), ),  
+     LIST_INST       =SIMP(statut='f',typ=(listr8_sdaster) ),                                                 
+     INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**' ),
+     PAS_ARCH        =SIMP(statut='f',typ='I' ),
+     PRECISION       =SIMP(statut='f',typ='R',defaut= 1.E-6),
+     ARCH_ETAT_INIT  =SIMP(statut='f',typ='TXM',into=("OUI",)),
+     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")),
+            ),       
+   MODELISATION  =SIMP(statut='f',typ='TXM',defaut="3D",validators=NoRepeat(),max=1,
+                       into=("3D","C_PLAN","D_PLAN",)),                                                       
+   b_3D = BLOC(condition="MODELISATION ==  '3D'",
+                       fr="Trajets de chargement en 3D",                    
+          SIGM_IMPOSE=FACT(statut='f',
+                 SIXX = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+                 SIYY = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+                 SIZZ = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+                 SIXY = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+                 SIXZ = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+                 SIYZ = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+                            ),
+          EPSI_IMPOSE=FACT(statut='f',
+                 EPXX = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+                 EPYY = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+                 EPZZ = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+                 EPXY = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+                 EPXZ = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+                 EPYZ = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+                            ),
+            ),
+            
+   b_2D = BLOC(condition="MODELISATION !=  '3D'",
+                    fr="Trajets de chargement en 2D",
+                    
+         SIGM_IMPOSE=FACT(statut='f',
+                SIXX = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+                SIYY = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+                SIXY = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+                           ),
+         EPSI_IMPOSE=FACT(statut='f',
+                EPXX = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+                EPYY = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+                EPXY = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+                           ),
+             ),
+
+   b_3Dini = BLOC(condition="MODELISATION ==  '3D'",
+                      fr="Etat initial en 3D",                    
+          SIGM_INIT=FACT(statut='f',
+                 SIXX = SIMP(statut='f',typ='R',max=1,defaut=0.0E+0),
+                 SIYY = SIMP(statut='f',typ='R',max=1,defaut=0.0E+0),
+                 SIZZ = SIMP(statut='f',typ='R',max=1,defaut=0.0E+0),
+                 SIXY = SIMP(statut='f',typ='R',max=1,defaut=0.0E+0),
+                 SIXZ = SIMP(statut='f',typ='R',max=1,defaut=0.0E+0),
+                 SIYZ = SIMP(statut='f',typ='R',max=1,defaut=0.0E+0),
+                            ),
+          EPSI_INIT=FACT(statut='f',
+                 EPXX = SIMP(statut='o',typ='R',max=1),
+                 EPYY = SIMP(statut='o',typ='R',max=1),
+                 EPZZ = SIMP(statut='o',typ='R',max=1),
+                 EPXY = SIMP(statut='o',typ='R',max=1),
+                 EPXZ = SIMP(statut='o',typ='R',max=1),
+                 EPYZ = SIMP(statut='o',typ='R',max=1),
+                            ),
+          VARI_INIT=FACT(statut='f',
+                 VALE = SIMP(statut='o',typ='R',max='**'),
+                            ),
+            ),
+            
+   b_2Dini = BLOC(condition="MODELISATION !=  '3D'",
+                    fr="Etat initial en 2D",
+                    
+         SIGM_INIT=FACT(statut='f',
+                SIXX = SIMP(statut='f',typ='R',max=1,defaut=0.0E+0),
+                SIYY = SIMP(statut='f',typ='R',max=1,defaut=0.0E+0),
+                SIXY = SIMP(statut='f',typ='R',max=1,defaut=0.0E+0),
+                           ),
+         EPSI_INIT=FACT(statut='f',
+                EPXX = SIMP(statut='o',typ='R',max=1),
+                EPYY = SIMP(statut='o',typ='R',max=1),
+                EPXY = SIMP(statut='o',typ='R',max=1),
+                           ),
+          VARI_INIT=FACT(statut='f',
+                 VALE    = SIMP(statut='o',typ='R',max='**'),
+                            ),
+             ),
+   INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2) ),
+)
+
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2004  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.        
+# ======================================================================
+# RESPONSABLE ASSIRE A.ASSIRE
+
+from Macro.stanley_ops import stanley_ops
+
+STANLEY=MACRO(nom="STANLEY",op=stanley_ops,sd_prod=None,
+                       reentrant='n',
+              UIinfo={"groupes":("Outils métier",)},
+                       fr="Outil de post-traitement interactif Stanley ",
+         RESULTAT        =SIMP(statut='f',typ=(evol_elas,evol_noli,evol_ther,mode_meca,mode_stat,dyna_harmo,dyna_trans) ),
+         MODELE          =SIMP(statut='f',typ=modele_sdaster),
+         CHAM_MATER      =SIMP(statut='f',typ=cham_mater),
+         CARA_ELEM       =SIMP(statut='f',typ=cara_elem),
+         DISPLAY         =SIMP(statut='f',typ='TXM'),
+         UNITE_VALIDATION=SIMP(statut='c',typ='I',val_min=10,val_max=90,
+                               fr="Unité logique définissant le fichier (fort.N) dans lequel on écrit les md5"),
+
+)  ;
+#& 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
+# 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 ABBAS M.ABBAS
+#
+STAT_NON_LINE=OPER(nom="STAT_NON_LINE",op=70,sd_prod=evol_noli,
+                   fr="Calcul de l'évolution mécanique ou thermo-hydro-mécanique couplée, en quasi-statique,"
+                      +" d'une structure en non linéaire",
+                   reentrant='f',
+            UIinfo={"groupes":("Résolution",)},
+         regles=(AU_MOINS_UN('COMP_INCR','COMP_ELAS'),
+                 CONCEPT_SENSIBLE('ENSEMBLE'),),
+         MODELE          =SIMP(statut='o',typ=modele_sdaster),
+         CHAM_MATER      =SIMP(statut='o',typ=cham_mater),
+         CARA_ELEM       =SIMP(statut='f',typ=cara_elem),
+         EXCIT           =FACT(statut='o',max='**',
+           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")),
+         ),
+         SOUS_STRUC      =FACT(statut='f',min=01,max='**',
+                regles=(UN_PARMI('TOUT','SUPER_MAILLE'),),
+                CAS_CHARGE  =SIMP(statut='o',typ='TXM' ),
+                TOUT        =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+                SUPER_MAILLE=SIMP(statut='f',typ=ma,validators=NoRepeat(),max='**',),
+                FONC_MULT   =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+              ),
+         COMP_INCR       =C_COMP_INCR(),
+         COMP_ELAS       =FACT(statut='f',max='**',
+           RESI_INTE_RELA  =SIMP(statut='f',typ='R',defaut= 1.0E-6),
+           ITER_INTE_MAXI  =SIMP(statut='f',typ='I',defaut= 10 ),
+           ITER_INTE_PAS   =SIMP(statut='f',typ='I',defaut= 0 ),
+           RESO_INTE       =SIMP(statut='f',typ='TXM',defaut="IMPLICITE",
+                                 into=("RUNGE_KUTTA_2","RUNGE_KUTTA_4","IMPLICITE")),
+           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",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+         ),
+         b_reuse =BLOC(condition = "reuse",fr="en mode concept reentrant : ETAT_INIT obligatoire",
+           ETAT_INIT       =FACT(statut='o',
+             regles=(AU_MOINS_UN('EVOL_NOLI','DEPL','SIGM','VARI',),
+                     EXCLUS('EVOL_NOLI','DEPL',),
+                     EXCLUS('EVOL_NOLI','SIGM',),
+                     EXCLUS('EVOL_NOLI','VARI',),
+                     EXCLUS('NUME_ORDRE','INST'), ),
+             DEPL            =SIMP(statut='f',typ=cham_no_sdaster),
+             SIGM            =SIMP(statut='f',typ=(cham_elem,carte_sdaster)),
+             VARI            =SIMP(statut='f',typ=cham_elem),
+             EVOL_NOLI       =SIMP(statut='f',typ=evol_noli),
+             NUME_ORDRE      =SIMP(statut='f',typ='I'),
+             INST            =SIMP(statut='f',typ='R'),
+             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',),),
+             NUME_DIDI       =SIMP(statut='f',typ='I'),
+             INST_ETAT_INIT  =SIMP(statut='f',typ='R'),
+         ),),
+         b_not_reuse =BLOC(condition = "not reuse",fr="en mode concept non reentrant : ETAT_INIT facultatif",
+           ETAT_INIT       =FACT(statut='f',
+             regles=(AU_MOINS_UN('EVOL_NOLI','DEPL','SIGM','VARI',),
+                     EXCLUS('EVOL_NOLI','DEPL',),
+                     EXCLUS('EVOL_NOLI','SIGM',),
+                     EXCLUS('EVOL_NOLI','VARI',),
+                     EXCLUS('NUME_ORDRE','INST'), ),
+             DEPL            =SIMP(statut='f',typ=cham_no_sdaster),
+             SIGM            =SIMP(statut='f',typ=(cham_elem,carte_sdaster)),
+             VARI            =SIMP(statut='f',typ=cham_elem),
+             EVOL_NOLI       =SIMP(statut='f',typ=evol_noli),
+             NUME_ORDRE      =SIMP(statut='f',typ='I'),
+             INST            =SIMP(statut='f',typ='R'),
+             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',),),
+             NUME_DIDI       =SIMP(statut='f',typ='I'),
+             INST_ETAT_INIT  =SIMP(statut='f',typ='R'),
+         ),),
+         INCREMENT       =FACT(statut='o',
+           regles=(EXCLUS('NUME_INST_INIT','INST_INIT'),
+                   EXCLUS('NUME_INST_FIN','INST_FIN'),),
+           LIST_INST       =SIMP(statut='o',typ=listr8_sdaster),
+           NUME_INST_INIT  =SIMP(statut='f',typ='I'),
+           INST_INIT       =SIMP(statut='f',typ='R'),
+           NUME_INST_FIN   =SIMP(statut='f',typ='I'),
+           INST_FIN        =SIMP(statut='f',typ='R'),
+           ERRE_TEMPS      =SIMP(statut='f',typ='TXM',into=("OUI","NON"),defaut="NON",
+                                 fr="Adaptation temporelle pour les modélisations HM instationnaires",
+                                 ang="Time adaptation for unstationary HM models"),
+           PRECISION       =SIMP(statut='f',typ='R',defaut=1.0E-6 ),
+           # DEBUT DE BLOC POUR LA SUBDIVISION DES PAS DE TEMPS
+           SUBD_METHODE    =SIMP( statut='f',typ='TXM',
+              into =("AUCUNE","UNIFORME","EXTRAPOLE"),
+              defaut="UNIFORME",
+              fr="Méthode de subdivision des pas de temps en cas de non-convergence"
+           ),
+           b_subd_unif=BLOC(condition = "SUBD_METHODE == 'UNIFORME'",
+             regles=(AU_MOINS_UN('SUBD_NIVEAU','SUBD_PAS_MINI'),),
+             SUBD_COEF_PAS_1=SIMP(statut='f',typ='R',defaut=1.0,val_min=0.0,
+                fr="Coefficient multiplicateur de la 1ère subdivision"),
+             SUBD_PAS       =SIMP(statut='f',typ='I',defaut=4,val_min=2,
+                fr="Nombre de subdivision d'un pas de temps"),
+             SUBD_NIVEAU=SIMP(statut='f',typ='I',val_min=2,defaut=3,
+                fr="Nombre maximum de niveau de subdivision d'un pas de temps"),
+             SUBD_PAS_MINI=SIMP(statut='f',typ='R',val_min=0.0,
+                fr="Pas de temps en dessous duquel on ne subdivise plus"),
+           ),
+           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",),
+                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,
+                fr="Les n premières itérations sont ignorées pour l'extrapolation"),
+             SUBD_ITER_FIN  =SIMP(statut='c',typ='I',defaut=8,val_min=3,
+                fr="Seules les n dernières itérations sont prises pour l'extrapolation"),
+             SUBD_PAS       =SIMP(statut='c',typ='I',defaut=4,val_min=2,
+                fr="Nombre de subdivision d'un pas de temps en cas divergence"),
+             SUBD_NIVEAU=SIMP(statut='f',typ='I',val_min=2,
+                fr="Nombre maximum de niveau de subdivision d'un pas de temps"),
+             SUBD_PAS_MINI=SIMP(statut='f',typ='R',val_min=0.0,
+                fr="Pas de temps en dessous duquel on ne subdivise plus"),
+             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
+         ),
+         NEWTON          =FACT(statut='d',
+           REAC_INCR       =SIMP(statut='f',typ='I',defaut= 1,val_min=0),
+           PREDICTION      =SIMP(statut='f',typ='TXM',into=("DEPL_CALCULE","TANGENTE","ELASTIQUE","EXTRAPOL") ),
+           MATRICE         =SIMP(statut='f',typ='TXM',defaut="TANGENTE",into=("TANGENTE","ELASTIQUE") ),
+           PAS_MINI_ELAS   =SIMP(statut='f',typ='R',val_min=0.0),
+           REAC_ITER       =SIMP(statut='f',typ='I',defaut=0,val_min=0),
+           REAC_ITER_ELAS  =SIMP(statut='f',typ='I',defaut=0,val_min=0),
+           EVOL_NOLI       =SIMP(statut='f',typ=evol_noli),
+         ),
+         RECH_LINEAIRE   =FACT(statut='f',
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="CORDE",into=("CORDE","MIXTE") ),
+           RESI_LINE_RELA  =SIMP(statut='f',typ='R',defaut= 1.0E-1 ),
+           ITER_LINE_MAXI  =SIMP(statut='f',typ='I',defaut= 3,val_max=999),
+           ITER_LINE_CRIT  =SIMP(statut='f',typ='I',defaut= 20),
+           PAS_MINI_CRIT   =SIMP(statut='f',typ='R',defaut=0.0E+0),
+           RHO_MIN         =SIMP(statut='f',typ='R',defaut=1.0E-2),
+           RHO_MAX         =SIMP(statut='f',typ='R',defaut=1.0E+1),
+           RHO_EXCL        =SIMP(statut='f',typ='R',defaut=0.9E-2,val_min=0.),
+         ),
+         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","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'),
+           ETA_PILO_R_MAX  =SIMP(statut='f',typ='R'),
+           ETA_PILO_R_MIN  =SIMP(statut='f',typ='R'),
+           PROJ_BORNES     =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+           SELECTION       =SIMP(statut='f',typ='TXM',defaut="NORM_INCR_DEPL", into=("RESIDU","ANGL_INCR_DEPL","NORM_INCR_DEPL") ),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma ,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma   ,validators=NoRepeat(),max='**'),
+           NOEUD           =SIMP(statut='f',typ=no   ,validators=NoRepeat(),max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno ,validators=NoRepeat(),max='**'),
+           NOM_CMP         =SIMP(statut='f',typ='TXM',max='**'),
+                         ),
+         CONVERGENCE     =FACT(statut='d',
+           regles=(PRESENT_ABSENT('RESI_REFE_RELA','RESI_GLOB_MAXI','RESI_GLOB_RELA'),),
+           b_refe_rela    =BLOC(condition = "RESI_REFE_RELA != None",
+             regles=(AU_MOINS_UN('SIGM_REFE','EPSI_REFE','FLUX_THER_REFE','FORC_REFE',
+                                  'FLUX_HYD1_REFE','FLUX_HYD2_REFE','VARI_REFE','DEPL_REFE'),),
+             FORC_REFE       =SIMP(statut='f',typ='R',min=2,max=2,
+                fr="Force et Moment de référence pour les éléments de structure."),
+             SIGM_REFE       =SIMP(statut='f',typ='R'),
+             DEPL_REFE       =SIMP(statut='f',typ='R'),
+             EPSI_REFE       =SIMP(statut='f',typ='R'),
+             FLUX_THER_REFE  =SIMP(statut='f',typ='R'),
+             FLUX_HYD1_REFE  =SIMP(statut='f',typ='R'),
+             FLUX_HYD2_REFE  =SIMP(statut='f',typ='R'),
+             VARI_REFE       =SIMP(statut='f',typ='R'),
+           ),
+           RESI_REFE_RELA  =SIMP(statut='f',typ='R'),
+           RESI_GLOB_MAXI  =SIMP(statut='f',typ='R'),
+           RESI_GLOB_RELA  =SIMP(statut='f',typ='R'),
+           ITER_GLOB_MAXI  =SIMP(statut='f',typ='I',defaut=10),
+           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' ",
 
-                b_acoustique    =BLOC( condition = "PHENOMENE=='ACOUSTIQUE'",
-                                        fr="modélisations acoustiques",
-                     MODELISATION    =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',into=(
-                                  "3D",              # RESP. : None
-                                  "PLAN"             # RESP. : None
-                                                                       ), ),),
+             PLATEAU_ITER    =SIMP(statut='f',typ='I',defaut=3, val_min =2),
+             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',
+           METHODE=SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("MULT_FRONT","LDLT","GCPC","MUMPS","FETI","PETSC") ),
+           b_mult_front    =BLOC(condition = "METHODE == 'MULT_FRONT' ",fr="Paramètres de la méthode multi frontale",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+           ),
+           b_ldlt         =BLOC(condition = "METHODE == 'LDLT' ",fr="Paramètres de la méthode LDLT",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("RCMK","SANS") ),
+           ),
+           b_ldlt_mult    =BLOC(condition = "METHODE == 'LDLT' or METHODE == 'MULT_FRONT' or METHODE == 'FETI'",
+                                   fr="Paramètres relatifs à la non inversibilité de la matrice à factoriser",
+             NPREC           =SIMP(statut='f',typ='I',defaut= 8 ),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON","DECOUPE") ),
+           ),
+           b_gcpc         =BLOC(condition = "METHODE == 'GCPC' ", fr="Paramètres de la méthode du gradient conjugué",
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC",),defaut="LDLT_INC" ),
+             NIVE_REMPLISSAGE=SIMP(statut='f',typ='I',defaut= 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= 0 ),
+           ),
+           b_mumps        =BLOC(condition = "METHODE == 'MUMPS' ",fr="Paramètres de la méthode MUMPS",
+             TYPE_RESOL      =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("NONSYM","SYMGEN","SYMDEF","AUTO")),
+             PRETRAITEMENTS  =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("SANS","AUTO")),
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("AMD","AMF","PORD","METIS","QAMD","AUTO")),
+             ELIM_LAGR2      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+             PCENT_PIVOT     =SIMP(statut='f',typ='I',defaut=10,),
+             RESI_RELA       =SIMP(statut='f',typ='R',defaut=-1.0,),
+             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,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",
+             PARTITION       =SIMP(statut='o',typ=sd_feti_sdaster),
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+             RESI_RELA       =SIMP(statut='f',typ='R',defaut=1.E-6,val_min=0.),
+             NMAX_ITER       =SIMP(statut='f',typ='I',defaut=0,val_min=0),
+             REAC_RESI       =SIMP(statut='f',typ='I',defaut=0,val_min=0),
+             TYPE_REORTHO_DD =SIMP(statut='f',typ='TXM',defaut="GSM",into=("SANS","GS","GSM","IGSM") ),
+             NB_REORTHO_DD   =SIMP(statut='f',typ='I',defaut=0,val_min=0),
+             NB_REORTHO_INST =SIMP(statut='f',typ='I',defaut=0,val_min=0),
+             PRE_COND        =SIMP(statut='f',typ='TXM',defaut="LUMPE",into=("LUMPE","SANS") ),
+             SCALING         =SIMP(statut='f',typ='TXM',defaut="MULT",into=("SANS","MULT") ),
+             VERIF_SDFETI    =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+             TEST_CONTINU    =SIMP(statut='f',typ='R',defaut=1.E-8,val_min=0.),
+             INFO_FETI       =SIMP(statut='f',typ='TXM',defaut='FFFFFFFFFFFFFFFFFFFFFFFF'),
+             STOCKAGE_GI     =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON","CAL") ),
+             NB_SD_PROC0     =SIMP(statut='f',typ='I',defaut=0,val_min=0),
+             ACCELERATION_SM =SIMP(statut='f',typ='TXM',defaut="OUI",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" ),
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC","JACOBI","SOR"),defaut="LDLT_INC" ),
+             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") ),
+         ),
+         ARCHIVAGE       =FACT(statut='f',
+           regles=(EXCLUS('PAS_ARCH','LIST_INST','INST'),
+                   EXCLUS('ARCH_ETAT_INIT','NUME_INIT'), ),
+           LIST_INST       =SIMP(statut='f',typ=(listr8_sdaster) ),
+           INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**' ),
+           PAS_ARCH        =SIMP(statut='f',typ='I' ),
+           PRECISION       =SIMP(statut='f',typ='R',defaut= 1.0E-6),
+           ARCH_ETAT_INIT  =SIMP(statut='f',typ='TXM',into=("OUI",)),
+           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")),
+         ),
+         OBSERVATION     =FACT(statut='f',max='**',
+           NOM_CMP         =SIMP(statut='o',typ='TXM',max='**' ),
+           SUIVI_DDL       =SIMP(statut='f',typ='TXM',defaut="NON",max=1,into=("OUI","NON")),
+         b_suivi          =BLOC(condition = "SUIVI_DDL == 'OUI' ",
+                                regles=(UN_PARMI('NOEUD','MAILLE','GROUP_NO','GROUP_MA','VALE_MIN','VALE_MAX'),
+                                                  PRESENT_PRESENT('MAILLE','POINT'),),
+             NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+             GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+             POINT           =SIMP(statut='f',typ='I' ,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             NOM_CHAM        =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max=1,
+                                   into=("DEPL","VITE","ACCE","SIEF_ELGA",
+                                         "VARI_ELGA","FORC_NODA","DEPL_ABSOLU","VITE_ABSOLU","ACCE_ABSOLU",)),
+             GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+             NUME_SUIVI      =SIMP(statut='o',typ='I' ,min=1,max=4),
+             VALE_MAX        =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max=1,into=("OUI",) ),
+             VALE_MIN        =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max=1,into=("OUI",) ),),
+         b_non_suivi      =BLOC(condition = "SUIVI_DDL == 'NON' ",
+                                regles=(UN_PARMI('NOEUD','GROUP_NO','MAILLE'),PRESENT_PRESENT('MAILLE','POINT'),),
+             NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+             GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+             POINT           =SIMP(statut='f',typ='I' ,validators=NoRepeat(),max='**'),
+             MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+             NOM_CHAM        =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',into=("DEPL","VITE","ACCE","SIEF_ELGA",
+                                              "VARI_ELGA","DEPL_ABSOLU","VITE_ABSOLU","ACCE_ABSOLU","VALE_CONT")),
+             INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**' ),
+             LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+             PAS_OBSE        =SIMP(statut='f',typ='I'),
+             LIST_ARCH       =SIMP(statut='f',typ=listis_sdaster),
+             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',),),),
          ),
 
-         VERI_JACOBIEN  =SIMP(statut='f',typ='TXM',into=('OUI','NON'),defaut='OUI',
-                              fr ="Vérification de la forme des mailles (jacobiens tous de meme signe).",),
-) ;
-#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE
+         AFFICHAGE      = FACT(statut='f',max=16,
+
+            UNITE       = SIMP(statut='f',typ='I',val_min=1),
+
+            LONG_R      = SIMP(statut='f',typ='I',defaut=12,val_min=1,val_max=12),
+            PREC_R      = SIMP(statut='f',typ='I',defaut=5, val_min=1,val_max=8),
+            LONG_I      = SIMP(statut='f',typ='I',defaut=6, val_min=1,val_max=12),
+
+            NOM_COLONNE = SIMP(statut='o',typ='TXM',defaut="STANDARD",
+                                into=("STANDARD","MINIMUM",
+                                      "ITER_NEWT",
+                                      "INCR_TPS",
+                                      "RESI_RELA","RELA_NOEU",
+                                      "RESI_MAXI","MAXI_NOEU",
+                                      "RESI_REFE","REFE_NOEU",
+                                      "RELI_ITER","RELI_COEF",
+                                      "PILO_PARA",
+                                      "MATR_ASSE",
+                                      "ITER_DEBO",
+                                      "CTCD_ITER","CTCD_GEOM","CTCD_NOEU",
+                                      "CTCC_GEOM","CTCC_FROT","CTCC_CONT",
+                                      "SUIV_1","SUIV_2","SUIV_3","SUIV_4","ITER_FETI",
+                                     ),
+                               ),
+            b_residu    = BLOC(condition = " NOM_COLONNE == 'RESI_RELA' or \
+                    NOM_COLONNE == 'RESI_MAXI' or\
+                    NOM_COLONNE == 'RESI_REFE' or\
+                    NOM_COLONNE == 'CTCD_GEOM' or\
+                    NOM_COLONNE == 'STANDARD' ",
+                            INFO_RESIDU = SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON")),
+                          ),
+         ),
+
+
+
+         CRIT_FLAMB     =FACT(statut='f',min=1,max=1,
+           NB_FREQ         =SIMP(statut='f',typ='I',max=1,defaut=3),
+           CHAR_CRIT       =SIMP(statut='f',typ='R',min=2,max=2,defaut=(-10.0,10),
+                            fr="Valeur des deux charges critiques délimitant la bande de recherche en HPP"),
+           INST_CALCUL       =SIMP(statut='f',typ='TXM',defaut="LISTE_ARCHIVAGE",into=("LISTE_ARCHIVAGE","TOUT_PAS",) ),
+         ),
+           SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                               fr="Liste des paramètres de sensibilité",
+                               ang="List of sensitivity parameters"),
+         INFO            =SIMP(statut='f',typ='I',into=(1,2) ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**' ),
+ )
+
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            CONFIGURATION MANAGEMENT OF EDF VERSION
+# ======================================================================
+# COPYRIGHT (C) 1991 - 2004  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.        
+# ======================================================================
+# RESPONSABLE COURTOIS M.COURTOIS
+
+from Macro.test_fichier_ops import test_fichier_ops
+
+TEST_FICHIER=MACRO(nom="TEST_FICHIER", op=test_fichier_ops,
+                   UIinfo={"groupes":("Impression",)},
+                   fr="Tester la non régression de fichiers produits par des commandes aster",
+   FICHIER          =SIMP(statut='o',typ='TXM',validators=LongStr(1,255)),
+   EXPR_IGNORE      =SIMP(statut='f',typ='TXM',max='**',
+                          fr="Liste d'expressions régulières permettant d'ignorer certaines lignes"),
+
+   TYPE_TEST       =SIMP(statut='f',typ='TXM',defaut='SOMM',into=("SOMM_ABS","SOMM","MAXI","MINI","MAXI_ABS","MINI_ABS")),
+   NB_VALE         =SIMP(statut='o',typ='I',),
+   VALE            =SIMP(statut='f',typ='R',max='**'),
+   VALE_K          =SIMP(statut='f',typ='TXM'),
+
+   CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU")),
+   PRECISION       =SIMP(statut='f',typ='R',defaut= 1.0E-3),
+
+   REFERENCE       =SIMP(statut='f',typ='TXM',
+                         into=("ANALYTIQUE","SOURCE_EXTERNE","NON_REGRESSION","AUTRE_ASTER") ),
+
+   b_version       =BLOC(condition = "REFERENCE == 'NON_REGRESSION'",
+      VERSION         =SIMP(statut='f',typ='TXM' ),
+   ),
+
+   INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2) ),
+)
+#& 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
@@ -1621,20 +24861,79 @@ AFFE_MODELE=OPER(nom="AFFE_MODELE",op=18,sd_prod=modele_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 LEFEBVRE J.P.LEFEBVRE
-FIN=PROC(nom="FIN",op=9999,repetable='n',fr="Fin d'une étude, fin du travail engagé par une des commandes DEBUT ou POURSUITE",
-            UIinfo={"groupes":("Gestion du travail",)},
-         FORMAT_HDF      =SIMP(fr="sauvegarde de la base GLOBALE au format HDF",statut='f',
-                               typ='TXM',defaut="NON",into=("OUI","NON",) ),
-         RETASSAGE       =SIMP(fr="provoque le retassage de la base GLOBALE",
-                               statut='f',typ='TXM',defaut="NON",into=("OUI","NON",) ),
-         PERFORMANCE     =SIMP(fr="provoque l'impression d'un résumé des mesures de temps ",
-                               statut='f',typ='TXM',defaut="OUI",into=("OUI","NON",) ),
-         INFO_RESU       =SIMP(fr="provoque l'impression des informations sur les structures de données",
-                               statut='f',typ='TXM',defaut="OUI",into=("OUI","NON",) ),
-         UNITE           =SIMP(statut='f',typ='I',defaut=6),
+# RESPONSABLE COURTOIS M.COURTOIS
+TEST_FONCTION=PROC(nom="TEST_FONCTION",op= 135,
+            fr="Extraction d'une valeur numérique ou d'un attribut de fonction pour comparaison à une valeur de référence",
+            UIinfo={"groupes":("Impression",)},
+         TEST_NOOK       =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+         VALEUR          =FACT(statut='f',max='**',
+                               fr="Tester la valeur d une fonction ou d une nappe",
+           regles=(UN_PARMI('VALE_REFE','VALE_REFE_C',),
+                   DERIVABLE('FONCTION'),),
+           FONCTION        =SIMP(statut='o',typ=(fonction_sdaster,fonction_c,nappe_sdaster,formule) ),
+           SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),
+                                 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'  ,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") ),
+           CRITERE         =SIMP(statut='f',typ='TXM',fr="Critère de comparaison avec la solution de référence",
+                                 defaut="RELATIF",into=("RELATIF","ABSOLU") ),
+           PRECISION       =SIMP(statut='f',typ='R',fr="Ecart maximal autorisé avec la solution de référence",
+                                 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'",
+             VERSION         =SIMP(statut='f',typ='TXM' ),
+           ),
+         ),
+         ATTRIBUT        =FACT(statut='f',max='**',
+                               fr="Tester la valeur d un attribut d une fonction ou d''une nappe",
+           FONCTION        =SIMP(statut='o',typ=(fonction_sdaster,fonction_c,nappe_sdaster,formule) ),
+           PARA            =SIMP(statut='f',typ='R' ),
+           CRIT_PARA       =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU") ),
+           PREC_PARA       =SIMP(statut='f',typ='R',defaut= 1.E-3 ),
+           ATTR            =SIMP(statut='o',typ='TXM',
+                                 into=("NOM_PARA","NOM_RESU","PROL_DROITE","PROL_GAUCHE","INTERPOL",
+                                       "PROL_GAUCHE_FONC","PROL_DROITE_FONC","INTERPOL_FONC","NOM_PARA_FONC") ),
+           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'",
+             VERSION         =SIMP(statut='f',typ='TXM' ),
+           ),
+         ),
+         TABL_INTSP      =FACT(statut='f',max='**',
+                               fr="Tester la valeur d une fonction contenue dans une table interspectrale",
+           regles=(UN_PARMI('NUME_ORDRE_I','NOEUD_I'),),
+           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",
+             NUME_ORDRE_J    =SIMP(statut='o',typ='I' ),
+           ),
+           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' ),
+           ),
+           NUME_VITE_FLUI  =SIMP(statut='f',typ='I' ),
+           VALE_PARA       =SIMP(statut='o',typ='R' ),
+           VALE_REFE_C     =SIMP(statut='o',typ='C',max='**' ),
+           CRITERE         =SIMP(statut='f',typ='TXM',fr="Critère de comparaison avec la solution de référence",
+                                 defaut="RELATIF",into=("RELATIF","ABSOLU") ),
+           PRECISION       =SIMP(statut='f',typ='R',fr="Ecart maximal autorisé avec la solution de référence",
+                                 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'",
+             VERSION         =SIMP(statut='f',typ='TXM' ),
+           ),
+         ),
 )  ;
-#& MODIF COMMANDE  DATE 23/10/2008   AUTEUR TORKHANI M.TORKHANI
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
 #            CONFIGURATION MANAGEMENT OF EDF VERSION
 # ======================================================================
 # COPYRIGHT (C) 1991 - 2001  EDF R&D                  WWW.CODE-ASTER.ORG
@@ -1651,732 +24950,656 @@ FIN=PROC(nom="FIN",op=9999,repetable='n',fr="Fin d'une 
 # 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 FLEJOU J-L.FLEJOU
-AFFE_CARA_ELEM=OPER(nom="AFFE_CARA_ELEM",op=  19,sd_prod=cara_elem,
-   fr="Affectation de caractéristiques à des éléments de structure",
-   reentrant='n',
-   UIinfo ={"groupes":("Modélisation",)},
-   regles = (AU_MOINS_UN('POUTRE','BARRE','COQUE','CABLE','DISCRET','DISCRET_2D','MASSIF',
-                         'GRILLE','MULTIFIBRE','RIGI_PARASOL'),
-             PRESENT_PRESENT('MULTIFIBRE','GEOM_FIBRE'),),
-   MODELE = SIMP(statut='o',typ=modele_sdaster ),
-   INFO   = SIMP(statut='f',typ='I', defaut= 1 ,into=(1,2) ),
-   VERIF  = SIMP(statut='f',typ='TXM',validators=NoRepeat(),max='**',into=("MAILLE","NOEUD") ),
-
-#  ============================================================================
-   POUTRE               = FACT(statut= 'f',max= '**',
-      regles               = (UN_PARMI('MAILLE','GROUP_MA'),),
-      MAILLE               = SIMP(statut= 'f',typ= ma  ,validators= NoRepeat(),max= '**'),
-      GROUP_MA             = SIMP(statut= 'f',typ= grma,validators= NoRepeat(),max= '**'),
-      SECTION              = SIMP(statut= 'o',typ= 'TXM' ,into= ("GENERALE","RECTANGLE","CERCLE") ),
-      PREC_AIRE            = SIMP(statut= 'f',typ= 'R',defaut= 0.01),
-      PREC_INERTIE         = SIMP(statut= 'f',typ= 'R',defaut= 0.1),
-      b_generale           = BLOC(condition = "SECTION= = 'GENERALE'",
-         VARI_SECT            = SIMP(statut= 'f',typ= 'TXM',into= ("CONSTANT","HOMOTHETIQUE"),defaut= "CONSTANT"),
-         b_constant           = BLOC(condition = "VARI_SECT= = 'CONSTANT'",
-            CARA                 = SIMP(statut= 'o',typ= 'TXM',validators= NoRepeat(),min= 4 ,max= 15,
-                                       fr= "A,IY,IZ,JX sont des paramètres obligatoires",
-                                       into= ("A","IY","IZ","AY","AZ","EY","EZ","JX","RY","RZ","RT",
-                                             "JG","IYR2","IZR2","AI") ),
-            VALE                    = SIMP(statut= 'o',typ= 'R',min= 4 ,max= 15), ),
-         b_homothetique       = BLOC(condition = "VARI_SECT= = 'HOMOTHETIQUE'",
-            CARA                 = SIMP(statut= 'o',typ= 'TXM',validators= NoRepeat(),min= 8 ,max= 30,
-                                       fr= "A1,A2,IY1,IY2,IZ1,IZ2,JX1,JX2 sont des paramètres obligatoires",
-                                       into= ("A1","IY1","IZ1","AY1","AZ1","EY1","EZ1","JX1","RY1",
-                                             "RZ1","RT1","JG1","IYR21","IZR21","AI1",
-                                             "A2","IY2","IZ2","AY2","AZ2","EY2","EZ2","JX2","RY2",
-                                             "RZ2","RT2","JG2","IYR22","IZR22","AI2") ),
-            VALE                 = SIMP(statut= 'o',typ= 'R',min= 8 ,max= 30),),
-      ),
-      b_rectangle          = BLOC(condition = "SECTION= = 'RECTANGLE'",
-         VARI_SECT            = SIMP(statut= 'f',typ= 'TXM',into= ("CONSTANT","HOMOTHETIQUE","AFFINE"),defaut= "CONSTANT"),
-         b_constant           = BLOC(condition = "VARI_SECT= = 'CONSTANT'",
-            CARA                 = SIMP(statut= 'o',typ= 'TXM',validators= NoRepeat(),min= 1 ,max= 4,
-                                       into= ("H","EP", "HY","HZ","EPY","EPZ") ),
-            VALE                 = SIMP(statut= 'o',typ= 'R',min= 1 ,max= 4), ),
-         b_homothetique       = BLOC(condition = "VARI_SECT= = 'HOMOTHETIQUE'",
-            CARA                 = SIMP(statut= 'o',typ= 'TXM',validators= NoRepeat(),min= 2 ,max= 8,
-                                       into= ("H1","HZ1","HY1","EP1","EPY1","EPZ1",
-                                          "H2","HZ2","HY2","EP2","EPY2","EPZ2") ),
-            VALE                 = SIMP(statut= 'o',typ= 'R',min= 2 ,max= 8), ),
-         b_affine             = BLOC(condition = "VARI_SECT= = 'AFFINE'",
-            CARA                 = SIMP(statut= 'o',typ= 'TXM',validators= NoRepeat(),min= 3 ,max= 6,
-                                       into= ("HY","EPY", "HZ1","EPZ1","HZ2","EPZ2") ),
-            VALE                 = SIMP(statut= 'o',typ= 'R',min= 3 ,max= 6), ),
-      ),
-      b_cercle             = BLOC(condition = "SECTION= = 'CERCLE'",
-         VARI_SECT            = SIMP(statut= 'f',typ= 'TXM',into= ("CONSTANT","HOMOTHETIQUE"),defaut= "CONSTANT"),
-         b_constant           = BLOC(condition = "VARI_SECT= = 'CONSTANT'",
-            CARA                 = SIMP(statut= 'o',typ= 'TXM',validators= NoRepeat(),min= 1 ,max= 2,
-                                       fr= "R est un paramètre obligatoire",
-                                       into= ("R","EP") ),
-            VALE                 = SIMP(statut= 'o',typ= 'R',min= 1 ,max= 2), ),
-         b_homothetique       = BLOC(condition = "VARI_SECT= = 'HOMOTHETIQUE'",
-            CARA                 = SIMP(statut= 'o',typ= 'TXM',validators= NoRepeat(),min= 2 ,max= 4,
-                                       fr= "R1, R2 sont des paramètres obligatoires",
-                                       into= ("R1","R2","EP1","EP2") ),
-            VALE                 = SIMP(statut= 'o',typ= 'R',min= 2 ,max= 4), ),
-         MODI_METRIQUE     = SIMP(statut= 'f',typ= 'TXM',defaut= "NON",into= ("OUI","NON") ),
-         FCX               = SIMP(statut= 'f',typ= (fonction_sdaster,nappe_sdaster,formule) ),
-         TUYAU_NSEC        = SIMP(statut= 'f',typ= 'I',val_max= 32,defaut= 16),
-         TUYAU_NCOU        = SIMP(statut= 'f',typ= 'I',val_max= 10,defaut= 3),
-      ),
-   ),
+# RESPONSABLE LEFEBVRE J.P.LEFEBVRE
+TEST_RESU=PROC(nom="TEST_RESU",op=23,
+            UIinfo={"groupes":("Impression",)},
+         fr="Extraction d'une valeur d'une structure de donnée et comparaison à une valeur de référence",
+         regles=(AU_MOINS_UN('CHAM_NO','CHAM_ELEM','RESU','GENE','OBJET')),
 
-#  ============================================================================
-   BARRE                = FACT(statut='f',max='**',
-      regles               = (UN_PARMI('MAILLE','GROUP_MA'),),
-      MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-      GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-      SECTION              = SIMP(statut='o',typ='TXM',into=("GENERALE","RECTANGLE","CERCLE") ),
-      b_generale           = BLOC(condition = "SECTION=='GENERALE'",
-         CARA                 = SIMP(statut='o',typ='TXM',into=("A",) ),
-         VALE                 = SIMP(statut='o',typ='R',min=1,max=1 ), ),
-      b_rectangle          = BLOC(condition = "SECTION=='RECTANGLE'",
-         CARA                 = SIMP(statut='o',typ='TXM',
-                                    into=("H","EP","HZ","HY","EPY","EPZ"),
-                                    validators=NoRepeat(),min=1,max=4 ),
-         VALE                 = SIMP(statut='o',typ='R',min=1,max=4 ), ),
-      b_cercle             =  BLOC(condition = "SECTION=='CERCLE'",
-         CARA                 = SIMP(statut='o',typ='TXM',validators=NoRepeat(),min=1,max=2,into=("R","EP") ),
-         VALE                 = SIMP(statut='o',typ='R',min=1,max=2 ), ),
-      FCX                  = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
-   ),
+         CHAM_NO         =FACT(statut='f',max='**',
+           regles=(UN_PARMI('NOEUD','GROUP_NO','TYPE_TEST'),
+                   EXCLUS('NOEUD','GROUP_NO'),
+                   PRESENT_PRESENT('NOEUD','NOM_CMP'),
+                   PRESENT_PRESENT( 'GROUP_NO','NOM_CMP'),
+                   UN_PARMI('VALE','VALE_I','VALE_C'),),
+           CHAM_GD         =SIMP(statut='o',typ=cham_no_sdaster),
+           NOEUD           =SIMP(statut='f',typ=no   ),
+           GROUP_NO        =SIMP(statut='f',typ=grno ),
+           NOM_CMP         =SIMP(statut='f',typ='TXM'),
+           TYPE_TEST       =SIMP(statut='f',typ='TXM',into=("SOMM_ABS","SOMM","MAX","MIN")),
+           VALE            =SIMP(statut='f',typ='R',max='**'),
+           VALE_I          =SIMP(statut='f',typ='I',max='**'),
+           VALE_C          =SIMP(statut='f',typ='C',max='**'),
+           VALE_ABS        =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+           CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU")),
+           PRECISION       =SIMP(statut='f',typ='R',defaut= 1.0E-3),
+           REFERENCE       =SIMP(statut='f',typ='TXM',into=("ANALYTIQUE","SOURCE_EXTERNE",
+                                                            "NON_REGRESSION","AUTRE_ASTER")),
+           VERSION         =SIMP(statut='f',typ='TXM'),
+         ),
 
-#  ============================================================================
-   COQUE                = FACT(statut='f',max='**',
-      regles               = (UN_PARMI('MAILLE','GROUP_MA' ),
-                              PRESENT_PRESENT( 'EXCENTREMENT','INER_ROTA' ),
-                              AU_MOINS_UN('EPAIS','EPAIS_F',),
-                              PRESENT_ABSENT('EPAIS','EPAIS_F',),
-                              EXCLUS('ANGL_REP','VECTEUR'),),
-      MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-      GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-      EPAIS                = SIMP(statut='f',typ='R' ),
-      EPAIS_F              = SIMP(statut='f',typ=(para_sensi,),min=1 ,max=1 ),
-      ANGL_REP             = SIMP(statut='f',typ='R',min=2,max=2),
-      VECTEUR              = SIMP(statut='f',typ='R',min=3,max=3),
-      A_CIS                = SIMP(statut='c',typ='R',defaut= 0.8333333E0),
-      COEF_RIGI_DRZ        = SIMP(statut='f',typ='R',defaut= 1.0E-5 ),
-      COQUE_NCOU           = SIMP(statut='f',typ='I',defaut= 1 ),
-      EXCENTREMENT         = SIMP(statut='f',typ='R' ),
-      INER_ROTA            = SIMP(statut='f',typ='TXM',into=("OUI",) ),
-      MODI_METRIQUE        = SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
-   ),
+         CHAM_ELEM       =FACT(statut='f',max='**',
+           regles=(UN_PARMI('MAILLE','TYPE_TEST',),
+                   EXCLUS('NOEUD','GROUP_NO','POINT'),
+                   PRESENT_PRESENT('NOEUD','NOM_CMP'),
+                   PRESENT_PRESENT('GROUP_NO','NOM_CMP'),
+                   PRESENT_PRESENT('POINT','NOM_CMP'),
+                   UN_PARMI('VALE','VALE_I','VALE_C'), ),
+           CHAM_GD         =SIMP(statut='o',typ=cham_elem),
+           MAILLE          =SIMP(statut='f',typ=ma),
+           POINT           =SIMP(statut='f',typ='I' ),
+           SOUS_POINT      =SIMP(statut='f',typ='I'),
+           NOEUD           =SIMP(statut='f',typ=no),
+           GROUP_NO        =SIMP(statut='f',typ=grno),
+           NOM_CMP         =SIMP(statut='f',typ='TXM',max='**'),
+           TYPE_TEST       =SIMP(statut='f',typ='TXM',into=("SOMM_ABS","SOMM","MAX","MIN") ),
+           VALE            =SIMP(statut='f',typ='R',max='**' ),
+           VALE_I          =SIMP(statut='f',typ='I',max='**' ),
+           VALE_C          =SIMP(statut='f',typ='C',max='**' ),
+           VALE_ABS        =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+           CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU")),
+           PRECISION       =SIMP(statut='f',typ='R',defaut= 1.0E-3 ),
+           REFERENCE       =SIMP(statut='f',typ='TXM',into=("ANALYTIQUE","SOURCE_EXTERNE",
+                                                            "NON_REGRESSION","AUTRE_ASTER") ),
+           VERSION         =SIMP(statut='f',typ='TXM' ),
+         ),
 
-#  ============================================================================
-   CABLE                = FACT(statut='f',max='**',
-      regles               = (UN_PARMI('MAILLE','GROUP_MA'),),
-      MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-      GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-      N_INIT               = SIMP(statut='f',typ='R',defaut= 5000. ),
-      SECTION              = SIMP(statut='f',typ='R' ),
-      FCX                  = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
-   ),
+         RESU            =FACT(statut='f',max='**',
+           regles=(UN_PARMI('NUME_ORDRE','INST','FREQ','NUME_MODE','NOEUD_CMP','NOM_CAS','ANGL'),
+                   UN_PARMI('NOM_CHAM','PARA'),
+                   PRESENT_ABSENT('PARA','NOEUD','GROUP_NO','POINT','NOM_CMP','TYPE_TEST'),
+                   PRESENT_PRESENT('NOM_CMP','NOM_CHAM'),
+                   EXCLUS('NOEUD','GROUP_NO','POINT','TYPE_TEST'),
+                   PRESENT_PRESENT('NOEUD','NOM_CMP'),
+                   PRESENT_PRESENT('GROUP_NO','NOM_CMP'),
+                   PRESENT_PRESENT('POINT','NOM_CMP'),
+                   UN_PARMI('VALE','VALE_I','VALE_C'),
+                   DERIVABLE('RESULTAT'),),
+           RESULTAT        =SIMP(statut='o',typ=resultat_sdaster),
+           SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),
+                                 fr="Paramètre de sensibilité.",
+                                 ang="Sensitivity parameter"),
+           NUME_ORDRE      =SIMP(statut='f',typ='I'),
+           INST            =SIMP(statut='f',typ='R'),
+           FREQ            =SIMP(statut='f',typ='R'),
+           NUME_MODE       =SIMP(statut='f',typ='I'),
+           NOEUD_CMP       =SIMP(statut='f',typ='TXM',min=2,max=2),
+           NOM_CAS         =SIMP(statut='f',typ='TXM'),
+           ANGL            =SIMP(statut='f',typ='R'),
+           PARA            =SIMP(statut='f',typ='TXM'),
+           NOM_CHAM        =SIMP(statut='f',typ='TXM',into=C_NOM_CHAM_INTO()),
+           NOM_CMP         =SIMP(statut='f',typ='TXM',max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma   ,max='**'),
+           NOEUD           =SIMP(statut='f',typ=no   ,max='**'),
+           GROUP_NO        =SIMP(statut='f',typ=grno ,max='**'),
+           POINT           =SIMP(statut='f',typ='I'),
+           SOUS_POINT      =SIMP(statut='f',typ='I'),
+           TYPE_TEST       =SIMP(statut='f',typ='TXM',into=("SOMM_ABS","SOMM","MAX","MIN")),
+           VALE            =SIMP(statut='f',typ='R',max='**'),
+           VALE_I          =SIMP(statut='f',typ='I',max='**'),
+           VALE_C          =SIMP(statut='f',typ='C',max='**'),
+           VALE_ABS        =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+           CRITERE         =SIMP(statut='f',typ='TXM',into=("RELATIF","ABSOLU"),max=2),
+           PRECISION       =SIMP(statut='f',typ='R',max=2),
+           REFERENCE       =SIMP(statut='f',typ='TXM',into=("ANALYTIQUE","SOURCE_EXTERNE",
+                                                            "NON_REGRESSION","AUTRE_ASTER",) ),
+           VERSION         =SIMP(statut='f',typ='TXM' ),
+         ),
 
-#  ============================================================================
-   DISCRET              = FACT(statut='f',max='**',
-      REPERE               = SIMP(statut='f',typ='TXM',into=("LOCAL","GLOBAL") ),
-      AMOR_HYST            = SIMP(statut='f',typ='R' ),
-      SYME                 = SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON"),),
-      b_SYME_OUI           = BLOC(condition="SYME=='OUI'",
-         fr="SYMETRIQUE: Affectation de matrices de rigidité, de masse ou d'amortissement à des mailles ou noeuds",
-         CARA                 = SIMP(statut='o',typ='TXM',validators=NoRepeat(),max=1,position='global',defaut="None",
-            into=("K_T_D_N", "K_T_D_L", "K_TR_D_N", "K_TR_D_L", "K_T_N", "K_T_L", "K_TR_N", "K_TR_L",
-                  "M_T_D_N",            "M_TR_D_N",             "M_T_N", "M_T_L", "M_TR_N", "M_TR_L",
-                  "A_T_D_N", "A_T_D_L", "A_TR_D_N", "A_TR_D_L", "A_T_N", "A_T_L", "A_TR_N", "A_TR_L",),)
-      ),
-      b_SYME_NON           = BLOC(condition="SYME=='NON'",
-         fr="NON-SYMETRIQUE: Affectation de matrices de rigidité, de masse ou d'amortissement à des mailles ou noeuds",
-         CARA                 = SIMP(statut='o',typ='TXM',validators=NoRepeat(),max=1,position='global',defaut="None",
-            into=("K_T_N", "K_T_L", "K_TR_N", "K_TR_L",
-                  "M_T_N", "M_T_L", "M_TR_N", "M_TR_L",
-                  "A_T_N", "A_T_L", "A_TR_N", "A_TR_L",),)
-      ),
+         GENE            =FACT(statut='f',max='**',
+           regles=(UN_PARMI('VALE','VALE_I','VALE_C') ,),
+           RESU_GENE       =SIMP(statut='o',typ=(vect_asse_gene, tran_gene, mode_gene, harm_gene)),
+           b_vect_asse     =BLOC(condition = "AsType(RESU_GENE) == vect_asse_gene",
+             NUME_CMP_GENE   =SIMP(statut='o',typ='I'),
+           ),
+           b_mode          =BLOC(condition = "(AsType(RESU_GENE) == harm_gene) or (AsType(RESU_GENE) == mode_gene)",
+                            regles=(UN_PARMI('NUME_ORDRE','FREQ','NUME_MODE'),
+                                    UN_PARMI('NOM_CHAM','PARA'),
+                                    PRESENT_PRESENT('NOM_CHAM','NUME_CMP_GENE'),),
+             NOM_CHAM        =SIMP(statut='f',typ='TXM',into=C_NOM_CHAM_INTO()),
+             NUME_CMP_GENE   =SIMP(statut='f',typ='I'),
+             PARA            =SIMP(statut='f',typ='TXM'),
+             NUME_ORDRE      =SIMP(statut='f',typ='I'),
+             NUME_MODE       =SIMP(statut='f',typ='I'),
+             FREQ            =SIMP(statut='f',typ='R'),
+           ),
+           b_tran          =BLOC(condition = "AsType(RESU_GENE) == tran_gene",
+                            regles=(UN_PARMI('NUME_ORDRE','INST') ,),
+             NOM_CHAM        =SIMP(statut='o',typ='TXM',into=C_NOM_CHAM_INTO()),
+             NUME_CMP_GENE   =SIMP(statut='o',typ='I'),
+             NUME_ORDRE      =SIMP(statut='f',typ='I'),
+             INST            =SIMP(statut='f',typ='R'),
+           ),
+           VALE            =SIMP(statut='f',typ='R',max='**'),
+           VALE_I          =SIMP(statut='f',typ='I',max='**'),
+           VALE_C          =SIMP(statut='f',typ='C',max='**'),
+           VALE_ABS        =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+           CRITERE         =SIMP(statut='f',typ='TXM',into=("RELATIF","ABSOLU"),max=2),
+           PRECISION       =SIMP(statut='f',typ='R',max=2),
+           REFERENCE       =SIMP(statut='f',typ='TXM',into=("ANALYTIQUE","SOURCE_EXTERNE",
+                                                            "NON_REGRESSION","AUTRE_ASTER",) ),
+           VERSION         =SIMP(statut='f',typ='TXM' ),
+         ),
 
-      #CARA                 = SIMP(statut='o',typ='TXM',validators=NoRepeat(),max=1,
-         #fr="Affectation de matrices de rigidité, de masse ou d'amortissement à des mailles ou noeuds",
-         #into=("K_T_D_N", "K_T_D_L", "K_TR_D_N", "K_TR_D_L", "K_T_N", "K_T_L", "K_TR_N", "K_TR_L",
-               #"M_T_D_N",            "M_TR_D_N",             "M_T_N", "M_T_L", "M_TR_N", "M_TR_L",
-               #"A_T_D_N", "A_T_D_L", "A_TR_D_N", "A_TR_D_L", "A_T_N", "A_T_L", "A_TR_N", "A_TR_L",)
-      #),
-      #  Affection des caractéristiques de RIGIDITE/AMORTISSEMENT
-      #     Éléments à matrice non-symétrique
-      #        b_K_T_N_NS        'K_T_N'     'A_T_N'
-      #        b_K_T_L_NS        'K_T_L'     'A_T_L'
-      #        b_K_TR_N_NS       'K_TR_N'    'A_TR_N'
-      #        b_K_TR_L_NS       'K_TR_L'    'A_TR_L'
-      b_K_T_D_N            = BLOC(condition = "((CARA=='K_T_D_N')or(CARA=='A_T_D_N'))and(SYME=='OUI')",
-         fr="NOEUD: 3 valeurs (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=3 ,max=3 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=3 ,max=3 ),),
-      b_K_T_D_L            = BLOC(condition = "((CARA=='K_T_D_L')or(CARA=='A_T_D_L'))and(SYME=='OUI')",
-         fr="SEGMENT: 3 valeurs (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=3 ,max=3 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=3 ,max=3 ),),
-      b_K_TR_D_N           = BLOC(condition = "((CARA=='K_TR_D_N')or(CARA=='A_TR_D_N'))and(SYME=='OUI')",
-         fr="NOEUD: 6 valeurs (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=6 ,max=6 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=6 ,max=6 ),),
-      b_K_TR_D_L           = BLOC(condition = "((CARA=='K_TR_D_L')or(CARA=='A_TR_D_L'))and(SYME=='OUI')",
-         fr="SEGMENT: 6 valeurs (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=6 ,max=6 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=6 ,max=6 ),),
-      b_K_T_N              = BLOC(condition = "((CARA=='K_T_N')or(CARA=='A_T_N'))and(SYME=='OUI')",
-         fr="NOEUD: 6 valeurs (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=6 ,max=6 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=6 ,max=6 ),),
-      b_K_T_L              = BLOC(condition = "((CARA=='K_T_L')or(CARA=='A_T_L'))and(SYME=='OUI')",
-         fr="SEGMENT: 21 valeurs (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=21,max=21),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=21 ,max=21 ),),
-      b_K_TR_N             = BLOC(condition = "((CARA=='K_TR_N')or(CARA=='A_TR_N'))and(SYME=='OUI')",
-         fr="NOEUD: 21 valeurs (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=21,max=21),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=21 ,max=21 ),),
-      b_K_TR_L             = BLOC(condition = "((CARA=='K_TR_L')or(CARA=='A_TR_L'))and(SYME=='OUI')",
-         fr="SEGMENT: 78 valeurs (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=78,max=78),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=78 ,max=78 ),),
-
-      b_K_T_N_NS           = BLOC(condition = "((CARA=='K_T_N')or(CARA=='A_T_N'))and(SYME=='NON')",
-         fr="NOEUD: 9 valeurs (matrice pleine par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=9 ,max=9 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=9 ,max=9 ),),
-      b_K_T_L_NS           = BLOC(condition = "((CARA=='K_T_L')or(CARA=='A_T_L'))and(SYME=='NON')",
-         fr="SEGMENT: 36 valeurs (matrice pleine par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=36,max=36),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=36 ,max=36 ),),
-      b_K_TR_N_NS          = BLOC(condition = "((CARA=='K_TR_N')or(CARA=='A_TR_N'))and(SYME=='NON')",
-         fr="NOEUD: 36 valeurs (matrice pleine par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=36,max=36),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=36 ,max=36 ),),
-      b_K_TR_L_NS          = BLOC(condition = "((CARA=='K_TR_L')or(CARA=='A_TR_L'))and(SYME=='NON')",
-         fr="SEGMENT: 144 valeurs (matrice pleine par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=144,max=144),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=144 ,max=144 ),),
-
-      #  Affection des caractéristiques de MASSE
-      #     Éléments à matrice non-symétrique
-      #        b_M_T_N_NS        'M_T_N'
-      #        b_M_T_L_NS        'M_T_L'
-      #        b_M_TR_N_NS       'M_TR_N'
-      #        b_M_TR_L_NS       'M_TR_L'
-      b_M_T_D_N           = BLOC(condition = "(CARA=='M_T_D_N')and(SYME=='OUI')",
-         fr="NOEUD: 1 valeur de masse",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=1 ,max=1 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=1 ,max=1 ),),
-      b_M_TR_D_N           = BLOC(condition = "(CARA=='M_TR_D_N')and(SYME=='OUI')",
-         fr="NOEUD: 1 valeur de masse, 6 valeurs du tenseur d'inertie, 3 composantes du vecteur d'excentricité",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=10,max=10),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=10 ,max=10 ),),
-      b_M_T_N              = BLOC(condition = "(CARA=='M_T_N')and(SYME=='OUI')",
-         fr="NOEUD: 6 valeurs de masse (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=6 ,max=6 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=6 ,max=6 ),),
-      b_M_T_L              = BLOC(condition = "(CARA=='M_T_L')and(SYME=='OUI')",
-         fr="SEGMENT: 21 valeurs de masse (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=21,max=21),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=21 ,max=21 ),),
-      b_M_TR_N             = BLOC(condition = "(CARA=='M_TR_N')and(SYME=='OUI')",
-         fr="NOEUD: 21 valeurs de masse (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=21,max=21),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=21 ,max=21 ),),
-      b_M_TR_L             = BLOC(condition = "(CARA=='M_TR_L')and(SYME=='OUI')",
-         fr="SEGMENT: 78 valeurs de masse (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=78,max=78),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=78 ,max=78 ),),
-
-      b_M_T_N_NS           = BLOC(condition = "(CARA=='M_T_N')and(SYME=='NON')",
-         fr="NOEUD: 9 valeurs de masse (matrice pleine par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=9 ,max=9 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=9 ,max=9 ),),
-      b_M_T_L_NS           = BLOC(condition = "(CARA=='M_T_L')and(SYME=='NON')",
-         fr="SEGMENT: 36 valeurs de masse (matrice pleine par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=36,max=36),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=36 ,max=36 ),),
-      b_M_TR_N_NS          = BLOC(condition = "(CARA=='M_TR_N')and(SYME=='NON')",
-         fr="NOEUD: 36 valeurs de masse (matrice pleine par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=36,max=36),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=36 ,max=36 ),),
-      b_M_TR_L_NS          = BLOC(condition = "(CARA=='M_TR_L')and(SYME=='NON')",
-         fr="SEGMENT: 144 valeurs de masse (matrice pleine par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=144,max=144),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=144 ,max=144 ),),
-   ),
+         OBJET           =FACT(statut='f',max='**',
+           regles=(UN_PARMI('S_I','S_R',),
+                   UN_PARMI('VALE','VALE_I','VALE_C','S_R','S_I'),),
+           NOM             =SIMP(statut='o',typ='TXM'),
+           S_R             =SIMP(statut='f',typ='R'),
+           S_I             =SIMP(statut='f',typ='I'),
+           VALE            =SIMP(statut='f',typ='R'),
+           VALE_I          =SIMP(statut='f',typ='I'),
+           VALE_C          =SIMP(statut='f',typ='C'),
+           VALE_ABS        =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+           CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU")),
+           PRECISION       =SIMP(statut='f',typ='R',defaut=1.0E-3 ),
+           REFERENCE       =SIMP(statut='f',typ='TXM',into=("ANALYTIQUE","SOURCE_EXTERNE",
+                                                            "NON_REGRESSION","AUTRE_ASTER",) ),
+           VERSION         =SIMP(statut='f',typ='TXM' ),
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 21/04/2008   AUTEUR LEFEBVRE J-P.LEFEBVRE 
+#            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.                                 
+#
+# 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 COURTOIS M.COURTOIS
+TEST_TABLE=PROC(nom="TEST_TABLE",op= 177,
+            UIinfo={"groupes":("Impression",)},
+         fr="Tester une cellule ou une colonne d'une table",
+         regles=(UN_PARMI('VALE','VALE_I','VALE_C', ),
+                 DERIVABLE('TABLE'),),
+#  concept table_sdaster à tester
+         TABLE           =SIMP(statut='o',typ=table_sdaster),
 
-#  ============================================================================
-   DISCRET_2D           = FACT(statut='f',max='**',
-      REPERE               = SIMP(statut='f',typ='TXM',into=("LOCAL","GLOBAL") ),
-      AMOR_HYST            = SIMP(statut='f',typ='R' ),
-      SYME                 = SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
-      CARA                 = SIMP(statut='o',typ='TXM',validators=NoRepeat(),max=1,
-         fr="Affectation de matrices de rigidité, de masse ou d'amortissement à des mailles ou noeuds",
-         into=("K_T_D_N", "K_T_D_L", "K_TR_D_N", "K_TR_D_L", "K_T_N", "K_T_L", "K_TR_N", "K_TR_L",
-               "M_T_D_N",            "M_TR_D_N",             "M_T_N", "M_T_L", "M_TR_N", "M_TR_L",
-               "A_T_D_N", "A_T_D_L", "A_TR_D_N", "A_TR_D_L", "A_T_N", "A_T_L", "A_TR_N", "A_TR_L")
-      ),
+         SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),
+                                 fr="Paramètre de sensibilité.",
+                                 ang="Sensitivity parameter"),
+         FILTRE          =FACT(statut='f',max='**',
+           NOM_PARA        =SIMP(statut='o',typ='TXM' ),
+           CRIT_COMP       =SIMP(statut='f',typ='TXM',defaut="EQ",
+                                 into=("EQ","LT","GT","NE","LE","GE","VIDE",
+                                       "NON_VIDE","MAXI","ABS_MAXI","MINI","ABS_MINI") ),
+           b_vale          =BLOC(condition = "(CRIT_COMP in ('EQ','NE','GT','LT','GE','LE'))",
+              regles=(UN_PARMI('VALE','VALE_I','VALE_K','VALE_C',),),
+              VALE            =SIMP(statut='f',typ='R',),
+              VALE_I          =SIMP(statut='f',typ='I',),
+              VALE_C          =SIMP(statut='f',typ='C',),
+              VALE_K          =SIMP(statut='f',typ='TXM' ),),
 
-      #  Affection des caractéristiques de RIGIDITE/AMORTISSEMENT
-      #     Éléments à matrice non-symétrique
-      #        b_K_T_N_NS        'K_T_N'     'A_T_N'
-      #        b_K_T_L_NS        'K_T_L'     'A_T_L'
-      #        b_K_TR_N_NS       'K_TR_N'    'A_TR_N'
-      #        b_K_TR_L_NS       'K_TR_L'    'A_TR_L'
-      b_K_T_D_N            = BLOC(condition = "((CARA=='K_T_D_N')or(CARA=='A_T_D_N'))",
-         fr="NOEUD: 2 valeurs (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=2 ,max=2 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=2 ,max=2 ),),
-      b_K_T_D_L            = BLOC(condition = "((CARA=='K_T_D_L')or(CARA=='A_T_D_L'))",
-         fr="SEGMENT: 2 valeurs (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=2 ,max=2 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=2 ,max=2 ),),
-      b_K_TR_D_N           = BLOC(condition = "((CARA=='K_TR_D_N')or(CARA=='A_TR_D_N'))",
-         fr="NOEUD: 3 valeurs (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=3 ,max=3 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=3 ,max=3 ),),
-      b_K_TR_D_L           = BLOC(condition = "((CARA=='K_TR_D_L')or(CARA=='A_TR_D_L'))",
-         fr="SEGMENT: 3 valeurs (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=3 ,max=3 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=3 ,max=3 ),),
-      b_K_T_N              = BLOC(condition = "((CARA=='K_T_N')or(CARA=='A_T_N'))and(SYME=='OUI')",
-         fr="NOEUD: 3 valeurs (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=3 ,max=3 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=3 ,max=3 ),),
-      b_K_T_L              = BLOC(condition = "((CARA=='K_T_L')or(CARA=='A_T_L'))and(SYME=='OUI')",
-         fr="SEGMENT: 10 valeurs (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=10,max=10),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=10 ,max=10 ),),
-      b_K_TR_N             = BLOC(condition = "((CARA=='K_TR_N')or(CARA=='A_TR_N'))and(SYME=='OUI')",
-         fr="NOEUD: 6 valeurs (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=6 ,max=6),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=6 ,max=6 ),),
-      b_K_TR_L             = BLOC(condition = "(CARA=='K_TR_L')or(CARA=='A_TR_L'))and(SYME=='OUI')",
-         fr="SEGMENT: 21 valeurs (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=21,max=21),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=21 ,max=21 ),),
-
-      b_K_T_N_NS           = BLOC(condition = "((CARA=='K_T_N')or(CARA=='A_T_N'))and(SYME=='NON')",
-         fr="NOEUD: 4 valeurs (matrice pleine par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=4 ,max=4 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=4 ,max=4 ),),
-      b_K_T_L_NS           = BLOC(condition = "((CARA=='K_T_L')or(CARA=='A_T_L'))and(SYME=='NON')",
-         fr="SEGMENT: 16 valeurs (matrice pleine par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=16,max=16),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=16 ,max=16 ),),
-      b_K_TR_N_NS          = BLOC(condition = "((CARA=='K_TR_N')or(CARA=='A_TR_N'))and(SYME=='NON')",
-         fr="NOEUD: 9 valeurs (matrice pleine par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=9 ,max=9),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=9 ,max=9 ),),
-      b_K_TR_L_NS          = BLOC(condition = "((CARA=='K_TR_L')or(CARA=='A_TR_L'))and(SYME=='NON')",
-         fr="SEGMENT: 36 valeurs (matrice pleine par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=36,max=36),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=36 ,max=36 ),),
-
-      #  Affection des caractéristiques de MASSE
-      #     Éléments à matrice non-symétrique
-      #        b_M_T_N_NS        'M_T_N'
-      #        b_M_T_L_NS        'M_T_L'
-      #        b_M_TR_N_NS       'M_TR_N'
-      #        b_M_TR_L_NS       'M_TR_L'
-      b_M_T_D_N            = BLOC(condition = "(CARA=='M_T_D_N')",
-         fr="NOEUD: 1 valeur de masse",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=1 ,max=1 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=1 ,max=1 ),),
-      b_M_TR_D_N           = BLOC(condition = "(CARA=='M_TR_D_N')",
-         fr="NOEUD: 1 valeur de masse(m), 1 valeur d'inertie(Izz), 2 composantes du vecteur d'excentricité(ex,ey) ",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=4 ,max=4 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=4 ,max=4 ),),
-      b_M_T_N              = BLOC(condition = "(CARA=='M_T_N')and(SYME=='OUI')",
-         fr="NOEUD: 3 valeurs de masse (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=3 ,max=3 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=3 ,max=3 ),),
-      b_M_T_L              = BLOC(condition = "(CARA=='M_T_L')and(SYME=='OUI')",
-         fr="SEGMENT: 10 valeurs de masse (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=10,max=10),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=10 ,max=10 ),),
-      b_M_TR_N             = BLOC(condition = "(CARA=='M_TR_N')and(SYME=='OUI')",
-         fr="NOEUD: 6 valeurs de masse (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=6 ,max=6 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=6 ,max=6 ),),
-      b_M_TR_L             = BLOC(condition = "(CARA=='M_TR_L')and(SYME=='OUI')",
-         fr="SEGMENT: 21 valeurs de masse (triangulaire supérieure par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=21,max=21),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=21 ,max=21 ),),
-
-      b_M_T_N_NS           = BLOC(condition = "(CARA=='M_T_N')and(SYME=='NON')",
-         fr="NOEUD: 4 valeurs de masse (matrices pleine par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=4 ,max=4 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=4 ,max=4 ),),
-      b_M_T_L_NS           = BLOC(condition = "(CARA=='M_T_L')and(SYME=='NON')",
-         fr="SEGMENT: 16 valeurs de masse (matrices pleine par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=16,max=16),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=16 ,max=16 ),),
-      b_M_TR_N_NS          = BLOC(condition = "(CARA=='M_TR_N')and(SYME=='NON')",
-         fr="NOEUD: 9 valeurs de masse (matrices pleine par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=9 ,max=9 ),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=9 ,max=9 ),),
-      b_M_TR_L_NS          = BLOC(condition = "(CARA=='M_TR_L')and(SYME=='NON')",
-         fr="SEGMENT: 36 valeurs de masse (matrices pleine par colonne)",
-         regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                                 UN_PARMI('VALE','VALE_F'),),
-         MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-         GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-         VALE                 = SIMP(statut='f',typ='R',min=36,max=36),
-         VALE_F               = SIMP(statut='f',typ=(para_sensi,),min=36 ,max=36 ),),
-   ),
+           CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU") ),
+           PRECISION       =SIMP(statut='f',typ='R',defaut= 1.E-3 ),
+         ),
+         TYPE_TEST       =SIMP(statut='f',typ='TXM',into=("SOMM_ABS","SOMM","MAX","MIN") ),
+         NOM_PARA        =SIMP(statut='o',typ='TXM' ),
+         VALE            =SIMP(statut='f',typ='R',max='**' ),
+         VALE_I          =SIMP(statut='f',typ='I',max='**' ),
+         VALE_C          =SIMP(statut='f',typ='C',max='**' ),
+         VALE_ABS        =SIMP(statut='f',typ='TXM',defaut="NON",into=("OUI","NON") ),
+         CRITERE         =SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU") ),
+         PRECISION       =SIMP(statut='f',typ='R',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'",
+             VERSION         =SIMP(statut='f',typ='TXM' ),
+         INFO            =SIMP(statut='f',typ='I',defaut=1,into=(1,2) ),
+         ),
+)  ;
+#& MODIF COMMANDE  DATE 05/09/2008   AUTEUR COURTOIS M.COURTOIS 
+#            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.        
+# ======================================================================
+# -*- coding: iso-8859-1 -*-
+# RESPONSABLE COURTOIS M.COURTOIS
 
-#  ============================================================================
-   ORIENTATION          = FACT(statut='f',max='**',
-      regles               = (UN_PARMI('MAILLE','GROUP_MA','NOEUD','GROUP_NO' ),),
-      MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-      GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-      NOEUD                = SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
-      GROUP_NO             = SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
-      CARA                 = SIMP(statut='o',typ='TXM',
-                                 into=("VECT_Y","ANGL_VRIL","VECT_X_Y","ANGL_NAUT","GENE_TUYAU") ),
-      VALE                 = SIMP(statut='o',typ='R',max='**'),
-      PRECISION            = SIMP(statut='f',typ='R',defaut= 1.0E-4 ),
-      CRITERE              = SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU") ),
-   ),
 
-# ============================================================================
-   DEFI_ARC             = FACT(statut='f',max='**',
-      regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                              UN_PARMI('ORIE_ARC','CENTRE','NOEUD_CENTRE','GROUP_NO_CENTRE',
-                                       'POIN_TANG','NOEUD_POIN_TANG','GROUP_NO_POIN_TG'),
-                              PRESENT_PRESENT('ORIE_ARC','RAYON'),
-                              EXCLUS('COEF_FLEX','COEF_FLEX_XY'),
-                              EXCLUS('COEF_FLEX','COEF_FLEX_XZ'),
-                              EXCLUS('INDI_SIGM','INDI_SIGM_XY'),
-                              EXCLUS('INDI_SIGM','INDI_SIGM_XZ'),
-                              PRESENT_PRESENT('COEF_FLEX_XY','COEF_FLEX_XZ'),
-                              PRESENT_PRESENT('INDI_SIGM_XY','INDI_SIGM_XZ'),),
-      MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-      GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-      ORIE_ARC             = SIMP(statut='f',typ='R'),
-      CENTRE               = SIMP(statut='f',typ='R',max='**'),
-      NOEUD_CENTRE         = SIMP(statut='f',typ=no),
-      GROUP_NO_CENTRE      = SIMP(statut='f',typ=grno),
-      POIN_TANG            = SIMP(statut='f',typ='R',max='**'),
-      NOEUD_POIN_TANG      = SIMP(statut='f',typ=no),
-      GROUP_NO_POIN_TG     = SIMP(statut='f',typ=grno),
-      RAYON                = SIMP(statut='f',typ='R'),
-      COEF_FLEX            = SIMP(statut='f',typ='R'),
-      INDI_SIGM            = SIMP(statut='f',typ='R'),
-      COEF_FLEX_XY         = SIMP(statut='f',typ='R'),
-      INDI_SIGM_XY         = SIMP(statut='f',typ='R'),
-      COEF_FLEX_XZ         = SIMP(statut='f',typ='R'),
-      INDI_SIGM_XZ         = SIMP(statut='f',typ='R'),
-      PRECISION            = SIMP(statut='f',typ='R',defaut= 1.0E-3),
-      CRITERE              = SIMP(statut='f',typ='TXM',defaut="RELATIF",into=("RELATIF","ABSOLU") ),
-   ),
+from Macro.test_temps_ops import test_temps_ops
 
-#============================================================================
-   MASSIF               = FACT(statut='f',max='**',
-      regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                              UN_PARMI('ANGL_REP','ANGL_AXE','ANGL_EULER'),
-                              EXCLUS('ANGL_REP','ANGL_EULER'),
-                              EXCLUS('ANGL_REP','ANGL_AXE'),
-                              EXCLUS('ANGL_REP','ORIG_AXE'),
-                              PRESENT_PRESENT('ANGL_AXE','ORIG_AXE'), ),
-      MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-      GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-      ANGL_REP             = SIMP(statut='f',typ='R',max=3),
-      ANGL_EULER           = SIMP(statut='f',typ='R',min=3,max=3),
-      ANGL_AXE             = SIMP(statut='f',typ='R',max=2),
-      ORIG_AXE             = SIMP(statut='f',typ='R',max=3),
-   ),
+TEST_TEMPS=MACRO(nom="TEST_TEMPS",op=test_temps_ops, sd_prod=None,
+                 fr="Permet de vérifier le temps passé dans les commandes",
+                 reentrant='n',
 
-#  ============================================================================
-   POUTRE_FLUI          = FACT(statut='f',max='**',
-      regles               = (UN_PARMI('MAILLE','GROUP_MA'),),
-      MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-      GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-      B_T                  = SIMP(statut='o',typ='R'),
-      B_N                  = SIMP(statut='o',typ='R'),
-      B_TN                 = SIMP(statut='o',typ='R',defaut= 0.E+0 ),
-      A_FLUI               = SIMP(statut='o',typ='R'),
-      A_CELL               = SIMP(statut='o',typ='R'),
-      COEF_ECHELLE         = SIMP(statut='o',typ='R'),
+   RESU = FACT(statut='o',max='**',
+      COMMANDE   = SIMP(statut='o', typ='TXM',
+            fr="Nom de la commande testee"),
+      NUME_ORDRE = SIMP(statut='f', typ='I', defaut=1, val_min=1,
+            fr="Numero de l'occurrence de la commande testee"),
+      MACHINE    = SIMP(statut='o', typ='TXM', max='**',
+            fr="Liste des machines dont on a la référence"),
+      VALE       = SIMP(statut='o', typ='R', max='**',
+            fr="Temps CPU sur les machines listees en secondes"),
+      CRITERE    = SIMP(statut='f', typ='TXM', defaut='RELATIF', into=('ABSOLU', 'RELATIF')),
+      PRECISION  = SIMP(statut='f', typ='R', defaut=0.01, max='**',
+            fr="Ecart admissible pour chaque machine"),
+      TYPE_TEST  = SIMP(statut='o', typ='TXM', into=('USER', 'SYSTEM', 'USER+SYS', 'ELAPSED'),
+            defaut='USER+SYS',
+            fr="Valeur testee parmi 'USER', 'SYSTEM', 'USER+SYS', 'ELAPSED'"),
    ),
 
-#  ============================================================================
-   GRILLE               = FACT(statut='f',max='**',
-      regles               = (UN_PARMI('MAILLE','GROUP_MA'),
-                              EXCLUS('ANGL_REP','ORIG_AXE'),
-                              ENSEMBLE('ORIG_AXE','AXE')),
-      MAILLE               = SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
-      GROUP_MA             = SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
-      SECTION              = SIMP(statut='o',typ='R'),
-      ANGL_REP             = SIMP(statut='f',typ='R',max=2),
-      EXCENTREMENT         = SIMP(statut='f',typ='R'),
-      ORIG_AXE             = SIMP(statut='f',typ='R',max='**'),
-      AXE                  = SIMP(statut='f',typ='R',max='**'),
-      COEF_RIGI_DRZ        = SIMP(statut='f',typ='R',defaut= 1.0E-10 ),
-      GRILLE_NCOU          = SIMP(statut='f',typ='I',defaut= 1,),
-   ),
+   INFO  = SIMP(statut='f',typ='I',defaut=1,into=(1,2) ),
+)
+
+#& 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.
+#
+# 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 DURAND C.DURAND
+THER_LINEAIRE=OPER(nom="THER_LINEAIRE",op=25,sd_prod=evol_ther,reentrant='f',
+            UIinfo={"groupes":("Résolution",)},
+                   fr="Résoudre un problème thermique linéaire stationnaire ou transitoire",
+         regles=(CONCEPT_SENSIBLE('ENSEMBLE'),),
+         MODELE          =SIMP(statut='o',typ=modele_sdaster),
+         CHAM_MATER      =SIMP(statut='o',typ=cham_mater),
+         CARA_ELEM       =SIMP(statut='f',typ=cara_elem),
+         EXCIT           =FACT(statut='o',max='**',
+           CHARGE          =SIMP(statut='o',typ=(char_ther,char_cine_ther)),
+           FONC_MULT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+         ),
+         INCREMENT       =FACT(statut='f',
+           regles=(EXCLUS('NUME_INST_INIT','INST_INIT'),
+                   EXCLUS('NUME_INST_FIN','INST_FIN'),),
+           LIST_INST       =SIMP(statut='o',typ=listr8_sdaster),
+           NUME_INST_INIT  =SIMP(statut='f',typ='I'),
+           INST_INIT       =SIMP(statut='f',typ='R'),
+           NUME_INST_FIN   =SIMP(statut='f',typ='I'),
+           INST_FIN        =SIMP(statut='f',typ='R'),
+           PRECISION       =SIMP(statut='f',typ='R',defaut=1.0E-6 ),
+         ),
+         ETAT_INIT       =FACT(statut='f',
+           regles=(EXCLUS('STATIONNAIRE','EVOL_THER','CHAM_NO','VALE'),),
+           STATIONNAIRE    =SIMP(statut='f',typ='TXM',into=("OUI",)),
+           EVOL_THER       =SIMP(statut='f',typ=evol_ther),
+           CHAM_NO         =SIMP(statut='f',typ=cham_no_sdaster),
+           VALE            =SIMP(statut='f',typ='R'),
+           NUME_ORDRE      =SIMP(statut='f',typ='I'),
+           INST            =SIMP(statut='f',typ='R'),
+           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',),),
+           INST_ETAT_INIT  =SIMP(statut='f',typ='R'),
+         ),
+         SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                               fr="Liste des paramètres de sensibilité.",
+                               ang="List of sensitivity parameters",
+         ),
+           SENS_INIT       =FACT(statut='f',
+             regles=(EXCLUS('STATIONNAIRE','EVOL_THER', ),),
+             STATIONNAIRE    =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+             EVOL_THER       =SIMP(statut='f',typ=evol_ther),
+             NUME_INIT       =SIMP(statut='f',typ='I'),
+           ),
+         SOLVEUR         =FACT(statut='d',
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("MULT_FRONT","LDLT","GCPC","MUMPS","PETSC") ),
+           b_mult_front    =BLOC(condition = "METHODE == 'MULT_FRONT' ",fr="Paramètres de la méthode multi frontale",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+           ),
+           b_ldlt          =BLOC(condition = "METHODE == 'LDLT' ",fr="Paramètres de la méthode LDLT",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("RCMK","SANS") ),
+           ),
+           b_ldlt_mult      =BLOC(condition = "METHODE == 'LDLT' or METHODE == 'MULT_FRONT' ",
+                                   fr="Paramètres relatifs à la non inversibilité de la matrice à factorise",
+             NPREC           =SIMP(statut='f',typ='I',defaut= 8 ),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+           b_gcpc          =BLOC(condition = "METHODE == 'GCPC' ", fr="Paramètres de la méthode du gradient conjugué",
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC",),defaut="LDLT_INC" ),
+             NIVE_REMPLISSAGE=SIMP(statut='f',typ='I',defaut= 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= 0 ),
+           ),
+           b_mumps        =BLOC(condition = "METHODE == 'MUMPS' ",fr="Paramètres de la méthode MUMPS",
+             TYPE_RESOL      =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("NONSYM","SYMGEN","SYMDEF","AUTO")),
+             PRETRAITEMENTS  =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("SANS","AUTO")),
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("AMD","AMF","PORD","METIS","QAMD","AUTO")),
+             ELIM_LAGR2      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+             PCENT_PIVOT     =SIMP(statut='f',typ='I',defaut=10,),
+             RESI_RELA       =SIMP(statut='f',typ='R',defaut=-1.0,),
+             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,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" ),
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC","JACOBI","SOR"),defaut="LDLT_INC" ),
+             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 ),
+           ),
+         ),
+         PARM_THETA      =SIMP(statut='f',typ='R',defaut= 0.57),
+         ARCHIVAGE       =FACT(statut='f',
+           regles=(EXCLUS('PAS_ARCH','LIST_INST','INST'),
+                   EXCLUS('ARCH_ETAT_INIT','NUME_INIT'), ),
+           LIST_INST       =SIMP(statut='f',typ=(listr8_sdaster) ),
+           INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**' ),
+           PAS_ARCH        =SIMP(statut='f',typ='I' ),
+           PRECISION       =SIMP(statut='f',typ='R',defaut= 1.0E-6),
+           ARCH_ETAT_INIT  =SIMP(statut='f',typ='TXM',into=("OUI",)),
+           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=("VARI",)),
+         ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         INFO            =SIMP(statut='f',typ='I',into=(1,2)),
+)  ;
+#& 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.
+#
+# 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 DURAND C.DURAND
+THER_NON_LINE=OPER(nom="THER_NON_LINE",op= 186,sd_prod=evol_ther,reentrant='f',
+            UIinfo={"groupes":("Résolution",)},
+                   fr="Résoudre un problème thermique non linéaire (conditions limites ou comportement matériau)"
+                      +" stationnaire ou transitoire" ,
+         regles=(CONCEPT_SENSIBLE('ENSEMBLE'),),
+         MODELE          =SIMP(statut='o',typ=(modele_sdaster) ),
+         CHAM_MATER      =SIMP(statut='o',typ=(cham_mater) ),
+         CARA_ELEM       =SIMP(statut='c',typ=(cara_elem) ),
+         COMP_THER_NL    =FACT(statut='d',max='**',
+           RELATION        =SIMP(statut='f',typ='TXM',defaut="THER_NL",
+                                 into=("THER_NL",
+                                       "THER_HYDR",
+                                       "SECH_GRANGER",
+                                       "SECH_MENSI",
+                                       "SECH_BAZANT",
+                                       "SECH_NAPPE"
+                                       ) ),
+         regles=(PRESENT_ABSENT('TOUT','GROUP_MA','MAILLE'),),
+           TOUT            =SIMP(statut='f',typ='TXM',into=("OUI",) ),
+           GROUP_MA        =SIMP(statut='f',typ=grma,validators=NoRepeat(),max='**'),
+           MAILLE          =SIMP(statut='f',typ=ma  ,validators=NoRepeat(),max='**'),
+         ),
+         EVOL_THER_SECH  =SIMP(statut='f',typ=evol_ther),
+         EXCIT           =FACT(statut='o',max='**',
+           CHARGE          =SIMP(statut='o',typ=char_ther),
+           FONC_MULT       =SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule)),
+         ),
+         INCREMENT       =FACT(statut='f',
+           regles=(EXCLUS('NUME_INST_INIT','INST_INIT'),
+                   EXCLUS('NUME_INST_FIN','INST_FIN'),),
+           LIST_INST       =SIMP(statut='o',typ=listr8_sdaster),
+           NUME_INST_INIT  =SIMP(statut='f',typ='I'),
+           INST_INIT       =SIMP(statut='f',typ='R'),
+           NUME_INST_FIN   =SIMP(statut='f',typ='I'),
+           INST_FIN        =SIMP(statut='f',typ='R'),
+           PRECISION       =SIMP(statut='f',typ='R',defaut=1.0E-6 ),
+         ),
+         ETAT_INIT       =FACT(statut='f',
+           regles=(EXCLUS('STATIONNAIRE','EVOL_THER','CHAM_NO','VALE'),),
+           STATIONNAIRE    =SIMP(statut='f',typ='TXM',into=("OUI",)),
+           EVOL_THER       =SIMP(statut='f',typ=evol_ther),
+           CHAM_NO         =SIMP(statut='f',typ=cham_no_sdaster),
+           VALE            =SIMP(statut='f',typ='R'),
+           NUME_ORDRE      =SIMP(statut='f',typ='I'),
+           INST            =SIMP(statut='f',typ='R'),
+           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',),),
+           INST_ETAT_INIT  =SIMP(statut='f',typ='R'),
+         ),
+         NEWTON          =FACT(statut='d',
+           REAC_ITER       =SIMP(statut='f',typ='I',defaut= 0 ,val_min=0),
+           RESI_LINE_RELA  =SIMP(statut='f',typ='R',defaut= 1.0E-3 ),
+           ITER_LINE_MAXI  =SIMP(statut='f',typ='I',defaut= 0 ),
+         ),
+         CONVERGENCE     =FACT(statut='d',
+           RESI_GLOB_MAXI  =SIMP(statut='f',typ='R'),
+           RESI_GLOB_RELA  =SIMP(statut='f',typ='R'),
+           ITER_GLOB_MAXI  =SIMP(statut='f',typ='I',defaut= 10 ),
+         ),
+         SENSIBILITE     =SIMP(statut='f',typ=(para_sensi,theta_geom),validators=NoRepeat(),max='**',
+                               fr="Liste des paramètres de sensibilité.",
+                               ang="List of sensitivity parameters",
+         ),
+         SOLVEUR         =FACT(statut='d',
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("MULT_FRONT","LDLT","GCPC","MUMPS","PETSC") ),
+           b_mult_front    =BLOC(condition = "METHODE == 'MULT_FRONT' ",fr="Parametres de la méthode multi frontale",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+           ),
+           b_ldlt          =BLOC(condition = "METHODE == 'LDLT' ",fr="Parametres de la méthode LDLT",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("RCMK","SANS") ),
+           ),
+           b_ldlt_mult     =BLOC(condition = "METHODE == 'LDLT' or METHODE == 'MULT_FRONT' ",
+                                   fr="Parametres relatifs a la non inversibilité de la matrice a factorise",
+             NPREC           =SIMP(statut='f',typ='I',defaut= 8 ),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+           b_gcpc          =BLOC(condition = "METHODE == 'GCPC' ", fr="Parametres de la méthode du gradient conjugué",
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC",),defaut="LDLT_INC" ),
+             NIVE_REMPLISSAGE=SIMP(statut='f',typ='I'  ,defaut= 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= 0 ),
+           ),
+           b_mumps        =BLOC(condition = "METHODE == 'MUMPS' ",fr="Paramètres de la méthode MUMPS",
+             TYPE_RESOL      =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("NONSYM","SYMGEN","SYMDEF","AUTO")),
+             PRETRAITEMENTS  =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("SANS","AUTO")),
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("AMD","AMF","PORD","METIS","QAMD","AUTO")),
+             ELIM_LAGR2      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+             PCENT_PIVOT     =SIMP(statut='f',typ='I',defaut=10,),
+             RESI_RELA       =SIMP(statut='f',typ='R',defaut=-1.0,),
+             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,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" ),
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC","JACOBI","SOR"),defaut="LDLT_INC" ),
+             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",) ),
+         ),
+         PARM_THETA      =SIMP(statut='f',typ='R',defaut= 0.57 ),
+         ARCHIVAGE       =FACT(statut='f',
+           regles=(EXCLUS('PAS_ARCH','LIST_INST','INST'),
+                   EXCLUS('ARCH_ETAT_INIT','NUME_INIT'), ),
+           LIST_INST       =SIMP(statut='f',typ=(listr8_sdaster) ),
+           INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**' ),
+           PAS_ARCH        =SIMP(statut='f',typ='I' ),
+           PRECISION       =SIMP(statut='f',typ='R',defaut= 1.0E-6),
+           ARCH_ETAT_INIT  =SIMP(statut='f',typ='TXM',into=("OUI",)),
+           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=("VARI",)),
+         ),
+         OBSERVATION     =FACT(statut='f',max='**',
+           NOM_CMP         =SIMP(statut='o',typ='TXM',max='**' ),
+           SUIVI_DDL       =SIMP(statut='c',typ='TXM',defaut="NON",max=1,into=("NON",)),
+         b_non_suivi      =BLOC(condition = "SUIVI_DDL == 'NON' ",
+                                regles=(UN_PARMI('NOEUD','GROUP_NO')),
+             NOEUD           =SIMP(statut='f',typ=no  ,validators=NoRepeat(),max='**'),
+             GROUP_NO        =SIMP(statut='f',typ=grno,validators=NoRepeat(),max='**'),
+             NOM_CHAM        =SIMP(statut='o',typ='TXM',validators=NoRepeat(),max='**',into=("TEMP",)),
+             INST            =SIMP(statut='f',typ='R',validators=NoRepeat(),max='**' ),
+             LIST_INST       =SIMP(statut='f',typ=listr8_sdaster),
+             PAS_OBSE        =SIMP(statut='f',typ='I'),
+             LIST_ARCH       =SIMP(statut='f',typ=listis_sdaster),
+             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',),),),
+         ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**'),
+         OPTION          =SIMP(statut='f',typ='TXM',validators=NoRepeat(),max=2,
+                               into=("FLUX_ELGA_TEMP","FLUX_ELNO_TEMP") ),
+         INFO            =SIMP(statut='f',typ='I',into=(1,2) ),
+
+)  ;
+#& 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.
+#
+# 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 DURAND C.DURAND
+THER_NON_LINE_MO=OPER(nom="THER_NON_LINE_MO",op= 171,sd_prod=evol_ther,
+                     fr="Résoudre un problème thermique non linéaire (conditions limites ou comportement matériau)"
+                        +" stationnaire avec chargement mobile",
+                     reentrant='n',
+            UIinfo={"groupes":("Résolution",)},
+         MODELE          =SIMP(statut='o',typ=modele_sdaster ),
+         CHAM_MATER      =SIMP(statut='o',typ=cham_mater ),
+         CARA_ELEM       =SIMP(statut='c',typ=cara_elem ),
+         EXCIT           =FACT(statut='o',max='**',
+           CHARGE          =SIMP(statut='o',typ=char_ther ),
+           FONC_MULT       =SIMP(statut='c',typ=(fonction_sdaster,nappe_sdaster,formule) ),
+         ),
+         ETAT_INIT       =FACT(statut='f',
+           EVOL_THER       =SIMP(statut='f',typ=evol_ther ),
+           NUME_ORDRE      =SIMP(statut='f',typ='I',defaut= 0 ),
+         ),
+         CONVERGENCE     =FACT(statut='d',
+           CRIT_TEMP_RELA  =SIMP(statut='f',typ='R',defaut= 1.E-3 ),
+           CRIT_ENTH_RELA  =SIMP(statut='f',typ='R',defaut= 1.E-2 ),
+           ITER_GLOB_MAXI  =SIMP(statut='f',typ='I',defaut= 10 ),
+           ARRET           =SIMP(statut='c',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+         ),
+         SOLVEUR         =FACT(statut='d',
+           METHODE         =SIMP(statut='f',typ='TXM',defaut="MULT_FRONT",into=("MULT_FRONT","LDLT","GCPC") ),
+           b_mult_front    =BLOC(condition = "METHODE == 'MULT_FRONT' ",fr="Paramètres de la méthode multi frontale",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="METIS",into=("MD","MDA","METIS") ),
+           ),
+           b_ldlt          =BLOC(condition = "METHODE == 'LDLT' ",fr="Paramètres de la méthode LDLT",
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="RCMK",into=("RCMK","SANS") ),
+           ),
+           b_ldlt_mult     =BLOC(condition = "METHODE == 'LDLT' or METHODE == 'MULT_FRONT' ",
+                                   fr="Paramètres relatifs à la non inversibilité de la matrice à factorise",
+             NPREC           =SIMP(statut='f',typ='I',defaut= 8 ),
+             STOP_SINGULIER  =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON") ),
+           ),
+           b_gcpc          =BLOC(condition = "METHODE == 'GCPC' ", fr="Paramètres de la méthode du gradient conjugué",
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC",),defaut="LDLT_INC" ),
+             NIVE_REMPLISSAGE=SIMP(statut='f',typ='I',defaut= 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= 0 ),
+           ),
+           b_mumps        =BLOC(condition = "METHODE == 'MUMPS' ",fr="Paramètres de la méthode MUMPS",
+             TYPE_RESOL      =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("NONSYM","SYMGEN","SYMDEF","AUTO")),
+             PRETRAITEMENTS  =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("SANS","AUTO")),
+             RENUM           =SIMP(statut='f',typ='TXM',defaut="AUTO",into=("AMD","AMF","PORD","METIS","QAMD","AUTO")),
+             ELIM_LAGR2      =SIMP(statut='f',typ='TXM',defaut="OUI",into=("OUI","NON")),
+             PCENT_PIVOT     =SIMP(statut='f',typ='I',defaut=10,),
+             RESI_RELA       =SIMP(statut='f',typ='R',defaut=-1.0,),
+             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,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" ),
+             PRE_COND        =SIMP(statut='f',typ='TXM',into=("LDLT_INC","JACOBI","SOR"),defaut="LDLT_INC" ),
+             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") ),
+         ),
+         TITRE           =SIMP(statut='f',typ='TXM',max='**' ),
+         INFO            =SIMP(statut='f',typ='I',into=(1,2) ),
+)  ;
 
-#============================================================================
-   RIGI_PARASOL         = FACT(statut='f',max='**',
-      regles               = (UN_PARMI('COEF_GROUP','FONC_GROUP'),
-                              UN_PARMI('COOR_CENTRE','NOEUD_CENTRE','GROUP_NO_CENTRE'),
-                              EXCLUS('GROUP_MA_POI1','GROUP_MA_SEG2'),),
-      GROUP_MA             = SIMP(statut='o',typ=ma,validators=NoRepeat(),max='**',
-         fr="Surface servant à répartir les caractéristiques des discrets"),
-      GROUP_MA_POI1        = SIMP(statut='f',typ=ma,validators=NoRepeat(),max=1,
-         fr="Mailles de type point correspondant aux discrets"),
-      GROUP_MA_SEG2        = SIMP(statut='f',typ=ma,validators=NoRepeat(),max=1,
-         fr="Mailles de type seg2 correspondant aux discrets"),
-      FONC_GROUP           = SIMP(statut='f',typ=(fonction_sdaster,nappe_sdaster,formule) ),
-      COEF_GROUP           = SIMP(statut='f',typ='R',max='**'),
-      REPERE               = SIMP(statut='f',typ='TXM',into=("LOCAL","GLOBAL") ),
-      CARA                 = SIMP(statut='o',typ='TXM',validators=NoRepeat(),max=2,
-                                 into=("K_TR_D_N","K_T_D_N","K_TR_D_L","K_T_D_L",
-                                       "A_TR_D_N","A_T_D_N","A_TR_D_L","A_T_D_L") ),
-      VALE                 = SIMP(statut='o',typ='R',max='**'),
-      GROUP_NO_CENTRE      = SIMP(statut='f',typ=grno),
-      NOEUD_CENTRE         = SIMP(statut='f',typ=no),
-      COOR_CENTRE          = SIMP(statut='f',typ='R',min=2,max=3),
-      UNITE_EUROPLEXUS     = SIMP(statut='f',typ='I'),
-   ),
 
-#============================================================================
-   RIGI_MISS_3D         = FACT(statut='f',max='**',
-      GROUP_MA_POI1        = SIMP(statut='o',typ=ma,max=1),
-      GROUP_MA_SEG2        = SIMP(statut='f',typ=ma,max=1),
-      FREQ_EXTR            = SIMP(statut='o',typ='R',max=1),
-      UNITE_RESU_IMPE      = SIMP(statut='f',typ='I',defaut=30),
-   ),
 
-#============================================================================
-   GEOM_FIBRE           = SIMP(statut='f',max=1,typ=gfibre_sdaster,
-      fr="Donner le nom de la SD regroupant tous les groupes de fibres (issue de DEFI_GEOM_FIBRE)"),
-   MULTIFIBRE           = FACT(statut='f',max='**',
-      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='**'),
-      GROUP_FIBRE          = SIMP(statut='o',typ='TXM',max='**'),
-   ),
-);