--- /dev/null
+# coding: utf-8\r
+\r
+from Accas import *\r
+\r
+#class myMesh(ASSD): pass\r
+class myModel(ASSD): pass\r
+\r
+JdC = JDC_CATA(code='PATTERNS',\r
+ execmodul=None,\r
+ regles=(#AU_PLUS_UN('DEBUT', 'POURSUITE'),\r
+ AU_PLUS_UN('ALL_LISTS'),\r
+ #AU_PLUS_UN('FIN'),\r
+ A_CLASSER(('DEBUT', 'POURSUITE'), 'FIN')\r
+ )\r
+)\r
+\r
+class grma():\r
+ def __convert__(cls,valeur):\r
+ if isinstance(valeur, (str,unicode)) and len(valeur.strip()) <= 24 : #and ("item" in (valeur.strip()))\r
+ return valeur.strip()\r
+ raise ValueError("Name length does not contain \"test\" and is longer than allowed, 24")\r
+ __convert__ = classmethod(__convert__)\r
+\r
+def mySeveral(suffix,num):\r
+ out=list()\r
+ for i in range(1,num+1):\r
+ out.append(suffix+str(i).zfill(2))\r
+ return out\r
+\r
+switch_facultatif=True #change 'o' to 'f' of some widgets in the loop\r
+#empty_defauts=True\r
+\r
+def myBloc(num):\r
+ myNum=str(num).zfill(2)\r
+ list_item_body="Item_"+myNum+"_"\r
+ defauts0=["","",True,"'phenomena_"+myNum+"'",mySeveral(list_item_body,2)] #presence of default values\r
+ defauts_mask=[False,False,True,True,True] #switch off defaults of some types\r
+ defauts=list()\r
+ for id0 in range(len(defauts0)):\r
+ if defauts_mask[id0]:\r
+ item=", defaut="+str(defauts0[id0])\r
+ else:\r
+ item=""\r
+ defauts.append(item)\r
+ #print defauts\r
+\r
+ opt=['o','o','o','o','o'] #initial default obligation of items in FACT groups\r
+ #make different widgets optional, one by one:\r
+ myLen=len(opt)\r
+ if switch_facultatif:\r
+ make_f=(num)%myLen\r
+ opt[make_f]='f'\r
+ #print opt\r
+ #if empty_defauts:\r
+ # clean_defaut=num%myLen\r
+\r
+ myString="BLOC(condition=\"MESH==\'mesh_"+myNum+"'\""+defauts[0]+", AFFE=FACT(statut='"+opt[1]+"'"+defauts[1]+", ALL=SIMP(statut='"+opt[2]+"', typ=bool,ang='ALL "+myNum+" help EN'"+defauts[2]+"),PHENOMENA=SIMP(statut='"+opt[3]+"',typ='TXM',into=mySeveral('phenomena_',"+str(num)+")"+defauts[3]+"), MODELISATION=SIMP(statut='"+opt[4]+"',typ='TXM', min=2,max='**',into=mySeveral('"+list_item_body+"',"+str(num*4)+")"+defauts[4]+", ang='Input "+myNum+" list EN', fr='Input "+myNum+" list FR'),),)"\r
+ print myString\r
+ return eval(myString)\r
+\r
+ALL_LISTS=OPER(nom="ALL_LISTS",op=18,sd_prod=myModel,\r
+ UIinfo={"groupes":("Group1",)},\r
+ ang="Model mesh definition EN",\r
+ reentrant='n',\r
+ #regles=(AU_MOINS_UN('LIST_O_CHECKTEXT','LIST_F_CHECKTEXT','LIST_O_ANY','LIST_F_ANY')),\r
+\r
+ #LIST_O_NOREPEAT_CHECKTEXT=SIMP(statut='o',typ=grma,validators=NoRepeat(),min=3, max='**'),\r
+ #LIST_F_NOREPEAT_CHECKTEXT=SIMP(statut='f',typ=grma,validators=NoRepeat(),min=3, max='**'),\r
+ #LIST_F_REPEAT_CHECKTEXT=SIMP(statut='f',typ=grma,min=3, max='**'),\r
+ #LIST_O_REPEAT_CHECKTEXT=SIMP(statut='o',typ=grma,min=3, max='**'),\r
+\r
+ #LIST_F_NOREPEAT_ANYTEXT=SIMP(statut='f',typ='TXM',validators=NoRepeat(),min=3, max='**'),\r
+ #LIST_O_NOREPEAT_ANYTEXT=SIMP(statut='o',typ='TXM',min=3,validators=NoRepeat(), max='**'),\r
+ #LIST_O_REPEAT_ANYTEXT=SIMP(statut='o',typ='TXM',min=3, max='**'),\r
+ #LIST_F_REPEAT_ANYTEXT=SIMP(statut='f',typ='TXM',min=3, max='**'),\r
+\r
+ #LIST_O_NOREPEAT_CHECKTEXT_ADD=SIMP(statut='o',typ=grma,validators=NoRepeat(), into=("item01","text01","item02","text02","item03","text03",), min=3, max='**'),\r
+ #LIST_F_REPEAT_ANYTEXT_ADD=SIMP(statut='f',typ=grma,validators=NoRepeat(), into=("item01","text01","item02","text02","item03","text03",), min=3, max='**'),\r
+\r
+ LIST_O_NOREPEAT_CHECKTEXT_ADD_NODEFAUT=SIMP(statut='o',typ=grma,validators=NoRepeat(), into=("item01","text01","item02","text02","item03","text03","item04","text04",), min=3, max='**'),\r
+ #LIST_O_NOREPEAT_CHECKTEXT_ADD_DEFAUT=SIMP(statut='o',typ=grma,validators=NoRepeat(), into=("item01","text01","item02","text02","item03","text03",), defaut=('item01','item02','item03'), min=3, max='**'),\r
+)\r
+\r
+Classement_Commandes_Ds_Arbre=('DEBUT','MESH_TYPES','ALL_LISTS','FIN')\r
+\r
+Ordre_Des_Commandes = ('DEBUT','MESH_TYPES','ALL_LISTS','FIN')\r
--- /dev/null
+# coding: utf-8\r
+from Accas import *\r
+\r
+#class myMesh(ASSD): pass\r
+class myModel(ASSD): pass\r
+\r
+JdC = JDC_CATA(code='PATTERNS',\r
+ execmodul=None,\r
+ regles=(#AU_PLUS_UN('DEBUT', 'POURSUITE'),\r
+ AU_PLUS_UN('ALL_LISTS'),\r
+ #AU_PLUS_UN('FIN'),\r
+ A_CLASSER(('DEBUT', 'POURSUITE'), 'FIN')\r
+ )\r
+)\r
+\r
+\r
+ALL_LISTS=OPER(nom="ALL_LISTS",op=18,sd_prod=myModel,\r
+ UIinfo={"groupes":("Group1",)},\r
+ ang="Model mesh definition EN",\r
+ reentrant='n',\r
+ LIST_O_NOREPEAT_CHECKTEXT_ADD_DEFAUT=SIMP(statut='o',typ="TXM",validators=NoRepeat(), \r
+ into=("item01","text01","item02","text02","item03","text03","item04","text04","item05","text05",), \r
+ defaut=('item01','item02','item03'),\r
+ homo="SansOrdreNiDoublon",\r
+ min=3, max='**'),\r
+\r
+ #regles=(AU_MOINS_UN('LIST_O_CHECKTEXT','LIST_F_CHECKTEXT','LIST_O_ANY','LIST_F_ANY')),\r
+\r
+ #LIST_O_NOREPEAT_CHECKTEXT=SIMP(statut='o',typ=grma,validators=NoRepeat(),min=3, max='**'),\r
+ #LIST_F_NOREPEAT_CHECKTEXT=SIMP(statut='f',typ=grma,validators=NoRepeat(),min=3, max='**'),\r
+ #LIST_F_REPEAT_CHECKTEXT=SIMP(statut='f',typ=grma,min=3, max='**'),\r
+ #LIST_O_REPEAT_CHECKTEXT=SIMP(statut='o',typ=grma,min=3, max='**'),\r
+\r
+ #LIST_F_NOREPEAT_ANYTEXT=SIMP(statut='f',typ='TXM',validators=NoRepeat(),min=3, max='**'),\r
+ #LIST_O_NOREPEAT_ANYTEXT=SIMP(statut='o',typ='TXM',min=3,validators=NoRepeat(), max='**'),\r
+ #LIST_O_REPEAT_ANYTEXT=SIMP(statut='o',typ='TXM',min=3, max='**'),\r
+ #LIST_F_REPEAT_ANYTEXT=SIMP(statut='f',typ='TXM',min=3, max='**'),\r
+\r
+ #LIST_O_NOREPEAT_CHECKTEXT_ADD=SIMP(statut='o',typ=grma,validators=NoRepeat(), into=("item01","text01","item02","text02","item03","text03",), min=3, max='**'),\r
+ #LIST_F_REPEAT_ANYTEXT_ADD=SIMP(statut='f',typ=grma,validators=NoRepeat(), into=("item01","text01","item02","text02","item03","text03",), min=3, max='**'),\r
+\r
+ #LIST_O_NOREPEAT_CHECKTEXT_ADD_NODEFAUT=SIMP(statut='o',typ=grma,validators=NoRepeat(), into=("item01","text01","item02","text02","item03","text03","item04","text04",), min=3, max='**'),\r
+\r
+\r
+ #LIST_O_SANSORDRENODOUBLON_CHECKTEXT_DEFAUT=SIMP(statut='o',typ=grma,homo="SansOrdreNiDoublon", into=("item01","text01","item02","text02","item03","text03",), defaut=('item01','item02','item03'), min=3, max='**'),\r
+)\r
+\r
+\r
+\r
+Classement_Commandes_Ds_Arbre=('DEBUT','MESH_TYPES','ALL_LISTS','FIN')\r
+\r
+Ordre_Des_Commandes = ('DEBUT','MESH_TYPES','ALL_LISTS','FIN')\r
--- /dev/null
+# coding: utf-8\r
+from Accas import *\r
+\r
+class myModel(ASSD): pass\r
+\r
+JdC = JDC_CATA(code='PATTERNS',\r
+ execmodul=None,\r
+ regles=(#AU_PLUS_UN('DEBUT', 'POURSUITE'),\r
+ AU_PLUS_UN('ALL_LISTS'),\r
+ #AU_PLUS_UN('FIN'),\r
+ A_CLASSER(('DEBUT', 'POURSUITE'), 'FIN')\r
+ )\r
+)\r
+\r
+class grma():\r
+ def __convert__(cls,valeur):\r
+ if isinstance(valeur, (str,unicode)) and len(valeur.strip()) <= 12 and ("item" in (valeur.strip()).lower()): #\r
+ return valeur.strip()\r
+ raise ValueError("Name length does not contain \"test\" and is longer than allowed, 12")\r
+ __convert__ = classmethod(__convert__)\r
+\r
+def mySeveral(suffix,num):\r
+ out=list()\r
+ for i in range(1,num+1):\r
+ out.append(suffix+str(i).zfill(2))\r
+ return out\r
+\r
+ALL_LISTS=OPER(nom="ALL_LISTS",op=18,sd_prod=myModel,\r
+ UIinfo={"groupes":("Group1",)},\r
+ fr="All lists definition FR",\r
+ ang="All lists definition EN",\r
+ reentrant='n',\r
+ #regles=(AU_MOINS_UN('LIST_O_CHECKTEXT','LIST_F_CHECKTEXT','LIST_O_ANY','LIST_F_ANY')),\r
+\r
+ L1_LIST_O_NOREPEAT_CHECKTEXT=SIMP(statut='o',typ=grma,validators=NoRepeat(),min=3, max='**', ang='Obligatory, No Repetitions, checked text, EN'),\r
+ L2_LIST_F_NOREPEAT_CHECKTEXT=SIMP(statut='f',typ=grma,validators=NoRepeat(),min=3, max='**', ang='Optional, No Repetitions, checked text, EN'),\r
+ L3_LIST_F_REPEAT_CHECKTEXT=SIMP(statut='f',typ=grma,min=3, max='**',ang='Optional, Allowed Repetitions, checked text, EN'),\r
+ L4_LIST_O_REPEAT_CHECKTEXT=SIMP(statut='o',typ=grma,min=3, max='**',ang='Obligatory, Allowed Repetitions, checked text, EN'),\r
+\r
+ L5_LIST_F_NOREPEAT_ANYTEXT=SIMP(statut='f',typ='TXM',validators=NoRepeat(),min=3, max='**',ang='Optional, No Repetitions, any text, EN'),\r
+ L6_LIST_O_NOREPEAT_ANYTEXT=SIMP(statut='o',typ='TXM',min=3,validators=NoRepeat(), max='**',ang='Obligatory, No Repetitions, any text, EN'),\r
+ L7_LIST_O_REPEAT_ANYTEXT=SIMP(statut='o',typ='TXM',min=3, max='**',ang='Obligatory, Allowed Repetitions, any text, EN'),\r
+ L8_LIST_F_REPEAT_ANYTEXT=SIMP(statut='f',typ='TXM',min=3, max='**',ang='Optional, Allowed Repetitions, any text, EN'),\r
+\r
+ L9_LIST_O_NOREPEAT_CHECKTEXT_ADD=SIMP(statut='o',typ=grma,validators=NoRepeat(), into=("item01","text01","item02","text02","item03","text03",), min=3, max='**',ang='With spare list, Obligatory, No Repetitions, checked text, EN',),\r
+ L10_LIST_F_REPEAT_ANYTEXT_ADD=SIMP(statut='f',typ='TXM', into=("item01","text01","item02","text02","item03","text03",), min=3, max='**',ang='With spare list, Optional, Allowed Repetitions, any text, EN'),\r
+ L11_LIST_O_REPEAT_CHECKTEXT_ADD_NODEFAUT=SIMP(statut='o',typ=grma, into=("item01","text01","item02","text02","item03","text03","item04","text04"),ang='With spare list, obligatory, No Repetitions, checked text, no default values, EN', min=3, max='**'),\r
+ L12_LIST_O_NOREPEAT_CHECKTEXT_ADD_DEFAUT=SIMP(statut='o',typ=grma,validators=NoRepeat(), into=("item01","text01","item02","text02","item03","text03","item04","text04","item05","text05",), defaut=('item01','item02','item03'), min=3, max='**',ang='With spare list, Obligatory, No Repetitions, checked text, with default values EN'),\r
+\r
+ L13_LIST_F_SANSORDRENODOUBLON_ANYTEXT_NODEFAUT=SIMP(statut='f',typ='TXM',homo="SansOrdreNiDoublon", into=("item01","text01","item02","text02","item03","text03",), min=3, max='**',ang='With check boxes, Optional, any text, no defaults, EN'),\r
+ L14_LIST_O_SANSORDRENODOUBLON_CHECKTEXT_NODEFAUT=SIMP(statut='o',typ=grma,homo="SansOrdreNiDoublon", into=("item01","text01","item02","text02","item03","text03",), min=3, max='**',ang='With check boxes, Obligatory, checked text, EN'),\r
+ L15_LIST_O_SANSORDRENODOUBLON_CHECKTEXT_DEFAUT=SIMP(statut='o',typ=grma,homo="SansOrdreNiDoublon", into=("item01","text01","item02","text02","item03","text03","item02","text02","item01","text01",), defaut=('item01','item02','item03'), min=3, max='**', ang='With check boxes, Obligatory, checked text, with default values, EN'),\r
+)\r
+\r
+\r
+\r
+Classement_Commandes_Ds_Arbre=('DEBUT','MESH_TYPES','ALL_LISTS','FIN')\r
+\r
+Ordre_Des_Commandes = ('DEBUT','MESH_TYPES','ALL_LISTS','FIN')\r
--- /dev/null
+# coding: utf-8\r
+from Accas import *\r
+\r
+class myModel(ASSD): pass\r
+\r
+JdC = JDC_CATA(code='PATTERNS',\r
+ execmodul=None,\r
+ regles=(#AU_PLUS_UN('DEBUT', 'POURSUITE'),\r
+ AU_PLUS_UN('ALL_LISTS'),\r
+ #AU_PLUS_UN('FIN'),\r
+ A_CLASSER(('DEBUT', 'POURSUITE'), 'FIN')\r
+ )\r
+)\r
+\r
+class grma():\r
+ def __convert__(cls,valeur):\r
+ if isinstance(valeur, (str,unicode)) and len(valeur.strip()) <= 12 and ("item" in (valeur.strip()).lower()): #\r
+ return valeur.strip()\r
+ raise ValueError("Name length does not contain \"item\" and is longer than allowed, 12")\r
+ __convert__ = classmethod(__convert__)\r
+\r
+def mySeveral(suffix,num):\r
+ out=list()\r
+ for i in range(1,num+1):\r
+ out.append(suffix+str(i).zfill(2))\r
+ return out\r
+\r
+ALL_LISTS=OPER(nom="ALL_LISTS",op=18,sd_prod=myModel,\r
+ UIinfo={"groupes":("Group1",)},\r
+ fr="All lists definition FR",\r
+ ang="All lists definition EN",\r
+ reentrant='n',\r
+ #regles=(AU_MOINS_UN('LIST_O_CHECKTEXT','LIST_F_CHECKTEXT','LIST_O_ANY','LIST_F_ANY')),\r
+\r
+ L1_LIST_O_NOREPEAT_CHECKTEXT=SIMP(statut='o',typ=grma,validators=NoRepeat(),min=3, max='**', ang='Obligatory, No Repetitions, checked text, EN'),\r
+ L2_LIST_F_NOREPEAT_CHECKTEXT=SIMP(statut='f',typ=grma,validators=NoRepeat(),min=3, max='**', ang='Optional, No Repetitions, checked text, EN'),\r
+ L3_LIST_F_REPEAT_CHECKTEXT=SIMP(statut='f',typ=grma,min=3, max='**',ang='Optional, Allowed Repetitions, checked text, EN'),\r
+ L4_LIST_O_REPEAT_CHECKTEXT=SIMP(statut='o',typ=grma,min=3, max='**',ang='Obligatory, Allowed Repetitions, checked text, EN'),\r
+\r
+ L5_LIST_F_NOREPEAT_ANYTEXT=SIMP(statut='f',typ='TXM',validators=NoRepeat(),min=3, max='**',ang='Optional, No Repetitions, any text, EN'),\r
+ L6_LIST_O_NOREPEAT_ANYTEXT=SIMP(statut='o',typ='TXM',min=3,validators=NoRepeat(), max='**',ang='Obligatory, No Repetitions, any text, EN'),\r
+ L7_LIST_O_REPEAT_ANYTEXT=SIMP(statut='o',typ='TXM',min=3, max='**',ang='Obligatory, Allowed Repetitions, any text, EN'),\r
+ L8_LIST_F_REPEAT_ANYTEXT=SIMP(statut='f',typ='TXM',min=3, max='**',ang='Optional, Allowed Repetitions, any text, EN'),\r
+\r
+ L9_LIST_O_NOREPEAT_CHECKTEXT_ADD=SIMP(statut='o',typ=grma,validators=NoRepeat(), into=("item01","text01","item02","text02","item03","text03",), min=3, max='**',ang='With spare list, Obligatory, No Repetitions, checked text, EN',),\r
+ L10_LIST_F_REPEAT_ANYTEXT_ADD=SIMP(statut='f',typ='TXM', into=("item01","text01","item02","text02","item03","text03",), min=3, max='**',ang='With spare list, Optional, Allowed Repetitions, any text, EN'),\r
+ L11_LIST_O_REPEAT_CHECKTEXT_ADD_NODEFAUT=SIMP(statut='o',typ=grma, into=("item01","text01","item02","text02","item03","text03","item04","text04"),ang='With spare list, obligatory, No Repetitions, checked text, no default values, EN', min=3, max='**'),\r
+ L12_LIST_O_NOREPEAT_CHECKTEXT_ADD_DEFAUT=SIMP(statut='o',typ=grma,validators=NoRepeat(), into=("item01","text01","item02","text02","item03","text03","item04","text04","item05","text05",), defaut=('item01','item02','item03'), min=3, max='**',ang='With spare list, Obligatory, No Repetitions, checked text, with default values EN'),\r
+\r
+ L13_LIST_F_SANSORDRENODOUBLON_ANYTEXT_NODEFAUT=SIMP(statut='f',typ='TXM',homo="SansOrdreNiDoublon", into=("item01","text01","item02","text02","item03","text03",), min=3, max='**',ang='With check boxes, Optional, any text, no defaults, EN'),\r
+ L14_LIST_O_SANSORDRENODOUBLON_CHECKTEXT_NODEFAUT=SIMP(statut='o',typ=grma,homo="SansOrdreNiDoublon", into=("item01","text01","item02","text02","item03","text03",), min=3, max='**',ang='With check boxes, Obligatory, checked text, EN'),\r
+ L15_LIST_O_SANSORDRENODOUBLON_CHECKTEXT_NOREPEAT_DEFAUT=SIMP(statut='o',typ=grma,homo="SansOrdreNiDoublon", into=("item01","text01","item02","text02","item03","text03","item03","text03","item02","text02","item01","text01",), defaut=('item01','item02','item03'), min=3, max='**', ang='With check boxes, Obligatory, checked text, with default values, EN'), #validators=NoRepeat(),\r
+)\r
+\r
+\r
+\r
+Classement_Commandes_Ds_Arbre=('DEBUT','MESH_TYPES','ALL_LISTS','FIN')\r
+\r
+Ordre_Des_Commandes = ('DEBUT','MESH_TYPES','ALL_LISTS','FIN')\r
--- /dev/null
+# coding: utf-8\r
+from Accas import *\r
+\r
+class myModel(ASSD): pass\r
+\r
+JdC = JDC_CATA(code='PATTERNS',\r
+ execmodul=None,\r
+ regles=(#AU_PLUS_UN('DEBUT', 'POURSUITE'),\r
+ AU_PLUS_UN('ALL_LISTS'),\r
+ #AU_PLUS_UN('FIN'),\r
+ A_CLASSER(('DEBUT', 'POURSUITE'), 'FIN')\r
+ )\r
+)\r
+\r
+class grma():\r
+ def __convert__(cls,valeur):\r
+ if isinstance(valeur, (str,unicode)) and len(valeur.strip()) <= 12 and ("item" in (valeur.strip()).lower()): #\r
+ return valeur.strip()\r
+ raise ValueError("Name length does not contain \"test\" and is longer than allowed, 12")\r
+ __convert__ = classmethod(__convert__)\r
+\r
+def mySeveral(suffix,num):\r
+ out=list()\r
+ for i in range(1,num+1):\r
+ out.append(suffix+str(i).zfill(2))\r
+ return out\r
+\r
+ALL_LISTS=OPER(nom="ALL_LISTS",op=18,sd_prod=myModel,\r
+ UIinfo={"groupes":("Group1",)},\r
+ fr="All lists definition FR",\r
+ ang="All lists definition EN",\r
+ reentrant='n',\r
+ #regles=(AU_MOINS_UN('LIST_O_CHECKTEXT','LIST_F_CHECKTEXT','LIST_O_ANY','LIST_F_ANY')),\r
+\r
+ L1_LIST_O_NOREPEAT_CHECKTEXT=SIMP(statut='o',typ=grma,validators=NoRepeat(),min=3, max='**', ang='Obligatory, No Repetitions, checked text, EN'),\r
+ L2_LIST_F_NOREPEAT_CHECKTEXT=SIMP(statut='f',typ=grma,validators=NoRepeat(),min=3, max='**', ang='Optional, No Repetitions, checked text, EN'),\r
+ L3_LIST_F_REPEAT_CHECKTEXT=SIMP(statut='f',typ=grma,min=3, max='**',ang='Optional, Allowed Repetitions, checked text, EN'),\r
+ L4_LIST_O_REPEAT_CHECKTEXT=SIMP(statut='o',typ=grma,min=3, max='**',ang='Obligatory, Allowed Repetitions, checked text, EN'),\r
+\r
+ L5_LIST_F_NOREPEAT_ANYTEXT=SIMP(statut='f',typ='TXM',validators=NoRepeat(),min=3, max='**',ang='Optional, No Repetitions, any text, EN'),\r
+ L6_LIST_O_NOREPEAT_ANYTEXT=SIMP(statut='o',typ='TXM',min=3,validators=NoRepeat(), max='**',ang='Obligatory, No Repetitions, any text, EN'),\r
+ L7_LIST_O_REPEAT_ANYTEXT=SIMP(statut='o',typ='TXM',min=3, max='**',ang='Obligatory, Allowed Repetitions, any text, EN'),\r
+ L8_LIST_F_REPEAT_ANYTEXT=SIMP(statut='f',typ='TXM',min=3, max='**',ang='Optional, Allowed Repetitions, any text, EN'),\r
+\r
+ L9_LIST_O_NOREPEAT_CHECKTEXT_ADD=SIMP(statut='o',typ=grma,validators=NoRepeat(), into=("item01","text01","item02","text02","item03","text03",), min=3, max='**',ang='With spare list, Obligatory, No Repetitions, checked text, EN',),\r
+ L10_LIST_F_REPEAT_ANYTEXT_ADD=SIMP(statut='f',typ='TXM', into=("item01","text01","item02","text02","item03","text03",), min=3, max='**',ang='With spare list, Optional, Allowed Repetitions, any text, EN'),\r
+ L11_LIST_O_REPEAT_CHECKTEXT_ADD_NODEFAUT=SIMP(statut='o',typ=grma, into=("item01","text01","item02","text02","item03","text03","item04","text04"),ang='With spare list, obligatory, No Repetitions, checked text, no default values, EN', min=3, max='**'),\r
+ L12_LIST_O_NOREPEAT_CHECKTEXT_ADD_DEFAUT=SIMP(statut='o',typ=grma,validators=NoRepeat(), into=("item01","text01","item02","text02","item03","text03","item04","text04","item05","text05",), defaut=('item01','item02','item03'), min=3, max='**',ang='With spare list, Obligatory, No Repetitions, checked text, with default values EN'),\r
+\r
+ L13_LIST_F_SANSORDRENODOUBLON_ANYTEXT_NODEFAUT=SIMP(statut='f',typ='TXM',homo="SansOrdreNiDoublon", into=("item01","text01","item02","text02","item03","text03",), min=3, max='**',ang='With check boxes, Optional, any text, no defaults, EN'),\r
+ L14_LIST_O_SANSORDRENODOUBLON_CHECKTEXT_NODEFAUT=SIMP(statut='o',typ=grma,homo="SansOrdreNiDoublon", into=("item01","text01","item02","text02","item03","text03",), min=3, max='**',ang='With check boxes, Obligatory, checked text, EN'),\r
+ L15_LIST_O_SANSORDRENODOUBLON_CHECKTEXT_DEFAUT=SIMP(statut='o',typ=grma,homo="SansOrdreNiDoublon", into=("item01","text01","item02","text02","item03","text03",), defaut=('item01','item02','item03'), min=3, max='**', ang='With check boxes, Obligatory, checked text, with default values, EN'),\r
+)\r
+\r
+\r
+\r
+Classement_Commandes_Ds_Arbre=('DEBUT','MESH_TYPES','ALL_LISTS','FIN')\r
+\r
+Ordre_Des_Commandes = ('DEBUT','MESH_TYPES','ALL_LISTS','FIN')\r
--- /dev/null
+# coding: utf-8
+from Accas import *
+#class myModel(ASSD): pass
+
+JdC = JDC_CATA(code='GLOB_COND',
+ execmodul=None,
+ regles=(AU_PLUS_UN('TYPES',),
+ AU_PLUS_UN('INITS',),
+ AU_PLUS_UN('DATAS',),
+ #A_CLASSER('TYPES','INITS','DATAS')
+ )
+);
+
+TYPES=PROC(nom='TYPES',op=None,UIinfo={"groupes":("Global_Workflow",)}, #sd_prod=myModel,
+ MODE=SIMP(
+ typ='TXM',
+ statut='o',
+ position='global_jdc',
+ into=("MANUAL","AUTOMATIC","MIXED"),
+ defaut="AUTOMATIC",
+ ),
+);
+
+liste_condition=('INITS', 'DATAS')
+
+INITS=PROC(nom='INITS',op=None,UIinfo={"groupes":("INI_param",)},
+ ini_manual=BLOC(condition="MODE == 'MANUAL'",
+ Informer=SIMP(statut='o',typ='TXM', defaut="INITS MANUAL"),
+ ),
+ ini_auto=BLOC(condition="MODE == 'AUTOMATIC'",
+ Informer=SIMP(statut='o', typ='TXM', defaut="INITS AUTOMATIC",),
+ ),
+ ini_mixed=BLOC(condition="MODE == 'MIXED'",
+ Informer=SIMP(statut='o',typ='TXM', defaut="INITS MIXED",),
+ ),
+);
+DATAS=PROC(nom='DATAS',op=None,UIinfo={"groupes":("DATAS",)},
+ data_manual=BLOC(condition="MODE == 'MANUAL'",
+ Informer=SIMP(statut='o',typ='TXM', defaut="DATAS MANUAL",
+ ),
+ ),
+ data_auto=BLOC(condition="MODE == 'AUTOMATIC'",
+ Informer=SIMP(statut='o', typ='TXM', defaut="DATAS AUTOMATIC",
+ ),
+ ),
+ data_mixed=BLOC(condition="MODE == 'MIXED'",
+ Informer=SIMP(statut='o',typ='TXM', defaut="DATAS MIXED",
+ ),
+ ),
+);
+
+Classement_Commandes_Ds_Arbre=('TYPES','INITS','DATAS')
+Ordre_Des_Commandes = ('TYPES','INITS','DATAS')
--- /dev/null
+# coding: utf-8
+
+from Accas import *
+
+#class myMesh(ASSD): pass
+class myModel(ASSD): pass
+
+JdC = JDC_CATA(code='PATTERNS',
+ execmodul=None,
+ regles=(UN_PARMI('DEBUT', 'POURSUITE'),
+ AU_MOINS_UN('FIN'),
+ A_CLASSER(('DEBUT', 'POURSUITE'), 'FIN')))
+
+DEBUT=PROC(nom="DEBUT", op=68, repetable='n', UIinfo={"groupes":("Group1",)}, ang="Debut Eng help",
+ PAR_LOT=SIMP(ang="Debut Par Lot help En",statut='o',typ=bool, defaut=True),
+)
+AFFE_MODELE=OPER(nom="AFFE_MODELE",op=None,sd_prod=myModel,
+ UIinfo={"groupes":("Group1",)},
+ ang="Model mesh definition EN",
+ MESH=SIMP(statut='o',typ='TXM',into=("mesh_01","mesh_02","mesh_03","mesh_04",) , defaut="mesh_01"),
+ #reentrant='n',
+ #regles=(AU_MOINS_UN('AFFE','AFFE_SOUS_STRUC'),UN_PARMI('MAILLAGE','GRILLE')),
+
+
+ block_mesh_01=BLOC(condition="MESH=='mesh_01'",
+ AFFE=FACT(statut='o',
+ ALL=SIMP(statut='o', typ=bool,ang='ALL 01 help EN', defaut=True),
+ PHENOMENA=SIMP(statut='o',typ='TXM',into=('phenomena_01','phenomena_02',), defaut='phenomena_01'),
+ #MODELISATION=SIMP(statut='o',typ='TXM', min=2,max='**', into=("mesh_01","mesh_02","mesh_03","mesh_04",) ,ang='Input 01 list EN', fr='Input 01 list FR'),
+ MODELISATION=SIMP(statut='o',typ='TXM', min=2,max='**', into=('Item_01_01','Item_01_02',) ,ang='Input 01 list EN', fr='Input 01 list FR'),
+ ),
+ ),
+)
+FIN=PROC(nom="FIN",op=9999,repetable='n',ang="Finish help EN",UIinfo={"groupes":("Group1",)},
+ FORMAT_HDF =SIMP(ang="Save HDF EN",statut='f',typ='TXM',defaut="NON",into=("OUI","NON",) ),
+)
+
+Classement_Commandes_Ds_Arbre=('DEBUT','MESH','AFFE_MODELE','FIN')
+Ordre_Des_Commandes = ('DEBUT','MESH','AFFE_MODELE','FIN')
--- /dev/null
+# coding: utf-8
+
+from Accas import *
+
+class myMesh(ASSD): pass
+class myModel(ASSD): pass
+
+JdC = JDC_CATA(code='PATTERNS',
+ execmodul=None,
+ regles=(AU_PLUS_UN('DEBUT', 'POURSUITE'),
+ AU_PLUS_UN('AFFE_MODELE'),
+ AU_PLUS_UN('FIN'),
+ A_CLASSER(('DEBUT', 'POURSUITE'), 'FIN')))
+
+def mySeveral(suffix,num):
+ out=list()
+ for i in range(1,num+1):
+ out.append(suffix+str(i).zfill(2))
+ return out
+
+switch_facultatif=True #change 'o' to 'f' of some widgets in the loop
+empty_defauts=True
+
+def myBloc(num):
+ myNum=str(num).zfill(2)
+ list_item_body="Item_"+myNum+"_"
+ defauts0=["","",True,"'phenomena_"+myNum+"'",mySeveral(list_item_body,2)] #presence of default values
+ defauts_mask=[False,False,True,True,True] #switch off defaults of some types
+ defauts=list()
+ for id0 in range(len(defauts0)):
+ if defauts_mask[id0]:
+ item=", defaut="+str(defauts0[id0])
+ else:
+ item=""
+ defauts.append(item)
+ #print defauts
+
+ opt=['o','o','o','o','o'] #initial default obligation of items in FACT groups
+ #make some widgets optional:
+ myLen=len(opt)
+ if switch_facultatif:
+ make_f=(num)%myLen
+ opt[make_f]='f'
+ #print opt
+ if empty_defauts:
+ clean_defaut=num%myLen
+
+ myString="BLOC(condition=\"MESH==\'mesh_"+myNum+"'\""+defauts[0]+", AFFE=FACT(statut='"+opt[1]+"'"+defauts[1]+", ALL=SIMP(statut='"+opt[2]+"', typ=bool,ang='ALL "+myNum+" help EN'"+defauts[2]+"),PHENOMENA=SIMP(statut='"+opt[3]+"',typ='TXM',into=mySeveral('phenomena_',"+str(num)+")"+defauts[3]+"), MODELISATION=SIMP(statut='"+opt[4]+"',typ='TXM', min=2,max='**',into=mySeveral('"+list_item_body+"',"+str(num*4)+")"+defauts[4]+", ang='Input "+myNum+" list EN', fr='Input "+myNum+" list FR'),),)"
+ print myString
+ return eval(myString)
+
+DEBUT=PROC(nom="DEBUT", op=10, repetable='n', UIinfo={"groupes":("Group1",)}, ang="Debut Eng help",
+ PAR_LOT=SIMP(ang="Debut Par Lot help En",statut='o',typ=bool, defaut=True),
+);
+
+AFFE_MODELE=OPER(nom="AFFE_MODELE",op=18,sd_prod=myModel,
+ UIinfo={"groupes":("Group1",)},
+ ang="Model mesh definition EN",
+ reentrant='n',
+ regles=(AU_MOINS_UN('APPROVED')),
+ MESH=SIMP(statut='o',typ='TXM',into=mySeveral("mesh_",4) ,defaut="mesh_01"),
+ APPROVED=SIMP(statut="o", typ=bool),
+ block_mesh_01=myBloc(1),
+ block_mesh_02=myBloc(2),
+ block_mesh_03=myBloc(3),
+ block_mesh_04=myBloc(4),
+)
+
+
+FIN=PROC(nom="FIN",op=9999,repetable='n',ang="Finish help EN",UIinfo={"groupes":("Group1",)},
+ FORMAT_HDF =SIMP(ang="Save HDF EN",statut='f',typ='TXM',defaut="NON",into=("OUI","NON",) ),
+);
+
+Classement_Commandes_Ds_Arbre=('DEBUT','MESH_TYPES','AFFE_MODELE','FIN')
+
+Ordre_Des_Commandes = ('DEBUT','MESH_TYPES','AFFE_MODELE','FIN')
--- /dev/null
+# coding: utf-8
+
+from Accas import *
+
+#class myMesh(ASSD): pass
+class myModel(ASSD): pass
+
+JdC = JDC_CATA(code='PATTERNS',
+ execmodul=None,
+ regles=(AU_PLUS_UN('DEBUT', 'POURSUITE'),
+ AU_PLUS_UN('AFFE_MODELE'),
+ AU_PLUS_UN('FIN'),
+ A_CLASSER(('DEBUT', 'POURSUITE'), 'FIN')))
+
+def mySeveral(suffix,num):
+ out=list()
+ for i in range(1,num+1):
+ out.append(suffix+str(i).zfill(2))
+ return out
+
+switch_facultatif=True #change 'o' to 'f' of some widgets in the loop
+#empty_defauts=True
+
+def myBloc(num):
+ myNum=str(num).zfill(2)
+ list_item_body="Item_"+myNum+"_"
+ defauts0=["","",True,"'phenomena_"+myNum+"'",mySeveral(list_item_body,2)] #presence of default values
+ defauts_mask=[False,False,True,True,True] #switch off defaults of some types
+ defauts=list()
+ for id0 in range(len(defauts0)):
+ if defauts_mask[id0]:
+ item=", defaut="+str(defauts0[id0])
+ else:
+ item=""
+ defauts.append(item)
+ #print defauts
+
+ opt=['o','o','o','o','o'] #initial default obligation of items in FACT groups
+ #make different widgets optional, one by one:
+ myLen=len(opt)
+ if switch_facultatif:
+ make_f=(num)%myLen
+ opt[make_f]='f'
+ #print opt
+ #if empty_defauts:
+ # clean_defaut=num%myLen
+
+ myString="BLOC(condition=\"MESH==\'mesh_"+myNum+"'\""+defauts[0]+", AFFE=FACT(statut='"+opt[1]+"'"+defauts[1]+", ALL=SIMP(statut='"+opt[2]+"', typ=bool,ang='ALL "+myNum+" help EN'"+defauts[2]+"),PHENOMENA=SIMP(statut='"+opt[3]+"',typ='TXM',into=mySeveral('phenomena_',"+str(num)+")"+defauts[3]+"), MODELISATION=SIMP(statut='"+opt[4]+"',typ='TXM', min=2,max='**',into=mySeveral('"+list_item_body+"',"+str(num*4)+")"+defauts[4]+", ang='Input "+myNum+" list EN', fr='Input "+myNum+" list FR'),),)"
+ print myString
+ return eval(myString)
+
+DEBUT=PROC(nom="DEBUT", op=10, repetable='n', UIinfo={"groupes":("Group1",)}, ang="Debut Eng help",
+ PAR_LOT=SIMP(ang="Debut Par Lot help En",statut='o',typ=bool, defaut=True),
+);
+
+AFFE_MODELE=OPER(nom="AFFE_MODELE",op=18,sd_prod=myModel,
+ UIinfo={"groupes":("Group1",)},
+ ang="Model mesh definition EN",
+ reentrant='n',
+ regles=(AU_MOINS_UN('APPROVED')),
+ MESH=SIMP(statut='o',typ='TXM',into=mySeveral("mesh_",4) ,defaut="mesh_01"),
+ APPROVED=SIMP(statut="f", typ=bool), # presence of this item will validate the whole group
+ PAR_LOT=SIMP(ang="Debut Par Lot help En",statut='o',typ='I', defaut=True),
+ block_mesh_01=myBloc(1),
+ block_mesh_02=myBloc(2),
+ block_mesh_03=myBloc(3),
+ block_mesh_04=myBloc(4),
+)
+
+
+FIN=PROC(nom="FIN",op=9999,repetable='n',ang="Finish help EN",UIinfo={"groupes":("Group1",)},
+ FORMAT_HDF =SIMP(ang="Save HDF EN",statut='f',typ='TXM',defaut="NON",into=("OUI","NON",) ),
+);
+
+Classement_Commandes_Ds_Arbre=('DEBUT','MESH_TYPES','AFFE_MODELE','FIN')
+
+Ordre_Des_Commandes = ('DEBUT','MESH_TYPES','AFFE_MODELE','FIN')
--- /dev/null
+# coding: utf-8
+
+from Accas import *
+
+#class myMesh(ASSD): pass
+class myModel(ASSD): pass
+
+JdC = JDC_CATA(code='PATTERNS',
+ execmodul=None,
+ regles=(AU_PLUS_UN('DEBUT', 'POURSUITE'),
+ AU_PLUS_UN('AFFE_MODELE'),
+ AU_PLUS_UN('FIN'),
+ A_CLASSER(('DEBUT', 'POURSUITE'), 'FIN')))
+
+def mySeveral(suffix,num):
+ out=list()
+ for i in range(1,num+1):
+ out.append(suffix+str(i).zfill(2))
+ return out
+
+switch_facultatif=True #change 'o' to 'f' of some widgets in the loop
+#empty_defauts=True
+
+def myBloc(num):
+ myNum=str(num).zfill(2)
+ list_item_body="Item_"+myNum+"_"
+ defauts0=["","",True,"'phenomena_"+myNum+"'",mySeveral(list_item_body,2)] #presence of default values
+ defauts_mask=[False,False,True,True,False] #switch off defaults of some types
+ defauts=list()
+ for id0 in range(len(defauts0)):
+ if defauts_mask[id0]:
+ item=", defaut="+str(defauts0[id0])
+ else:
+ item=""
+ defauts.append(item)
+ #print defauts
+
+ opt=['o','o','o','o','o'] #initial default obligation of items in FACT groups
+ #make different widgets optional, one by one:
+ myLen=len(opt)
+ if switch_facultatif:
+ make_f=(num)%myLen
+ opt[make_f]='f'
+ #print opt
+ #if empty_defauts:
+ # clean_defaut=num%myLen
+
+ myString="BLOC(condition=\"MESH==\'mesh_"+myNum+"'\""+defauts[0]+", AFFE=FACT(statut='"+opt[1]+"'"+defauts[1]+", ALL=SIMP(statut='"+opt[2]+"', typ=bool,ang='ALL "+myNum+" help EN'"+defauts[2]+"),PHENOMENA=SIMP(statut='"+opt[3]+"',typ='TXM',into=mySeveral('phenomena_',"+str(num)+")"+defauts[3]+"), MODELISATION=SIMP(statut='"+opt[4]+"',typ='TXM', min=4,max='**',into=mySeveral('"+list_item_body+"',"+str(num*4)+")"+defauts[4]+", ang='Input "+myNum+" list EN', fr='Input "+myNum+" list FR'),),)"
+ print myString
+ return eval(myString)
+
+DEBUT=PROC(nom="DEBUT", op=10, repetable='n', UIinfo={"groupes":("Group1",)}, ang="Debut Eng help",
+ PAR_LOT=SIMP(ang="Debut Par Lot help En",statut='o',typ=bool, defaut=True),
+);
+
+AFFE_MODELE=OPER(nom="AFFE_MODELE",op=18,sd_prod=myModel,
+ UIinfo={"groupes":("Group1",)},
+ ang="Model mesh definition EN",
+ reentrant='n',
+ regles=(AU_MOINS_UN('APPROVED')),
+ MESH=SIMP(statut='o',typ='TXM',into=mySeveral("mesh_",4) ,defaut="mesh_01"),
+ APPROVED=SIMP(statut="f", typ=bool), # presence of this item will validate the whole group
+ block_mesh_01=myBloc(1),
+ block_mesh_02=myBloc(2),
+ block_mesh_03=myBloc(3),
+ block_mesh_04=myBloc(4),
+)
+
+
+FIN=PROC(nom="FIN",op=9999,repetable='n',ang="Finish help EN",UIinfo={"groupes":("Group1",)},
+ FORMAT_HDF =SIMP(ang="Save HDF EN",statut='f',typ='TXM',defaut="NON",into=("OUI","NON",) ),
+);
+
+Classement_Commandes_Ds_Arbre=('DEBUT','MESH_TYPES','AFFE_MODELE','FIN')
+
+Ordre_Des_Commandes = ('DEBUT','MESH_TYPES','AFFE_MODELE','FIN')
--- /dev/null
+# coding: utf-8
+from Accas import *
+
+class loi ( ASSD ) : pass
+class variable ( ASSD ) : pass
+
+class Matrice:
+ def __init__(self,nbLigs=None,nbCols=None,methodeCalculTaille=None,formatSortie="ligne",valSup=None,valMin=None,structure=None):
+ self.nbLigs=nbLigs
+ self.nbCols=nbCols
+ self.methodeCalculTaille=methodeCalculTaille
+ self.formatSortie=formatSortie
+ self.valSup=valSup
+ self.valMin=valMin
+ self.structure=structure
+
+ def __convert__(self,valeur):
+ # Attention ne verifie pas grand chose
+ if type(valeur) != types.ListType :
+ return None
+ return valeur
+
+ def info(self):
+ return "Matrice %s x %s" % (self.nbLigs, self.nbCols)
+
+ __repr__=info
+ __str__=info
+
+
+
+class myModel(ASSD): pass
+
+JdC = JDC_CATA(code='PATTERNS',
+ execmodul=None,
+ regles=(AU_MOINS_UN ( 'CORRELATION' ),
+ )
+)
+
+DETERMINISTICVARIABLE = OPER ( nom = "DETERMINISTICVARIABLE",
+ sd_prod = variable,
+ op = None,
+ fr = "Variable deterministe",
+ ang = "Deterministic variable",
+
+ N = SIMP ( statut = 'o', typ = "TXM", fr = "Nom", ang = "Name", defaut = "Var1" ),
+ T = SIMP ( statut = 'o', defaut = "in", into = ( "in" , "out", ), typ = "TXM", fr = "Type", ang = "Type" ),
+ R = SIMP ( statut = 'o', defaut = 0, typ = "I", fr = "Rang", ang = "Rank" ),
+)
+
+DISTRIBUTION = OPER ( nom = "DISTRIBUTION",
+ sd_prod = loi,
+ op = 68,
+ fr = "Definitions des lois marginales utilisees par les variables d'entree",
+
+ R = SIMP ( statut = "o", typ = "R", max = 1, val_min = 0., fr = "Parametre R de la loi | R > 0", ang = "R parameter | R > 0", defaut = 0.5 ),
+ # T > R
+ T = SIMP ( statut = "o", typ = "R", max = 1, val_min = 0., fr = "Parametre T de la loi | T > R", ang = "T parameter | T > R", defaut = 0.7 ),
+ A = SIMP ( statut = "o", typ = "R", max = 1, fr = "Borne inferieure du support de la loi", ang = "Support lower bound", defaut = 0.1 ),
+ # B > A
+ B = SIMP ( statut = "o", typ = "R", max = 1, fr = "Borne superieure du support de la loi", ang = "Support upper bound", defaut = 0.3 ),
+)
+
+VARIABLE = PROC ( nom = "VARIABLE",
+ op = None,
+ docu = "",
+ fr = "Variable probabiliste",
+ ang = "Probabilistic variable",
+
+ ModelVariable = SIMP ( statut = "o", typ = ( variable, ), fr = "Variable d'entrée du modèle", ang = "Input variable of the model" ),
+ Distribution = SIMP ( statut = "o", typ = ( loi, ), fr = "Modélisation probabiliste", ang = "Probabilistic modelisation" ),
+)
+
+CORRELATION = PROC ( nom = 'CORRELATION',
+ op = None,
+ docu = "",
+ fr = "Correlation entre variables",
+ ang = "Variable correlation",
+
+ CorrelationMatrix = SIMP ( statut = "o", typ = Matrice(nbLigs=None,
+ nbCols=None,
+ methodeCalculTaille='NbDeVariables',
+ valSup=1,
+ valMin=-1,
+ structure="symetrique"),
+ fr = "Matrice de correlation entre les variables d'entree",
+ ang = "Correlation matrix for input variables" ),
+)
--- /dev/null
+# coding: utf-8
+
+from Accas import *
+
+class loi(): pass
+
+JdC = JDC_CATA (code = 'PATTERNS',
+ execmodul = None,
+ )
+use_and=False #switch off second condition about MAX_ROWS while it does not work for blocks greater than 2
+def cond2(myMax=False):
+ if use_and:
+ if myMax:
+ out= " and MAX_ROWS>="+str(myMax)
+ else:
+ out=""
+ else:
+ out=""
+ print out
+ return out
+
+PROC_01 = PROC(nom = "PROC_01",op = None, ang="Help for PROC_01 EN",
+ MAX_ROWS=SIMP(statut='o',typ='I',val_min=1,val_max=8, defaut=8),
+ PROCGROUP1=SIMP(statut='o',typ='TXM',into=("1A","2A","add new row",)),
+ wideblock1=BLOC(condition='PROCGROUP1=="add new row"'+cond2(1),
+ PROCGROUP2=SIMP(statut='o',typ='TXM',into=("1A","add new row","3A",)),
+ wideblock2=BLOC(condition='PROCGROUP2=="add new row"'+cond2(2),
+ PROCGROUP3=SIMP(statut='o',typ='TXM',into=("1","2","add new row",)),
+ PROCGROUP689=SIMP(statut='o',typ='TXM',),
+ wideblock3=BLOC(condition='PROCGROUP3=="add new row"'+cond2(3),
+ PROCGROUP4=SIMP(statut='o',typ='TXM',into=("1","add new row","3",)),
+ wideblock4=BLOC(condition='PROCGROUP4=="add new row"'+cond2(4),
+ PROCGROUP5=SIMP(statut='o',typ='TXM',into=("add new row","2","3",)),
+ wideblock5=BLOC(condition='PROCGROUP5=="add new row"'+cond2(5),
+ PROCGROUP6=SIMP(statut='o',typ='TXM',into=("1","2","add new row",)),
+ wideblock6=BLOC(condition='PROCGROUP6=="add new row"'+cond2(6),
+ PROCGROUP7=SIMP(statut='o',typ='TXM',into=("1","add new row","3",)),
+ wideblock7=BLOC(condition='PROCGROUP7=="add new row"'+cond2(7),
+ PROCGROUP8=SIMP(statut='o',typ='TXM',into=("add new row","2","3",)),
+ wideblock8=BLOC(condition='PROCGROUP8=="add new row"'+cond2(8),
+ )
+ )
+ )
+ )
+ )
+ )
+ )
+ )
+)
+
+#LEV1 = OPER( nom = "LEV1",
+# sd_prod=loi,
+# op=68,
+# fr='LEV1 FR',
+# Boolean01=SIMP( statut = 'o',typ = bool, defaut=True, fr = 'Bool mandatory FR', ang = 'Bool mandatory EN'),
+# SelectedItem=SIMP(statut = 'o',typ = 'TXM', into=["01_01","01_02","01_03","01_04"], fr="FR"),
+#)
+
+Classement_Commandes_Ds_Arbre=('PROC_01',)
+
+Ordre_Des_Commandes = ('PROC_01',)
--- /dev/null
+# coding: utf-8
+
+from Accas import *
+
+class loi(): pass
+
+JdC = JDC_CATA (code = 'PATTERNS',
+ execmodul = None,
+ )
+use_and=True #switch off second condition about MAX_ROWS while it does not work for blocks greater than 2
+def cond2(myMax=False):
+ if use_and:
+ if myMax:
+ out= " and MAX_ROWS>="+str(myMax)
+ else:
+ out=""
+ else:
+ out=""
+ print out
+ return out
+
+PROC_01 = PROC(nom = "PROC_01",op = None, ang="Help for PROC_01 EN",
+ MAX_ROWS=SIMP(statut='o',typ='I',val_min=1,val_max=8, defaut=8),
+ PROCGROUP1=SIMP(statut='o',typ='TXM',into=("1","2","add new row",)),
+ wideblock1=BLOC(condition='PROCGROUP1=="add new row"'+cond2(1),
+ PROCGROUP2=SIMP(statut='o',typ='TXM',into=("1","add new row","3",)),
+ #wideblock2=BLOC(condition='PROCGROUP2=="add new row"',
+ wideblock2=BLOC(condition='MAX_ROWS == 8',
+ #wideblock2=BLOC(condition='PROCGROUP2=="add new row" and (MAX_ROWS > 2)',
+ PROCGROUP3=SIMP(statut='o',typ='TXM',into=("1","2","add new row",)),
+ wideblock3=BLOC(condition='PROCGROUP3=="add new row"'+cond2(3),
+ PROCGROUP4=SIMP(statut='o',typ='TXM',into=("1","add new row","3",)),
+ wideblock4=BLOC(condition='PROCGROUP4=="add new row"'+cond2(4),
+ PROCGROUP5=SIMP(statut='o',typ='TXM',into=("add new row","2","3",)),
+ wideblock5=BLOC(condition='PROCGROUP5=="add new row"'+cond2(5),
+ PROCGROUP6=SIMP(statut='o',typ='TXM',into=("1","2","add new row",)),
+ wideblock6=BLOC(condition='PROCGROUP6=="add new row"'+cond2(6),
+ PROCGROUP7=SIMP(statut='o',typ='TXM',into=("1","add new row","3",)),
+ wideblock7=BLOC(condition='PROCGROUP7=="add new row"'+cond2(7),
+ PROCGROUP8=SIMP(statut='o',typ='TXM',into=("add new row","2","3",)),
+ wideblock8=BLOC(condition='PROCGROUP8=="add new row"'+cond2(8),
+ )
+ )
+ )
+ )
+ )
+ )
+ )
+ )
+)
+
+#LEV1 = OPER( nom = "LEV1",
+# sd_prod=loi,
+# op=68,
+# fr='LEV1 FR',
+# Boolean01=SIMP( statut = 'o',typ = bool, defaut=True, fr = 'Bool mandatory FR', ang = 'Bool mandatory EN'),
+# SelectedItem=SIMP(statut = 'o',typ = 'TXM', into=["01_01","01_02","01_03","01_04"], fr="FR"),
+#)
+
+Classement_Commandes_Ds_Arbre=('PROC_01',)
+
+Ordre_Des_Commandes = ('PROC_01',)
--- /dev/null
+# coding: utf-8
+
+from Accas import *
+
+class loi(): pass
+
+JdC = JDC_CATA (code = 'PATTERNS',
+ execmodul = None,
+ )
+
+PROC_01 = PROC(nom = "PROC_01",op = None, ang="Help for PROC_01 EN",
+ PROCGROUP1=SIMP(statut='o',typ='TXM',into=("a1","a2","a3",)),
+)
+
+Classement_Commandes_Ds_Arbre=('PROC_01',)
+
+Ordre_Des_Commandes = ('PROC_01',)
--- /dev/null
+# coding: utf-8
+
+from Accas import *
+
+class loi(ASSD): pass
+
+JdC = JDC_CATA (code = 'PATTERNS',
+ execmodul = None,
+ )
+
+PER_01 = OPER( nom = "PER_01",
+ sd_prod=loi,
+ op=68,
+ fr='LEV1 FR',
+ Boolean01=SIMP( statut = 'o',typ = bool, defaut=True, fr = 'Bool mandatory FR', ang = 'Bool mandatory EN'),
+ SelectedItem=SIMP(statut = 'o',typ = 'TXM', into=["01_01","01_02","01_03","01_04"], fr="FR"),
+)
+
+#Classement_Commandes_Ds_Arbre=('OPER_01',)
+
+#Ordre_Des_Commandes = ('OPER_01',)
--- /dev/null
+# coding: utf-8
+
+from Accas import *
+
+JdC = JDC_CATA (code = 'PATTERNS',
+ execmodul = None,
+ )
+
+PROC_01 = PROC(nom = "PROC_01",op = None, ang="Help for PROC_01 EN",
+ MAX_ROWS=SIMP(statut='o',typ='I',val_min=1,val_max=8, defaut=8),
+ PROCGROUP1=SIMP(statut='o',typ='TXM',into=("1","2","add new row",)),
+ wideblock1=BLOC(condition='PROCGROUP1 in "add new row"',
+ PROCGROUP2=SIMP(statut='o',typ='TXM',into=("1","add new row","3",)),
+ )
+)
+
+Classement_Commandes_Ds_Arbre=('PROC_01',)
+
+Ordre_Des_Commandes = ('PROC_01',)
--- /dev/null
+# coding: utf-8
+
+from Accas import *
+
+class loi(): pass
+
+JdC = JDC_CATA (code = 'PATTERNS',
+ execmodul = None,
+ )
+use_and=False #switch off second condition about MAX_ROWS while it does not work for blocks greater than 2
+def cond2(myMax=False):
+ if use_and:
+ if myMax:
+ out= " and MAX_ROWS>="+str(myMax)
+ else:
+ out=""
+ else:
+ out=""
+ #print out
+ return out
+
+PROC_01 = PROC(nom = "PROC_01",op = None, ang="Help for PROC_01 EN",
+ MAX_ROWS=SIMP(statut='o',typ='I',val_min=1,val_max=8, defaut=8),
+ PROCGROUP1=SIMP(statut='o',typ='TXM',into=("1","2","add new row",)),
+ wideblock1=BLOC(condition='PROCGROUP1=="add new row"'+cond2(1),
+ PROCGROUP2=SIMP(statut='o',typ='TXM',into=("1","add new row","3",)),
+ wideblock2=BLOC(condition='PROCGROUP2=="add new row"'+cond2(2),
+ PROCGROUP3=SIMP(statut='o',typ='TXM',into=("1","2","add new row",)),
+ wideblock3=BLOC(condition='PROCGROUP3=="add new row"'+cond2(3),
+ PROCGROUP4=SIMP(statut='o',typ='TXM',into=("1","add new row","3",)),
+ wideblock4=BLOC(condition='PROCGROUP4=="add new row"'+cond2(4),
+ PROCGROUP5=SIMP(statut='o',typ='TXM',into=("add new row","2","3",)),
+ wideblock5=BLOC(condition='PROCGROUP5=="add new row"'+cond2(5),
+ PROCGROUP6=SIMP(statut='o',typ='TXM',into=("1","2","add new row",)),
+ wideblock6=BLOC(condition='PROCGROUP6=="add new row"'+cond2(6),
+ PROCGROUP7=SIMP(statut='o',typ='TXM',into=("1","add new row","3",)),
+ wideblock7=BLOC(condition='PROCGROUP7=="add new row"'+cond2(7),
+ PROCGROUP8=SIMP(statut='o',typ='TXM',into=("add new row","2","3",)),
+ wideblock8=BLOC(condition='PROCGROUP8=="add new row"'+cond2(8),
+ )
+ )
+ )
+ )
+ )
+ )
+ )
+ )
+)
+
+#LEV1 = OPER( nom = "LEV1",
+# sd_prod=loi,
+# op=68,
+# fr='LEV1 FR',
+# Boolean01=SIMP( statut = 'o',typ = bool, defaut=True, fr = 'Bool mandatory FR', ang = 'Bool mandatory EN'),
+# SelectedItem=SIMP(statut = 'o',typ = 'TXM', into=["01_01","01_02","01_03","01_04"], fr="FR"),
+#)
+
+Classement_Commandes_Ds_Arbre=('PROC_01',)
+
+Ordre_Des_Commandes = ('PROC_01',)
--- /dev/null
+# coding: utf-8
+
+from Accas import *
+
+JdC = JDC_CATA (code = 'PATTERNS',
+ execmodul = None,
+ )
+def several(suffix,num):
+ out=list()
+ for i in range(1,num+1):
+ out.append(suffix+str(i).zfill(2))
+ return out
+
+NUMERICAL_PARAMETERS=PROC(nom = "NUMERICAL_PARAMETERS", op=None, ang="Help for NUMERICAL_PARAMETERS, English version",
+ #Equations=SIMP(statut = 'o',typ = 'TXM',into=("EF","VF","BS"),defaut="EF"),
+ Solver_definition=FACT(statut = 'o',
+ Solver = SIMP(statut = 'o',typ = 'TXM', into=several("Solver_",12), defaut="Solver_06"),
+ )
+)
+PASCALE=PROC(nom = "PASCALE", op=None, ang="Help for NUMERICAL_PARAMETERS, English version",
+ Equations=SIMP(statut = 'o',typ = 'TXM',into=("EF","VF","BS"),defaut="EF"),
+ Solver_definition=FACT(statut = 'o',
+ Solver = SIMP(statut = 'o',typ = 'TXM', into=several("Solver_",12), defaut="Solver_06"),
+ )
+)
+
+Classement_Commandes_Ds_Arbre=('NUMERICAL_PARAMETERS',)
+
+Ordre_Des_Commandes = ('NUMERICAL_PARAMETERS',)
--- /dev/null
+# coding: utf-8
+
+from Accas import *
+
+JdC = JDC_CATA (code = 'PATTERNS',
+ execmodul = None,
+ )
+def mySeveral(suffix,num):
+ out=list()
+ for i in range(1,num+1):
+ out.append(suffix+str(i).zfill(2))
+ return out
+
+def myFact(num):
+ myNum=str(num).zfill(2)
+ list_item_body="Item_"+myNum+"_"
+ myString="FACT(statut = 'f', List_"+myNum+" = SIMP(statut = 'o',typ = 'TXM', into=mySeveral('"+list_item_body+"',12), defaut='"+list_item_body+myNum+"'),Real_"+myNum+" = SIMP(statut = 'o',typ = 'R', defaut = "+str(num/100.)+", ang='Real "+myNum+" help EN'),Integer_"+myNum+" = SIMP(statut = 'o',typ = 'I', defaut = "+str(100+num)+",ang='Max_Iter "+myNum+" help EN'))"
+ print myString
+ return eval(myString)
+
+
+PROC_01=PROC(nom = "PROC_01", op=None, ang="Help for PROC_01, English version",fr="Help for PROC_01, French version", docu="",
+ Radio_01=SIMP(statut = 'f',typ = 'TXM',into=("EF","VF","BS"),defaut="EF"),
+ FACT_01=myFact(1),
+ FACT_02=myFact(2),
+ FACT_03=myFact(3),
+ FACT_04=myFact(4),
+ FACT_05=myFact(5),
+ FACT_06=myFact(6),
+ FACT_07=myFact(7),
+ FACT_08=myFact(8),
+ FACT_09=myFact(9),
+ FACT_10=myFact(10),
+ FACT_11=myFact(11),
+ FACT_12=myFact(12),
+)
+
+Classement_Commandes_Ds_Arbre=('PROC_01',)
+
+Ordre_Des_Commandes = ('PROC_01',)
--- /dev/null
+# coding: utf-8
+
+from Accas import *
+
+JdC = JDC_CATA (code = 'PATTERNS',
+ execmodul = None,
+ )
+def mySeveral(suffix,num):
+ out=list()
+ for i in range(1,num+1):
+ out.append(suffix+str(i).zfill(2))
+ return out
+
+switch_facultatif=False #change 'o' to 'f' of some widgets in the loop
+
+def myFact(num):
+ opt=['o','f','o','o']
+ if switch_facultatif:
+ myLen=len(opt)
+ make_f=(num-1)%myLen
+ opt[make_f]='f'
+ #print opt
+ myNum=str(num).zfill(2)
+ list_item_body="Item_"+myNum+"_"
+ myString="FACT(statut = '"+opt[0]+"', List_"+myNum+" = SIMP(statut = '"+opt[1]+"',typ = 'TXM', into=mySeveral('"+list_item_body+"',12), defaut='"+list_item_body+myNum+"'),Real_"+myNum+" = SIMP(statut = '"+opt[2]+"',typ = 'R', defaut = "+str(num/100.)+", ang='Real "+myNum+" help EN'),Integer_"+myNum+" = SIMP(statut = '"+opt[3]+"',typ = 'I', defaut = "+str(100+num)+",ang='Max_Iter "+myNum+" help EN'))"
+ print myString
+ return eval(myString)
+
+
+PROC_01=PROC(nom = "PROC_01", op=None, ang="Help for PROC_01, English version",fr="Help for PROC_01, French version", docu="",
+ Radio_01=SIMP(statut = 'o',typ = 'TXM',into=("EF","VF","BS"),defaut="EF"),
+ FACT_01=myFact(1),
+ FACT_02=myFact(2),
+ FACT_03=myFact(3),
+ FACT_04=myFact(4),
+ FACT_05=myFact(5),
+ FACT_06=myFact(6),
+ FACT_07=myFact(7),
+ FACT_08=myFact(8),
+ FACT_09=myFact(9),
+ FACT_10=myFact(10),
+ FACT_11=myFact(11),
+ FACT_12=myFact(12),
+)
+
+Classement_Commandes_Ds_Arbre=('PROC_01',)
+
+Ordre_Des_Commandes = ('PROC_01',)
--- /dev/null
+# coding: utf-8
+
+from Accas import *
+
+JdC = JDC_CATA (code = 'PATTERNS',
+ execmodul = None,
+ )
+def mySeveral(suffix,num):
+ out=list()
+ for i in range(1,num+1):
+ out.append(suffix+str(i).zfill(2))
+ return out
+
+switch_facultatif=True #change 'o' to 'f' of some widgets in the loop
+empty_defauts=True
+
+def myFact(num):
+ myNum=str(num).zfill(2)
+ list_item_body="Item_"+myNum+"_"
+
+ defauts0=["","'"+list_item_body+myNum+"'", str(num/100.), str(100+num), "'Text_"+myNum+"'" ] #presence of default values
+ defauts_mask=[False,True,True,False,True] #switch off defaults of some types
+ defauts=list()
+ for id0 in range(len(defauts0)):
+ if defauts_mask[id0]:
+ item=", defaut="+defauts0[id0]
+ else:
+ item=""
+ defauts.append(item)
+ print defauts
+
+ opt=['o','o','o','o','o'] #initial default obligation of items in FACT groups
+ #make some widgets optional:
+ myLen=len(opt)
+ if switch_facultatif:
+ make_f=(num)%myLen
+ opt[make_f]='f'
+ #print opt
+ if empty_defauts:
+ clean_defaut=num%myLen
+
+
+ myString="FACT(statut = '"+opt[0]+"', List_"+myNum+" = SIMP(statut = '"+opt[1]+"',typ = 'TXM', into=mySeveral('"+list_item_body+"',12)"+defauts[1]+"),Real_"+myNum+" = SIMP(statut = '"+opt[2]+"',typ = 'R'"+defauts[2]+", ang='Real "+myNum+" help EN'),Integer_"+myNum+" = SIMP(statut = '"+opt[3]+"',typ = 'I'"+defauts[3]+",ang='Integer "+myNum+" help EN'),Text_"+myNum+" = SIMP(statut = '"+opt[4]+"',typ = 'TXM'"+defauts[4]+",ang='Text "+myNum+" help EN'))"
+ print myString
+ return eval(myString)
+
+
+PROC_01=PROC(nom = "PROC_01", op=None, ang="Help for PROC_01, English version",fr="Help for PROC_01, French version", docu="",
+ Radio_01=SIMP(statut = 'o',typ = 'TXM',into=("EF","VF","BS"),defaut="EF"),
+ FACT_01=myFact(1),
+ FACT_02=myFact(2),
+ FACT_03=myFact(3),
+ FACT_04=myFact(4),
+ FACT_05=myFact(5),
+ #FACT_06=myFact(6),
+ #FACT_07=myFact(7),
+ #FACT_08=myFact(8),
+ #FACT_09=myFact(9),
+ #FACT_10=myFact(10),
+ #FACT_11=myFact(11),
+ #FACT_12=myFact(12),
+)
+
+Classement_Commandes_Ds_Arbre=('PROC_01',)
+
+Ordre_Des_Commandes = ('PROC_01',)
--- /dev/null
+# coding: utf-8
+
+from Accas import *
+
+JdC = JDC_CATA (code = 'PATTERNS',
+ execmodul = None,
+ )
+def mySeveral(suffix,num):
+ out=list()
+ for i in range(1,num+1):
+ out.append(suffix+str(i).zfill(2))
+ return out
+
+switch_facultatif=True #change 'o' to 'f' of some widgets in the loop
+empty_defauts=True
+
+def myFact(num):
+ myNum=str(num).zfill(2)
+ list_item_body="Item_"+myNum+"_"
+
+ defauts0=["","'"+list_item_body+myNum+"'", str(num/100.), str(100+num), "'Text_"+myNum+"'" ] #presence of default values
+ defauts_mask=[False,True,True,False,True] #switch off defaults of some types
+ defauts=list()
+ for id0 in range(len(defauts0)):
+ if defauts_mask[id0]:
+ item=", defaut="+defauts0[id0]
+ else:
+ item=""
+ defauts.append(item)
+ print defauts
+
+ opt=['o','o','o','o','o'] #initial default obligation of items in FACT groups
+ #make some widgets optional:
+ myLen=len(opt)
+ if switch_facultatif:
+ make_f=(num)%myLen
+ opt[make_f]='f'
+ #print opt
+ if empty_defauts:
+ clean_defaut=num%myLen
+
+
+ myString="FACT(statut = '"+opt[0]+"', List_"+myNum+" = SIMP(statut = '"+opt[1]+"',typ = 'TXM', into=mySeveral('"+list_item_body+"',12)"+defauts[1]+"),Real_"+myNum+" = SIMP(statut = '"+opt[2]+"',typ = 'R'"+defauts[2]+", ang='Real "+myNum+" help EN'),Integer_"+myNum+" = SIMP(statut = '"+opt[3]+"',typ = 'I'"+defauts[3]+",ang='Integer "+myNum+" help EN'),Text_"+myNum+" = SIMP(statut = '"+opt[4]+"',typ = 'TXM'"+defauts[4]+",ang='Text "+myNum+" help EN'))"
+ print myString
+ return eval(myString)
+
+
+PROC_01=PROC(nom = "PROC_01", op=None, ang="Help for PROC_01, English version",fr="Help for PROC_01, French version", docu="",
+ Radio_01=SIMP(statut = 'o',typ = 'TXM',into=("EF","VF","BS"),defaut="EF"),
+ FACT_01=myFact(1),
+ FACT_02=myFact(2),
+ FACT_03=myFact(3),
+ FACT_04=myFact(4),
+ FACT_05=myFact(5),
+ #FACT_06=myFact(6),
+ #FACT_07=myFact(7),
+ #FACT_08=myFact(8),
+ #FACT_09=myFact(9),
+ #FACT_10=myFact(10),
+ #FACT_11=myFact(11),
+ #FACT_12=myFact(12),
+)
+
+Classement_Commandes_Ds_Arbre=('PROC_01',)
+
+Ordre_Des_Commandes = ('PROC_01',)
--- /dev/null
+"4" "3" "2" "1"
+"4" "5" "6" "7"
\ No newline at end of file
--- /dev/null
+# -*- coding: utf-8 -*-
+# 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.
+#
+#
+# ======================================================================
+
+import os,sys
+# repIni sert a localiser le fichier editeur.ini
+# Obligatoire
+repIni=os.path.dirname(os.path.abspath(__file__))
+INSTALLDIR=os.path.join(repIni,'..')
+sys.path[:0]=[INSTALLDIR]
+
+
+# lang indique la langue utilisee pour les chaines d'aide : fr ou ang
+lang='en'
+
+# Codage des strings qui accepte les accents (en remplacement de 'ascii')
+encoding='iso-8859-1'
+docPath=repIni
+fileName="docMonCode.png"
+image=1
+
+#
+catalogues=(
+ ('monCode','53038',os.path.join(repIni,'Matrix_Cata.py'),'dico','python'),
+ ('monCode','53036',os.path.join(repIni,'Elementary_Lists_53036_Cata.py'),'dico','python'),
+ ('monCode','53033',os.path.join(repIni,'Tuples_Cata.py'),'dico','python'),
+ ('monCode','53031',os.path.join(repIni,'Tuples_Cata.py'),'dico','python'),
+ ('monCode','53030',os.path.join(repIni,'Tuples_Cata.py'),'dico','python'),
+ ('monCode','53020',os.path.join(repIni,'Nested_Cond_52945_Cata.py'),'dico','python'),
+ ('monCode','53013',os.path.join(repIni,'Elementary_Lists_53013_Cata.py'),'dico','python'),
+ ('monCode','53000',os.path.join(repIni,'Elementary_Lists_53030_Cata.py'),'dico','python'),
+ ('monCode','52996',os.path.join(repIni,'Elementary_Lists_52996_Cata.py'),'dico','python'),
+ ('monCode','52992',os.path.join(repIni,'Many_Concepts_52992_Cata.py'),'dico','python'),
+ ('monCode','52989',os.path.join(repIni,'Many_Concepts_52989_Cata.py'),'dico','python'),
+ ('monCode','52988',os.path.join(repIni,'Many_Concepts_52988_Cata.py'),'dico','python'),
+ ('monCode','52985',os.path.join(repIni,'fin_52985_Cata.py'),'dico','python'),
+ ('monCode','52983',os.path.join(repIni,'Many_Concepts_52983_Cata.py'),'dico','python'),
+ ('monCode','52975',os.path.join(repIni,'Separate_Blocks_52975_Cata.py'),'dico','python'),
+ ('monCode','52972',os.path.join(repIni,'Separate_Blocks_52972_Cata.py'),'dico','python'),
+ ('monCode','52958',os.path.join(repIni,'Separate_Blocks_52958_Cata.py'),'dico','python'),
+ ('monCode','52952',os.path.join(repIni,'Nested_Cond_52952_Cata.py'),'dico','python'),
+ ('monCode','52949',os.path.join(repIni,'Nested_Cond_52949_Cata.py'),'dico','python'),
+ ('monCode','52947',os.path.join(repIni,'Nested_Cond_52947_Cata.py'),'dico','python'),
+ ('monCode','52946',os.path.join(repIni,'Nested_Cond_52946_Cata.py'),'dico','python'),
+ ('monCode','52945',os.path.join(repIni,'Nested_Cond_52945_Cata.py'),'dico','python'),
+ ('monCode','Global',os.path.join(repIni,'Global_Condition_Cata.py'),'dico','python'),
+# resolu ('monCode','52948',os.path.join(repIni,'Nested_Cond_52948_Cata.py'),'dico','python'),
+# pb d afffichage des optionnels ('monCode','52963',os.path.join(repIni,'Separate_Blocks_52963_Cata.py'),'dico','python'),
+# pb d afffichage des optionnels ('monCode','52966',os.path.join(repIni,'Separate_Blocks_52966_Cata.py'),'dico','python'),
+
+# ('monCode','test',os.path.join(repIni,'monCode_Cata1.py'),'dico','python'),
+)
--- /dev/null
+#@ MODIF properties Accas DATE 11/06/2008 AUTEUR aster M.ADMINISTRATEUR
+# RESPONSABLE D6BHHHH J-P.LEFEBVRE
+# ======================================================================
+# 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.
+# ======================================================================
+# IDENTIFICATION DU GESTIONNAIRE DE COMMANDE ACCAS A PARTIR
+# DE LA VERSION DU CODE_ASTER ASSOCIE
+#----------------------------------------------------------------------
+version = "1.2"
+date = "25/05/2010"
+exploit = False
--- /dev/null
+#!/usr/bin/env python
+# -*- coding: utf-8 -*-
+# Copyright (C) 2007-2012 EDF R&D
+#
+# This library is free software; you can redistribute it and/or
+# modify it under the terms of the GNU Lesser General Public
+# License as published by the Free Software Foundation; either
+# version 2.1 of the License.
+#
+# This library 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
+# Lesser General Public License for more details.
+#
+# You should have received a copy of the GNU Lesser General Public
+# License along with this library; if not, write to the Free Software
+# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+#
+# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
+#
+"""
+ Ce module sert a lancer EFICAS configure pour Code_Aster
+"""
+# Modules Python
+# Modules Eficas
+
+import sys,os
+sys.path.append(os.path.join(os.path.abspath(os.path.dirname(__file__)),'..'))
+
+from PyQt4.QtCore import *
+import prefs
+from InterfaceQT4 import eficas_go
+eficas_go.lance_eficas(code=prefs.code)
