From 388cb9b049bfd8ed014fa0f242654a94f937294b Mon Sep 17 00:00:00 2001 From: Eric Fayolle Date: Wed, 28 Apr 2021 12:18:11 +0200 Subject: [PATCH] MAJ PocRN --- Poc/cataPoc.py | 70 ---- Poc/cataPoc.xsd | 133 ------- Poc/cataPocRN.py | 381 +++++++++++++----- Poc/cataPoc_driver.py | 2 - Poc/edg32.comm | 78 ++++ Poc/edg32.comm.ref | 78 ++++ Poc/pocEssai.comm | 14 - Poc/pocEssai.xml | 22 -- Poc/raw/cataPoc_driver.py | 789 -------------------------------------- Poc/readExemple.py | 58 ++- 10 files changed, 504 insertions(+), 1121 deletions(-) delete mode 100644 Poc/cataPoc.py delete mode 100644 Poc/cataPoc.xsd delete mode 100644 Poc/cataPoc_driver.py create mode 100644 Poc/edg32.comm create mode 100644 Poc/edg32.comm.ref delete mode 100644 Poc/pocEssai.comm delete mode 100644 Poc/pocEssai.xml delete mode 100644 Poc/raw/cataPoc_driver.py diff --git a/Poc/cataPoc.py b/Poc/cataPoc.py deleted file mode 100644 index ad05d26f..00000000 --- a/Poc/cataPoc.py +++ /dev/null @@ -1,70 +0,0 @@ -# -*- coding: utf-8 -*- -# Copyright (C) 2008-2018 EDF R&D -# -# This file is part of SALOME ADAO module -# -# 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 -import os, re -import Accas -from Accas import * -monFichier=os.path.abspath(__file__) - -JdC = JDC_CATA ( - code='Essai' - ) -VERSION_CATALOGUE='V_0' - -step_unit_input = ["inserted_steps", "extracted_steps", ] - - -RodsWorthSetting = PROC ( nom = 'RodsWorthSetting', - fr = "Définition des options d'un calcul de poids de grappe", - version = SIMP (statut='o', typ = 'TXM', defaut ="1.0.0"), - virtual_groups = FACT( max='**', statut='o', - group_name = SIMP(statut='o', typ='TXM'), - value_def = SIMP(statut='o', typ ='TXM',max='**' ), - ), - xenon_feedback = SIMP (statut='o', typ ='TXM', - into=["locked", "equilibrium", ]), - cb = SIMP (statut='o', typ ='TXM', - fr="Traitement de la CB pour les calculs d'efficacité", - into=["upstream_state", "critical", "critical_from_previous_state"]), - - states = SIMP(statut='o', typ = 'TXM', max='**', - fr="Choix des états d'entrée du calcul"), - calcul_type = SIMP (statut='o', typ ='TXM', - fr="Choix du type de calcul de poids de grappe à réaliser", - into = [ "differential_worth", "combination", "integral_worth", ]), - - BIntegral_O=BLOC ( condition = 'calcul_type == "integral_worth"', - Integral_O=SIMP(statut='o', typ= 'TXM', defaut = 'pas compris'), - ), - Integral = FACT( - #classe IntegralSituationsSetting - fr= "Définition de configurations intégrales de poids de grappes", - step_unit = SIMP (statut='o', typ='TXM' , into = step_unit_input, - fr="Unité retenue pour les insertions de grappes"), - config = FACT( max='**', statut='o', - key_config = SIMP(statut='o', typ='TXM'), - value_def = SIMP(statut='o', typ ='R', val_min=0, ), - fr="Definition des configurations de grappes", - ), - ), - -) - - diff --git a/Poc/cataPoc.xsd b/Poc/cataPoc.xsd deleted file mode 100644 index e07e4c8e..00000000 --- a/Poc/cataPoc.xsd +++ /dev/null @@ -1,133 +0,0 @@ - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - {'T_value_def': {'_value_def_config_Integral_RodsWorthSetting': 'T_value_def_1'}} - - - - - diff --git a/Poc/cataPocRN.py b/Poc/cataPocRN.py index 4b739b57..36c5d6f2 100644 --- a/Poc/cataPocRN.py +++ b/Poc/cataPocRN.py @@ -18,97 +18,304 @@ # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA # # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com -import os, re -import Accas -from Accas import * -monFichier=os.path.abspath(__file__) +import os +from Accas import OPER, BLOC, FACT, SIMP, ASSD, JDC_CATA, VerifTypeTuple +from Extensions.i18n import tr +import types +monFichier = os.path.abspath(__file__) -JdC = JDC_CATA ( +JdC = JDC_CATA( code='Essai' - ) -VERSION_CATALOGUE='V_0' +) +VERSION_CATALOGUE = 'V_0' + + +NMIN_ASSEMBLY = 1 +NMAX_ASSEMBLY = 18 + + +class Tuple: + def __init__(self, ntuple): + self.ntuple = ntuple + + def __convert__(self, valeur): + if len(valeur) != self.ntuple: + return None + return valeur + + def info(self): + return "Tuple de %s elements" % self.ntuple class Matrice: - def __init__(self,nbLigs=None,nbCols=None,methodeCalculTaille=None,formatSortie="ligne",valSup=None,valMin=None,structure=None,typElt='R',typEltInto=None, listeHeaders=None): - self.nbLigs=nbLigs - self.nbCols=nbCols - self.methodeCalculTaille=methodeCalculTaille - self.formatSortie=formatSortie - self.valSup=valSup - self.valMin=valMin - self.structure=structure - self.typElt=typElt - self.listeHeaders=listeHeaders - self.typEltInto=typEltInto - - 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 - - - -Techno_Data = PROC( nom = 'Techno_Data', - Radial_Description = FACT (statut ='o', - assembly_width = SIMP (statut='o', typ = 'R'), - assembly_map = SIMP ( statut = "o", - typ = Matrice(nbLigs=8, - nbCols=8, - valSup=1, - valMin=-1, - typElt='TXM', - typEltInto=('U1','R1'), - listeHeaders=None), - defaut=(['U1','U1','U1','U1','U1','U1','U1','U1'], - ['U1','U1','U1','U1','U1','U1','U1','U1'], - ['U1','U1','U1','U1','U1','U1','U1','U1'], - ['U1','U1','U1','U1','U1','U1','U1','U1'], - ['U1','U1','U1','U1','U1','U1','U1','U1'], - ['U1','U1','U1','U1','U1','U1','U1','U1'], - ['U1','U1','U1','U1','U1','U1','U1','U1'], - ['U1','U1','U1','U1','U1','U1','U1','U1']) - ), - - ), # Radial_Description - #road_map = SIMP ( statut = "o", - # typ = Matrice(nbLigs=8, - # nbCols=8, - # valSup=1, - # valMin=-1, - # ),), - - Rod_Description = FACT (statut ='o', - RB=FACT( statut ='o', - step_height = SIMP (statut='o', typ = 'R'), - nsteps = SIMP (statut='o', typ = 'I',), - ), - ), # Rod_Description - Axial_Description = FACT(statut ='o', - lower_refl_size = SIMP (statut='o', typ = 'R'), - fuel_size = SIMP (statut='o', typ = 'R'), - upper_ref = SIMP (statut='o', typ = 'R'), - ), - Grids = FACT (statut ='o', - mixing = FACT(statut ='o', - positions = SIMP (statut='o', typ = 'R'), - size = SIMP (statut='o', typ = 'R'), - ), - non_mixing = FACT( statut ='o', - positions = SIMP (statut='o', typ = 'R'), - size = SIMP (statut='o', typ = 'R'), - ), - ), - Nominal_Power = SIMP (statut='o', typ = 'R'), - - -) # Techno data + def __init__(self, nbLigs=None, nbCols=None, + methodeCalculTaille=None, formatSortie="ligne", + valSup=None, valMin=None, structure=None, typElt='R', + typEltInto=None, listeHeaders=None): + self.nbLigs = nbLigs + self.nbCols = nbCols + self.methodeCalculTaille = methodeCalculTaille + self.formatSortie = formatSortie + self.valSup = valSup + self.valMin = valMin + self.structure = structure + self.typElt = typElt + self.listeHeaders = listeHeaders + self.typEltInto = typEltInto + + def __convert__(self, valeur): + # Attention ne verifie pas grand chose + if not isinstance(valeur, types.ListType): + return None + return valeur + + def info(self): + return "Matrice %s x %s" % (self.nbLigs, self.nbCols) + + __repr__ = info + __str__ = info + + +class VerifPostTreatment(VerifTypeTuple): + + def __init__(self): + super(VerifPostTreatment, self).__init__(('TXM', 'TXM')) + self.cata_info = "" + self.physValeurs = ('Neutronics', 'Thermalhydraulics') + self.typeValeurs = ('MED', 'SUM', 'MIN', 'MAX', 'MEAN') + + def info(self): + return tr(": verifie les \ntypes dans un tuple") + + def infoErreurListe(self): + return tr("Les types entres ne sont pas permis") + + def default(self, valeur): + return valeur + + def isList(self): + return 1 + + def convertItem(self, valeur): + if len(valeur) != len(self.typeDesTuples): + raise ValueError( + tr("%s devrait etre de type %s ") % (valeur, self.typeDesTuples)) + ok = self.verifType(valeur) + if ok == 0: + raise ValueError( + tr("%s devrait etre de type %s (%d)") % (valeur, self.typeDesTuples, ok)) + if ok < 0: + raise ValueError( + tr("%s devrait etre dans %s ") % (valeur[1], self.typeValeurs)) + return valeur + + def verifItem(self, valeur): + try: + if len(valeur) != len(self.typeDesTuples): + return 0 + ok = self.verifType(valeur) + if ok != 1: + return 0 + except: + return 0 + return 1 + + def verifType(self, valeur): + ok = 0 + for v in valeur: + if type(v) == bytes or type(v) == str: + ok += 1 + if ok == len(self.typeDesTuples): + if valeur[1] in self.typeValeurs: # and valeur[1] in self.physValeurs: + return 1 + return -1 + return 0 + + def verif(self, valeur): + if type(valeur) in (list, tuple): + liste = list(valeur) + for val in liste: + if self.verifItem(val) != 1: + return 0 + return 1 + return 0 + + +class myAssembly(ASSD): + pass + + +class myTechnoData(ASSD): + pass + + +class myRodBank(ASSD): + pass + + +class myModelData(ASSD): + pass + + +class myScenarioData(ASSD): + pass + + +Assembly = OPER(nom='Assembly', sd_prod=myAssembly, + assembly_name=SIMP(statut='o', typ='TXM'), + assembly_type=SIMP(statut='o', typ='TXM', into=("UOX", "MOX", "REF")), + description=BLOC(condition='assembly_type != "REF"', + assembly_width=SIMP(statut='o', typ='R'), + radial_description=FACT(statut='o', + clad_outer_radius=SIMP(statut='o', typ='R'), + guide_tube_outer_radius=SIMP(statut='o', typ='R'), + fuel_rod_pitch=SIMP(statut='o', typ='R'), + nfuel_rods=SIMP(statut='o', typ='I')), + axial_description=FACT(statut='o', + active_length_start=SIMP(statut='o', typ='R'), + active_length_end=SIMP(statut='o', typ='R')), + grids=FACT(statut='o', + mixing=FACT(statut='o', + positions=SIMP( + statut='f', typ='R', max="**"), + size=SIMP(statut='o', typ='R')), + non_mixing=FACT(statut='o', + positions=SIMP( + statut='f', typ='R', max='**'), + size=SIMP(statut='o', typ='R')), + ) + ) + ) + + +RodBank = OPER(nom="RodBank", sd_prod=myRodBank, + rodbank_name=SIMP(statut='o', typ='TXM'), + step_height=SIMP(statut='o', typ='R'), + nsteps=SIMP(statut='o', typ='I')) + + +def add_lr_refl(ass_list): + return ["RW"] + ass_list + ["RE"] + + +def add_tb_refl(ass_list): + return ["RS"] + ass_list + ["RN"] + + +def generate_ass_map(nass_list): + xsym_list = [a for a in 'ABCDEFGHJKLNPRSTUVWXYZ'] + xsym_list.reverse() + ysym_list = ["%02d" % i for i in range(NMIN_ASSEMBLY, NMAX_ASSEMBLY+1)] + ysym_list.reverse() + def_xaxis = {} + def_yaxis = {} + for n in range(NMIN_ASSEMBLY, NMAX_ASSEMBLY+1): + def_xaxis[n] = add_lr_refl(xsym_list[-n:]) + def_yaxis[n] = add_tb_refl(ysym_list[-n:]) + + dico = {} +# for n in nass_list: + for n in (6,): + dico['assembly_map_%d' % n] = BLOC(condition="nb_assembly==%d" % n, + xaxis=SIMP(statut='o', + typ='TXM', + min=n+2, max=n+2, + defaut=def_xaxis[n]), + yaxis=SIMP(statut='o', + typ='TXM', + min=n+2, max=n+2, + defaut=def_yaxis[n]), + assembly_map=SIMP(statut="o", + typ=Matrice(nbLigs=n+2, + nbCols=n+2, + valSup=1, + valMin=-1, + typElt='TXM', # ici c'est le nom de l'assemblage + listeHeaders=None), + defaut=(n+2)*[(n+2)*['.']]), + rod_map=SIMP(statut="o", + typ=Matrice(nbLigs=n+2, + nbCols=n+2, + valSup=1, + valMin=-1, + typElt='TXM', # ici c'est le nom de l'assemblage + listeHeaders=None), + defaut=(n+2)*[(n+2)*['.']])) + + return dico + + +Techno_data = OPER(nom='Techno_data', sd_prod=myTechnoData, + assembly_list=SIMP(statut='o', typ=myAssembly, min=1, max="**"), # à resorber quand on mettra dans la Matrice + rodbank_list=SIMP(statut='o', typ=myRodBank, min=0, max="**"), # idem + radial_description=FACT(statut='o', + nb_assembly=SIMP(statut='o', typ='I', into=list(range(NMIN_ASSEMBLY, NMAX_ASSEMBLY))), + **(generate_ass_map(range(NMIN_ASSEMBLY, NMAX_ASSEMBLY))) + ), # Radial_Description + axial_description=FACT(statut='o', + lower_refl_size=SIMP(statut='o', typ='R'), + upper_refl_size=SIMP(statut='o', typ='R'), + ), + nominal_power=SIMP(statut='o', typ='R'), + fuel_power_fraction=SIMP(statut='o', typ='R'), + ) # Techno data + +Model_data = OPER(nom='Model_data', sd_prod=myModelData, + physics=SIMP(statut='o', typ='TXM', into=( + 'Neutronics', 'Thermalhydraulics')), + scale=SIMP(statut='o', typ='TXM', into=( + 'system', 'component', 'local')), + b_neutro_compo=BLOC(condition='physics=="Neutronics" and scale=="component"', + codeNeutro=SIMP(statut='o', typ='TXM', into=('COCAGNE', 'APOLLO3')), + radial_meshingNeutro=FACT(statut='o', + flux_solver=SIMP(statut='o', typ='TXM', into=('subdivision', 'pin-by-pin')), + b_flux_subdivision=BLOC(condition='flux_solver=="subdivision"', + flux_subdivision=SIMP(statut='o', typ='I')), + feedback_solver=SIMP(statut='o', typ='TXM', into=('subdivision', 'pin-by-pin')), + b_feedback_subdivision=BLOC(condition='feedback_solver=="subdivision"', + feedback_subdivision=SIMP(statut='o', typ='I')))), + b_thermo_compo=BLOC(condition='physics=="Thermalhydraulics" and scale=="component"', + code=SIMP(statut='o', typ='TXM', into=('THYC', 'CATHARE3', 'FLICA4')), + radial_meshing=FACT(statut='o', + fluid=SIMP(statut='o', typ='TXM', into=('subdivision', 'subchannel')), + b_fluid_subdivision=BLOC(condition='fluid=="subdivision"', + fluid_subdivision=SIMP(statut='o', typ='I')), + pellet=SIMP(statut='o', typ='I'), + clad=SIMP(statut='o', typ='I'))), + b_scale_compo=BLOC(condition='scale=="component"', + axial_meshing=FACT(statut='o', + lower_refl=SIMP(statut='o', typ='I'), + fuel=SIMP(statut='o', typ='I'), + upper_refl=SIMP(statut='o', typ='I'))), + b_scale_local=BLOC(condition='scale=="local"', + mesh_file=SIMP(statut='o', typ='Fichier')), + ) +Scenario_data = OPER(nom='Scenario_data', sd_prod=myScenarioData, + initial_power=SIMP(statut='o', typ='R', val_min=0., + defaut=100.), + initial_power_unit=SIMP(statut='o', typ='TXM', + into=('% Nominal power', 'W'), + defaut='% Nominal power'), + initial_rod_positions=SIMP(statut='o', + typ=Tuple(2), + validators=VerifTypeTuple(['TXM', 'I']), + ang="Type@label, position (e.g. RodBank@RB, 0)", + max='**'), + scenario_type=SIMP(statut='o', + typ='TXM', + into=['RIA']), + b_ria=BLOC(condition='scenario_type=="RIA"', + ejected_rod=SIMP(statut='o', + typ='TXM'), + rod_position_program=SIMP(statut='o', + typ=Tuple(2), + validators=VerifTypeTuple(['R', 'I']), + max='**'), + ), + post_processing=SIMP(statut='f', + typ=Tuple(2), + validators=VerifPostTreatment(), + max='**'), + ) diff --git a/Poc/cataPoc_driver.py b/Poc/cataPoc_driver.py deleted file mode 100644 index 15061096..00000000 --- a/Poc/cataPoc_driver.py +++ /dev/null @@ -1,2 +0,0 @@ -# -*- coding: utf-8 -*- -from raw.cataPoc_driver import * diff --git a/Poc/edg32.comm b/Poc/edg32.comm new file mode 100644 index 00000000..211d5b00 --- /dev/null +++ b/Poc/edg32.comm @@ -0,0 +1,78 @@ + +REF=Assembly(assembly_name='REF', + assembly_type='REF',); + +U1=Assembly(assembly_name='U1', + assembly_type='UOX', + assembly_width=0.21504, + radial_description=_F(clad_outer_radius=0.00475, + guide_tube_outer_radius=0.006025, + fuel_rod_pitch=0.0126, + nfuel_rods=264,), + axial_description=_F(active_length_start=0.2, + active_length_end=1.5,), + grids=_F(mixing=_F(positions=(1.0807,), + size=0.033,), + non_mixing=_F(positions=(0.026,), + size=0.033,),),); + +RB=RodBank(rodbank_name='RB', + step_height=0.008, + nsteps=162,); + +techno_data=Techno_data(assembly_list=(REF,U1,), + rodbank_list=(RB,), + radial_description=_F(nb_assembly=6, + xaxis=('RW','F','E','D','C','B','A','RE',), + yaxis=('RS','06','05','04','03','02','01','RN',), + assembly_map= + (['REF','REF','REF','REF', + 'REF','REF','REF','REF'],['REF','REF','U1','U1','U1','U1', + 'REF','REF'],['REF','U1','U1','U1','U1','U1','U1','REF'], + ['REF','U1','U1','U1','U1','U1','U1','REF'],['REF','U1', + 'U1','U1','U1','U1','U1','REF'],['REF','U1','U1','U1', + 'U1','U1','U1','REF'],['REF','REF','U1','U1','U1','U1', + 'REF','REF'],['REF','REF','REF','REF','REF','REF','REF', + 'REF'],), + rod_map= + (['#','#','#','#','#','#','#', + '#'],['#','#','.','.','.','.','#','#'],['#','.','.','.','RB','.', + '.','#'],['#','.','RB','.','.','.','.','#'],['#','.','.','.','.', + 'RB','.','#'],['#','.','.','RB','.','.','.','#'],['#','#','.','.', + '.','.','#','#'],['#','#','#','#','#','#','#','#'],),), + axial_description=_F(lower_refl_size=0.2, + upper_refl_size=0.2,), + nominal_power=100000000.0, + fuel_power_fraction=0.974,); + +neutro_model=Model_data(physics='Neutronics', + scale='component', + codeNeutro='COCAGNE', + radial_meshingNeutro=_F(flux_solver='subdivision', + flux_subdivision=2, + feedback_solver='subdivision', + feedback_subdivision=1,), + axial_meshing=_F(lower_refl=1, + fuel=21, + upper_refl=1,),); + +thermo_model=Model_data(physics='Thermalhydraulics', + scale='component', + code='THYC', + radial_meshing=_F(fluid='subdivision', + fluid_subdivision=1, + pellet=8, + clad=2,), + axial_meshing=_F(lower_refl=1, + fuel=40, + upper_refl=1,),); + +scenario_data=Scenario_data(initial_power=100.0, + initial_power_unit='% Nominal power', + initial_rod_positions=(('Rodbank@RB',162),('Rodcluster@B04',0)), + scenario_type='RIA', + ejected_rod='B04', + rod_position_program=((0.0,0),(0.1,162)), + post_processing=(('Fuel temperature@Thermalhydraulics','MAX'),('Neutronic power@Neutronics','SUM'),('Fuel temperature@Thermalhydraulics','MED')),); +#VERSION_CATALOGUE:V_0:FIN VERSION_CATALOGUE +#CHECKSUM:7826a282bd2c99da86490d6dee3e0fd7 -:FIN CHECKSUM \ No newline at end of file diff --git a/Poc/edg32.comm.ref b/Poc/edg32.comm.ref new file mode 100644 index 00000000..7d9a605a --- /dev/null +++ b/Poc/edg32.comm.ref @@ -0,0 +1,78 @@ + +REF=Assembly(assembly_name='REF', + assembly_type='REF',); + +U1=Assembly(assembly_name='U1', + assembly_type='UOX', + assembly_width=0.21504, + radial_description=_F(clad_outer_radius=0.00475, + guide_tube_outer_radius=0.006025, + fuel_rod_pitch=0.0126, + nfuel_rods=264,), + axial_description=_F(active_length_start=0.2, + active_length_end=1.5,), + grids=_F(mixing=_F(positions=(1.0807,), + size=0.033,), + non_mixing=_F(positions=(0.026,), + size=0.033,),),); + +RB=RodBank(rodbank_name='RB', + step_height=0.008, + nsteps=162,); + +techno_data=Techno_data(assembly_list=(REF,U1,), + rodbank_list=(RB,), + radial_description=_F(nb_assembly=6, + xaxis=('RW','F','E','D','C','B','A','RE',), + yaxis=('RS','06','05','04','03','02','01','RN',), + assembly_map= + (['REF','REF','REF','REF', + 'REF','REF','REF','REF'],['REF','REF','U1','U1','U1','U1', + 'REF','REF'],['REF','U1','U1','U1','U1','U1','U1','REF'], + ['REF','U1','U1','U1','U1','U1','U1','REF'],['REF','U1', + 'U1','U1','U1','U1','U1','REF'],['REF','U1','U1','U1', + 'U1','U1','U1','REF'],['REF','REF','U1','U1','U1','U1', + 'REF','REF'],['REF','REF','REF','REF','REF','REF','REF', + 'REF'],), + rod_map= + (['#','#','#','#','#','#','#', + '#'],['#','#','.','.','.','.','#','#'],['#','.','.','.','RB','.', + '.','#'],['#','.','RB','.','.','.','.','#'],['#','.','.','.','.', + 'RB','.','#'],['#','.','.','RB','.','.','.','#'],['#','#','.','.', + '.','.','#','#'],['#','#','#','#','#','#','#','#'],),), + axial_description=_F(lower_refl_size=0.2, + upper_refl_size=0.2,), + nominal_power=100000000.0, + fuel_power_fraction=0.974,); + +neutro_model=Model_data(physics='Neutronics', + scale='component', + code='COCAGNE', + radial_meshing=_F(flux_solver='subdivision', + flux_subdivision=2, + feedback_solver='subdivision', + feedback_subdivision=1,), + axial_meshing=_F(lower_refl=1, + fuel=21, + upper_refl=1,),); + +thermo_model=Model_data(physics='Thermalhydraulics', + scale='component', + code='THYC', + radial_meshing=_F(fluid='subdivision', + fluid_subdivision=1, + pellet=8, + clad=2,), + axial_meshing=_F(lower_refl=1, + fuel=40, + upper_refl=1,),); + +scenario_data=Scenario_data(initial_power=100.0, + initial_power_unit='% Nominal power', + initial_rod_positions=(('Rodbank@RB',162),('Rodcluster@B04',0)), + scenario_type='RIA', + ejected_rod='B04', + rod_position_program=((0.0,0),(0.1,162)), + post_processing=(('Fuel temperature@Thermalhydraulics','MAX'),('Neutronic power@Neutronics','SUM'),('Fuel temperature@Thermalhydraulics','MED')),); +#VERSION_CATALOGUE:V_0:FIN VERSION_CATALOGUE +#CHECKSUM:5a186f50f4816d725e42d0b050a11764 -:FIN CHECKSUM \ No newline at end of file diff --git a/Poc/pocEssai.comm b/Poc/pocEssai.comm deleted file mode 100644 index 8d51bf92..00000000 --- a/Poc/pocEssai.comm +++ /dev/null @@ -1,14 +0,0 @@ - -RodsWorthSetting(version='1.0.0', - virtual_groups=_F(group_name='monG1', - value_def=('1','2','3',),), - xenon_feedback='locked', - cb='upstream_state', - states=('s1','s2',), - calcul_type='integral_worth', - Integral_O='pas compris', - Integral=_F(step_unit='inserted_steps', - config=_F(key_config='k1', - value_def=1.0,),),); -#VERSION_CATALOGUE:V_0:FIN VERSION_CATALOGUE -#CHECKSUM:7b6880e43794d8314400196519227b02 -:FIN CHECKSUM \ No newline at end of file diff --git a/Poc/pocEssai.xml b/Poc/pocEssai.xml deleted file mode 100644 index 4952391b..00000000 --- a/Poc/pocEssai.xml +++ /dev/null @@ -1,22 +0,0 @@ - - - - 1.0.0 - - monG1 - 1 2 3 - - locked - upstream_state - s1 s2 - integral_worth - pas compris - - inserted_steps - - k1 - 1.0 - - - - diff --git a/Poc/raw/cataPoc_driver.py b/Poc/raw/cataPoc_driver.py deleted file mode 100644 index 2af3ae87..00000000 --- a/Poc/raw/cataPoc_driver.py +++ /dev/null @@ -1,789 +0,0 @@ -# ./raw/cataPoc_driver.py -# -*- coding: utf-8 -*- -# PyXB bindings for NM:9c3bd166183fcfc95687f415bcc4a066eb33ac79 -# Generated 2020-11-18 10:41:40.865410 by PyXB version 1.2.5 using Python 3.4.2.final.0 -# Namespace http://chercheurs.edf.com/logiciels/Essai - -from __future__ import unicode_literals -import pyxb -import pyxb.binding -import pyxb.binding.saxer -import io -import pyxb.utils.utility -import pyxb.utils.domutils -import sys -import pyxb.utils.six as _six -# Unique identifier for bindings created at the same time -_GenerationUID = pyxb.utils.utility.UniqueIdentifier('urn:uuid:42cf5b5e-2982-11eb-b63e-cc3d82d871d8') - -# Version of PyXB used to generate the bindings -_PyXBVersion = '1.2.5' -# Generated bindings are not compatible across PyXB versions -if pyxb.__version__ != _PyXBVersion: - raise pyxb.PyXBVersionError(_PyXBVersion) - -# A holder for module-level binding classes so we can access them from -# inside class definitions where property names may conflict. -_module_typeBindings = pyxb.utils.utility.Object() - -# Import bindings for namespaces imported into schema -import pyxb.binding.datatypes - -# NOTE: All namespace declarations are reserved within the binding -Namespace = pyxb.namespace.NamespaceForURI('http://chercheurs.edf.com/logiciels/Essai', create_if_missing=True) -Namespace.configureCategories(['typeBinding', 'elementBinding']) - -def CreateFromDocument (xml_text, default_namespace=None, location_base=None): - """Parse the given XML and use the document element to create a - Python instance. - - @param xml_text An XML document. This should be data (Python 2 - str or Python 3 bytes), or a text (Python 2 unicode or Python 3 - str) in the L{pyxb._InputEncoding} encoding. - - @keyword default_namespace The L{pyxb.Namespace} instance to use as the - default namespace where there is no default namespace in scope. - If unspecified or C{None}, the namespace of the module containing - this function will be used. - - @keyword location_base: An object to be recorded as the base of all - L{pyxb.utils.utility.Location} instances associated with events and - objects handled by the parser. You might pass the URI from which - the document was obtained. - """ - - if pyxb.XMLStyle_saxer != pyxb._XMLStyle: - dom = pyxb.utils.domutils.StringToDOM(xml_text) - return CreateFromDOM(dom.documentElement, default_namespace=default_namespace) - if default_namespace is None: - default_namespace = Namespace.fallbackNamespace() - saxer = pyxb.binding.saxer.make_parser(fallback_namespace=default_namespace, location_base=location_base) - handler = saxer.getContentHandler() - xmld = xml_text - if isinstance(xmld, _six.text_type): - xmld = xmld.encode(pyxb._InputEncoding) - saxer.parse(io.BytesIO(xmld)) - instance = handler.rootObject() - return instance - -def CreateFromDOM (node, default_namespace=None): - """Create a Python instance from the given DOM node. - The node tag must correspond to an element declaration in this module. - - @deprecated: Forcing use of DOM interface is unnecessary; use L{CreateFromDocument}.""" - if default_namespace is None: - default_namespace = Namespace.fallbackNamespace() - return pyxb.binding.basis.element.AnyCreateFromDOM(node, default_namespace) - - -# Atomic simple type: {http://chercheurs.edf.com/logiciels/Essai}T_version -class T_version (pyxb.binding.datatypes.string): - - """An atomic simple type.""" - - _ExpandedName = pyxb.namespace.ExpandedName(Namespace, 'T_version') - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 7, 1) - _Documentation = None -T_version._InitializeFacetMap() -Namespace.addCategoryObject('typeBinding', 'T_version', T_version) -_module_typeBindings.T_version = T_version - -# Atomic simple type: {http://chercheurs.edf.com/logiciels/Essai}T_group_name -class T_group_name (pyxb.binding.datatypes.string): - - """An atomic simple type.""" - - _ExpandedName = pyxb.namespace.ExpandedName(Namespace, 'T_group_name') - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 11, 1) - _Documentation = None -T_group_name._InitializeFacetMap() -Namespace.addCategoryObject('typeBinding', 'T_group_name', T_group_name) -_module_typeBindings.T_group_name = T_group_name - -# Atomic simple type: [anonymous] -class STD_ANON (pyxb.binding.datatypes.string): - - """An atomic simple type.""" - - _ExpandedName = None - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 19, 5) - _Documentation = None -STD_ANON._InitializeFacetMap() -_module_typeBindings.STD_ANON = STD_ANON - -# Atomic simple type: {http://chercheurs.edf.com/logiciels/Essai}T_xenon_feedback -class T_xenon_feedback (pyxb.binding.datatypes.string, pyxb.binding.basis.enumeration_mixin): - - """An atomic simple type.""" - - _ExpandedName = pyxb.namespace.ExpandedName(Namespace, 'T_xenon_feedback') - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 27, 1) - _Documentation = None -T_xenon_feedback._CF_enumeration = pyxb.binding.facets.CF_enumeration(value_datatype=T_xenon_feedback, enum_prefix=None) -T_xenon_feedback.locked = T_xenon_feedback._CF_enumeration.addEnumeration(unicode_value='locked', tag='locked') -T_xenon_feedback.equilibrium = T_xenon_feedback._CF_enumeration.addEnumeration(unicode_value='equilibrium', tag='equilibrium') -T_xenon_feedback._InitializeFacetMap(T_xenon_feedback._CF_enumeration) -Namespace.addCategoryObject('typeBinding', 'T_xenon_feedback', T_xenon_feedback) -_module_typeBindings.T_xenon_feedback = T_xenon_feedback - -# Atomic simple type: {http://chercheurs.edf.com/logiciels/Essai}T_cb -class T_cb (pyxb.binding.datatypes.string, pyxb.binding.basis.enumeration_mixin): - - """An atomic simple type.""" - - _ExpandedName = pyxb.namespace.ExpandedName(Namespace, 'T_cb') - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 33, 1) - _Documentation = None -T_cb._CF_enumeration = pyxb.binding.facets.CF_enumeration(value_datatype=T_cb, enum_prefix=None) -T_cb.upstream_state = T_cb._CF_enumeration.addEnumeration(unicode_value='upstream_state', tag='upstream_state') -T_cb.critical = T_cb._CF_enumeration.addEnumeration(unicode_value='critical', tag='critical') -T_cb.critical_from_previous_state = T_cb._CF_enumeration.addEnumeration(unicode_value='critical_from_previous_state', tag='critical_from_previous_state') -T_cb._InitializeFacetMap(T_cb._CF_enumeration) -Namespace.addCategoryObject('typeBinding', 'T_cb', T_cb) -_module_typeBindings.T_cb = T_cb - -# Atomic simple type: [anonymous] -class STD_ANON_ (pyxb.binding.datatypes.string): - - """An atomic simple type.""" - - _ExpandedName = None - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 44, 5) - _Documentation = None -STD_ANON_._InitializeFacetMap() -_module_typeBindings.STD_ANON_ = STD_ANON_ - -# Atomic simple type: {http://chercheurs.edf.com/logiciels/Essai}T_calcul_type -class T_calcul_type (pyxb.binding.datatypes.string, pyxb.binding.basis.enumeration_mixin): - - """An atomic simple type.""" - - _ExpandedName = pyxb.namespace.ExpandedName(Namespace, 'T_calcul_type') - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 52, 1) - _Documentation = None -T_calcul_type._CF_enumeration = pyxb.binding.facets.CF_enumeration(value_datatype=T_calcul_type, enum_prefix=None) -T_calcul_type.differential_worth = T_calcul_type._CF_enumeration.addEnumeration(unicode_value='differential_worth', tag='differential_worth') -T_calcul_type.combination = T_calcul_type._CF_enumeration.addEnumeration(unicode_value='combination', tag='combination') -T_calcul_type.integral_worth = T_calcul_type._CF_enumeration.addEnumeration(unicode_value='integral_worth', tag='integral_worth') -T_calcul_type._InitializeFacetMap(T_calcul_type._CF_enumeration) -Namespace.addCategoryObject('typeBinding', 'T_calcul_type', T_calcul_type) -_module_typeBindings.T_calcul_type = T_calcul_type - -# Atomic simple type: {http://chercheurs.edf.com/logiciels/Essai}T_Integral_O -class T_Integral_O (pyxb.binding.datatypes.string): - - """An atomic simple type.""" - - _ExpandedName = pyxb.namespace.ExpandedName(Namespace, 'T_Integral_O') - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 59, 1) - _Documentation = None -T_Integral_O._InitializeFacetMap() -Namespace.addCategoryObject('typeBinding', 'T_Integral_O', T_Integral_O) -_module_typeBindings.T_Integral_O = T_Integral_O - -# Atomic simple type: {http://chercheurs.edf.com/logiciels/Essai}T_step_unit -class T_step_unit (pyxb.binding.datatypes.string, pyxb.binding.basis.enumeration_mixin): - - """An atomic simple type.""" - - _ExpandedName = pyxb.namespace.ExpandedName(Namespace, 'T_step_unit') - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 63, 1) - _Documentation = None -T_step_unit._CF_enumeration = pyxb.binding.facets.CF_enumeration(value_datatype=T_step_unit, enum_prefix=None) -T_step_unit.inserted_steps = T_step_unit._CF_enumeration.addEnumeration(unicode_value='inserted_steps', tag='inserted_steps') -T_step_unit.extracted_steps = T_step_unit._CF_enumeration.addEnumeration(unicode_value='extracted_steps', tag='extracted_steps') -T_step_unit._InitializeFacetMap(T_step_unit._CF_enumeration) -Namespace.addCategoryObject('typeBinding', 'T_step_unit', T_step_unit) -_module_typeBindings.T_step_unit = T_step_unit - -# Atomic simple type: {http://chercheurs.edf.com/logiciels/Essai}T_key_config -class T_key_config (pyxb.binding.datatypes.string): - - """An atomic simple type.""" - - _ExpandedName = pyxb.namespace.ExpandedName(Namespace, 'T_key_config') - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 69, 1) - _Documentation = None -T_key_config._InitializeFacetMap() -Namespace.addCategoryObject('typeBinding', 'T_key_config', T_key_config) -_module_typeBindings.T_key_config = T_key_config - -# Atomic simple type: {http://chercheurs.edf.com/logiciels/Essai}T_value_def_1 -class T_value_def_1 (pyxb.binding.datatypes.float): - - """An atomic simple type.""" - - _ExpandedName = pyxb.namespace.ExpandedName(Namespace, 'T_value_def_1') - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 73, 1) - _Documentation = None -T_value_def_1._CF_minInclusive = pyxb.binding.facets.CF_minInclusive(value_datatype=T_value_def_1, value=pyxb.binding.datatypes.float(0.0)) -T_value_def_1._InitializeFacetMap(T_value_def_1._CF_minInclusive) -Namespace.addCategoryObject('typeBinding', 'T_value_def_1', T_value_def_1) -_module_typeBindings.T_value_def_1 = T_value_def_1 - -# Atomic simple type: {http://chercheurs.edf.com/logiciels/Essai}PNEFdico_Essai -class PNEFdico_Essai (pyxb.binding.datatypes.string): - - """{'T_value_def': {'_value_def_config_Integral_RodsWorthSetting': 'T_value_def_1'}} - """ - - _ExpandedName = pyxb.namespace.ExpandedName(Namespace, 'PNEFdico_Essai') - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 126, 1) - _Documentation = "{'T_value_def': {'_value_def_config_Integral_RodsWorthSetting': 'T_value_def_1'}}\n\t\t" -PNEFdico_Essai._InitializeFacetMap() -Namespace.addCategoryObject('typeBinding', 'PNEFdico_Essai', PNEFdico_Essai) -_module_typeBindings.PNEFdico_Essai = PNEFdico_Essai - -# List simple type: [anonymous] -# superclasses pyxb.binding.datatypes.anySimpleType -class STD_ANON_2 (pyxb.binding.basis.STD_list): - - """Simple type that is a list of STD_ANON.""" - - _ExpandedName = None - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 17, 3) - _Documentation = None - - _ItemType = STD_ANON -STD_ANON_2._InitializeFacetMap() -_module_typeBindings.STD_ANON_2 = STD_ANON_2 - -# List simple type: [anonymous] -# superclasses pyxb.binding.datatypes.anySimpleType -class STD_ANON_3 (pyxb.binding.basis.STD_list): - - """Simple type that is a list of STD_ANON_.""" - - _ExpandedName = None - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 42, 3) - _Documentation = None - - _ItemType = STD_ANON_ -STD_ANON_3._InitializeFacetMap() -_module_typeBindings.STD_ANON_3 = STD_ANON_3 - -# List simple type: {http://chercheurs.edf.com/logiciels/Essai}T_value_def -# superclasses STD_ANON_2 -class T_value_def (pyxb.binding.basis.STD_list): - - """Simple type that is a list of STD_ANON.""" - - _ExpandedName = pyxb.namespace.ExpandedName(Namespace, 'T_value_def') - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 15, 1) - _Documentation = None - - _ItemType = STD_ANON -T_value_def._InitializeFacetMap() -Namespace.addCategoryObject('typeBinding', 'T_value_def', T_value_def) -_module_typeBindings.T_value_def = T_value_def - -# List simple type: {http://chercheurs.edf.com/logiciels/Essai}T_states -# superclasses STD_ANON_3 -class T_states (pyxb.binding.basis.STD_list): - - """Simple type that is a list of STD_ANON_.""" - - _ExpandedName = pyxb.namespace.ExpandedName(Namespace, 'T_states') - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 40, 1) - _Documentation = None - - _ItemType = STD_ANON_ -T_states._InitializeFacetMap() -Namespace.addCategoryObject('typeBinding', 'T_states', T_states) -_module_typeBindings.T_states = T_states - -# Complex type {http://chercheurs.edf.com/logiciels/Essai}T_virtual_groups with content type ELEMENT_ONLY -class T_virtual_groups (pyxb.binding.basis.complexTypeDefinition): - """Complex type {http://chercheurs.edf.com/logiciels/Essai}T_virtual_groups with content type ELEMENT_ONLY""" - _TypeDefinition = None - _ContentTypeTag = pyxb.binding.basis.complexTypeDefinition._CT_ELEMENT_ONLY - _Abstract = False - _ExpandedName = pyxb.namespace.ExpandedName(Namespace, 'T_virtual_groups') - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 78, 1) - _ElementMap = {} - _AttributeMap = {} - # Base type is pyxb.binding.datatypes.anyType - - # Element {http://chercheurs.edf.com/logiciels/Essai}group_name uses Python identifier group_name - __group_name = pyxb.binding.content.ElementDeclaration(pyxb.namespace.ExpandedName(Namespace, 'group_name'), 'group_name', '__httpchercheurs_edf_comlogicielsEssai_T_virtual_groups_httpchercheurs_edf_comlogicielsEssaigroup_name', False, pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 80, 3), ) - - - group_name = property(__group_name.value, __group_name.set, None, None) - - - # Element {http://chercheurs.edf.com/logiciels/Essai}value_def uses Python identifier value_def - __value_def = pyxb.binding.content.ElementDeclaration(pyxb.namespace.ExpandedName(Namespace, 'value_def'), 'value_def', '__httpchercheurs_edf_comlogicielsEssai_T_virtual_groups_httpchercheurs_edf_comlogicielsEssaivalue_def', False, pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 81, 3), ) - - - value_def = property(__value_def.value, __value_def.set, None, None) - - _ElementMap.update({ - __group_name.name() : __group_name, - __value_def.name() : __value_def - }) - _AttributeMap.update({ - - }) -_module_typeBindings.T_virtual_groups = T_virtual_groups -Namespace.addCategoryObject('typeBinding', 'T_virtual_groups', T_virtual_groups) - - -# Complex type {http://chercheurs.edf.com/logiciels/Essai}T_config with content type ELEMENT_ONLY -class T_config (pyxb.binding.basis.complexTypeDefinition): - """Complex type {http://chercheurs.edf.com/logiciels/Essai}T_config with content type ELEMENT_ONLY""" - _TypeDefinition = None - _ContentTypeTag = pyxb.binding.basis.complexTypeDefinition._CT_ELEMENT_ONLY - _Abstract = False - _ExpandedName = pyxb.namespace.ExpandedName(Namespace, 'T_config') - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 89, 1) - _ElementMap = {} - _AttributeMap = {} - # Base type is pyxb.binding.datatypes.anyType - - # Element {http://chercheurs.edf.com/logiciels/Essai}key_config uses Python identifier key_config - __key_config = pyxb.binding.content.ElementDeclaration(pyxb.namespace.ExpandedName(Namespace, 'key_config'), 'key_config', '__httpchercheurs_edf_comlogicielsEssai_T_config_httpchercheurs_edf_comlogicielsEssaikey_config', False, pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 91, 3), ) - - - key_config = property(__key_config.value, __key_config.set, None, None) - - - # Element {http://chercheurs.edf.com/logiciels/Essai}value_def uses Python identifier value_def - __value_def = pyxb.binding.content.ElementDeclaration(pyxb.namespace.ExpandedName(Namespace, 'value_def'), 'value_def', '__httpchercheurs_edf_comlogicielsEssai_T_config_httpchercheurs_edf_comlogicielsEssaivalue_def', False, pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 92, 3), ) - - - value_def = property(__value_def.value, __value_def.set, None, None) - - _ElementMap.update({ - __key_config.name() : __key_config, - __value_def.name() : __value_def - }) - _AttributeMap.update({ - - }) -_module_typeBindings.T_config = T_config -Namespace.addCategoryObject('typeBinding', 'T_config', T_config) - - -# Complex type {http://chercheurs.edf.com/logiciels/Essai}T_Integral with content type ELEMENT_ONLY -class T_Integral (pyxb.binding.basis.complexTypeDefinition): - """Complex type {http://chercheurs.edf.com/logiciels/Essai}T_Integral with content type ELEMENT_ONLY""" - _TypeDefinition = None - _ContentTypeTag = pyxb.binding.basis.complexTypeDefinition._CT_ELEMENT_ONLY - _Abstract = False - _ExpandedName = pyxb.namespace.ExpandedName(Namespace, 'T_Integral') - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 95, 1) - _ElementMap = {} - _AttributeMap = {} - # Base type is pyxb.binding.datatypes.anyType - - # Element {http://chercheurs.edf.com/logiciels/Essai}step_unit uses Python identifier step_unit - __step_unit = pyxb.binding.content.ElementDeclaration(pyxb.namespace.ExpandedName(Namespace, 'step_unit'), 'step_unit', '__httpchercheurs_edf_comlogicielsEssai_T_Integral_httpchercheurs_edf_comlogicielsEssaistep_unit', False, pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 97, 3), ) - - - step_unit = property(__step_unit.value, __step_unit.set, None, None) - - - # Element {http://chercheurs.edf.com/logiciels/Essai}config uses Python identifier config - __config = pyxb.binding.content.ElementDeclaration(pyxb.namespace.ExpandedName(Namespace, 'config'), 'config', '__httpchercheurs_edf_comlogicielsEssai_T_Integral_httpchercheurs_edf_comlogicielsEssaiconfig', True, pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 98, 3), ) - - - config = property(__config.value, __config.set, None, None) - - _ElementMap.update({ - __step_unit.name() : __step_unit, - __config.name() : __config - }) - _AttributeMap.update({ - - }) -_module_typeBindings.T_Integral = T_Integral -Namespace.addCategoryObject('typeBinding', 'T_Integral', T_Integral) - - -# Complex type {http://chercheurs.edf.com/logiciels/Essai}T_step_Essai with content type EMPTY -class T_step_Essai (pyxb.binding.basis.complexTypeDefinition): - """Complex type {http://chercheurs.edf.com/logiciels/Essai}T_step_Essai with content type EMPTY""" - _TypeDefinition = None - _ContentTypeTag = pyxb.binding.basis.complexTypeDefinition._CT_EMPTY - _Abstract = True - _ExpandedName = pyxb.namespace.ExpandedName(Namespace, 'T_step_Essai') - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 118, 1) - _ElementMap = {} - _AttributeMap = {} - # Base type is pyxb.binding.datatypes.anyType - _ElementMap.update({ - - }) - _AttributeMap.update({ - - }) -_module_typeBindings.T_step_Essai = T_step_Essai -Namespace.addCategoryObject('typeBinding', 'T_step_Essai', T_step_Essai) - - -# Complex type {http://chercheurs.edf.com/logiciels/Essai}T_Essai with content type ELEMENT_ONLY -class T_Essai (pyxb.binding.basis.complexTypeDefinition): - """Complex type {http://chercheurs.edf.com/logiciels/Essai}T_Essai with content type ELEMENT_ONLY""" - _TypeDefinition = None - _ContentTypeTag = pyxb.binding.basis.complexTypeDefinition._CT_ELEMENT_ONLY - _Abstract = False - _ExpandedName = pyxb.namespace.ExpandedName(Namespace, 'T_Essai') - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 121, 2) - _ElementMap = {} - _AttributeMap = {} - # Base type is pyxb.binding.datatypes.anyType - - # Element {http://chercheurs.edf.com/logiciels/Essai}step_Essai uses Python identifier step_Essai - __step_Essai = pyxb.binding.content.ElementDeclaration(pyxb.namespace.ExpandedName(Namespace, 'step_Essai'), 'step_Essai', '__httpchercheurs_edf_comlogicielsEssai_T_Essai_httpchercheurs_edf_comlogicielsEssaistep_Essai', True, pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 119, 1), ) - - - step_Essai = property(__step_Essai.value, __step_Essai.set, None, None) - - _ElementMap.update({ - __step_Essai.name() : __step_Essai - }) - _AttributeMap.update({ - - }) -_module_typeBindings.T_Essai = T_Essai -Namespace.addCategoryObject('typeBinding', 'T_Essai', T_Essai) - - -# Complex type {http://chercheurs.edf.com/logiciels/Essai}T_RodsWorthSetting with content type ELEMENT_ONLY -class T_RodsWorthSetting (T_step_Essai): - """Complex type {http://chercheurs.edf.com/logiciels/Essai}T_RodsWorthSetting with content type ELEMENT_ONLY""" - _TypeDefinition = None - _ContentTypeTag = pyxb.binding.basis.complexTypeDefinition._CT_ELEMENT_ONLY - _Abstract = False - _ExpandedName = pyxb.namespace.ExpandedName(Namespace, 'T_RodsWorthSetting') - _XSDLocation = pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 101, 1) - _ElementMap = T_step_Essai._ElementMap.copy() - _AttributeMap = T_step_Essai._AttributeMap.copy() - # Base type is T_step_Essai - - # Element {http://chercheurs.edf.com/logiciels/Essai}Integral_O uses Python identifier Integral_O - __Integral_O = pyxb.binding.content.ElementDeclaration(pyxb.namespace.ExpandedName(Namespace, 'Integral_O'), 'Integral_O', '__httpchercheurs_edf_comlogicielsEssai_T_RodsWorthSetting_httpchercheurs_edf_comlogicielsEssaiIntegral_O', False, pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 86, 3), ) - - - Integral_O = property(__Integral_O.value, __Integral_O.set, None, None) - - - # Element {http://chercheurs.edf.com/logiciels/Essai}version uses Python identifier version - __version = pyxb.binding.content.ElementDeclaration(pyxb.namespace.ExpandedName(Namespace, 'version'), 'version', '__httpchercheurs_edf_comlogicielsEssai_T_RodsWorthSetting_httpchercheurs_edf_comlogicielsEssaiversion', False, pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 105, 3), ) - - - version = property(__version.value, __version.set, None, None) - - - # Element {http://chercheurs.edf.com/logiciels/Essai}virtual_groups uses Python identifier virtual_groups - __virtual_groups = pyxb.binding.content.ElementDeclaration(pyxb.namespace.ExpandedName(Namespace, 'virtual_groups'), 'virtual_groups', '__httpchercheurs_edf_comlogicielsEssai_T_RodsWorthSetting_httpchercheurs_edf_comlogicielsEssaivirtual_groups', True, pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 106, 3), ) - - - virtual_groups = property(__virtual_groups.value, __virtual_groups.set, None, None) - - - # Element {http://chercheurs.edf.com/logiciels/Essai}xenon_feedback uses Python identifier xenon_feedback - __xenon_feedback = pyxb.binding.content.ElementDeclaration(pyxb.namespace.ExpandedName(Namespace, 'xenon_feedback'), 'xenon_feedback', '__httpchercheurs_edf_comlogicielsEssai_T_RodsWorthSetting_httpchercheurs_edf_comlogicielsEssaixenon_feedback', False, pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 107, 3), ) - - - xenon_feedback = property(__xenon_feedback.value, __xenon_feedback.set, None, None) - - - # Element {http://chercheurs.edf.com/logiciels/Essai}cb uses Python identifier cb - __cb = pyxb.binding.content.ElementDeclaration(pyxb.namespace.ExpandedName(Namespace, 'cb'), 'cb', '__httpchercheurs_edf_comlogicielsEssai_T_RodsWorthSetting_httpchercheurs_edf_comlogicielsEssaicb', False, pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 108, 3), ) - - - cb = property(__cb.value, __cb.set, None, None) - - - # Element {http://chercheurs.edf.com/logiciels/Essai}states uses Python identifier states - __states = pyxb.binding.content.ElementDeclaration(pyxb.namespace.ExpandedName(Namespace, 'states'), 'states', '__httpchercheurs_edf_comlogicielsEssai_T_RodsWorthSetting_httpchercheurs_edf_comlogicielsEssaistates', False, pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 109, 3), ) - - - states = property(__states.value, __states.set, None, None) - - - # Element {http://chercheurs.edf.com/logiciels/Essai}calcul_type uses Python identifier calcul_type - __calcul_type = pyxb.binding.content.ElementDeclaration(pyxb.namespace.ExpandedName(Namespace, 'calcul_type'), 'calcul_type', '__httpchercheurs_edf_comlogicielsEssai_T_RodsWorthSetting_httpchercheurs_edf_comlogicielsEssaicalcul_type', False, pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 110, 3), ) - - - calcul_type = property(__calcul_type.value, __calcul_type.set, None, None) - - - # Element {http://chercheurs.edf.com/logiciels/Essai}Integral uses Python identifier Integral - __Integral = pyxb.binding.content.ElementDeclaration(pyxb.namespace.ExpandedName(Namespace, 'Integral'), 'Integral', '__httpchercheurs_edf_comlogicielsEssai_T_RodsWorthSetting_httpchercheurs_edf_comlogicielsEssaiIntegral', False, pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 112, 3), ) - - - Integral = property(__Integral.value, __Integral.set, None, None) - - _ElementMap.update({ - __Integral_O.name() : __Integral_O, - __version.name() : __version, - __virtual_groups.name() : __virtual_groups, - __xenon_feedback.name() : __xenon_feedback, - __cb.name() : __cb, - __states.name() : __states, - __calcul_type.name() : __calcul_type, - __Integral.name() : __Integral - }) - _AttributeMap.update({ - - }) -_module_typeBindings.T_RodsWorthSetting = T_RodsWorthSetting -Namespace.addCategoryObject('typeBinding', 'T_RodsWorthSetting', T_RodsWorthSetting) - - -step_Essai = pyxb.binding.basis.element(pyxb.namespace.ExpandedName(Namespace, 'step_Essai'), T_step_Essai, location=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 119, 1)) -Namespace.addCategoryObject('elementBinding', step_Essai.name().localName(), step_Essai) - -Essai = pyxb.binding.basis.element(pyxb.namespace.ExpandedName(Namespace, 'Essai'), T_Essai, location=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 120, 1)) -Namespace.addCategoryObject('elementBinding', Essai.name().localName(), Essai) - -RodsWorthSetting = pyxb.binding.basis.element(pyxb.namespace.ExpandedName(Namespace, 'RodsWorthSetting'), T_RodsWorthSetting, location=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 117, 1)) -Namespace.addCategoryObject('elementBinding', RodsWorthSetting.name().localName(), RodsWorthSetting) - - - -T_virtual_groups._AddElement(pyxb.binding.basis.element(pyxb.namespace.ExpandedName(Namespace, 'group_name'), T_group_name, scope=T_virtual_groups, location=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 80, 3))) - -T_virtual_groups._AddElement(pyxb.binding.basis.element(pyxb.namespace.ExpandedName(Namespace, 'value_def'), T_value_def, scope=T_virtual_groups, location=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 81, 3))) - -def _BuildAutomaton (): - # Remove this helper function from the namespace after it is invoked - global _BuildAutomaton - del _BuildAutomaton - import pyxb.utils.fac as fac - - counters = set() - states = [] - final_update = None - symbol = pyxb.binding.content.ElementUse(T_virtual_groups._UseForTag(pyxb.namespace.ExpandedName(Namespace, 'group_name')), pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 80, 3)) - st_0 = fac.State(symbol, is_initial=True, final_update=final_update, is_unordered_catenation=False) - states.append(st_0) - final_update = set() - symbol = pyxb.binding.content.ElementUse(T_virtual_groups._UseForTag(pyxb.namespace.ExpandedName(Namespace, 'value_def')), pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 81, 3)) - st_1 = fac.State(symbol, is_initial=False, final_update=final_update, is_unordered_catenation=False) - states.append(st_1) - transitions = [] - transitions.append(fac.Transition(st_1, [ - ])) - st_0._set_transitionSet(transitions) - transitions = [] - st_1._set_transitionSet(transitions) - return fac.Automaton(states, counters, False, containing_state=None) -T_virtual_groups._Automaton = _BuildAutomaton() - - - - -T_config._AddElement(pyxb.binding.basis.element(pyxb.namespace.ExpandedName(Namespace, 'key_config'), T_key_config, scope=T_config, location=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 91, 3))) - -T_config._AddElement(pyxb.binding.basis.element(pyxb.namespace.ExpandedName(Namespace, 'value_def'), T_value_def_1, scope=T_config, location=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 92, 3))) - -def _BuildAutomaton_ (): - # Remove this helper function from the namespace after it is invoked - global _BuildAutomaton_ - del _BuildAutomaton_ - import pyxb.utils.fac as fac - - counters = set() - states = [] - final_update = None - symbol = pyxb.binding.content.ElementUse(T_config._UseForTag(pyxb.namespace.ExpandedName(Namespace, 'key_config')), pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 91, 3)) - st_0 = fac.State(symbol, is_initial=True, final_update=final_update, is_unordered_catenation=False) - states.append(st_0) - final_update = set() - symbol = pyxb.binding.content.ElementUse(T_config._UseForTag(pyxb.namespace.ExpandedName(Namespace, 'value_def')), pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 92, 3)) - st_1 = fac.State(symbol, is_initial=False, final_update=final_update, is_unordered_catenation=False) - states.append(st_1) - transitions = [] - transitions.append(fac.Transition(st_1, [ - ])) - st_0._set_transitionSet(transitions) - transitions = [] - st_1._set_transitionSet(transitions) - return fac.Automaton(states, counters, False, containing_state=None) -T_config._Automaton = _BuildAutomaton_() - - - - -T_Integral._AddElement(pyxb.binding.basis.element(pyxb.namespace.ExpandedName(Namespace, 'step_unit'), T_step_unit, scope=T_Integral, location=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 97, 3))) - -T_Integral._AddElement(pyxb.binding.basis.element(pyxb.namespace.ExpandedName(Namespace, 'config'), T_config, scope=T_Integral, location=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 98, 3))) - -def _BuildAutomaton_2 (): - # Remove this helper function from the namespace after it is invoked - global _BuildAutomaton_2 - del _BuildAutomaton_2 - import pyxb.utils.fac as fac - - counters = set() - cc_0 = fac.CounterCondition(min=0, max=None, metadata=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 98, 3)) - counters.add(cc_0) - states = [] - final_update = set() - symbol = pyxb.binding.content.ElementUse(T_Integral._UseForTag(pyxb.namespace.ExpandedName(Namespace, 'step_unit')), pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 97, 3)) - st_0 = fac.State(symbol, is_initial=True, final_update=final_update, is_unordered_catenation=False) - states.append(st_0) - final_update = set() - final_update.add(fac.UpdateInstruction(cc_0, False)) - symbol = pyxb.binding.content.ElementUse(T_Integral._UseForTag(pyxb.namespace.ExpandedName(Namespace, 'config')), pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 98, 3)) - st_1 = fac.State(symbol, is_initial=False, final_update=final_update, is_unordered_catenation=False) - states.append(st_1) - transitions = [] - transitions.append(fac.Transition(st_1, [ - ])) - st_0._set_transitionSet(transitions) - transitions = [] - transitions.append(fac.Transition(st_1, [ - fac.UpdateInstruction(cc_0, True) ])) - st_1._set_transitionSet(transitions) - return fac.Automaton(states, counters, False, containing_state=None) -T_Integral._Automaton = _BuildAutomaton_2() - - - - -T_Essai._AddElement(pyxb.binding.basis.element(pyxb.namespace.ExpandedName(Namespace, 'step_Essai'), T_step_Essai, scope=T_Essai, location=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 119, 1))) - -def _BuildAutomaton_3 (): - # Remove this helper function from the namespace after it is invoked - global _BuildAutomaton_3 - del _BuildAutomaton_3 - import pyxb.utils.fac as fac - - counters = set() - cc_0 = fac.CounterCondition(min=0, max=None, metadata=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 122, 4)) - counters.add(cc_0) - cc_1 = fac.CounterCondition(min=0, max=1, metadata=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 123, 3)) - counters.add(cc_1) - states = [] - final_update = set() - final_update.add(fac.UpdateInstruction(cc_0, False)) - final_update.add(fac.UpdateInstruction(cc_1, False)) - symbol = pyxb.binding.content.ElementUse(T_Essai._UseForTag(pyxb.namespace.ExpandedName(Namespace, 'step_Essai')), pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 123, 3)) - st_0 = fac.State(symbol, is_initial=True, final_update=final_update, is_unordered_catenation=False) - states.append(st_0) - transitions = [] - transitions.append(fac.Transition(st_0, [ - fac.UpdateInstruction(cc_0, True), - fac.UpdateInstruction(cc_1, False) ])) - transitions.append(fac.Transition(st_0, [ - fac.UpdateInstruction(cc_1, True) ])) - st_0._set_transitionSet(transitions) - return fac.Automaton(states, counters, True, containing_state=None) -T_Essai._Automaton = _BuildAutomaton_3() - - - - -T_RodsWorthSetting._AddElement(pyxb.binding.basis.element(pyxb.namespace.ExpandedName(Namespace, 'Integral_O'), T_Integral_O, scope=T_RodsWorthSetting, location=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 86, 3), unicode_default='pas compris')) - -T_RodsWorthSetting._AddElement(pyxb.binding.basis.element(pyxb.namespace.ExpandedName(Namespace, 'version'), T_version, scope=T_RodsWorthSetting, location=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 105, 3), unicode_default='1.0.0')) - -T_RodsWorthSetting._AddElement(pyxb.binding.basis.element(pyxb.namespace.ExpandedName(Namespace, 'virtual_groups'), T_virtual_groups, scope=T_RodsWorthSetting, location=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 106, 3))) - -T_RodsWorthSetting._AddElement(pyxb.binding.basis.element(pyxb.namespace.ExpandedName(Namespace, 'xenon_feedback'), T_xenon_feedback, scope=T_RodsWorthSetting, location=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 107, 3))) - -T_RodsWorthSetting._AddElement(pyxb.binding.basis.element(pyxb.namespace.ExpandedName(Namespace, 'cb'), T_cb, scope=T_RodsWorthSetting, location=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 108, 3))) - -T_RodsWorthSetting._AddElement(pyxb.binding.basis.element(pyxb.namespace.ExpandedName(Namespace, 'states'), T_states, scope=T_RodsWorthSetting, location=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 109, 3))) - -T_RodsWorthSetting._AddElement(pyxb.binding.basis.element(pyxb.namespace.ExpandedName(Namespace, 'calcul_type'), T_calcul_type, scope=T_RodsWorthSetting, location=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 110, 3))) - -T_RodsWorthSetting._AddElement(pyxb.binding.basis.element(pyxb.namespace.ExpandedName(Namespace, 'Integral'), T_Integral, scope=T_RodsWorthSetting, location=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 112, 3))) - -def _BuildAutomaton_4 (): - # Remove this helper function from the namespace after it is invoked - global _BuildAutomaton_4 - del _BuildAutomaton_4 - import pyxb.utils.fac as fac - - counters = set() - cc_0 = fac.CounterCondition(min=0, max=None, metadata=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 106, 3)) - counters.add(cc_0) - cc_1 = fac.CounterCondition(min=0, max=1, metadata=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 111, 3)) - counters.add(cc_1) - cc_2 = fac.CounterCondition(min=0, max=1, metadata=pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 112, 3)) - counters.add(cc_2) - states = [] - final_update = None - symbol = pyxb.binding.content.ElementUse(T_RodsWorthSetting._UseForTag(pyxb.namespace.ExpandedName(Namespace, 'version')), pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 105, 3)) - st_0 = fac.State(symbol, is_initial=True, final_update=final_update, is_unordered_catenation=False) - states.append(st_0) - final_update = None - symbol = pyxb.binding.content.ElementUse(T_RodsWorthSetting._UseForTag(pyxb.namespace.ExpandedName(Namespace, 'virtual_groups')), pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 106, 3)) - st_1 = fac.State(symbol, is_initial=False, final_update=final_update, is_unordered_catenation=False) - states.append(st_1) - final_update = None - symbol = pyxb.binding.content.ElementUse(T_RodsWorthSetting._UseForTag(pyxb.namespace.ExpandedName(Namespace, 'xenon_feedback')), pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 107, 3)) - st_2 = fac.State(symbol, is_initial=False, final_update=final_update, is_unordered_catenation=False) - states.append(st_2) - final_update = None - symbol = pyxb.binding.content.ElementUse(T_RodsWorthSetting._UseForTag(pyxb.namespace.ExpandedName(Namespace, 'cb')), pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 108, 3)) - st_3 = fac.State(symbol, is_initial=False, final_update=final_update, is_unordered_catenation=False) - states.append(st_3) - final_update = None - symbol = pyxb.binding.content.ElementUse(T_RodsWorthSetting._UseForTag(pyxb.namespace.ExpandedName(Namespace, 'states')), pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 109, 3)) - st_4 = fac.State(symbol, is_initial=False, final_update=final_update, is_unordered_catenation=False) - states.append(st_4) - final_update = set() - symbol = pyxb.binding.content.ElementUse(T_RodsWorthSetting._UseForTag(pyxb.namespace.ExpandedName(Namespace, 'calcul_type')), pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 110, 3)) - st_5 = fac.State(symbol, is_initial=False, final_update=final_update, is_unordered_catenation=False) - states.append(st_5) - final_update = set() - final_update.add(fac.UpdateInstruction(cc_1, False)) - symbol = pyxb.binding.content.ElementUse(T_RodsWorthSetting._UseForTag(pyxb.namespace.ExpandedName(Namespace, 'Integral_O')), pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 86, 3)) - st_6 = fac.State(symbol, is_initial=False, final_update=final_update, is_unordered_catenation=False) - states.append(st_6) - final_update = set() - final_update.add(fac.UpdateInstruction(cc_2, False)) - symbol = pyxb.binding.content.ElementUse(T_RodsWorthSetting._UseForTag(pyxb.namespace.ExpandedName(Namespace, 'Integral')), pyxb.utils.utility.Location('/home/A96028/QT5GitEficasTravail/eficas/Poc/cataPoc.xsd', 112, 3)) - st_7 = fac.State(symbol, is_initial=False, final_update=final_update, is_unordered_catenation=False) - states.append(st_7) - transitions = [] - transitions.append(fac.Transition(st_1, [ - ])) - transitions.append(fac.Transition(st_2, [ - ])) - st_0._set_transitionSet(transitions) - transitions = [] - transitions.append(fac.Transition(st_1, [ - fac.UpdateInstruction(cc_0, True) ])) - transitions.append(fac.Transition(st_2, [ - fac.UpdateInstruction(cc_0, False) ])) - st_1._set_transitionSet(transitions) - transitions = [] - transitions.append(fac.Transition(st_3, [ - ])) - st_2._set_transitionSet(transitions) - transitions = [] - transitions.append(fac.Transition(st_4, [ - ])) - st_3._set_transitionSet(transitions) - transitions = [] - transitions.append(fac.Transition(st_5, [ - ])) - st_4._set_transitionSet(transitions) - transitions = [] - transitions.append(fac.Transition(st_6, [ - ])) - transitions.append(fac.Transition(st_7, [ - ])) - st_5._set_transitionSet(transitions) - transitions = [] - transitions.append(fac.Transition(st_6, [ - fac.UpdateInstruction(cc_1, True) ])) - transitions.append(fac.Transition(st_7, [ - fac.UpdateInstruction(cc_1, False) ])) - st_6._set_transitionSet(transitions) - transitions = [] - transitions.append(fac.Transition(st_7, [ - fac.UpdateInstruction(cc_2, True) ])) - st_7._set_transitionSet(transitions) - return fac.Automaton(states, counters, False, containing_state=None) -T_RodsWorthSetting._Automaton = _BuildAutomaton_4() - - -RodsWorthSetting._setSubstitutionGroup(step_Essai) diff --git a/Poc/readExemple.py b/Poc/readExemple.py index c28e2147..2f78a0df 100644 --- a/Poc/readExemple.py +++ b/Poc/readExemple.py @@ -1,12 +1,62 @@ -from cataPoc_driver import * +from cataPocRN_driver import * +import cataPocRN_driver as m pyxb.GlobalValidationConfig._setContentInfluencesGeneration(pyxb.GlobalValidationConfig.ALWAYS) pyxb.GlobalValidationConfig._setInvalidElementInContent(pyxb.GlobalValidationConfig.RAISE_EXCEPTION) pyxb.GlobalValidationConfig._setOrphanElementInContent(pyxb.GlobalValidationConfig.RAISE_EXCEPTION) +jdd = CreateFromDocument(open('edg32.xml').read()) +print (jdd.toDOM().toprettyxml()) -jdd = CreateFromDocument(open('toto.xml').read()) -#print (jdd.toDOM().toprettyxml()) -print ('voici la valeur de xenon_feedback', jdd.step_Essai[0].xenon_feedback, '\n') +techno=jdd.step_Essai[3] +techno.assembly_list +techno.rodbank_list +techno.radial_description.nb_assembly +techno.radial_description.xaxis +techno.radial_description.yaxis +techno.radial_description.assembly_map.line[:] +techno.radial_description.assembly_map.line[0] +techno.radial_description.assembly_map.line[1] +techno.radial_description.assembly_map.line[1][3] +print(techno.toDOM().toprettyxml()) +monAssembly1=T_Assembly('REF','REF') +#Sans élément racine, il faut spécifier un element_name +print(monAssembly1.toDOM(element_name='essai').toprettyxml()) +#Génère une erreur attendue : +monAssembly1=T_Assembly('REF','REFP') + +#Avec l'élément racine, plus besoin de spécifier un element_name +m.Essai(monAssembly1).toxml() +print(m.Essai(monAssembly1).toDOM().toprettyxml()) + +l1=m.T_assembly_map_line(('REF','REF','REF','REF','REF','REF','REF','REF')) +l2=m.T_assembly_map_line(('REF','REF','REF','REF','REF','REF','REF','REF')) +l3=m.T_assembly_map_line(('REF','REF','REF','REF','REF','REF','REF','REF')) +l4=m.T_assembly_map_line(('REF','REF','REF','REF','REF','REF','REF','REF')) +l5=m.T_assembly_map_line(('REF','REF','REF','REF','REF','REF','REF','REF')) +l6=m.T_assembly_map_line(('REF','REF','REF','REF','REF','REF','REF','REF')) +l7=m.T_assembly_map_line(('REF','REF','REF','REF','REF','REF','REF','REF')) +l8=m.T_assembly_map_line(('REF','REF','REF','REF','REF','REF','REF','REF')) +ma=m.T_assembly_map(l1,l2,l3,l4,l5,l6,l7) +print (ma.toDOM(element_name='Essai')) +ma.validateBinding() + +ma=m.T_assembly_map(l1,l2,l3,l4,l5,l6,l7,l8) +print (ma.toDOM(element_name='Essai')) + +ll1=m.T_rod_map_line(['#','#','#','#','#','#','#','#']) +ll2=ll1 +ll3=ll1 +ll4=ll1 +ll5=ll1 +ll6=ll1 +ll7=ll1 +ll8=ll1 +ro=m.T_rod_map(ll1,ll2,ll3,ll4,ll5,ll6,ll7,ll8) +print (ro.toDOM(element_name='essai2').toprettyxml()) + +nb=m.T_nb_assembly(6) +xa=m.T_xaxis(('RW', 'F', 'E', 'D', 'C', 'B', 'A', 'RE')) +ya=m.T_yaxis(['RS', '06', '05', '04', '03', '02', '01', 'RN']) -- 2.39.2