# -*- coding: utf-8 -*-
#
-# Copyright (C) 2008-2018 EDF R&D
+# Copyright (C) 2008-2024 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
from daCore import Persistence
from daCore import PlatformInfo
from daCore import Templates
+from daCore import Reporting
+from daCore import version
+lpi = PlatformInfo.PlatformInfo()
# ==============================================================================
class GenericCaseViewer(object):
"""
- Gestion des commandes de creation d'une vue de cas
+ Gestion des commandes de création d'une vue de cas
"""
+ __slots__ = (
+ "_name", "_objname", "_lineSerie", "_switchoff", "_content",
+ "_numobservers", "_object", "_missing",
+ )
+
def __init__(self, __name="", __objname="case", __content=None, __object=None):
"Initialisation et enregistrement de l'entete"
self._name = str(__name)
self._content = __content
self._object = __object
self._missing = """raise ValueError("This case requires beforehand to import or define the variable named <%s>. When corrected, remove this command, correct and uncomment the following one.")\n# """
+
def _append(self, *args):
- "Transformation de commande individuelle en enregistrement"
+ "Transformation d'une commande individuelle en un enregistrement"
raise NotImplementedError()
+
def _extract(self, *args):
- "Transformation d'enregistrement en commande individuelle"
+ "Transformation d'enregistrement(s) en commande(s) individuelle(s)"
raise NotImplementedError()
+
+ def _initialize(self, __multilines):
+ "Permet des pré-conversions automatiques simples de commandes ou clés"
+ __translation = {
+ "Study_name" : "StudyName", # noqa: E203
+ "Study_repertory" : "StudyRepertory", # noqa: E203
+ "MaximumNumberOfSteps" : "MaximumNumberOfIterations", # noqa: E203
+ "EnableMultiProcessing": "EnableWiseParallelism",
+ "FunctionDict" : "ScriptWithSwitch", # noqa: E203
+ "FUNCTIONDICT_FILE" : "SCRIPTWITHSWITCH_FILE", # noqa: E203
+ }
+ for k, v in __translation.items():
+ __multilines = __multilines.replace(k, v)
+ return __multilines
+
def _finalize(self, __upa=None):
"Enregistrement du final"
- if __upa is not None and len(__upa)>0:
+ __hasNotExecute = True
+ for __l in self._lineSerie:
+ if "%s.execute"%(self._objname,) in __l:
+ __hasNotExecute = False
+ if __hasNotExecute:
self._lineSerie.append("%s.execute()"%(self._objname,))
+ if __upa is not None and len(__upa) > 0:
+ __upa = __upa.replace("ADD", str(self._objname))
self._lineSerie.append(__upa)
+
def _addLine(self, line=""):
"Ajoute un enregistrement individuel"
self._lineSerie.append(line)
+
def _get_objname(self):
return self._objname
+
def dump(self, __filename=None, __upa=None):
"Restitution normalisée des commandes"
self._finalize(__upa)
__text = "\n".join(self._lineSerie)
- __text +="\n"
+ __text += "\n"
if __filename is not None:
__file = os.path.abspath(__filename)
- __fid = open(__file,"w")
+ __fid = open(__file, "w")
__fid.write(__text)
__fid.close()
return __text
+
def load(self, __filename=None, __content=None, __object=None):
"Chargement normalisé des commandes"
if __filename is not None and os.path.exists(__filename):
self._content = open(__filename, 'r').read()
+ self._content = self._initialize(self._content)
elif __content is not None and type(__content) is str:
- self._content = __content
+ self._content = self._initialize(__content)
elif __object is not None and type(__object) is dict:
self._object = copy.deepcopy(__object)
else:
- pass # use "self._content" from initialization
+ pass # use "self._content" from initialization
__commands = self._extract(self._content, self._object)
return __commands
class _TUIViewer(GenericCaseViewer):
"""
- Etablissement des commandes d'un cas ADAO TUI (Cas<->TUI)
+ Établissement des commandes d'un cas ADAO TUI (Cas<->TUI)
"""
+ __slots__ = ()
+
def __init__(self, __name="", __objname="case", __content=None, __object=None):
"Initialisation et enregistrement de l'entete"
GenericCaseViewer.__init__(self, __name, __objname, __content, __object)
self._addLine("# -*- coding: utf-8 -*-")
self._addLine("#\n# Python script using ADAO TUI\n#")
+ self._addLine("import numpy as np")
self._addLine("from numpy import array, matrix")
self._addLine("from adao import adaoBuilder")
self._addLine("%s = adaoBuilder.New('%s')"%(self._objname, self._name))
if self._content is not None:
for command in self._content:
self._append(*command)
+
def _append(self, __command=None, __keys=None, __local=None, __pre=None, __switchoff=False):
"Transformation d'une commande individuelle en un enregistrement"
if __command is not None and __keys is not None and __local is not None:
+ if "Concept" in __keys:
+ logging.debug("TUI Order processed: %s"%(__local["Concept"],))
__text = ""
if __pre is not None:
__text += "%s = "%__pre
- __text += "%s.%s( "%(self._objname,str(__command))
- if "self" in __keys: __keys.remove("self")
- if __command not in ("set","get") and "Concept" in __keys: __keys.remove("Concept")
+ __text += "%s.%s( "%(self._objname, str(__command))
+ if "self" in __keys:
+ __keys.remove("self")
+ if __command not in ("set", "get") and "Concept" in __keys:
+ __keys.remove("Concept")
for k in __keys:
+ if k not in __local: continue # noqa: E701
__v = __local[k]
- if __v is None: continue
- if k == "Checked" and not __v: continue
- if k == "Stored" and not __v: continue
- if k == "ColMajor" and not __v: continue
- if k == "AvoidRC" and __v: continue
- if k == "noDetails": continue
- if k == "InputAsMF" and not __v: continue
- if isinstance(__v,Persistence.Persistence): __v = __v.values()
- if callable(__v): __text = self._missing%__v.__name__+__text
- if isinstance(__v,dict):
+ if __v is None: continue # noqa: E701
+ if k == "Checked" and not __v: continue # noqa: E241,E271,E272,E701
+ if k == "ColMajor" and not __v: continue # noqa: E241,E271,E272,E701
+ if k == "CrossObs" and not __v: continue # noqa: E241,E271,E272,E701
+ if k == "SyncObs" and __v: continue # noqa: E241,E271,E272,E701
+ if k == "InputFunctionAsMulti" and not __v: continue # noqa: E241,E271,E272,E701
+ if k == "PerformanceProfile" and __v: continue # noqa: E241,E271,E272,E701
+ if k == "Stored" and not __v: continue # noqa: E241,E271,E272,E701
+ if k == "nextStep" and not __v: continue # noqa: E241,E271,E272,E701
+ if k == "noDetails": continue # noqa: E241,E271,E272,E701
+ if isinstance(__v, Persistence.Persistence):
+ __v = __v.values()
+ if callable(__v):
+ __text = self._missing%__v.__name__ + __text
+ if isinstance(__v, dict):
for val in __v.values():
- if callable(val): __text = self._missing%val.__name__+__text
- numpy.set_printoptions(precision=15,threshold=1000000,linewidth=1000*15)
- __text += "%s=%s, "%(k,repr(__v))
- numpy.set_printoptions(precision=8,threshold=1000,linewidth=75)
- __text.rstrip(", ")
- __text += ")"
+ if callable(val):
+ __text = self._missing%val.__name__ + __text
+ numpy.set_printoptions(precision=15, threshold=1000000, linewidth=1000 * 15)
+ __text += "%s=%s, "%(k, repr(__v))
+ numpy.set_printoptions(precision=8, threshold=1000, linewidth=75)
+ __text = __text.rstrip(", ")
+ __text += " )"
self._addLine(__text)
+
def _extract(self, __multilines="", __object=None):
- "Transformation un enregistrement en une commande individuelle"
+ "Transformation d'enregistrement(s) en commande(s) individuelle(s)"
__is_case = False
__commands = []
- __multilines = __multilines.replace("\r\n","\n")
+ __multilines = __multilines.replace("\r\n", "\n")
for line in __multilines.split("\n"):
if "adaoBuilder.New" in line and "=" in line:
self._objname = line.split("=")[0].strip()
if not __is_case:
continue
else:
- if self._objname+".set" in line:
- __commands.append( line.replace(self._objname+".","",1) )
+ if self._objname + ".set" in line:
+ __commands.append( line.replace(self._objname + ".", "", 1) )
logging.debug("TUI Extracted command: %s"%(__commands[-1],))
return __commands
class _COMViewer(GenericCaseViewer):
"""
- Etablissement des commandes d'un cas COMM (Eficas Native Format/Cas<-COM)
+ Établissement des commandes d'un cas COMM (Eficas Native Format/Cas<-COM)
"""
+ __slots__ = ("_observerIndex", "_objdata")
+
def __init__(self, __name="", __objname="case", __content=None, __object=None):
"Initialisation et enregistrement de l'entete"
GenericCaseViewer.__init__(self, __name, __objname, __content, __object)
self._observerIndex = 0
self._addLine("# -*- coding: utf-8 -*-")
self._addLine("#\n# Python script using ADAO COMM\n#")
+ self._addLine("import numpy as np")
self._addLine("from numpy import array, matrix")
self._addLine("#")
self._addLine("%s = {}"%__objname)
if self._content is not None:
for command in self._content:
self._append(*command)
+
def _extract(self, __multilines=None, __object=None):
- "Transformation un enregistrement en une commande individuelle"
+ "Transformation d'enregistrement(s) en commande(s) individuelle(s)"
+ __suppparameters = {}
if __multilines is not None:
- __multilines = __multilines.replace("ASSIMILATION_STUDY","dict")
- __multilines = __multilines.replace("CHECKING_STUDY", "dict")
- __multilines = __multilines.replace("_F(", "dict(")
- __multilines = __multilines.replace(",),);", ",),)")
+ if 'adaoBuilder' in __multilines:
+ raise ValueError("Impossible to load given content as an ADAO COMM one (Hint: it's perhaps not a COMM input, but a TUI one).")
+ if "ASSIMILATION_STUDY" in __multilines:
+ __suppparameters.update({'StudyType': "ASSIMILATION_STUDY"})
+ __multilines = __multilines.replace("ASSIMILATION_STUDY", "dict")
+ elif "OPTIMIZATION_STUDY" in __multilines:
+ __suppparameters.update({'StudyType': "ASSIMILATION_STUDY"})
+ __multilines = __multilines.replace("OPTIMIZATION_STUDY", "dict")
+ elif "REDUCTION_STUDY" in __multilines:
+ __suppparameters.update({'StudyType': "ASSIMILATION_STUDY"})
+ __multilines = __multilines.replace("REDUCTION_STUDY", "dict")
+ elif "CHECKING_STUDY" in __multilines:
+ __suppparameters.update({'StudyType': "CHECKING_STUDY"})
+ __multilines = __multilines.replace("CHECKING_STUDY", "dict")
+ else:
+ __multilines = __multilines.replace("ASSIMILATION_STUDY", "dict")
+ #
+ __multilines = __multilines.replace("_F(", "dict(")
+ __multilines = __multilines.replace(",),);", ",),)")
__fulllines = ""
for line in __multilines.split("\n"):
- if len(line) < 1: continue
+ if len(line) < 1:
+ continue
__fulllines += line + "\n"
__multilines = __fulllines
self._objname = "case"
self._objdata = None
- exec("self._objdata = "+__multilines)
+ exec("self._objdata = " + __multilines)
#
- if self._objdata is None or not(type(self._objdata) is dict) or not('AlgorithmParameters' in self._objdata):
+ if self._objdata is None or not (type(self._objdata) is dict) or not ('AlgorithmParameters' in self._objdata):
raise ValueError("Impossible to load given content as an ADAO COMM one (no dictionnary or no 'AlgorithmParameters' key found).")
# ----------------------------------------------------------------------
logging.debug("COMM Extracting commands of '%s' object..."%(self._objname,))
__commands = []
__UserPostAnalysis = ""
- for k,r in self._objdata.items():
+ for k, r in self._objdata.items():
__command = k
logging.debug("COMM Extracted command: %s:%s"%(k, r))
- if __command == "StudyName" and len(str(r))>0:
+ if __command == "StudyName" and len(str(r)) > 0:
__commands.append( "set( Concept='Name', String='%s')"%(str(r),) )
- elif __command == "StudyRepertory":
+ elif __command == "StudyRepertory":
__commands.append( "set( Concept='Directory', String='%s')"%(str(r),) )
+ elif __command == "Debug" and str(r) == "0":
+ __commands.append( "set( Concept='NoDebug' )" )
+ elif __command == "Debug" and str(r) == "1":
+ __commands.append( "set( Concept='Debug' )" )
+ elif __command == "ExecuteInContainer":
+ __suppparameters.update({'ExecuteInContainer': r})
#
elif __command == "UserPostAnalysis" and type(r) is dict:
if 'STRING' in r:
- __UserPostAnalysis = r['STRING']
+ __UserPostAnalysis = r['STRING'].replace("ADD", str(self._objname))
+ __commands.append( "set( Concept='UserPostAnalysis', String=\"\"\"%s\"\"\" )"%(__UserPostAnalysis,) )
elif 'SCRIPT_FILE' in r and os.path.exists(r['SCRIPT_FILE']):
- __UserPostAnalysis = open(r['SCRIPT_FILE'],'r').read()
- elif 'Template' in r and 'ValueTemplate' in r:
+ __UserPostAnalysis = open(r['SCRIPT_FILE'], 'r').read()
+ __commands.append( "set( Concept='UserPostAnalysis', Script='%s' )"%(r['SCRIPT_FILE'],) )
+ elif 'Template' in r and 'ValueTemplate' not in r:
# AnalysisPrinter...
+ if r['Template'] not in Templates.UserPostAnalysisTemplates:
+ raise ValueError("User post-analysis template \"%s\" does not exist."%(r['Template'],))
+ else:
+ __UserPostAnalysis = Templates.UserPostAnalysisTemplates[r['Template']]
+ __commands.append( "set( Concept='UserPostAnalysis', Template='%s' )"%(r['Template'],) )
+ elif 'Template' in r and 'ValueTemplate' in r:
+ # Le template ayant pu être modifié, donc on ne prend que le ValueTemplate...
__UserPostAnalysis = r['ValueTemplate']
+ __commands.append( "set( Concept='UserPostAnalysis', String=\"\"\"%s\"\"\" )"%(__UserPostAnalysis,) )
else:
__UserPostAnalysis = ""
- __UserPostAnalysis = __UserPostAnalysis.replace("ADD",self._objname)
#
elif __command == "AlgorithmParameters" and type(r) is dict and 'Algorithm' in r:
if 'data' in r and r['Parameters'] == 'Dict':
__from = r['data']
if 'STRING' in __from:
__parameters = ", Parameters=%s"%(repr(eval(__from['STRING'])),)
- elif 'SCRIPT_FILE' in __from and os.path.exists(__from['SCRIPT_FILE']):
+ elif 'SCRIPT_FILE' in __from: # Pas de test d'existence du fichier pour accepter un fichier relatif
__parameters = ", Script='%s'"%(__from['SCRIPT_FILE'],)
- else: # if 'Parameters' in r and r['Parameters'] == 'Defaults':
+ else: # if 'Parameters' in r and r['Parameters'] == 'Defaults':
__Dict = copy.deepcopy(r)
- __Dict.pop('Algorithm','')
- __Dict.pop('Parameters','')
- if 'SetSeed' in __Dict:__Dict['SetSeed'] = int(__Dict['SetSeed'])
+ __Dict.pop('Algorithm', '')
+ __Dict.pop('Parameters', '')
+ if 'SetSeed' in __Dict:
+ __Dict['SetSeed'] = int(__Dict['SetSeed'])
+ if 'Bounds' in __Dict and type(__Dict['Bounds']) is str:
+ __Dict['Bounds'] = eval(__Dict['Bounds'])
if 'BoxBounds' in __Dict and type(__Dict['BoxBounds']) is str:
__Dict['BoxBounds'] = eval(__Dict['BoxBounds'])
if len(__Dict) > 0:
__parameters = ', Parameters=%s'%(repr(__Dict),)
else:
__parameters = ""
- __commands.append( "set( Concept='AlgorithmParameters', Algorithm='%s'%s )"%(r['Algorithm'],__parameters) )
+ __commands.append( "set( Concept='AlgorithmParameters', Algorithm='%s'%s )"%(r['Algorithm'], __parameters) )
#
elif __command == "Observers" and type(r) is dict and 'SELECTION' in r:
if type(r['SELECTION']) is str:
if __idata['NodeType'] == 'Template' and 'Template' in __idata:
__template = __idata['Template']
if 'Info' in __idata:
- __info = ", Info='%s'"%(__idata['Info'],)
+ __info = ", Info=\"\"\"%s\"\"\""%(__idata['Info'],)
else:
__info = ""
- __commands.append( "set( Concept='Observer', Variable='%s', Template='%s'%s )"%(sk,__template,__info) )
+ __commands.append( "set( Concept='Observer', Variable='%s', Template=\"\"\"%s\"\"\"%s )"%(sk, __template, __info) )
if __idata['NodeType'] == 'String' and 'Value' in __idata:
- __value =__idata['Value']
- __commands.append( "set( Concept='Observer', Variable='%s', String='%s' )"%(sk,__value) )
+ __value = __idata['Value']
+ __commands.append( "set( Concept='Observer', Variable='%s', String=\"\"\"%s\"\"\" )"%(sk, __value) )
#
# Background, ObservationError, ObservationOperator...
elif type(r) is dict:
__argumentsList = []
if 'Stored' in r and bool(r['Stored']):
- __argumentsList.append(['Stored',True])
+ __argumentsList.append(['Stored', True])
if 'INPUT_TYPE' in r and 'data' in r:
# Vector, Matrix, ScalarSparseMatrix, DiagonalSparseMatrix, Function
__itype = r['INPUT_TYPE']
__idata = r['data']
if 'FROM' in __idata:
- # String, Script, Template, ScriptWithOneFunction, ScriptWithFunctions
+ # String, Script, DataFile, Template, ScriptWithOneFunction, ScriptWithFunctions
__ifrom = __idata['FROM']
- __idata.pop('FROM','')
+ __idata.pop('FROM', '')
if __ifrom == 'String' or __ifrom == 'Template':
- __argumentsList.append([__itype,__idata['STRING']])
+ __argumentsList.append([__itype, __idata['STRING']])
if __ifrom == 'Script':
- __argumentsList.append([__itype,True])
- __argumentsList.append(['Script',__idata['SCRIPT_FILE']])
+ __argumentsList.append([__itype, True])
+ __argumentsList.append(['Script', __idata['SCRIPT_FILE']])
+ if __ifrom == 'DataFile':
+ __argumentsList.append([__itype, True])
+ __argumentsList.append(['DataFile', __idata['DATA_FILE']])
if __ifrom == 'ScriptWithOneFunction':
- __argumentsList.append(['OneFunction',True])
- __argumentsList.append(['Script',__idata.pop('SCRIPTWITHONEFUNCTION_FILE')])
- if len(__idata)>0:
- __argumentsList.append(['Parameters',__idata])
+ __argumentsList.append(['OneFunction', True])
+ __argumentsList.append(['Script', __idata.pop('SCRIPTWITHONEFUNCTION_FILE')])
+ if len(__idata) > 0:
+ __argumentsList.append(['Parameters', __idata])
if __ifrom == 'ScriptWithFunctions':
- __argumentsList.append(['ThreeFunctions',True])
- __argumentsList.append(['Script',__idata.pop('SCRIPTWITHFUNCTIONS_FILE')])
- if len(__idata)>0:
- __argumentsList.append(['Parameters',__idata])
- __arguments = ["%s = %s"%(k,repr(v)) for k,v in __argumentsList]
+ __argumentsList.append(['ThreeFunctions', True])
+ __argumentsList.append(['Script', __idata.pop('SCRIPTWITHFUNCTIONS_FILE')])
+ if len(__idata) > 0:
+ __argumentsList.append(['Parameters', __idata])
+ __arguments = ["%s = %s"%(k, repr(v)) for k, v in __argumentsList]
__commands.append( "set( Concept='%s', %s )"%(__command, ", ".join(__arguments)))
#
+ __commands.append( "set( Concept='%s', Parameters=%s )"%('SupplementaryParameters', repr(__suppparameters)))
+ #
# ----------------------------------------------------------------------
- __commands.sort() # Pour commencer par 'AlgorithmParameters'
+ __commands.sort() # Pour commencer par 'AlgorithmParameters'
__commands.append(__UserPostAnalysis)
return __commands
class _SCDViewer(GenericCaseViewer):
"""
- Etablissement des commandes d'un cas SCD (Study Config Dictionary/Cas->SCD)
+ Établissement des commandes d'un cas SCD (Study Config Dictionary/Cas->SCD)
+
+ Remarque : le fichier généré est différent de celui obtenu par EFICAS
"""
+ __slots__ = (
+ "__DebugCommandNotSet", "__ObserverCommandNotSet",
+ "__UserPostAnalysisNotSet", "__hasAlgorithm")
+
def __init__(self, __name="", __objname="case", __content=None, __object=None):
- "Initialisation et enregistrement de l'entete"
+ "Initialisation et enregistrement de l'entête"
GenericCaseViewer.__init__(self, __name, __objname, __content, __object)
+ #
+ if __content is not None:
+ for command in __content:
+ if command[0] == "set":
+ __command = command[2]["Concept"]
+ else:
+ __command = command[0].replace("set", "", 1)
+ if __command == 'Name':
+ self._name = command[2]["String"]
+ #
+ self.__DebugCommandNotSet = True
+ self.__ObserverCommandNotSet = True
+ self.__UserPostAnalysisNotSet = True
+ #
self._addLine("# -*- coding: utf-8 -*-")
- self._addLine("#\n# Input for ADAO converter to YACS\n#")
- self._addLine("from numpy import array, matrix")
+ self._addLine("#\n# Input for ADAO converter to SCD\n#")
self._addLine("#")
self._addLine("study_config = {}")
- self._addLine("study_config['StudyType'] = 'ASSIMILATION_STUDY'")
self._addLine("study_config['Name'] = '%s'"%self._name)
- self._addLine("observers = {}")
- self._addLine("study_config['Observers'] = observers")
self._addLine("#")
self._addLine("inputvariables_config = {}")
self._addLine("inputvariables_config['Order'] =['adao_default']")
if __content is not None:
for command in __content:
self._append(*command)
+
def _append(self, __command=None, __keys=None, __local=None, __pre=None, __switchoff=False):
"Transformation d'une commande individuelle en un enregistrement"
- if __command == "set": __command = __local["Concept"]
- else: __command = __command.replace("set", "", 1)
+ if __command == "set":
+ __command = __local["Concept"]
+ else:
+ __command = __command.replace("set", "", 1)
+ logging.debug("SCD Order processed: %s"%(__command))
#
__text = None
if __command in (None, 'execute', 'executePythonScheme', 'executeYACSScheme', 'get', 'Name'):
return
+ elif __command in ['Directory',]:
+ __text = "#\nstudy_config['Repertory'] = %s"%(repr(__local['String']))
elif __command in ['Debug', 'setDebug']:
__text = "#\nstudy_config['Debug'] = '1'"
+ self.__DebugCommandNotSet = False
elif __command in ['NoDebug', 'setNoDebug']:
__text = "#\nstudy_config['Debug'] = '0'"
+ self.__DebugCommandNotSet = False
elif __command in ['Observer', 'setObserver']:
+ if self.__ObserverCommandNotSet:
+ self._addLine("observers = {}")
+ self._addLine("study_config['Observers'] = observers")
+ self.__ObserverCommandNotSet = False
__obs = __local['Variable']
self._numobservers += 1
__text = "#\n"
else:
__text += "observers['%s']['info'] = \"\"\"%s\"\"\"\n"%(__obs, __obs)
__text += "observers['%s']['number'] = %s"%(__obs, self._numobservers)
- elif __local is not None: # __keys is not None and
- numpy.set_printoptions(precision=15,threshold=1000000,linewidth=1000*15)
+ elif __command in ['UserPostAnalysis', 'setUserPostAnalysis']:
+ __text = "#\n"
+ __text += "Analysis_config = {}\n"
+ if __local['String'] is not None:
+ __text += "Analysis_config['From'] = 'String'\n"
+ __text += "Analysis_config['Data'] = \"\"\"%s\"\"\"\n"%(__local['String'],)
+ if __local['Script'] is not None:
+ __text += "Analysis_config['From'] = 'Script'\n"
+ __text += "Analysis_config['Data'] = \"\"\"%s\"\"\"\n"%(__local['Script'],)
+ if __local['Template'] is not None and __local['Template'] in Templates.UserPostAnalysisTemplates:
+ __text += "Analysis_config['From'] = 'String'\n"
+ __text += "Analysis_config['Data'] = \"\"\"%s\"\"\"\n"%(Templates.UserPostAnalysisTemplates[__local['Template']],)
+ __text += "study_config['UserPostAnalysis'] = Analysis_config"
+ self.__UserPostAnalysisNotSet = False
+ elif __local is not None: # __keys is not None and
+ numpy.set_printoptions(precision=15, threshold=1000000, linewidth=1000 * 15)
__text = "#\n"
__text += "%s_config = {}\n"%__command
- __local.pop('self','')
+ __local.pop('self', '')
__to_be_removed = []
- for __k,__v in __local.items():
- if __v is None: __to_be_removed.append(__k)
+ __vectorIsDataFile = False
+ __vectorIsScript = False
+ for __k, __v in __local.items():
+ if __v is None:
+ __to_be_removed.append(__k)
for __k in __to_be_removed:
__local.pop(__k)
- for __k,__v in __local.items():
- if __k == "Concept": continue
- if __k in ['ScalarSparseMatrix','DiagonalSparseMatrix','Matrix','OneFunction','ThreeFunctions'] and 'Script' in __local: continue
+ for __k, __v in __local.items():
+ if __k == "Concept":
+ continue
+ if __k in ['ScalarSparseMatrix', 'DiagonalSparseMatrix', 'Matrix', 'OneFunction', 'ThreeFunctions'] \
+ and 'Script' in __local \
+ and __local['Script'] is not None:
+ continue
+ if __k in ['Vector', 'VectorSerie'] \
+ and 'DataFile' in __local \
+ and __local['DataFile'] is not None:
+ continue
+ if __k == 'Parameters' and not (__command in ['AlgorithmParameters', 'SupplementaryParameters']):
+ continue
if __k == 'Algorithm':
__text += "study_config['Algorithm'] = %s\n"%(repr(__v))
+ elif __k == 'DataFile':
+ __k = 'Vector'
+ __f = 'DataFile'
+ __v = "'" + repr(__v) + "'"
+ for __lk in ['Vector', 'VectorSerie']:
+ if __lk in __local and __local[__lk]:
+ __k = __lk
+ __text += "%s_config['Type'] = '%s'\n"%(__command, __k)
+ __text += "%s_config['From'] = '%s'\n"%(__command, __f)
+ __text += "%s_config['Data'] = %s\n"%(__command, __v)
+ __text = __text.replace("''", "'")
+ __vectorIsDataFile = True
elif __k == 'Script':
__k = 'Vector'
__f = 'Script'
- __v = "'"+repr(__v)+"'"
- for __lk in ['ScalarSparseMatrix','DiagonalSparseMatrix','Matrix']:
- if __lk in __local and __local[__lk]: __k = __lk
- if __command == "AlgorithmParameters": __k = "Dict"
+ __v = "'" + repr(__v) + "'"
+ for __lk in ['ScalarSparseMatrix', 'DiagonalSparseMatrix', 'Matrix']:
+ if __lk in __local and __local[__lk]:
+ __k = __lk
+ if __command == "AlgorithmParameters":
+ __k = "Dict"
if 'OneFunction' in __local and __local['OneFunction']:
__text += "%s_ScriptWithOneFunction = {}\n"%(__command,)
__text += "%s_ScriptWithOneFunction['Function'] = ['Direct', 'Tangent', 'Adjoint']\n"%(__command,)
__text += "%s_ScriptWithOneFunction['Script'] = {}\n"%(__command,)
- __text += "%s_ScriptWithOneFunction['Script']['Direct'] = %s\n"%(__command,__v)
- __text += "%s_ScriptWithOneFunction['Script']['Tangent'] = %s\n"%(__command,__v)
- __text += "%s_ScriptWithOneFunction['Script']['Adjoint'] = %s\n"%(__command,__v)
+ __text += "%s_ScriptWithOneFunction['Script']['Direct'] = %s\n"%(__command, __v)
+ __text += "%s_ScriptWithOneFunction['Script']['Tangent'] = %s\n"%(__command, __v)
+ __text += "%s_ScriptWithOneFunction['Script']['Adjoint'] = %s\n"%(__command, __v)
__text += "%s_ScriptWithOneFunction['DifferentialIncrement'] = 1e-06\n"%(__command,)
__text += "%s_ScriptWithOneFunction['CenteredFiniteDifference'] = 0\n"%(__command,)
__k = 'Function'
__text += "%s_ScriptWithFunctions = {}\n"%(__command,)
__text += "%s_ScriptWithFunctions['Function'] = ['Direct', 'Tangent', 'Adjoint']\n"%(__command,)
__text += "%s_ScriptWithFunctions['Script'] = {}\n"%(__command,)
- __text += "%s_ScriptWithFunctions['Script']['Direct'] = %s\n"%(__command,__v)
- __text += "%s_ScriptWithFunctions['Script']['Tangent'] = %s\n"%(__command,__v)
- __text += "%s_ScriptWithFunctions['Script']['Adjoint'] = %s\n"%(__command,__v)
+ __text += "%s_ScriptWithFunctions['Script']['Direct'] = %s\n"%(__command, __v)
+ __text += "%s_ScriptWithFunctions['Script']['Tangent'] = %s\n"%(__command, __v)
+ __text += "%s_ScriptWithFunctions['Script']['Adjoint'] = %s\n"%(__command, __v)
__k = 'Function'
__f = 'ScriptWithFunctions'
__v = '%s_ScriptWithFunctions'%(__command,)
- __text += "%s_config['Type'] = '%s'\n"%(__command,__k)
- __text += "%s_config['From'] = '%s'\n"%(__command,__f)
- __text += "%s_config['Data'] = %s\n"%(__command,__v)
- __text = __text.replace("''","'")
- elif __k in ('Stored', 'Checked', 'ColMajor', 'InputAsMF'):
+ __text += "%s_config['Type'] = '%s'\n"%(__command, __k)
+ __text += "%s_config['From'] = '%s'\n"%(__command, __f)
+ __text += "%s_config['Data'] = %s\n"%(__command, __v)
+ __text = __text.replace("''", "'")
+ __vectorIsScript = True
+ elif __k in ('Stored', 'Checked', 'ColMajor', 'CrossObs', 'InputFunctionAsMulti', 'nextStep'):
if bool(__v):
- __text += "%s_config['%s'] = '%s'\n"%(__command,__k,int(bool(__v)))
- elif __k in ('AvoidRC', 'noDetails'):
+ __text += "%s_config['%s'] = '%s'\n"%(__command, __k, int(bool(__v)))
+ elif __k in ('PerformanceProfile', 'SyncObs', 'noDetails'):
if not bool(__v):
- __text += "%s_config['%s'] = '%s'\n"%(__command,__k,int(bool(__v)))
+ __text += "%s_config['%s'] = '%s'\n"%(__command, __k, int(bool(__v)))
else:
- if __k == 'Parameters': __k = "Dict"
- if isinstance(__v,Persistence.Persistence): __v = __v.values()
- if callable(__v): __text = self._missing%__v.__name__+__text
- if isinstance(__v,dict):
+ if __k == 'Vector' and __vectorIsScript:
+ continue
+ if __k == 'Vector' and __vectorIsDataFile:
+ continue
+ if __k == 'Parameters':
+ __k = "Dict"
+ if isinstance(__v, Persistence.Persistence):
+ __v = __v.values()
+ if callable(__v):
+ __text = self._missing%__v.__name__ + __text
+ if isinstance(__v, dict):
for val in __v.values():
- if callable(val): __text = self._missing%val.__name__+__text
- __text += "%s_config['Type'] = '%s'\n"%(__command,__k)
- __text += "%s_config['From'] = '%s'\n"%(__command,'String')
- __text += "%s_config['Data'] = \"\"\"%s\"\"\"\n"%(__command,repr(__v))
- __text += "study_config['%s'] = %s_config"%(__command,__command)
- numpy.set_printoptions(precision=8,threshold=1000,linewidth=75)
+ if callable(val):
+ __text = self._missing%val.__name__ + __text
+ __text += "%s_config['Type'] = '%s'\n"%(__command, __k)
+ __text += "%s_config['From'] = '%s'\n"%(__command, 'String')
+ __text += "%s_config['Data'] = \"\"\"%s\"\"\"\n"%(__command, repr(__v))
+ __text += "study_config['%s'] = %s_config"%(__command, __command)
+ numpy.set_printoptions(precision=8, threshold=1000, linewidth=75)
if __switchoff:
self._switchoff = True
- if __text is not None: self._addLine(__text)
+ if __text is not None:
+ self._addLine(__text)
if not __switchoff:
self._switchoff = False
+
def _finalize(self, *__args):
self.__loadVariablesByScript()
- self._addLine("#")
- self._addLine("Analysis_config = {}")
- self._addLine("Analysis_config['From'] = 'String'")
- self._addLine("Analysis_config['Data'] = \"\"\"import numpy")
- self._addLine("xa=numpy.ravel(ADD.get('Analysis')[-1])")
- self._addLine("print('Analysis:',xa)\"\"\"")
- self._addLine("study_config['UserPostAnalysis'] = Analysis_config")
+ if self.__DebugCommandNotSet:
+ self._addLine("#\nstudy_config['Debug'] = '0'")
+ if self.__UserPostAnalysisNotSet:
+ self._addLine("#")
+ self._addLine("Analysis_config = {}")
+ self._addLine("Analysis_config['From'] = 'String'")
+ self._addLine("Analysis_config['Data'] = \"\"\"import numpy")
+ self._addLine("xa=ADD.get('Analysis')[-1]")
+ self._addLine("print('Analysis:',xa)\"\"\"")
+ self._addLine("study_config['UserPostAnalysis'] = Analysis_config")
+
def __loadVariablesByScript(self):
- __ExecVariables = {} # Necessaire pour recuperer la variable
+ __ExecVariables = {} # Necessaire pour recuperer la variable
exec("\n".join(self._lineSerie), __ExecVariables)
study_config = __ExecVariables['study_config']
# Pour Python 3 : self.__hasAlgorithm = bool(study_config['Algorithm'])
__text += "AlgorithmParameters_config['From'] = 'String'\n"
__text += "AlgorithmParameters_config['Data'] = '{}'\n"
self._addLine(__text)
+ if 'SupplementaryParameters' in study_config and \
+ isinstance(study_config['SupplementaryParameters'], dict) and \
+ "From" in study_config['SupplementaryParameters'] and \
+ study_config['SupplementaryParameters']["From"] == 'String' and \
+ "Data" in study_config['SupplementaryParameters']:
+ __dict = eval(study_config['SupplementaryParameters']["Data"])
+ if 'ExecuteInContainer' in __dict:
+ self._addLine("#\nstudy_config['ExecuteInContainer'] = '%s'"%__dict['ExecuteInContainer'])
+ else:
+ self._addLine("#\nstudy_config['ExecuteInContainer'] = 'No'")
+ if 'StudyType' in __dict:
+ self._addLine("#\nstudy_config['StudyType'] = '%s'"%__dict['StudyType'])
+ if 'StudyType' in __dict and __dict['StudyType'] != "ASSIMILATION_STUDY":
+ self.__UserPostAnalysisNotSet = False
del study_config
class _YACSViewer(GenericCaseViewer):
"""
Etablissement des commandes d'un cas YACS (Cas->SCD->YACS)
"""
+ __slots__ = ("__internalSCD", "_append")
+
def __init__(self, __name="", __objname="case", __content=None, __object=None):
"Initialisation et enregistrement de l'entete"
GenericCaseViewer.__init__(self, __name, __objname, __content, __object)
self.__internalSCD = _SCDViewer(__name, __objname, __content, __object)
self._append = self.__internalSCD._append
+
def dump(self, __filename=None, __upa=None):
"Restitution normalisée des commandes"
# -----
if os.path.isfile(__file) or os.path.islink(__file):
os.remove(__file)
# -----
- if not PlatformInfo.has_salome or \
- not PlatformInfo.has_adao:
+ if not lpi.has_salome or not lpi.has_adao:
raise ImportError(
- "Unable to get SALOME or ADAO environnement variables for YACS conversion.\n"+\
- "Please load the right environnement before trying to use it.")
+ "Unable to get SALOME (%s) or ADAO (%s) environnement for YACS conversion.\n"%(lpi.has_salome, lpi.has_adao) + \
+ "Please load the right SALOME environnement before trying to use it.")
else:
from daYacsSchemaCreator.run import create_schema_from_content
# -----
__msg += "See errors details in your launching terminal log.\n"
raise ValueError(__msg)
# -----
- __fid = open(__file,"r")
+ __fid = open(__file, "r")
__text = __fid.read()
__fid.close()
return __text
+# ==============================================================================
+class _ReportViewer(GenericCaseViewer):
+ """
+ Partie commune de restitution simple
+ """
+ __slots__ = ("_r")
+
+ def __init__(self, __name="", __objname="case", __content=None, __object=None):
+ "Initialisation et enregistrement de l'entete"
+ GenericCaseViewer.__init__(self, __name, __objname, __content, __object)
+ self._r = Reporting.ReportStorage()
+ self._r.clear()
+ if self._name == "":
+ self._r.append("ADAO Study report", "title")
+ else:
+ self._r.append(str(self._name), "title")
+ self._r.append("Summary build with %s version %s"%(version.name, version.version))
+ if self._content is not None:
+ for command in self._content:
+ self._append(*command)
+
+ def _append(self, __command=None, __keys=None, __local=None, __pre=None, __switchoff=False):
+ "Transformation d'une commande individuelle en un enregistrement"
+ if __command is not None and __keys is not None and __local is not None:
+ if __command in ("set", "get") and "Concept" in __keys:
+ __command = __local["Concept"]
+ __text = "<i>%s</i> command has been set"%str(__command.replace("set", ""))
+ __ktext = ""
+ for k in __keys:
+ if k not in __local: continue # noqa: E701
+ __v = __local[k]
+ if __v is None: continue # noqa: E701
+ if k == "Checked" and not __v: continue # noqa: E241,E271,E272,E701
+ if k == "ColMajor" and not __v: continue # noqa: E241,E271,E272,E701
+ if k == "CrossObs" and not __v: continue # noqa: E241,E271,E272,E701
+ if k == "SyncObs" and __v: continue # noqa: E241,E271,E272,E701
+ if k == "InputFunctionAsMulti" and not __v: continue # noqa: E241,E271,E272,E701
+ if k == "PerformanceProfile" and __v: continue # noqa: E241,E271,E272,E701
+ if k == "Stored" and not __v: continue # noqa: E241,E271,E272,E701
+ if k == "nextStep" and not __v: continue # noqa: E241,E271,E272,E701
+ if k == "noDetails": continue # noqa: E241,E271,E272,E701
+ if k == "Concept": continue # noqa: E241,E271,E272,E701
+ if k == "self": continue # noqa: E241,E271,E272,E701
+ if isinstance(__v, Persistence.Persistence):
+ __v = __v.values()
+ numpy.set_printoptions(precision=15, threshold=1000000, linewidth=1000 * 15)
+ __ktext += "\n %s = %s,"%(k, repr(__v))
+ numpy.set_printoptions(precision=8, threshold=1000, linewidth=75)
+ if len(__ktext) > 0:
+ __text += " with values:" + __ktext
+ __text = __text.rstrip(", ")
+ self._r.append(__text, "uli")
+
+ def _finalize(self, __upa=None):
+ "Enregistrement du final"
+ raise NotImplementedError()
+
+class _SimpleReportInRstViewer(_ReportViewer):
+ """
+ Restitution simple en RST
+ """
+ __slots__ = ()
+
+ def _finalize(self, __upa=None):
+ self._lineSerie.append(Reporting.ReportViewInRst(self._r).__str__())
+
+class _SimpleReportInHtmlViewer(_ReportViewer):
+ """
+ Restitution simple en HTML
+ """
+ __slots__ = ()
+
+ def _finalize(self, __upa=None):
+ self._lineSerie.append(Reporting.ReportViewInHtml(self._r).__str__())
+
+class _SimpleReportInPlainTxtViewer(_ReportViewer):
+ """
+ Restitution simple en TXT
+ """
+ __slots__ = ()
+
+ def _finalize(self, __upa=None):
+ self._lineSerie.append(Reporting.ReportViewInPlainTxt(self._r).__str__())
+
# ==============================================================================
class ImportFromScript(object):
"""
Obtention d'une variable nommee depuis un fichier script importé
"""
__slots__ = ("__basename", "__filenspace", "__filestring")
+
def __init__(self, __filename=None):
"Verifie l'existence et importe le script"
if __filename is None:
raise ValueError("The name of the file, containing the variable to be read, has to be specified.")
- if not os.path.isfile(__filename):
- raise ValueError("The file containing the variable to be imported doesn't seem to exist. Please check the file. The given file name is:\n \"%s\""%str(__filename))
+ __fullname, __i = __filename, 0
+ while not os.path.exists(__fullname) and __i < len(sys.path):
+ # Correction avec le sys.path si nécessaire
+ __fullname = os.path.join(sys.path[__i], __filename)
+ __i += 1
+ if not os.path.exists(__filename):
+ if os.path.exists(__fullname):
+ __filename = __fullname
+ else:
+ raise ValueError(
+ "The file containing the variable to be imported doesn't seem to" + \
+ " exist. Please check the file. The given file name is:\n \"%s\""%str(__filename))
if os.path.dirname(__filename) != '':
sys.path.insert(0, os.path.dirname(__filename))
__basename = os.path.basename(__filename).rstrip(".py")
else:
__basename = __filename.rstrip(".py")
+ PlatformInfo.checkFileNameImportability( __basename + ".py" )
self.__basename = __basename
- self.__filenspace = __import__(__basename, globals(), locals(), [])
- self.__filestring = open(__filename,'r').read()
+ try:
+ self.__filenspace = __import__(__basename, globals(), locals(), [])
+ except NameError:
+ self.__filenspace = ""
+ with open(__filename, 'r') as fid:
+ self.__filestring = fid.read()
+
def getvalue(self, __varname=None, __synonym=None ):
"Renvoie la variable demandee par son nom ou son synonyme"
if __varname is None:
raise ValueError("The name of the variable to be read has to be specified. Please check the content of the file and the syntax.")
if not hasattr(self.__filenspace, __varname):
if __synonym is None:
- raise ValueError("The imported script file \"%s\" doesn't contain the mandatory variable \"%s\" to be read. Please check the content of the file and the syntax."%(str(self.__basename)+".py",__varname))
+ raise ValueError(
+ "The imported script file \"%s\""%(str(self.__basename) + ".py",) + \
+ " doesn't contain the mandatory variable \"%s\""%(__varname,) + \
+ " to be read. Please check the content of the file and the syntax.")
elif not hasattr(self.__filenspace, __synonym):
- raise ValueError("The imported script file \"%s\" doesn't contain the mandatory variable \"%s\" to be read. Please check the content of the file and the syntax."%(str(self.__basename)+".py",__synonym))
+ raise ValueError(
+ "The imported script file \"%s\""%(str(self.__basename) + ".py",) + \
+ " doesn't contain the mandatory variable \"%s\""%(__synonym,) + \
+ " to be read. Please check the content of the file and the syntax.")
else:
return getattr(self.__filenspace, __synonym)
else:
return getattr(self.__filenspace, __varname)
+
def getstring(self):
"Renvoie le script complet"
return self.__filestring
"""
Détection des caractéristiques de fichiers ou objets en entrée
"""
- __slots__ = (
- "__url", "__usr", "__root", "__end")
- def __enter__(self): return self
- def __exit__(self, exc_type, exc_val, exc_tb): return False
- #
+ __slots__ = ("__url", "__usr", "__root", "__end")
+
+ def __enter__(self):
+ return self
+
+ def __exit__(self, exc_type, exc_val, exc_tb):
+ return False
+
def __init__(self, __url, UserMime=""):
if __url is None:
raise ValueError("The name or url of the file object has to be specified.")
mimetypes.add_type('text/plain', '.txt')
mimetypes.add_type('text/csv', '.csv')
mimetypes.add_type('text/tab-separated-values', '.tsv')
- #
- # File related f
+
+ # File related tests
# ------------------
def is_local_file(self):
if os.path.isfile(os.path.realpath(self.__url)):
return True
else:
return False
+
def is_not_local_file(self):
- if not os.path.isfile(os.path.realpath(self.__url)):
- return True
- else:
- return False
+ return not self.is_local_file()
+
def raise_error_if_not_local_file(self):
- if not os.path.isfile(os.path.realpath(self.__url)):
+ if self.is_not_local_file():
raise ValueError("The name or the url of the file object doesn't seem to exist. The given name is:\n \"%s\""%str(self.__url))
else:
return False
- #
+
# Directory related tests
# -----------------------
def is_local_dir(self):
return True
else:
return False
+
def is_not_local_dir(self):
- if not os.path.isdir(self.__url):
- return True
- else:
- return False
+ return not self.is_local_dir()
+
def raise_error_if_not_local_dir(self):
- if not os.path.isdir(self.__url):
+ if self.is_not_local_dir():
raise ValueError("The name or the url of the directory object doesn't seem to exist. The given name is:\n \"%s\""%str(self.__url))
else:
return False
- #
+
# Mime related functions
# ------------------------
def get_standard_mime(self):
(__mtype, __encoding) = mimetypes.guess_type(self.__url, strict=False)
return __mtype
+
def get_user_mime(self):
- __fake = "fake."+self.__usr.lower()
+ __fake = "fake." + self.__usr.lower()
(__mtype, __encoding) = mimetypes.guess_type(__fake, strict=False)
return __mtype
+
def get_comprehensive_mime(self):
if self.get_standard_mime() is not None:
return self.get_standard_mime()
return self.get_user_mime()
else:
return None
- #
+
# Name related functions
# ----------------------
def get_user_name(self):
return self.__url
+
def get_absolute_name(self):
return os.path.abspath(os.path.realpath(self.__url))
+
def get_extension(self):
return self.__end
-# ==============================================================================
class ImportFromFile(object):
"""
Obtention de variables disrétisées en 1D, définies par une ou des variables
"_filename", "_colnames", "_colindex", "_varsline", "_format",
"_delimiter", "_skiprows", "__url", "__filestring", "__header",
"__allowvoid", "__binaryformats", "__supportedformats")
- def __enter__(self): return self
- def __exit__(self, exc_type, exc_val, exc_tb): return False
- #
+
+ def __enter__(self):
+ return self
+
+ def __exit__(self, exc_type, exc_val, exc_tb):
+ return False
+
def __init__(self, Filename=None, ColNames=None, ColIndex=None, Format="Guess", AllowVoidNameList=True):
"""
Verifie l'existence et les informations de définition du fichier. Les
- AllowVoidNameList : permet, si la liste de noms est vide, de
prendre par défaut toutes les colonnes
"""
- self.__binaryformats =(
+ self.__binaryformats = (
"application/numpy.npy",
"application/numpy.npz",
"application/dymola.sdf",
- )
+ )
self.__url = ImportDetector( Filename, Format)
self.__url.raise_error_if_not_local_file()
self._filename = self.__url.get_absolute_name()
+ PlatformInfo.checkFileNameConformity( self._filename )
#
self._format = self.__url.get_comprehensive_mime()
#
if self._format == "text/csv" or Format.upper() == "CSV":
self._format = "text/csv"
self.__filestring = "".join(self.__header)
- if self.__filestring.count(",") > 1:
+ if self.__filestring.count(",") > 0:
self._delimiter = ","
- elif self.__filestring.count(";") > 1:
+ elif self.__filestring.count(";") > 0:
self._delimiter = ";"
+ else:
+ self._delimiter = None
elif self._format == "text/tab-separated-values" or Format.upper() == "TSV":
self._format = "text/tab-separated-values"
self._delimiter = "\t"
else:
self._delimiter = None
#
- if ColNames is not None: self._colnames = tuple(ColNames)
- else: self._colnames = None
+ if ColNames is not None:
+ self._colnames = tuple(ColNames)
+ else:
+ self._colnames = None
#
- if ColIndex is not None: self._colindex = str(ColIndex)
- else: self._colindex = None
+ if ColIndex is not None:
+ self._colindex = str(ColIndex)
+ else:
+ self._colindex = None
#
self.__allowvoid = bool(AllowVoidNameList)
def __getentete(self, __nblines = 3):
"Lit l'entête du fichier pour trouver la définition des variables"
+ # La première ligne non vide non commentée est toujours considérée
+ # porter les labels de colonne, donc pas des valeurs
__header, __varsline, __skiprows = [], "", 1
if self._format in self.__binaryformats:
pass
else:
- with open(self._filename,'r') as fid:
+ with open(self._filename, 'r') as fid:
__line = fid.readline().strip()
while "#" in __line or len(__line) < 1:
__header.append(__line)
__skiprows += 1
__line = fid.readline().strip()
- __varsline = __line # Première ligne non commentée non vide
- for i in range(max(0,__nblines)):
+ __varsline = __line # Ligne de labels par convention
+ for i in range(max(0, __nblines)):
__header.append(fid.readline())
return (__header, __varsline, __skiprows)
__colnames = tuple(__colnames)
for v in __colnames:
for i, n in enumerate(__varserie):
- if v == n: __usecols.append(i)
+ if v == n:
+ __usecols.append(i)
__usecols = tuple(__usecols)
if len(__usecols) == 0:
if self.__allowvoid:
__useindex = None
__colindex = str(__colindex)
for i, n in enumerate(__varserie):
- if __colindex == n: __useindex = i
+ if __colindex == n:
+ __useindex = i
else:
__useindex = None
#
self.__supportedformats["text/tab-separated-values"] = True
self.__supportedformats["application/numpy.npy"] = True
self.__supportedformats["application/numpy.npz"] = True
- self.__supportedformats["application/dymola.sdf"] = PlatformInfo.has_sdf
+ self.__supportedformats["application/dymola.sdf"] = lpi.has_sdf
return self.__supportedformats
def getvalue(self, ColNames=None, ColIndex=None ):
- "Renvoie la ou les variables demandees par la liste de leurs noms"
+ "Renvoie la ou les variables demandées par la liste de leurs noms"
# Uniquement si mise à jour
- if ColNames is not None: self._colnames = tuple(ColNames)
- if ColIndex is not None: self._colindex = str(ColIndex)
+ if ColNames is not None:
+ self._colnames = tuple(ColNames)
+ if ColIndex is not None:
+ self._colindex = str(ColIndex)
#
__index = None
if self._format == "application/numpy.npy":
with numpy.load(self._filename) as __allcolumns:
if self._colnames is None:
self._colnames = __allcolumns.files
+ for nom in self._colnames: # Si une variable demandée n'existe pas
+ if nom not in __allcolumns.files:
+ self._colnames = tuple( __allcolumns.files )
for nom in self._colnames:
if nom in __allcolumns.files:
if __columns is not None:
# Attention : toutes les variables doivent avoir la même taille
- __columns = numpy.vstack((__columns, numpy.reshape(__allcolumns[nom], (1,-1))))
+ __columns = numpy.vstack((__columns, numpy.reshape(__allcolumns[nom], (1, -1))))
else:
# Première colonne
- __columns = numpy.reshape(__allcolumns[nom], (1,-1))
+ __columns = numpy.reshape(__allcolumns[nom], (1, -1))
if self._colindex is not None and self._colindex in __allcolumns.files:
- __index = numpy.array(numpy.reshape(__allcolumns[self._colindex], (1,-1)), dtype=bytes)
+ __index = numpy.array(numpy.reshape(__allcolumns[self._colindex], (1, -1)), dtype=bytes)
elif self._format == "text/plain":
__usecols, __useindex = self.__getindices(self._colnames, self._colindex)
__columns = numpy.loadtxt(self._filename, usecols = __usecols, skiprows=self._skiprows)
if __useindex is not None:
__index = numpy.loadtxt(self._filename, dtype = bytes, usecols = (__useindex,), skiprows=self._skiprows)
+ if __usecols is None: # Si une variable demandée n'existe pas
+ self._colnames = None
#
- elif self._format == "application/dymola.sdf" and PlatformInfo.has_sdf:
+ elif self._format == "application/dymola.sdf" and lpi.has_sdf:
import sdf
__content = sdf.load(self._filename)
__columns = None
if nom in __content:
if __columns is not None:
# Attention : toutes les variables doivent avoir la même taille
- __columns = numpy.vstack((__columns, numpy.reshape(__content[nom].data, (1,-1))))
+ __columns = numpy.vstack((__columns, numpy.reshape(__content[nom].data, (1, -1))))
else:
# Première colonne
- __columns = numpy.reshape(__content[nom].data, (1,-1))
+ __columns = numpy.reshape(__content[nom].data, (1, -1))
if self._colindex is not None and self._colindex in __content:
__index = __content[self._colindex].data
#
__columns = numpy.loadtxt(self._filename, usecols = __usecols, delimiter = self._delimiter, skiprows=self._skiprows)
if __useindex is not None:
__index = numpy.loadtxt(self._filename, dtype = bytes, usecols = (__useindex,), delimiter = self._delimiter, skiprows=self._skiprows)
+ if __usecols is None: # Si une variable demandée n'existe pas
+ self._colnames = None
#
elif self._format == "text/tab-separated-values":
__usecols, __useindex = self.__getindices(self._colnames, self._colindex, self._delimiter)
__columns = numpy.loadtxt(self._filename, usecols = __usecols, delimiter = self._delimiter, skiprows=self._skiprows)
if __useindex is not None:
__index = numpy.loadtxt(self._filename, dtype = bytes, usecols = (__useindex,), delimiter = self._delimiter, skiprows=self._skiprows)
+ if __usecols is None: # Si une variable demandée n'existe pas
+ self._colnames = None
else:
raise ValueError("Unkown file format \"%s\" or no reader available"%self._format)
- if __columns is None: __columns = ()
- #
+ if __columns is None:
+ __columns = ()
+
def toString(value):
try:
return value.decode()
if self._format in self.__binaryformats:
return ""
else:
- with open(self._filename,'r') as fid:
+ with open(self._filename, 'r') as fid:
return fid.read()
def getformat(self):
return self._format
-# ==============================================================================
class ImportScalarLinesFromFile(ImportFromFile):
"""
Importation de fichier contenant des variables scalaires nommées. Le
Seule la méthode "getvalue" est changée.
"""
- def __enter__(self): return self
- def __exit__(self, exc_type, exc_val, exc_tb): return False
- #
+ __slots__ = ()
+
+ def __enter__(self):
+ return self
+
+ def __exit__(self, exc_type, exc_val, exc_tb):
+ return False
+
def __init__(self, Filename=None, ColNames=None, ColIndex=None, Format="Guess"):
ImportFromFile.__init__(self, Filename, ColNames, ColIndex, Format)
if self._format not in ["text/plain", "text/csv", "text/tab-separated-values"]:
raise ValueError("Unkown file format \"%s\""%self._format)
- #
+
def getvalue(self, VarNames = None, HeaderNames=()):
- "Renvoie la ou les variables demandees par la liste de leurs noms"
- if VarNames is not None: __varnames = tuple(VarNames)
- else: __varnames = None
+ "Renvoie la ou les variables demandées par la liste de leurs noms"
+ if VarNames is not None:
+ __varnames = tuple(VarNames)
+ else:
+ __varnames = None
#
if "Name" in self._varsline and "Value" in self._varsline and "Minimum" in self._varsline and "Maximum" in self._varsline:
__ftype = "NamValMinMax"
- __dtypes = {'names' : ('Name', 'Value', 'Minimum', 'Maximum'),
+ __dtypes = {'names' : ('Name', 'Value', 'Minimum', 'Maximum'), # noqa: E203
'formats': ('S128', 'g', 'g', 'g')}
__usecols = (0, 1, 2, 3)
+
def __replaceNoneN( s ):
- if s.strip() == b'None': return numpy.NINF
- else: return s
+ if s.strip() in (b'None', 'None'):
+ return -numpy.inf
+ else:
+ return s
+
def __replaceNoneP( s ):
- if s.strip() == b'None': return numpy.PINF
- else: return s
+ if s.strip() in (b'None', 'None'):
+ return numpy.inf
+ else:
+ return s
__converters = {2: __replaceNoneN, 3: __replaceNoneP}
elif "Name" in self._varsline and "Value" in self._varsline and ("Minimum" not in self._varsline or "Maximum" not in self._varsline):
__ftype = "NamVal"
- __dtypes = {'names' : ('Name', 'Value'),
+ __dtypes = {'names' : ('Name', 'Value'), # noqa: E203
'formats': ('S128', 'g')}
__converters = None
__usecols = (0, 1)
- elif len(HeaderNames)>0 and numpy.all([kw in self._varsline for kw in HeaderNames]):
+ elif len(HeaderNames) > 0 and numpy.all([kw in self._varsline for kw in HeaderNames]):
__ftype = "NamLotOfVals"
- __dtypes = {'names' : HeaderNames,
- 'formats': tuple(['S128',]+['g']*(len(HeaderNames)-1))}
+ __dtypes = {'names' : HeaderNames, # noqa: E203
+ 'formats': tuple(['S128',] + ['g'] * (len(HeaderNames) - 1))}
__usecols = tuple(range(len(HeaderNames)))
+
def __replaceNone( s ):
- if s.strip() == b'None': return numpy.NAN
- else: return s
+ if s.strip() in (b'None', 'None'):
+ return numpy.nan
+ else:
+ return s
__converters = dict()
- for i in range(1,len(HeaderNames)):
+ for i in range(1, len(HeaderNames)):
__converters[i] = __replaceNone
else:
- raise ValueError("Can not find names of columns for initial values. Wrong first line is:\n \"%s\""%__firstline)
+ raise ValueError("Can not find names of columns for initial values. Wrong first line is:\n \"%s\""%self._varsline)
#
if self._format == "text/plain":
- __content = numpy.loadtxt(self._filename, dtype = __dtypes, usecols = __usecols, skiprows = self._skiprows, converters = __converters)
+ __content = numpy.loadtxt(
+ self._filename,
+ dtype = __dtypes,
+ usecols = __usecols,
+ skiprows = self._skiprows,
+ converters = __converters,
+ ndmin = 1,
+ )
elif self._format in ["text/csv", "text/tab-separated-values"]:
- __content = numpy.loadtxt(self._filename, dtype = __dtypes, usecols = __usecols, skiprows = self._skiprows, converters = __converters, delimiter = self._delimiter)
+ __content = numpy.loadtxt(
+ self._filename,
+ dtype = __dtypes,
+ usecols = __usecols,
+ skiprows = self._skiprows,
+ converters = __converters,
+ delimiter = self._delimiter,
+ ndmin = 1,
+ )
else:
raise ValueError("Unkown file format \"%s\""%self._format)
#
for sub in __content:
if len(__usecols) == 4:
na, va, mi, ma = sub
- if numpy.isneginf(mi): mi = None # Réattribue les variables None
- elif numpy.isnan(mi): mi = None # Réattribue les variables None
- if numpy.isposinf(ma): ma = None # Réattribue les variables None
- elif numpy.isnan(ma): ma = None # Réattribue les variables None
+ if numpy.isneginf(mi):
+ mi = None # Réattribue les variables None
+ elif numpy.isnan(mi):
+ mi = None # Réattribue les variables None
+ if numpy.isposinf(ma):
+ ma = None # Réattribue les variables None
+ elif numpy.isnan(ma):
+ ma = None # Réattribue les variables None
elif len(__usecols) == 2 and __ftype == "NamVal":
na, va = sub
mi, ma = None, None
nsub = list(sub)
na = sub[0]
for i, v in enumerate(nsub[1:]):
- if numpy.isnan(v): nsub[i+1] = None
+ if numpy.isnan(v):
+ nsub[i + 1] = None
va = nsub[1:]
mi, ma = None, None
na = na.decode()
# Ne stocke que la premiere occurence d'une variable
__names.append(na)
__thevalue.append(va)
- __bounds.append((mi,ma))
+ __bounds.append((mi, ma))
#
__names = tuple(__names)
__thevalue = numpy.array(__thevalue)
#
return (__names, __thevalue, __bounds)
+# ==============================================================================
+class EficasGUI(object):
+ """
+ Lancement autonome de l'interface EFICAS/ADAO
+ """
+ __slots__ = ("__msg", "__path_settings_ok")
+
+ def __init__(self, __addpath = None):
+ # Chemin pour l'installation (ordre important)
+ self.__msg = ""
+ self.__path_settings_ok = False
+ # ----------------
+ if "EFICAS_TOOLS_ROOT" in os.environ:
+ __EFICAS_TOOLS_ROOT = os.environ["EFICAS_TOOLS_ROOT"]
+ __path_ok = True
+ elif "EFICAS_NOUVEAU_ROOT" in os.environ:
+ __EFICAS_TOOLS_ROOT = os.environ["EFICAS_NOUVEAU_ROOT"]
+ __path_ok = True
+ else:
+ self.__msg += "\nKeyError:\n" + \
+ " the required environment variable EFICAS_TOOLS_ROOT is unknown.\n" + \
+ " You have either to be in SALOME environment, or to set this\n" + \
+ " variable in your environment to the right path \"<...>\" to\n" + \
+ " find an installed EFICAS application. For example:\n" + \
+ " EFICAS_TOOLS_ROOT=\"<...>\" command\n"
+ __path_ok = False
+ try:
+ import adao
+ __path_ok = True and __path_ok
+ except ImportError:
+ self.__msg += "\nImportError:\n" + \
+ " the required ADAO library can not be found to be imported.\n" + \
+ " You have either to be in ADAO environment, or to be in SALOME\n" + \
+ " environment, or to set manually in your Python 3 environment the\n" + \
+ " right path \"<...>\" to find an installed ADAO application. For\n" + \
+ " example:\n" + \
+ " PYTHONPATH=\"<...>:${PYTHONPATH}\" command\n"
+ __path_ok = False
+ try:
+ import PyQt5 # noqa: F401
+ __path_ok = True and __path_ok
+ except ImportError:
+ self.__msg += "\nImportError:\n" + \
+ " the required PyQt5 library can not be found to be imported.\n" + \
+ " You have either to have a raisonable up-to-date Python 3\n" + \
+ " installation (less than 5 years), or to be in SALOME environment.\n"
+ __path_ok = False
+ # ----------------
+ if not __path_ok:
+ self.__msg += "\nWarning:\n" + \
+ " It seems you have some troubles with your installation.\n" + \
+ " Be aware that some other errors may exist, that are not\n" + \
+ " explained as above, like some incomplete or obsolete\n" + \
+ " Python 3, or incomplete module installation.\n" + \
+ " \n" + \
+ " Please correct the above error(s) before launching the\n" + \
+ " standalone EFICAS/ADAO interface.\n"
+ logging.debug("Some of the ADAO/EFICAS/QT5 paths have not been found")
+ self.__path_settings_ok = False
+ else:
+ logging.debug("All the ADAO/EFICAS/QT5 paths have been found")
+ self.__path_settings_ok = True
+ # ----------------
+ if self.__path_settings_ok:
+ sys.path.insert(0, __EFICAS_TOOLS_ROOT)
+ sys.path.insert(0, os.path.join(adao.adao_py_dir, "daEficas"))
+ if __addpath is not None and os.path.exists(os.path.abspath(__addpath)):
+ sys.path.insert(0, os.path.abspath(__addpath))
+ logging.debug("All the paths have been correctly set up")
+ else:
+ print(self.__msg)
+ logging.debug("Errors in path settings have been found")
+
+ def gui(self):
+ if self.__path_settings_ok:
+ logging.debug("Launching standalone EFICAS/ADAO interface...")
+ from daEficas import prefs
+ from InterfaceQT4 import eficas_go
+ eficas_go.lanceEficas(code=prefs.code)
+ else:
+ logging.debug("Can not launch standalone EFICAS/ADAO interface for path errors.")
+
# ==============================================================================
if __name__ == "__main__":
- print('\n AUTODIAGNOSTIC \n')
+ print("\n AUTODIAGNOSTIC\n")