class variable ( ASSD ) : pass
class sd_charge ( ASSD ) : pass
class sd_generateur ( ASSD ) : pass
-class sd_busbar ( sd_generateur,sd_charge ) : pass
+class sd_ligne ( ASSD ) : pass
+class sd_transfo ( ASSD ) : pass
+#class sd_busbar ( sd_generateur,sd_charge ) : pass
import types
class Tuple:
#CONTEXT.debug = 1
JdC = JDC_CATA ( code = 'PSEN',
execmodul = None,
- regles = ( AU_MOINS_UN ( 'PARAMETRES_PSSE' ),
+ regles = ( AU_MOINS_UN ( 'PSSE_PARAMETERS' ),
AU_MOINS_UN ( 'DIRECTORY' ),
AU_MOINS_UN ( 'DISTRIBUTION' ),
AU_MOINS_UN ( 'SIMULATION' ),
- AU_PLUS_UN ( 'PARAMETRES_PSSE' ),
+ AU_PLUS_UN ( 'PSSE_PARAMETERS' ),
AU_PLUS_UN ( 'DIRECTORY' ),
AU_PLUS_UN ( 'SIMULATION' ),
AU_PLUS_UN ( 'CORRELATION' ),
+ AU_PLUS_UN ( 'N_1_GENERATORS' ),
+ AU_PLUS_UN ( 'N_1_LINES' ),
+ AU_PLUS_UN ( 'N_1_LOADS' ),
+ AU_PLUS_UN ( 'N_1_TRANSFORMERS' ),
+
),
) # Fin JDC_CATA
fr = "Charge",
ang = "Load",
- ID = SIMP ( statut = 'o', typ = "TXM", fr = "num bus", ang = "num bus",),
+ ID = SIMP ( statut = 'o', typ = "TXM", fr = "nom charge", ang = "load name",),
)
-MONBUSBAR = OPER ( nom = "MONBUSBAR",
- sd_prod = sd_busbar,
+MALIGNE = OPER ( nom = "MALIGNE",
+ sd_prod = sd_ligne,
UIinfo = {"groupes": ("CACHE")},
op = None,
- fr = "Generateur",
- ang = "Generator",
+ fr = "Ligne",
+ ang = "Line",
+
+ ID = SIMP ( statut = 'o', typ = "TXM", fr = "nom ligne", ang = "line name",),
+)
+MONTRANSFO = OPER ( nom = "MONTRANSFO",
+ sd_prod = sd_transfo,
+ UIinfo = {"groupes": ("CACHE")},
+ op = None,
+ fr = "Transformateur",
+ ang = "Transformer",
+
+ ID = SIMP ( statut = 'o', typ = "TXM", fr = "nom transformateur", ang = "transformer name",),
+)
+
+
+
+PSSE_PARAMETERS = PROC ( nom = "PSSE_PARAMETERS",
+ op=None,
+ docu = "",
+ FUEL_COST = SIMP ( statut = "o",
+ typ=bool,
+ defaut=True,
+ ),
+ LOADSHEDDING_COST = SIMP ( statut = "o",
+ typ=bool,
+ defaut=False,
+ ),
+ MVAR_COST = SIMP ( statut = "o",
+ typ=bool,
+ defaut=False,
+ ),
+ I_MAX = SIMP ( statut = "o",
+ typ='TXM',
+ into=['RateA','RateB','RateC'],
+ defaut='RateA',
+ ),
+ LOCK_TAPS = SIMP ( statut = "o",
+ typ=bool,
+ defaut=True,
+ ),
+## P_MIN= SIMP ( statut = "o",
+## typ=bool,
+## defaut=True,
+## ),
+)
+
+SIMULATION = PROC ( nom = "SIMULATION",
+ op = None,
+ docu = "",
+ regles =(EXCLUS('NUMBER_PACKAGE','CONVERGENCE'),),
+
+ SIZE_PACKAGE = SIMP ( statut = "o",
+ typ = "I",
+ val_min=10,
+ defaut=100,
+ ),
+ NUMBER_PACKAGE = SIMP ( statut = "f",
+ typ = "I",
+ val_min=1,
+ ),
+ CONVERGENCE = SIMP ( statut = "f",
+ typ="I",
+ into=[1],
+ ),
+
+## STUDY = SIMP ( statut = "o",
+## typ = "TXM",
+## into = ( 'N-1', 'Load', 'Wind-1', 'Wind-2', 'PV' ),
+## max=5,
+## fr = "Affichage du niveau de wrapper de la bibliotheque Open TURNS",
+## ang = "Open TURNS library debug level print",
+## ),
+)
+
+
+#================================
+# Definition du modele physique
+#================================
+
+
+
+CORRELATION = PROC ( nom = 'CORRELATION',
+ op = None,
+ docu = "",
+ fr = "Correlation entre variables",
+ ang = "Variable correlation",
+
+#### Copula = SIMP ( statut = "o",
+#### typ = 'TXM',
+#### into = ( "Independent", "Normal" ),
+#### defaut = "Independent",
+#### fr = "Type de la copule",
+#### ang = "Copula kind",
+#### ),
+##
+## # Matrix = BLOC ( condition = "Copula in ( 'Normal', )",
+##
+ CorrelationMatrix = SIMP ( statut = "o",
+ typ = Matrice(nbLigs=None,
+ nbCols=None,
+ methodeCalculTaille='NbDeDistributions',
+ structure="symetrique"),
+ fr = "Matrice de correlation entre les variables d'entree",
+ ang = "Correlation matrix for input variables",
+ #val_max=1.0,
+ #val_min=-1.0
+ ),
+## #), # Fin BLOC Matrix
+##
+##
+)
+
+DIRECTORY = MACRO ( nom = 'DIRECTORY',
+ op=None,
+ fr = "Chargement des directoires et fichiers",
+ ang = "Load directories and files necessary to run PSEN",
+ sd_prod = opsPSEN.INCLUDE,
+ op_init = opsPSEN.INCLUDE_context,
+ #sd_prod=None,
+ fichier_ini = 1,
+
+ PSSE_path=SIMP(statut="o",typ='Repertoire',defaut='C:\Program Files\PTI\PSSE33\PSSBIN'),
+ sav_file=SIMP(statut="o", typ = ('Fichier', 'Network Case Files (*.sav);;All Files (*)',),),
+ results_folder=SIMP(statut="o",typ='Repertoire'),
+ #lines_file=SIMP(statut="o" ,typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),),
+ #groups_file=SIMP(statut="o", typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),),
+ #generationsystem_file=SIMP(statut="o" ,typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),),
+
+)
+
+
+
+#================================
+# Importation des fichiers csv N-1
+#================================
+
+N_1_LINES = PROC( nom="N_1_LINES",
+ op = None,
+ docu = "",
+ fr = "N-1 lignes",
+ ang = "N-1 lines",
+ Activated = SIMP ( statut='o', typ=bool, defaut=True),
+## FileName = SIMP ( statut = "o",
+## typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),
+## fr = "chemin du fichier csv des probabilites des defauts lignes",
+## ang = "csv file path with probabilities of line outages",
+## ),
+ Probability = SIMP ( statut = 'o',
+ typ = Tuple(2),
+ max = '**',
+ fr = "Probabilite d'indisponibilite de la ligne",
+ ang = "Probability that the line is not available",
+ validators=VerifTypeTuple((sd_ligne,'R')),),
+ )
+
+N_1_TRANSFORMERS = PROC( nom="N_1_TRANSFORMERS",
+ op = None,
+ docu = "",
+ fr = "N-1 transformateurs",
+ ang = "N-1 transformers",
+ Activated = SIMP ( statut='o', typ=bool, defaut=True),
+## FileName = SIMP ( statut = "o",
+## typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),
+## fr = "chemin du fichier csv des probabilites des defauts transformateur",
+## ang = "csv file path with probabilities of transformer outages",
+## ),
+ Probability = SIMP ( statut = 'o',
+ typ = Tuple(2),
+ max = '**',
+ fr = "Probabilite d'indisponibilite de la ligne",
+ ang = "Probability that the line is not available",
+ validators=VerifTypeTuple((sd_transfo,'R')),),
+ )
+N_1_GENERATORS = PROC( nom="N_1_GENERATORS",
+ op = None,
+ docu = "",
+ fr = "N-1 generateurs",
+ ang = "N-1 generators",
+ Activated = SIMP ( statut='o', typ=bool, defaut=True),
+## FileName = SIMP ( statut = "o",
+## typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),
+## fr = "chemin du fichier csv des probabilites des defauts generateurs",
+## ang = "csv file path with probabilities of generator outages",
+## ),
+ Probability = SIMP ( statut = 'o',
+ typ = Tuple(2),
+ max = '**',
+ fr = "Probabilite d'indisponibilite du generateur",
+ ang = "Probability that the generator is not available",
+ validators=VerifTypeTuple((sd_generateur,'R')),),
+ )
+N_1_LOADS = PROC( nom="N_1_LOADS",
+ op = None,
+ docu = "",
+ fr = "N-1 charges",
+ ang = "N-1 loads",
+ Activated = SIMP ( statut='o', typ=bool, defaut=True),
+## FileName = SIMP ( statut = "o",
+## typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),
+## fr = "chemin du fichier csv des probabilites des defauts charges",
+## ang = "csv file path with probabilities of load outages",
+## ),
+ Probability = SIMP ( statut = 'o',
+ typ = Tuple(2),
+ max = '**',
+ fr = "Probabilite d'indisponibilite du generateur",
+ ang = "Probability that the generator is not available",
+ validators=VerifTypeTuple((sd_charge,'R')),),
+ )
+
+
+
+
+#================================
+# Definition des LOIS
+#================================
+
+# Nota : les variables de type OPER doivent etre en majuscules !
+# Nota : les variables de type OPER doivent etre de premier niveau (pas imbriquees dans un autre type)
+DISTRIBUTION = OPER ( nom = "DISTRIBUTION",
+ sd_prod = loi,
+ op = 68,
+ fr = "Definitions des lois marginales utilisees par les variables d'entree",
+
+#====
+# Choisir generateur ou charge
+#====
+
+## TypeMachine = SIMP ( statut='o', typ='TXM',
+## into = ('charge','vent1','vent2','pv','N-1',),
+## ),
+ Activated = SIMP ( statut='o', typ=bool, defaut=True),
+ ComponentType = SIMP (statut='o', typ='TXM',
+ into = ('Generator','Load','Line','Transformer'),),
+ b_gener = BLOC (condition = "ComponentType == 'Generator'",
+
+ Type = SIMP (statut= "o", typ = "TXM",
+ into = ("Generator Power Level", "Generator Availability"),
+ fr = "Choisir si c'est le niveau de puissance ou la disponibilité du generateur qui sera tiree",
+ ang= "Choose whether the power level or the availability of the generator will be set by the law",
+ defaut = "Generator Power Level",
+ ),
+
+ Generator = SIMP(statut='o',typ=sd_generateur,max="**", homo="SansOrdreNiDoublon"),
+
+#====
+# Type de distribution
+#====
+
+ b_gener_level = BLOC (condition= "Type == 'Generator Power Level'",
+
+ Law = SIMP ( statut = "o", typ = "TXM",
+ into = ( "Exponential",
+ "Histogram",
+ "Normal",
+ #"Rayleigh",
+ "PDF_from_file",
+ "TruncatedNormal",
+ "TimeSeries_from_file",
+ "Uniform",
+ "UserDefined",
+ "Weibull",
+ ),
+ fr = "Choix du type de la loi marginale",
+ ang = "1D marginal distribution",
+ ),
+
+
+#====
+# Definition des parametres selon le type de la loi
+#====
+
+
+ EXPONENTIAL = BLOC ( condition = " Law in ( 'Exponential', ) ",
+
+ Lambda = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ val_min = 0.,
+ fr = "Parametre Lambda | Lambda > 0",
+ ang = "Lambda parameter | Lambda > 0",
+ ),
+
+ Gamma = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne inferieure du support de la loi",
+ ang = "Support lower bound",
+ ),
+
+ ), # Fin BLOC EXPONENTIAL
+
+
+ HISTOGRAM = BLOC ( condition = " Law in ( 'Histogram', ) ",
+
+ First = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne inferieure du supoport de la loi",
+ ang = "Support lower bound",
+ ),
+
+ # Il faut definir une collection de couples ( x,p )
+ Values = SIMP ( statut = 'o',
+ typ = Tuple(2),
+ max = '**',
+ fr = "Liste de couples : largeur de classe, hauteur de classe",
+ ang = "Class bandwidth, class height couple list",
+ validators=VerifTypeTuple(('R','R')),
+ ),
+
+ ), # Fin BLOC HISTOGRAM
+
+
+ NORMAL = BLOC ( condition = " Law in ( 'Normal', ) ",
+
+ Mu = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Moyenne de la loi",
+ ang = "Mean value",
+ ),
+
+ Sigma = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ val_min = 0.,
+ fr = "Ecart type de la loi",
+ ang = "Standard deviation",
+ ),
+
+ ), # Fin BLOC NORMAL
+
+
+ RAYLEIGH = BLOC ( condition = " Law in ( 'Rayleigh', ) ",
+
+ Sigma = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Parametre Sigma de la loi | Sigma > 0",
+ ang = "Sigma parameter | Sigma > 0",
+ ),
+
+ Gamma = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne inferieure du support de la loi",
+ ang = "Support lower bound",
+ ),
+ ), # Fin BLOC RAYLEIGH
+
+ PDF = BLOC ( condition = " Law in ( 'PDF_from_file', ) ",
+
+ FileName = SIMP ( statut = "o",
+ typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),
+ fr = "Nom du fichier .csv",
+ ang = ".csv file name",
+ ),
+ ),
+
+
+
+ TRUNCATEDNORMAL = BLOC ( condition = " Law in ( 'TruncatedNormal', ) ",
+
+ MuN = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Moyenne de la loi Normale non tronquée",
+ ang = "Mean value of the associated non truncated normal distribution",
+ ),
+
+ SigmaN = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ val_min = 0.,
+ fr = "Ecart-type de la loi Normale non tronquée",
+ ang = "Standard deviation of the associated non truncated normal distribution",
+ ),
+
+ A = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne inferieure de la loi | A < B",
+ ang = "Lower bound | A < B",
+ ),
+
+ B = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne superieure de la loi | A < B",
+ ang = "Upper bound | A < B",
+ ),
+
+ ), # Fin BLOC TRUNCATEDNORMAL
+
+
+ TimeSeries = BLOC ( condition = " Law in ( 'TimeSeries_from_file', ) ",
+
+ FileName = SIMP ( statut = "o",
+ typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),
+ fr = "Fichier CSV d'une serie temporelle",
+ ang = "CSV file of a time series",
+ ),
+ ),
+
+
+ UNIFORM = BLOC ( condition = " Law in ( 'Uniform', ) ",
+
+ A = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne inferieure du support de la loi | A < B",
+ ang = "Support lower bound | A < B",
+ ),
+
+ B = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne superieure du support de la loi | A < B",
+ ang = "Support upper bound | A < B",
+ ),
+
+ ), # Fin BLOC UNIFORM
+
+
+ USERDEFINED = BLOC ( condition = " Law in ( 'UserDefined', ) ",
+
+ # Il faut definir une collection de couples ( x,p )
+ Values = SIMP ( statut = 'o',
+ typ = Tuple(2),
+ max = '**',
+ fr = "Liste de couples : (valeur, prob.)",
+ ang = "List of pairs : (value, prob.)",
+ validators=VerifTypeTuple(('R','R')),
+ ),
+
+ ), # Fin BLOC USERDEFINED
+
+
+ WEIBULL = BLOC ( condition = " Law in ( 'Weibull', ) ",
+
+ Settings = SIMP ( statut = "o",
+ typ = "TXM",
+ max = 1,
+ into = ( "AlphaBeta", "MuSigma" ),
+ defaut = "AlphaBeta",
+ fr = "Parametrage de la loi weibull",
+ ang = "Weibull distribution parameter set",
+ ),
+
+ AlphaBeta_Parameters = BLOC ( condition = " Settings in ( 'AlphaBeta', ) ",
+
+ Alpha = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ val_min = 0.,
+ fr = "Parametre Alpha de la loi | Alpha > 0",
+ ang = "Alpha parameter | Alpha > 0",
+ ),
+
+ Beta = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ val_min = 0.,
+ fr = "Parametre Beta de la loi | Beta > 0",
+ ang = "Beta parameter | Beta > 0",
+ ),
+
+ ), # Fin BLOC AlphaBeta_Parameters
+
+
+ MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ",
+
+ Mu = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Moyenne de la loi",
+ ang = "Mean value",
+ ),
+
+ Sigma = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ val_min = 0.,
+ fr = "Ecart type de la loi",
+ ang = "Standard deviation",
+ ),
+
+ ), # Fin BLOC MuSigma_Parameters
+
+ Gamma = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne inferieure du support de la loi",
+ ang = "Support lower bound",
+ ),
+
+ ), # Fin BLOC WEIBULL
+
+
+ Transfer_Function = FACT(statut='f',
+
+ TF_Input = SIMP ( statut='o',
+ typ = 'TXM',
+ fr = 'Entrer une fonction de transfert à partir d''un fichier .pow (vitesse de vent - puissance eolienne)\n \
+ ou entrer une liste de tuples (valeur tiree - puissance normalisee)',
+ ang = 'Enter wind speed - turbine production transfer function as a .pow file, \n \
+ or enter a generic list of (law output value, normalized power output) tuples',
+ into = ('.pow file', 'tuples list'),
+ ),
+ b_file = BLOC(condition = "TF_Input == '.pow file'",
+ File_Name = SIMP ( statut = "o",
+ typ = ('Fichier', 'Pow files (*.pow);;All Files (*)',),
+ fr = "Nom du fichier de transfer .pow",
+ ang = ".pow file name",
+ ),
+ Wind_Speed_Measurement_Height = SIMP ( statut = 'o',
+ typ = "R",
+ max = 1,
+ fr = 'Hauteur (en metres) a laquelle les mesures de vitesse du vent ont ete prises',
+ ang = 'Height of wind speed measurements (m)',
+ sug = 10,
+ val_min = 0,
+ ),
+ Hub_Height = SIMP (statut = 'o',
+ typ = "R",
+ fr = 'hauteur de moyeu de l''eolienne',
+ ang = 'wind turbine hub height',
+ sug = 80,
+ val_min = 0,),
+ Alpha = SIMP (statut = 'o',
+ typ = "R",
+ fr = 'l''alpha pour extrapoler les mesures de vitesse du vent a la hauteur du moyeu ',
+ ang = 'alpha used to extrapolate wind speed measurements to hub height',
+ defaut = 1./7,
+ val_min = 0,
+ val_max = 1,
+ ),
+ Percent_Losses = SIMP (statut = 'o',
+ typ = "R",
+ fr = 'pourcentage de pertes entre la sortie theorique d''une turbine et la sortie de la centrale',
+ ang = 'percent losses between theoretical power output of a single turbine and the output of the farm',
+ defaut = 5,
+ val_min = 0,
+ val_max = 100,
+ ),
+ ), #fin du bloc FileName
+
+ b_tuples = BLOC(condition = "TF_Input == 'tuples list'",
+
+ TF_Values = SIMP ( statut = 'o',
+ typ = Tuple(2),
+ max = '**',
+ min = 2,
+ fr = "Liste de couples : valeur tiree, puissance normalisee sortie",
+ ang = "List of couples : value set by law, normalized power output",
+ validators=VerifTypeTuple(('R','R')),
+ ),
+ ), #fin du block Tuples List
+
+ ), #fin du FACT Transfer Function
+
+ ), #fin du bloc generator level
+
+
+ b_gener_avail = BLOC (condition= "Type == 'Generator Availability'",
+
+ Law = SIMP ( statut = "o", typ = "TXM",
+ into = ( #"Exponential",
+ #"Histogram",
+ #"Normal",
+ #"Rayleigh",
+ #"PDF_from_file",
+ #"TruncatedNormal",
+ "TimeSeries_from_file",
+ #"Uniform",
+ "UserDefined",
+ #"Weibull",
+ ),
+ fr = "Choix du type de la loi marginale",
+ ang = "1D marginal distribution",
+ defaut="UserDefined",
+ ),
+
+
+#====
+# Definition des parametres selon le type de la loi
+#====
+
+
+ TimeSeries = BLOC ( condition = " Law in ( 'TimeSeries_from_file', ) ",
+
+ FileName = SIMP ( statut = "o",
+ typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),
+ fr = "Fichier CSV d'une serie temporelle",
+ ang = "CSV file of a time series",
+ ),
+ ),
+
+
+ USERDEFINED = BLOC ( condition = " Law in ( 'UserDefined', ) ",
+
+ # Il faut definir une collection de couples ( x,p )
+ Values = SIMP ( statut = 'o',
+ typ = Tuple(2),
+ max = '**',
+ fr = "Liste de couples : (valeur, prob.)",
+ ang = "List of pairs : (value, prob.)",
+ validators=VerifTypeTuple(('R','R')),
+ defaut=((0,0.0),(1,1.0)),
+ ),
+
+ ), # Fin BLOC USERDEFINED
+
+
+ ), #fin du bloc generator avail
+
+
+ ), #fin du bloc generateur
+
+ b_charge = BLOC (condition = "ComponentType == 'Load'",
+
+
+#====
+# Type de distribution
+#====
+
+ Type = SIMP (statut= "o", typ = "TXM",
+ into = ("Load Level", "Load Availability"),
+ fr = "Choisir si c'est le niveau de charge ou la disponibilité de la charge qui sera tiree",
+ ang= "Choose whether the power level or the availability of the load will be set by the law",
+ defaut = "Load Level",
+ ),
+
+ Load = SIMP(statut='o',typ=sd_charge,max="**", homo="SansOrdreNiDoublon",),
+
+
+ b_charge_level = BLOC (condition = "Type == 'Load Level'",
+
+ Law = SIMP ( statut = "o", typ = "TXM",
+ into = ( "Exponential",
+ "Histogram",
+ "Normal",
+ #"Rayleigh",
+ "PDF_from_file",
+ "TruncatedNormal",
+ "TimeSeries_from_file",
+ "Uniform",
+ "UserDefined",
+ "Weibull",
+ ),
+ fr = "Choix du type de la loi marginale",
+ ang = "1D marginal distribution",
+ ),
+
+
+#====
+# Definition des parametres selon le type de la loi
+#====
+
+
+ EXPONENTIAL = BLOC ( condition = " Law in ( 'Exponential', ) ",
+
+ Lambda = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ val_min = 0.,
+ fr = "Parametre Lambda | Lambda > 0",
+ ang = "Lambda parameter | Lambda > 0",
+ ),
+
+ Gamma = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne inferieure du support de la loi",
+ ang = "Support lower bound",
+ ),
+
+ ), # Fin BLOC EXPONENTIAL
+
+
+ HISTOGRAM = BLOC ( condition = " Law in ( 'Histogram', ) ",
+
+ First = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne inferieure du supoport de la loi",
+ ang = "Support lower bound",
+ ),
+
+ # Il faut definir une collection de couples ( x,p )
+ Values = SIMP ( statut = 'o',
+ typ = Tuple(2),
+ max = '**',
+ fr = "Liste de couples : largeur de classe, hauteur de classe",
+ ang = "Class bandwidth, class height couple list",
+ validators=VerifTypeTuple(('R','R')),
+ ),
+
+ ), # Fin BLOC HISTOGRAM
+
+
+ NORMAL = BLOC ( condition = " Law in ( 'Normal', ) ",
+
+ Mu = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Moyenne de la loi",
+ ang = "Mean value",
+ ),
+
+ Sigma = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ val_min = 0.,
+ fr = "Ecart type de la loi",
+ ang = "Standard deviation",
+ ),
+
+ ), # Fin BLOC NORMAL
+
+
+ RAYLEIGH = BLOC ( condition = " Law in ( 'Rayleigh', ) ",
+
+ Sigma = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Parametre Sigma de la loi | Sigma > 0",
+ ang = "Sigma parameter | Sigma > 0",
+ ),
+
+ Gamma = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne inferieure du support de la loi",
+ ang = "Support lower bound",
+ ),
+ ), # Fin BLOC RAYLEIGH
+
+ PDF = BLOC ( condition = " Law in ( 'PDF_from_file', ) ",
+
+ FileName = SIMP ( statut = "o",
+ typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),
+ fr = "Nom du fichier .csv",
+ ang = ".csv file name",
+ ),
+ ),
+
+
+
+ TRUNCATEDNORMAL = BLOC ( condition = " Law in ( 'TruncatedNormal', ) ",
+
+ MuN = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Moyenne de la loi Normale non tronquée",
+ ang = "Mean value of the associated non truncated normal distribution",
+ ),
+
+ SigmaN = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ val_min = 0.,
+ fr = "Ecart-type de la loi Normale non tronquée",
+ ang = "Standard deviation of the associated non truncated normal distribution",
+ ),
+
+ A = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne inferieure de la loi | A < B",
+ ang = "Lower bound | A < B",
+ ),
+
+ B = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne superieure de la loi | A < B",
+ ang = "Upper bound | A < B",
+ ),
+
+ ), # Fin BLOC TRUNCATEDNORMAL
+
+
+ TimeSeries = BLOC ( condition = " Law in ( 'TimeSeries_from_file', ) ",
+
+ FileName = SIMP ( statut = "o",
+ typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),
+ fr = "Fichier CSV d'une serie temporelle",
+ ang = "CSV file of a time series",
+ ),
+ ),
+
+
+ UNIFORM = BLOC ( condition = " Law in ( 'Uniform', ) ",
+
+ A = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne inferieure du support de la loi | A < B",
+ ang = "Support lower bound | A < B",
+ ),
+
+ B = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne superieure du support de la loi | A < B",
+ ang = "Support upper bound | A < B",
+ ),
+
+ ), # Fin BLOC UNIFORM
+
+
+ USERDEFINED = BLOC ( condition = " Law in ( 'UserDefined', ) ",
+
+ # Il faut definir une collection de couples ( x,p )
+ Values = SIMP ( statut = 'o',
+ typ = Tuple(2),
+ max = '**',
+ fr = "Liste de couples : (valeur, probabilite)",
+ ang = "List of pairs : (value, probability)",
+ validators=VerifTypeTuple(('R','R')),
+ ),
+
+ ), # Fin BLOC USERDEFINED
+
+
+ WEIBULL = BLOC ( condition = " Law in ( 'Weibull', ) ",
+
+ Settings = SIMP ( statut = "o",
+ typ = "TXM",
+ max = 1,
+ into = ( "AlphaBeta", "MuSigma" ),
+ defaut = "AlphaBeta",
+ fr = "Parametrage de la loi weibull",
+ ang = "Weibull distribution parameter set",
+ ),
+
+ AlphaBeta_Parameters = BLOC ( condition = " Settings in ( 'AlphaBeta', ) ",
+
+ Alpha = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ val_min = 0.,
+ fr = "Parametre Alpha de la loi | Alpha > 0",
+ ang = "Alpha parameter | Alpha > 0",
+ ),
+
+ Beta = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ val_min = 0.,
+ fr = "Parametre Beta de la loi | Beta > 0",
+ ang = "Beta parameter | Beta > 0",
+ ),
+
+ ), # Fin BLOC AlphaBeta_Parameters
+
+
+ MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ",
+
+ Mu = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Moyenne de la loi",
+ ang = "Mean value",
+ ),
+
+ Sigma = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ val_min = 0.,
+ fr = "Ecart type de la loi",
+ ang = "Standard deviation",
+ ),
+
+ ), # Fin BLOC MuSigma_Parameters
+
+ Gamma = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne inferieure du support de la loi",
+ ang = "Support lower bound",
+ ),
+
+ ), # Fin BLOC WEIBULL
+
+ ), #fin du block Load Level
+
+
+ b_charge_avail = BLOC (condition = "Type == 'Load Availability'",
+
+ Law = SIMP ( statut = "o", typ = "TXM",
+ into = ( #"Exponential",
+ #"Histogram",
+ #"Normal",
+ #"Rayleigh",
+ #"PDF_from_file",
+ #"TruncatedNormal",
+ "TimeSeries_from_file",
+ #"Uniform",
+ "UserDefined",
+ #"Weibull",
+ ),
+ fr = "Choix du type de la loi marginale",
+ ang = "1D marginal distribution",
+ defaut = "UserDefined",
+ ),
+
+
+#====
+# Definition des parametres selon le type de la loi
+#====
+
+ TimeSeries = BLOC ( condition = " Law in ( 'TimeSeries_from_file', ) ",
+
+ FileName = SIMP ( statut = "o",
+ typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),
+ fr = "Fichier CSV d'une serie temporelle",
+ ang = "CSV file of a time series",
+ ),
+ ),
+
+
+
+ USERDEFINED = BLOC ( condition = " Law in ( 'UserDefined', ) ",
+
+ # Il faut definir une collection de couples ( x,p )
+ Values = SIMP ( statut = 'o',
+ typ = Tuple(2),
+ max = '**',
+ fr = "Liste de couples : (valeur, probabilite)",
+ ang = "List of pairs : (value, probability)",
+ validators=VerifTypeTuple(('R','R')),
+ defaut=((0,0.0),(1,1.0)),
+ ),
+
+ ), # Fin BLOC USERDEFINED
+
+
+ ), #fin du block Load Avail
+
+
+ ), #fin du bloc charge
+
+
+ b_ligne = BLOC (condition = "ComponentType == 'Line'",
+
+
+#====
+# Type de distribution
+#====
+
+ Type = SIMP (statut= "o", typ = "TXM",
+ into = ("Line Availability",),
+ fr = "La disponibilite de la ligne sera tiree",
+ ang= "Line availability will be set by the law",
+ defaut = "Line Availability",
+ ),
+
+ Line = SIMP(statut='o',typ=sd_ligne,max="**", homo="SansOrdreNiDoublon"),
+
+ Law = SIMP ( statut = "o", typ = "TXM",
+ into = ( #"Exponential",
+ #"Histogram",
+ #"Normal",
+ #"Rayleigh",
+ #"PDF_from_file",
+ #"TruncatedNormal",
+ "TimeSeries_from_file",
+ #"Uniform",
+ "UserDefined",
+ #"Weibull",
+ ),
+ defaut = "UserDefined",
+ fr = "Choix du type de la loi marginale",
+ ang = "1D marginal distribution",
+ ),
+
+
+#====
+# Definition des parametres selon le type de la loi
+#====
+
+
+ EXPONENTIAL = BLOC ( condition = " Law in ( 'Exponential', ) ",
+
+ Lambda = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ val_min = 0.,
+ fr = "Parametre Lambda | Lambda > 0",
+ ang = "Lambda parameter | Lambda > 0",
+ ),
+
+ Gamma = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne inferieure du support de la loi",
+ ang = "Support lower bound",
+ ),
+
+ ), # Fin BLOC EXPONENTIAL
+
+
+ HISTOGRAM = BLOC ( condition = " Law in ( 'Histogram', ) ",
+
+ First = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne inferieure du supoport de la loi",
+ ang = "Support lower bound",
+ ),
+
+ # Il faut definir une collection de couples ( x,p )
+ Values = SIMP ( statut = 'o',
+ typ = Tuple(2),
+ max = '**',
+ fr = "Liste de couples : largeur de classe, hauteur de classe",
+ ang = "Class bandwidth, class height couple list",
+ validators=VerifTypeTuple(('R','R')),
+ ),
+
+ ), # Fin BLOC HISTOGRAM
+
+
+ NORMAL = BLOC ( condition = " Law in ( 'Normal', ) ",
+
+ Mu = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Moyenne de la loi",
+ ang = "Mean value",
+ ),
+
+ Sigma = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ val_min = 0.,
+ fr = "Ecart type de la loi",
+ ang = "Standard deviation",
+ ),
- ID = SIMP ( statut = 'o', typ = "TXM", fr = "num bus", ang = "num bus",),
-)
+ ), # Fin BLOC NORMAL
+ RAYLEIGH = BLOC ( condition = " Law in ( 'Rayleigh', ) ",
-PARAMETRES_PSSE = PROC ( nom = "PARAMETRES_PSSE",
- op=None,
- docu = "",
- COUT_COMBUSTIBLE = SIMP ( statut = "o",
- typ=bool,
- defaut=True,
- ),
- COUT_DELESTAGE = SIMP ( statut = "o",
- typ=bool,
- defaut=False,
- ),
- COUT_MVAR = SIMP ( statut = "o",
- typ=bool,
- defaut=False,
+ Sigma = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Parametre Sigma de la loi | Sigma > 0",
+ ang = "Sigma parameter | Sigma > 0",
+ ),
+
+ Gamma = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne inferieure du support de la loi",
+ ang = "Support lower bound",
+ ),
+ ), # Fin BLOC RAYLEIGH
+
+ PDF = BLOC ( condition = " Law in ( 'PDF_from_file', ) ",
+
+ FileName = SIMP ( statut = "o",
+ typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),
+ fr = "Nom du fichier .csv",
+ ang = ".csv file name",
),
- IMAP = SIMP ( statut = "o",
- typ='TXM',
- into=['RateA','RateB','RateC'],
- defaut=False,
+ ),
+
+
+
+ TRUNCATEDNORMAL = BLOC ( condition = " Law in ( 'TruncatedNormal', ) ",
+
+ MuN = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Moyenne de la loi Normale non tronquée",
+ ang = "Mean value of the associated non truncated normal distribution",
+ ),
+
+ SigmaN = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ val_min = 0.,
+ fr = "Ecart-type de la loi Normale non tronquée",
+ ang = "Standard deviation of the associated non truncated normal distribution",
+ ),
+
+ A = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne inferieure de la loi | A < B",
+ ang = "Lower bound | A < B",
+ ),
+
+ B = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne superieure de la loi | A < B",
+ ang = "Upper bound | A < B",
+ ),
+
+ ), # Fin BLOC TRUNCATEDNORMAL
+
+
+ TimeSeries = BLOC ( condition = " Law in ( 'TimeSeries_from_file', ) ",
+
+ FileName = SIMP ( statut = "o",
+ typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),
+ fr = "Fichier CSV d'une serie temporelle",
+ ang = "CSV file of a time series",
),
+ ),
-)
-SIMULATION = PROC ( nom = "SIMULATION",
- op = None,
- docu = "",
- regles =(EXCLUS('NUMBER_PACKAGE','CONVERGENCE'),),
-
- SIZE_PACKAGE = SIMP ( statut = "o",
- typ = "I",
- val_min=10,
- defaut=100,
- ),
- NUMBER_PACKAGE = SIMP ( statut = "f",
- typ = "I",
- val_min=1,
- ),
- CONVERGENCE = SIMP ( statut = "f",
- typ="I",
- into=[1],
- ),
- STUDY = SIMP ( statut = "o",
- typ = "TXM",
- into = ( 'N-1', 'Load', 'Wind-1', 'Wind-2', 'PV' ),
- max=5,
- fr = "Affichage du niveau de wrapper de la bibliotheque Open TURNS",
- ang = "Open TURNS library debug level print",
- ),
-)
+ UNIFORM = BLOC ( condition = " Law in ( 'Uniform', ) ",
+
+ A = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne inferieure du support de la loi | A < B",
+ ang = "Support lower bound | A < B",
+ ),
+ B = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne superieure du support de la loi | A < B",
+ ang = "Support upper bound | A < B",
+ ),
+ ), # Fin BLOC UNIFORM
-#================================
-# Definition des LOIS
-#================================
+ USERDEFINED = BLOC ( condition = " Law in ( 'UserDefined', ) ",
-# Nota : les variables de type OPER doivent etre en majuscules !
-# Nota : les variables de type OPER doivent etre de premier niveau (pas imbriquees dans un autre type)
-DISTRIBUTION = OPER ( nom = "DISTRIBUTION",
- sd_prod = loi,
- op = 68,
- fr = "Definitions des lois marginales utilisees par les variables d'entree",
+ # Il faut definir une collection de couples ( x,p )
+ Values = SIMP ( statut = 'o',
+ typ = Tuple(2),
+ max = '**',
+ fr = "Liste de couples : (valeur, probabilite)",
+ ang = "List of pairs : (value, probability)",
+ validators=VerifTypeTuple(('R','R')),
+ defaut=((0,0.0),(1,1.0)),
+ ),
-#====
-# Choisir generateur ou charge
-#====
+ ), # Fin BLOC USERDEFINED
+
+
+ WEIBULL = BLOC ( condition = " Law in ( 'Weibull', ) ",
+
+ Settings = SIMP ( statut = "o",
+ typ = "TXM",
+ max = 1,
+ into = ( "AlphaBeta", "MuSigma" ),
+ defaut = "AlphaBeta",
+ fr = "Parametrage de la loi weibull",
+ ang = "Weibull distribution parameter set",
+ ),
+
+ AlphaBeta_Parameters = BLOC ( condition = " Settings in ( 'AlphaBeta', ) ",
+
+ Alpha = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ val_min = 0.,
+ fr = "Parametre Alpha de la loi | Alpha > 0",
+ ang = "Alpha parameter | Alpha > 0",
+ ),
+
+ Beta = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ val_min = 0.,
+ fr = "Parametre Beta de la loi | Beta > 0",
+ ang = "Beta parameter | Beta > 0",
+ ),
+
+ ), # Fin BLOC AlphaBeta_Parameters
+
+
+ MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ",
+
+ Mu = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Moyenne de la loi",
+ ang = "Mean value",
+ ),
+
+ Sigma = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ val_min = 0.,
+ fr = "Ecart type de la loi",
+ ang = "Standard deviation",
+ ),
+
+ ), # Fin BLOC MuSigma_Parameters
+
+ Gamma = SIMP ( statut = "o",
+ typ = "R",
+ max = 1,
+ fr = "Borne inferieure du support de la loi",
+ ang = "Support lower bound",
+ ),
+
+ ), # Fin BLOC WEIBULL
+
+ ), #fin du bloc ligne
+
+ b_transfo = BLOC (condition = "ComponentType == 'Transformer'",
+
- TypeMachine = SIMP ( statut='o', typ='TXM',
- into = ('charge','vent1','vent2','pv','N-1',),
- ),
- TypeComposant = SIMP (statut='o', typ='TXM',
- into = ('Generateur','Charge'),),
- b_gener = BLOC (condition = "TypeComposant == 'Generateur'",
- #Generateur = SIMP(statut='o',typ=sd_generateur),),
- Generateur = SIMP(statut='o',typ=sd_generateur,max="**", homo="SansOrdreNiDoublon"),),
- b_charge = BLOC (condition = "TypeComposant == 'Charge'",
- #charge = SIMP(statut='o',typ=sd_charge,max="**", homo="SansOrdreNiDoublon"),),
- charge = SIMP(statut='o',typ=sd_charge),),
-
#====
# Type de distribution
#====
-
- Kind = SIMP ( statut = "o", typ = "TXM",
- into = ( "NonParametrique",
- #"Beta",
- "Exponential",
+
+ Type = SIMP (statut= "o", typ = "TXM",
+ into = ("Transformer Availability",),
+ fr = "La disponibilite du transformateur sera tiree",
+ ang= "Transformer availability will be set by the law",
+ defaut = "Transformer Availability"
+ ),
+
+ Transformer = SIMP(statut='o',typ=sd_transfo,max="**", homo="SansOrdreNiDoublon"),
+
+ Law = SIMP ( statut = "o", typ = "TXM",
+ into = ( #"Beta",
+ #"Exponential",
#"Gamma",
#"Geometric",
#"Gumbel",
- "Histogram",
+ #"Histogram",
#"Laplace",
#"Logistic",
#"LogNormal",
#"MultiNomial",
#"NonCentralStudent",
- "Normal",
+ #"Normal",
#"Poisson",
#"Rayleigh",
#"Student",
- "PDF_from_file",
+ #"PDF_from_file",
#"Triangular",
- "TruncatedNormal",
- "Uniform",
+ #"TruncatedNormal",
+ "TimeSeries_from_file",
+ #"Uniform",
"UserDefined",
- "Weibull",
+ #"Weibull",
),
+ defaut="UserDefined",
fr = "Choix du type de la loi marginale",
ang = "1D marginal distribution",
),
# Definition des parametres selon le type de la loi
#====
- NONPARAM = BLOC ( condition = " Kind in ( 'NonParametrique', ) ",
-
- FileName = SIMP ( statut = "o",
- typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),
- fr = "Nom du modele physique",
- ang = "Physical model identifier",
- ),
- ),
+## NONPARAM = BLOC ( condition = " Law in ( 'NonParametrique', ) ",
+##
+## FileName = SIMP ( statut = "o",
+## typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),
+## fr = "Nom du modele physique",
+## ang = "Physical model identifier",
+## ),
+## ),
-# BETA = BLOC ( condition = " Kind in ( 'Beta', ) ",
+# BETA = BLOC ( condition = " Law in ( 'Beta', ) ",
#
# Settings = SIMP ( statut = "o",
# typ = "TXM",
- EXPONENTIAL = BLOC ( condition = " Kind in ( 'Exponential', ) ",
+ EXPONENTIAL = BLOC ( condition = " Law in ( 'Exponential', ) ",
Lambda = SIMP ( statut = "o",
typ = "R",
-# GAMMA = BLOC ( condition = " Kind in ( 'Gamma', ) ",
+# GAMMA = BLOC ( condition = " Law in ( 'Gamma', ) ",
#
# Settings = SIMP ( statut = "o",
# typ = "TXM",
#
-# GEOMETRIC = BLOC ( condition = " Kind in ( 'Geometric', ) ",
+# GEOMETRIC = BLOC ( condition = " Law in ( 'Geometric', ) ",
#
# P = SIMP ( statut = "o",
# typ = "R",
#
#
#
-# GUMBEL = BLOC ( condition = " Kind in ( 'Gumbel', ) ",
+# GUMBEL = BLOC ( condition = " Law in ( 'Gumbel', ) ",
#
# Settings = SIMP ( statut = "o",
# typ = "TXM",
- HISTOGRAM = BLOC ( condition = " Kind in ( 'Histogram', ) ",
+ HISTOGRAM = BLOC ( condition = " Law in ( 'Histogram', ) ",
First = SIMP ( statut = "o",
typ = "R",
-# LAPLACE = BLOC ( condition = " Kind in ( 'Laplace', ) ",
+# LAPLACE = BLOC ( condition = " Law in ( 'Laplace', ) ",
#
# Lambda = SIMP ( statut = "o",
# typ = "R",
#
# ), # Fin BLOC LAPLACE
#
-# LOGNORMAL = BLOC ( condition = " Kind in ( 'LogNormal', ) ",
+# LOGNORMAL = BLOC ( condition = " Law in ( 'LogNormal', ) ",
#
# Settings = SIMP ( statut = "o",
# typ = "TXM",
#
#
#
-# LOGISTIC = BLOC ( condition = " Kind in ( 'Logistic', ) ",
+# LOGISTIC = BLOC ( condition = " Law in ( 'Logistic', ) ",
#
# Alpha = SIMP ( statut = "o",
# typ = "R",
#
#
#
-# MULTINOMIAL = BLOC ( condition = " Kind in ( 'MultiNomial', ) ",
+# MULTINOMIAL = BLOC ( condition = " Law in ( 'MultiNomial', ) ",
#
# N = SIMP ( statut = "o",
# typ = "I",
# ), # Fin BLOC MULTINOMIAL
#
#
-# NONCENTRALSTUDENT = BLOC ( condition = " Kind in ( 'NonCentralStudent', ) ",
+# NONCENTRALSTUDENT = BLOC ( condition = " Law in ( 'NonCentralStudent', ) ",
#
# Nu = SIMP ( statut = "o",
# typ = "R",
# ), # Fin BLOC NONCENTRALSTUDENT
- NORMAL = BLOC ( condition = " Kind in ( 'Normal', ) ",
+ NORMAL = BLOC ( condition = " Law in ( 'Normal', ) ",
Mu = SIMP ( statut = "o",
typ = "R",
#
-# POISSON = BLOC ( condition = " Kind in ( 'Poisson', ) ",
+# POISSON = BLOC ( condition = " Law in ( 'Poisson', ) ",
#
# Lambda = SIMP ( statut = "o",
# typ = "R",
#
#
#
-# RAYLEIGH = BLOC ( condition = " Kind in ( 'Rayleigh', ) ",
+# RAYLEIGH = BLOC ( condition = " Law in ( 'Rayleigh', ) ",
#
# Sigma = SIMP ( statut = "o",
# typ = "R",
# ),
# ), # Fin BLOC RAYLEIGH
- PDF = BLOC ( condition = " Kind in ( 'PDF_from_file', ) ",
+ PDF = BLOC ( condition = " Law in ( 'PDF_from_file', ) ",
FileName = SIMP ( statut = "o",
typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),
- fr = "Nom du modele physique",
- ang = "Physical model identifier",
+ fr = "Nom du fichier .csv",
+ ang = ".csv file name",
),
),
-# STUDENT = BLOC ( condition = " Kind in ( 'Student', ) ",
+# STUDENT = BLOC ( condition = " Law in ( 'Student', ) ",
#
# Mu = SIMP ( statut = "o",
# typ = "R",
#
#
#
-# TRIANGULAR = BLOC ( condition = " Kind in ( 'Triangular', ) ",
+# TRIANGULAR = BLOC ( condition = " Law in ( 'Triangular', ) ",
#
# A = SIMP ( statut = "o",
# typ = "R",
#
#
- TRUNCATEDNORMAL = BLOC ( condition = " Kind in ( 'TruncatedNormal', ) ",
+ TRUNCATEDNORMAL = BLOC ( condition = " Law in ( 'TruncatedNormal', ) ",
MuN = SIMP ( statut = "o",
typ = "R",
), # Fin BLOC TRUNCATEDNORMAL
+ TimeSeries = BLOC ( condition = " Law in ( 'TimeSeries_from_file', ) ",
+
+ FileName = SIMP ( statut = "o",
+ typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),
+ fr = "Fichier CSV d'une serie temporelle",
+ ang = "CSV file of a time series",
+ ),
+ ),
+
- UNIFORM = BLOC ( condition = " Kind in ( 'Uniform', ) ",
+ UNIFORM = BLOC ( condition = " Law in ( 'Uniform', ) ",
A = SIMP ( statut = "o",
typ = "R",
), # Fin BLOC UNIFORM
+ USERDEFINED = BLOC ( condition = " Law in ( 'UserDefined', ) ",
- USERDEFINED = BLOC ( condition = " Kind in ( 'UserDefined', ) ",
-
- # Il faut definir une collection de couples ( x,p )
- Fichier = SIMP ( statut = 'o',
- typ =( 'Fichier', 'CSV (*.csv);;All Files (*)',),
-
- ),
-
- ), # Fin BLOC USERDEFINED
+ # Il faut definir une collection de couples ( x,p )
+ Values = SIMP ( statut = 'o',
+ typ = Tuple(2),
+ max = '**',
+ fr = "Liste de couples : (valeur, probabilite)",
+ ang = "List of pairs : (value, probability)",
+ validators=VerifTypeTuple(('R','R')),
+ defaut=((0,0.0),(1,1.0)),
+ ),
+ ), # Fin BLOC USERDEFINED
- WEIBULL = BLOC ( condition = " Kind in ( 'Weibull', ) ",
+ WEIBULL = BLOC ( condition = " Law in ( 'Weibull', ) ",
Settings = SIMP ( statut = "o",
typ = "TXM",
), # Fin BLOC WEIBULL
-)
-
-
-
-#================================
-# Definition du modele physique
-#================================
+ ), #fin du bloc transformer
+
-CORRELATION = PROC ( nom = 'CORRELATION',
- op = None,
- docu = "",
- fr = "Correlation entre variables",
- ang = "Variable correlation",
-
-#### Copula = SIMP ( statut = "o",
-#### typ = 'TXM',
-#### into = ( "Independent", "Normal" ),
-#### defaut = "Independent",
-#### fr = "Type de la copule",
-#### ang = "Copula kind",
-#### ),
-##
-## # Matrix = BLOC ( condition = "Copula in ( 'Normal', )",
-##
- CorrelationMatrix = SIMP ( statut = "o",
- typ = Matrice(nbLigs=None,
- nbCols=None,
- methodeCalculTaille='NbDeDistributions',
- structure="symetrique"),
- fr = "Matrice de correlation entre les variables d'entree",
- ang = "Correlation matrix for input variables",
- ),
-## #), # Fin BLOC Matrix
-##
-##
)
-DIRECTORY = MACRO ( nom = 'DIRECTORY',
- op=None,
- fr = "Chargement des generateurs et des charges",
- ang = "Physical model wrapper load",
- sd_prod = opsPSEN.INCLUDE,
- op_init = opsPSEN.INCLUDE_context,
- #sd_prod=None,
- fichier_ini = 1,
-
- fichier_sav=SIMP(statut="o", typ = ('Fichier', 'Wrapper Files (*.sav);;All Files (*)',),),
- dossier_resultat=SIMP(statut="o",typ='Repertoire'),
- fichier_lignes=SIMP(statut="o" ,typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),),
- fichier_groupes=SIMP(statut="o", typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),),
- fichier_parc=SIMP(statut="o" ,typ = ('Fichier', 'Wrapper Files (*.csv);;All Files (*)',),),
- chemin_psse=SIMP(statut="o",typ='Repertoire'),
-)
+Classement_Commandes_Ds_Arbre=('DIRECTORY', 'DISTRIBUTION', 'CORRELATION',)
+
+Ordre_Des_Commandes = ( 'DIRECTORY', 'PSSE_PARAMETERS', 'SIMULATION', 'DISTRIBUTION', 'CORRELATION',
+ 'N_1_GENERATORS', 'N_1_LINES', 'N_1_TRANSFORMERS', 'N_1_LOADS',)