From: cvs2git Date: Fri, 20 Nov 2009 16:59:27 +0000 (+0000) Subject: This commit was manufactured by cvs2git to create tag 'V1_17b1_Aster10'. X-Git-Tag: V1_17b1_Aster10 X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=d3340e291e6f7d1162611353fb49f9a03902016f;p=tools%2Feficas.git This commit was manufactured by cvs2git to create tag 'V1_17b1_Aster10'. Sprout from BR_dev_V1_17 2009-11-20 16:59:26 UTC Pascale Noyret '*** empty log message ***' Cherrypick from BR_dev_V1_17 2009-11-20 13:58:47 UTC Pascale Noyret '*** empty log message ***': AIDE/fichiers/INSTALL.txt AIDE/fichiers/NEWS.txt AIDE/fichiers/faqs.txt AIDE/fichiers/includes.txt AIDE/fichiers/index.html Delete: Openturns_Study/OpenTURNS_Cata_Study_V1.py Openturns_Study/OpenTURNS_Cata_Study_V2.py Openturns_Study/OpenTURNS_Cata_Study_V3.py Openturns_Study/OpenTURNS_Cata_Study_V4.py Openturns_Study/OpenTURNS_Cata_Study_V5.py Openturns_Study/OpenTURNS_Cata_Study_V6.py Openturns_Study/OpenTURNS_Cata_Study_V7.py Openturns_Study/OpenTURNS_Cata_Study_V7.py.orig Openturns_Study/OpenTURNS_Cata_Study_V8.py Openturns_Study/catalogues_openturns.ini Openturns_Study/configuration_OPENTURNS_STUDY.py Openturns_Study/opsOT.py Openturns_Study/prefs.py Openturns_Study/prefs_OPENTURNS_STUDY.py Openturns_Study/properties.py Openturns_Study/qtEficas_openturns_study.py Openturns_Study/sdistOTqt.py Openturns_Study/style.py Openturns_Study/test/MinMax_ExpPlane.comm Openturns_Study/test/MinMax_ExpPlane.py Openturns_Study/test/MinMax_RandomSampling.comm Openturns_Wrapper/OpenTURNS_Cata_Wrapper_V1.py Openturns_Wrapper/OpenTURNS_Cata_Wrapper_V2.py Openturns_Wrapper/OpenTURNS_Cata_Wrapper_V3.py Openturns_Wrapper/catalogues_openturns.ini Openturns_Wrapper/configuration.py Openturns_Wrapper/configuration_OPENTURNS_WRAPPER.py Openturns_Wrapper/prefs.py Openturns_Wrapper/prefs_OPENTURNS_WRAPPER.py Openturns_Wrapper/properties.py Openturns_Wrapper/qtEficas_openturns_wrapper.py Openturns_Wrapper/sdistOTqt.py Openturns_Wrapper/style.py --- diff --git a/AIDE/fichiers/INSTALL.txt b/AIDE/fichiers/INSTALL.txt new file mode 100644 index 00000000..eb759325 --- /dev/null +++ b/AIDE/fichiers/INSTALL.txt @@ -0,0 +1,52 @@ + + + + + Installation Standard d Eficas + + + + +

+1- Installation standard +

+ +Pour installer EFICAS a partir de la distribution : .tgz
+faire :
+
tar xzvf .tgz

+ +ce qui a pour effet de créer un répertoire de nom V1EficasV1_16a4AsterSTA9. +

+ +Pour modifier l'emplacement de la doc, le chemin d'accès à Acrobat Reader, +les catalogues, il faut modifier le fichier +
editeur.ini
+dans le répertoire Aster ou utiliser le sous-menu "Parametres Eficas" du men Options . +

+ATTENTION :
+Si Eficas est installé dans un répertoire particulier d'administration +dans lequel les utilisateurs n'ont pas le droit d'écriture,
+ il faut que l'administrateur lance Eficas pour générer +les fichiers et catalogues compilés .pyc +

+ + +2- Utilisation d'Eficas +
+
+Pour utiliser Eficas, aller dans le répertoire Aster et faire : +
python eficas_aster.py +
+
+3- Installation avec un noyau pré-installé +
+
+Aller dans le répertoire Aster du répertoire Eficas +et modifier le fichier prefs.py comme suit : +Mettre dans la variable CODE_PATH le chemin absolu vers +le répertoire contenant les deux répertoires Noyau et Validation que vous voulez +utiliser à la place de ceux fournis dans la livraison d'Eficas +
+Pour changer les catalogues, modifier le fichier editeur.ini dans le répertoire Aster + + diff --git a/AIDE/fichiers/NEWS.txt b/AIDE/fichiers/NEWS.txt new file mode 100644 index 00000000..cfe97c7c --- /dev/null +++ b/AIDE/fichiers/NEWS.txt @@ -0,0 +1,95 @@ +Version 1.17 (12/2009): +
+ Mise en synchronisation avec la version 10.0 de Code_Aster de décembre 2009. +
+ Version en QT4 +
+ La version TK est figee +

+ +Version 1.16 (6/2009): +
+ Mise en synchronisation avec la version 9.3 de Code_Aster de mai 2007. +

+ + +Version 1.13 (6/2008): +
+ Mise en synchronisation avec la version 9.2 de Code_Aster de mai 2007. +

+ +Version 1.12 (6/2007): +
+ Mise en synchronisation avec la version 9.1 de Code_Aster de mai 2007. +

+ +Version 1.11 (12/2006): +
+ Mise en synchronisation avec la version 8.4 de Code_Aster de decembre 2006. + Première version du Traducteur de V7 en V8 +

+ +Version 1.10 (6/2006): +
+ Mise en synchronisation avec la version 8.3 de Code_Aster de juin 2006. +

+ +Version 1.9 (12/2005): +
+ Mise en synchronisation avec la version 8.2 de Code_Aster de decembre 2005. +

+ +Version 1.8 (6/2005): +
+ Mise en synchronisation avec la version 8.1 de Code_Aster de mai 2005. + Les includes et poursuites peuvent etre édités. Introduction de la notation + scientifique pour les flottants. +

+ +Version 1.7 : (12/2004) +
+ Mise en synchronisation avec la version STA7 de Code_Aster (7.4). + Les formules changent et deviennent des formules au sens python. + Disparition des PARAMETRE-EVAL + Les touches raccourcis (CtrlC par exple) sont activées et paramétrables dans prefs.py. +

+ +Version 1.6 : (05/2004) +
+ Mise en synchronisation avec la version STA7 de Code_Aster (7.2.26) + Evolution de la saisie des valeurs pour definir une fonction (EO2003-241) : + - Saisie des valeurs sous forme de tuple. + - Si une valeur est selectionnée, l'insertion se fera après cette valeur + et non en fin de liste +

+ +Version 1.5 (10/2003): +
+ Mise en synchronisation avec la version STA7 de Code_Aster d'octobre 2003 (7.2) + Introduction des validateurs de mots cles simples +

+ +Version 1.4 (5/2003): +
+ Mise en synchronisation avec la version STA7 de Code_Aster de mai 2003 (7.1) + Possibilité de donner un nom de fichier en argument lors de l'ouverture d'EFICAS (EO2003-060) + Correction d'une anomalie dans la fonctionnalité de commentarisation des commandes (AO2003-041) + Ajout du bouton de documentation dans le panneau FORMULE (AO2002-447) + Selection automatique du concept quand il n'en existe qu'un (EO2002-162) +

+ +Version 1.3 (11/2002): +
+ Mise en synchronisation avec la version STA6 de Code_Aster de septembre 2002 + Ajout de la possibilité de visualiser les INCLUDE, INCLUDE_MATERIAU et POURSUITE (popup + sur click droit de la souris sur l'icone de la commande) + Possibilité d'afficher la liste des commandes par groupe (menu option->affichage commandes) + Reprise profonde du mécanisme de gestion des fichiers inclus (voir menus d'AIDE pour plus de détails) + Corrections diverses +

+ +Version 1.2 (5/2002): +
+ Reconception de la version 1.1 : décomposition en packages Python + Mise en synchronisation avec la version STA6 de Code_Aster de fevrier 2002 +

diff --git a/AIDE/fichiers/faqs.txt b/AIDE/fichiers/faqs.txt new file mode 100644 index 00000000..cb1a82d5 --- /dev/null +++ b/AIDE/fichiers/faqs.txt @@ -0,0 +1,59 @@ +
+------------------------------------------------------------------------------------------------------------- + FAQs et Limitations d'EFICAS +------------------------------------------------------------------------------------------------------------- + +
+
+ +1. Mots réservés : +
+ + Tous les mots du langage Python sont des mots réservés. + On ne peut donc pas appeler une variable ou un concept 'fin' ou 'dir' + Pour la liste complète de ces mots-clés, veuillez vous référer à la + documentation Python +
+
+ +2. Concepts réentrants : +
+ + Ne pas indiquer par un '&' devant son nom qu'un concept est utilisé comme + concept réentrant. En effet EFICAS le sait ! +

+ +3. Carte commentaire : +
+ + La carte commentaire est désormais le '#' (dièse) au lieu du '%' (pourcent) + Les commentaires sont gérés comme des objets de même niveau que les + commandes ; il n'est plus possible de placer des commentaires "dans" + une commande. Attention, lors de la traduction d'un fichier de version 5 + en 6, les commentaires "dans" les commandes seront perdus. + +

+4. Nommer le concept produit par un opérateur : +
+ + Vous ne pouvez nommer le concept produit d'un opérateur que lorsque + celui-ci aura été entièrement et correctement rempli. + +

+5. Règle de rémanence dans les mots-clés facteurs répétés : + + La règle de rémanence qui permettait pour certains mots-clés facteurs + et pour certains de leurs mots-clés simples de ne pas répeter la valeur + de ces derniers dans toutes les occurrences du mot-clé facteur n'est pas + connue d'EFICAS. + En conséquence, vous devez répéter les mots-clés simples concernés dans + toutes les occurrences des mots-clés facteurs. + +

+6. Besoin d'aide ? +
+ + La documentation d'utilisation d'EFICAS a pris un peu de retard sur le produit ... + Néanmoins, vous disposez sur la plupart des panneaux contextuels ( les panneaux à + droite de l'arbre) d'une aide en ligne que vous pouvez activer en maintenant le + bouton droit de votre souris enfoncé. diff --git a/AIDE/fichiers/includes.txt b/AIDE/fichiers/includes.txt new file mode 100644 index 00000000..747f9281 --- /dev/null +++ b/AIDE/fichiers/includes.txt @@ -0,0 +1,49 @@ +Les macros INCLUDE, INCLUDE_MATERIAU et POURSUITE ont un fonctionnement spécial.
+Les concepts produits par ces macros sont obtenus par une interpretation séparée +du fichier de commandes correspondant. Les concepts produits sont ensuite inclus +dans le contexte du jeu de commandes principal.
+La mise à jour du jeu de commandes et de ses includes et poursuites +est presque complètement automatique. Cependant dans quelques cas particuliers +le mécanisme de mise à jour peut être pris en défaut. + +

+Les principes retenus sont les suivants : +

+ +1- Un fichier invalide n'est pas du tout pris en compte meme si quelques +commandes de ce fichier sont valides +

+ +2- Il est possible de visualiser (bouton droit de la souris sur l'icone de +la macro -> menu View) le contenu de ces types de macros. Le bouton (icone +loupe) permet de visualiser le source du fichier inclus. +

+ +3- Les fichiers inclus sont mémorisés en fonction de leur UNITE +pour les INCLUDE, du nom de matériau pour les INCLUDE_MATERIAU et comme poursuite +pour une POURSUITE (il n'est pas possible d'avoir plus d'une POURSUITE par fichier). +ATTENTION : comme on s'appuie sur l'UNITE pour memoriser les fichers inclus il est +conseillé d'utiliser des numéros d'UNITE différents sinon la reactualisation sera +faite avec le meme fichier pour des INCLUDE différents. +

+ +4- Pour changer les fichiers inclus, il faut passer par l'onglet FICHIER, modifier +le nom du fichier et appuyer sur le bouton Valider. Il est possible en passant par +cet onglet de forcer la prise en compte d'un fichier include partiellement valide +ce qui n'est pas possible lors de l'import initial. Pour changer un fichier INCLUDE +contenu dans un INCLUDE ou dans une POURSUITE, il faut éditer l'INCLUDE ou la POURSUITE +englobante (voir 6.) et passer par l'onglet FICHIER. +

+ +5- Le nom d'un fichier INCLUDE_MATERIAU est construit à partir des valeurs des mots-clés +de la commande, il n'est donc jamais demandé explicitement à l'utilisateur. + +

+6- Il est possible d'editer un fichier include ou poursuite. Pour cela, il suffit d'utiliser +l'entrée "Edit" du menu contextuel de l'étape en question (bouton droit de la souris). +Le fichier include ou poursuite en cours d'édition apparaitra dans un onglet distinct. +Les modifications dans un fichier include ou poursuite sont normalement propagées au fichier +principal et aux autres includes et poursuites. Il est cependant possible que quelques cas +tordus ne soient pas correctement traités. Dans le doute, une demande de rapport de validation +peut permettre de réactualiser l'état des différents fichiers. + diff --git a/AIDE/fichiers/index.html b/AIDE/fichiers/index.html new file mode 100644 index 00000000..919b2944 --- /dev/null +++ b/AIDE/fichiers/index.html @@ -0,0 +1,19 @@ + + + + +EFICAS + + + + +

EFICAS

+
+ +

Installation +

Evolution des versions +

FAQ +

Macros INCLUDE, INCLUDE_MATERIAU et POURSUITE + + + diff --git a/Openturns_Study/OpenTURNS_Cata_Study_V1.py b/Openturns_Study/OpenTURNS_Cata_Study_V1.py deleted file mode 100644 index 2ce3bf41..00000000 --- a/Openturns_Study/OpenTURNS_Cata_Study_V1.py +++ /dev/null @@ -1,1436 +0,0 @@ -# -*- coding: utf-8 -*- - -# -------------------------------------------------- -# debut entete -# -------------------------------------------------- - -import Accas -from Accas import * - -class loi ( ASSD ) : pass -class variable ( ASSD ) : pass - - -#CONTEXT.debug = 1 -JdC = JDC_CATA ( code = 'OPENTURNS_STUDY', - execmodul = None, - regles = ( AU_MOINS_UN ( 'CRITERIA' ), ), - ) # Fin JDC_CATA - -# -------------------------------------------------- -# fin entete -# -------------------------------------------------- - - - - - - -#================================ -# 1. 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", - - -#==== -# Type de distribution -#==== - - Kind = SIMP ( statut = "o", typ = "TXM", - into = ( "Beta", - "Exponential", - "Gamma", - "Geometric", - "Gumbel", - "Histogram", - "Logistic", - "LogNormal", - "MultiNomial", - "Normal", - "TruncatedNormal", - "Poisson", - "Student", - "Triangular", - "Uniform", - "UserDefined", - "Weibull", - ), - fr = "Choix du type de la loi marginale", - ang = "1D marginal distribution", - ), - -#==== -# Definition des parametres selon le type de la loi -#==== - - BETA = BLOC ( condition = " Kind in ( 'Beta', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "RT", "MuSigma" ), - defaut = "RT", - fr = "Parametrage de la loi beta", - ang = "Beta distribution parameter set", - ), - - RT_Parameters = BLOC ( condition = " Settings in ( 'RT', ) ", - - R = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre R de la loi", - ang = "R parameter", - ), - - # T > R - T = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre T de la loi | T > R", - ang = "T parameter | T > R", - ), - - ), # Fin BLOC RT_Parameters - - - MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - - A = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre A de la loi", - ang = "A parameter", - ), - - # B > A - B = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre B de la loi | B > A", - ang = "B parameter | B > A", - ), - - ), # Fin BLOC BETA - - - - EXPONENTIAL = BLOC ( condition = " Kind 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 = "Parametre Gamma", - ang = "Gamma parameter", - ), - - ), # Fin BLOC EXPONENTIAL - - - - GAMMA = BLOC ( condition = " Kind in ( 'Gamma', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "KLambda", "MuSigma" ), - defaut = "KLambda", - fr = "Parametrage de la loi gamma", - ang = "Gamma distribution parameter set", - ), - - KLambda_Parameters = BLOC ( condition = " Settings in ( 'KLambda', ) ", - - K = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre K de la loi | K > 0", - ang = "K parameter | K > 0", - ), - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda de la loi | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - ), # Fin BLOC KLambda_Parameters - - - MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 0.0, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 1.0, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Gamma", - ang = "Gamma parameter", - ), - - - ), # Fin BLOC GAMMA - - - - GEOMETRIC = BLOC ( condition = " Kind in ( 'Geometric', ) ", - - P = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - val_max = 1., - fr = "Parametre P | 0 < P < 1", - ang = "P parameter | 0 < P < 1", - ), - - ), # Fin BLOC GEOMETRIC - - - - GUMBEL = BLOC ( condition = " Kind in ( 'Gumbel', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "AlphaBeta", "MuSigma" ), - defaut = "AlphaBeta", - fr = "Parametrage de la loi gumbel", - ang = "Gumbel 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, - fr = "Parametre Beta de la loi", - ang = "Beta parameter", - ), - - ), # Fin BLOC AlphaBeta_Parameters - - - MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - ), # Fin BLOC GUMBEL - - - - HISTOGRAM = BLOC ( condition = " Kind in ( 'Histogram', ) ", - - Sup = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne superieure de la distribution", - ang = "Upper bound", - ), - - # Il faut definir une collection de couples ( x,p ) - Values = SIMP ( statut = 'o', - typ = 'R', - max = '**', - ), - - ), # Fin BLOC HISTOGRAM - - - - LOGNORMAL = BLOC ( condition = " Kind in ( 'LogNormal', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "MuSigmaLog", "MuSigma", "MuSigmaOverMu" ), - defaut = "MuSigmaLog", - fr = "Parametrage de la loi lognormale", - ang = "Lognormal distribution parameter set", - ), - - MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi | Mu > Gamma", - ang = "Mu parameter | Mu > Gamma", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - MuSigmaOverMu_Parameters = BLOC ( condition = " Settings in ( 'MuSigmaOverMu', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi | Mu > Gamma", - ang = "Mu parameter | Mu > Gamma", - ), - - SigmaOverMu = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre SigmaOverMu de la loi | SigmaOverMu > 0", - ang = "SigmaOverMu parameter | SigmaOverMu > 0", - ), - - ), # Fin BLOC MuSigmaOverMu_Parameters - - MuSigmaLog_Parameters = BLOC ( condition = " Settings in ( 'MuSigmaLog', ) ", - - MuLog = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu log de la loi", - ang = "Mu log parameter", - ), - - SigmaLog = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma log de la loi | SigmaLog > 0", - ang = "Sigma log parameter | SigmaLog > 0", - ), - - ), # Fin BLOC MuSigmaLog_Parameters - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Gamma", - ang = "Gamma parameter", - ), - - ), # Fin BLOC LOGNORMAL - - - - LOGISTIC = BLOC ( condition = " Kind in ( 'Logistic', ) ", - - Alpha = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Alpha de la loi", - ang = "Alpha parameter", - ), - - 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 LOGISTIC - - - - MULTINOMIAL = BLOC ( condition = " Kind in ( 'MultiNomial', ) ", - - N = SIMP ( statut = "o", - typ = "I", - max = 1, - fr = "Dimension de la loi", - ang = "Distribution dimension", - ), - - # Il faut un vecteur P de taille N - Values = SIMP ( statut = 'o', - typ = 'R', - max = '**', - ), - - ), # Fin BLOC MULTINOMIAL - - - - NORMAL = BLOC ( condition = " Kind in ( 'Normal', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC NORMAL - - - - POISSON = BLOC ( condition = " Kind in ( 'Poisson', ) ", - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda de la loi | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - ), # Fin BLOC POISSON - - - - STUDENT = BLOC ( condition = " Kind in ( 'Student', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Nu = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 2., - fr = "Parametre Nu de la loi | V > = 2", - ang = "Nu parameter | V > = 2", - ), - - ), # Fin BLOC STUDENT - - - - TRIANGULAR = BLOC ( condition = " Kind in ( 'Triangular', ) ", - - A = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure de la loi | A < = M < = B", - ang = "Lower bound | A < = M < = B", - ), - - M = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Mode de la loi | A < = M < = B", - ang = "Mode | A < = M < = B", - ), - - B = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne superieure de la loi | A < = M < = B", - ang = "Upper bound | A < = M < = B", - ), - - ), # Fin BLOC TRIANGULAR - - - - TRUNCATEDNORMAL = BLOC ( condition = " Kind in ( 'TruncatedNormal', ) ", - - MuN = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - SigmaN = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre SigmaN de la loi | SigmaN > 0", - ang = "SigmaN parameter | SigmaN> 0", - ), - - 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 - - - - UNIFORM = BLOC ( condition = " Kind in ( 'Uniform', ) ", - - 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 UNIFORM - - - - USERDEFINED = BLOC ( condition = " Kind in ( 'UserDefined', ) ", - - # Il faut definir une collection de couples ( x,p ) - Values = SIMP ( statut = 'o', - typ = 'R', - max = '**', - ), - - ), # Fin BLOC USERDEFINED - - - - WEIBULL = BLOC ( condition = " Kind 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 = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Gamma", - ang = "Gamma parameter", - ), - - ), # Fin BLOC WEIBULL - -) # Fin OPER DISTRIBUTION - - - - - - -#================================ -# 3. Definition de l'etude -#================================ - -# Nota : les variables de type PROC doivent etre en majuscules ! -CRITERIA = PROC ( nom = "CRITERIA", - op = None, - docu = "", - fr = "Mise en donnee pour le fichier de configuration de OPENTURNS.", - ang = "Writes the configuration file for OPENTURNS.", - - - - Type = SIMP ( statut = "o", - typ = "TXM", - into = ( "Min/Max", "Central Uncertainty", "Threshold Exceedence" ), - fr = "Type d'Analyse", - ang = "Analysis", - ), - - - - - MinMax = BLOC ( condition = " Type in ( 'Min/Max', ) ", - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Experiment Plane", "Random Sampling" ), - fr = "Methode", - ang = "Method", - ), - # UC 3.1.1 - ExperimentPlaneSettings = BLOC ( condition = " Method in ( 'Experiment Plane', ) ", - - ExperimentPlane = SIMP ( statut = "o", - typ = "TXM", - into = ( "Axial", "Factorial", "Composite", ), - fr = "Methode", - ang = "Method", - ), - - Levels = SIMP ( statut = "o", - typ = "R", - val_min = 0.0, - max = '**', - fr = "Nombre de niveaux dans chaque direction", - ang = "Levels in each direction", - ), - - # Scaled Vector - UnitsPerDimension = SIMP ( statut = "o", - typ = "R", - max = '**', - fr = "Unite par dimension (autant que de variables declarees)", - ang = "Units per dimension (as much as declared variables)", - ), - - # Translation Vector - Center = SIMP ( statut = "o", - typ = "R", - max = '**', - fr = "Unite par dimension", - ang = "Units per dimension", - ), - - ), # Fin BLOC ExperimentPlaneSettings - - - - RandomSamplingSettings = BLOC ( condition = " Method in ( 'Random Sampling', ) ", - - PointsNumber = SIMP ( statut = "o", - typ = "I", - val_min = 1, - fr = "Nombre de points", - ang = "Points number", - ), - - ), # Fin BLOC RandomSamplingSettings - - Result = SIMP ( statut = "o", - typ = "TXM", - into = ( "Min/Max", ), - defaut = "Min/Max", - fr = "Le minimum et le maximum", - ang = "The min and max values", - ), - - - ), # Fin BLOC MinMax - - - - - CentralUncertainty = BLOC ( condition = " Type in ( 'Central Uncertainty', ) ", - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Taylor Variance Decomposition", "Random Sampling" ), - fr = "Methode", - ang = "Method", - ), - - # UC 3.2. - TaylorVarianceDecompositionSettings = BLOC ( condition = " Method in ( 'Taylor Variance Decomposition', ) ", - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - MeanFirstOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne au premier ordre", - ang = "MeanFirstOrder", - ), - - StandardDeviationFirstOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type au premier ordre", - ang = "StandardDeviationFirstOrder", - ), - - MeanSecondOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne au second ordre", - ang = "MeanSecondOrder", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "ImportanceFactor", - ), - - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - NumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - GraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC ImportanceFactorSettings - - ), # Fin FACT Result - - ), # Fin BLOC TaylorVarianceDecompositionSettings - - - - RandomSamplingSettings = BLOC ( condition = " Method in ( 'Random Sampling', ) ", - - PointsNumber = SIMP ( statut = "o", - typ = "I", - val_min = 1, - fr = "Nombre de points", - ang = "Points number", - ), - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - EmpiricalMean = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne empirique", - ang = "Empirical mean", - ), - - EmpiricalStandardDeviation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type empirique", - ang = "Empirical standard deviation", - ), - - EmpiricalQuantile = SIMP ( statut = "o", - typ = 'R', - defaut = 0.0, - max = 1, - val_min = 0.0, - val_max = 1.0, - fr = "Quantile empirique", - ang = "Empirical quantile", - ), - - AnalysedCorrelations = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Correlations analysees", - ang = "Analysed correlations", - ), - - KernelSmoothing = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Kernel smoothing de l'echantillon", - ang = "Kernel smoothing of the sample", - ), - - ), # Fin FACT Result - - ), # Fin BLOC RandomSamplingSettings - - ), # Fin BLOC CentralUncertainty - - - - - ThresholdExceedence = BLOC ( condition = " Type in ( 'Threshold Exceedence', ) ", - - Event = FACT ( statut = "o", - min = 1, - max = 1, - - Threshold = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Le seuil de defaillance", - ang = "Failure threshold", - ), - - ComparisonOperator = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "Less", "LessOrEqual", "Equal", "GreaterOrEqual", "Greater" ), - fr = "Que faut-il ne pas depasser : un maximum ou un minimum", - ang = "What is the failure threshold : maximum or minimum", - ), - ), # Fin FACT Event - - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Simulation", "Analytical" ), - fr = "Methode", - ang = "Method", - ), - - SimulationSettings = BLOC ( condition = " Method in ( 'Simulation', ) ", - - Algorithm = SIMP ( statut = "o", - typ = "TXM", - into = ( "MonteCarlo", "LHS", "ImportanceSampling" ), - fr = "Algorithme de simulation", - ang = "Simulation algorithm", - ), - - - RandomGenerator = FACT ( statut = "o", - min = 1, - max = 1, - - SeedToBeSet = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "La racine du generateur aleatoire doit-elle etre positionnee ?", - ang = "Does the random generator seed need to be set ?", - ), - - SeedSettings = BLOC ( condition = " SeedToBeSet in ( 'yes', ) ", - - RandomGeneratorSeed = SIMP ( statut = "o", - typ = "I", - max = 1, - fr = "Racine du generateur aleatoire", - ang = "Random generator seed", - ), - - ), # Fin BLOC SeedSettings - - ), # Fin FACT RandomGenerator - - - BlockSize = SIMP ( statut = "f", - typ = "I", - max = 1, - val_min = 1, - defaut = 1, - fr = "Nombre de calculs realises en bloc", - ang = "Number of computations as a block", - ), - - MaximumOuterSampling = SIMP ( statut = "o", - typ = "I", - max = 1, - val_min = 1, - fr = "Maximum d'iterations externes", - ang = "Maximum outer Sampling value", - ), - - MaximumCoefficientOfVariation = SIMP ( statut = "f", - typ = "R", - max = 1, - defaut = 0.1, - val_min = 0.0, - fr = " maximum ...", - ang = "Absolute maximum ...." - ), - - ImportanceSamplingSettings = BLOC ( condition = " Algorithm in ( 'ImportanceSampling', ) ", - - MeanVector = SIMP ( statut = "o", - typ = "R", - max = "**", - fr = "Moyenne", - ang = "Mean vector", - ), - - Correlation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'Independent', 'Linear' ), - defaut = 'Linear', - max = 1, - fr = "Le type de correlation entre les variables", - ang = "Correlation between variables", - ), - - ), # Fin BLOC ImportanceSamplingSettings - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - Probability = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Probabiblite", - ang = "Probability", - ), - - ConfidenceInterval = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type empirique", - ang = "Empirical standard deviation", - ), - - ConfidenceIntervalSettings = BLOC ( condition = " ConfidenceInterval in ( 'yes', ) ", - - Level = SIMP ( statut = "o", - typ = 'R', - defaut = 0.0, - max = 1, - val_min = 0.0, - val_max = 1.0, - fr = "Niveau de confiance", - ang = "Confidence level", - ), - - ), # Fin BLOC ConfidenceIntervalSettings - - VariationCoefficient = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Coefficient de variation", - ang = "VariationCoefficient", - ), - - IterationNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Nombre d'iterations", - ang = "Iteration number", - ), - - ConvergenceGraph = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Graphe de convergence", - ang = "Convergence graph", - ), - - ), # Fin FACT Result - - - - ), # Fin BLOC SimulationSettings - - - - AnalyticalSettings = BLOC ( condition = " Method in ( 'Analytical', ) ", - - Approximation = SIMP ( statut = "o", - typ = "TXM", - into = ( "FORM", "SORM" ), - fr = "Approximation", - ang = "Approximation", - ), - - OptimizationAlgorithm = SIMP ( statut = "o", - typ = "TXM", - into = ( "Cobyla", "AbdoRackwitz" ), - fr = "Methode d'optimisation", - ang = "Optimisation method", - ), - - - PhysicalStartingPoint = SIMP ( statut = "f", - typ = "R", - max = "**", - fr = "Point de demarrage de l'algorithme iteratif", - ang = "Initial point for iterative process", - ), - - MaximumIterationsNumber = SIMP ( statut = "f", - typ = "I", - max = 1, - val_min = 1, - fr = "Nombre maximum d iterations", - ang = "Maximum number of iterations", - ), - - regles = ( EXCLUS ( "MaximumAbsoluteError", "RelativeAbsoluteError" ), ), - - MaximumAbsoluteError = SIMP ( statut = "f", - typ = "R", - max = 1, - defaut = 1E-6, - val_min = 0.0, - fr = "Distance maximum absolue entre 2 iterations successifs", - ang = "Absolute maximum distance between 2 successive iterates", - ), - - RelativeAbsoluteError = SIMP ( statut = "f", - typ = "R", - max = 1, - defaut = 1E-6, - val_min = 0.0, - fr = "Distance maximum relative entre 2 iterations successives", - ang = "Relative maximum distance between 2 successive iterates", - ), - - MaximumConstraintError = SIMP ( statut = "f", - typ = "R", - max = 1, - val_min = 0.0, - fr = "Valeur maximum absolue de la fonction moins la valeur du niveau", - ang = "Maximum absolute value of the constraint function minus the level value", - ), - - ImportanceSampling = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Tirage d'importance au point de conception", - ang = "Importance sampling at design point", - ), - - FORM = BLOC ( condition = " Approximation in ( 'FORM', ) ", - - Probability = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Probabiblite", - ang = "Probability", - ), - - DesignPoint = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Point de conception", - ang = "Design point", - ), - - HasReliabilityIndex = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite", - ang = "Reliability index", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "ImportanceFactor", - ), - - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - NumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - GraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC ImportanceFactorSettings - - - SensitivityAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Analyse de sensibilite", - ang = "Sensitivity analysis", - ), - - SensitivityAnalysisSettings = BLOC ( condition = " SensitivityAnalysis in ( 'yes', ) ", - - HasoferReliabilityIndex = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - HasoferReliabilityIndexSettings = BLOC ( condition = " HasoferReliabilityIndex in ( 'yes', ) ", - - NumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - GraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC HasoferReliabilityIndexSettings - - ), # Fin BLOC SensitivityAnalysisSettings - - FunctionCallsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Nombre d'appels a la fonction", - ang = "Function calls number", - ), - - - ), # Fin BLOC FORM - - - SORM = BLOC ( condition = " Approximation in ( 'SORM', ) ", - - - TvedtApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Approximation de Tvedt", - ang = "Tvedt approximation", - ), - - HohenBichlerApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Approximation de HohenBichler", - ang = "HohenBichler approximation", - ), - - BreitungApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Approximation de Breitung", - ang = "Breitung approximation", - ), - - DesignPoint = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Point de conception", - ang = "Design point", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "ImportanceFactor", - ), - - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - NumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - GraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC ImportanceFactorSettings - - - SensitivityAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Analyse de sensibilite", - ang = "Sensitivity analysis", - ), - - SensitivityAnalysisSettings = BLOC ( condition = " SensitivityAnalysis in ( 'yes', ) ", - - HasoferReliabilityIndex = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - HasoferReliabilityIndexSettings = BLOC ( condition = " HasoferReliabilityIndex in ( 'yes', ) ", - - NumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - GraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC HasoferReliabilityIndexSettings - - ), # Fin BLOC SensitivityAnalysisSettings - - FunctionCallsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Nombre d'appels a la fonction", - ang = "Function calls number", - ), - - - ), # Fin BLOC SORM - - - - ), # Fin BLOC AnalyticalSettings - - - - ), # Fin BLOC ThresholdExceedence - - - -) # Fin PROC CRITERIA - - -#=============================== -# 5. Definition des parametres -#=============================== -VARI = OPER ( nom = "VARI", - sd_prod = variable, - op = None, - fr = "Definitions des lois marginales utilisees par les variables d'entree", - type=SIMP(statut='f',defaut="IN",into=("IN","OUT"), typ = "TXM",) - ) - -AAA=PROC(nom="AAA", - op=None, - fr="Essai", - ang = "Test", - - MALOI = SIMP(statut='o',typ=(loi,),), - MAVARIABLE = SIMP(statut='o',typ=(variable,),), -) ; - - - -import ops -FICXML=MACRO(nom="FICXML", - op=None, - UIinfo={"groupes":("Gestion du travail",)}, - fr="Débranchement vers un fichier de commandes secondaires", - sd_prod=ops.INCLUDE,op_init=ops.INCLUDE_context,fichier_ini=1, - FICHIER = SIMP(statut='o',typ='TXM',), -); - diff --git a/Openturns_Study/OpenTURNS_Cata_Study_V2.py b/Openturns_Study/OpenTURNS_Cata_Study_V2.py deleted file mode 100644 index 58128f14..00000000 --- a/Openturns_Study/OpenTURNS_Cata_Study_V2.py +++ /dev/null @@ -1,1486 +0,0 @@ -# -*- coding: utf-8 -*- - -# -------------------------------------------------- -# debut entete -# -------------------------------------------------- - -import Accas -from Accas import * - -class loi ( ASSD ) : pass - - -#CONTEXT.debug = 1 -JdC = JDC_CATA ( code = 'OPENTURNS_STUDY', - execmodul = None, - regles = ( AU_MOINS_UN ( 'CRITERIA' ), AU_MOINS_UN ( 'MODEL' ), ), - ) # Fin JDC_CATA - -# -------------------------------------------------- -# fin entete -# -------------------------------------------------- - -LOG = PROC ( nom = "LOG", - op = None, - docu = "", - - DebugMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de debug de la bibliotheque Open TURNS", - ang = "Open TURNS library debug level print", - ), - - WrapperMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de wrapper de la bibliotheque Open TURNS", - ang = "Open TURNS library debug level print", - ), - - UserMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de user de la bibliotheque Open TURNS", - ang = "Open TURNS library user level print", - ), - - InfoMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de info de la bibliotheque Open TURNS", - ang = "Open TURNS library info level print", - ), - - WarningMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de warning de la bibliotheque Open TURNS", - ang = "Open TURNS library warning level print", - ), - - ErrorMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de error de la bibliotheque Open TURNS", - ang = "Open TURNS library error level print", - ), - -) # Fin PROC LOG - - - - -#================================ -# 0. Definition du modele physique -#================================ - -MODEL = PROC ( nom = "MODEL", - op = None, - docu = "", - - Name = SIMP ( statut = "o", - typ = "TXM", - fr = "Nom du modele physique", - ang = "Physical model identifier", - ), - -) # Fin PROC MODEL - - - - - - -#================================ -# 1. 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", - - -#==== -# Type de distribution -#==== - - Kind = SIMP ( statut = "o", typ = "TXM", - into = ( "Beta", - "Exponential", - "Gamma", - "Geometric", - "Gumbel", - "Histogram", - "Logistic", - "LogNormal", - "MultiNomial", - "Normal", - "TruncatedNormal", - "Poisson", - "Student", - "Triangular", - "Uniform", - "UserDefined", - "Weibull", - ), - fr = "Choix du type de la loi marginale", - ang = "1D marginal distribution", - ), - -#==== -# Definition des parametres selon le type de la loi -#==== - - BETA = BLOC ( condition = " Kind in ( 'Beta', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "RT", "MuSigma" ), - defaut = "RT", - fr = "Parametrage de la loi beta", - ang = "Beta distribution parameter set", - ), - - RT_Parameters = BLOC ( condition = " Settings in ( 'RT', ) ", - - R = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre R de la loi", - ang = "R parameter", - ), - - # T > R - T = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre T de la loi | T > R", - ang = "T parameter | T > R", - ), - - ), # Fin BLOC RT_Parameters - - - MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - - A = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre A de la loi", - ang = "A parameter", - ), - - # B > A - B = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre B de la loi | B > A", - ang = "B parameter | B > A", - ), - - ), # Fin BLOC BETA - - - - EXPONENTIAL = BLOC ( condition = " Kind 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 = "Parametre Gamma", - ang = "Gamma parameter", - ), - - ), # Fin BLOC EXPONENTIAL - - - - GAMMA = BLOC ( condition = " Kind in ( 'Gamma', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "KLambda", "MuSigma" ), - defaut = "KLambda", - fr = "Parametrage de la loi gamma", - ang = "Gamma distribution parameter set", - ), - - KLambda_Parameters = BLOC ( condition = " Settings in ( 'KLambda', ) ", - - K = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre K de la loi | K > 0", - ang = "K parameter | K > 0", - ), - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda de la loi | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - ), # Fin BLOC KLambda_Parameters - - - MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 0.0, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 1.0, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Gamma", - ang = "Gamma parameter", - ), - - - ), # Fin BLOC GAMMA - - - - GEOMETRIC = BLOC ( condition = " Kind in ( 'Geometric', ) ", - - P = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - val_max = 1., - fr = "Parametre P | 0 < P < 1", - ang = "P parameter | 0 < P < 1", - ), - - ), # Fin BLOC GEOMETRIC - - - - GUMBEL = BLOC ( condition = " Kind in ( 'Gumbel', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "AlphaBeta", "MuSigma" ), - defaut = "AlphaBeta", - fr = "Parametrage de la loi gumbel", - ang = "Gumbel 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, - fr = "Parametre Beta de la loi", - ang = "Beta parameter", - ), - - ), # Fin BLOC AlphaBeta_Parameters - - - MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - ), # Fin BLOC GUMBEL - - - - HISTOGRAM = BLOC ( condition = " Kind in ( 'Histogram', ) ", - - Sup = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne superieure de la distribution", - ang = "Upper bound", - ), - - # Il faut definir une collection de couples ( x,p ) - Values = SIMP ( statut = 'o', - typ = 'R', - max = '**', - ), - - ), # Fin BLOC HISTOGRAM - - - - LOGNORMAL = BLOC ( condition = " Kind in ( 'LogNormal', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "MuSigmaLog", "MuSigma", "MuSigmaOverMu" ), - defaut = "MuSigmaLog", - fr = "Parametrage de la loi lognormale", - ang = "Lognormal distribution parameter set", - ), - - MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi | Mu > Gamma", - ang = "Mu parameter | Mu > Gamma", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - MuSigmaOverMu_Parameters = BLOC ( condition = " Settings in ( 'MuSigmaOverMu', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi | Mu > Gamma", - ang = "Mu parameter | Mu > Gamma", - ), - - SigmaOverMu = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre SigmaOverMu de la loi | SigmaOverMu > 0", - ang = "SigmaOverMu parameter | SigmaOverMu > 0", - ), - - ), # Fin BLOC MuSigmaOverMu_Parameters - - MuSigmaLog_Parameters = BLOC ( condition = " Settings in ( 'MuSigmaLog', ) ", - - MuLog = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu log de la loi", - ang = "Mu log parameter", - ), - - SigmaLog = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma log de la loi | SigmaLog > 0", - ang = "Sigma log parameter | SigmaLog > 0", - ), - - ), # Fin BLOC MuSigmaLog_Parameters - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Gamma", - ang = "Gamma parameter", - ), - - ), # Fin BLOC LOGNORMAL - - - - LOGISTIC = BLOC ( condition = " Kind in ( 'Logistic', ) ", - - Alpha = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Alpha de la loi", - ang = "Alpha parameter", - ), - - 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 LOGISTIC - - - - MULTINOMIAL = BLOC ( condition = " Kind in ( 'MultiNomial', ) ", - - N = SIMP ( statut = "o", - typ = "I", - max = 1, - fr = "Dimension de la loi", - ang = "Distribution dimension", - ), - - # Il faut un vecteur P de taille N - Values = SIMP ( statut = 'o', - typ = 'R', - max = '**', - ), - - ), # Fin BLOC MULTINOMIAL - - - - NORMAL = BLOC ( condition = " Kind in ( 'Normal', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC NORMAL - - - - POISSON = BLOC ( condition = " Kind in ( 'Poisson', ) ", - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda de la loi | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - ), # Fin BLOC POISSON - - - - STUDENT = BLOC ( condition = " Kind in ( 'Student', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Nu = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 2., - fr = "Parametre Nu de la loi | V > = 2", - ang = "Nu parameter | V > = 2", - ), - - ), # Fin BLOC STUDENT - - - - TRIANGULAR = BLOC ( condition = " Kind in ( 'Triangular', ) ", - - A = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure de la loi | A < = M < = B", - ang = "Lower bound | A < = M < = B", - ), - - M = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Mode de la loi | A < = M < = B", - ang = "Mode | A < = M < = B", - ), - - B = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne superieure de la loi | A < = M < = B", - ang = "Upper bound | A < = M < = B", - ), - - ), # Fin BLOC TRIANGULAR - - - - TRUNCATEDNORMAL = BLOC ( condition = " Kind in ( 'TruncatedNormal', ) ", - - MuN = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - SigmaN = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre SigmaN de la loi | SigmaN > 0", - ang = "SigmaN parameter | SigmaN> 0", - ), - - 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 - - - - UNIFORM = BLOC ( condition = " Kind in ( 'Uniform', ) ", - - 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 UNIFORM - - - - USERDEFINED = BLOC ( condition = " Kind in ( 'UserDefined', ) ", - - # Il faut definir une collection de couples ( x,p ) - Values = SIMP ( statut = 'o', - typ = 'R', - max = '**', - ), - - ), # Fin BLOC USERDEFINED - - - - WEIBULL = BLOC ( condition = " Kind 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 = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Gamma", - ang = "Gamma parameter", - ), - - ), # Fin BLOC WEIBULL - -) # Fin OPER DISTRIBUTION - - - - - - -#================================ -# 3. Definition de l'etude -#================================ - -# Nota : les variables de type PROC doivent etre en majuscules ! -CRITERIA = PROC ( nom = "CRITERIA", - op = None, - docu = "", - fr = "Mise en donnee pour le fichier de configuration de OPENTURNS.", - ang = "Writes the configuration file for OPENTURNS.", - - - - Type = SIMP ( statut = "o", - typ = "TXM", - into = ( "Min/Max", "Central Uncertainty", "Threshold Exceedence" ), - fr = "Type d'Analyse", - ang = "Analysis", - ), - - - - - - - - MinMax = BLOC ( condition = " Type in ( 'Min/Max', ) ", - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Experiment Plane", "Random Sampling" ), - fr = "Methode", - ang = "Method", - ), - # UC 3.1.1 - ExperimentPlaneSettings = BLOC ( condition = " Method in ( 'Experiment Plane', ) ", - - ExperimentPlane = SIMP ( statut = "o", - typ = "TXM", - into = ( "Axial", "Factorial", "Composite", ), - fr = "Methode", - ang = "Method", - ), - - Levels = SIMP ( statut = "o", - typ = "R", - val_min = 0.0, - max = '**', - fr = "Nombre de niveaux dans chaque direction", - ang = "Levels in each direction", - ), - - # Scaled Vector - UnitsPerDimension = SIMP ( statut = "o", - typ = "R", - max = '**', - fr = "Unite par dimension (autant que de variables declarees)", - ang = "Units per dimension (as much as declared variables)", - ), - - # Translation Vector - Center = SIMP ( statut = "o", - typ = "R", - max = '**', - fr = "Unite par dimension", - ang = "Units per dimension", - ), - - ), # Fin BLOC ExperimentPlaneSettings - - - - RandomSamplingSettings = BLOC ( condition = " Method in ( 'Random Sampling', ) ", - - PointsNumber = SIMP ( statut = "o", - typ = "I", - val_min = 1, - fr = "Nombre de points", - ang = "Points number", - ), - - ), # Fin BLOC RandomSamplingSettings - - Result = SIMP ( statut = "o", - typ = "TXM", - into = ( "Min/Max", ), - defaut = "Min/Max", - fr = "Le minimum et le maximum", - ang = "The min and max values", - ), - - - ), # Fin BLOC MinMax - - - - - CentralUncertainty = BLOC ( condition = " Type in ( 'Central Uncertainty', ) ", - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Taylor Variance Decomposition", "Random Sampling" ), - fr = "Methode", - ang = "Method", - ), - - # UC 3.2. - TaylorVarianceDecompositionSettings = BLOC ( condition = " Method in ( 'Taylor Variance Decomposition', ) ", - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - MeanFirstOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne au premier ordre", - ang = "MeanFirstOrder", - ), - - StandardDeviationFirstOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type au premier ordre", - ang = "StandardDeviationFirstOrder", - ), - - MeanSecondOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne au second ordre", - ang = "MeanSecondOrder", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "ImportanceFactor", - ), - - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - NumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - GraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC ImportanceFactorSettings - - ), # Fin FACT Result - - ), # Fin BLOC TaylorVarianceDecompositionSettings - - - - RandomSamplingSettings = BLOC ( condition = " Method in ( 'Random Sampling', ) ", - - PointsNumber = SIMP ( statut = "o", - typ = "I", - val_min = 1, - fr = "Nombre de points", - ang = "Points number", - ), - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - EmpiricalMean = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne empirique", - ang = "Empirical mean", - ), - - EmpiricalStandardDeviation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type empirique", - ang = "Empirical standard deviation", - ), - - EmpiricalQuantile = SIMP ( statut = "o", - typ = 'R', - defaut = 0.0, - max = 1, - val_min = 0.0, - val_max = 1.0, - fr = "Quantile empirique", - ang = "Empirical quantile", - ), - - AnalysedCorrelations = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Correlations analysees", - ang = "Analysed correlations", - ), - - KernelSmoothing = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Kernel smoothing de l'echantillon", - ang = "Kernel smoothing of the sample", - ), - - ), # Fin FACT Result - - ), # Fin BLOC RandomSamplingSettings - - ), # Fin BLOC CentralUncertainty - - - - - ThresholdExceedence = BLOC ( condition = " Type in ( 'Threshold Exceedence', ) ", - - Event = FACT ( statut = "o", - min = 1, - max = 1, - - Threshold = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Le seuil de defaillance", - ang = "Failure threshold", - ), - - ComparisonOperator = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "Less", "LessOrEqual", "Equal", "GreaterOrEqual", "Greater" ), - fr = "Que faut-il ne pas depasser : un maximum ou un minimum", - ang = "What is the failure threshold : maximum or minimum", - ), - ), # Fin FACT Event - - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Simulation", "Analytical" ), - fr = "Methode", - ang = "Method", - ), - - SimulationSettings = BLOC ( condition = " Method in ( 'Simulation', ) ", - - Algorithm = SIMP ( statut = "o", - typ = "TXM", - into = ( "MonteCarlo", "LHS", "ImportanceSampling" ), - fr = "Algorithme de simulation", - ang = "Simulation algorithm", - ), - - - RandomGenerator = FACT ( statut = "o", - min = 1, - max = 1, - - SeedToBeSet = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "La racine du generateur aleatoire doit-elle etre positionnee ?", - ang = "Does the random generator seed need to be set ?", - ), - - SeedSettings = BLOC ( condition = " SeedToBeSet in ( 'yes', ) ", - - RandomGeneratorSeed = SIMP ( statut = "o", - typ = "I", - max = 1, - fr = "Racine du generateur aleatoire", - ang = "Random generator seed", - ), - - ), # Fin BLOC SeedSettings - - ), # Fin FACT RandomGenerator - - - BlockSize = SIMP ( statut = "f", - typ = "I", - max = 1, - val_min = 1, - defaut = 1, - fr = "Nombre de calculs realises en bloc", - ang = "Number of computations as a block", - ), - - MaximumOuterSampling = SIMP ( statut = "o", - typ = "I", - max = 1, - val_min = 1, - fr = "Maximum d'iterations externes", - ang = "Maximum outer Sampling value", - ), - - MaximumCoefficientOfVariation = SIMP ( statut = "f", - typ = "R", - max = 1, - defaut = 0.1, - val_min = 0.0, - fr = " maximum ...", - ang = "Absolute maximum ...." - ), - - ImportanceSamplingSettings = BLOC ( condition = " Algorithm in ( 'ImportanceSampling', ) ", - - MeanVector = SIMP ( statut = "o", - typ = "R", - max = "**", - fr = "Moyenne", - ang = "Mean vector", - ), - - Correlation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'Independent', 'Linear' ), - defaut = 'Linear', - max = 1, - fr = "Le type de correlation entre les variables", - ang = "Correlation between variables", - ), - - ), # Fin BLOC ImportanceSamplingSettings - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - Probability = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Probabiblite", - ang = "Probability", - ), - - ConfidenceInterval = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type empirique", - ang = "Empirical standard deviation", - ), - - ConfidenceIntervalSettings = BLOC ( condition = " ConfidenceInterval in ( 'yes', ) ", - - Level = SIMP ( statut = "o", - typ = 'R', - defaut = 0.0, - max = 1, - val_min = 0.0, - val_max = 1.0, - fr = "Niveau de confiance", - ang = "Confidence level", - ), - - ), # Fin BLOC ConfidenceIntervalSettings - - VariationCoefficient = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Coefficient de variation", - ang = "VariationCoefficient", - ), - - IterationNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Nombre d'iterations", - ang = "Iteration number", - ), - - ConvergenceGraph = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Graphe de convergence", - ang = "Convergence graph", - ), - - ), # Fin FACT Result - - - - ), # Fin BLOC SimulationSettings - - - - AnalyticalSettings = BLOC ( condition = " Method in ( 'Analytical', ) ", - - Approximation = SIMP ( statut = "o", - typ = "TXM", - into = ( "FORM", "SORM" ), - fr = "Approximation", - ang = "Approximation", - ), - - OptimizationAlgorithm = SIMP ( statut = "o", - typ = "TXM", - into = ( "Cobyla", "AbdoRackwitz" ), - fr = "Methode d'optimisation", - ang = "Optimisation method", - ), - - - PhysicalStartingPoint = SIMP ( statut = "f", - typ = "R", - max = "**", - fr = "Point de demarrage de l'algorithme iteratif", - ang = "Initial point for iterative process", - ), - - MaximumIterationsNumber = SIMP ( statut = "f", - typ = "I", - max = 1, - val_min = 1, - fr = "Nombre maximum d iterations", - ang = "Maximum number of iterations", - ), - - regles = ( EXCLUS ( "MaximumAbsoluteError", "RelativeAbsoluteError" ), ), - - MaximumAbsoluteError = SIMP ( statut = "f", - typ = "R", - max = 1, - defaut = 1E-6, - val_min = 0.0, - fr = "Distance maximum absolue entre 2 iterations successifs", - ang = "Absolute maximum distance between 2 successive iterates", - ), - - RelativeAbsoluteError = SIMP ( statut = "f", - typ = "R", - max = 1, - defaut = 1E-6, - val_min = 0.0, - fr = "Distance maximum relative entre 2 iterations successives", - ang = "Relative maximum distance between 2 successive iterates", - ), - - MaximumConstraintError = SIMP ( statut = "f", - typ = "R", - max = 1, - val_min = 0.0, - fr = "Valeur maximum absolue de la fonction moins la valeur du niveau", - ang = "Maximum absolute value of the constraint function minus the level value", - ), - - ImportanceSampling = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Tirage d'importance au point de conception", - ang = "Importance sampling at design point", - ), - - FORM = BLOC ( condition = " Approximation in ( 'FORM', ) ", - - Probability = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Probabiblite", - ang = "Probability", - ), - - DesignPoint = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Point de conception", - ang = "Design point", - ), - - HasReliabilityIndex = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite", - ang = "Reliability index", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "ImportanceFactor", - ), - - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - NumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - GraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC ImportanceFactorSettings - - - SensitivityAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Analyse de sensibilite", - ang = "Sensitivity analysis", - ), - - SensitivityAnalysisSettings = BLOC ( condition = " SensitivityAnalysis in ( 'yes', ) ", - - HasoferReliabilityIndex = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - HasoferReliabilityIndexSettings = BLOC ( condition = " HasoferReliabilityIndex in ( 'yes', ) ", - - NumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - GraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC HasoferReliabilityIndexSettings - - ), # Fin BLOC SensitivityAnalysisSettings - - FunctionCallsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Nombre d'appels a la fonction", - ang = "Function calls number", - ), - - - ), # Fin BLOC FORM - - - SORM = BLOC ( condition = " Approximation in ( 'SORM', ) ", - - - TvedtApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Approximation de Tvedt", - ang = "Tvedt approximation", - ), - - HohenBichlerApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Approximation de HohenBichler", - ang = "HohenBichler approximation", - ), - - BreitungApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Approximation de Breitung", - ang = "Breitung approximation", - ), - - DesignPoint = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Point de conception", - ang = "Design point", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "ImportanceFactor", - ), - - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - NumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - GraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC ImportanceFactorSettings - - - SensitivityAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Analyse de sensibilite", - ang = "Sensitivity analysis", - ), - - SensitivityAnalysisSettings = BLOC ( condition = " SensitivityAnalysis in ( 'yes', ) ", - - HasoferReliabilityIndex = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - HasoferReliabilityIndexSettings = BLOC ( condition = " HasoferReliabilityIndex in ( 'yes', ) ", - - NumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - GraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC HasoferReliabilityIndexSettings - - ), # Fin BLOC SensitivityAnalysisSettings - - FunctionCallsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Nombre d'appels a la fonction", - ang = "Function calls number", - ), - - - ), # Fin BLOC SORM - - - - ), # Fin BLOC AnalyticalSettings - - - - ), # Fin BLOC ThresholdExceedence - - - -) # Fin PROC CRITERIA - - - - - - - diff --git a/Openturns_Study/OpenTURNS_Cata_Study_V3.py b/Openturns_Study/OpenTURNS_Cata_Study_V3.py deleted file mode 100644 index 80dbe832..00000000 --- a/Openturns_Study/OpenTURNS_Cata_Study_V3.py +++ /dev/null @@ -1,1598 +0,0 @@ -# -*- coding: utf-8 -*- - -# -------------------------------------------------- -# debut entete -# -------------------------------------------------- - -from Accas import ASSD, JDC_CATA, AU_MOINS_UN, PROC, SIMP, FACT, OPER, MACRO, BLOC - -class loi ( ASSD ) : pass -class variable ( ASSD ) : pass - - -#CONTEXT.debug = 1 -JdC = JDC_CATA ( code = 'OPENTURNS_STUDY', - execmodul = None, - regles = ( AU_MOINS_UN ( 'CRITERIA' ), AU_MOINS_UN ( 'MODEL' ), ), - ) # Fin JDC_CATA - -# -------------------------------------------------- -# fin entete -# -------------------------------------------------- - -LOG = PROC ( nom = "LOG", - op = None, - docu = "", - - DebugMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de debug de la bibliotheque Open TURNS", - ang = "Open TURNS library debug level print", - ), - - WrapperMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de wrapper de la bibliotheque Open TURNS", - ang = "Open TURNS library debug level print", - ), - - UserMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de user de la bibliotheque Open TURNS", - ang = "Open TURNS library user level print", - ), - - InfoMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de info de la bibliotheque Open TURNS", - ang = "Open TURNS library info level print", - ), - - WarningMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de warning de la bibliotheque Open TURNS", - ang = "Open TURNS library warning level print", - ), - - ErrorMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de error de la bibliotheque Open TURNS", - ang = "Open TURNS library error level print", - ), - -) # Fin PROC LOG - - - - -#================================ -# 0. Definition du modele physique -#================================ - - -DETERMINISTICVARIABLE = OPER ( nom = "DETERMINISTICVARIABLE", - sd_prod = variable, - op = None, - fr = "Variable deterministe", - ang = "Deterministic variable", - - N = SIMP ( statut = 'o', - typ = "TXM", - fr = "Nom", - ang = "Name", - ), - - T = SIMP ( statut = 'o', - defaut = "in", - into = ( "in" , "out", ), - typ = "TXM", - fr = "Type", - ang = "Type", - ), - - R = SIMP ( statut = 'o', - defaut = 0, - typ = "I", - fr = "Rang", - ang = "Rank", - ), - -) # Fin OPER DETERMINISTICVARIABLE - - - -import ops -MODEL = MACRO ( nom = "MODEL", - op = None, - UIinfo = { "groupes" : ( "Gestion du travail", ) }, - fr = "Chargement du wrapper du modele physique", - ang = "Physical model wrapper load", - sd_prod = ops.INCLUDE, - op_init = ops.INCLUDE_context, - fichier_ini = 1, - - FileName = SIMP ( statut = "o", - typ = "TXM", - fr = "Nom du modele physique", - ang = "Physical model identifier", - ), - -) # Fin PROC MODEL - - - - -VARIABLE = PROC ( nom = "VARIABLE", - op = None, - docu = "", - fr = "Variable probabiliste", - ang = "Probabilistic variable", - - ModelVariable = SIMP ( statut = "o", - typ = ( variable, ), - ), - - Distribution = SIMP ( statut = "o", - typ = ( loi, ), - ), - -) # Fin PROC VARIABLE - - - - -#================================ -# 1. 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", - - -#==== -# Type de distribution -#==== - - Kind = SIMP ( statut = "o", typ = "TXM", - into = ( "Beta", - "Exponential", - "Gamma", - "Geometric", - "Gumbel", - "Histogram", - "Logistic", - "LogNormal", - "MultiNomial", - "Normal", - "TruncatedNormal", - "Poisson", - "Student", - "Triangular", - "Uniform", - "UserDefined", - "Weibull", - ), - fr = "Choix du type de la loi marginale", - ang = "1D marginal distribution", - ), - -#==== -# Definition des parametres selon le type de la loi -#==== - - BETA = BLOC ( condition = " Kind in ( 'Beta', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "RT", "MuSigma" ), - defaut = "RT", - fr = "Parametrage de la loi beta", - ang = "Beta distribution parameter set", - ), - - RT_Parameters = BLOC ( condition = " Settings in ( 'RT', ) ", - - R = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre R de la loi", - ang = "R parameter", - ), - - # T > R - T = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre T de la loi | T > R", - ang = "T parameter | T > R", - ), - - ), # Fin BLOC RT_Parameters - - - MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - - A = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre A de la loi", - ang = "A parameter", - ), - - # B > A - B = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre B de la loi | B > A", - ang = "B parameter | B > A", - ), - - ), # Fin BLOC BETA - - - - EXPONENTIAL = BLOC ( condition = " Kind 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 = "Parametre Gamma", - ang = "Gamma parameter", - ), - - ), # Fin BLOC EXPONENTIAL - - - - GAMMA = BLOC ( condition = " Kind in ( 'Gamma', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "KLambda", "MuSigma" ), - defaut = "KLambda", - fr = "Parametrage de la loi gamma", - ang = "Gamma distribution parameter set", - ), - - KLambda_Parameters = BLOC ( condition = " Settings in ( 'KLambda', ) ", - - K = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre K de la loi | K > 0", - ang = "K parameter | K > 0", - ), - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda de la loi | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - ), # Fin BLOC KLambda_Parameters - - - MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 0.0, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 1.0, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Gamma", - ang = "Gamma parameter", - ), - - - ), # Fin BLOC GAMMA - - - - GEOMETRIC = BLOC ( condition = " Kind in ( 'Geometric', ) ", - - P = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - val_max = 1., - fr = "Parametre P | 0 < P < 1", - ang = "P parameter | 0 < P < 1", - ), - - ), # Fin BLOC GEOMETRIC - - - - GUMBEL = BLOC ( condition = " Kind in ( 'Gumbel', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "AlphaBeta", "MuSigma" ), - defaut = "AlphaBeta", - fr = "Parametrage de la loi gumbel", - ang = "Gumbel 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, - fr = "Parametre Beta de la loi", - ang = "Beta parameter", - ), - - ), # Fin BLOC AlphaBeta_Parameters - - - MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - ), # Fin BLOC GUMBEL - - - - HISTOGRAM = BLOC ( condition = " Kind in ( 'Histogram', ) ", - - Sup = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne superieure de la distribution", - ang = "Upper bound", - ), - - # Il faut definir une collection de couples ( x,p ) - Values = SIMP ( statut = 'o', - typ = 'R', - max = '**', - ), - - ), # Fin BLOC HISTOGRAM - - - - LOGNORMAL = BLOC ( condition = " Kind in ( 'LogNormal', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "MuSigmaLog", "MuSigma", "MuSigmaOverMu" ), - defaut = "MuSigmaLog", - fr = "Parametrage de la loi lognormale", - ang = "Lognormal distribution parameter set", - ), - - MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi | Mu > Gamma", - ang = "Mu parameter | Mu > Gamma", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - MuSigmaOverMu_Parameters = BLOC ( condition = " Settings in ( 'MuSigmaOverMu', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi | Mu > Gamma", - ang = "Mu parameter | Mu > Gamma", - ), - - SigmaOverMu = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre SigmaOverMu de la loi | SigmaOverMu > 0", - ang = "SigmaOverMu parameter | SigmaOverMu > 0", - ), - - ), # Fin BLOC MuSigmaOverMu_Parameters - - MuSigmaLog_Parameters = BLOC ( condition = " Settings in ( 'MuSigmaLog', ) ", - - MuLog = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu log de la loi", - ang = "Mu log parameter", - ), - - SigmaLog = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma log de la loi | SigmaLog > 0", - ang = "Sigma log parameter | SigmaLog > 0", - ), - - ), # Fin BLOC MuSigmaLog_Parameters - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Gamma", - ang = "Gamma parameter", - ), - - ), # Fin BLOC LOGNORMAL - - - - LOGISTIC = BLOC ( condition = " Kind in ( 'Logistic', ) ", - - Alpha = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Alpha de la loi", - ang = "Alpha parameter", - ), - - 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 LOGISTIC - - - - MULTINOMIAL = BLOC ( condition = " Kind in ( 'MultiNomial', ) ", - - N = SIMP ( statut = "o", - typ = "I", - max = 1, - fr = "Dimension de la loi", - ang = "Distribution dimension", - ), - - # Il faut un vecteur P de taille N - Values = SIMP ( statut = 'o', - typ = 'R', - max = '**', - ), - - ), # Fin BLOC MULTINOMIAL - - - - NORMAL = BLOC ( condition = " Kind in ( 'Normal', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC NORMAL - - - - POISSON = BLOC ( condition = " Kind in ( 'Poisson', ) ", - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda de la loi | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - ), # Fin BLOC POISSON - - - - STUDENT = BLOC ( condition = " Kind in ( 'Student', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Nu = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 2., - fr = "Parametre Nu de la loi | V > = 2", - ang = "Nu parameter | V > = 2", - ), - - ), # Fin BLOC STUDENT - - - - TRIANGULAR = BLOC ( condition = " Kind in ( 'Triangular', ) ", - - A = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure de la loi | A < = M < = B", - ang = "Lower bound | A < = M < = B", - ), - - M = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Mode de la loi | A < = M < = B", - ang = "Mode | A < = M < = B", - ), - - B = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne superieure de la loi | A < = M < = B", - ang = "Upper bound | A < = M < = B", - ), - - ), # Fin BLOC TRIANGULAR - - - - TRUNCATEDNORMAL = BLOC ( condition = " Kind in ( 'TruncatedNormal', ) ", - - MuN = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - SigmaN = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre SigmaN de la loi | SigmaN > 0", - ang = "SigmaN parameter | SigmaN> 0", - ), - - 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 - - - - UNIFORM = BLOC ( condition = " Kind in ( 'Uniform', ) ", - - 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 UNIFORM - - - - USERDEFINED = BLOC ( condition = " Kind in ( 'UserDefined', ) ", - - # Il faut definir une collection de couples ( x,p ) - Values = SIMP ( statut = 'o', - typ = 'R', - max = '**', - ), - - ), # Fin BLOC USERDEFINED - - - - WEIBULL = BLOC ( condition = " Kind 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 = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Gamma", - ang = "Gamma parameter", - ), - - ), # Fin BLOC WEIBULL - -) # Fin OPER DISTRIBUTION - - - - - - - -#================================ -# 3. Definition de l'etude -#================================ - -# Nota : les variables de type PROC doivent etre en majuscules ! -CRITERIA = PROC ( nom = "CRITERIA", - op = None, - docu = "", - fr = "Mise en donnee pour le fichier de configuration de OPENTURNS.", - ang = "Writes the configuration file for OPENTURNS.", - - - - Type = SIMP ( statut = "o", - typ = "TXM", - into = ( "Min/Max", "Central Uncertainty", "Threshold Exceedence" ), - fr = "Type d'Analyse", - ang = "Analysis", - ), - - - - - - - - MinMax = BLOC ( condition = " Type in ( 'Min/Max', ) ", - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Experiment Plane", "Random Sampling" ), - fr = "Methode", - ang = "Method", - ), - # UC 3.1.1 - ExperimentPlaneSettings = BLOC ( condition = " Method in ( 'Experiment Plane', ) ", - - ExperimentPlane = SIMP ( statut = "o", - typ = "TXM", - into = ( "Axial", "Factorial", "Composite", ), - fr = "Methode", - ang = "Method", - ), - - Levels = SIMP ( statut = "o", - typ = "R", - val_min = 0.0, - max = '**', - fr = "Nombre de niveaux dans chaque direction", - ang = "Levels in each direction", - ), - - # Scaled Vector - UnitsPerDimension = SIMP ( statut = "o", - typ = "R", - max = '**', - fr = "Unite par dimension (autant que de variables declarees)", - ang = "Units per dimension (as much as declared variables)", - ), - - # Translation Vector - Center = SIMP ( statut = "o", - typ = "R", - max = '**', - fr = "Unite par dimension", - ang = "Units per dimension", - ), - - ), # Fin BLOC ExperimentPlaneSettings - - - - RandomSamplingSettings = BLOC ( condition = " Method in ( 'Random Sampling', ) ", - - PointsNumber = SIMP ( statut = "o", - typ = "I", - val_min = 1, - fr = "Nombre de points", - ang = "Points number", - ), - - ), # Fin BLOC RandomSamplingSettings - - Result = SIMP ( statut = "o", - typ = "TXM", - into = ( "Min/Max", ), - defaut = "Min/Max", - fr = "Le minimum et le maximum", - ang = "The min and max values", - ), - - - ), # Fin BLOC MinMax - - - - - CentralUncertainty = BLOC ( condition = " Type in ( 'Central Uncertainty', ) ", - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Taylor Variance Decomposition", "Random Sampling" ), - fr = "Methode", - ang = "Method", - ), - - # UC 3.2. - TaylorVarianceDecompositionSettings = BLOC ( condition = " Method in ( 'Taylor Variance Decomposition', ) ", - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - MeanFirstOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne au premier ordre", - ang = "MeanFirstOrder", - ), - - StandardDeviationFirstOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type au premier ordre", - ang = "StandardDeviationFirstOrder", - ), - - MeanSecondOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne au second ordre", - ang = "MeanSecondOrder", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "ImportanceFactor", - ), - - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - NumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - GraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC ImportanceFactorSettings - - ), # Fin FACT Result - - ), # Fin BLOC TaylorVarianceDecompositionSettings - - - - RandomSamplingSettings = BLOC ( condition = " Method in ( 'Random Sampling', ) ", - - PointsNumber = SIMP ( statut = "o", - typ = "I", - val_min = 1, - fr = "Nombre de points", - ang = "Points number", - ), - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - EmpiricalMean = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne empirique", - ang = "Empirical mean", - ), - - EmpiricalStandardDeviation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type empirique", - ang = "Empirical standard deviation", - ), - - EmpiricalQuantile = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Quantile empirique", - ang = "Empirical quantile", - ), - - EmpiricalQuantileSettings = BLOC ( condition = " EmpiricalQuantile in ( 'yes', ) ", - - EmpiricalQuantile_Order = SIMP ( statut = "o", - typ = 'R', - defaut = 0.95, - max = 1, - val_min = 0.0, - val_max = 1.0, - fr = "Ordre du quantile empirique", - ang = "Empirical quantile order", - ), - - ), # Fin BLOC EmpiricalQuantileSettings - - AnalysedCorrelations = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Correlations analysees", - ang = "Analysed correlations", - ), - - KernelSmoothing = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Kernel smoothing de l'echantillon", - ang = "Kernel smoothing of the sample", - ), - - ), # Fin FACT Result - - ), # Fin BLOC RandomSamplingSettings - - ), # Fin BLOC CentralUncertainty - - - - - ThresholdExceedence = BLOC ( condition = " Type in ( 'Threshold Exceedence', ) ", - - Event = FACT ( statut = "o", - min = 1, - max = 1, - - Threshold = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Le seuil de defaillance", - ang = "Failure threshold", - ), - - ComparisonOperator = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "Less", "LessOrEqual", "Equal", "GreaterOrEqual", "Greater" ), - fr = "Que faut-il ne pas depasser : un maximum ou un minimum", - ang = "What is the failure threshold : maximum or minimum", - ), - ), # Fin FACT Event - - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Simulation", "Analytical" ), - fr = "Methode", - ang = "Method", - ), - - SimulationSettings = BLOC ( condition = " Method in ( 'Simulation', ) ", - - Algorithm = SIMP ( statut = "o", - typ = "TXM", - into = ( "MonteCarlo", "LHS", "ImportanceSampling" ), - fr = "Algorithme de simulation", - ang = "Simulation algorithm", - ), - - - RandomGenerator = FACT ( statut = "o", - min = 1, - max = 1, - - SeedToBeSet = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "La racine du generateur aleatoire doit-elle etre positionnee ?", - ang = "Does the random generator seed need to be set ?", - ), - - SeedSettings = BLOC ( condition = " SeedToBeSet in ( 'yes', ) ", - - RandomGeneratorSeed = SIMP ( statut = "o", - typ = "I", - max = 1, - fr = "Racine du generateur aleatoire", - ang = "Random generator seed", - ), - - ), # Fin BLOC SeedSettings - - ), # Fin FACT RandomGenerator - - - BlockSize = SIMP ( statut = "f", - typ = "I", - max = 1, - val_min = 1, - defaut = 1, - fr = "Nombre de calculs realises en bloc", - ang = "Number of computations as a block", - ), - - MaximumOuterSampling = SIMP ( statut = "o", - typ = "I", - max = 1, - val_min = 1, - fr = "Maximum d'iterations externes", - ang = "Maximum outer Sampling value", - ), - - MaximumCoefficientOfVariation = SIMP ( statut = "f", - typ = "R", - max = 1, - defaut = 0.1, - val_min = 0.0, - fr = " maximum ...", - ang = "Absolute maximum ...." - ), - - ImportanceSamplingSettings = BLOC ( condition = " Algorithm in ( 'ImportanceSampling', ) ", - - MeanVector = SIMP ( statut = "o", - typ = "R", - max = "**", - fr = "Moyenne", - ang = "Mean vector", - ), - - Correlation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'Independent', 'Linear' ), - defaut = 'Linear', - max = 1, - fr = "Le type de correlation entre les variables", - ang = "Correlation between variables", - ), - - ), # Fin BLOC ImportanceSamplingSettings - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - Probability = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Probabiblite", - ang = "Probability", - ), - - StandardDeviation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Ecart type", - ang = "Standard deviation", - ), - - ConfidenceInterval = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type empirique", - ang = "Empirical standard deviation", - ), - - ConfidenceIntervalSettings = BLOC ( condition = " ConfidenceInterval in ( 'yes', ) ", - - Level = SIMP ( statut = "o", - typ = 'R', - defaut = 0.9, - max = 1, - val_min = 0.0, - val_max = 1.0, - fr = "Niveau de confiance", - ang = "Confidence level", - ), - - ), # Fin BLOC ConfidenceIntervalSettings - - VariationCoefficient = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Coefficient de variation", - ang = "VariationCoefficient", - ), - - IterationNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Nombre d'iterations", - ang = "Iteration number", - ), - - ConvergenceGraph = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Graphe de convergence", - ang = "Convergence graph", - ), - - ), # Fin FACT Result - - - - ), # Fin BLOC SimulationSettings - - - - AnalyticalSettings = BLOC ( condition = " Method in ( 'Analytical', ) ", - - Approximation = SIMP ( statut = "o", - typ = "TXM", - defaut = "FirstOrder", - into = ( "FirstOrder", "SecondOrder" ), - max = 1, - fr = "Approximation", - ang = "Approximation", - ), - - OptimizationAlgorithm = SIMP ( statut = "o", - typ = "TXM", - defaut = "Cobyla", - into = ( "Cobyla", "AbdoRackwitz" ), - max = 1, - fr = "Methode d'optimisation", - ang = "Optimisation method", - ), - - - PhysicalStartingPoint = SIMP ( statut = "f", - typ = "R", - max = "**", - fr = "Point de demarrage de l'algorithme iteratif", - ang = "Initial point for iterative process", - ), - - MaximumIterationsNumber = SIMP ( statut = "f", - typ = "I", - max = 1, - val_min = 1, - fr = "Nombre maximum d iterations", - ang = "Maximum number of iterations", - ), - - - MaximumAbsoluteError = SIMP ( statut = "f", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Distance maximum absolue entre 2 iterations successifs", - ang = "Absolute maximum distance between 2 successive iterates", - ), - - MaximumRelativeError = SIMP ( statut = "f", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Distance maximum relative entre 2 iterations successives", - ang = "Relative maximum distance between 2 successive iterates", - ), - - MaximumConstraintError = SIMP ( statut = "f", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Valeur maximum absolue de la fonction moins la valeur du niveau", - ang = "Maximum absolute value of the constraint function minus the level value", - ), - - ImportanceSampling = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Tirage d'importance au point de conception", - ang = "Importance sampling at design point", - ), - - FirstOrder = BLOC ( condition = " Approximation in ( 'FirstOrder', ) ", - - Probability = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Probabiblite", - ang = "Probability", - ), - - DesignPoint = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Point de conception", - ang = "Design point", - ), - - HasoferReliabilityIndex = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite", - ang = "Reliability index", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "ImportanceFactor", - ), - - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - ImportanceFactorNumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - ImportanceFactorGraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC ImportanceFactorSettings - - - SensitivityAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Analyse de sensibilite", - ang = "Sensitivity analysis", - ), - - SensitivityAnalysisSettings = BLOC ( condition = " SensitivityAnalysis in ( 'yes', ) ", - - FORMEventProbabilitySensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - FORMEventProbabilitySensitivitySettings = BLOC ( condition = " FORMEventProbabilitySensitivity in ( 'yes', ) ", - - FORMEventProbabilitySensitivityNumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - FORMEventProbabilitySensitivityGraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC FORMEventProbabilitySensitivitySettings - - HasoferReliabilityIndexSensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - HasoferReliabilityIndexSensitivitySettings = BLOC ( condition = " HasoferReliabilityIndexSensitivity in ( 'yes', ) ", - - HasoferReliabilityIndexSensitivityNumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - HasoferReliabilityIndexSensitivityGraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC HasoferReliabilityIndexSettings - - ), # Fin BLOC SensitivityAnalysisSettings - - FunctionCallsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Nombre d'appels a la fonction", - ang = "Function calls number", - ), - - - ), # Fin BLOC FirstOrder - - - SecondOrder = BLOC ( condition = " Approximation in ( 'SecondOrder', ) ", - - - TvedtApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Approximation de Tvedt", - ang = "Tvedt approximation", - ), - - HohenBichlerApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Approximation de HohenBichler", - ang = "HohenBichler approximation", - ), - - BreitungApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Approximation de Breitung", - ang = "Breitung approximation", - ), - - DesignPoint = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Point de conception", - ang = "Design point", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "ImportanceFactor", - ), - - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - ImportanceFactorNumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - ImportanceFactorGraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC ImportanceFactorSettings - - SensitivityAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Analyse de sensibilite", - ang = "Sensitivity analysis", - ), - - SensitivityAnalysisSettings = BLOC ( condition = " SensitivityAnalysis in ( 'yes', ) ", - - HasoferReliabilityIndexSensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - HasoferReliabilityIndexSensitivitySettings = BLOC ( condition = " HasoferReliabilityIndexSensitivity in ( 'yes', ) ", - - HasoferReliabilityIndexSensitivityNumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - HasoferReliabilityIndexSensitivityGraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC HasoferReliabilityIndexSettings - - ), # Fin BLOC SensitivityAnalysisSettings - - FunctionCallsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Nombre d'appels a la fonction", - ang = "Function calls number", - ), - - - ), # Fin BLOC SecondOrder - - - - ), # Fin BLOC AnalyticalSettings - - - - ), # Fin BLOC ThresholdExceedence - - - -) # Fin PROC CRITERIA - - - - - - - diff --git a/Openturns_Study/OpenTURNS_Cata_Study_V4.py b/Openturns_Study/OpenTURNS_Cata_Study_V4.py deleted file mode 100644 index 05fdd221..00000000 --- a/Openturns_Study/OpenTURNS_Cata_Study_V4.py +++ /dev/null @@ -1,1630 +0,0 @@ -# -*- coding: utf-8 -*- - -# -------------------------------------------------- -# debut entete -# -------------------------------------------------- - -# Les commentaires du style # Ordre Catalogue MOTCLEF sont utilises pour -# retrouver l ordre du catalogue - - -#from Accas import ASSD, JDC_CATA, AU_MOINS_UN, PROC, SIMP, FACT, OPER, MACRO, BLOC, A_VALIDATOR -from Accas import * - -class loi ( ASSD ) : pass -class variable ( ASSD ) : pass - -import types -class Tuple: - def __init__(self,ntuple): - self.ntuple=ntuple - - def __convert__(self,valeur): - if type(valeur) == types.StringType: - return None - if len(valeur) != self.ntuple: - return None - return valeur - - def info(self): - return "Tuple de %s elements" % self.ntuple - - __repr__=info - __str__=info - - -#CONTEXT.debug = 1 -JdC = JDC_CATA ( code = 'OPENTURNS_STUDY', - execmodul = None, - regles = ( AU_MOINS_UN ( 'CRITERIA' ), AU_MOINS_UN ( 'MODEL' ), - A_CLASSER(('LOG','DETERMINISTICVARIABLE'),'VARIABLE'),) - ) # Fin JDC_CATA - -# -------------------------------------------------- -# fin entete -# -------------------------------------------------- - -LOG = PROC ( nom = "LOG", - op = None, - docu = "", - - DebugMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de debug de la bibliotheque Open TURNS", - ang = "Open TURNS library debug level print", - ), - - WrapperMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de wrapper de la bibliotheque Open TURNS", - ang = "Open TURNS library debug level print", - ), - - UserMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de user de la bibliotheque Open TURNS", - ang = "Open TURNS library user level print", - ), - - InfoMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de info de la bibliotheque Open TURNS", - ang = "Open TURNS library info level print", - ), - - WarningMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de warning de la bibliotheque Open TURNS", - ang = "Open TURNS library warning level print", - ), - - ErrorMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de error de la bibliotheque Open TURNS", - ang = "Open TURNS library error level print", - ), - -) # Fin PROC LOG -# Ordre Catalogue LOG - - - - -#================================ -# 0. Definition du modele physique -#================================ - - -DETERMINISTICVARIABLE = OPER ( nom = "DETERMINISTICVARIABLE", - sd_prod = variable, - op = None, - fr = "Variable deterministe", - ang = "Deterministic variable", - - N = SIMP ( statut = 'o', - typ = "TXM", - fr = "Nom", - ang = "Name", - ), - - T = SIMP ( statut = 'o', - defaut = "in", - into = ( "in" , "out", ), - typ = "TXM", - fr = "Type", - ang = "Type", - ), - - R = SIMP ( statut = 'o', - defaut = 0, - typ = "I", - fr = "Rang", - ang = "Rank", - ), - -) # Fin OPER DETERMINISTICVARIABLE -# Ordre Catalogue DETERMINISTICVARIABLE - - -import opsOT -MODEL = MACRO ( nom = "MODEL", - op = None, - UIinfo = { "groupes" : ( "Gestion du travail", ) }, - fr = "Chargement du wrapper du modele physique", - ang = "Physical model wrapper load", - sd_prod = opsOT.INCLUDE, - op_init = opsOT.INCLUDE_context, - fichier_ini = 1, - - FileName = SIMP ( statut = "o", - typ = "TXM", - fr = "Nom du modele physique", - ang = "Physical model identifier", - ), - -) # Fin PROC MODEL -# Ordre Catalogue MODEL - - - - -VARIABLE = PROC ( nom = "VARIABLE", - op = None, - docu = "", - fr = "Variable probabiliste", - ang = "Probabilistic variable", - - ModelVariable = SIMP ( statut = "o", - typ = ( variable, ), - ), - - Distribution = SIMP ( statut = "o", - typ = ( loi, ), - ), - -) # Fin PROC VARIABLE -# Ordre Catalogue VARIABLE - - - - -#================================ -# 1. 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", - - -#==== -# Type de distribution -#==== - - Kind = SIMP ( statut = "o", typ = "TXM", - into = ( "Beta", - "Exponential", - "Gamma", - "Geometric", - "Gumbel", - "Histogram", - "Logistic", - "LogNormal", - "MultiNomial", - "Normal", - "TruncatedNormal", - "Poisson", - "Student", - "Triangular", - "Uniform", - #"UserDefined", - "Weibull", - ), - fr = "Choix du type de la loi marginale", - ang = "1D marginal distribution", - ), - -#==== -# Definition des parametres selon le type de la loi -#==== - - BETA = BLOC ( condition = " Kind in ( 'Beta', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "RT", "MuSigma" ), - defaut = "RT", - fr = "Parametrage de la loi beta", - ang = "Beta distribution parameter set", - ), - - RT_Parameters = BLOC ( condition = " Settings in ( 'RT', ) ", - - R = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre R de la loi", - ang = "R parameter", - ), - - # T > R - T = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre T de la loi | T > R", - ang = "T parameter | T > R", - ), - - ), # Fin BLOC RT_Parameters - - - MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - - A = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre A de la loi", - ang = "A parameter", - ), - - # B > A - B = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre B de la loi | B > A", - ang = "B parameter | B > A", - ), - - ), # Fin BLOC BETA - - - - EXPONENTIAL = BLOC ( condition = " Kind 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 = "Parametre Gamma", - ang = "Gamma parameter", - ), - - ), # Fin BLOC EXPONENTIAL - - - - GAMMA = BLOC ( condition = " Kind in ( 'Gamma', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "KLambda", "MuSigma" ), - defaut = "KLambda", - fr = "Parametrage de la loi gamma", - ang = "Gamma distribution parameter set", - ), - - KLambda_Parameters = BLOC ( condition = " Settings in ( 'KLambda', ) ", - - K = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre K de la loi | K > 0", - ang = "K parameter | K > 0", - ), - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda de la loi | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - ), # Fin BLOC KLambda_Parameters - - - MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 0.0, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 1.0, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Gamma", - ang = "Gamma parameter", - ), - - - ), # Fin BLOC GAMMA - - - - GEOMETRIC = BLOC ( condition = " Kind in ( 'Geometric', ) ", - - P = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - val_max = 1., - fr = "Parametre P | 0 < P < 1", - ang = "P parameter | 0 < P < 1", - ), - - ), # Fin BLOC GEOMETRIC - - - - GUMBEL = BLOC ( condition = " Kind in ( 'Gumbel', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "AlphaBeta", "MuSigma" ), - defaut = "AlphaBeta", - fr = "Parametrage de la loi gumbel", - ang = "Gumbel 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, - fr = "Parametre Beta de la loi", - ang = "Beta parameter", - ), - - ), # Fin BLOC AlphaBeta_Parameters - - - MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - ), # Fin BLOC GUMBEL - - - - HISTOGRAM = BLOC ( condition = " Kind in ( 'Histogram', ) ", - - First = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Premier point de la distribution", - ang = "First point", - ), - - # Il faut definir une collection de couples ( x,p ) - Values = SIMP ( statut = 'o', - typ = Tuple(2), - max = '**', - fr = "Liste de couples (point,probabilite)", - ang = "(point,probabiblity) couple list", - validators=VerifTypeTuple(('R','R')), - ), - - ), # Fin BLOC HISTOGRAM - - - - LOGNORMAL = BLOC ( condition = " Kind in ( 'LogNormal', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "MuSigmaLog", "MuSigma", "MuSigmaOverMu" ), - defaut = "MuSigmaLog", - fr = "Parametrage de la loi lognormale", - ang = "Lognormal distribution parameter set", - ), - - MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi | Mu > Gamma", - ang = "Mu parameter | Mu > Gamma", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - MuSigmaOverMu_Parameters = BLOC ( condition = " Settings in ( 'MuSigmaOverMu', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi | Mu > Gamma", - ang = "Mu parameter | Mu > Gamma", - ), - - SigmaOverMu = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre SigmaOverMu de la loi | SigmaOverMu > 0", - ang = "SigmaOverMu parameter | SigmaOverMu > 0", - ), - - ), # Fin BLOC MuSigmaOverMu_Parameters - - MuSigmaLog_Parameters = BLOC ( condition = " Settings in ( 'MuSigmaLog', ) ", - - MuLog = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu log de la loi", - ang = "Mu log parameter", - ), - - SigmaLog = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma log de la loi | SigmaLog > 0", - ang = "Sigma log parameter | SigmaLog > 0", - ), - - ), # Fin BLOC MuSigmaLog_Parameters - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Gamma", - ang = "Gamma parameter", - ), - - ), # Fin BLOC LOGNORMAL - - - - LOGISTIC = BLOC ( condition = " Kind in ( 'Logistic', ) ", - - Alpha = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Alpha de la loi", - ang = "Alpha parameter", - ), - - 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 LOGISTIC - - - - MULTINOMIAL = BLOC ( condition = " Kind in ( 'MultiNomial', ) ", - - N = SIMP ( statut = "o", - typ = "I", - max = 1, - fr = "Dimension de la loi", - ang = "Distribution dimension", - ), - - # Il faut un vecteur P de taille N - Mu = SIMP ( statut = 'o', - typ = 'R', - max = '**', - ), - - ), # Fin BLOC MULTINOMIAL - - - - NORMAL = BLOC ( condition = " Kind in ( 'Normal', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC NORMAL - - - - POISSON = BLOC ( condition = " Kind in ( 'Poisson', ) ", - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda de la loi | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - ), # Fin BLOC POISSON - - - - STUDENT = BLOC ( condition = " Kind in ( 'Student', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Nu = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 2., - fr = "Parametre Nu de la loi | V > = 2", - ang = "Nu parameter | V > = 2", - ), - - ), # Fin BLOC STUDENT - - - - TRIANGULAR = BLOC ( condition = " Kind in ( 'Triangular', ) ", - - A = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure de la loi | A < = M < = B", - ang = "Lower bound | A < = M < = B", - ), - - M = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Mode de la loi | A < = M < = B", - ang = "Mode | A < = M < = B", - ), - - B = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne superieure de la loi | A < = M < = B", - ang = "Upper bound | A < = M < = B", - ), - - ), # Fin BLOC TRIANGULAR - - - - TRUNCATEDNORMAL = BLOC ( condition = " Kind in ( 'TruncatedNormal', ) ", - - MuN = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - SigmaN = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre SigmaN de la loi | SigmaN > 0", - ang = "SigmaN parameter | SigmaN> 0", - ), - - 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 - - - - UNIFORM = BLOC ( condition = " Kind in ( 'Uniform', ) ", - - 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 UNIFORM - - - - USERDEFINED = BLOC ( condition = " Kind in ( 'UserDefined', ) ", - - # Il faut definir une collection de couples ( x,p ) - Values = SIMP ( statut = 'o', - typ = 'R', - max = '**', - ), - - ), # Fin BLOC USERDEFINED - - - - WEIBULL = BLOC ( condition = " Kind 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 = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Gamma", - ang = "Gamma parameter", - ), - - ), # Fin BLOC WEIBULL - -) # Fin OPER DISTRIBUTION -# Ordre Catalogue DISTRIBUTION - - - - - - - -#================================ -# 3. Definition de l'etude -#================================ - -# Nota : les variables de type PROC doivent etre en majuscules ! -CRITERIA = PROC ( nom = "CRITERIA", - op = None, - docu = "", - fr = "Mise en donnee pour le fichier de configuration de OPENTURNS.", - ang = "Writes the configuration file for OPENTURNS.", - - - - Type = SIMP ( statut = "o", - typ = "TXM", - into = ( "Min/Max", "Central Uncertainty", "Threshold Exceedence" ), - fr = "Type d'Analyse", - ang = "Analysis", - ), - - - - - - - - MinMax = BLOC ( condition = " Type in ( 'Min/Max', ) ", - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Experiment Plane", "Random Sampling" ), - fr = "Methode", - ang = "Method", - ), - # UC 3.1.1 - ExperimentPlaneSettings = BLOC ( condition = " Method in ( 'Experiment Plane', ) ", - - ExperimentPlane = SIMP ( statut = "o", - typ = "TXM", - into = ( "Axial", "Factorial", "Composite", ), - fr = "Methode", - ang = "Method", - ), - - Levels = SIMP ( statut = "o", - typ = "R", - val_min = 0.0, - max = '**', - fr = "Nombre de niveaux dans chaque direction", - ang = "Levels in each direction", - ), - - # Scaled Vector - UnitsPerDimension = SIMP ( statut = "o", - typ = "R", - max = '**', - fr = "Unite par dimension (autant que de variables declarees)", - ang = "Units per dimension (as much as declared variables)", - ), - - # Translation Vector - Center = SIMP ( statut = "o", - typ = "R", - max = '**', - fr = "Unite par dimension", - ang = "Units per dimension", - ), - - ), # Fin BLOC ExperimentPlaneSettings - - - - RandomSamplingSettings = BLOC ( condition = " Method in ( 'Random Sampling', ) ", - - PointsNumber = SIMP ( statut = "o", - typ = "I", - val_min = 1, - fr = "Nombre de points", - ang = "Points number", - ), - - ), # Fin BLOC RandomSamplingSettings - - Result = SIMP ( statut = "o", - typ = "TXM", - into = ( "Min/Max", ), - defaut = "Min/Max", - fr = "Le minimum et le maximum", - ang = "The min and max values", - ), - - - ), # Fin BLOC MinMax - - - - - CentralUncertainty = BLOC ( condition = " Type in ( 'Central Uncertainty', ) ", - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Taylor Variance Decomposition", "Random Sampling" ), - fr = "Methode", - ang = "Method", - ), - - # UC 3.2. - TaylorVarianceDecompositionSettings = BLOC ( condition = " Method in ( 'Taylor Variance Decomposition', ) ", - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - MeanFirstOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne au premier ordre", - ang = "MeanFirstOrder", - ), - - StandardDeviationFirstOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type au premier ordre", - ang = "StandardDeviationFirstOrder", - ), - - MeanSecondOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne au second ordre", - ang = "MeanSecondOrder", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "ImportanceFactor", - ), - - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - NumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - GraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC ImportanceFactorSettings - - ), # Fin FACT Result - - ), # Fin BLOC TaylorVarianceDecompositionSettings - - - - RandomSamplingSettings = BLOC ( condition = " Method in ( 'Random Sampling', ) ", - - PointsNumber = SIMP ( statut = "o", - typ = "I", - val_min = 1, - fr = "Nombre de points", - ang = "Points number", - ), - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - EmpiricalMean = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne empirique", - ang = "Empirical mean", - ), - - EmpiricalStandardDeviation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type empirique", - ang = "Empirical standard deviation", - ), - - EmpiricalQuantile = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Quantile empirique", - ang = "Empirical quantile", - ), - - EmpiricalQuantileSettings = BLOC ( condition = " EmpiricalQuantile in ( 'yes', ) ", - - EmpiricalQuantile_Order = SIMP ( statut = "o", - typ = 'R', - defaut = 0.95, - max = 1, - val_min = 0.0, - val_max = 1.0, - fr = "Ordre du quantile empirique", - ang = "Empirical quantile order", - ), - - ), # Fin BLOC EmpiricalQuantileSettings - - AnalysedCorrelations = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Correlations analysees", - ang = "Analysed correlations", - ), - - KernelSmoothing = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Kernel smoothing de l'echantillon", - ang = "Kernel smoothing of the sample", - ), - - ), # Fin FACT Result - - ), # Fin BLOC RandomSamplingSettings - - ), # Fin BLOC CentralUncertainty - - - - - ThresholdExceedence = BLOC ( condition = " Type in ( 'Threshold Exceedence', ) ", - - Event = FACT ( statut = "o", - min = 1, - max = 1, - - Threshold = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Le seuil de defaillance", - ang = "Failure threshold", - ), - - ComparisonOperator = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "Less", "LessOrEqual", "Equal", "GreaterOrEqual", "Greater" ), - fr = "Que faut-il ne pas depasser : un maximum ou un minimum", - ang = "What is the failure threshold : maximum or minimum", - ), - ), # Fin FACT Event - - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Simulation", "Analytical" ), - fr = "Methode", - ang = "Method", - ), - - SimulationSettings = BLOC ( condition = " Method in ( 'Simulation', ) ", - - Algorithm = SIMP ( statut = "o", - typ = "TXM", - into = ( "MonteCarlo", "LHS", "ImportanceSampling" ), - fr = "Algorithme de simulation", - ang = "Simulation algorithm", - ), - - - RandomGenerator = FACT ( statut = "o", - min = 1, - max = 1, - - SeedToBeSet = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "La racine du generateur aleatoire doit-elle etre positionnee ?", - ang = "Does the random generator seed need to be set ?", - ), - - SeedSettings = BLOC ( condition = " SeedToBeSet in ( 'yes', ) ", - - RandomGeneratorSeed = SIMP ( statut = "o", - typ = "I", - max = 1, - fr = "Racine du generateur aleatoire", - ang = "Random generator seed", - ), - - ), # Fin BLOC SeedSettings - - ), # Fin FACT RandomGenerator - - - BlockSize = SIMP ( statut = "f", - typ = "I", - max = 1, - val_min = 1, - defaut = 1, - fr = "Nombre de calculs realises en bloc", - ang = "Number of computations as a block", - ), - - MaximumOuterSampling = SIMP ( statut = "o", - typ = "I", - max = 1, - val_min = 1, - fr = "Maximum d'iterations externes", - ang = "Maximum outer Sampling value", - ), - - MaximumCoefficientOfVariation = SIMP ( statut = "f", - typ = "R", - max = 1, - defaut = 0.1, - val_min = 0.0, - fr = " maximum ...", - ang = "Absolute maximum ...." - ), - - ImportanceSamplingSettings = BLOC ( condition = " Algorithm in ( 'ImportanceSampling', ) ", - - MeanVector = SIMP ( statut = "o", - typ = "R", - max = "**", - fr = "Moyenne", - ang = "Mean vector", - ), - - Correlation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'Independent', 'Linear' ), - defaut = 'Linear', - max = 1, - fr = "Le type de correlation entre les variables", - ang = "Correlation between variables", - ), - - ), # Fin BLOC ImportanceSamplingSettings - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - Probability = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Probabiblite", - ang = "Probability", - ), - - StandardDeviation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Ecart type", - ang = "Standard deviation", - ), - - ConfidenceInterval = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type empirique", - ang = "Empirical standard deviation", - ), - - ConfidenceIntervalSettings = BLOC ( condition = " ConfidenceInterval in ( 'yes', ) ", - - Level = SIMP ( statut = "o", - typ = 'R', - defaut = 0.9, - max = 1, - val_min = 0.0, - val_max = 1.0, - fr = "Niveau de confiance", - ang = "Confidence level", - ), - - ), # Fin BLOC ConfidenceIntervalSettings - - VariationCoefficient = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Coefficient de variation", - ang = "VariationCoefficient", - ), - - IterationNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Nombre d'iterations", - ang = "Iteration number", - ), - - ConvergenceGraph = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Graphe de convergence", - ang = "Convergence graph", - ), - - ), # Fin FACT Result - - - - ), # Fin BLOC SimulationSettings - - - - AnalyticalSettings = BLOC ( condition = " Method in ( 'Analytical', ) ", - - Approximation = SIMP ( statut = "o", - typ = "TXM", - defaut = "FirstOrder", - into = ( "FirstOrder", "SecondOrder" ), - max = 1, - fr = "Approximation", - ang = "Approximation", - ), - - OptimizationAlgorithm = SIMP ( statut = "o", - typ = "TXM", - defaut = "Cobyla", - into = ( "Cobyla", "AbdoRackwitz" ), - max = 1, - fr = "Methode d'optimisation", - ang = "Optimisation method", - ), - - - PhysicalStartingPoint = SIMP ( statut = "f", - typ = "R", - max = "**", - fr = "Point de demarrage de l'algorithme iteratif", - ang = "Initial point for iterative process", - ), - - MaximumIterationsNumber = SIMP ( statut = "f", - typ = "I", - max = 1, - val_min = 1, - fr = "Nombre maximum d iterations", - ang = "Maximum number of iterations", - ), - - - MaximumAbsoluteError = SIMP ( statut = "f", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Distance maximum absolue entre 2 iterations successifs", - ang = "Absolute maximum distance between 2 successive iterates", - ), - - MaximumRelativeError = SIMP ( statut = "f", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Distance maximum relative entre 2 iterations successives", - ang = "Relative maximum distance between 2 successive iterates", - ), - - MaximumConstraintError = SIMP ( statut = "f", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Valeur maximum absolue de la fonction moins la valeur du niveau", - ang = "Maximum absolute value of the constraint function minus the level value", - ), - - ImportanceSampling = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Tirage d'importance au point de conception", - ang = "Importance sampling at design point", - ), - - FirstOrder = BLOC ( condition = " Approximation in ( 'FirstOrder', ) ", - - Probability = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Probabiblite", - ang = "Probability", - ), - - DesignPoint = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Point de conception", - ang = "Design point", - ), - - HasoferReliabilityIndex = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite", - ang = "Reliability index", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "ImportanceFactor", - ), - - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - ImportanceFactorNumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - ImportanceFactorGraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC ImportanceFactorSettings - - - SensitivityAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Analyse de sensibilite", - ang = "Sensitivity analysis", - ), - - SensitivityAnalysisSettings = BLOC ( condition = " SensitivityAnalysis in ( 'yes', ) ", - - FORMEventProbabilitySensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - FORMEventProbabilitySensitivitySettings = BLOC ( condition = " FORMEventProbabilitySensitivity in ( 'yes', ) ", - - FORMEventProbabilitySensitivityNumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - FORMEventProbabilitySensitivityGraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC FORMEventProbabilitySensitivitySettings - - HasoferReliabilityIndexSensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - HasoferReliabilityIndexSensitivitySettings = BLOC ( condition = " HasoferReliabilityIndexSensitivity in ( 'yes', ) ", - - HasoferReliabilityIndexSensitivityNumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - HasoferReliabilityIndexSensitivityGraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC HasoferReliabilityIndexSettings - - ), # Fin BLOC SensitivityAnalysisSettings - - FunctionCallsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Nombre d'appels a la fonction", - ang = "Function calls number", - ), - - - ), # Fin BLOC FirstOrder - - - SecondOrder = BLOC ( condition = " Approximation in ( 'SecondOrder', ) ", - - - TvedtApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Approximation de Tvedt", - ang = "Tvedt approximation", - ), - - HohenBichlerApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Approximation de HohenBichler", - ang = "HohenBichler approximation", - ), - - BreitungApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Approximation de Breitung", - ang = "Breitung approximation", - ), - - DesignPoint = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Point de conception", - ang = "Design point", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "ImportanceFactor", - ), - - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - ImportanceFactorNumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - ImportanceFactorGraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC ImportanceFactorSettings - - SensitivityAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Analyse de sensibilite", - ang = "Sensitivity analysis", - ), - - SensitivityAnalysisSettings = BLOC ( condition = " SensitivityAnalysis in ( 'yes', ) ", - - HasoferReliabilityIndexSensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - HasoferReliabilityIndexSensitivitySettings = BLOC ( condition = " HasoferReliabilityIndexSensitivity in ( 'yes', ) ", - - HasoferReliabilityIndexSensitivityNumericalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Resultats numeriques", - ang = "NumericalResults", - ), - - HasoferReliabilityIndexSensitivityGraphicalResults = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Resultats graphiques", - ang = "GraphicalResults", - ), - - ), # Fin BLOC HasoferReliabilityIndexSettings - - ), # Fin BLOC SensitivityAnalysisSettings - - FunctionCallsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Nombre d'appels a la fonction", - ang = "Function calls number", - ), - - - ), # Fin BLOC SecondOrder - - - - ), # Fin BLOC AnalyticalSettings - - - - ), # Fin BLOC ThresholdExceedence - - - -) # Fin PROC CRITERIA -# Ordre Catalogue CRITERIA - - - - - - - diff --git a/Openturns_Study/OpenTURNS_Cata_Study_V5.py b/Openturns_Study/OpenTURNS_Cata_Study_V5.py deleted file mode 100644 index 89ce0150..00000000 --- a/Openturns_Study/OpenTURNS_Cata_Study_V5.py +++ /dev/null @@ -1,1528 +0,0 @@ -# -*- coding: utf-8 -*- - -# -------------------------------------------------- -# debut entete -# -------------------------------------------------- - -#from Accas import ASSD, JDC_CATA, AU_MOINS_UN, PROC, SIMP, FACT, OPER, MACRO, BLOC, A_VALIDATOR -from Accas import * - -class loi ( ASSD ) : pass -class variable ( ASSD ) : pass - -import types -class Tuple: - def __init__(self,ntuple): - self.ntuple=ntuple - - def __convert__(self,valeur): - if type(valeur) == types.StringType: - return None - if len(valeur) != self.ntuple: - return None - return valeur - - def info(self): - return "Tuple de %s elements" % self.ntuple - - __repr__=info - __str__=info - - -#CONTEXT.debug = 1 -JdC = JDC_CATA ( code = 'OPENTURNS_STUDY', - execmodul = None, - regles = ( AU_MOINS_UN ( 'CRITERIA' ), - AU_MOINS_UN ( 'MODEL' ), - AVANT ( ('DISTRIBUTION', 'MODEL'), 'VARIABLE' ), -# A_CLASSER ( 'VARIABLE', ) 'CORRELATION' ), -# A_CLASSER ( 'VARIABLE', 'CRITERIA' ), -# A_CLASSER ( 'CORRELATION', 'CRITERIA' ), - ), - ) # Fin JDC_CATA - - -# -------------------------------------------------- -# fin entete -# -------------------------------------------------- - -LOG = PROC ( nom = "LOG", - op = None, - docu = "", - - DebugMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de debug de la bibliotheque Open TURNS", - ang = "Open TURNS library debug level print", - ), - - WrapperMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de wrapper de la bibliotheque Open TURNS", - ang = "Open TURNS library debug level print", - ), - - UserMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de user de la bibliotheque Open TURNS", - ang = "Open TURNS library user level print", - ), - - InfoMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de info de la bibliotheque Open TURNS", - ang = "Open TURNS library info level print", - ), - - WarningMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de warning de la bibliotheque Open TURNS", - ang = "Open TURNS library warning level print", - ), - - ErrorMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de error de la bibliotheque Open TURNS", - ang = "Open TURNS library error level print", - ), - -) # Fin PROC LOG -# Ordre Catalogue LOG - - - -TOTO = PROC( nom='toto', op = None, docu = "", - fr = "toto", ang = "toto", - - TITI=SIMP(statut = 'o', - typ = "TXM", - fr = "Nom", - ang = "Name", - ), -) -# Ordre Catalogue TOTO - - - -#================================ -# 0. Definition du modele physique -#================================ - - -DETERMINISTICVARIABLE = OPER ( nom = "DETERMINISTICVARIABLE", - sd_prod = variable, - op = None, - fr = "Variable deterministe", - ang = "Deterministic variable", - - N = SIMP ( statut = 'o', - typ = "TXM", - fr = "Nom", - ang = "Name", - ), - - T = SIMP ( statut = 'o', - defaut = "in", - into = ( "in" , "out", ), - typ = "TXM", - fr = "Type", - ang = "Type", - ), - - R = SIMP ( statut = 'o', - defaut = 0, - typ = "I", - fr = "Rang", - ang = "Rank", - ), - -) # Fin OPER DETERMINISTICVARIABLE -# Ordre Catalogue DETERMINISTICVARIABLE - - - - -import opsOT -MODEL = MACRO ( nom = "MODEL", - op = None, - UIinfo = { "groupes" : ( "Gestion du travail", ) }, - fr = "Chargement du wrapper du modele physique", - ang = "Physical model wrapper load", - sd_prod = opsOT.INCLUDE, - op_init = opsOT.INCLUDE_context, - fichier_ini = 1, - - FileName = SIMP ( statut = "o", - typ = "Fichier", - fr = "Nom du modele physique", - ang = "Physical model identifier", - ), - -) # Fin PROC MODEL -# Ordre Catalogue MODEL - - - - -VARIABLE = PROC ( nom = "VARIABLE", - op = None, - docu = "", - fr = "Variable probabiliste", - ang = "Probabilistic variable", - - ModelVariable = SIMP ( statut = "o", - typ = ( variable, ), - ), - - Distribution = SIMP ( statut = "o", - typ = ( loi, ), - ), - -) # Fin PROC VARIABLE -# Ordre Catalogue VARIABLE - - -CORRELATION = PROC ( nom = 'CORRELATION', - op = None, - docu = "", - fr = "Correlation entre variables", - ang = "Variable correlation", - - Copula = SIMP ( statut = "o", - typ = "TXM", - into = ( "Independent", ), - defaut = "Independent", - fr = "Type de la copule", - ang = "Copula kind", - ), - - -) # Fin PROC CORRELATION -# Ordre Catalogue CORRELATION - - -#================================ -# 1. 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", - - -#==== -# Type de distribution -#==== - - Kind = SIMP ( statut = "o", typ = "TXM", - into = ( "Beta", - "Exponential", - "Gamma", - "Geometric", - "Gumbel", - "Histogram", - "Logistic", - "LogNormal", - "MultiNomial", - "Normal", - "Poisson", - "Student", - "Triangular", - "TruncatedNormal", - "Uniform", - #"UserDefined", - "Weibull", - ), - fr = "Choix du type de la loi marginale", - ang = "1D marginal distribution", - ), - -#==== -# Definition des parametres selon le type de la loi -#==== - - BETA = BLOC ( condition = " Kind in ( 'Beta', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "RT", "MuSigma" ), - defaut = "RT", - fr = "Parametrage de la loi beta", - ang = "Beta distribution parameter set", - ), - - RT_Parameters = BLOC ( condition = " Settings in ( 'RT', ) ", - - R = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre R de la loi", - ang = "R parameter", - ), - - # T > R - T = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre T de la loi | T > R", - ang = "T parameter | T > R", - ), - - ), # Fin BLOC RT_Parameters - - - MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - - A = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre A de la loi", - ang = "A parameter", - ), - - # B > A - B = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre B de la loi | B > A", - ang = "B parameter | B > A", - ), - - ), # Fin BLOC BETA - - - - EXPONENTIAL = BLOC ( condition = " Kind 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 = "Parametre Gamma", - ang = "Gamma parameter", - ), - - ), # Fin BLOC EXPONENTIAL - - - - GAMMA = BLOC ( condition = " Kind in ( 'Gamma', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "KLambda", "MuSigma" ), - defaut = "KLambda", - fr = "Parametrage de la loi gamma", - ang = "Gamma distribution parameter set", - ), - - KLambda_Parameters = BLOC ( condition = " Settings in ( 'KLambda', ) ", - - K = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre K de la loi | K > 0", - ang = "K parameter | K > 0", - ), - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda de la loi | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - ), # Fin BLOC KLambda_Parameters - - - MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 0.0, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 1.0, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Gamma", - ang = "Gamma parameter", - ), - - - ), # Fin BLOC GAMMA - - - - GEOMETRIC = BLOC ( condition = " Kind in ( 'Geometric', ) ", - - P = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - val_max = 1., - fr = "Parametre P | 0 < P < 1", - ang = "P parameter | 0 < P < 1", - ), - - ), # Fin BLOC GEOMETRIC - - - - GUMBEL = BLOC ( condition = " Kind in ( 'Gumbel', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "AlphaBeta", "MuSigma" ), - defaut = "AlphaBeta", - fr = "Parametrage de la loi gumbel", - ang = "Gumbel 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, - fr = "Parametre Beta de la loi", - ang = "Beta parameter", - ), - - ), # Fin BLOC AlphaBeta_Parameters - - - MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - ), # Fin BLOC GUMBEL - - - - HISTOGRAM = BLOC ( condition = " Kind in ( 'Histogram', ) ", - - First = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Premier point de la distribution", - ang = "First point", - ), - - # Il faut definir une collection de couples ( x,p ) - Values = SIMP ( statut = 'o', - typ = Tuple(2), - max = '**', - fr = "Liste de couples (point,probabilite)", - ang = "(point,probabiblity) couple list", - validators=VerifTypeTuple(('R','R')), - ), - - ), # Fin BLOC HISTOGRAM - - - - LOGNORMAL = BLOC ( condition = " Kind in ( 'LogNormal', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "MuSigmaLog", "MuSigma", "MuSigmaOverMu" ), - defaut = "MuSigmaLog", - fr = "Parametrage de la loi lognormale", - ang = "Lognormal distribution parameter set", - ), - - MuSigma_Parameters = BLOC ( condition = " Settings in ( 'MuSigma', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi | Mu > Gamma", - ang = "Mu parameter | Mu > Gamma", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - MuSigmaOverMu_Parameters = BLOC ( condition = " Settings in ( 'MuSigmaOverMu', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi | Mu > Gamma", - ang = "Mu parameter | Mu > Gamma", - ), - - SigmaOverMu = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre SigmaOverMu de la loi | SigmaOverMu > 0", - ang = "SigmaOverMu parameter | SigmaOverMu > 0", - ), - - ), # Fin BLOC MuSigmaOverMu_Parameters - - MuSigmaLog_Parameters = BLOC ( condition = " Settings in ( 'MuSigmaLog', ) ", - - MuLog = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu log de la loi", - ang = "Mu log parameter", - ), - - SigmaLog = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma log de la loi | SigmaLog > 0", - ang = "Sigma log parameter | SigmaLog > 0", - ), - - ), # Fin BLOC MuSigmaLog_Parameters - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Gamma", - ang = "Gamma parameter", - ), - - ), # Fin BLOC LOGNORMAL - - - - LOGISTIC = BLOC ( condition = " Kind in ( 'Logistic', ) ", - - Alpha = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Alpha de la loi", - ang = "Alpha parameter", - ), - - 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 LOGISTIC - - - - MULTINOMIAL = BLOC ( condition = " Kind in ( 'MultiNomial', ) ", - - N = SIMP ( statut = "o", - typ = "I", - max = 1, - fr = "Dimension de la loi", - ang = "Distribution dimension", - ), - - # Il faut un vecteur P de taille N - Mu = SIMP ( statut = 'o', - typ = 'R', - max = '**', - ), - - ), # Fin BLOC MULTINOMIAL - - - - NORMAL = BLOC ( condition = " Kind in ( 'Normal', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC NORMAL - - - - POISSON = BLOC ( condition = " Kind in ( 'Poisson', ) ", - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda de la loi | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - ), # Fin BLOC POISSON - - - - STUDENT = BLOC ( condition = " Kind in ( 'Student', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Nu = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 2., - fr = "Parametre Nu de la loi | V > = 2", - ang = "Nu parameter | V > = 2", - ), - - ), # Fin BLOC STUDENT - - - - TRIANGULAR = BLOC ( condition = " Kind in ( 'Triangular', ) ", - - A = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure de la loi | A < = M < = B", - ang = "Lower bound | A < = M < = B", - ), - - M = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Mode de la loi | A < = M < = B", - ang = "Mode | A < = M < = B", - ), - - B = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne superieure de la loi | A < = M < = B", - ang = "Upper bound | A < = M < = B", - ), - - ), # Fin BLOC TRIANGULAR - - - - TRUNCATEDNORMAL = BLOC ( condition = " Kind in ( 'TruncatedNormal', ) ", - - MuN = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - SigmaN = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre SigmaN de la loi | SigmaN > 0", - ang = "SigmaN parameter | SigmaN> 0", - ), - - 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 - - - - UNIFORM = BLOC ( condition = " Kind in ( 'Uniform', ) ", - - 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 UNIFORM - - - - USERDEFINED = BLOC ( condition = " Kind in ( 'UserDefined', ) ", - - # Il faut definir une collection de couples ( x,p ) - Values = SIMP ( statut = 'o', - typ = 'R', - max = '**', - ), - - ), # Fin BLOC USERDEFINED - - - - WEIBULL = BLOC ( condition = " Kind 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 = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Sigma de la loi | Sigma > 0", - ang = "Sigma parameter | Sigma > 0", - ), - - ), # Fin BLOC MuSigma_Parameters - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Gamma", - ang = "Gamma parameter", - ), - - ), # Fin BLOC WEIBULL - -) # Fin OPER DISTRIBUTION -# Ordre Catalogue DISTRIBUTION - - - - - - -#================================ -# 3. Definition de l'etude -#================================ - -# Nota : les variables de type PROC doivent etre en majuscules ! -CRITERIA = PROC ( nom = "CRITERIA", - op = None, - docu = "", - fr = "Mise en donnee pour le fichier de configuration de OPENTURNS.", - ang = "Writes the configuration file for OPENTURNS.", - - - - Type = SIMP ( statut = "o", - typ = "TXM", - into = ( "Min/Max", "Central Uncertainty", "Threshold Exceedence" ), - fr = "Type d'Analyse", - ang = "Analysis", - ), - - - - - - - - MinMax = BLOC ( condition = " Type in ( 'Min/Max', ) ", - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Experiment Plane", "Random Sampling" ), - fr = "Methode", - ang = "Method", - ), - # UC 3.1.1 - ExperimentPlaneSettings = BLOC ( condition = " Method in ( 'Experiment Plane', ) ", - - ExperimentPlane = SIMP ( statut = "o", - typ = "TXM", - into = ( "Axial", "Factorial", "Composite", ), - fr = "Methode", - ang = "Method", - ), - - Levels = SIMP ( statut = "o", - typ = "R", - val_min = 0.0, - max = '**', - fr = "Nombre de niveaux dans chaque direction", - ang = "Levels in each direction", - ), - - # Scaled Vector - UnitsPerDimension = SIMP ( statut = "o", - typ = "R", - max = '**', - fr = "Unite par dimension (autant que de variables declarees)", - ang = "Units per dimension (as much as declared variables)", - ), - - # Translation Vector - Center = SIMP ( statut = "o", - typ = "R", - max = '**', - fr = "Unite par dimension", - ang = "Units per dimension", - ), - - ), # Fin BLOC ExperimentPlaneSettings - - - - RandomSamplingSettings = BLOC ( condition = " Method in ( 'Random Sampling', ) ", - - SimulationsNumber = SIMP ( statut = "o", - typ = "I", - val_min = 1, - fr = "Nombre de points", - ang = "Points number", - ), - - ), # Fin BLOC RandomSamplingSettings - - Result = SIMP ( statut = "o", - typ = "TXM", - into = ( "Min/Max", ), - defaut = "Min/Max", - fr = "Le minimum et le maximum", - ang = "The min and max values", - ), - - - ), # Fin BLOC MinMax - - - - - CentralUncertainty = BLOC ( condition = " Type in ( 'Central Uncertainty', ) ", - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Taylor Variance Decomposition", "Random Sampling" ), - fr = "Methode", - ang = "Method", - ), - - # UC 3.2. - TaylorVarianceDecompositionSettings = BLOC ( condition = " Method in ( 'Taylor Variance Decomposition', ) ", - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - MeanFirstOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne au premier ordre", - ang = "MeanFirstOrder", - ), - - StandardDeviationFirstOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type au premier ordre", - ang = "StandardDeviationFirstOrder", - ), - - MeanSecondOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Moyenne au second ordre", - ang = "MeanSecondOrder", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "ImportanceFactor", - ), - ), # Fin FACT Result - - ), # Fin BLOC TaylorVarianceDecompositionSettings - - - - RandomSamplingSettings = BLOC ( condition = " Method in ( 'Random Sampling', ) ", - - SimulationsNumber = SIMP ( statut = "o", - typ = "I", - val_min = 1, - fr = "Nombre de points", - ang = "Points number", - ), - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - EmpiricalMean = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne empirique", - ang = "Empirical mean", - ), - - EmpiricalStandardDeviation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type empirique", - ang = "Empirical standard deviation", - ), - - EmpiricalQuantile = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Quantile empirique", - ang = "Empirical quantile", - ), - - EmpiricalQuantileSettings = BLOC ( condition = " EmpiricalQuantile in ( 'yes', ) ", - - EmpiricalQuantile_Order = SIMP ( statut = "o", - typ = 'R', - defaut = 0.95, - max = 1, - val_min = 0.0, - val_max = 1.0, - fr = "Ordre du quantile empirique", - ang = "Empirical quantile order", - ), - - ), # Fin BLOC EmpiricalQuantileSettings - - CorrelationAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Correlations analysees", - ang = "Analysed correlations", - ), - - KernelSmoothing = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Kernel smoothing de l'echantillon", - ang = "Kernel smoothing of the sample", - ), - - ), # Fin FACT Result - - ), # Fin BLOC RandomSamplingSettings - - ), # Fin BLOC CentralUncertainty - - - - - ThresholdExceedence = BLOC ( condition = " Type in ( 'Threshold Exceedence', ) ", - - Event = FACT ( statut = "o", - min = 1, - max = 1, - - Threshold = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Le seuil de defaillance", - ang = "Failure threshold", - ), - - ComparisonOperator = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "Less", "LessOrEqual", "Equal", "GreaterOrEqual", "Greater" ), - fr = "Que faut-il ne pas depasser : un maximum ou un minimum", - ang = "What is the failure threshold : maximum or minimum", - ), - ), # Fin FACT Event - - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Simulation", "FORM_SORM" ), - fr = "Methode", - ang = "Method", - ), - - SimulationSettings = BLOC ( condition = " Method in ( 'Simulation', ) ", - - Algorithm = SIMP ( statut = "o", - typ = "TXM", - into = ( "MonteCarlo", "LHS", "ImportanceSampling" ), - fr = "Algorithme de simulation", - ang = "Simulation algorithm", - ), - - - RandomGenerator = FACT ( statut = "o", - min = 1, - max = 1, - - SeedToBeSet = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "La racine du generateur aleatoire doit-elle etre positionnee ?", - ang = "Does the random generator seed need to be set ?", - ), - - SeedSettings = BLOC ( condition = " SeedToBeSet in ( 'yes', ) ", - - RandomGeneratorSeed = SIMP ( statut = "o", - typ = "I", - max = 1, - fr = "Racine du generateur aleatoire", - ang = "Random generator seed", - ), - - ), # Fin BLOC SeedSettings - - ), # Fin FACT RandomGenerator - - - BlockSize = SIMP ( statut = "f", - typ = "I", - max = 1, - val_min = 1, - defaut = 1, - fr = "Nombre de calculs realises en bloc", - ang = "Number of computations as a block", - ), - - MaximumOuterSampling = SIMP ( statut = "o", - typ = "I", - max = 1, - val_min = 1, - fr = "Maximum d'iterations externes", - ang = "Maximum outer Sampling value", - ), - - MaximumCoefficientOfVariation = SIMP ( statut = "o", - typ = "R", - max = 1., - defaut = 0.1, - val_min = 0.0, - fr = " maximum ...", - ang = "Absolute maximum ...." - ), - - ImportanceSamplingSettings = BLOC ( condition = " Algorithm in ( 'ImportanceSampling', ) ", - - MeanVector = SIMP ( statut = "o", - typ = "R", - max = "**", - fr = "Moyenne", - ang = "Mean vector", - ), - - Correlation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'Independent', 'Linear' ), - defaut = 'Linear', - max = 1, - fr = "Le type de correlation entre les variables", - ang = "Correlation between variables", - ), - - ), # Fin BLOC ImportanceSamplingSettings - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - Probability = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Probabiblite", - ang = "Probability", - ), - - StandardDeviation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Ecart type", - ang = "Standard deviation", - ), - - ConfidenceInterval = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type empirique", - ang = "Empirical standard deviation", - ), - - ConfidenceIntervalSettings = BLOC ( condition = " ConfidenceInterval in ( 'yes', ) ", - - Level = SIMP ( statut = "o", - typ = 'R', - defaut = 0.9, - max = 1, - val_min = 0.0, - val_max = 1.0, - fr = "Niveau de confiance", - ang = "Confidence level", - ), - - ), # Fin BLOC ConfidenceIntervalSettings - - VariationCoefficient = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Coefficient de variation", - ang = "VariationCoefficient", - ), - - SimulationsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Nombre d'iterations", - ang = "Iteration number", - ), - - ConvergenceGraph = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Graphe de convergence", - ang = "Convergence graph", - ), - - ), # Fin FACT Result - - - - ), # Fin BLOC SimulationSettings - - - - FORM_SORMSettings = BLOC ( condition = " Method in ( 'FORM_SORM', ) ", - - Approximation = SIMP ( statut = "o", - typ = "TXM", - defaut = "FirstOrder", - into = ( "FirstOrder", "SecondOrder" ), - max = 1, - fr = "Approximation", - ang = "Approximation", - ), - - OptimizationAlgorithm = SIMP ( statut = "o", - typ = "TXM", - defaut = "Cobyla", - into = ( "Cobyla", "AbdoRackwitz" ), - max = 1, - fr = "Methode d'optimisation", - ang = "Optimisation method", - ), - - - PhysicalStartingPoint = SIMP ( statut = "o", - typ = "R", - max = "**", - fr = "Point de demarrage de l'algorithme iteratif", - ang = "Initial point for iterative process", - ), - - MaximumIterationsNumber = SIMP ( statut = "o", - typ = "I", - max = 1, - val_min = 1, - fr = "Nombre maximum d iterations", - ang = "Maximum number of iterations", - ), - - - MaximumAbsoluteError = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Distance maximum absolue entre 2 iterations successifs", - ang = "Absolute maximum distance between 2 successive iterates", - ), - - MaximumRelativeError = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Distance maximum relative entre 2 iterations successives", - ang = "Relative maximum distance between 2 successive iterates", - ), - - MaximumConstraintError = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Valeur maximum absolue de la fonction moins la valeur du niveau", - ang = "Maximum absolute value of the constraint function minus the level value", - ), - - ImportanceSampling = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Tirage d'importance au point de conception", - ang = "Importance sampling at design point", - ), - - FORMResult = BLOC ( condition = " Approximation in ( 'FirstOrder', ) ", - - Probability = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Probabiblite", - ang = "Probability", - ), - - DesignPoint = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Point de conception", - ang = "Design point", - ), - - HasoferReliabilityIndex = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite", - ang = "Reliability index", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "ImportanceFactor", - ), - - SensitivityAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Analyse de sensibilite", - ang = "Sensitivity analysis", - ), - - SensitivityAnalysisSettings = BLOC ( condition = " SensitivityAnalysis in ( 'yes', ) ", - - FORMEventProbabilitySensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - HasoferReliabilityIndexSensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - ), # Fin BLOC SensitivityAnalysisSettings - - FunctionCallsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Nombre d'appels a la fonction", - ang = "Function calls number", - ), - - - ), # Fin BLOC FORMResult - - - SORMResult = BLOC ( condition = " Approximation in ( 'SecondOrder', ) ", - - - TvedtApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Approximation de Tvedt", - ang = "Tvedt approximation", - ), - - HohenBichlerApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Approximation de HohenBichler", - ang = "HohenBichler approximation", - ), - - BreitungApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Approximation de Breitung", - ang = "Breitung approximation", - ), - - DesignPoint = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Point de conception", - ang = "Design point", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "ImportanceFactor", - ), - - SensitivityAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Analyse de sensibilite", - ang = "Sensitivity analysis", - ), - - SensitivityAnalysisSettings = BLOC ( condition = " SensitivityAnalysis in ( 'yes', ) ", - - HasoferReliabilityIndexSensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - ), # Fin BLOC SensitivityAnalysisSettings - - FunctionCallsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Nombre d'appels a la fonction", - ang = "Function calls number", - ), - - - ), # Fin BLOC SecondOrder - - - - ), # Fin BLOC FORM_SORMSettings - - - - ), # Fin BLOC ThresholdExceedence - - - -) # Fin PROC CRITERIA -# Ordre Catalogue CRITERIA - - - - - - - diff --git a/Openturns_Study/OpenTURNS_Cata_Study_V6.py b/Openturns_Study/OpenTURNS_Cata_Study_V6.py deleted file mode 100644 index 80730558..00000000 --- a/Openturns_Study/OpenTURNS_Cata_Study_V6.py +++ /dev/null @@ -1,1726 +0,0 @@ -# -*- coding: utf-8 -*- - -# -------------------------------------------------- -# debut entete -# -------------------------------------------------- - -#from Accas import ASSD, JDC_CATA, AU_MOINS_UN, PROC, SIMP, FACT, OPER, MACRO, BLOC, A_VALIDATOR -from Accas import * - -class loi ( ASSD ) : pass -class variable ( ASSD ) : pass - -import types -class Tuple: - def __init__(self,ntuple): - self.ntuple=ntuple - - def __convert__(self,valeur): - if type(valeur) == types.StringType: - return None - if len(valeur) != self.ntuple: - return None - return valeur - - def info(self): - return "Tuple de %s elements" % self.ntuple - - __repr__=info - __str__=info - -class Matrice: - def __init__(self,nbLigs=None,nbCols=None,methodeCalculTaille=None,formatSortie="ligne",valSup=None,valMin=None,structure=None): - self.nbLigs=nbLigs - self.nbCols=nbCols - self.methodeCalculTaille=methodeCalculTaille - self.formatSortie=formatSortie - self.valSup=valSup - self.valMin=valMin - self.structure=structure - - def __convert__(self,valeur): - # Attention ne verifie pas grand chose - if type(valeur) != types.ListType : - return None - return valeur - - def info(self): - return "Matrice %s x %s" % (self.nbLigs, self.nbCols) - - __repr__=info - __str__=info - - -#CONTEXT.debug = 1 -JdC = JDC_CATA ( code = 'OPENTURNS_STUDY', - execmodul = None, - regles = ( AU_MOINS_UN ( 'CRITERIA' ), - AU_MOINS_UN ( 'MODEL' ), - AVANT ( ('DISTRIBUTION', 'MODEL'), 'VARIABLE' ), -# A_CLASSER ( 'VARIABLE', 'CORRELATION' ), -# A_CLASSER ( 'VARIABLE', 'CRITERIA' ), -# A_CLASSER ( 'CORRELATION', 'CRITERIA' ), - ), - ) # Fin JDC_CATA - - -# -------------------------------------------------- -# fin entete -# -------------------------------------------------- - -LOG = PROC ( nom = "LOG", - op = None, - docu = "", - - DebugMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de debug de la bibliotheque Open TURNS", - ang = "Open TURNS library debug level print", - ), - - WrapperMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de wrapper de la bibliotheque Open TURNS", - ang = "Open TURNS library debug level print", - ), - - UserMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de user de la bibliotheque Open TURNS", - ang = "Open TURNS library user level print", - ), - - InfoMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de info de la bibliotheque Open TURNS", - ang = "Open TURNS library info level print", - ), - - WarningMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de warning de la bibliotheque Open TURNS", - ang = "Open TURNS library warning level print", - ), - - ErrorMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de error de la bibliotheque Open TURNS", - ang = "Open TURNS library error level print", - ), - -) # Fin PROC LOG -# Ordre Catalogue LOG - - - - - -#================================ -# 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", - - -#==== -# Type de distribution -#==== - - Kind = SIMP ( statut = "o", typ = "TXM", - into = ( "Beta", - "Exponential", - "Gamma", - "Geometric", - "Gumbel", - "Histogram", - "Laplace", - "Logistic", - "LogNormal", - "MultiNomial", - "NonCentralStudent", - "Normal", - "Poisson", - "Rayleigh", - "Student", - "Triangular", - "TruncatedNormal", - "Uniform", - #"UserDefined", - "Weibull", - ), - fr = "Choix du type de la loi marginale", - ang = "1D marginal distribution", - ), - -#==== -# Definition des parametres selon le type de la loi -#==== - - BETA = BLOC ( condition = " Kind in ( 'Beta', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "RT", "MuSigma" ), - defaut = "RT", - fr = "Parametrage de la loi beta", - ang = "Beta distribution parameter set", - ), - - RT_Parameters = BLOC ( condition = " Settings in ( 'RT', ) ", - - R = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre R de la loi | R > 0", - ang = "R parameter | R > 0", - ), - - # T > R - T = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre T de la loi | T > R", - ang = "T parameter | T > R", - ), - - ), # Fin BLOC RT_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 - - - A = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure du support de la loi", - ang = "Support lower bound", - ), - - # B > A - B = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne superieure du support de la loi", - ang = "Support upper bound", - ), - - ), # Fin BLOC BETA - - - - EXPONENTIAL = BLOC ( condition = " Kind 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 - - - - GAMMA = BLOC ( condition = " Kind in ( 'Gamma', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "KLambda", "MuSigma" ), - defaut = "KLambda", - fr = "Parametrage de la loi gamma", - ang = "Gamma distribution parameter set", - ), - - KLambda_Parameters = BLOC ( condition = " Settings in ( 'KLambda', ) ", - - K = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre K de la loi | K > 0", - ang = "K parameter | K > 0", - ), - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda de la loi | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - ), # Fin BLOC KLambda_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 supoport de la loi", - ang = "Support lower bound", - ), - - - ), # Fin BLOC GAMMA - - - - GEOMETRIC = BLOC ( condition = " Kind in ( 'Geometric', ) ", - - P = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - val_max = 1., - fr = "Parametre P | 0 < P < 1", - ang = "P parameter | 0 < P < 1", - ), - - ), # Fin BLOC GEOMETRIC - - - - GUMBEL = BLOC ( condition = " Kind in ( 'Gumbel', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "AlphaBeta", "MuSigma" ), - defaut = "AlphaBeta", - fr = "Parametrage de la loi gumbel", - ang = "Gumbel 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, - fr = "Parametre Beta de la loi", - ang = "Beta parameter", - ), - - ), # 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 - - ), # Fin BLOC GUMBEL - - - - HISTOGRAM = BLOC ( condition = " Kind 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, probabilité associée", - ang = "Class bandwidth, associated probability couple list", - validators=VerifTypeTuple(('R','R')), - ), - - ), # Fin BLOC HISTOGRAM - - - - LAPLACE = BLOC ( condition = " Kind in ( 'Laplace', ) ", - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Moyenne de la loi", - ang = "Mean value", - ), - - ), # Fin BLOC LAPLACE - - LOGNORMAL = BLOC ( condition = " Kind in ( 'LogNormal', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "MuSigmaLog", "MuSigma", "MuSigmaOverMu" ), - defaut = "MuSigmaLog", - fr = "Parametrage de la loi lognormale", - ang = "Lognormal distribution parameter set", - ), - - 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 - - MuSigmaOverMu_Parameters = BLOC ( condition = " Settings in ( 'MuSigmaOverMu', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Moyenne de la loi", - ang = "Mean value", - ), - - SigmaOverMu = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Rapport ecart type / moyenne de la loi", - ang = "Standard deviation / mean value ratio", - ), - - ), # Fin BLOC MuSigmaOverMu_Parameters - - MuSigmaLog_Parameters = BLOC ( condition = " Settings in ( 'MuSigmaLog', ) ", - - MuLog = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Moyenne du log", - ang = "Log mean value", - ), - - SigmaLog = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Ecart type du log", - ang = "Log standard deviation", - ), - - ), # Fin BLOC MuSigmaLog_Parameters - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure du support de la loi", - ang = "Support lower bound", - ), - - ), # Fin BLOC LOGNORMAL - - - - LOGISTIC = BLOC ( condition = " Kind in ( 'Logistic', ) ", - - Alpha = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure du supoport de la loi", - ang = "Support lower bound", - ), - - 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 LOGISTIC - - - - MULTINOMIAL = BLOC ( condition = " Kind in ( 'MultiNomial', ) ", - - N = SIMP ( statut = "o", - typ = "I", - max = 1, - fr = "Parametre N de la loi | N > 0", - ang = "N parameter | N > 0", - ), - - # Il faut definir une collection de couples ( x,p ) - Values = SIMP ( statut = 'o', - typ = "R", - max = '**', - fr = "Liste de probabilités", - ang = "Probability list", - validators=VerifTypeTuple(('R','R')), - ), - - ), # Fin BLOC MULTINOMIAL - - - NONCENTRALSTUDENT = BLOC ( condition = " Kind in ( 'NonCentralStudent', ) ", - - Nu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Nu de la loi | Nu > 0", - ang = "Nu parameter | Nu > 0", - ), - - Delta = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Delta de la loi | Delta > 0", - ang = "Delta parameter | Delta > 0", - ), - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Gamma de centrage de la loi", - ang = "Gamma parameter", - ), - - ), # Fin BLOC NONCENTRALSTUDENT - - - NORMAL = BLOC ( condition = " Kind 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 - - - - POISSON = BLOC ( condition = " Kind in ( 'Poisson', ) ", - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda de la loi | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - ), # Fin BLOC POISSON - - - - RAYLEIGH = BLOC ( condition = " Kind 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 - - - STUDENT = BLOC ( condition = " Kind in ( 'Student', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Nu = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 2., - fr = "Parametre Nu de la loi | Nu > 2", - ang = "Nu parameter | Nu > 2", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Sigma de la loi", - ang = "Sigma parameter", - ), - - ), # Fin BLOC STUDENT - - - - TRIANGULAR = BLOC ( condition = " Kind in ( 'Triangular', ) ", - - A = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure du support de la loi | A < M < B", - ang = "Support lower bound | A < M < B", - ), - - M = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Mode de la loi | A < M < B", - ang = "Mode | A < M < B", - ), - - B = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne superieure du support de la loi | A < M < B", - ang = "Support upper bound | A < M < B", - ), - - ), # Fin BLOC TRIANGULAR - - - - TRUNCATEDNORMAL = BLOC ( condition = " Kind 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 - - - - UNIFORM = BLOC ( condition = " Kind 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 = " Kind in ( 'UserDefined', ) ", - - # Il faut definir une collection de couples ( x,p ) - Values = SIMP ( statut = 'o', - typ = 'R', - max = '**', - ), - - ), # Fin BLOC USERDEFINED - - - - WEIBULL = BLOC ( condition = " Kind 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 OPER DISTRIBUTION -# Ordre Catalogue DISTRIBUTION - - - -#================================ -# Definition du modele physique -#================================ - - -DETERMINISTICVARIABLE = OPER ( nom = "DETERMINISTICVARIABLE", - sd_prod = variable, - op = None, - fr = "Variable deterministe", - ang = "Deterministic variable", - - N = SIMP ( statut = 'o', - typ = "TXM", - fr = "Nom", - ang = "Name", - ), - - T = SIMP ( statut = 'o', - defaut = "in", - into = ( "in" , "out", ), - typ = "TXM", - fr = "Type", - ang = "Type", - ), - - R = SIMP ( statut = 'o', - defaut = 0, - typ = "I", - fr = "Rang", - ang = "Rank", - ), - -) # Fin OPER DETERMINISTICVARIABLE -# Ordre Catalogue DETERMINISTICVARIABLE - - - -import opsOT -MODEL = MACRO ( nom = "MODEL", - op = None, - UIinfo = { "groupes" : ( "Gestion du travail", ) }, - fr = "Chargement du wrapper du modele physique", - ang = "Physical model wrapper load", - sd_prod = opsOT.INCLUDE, - op_init = opsOT.INCLUDE_context, - fichier_ini = 1, - - FileName = SIMP ( statut = "o", - typ = "Fichier", - fr = "Nom du modele physique", - ang = "Physical model identifier", - ), - -) # Fin PROC MODEL -# Ordre Catalogue MODEL - - - - -VARIABLE = PROC ( nom = "VARIABLE", - op = None, - docu = "", - fr = "Variable probabiliste", - ang = "Probabilistic variable", - - ModelVariable = SIMP ( statut = "o", - typ = ( variable, ), - fr = "Variable d'entrée du modèle", - ang = "Input variable of the model", - ), - - Distribution = SIMP ( statut = "o", - typ = ( loi, ), - fr = "Modélisation probabiliste", - ang = "Probabilistic modelisation", - ), - -) # Fin PROC VARIABLE -# Ordre Catalogue VARIABLE - - -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='NbDeVariables', - valSup=1, - valMin=-1, - structure="symetrique"), - fr = "Matrice de correlation entre les variables d'entree", - ang = "Correlation matrix for input variables", - ), - ), # Fin BLOC Matrix - - -) # Fin PROC CORRELATION -# Ordre Catalogue CORRELATION - - - - - -#================================ -# Definition de l'etude -#================================ - -# Nota : les variables de type PROC doivent etre en majuscules ! -CRITERIA = PROC ( nom = "CRITERIA", - op = None, - docu = "", - fr = "Critère de l'étude d'incertitudes", - ang = "Uncertainty study criteria", - - - - Type = SIMP ( statut = "o", - typ = "TXM", - into = ( "Min/Max", "Central Uncertainty", "Threshold Exceedence" ), - fr = "Type du critère", - ang = "Criteria type", - ), - - - - - - - - MinMax = BLOC ( condition = " Type in ( 'Min/Max', ) ", - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Experiment Plane", "Random Sampling" ), - fr = "Methode", - ang = "Method", - ), - # UC 3.1.1 - ExperimentPlaneSettings = BLOC ( condition = " Method in ( 'Experiment Plane', ) ", - - ExperimentPlane = SIMP ( statut = "o", - typ = "TXM", - into = ( "Axial", "Factorial", "Composite", ), - fr = "Type du plan d'expérience", - ang = "Experiment plane type", - ), - - Levels = SIMP ( statut = "o", - typ = "R", - val_min = 0.0, - max = '**', - fr = "Liste de niveaux dans chaque direction", - ang = "Levels in each direction", - ), - - # Scaled Vector - UnitPerDimension = SIMP ( statut = "o", - typ = "R", - max = '**', - fr = "Unité par dimension (autant que de variables declarées)", - ang = "Units per dimension (as much as declared variables)", - ), - - # Translation Vector - Center = SIMP ( statut = "o", - typ = "R", - max = '**', - fr = "Centre du plan d'expérience", - ang = "Experiment plan center", - ), - - ), # Fin BLOC ExperimentPlaneSettings - - - - RandomSamplingSettings = BLOC ( condition = " Method in ( 'Random Sampling', ) ", - - SimulationsNumber = SIMP ( statut = "o", - typ = "I", - val_min = 1, - fr = "Nombre de points", - ang = "Points number", - ), - - ), # Fin BLOC RandomSamplingSettings - - Result = SIMP ( statut = "o", - typ = "TXM", - into = ( "Min/Max", ), - defaut = "Min/Max", - fr = "Le minimum et le maximum de la variable d'intérêt", - ang = "The min and max values", - ), - - - ), # Fin BLOC MinMax - - - - - CentralUncertainty = BLOC ( condition = " Type in ( 'Central Uncertainty', ) ", - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Taylor Variance Decomposition", "Random Sampling" ), - fr = "Methode", - ang = "Method", - ), - - # UC 3.2. - TaylorVarianceDecompositionSettings = BLOC ( condition = " Method in ( 'Taylor Variance Decomposition', ) ", - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - MeanFirstOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne au premier ordre", - ang = "MeanFirstOrder", - ), - - StandardDeviationFirstOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type au premier ordre", - ang = "StandardDeviationFirstOrder", - ), - - MeanSecondOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Moyenne au second ordre", - ang = "MeanSecondOrder", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "ImportanceFactor", - ), - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - ImportanceFactorDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des facteurs d'importance", - ang = "Importance Factor Drawing Filename", - ), - - - ), # Fin BLOC ImportanceFactorSettings - - ), # Fin FACT Result - - ), # Fin BLOC TaylorVarianceDecompositionSettings - - - - RandomSamplingSettings = BLOC ( condition = " Method in ( 'Random Sampling', ) ", - - SimulationsNumber = SIMP ( statut = "o", - typ = "I", - val_min = 1, - fr = "Nombre de points", - ang = "Points number", - ), - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - EmpiricalMean = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne empirique", - ang = "Empirical mean", - ), - - EmpiricalStandardDeviation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type empirique", - ang = "Empirical standard deviation", - ), - - EmpiricalQuantile = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Quantile empirique", - ang = "Empirical quantile", - ), - - EmpiricalQuantileSettings = BLOC ( condition = " EmpiricalQuantile in ( 'yes', ) ", - - EmpiricalQuantile_Order = SIMP ( statut = "o", - typ = 'R', - defaut = 0.95, - max = 1, - val_min = 0.0, - val_max = 1.0, - fr = "Ordre du quantile empirique", - ang = "Empirical quantile order", - ), - - ), # Fin BLOC EmpiricalQuantileSettings - - CorrelationAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Correlations analysees", - ang = "Analysed correlations", - ), - - KernelSmoothing = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Kernel smoothing de l'echantillon", - ang = "Kernel smoothing of the sample", - ), - - KernelSmoothingSettings = BLOC ( condition = " KernelSmoothing in ( 'yes', ) ", - - KernelSmoothingDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique de la reconstruction a noyau", - ang = "Kernel Smoothing Drawing Filename", - ), - - - ), # Fin BLOC KernelSmoothingSettings - - ), # Fin FACT Result - - ), # Fin BLOC RandomSamplingSettings - - ), # Fin BLOC CentralUncertainty - - - - - ThresholdExceedence = BLOC ( condition = " Type in ( 'Threshold Exceedence', ) ", - - Event = FACT ( statut = "o", - min = 1, - max = 1, - - Threshold = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Le seuil de defaillance", - ang = "Failure threshold", - ), - - ComparisonOperator = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "Less", "LessOrEqual", "Equal", "GreaterOrEqual", "Greater" ), - fr = "Que faut-il ne pas depasser : un maximum ou un minimum", - ang = "What is the failure threshold : maximum or minimum", - ), - ), # Fin FACT Event - - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Simulation", "FORM_SORM" ), - fr = "Methode", - ang = "Method", - ), - - SimulationSettings = BLOC ( condition = " Method in ( 'Simulation', ) ", - - Algorithm = SIMP ( statut = "o", - typ = "TXM", - into = ( "MonteCarlo", "LHS", "ImportanceSampling" ), - fr = "Algorithme de simulation", - ang = "Simulation algorithm", - ), - - - RandomGenerator = FACT ( statut = "o", - min = 1, - max = 1, - - SeedToBeSet = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "La racine du generateur aleatoire doit-elle etre positionnee ?", - ang = "Does the random generator seed need to be set ?", - ), - - SeedSettings = BLOC ( condition = " SeedToBeSet in ( 'yes', ) ", - - RandomGeneratorSeed = SIMP ( statut = "o", - typ = "I", - max = 1, - fr = "Racine du generateur aleatoire", - ang = "Random generator seed", - ), - - ), # Fin BLOC SeedSettings - - ), # Fin FACT RandomGenerator - - - BlockSize = SIMP ( statut = "o", - typ = "I", - max = 1, - val_min = 1, - defaut = 1, - fr = "Nombre de calculs realises en bloc", - ang = "Number of computations as a block", - ), - - MaximumOuterSampling = SIMP ( statut = "o", - typ = "I", - max = 1, - val_min = 1, - fr = "Maximum d'iterations externes", - ang = "Maximum outer Sampling value", - ), - - MaximumCoefficientOfVariation = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 0.1, - val_min = 0.0, - val_max = 1.0, - fr = "Coefficient de variation maximum", - ang = "Maximum coefficient of variation" - ), - - ImportanceSamplingSettings = BLOC ( condition = " Algorithm in ( 'ImportanceSampling', ) ", - - MeanVector = SIMP ( statut = "o", - typ = "R", - max = "**", - fr = "Moyenne", - ang = "Mean vector", - ), - - Correlation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'Independent', 'Linear' ), - defaut = 'Independent', - max = 1, - fr = "Le type de correlation entre les variables", - ang = "Correlation between variables", - ), - - ), # Fin BLOC ImportanceSamplingSettings - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - Probability = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Probabiblite", - ang = "Probability", - ), - - StandardDeviation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Ecart type", - ang = "Standard deviation", - ), - - ConfidenceInterval = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Intervale de confiance", - ang = "Confidence interval", - ), - - ConfidenceIntervalSettings = BLOC ( condition = " ConfidenceInterval in ( 'yes', ) ", - - Level = SIMP ( statut = "o", - typ = 'R', - defaut = 0.9, - max = 1, - val_min = 0.0, - val_max = 1.0, - fr = "Niveau de confiance", - ang = "Confidence level", - ), - - ), # Fin BLOC ConfidenceIntervalSettings - - VariationCoefficient = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Coefficient de variation", - ang = "Coefficient of variation", - ), - - SimulationsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Nombre d'iterations", - ang = "Iteration number", - ), - - ConvergenceGraph = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Graphe de convergence", - ang = "Convergence graph", - ), - - ConvergenceGraphSettings = BLOC ( condition = " ConvergenceGraph in ( 'yes', ) ", - - ConvergenceDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique de la convergence", - ang = "Convergence Drawing Filename", - ), - - - ), # Fin BLOC ConvergenceGraphSettings - - ), # Fin FACT Result - - - - ), # Fin BLOC SimulationSettings - - - - FORM_SORMSettings = BLOC ( condition = " Method in ( 'FORM_SORM', ) ", - - Approximation = SIMP ( statut = "o", - typ = "TXM", - defaut = "FirstOrder", - into = ( "FirstOrder", "SecondOrder" ), - max = 1, - fr = "Approximation", - ang = "Approximation", - ), - - OptimizationAlgorithm = SIMP ( statut = "o", - typ = "TXM", - defaut = "Cobyla", - into = ( "Cobyla", "AbdoRackwitz" ), - max = 1, - fr = "Methode d'optimisation", - ang = "Optimization method", - ), - - - PhysicalStartingPoint = SIMP ( statut = "f", - typ = "R", - max = "**", - fr = "Point de demarrage de l'algorithme iteratif", - ang = "Initial point for iterative process", - ), - - MaximumIterationsNumber = SIMP ( statut = "f", - typ = "I", - max = 1, - val_min = 1, - fr = "Nombre maximum d'iterations", - ang = "Maximum number of iterations", - ), - - - MaximumAbsoluteError = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Distance maximum absolue entre 2 iterations successives", - ang = "Absolute maximum distance between 2 successive iterates", - ), - - MaximumRelativeError = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Distance maximum relative entre 2 iterations successives", - ang = "Relative maximum distance between 2 successive iterates", - ), - - MaximumConstraintError = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Valeur maximum absolue de la fonction moins la valeur du niveau", - ang = "Maximum absolute value of the constraint function minus the level value", - ), - - ImportanceSampling = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Tirage d'importance au point de conception", - ang = "Importance sampling at design point", - ), - - FORMResult = BLOC ( condition = " Approximation in ( 'FirstOrder', ) ", - - Probability = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Probabiblite", - ang = "Probability", - ), - - DesignPoint = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Point de conception", - ang = "Design point", - ), - - HasoferReliabilityIndex = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite", - ang = "Reliability index", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "Importance factor", - ), - - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - ImportanceFactorDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des facteurs d'importance", - ang = "Importance Factor Drawing Filename", - ), - - - ), # Fin BLOC ImportanceFactorSettings - - SensitivityAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Analyse de sensibilite", - ang = "Sensitivity analysis", - ), - - SensitivityAnalysisSettings = BLOC ( condition = " SensitivityAnalysis in ( 'yes', ) ", - - FORMEventProbabilitySensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - FORMEventProbabilitySensitivitySettings = BLOC ( condition = " FORMEventProbabilitySensitivity in ( 'yes', ) ", - - FORMEventProbabilitySensitivityDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des sensibilites", - ang = "Sensitivity Drawing Filename", - ), - - - ), # Fin BLOC FORMEventProbabilitySensitivitySettings - - HasoferReliabilityIndexSensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - HasoferReliabilityIndexSensitivitySettings = BLOC ( condition = " HasoferReliabilityIndexSensitivity in ( 'yes', ) ", - - HasoferReliabilityIndexSensitivityDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des sensibilites", - ang = "Sensitivity Drawing Filename", - ), - - - ), # Fin BLOC FHasoferReliabilityIndexSensitivitySettings - - ), # Fin BLOC SensitivityAnalysisSettings - - FunctionCallsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Nombre d'appels a la fonction", - ang = "Function calls number", - ), - - - ), # Fin BLOC FORMResult - - - SORMResult = BLOC ( condition = " Approximation in ( 'SecondOrder', ) ", - - - TvedtApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Approximation de Tvedt", - ang = "Tvedt approximation", - ), - - HohenBichlerApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Approximation de HohenBichler", - ang = "HohenBichler approximation", - ), - - BreitungApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Approximation de Breitung", - ang = "Breitung approximation", - ), - - DesignPoint = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Point de conception", - ang = "Design point", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "Importance factor", - ), - - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - ImportanceFactorDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des facteurs d'importance", - ang = "Importance Factor Drawing Filename", - ), - - - ), # Fin BLOC ImportanceFactorSettings - - SensitivityAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Analyse de sensibilite", - ang = "Sensitivity analysis", - ), - - SensitivityAnalysisSettings = BLOC ( condition = " SensitivityAnalysis in ( 'yes', ) ", - - HasoferReliabilityIndexSensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - HasoferReliabilityIndexSensitivitySettings = BLOC ( condition = " HasoferReliabilityIndexSensitivity in ( 'yes', ) ", - - HasoferReliabilityIndexSensitivityDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des sensibilites", - ang = "Sensitivity Drawing Filename", - ), - - - ), # Fin BLOC FHasoferReliabilityIndexSensitivitySettings - - ), # Fin BLOC SensitivityAnalysisSettings - - FunctionCallsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Nombre d'appels a la fonction", - ang = "Function calls number", - ), - - - ), # Fin BLOC SecondOrder - - - - ), # Fin BLOC FORM_SORMSettings - - - - ), # Fin BLOC ThresholdExceedence - - - -) # Fin PROC CRITERIA -# Ordre Catalogue CRITERIA - - - - - - - diff --git a/Openturns_Study/OpenTURNS_Cata_Study_V7.py b/Openturns_Study/OpenTURNS_Cata_Study_V7.py deleted file mode 100644 index b8ac5d33..00000000 --- a/Openturns_Study/OpenTURNS_Cata_Study_V7.py +++ /dev/null @@ -1,1726 +0,0 @@ -# -*- coding: utf-8 -*- - -# -------------------------------------------------- -# debut entete -# -------------------------------------------------- - -#from Accas import ASSD, JDC_CATA, AU_MOINS_UN, PROC, SIMP, FACT, OPER, MACRO, BLOC, A_VALIDATOR -from Accas import * - -class loi ( ASSD ) : pass -class variable ( ASSD ) : pass - -import types -class Tuple: - def __init__(self,ntuple): - self.ntuple=ntuple - - def __convert__(self,valeur): - if type(valeur) == types.StringType: - return None - if len(valeur) != self.ntuple: - return None - return valeur - - def info(self): - return "Tuple de %s elements" % self.ntuple - - __repr__=info - __str__=info - -class Matrice: - def __init__(self,nbLigs=None,nbCols=None,methodeCalculTaille=None,formatSortie="ligne",valSup=None,valMin=None,structure=None): - self.nbLigs=nbLigs - self.nbCols=nbCols - self.methodeCalculTaille=methodeCalculTaille - self.formatSortie=formatSortie - self.valSup=valSup - self.valMin=valMin - self.structure=structure - - def __convert__(self,valeur): - # Attention ne verifie pas grand chose - if type(valeur) != types.ListType : - return None - return valeur - - def info(self): - return "Matrice %s x %s" % (self.nbLigs, self.nbCols) - - __repr__=info - __str__=info - - -#CONTEXT.debug = 1 -JdC = JDC_CATA ( code = 'OPENTURNS_STUDY', - execmodul = None, - regles = ( AU_MOINS_UN ( 'CRITERIA' ), - AU_MOINS_UN ( 'MODEL' ), - AVANT ( ('DISTRIBUTION', 'MODEL'), 'VARIABLE' ), -# A_CLASSER ( 'VARIABLE', 'CORRELATION' ), -# A_CLASSER ( 'VARIABLE', 'CRITERIA' ), -# A_CLASSER ( 'CORRELATION', 'CRITERIA' ), - ), - ) # Fin JDC_CATA - - -# -------------------------------------------------- -# fin entete -# -------------------------------------------------- - -LOG = PROC ( nom = "LOG", - op = None, - docu = "", - - DebugMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de debug de la bibliotheque Open TURNS", - ang = "Open TURNS library debug level print", - ), - - WrapperMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de wrapper de la bibliotheque Open TURNS", - ang = "Open TURNS library debug level print", - ), - - UserMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de user de la bibliotheque Open TURNS", - ang = "Open TURNS library user level print", - ), - - InfoMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de info de la bibliotheque Open TURNS", - ang = "Open TURNS library info level print", - ), - - WarningMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de warning de la bibliotheque Open TURNS", - ang = "Open TURNS library warning level print", - ), - - ErrorMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de error de la bibliotheque Open TURNS", - ang = "Open TURNS library error level print", - ), - -) # Fin PROC LOG -# Ordre Catalogue LOG - - - - - -#================================ -# 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", - - -#==== -# Type de distribution -#==== - - Kind = SIMP ( statut = "o", typ = "TXM", - into = ( "Beta", - "Exponential", - "Gamma", - "Geometric", - "Gumbel", - "Histogram", - "Laplace", - "Logistic", - "LogNormal", - "MultiNomial", - "NonCentralStudent", - "Normal", - "Poisson", - "Rayleigh", - "Student", - "Triangular", - "TruncatedNormal", - "Uniform", - #"UserDefined", - "Weibull", - ), - fr = "Choix du type de la loi marginale", - ang = "1D marginal distribution", - ), - -#==== -# Definition des parametres selon le type de la loi -#==== - - BETA = BLOC ( condition = " Kind in ( 'Beta', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "RT", "MuSigma" ), - defaut = "RT", - fr = "Parametrage de la loi beta", - ang = "Beta distribution parameter set", - ), - - RT_Parameters = BLOC ( condition = " Settings in ( 'RT', ) ", - - R = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre R de la loi | R > 0", - ang = "R parameter | R > 0", - ), - - # T > R - T = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre T de la loi | T > R", - ang = "T parameter | T > R", - ), - - ), # Fin BLOC RT_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 - - - A = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure du support de la loi", - ang = "Support lower bound", - ), - - # B > A - B = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne superieure du support de la loi", - ang = "Support upper bound", - ), - - ), # Fin BLOC BETA - - - - EXPONENTIAL = BLOC ( condition = " Kind 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 - - - - GAMMA = BLOC ( condition = " Kind in ( 'Gamma', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "KLambda", "MuSigma" ), - defaut = "KLambda", - fr = "Parametrage de la loi gamma", - ang = "Gamma distribution parameter set", - ), - - KLambda_Parameters = BLOC ( condition = " Settings in ( 'KLambda', ) ", - - K = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre K de la loi | K > 0", - ang = "K parameter | K > 0", - ), - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda de la loi | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - ), # Fin BLOC KLambda_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 supoport de la loi", - ang = "Support lower bound", - ), - - - ), # Fin BLOC GAMMA - - - - GEOMETRIC = BLOC ( condition = " Kind in ( 'Geometric', ) ", - - P = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - val_max = 1., - fr = "Parametre P | 0 < P < 1", - ang = "P parameter | 0 < P < 1", - ), - - ), # Fin BLOC GEOMETRIC - - - - GUMBEL = BLOC ( condition = " Kind in ( 'Gumbel', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "AlphaBeta", "MuSigma" ), - defaut = "AlphaBeta", - fr = "Parametrage de la loi gumbel", - ang = "Gumbel 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, - fr = "Parametre Beta de la loi", - ang = "Beta parameter", - ), - - ), # 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 - - ), # Fin BLOC GUMBEL - - - - HISTOGRAM = BLOC ( condition = " Kind 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 - - - - LAPLACE = BLOC ( condition = " Kind in ( 'Laplace', ) ", - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Moyenne de la loi", - ang = "Mean value", - ), - - ), # Fin BLOC LAPLACE - - LOGNORMAL = BLOC ( condition = " Kind in ( 'LogNormal', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "MuSigmaLog", "MuSigma", "MuSigmaOverMu" ), - defaut = "MuSigmaLog", - fr = "Parametrage de la loi lognormale", - ang = "Lognormal distribution parameter set", - ), - - 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 - - MuSigmaOverMu_Parameters = BLOC ( condition = " Settings in ( 'MuSigmaOverMu', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Moyenne de la loi", - ang = "Mean value", - ), - - SigmaOverMu = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Rapport ecart type / moyenne de la loi", - ang = "Standard deviation / mean value ratio", - ), - - ), # Fin BLOC MuSigmaOverMu_Parameters - - MuSigmaLog_Parameters = BLOC ( condition = " Settings in ( 'MuSigmaLog', ) ", - - MuLog = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Moyenne du log", - ang = "Log mean value", - ), - - SigmaLog = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Ecart type du log", - ang = "Log standard deviation", - ), - - ), # Fin BLOC MuSigmaLog_Parameters - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure du support de la loi", - ang = "Support lower bound", - ), - - ), # Fin BLOC LOGNORMAL - - - - LOGISTIC = BLOC ( condition = " Kind in ( 'Logistic', ) ", - - Alpha = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure du supoport de la loi", - ang = "Support lower bound", - ), - - 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 LOGISTIC - - - - MULTINOMIAL = BLOC ( condition = " Kind in ( 'MultiNomial', ) ", - - N = SIMP ( statut = "o", - typ = "I", - max = 1, - fr = "Parametre N de la loi | N > 0", - ang = "N parameter | N > 0", - ), - - # Il faut definir une collection de couples ( x,p ) - Values = SIMP ( statut = 'o', - typ = "R", - max = '**', - fr = "Liste de probabilités", - ang = "Probability list", - validators=VerifTypeTuple(('R','R')), - ), - - ), # Fin BLOC MULTINOMIAL - - - NONCENTRALSTUDENT = BLOC ( condition = " Kind in ( 'NonCentralStudent', ) ", - - Nu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Nu de la loi | Nu > 0", - ang = "Nu parameter | Nu > 0", - ), - - Delta = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Delta de la loi | Delta > 0", - ang = "Delta parameter | Delta > 0", - ), - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Gamma de centrage de la loi", - ang = "Gamma parameter", - ), - - ), # Fin BLOC NONCENTRALSTUDENT - - - NORMAL = BLOC ( condition = " Kind 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 - - - - POISSON = BLOC ( condition = " Kind in ( 'Poisson', ) ", - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda de la loi | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - ), # Fin BLOC POISSON - - - - RAYLEIGH = BLOC ( condition = " Kind 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 - - - STUDENT = BLOC ( condition = " Kind in ( 'Student', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Nu = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 2., - fr = "Parametre Nu de la loi | Nu > 2", - ang = "Nu parameter | Nu > 2", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Sigma de la loi", - ang = "Sigma parameter", - ), - - ), # Fin BLOC STUDENT - - - - TRIANGULAR = BLOC ( condition = " Kind in ( 'Triangular', ) ", - - A = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure du support de la loi | A < M < B", - ang = "Support lower bound | A < M < B", - ), - - M = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Mode de la loi | A < M < B", - ang = "Mode | A < M < B", - ), - - B = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne superieure du support de la loi | A < M < B", - ang = "Support upper bound | A < M < B", - ), - - ), # Fin BLOC TRIANGULAR - - - - TRUNCATEDNORMAL = BLOC ( condition = " Kind 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 - - - - UNIFORM = BLOC ( condition = " Kind 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 = " Kind in ( 'UserDefined', ) ", - - # Il faut definir une collection de couples ( x,p ) - Values = SIMP ( statut = 'o', - typ = 'R', - max = '**', - ), - - ), # Fin BLOC USERDEFINED - - - - WEIBULL = BLOC ( condition = " Kind 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 OPER DISTRIBUTION -# Ordre Catalogue DISTRIBUTION - - - -#================================ -# Definition du modele physique -#================================ - - -DETERMINISTICVARIABLE = OPER ( nom = "DETERMINISTICVARIABLE", - sd_prod = variable, - op = None, - fr = "Variable deterministe", - ang = "Deterministic variable", - - N = SIMP ( statut = 'o', - typ = "TXM", - fr = "Nom", - ang = "Name", - ), - - T = SIMP ( statut = 'o', - defaut = "in", - into = ( "in" , "out", ), - typ = "TXM", - fr = "Type", - ang = "Type", - ), - - R = SIMP ( statut = 'o', - defaut = 0, - typ = "I", - fr = "Rang", - ang = "Rank", - ), - -) # Fin OPER DETERMINISTICVARIABLE -# Ordre Catalogue DETERMINISTICVARIABLE - - - -import opsOT -MODEL = MACRO ( nom = "MODEL", - op = None, - UIinfo = { "groupes" : ( "Gestion du travail", ) }, - fr = "Chargement du wrapper du modele physique", - ang = "Physical model wrapper load", - sd_prod = opsOT.INCLUDE, - op_init = opsOT.INCLUDE_context, - fichier_ini = 1, - - FileName = SIMP ( statut = "o", - typ = "Fichier", - fr = "Nom du modele physique", - ang = "Physical model identifier", - ), - -) # Fin PROC MODEL -# Ordre Catalogue MODEL - - - - -VARIABLE = PROC ( nom = "VARIABLE", - op = None, - docu = "", - fr = "Variable probabiliste", - ang = "Probabilistic variable", - - ModelVariable = SIMP ( statut = "o", - typ = ( variable, ), - fr = "Variable d'entrée du modèle", - ang = "Input variable of the model", - ), - - Distribution = SIMP ( statut = "o", - typ = ( loi, ), - fr = "Modélisation probabiliste", - ang = "Probabilistic modelisation", - ), - -) # Fin PROC VARIABLE -# Ordre Catalogue VARIABLE - - -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='NbDeVariables', - valSup=1, - valMin=-1, - structure="symetrique"), - fr = "Matrice de correlation entre les variables d'entree", - ang = "Correlation matrix for input variables", - ), - ), # Fin BLOC Matrix - - -) # Fin PROC CORRELATION -# Ordre Catalogue CORRELATION - - - - - -#================================ -# Definition de l'etude -#================================ - -# Nota : les variables de type PROC doivent etre en majuscules ! -CRITERIA = PROC ( nom = "CRITERIA", - op = None, - docu = "", - fr = "Critère de l'étude d'incertitudes", - ang = "Uncertainty study criteria", - - - - Type = SIMP ( statut = "o", - typ = "TXM", - into = ( "Min/Max", "Central Uncertainty", "Threshold Exceedence" ), - fr = "Type du critère", - ang = "Criteria type", - ), - - - - - - - - MinMax = BLOC ( condition = " Type in ( 'Min/Max', ) ", - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Experiment Plane", "Random Sampling" ), - fr = "Methode", - ang = "Method", - ), - # UC 3.1.1 - ExperimentPlaneSettings = BLOC ( condition = " Method in ( 'Experiment Plane', ) ", - - ExperimentPlane = SIMP ( statut = "o", - typ = "TXM", - into = ( "Axial", "Factorial", "Composite", ), - fr = "Type du plan d'expérience", - ang = "Experiment plane type", - ), - - Levels = SIMP ( statut = "o", - typ = "R", - val_min = 0.0, - max = '**', - fr = "Liste de niveaux dans chaque direction", - ang = "Levels in each direction", - ), - - # Scaled Vector - UnitPerDimension = SIMP ( statut = "o", - typ = "R", - max = '**', - fr = "Unité par dimension (autant que de variables declarées)", - ang = "Units per dimension (as much as declared variables)", - ), - - # Translation Vector - Center = SIMP ( statut = "o", - typ = "R", - max = '**', - fr = "Centre du plan d'expérience", - ang = "Experiment plan center", - ), - - ), # Fin BLOC ExperimentPlaneSettings - - - - RandomSamplingSettings = BLOC ( condition = " Method in ( 'Random Sampling', ) ", - - SimulationsNumber = SIMP ( statut = "o", - typ = "I", - val_min = 1, - fr = "Nombre de points", - ang = "Points number", - ), - - ), # Fin BLOC RandomSamplingSettings - - Result = SIMP ( statut = "o", - typ = "TXM", - into = ( "Min/Max", ), - defaut = "Min/Max", - fr = "Le minimum et le maximum de la variable d'intérêt", - ang = "The min and max values", - ), - - - ), # Fin BLOC MinMax - - - - - CentralUncertainty = BLOC ( condition = " Type in ( 'Central Uncertainty', ) ", - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Taylor Variance Decomposition", "Random Sampling" ), - fr = "Methode", - ang = "Method", - ), - - # UC 3.2. - TaylorVarianceDecompositionSettings = BLOC ( condition = " Method in ( 'Taylor Variance Decomposition', ) ", - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - MeanFirstOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne au premier ordre", - ang = "MeanFirstOrder", - ), - - StandardDeviationFirstOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type au premier ordre", - ang = "StandardDeviationFirstOrder", - ), - - MeanSecondOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Moyenne au second ordre", - ang = "MeanSecondOrder", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "ImportanceFactor", - ), - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - ImportanceFactorDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des facteurs d'importance", - ang = "Importance Factor Drawing Filename", - ), - - - ), # Fin BLOC ImportanceFactorSettings - - ), # Fin FACT Result - - ), # Fin BLOC TaylorVarianceDecompositionSettings - - - - RandomSamplingSettings = BLOC ( condition = " Method in ( 'Random Sampling', ) ", - - SimulationsNumber = SIMP ( statut = "o", - typ = "I", - val_min = 1, - fr = "Nombre de points", - ang = "Points number", - ), - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - EmpiricalMean = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne empirique", - ang = "Empirical mean", - ), - - EmpiricalStandardDeviation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type empirique", - ang = "Empirical standard deviation", - ), - - EmpiricalQuantile = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Quantile empirique", - ang = "Empirical quantile", - ), - - EmpiricalQuantileSettings = BLOC ( condition = " EmpiricalQuantile in ( 'yes', ) ", - - EmpiricalQuantile_Order = SIMP ( statut = "o", - typ = 'R', - defaut = 0.95, - max = 1, - val_min = 0.0, - val_max = 1.0, - fr = "Ordre du quantile empirique", - ang = "Empirical quantile order", - ), - - ), # Fin BLOC EmpiricalQuantileSettings - - CorrelationAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Correlations analysees", - ang = "Analysed correlations", - ), - - KernelSmoothing = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Kernel smoothing de l'echantillon", - ang = "Kernel smoothing of the sample", - ), - - KernelSmoothingSettings = BLOC ( condition = " KernelSmoothing in ( 'yes', ) ", - - KernelSmoothingDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique de la reconstruction a noyau", - ang = "Kernel Smoothing Drawing Filename", - ), - - - ), # Fin BLOC KernelSmoothingSettings - - ), # Fin FACT Result - - ), # Fin BLOC RandomSamplingSettings - - ), # Fin BLOC CentralUncertainty - - - - - ThresholdExceedence = BLOC ( condition = " Type in ( 'Threshold Exceedence', ) ", - - Event = FACT ( statut = "o", - min = 1, - max = 1, - - Threshold = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Le seuil de defaillance", - ang = "Failure threshold", - ), - - ComparisonOperator = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "Less", "LessOrEqual", "Equal", "GreaterOrEqual", "Greater" ), - fr = "Que faut-il ne pas depasser : un maximum ou un minimum", - ang = "What is the failure threshold : maximum or minimum", - ), - ), # Fin FACT Event - - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Simulation", "FORM_SORM" ), - fr = "Methode", - ang = "Method", - ), - - SimulationSettings = BLOC ( condition = " Method in ( 'Simulation', ) ", - - Algorithm = SIMP ( statut = "o", - typ = "TXM", - into = ( "MonteCarlo", "LHS", "ImportanceSampling" ), - fr = "Algorithme de simulation", - ang = "Simulation algorithm", - ), - - - RandomGenerator = FACT ( statut = "o", - min = 1, - max = 1, - - SeedToBeSet = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "La racine du generateur aleatoire doit-elle etre positionnee ?", - ang = "Does the random generator seed need to be set ?", - ), - - SeedSettings = BLOC ( condition = " SeedToBeSet in ( 'yes', ) ", - - RandomGeneratorSeed = SIMP ( statut = "o", - typ = "I", - max = 1, - fr = "Racine du generateur aleatoire", - ang = "Random generator seed", - ), - - ), # Fin BLOC SeedSettings - - ), # Fin FACT RandomGenerator - - - BlockSize = SIMP ( statut = "o", - typ = "I", - max = 1, - val_min = 1, - defaut = 1, - fr = "Nombre de calculs realises en bloc", - ang = "Number of computations as a block", - ), - - MaximumOuterSampling = SIMP ( statut = "o", - typ = "I", - max = 1, - val_min = 1, - fr = "Maximum d'iterations externes", - ang = "Maximum outer Sampling value", - ), - - MaximumCoefficientOfVariation = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 0.1, - val_min = 0.0, - val_max = 1.0, - fr = "Coefficient de variation maximum", - ang = "Maximum coefficient of variation" - ), - - ImportanceSamplingSettings = BLOC ( condition = " Algorithm in ( 'ImportanceSampling', ) ", - - MeanVector = SIMP ( statut = "o", - typ = "R", - max = "**", - fr = "Moyenne", - ang = "Mean vector", - ), - - Correlation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'Independent', 'Linear' ), - defaut = 'Independent', - max = 1, - fr = "Le type de correlation entre les variables", - ang = "Correlation between variables", - ), - - ), # Fin BLOC ImportanceSamplingSettings - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - Probability = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Probabiblite", - ang = "Probability", - ), - - StandardDeviation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Ecart type", - ang = "Standard deviation", - ), - - ConfidenceInterval = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Intervale de confiance", - ang = "Confidence interval", - ), - - ConfidenceIntervalSettings = BLOC ( condition = " ConfidenceInterval in ( 'yes', ) ", - - Level = SIMP ( statut = "o", - typ = 'R', - defaut = 0.9, - max = 1, - val_min = 0.0, - val_max = 1.0, - fr = "Niveau de confiance", - ang = "Confidence level", - ), - - ), # Fin BLOC ConfidenceIntervalSettings - - VariationCoefficient = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Coefficient de variation", - ang = "Coefficient of variation", - ), - - SimulationsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Nombre d'iterations", - ang = "Iteration number", - ), - - ConvergenceGraph = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Graphe de convergence", - ang = "Convergence graph", - ), - - ConvergenceGraphSettings = BLOC ( condition = " ConvergenceGraph in ( 'yes', ) ", - - ConvergenceDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique de la convergence", - ang = "Convergence Drawing Filename", - ), - - - ), # Fin BLOC ConvergenceGraphSettings - - ), # Fin FACT Result - - - - ), # Fin BLOC SimulationSettings - - - - FORM_SORMSettings = BLOC ( condition = " Method in ( 'FORM_SORM', ) ", - - Approximation = SIMP ( statut = "o", - typ = "TXM", - defaut = "FirstOrder", - into = ( "FirstOrder", "SecondOrder" ), - max = 1, - fr = "Approximation", - ang = "Approximation", - ), - - OptimizationAlgorithm = SIMP ( statut = "o", - typ = "TXM", - defaut = "Cobyla", - into = ( "Cobyla", "AbdoRackwitz" ), - max = 1, - fr = "Methode d'optimisation", - ang = "Optimization method", - ), - - - PhysicalStartingPoint = SIMP ( statut = "f", - typ = "R", - max = "**", - fr = "Point de demarrage de l'algorithme iteratif", - ang = "Initial point for iterative process", - ), - - MaximumIterationsNumber = SIMP ( statut = "f", - typ = "I", - max = 1, - val_min = 1, - fr = "Nombre maximum d'iterations", - ang = "Maximum number of iterations", - ), - - - MaximumAbsoluteError = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Distance maximum absolue entre 2 iterations successives", - ang = "Absolute maximum distance between 2 successive iterates", - ), - - MaximumRelativeError = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Distance maximum relative entre 2 iterations successives", - ang = "Relative maximum distance between 2 successive iterates", - ), - - MaximumConstraintError = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Valeur maximum absolue de la fonction moins la valeur du niveau", - ang = "Maximum absolute value of the constraint function minus the level value", - ), - - ImportanceSampling = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Tirage d'importance au point de conception", - ang = "Importance sampling at design point", - ), - - FORMResult = BLOC ( condition = " Approximation in ( 'FirstOrder', ) ", - - Probability = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Probabiblite", - ang = "Probability", - ), - - DesignPoint = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Point de conception", - ang = "Design point", - ), - - HasoferReliabilityIndex = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite", - ang = "Reliability index", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "Importance factor", - ), - - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - ImportanceFactorDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des facteurs d'importance", - ang = "Importance Factor Drawing Filename", - ), - - - ), # Fin BLOC ImportanceFactorSettings - - SensitivityAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Analyse de sensibilite", - ang = "Sensitivity analysis", - ), - - SensitivityAnalysisSettings = BLOC ( condition = " SensitivityAnalysis in ( 'yes', ) ", - - FORMEventProbabilitySensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - FORMEventProbabilitySensitivitySettings = BLOC ( condition = " FORMEventProbabilitySensitivity in ( 'yes', ) ", - - FORMEventProbabilitySensitivityDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des sensibilites", - ang = "Sensitivity Drawing Filename", - ), - - - ), # Fin BLOC FORMEventProbabilitySensitivitySettings - - HasoferReliabilityIndexSensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - HasoferReliabilityIndexSensitivitySettings = BLOC ( condition = " HasoferReliabilityIndexSensitivity in ( 'yes', ) ", - - HasoferReliabilityIndexSensitivityDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des sensibilites", - ang = "Sensitivity Drawing Filename", - ), - - - ), # Fin BLOC FHasoferReliabilityIndexSensitivitySettings - - ), # Fin BLOC SensitivityAnalysisSettings - - FunctionCallsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Nombre d'appels a la fonction", - ang = "Function calls number", - ), - - - ), # Fin BLOC FORMResult - - - SORMResult = BLOC ( condition = " Approximation in ( 'SecondOrder', ) ", - - - TvedtApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Approximation de Tvedt", - ang = "Tvedt approximation", - ), - - HohenBichlerApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Approximation de HohenBichler", - ang = "HohenBichler approximation", - ), - - BreitungApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Approximation de Breitung", - ang = "Breitung approximation", - ), - - DesignPoint = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Point de conception", - ang = "Design point", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "Importance factor", - ), - - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - ImportanceFactorDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des facteurs d'importance", - ang = "Importance Factor Drawing Filename", - ), - - - ), # Fin BLOC ImportanceFactorSettings - - SensitivityAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Analyse de sensibilite", - ang = "Sensitivity analysis", - ), - - SensitivityAnalysisSettings = BLOC ( condition = " SensitivityAnalysis in ( 'yes', ) ", - - HasoferReliabilityIndexSensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - HasoferReliabilityIndexSensitivitySettings = BLOC ( condition = " HasoferReliabilityIndexSensitivity in ( 'yes', ) ", - - HasoferReliabilityIndexSensitivityDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des sensibilites", - ang = "Sensitivity Drawing Filename", - ), - - - ), # Fin BLOC FHasoferReliabilityIndexSensitivitySettings - - ), # Fin BLOC SensitivityAnalysisSettings - - FunctionCallsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Nombre d'appels a la fonction", - ang = "Function calls number", - ), - - - ), # Fin BLOC SecondOrder - - - - ), # Fin BLOC FORM_SORMSettings - - - - ), # Fin BLOC ThresholdExceedence - - - -) # Fin PROC CRITERIA -# Ordre Catalogue CRITERIA - - - - - - - diff --git a/Openturns_Study/OpenTURNS_Cata_Study_V7.py.orig b/Openturns_Study/OpenTURNS_Cata_Study_V7.py.orig deleted file mode 100644 index 9a239a09..00000000 --- a/Openturns_Study/OpenTURNS_Cata_Study_V7.py.orig +++ /dev/null @@ -1,1719 +0,0 @@ -# -*- coding: utf-8 -*- - -# -------------------------------------------------- -# debut entete -# -------------------------------------------------- - -#from Accas import ASSD, JDC_CATA, AU_MOINS_UN, PROC, SIMP, FACT, OPER, MACRO, BLOC, A_VALIDATOR -from Accas import * - -class loi ( ASSD ) : pass -class variable ( ASSD ) : pass - -import types -class Tuple: - def __init__(self,ntuple): - self.ntuple=ntuple - - def __convert__(self,valeur): - if type(valeur) == types.StringType: - return None - if len(valeur) != self.ntuple: - return None - return valeur - - def info(self): - return "Tuple de %s elements" % self.ntuple - - __repr__=info - __str__=info - -class Matrice: - def __init__(self,nbLigs=None,nbCols=None,methodeCalculTaille=None,formatSortie="ligne",valSup=None,valMin=None,structure=None): - self.nbLigs=nbLigs - self.nbCols=nbCols - self.methodeCalculTaille=methodeCalculTaille - self.formatSortie=formatSortie - self.valSup=valSup - self.valMin=valMin - self.structure=structure - - def __convert__(self,valeur): - # Attention ne verifie pas grand chose - if type(valeur) != types.ListType : - return None - return valeur - - def info(self): - return "Matrice %s x %s" % (self.nbLigs, self.nbCols) - - __repr__=info - __str__=info - - -#CONTEXT.debug = 1 -JdC = JDC_CATA ( code = 'OPENTURNS_STUDY', - execmodul = None, - regles = ( AU_MOINS_UN ( 'CRITERIA' ), - AU_MOINS_UN ( 'MODEL' ), - AVANT ( ('DISTRIBUTION', 'MODEL'), 'VARIABLE' ), -# A_CLASSER ( 'VARIABLE', 'CORRELATION' ), -# A_CLASSER ( 'VARIABLE', 'CRITERIA' ), -# A_CLASSER ( 'CORRELATION', 'CRITERIA' ), - ), - ) # Fin JDC_CATA - - -# -------------------------------------------------- -# fin entete -# -------------------------------------------------- - -LOG = PROC ( nom = "LOG", - op = None, - docu = "", - - DebugMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de debug de la bibliotheque Open TURNS", - ang = "Open TURNS library debug level print", - ), - - WrapperMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de wrapper de la bibliotheque Open TURNS", - ang = "Open TURNS library debug level print", - ), - - UserMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de user de la bibliotheque Open TURNS", - ang = "Open TURNS library user level print", - ), - - InfoMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de info de la bibliotheque Open TURNS", - ang = "Open TURNS library info level print", - ), - - WarningMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de warning de la bibliotheque Open TURNS", - ang = "Open TURNS library warning level print", - ), - - ErrorMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de error de la bibliotheque Open TURNS", - ang = "Open TURNS library error level print", - ), - -) # Fin PROC LOG -# Ordre Catalogue LOG - - - - - -#================================ -# 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", - - -#==== -# Type de distribution -#==== - - Kind = SIMP ( statut = "o", typ = "TXM", - into = ( "Beta", - "Exponential", - "Gamma", - "Geometric", - "Gumbel", - "Histogram", - "Laplace", - "Logistic", - "LogNormal", - "MultiNomial", - "NonCentralStudent", - "Normal", - "Poisson", - "Rayleigh", - "Student", - "Triangular", - "TruncatedNormal", - "Uniform", - #"UserDefined", - "Weibull", - ), - fr = "Choix du type de la loi marginale", - ang = "1D marginal distribution", - ), - -#==== -# Definition des parametres selon le type de la loi -#==== - - BETA = BLOC ( condition = " Kind in ( 'Beta', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "RT", "MuSigma" ), - defaut = "RT", - fr = "Parametrage de la loi beta", - ang = "Beta distribution parameter set", - ), - - RT_Parameters = BLOC ( condition = " Settings in ( 'RT', ) ", - - R = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre R de la loi | R > 0", - ang = "R parameter | R > 0", - ), - - # T > R - T = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre T de la loi | T > R", - ang = "T parameter | T > R", - ), - - ), # Fin BLOC RT_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 - - - A = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure du support de la loi", - ang = "Support lower bound", - ), - - # B > A - B = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne superieure du support de la loi", - ang = "Support upper bound", - ), - - ), # Fin BLOC BETA - - - - EXPONENTIAL = BLOC ( condition = " Kind 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 - - - - GAMMA = BLOC ( condition = " Kind in ( 'Gamma', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "KLambda", "MuSigma" ), - defaut = "KLambda", - fr = "Parametrage de la loi gamma", - ang = "Gamma distribution parameter set", - ), - - KLambda_Parameters = BLOC ( condition = " Settings in ( 'KLambda', ) ", - - K = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre K de la loi | K > 0", - ang = "K parameter | K > 0", - ), - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda de la loi | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - ), # Fin BLOC KLambda_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 = "Parametre Gamma", - ang = "Gamma parameter", - ), - - - ), # Fin BLOC GAMMA - - - - GEOMETRIC = BLOC ( condition = " Kind in ( 'Geometric', ) ", - - P = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - val_max = 1., - fr = "Parametre P | 0 < P < 1", - ang = "P parameter | 0 < P < 1", - ), - - ), # Fin BLOC GEOMETRIC - - - - GUMBEL = BLOC ( condition = " Kind in ( 'Gumbel', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "AlphaBeta", "MuSigma" ), - defaut = "AlphaBeta", - fr = "Parametrage de la loi gumbel", - ang = "Gumbel 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, - fr = "Parametre Beta de la loi", - ang = "Beta parameter", - ), - - ), # 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 - - ), # Fin BLOC GUMBEL - - - - HISTOGRAM = BLOC ( condition = " Kind in ( 'Histogram', ) ", - - First = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Premier point de la distribution", - ang = "First point", - ), - - # Il faut definir une collection de couples ( x,p ) - Values = SIMP ( statut = 'o', - typ = Tuple(2), - max = '**', - fr = "Liste de couples (point,probabilite)", - ang = "(point,probabiblity) couple list", - validators=VerifTypeTuple(('R','R')), - ), - - ), # Fin BLOC HISTOGRAM - - - - LAPLACE = BLOC ( condition = " Kind in ( 'Laplace', ) ", - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Moyenne de la loi", - ang = "Mean value", - ), - - ), # Fin BLOC LAPLACE - - LOGNORMAL = BLOC ( condition = " Kind in ( 'LogNormal', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "MuSigmaLog", "MuSigma", "MuSigmaOverMu" ), - defaut = "MuSigmaLog", - fr = "Parametrage de la loi lognormale", - ang = "Lognormal distribution parameter set", - ), - - 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 - - MuSigmaOverMu_Parameters = BLOC ( condition = " Settings in ( 'MuSigmaOverMu', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Moyenne de la loi", - ang = "Mean value", - ), - - SigmaOverMu = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Rapport ecart type / moyenne de la loi", - ang = "Standard deviation / mean value ratio", - ), - - ), # Fin BLOC MuSigmaOverMu_Parameters - - MuSigmaLog_Parameters = BLOC ( condition = " Settings in ( 'MuSigmaLog', ) ", - - MuLog = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Moyenne du log", - ang = "Log mean value", - ), - - SigmaLog = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Ecart type du log", - ang = "Log standard deviation", - ), - - ), # Fin BLOC MuSigmaLog_Parameters - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure du supoport de la loi", - ang = "Support lower bound", - ), - - ), # Fin BLOC LOGNORMAL - - - - LOGISTIC = BLOC ( condition = " Kind in ( 'Logistic', ) ", - - Alpha = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure du supoport de la loi", - ang = "Support lower bound", - ), - - 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 LOGISTIC - - - - MULTINOMIAL = BLOC ( condition = " Kind in ( 'MultiNomial', ) ", - - N = SIMP ( statut = "o", - typ = "I", - max = 1, - fr = "Dimension de la loi", - ang = "Distribution dimension", - ), - - # Il faut un vecteur P de taille N - Mu = SIMP ( statut = 'o', - typ = 'R', - max = '**', - ), - - ), # Fin BLOC MULTINOMIAL - - - NONCENTRALSTUDENT = BLOC ( condition = " Kind in ( 'NonCentralStudent', ) ", - - Nu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Nu de la loi", - ang = "Nu parameter", - ), - - Delta = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Delta de la loi", - ang = "Delta parameter", - ), - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Gamma de la loi", - ang = "Gamma parameter", - ), - - ), # Fin BLOC NONCENTRALSTUDENT - - - NORMAL = BLOC ( condition = " Kind 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 - - - - POISSON = BLOC ( condition = " Kind in ( 'Poisson', ) ", - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda de la loi | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - ), # Fin BLOC POISSON - - - - RAYLEIGH = BLOC ( condition = " Kind 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 - - - STUDENT = BLOC ( condition = " Kind in ( 'Student', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Moyenne de la loi", - ang = "Mean value", - ), - - Nu = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 2., - fr = "Parametre Nu de la loi | V > 2", - ang = "Nu parameter | V > 2", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Sigma de la loi", - ang = "Sigma parameter", - ), - - ), # Fin BLOC STUDENT - - - - TRIANGULAR = BLOC ( condition = " Kind in ( 'Triangular', ) ", - - A = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure du support de la loi | A < M < B", - ang = "Support lower bound | A < M < B", - ), - - M = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Mode de la loi | A < M < B", - ang = "Mode | A < M < B", - ), - - B = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne superieure du support de la loi | A < M < B", - ang = "Support upper bound | A < M < B", - ), - - ), # Fin BLOC TRIANGULAR - - - - TRUNCATEDNORMAL = BLOC ( condition = " Kind in ( 'TruncatedNormal', ) ", - - MuN = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - SigmaN = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre SigmaN de la loi | SigmaN > 0", - ang = "SigmaN parameter | SigmaN> 0", - ), - - 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 - - - - UNIFORM = BLOC ( condition = " Kind 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 = " Kind in ( 'UserDefined', ) ", - - # Il faut definir une collection de couples ( x,p ) - Values = SIMP ( statut = 'o', - typ = 'R', - max = '**', - ), - - ), # Fin BLOC USERDEFINED - - - - WEIBULL = BLOC ( condition = " Kind 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 OPER DISTRIBUTION -# Ordre Catalogue DISTRIBUTION - - - -#================================ -# Definition du modele physique -#================================ - - -DETERMINISTICVARIABLE = OPER ( nom = "DETERMINISTICVARIABLE", - sd_prod = variable, - op = None, - fr = "Variable deterministe", - ang = "Deterministic variable", - - N = SIMP ( statut = 'o', - typ = "TXM", - fr = "Nom", - ang = "Name", - ), - - T = SIMP ( statut = 'o', - defaut = "in", - into = ( "in" , "out", ), - typ = "TXM", - fr = "Type", - ang = "Type", - ), - - R = SIMP ( statut = 'o', - defaut = 0, - typ = "I", - fr = "Rang", - ang = "Rank", - ), - -) # Fin OPER DETERMINISTICVARIABLE -# Ordre Catalogue DETERMINISTICVARIABLE - - - -import opsOT -MODEL = MACRO ( nom = "MODEL", - op = None, - UIinfo = { "groupes" : ( "Gestion du travail", ) }, - fr = "Chargement du wrapper du modele physique", - ang = "Physical model wrapper load", - sd_prod = opsOT.INCLUDE, - op_init = opsOT.INCLUDE_context, - fichier_ini = 1, - - FileName = SIMP ( statut = "o", - typ = "Fichier", - fr = "Nom du modele physique", - ang = "Physical model identifier", - ), - -) # Fin PROC MODEL -# Ordre Catalogue MODEL - - - - -VARIABLE = PROC ( nom = "VARIABLE", - op = None, - docu = "", - fr = "Variable probabiliste", - ang = "Probabilistic variable", - - ModelVariable = SIMP ( statut = "o", - typ = ( variable, ), - ), - - Distribution = SIMP ( statut = "o", - typ = ( loi, ), - ), - -) # Fin PROC VARIABLE -# Ordre Catalogue VARIABLE - - -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='NbDeVariables', - valSup=1, - valMin=-1, - structure="symetrique"), - fr = "Matrice de correlation entre les variables d'entree", - ang = "Correlation matrix for input variables", - ), - ), # Fin BLOC Matrix - - -) # Fin PROC CORRELATION -# Ordre Catalogue CORRELATION - - - - - -#================================ -# Definition de l'etude -#================================ - -# Nota : les variables de type PROC doivent etre en majuscules ! -CRITERIA = PROC ( nom = "CRITERIA", - op = None, - docu = "", - fr = "Mise en donnee pour le fichier de configuration de OPENTURNS.", - ang = "Writes the configuration file for OPENTURNS.", - - - - Type = SIMP ( statut = "o", - typ = "TXM", - into = ( "Min/Max", "Central Uncertainty", "Threshold Exceedence" ), - fr = "Type d'Analyse", - ang = "Analysis", - ), - - - - - - - - MinMax = BLOC ( condition = " Type in ( 'Min/Max', ) ", - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Experiment Plane", "Random Sampling" ), - fr = "Methode", - ang = "Method", - ), - # UC 3.1.1 - ExperimentPlaneSettings = BLOC ( condition = " Method in ( 'Experiment Plane', ) ", - - ExperimentPlane = SIMP ( statut = "o", - typ = "TXM", - into = ( "Axial", "Factorial", "Composite", ), - fr = "Methode", - ang = "Method", - ), - - Levels = SIMP ( statut = "o", - typ = "R", - val_min = 0.0, - max = '**', - fr = "Nombre de niveaux dans chaque direction", - ang = "Levels in each direction", - ), - - # Scaled Vector - UnitsPerDimension = SIMP ( statut = "o", - typ = "R", - max = '**', - fr = "Unite par dimension (autant que de variables declarees)", - ang = "Units per dimension (as much as declared variables)", - ), - - # Translation Vector - Center = SIMP ( statut = "o", - typ = "R", - max = '**', - fr = "Unite par dimension", - ang = "Units per dimension", - ), - - ), # Fin BLOC ExperimentPlaneSettings - - - - RandomSamplingSettings = BLOC ( condition = " Method in ( 'Random Sampling', ) ", - - SimulationsNumber = SIMP ( statut = "o", - typ = "I", - val_min = 1, - fr = "Nombre de points", - ang = "Points number", - ), - - ), # Fin BLOC RandomSamplingSettings - - Result = SIMP ( statut = "o", - typ = "TXM", - into = ( "Min/Max", ), - defaut = "Min/Max", - fr = "Le minimum et le maximum", - ang = "The min and max values", - ), - - - ), # Fin BLOC MinMax - - - - - CentralUncertainty = BLOC ( condition = " Type in ( 'Central Uncertainty', ) ", - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Taylor Variance Decomposition", "Random Sampling" ), - fr = "Methode", - ang = "Method", - ), - - # UC 3.2. - TaylorVarianceDecompositionSettings = BLOC ( condition = " Method in ( 'Taylor Variance Decomposition', ) ", - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - MeanFirstOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne au premier ordre", - ang = "MeanFirstOrder", - ), - - StandardDeviationFirstOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type au premier ordre", - ang = "StandardDeviationFirstOrder", - ), - - MeanSecondOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Moyenne au second ordre", - ang = "MeanSecondOrder", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "ImportanceFactor", - ), - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - ImportanceFactorDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des facteurs d'importance", - ang = "Importance Factor Drawing Filename", - ), - - - ), # Fin BLOC ImportanceFactorSettings - - ), # Fin FACT Result - - ), # Fin BLOC TaylorVarianceDecompositionSettings - - - - RandomSamplingSettings = BLOC ( condition = " Method in ( 'Random Sampling', ) ", - - SimulationsNumber = SIMP ( statut = "o", - typ = "I", - val_min = 1, - fr = "Nombre de points", - ang = "Points number", - ), - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - EmpiricalMean = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne empirique", - ang = "Empirical mean", - ), - - EmpiricalStandardDeviation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type empirique", - ang = "Empirical standard deviation", - ), - - EmpiricalQuantile = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Quantile empirique", - ang = "Empirical quantile", - ), - - EmpiricalQuantileSettings = BLOC ( condition = " EmpiricalQuantile in ( 'yes', ) ", - - EmpiricalQuantile_Order = SIMP ( statut = "o", - typ = 'R', - defaut = 0.95, - max = 1, - val_min = 0.0, - val_max = 1.0, - fr = "Ordre du quantile empirique", - ang = "Empirical quantile order", - ), - - ), # Fin BLOC EmpiricalQuantileSettings - - CorrelationAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Correlations analysees", - ang = "Analysed correlations", - ), - - KernelSmoothing = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Kernel smoothing de l'echantillon", - ang = "Kernel smoothing of the sample", - ), - - KernelSmoothingSettings = BLOC ( condition = " KernelSmoothing in ( 'yes', ) ", - - KernelSmoothingDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique de la reconstruction a noyau", - ang = "Kernel Smoothing Drawing Filename", - ), - - - ), # Fin BLOC KernelSmoothingSettings - - ), # Fin FACT Result - - ), # Fin BLOC RandomSamplingSettings - - ), # Fin BLOC CentralUncertainty - - - - - ThresholdExceedence = BLOC ( condition = " Type in ( 'Threshold Exceedence', ) ", - - Event = FACT ( statut = "o", - min = 1, - max = 1, - - Threshold = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Le seuil de defaillance", - ang = "Failure threshold", - ), - - ComparisonOperator = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "Less", "LessOrEqual", "Equal", "GreaterOrEqual", "Greater" ), - fr = "Que faut-il ne pas depasser : un maximum ou un minimum", - ang = "What is the failure threshold : maximum or minimum", - ), - ), # Fin FACT Event - - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Simulation", "FORM_SORM" ), - fr = "Methode", - ang = "Method", - ), - - SimulationSettings = BLOC ( condition = " Method in ( 'Simulation', ) ", - - Algorithm = SIMP ( statut = "o", - typ = "TXM", - into = ( "MonteCarlo", "LHS", "ImportanceSampling" ), - fr = "Algorithme de simulation", - ang = "Simulation algorithm", - ), - - - RandomGenerator = FACT ( statut = "o", - min = 1, - max = 1, - - SeedToBeSet = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "La racine du generateur aleatoire doit-elle etre positionnee ?", - ang = "Does the random generator seed need to be set ?", - ), - - SeedSettings = BLOC ( condition = " SeedToBeSet in ( 'yes', ) ", - - RandomGeneratorSeed = SIMP ( statut = "o", - typ = "I", - max = 1, - fr = "Racine du generateur aleatoire", - ang = "Random generator seed", - ), - - ), # Fin BLOC SeedSettings - - ), # Fin FACT RandomGenerator - - - BlockSize = SIMP ( statut = "o", - typ = "I", - max = 1, - val_min = 1, - defaut = 1, - fr = "Nombre de calculs realises en bloc", - ang = "Number of computations as a block", - ), - - MaximumOuterSampling = SIMP ( statut = "o", - typ = "I", - max = 1, - val_min = 1, - fr = "Maximum d'iterations externes", - ang = "Maximum outer Sampling value", - ), - - MaximumCoefficientOfVariation = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 0.1, - val_min = 0.0, - val_max = 1.0, - fr = " maximum ...", - ang = "Absolute maximum ...." - ), - - ImportanceSamplingSettings = BLOC ( condition = " Algorithm in ( 'ImportanceSampling', ) ", - - MeanVector = SIMP ( statut = "o", - typ = "R", - max = "**", - fr = "Moyenne", - ang = "Mean vector", - ), - - Correlation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'Independent', 'Linear' ), - defaut = 'Independent', - max = 1, - fr = "Le type de correlation entre les variables", - ang = "Correlation between variables", - ), - - ), # Fin BLOC ImportanceSamplingSettings - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - Probability = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Probabiblite", - ang = "Probability", - ), - - StandardDeviation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Ecart type", - ang = "Standard deviation", - ), - - ConfidenceInterval = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Intervale de confiance", - ang = "Confidence interval", - ), - - ConfidenceIntervalSettings = BLOC ( condition = " ConfidenceInterval in ( 'yes', ) ", - - Level = SIMP ( statut = "o", - typ = 'R', - defaut = 0.9, - max = 1, - val_min = 0.0, - val_max = 1.0, - fr = "Niveau de confiance", - ang = "Confidence level", - ), - - ), # Fin BLOC ConfidenceIntervalSettings - - VariationCoefficient = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Coefficient de variation", - ang = "Coefficient of variation", - ), - - SimulationsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Nombre d'iterations", - ang = "Iteration number", - ), - - ConvergenceGraph = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Graphe de convergence", - ang = "Convergence graph", - ), - - ConvergenceGraphSettings = BLOC ( condition = " ConvergenceGraph in ( 'yes', ) ", - - ConvergenceDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique de la convergence", - ang = "Convergence Drawing Filename", - ), - - - ), # Fin BLOC ConvergenceGraphSettings - - ), # Fin FACT Result - - - - ), # Fin BLOC SimulationSettings - - - - FORM_SORMSettings = BLOC ( condition = " Method in ( 'FORM_SORM', ) ", - - Approximation = SIMP ( statut = "o", - typ = "TXM", - defaut = "FirstOrder", - into = ( "FirstOrder", "SecondOrder" ), - max = 1, - fr = "Approximation", - ang = "Approximation", - ), - - OptimizationAlgorithm = SIMP ( statut = "o", - typ = "TXM", - defaut = "Cobyla", - into = ( "Cobyla", "AbdoRackwitz" ), - max = 1, - fr = "Methode d'optimisation", - ang = "Optimization method", - ), - - - PhysicalStartingPoint = SIMP ( statut = "f", - typ = "R", - max = "**", - fr = "Point de demarrage de l'algorithme iteratif", - ang = "Initial point for iterative process", - ), - - MaximumIterationsNumber = SIMP ( statut = "f", - typ = "I", - max = 1, - val_min = 1, - fr = "Nombre maximum d'iterations", - ang = "Maximum number of iterations", - ), - - - MaximumAbsoluteError = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Distance maximum absolue entre 2 iterations successives", - ang = "Absolute maximum distance between 2 successive iterates", - ), - - MaximumRelativeError = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Distance maximum relative entre 2 iterations successives", - ang = "Relative maximum distance between 2 successive iterates", - ), - - MaximumConstraintError = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Valeur maximum absolue de la fonction moins la valeur du niveau", - ang = "Maximum absolute value of the constraint function minus the level value", - ), - - ImportanceSampling = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Tirage d'importance au point de conception", - ang = "Importance sampling at design point", - ), - - FORMResult = BLOC ( condition = " Approximation in ( 'FirstOrder', ) ", - - Probability = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Probabiblite", - ang = "Probability", - ), - - DesignPoint = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Point de conception", - ang = "Design point", - ), - - HasoferReliabilityIndex = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite", - ang = "Reliability index", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "Importance factor", - ), - - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - ImportanceFactorDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des facteurs d'importance", - ang = "Importance Factor Drawing Filename", - ), - - - ), # Fin BLOC ImportanceFactorSettings - - SensitivityAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Analyse de sensibilite", - ang = "Sensitivity analysis", - ), - - SensitivityAnalysisSettings = BLOC ( condition = " SensitivityAnalysis in ( 'yes', ) ", - - FORMEventProbabilitySensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - FORMEventProbabilitySensitivitySettings = BLOC ( condition = " FORMEventProbabilitySensitivity in ( 'yes', ) ", - - FORMEventProbabilitySensitivityDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des sensibilites", - ang = "Sensitivity Drawing Filename", - ), - - - ), # Fin BLOC FORMEventProbabilitySensitivitySettings - - HasoferReliabilityIndexSensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - HasoferReliabilityIndexSensitivitySettings = BLOC ( condition = " HasoferReliabilityIndexSensitivity in ( 'yes', ) ", - - HasoferReliabilityIndexSensitivityDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des sensibilites", - ang = "Sensitivity Drawing Filename", - ), - - - ), # Fin BLOC FHasoferReliabilityIndexSensitivitySettings - - ), # Fin BLOC SensitivityAnalysisSettings - - FunctionCallsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Nombre d'appels a la fonction", - ang = "Function calls number", - ), - - - ), # Fin BLOC FORMResult - - - SORMResult = BLOC ( condition = " Approximation in ( 'SecondOrder', ) ", - - - TvedtApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Approximation de Tvedt", - ang = "Tvedt approximation", - ), - - HohenBichlerApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Approximation de HohenBichler", - ang = "HohenBichler approximation", - ), - - BreitungApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Approximation de Breitung", - ang = "Breitung approximation", - ), - - DesignPoint = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Point de conception", - ang = "Design point", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "Importance factor", - ), - - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - ImportanceFactorDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des facteurs d'importance", - ang = "Importance Factor Drawing Filename", - ), - - - ), # Fin BLOC ImportanceFactorSettings - - SensitivityAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Analyse de sensibilite", - ang = "Sensitivity analysis", - ), - - SensitivityAnalysisSettings = BLOC ( condition = " SensitivityAnalysis in ( 'yes', ) ", - - HasoferReliabilityIndexSensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - HasoferReliabilityIndexSensitivitySettings = BLOC ( condition = " HasoferReliabilityIndexSensitivity in ( 'yes', ) ", - - HasoferReliabilityIndexSensitivityDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des sensibilites", - ang = "Sensitivity Drawing Filename", - ), - - - ), # Fin BLOC FHasoferReliabilityIndexSensitivitySettings - - ), # Fin BLOC SensitivityAnalysisSettings - - FunctionCallsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Nombre d'appels a la fonction", - ang = "Function calls number", - ), - - - ), # Fin BLOC SecondOrder - - - - ), # Fin BLOC FORM_SORMSettings - - - - ), # Fin BLOC ThresholdExceedence - - - -) # Fin PROC CRITERIA -# Ordre Catalogue CRITERIA - - - - - - - diff --git a/Openturns_Study/OpenTURNS_Cata_Study_V8.py b/Openturns_Study/OpenTURNS_Cata_Study_V8.py deleted file mode 100644 index 6f8bb6c2..00000000 --- a/Openturns_Study/OpenTURNS_Cata_Study_V8.py +++ /dev/null @@ -1,1718 +0,0 @@ -# -*- coding: utf-8 -*- - -# -------------------------------------------------- -# debut entete -# -------------------------------------------------- - -#from Accas import ASSD, JDC_CATA, AU_MOINS_UN, PROC, SIMP, FACT, OPER, MACRO, BLOC, A_VALIDATOR -from Accas import * - -class loi ( ASSD ) : pass -class variable ( ASSD ) : pass - -import types -class Tuple: - def __init__(self,ntuple): - self.ntuple=ntuple - - def __convert__(self,valeur): - if type(valeur) == types.StringType: - return None - if len(valeur) != self.ntuple: - return None - return valeur - - def info(self): - return "Tuple de %s elements" % self.ntuple - - __repr__=info - __str__=info - -class Matrice: - def __init__(self,nbLigs=None,nbCols=None,methodeCalculTaille=None,formatSortie="ligne",valSup=None,valMin=None,structure=None): - self.nbLigs=nbLigs - self.nbCols=nbCols - self.methodeCalculTaille=methodeCalculTaille - self.formatSortie=formatSortie - self.valSup=valSup - self.valMin=valMin - self.structure=structure - - def __convert__(self,valeur): - # Attention ne verifie pas grand chose - if type(valeur) != types.ListType : - return None - return valeur - - def info(self): - return "Matrice %s x %s" % (self.nbLigs, self.nbCols) - - __repr__=info - __str__=info - - -#CONTEXT.debug = 1 -JdC = JDC_CATA ( code = 'OPENTURNS_STUDY', - execmodul = None, - regles = ( AU_MOINS_UN ( 'CRITERIA' ), - AU_MOINS_UN ( 'MODEL' ), - AVANT ( ('DISTRIBUTION', 'MODEL'), 'VARIABLE' ), -# A_CLASSER ( 'VARIABLE', 'CORRELATION' ), -# A_CLASSER ( 'VARIABLE', 'CRITERIA' ), -# A_CLASSER ( 'CORRELATION', 'CRITERIA' ), - ), - ) # Fin JDC_CATA - - -# -------------------------------------------------- -# fin entete -# -------------------------------------------------- - -LOG = PROC ( nom = "LOG", - op = None, - docu = "", - - DebugMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de debug de la bibliotheque Open TURNS", - ang = "Open TURNS library debug level print", - ), - - WrapperMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de wrapper de la bibliotheque Open TURNS", - ang = "Open TURNS library debug level print", - ), - - UserMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'no', - fr = "Affichage du niveau de user de la bibliotheque Open TURNS", - ang = "Open TURNS library user level print", - ), - - InfoMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de info de la bibliotheque Open TURNS", - ang = "Open TURNS library info level print", - ), - - WarningMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de warning de la bibliotheque Open TURNS", - ang = "Open TURNS library warning level print", - ), - - ErrorMessages = SIMP ( statut = "o", - typ = "TXM", - into = ( 'yes', 'no' ), - defaut = 'yes', - fr = "Affichage du niveau de error de la bibliotheque Open TURNS", - ang = "Open TURNS library error level print", - ), - -) # Fin PROC LOG -# Ordre Catalogue LOG - - - - - -#================================ -# 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", - - -#==== -# Type de distribution -#==== - - Kind = SIMP ( statut = "o", typ = "TXM", - into = ( "Beta", - "Exponential", - "Gamma", - "Geometric", - "Gumbel", - "Histogram", - "Laplace", - "Logistic", - "LogNormal", - "MultiNomial", - "NonCentralStudent", - "Normal", - "Poisson", - "Rayleigh", - "Student", - "Triangular", - "TruncatedNormal", - "Uniform", - #"UserDefined", - "Weibull", - ), - fr = "Choix du type de la loi marginale", - ang = "1D marginal distribution", - ), - -#==== -# Definition des parametres selon le type de la loi -#==== - - BETA = BLOC ( condition = " Kind in ( 'Beta', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "RT", "MuSigma" ), - defaut = "RT", - fr = "Parametrage de la loi beta", - ang = "Beta distribution parameter set", - ), - - RT_Parameters = BLOC ( condition = " Settings in ( 'RT', ) ", - - R = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre R de la loi | R > 0", - ang = "R parameter | R > 0", - ), - - # T > R - T = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre T de la loi | T > R", - ang = "T parameter | T > R", - ), - - ), # Fin BLOC RT_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 - - - A = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure du support de la loi", - ang = "Support lower bound", - ), - - # B > A - B = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne superieure du support de la loi", - ang = "Support upper bound", - ), - - ), # Fin BLOC BETA - - - - EXPONENTIAL = BLOC ( condition = " Kind 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 - - - - GAMMA = BLOC ( condition = " Kind in ( 'Gamma', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "KLambda", "MuSigma" ), - defaut = "KLambda", - fr = "Parametrage de la loi gamma", - ang = "Gamma distribution parameter set", - ), - - KLambda_Parameters = BLOC ( condition = " Settings in ( 'KLambda', ) ", - - K = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre K de la loi | K > 0", - ang = "K parameter | K > 0", - ), - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda de la loi | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - ), # Fin BLOC KLambda_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 supoport de la loi", - ang = "Support lower bound", - ), - - - ), # Fin BLOC GAMMA - - - - GEOMETRIC = BLOC ( condition = " Kind in ( 'Geometric', ) ", - - P = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - val_max = 1., - fr = "Parametre P | 0 < P < 1", - ang = "P parameter | 0 < P < 1", - ), - - ), # Fin BLOC GEOMETRIC - - - - GUMBEL = BLOC ( condition = " Kind in ( 'Gumbel', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "AlphaBeta", "MuSigma" ), - defaut = "AlphaBeta", - fr = "Parametrage de la loi gumbel", - ang = "Gumbel 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, - fr = "Parametre Beta de la loi", - ang = "Beta parameter", - ), - - ), # 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 - - ), # Fin BLOC GUMBEL - - - - HISTOGRAM = BLOC ( condition = " Kind 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 - - - - LAPLACE = BLOC ( condition = " Kind in ( 'Laplace', ) ", - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Moyenne de la loi", - ang = "Mean value", - ), - - ), # Fin BLOC LAPLACE - - LOGNORMAL = BLOC ( condition = " Kind in ( 'LogNormal', ) ", - - Settings = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "MuSigmaLog", "MuSigma", "MuSigmaOverMu" ), - defaut = "MuSigmaLog", - fr = "Parametrage de la loi lognormale", - ang = "Lognormal distribution parameter set", - ), - - 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 - - MuSigmaOverMu_Parameters = BLOC ( condition = " Settings in ( 'MuSigmaOverMu', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Moyenne de la loi", - ang = "Mean value", - ), - - SigmaOverMu = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Rapport ecart type / moyenne de la loi", - ang = "Standard deviation / mean value ratio", - ), - - ), # Fin BLOC MuSigmaOverMu_Parameters - - MuSigmaLog_Parameters = BLOC ( condition = " Settings in ( 'MuSigmaLog', ) ", - - MuLog = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Moyenne du log", - ang = "Log mean value", - ), - - SigmaLog = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Ecart type du log", - ang = "Log standard deviation", - ), - - ), # Fin BLOC MuSigmaLog_Parameters - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure du support de la loi", - ang = "Support lower bound", - ), - - ), # Fin BLOC LOGNORMAL - - - - LOGISTIC = BLOC ( condition = " Kind in ( 'Logistic', ) ", - - Alpha = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure du supoport de la loi", - ang = "Support lower bound", - ), - - 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 LOGISTIC - - - - MULTINOMIAL = BLOC ( condition = " Kind in ( 'MultiNomial', ) ", - - N = SIMP ( statut = "o", - typ = "I", - max = 1, - fr = "Parametre N de la loi | N > 0", - ang = "N parameter | N > 0", - ), - - # Il faut definir une collection de couples ( x,p ) - Values = SIMP ( statut = 'o', - typ = "R", - max = '**', - fr = "Liste de probabilités", - ang = "Probability list", - validators=VerifTypeTuple(('R','R')), - ), - - ), # Fin BLOC MULTINOMIAL - - - NONCENTRALSTUDENT = BLOC ( condition = " Kind in ( 'NonCentralStudent', ) ", - - Nu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Nu de la loi | Nu > 0", - ang = "Nu parameter | Nu > 0", - ), - - Delta = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Delta de la loi | Delta > 0", - ang = "Delta parameter | Delta > 0", - ), - - Gamma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Gamma de centrage de la loi", - ang = "Gamma parameter", - ), - - ), # Fin BLOC NONCENTRALSTUDENT - - - NORMAL = BLOC ( condition = " Kind 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 - - - - POISSON = BLOC ( condition = " Kind in ( 'Poisson', ) ", - - Lambda = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 0., - fr = "Parametre Lambda de la loi | Lambda > 0", - ang = "Lambda parameter | Lambda > 0", - ), - - ), # Fin BLOC POISSON - - - - RAYLEIGH = BLOC ( condition = " Kind 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 - - - STUDENT = BLOC ( condition = " Kind in ( 'Student', ) ", - - Mu = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Mu de la loi", - ang = "Mu parameter", - ), - - Nu = SIMP ( statut = "o", - typ = "R", - max = 1, - val_min = 2., - fr = "Parametre Nu de la loi | Nu > 2", - ang = "Nu parameter | Nu > 2", - ), - - Sigma = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Parametre Sigma de la loi", - ang = "Sigma parameter", - ), - - ), # Fin BLOC STUDENT - - - - TRIANGULAR = BLOC ( condition = " Kind in ( 'Triangular', ) ", - - A = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne inferieure du support de la loi | A < M < B", - ang = "Support lower bound | A < M < B", - ), - - M = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Mode de la loi | A < M < B", - ang = "Mode | A < M < B", - ), - - B = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Borne superieure du support de la loi | A < M < B", - ang = "Support upper bound | A < M < B", - ), - - ), # Fin BLOC TRIANGULAR - - - - TRUNCATEDNORMAL = BLOC ( condition = " Kind 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 - - - - UNIFORM = BLOC ( condition = " Kind 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 = " Kind in ( 'UserDefined', ) ", - - # Il faut definir une collection de couples ( x,p ) - Values = SIMP ( statut = 'o', - typ = 'R', - max = '**', - ), - - ), # Fin BLOC USERDEFINED - - - - WEIBULL = BLOC ( condition = " Kind 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 OPER DISTRIBUTION -# Ordre Catalogue DISTRIBUTION - - - -#================================ -# Definition du modele physique -#================================ - - -DETERMINISTICVARIABLE = OPER ( nom = "DETERMINISTICVARIABLE", - sd_prod = variable, - op = None, - fr = "Variable deterministe", - ang = "Deterministic variable", - - N = SIMP ( statut = 'o', - typ = "TXM", - fr = "Nom", - ang = "Name", - ), - - T = SIMP ( statut = 'o', - defaut = "in", - into = ( "in" , "out", ), - typ = "TXM", - fr = "Type", - ang = "Type", - ), - - R = SIMP ( statut = 'o', - defaut = 0, - typ = "I", - fr = "Rang", - ang = "Rank", - ), - -) # Fin OPER DETERMINISTICVARIABLE -# Ordre Catalogue DETERMINISTICVARIABLE - - - -import opsOT -MODEL = MACRO ( nom = "MODEL", - op = None, - UIinfo = { "groupes" : ( "Gestion du travail", ) }, - fr = "Chargement du wrapper du modele physique", - ang = "Physical model wrapper load", - sd_prod = opsOT.INCLUDE, - op_init = opsOT.INCLUDE_context, - fichier_ini = 1, - - FileName = SIMP ( statut = "o", - typ = "Fichier", - fr = "Nom du modele physique", - ang = "Physical model identifier", - ), - -) # Fin PROC MODEL -# Ordre Catalogue MODEL - - - - -VARIABLE = PROC ( nom = "VARIABLE", - op = None, - docu = "", - fr = "Variable probabiliste", - ang = "Probabilistic variable", - - ModelVariable = SIMP ( statut = "o", - typ = ( variable, ), - fr = "Variable d'entrée du modèle", - ang = "Input variable of the model", - ), - - Distribution = SIMP ( statut = "o", - typ = ( loi, ), - fr = "Modélisation probabiliste", - ang = "Probabilistic modelisation", - ), - -) # Fin PROC VARIABLE -# Ordre Catalogue VARIABLE - - -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='NbDeVariables', - valSup=1, - valMin=-1, - structure="symetrique"), - fr = "Matrice de correlation entre les variables d'entree", - ang = "Correlation matrix for input variables", - ), - ), # Fin BLOC Matrix - - -) # Fin PROC CORRELATION -# Ordre Catalogue CORRELATION - - - - - -#================================ -# Definition de l'etude -#================================ - -# Nota : les variables de type PROC doivent etre en majuscules ! -CRITERIA = PROC ( nom = "CRITERIA", - op = None, - docu = "", - fr = "Critère de l'étude d'incertitudes", - ang = "Uncertainty study criteria", - - - - Type = SIMP ( statut = "o", - typ = "TXM", - into = ( "Min/Max", "Central Uncertainty", "Threshold Exceedence" ), - fr = "Type du critère", - ang = "Criteria type", - ), - - - - - - - - MinMax = BLOC ( condition = " Type in ( 'Min/Max', ) ", - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Experiment Plane", "Random Sampling" ), - fr = "Methode", - ang = "Method", - ), - # UC 3.1.1 - ExperimentPlaneSettings = BLOC ( condition = " Method in ( 'Experiment Plane', ) ", - - ExperimentPlane = SIMP ( statut = "o", - typ = "TXM", - into = ( "Axial", "Factorial", "Composite", ), - fr = "Type du plan d'expérience", - ang = "Experiment plane type", - ), - - Levels = SIMP ( statut = "o", - typ = "R", - val_min = 0.0, - max = '**', - fr = "Liste de niveaux dans chaque direction", - ang = "Levels in each direction", - ), - - # Scaled Vector - UnitPerDimension = SIMP ( statut = "o", - typ = "R", - max = '**', - fr = "Unité par dimension (autant que de variables declarées)", - ang = "Units per dimension (as much as declared variables)", - ), - - # Translation Vector - Center = SIMP ( statut = "o", - typ = "R", - max = '**', - fr = "Centre du plan d'expérience", - ang = "Experiment plan center", - ), - - ), # Fin BLOC ExperimentPlaneSettings - - - - RandomSamplingSettings = BLOC ( condition = " Method in ( 'Random Sampling', ) ", - - SimulationsNumber = SIMP ( statut = "o", - typ = "I", - val_min = 1, - fr = "Nombre de points", - ang = "Points number", - ), - - ), # Fin BLOC RandomSamplingSettings - - Result = SIMP ( statut = "o", - typ = "TXM", - into = ( "Min/Max", ), - defaut = "Min/Max", - fr = "Le minimum et le maximum de la variable d'intérêt", - ang = "The min and max values", - ), - - - ), # Fin BLOC MinMax - - - - - CentralUncertainty = BLOC ( condition = " Type in ( 'Central Uncertainty', ) ", - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Taylor Variance Decomposition", "Random Sampling" ), - fr = "Methode", - ang = "Method", - ), - - # UC 3.2. - TaylorVarianceDecompositionSettings = BLOC ( condition = " Method in ( 'Taylor Variance Decomposition', ) ", - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - MeanFirstOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne au premier ordre", - ang = "MeanFirstOrder", - ), - - StandardDeviationFirstOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type au premier ordre", - ang = "StandardDeviationFirstOrder", - ), - - MeanSecondOrder = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Moyenne au second ordre", - ang = "MeanSecondOrder", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "ImportanceFactor", - ), - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - ImportanceFactorDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des facteurs d'importance", - ang = "Importance Factor Drawing Filename", - ), - - - ), # Fin BLOC ImportanceFactorSettings - - ), # Fin FACT Result - - ), # Fin BLOC TaylorVarianceDecompositionSettings - - - - RandomSamplingSettings = BLOC ( condition = " Method in ( 'Random Sampling', ) ", - - SimulationsNumber = SIMP ( statut = "o", - typ = "I", - val_min = 1, - fr = "Nombre de points", - ang = "Points number", - ), - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - EmpiricalMean = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Moyenne empirique", - ang = "Empirical mean", - ), - - EmpiricalStandardDeviation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Ecart-type empirique", - ang = "Empirical standard deviation", - ), - - EmpiricalQuantile = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Quantile empirique", - ang = "Empirical quantile", - ), - - EmpiricalQuantileSettings = BLOC ( condition = " EmpiricalQuantile in ( 'yes', ) ", - - EmpiricalQuantile_Order = SIMP ( statut = "o", - typ = 'R', - defaut = 0.95, - max = 1, - val_min = 0.0, - val_max = 1.0, - fr = "Ordre du quantile empirique", - ang = "Empirical quantile order", - ), - - ), # Fin BLOC EmpiricalQuantileSettings - - CorrelationAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Correlations analysees", - ang = "Analysed correlations", - ), - - KernelSmoothing = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Kernel smoothing de l'echantillon", - ang = "Kernel smoothing of the sample", - ), - - KernelSmoothingSettings = BLOC ( condition = " KernelSmoothing in ( 'yes', ) ", - - KernelSmoothingDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique de la reconstruction a noyau", - ang = "Kernel Smoothing Drawing Filename", - ), - - - ), # Fin BLOC KernelSmoothingSettings - - ), # Fin FACT Result - - ), # Fin BLOC RandomSamplingSettings - - ), # Fin BLOC CentralUncertainty - - - - - ThresholdExceedence = BLOC ( condition = " Type in ( 'Threshold Exceedence', ) ", - - Event = FACT ( statut = "o", - min = 1, - max = 1, - - Threshold = SIMP ( statut = "o", - typ = "R", - max = 1, - fr = "Le seuil de defaillance", - ang = "Failure threshold", - ), - - ComparisonOperator = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "Less", "LessOrEqual", "Equal", "GreaterOrEqual", "Greater" ), - fr = "Que faut-il ne pas depasser : un maximum ou un minimum", - ang = "What is the failure threshold : maximum or minimum", - ), - ), # Fin FACT Event - - - Method = SIMP ( statut = "o", - typ = "TXM", - into = ( "Simulation", "FORM_SORM" ), - fr = "Methode", - ang = "Method", - ), - - SimulationSettings = BLOC ( condition = " Method in ( 'Simulation', ) ", - - Algorithm = SIMP ( statut = "o", - typ = "TXM", - into = ( "MonteCarlo", "LHS", "ImportanceSampling" ), - fr = "Algorithme de simulation", - ang = "Simulation algorithm", - ), - - - RandomGenerator = FACT ( statut = "o", - min = 1, - max = 1, - - SeedToBeSet = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "La racine du generateur aleatoire doit-elle etre positionnee ?", - ang = "Does the random generator seed need to be set ?", - ), - - SeedSettings = BLOC ( condition = " SeedToBeSet in ( 'yes', ) ", - - RandomGeneratorSeed = SIMP ( statut = "o", - typ = "I", - max = 1, - fr = "Racine du generateur aleatoire", - ang = "Random generator seed", - ), - - ), # Fin BLOC SeedSettings - - ), # Fin FACT RandomGenerator - - - BlockSize = SIMP ( statut = "o", - typ = "I", - max = 1, - val_min = 1, - defaut = 1, - fr = "Nombre de calculs realises en bloc", - ang = "Number of computations as a block", - ), - - MaximumOuterSampling = SIMP ( statut = "o", - typ = "I", - max = 1, - val_min = 1, - fr = "Maximum d'iterations externes", - ang = "Maximum outer Sampling value", - ), - - MaximumCoefficientOfVariation = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 0.1, - val_min = 0.0, - val_max = 1.0, - fr = "Coefficient de variation maximum", - ang = "Maximum coefficient of variation" - ), - - ImportanceSamplingSettings = BLOC ( condition = " Algorithm in ( 'ImportanceSampling', ) ", - - MeanVector = SIMP ( statut = "o", - typ = "R", - max = "**", - fr = "Moyenne", - ang = "Mean vector", - ), - - - ), # Fin BLOC ImportanceSamplingSettings - - Result = FACT ( statut = "o", - min = 1, - max = "**", - - Probability = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Probabiblite", - ang = "Probability", - ), - - StandardDeviation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Ecart type", - ang = "Standard deviation", - ), - - ConfidenceInterval = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Intervale de confiance", - ang = "Confidence interval", - ), - - ConfidenceIntervalSettings = BLOC ( condition = " ConfidenceInterval in ( 'yes', ) ", - - Level = SIMP ( statut = "o", - typ = 'R', - defaut = 0.9, - max = 1, - val_min = 0.0, - val_max = 1.0, - fr = "Niveau de confiance", - ang = "Confidence level", - ), - - ), # Fin BLOC ConfidenceIntervalSettings - - VariationCoefficient = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Coefficient de variation", - ang = "Coefficient of variation", - ), - - SimulationsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Nombre d'iterations", - ang = "Iteration number", - ), - - ConvergenceGraph = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Graphe de convergence", - ang = "Convergence graph", - ), - - ConvergenceGraphSettings = BLOC ( condition = " ConvergenceGraph in ( 'yes', ) ", - - ConvergenceDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique de la convergence", - ang = "Convergence Drawing Filename", - ), - - - ), # Fin BLOC ConvergenceGraphSettings - - ), # Fin FACT Result - - - - ), # Fin BLOC SimulationSettings - - - - FORM_SORMSettings = BLOC ( condition = " Method in ( 'FORM_SORM', ) ", - - Approximation = SIMP ( statut = "o", - typ = "TXM", - defaut = "FirstOrder", - into = ( "FirstOrder", "SecondOrder" ), - max = 1, - fr = "Approximation", - ang = "Approximation", - ), - - OptimizationAlgorithm = SIMP ( statut = "o", - typ = "TXM", - defaut = "Cobyla", - into = ( "Cobyla", "AbdoRackwitz" ), - max = 1, - fr = "Methode d'optimisation", - ang = "Optimization method", - ), - - - PhysicalStartingPoint = SIMP ( statut = "f", - typ = "R", - max = "**", - fr = "Point de demarrage de l'algorithme iteratif", - ang = "Initial point for iterative process", - ), - - MaximumIterationsNumber = SIMP ( statut = "f", - typ = "I", - max = 1, - val_min = 1, - fr = "Nombre maximum d'iterations", - ang = "Maximum number of iterations", - ), - - - MaximumAbsoluteError = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Distance maximum absolue entre 2 iterations successives", - ang = "Absolute maximum distance between 2 successive iterates", - ), - - MaximumRelativeError = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Distance maximum relative entre 2 iterations successives", - ang = "Relative maximum distance between 2 successive iterates", - ), - - MaximumConstraintError = SIMP ( statut = "o", - typ = "R", - max = 1, - defaut = 1E-4, - val_min = 0.0, - fr = "Valeur maximum absolue de la fonction moins la valeur du niveau", - ang = "Maximum absolute value of the constraint function minus the level value", - ), - - ImportanceSampling = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'no', - max = 1, - fr = "Tirage d'importance au point de conception", - ang = "Importance sampling at design point", - ), - - FORMResult = BLOC ( condition = " Approximation in ( 'FirstOrder', ) ", - - Probability = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', ), - defaut = 'yes', - max = 1, - fr = "Probabiblite", - ang = "Probability", - ), - - DesignPoint = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Point de conception", - ang = "Design point", - ), - - HasoferReliabilityIndex = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite", - ang = "Reliability index", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "Importance factor", - ), - - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - ImportanceFactorDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des facteurs d'importance", - ang = "Importance Factor Drawing Filename", - ), - - - ), # Fin BLOC ImportanceFactorSettings - - SensitivityAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Analyse de sensibilite", - ang = "Sensitivity analysis", - ), - - SensitivityAnalysisSettings = BLOC ( condition = " SensitivityAnalysis in ( 'yes', ) ", - - FORMEventProbabilitySensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - FORMEventProbabilitySensitivitySettings = BLOC ( condition = " FORMEventProbabilitySensitivity in ( 'yes', ) ", - - FORMEventProbabilitySensitivityDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des sensibilites", - ang = "Sensitivity Drawing Filename", - ), - - - ), # Fin BLOC FORMEventProbabilitySensitivitySettings - - HasoferReliabilityIndexSensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - HasoferReliabilityIndexSensitivitySettings = BLOC ( condition = " HasoferReliabilityIndexSensitivity in ( 'yes', ) ", - - HasoferReliabilityIndexSensitivityDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des sensibilites", - ang = "Sensitivity Drawing Filename", - ), - - - ), # Fin BLOC FHasoferReliabilityIndexSensitivitySettings - - ), # Fin BLOC SensitivityAnalysisSettings - - FunctionCallsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Nombre d'appels a la fonction", - ang = "Function calls number", - ), - - - ), # Fin BLOC FORMResult - - - SORMResult = BLOC ( condition = " Approximation in ( 'SecondOrder', ) ", - - - TvedtApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Approximation de Tvedt", - ang = "Tvedt approximation", - ), - - HohenBichlerApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Approximation de HohenBichler", - ang = "HohenBichler approximation", - ), - - BreitungApproximation = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Approximation de Breitung", - ang = "Breitung approximation", - ), - - DesignPoint = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Point de conception", - ang = "Design point", - ), - - ImportanceFactor = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Facteur d'importance pour variable de sortie scalaire", - ang = "Importance factor", - ), - - ImportanceFactorSettings = BLOC ( condition = " ImportanceFactor in ( 'yes', ) ", - - ImportanceFactorDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des facteurs d'importance", - ang = "Importance Factor Drawing Filename", - ), - - - ), # Fin BLOC ImportanceFactorSettings - - SensitivityAnalysis = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Analyse de sensibilite", - ang = "Sensitivity analysis", - ), - - SensitivityAnalysisSettings = BLOC ( condition = " SensitivityAnalysis in ( 'yes', ) ", - - HasoferReliabilityIndexSensitivity = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Indice de fiabilite de Hasofer", - ang = "Hasofer reliability index", - ), - - HasoferReliabilityIndexSensitivitySettings = BLOC ( condition = " HasoferReliabilityIndexSensitivity in ( 'yes', ) ", - - HasoferReliabilityIndexSensitivityDrawingFilename = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom du fichier graphique des sensibilites", - ang = "Sensitivity Drawing Filename", - ), - - - ), # Fin BLOC FHasoferReliabilityIndexSensitivitySettings - - ), # Fin BLOC SensitivityAnalysisSettings - - FunctionCallsNumber = SIMP ( statut = "o", - typ = 'TXM', - into = ( 'yes', 'no' ), - defaut = 'yes', - max = 1, - fr = "Nombre d'appels a la fonction", - ang = "Function calls number", - ), - - - ), # Fin BLOC SecondOrder - - - - ), # Fin BLOC FORM_SORMSettings - - - - ), # Fin BLOC ThresholdExceedence - - - -) # Fin PROC CRITERIA -# Ordre Catalogue CRITERIA - - - - - - - diff --git a/Openturns_Study/catalogues_openturns.ini b/Openturns_Study/catalogues_openturns.ini deleted file mode 100644 index c265b4c3..00000000 --- a/Openturns_Study/catalogues_openturns.ini +++ /dev/null @@ -1,10 +0,0 @@ -# Choix des catalogues -import os -#rep_cata=os.path.dirname(os.path.abspath(__file__)) -rep_cata=os.getcwd() - -catalogues = ( -# (code,version,catalogue,formatIn,formatOut) - ('OPENTURNS_STUDY','V8',os.path.join(rep_cata,'OpenTURNS_Cata_Study_V8.py'),'openturns_study','wrapper'), -) - diff --git a/Openturns_Study/configuration_OPENTURNS_STUDY.py b/Openturns_Study/configuration_OPENTURNS_STUDY.py deleted file mode 100644 index 9e6bf575..00000000 --- a/Openturns_Study/configuration_OPENTURNS_STUDY.py +++ /dev/null @@ -1,178 +0,0 @@ -# -*- coding: utf-8 -*- -# CONFIGURATION MANAGEMENT OF EDF VERSION -# ====================================================================== -# COPYRIGHT (C) 1991 - 2002 EDF R&D WWW.CODE-ASTER.ORG -# THIS PROGRAM IS FREE SOFTWARE; YOU CAN REDISTRIBUTE IT AND/OR MODIFY -# IT UNDER THE TERMS OF THE GNU GENERAL PUBLIC LICENSE AS PUBLISHED BY -# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR -# (AT YOUR OPTION) ANY LATER VERSION. -# -# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT -# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF -# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU -# GENERAL PUBLIC LICENSE FOR MORE DETAILS. -# -# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE -# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, -# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. -# -# -# ====================================================================== -""" - Ce module sert pour charger les paramètres de configuration d'EFICAS -""" -# Modules Python -print "passage dans la surcharge de configuration pour OTW" -import os, sys, string, types, re -import traceback -from PyQt4.QtGui import * -from utils import read_file - -# Modules Eficas -from Editeur import utils - -class CONFIG: - - #----------------------------------- - def __init__(self,appli,repIni): - #----------------------------------- - - # Classe de base permettant de lire, afficher - # et sauvegarder les fichiers utilisateurs - # On a deux directories : la directory generale (Repertoire d instal + Nom du code - # Par exemple : ~/Install_Eficas/EficasV1_14/Openturns_Wrapper - # et la directorie de l utilisateur - # HOME/.Eficas_Openturns - # Le fichier prefs.py va etre lu dans la directory generale puis surcharge eventuellement - # par celui de l utilisateur - # le fichier de catalogue va etre lu dans la directory de l utilisateur s il exite - # dans le fichier general sinon - self.appli = appli - self.code = appli.code - self.salome = appli.salome - self.repIni = repIni - - if self.appli: - self.parent=appli.top - self.appli.mode_nouv_commande='initial' - else: self.parent=None - - - # Valeurs par defaut - self.rep_user = os.path.join(os.environ['HOME'],'.Eficas_Openturns') - if not os.path.isdir(self.rep_user) : os.mkdir(self.rep_user) - self.initialdir = self.rep_user - self.path_doc = self.rep_user - self.savedir = self.rep_user - self.exec_acrobat = self.rep_user - - self.labels_user=('exec_acrobat', 'catalogues','savedir','path_doc','OpenTURNS_path') - self.labels_eficas=("OpenTURNS_path","rep_user","INSTALLDIR","path_doc","exec_acrobat","rep_cata","initialdir","savedir","catalogues") - - #Lecture des fichiers utilisateurs - self.lecture_fichier_ini_standard() - self.lecture_fichier_ini_utilisateur() - self.lecture_catalogues() - - #-------------------------------------- - def lecture_fichier_ini_standard(self): - #-------------------------------------- - # Verifie l'existence du fichier "standard" - # appelle la lecture de ce fichier - import prefs - name='prefs_'+prefs.code - prefsCode=__import__(name) - self.prefsUser=name+".py" - for k in self.labels_eficas : - try : - valeur=getattr(prefsCode,k) - setattr(self,k,valeur) - except : - pass - if hasattr(self,'OpenTURNS_path') : - oldPath=self.OpenTURNS_path - - - #-------------------------------------- - def lecture_fichier_ini_utilisateur(self): - #-------------------------------------- - # Surcharge les paramètres standards par les paramètres utilisateur s'ils existent - self.fic_ini_utilisateur = os.path.join(self.rep_user,self.prefsUser) - if not os.path.isfile(self.fic_ini_utilisateur): return - - txt = utils.read_file(self.fic_ini_utilisateur) - from styles import style - d=locals() - try: - exec txt in d - except : - l=traceback.format_exception(sys.exc_info()[0],sys.exc_info()[1],sys.exc_info()[2]) - QMessageBox.critical( None, "Import du fichier de Configuration", - "Erreur à la lecture du fichier de configuration " + self.fic_ini_utilisateur ) - sys.exit(0) - for k in self.labels_user : - try : - setattr(self,k,d[k]) - except : - pass - - if hasattr(self,'OpenTURNS_path') : - if hasattr(self,'oldPath'): - if self.OpenTURNS_path != self.oldPath: - sys.path.remove(self.oldPath) - sys.path[:0]=[self.OpenTURNS_path] - else : - sys.path[:0]=[self.OpenTURNS_path] - - - #-------------------------------------- - def lecture_catalogues(self): - #-------------------------------------- - rep_mat=" " # Compatibilite Aster - if hasattr(self,"catalogues") : - return - - fic_ini = os.path.join(self.repIni,"catalogues_openturns.ini") - if not os.path.isfile(fic_ini) : - QMessageBox.critical( None, "Erreur a l'import du fichier des Catalogues", - "Le fichier de configuration des catalogues "+fic_ini+" n a pas été trouvé" ) - sys.exit(0) - - txt = utils.read_file(fic_ini) - d=locals() - try: - exec txt in d - self.catalogues=d["catalogues"] - except : - l=traceback.format_exception(sys.exc_info()[0],sys.exc_info()[1],sys.exc_info()[2]) - QMessageBox.critical( None, "Import du fichier de Configuration", - "Erreur à la lecture du fichier de configuration " + fic_ini ) - sys.exit(0) - - - - #-------------------------------------- - def save_params(self): - #-------------------------------------- - # sauvegarde - # les nouveaux paramètres dans le fichier de configuration utilisateur - # - texte="" - for clef in self.labels_user : - if hasattr(self,clef): - valeur=getattr(self,clef) - texte= texte + clef+" = " + repr(valeur) +"\n" - f=open(self.fic_ini_utilisateur,'w+') - print self.fic_ini_utilisateur - f.write(texte) - f.close() -# - - -def make_config(appli,rep): - return CONFIG(appli,rep) - -def make_config_style(appli,rep): - return None - - diff --git a/Openturns_Study/opsOT.py b/Openturns_Study/opsOT.py deleted file mode 100644 index e2af4083..00000000 --- a/Openturns_Study/opsOT.py +++ /dev/null @@ -1,20 +0,0 @@ -# -*- coding: iso-8859-1 -*- - -def INCLUDE(self,FileName,**args): - """ - Fonction sd_prod pour la macro INCLUDE - """ - if hasattr(self,'change_fichier'): - delattr(self,'change_fichier') - delattr(self,'fichier_ini') - - self.make_include2(fichier=FileName) - -def INCLUDE_context(self,d): - """ - Fonction op_init pour macro INCLUDE - """ - for k,v in self.g_context.items(): - d[k]=v - - diff --git a/Openturns_Study/prefs.py b/Openturns_Study/prefs.py deleted file mode 100644 index 84f4d9a3..00000000 --- a/Openturns_Study/prefs.py +++ /dev/null @@ -1 +0,0 @@ -code='OPENTURNS_STUDY' diff --git a/Openturns_Study/prefs_OPENTURNS_STUDY.py b/Openturns_Study/prefs_OPENTURNS_STUDY.py deleted file mode 100644 index a97130a2..00000000 --- a/Openturns_Study/prefs_OPENTURNS_STUDY.py +++ /dev/null @@ -1,51 +0,0 @@ -# -*- coding: utf-8 -*- -# CONFIGURATION MANAGEMENT OF EDF VERSION -# ====================================================================== -# COPYRIGHT (C) 1991 - 2002 EDF R&D WWW.CODE-ASTER.ORG -# THIS PROGRAM IS FREE SOFTWARE; YOU CAN REDISTRIBUTE IT AND/OR MODIFY -# IT UNDER THE TERMS OF THE GNU GENERAL PUBLIC LICENSE AS PUBLISHED BY -# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR -# (AT YOUR OPTION) ANY LATER VERSION. -# -# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT -# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF -# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU -# GENERAL PUBLIC LICENSE FOR MORE DETAILS. -# -# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE -# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, -# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. -# -# -# ====================================================================== - -import os, sys -# Les variables pouvant positionnees sont : -print "import des prefs de OPENTURNS" - -# REPINI sert à localiser le fichier -# initialdir sert comme directory initial des QFileDialog -# positionnee a repin au debut mise a jour dans configuration -REPINI=os.path.dirname(os.path.abspath(__file__)) -initialdir=REPINI - -# INSTALLDIR sert à localiser l'installation d'Eficas -INSTALLDIR=os.path.join(REPINI,'..') - - -# Codage des strings qui accepte les accents (en remplacement de 'ascii') -# lang indique la langue utilisée pour les chaines d'aide : fr ou ang -lang='fr' -encoding='iso-8859-1' - -# Acces a la documentation -rep_cata = INSTALLDIR -path_doc = os.path.join(rep_cata,'Doc') -exec_acrobat = "/usr/bin/xpdf" -savedir = os.environ['HOME'] - - -# OpenTURNS Python module -OpenTURNS_path="/local00/home/dutka/OpenTURNS/merge/trunk/build/install/lib/python2.4/site-packages" -# Choix des catalogues -sys.path[:0]=[INSTALLDIR, OpenTURNS_path] diff --git a/Openturns_Study/properties.py b/Openturns_Study/properties.py deleted file mode 100644 index 8ba0ed7e..00000000 --- a/Openturns_Study/properties.py +++ /dev/null @@ -1,25 +0,0 @@ -# -*- coding: utf-8 -*- -#@ MODIF properties Accas DATE 10/10/2002 AUTEUR gcbhhhh M.ADMINISTRATEUR -# CONFIGURATION MANAGEMENT OF EDF VERSION -# RESPONSABLE D6BHHHH J-P.LEFEBVRE -# ====================================================================== -# COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG -# THIS PROGRAM IS FREE SOFTWARE; YOU CAN REDISTRIBUTE IT AND/OR MODIFY -# IT UNDER THE TERMS OF THE GNU GENERAL PUBLIC LICENSE AS PUBLISHED BY -# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR -# (AT YOUR OPTION) ANY LATER VERSION. -# -# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT -# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF -# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU -# GENERAL PUBLIC LICENSE FOR MORE DETAILS. -# -# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE -# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, -# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. -# ====================================================================== -# IDENTIFICATION DU GESTIONNAIRE DE COMMANDE ACCAS A PARTIR -# DE LA VERSION DU CODE_ASTER ASSOCIE -#---------------------------------------------------------------------- -version = "7.1.0" -date = "23/04/2003" diff --git a/Openturns_Study/qtEficas_openturns_study.py b/Openturns_Study/qtEficas_openturns_study.py deleted file mode 100755 index 5c865492..00000000 --- a/Openturns_Study/qtEficas_openturns_study.py +++ /dev/null @@ -1,35 +0,0 @@ -#!/usr/bin/env python -# -*- coding: utf-8 -*- -# CONFIGURATION MANAGEMENT OF EDF VERSION -# ====================================================================== -# COPYRIGHT (C) 1991 - 2002 EDF R&D WWW.CODE-ASTER.ORG -# THIS PROGRAM IS FREE SOFTWARE; YOU CAN REDISTRIBUTE IT AND/OR MODIFY -# IT UNDER THE TERMS OF THE GNU GENERAL PUBLIC LICENSE AS PUBLISHED BY -# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR -# (AT YOUR OPTION) ANY LATER VERSION. -# -# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT -# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF -# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU -# GENERAL PUBLIC LICENSE FOR MORE DETAILS. -# -# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE -# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, -# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. -# -# -# ====================================================================== - -""" - Ce module sert à lancer EFICAS configuré pour Openturns -""" -# Modules Python - -# Modules Eficas -import prefs -name='prefs_'+prefs.code -__import__(name) - -import sys -from InterfaceQT4 import eficas_go -eficas_go.lance_eficas(code=prefs.code) diff --git a/Openturns_Study/sdistOTqt.py b/Openturns_Study/sdistOTqt.py deleted file mode 100644 index acf75c26..00000000 --- a/Openturns_Study/sdistOTqt.py +++ /dev/null @@ -1,103 +0,0 @@ -# -*- coding: utf-8 -*- -""" - Ce module sert à construire les distributions d'EFICAS pour Openturns - en fonction du tag CVS courant - Les distributions sont : - - un tar.gz pour UNIX ne contenant pas mxTextTools - L'utilisation de ce module est la suivante : - 1- Se mettre dans un répertoire de travail - 2- Configurer son environnement pour utiliser le référentiel CVS EFICAS - 3- Exporter les sources d'EficasV1 par la commande : - cvs export -r TAG -d Eficas_export EficasV1 - ou TAG est le tag CVS de la version que l'on veut distribuer (par exemple V1_1p1) - 5- Aller dans le répertoire Eficas_export - 6- Executer le script sdist.py - python sdist.py - Ce qui a pour effet de creer un repertoire dist contenant la distribution - et de la copier dans le répertoire indiqué par dir_download s'il est accessible - -""" -import os,shutil,glob,sys -import types - -nom_distrib="QTEficasOpenturns_V1_0" -path_distrib=os.path.join("dist",nom_distrib) -path_TextTools="/home/eficas/pkg/mxTools/egenix2.0.2pourWindows/mx/TextTools" -dir_download= "/home/eficas/WWW/telechargement/eficas" - -def main(): - if os.path.isdir('dist'):shutil.rmtree('dist') - - copyfiles('.',path_distrib,['LICENSE.TERMS','INSTALL','NEWS']) - - copyfiles('../Editeur',os.path.join(path_distrib,'Editeur'),['*.py','faqs.txt']) - copyfiles('../InterfaceTK',os.path.join(path_distrib,'InterfaceTK'),['*.py','faqs.txt']) - copyfiles('../InterfaceQT',os.path.join(path_distrib,'InterfaceQT'),['*.py','faqs.txt']) - copyfiles('../Ui',os.path.join(path_distrib,'Ui'),['*.ui','makefile']) - copyfiles('../Openturns',os.path.join(path_distrib,'Openturns'),['*.py','*.ini']) - copyfiles('../Ihm',os.path.join(path_distrib,'Ihm'),['*.py']) - copyfiles('../Extensions',os.path.join(path_distrib,'Extensions'),['*.py']) - copyfiles('../Misc',os.path.join(path_distrib,'Misc'),['*.py']) - copyfiles('../Accas',os.path.join(path_distrib,'Accas'),['*.py']) - copyfiles('../Accas',os.path.join(path_distrib,'Noyau'),['*.py']) - copyfiles('../Accas',os.path.join(path_distrib,'Validation'),['*.py']) - # AIDE - copyfiles('../AIDE',os.path.join(path_distrib,'AIDE'),['*.py']) - copyfiles('../AIDE/fichiers',os.path.join(path_distrib,'AIDE','fichiers'),['*']) - copyfiles('.',os.path.join(path_distrib,'AIDE','fichiers'),['INSTALL','NEWS']) - copyfiles('../Editeur',os.path.join(path_distrib,'AIDE','fichiers'),['faqs.txt']) - # ______________________ - - copyfiles('../convert',os.path.join(path_distrib,'convert'),['*.py']) - copyfiles('../convert/Parserv5',os.path.join(path_distrib,'convert','Parserv5'),['*.py']) - copyfiles('../generator',os.path.join(path_distrib,'generator'),['*.py']) - copyfiles('../Editeur/icons',os.path.join(path_distrib,'Editeur','icons'),['*.gif']) - copyfiles('../Editeur/icons',os.path.join(path_distrib,'Editeur','icons'),['*.png']) - copyfiles('../Editeur/Patrons/',os.path.join(path_distrib,'Editeur','Patrons'),['*.com*']) - copyfiles('../Editeur/Patrons/OPENTURNS',os.path.join(path_distrib,'Editeur','Patrons','OPENTURNS'),['*.com*']) - - copyfiles('../Noyau',os.path.join(path_distrib,'Noyau'),['*.py']) - copyfiles('../Validation',os.path.join(path_distrib,'Validation'),['*.py']) - - - tarball= maketarball('dist',nom_distrib,nom_distrib) - try: - shutil.copy(tarball,dir_download) - except: - print "Repertoire de download inconnu : ",dir_download - - - -def make_dir(dir_cible): - if type(dir_cible) is not types.StringType: - raise "make_dir : dir_cible doit etre une string (%s)" % `dir_cible` - head,tail=os.path.split(dir_cible) - tails=[tail] - while head and tail and not os.path.isdir(head): - head,tail=os.path.split(head) - tails.insert(0, tail) - - for d in tails: - head = os.path.join(head, d) - if not os.path.isdir(head):os.mkdir(head) - - -def copyfiles(dir_origin,dir_cible,listfiles): - if not os.path.isdir(dir_cible):make_dir(dir_cible) - for glob_files in listfiles: - for file in glob.glob(os.path.join(dir_origin,glob_files)): - shutil.copy(file,dir_cible) - - -def maketarball(dir_trav,dir_cible,nom_tar): - prev=os.getcwd() - print prev - os.chdir(dir_trav) - os.system("tar -cf "+nom_tar+".tar "+dir_cible) - os.system("gzip -f9 "+nom_tar+".tar ") - os.chdir(prev) - return os.path.join(dir_trav,nom_tar+".tar.gz") - - -main() - diff --git a/Openturns_Study/style.py b/Openturns_Study/style.py deleted file mode 100644 index 7da9d534..00000000 --- a/Openturns_Study/style.py +++ /dev/null @@ -1 +0,0 @@ -# Necessaire pour compatibilite avec Aster diff --git a/Openturns_Study/test/MinMax_ExpPlane.comm b/Openturns_Study/test/MinMax_ExpPlane.comm deleted file mode 100644 index 6f671ab3..00000000 --- a/Openturns_Study/test/MinMax_ExpPlane.comm +++ /dev/null @@ -1,17 +0,0 @@ - -LOG(DebugMessages='no', - WrapperMessages='no', - UserMessages='no', - InfoMessages='yes', - WarningMessages='yes', - ErrorMessages='yes',); - -MODEL(Name='poutre',); - -CRITERIA(Type='Min/Max', - Method='Experiment Plane', - ExperimentPlane='Axial', - Levels=(1.0,2.0,5.0,), - UnitsPerDimension=(100.0,5.0,0.5,1e-07,), - Center=(3000000000.0,300.0,2.5,4e-06,), - Result='Min/Max',); diff --git a/Openturns_Study/test/MinMax_ExpPlane.py b/Openturns_Study/test/MinMax_ExpPlane.py deleted file mode 100644 index 098c853e..00000000 --- a/Openturns_Study/test/MinMax_ExpPlane.py +++ /dev/null @@ -1,68 +0,0 @@ -#! /usr/bin/env python - -# Chargement du module systeme -import sys -sys.path.append( '/local00/home/dutka/OpenTURNS/trunk/build/install/lib/python2.4/site-packages/openturns' ) - -# Chargement du module Open TURNS -from openturns import * - -# Definit le niveau d'affichage de la log -flags = Log.NONE -flags = flags + Log.WARN -flags = flags + Log.ERROR -flags = flags - Log.WRAPPER -flags = flags + Log.INFO -flags = flags - Log.USER -flags = flags - Log.DBG -Log.Show( flags ) - -# Etude 'Min/Max' -# Charge le modele physique -model = NumericalMathFunction( 'poutre' ) -n = model.getInputNumericalPointDimension() - -# Etude par plan d'experience -# Definit les niveaux de la structure de grille -levels = NumericalPoint( 3 ) -levels[0] = 1 -levels[1] = 2 -levels[2] = 5 - -# Cree le plan d'experience centre reduit -myCenteredReductedGrid = Axial(n, levels) -myExperimentPlane = myCenteredReductedGrid.generate() - -# Definit les facteurs d'echelle dans chaque direction -scaledVector = NumericalPoint( n ) -scaledVector[0] = 100 -scaledVector[1] = 5 -scaledVector[2] = 0.5 -scaledVector[3] = 1e-07 -myExperimentPlane.scale( scaledVector ) - -# Definit le vecteur de translation -translationVector = NumericalPoint( n ) -translationVector[0] = 3e+09 -translationVector[1] = 300 -translationVector[2] = 2.5 -translationVector[3] = 4e-06 -myExperimentPlane.translate( translationVector ) - - -inputSample = myExperimentPlane - -# Calcul -outputSample = model( inputSample ) - -# Resultats -minValue = outputSample.getMin() -maxValue = outputSample.getMax() - -print 'minValue = ', minValue -print 'maxValue = ', maxValue - - - -# Terminaison du fichier -sys.exit( 0 ) diff --git a/Openturns_Study/test/MinMax_RandomSampling.comm b/Openturns_Study/test/MinMax_RandomSampling.comm deleted file mode 100644 index e9ed474b..00000000 --- a/Openturns_Study/test/MinMax_RandomSampling.comm +++ /dev/null @@ -1,30 +0,0 @@ - -LOG(DebugMessages='no', - WrapperMessages='no', - UserMessages='no', - InfoMessages='yes', - WarningMessages='yes', - ErrorMessages='yes',); - -MODEL(Name='poutre',); - -L_E=DISTRIBUTION(Kind='Normal', - Mu=0.1, - Sigma=0.1,); - -L_F=DISTRIBUTION(Kind='Exponential', - Lambda=1.0, - Gamma=2.0,); - -L_L=DISTRIBUTION(Kind='MultiNomial', - N=1, - Values=1.0,); - -L_I=DISTRIBUTION(Kind='Uniform', - A=10.0, - B=20.0,); - -CRITERIA(Type='Min/Max', - Method='Random Sampling', - PointsNumber=1000, - Result='Min/Max',); diff --git a/Openturns_Wrapper/OpenTURNS_Cata_Wrapper_V1.py b/Openturns_Wrapper/OpenTURNS_Cata_Wrapper_V1.py deleted file mode 100644 index 7bad7c17..00000000 --- a/Openturns_Wrapper/OpenTURNS_Cata_Wrapper_V1.py +++ /dev/null @@ -1,216 +0,0 @@ -# -*- coding: utf-8 -*- - -# -------------------------------------------------- -# debut entete -# -------------------------------------------------- - -import Accas -from Accas import * - - -#CONTEXT.debug = 1 -JdC = JDC_CATA ( code = 'OPENTURNS_WRAPPER', - execmodul = None, - regles = ( AU_MOINS_UN ( 'WRAPPER' ), ), - ) # Fin JDC_CATA - -# -------------------------------------------------- -# fin entete -# -------------------------------------------------- - - -#================================ -# 2. Definition des variables -#================================ - -VARIABLEPOOL = PROC ( nom = "VARIABLEPOOL", - op = None, - docu = "", - fr = "L'ensemble des variables probabilistes", - ang = "The pool of probabilistic variables", - - - Variables = FACT ( statut = "o", - min = 1, - max = "**", - - - - Name = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom de la variable, identique au nom dans le solver.", - ang = "Name of the variable, identical to the name in solver." - ), - - Type = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "in", "out", ), - defaut = "in", - fr = "variable d'entree ou de sortie du solver", - ang = "Input or Output variable", - ), - - Unit = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Unite", - ang = "Unit", - ), - - Comment = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Commentaire", - ang = "Comment", - ), - - Regexp = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Expression reguliere", - ang = "Regular expression", - ), - - Format = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Format d'ecriture", - ang = "Format", - ), - - - ), # Fin FACT Variables - -) # Fin PROC VARIABLEPOOL - - -#================================ -# Definition des parametres du wrapper -#================================ - -# Nota : les variables de type PROC doivent etre en majuscules ! -WRAPPER = PROC ( nom = "WRAPPER", - op = None, - docu = "", - fr = "Mise en donnee pour le fichier de configuration de OPENTURNS.", - ang = "Writes the configuration file for OPENTURNS.", - - - WrapperPath = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Chemin d acces au wrapper", - ang = "Wrapper library path", - ), - - FunctionName = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom de la fonction dans le wrapper", - ang = "Function's name in wrapper", - ), - - GradientName = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Nom du gradient dans le wrapper", - ang = "Gradient's name in wrapper", - ), - - HessianName = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Nom du hessian dans le wrapper", - ang = "Hessian's name in wrapper", - ), - - WrapCouplingMode = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "static-link", "dynamic-link", "fork", ), - fr = "Mode de couplage du solver", - ang = "Solver coupling mode", - ), - - Fork = BLOC ( condition = " WrapCouplingMode in ( 'fork', ) ", - - Command = SIMP ( statut = "o", - max = 1, - typ = "TXM", - fr = "Chemin du solver", - ang = "solver path", - ), - ), # Fin BLOC Fork - - State = SIMP ( statut = "f", - typ = "TXM", - max = 1, - into = ( "shared", "specific" ), - fr = "Partage de l'etat interne entre les fonctions", - ang = "Internal state sharing", - ), - - InDataTransfer = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "files", "arguments", ), - fr = "Mode de transfert des donnees d'entree", - ang = "Input transfering mode", - ), - - OutDataTransfer = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "files", "arguments", ), - fr = "Mode de transfert des donnees de sortie", - ang = "Output transfering mode", - ), - - - - - Files = FACT ( statut = "f", - min = 1, - max = "**", - - Id = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Identificateur du fichier", - ang = "File id", - ), - - Type = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "in", "out", ), - fr = "Fichier d entree ou de sortie du solveur ?", - ang = "Input or Output file ?", - ), - - Name = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Nom du fichier", - ang = "File name", - ), - - Path = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Chemin du fichier", - ang = "Path file ", - ), - - Subst = SIMP ( statut = "f", - typ = "TXM", - max = "**", - fr = "Liste de variables", - ang = "List", - ), - - ), # Fin FACT Files - -) # Fin PROC WRAPPER diff --git a/Openturns_Wrapper/OpenTURNS_Cata_Wrapper_V2.py b/Openturns_Wrapper/OpenTURNS_Cata_Wrapper_V2.py deleted file mode 100644 index a3895d3f..00000000 --- a/Openturns_Wrapper/OpenTURNS_Cata_Wrapper_V2.py +++ /dev/null @@ -1,206 +0,0 @@ -# -*- coding: utf-8 -*- - -# -------------------------------------------------- -# debut entete -# -------------------------------------------------- - -import Accas -from Accas import * - -class variable(ASSD ) : pass - - -#CONTEXT.debug = 1 -JdC = JDC_CATA ( code = 'OPENTURNS_WRAPPER', - execmodul = None, - regles = ( AU_MOINS_UN ( 'WRAPPER' ), ), - ) # Fin JDC_CATA - -# -------------------------------------------------- -# fin entete -# -------------------------------------------------- - - -#================================ -# 2. Definition des variables -#================================ - - - -VARIABLE = OPER ( nom = "VARIABLE", - sd_prod = variable, - op = None, - fr = "Definitions des lois marginales utilisees par les variables d'entree", - - - Type = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "in", "out", ), - defaut = "in", - fr = "variable d'entree ou de sortie du solver", - ang = "Input or Output variable", - ), - - Unit = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Unite", - ang = "Unit", - ), - - Comment = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Commentaire", - ang = "Comment", - ), - - Regexp = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Expression reguliere", - ang = "Regular expression", - ), - - Format = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Format d'ecriture", - ang = "Format", - ), - - - ) # Fin FACT Variables -# - - -#================================ -# Definition des parametres du wrapper -#================================ - -# Nota : les variables de type PROC doivent etre en majuscules ! -WRAPPER = PROC ( nom = "WRAPPER", - op = None, - docu = "", - fr = "Mise en donnee pour le fichier de configuration de OPENTURNS.", - ang = "Writes the configuration file for OPENTURNS.", - - - WrapperPath = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Chemin d acces au wrapper", - ang = "Wrapper library path", - ), - - FunctionName = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom de la fonction dans le wrapper", - ang = "Function's name in wrapper", - ), - - GradientName = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Nom du gradient dans le wrapper", - ang = "Gradient's name in wrapper", - ), - - HessianName = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Nom du hessian dans le wrapper", - ang = "Hessian's name in wrapper", - ), - - WrapCouplingMode = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "static-link", "dynamic-link", "fork", ), - defaut = "fork", - fr = "Mode de couplage du solver", - ang = "Solver coupling mode", - ), - - Fork = BLOC ( condition = " WrapCouplingMode in ( 'fork', ) ", - - Command = SIMP ( statut = "o", - max = 1, - typ = "TXM", - fr = "Chemin du solver", - ang = "solver path", - ), - ), # Fin BLOC Fork - - State = SIMP ( statut = "f", - typ = "TXM", - max = 1, - into = ( "shared", "specific" ), - fr = "Partage de l'etat interne entre les fonctions", - ang = "Internal state sharing", - ), - - InDataTransfer = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "files", "arguments", ), - fr = "Mode de transfert des donnees d'entree", - ang = "Input transfering mode", - ), - - OutDataTransfer = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "files", "arguments", ), - fr = "Mode de transfert des donnees de sortie", - ang = "Output transfering mode", - ), - - - - - Files = FACT ( statut = "f", - min = 1, - max = "**", - - Id = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Identificateur du fichier", - ang = "File id", - ), - - Type = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "in", "out", ), - fr = "Fichier d entree ou de sortie du solveur ?", - ang = "Input or Output file ?", - ), - - Name = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Nom du fichier", - ang = "File name", - ), - - Path = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Chemin du fichier", - ang = "Path file ", - ), - - Subst = SIMP ( statut = "f", - typ = "TXM", - max = "**", - fr = "Liste de variables", - ang = "List", - ), - - ), # Fin FACT Files - -) # Fin PROC WRAPPER diff --git a/Openturns_Wrapper/OpenTURNS_Cata_Wrapper_V3.py b/Openturns_Wrapper/OpenTURNS_Cata_Wrapper_V3.py deleted file mode 100644 index f99f40b3..00000000 --- a/Openturns_Wrapper/OpenTURNS_Cata_Wrapper_V3.py +++ /dev/null @@ -1,301 +0,0 @@ -# -*- coding: utf-8 -*- - -# -------------------------------------------------- -# debut entete -# -------------------------------------------------- - -import Accas -from Accas import * - -class variable(ASSD ) : pass - - -#CONTEXT.debug = 1 -JdC = JDC_CATA ( code = 'OPENTURNS_WRAPPER', - execmodul = None, - regles = ( AU_MOINS_UN ( 'WRAPPER' ), ), - ) # Fin JDC_CATA - -# -------------------------------------------------- -# fin entete -# -------------------------------------------------- - - -#================================ -# 2. Definition des variables -#================================ - - - -VARIABLE = OPER ( nom = "VARIABLE", - sd_prod = variable, - op = None, - fr = "Definitions des lois marginales utilisees par les variables d'entree", - - - Type = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "in", "out", ), - defaut = "in", - fr = "variable d'entree ou de sortie du solver", - ang = "Input or Output variable", - ), - - Unit = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Unite", - ang = "Unit", - ), - - Comment = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Commentaire", - ang = "Comment", - ), - - Regexp = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Expression reguliere", - ang = "Regular expression", - ), - - Format = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Format d'ecriture", - ang = "Format", - ), - - - ) # Fin FACT Variables -# - - -#================================ -# Definition des parametres du wrapper -#================================ - -# Nota : les variables de type PROC doivent etre en majuscules ! -WRAPPER = PROC ( nom = "WRAPPER", - op = None, - docu = "", - fr = "Mise en donnee pour le fichier de configuration de OPENTURNS.", - ang = "Writes the configuration file for OPENTURNS.", - - Framework = SIMP ( statut = "o", - typ = "TXM", - into = ( "Salome", "Stand-alone", ), - max = 1, - fr = "Dans quel environnement le wrapper doit-il etre utilise ?", - ang = "Which framework is this wrapper designed for ?", - ), - - StandAlone = BLOC ( condition = " Framework in ( 'Stand-alone', ) ", - - - WrapperPath = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Chemin d acces au wrapper", - ang = "Wrapper library path", - ), - - FunctionName = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Nom de la fonction dans le wrapper", - ang = "Function's name in wrapper", - ), - - GradientName = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Nom du gradient dans le wrapper", - ang = "Gradient's name in wrapper", - ), - - HessianName = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Nom du hessian dans le wrapper", - ang = "Hessian's name in wrapper", - ), - - WrapCouplingMode = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "static-link", "dynamic-link", "fork", ), - defaut = "fork", - fr = "Mode de couplage du solver", - ang = "Solver coupling mode", - ), - - Fork = BLOC ( condition = " WrapCouplingMode in ( 'fork', ) ", - - Command = SIMP ( statut = "o", - max = 1, - typ = "TXM", - fr = "Chemin du solver", - ang = "solver path", - ), - ), # Fin BLOC Fork - - State = SIMP ( statut = "f", - typ = "TXM", - max = 1, - into = ( "shared", "specific" ), - fr = "Partage de l'etat interne entre les fonctions", - ang = "Internal state sharing", - ), - - InDataTransfer = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "files", "arguments", "corba" ), - fr = "Mode de transfert des donnees d'entree", - ang = "Input transfering mode", - ), - - OutDataTransfer = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "files", "arguments", "corba" ), - fr = "Mode de transfert des donnees de sortie", - ang = "Output transfering mode", - ), - - ), # Fin BLOC StandAlone - - - Salome = BLOC ( condition = " Framework in ( 'Salome', ) ", - - SolverComponentName = SIMP ( statut = "f", - typ = "TXM", - max = 1, - defaut = "UNDEFINED", - fr = "Nom du composant solver", - ang = "Solver component name", - ), - - - WrapperPath = SIMP ( statut = "o", - typ = "TXM", - into = ( "GenericWrapper4Salome.so", ), - defaut = "GenericWrapper4Salome.so", - max = 1, - fr = "Chemin d acces au wrapper", - ang = "Wrapper library path", - ), - - FunctionName = SIMP ( statut = "o", - typ = "TXM", - into = ( "GENERICSOLVER", ), - defaut = "GENERICSOLVER", - max = 1, - fr = "Nom de la fonction dans le wrapper", - ang = "Function's name in wrapper", - ), - - GradientName = SIMP ( statut = "f", - typ = "TXM", - into = ( "GENERICSOLVER", ), - defaut = "GENERICSOLVER", - max = 1, - fr = "Nom du gradient dans le wrapper", - ang = "Gradient's name in wrapper", - ), - - HessianName = SIMP ( statut = "f", - typ = "TXM", - into = ( "GENERICSOLVER", ), - defaut = "GENERICSOLVER", - max = 1, - fr = "Nom du hessian dans le wrapper", - ang = "Hessian's name in wrapper", - ), - - WrapCouplingMode = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "static-link", ), - defaut = "static-link", - fr = "Mode de couplage du solver", - ang = "Solver coupling mode", - ), - - State = SIMP ( statut = "f", - typ = "TXM", - max = 1, - into = ( "shared", "specific" ), - fr = "Partage de l'etat interne entre les fonctions", - ang = "Internal state sharing", - ), - - InDataTransfer = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "files", "arguments", "corba", ), - defaut = "corba", - fr = "Mode de transfert des donnees d'entree", - ang = "Input transfering mode", - ), - - OutDataTransfer = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "files", "arguments", "corba", ), - defaut = "corba", - fr = "Mode de transfert des donnees de sortie", - ang = "Output transfering mode", - ), - - ), # Fin BLOC Salome - - - Files = FACT ( statut = "f", - min = 1, - max = "**", - - Id = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Identificateur du fichier", - ang = "File id", - ), - - Type = SIMP ( statut = "o", - typ = "TXM", - max = 1, - into = ( "in", "out", ), - fr = "Fichier d entree ou de sortie du solveur ?", - ang = "Input or Output file ?", - ), - - Name = SIMP ( statut = "f", - typ = "TXM", - max = 1, - fr = "Nom du fichier", - ang = "File name", - ), - - Path = SIMP ( statut = "o", - typ = "TXM", - max = 1, - fr = "Chemin du fichier", - ang = "Path file ", - ), - - Subst = SIMP ( statut = "f", - typ = "TXM", - max = "**", - fr = "Liste de variables", - ang = "List", - ), - - ), # Fin FACT Files - -) # Fin PROC WRAPPER diff --git a/Openturns_Wrapper/catalogues_openturns.ini b/Openturns_Wrapper/catalogues_openturns.ini deleted file mode 100644 index 00baafdf..00000000 --- a/Openturns_Wrapper/catalogues_openturns.ini +++ /dev/null @@ -1,11 +0,0 @@ -# Choix des catalogues -import os -rep_cata=os.getcwd() - -catalogues = ( -# (code,version,catalogue,formatIn,formatOut) - #('OPENTURNS_WRAPPER','V1',os.path.join(rep_cata,'OpenTURNS_Cata_Wrapper_V1.py'),'openturns_wrapper','wrapper'), - ('OPENTURNS_WRAPPER','V3',os.path.join(rep_cata,'OpenTURNS_Cata_Wrapper_V3.py'),'openturns_wrapper','wrapper'), - #('OPENTURNS','Wrapper',os.path.join(rep_cata,'OpenTURNS_Cata_Wrapper_V1.py'),'openturns'), -) - diff --git a/Openturns_Wrapper/configuration.py b/Openturns_Wrapper/configuration.py deleted file mode 100644 index 4fc3ef1a..00000000 --- a/Openturns_Wrapper/configuration.py +++ /dev/null @@ -1,193 +0,0 @@ -# -*- coding: utf-8 -*- -# CONFIGURATION MANAGEMENT OF EDF VERSION -# ====================================================================== -# COPYRIGHT (C) 1991 - 2002 EDF R&D WWW.CODE-ASTER.ORG -# THIS PROGRAM IS FREE SOFTWARE; YOU CAN REDISTRIBUTE IT AND/OR MODIFY -# IT UNDER THE TERMS OF THE GNU GENERAL PUBLIC LICENSE AS PUBLISHED BY -# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR -# (AT YOUR OPTION) ANY LATER VERSION. -# -# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT -# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF -# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU -# GENERAL PUBLIC LICENSE FOR MORE DETAILS. -# -# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE -# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, -# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. -# -# -# ====================================================================== -""" - Ce module sert pour charger les paramètres de configuration d'EFICAS -""" -# Modules Python -print "passage dans la surcharge de configuration pour OTW" -import os, sys, string, types, re -import traceback -from PyQt4.QtGui import * - -# Modules Eficas -from Editeur import utils - -class CONFIG: - - #----------------------------------- - def __init__(self,appli,repIni): - #----------------------------------- - - # Classe de base permettant de lire, afficher - # et sauvegarder les fichiers utilisateurs - # On a deux directories : la directory generale (Repertoire d instal + Nom du code - # Par exemple : ~/Install_Eficas/EficasV1_14/Openturns_Wrapper - # et la directorie de l utilisateur - # HOME/.Eficas_Openturns - # Le fichier prefs.py va etre lu dans la directory generale puis surcharge eventuellement - # par celui de l utilisateur - # le fichier de catalogue va etre lu dans la directory de l utilisateur s il exite - # dans le fichier general sinon - self.appli = appli - self.code = appli.code - self.salome = appli.salome - self.repIni = repIni - self.fic_prefs ="prefs.py" - - if self.appli: - self.parent=appli.top - else: self.parent=None - - - self.labels=("OpenTURNS_path","rep_user","INSTALLDIR","path_doc","exec_acrobat","rep_cata","initialdir","savedir") - - # Valeurs par defaut - self.rep_user = os.path.join(os.environ['HOME'],'.Eficas_Openturns') - self.initialdir = self.rep_user - self.path_doc = self.rep_user - self.savedir = self.rep_user - self.exec_acrobat = self.rep_user - - #Lecture des fichiers utilisateurs - self.lecture_fichier_ini_standard() - self.lecture_fichier_ini_utilisateur() - self.lecture_catalogues() - print self.initialdir - - #-------------------------------------- - def lecture_fichier_ini_standard(self): - #-------------------------------------- - # Verifie l'existence du fichier "standard" - # appelle la lecture de ce fichier - self.fic_ini = os.path.join(self.repIni,self.fic_prefs) - if not os.path.isfile(self.fic_ini): - QMessageBox.critical( None, "Import du fichier de Configuration", - "Erreur à la lecture du fichier de configuration "+self.fic_ini+".py" ) - sys.exit(0) - import prefs - for k in self.labels : - try : - valeur=getattr(prefs,k) - setattr(self,k,valeur) - except : - pass - - - #-------------------------------------- - def lecture_fichier_ini_utilisateur(self): - #-------------------------------------- - # Surcharge les paramètres standards par les paramètres utilisateur s'ils existent - self.fic_ini_utilisateur = os.path.join(self.rep_user,self.fic_prefs) - #if not os.path.isfile(self.fic_ini_utilisateur+".py"): - if not os.path.isfile(self.fic_ini_utilisateur): - return - from utils import read_file - txt = utils.read_file(self.fic_ini_utilisateur) - from styles import style - d=locals() - try: - exec txt in d - except : - l=traceback.format_exception(sys.exc_info()[0],sys.exc_info()[1],sys.exc_info()[2]) - QMessageBox.critical( None, "Import du fichier de Configuration", - "Erreur à la lecture du fichier de configuration " + self.fic_ini_utilisateur ) - sys.exit(0) - for k in self.labels : - try : - setattr(self,k,d[k]) - except : - pass - - - - #-------------------------------------- - def lecture_catalogues(self): - #-------------------------------------- - rep_mat=" " # Compatbilite Aster - fic_cata ="catalogues_openturns.ini" - fic_ini = os.path.join(self.repIni,fic_cata) - fic_user= os.path.join(self.rep_user,fic_cata) - if os.path.isfile(fic_user): - fichier = fic_user - else : - fichier = fic_ini - if not os.path.isfile(fic_ini) : - QMessageBox.critical( None, "Erreur a l'import du fichier des Catalogues", - "Le fichier de configuration des catalogues "+fic_ini+" n a pas été trouvé" ) - sys.exit(0) - - from utils import read_file - txt = utils.read_file(fichier) - d=locals() - try: - exec txt in d - self.catalogues=d["catalogues"] - except : - l=traceback.format_exception(sys.exc_info()[0],sys.exc_info()[1],sys.exc_info()[2]) - QMessageBox.critical( None, "Import du fichier de Configuration", - "Erreur à la lecture du fichier de configuration " + fichier ) - sys.exit(0) - - - - #-------------------------------------- - def save_params(self): - #-------------------------------------- - # sauvegarde - # les nouveaux paramètres dans le fichier de configuration utilisateur - # - print "a ecrire PNPNPN" -# l_param=('exec_acrobat', 'repIni','catalogues','rep_travail','rep_mat','path_doc') -# texte="" -# for clef in l_param : -# if hasattr(self,clef): -# valeur=getattr(self,clef) -# texte= texte + clef+" = " + repr(valeur) +"\n" -# -# -# # recuperation des repertoires materiaux -# try : -# for item in self.catalogues : -# try : -# (code,version,cata,format,defaut)=item -# except : -# (code,version,cata,format)=item -# codeSansPoint=re.sub("\.","",version) -# chaine="rep_mat_"+codeSansPoint -# if hasattr(self,chaine): -# valeur=getattr(self,chaine) -# texte= texte + chaine+" = '" + str(valeur) +"'\n" -# except : -# pass -# -# f=open(self.fic_ini_utilisateur,'w+') -# f.write(texte) -# f.close() -# - - -def make_config(appli,rep): - return CONFIG(appli,rep) - -def make_config_style(appli,rep): - return None - - diff --git a/Openturns_Wrapper/configuration_OPENTURNS_WRAPPER.py b/Openturns_Wrapper/configuration_OPENTURNS_WRAPPER.py deleted file mode 100644 index d4c09342..00000000 --- a/Openturns_Wrapper/configuration_OPENTURNS_WRAPPER.py +++ /dev/null @@ -1,206 +0,0 @@ -# -*- coding: utf-8 -*- -# CONFIGURATION MANAGEMENT OF EDF VERSION -# ====================================================================== -# COPYRIGHT (C) 1991 - 2002 EDF R&D WWW.CODE-ASTER.ORG -# THIS PROGRAM IS FREE SOFTWARE; YOU CAN REDISTRIBUTE IT AND/OR MODIFY -# IT UNDER THE TERMS OF THE GNU GENERAL PUBLIC LICENSE AS PUBLISHED BY -# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR -# (AT YOUR OPTION) ANY LATER VERSION. -# -# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT -# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF -# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU -# GENERAL PUBLIC LICENSE FOR MORE DETAILS. -# -# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE -# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, -# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. -# -# -# ====================================================================== -""" - Ce module sert pour charger les paramètres de configuration d'EFICAS -""" -# Modules Python -print "passage dans la surcharge de configuration pour OTW" -import os, sys, string, types, re -import traceback -from PyQt4.QtGui import * - -# Modules Eficas -from Editeur import utils - -class CONFIG: - - #----------------------------------- - def __init__(self,appli,repIni): - #----------------------------------- - - # Classe de base permettant de lire, afficher - # et sauvegarder les fichiers utilisateurs - # On a deux directories : la directory generale (Repertoire d instal + Nom du code - # Par exemple : ~/Install_Eficas/EficasV1_14/Openturns_Wrapper - # et la directorie de l utilisateur - # HOME/.Eficas_Openturns - # Le fichier prefs.py va etre lu dans la directory generale puis surcharge eventuellement - # par celui de l utilisateur - # le fichier de catalogue va etre lu dans la directory de l utilisateur s il exite - # dans le fichier general sinon - self.appli = appli - self.code = appli.code - self.salome = appli.salome - self.repIni = repIni - self.fic_prefs ="prefs.py" - self.prefsUser ="prefs.py" - - if self.appli: - self.parent=appli.top - self.appli.mode_nouv_commande='initial' - else: self.parent=None - - - self.labels=("OpenTURNS_path","rep_user","INSTALLDIR","path_doc","exec_acrobat","rep_cata","initialdir","savedir") - - # Valeurs par defaut - self.rep_user = os.path.join(os.environ['HOME'],'.Eficas_Openturns') - self.initialdir = self.rep_user - self.path_doc = self.rep_user - self.savedir = self.rep_user - self.exec_acrobat = self.rep_user - - #Lecture des fichiers utilisateurs - self.lecture_fichier_ini_standard() - self.lecture_fichier_ini_utilisateur() - self.lecture_catalogues() - print self.initialdir - - #-------------------------------------- - def lecture_fichier_ini_standard(self): - #-------------------------------------- - # Verifie l'existence du fichier "standard" - # appelle la lecture de ce fichier - self.fic_ini = os.path.join(self.repIni,self.fic_prefs) - if not os.path.isfile(self.fic_ini): - QMessageBox.critical( None, "Import du fichier de Configuration", - "Erreur à la lecture du fichier de configuration "+self.fic_ini+".py" ) - sys.exit(0) - import prefs - name='prefs_'+prefs.code - prefsCode=__import__(name) - self.prefsUser=name+".py" - for k in self.labels : - try : - valeur=getattr(prefsCode,k) - setattr(self,k,valeur) - except : - pass - - - #-------------------------------------- - def lecture_fichier_ini_utilisateur(self): - #-------------------------------------- - # Surcharge les paramètres standards par les paramètres utilisateur s'ils existent - self.fic_ini_utilisateur = os.path.join(self.rep_user,self.prefsUser) - #if not os.path.isfile(self.fic_ini_utilisateur+".py"): - if not os.path.isfile(self.fic_ini_utilisateur): - return - from utils import read_file - txt = utils.read_file(self.fic_ini_utilisateur) - from styles import style - d=locals() - try: - exec txt in d - except : - l=traceback.format_exception(sys.exc_info()[0],sys.exc_info()[1],sys.exc_info()[2]) - QMessageBox.critical( None, "Import du fichier de Configuration", - "Erreur à la lecture du fichier de configuration " + self.fic_ini_utilisateur ) - sys.exit(0) - for k in self.labels : - try : - setattr(self,k,d[k]) - except : - pass - - try : - sys.path.append( self.OpenTURNS_path ) - except : - pass - - - - - #-------------------------------------- - def lecture_catalogues(self): - #-------------------------------------- - rep_mat=" " # Compatbilite Aster - fic_cata ="catalogues_openturns.ini" - fic_ini = os.path.join(self.repIni,fic_cata) - fic_user= os.path.join(self.rep_user,fic_cata) - print fic_ini - print fic_user - if os.path.isfile(fic_user): - fichier = fic_user - else : - fichier = fic_ini - if not os.path.isfile(fic_ini) : - QMessageBox.critical( None, "Erreur a l'import du fichier des Catalogues", - "Le fichier de configuration des catalogues "+fic_ini+" n a pas été trouvé" ) - sys.exit(0) - - from utils import read_file - txt = utils.read_file(fichier) - d=locals() - try: - exec txt in d - self.catalogues=d["catalogues"] - except : - l=traceback.format_exception(sys.exc_info()[0],sys.exc_info()[1],sys.exc_info()[2]) - QMessageBox.critical( None, "Import du fichier de Configuration", - "Erreur à la lecture du fichier de configuration " + fichier ) - sys.exit(0) - - - - #-------------------------------------- - def save_params(self): - #-------------------------------------- - # sauvegarde - # les nouveaux paramètres dans le fichier de configuration utilisateur - # - print "a ecrire PNPNPN" -# l_param=('exec_acrobat', 'repIni','catalogues','rep_travail','rep_mat','path_doc') -# texte="" -# for clef in l_param : -# if hasattr(self,clef): -# valeur=getattr(self,clef) -# texte= texte + clef+" = " + repr(valeur) +"\n" -# -# -# # recuperation des repertoires materiaux -# try : -# for item in self.catalogues : -# try : -# (code,version,cata,format,defaut)=item -# except : -# (code,version,cata,format)=item -# codeSansPoint=re.sub("\.","",version) -# chaine="rep_mat_"+codeSansPoint -# if hasattr(self,chaine): -# valeur=getattr(self,chaine) -# texte= texte + chaine+" = '" + str(valeur) +"'\n" -# except : -# pass -# -# f=open(self.fic_ini_utilisateur,'w+') -# f.write(texte) -# f.close() -# - - -def make_config(appli,rep): - return CONFIG(appli,rep) - -def make_config_style(appli,rep): - return None - - diff --git a/Openturns_Wrapper/prefs.py b/Openturns_Wrapper/prefs.py deleted file mode 100644 index a1c7888e..00000000 --- a/Openturns_Wrapper/prefs.py +++ /dev/null @@ -1,21 +0,0 @@ -# -*- coding: utf-8 -*- -# CONFIGURATION MANAGEMENT OF EDF VERSION -# ====================================================================== -# COPYRIGHT (C) 1991 - 2002 EDF R&D WWW.CODE-ASTER.ORG -# THIS PROGRAM IS FREE SOFTWARE; YOU CAN REDISTRIBUTE IT AND/OR MODIFY -# IT UNDER THE TERMS OF THE GNU GENERAL PUBLIC LICENSE AS PUBLISHED BY -# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR -# (AT YOUR OPTION) ANY LATER VERSION. -# -# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT -# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF -# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU -# GENERAL PUBLIC LICENSE FOR MORE DETAILS. -# -# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE -# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, -# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. -# -# -# ====================================================================== -code = "OPENTURNS_WRAPPER" diff --git a/Openturns_Wrapper/prefs_OPENTURNS_WRAPPER.py b/Openturns_Wrapper/prefs_OPENTURNS_WRAPPER.py deleted file mode 100644 index a97130a2..00000000 --- a/Openturns_Wrapper/prefs_OPENTURNS_WRAPPER.py +++ /dev/null @@ -1,51 +0,0 @@ -# -*- coding: utf-8 -*- -# CONFIGURATION MANAGEMENT OF EDF VERSION -# ====================================================================== -# COPYRIGHT (C) 1991 - 2002 EDF R&D WWW.CODE-ASTER.ORG -# THIS PROGRAM IS FREE SOFTWARE; YOU CAN REDISTRIBUTE IT AND/OR MODIFY -# IT UNDER THE TERMS OF THE GNU GENERAL PUBLIC LICENSE AS PUBLISHED BY -# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR -# (AT YOUR OPTION) ANY LATER VERSION. -# -# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT -# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF -# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU -# GENERAL PUBLIC LICENSE FOR MORE DETAILS. -# -# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE -# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, -# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. -# -# -# ====================================================================== - -import os, sys -# Les variables pouvant positionnees sont : -print "import des prefs de OPENTURNS" - -# REPINI sert à localiser le fichier -# initialdir sert comme directory initial des QFileDialog -# positionnee a repin au debut mise a jour dans configuration -REPINI=os.path.dirname(os.path.abspath(__file__)) -initialdir=REPINI - -# INSTALLDIR sert à localiser l'installation d'Eficas -INSTALLDIR=os.path.join(REPINI,'..') - - -# Codage des strings qui accepte les accents (en remplacement de 'ascii') -# lang indique la langue utilisée pour les chaines d'aide : fr ou ang -lang='fr' -encoding='iso-8859-1' - -# Acces a la documentation -rep_cata = INSTALLDIR -path_doc = os.path.join(rep_cata,'Doc') -exec_acrobat = "/usr/bin/xpdf" -savedir = os.environ['HOME'] - - -# OpenTURNS Python module -OpenTURNS_path="/local00/home/dutka/OpenTURNS/merge/trunk/build/install/lib/python2.4/site-packages" -# Choix des catalogues -sys.path[:0]=[INSTALLDIR, OpenTURNS_path] diff --git a/Openturns_Wrapper/properties.py b/Openturns_Wrapper/properties.py deleted file mode 100644 index 8ba0ed7e..00000000 --- a/Openturns_Wrapper/properties.py +++ /dev/null @@ -1,25 +0,0 @@ -# -*- coding: utf-8 -*- -#@ MODIF properties Accas DATE 10/10/2002 AUTEUR gcbhhhh M.ADMINISTRATEUR -# CONFIGURATION MANAGEMENT OF EDF VERSION -# RESPONSABLE D6BHHHH J-P.LEFEBVRE -# ====================================================================== -# COPYRIGHT (C) 1991 - 2001 EDF R&D WWW.CODE-ASTER.ORG -# THIS PROGRAM IS FREE SOFTWARE; YOU CAN REDISTRIBUTE IT AND/OR MODIFY -# IT UNDER THE TERMS OF THE GNU GENERAL PUBLIC LICENSE AS PUBLISHED BY -# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR -# (AT YOUR OPTION) ANY LATER VERSION. -# -# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT -# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF -# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU -# GENERAL PUBLIC LICENSE FOR MORE DETAILS. -# -# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE -# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, -# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. -# ====================================================================== -# IDENTIFICATION DU GESTIONNAIRE DE COMMANDE ACCAS A PARTIR -# DE LA VERSION DU CODE_ASTER ASSOCIE -#---------------------------------------------------------------------- -version = "7.1.0" -date = "23/04/2003" diff --git a/Openturns_Wrapper/qtEficas_openturns_wrapper.py b/Openturns_Wrapper/qtEficas_openturns_wrapper.py deleted file mode 100755 index 705dc165..00000000 --- a/Openturns_Wrapper/qtEficas_openturns_wrapper.py +++ /dev/null @@ -1,36 +0,0 @@ -#!/usr/bin/env python -# -*- coding: utf-8 -*- -# CONFIGURATION MANAGEMENT OF EDF VERSION -# ====================================================================== -# COPYRIGHT (C) 1991 - 2002 EDF R&D WWW.CODE-ASTER.ORG -# THIS PROGRAM IS FREE SOFTWARE; YOU CAN REDISTRIBUTE IT AND/OR MODIFY -# IT UNDER THE TERMS OF THE GNU GENERAL PUBLIC LICENSE AS PUBLISHED BY -# THE FREE SOFTWARE FOUNDATION; EITHER VERSION 2 OF THE LICENSE, OR -# (AT YOUR OPTION) ANY LATER VERSION. -# -# THIS PROGRAM IS DISTRIBUTED IN THE HOPE THAT IT WILL BE USEFUL, BUT -# WITHOUT ANY WARRANTY; WITHOUT EVEN THE IMPLIED WARRANTY OF -# MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SEE THE GNU -# GENERAL PUBLIC LICENSE FOR MORE DETAILS. -# -# YOU SHOULD HAVE RECEIVED A COPY OF THE GNU GENERAL PUBLIC LICENSE -# ALONG WITH THIS PROGRAM; IF NOT, WRITE TO EDF R&D CODE_ASTER, -# 1 AVENUE DU GENERAL DE GAULLE, 92141 CLAMART CEDEX, FRANCE. -# -# -# ====================================================================== - -""" - Ce module sert à lancer EFICAS configuré pour Openturns -""" -# Modules Python - -# Modules Eficas -import prefs -name='prefs_'+prefs.code -__import__(name) - -import sys -from InterfaceQT4 import eficas_go - -eficas_go.lance_eficas(code=prefs.code) diff --git a/Openturns_Wrapper/sdistOTqt.py b/Openturns_Wrapper/sdistOTqt.py deleted file mode 100644 index acf75c26..00000000 --- a/Openturns_Wrapper/sdistOTqt.py +++ /dev/null @@ -1,103 +0,0 @@ -# -*- coding: utf-8 -*- -""" - Ce module sert à construire les distributions d'EFICAS pour Openturns - en fonction du tag CVS courant - Les distributions sont : - - un tar.gz pour UNIX ne contenant pas mxTextTools - L'utilisation de ce module est la suivante : - 1- Se mettre dans un répertoire de travail - 2- Configurer son environnement pour utiliser le référentiel CVS EFICAS - 3- Exporter les sources d'EficasV1 par la commande : - cvs export -r TAG -d Eficas_export EficasV1 - ou TAG est le tag CVS de la version que l'on veut distribuer (par exemple V1_1p1) - 5- Aller dans le répertoire Eficas_export - 6- Executer le script sdist.py - python sdist.py - Ce qui a pour effet de creer un repertoire dist contenant la distribution - et de la copier dans le répertoire indiqué par dir_download s'il est accessible - -""" -import os,shutil,glob,sys -import types - -nom_distrib="QTEficasOpenturns_V1_0" -path_distrib=os.path.join("dist",nom_distrib) -path_TextTools="/home/eficas/pkg/mxTools/egenix2.0.2pourWindows/mx/TextTools" -dir_download= "/home/eficas/WWW/telechargement/eficas" - -def main(): - if os.path.isdir('dist'):shutil.rmtree('dist') - - copyfiles('.',path_distrib,['LICENSE.TERMS','INSTALL','NEWS']) - - copyfiles('../Editeur',os.path.join(path_distrib,'Editeur'),['*.py','faqs.txt']) - copyfiles('../InterfaceTK',os.path.join(path_distrib,'InterfaceTK'),['*.py','faqs.txt']) - copyfiles('../InterfaceQT',os.path.join(path_distrib,'InterfaceQT'),['*.py','faqs.txt']) - copyfiles('../Ui',os.path.join(path_distrib,'Ui'),['*.ui','makefile']) - copyfiles('../Openturns',os.path.join(path_distrib,'Openturns'),['*.py','*.ini']) - copyfiles('../Ihm',os.path.join(path_distrib,'Ihm'),['*.py']) - copyfiles('../Extensions',os.path.join(path_distrib,'Extensions'),['*.py']) - copyfiles('../Misc',os.path.join(path_distrib,'Misc'),['*.py']) - copyfiles('../Accas',os.path.join(path_distrib,'Accas'),['*.py']) - copyfiles('../Accas',os.path.join(path_distrib,'Noyau'),['*.py']) - copyfiles('../Accas',os.path.join(path_distrib,'Validation'),['*.py']) - # AIDE - copyfiles('../AIDE',os.path.join(path_distrib,'AIDE'),['*.py']) - copyfiles('../AIDE/fichiers',os.path.join(path_distrib,'AIDE','fichiers'),['*']) - copyfiles('.',os.path.join(path_distrib,'AIDE','fichiers'),['INSTALL','NEWS']) - copyfiles('../Editeur',os.path.join(path_distrib,'AIDE','fichiers'),['faqs.txt']) - # ______________________ - - copyfiles('../convert',os.path.join(path_distrib,'convert'),['*.py']) - copyfiles('../convert/Parserv5',os.path.join(path_distrib,'convert','Parserv5'),['*.py']) - copyfiles('../generator',os.path.join(path_distrib,'generator'),['*.py']) - copyfiles('../Editeur/icons',os.path.join(path_distrib,'Editeur','icons'),['*.gif']) - copyfiles('../Editeur/icons',os.path.join(path_distrib,'Editeur','icons'),['*.png']) - copyfiles('../Editeur/Patrons/',os.path.join(path_distrib,'Editeur','Patrons'),['*.com*']) - copyfiles('../Editeur/Patrons/OPENTURNS',os.path.join(path_distrib,'Editeur','Patrons','OPENTURNS'),['*.com*']) - - copyfiles('../Noyau',os.path.join(path_distrib,'Noyau'),['*.py']) - copyfiles('../Validation',os.path.join(path_distrib,'Validation'),['*.py']) - - - tarball= maketarball('dist',nom_distrib,nom_distrib) - try: - shutil.copy(tarball,dir_download) - except: - print "Repertoire de download inconnu : ",dir_download - - - -def make_dir(dir_cible): - if type(dir_cible) is not types.StringType: - raise "make_dir : dir_cible doit etre une string (%s)" % `dir_cible` - head,tail=os.path.split(dir_cible) - tails=[tail] - while head and tail and not os.path.isdir(head): - head,tail=os.path.split(head) - tails.insert(0, tail) - - for d in tails: - head = os.path.join(head, d) - if not os.path.isdir(head):os.mkdir(head) - - -def copyfiles(dir_origin,dir_cible,listfiles): - if not os.path.isdir(dir_cible):make_dir(dir_cible) - for glob_files in listfiles: - for file in glob.glob(os.path.join(dir_origin,glob_files)): - shutil.copy(file,dir_cible) - - -def maketarball(dir_trav,dir_cible,nom_tar): - prev=os.getcwd() - print prev - os.chdir(dir_trav) - os.system("tar -cf "+nom_tar+".tar "+dir_cible) - os.system("gzip -f9 "+nom_tar+".tar ") - os.chdir(prev) - return os.path.join(dir_trav,nom_tar+".tar.gz") - - -main() - diff --git a/Openturns_Wrapper/style.py b/Openturns_Wrapper/style.py deleted file mode 100644 index 7da9d534..00000000 --- a/Openturns_Wrapper/style.py +++ /dev/null @@ -1 +0,0 @@ -# Necessaire pour compatibilite avec Aster