# -*- coding: utf-8 -*-
+# Copyright (C) 2014-2021 EDF R&D
+#
+# This library is free software; you can redistribute it and/or
+# modify it under the terms of the GNU Lesser General Public
+# License as published by the Free Software Foundation; either
+# version 2.1 of the License, or (at your option) any later version.
+#
+# This library is distributed in the hope that it will be useful,
+# but WITHOUT ANY WARRANTY; without even the implied warranty of
+# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+# Lesser General Public License for more details.
+#
+# You should have received a copy of the GNU Lesser General Public
+# License along with this library; if not, write to the Free Software
+# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+#
+# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
+#
+"""Statistiques maillage"""
+import os
import logging
-import SMESH
-
-# -----------------------------------------------------------------------------
-# --- statistiques maillage
def getStatsMaillageFissure(maillage, referencesMaillageFissure, maillageFissureParams):
- """
- TODO: a completer
- """
+ """"Statistiques maillage"""
+
logging.debug('start')
- nomRep = '.'
if 'nomRep' in maillageFissureParams:
nomRep = maillageFissureParams['nomRep']
-
+ else:
+ nomRep = os.path.curdir
+
nomFicFissure = maillageFissureParams['nomFicFissure']
- fichierStatMaillageFissure = nomRep + '/' + nomFicFissure + '.res'
- fichierNewRef = nomRep + '/' + nomFicFissure + '.new'
+ fichierStatMaillageFissure = os.path.join(nomRep, "{}.res".format(nomFicFissure))
+ fichierNewRef = os.path.join(nomRep, "{}.new".format(nomFicFissure))
logging.debug("fichierStatMaillageFissure=%s", fichierStatMaillageFissure)
- OK = False
+ ok_maillage = False
if maillage is not None:
mesures = maillage.GetMeshInfo()
- d= {}
+ d_resu = dict()
for key, value in mesures.items():
logging.debug( "key: %s value: %s", key, value)
- d[str(key)] = value
- logging.debug("dico mesures %s", d)
-
- f = open(fichierStatMaillageFissure, 'w')
- f2 = open(fichierNewRef, 'w')
- OK = True
- for key in ('Entity_Quad_Pyramid', 'Entity_Quad_Hexa', 'Entity_Quad_Quadrangle'):
- if d[key] != referencesMaillageFissure[key]:
- logging.info("Ecart: %s reference: %s calcul: %s", key, referencesMaillageFissure[key], d[key])
- f.write("Ecart: " + key + " reference: " + str(referencesMaillageFissure[key]) + " calcul: " + str(d[key]) + '\n')
- OK = False
- else:
- logging.info("Valeur_OK: %s reference: %s calcul: %s", key, referencesMaillageFissure[key], d[key])
- f.write("Valeur_OK: " + key + " reference: " + str(referencesMaillageFissure[key]) + " calcul: " + str(d[key]) + '\n')
- f2.write(key + " = " + str(d[key]) + ",\n")
- tolerance = 0.05
- for key in ('Entity_Quad_Penta', 'Entity_Quad_Tetra', 'Entity_Quad_Triangle', 'Entity_Quad_Edge', 'Entity_Node'):
- if (d[key] < (1.0 - tolerance)*referencesMaillageFissure[key]) \
- or (d[key] > (1.0 + tolerance)*referencesMaillageFissure[key]):
- logging.info("Ecart: %s reference: %s calcul: %s", key, referencesMaillageFissure[key], d[key])
- f.write("Ecart: " + key + " reference: " + str(referencesMaillageFissure[key]) + " calcul: " + str(d[key]) + '\n')
- OK = False
- else:
- logging.info("Valeur_OK: %s reference: %s calcul: %s", key, referencesMaillageFissure[key], d[key])
- f.write("Valeur_OK: " + key + " reference: " + str(referencesMaillageFissure[key]) + " calcul: " + str(d[key]) + '\n')
- f2.write(key + " = " + str(d[key]) + ",\n")
- f.close()
- f2.close()
- return OK
+ d_resu[str(key)] = value
+ logging.debug("dico mesures %s", d_resu)
+
+ text_2 = ""
+ ok_maillage = True
+ with open(fichierStatMaillageFissure, "w") as fic_stat :
+
+ # Le nombre de quadrangles ou d'hexaèdres doit être rigoureusement identique
+ for key in ('Entity_Quad_Quadrangle', 'Entity_Quad_Hexa'):
+ if d_resu[key] != referencesMaillageFissure[key]:
+ text = "Ecart"
+ ok_maillage = False
+ else:
+ text = "Valeur_OK"
+ text += ": {} reference: {} calcul: {}".format(key,referencesMaillageFissure[key],d_resu[key])
+ logging.info(text)
+ fic_stat.write(text+"\n")
+ text_2 += " {} = {}, \\\n".format(key,d_resu[key])
+
+ # Le nombre de noeuds, d'arêtes, de triangles, de tétraèdres ou de pyramides peut varier du fait des algorithmes. On tolère 5% d'écart.
+ tolerance = 0.05
+ for key in ('Entity_Node', 'Entity_Quad_Edge', 'Entity_Quad_Triangle', 'Entity_Quad_Tetra', 'Entity_Quad_Pyramid', 'Entity_Quad_Penta'):
+ if d_resu[key] == referencesMaillageFissure[key]:
+ text = "Valeur_OK"
+ elif (d_resu[key] < (1.0 - tolerance)*referencesMaillageFissure[key]) \
+ or (d_resu[key] > (1.0 + tolerance)*referencesMaillageFissure[key]):
+ text = "Ecart de plus de {}%".format(tolerance*100.)
+ ok_maillage = False
+ else:
+ text = "Valeur_OK à moins de {}%".format(tolerance*100.)
+ text += ": {} reference: {} calcul: {}".format(key,referencesMaillageFissure[key],d_resu[key])
+ logging.info(text)
+ fic_stat.write(text+"\n")
+ text_2 += " {} = {}, \\\n".format(key,d_resu[key])
+
+ if ok_maillage:
+ text = "Calcul cohérent avec la référence."
+ else:
+ text = "Calcul différent de la référence.\n"
+ text += "Voir le fichier {}\n".format(fichierStatMaillageFissure)
+ text += "La nouvelle référence est disponible dans le fichier :\n{}\n".format(fichierNewRef)
+ text += "Il faut l'insérer pour créer le dictionnaire 'referencesMaillageFissure' dans le paramétrage du cas."
+# Résultats de référence pour intégration dans le python du cas pour une mise à jour
+ with open(fichierNewRef, "w") as fic_info :
+ fic_info.write(text_2[:-4]+" \\")
+
+ print (text)
+
+ return ok_maillage