Merge branch 'gni/evolution'

Somebugs in blocFissure are fixed
2025-01-27 23:50:33 +05:00 · 2021-03-29 10:30:39 +02:00 · 2021-03-29 10:30:39 +02:00 · d7ce9e283f
commit d7ce9e283f
parent 34a8a37aee 4c4e84f165
104 changed files with 4020 additions and 2477 deletions
--- a/src/Tools/blocFissure/AREextradosLauncher.py
+++ b/src/Tools/blocFissure/AREextradosLauncher.py
@ -38,8 +38,8 @@ crack = 'fissureExtrados.brep'
 dicoParams = dict(nomCas            = 'fissTuyau',
                  maillageSain      = '/local00/home/I48174/Documents/soudure/essaiFissure/{0}'.format(mesh),
-                  brepFaceFissure   = '/local00/home/I48174/Documents/soudure/essaiFissure/{0}'.format(crack),
+                  CAOFaceFissure    = '/local00/home/I48174/Documents/soudure/essaiFissure/{0}'.format(crack),
-                  edgeFissIds       = [4],
+                  edgeFiss          = [4],
                  lgInfluence       = 12,
                  meshBrep          = (0.05, 2.0),
                  rayonPipe         = 1.0,
--- a/src/Tools/blocFissure/AREintradosLauncher.py
+++ b/src/Tools/blocFissure/AREintradosLauncher.py
@ -38,8 +38,8 @@ crack = 'fissureIntrados.brep'
 dicoParams = dict(nomCas            = 'fissTuyau',
                  maillageSain      = '/local00/home/I48174/Documents/soudure/essaiFissure/{0}'.format(mesh),
-                  brepFaceFissure   = '/local00/home/I48174/Documents/soudure/essaiFissure/{0}'.format(crack),
+                  CAOFaceFissure    = '/local00/home/I48174/Documents/soudure/essaiFissure/{0}'.format(crack),
-                  edgeFissIds       = [4],
+                  edgeFiss          = [4],
                  lgInfluence       = 14,
                  meshBrep          = (0.05, 2.0),
                  rayonPipe         = 1.0,
--- a/src/Tools/blocFissure/CasTests/CMakeLists.txt
+++ b/src/Tools/blocFissure/CasTests/CMakeLists.txt
@ -51,6 +51,7 @@ SET(plugin_SCRIPTS
  fissureCoude_9.py
  fissure_Coude.py
  vis_1.py
  tube.py
 )
 # --- rules ---
--- a/src/Tools/blocFissure/CasTests/cubeAngle.py
+++ b/src/Tools/blocFissure/CasTests/cubeAngle.py
@ -18,41 +18,37 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
-import os
+"""problème de fissure plane coupant 2 faces (angle), débouches normaux, objet plan"""
 from blocFissure import gmu
 from blocFissure.gmu.geomsmesh import geompy, smesh
-import math
+import os
 import GEOM
 import SALOMEDS
 import SMESH
 #import StdMeshers
 #import GHS3DPlugin
 #import NETGENPlugin
 import logging
 from blocFissure import gmu
 from blocFissure.gmu.geomsmesh import geompy, smesh
 from blocFissure.gmu.fissureGenerique import fissureGenerique
 from blocFissure.gmu.triedreBase import triedreBase
 from blocFissure.gmu.genereMeshCalculZoneDefaut import genereMeshCalculZoneDefaut
 from blocFissure.gmu.creeZoneDefautDansObjetSain import creeZoneDefautDansObjetSain
 from blocFissure.gmu.construitFissureGenerale import construitFissureGenerale
-O, OX, OY, OZ = triedreBase()
+import GEOM
 import SALOMEDS
 import SMESH
 class cubeAngle(fissureGenerique):
-  """
+  """problème de fissure plane coupant 2 faces (angle), débouches normaux, objet plan"""
  problème de fissure plane coupant 2 faces (angle), débouches normaux, objet plan
  """
  nomProbleme = "cubeAngle"
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
  # ---------------------------------------------------------------------------
  def genereMaillageSain(self, geometriesSaines, meshParams):
-    logging.info("genereMaillageSain %s", self.nomCas)
+    texte = "genereMaillageSain pour '{}'".format(self.nomCas)
    logging.info(texte)
-    ([objetSain], status) = smesh.CreateMeshesFromMED(os.path.join(gmu.pathBloc, 'materielCasTests/CubeAngle.med'))
+    ([objetSain], _) = smesh.CreateMeshesFromMED(os.path.join(gmu.pathBloc, "materielCasTests", "CubeAngle.med"))
-    smesh.SetName(objetSain.GetMesh(), 'objetSain')
+    smesh.SetName(objetSain.GetMesh(), "{}_objetSain".format(self.nomProbleme))
    return [objetSain, True] # True : maillage hexa
@ -63,33 +59,40 @@ class cubeAngle(fissureGenerique):
    lgInfluence : distance autour de la shape de fissure a remailler (A ajuster selon le maillage)
    rayonPipe   : le rayon du pile maillé en hexa autour du fond de fissure
    """
-    logging.info("setParamShapeFissure %s", self.nomCas)
+    texte = "genereMaillageSain pour '{}'".format(self.nomCas)
    logging.info(texte)
    self.shapeFissureParams = dict(lgInfluence = 20,
                                   rayonPipe   = 10)
  # ---------------------------------------------------------------------------
-  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams):
+  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams, \
-    logging.info("genereShapeFissure %s", self.nomCas)
+                                mailleur="MeshGems"):
    """Importe la géométrie de la fissure"""
    texte = "genereShapeFissure pour '{}'".format(self.nomCas)
    logging.info(texte)
    lgInfluence = shapeFissureParams['lgInfluence']
-    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests/CubeAngleFiss.brep"))
+    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests", "CubeAngleFiss.brep"))
    fondFiss = geompy.CreateGroup(shellFiss, geompy.ShapeType["EDGE"])
    geompy.UnionIDs(fondFiss, [3])
    geompy.addToStudy( shellFiss, 'shellFiss' )
    geompy.addToStudyInFather( shellFiss, fondFiss, 'fondFiss' )
-
+    mailleur = self.mailleur2d3d()
-    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 5 ,10)
+    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 5 ,10, mailleur)
    centre = None
    return [shellFiss, centre, lgInfluence, coordsNoeudsFissure, fondFiss]
  # ---------------------------------------------------------------------------
  def setParamMaillageFissure(self):
-    self.maillageFissureParams = dict(nomRep           = '.',
+    texte = "setParamMaillageFissure pour '{}'".format(self.nomCas)
    logging.info(texte)
    self.maillageFissureParams = dict(nomRep           = os.curdir,
                                      nomFicSain       = self.nomCas,
-                                      nomFicFissure    = 'fissure_' + self.nomCas,
+                                      nomFicFissure    = self.nomCas + "_fissure",
                                      nbsegRad         = 5,
                                      nbsegCercle      = 8,
                                      areteFaceFissure = 10)
@ -100,22 +103,28 @@ class cubeAngle(fissureGenerique):
    return elementsDefaut
  # ---------------------------------------------------------------------------
-  def genereMaillageFissure(self, geometriesSaines, maillagesSains,
+  def genereMaillageFissure(self, geometriesSaines, maillagesSains, \
-                            shapesFissure, shapeFissureParams,
+                                  shapesFissure, shapeFissureParams, \
-                            maillageFissureParams, elementsDefaut, step):
+                                  maillageFissureParams, elementsDefaut, step, \
-    maillageFissure = construitFissureGenerale(maillagesSains,
+                                  mailleur="MeshGems"):
-                                               shapesFissure, shapeFissureParams,
+    texte = "genereMaillageFissure pour '{}'".format(self.nomCas)
-                                               maillageFissureParams, elementsDefaut, step)
+    logging.info(texte)
    mailleur = self.mailleur2d3d()
    maillageFissure = construitFissureGenerale(shapesFissure, shapeFissureParams, \
                                               maillageFissureParams, elementsDefaut, \
                                               step, mailleur)
    return maillageFissure
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Quad_Pyramid    = 204,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Triangle   = 336,
+                                          Entity_Quad_Quadrangle = 1630, \
-                                          Entity_Quad_Edge       = 278,
+                                          Entity_Quad_Hexa = 3523, \
-                                          Entity_Quad_Penta      = 96,
+                                          Entity_Node = 18874, \
-                                          Entity_Quad_Hexa       = 3651,
+                                          Entity_Quad_Edge = 261, \
-                                          Entity_Node            = 20490,
+                                          Entity_Quad_Triangle = 190, \
-                                          Entity_Quad_Tetra      = 1877,
+                                          Entity_Quad_Tetra = 1322, \
-                                          Entity_Quad_Quadrangle = 1702)
+                                          Entity_Quad_Pyramid = 172, \
-
+                                          Entity_Quad_Penta = 64 \
                                         )
--- a/src/Tools/blocFissure/CasTests/cubeAngle2.py
+++ b/src/Tools/blocFissure/CasTests/cubeAngle2.py
@ -17,21 +17,24 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """problème de fissure plane coupant 2 faces (angle)"""
 import os
 from .cubeAngle import cubeAngle
 class cubeAngle2(cubeAngle):
-  """
+  """problème de fissure plane coupant 2 faces (angle), débouches normaux, objet plan
-  problème de fissure plane coupant 2 faces (angle), débouches normaux, objet plan
+
-  detection d'un probleme de tolerance sur les edges de jonction pipe et face fissure externe 
+  detection d'un probleme de tolerance sur les edges de jonction pipe et face fissure externe
  """
  nomProbleme = "cubeAngle2"
  # ---------------------------------------------------------------------------
  def setParamShapeFissure(self):
-    """
+    """paramètres de la fissure pour méthode construitFissureGenerale
-    paramètres de la fissure pour méthode construitFissureGenerale
+
    lgInfluence : distance autour de la shape de fissure a remailler (A ajuster selon le maillage)
    rayonPipe   : le rayon du pile maillé en hexa autour du fond de fissure
    """
@ -40,21 +43,22 @@ class cubeAngle2(cubeAngle):
  # ---------------------------------------------------------------------------
  def setParamMaillageFissure(self):
-    self.maillageFissureParams = dict(nomRep           = '.',
+    self.maillageFissureParams = dict(nomRep           = os.curdir,
                                      nomFicSain       = self.nomCas,
-                                      nomFicFissure    = 'fissure_' + self.nomCas,
+                                      nomFicFissure    = self.nomCas + "_fissure",
                                      nbsegRad         = 5,
                                      nbsegCercle      = 32,
                                      areteFaceFissure = 5)
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Quad_Pyramid    = 748,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Triangle   = 1228,
+                                          Entity_Quad_Quadrangle = 2350, \
-                                          Entity_Quad_Edge       = 351,
+                                          Entity_Quad_Hexa = 5315, \
-                                          Entity_Quad_Penta      = 640,
+                                          Entity_Node = 38196, \
-                                          Entity_Quad_Hexa       = 5827,
+                                          Entity_Quad_Edge = 345, \
-                                          Entity_Node            = 42865,
+                                          Entity_Quad_Triangle = 1214, \
-                                          Entity_Quad_Tetra      = 9216,
+                                          Entity_Quad_Tetra = 7772, \
-                                          Entity_Quad_Quadrangle = 2518)
+                                          Entity_Quad_Pyramid = 620, \
-
+                                          Entity_Quad_Penta = 512 \
                                         )
--- a/src/Tools/blocFissure/CasTests/cubeCoin.py
+++ b/src/Tools/blocFissure/CasTests/cubeCoin.py
@ -18,13 +18,15 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """problème de fissure plane coupant le cube dans un coin"""
 import os
 from blocFissure import gmu
-dicoParams = dict(nomCas            = 'cubeCoin',
+dicoParams = dict(nomCas            = "cubeCoin",
-                  maillageSain      = os.path.join(gmu.pathBloc, 'materielCasTests/cubeFin.med'),
+                  maillageSain      = os.path.join(gmu.pathBloc, "materielCasTests", "cubeFin.med"),
-                  brepFaceFissure   = os.path.join(gmu.pathBloc, "materielCasTests/cubeFin_Coin.brep"),
+                  CAOFaceFissure    = os.path.join(gmu.pathBloc, "materielCasTests", "cubeFin_Coin.brep"),
-                  edgeFissIds       = [6],
+                  edgeFiss          = [3],
                  lgInfluence       = 50,
                  meshBrep          = (5,10),
                  rayonPipe         = 10,
@ -35,12 +37,13 @@ dicoParams = dict(nomCas            = 'cubeCoin',
  # ---------------------------------------------------------------------------
-referencesMaillageFissure = dict(Entity_Quad_Pyramid    = 0,
+referencesMaillageFissure = dict( \
-                                 Entity_Quad_Triangle   = 0,
+                                Entity_Quad_Quadrangle = 2740, \
-                                 Entity_Quad_Edge       = 0,
+                                Entity_Quad_Hexa = 7420, \
-                                 Entity_Quad_Penta      = 0,
+                                Entity_Node = 46394, \
-                                 Entity_Quad_Hexa       = 0,
+                                Entity_Quad_Edge = 323, \
-                                 Entity_Node            = 0,
+                                Entity_Quad_Triangle = 486, \
-                                 Entity_Quad_Tetra      = 0,
+                                Entity_Quad_Tetra = 8512, \
-                                 Entity_Quad_Quadrangle = 0)
+                                Entity_Quad_Pyramid = 460, \
-
+                                Entity_Quad_Penta = 80 \
                                )
--- a/src/Tools/blocFissure/CasTests/cubeMilieu.py
+++ b/src/Tools/blocFissure/CasTests/cubeMilieu.py
@ -18,13 +18,15 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """problème de fissure plane coupant le cube au milieu"""
 import os
 from blocFissure import gmu
-dicoParams = dict(nomCas            = 'cubeMilieu',
+dicoParams = dict(nomCas            = "cubeMilieu",
-                  maillageSain      = os.path.join(gmu.pathBloc, 'materielCasTests/cubeFin.med'),
+                  maillageSain      = os.path.join(gmu.pathBloc, "materielCasTests", "cubeFin.med"),
-                  brepFaceFissure   = os.path.join(gmu.pathBloc, "materielCasTests/cubeFin_Milieu.brep"),
+                  CAOFaceFissure    = os.path.join(gmu.pathBloc, "materielCasTests", "cubeFin_Milieu.brep"),
-                  edgeFissIds       = [6],
+                  edgeFiss          = [3],
                  lgInfluence       = 50,
                  meshBrep          = (5,10),
                  rayonPipe         = 10,
@ -35,12 +37,13 @@ dicoParams = dict(nomCas            = 'cubeMilieu',
 # ---------------------------------------------------------------------------
-referencesMaillageFissure = dict(Entity_Quad_Pyramid    = 0,
+referencesMaillageFissure = dict( \
-                                 Entity_Quad_Triangle   = 0,
+                                Entity_Quad_Quadrangle = 3140, \
-                                 Entity_Quad_Edge       = 0,
+                                Entity_Quad_Hexa = 7120, \
-                                 Entity_Quad_Penta      = 0,
+                                Entity_Node = 61414, \
-                                 Entity_Quad_Hexa       = 0,
+                                Entity_Quad_Edge = 346, \
-                                 Entity_Node            = 0,
+                                Entity_Quad_Triangle = 818, \
-                                 Entity_Quad_Tetra      = 0,
+                                Entity_Quad_Tetra = 19117, \
-                                 Entity_Quad_Quadrangle = 0)
+                                Entity_Quad_Pyramid = 990, \
-
+                                Entity_Quad_Penta = 230 \
                                )
--- a/src/Tools/blocFissure/CasTests/cubeTransverse.py
+++ b/src/Tools/blocFissure/CasTests/cubeTransverse.py
@ -18,13 +18,15 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """problème de fissure plane coupant le cube au milieu"""
 import os
 from blocFissure import gmu
-dicoParams = dict(nomCas            = 'cubeTransverse',
+dicoParams = dict(nomCas            = "cubeTransverse",
-                  maillageSain      = os.path.join(gmu.pathBloc, 'materielCasTests/cubeFin.med'),
+                  maillageSain      = os.path.join(gmu.pathBloc, "materielCasTests", "cubeFin.med"),
-                  brepFaceFissure   = os.path.join(gmu.pathBloc, "materielCasTests/cubeFin_Transverse.brep"),
+                  CAOFaceFissure    = os.path.join(gmu.pathBloc, "materielCasTests", "cubeFin_Transverse.brep"),
-                  edgeFissIds       = [6],
+                  edgeFiss          = [6],
                  lgInfluence       = 50,
                  meshBrep          = (5,10),
                  rayonPipe         = 10,
@ -35,12 +37,13 @@ dicoParams = dict(nomCas            = 'cubeTransverse',
 # ---------------------------------------------------------------------------
-referencesMaillageFissure = dict(Entity_Quad_Pyramid    = 0,
+referencesMaillageFissure = dict( \
-                                 Entity_Quad_Triangle   = 0,
+                                          Entity_Quad_Quadrangle = 2900, \
-                                 Entity_Quad_Edge       = 0,
+                                          Entity_Quad_Hexa = 7000, \
-                                 Entity_Quad_Penta      = 0,
+                                          Entity_Node = 58430, \
-                                 Entity_Quad_Hexa       = 0,
+                                          Entity_Quad_Edge = 390, \
-                                 Entity_Node            = 0,
+                                          Entity_Quad_Triangle = 1228, \
-                                 Entity_Quad_Tetra      = 0,
+                                          Entity_Quad_Tetra = 17567, \
-                                 Entity_Quad_Quadrangle = 0)
+                                          Entity_Quad_Pyramid = 780, \
-
+                                          Entity_Quad_Penta = 200 \
                                )
--- a/src/Tools/blocFissure/CasTests/cylindre.py
+++ b/src/Tools/blocFissure/CasTests/cylindre.py
@ -18,34 +18,29 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
-import os
+"""problème de fissure plane sur cylindre, grand fond de fissure en arc de cercle"""
 from blocFissure import gmu
 from blocFissure.gmu.geomsmesh import geompy, smesh
-import math
+import os
 import GEOM
 import SALOMEDS
 import SMESH
 #import StdMeshers
 #import GHS3DPlugin
 #import NETGENPlugin
 import logging
 from blocFissure import gmu
 from blocFissure.gmu.geomsmesh import geompy, smesh
 from blocFissure.gmu.fissureGenerique import fissureGenerique
 from blocFissure.gmu.triedreBase import triedreBase
 from blocFissure.gmu.genereMeshCalculZoneDefaut import genereMeshCalculZoneDefaut
 from blocFissure.gmu.creeZoneDefautDansObjetSain import creeZoneDefautDansObjetSain
 from blocFissure.gmu.construitFissureGenerale import construitFissureGenerale
-O, OX, OY, OZ = triedreBase()
+import GEOM
 import SALOMEDS
 import SMESH
 class cylindre(fissureGenerique):
-  """
+  """problème de fissure plane sur cylindre, grand fond de fissure en arc de cercle"""
  problème de fissure plane sur cylindre, grand fond de fissure en arc de cercle
  """
  nomProbleme = "cylindre"
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
  # ---------------------------------------------------------------------------
  def genereMaillageSain(self, geometriesSaines, meshParams):
@ -55,7 +50,7 @@ class cylindre(fissureGenerique):
    """
    logging.info("genereMaillageSain %s", self.nomCas)
-    ([objetSain], status) = smesh.CreateMeshesFromMED(os.path.join(gmu.pathBloc, "materielCasTests/CylindreSain.med"))
+    ([objetSain], _) = smesh.CreateMeshesFromMED(os.path.join(gmu.pathBloc, "materielCasTests", "CylindreSain.med"))
    smesh.SetName(objetSain.GetMesh(), 'objetSain')
    return [objetSain, True] # True : maillage hexa
@ -72,28 +67,29 @@ class cylindre(fissureGenerique):
                                   rayonPipe   = 5)
  # ---------------------------------------------------------------------------
-  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams):
+  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams, \
                                mailleur="MeshGems"):
    logging.info("genereShapeFissure %s", self.nomCas)
    lgInfluence = shapeFissureParams['lgInfluence']
-    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests/FissInCylindre2.brep"))
+    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests", "FissInCylindre2.brep"))
    fondFiss = geompy.CreateGroup(shellFiss, geompy.ShapeType["EDGE"])
    geompy.UnionIDs(fondFiss, [6])
    geompy.addToStudy( shellFiss, 'shellFiss' )
    geompy.addToStudyInFather( shellFiss, fondFiss, 'fondFiss' )
-
+    mailleur = self.mailleur2d3d()
-    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 5 ,15)
+    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 5 ,15, mailleur)
    centre = None
    return [shellFiss, centre, lgInfluence, coordsNoeudsFissure, fondFiss]
  # ---------------------------------------------------------------------------
  def setParamMaillageFissure(self):
-    self.maillageFissureParams = dict(nomRep           = '.',
+    self.maillageFissureParams = dict(nomRep           = os.curdir,
                                      nomFicSain       = self.nomCas,
-                                      nomFicFissure    = 'fissure_' + self.nomCas,
+                                      nomFicFissure    = self.nomCas + "_fissure",
                                      nbsegRad         = 5,
                                      nbsegCercle      = 8,
                                      areteFaceFissure = 20)
@ -104,22 +100,26 @@ class cylindre(fissureGenerique):
    return elementsDefaut
  # ---------------------------------------------------------------------------
-  def genereMaillageFissure(self, geometriesSaines, maillagesSains,
+  def genereMaillageFissure(self, geometriesSaines, maillagesSains, \
-                            shapesFissure, shapeFissureParams,
+                                  shapesFissure, shapeFissureParams, \
-                            maillageFissureParams, elementsDefaut, step):
+                                  maillageFissureParams, elementsDefaut, step, \
-    maillageFissure = construitFissureGenerale(maillagesSains,
+                                  mailleur="MeshGems"):
-                                               shapesFissure, shapeFissureParams,
+
-                                               maillageFissureParams, elementsDefaut, step)
+    mailleur = self.mailleur2d3d()
    maillageFissure = construitFissureGenerale(shapesFissure, shapeFissureParams, \
                                               maillageFissureParams, elementsDefaut, \
                                               step, mailleur)
    return maillageFissure
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Quad_Pyramid    = 1270,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Triangle   = 1260,
+                                          Entity_Quad_Quadrangle = 6920, \
-                                          Entity_Quad_Edge       = 758,
+                                          Entity_Quad_Hexa = 18174, \
-                                          Entity_Quad_Penta      = 496,
+                                          Entity_Node = 104349, \
-                                          Entity_Quad_Hexa       = 18814,
+                                          Entity_Quad_Edge = 718, \
-                                          Entity_Node            = 113313,
+                                          Entity_Quad_Triangle = 952, \
-                                          Entity_Quad_Tetra      = 20469,
+                                          Entity_Quad_Tetra = 16691, \
-                                          Entity_Quad_Quadrangle = 7280)
+                                          Entity_Quad_Pyramid = 1110, \
-
+                                          Entity_Quad_Penta = 336 \
                                         )
--- a/src/Tools/blocFissure/CasTests/cylindre_2.py
+++ b/src/Tools/blocFissure/CasTests/cylindre_2.py
@ -18,57 +18,54 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """problème de fissure plane sur cylindre hexa, fond de fissure complexe : polyline"""
 import os
 import logging
 from blocFissure import gmu
 from blocFissure.gmu.geomsmesh import geompy, smesh
 from blocFissure.gmu.genereMeshCalculZoneDefaut import genereMeshCalculZoneDefaut
 import math
 import GEOM
 import SALOMEDS
 import SMESH
 import logging
 from .cylindre import cylindre
 from blocFissure.gmu.triedreBase import triedreBase
 from blocFissure.gmu.genereMeshCalculZoneDefaut import genereMeshCalculZoneDefaut
 from blocFissure.gmu.creeZoneDefautDansObjetSain import creeZoneDefautDansObjetSain
 from blocFissure.gmu.construitFissureGenerale import construitFissureGenerale
 O, OX, OY, OZ = triedreBase()
 class cylindre_2(cylindre):
-  """
+  """problème de fissure plane sur cylindre hexa, fond de fissure complexe : polyline"""
-  problème de fissure plane sur cylindre hexa, fond de fissure complexe : polyline
+
  """
  nomProbleme = "cylindre2"
  # ---------------------------------------------------------------------------
-  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams):
+  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams, \
                                mailleur="MeshGems"):
    logging.info("genereShapeFissure %s", self.nomCas)
    lgInfluence = shapeFissureParams['lgInfluence']
-    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests/FissInCylindre.brep"))
+    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests", "FissInCylindre.brep"))
    fondFiss = geompy.CreateGroup(shellFiss, geompy.ShapeType["EDGE"])
-    geompy.UnionIDs(fondFiss, [3])
+    geompy.UnionIDs(fondFiss, [6])
    geompy.addToStudy( shellFiss, 'shellFiss' )
    geompy.addToStudyInFather( shellFiss, fondFiss, 'fondFiss' )
-
+    mailleur = self.mailleur2d3d()
-    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 5 ,15)
+    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 5 ,15, mailleur)
    centre = None
    return [shellFiss, centre, lgInfluence, coordsNoeudsFissure, fondFiss]
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Quad_Pyramid    = 1334,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Triangle   = 1432,
+                                          Entity_Quad_Quadrangle = 7028, \
-                                          Entity_Quad_Edge       = 785,
+                                          Entity_Quad_Hexa = 18366, \
-                                          Entity_Quad_Penta      = 560,
+                                          Entity_Node = 105035, \
-                                          Entity_Quad_Hexa       = 19070,
+                                          Entity_Quad_Edge = 735, \
-                                          Entity_Node            = 114290,
+                                          Entity_Quad_Triangle = 1056, \
-                                          Entity_Quad_Tetra      = 19978,
+                                          Entity_Quad_Tetra = 16305, \
-                                          Entity_Quad_Quadrangle = 7424)
+                                          Entity_Quad_Pyramid = 1158, \
-
+                                          Entity_Quad_Penta = 384 \
                                          )
--- a/src/Tools/blocFissure/CasTests/disquePerce.py
+++ b/src/Tools/blocFissure/CasTests/disquePerce.py
@ -18,13 +18,15 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """disque percé"""
 import os
 from blocFissure import gmu
 dicoParams = dict(nomCas            = 'disque',
-                  maillageSain      = os.path.join(gmu.pathBloc, 'materielCasTests/disque.med'),
+                  maillageSain      = os.path.join(gmu.pathBloc, "materielCasTests", "disque.med"),
-                  brepFaceFissure   = os.path.join(gmu.pathBloc, "materielCasTests/ellipse_disque.brep"),
+                  CAOFaceFissure    = os.path.join(gmu.pathBloc, "materielCasTests", "ellipse_disque.brep"),
-                  edgeFissIds       = [3],
+                  edgeFiss          = [3],
                  lgInfluence       = 10,
                  meshBrep          = (0.5,2.5),
                  rayonPipe         = 1.0,
@ -35,12 +37,13 @@ dicoParams = dict(nomCas            = 'disque',
  # ---------------------------------------------------------------------------
-referencesMaillageFissure = dict(Entity_Quad_Pyramid    = 610,
+referencesMaillageFissure = dict ( \
-                                 Entity_Quad_Triangle   = 1284,
+                                  Entity_Quad_Quadrangle = 2748, \
-                                 Entity_Quad_Edge       = 393,
+                                  Entity_Quad_Hexa = 6232, \
-                                 Entity_Quad_Penta      = 592,
+                                  Entity_Node = 43889, \
-                                 Entity_Quad_Hexa       = 6952,
+                                  Entity_Quad_Edge = 376, \
-                                 Entity_Node            = 51119,
+                                  Entity_Quad_Triangle = 1366, \
-                                 Entity_Quad_Tetra      = 11672,
+                                  Entity_Quad_Tetra = 9112, \
-                                 Entity_Quad_Quadrangle = 3000)
+                                  Entity_Quad_Pyramid = 466, \
-
+                                  Entity_Quad_Penta = 448 \
                                )
--- a/src/Tools/blocFissure/CasTests/ellipse_1.py
+++ b/src/Tools/blocFissure/CasTests/ellipse_1.py
@ -18,34 +18,29 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
-import os
+"""problème de fissure non plane, débouchante non normale"""
 from blocFissure import gmu
 from blocFissure.gmu.geomsmesh import geompy, smesh
-import math
+import os
 import GEOM
 import SALOMEDS
 import SMESH
 #import StdMeshers
 #import GHS3DPlugin
 #import NETGENPlugin
 import logging
 from blocFissure import gmu
 from blocFissure.gmu.geomsmesh import geompy, smesh
 from blocFissure.gmu.fissureGenerique import fissureGenerique
 from blocFissure.gmu.triedreBase import triedreBase
 from blocFissure.gmu.genereMeshCalculZoneDefaut import genereMeshCalculZoneDefaut
 from blocFissure.gmu.creeZoneDefautDansObjetSain import creeZoneDefautDansObjetSain
 from blocFissure.gmu.construitFissureGenerale import construitFissureGenerale
-O, OX, OY, OZ = triedreBase()
+import GEOM
 import SALOMEDS
 import SMESH
 class ellipse_1(fissureGenerique):
-  """
+  """problème de fissure non plane, débouchante non normale"""
  problème de fissure non plane, débouchante non normale
  """
  nomProbleme = "ellipse1"
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
 #  # ---------------------------------------------------------------------------
 #  def genereGeometrieSaine(self, geomParams):
@ -55,10 +50,11 @@ class ellipse_1(fissureGenerique):
  # ---------------------------------------------------------------------------
  def genereMaillageSain(self, geometriesSaines, meshParams):
-    logging.info("genereMaillageSain %s", self.nomCas)
+    texte = "genereMaillageSain pour '{}'".format(self.nomCas)
    logging.info(texte)
-    ([objetSain], status) = smesh.CreateMeshesFromMED(os.path.join(gmu.pathBloc, "materielCasTests/boiteSaine.med"))
+    ([objetSain], _) = smesh.CreateMeshesFromMED(os.path.join(gmu.pathBloc, "materielCasTests", "boiteSaine.med"))
-    smesh.SetName(objetSain.GetMesh(), 'objetSain')
+    smesh.SetName(objetSain.GetMesh(), "{}_objetSain".format(self.nomProbleme))
    return [objetSain, True] # True : maillage hexa
@ -71,33 +67,40 @@ class ellipse_1(fissureGenerique):
    convexe     : optionnel, True : la face est convexe (vue de l'exterieur) sert si on ne donne pas de point interne
    pointIn_x   : optionnel, coordonnée x d'un point dans le solide sain (pour orienter la face)
    """
-    logging.info("setParamShapeFissure %s", self.nomCas)
+    texte = "genereMaillageSain pour '{}'".format(self.nomCas)
    logging.info(texte)
    self.shapeFissureParams = dict(lgInfluence = 50,
                                   rayonPipe   = 20)
  # ---------------------------------------------------------------------------
-  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams):
+  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams, \
-    logging.info("genereShapeFissure %s", self.nomCas)
+                                mailleur="MeshGems"):
    """Importe la géométrie de la fissure"""
    texte = "genereShapeFissure pour '{}'".format(self.nomCas)
    logging.info(texte)
    lgInfluence = shapeFissureParams['lgInfluence']
-    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests/ellipse1.brep"))
+    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests", "ellipse1.brep"))
    fondFiss = geompy.CreateGroup(shellFiss, geompy.ShapeType["EDGE"])
    geompy.UnionIDs(fondFiss, [3])
    geompy.addToStudy( shellFiss, 'shellFiss' )
    geompy.addToStudyInFather( shellFiss, fondFiss, 'fondFiss' )
-
+    mailleur = self.mailleur2d3d()
-    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 5 ,25)
+    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 5 ,25, mailleur)
    centre = None
    return [shellFiss, centre, lgInfluence, coordsNoeudsFissure, fondFiss]
  # ---------------------------------------------------------------------------
  def setParamMaillageFissure(self):
-    self.maillageFissureParams = dict(nomRep           = '.',
+    texte = "setParamMaillageFissure pour '{}'".format(self.nomCas)
    logging.info(texte)
    self.maillageFissureParams = dict(nomRep           = os.curdir,
                                      nomFicSain       = self.nomCas,
-                                      nomFicFissure    = 'fissure_' + self.nomCas,
+                                      nomFicFissure    = self.nomCas + "_fissure",
                                      nbsegRad         = 5,
                                      nbsegCercle      = 8,
                                      areteFaceFissure = 1000)
@ -108,22 +111,29 @@ class ellipse_1(fissureGenerique):
    return elementsDefaut
  # ---------------------------------------------------------------------------
-  def genereMaillageFissure(self, geometriesSaines, maillagesSains,
+  def genereMaillageFissure(self, geometriesSaines, maillagesSains, \
-                            shapesFissure, shapeFissureParams,
+                                  shapesFissure, shapeFissureParams, \
-                            maillageFissureParams, elementsDefaut, step):
+                                  maillageFissureParams, elementsDefaut, step, \
-    maillageFissure = construitFissureGenerale(maillagesSains,
+                                  mailleur="MeshGems"):
-                                               shapesFissure, shapeFissureParams,
+
-                                               maillageFissureParams, elementsDefaut, step)
+    texte = "genereMaillageFissure pour '{}'".format(self.nomCas)
    logging.info(texte)
    mailleur = self.mailleur2d3d()
    maillageFissure = construitFissureGenerale(shapesFissure, shapeFissureParams, \
                                               maillageFissureParams, elementsDefaut, \
                                               step, mailleur)
    return maillageFissure
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Quad_Pyramid    = 175,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Triangle   = 298,
+                                          Entity_Quad_Quadrangle = 1748, \
-                                          Entity_Quad_Edge       = 248,
+                                          Entity_Quad_Hexa = 3795, \
-                                          Entity_Quad_Penta      = 96,
+                                          Entity_Node = 21939, \
-                                          Entity_Quad_Hexa       = 3699,
+                                          Entity_Quad_Edge = 256, \
-                                          Entity_Node            = 20741,
+                                          Entity_Quad_Triangle = 360, \
-                                          Entity_Quad_Tetra      = 1979,
+                                          Entity_Quad_Tetra = 2425, \
-                                          Entity_Quad_Quadrangle = 1694)
+                                          Entity_Quad_Pyramid = 199, \
-
+                                          Entity_Quad_Penta = 120 \
                                         )
--- a/src/Tools/blocFissure/CasTests/ellipse_2.py
+++ b/src/Tools/blocFissure/CasTests/ellipse_2.py
@ -18,60 +18,57 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """problème de fissure non plane, débouchante non normale"""
 import os
 import logging
 from blocFissure import gmu
 from blocFissure.gmu.geomsmesh import geompy, smesh
 from blocFissure.gmu.genereMeshCalculZoneDefaut import genereMeshCalculZoneDefaut
 import math
 import GEOM
 import SALOMEDS
 import SMESH
 #import StdMeshers
 #import GHS3DPlugin
 #import NETGENPlugin
 import logging
 from .ellipse_1 import ellipse_1
 from blocFissure.gmu.triedreBase import triedreBase
 from blocFissure.gmu.genereMeshCalculZoneDefaut import genereMeshCalculZoneDefaut
 from blocFissure.gmu.creeZoneDefautDansObjetSain import creeZoneDefautDansObjetSain
 from blocFissure.gmu.construitFissureGenerale import construitFissureGenerale
 O, OX, OY, OZ = triedreBase()
 class ellipse_2(ellipse_1):
-  """
+  """problème de fissure non plane, débouchante non normale"""
  problème de fissure non plane, débouchante non normale
  """
  nomProbleme = "ellipse2"
  # ---------------------------------------------------------------------------
-  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams):
+  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams, \
-    logging.info("genereShapeFissure %s", self.nomCas)
+                                mailleur="MeshGems"):
    """Importe la géométrie de la fissure"""
    texte = "genereShapeFissure pour '{}'".format(self.nomCas)
    logging.info(texte)
    lgInfluence = shapeFissureParams['lgInfluence']
-    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests/ellipse1_pb.brep"))
+    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests", "ellipse1_pb.brep"))
    fondFiss = geompy.CreateGroup(shellFiss, geompy.ShapeType["EDGE"])
    geompy.UnionIDs(fondFiss, [3])
    geompy.addToStudy( shellFiss, 'shellFiss' )
    geompy.addToStudyInFather( shellFiss, fondFiss, 'fondFiss' )
-
+    mailleur = self.mailleur2d3d()
-    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 5 ,25)
+    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 5 ,25, mailleur)
    centre = None
    return [shellFiss, centre, lgInfluence, coordsNoeudsFissure, fondFiss]
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Quad_Pyramid    = 159,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Triangle   = 438,
+                                          Entity_Quad_Quadrangle = 1748, \
-                                          Entity_Quad_Edge       = 249,
+                                          Entity_Quad_Hexa = 3795, \
-                                          Entity_Quad_Penta      = 80,
+                                          Entity_Node = 22219, \
-                                          Entity_Quad_Hexa       = 3635,
+                                          Entity_Quad_Edge = 258, \
-                                          Entity_Node            = 20519,
+                                          Entity_Quad_Triangle = 434, \
-                                          Entity_Quad_Tetra      = 1973,
+                                          Entity_Quad_Tetra = 2574, \
-                                          Entity_Quad_Quadrangle = 1658)
+                                          Entity_Quad_Pyramid = 199, \
                                          Entity_Quad_Penta = 120 \
                                         )
--- a/src/Tools/blocFissure/CasTests/eprouvetteCourbe.py
+++ b/src/Tools/blocFissure/CasTests/eprouvetteCourbe.py
@ -18,40 +18,36 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
-import os
+"""problème de fissure plane coupant 3 faces (éprouvette), faces au débouché non planes, incidence presque normale"""
 from blocFissure import gmu
 from blocFissure.gmu.geomsmesh import geompy, smesh
-import math
+import os
 import GEOM
 import SALOMEDS
 import SMESH
 #import StdMeshers
 #import GHS3DPlugin
 #import NETGENPlugin
 import logging
 from blocFissure import gmu
 from blocFissure.gmu.geomsmesh import geompy, smesh
 from blocFissure.gmu.fissureGenerique import fissureGenerique
 from blocFissure.gmu.triedreBase import triedreBase
 from blocFissure.gmu.genereMeshCalculZoneDefaut import genereMeshCalculZoneDefaut
 from blocFissure.gmu.creeZoneDefautDansObjetSain import creeZoneDefautDansObjetSain
 from blocFissure.gmu.construitFissureGenerale import construitFissureGenerale
-O, OX, OY, OZ = triedreBase()
+import GEOM
 import SALOMEDS
 import SMESH
 class eprouvetteCourbe(fissureGenerique):
-  """
+  """problème de fissure plane coupant 3 faces (éprouvette), faces au débouché non planes, incidence presque normale"""
  problème de fissure plane coupant 3 faces (éprouvette), faces au débouché non planes, incidence presque normale
  """
  nomProbleme = "eprouvetteCourbe"
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
  # ---------------------------------------------------------------------------
  def genereMaillageSain(self, geometriesSaines, meshParams):
-    logging.info("genereMaillageSain %s", self.nomCas)
+    texte = "genereMaillageSain pour '{}'".format(self.nomCas)
    logging.info(texte)
-    ([objetSain], status) = smesh.CreateMeshesFromMED(os.path.join(gmu.pathBloc, "materielCasTests/EprouvetteCourbe.med"))
+    ([objetSain], _) = smesh.CreateMeshesFromMED(os.path.join(gmu.pathBloc, "materielCasTests", "EprouvetteCourbe.med"))
    smesh.SetName(objetSain.GetMesh(), 'objetSain')
    return [objetSain, True] # True : maillage hexa
@ -65,33 +61,40 @@ class eprouvetteCourbe(fissureGenerique):
    convexe     : optionnel True : la face est convexe (vue de l'exterieur) sert si on ne donne pas de point interne
    pointIn_x   : optionnel coordonnée x d'un point dans le solide sain (pour orienter la face)
    """
-    logging.info("setParamShapeFissure %s", self.nomCas)
+    texte = "genereMaillageSain pour '{}'".format(self.nomCas)
    logging.info(texte)
    self.shapeFissureParams = dict(lgInfluence = 30,
                                   rayonPipe   = 10)
  # ---------------------------------------------------------------------------
-  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams):
+  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams, \
-    logging.info("genereShapeFissure %s", self.nomCas)
+                                mailleur="MeshGems"):
    """Importe la géométrie de la fissure"""
    texte = "genereShapeFissure pour '{}'".format(self.nomCas)
    logging.info(texte)
    lgInfluence = shapeFissureParams['lgInfluence']
-    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests/EprouvetteCourbeFiss.brep"))
+    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests", "EprouvetteCourbeFiss.brep"))
    fondFiss = geompy.CreateGroup(shellFiss, geompy.ShapeType["EDGE"])
    geompy.UnionIDs(fondFiss, [8])
    geompy.addToStudy( shellFiss, 'shellFiss' )
    geompy.addToStudyInFather( shellFiss, fondFiss, 'fondFiss' )
-
+    mailleur = self.mailleur2d3d()
-    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 5 ,10)
+    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 5 ,10, mailleur)
    centre = None
    return [shellFiss, centre, lgInfluence, coordsNoeudsFissure, fondFiss]
  # ---------------------------------------------------------------------------
  def setParamMaillageFissure(self):
-    self.maillageFissureParams = dict(nomRep           = '.',
+    texte = "setParamMaillageFissure pour '{}'".format(self.nomCas)
    logging.info(texte)
    self.maillageFissureParams = dict(nomRep           = os.curdir,
                                      nomFicSain       = self.nomCas,
-                                      nomFicFissure    = 'fissure_' + self.nomCas,
+                                      nomFicFissure    = self.nomCas + "_fissure",
                                      nbsegRad         = 5,
                                      nbsegCercle      = 8,
                                      areteFaceFissure = 15)
@ -102,22 +105,29 @@ class eprouvetteCourbe(fissureGenerique):
    return elementsDefaut
  # ---------------------------------------------------------------------------
-  def genereMaillageFissure(self, geometriesSaines, maillagesSains,
+  def genereMaillageFissure(self, geometriesSaines, maillagesSains, \
-                            shapesFissure, shapeFissureParams,
+                                  shapesFissure, shapeFissureParams, \
-                            maillageFissureParams, elementsDefaut, step):
+                                  maillageFissureParams, elementsDefaut, step, \
-    maillageFissure = construitFissureGenerale(maillagesSains,
+                                  mailleur="MeshGems"):
-                                               shapesFissure, shapeFissureParams,
+
-                                               maillageFissureParams, elementsDefaut, step)
+    texte = "genereMaillageFissure pour '{}'".format(self.nomCas)
    logging.info(texte)
    mailleur = self.mailleur2d3d()
    maillageFissure = construitFissureGenerale(shapesFissure, shapeFissureParams, \
                                               maillageFissureParams, elementsDefaut, \
                                               step, mailleur)
    return maillageFissure
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Quad_Pyramid    = 618,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Triangle   = 1224,
+                                          Entity_Quad_Quadrangle = 5318, \
-                                          Entity_Quad_Edge       = 578,
+                                          Entity_Quad_Hexa = 18182, \
-                                          Entity_Quad_Penta      = 168,
+                                          Entity_Node = 94472, \
-                                          Entity_Quad_Hexa       = 18342,
+                                          Entity_Quad_Edge = 539, \
-                                          Entity_Node            = 98170,
+                                          Entity_Quad_Triangle = 828, \
-                                          Entity_Quad_Tetra      = 10809,
+                                          Entity_Quad_Tetra = 9024, \
-                                          Entity_Quad_Quadrangle = 5408)
+                                          Entity_Quad_Pyramid = 578, \
-
+                                          Entity_Quad_Penta = 128 \
                                         )
--- a/src/Tools/blocFissure/CasTests/eprouvetteDroite.py
+++ b/src/Tools/blocFissure/CasTests/eprouvetteDroite.py
@ -17,13 +17,12 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """problème de fissure plane coupant 3 faces (éprouvette), débouches normaux, objet plan"""
 import os
 from blocFissure import gmu
 from blocFissure.gmu.geomsmesh import geompy, smesh
 import os
 import math
 import GEOM
 import SALOMEDS
 import SMESH
@ -42,17 +41,18 @@ from blocFissure.gmu.construitFissureGenerale import construitFissureGenerale
 O, OX, OY, OZ = triedreBase()
 class eprouvetteDroite(fissureGenerique):
-  """
+  """problème de fissure plane coupant 3 faces (éprouvette), débouches normaux, objet plan"""
  problème de fissure plane coupant 3 faces (éprouvette), débouches normaux, objet plan
  """
  nomProbleme = "eprouvetteDroite"
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
  # ---------------------------------------------------------------------------
  def genereMaillageSain(self, geometriesSaines, meshParams):
    logging.info("genereMaillageSain %s", self.nomCas)
-    ([objetSain], status) = smesh.CreateMeshesFromMED(os.path.join(gmu.pathBloc, "materielCasTests/eprouvetteDroite.med"))
+    ([objetSain], _) = smesh.CreateMeshesFromMED(os.path.join(gmu.pathBloc, "materielCasTests", "eprouvetteDroite.med"))
    smesh.SetName(objetSain.GetMesh(), 'objetSain')
    return [objetSain, True] # True : maillage hexa
@ -72,28 +72,29 @@ class eprouvetteDroite(fissureGenerique):
                                   lenSegPipe  = 6)
  # ---------------------------------------------------------------------------
-  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams):
+  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams, \
                                mailleur="MeshGems"):
    logging.info("genereShapeFissure %s", self.nomCas)
    lgInfluence = shapeFissureParams['lgInfluence']
-    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests/EprouvetteDroiteFiss_1.brep"))
+    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests", "EprouvetteDroiteFiss_1.brep"))
    fondFiss = geompy.CreateGroup(shellFiss, geompy.ShapeType["EDGE"])
    geompy.UnionIDs(fondFiss, [8])
    geompy.addToStudy( shellFiss, 'shellFiss' )
    geompy.addToStudyInFather( shellFiss, fondFiss, 'fondFiss' )
-
+    mailleur = self.mailleur2d3d()
-    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 5 ,10)
+    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 5 ,10, mailleur)
    centre = None
    return [shellFiss, centre, lgInfluence, coordsNoeudsFissure, fondFiss]
  # ---------------------------------------------------------------------------
  def setParamMaillageFissure(self):
-    self.maillageFissureParams = dict(nomRep           = '.',
+    self.maillageFissureParams = dict(nomRep           = os.curdir,
                                      nomFicSain       = self.nomCas,
-                                      nomFicFissure    = 'fissure_' + self.nomCas,
+                                      nomFicFissure    = self.nomCas + "_fissure",
                                      nbsegRad         = 5,
                                      nbsegCercle      = 8,
                                      areteFaceFissure = 15)
@ -104,22 +105,26 @@ class eprouvetteDroite(fissureGenerique):
    return elementsDefaut
  # ---------------------------------------------------------------------------
-  def genereMaillageFissure(self, geometriesSaines, maillagesSains,
+  def genereMaillageFissure(self, geometriesSaines, maillagesSains, \
-                            shapesFissure, shapeFissureParams,
+                                  shapesFissure, shapeFissureParams, \
-                            maillageFissureParams, elementsDefaut, step):
+                                  maillageFissureParams, elementsDefaut, step, \
-    maillageFissure = construitFissureGenerale(maillagesSains,
+                                  mailleur="MeshGems"):
-                                               shapesFissure, shapeFissureParams,
+
-                                               maillageFissureParams, elementsDefaut, step)
+    mailleur = self.mailleur2d3d()
    maillageFissure = construitFissureGenerale(shapesFissure, shapeFissureParams, \
                                               maillageFissureParams, elementsDefaut, \
                                               step, mailleur)
    return maillageFissure
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Quad_Pyramid    = 368,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Triangle   = 798,
+                                          Entity_Quad_Quadrangle = 3768, \
-                                          Entity_Quad_Edge       = 491,
+                                          Entity_Quad_Hexa = 9724, \
-                                          Entity_Quad_Penta      = 88,
+                                          Entity_Node = 52337, \
-                                          Entity_Quad_Hexa       = 9692,
+                                          Entity_Quad_Edge = 457, \
-                                          Entity_Node            = 52652,
+                                          Entity_Quad_Triangle = 570, \
-                                          Entity_Quad_Tetra      = 5093,
+                                          Entity_Quad_Tetra = 4919, \
-                                          Entity_Quad_Quadrangle = 3750)
+                                          Entity_Quad_Pyramid = 376, \
-
+                                          Entity_Quad_Penta = 96 \
                                         )
--- a/src/Tools/blocFissure/CasTests/eprouvetteDroite_2.py
+++ b/src/Tools/blocFissure/CasTests/eprouvetteDroite_2.py
@ -17,62 +17,54 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """problème de fissure plane coupant 3 faces (éprouvette), débouches non normaux, objet plan"""
 import os
 from blocFissure import gmu
 from blocFissure.gmu.geomsmesh import geompy, smesh
 import math
 import GEOM
 import SALOMEDS
 import SMESH
 #import StdMeshers
 #import GHS3DPlugin
 #import NETGENPlugin
 import logging
 from .eprouvetteDroite import eprouvetteDroite
 from blocFissure.gmu.triedreBase import triedreBase
 from blocFissure.gmu.genereMeshCalculZoneDefaut import genereMeshCalculZoneDefaut
 from blocFissure.gmu.creeZoneDefautDansObjetSain import creeZoneDefautDansObjetSain
 from blocFissure.gmu.construitFissureGenerale import construitFissureGenerale
 O, OX, OY, OZ = triedreBase()
 class eprouvetteDroite_2(eprouvetteDroite):
-  """
+  """problème de fissure plane coupant 3 faces (éprouvette), débouches non normaux, objet plan"""
  problème de fissure plane coupant 3 faces (éprouvette), débouches non normaux, objet plan
  """
-  nomProbleme = "eprouvetteDroite2"
+  nomProbleme = "eprouvetteDroite_2"
  # ---------------------------------------------------------------------------
-  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams):
+  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams, \
                                mailleur="MeshGems"):
    logging.info("genereShapeFissure %s", self.nomCas)
    lgInfluence = shapeFissureParams['lgInfluence']
-    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests/EprouvetteDroiteFiss_2.brep"))
+    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests", "EprouvetteDroiteFiss_2.brep"))
    fondFiss = geompy.CreateGroup(shellFiss, geompy.ShapeType["EDGE"])
    geompy.UnionIDs(fondFiss, [10])
    geompy.addToStudy( shellFiss, 'shellFiss' )
    geompy.addToStudyInFather( shellFiss, fondFiss, 'fondFiss' )
-
+    mailleur = self.mailleur2d3d()
-    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 5 ,10)
+    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 5 ,10, mailleur)
    centre = None
    return [shellFiss, centre, lgInfluence, coordsNoeudsFissure, fondFiss]
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Quad_Pyramid    = 396,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Triangle   = 1084,
+                                          Entity_Quad_Quadrangle = 3724, \
-                                          Entity_Quad_Edge       = 510,
+                                          Entity_Quad_Hexa = 9504, \
-                                          Entity_Quad_Penta      = 96,
+                                          Entity_Node = 54049, \
-                                          Entity_Quad_Hexa       = 9504,
+                                          Entity_Quad_Edge = 478, \
-                                          Entity_Node            = 55482,
+                                          Entity_Quad_Triangle = 724, \
-                                          Entity_Quad_Tetra      = 7545,
+                                          Entity_Quad_Tetra = 6766, \
-                                          Entity_Quad_Quadrangle = 3724)
+                                          Entity_Quad_Pyramid = 396, \
-
+                                          Entity_Quad_Penta = 96 \
                                         )
--- a/src/Tools/blocFissure/CasTests/execution_Cas.py
+++ b/src/Tools/blocFissure/CasTests/execution_Cas.py
@ -17,152 +17,332 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """Lancement des cas-tests de blocFissure"""
-import sys, traceback
+import traceback
 import logging
 from blocFissure import gmu
 from blocFissure.gmu import initLog
 # -----------------------------------------------------------------------------------------------
 #initLog.setDebug()
 initLog.setVerbose()
 #initLog.setRelease()
 #initLog.setPerfTests()
 # ---tous les cas en sequence, ou les cas selectionnés ...
 runall = True
 if runall:
  torun = [ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
 else: #prob 0, 1, 2, 3, 4, 5, 6, 7, 8, 9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29
  torun = [ 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]
 # -----------------------------------------------------------------------------------------------
 from blocFissure.gmu import geomsmesh
 from blocFissure.gmu.casStandard import casStandard
-problemes = list()
+# -----------------------------------------------------------------------------------------------
 #initLog.setDebug()
 #initLog.setVerbose()
 #initLog.setRelease()
 #initLog.setPerfTests()
-cas=0
+# ---tous les cas en séquence, ou les cas sélectionnés ...
-from blocFissure.CasTests.cubeAngle import cubeAngle
+TORUNOK = [ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0] # OK
-problemes.append(cubeAngle(cas))
+#           0, 1, 2, 3, 4, 5, 6, 7, 8, 9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28
 #RUNALL = False
 RUNALL = True
 if RUNALL:
  TORUN =   [ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
 #             0, 1, 2, 3, 4, 5, 6, 7, 8, 9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28
 else:
  TORUNPB = list()
  for IAUX in TORUNOK:
    TORUNPB.append((IAUX+1)%2)
  print ("TORUN = {} # OK".format(TORUNOK))
  print ("TORUN = {} # PB".format(TORUNPB))
 #                                                                                                    genereMateriel
  TORUN = [ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0] # aucun
  TORUN = [ 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0] # cubeAngle
  TORUN = [ 0, 0, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0] # cubeFin
  TORUN = [ 0, 0, 0, 0, 0, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0] # decoupeCylindre
  TORUN = [ 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0] # disque_perce + ellipse_disque
  TORUN = [ 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0] # ellipse + fissureGauche2
  TORUN = [ 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0] # ellipse_probleme + fissureGauche2
  TORUN = [ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0] # eprouvetteCourbe
  TORUN = [ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0] # eprouvetteDroite
  TORUN = [ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0] # fissureGauche + fissureGauche2
  TORUN = [ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0] # vis
  TORUN = [ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1] # tube
 #           0, 1, 2, 3, 4, 5, 6, 7, 8, 9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28
  TORUN = [ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0] # OK
 # -----------------------------------------------------------------------------------------------
-cas+=1
+def caract_l_problemes ():
-from blocFissure.CasTests.cubeAngle2 import cubeAngle2
+  """Caractérisation des problèmes"""
-problemes.append(cubeAngle2(cas))
+  d_aux = dict()
  l_problemes = list()
-cas+=1
+  n_cas = 0
-from blocFissure.CasTests import cubeCoin
+  # genereMateriel : cubeAngle
-problemes.append(casStandard(cubeCoin.dicoParams, cubeCoin.referencesMaillageFissure, cas))
+  from blocFissure.CasTests.cubeAngle import cubeAngle
  l_problemes.append(cubeAngle(n_cas))
-cas+=1
+  n_cas = 1
-from blocFissure.CasTests import cubeMilieu
+  # genereMateriel : cubeAngle
-problemes.append(casStandard(cubeMilieu.dicoParams, cubeMilieu.referencesMaillageFissure, cas))
+  from blocFissure.CasTests.cubeAngle2 import cubeAngle2
  l_problemes.append(cubeAngle2(n_cas))
-cas+=1
+  n_cas = 2
-from blocFissure.CasTests import cubeTransverse
+  # genereMateriel : cubeFin
-problemes.append(casStandard(cubeTransverse.dicoParams, cubeTransverse.referencesMaillageFissure, cas))
+  from blocFissure.CasTests import cubeCoin
  l_problemes.append(casStandard(cubeCoin.dicoParams, cubeCoin.referencesMaillageFissure, n_cas))
  d_aux[n_cas] = "cubeCoin"
-cas+=1
+  n_cas = 3
-from blocFissure.CasTests.cylindre import cylindre
+  # genereMateriel : cubeFin
-problemes.append(cylindre(cas))
+  from blocFissure.CasTests import cubeMilieu
  l_problemes.append(casStandard(cubeMilieu.dicoParams, cubeMilieu.referencesMaillageFissure, n_cas))
  d_aux[n_cas] = "cubeMilieu"
-cas+=1
+  n_cas = 4
-from blocFissure.CasTests.cylindre_2 import cylindre_2
+  # genereMateriel : cubeFin
-problemes.append(cylindre_2(cas))
+  from blocFissure.CasTests import cubeTransverse
  l_problemes.append(casStandard(cubeTransverse.dicoParams, cubeTransverse.referencesMaillageFissure, n_cas))
  d_aux[n_cas] = "cubeTransverse"
-cas+=1
+  n_cas = 5
-from blocFissure.CasTests import disquePerce
+  # genereMateriel : decoupeCylindre
-problemes.append(casStandard(disquePerce.dicoParams, disquePerce.referencesMaillageFissure, cas))
+  from blocFissure.CasTests.cylindre import cylindre
  l_problemes.append(cylindre(n_cas))
-cas+=1
+  n_cas = 6
-from blocFissure.CasTests.ellipse_1 import ellipse_1
+  # genereMateriel : decoupeCylindre
-problemes.append(ellipse_1(cas))
+  from blocFissure.CasTests.cylindre_2 import cylindre_2
  l_problemes.append(cylindre_2(n_cas))
-cas+=1
+  n_cas = 7
-from blocFissure.CasTests.ellipse_2 import ellipse_2
+  # genereMateriel : disque_perce
-problemes.append(ellipse_2(cas))
+  # genereMateriel : ellipse_disque
  from blocFissure.CasTests import disquePerce
  l_problemes.append(casStandard(disquePerce.dicoParams, disquePerce.referencesMaillageFissure, n_cas))
  d_aux[n_cas] = "disquePerce"
-cas+=1
+  n_cas = 8
-from blocFissure.CasTests.eprouvetteCourbe import eprouvetteCourbe
+  # genereMateriel: ellipse
-problemes.append(eprouvetteCourbe(cas))
+  # genereMateriel : fissureGauche2
  from blocFissure.CasTests.ellipse_1 import ellipse_1
  l_problemes.append(ellipse_1(n_cas))
-cas+=1
+  n_cas = 9
-from blocFissure.CasTests.eprouvetteDroite import eprouvetteDroite
+  # genereMateriel: ellipse_probleme
-problemes.append(eprouvetteDroite(cas))
+  # genereMateriel : fissureGauche2
  from blocFissure.CasTests.ellipse_2 import ellipse_2
  l_problemes.append(ellipse_2(n_cas))
-cas+=1
+  n_cas = 10
-from blocFissure.CasTests.eprouvetteDroite_2 import eprouvetteDroite_2
+  # genereMateriel : eprouvetteCourbe
-problemes.append(eprouvetteDroite_2(cas))
+  from blocFissure.CasTests.eprouvetteCourbe import eprouvetteCourbe
  l_problemes.append(eprouvetteCourbe(n_cas))
-cas+=1
+  n_cas = 11
-from blocFissure.CasTests.faceGauche import faceGauche
+  # genereMateriel : eprouvetteDroite
-problemes.append(faceGauche(cas))
+  from blocFissure.CasTests.eprouvetteDroite import eprouvetteDroite
  l_problemes.append(eprouvetteDroite(n_cas))
-cas+=1
+  n_cas = 12
-from blocFissure.CasTests.faceGauche_2 import faceGauche_2
+  # genereMateriel : eprouvetteDroite
-problemes.append(faceGauche_2(cas))
+  from blocFissure.CasTests.eprouvetteDroite_2 import eprouvetteDroite_2
  l_problemes.append(eprouvetteDroite_2(n_cas))
-cas+=1
+  n_cas = 13
-from blocFissure.CasTests.fissure_Coude import fissure_Coude
+  # genereMateriel : fissureGauche
-problemes.append(fissure_Coude(cas))
+  # genereMateriel : fissureGauche2
  from blocFissure.CasTests.faceGauche import faceGauche
  l_problemes.append(faceGauche(n_cas))
-cas+=1
+  n_cas = 14
-from blocFissure.CasTests.fissure_Coude_4 import fissure_Coude_4
+  # genereMateriel : aucun
-problemes.append(fissure_Coude_4(cas))
+  from blocFissure.CasTests.faceGauche_2 import faceGauche_2
  l_problemes.append(faceGauche_2(n_cas))
  #"boiteDefaut" has not been computed:
  #-  "algo3d_boiteDefaut" failed. Error: Algorithm failed. Presumably, the surface mesh is not compatible with the domain being processed (warning).
  #An edge is unique (i.e., bounds a hole in the surface).
  #The surface mesh includes at least one hole. The domain is not well defined.
  #See /tmp/GHS3D_18605_10269264.log for more information
  #Traceback (most recent call last):
    #File "/home/D68518/salome-dev/DEV_package/appli_DEV_package/lib/python3.6/site-packages/salome/blocFissure/CasTests/execution_Cas.py", line 222, in <module>
      #ok_maillage = cas.executeProbleme()
    #File "/home/D68518/salome-dev/DEV_package/appli_DEV_package/lib/python3.6/site-packages/salome/blocFissure/gmu/fissureGenerique.py", line 122, in executeProbleme
      #self.maillageFissureParams, elementsDefaut, step)
    #File "/home/D68518/salome-dev/DEV_package/appli_DEV_package/lib/python3.6/site-packages/salome/blocFissure/CasTests/faceGauche_2.py", line 108, in genereMaillageFissure
      #maillageFissureParams, elementsDefaut, step)
    #File "/home/D68518/salome-dev/DEV_package/appli_DEV_package/lib/python3.6/site-packages/salome/blocFissure/gmu/construitFissureGenerale.py", line 330, in construitFissureGenerale
      #raise Exception(text)
  #Exception: Erreur au calcul du maillage.
-cas+=1
+  n_cas = 15
-from blocFissure.CasTests.fissureCoude_1 import fissureCoude_1
+  # genereMateriel : aucun
-problemes.append(fissureCoude_1(cas))
+  from blocFissure.CasTests.fissureCoude_1 import fissureCoude_1
  l_problemes.append(fissureCoude_1(n_cas))
-cas+=1
+  n_cas = 16
-from blocFissure.CasTests.fissureCoude_2 import fissureCoude_2
+  # genereMateriel : aucun
-problemes.append(fissureCoude_2(cas))
+  from blocFissure.CasTests.fissureCoude_2 import fissureCoude_2
  l_problemes.append(fissureCoude_2(n_cas))
-cas+=1
+  n_cas = 17
-from blocFissure.CasTests.fissureCoude_3 import fissureCoude_3
+  # genereMateriel : aucun
-problemes.append(fissureCoude_3(cas))
+  from blocFissure.CasTests.fissureCoude_3 import fissureCoude_3
  l_problemes.append(fissureCoude_3(n_cas))
-cas+=1
+  n_cas = 18
-from blocFissure.CasTests.fissure_Coude_4 import fissure_Coude_4
+  # genereMateriel : aucun
-problemes.append(fissure_Coude_4(cas))
+  from blocFissure.CasTests.fissureCoude_4 import fissureCoude_4
  l_problemes.append(fissureCoude_4(n_cas))
-cas+=1
+  n_cas = 19
-from blocFissure.CasTests.fissureCoude_4 import fissureCoude_4
+  # genereMateriel : aucun
-problemes.append(fissureCoude_4(cas))
+  from blocFissure.CasTests.fissureCoude_5 import fissureCoude_5
  l_problemes.append(fissureCoude_5(n_cas))
-cas+=1
+  n_cas = 20
-from blocFissure.CasTests.fissureCoude_5 import fissureCoude_5
+  # genereMateriel : aucun
-problemes.append(fissureCoude_5(cas))
+  from blocFissure.CasTests.fissureCoude_6 import fissureCoude_6
  l_problemes.append(fissureCoude_6(n_cas))
-cas+=1
+  n_cas = 21
-from blocFissure.CasTests.fissureCoude_6 import fissureCoude_6
+  # genereMateriel : aucun
-problemes.append(fissureCoude_6(cas))
+  from blocFissure.CasTests.fissureCoude_7 import fissureCoude_7
  l_problemes.append(fissureCoude_7(n_cas))
-cas+=1
+  n_cas = 22
-from blocFissure.CasTests.fissureCoude_7 import fissureCoude_7
+  # genereMateriel : aucun
-problemes.append(fissureCoude_7(cas))
+  from blocFissure.CasTests.fissureCoude_8 import fissureCoude_8
  l_problemes.append(fissureCoude_8(n_cas))
-cas+=1
+  n_cas = 23
-from blocFissure.CasTests.fissureCoude_8 import fissureCoude_8
+  # genereMateriel : aucun
-problemes.append(fissureCoude_8(cas))
+  from blocFissure.CasTests.fissureCoude_9 import fissureCoude_9
  l_problemes.append(fissureCoude_9(n_cas))
-cas+=1
+  n_cas = 24
-from blocFissure.CasTests.fissureCoude_9 import fissureCoude_9
+  # genereMateriel : aucun
-problemes.append(fissureCoude_9(cas))
+  from blocFissure.CasTests.fissureCoude_10 import fissureCoude_10
  l_problemes.append(fissureCoude_10(n_cas))
-cas+=1
+  n_cas = 25
-from blocFissure.CasTests.fissureCoude_10 import fissureCoude_10
+  # genereMateriel : aucun
-problemes.append(fissureCoude_10(cas))
+  from blocFissure.CasTests.fissure_Coude import fissure_Coude
  l_problemes.append(fissure_Coude(n_cas))
 #"Mesh_366" has not been computed:
 #-  global 1D algorithm is missing
  #File "/home/D68518/salome-dev/DEV_package/appli_DEV_package/lib/python3.6/site-packages/salome/blocFissure/CasTests/execution_Cas.py", line 274, in calcul_cas
    #ok_maillage = cas.executeProbleme()
  #File "/home/D68518/salome-dev/DEV_package/appli_DEV_package/lib/python3.6/site-packages/salome/blocFissure/gmu/fissureGenerique.py", line 137, in executeProbleme
    #elementsDefaut, step, mailleur)
  #File "/home/D68518/salome-dev/DEV_package/appli_DEV_package/lib/python3.6/site-packages/salome/blocFissure/CasTests/fissure_Coude.py", line 513, in genereMaillageFissure
    #step, mailleur)
  #File "/home/D68518/salome-dev/DEV_package/appli_DEV_package/lib/python3.6/site-packages/salome/blocFissure/gmu/insereFissureLongue.py", line 435, in insereFissureLongue
    #mailleur )
  #File "/home/D68518/salome-dev/DEV_package/appli_DEV_package/lib/python3.6/site-packages/salome/blocFissure/gmu/insereFissureLongue_c.py", line 82, in insereFissureLongue_c
    #raise Exception(text)
-cas+=1
+  n_cas = 26
-from blocFissure.CasTests.vis_1 import vis_1
+  # genereMateriel : aucun
-problemes.append(vis_1(cas))
+  from blocFissure.CasTests.fissure_Coude_4 import fissure_Coude_4
  l_problemes.append(fissure_Coude_4(n_cas))
 #"Mesh_375" has not been computed:
 #-  global 1D algorithm is missing
  #File "/home/D68518/salome-dev/DEV_package/appli_DEV_package/lib/python3.6/site-packages/salome/blocFissure/CasTests/execution_Cas.py", line 274, in calcul_cas
    #ok_maillage = cas.executeProbleme()
  #File "/home/D68518/salome-dev/DEV_package/appli_DEV_package/lib/python3.6/site-packages/salome/blocFissure/gmu/fissureGenerique.py", line 137, in executeProbleme
    #elementsDefaut, step, mailleur)
  #File "/home/D68518/salome-dev/DEV_package/appli_DEV_package/lib/python3.6/site-packages/salome/blocFissure/CasTests/fissure_Coude.py", line 513, in genereMaillageFissure
    #step, mailleur)
  #File "/home/D68518/salome-dev/DEV_package/appli_DEV_package/lib/python3.6/site-packages/salome/blocFissure/gmu/insereFissureLongue.py", line 435, in insereFissureLongue
    #mailleur )
  #File "/home/D68518/salome-dev/DEV_package/appli_DEV_package/lib/python3.6/site-packages/salome/blocFissure/gmu/insereFissureLongue_c.py", line 82, in insereFissureLongue_c
    #raise Exception(text)
-for iaux, cas in enumerate(problemes):
+  n_cas = 27
-  if torun[iaux]:
+  # genereMateriel : vis
-    logging.critical("=== Execution cas {}".format(iaux))
+  from blocFissure.CasTests.vis_1 import vis_1
-    try:
+  l_problemes.append(vis_1(n_cas))
-      cas.executeProbleme()
+  #"Mesh_22" has not been computed:
-    except:
+  #-  "algo2d_faceFiss" failed on FACE #2. Error: Algorithm failed. NgException at Surface meshing: Problem in Surface mesh generation
-      traceback.print_exc()
+  #-  "algo1d_edgeFissPeau" failed on EDGE #9. Error: Algorithm failed. Source elements don't cover totally the geometrical edge
-    print("---------------------------------------------------------------------")
+  #Traceback (most recent call last):
    #File "/home/D68518/salome-dev/DEV_package/appli_DEV_package/lib/python3.6/site-packages/salome/blocFissure/CasTests/execution_Cas.py", line 233, in <module>
      #ok_maillage = cas.executeProbleme()
    #File "/home/D68518/salome-dev/DEV_package/appli_DEV_package/lib/python3.6/site-packages/salome/blocFissure/gmu/fissureGenerique.py", line 122, in executeProbleme
      #self.maillageFissureParams, elementsDefaut, step)
    #File "/home/D68518/salome-dev/DEV_package/appli_DEV_package/lib/python3.6/site-packages/salome/blocFissure/CasTests/vis_1.py", line 116, in genereMaillageFissure
      #maillageFissureParams, elementsDefaut, step)
    #File "/home/D68518/salome-dev/DEV_package/appli_DEV_package/lib/python3.6/site-packages/salome/blocFissure/gmu/construitFissureGenerale.py", line 282, in construitFissureGenerale
      #meshPipeGroups, areteFaceFissure, rayonPipe, nbsegRad)
    #File "/home/D68518/salome-dev/DEV_package/appli_DEV_package/lib/python3.6/site-packages/salome/blocFissure/gmu/mailleFacesFissure.py", line 69, in mailleFacesFissure
      #raise Exception(text)
  #Exception: Erreur au calcul du maillage.
  n_cas = 28
  # genereMateriel : tube
  from blocFissure.CasTests.tube import tube
  l_problemes.append(tube(n_cas))
  #"Mesh_13" has not been computed:
  #-  "algo2d_facePeau_0" failed on "FACE_12 to mesh". Error: Algorithm failed. NgException at Surface meshing: Problem in Surface mesh generation
  #-  "algo1d_cercle1_0" failed on EDGE #20. Error: Algorithm failed. Source elements don't cover totally the geometrical edge
  #-  "algo1d_cercle1_0" failed on EDGE #17. Error: Algorithm failed. Source elements don't cover totally the geometrical edge
  #-  "algo1d_cercle1_0" failed on EDGE #15. Error: Algorithm failed. Source elements don't cover totally the geometrical edge
  #-  "algo1d_cercle1_0" failed on EDGE #12. Error: Algorithm failed. Source elements don't cover totally the geometrical edge
  return l_problemes, d_aux
 #=============================================================
 def calcul_cas (n_cas, cas, d_aux, ligne):
  """Calcul d'un cas"""
  texte = ""
  if n_cas in d_aux:
    nom = d_aux[n_cas]
  else:
    nom = cas.nomProbleme
  texte_a = "\n=== Exécution du cas n° {}, '{}'".format(n_cas,nom)
  logging.critical(ligne+texte_a)
  try:
    ok_maillage = cas.executeProbleme()
  except:
    traceback.print_exc()
    texte = "Problème avec le cas n° {}, '{}'\n".format(n_cas,nom)
    ok_maillage = False
  print(ligne)
  return ok_maillage, texte
 #=============================================================
 def calcul_tout (l_problemes, d_aux):
  """Calcul de tous les cas"""
  ligne = "---------------------------------------------------------------------"
  texte = ""
  nb_cas_ok = 0
  nb_cas_nook = 0
  for n_cas, cas in enumerate(l_problemes):
    #print ("Cas n° {}, '{}'".format(n_cas,cas.nomProbleme))
    if TORUN[n_cas]:
      ok_maillage, texte_a = calcul_cas (n_cas, cas, d_aux, ligne)
      texte += texte_a
      if ok_maillage:
        nb_cas_ok += 1
      else:
        nb_cas_nook += 1
      print(ligne)
  nb_cas = nb_cas_nook + nb_cas_ok
  if ( nb_cas > 1):
    if nb_cas_nook:
      texte += ". Nombre de cas_tests OK   : {}\n".format(nb_cas_ok)
      texte += ". Nombre de cas_tests NOOK : {}\n".format(nb_cas_nook)
    else:
      texte += "Les {} tests se sont bien passés.\n".format(nb_cas)
  print (texte+ligne)
  return
 #=============================================================
 #=============================================================
 while True:
  L_PROBLEMES, D_AUX = caract_l_problemes()
  if ( len(L_PROBLEMES) != len(TORUN) ):
    TEXTE  = "\nNombre de problèmes définis  : {}\n".format(len(L_PROBLEMES))
    TEXTE += "Longueur de la liste 'TORUN' : {}\n".format(len(TORUN))
    TEXTE += "\t==> Incohérence de programmation à corriger dans {}".format(__name__)
    print (TEXTE)
    break
  calcul_tout (L_PROBLEMES, D_AUX)
  break
--- a/src/Tools/blocFissure/CasTests/faceGauche.py
+++ b/src/Tools/blocFissure/CasTests/faceGauche.py
@ -17,6 +17,7 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """problème de fissure non plane, débouchante non normale"""
 import os
 from blocFissure import gmu
@ -26,9 +27,7 @@ import math
 import GEOM
 import SALOMEDS
 import SMESH
-#import StdMeshers
+
 #import GHS3DPlugin
 #import NETGENPlugin
 import logging
 from blocFissure.gmu.fissureGenerique import fissureGenerique
@ -41,17 +40,18 @@ from blocFissure.gmu.construitFissureGenerale import construitFissureGenerale
 O, OX, OY, OZ = triedreBase()
 class faceGauche(fissureGenerique):
-  """
+  """problème de fissure non plane, débouchante non normale"""
  problème de fissure non plane, débouchante non normale
  """
  nomProbleme = "faceGauche"
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
  # ---------------------------------------------------------------------------
  def genereMaillageSain(self, geometriesSaines, meshParams):
    logging.info("genereMaillageSain %s", self.nomCas)
-    ([objetSain], status) = smesh.CreateMeshesFromMED(os.path.join(gmu.pathBloc, "materielCasTests/faceGaucheSain.med"))
+    ([objetSain], _) = smesh.CreateMeshesFromMED(os.path.join(gmu.pathBloc, "materielCasTests", "faceGaucheSain.med"))
    smesh.SetName(objetSain.GetMesh(), 'objetSain')
    return [objetSain, True] # True : maillage hexa
@ -70,28 +70,29 @@ class faceGauche(fissureGenerique):
                                   rayonPipe   = 20)
  # ---------------------------------------------------------------------------
-  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams):
+  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams, \
                                mailleur="MeshGems"):
    logging.info("genereShapeFissure %s", self.nomCas)
    lgInfluence = shapeFissureParams['lgInfluence']
-    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests/faceGaucheFiss.brep"))
+    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests", "faceGaucheFiss.brep"))
    fondFiss = geompy.CreateGroup(shellFiss, geompy.ShapeType["EDGE"])
    geompy.UnionIDs(fondFiss, [6])
    geompy.addToStudy( shellFiss, 'shellFiss' )
    geompy.addToStudyInFather( shellFiss, fondFiss, 'fondFiss' )
-
+    mailleur = self.mailleur2d3d()
-    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 5 ,50)
+    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 5 ,50, mailleur)
    centre = None
    return [shellFiss, centre, lgInfluence, coordsNoeudsFissure, fondFiss]
  # ---------------------------------------------------------------------------
  def setParamMaillageFissure(self):
-    self.maillageFissureParams = dict(nomRep           = '.',
+    self.maillageFissureParams = dict(nomRep           = os.curdir,
                                      nomFicSain       = self.nomCas,
-                                      nomFicFissure    = 'fissure_' + self.nomCas,
+                                      nomFicFissure    = self.nomCas + "_fissure",
                                      nbsegRad         = 5,
                                      nbsegCercle      = 8,
                                      areteFaceFissure = 1000)
@ -102,22 +103,26 @@ class faceGauche(fissureGenerique):
    return elementsDefaut
  # ---------------------------------------------------------------------------
-  def genereMaillageFissure(self, geometriesSaines, maillagesSains,
+  def genereMaillageFissure(self, geometriesSaines, maillagesSains, \
-                            shapesFissure, shapeFissureParams,
+                                  shapesFissure, shapeFissureParams, \
-                            maillageFissureParams, elementsDefaut, step):
+                                  maillageFissureParams, elementsDefaut, step, \
-    maillageFissure = construitFissureGenerale(maillagesSains,
+                                  mailleur="MeshGems"):
-                                               shapesFissure, shapeFissureParams,
+
-                                               maillageFissureParams, elementsDefaut, step)
+    mailleur = self.mailleur2d3d()
    maillageFissure = construitFissureGenerale(shapesFissure, shapeFissureParams, \
                                               maillageFissureParams, elementsDefaut, \
                                               step, mailleur)
    return maillageFissure
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Quad_Pyramid    = 1284,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Triangle   = 2336,
+                                          Entity_Quad_Quadrangle = 3997, \
-                                          Entity_Quad_Edge       = 758,
+                                          Entity_Quad_Hexa = 5904, \
-                                          Entity_Quad_Penta      = 984,
+                                          Entity_Node = 77735, \
-                                          Entity_Quad_Hexa       = 6416,
+                                          Entity_Quad_Edge = 725, \
-                                          Entity_Node            = 85673,
+                                          Entity_Quad_Triangle = 2176, \
-                                          Entity_Quad_Tetra      = 35990,
+                                          Entity_Quad_Tetra = 32320, \
-                                          Entity_Quad_Quadrangle = 4285)
+                                          Entity_Quad_Pyramid = 1156, \
-
+                                          Entity_Quad_Penta = 856 \
                                         )
--- a/src/Tools/blocFissure/CasTests/faceGauche_2.py
+++ b/src/Tools/blocFissure/CasTests/faceGauche_2.py
@ -17,12 +17,12 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """problème de fissure non plane, débouchante non normale"""
 import os
 from blocFissure import gmu
 from blocFissure.gmu.geomsmesh import geompy, smesh
 import math
 import GEOM
 import SALOMEDS
 import SMESH
@ -42,25 +42,26 @@ from blocFissure.gmu.construitFissureGenerale import construitFissureGenerale
 O, OX, OY, OZ = triedreBase()
 class faceGauche_2(fissureGenerique):
-  """
+  """problème de fissure non plane, débouchante non normale"""
  problème de fissure non plane, débouchante non normale
  """
-  nomProbleme = "faceGauche2"
+  nomProbleme = "faceGauche_2"
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
  # ---------------------------------------------------------------------------
  def genereMaillageSain(self, geometriesSaines, meshParams):
    logging.info("genereMaillageSain %s", self.nomCas)
-    ([objetSain], status) = smesh.CreateMeshesFromMED(os.path.join(gmu.pathBloc, "materielCasTests/boiteSaine.med"))
+    ([objetSain], _) = smesh.CreateMeshesFromMED(os.path.join(gmu.pathBloc, "materielCasTests", "boiteSaine.med"))
    smesh.SetName(objetSain.GetMesh(), 'objetSain')
    return [objetSain, True] # True : maillage hexa
  # ---------------------------------------------------------------------------
  def setParamShapeFissure(self):
-    """
+    """paramètres de la fissure pour méthode construitFissureGenerale
-    paramètres de la fissure pour méthode construitFissureGenerale
+
    lgInfluence : distance autour de la shape de fissure a remailler (A ajuster selon le maillage)
    rayonPipe   : le rayon du pile maillé en hexa autour du fond de fissure
    convexe     : optionnel True : la face est convexe (vue de l'exterieur) sert si on ne donne pas de point interne
@ -71,28 +72,29 @@ class faceGauche_2(fissureGenerique):
                                   rayonPipe   = 20)
  # ---------------------------------------------------------------------------
-  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams):
+  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams, \
                                mailleur="MeshGems"):
    logging.info("genereShapeFissure %s", self.nomCas)
    lgInfluence = shapeFissureParams['lgInfluence']
-    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests/faceGauche2FissCoupe.brep"))
+    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests", "faceGauche2FissCoupe.brep"))
    fondFiss = geompy.CreateGroup(shellFiss, geompy.ShapeType["EDGE"])
-    geompy.UnionIDs(fondFiss, [14, 9])
+    geompy.UnionIDs(fondFiss, [4, 12])
    geompy.addToStudy( shellFiss, 'shellFiss' )
    geompy.addToStudyInFather( shellFiss, fondFiss, 'fondFiss' )
-
+    mailleur = self.mailleur2d3d()
-    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 5 ,25)
+    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 5 ,25, mailleur)
    centre = None
    return [shellFiss, centre, lgInfluence, coordsNoeudsFissure, fondFiss]
  # ---------------------------------------------------------------------------
  def setParamMaillageFissure(self):
-    self.maillageFissureParams = dict(nomRep           = '.',
+    self.maillageFissureParams = dict(nomRep           = os.curdir,
                                      nomFicSain       = self.nomCas,
-                                      nomFicFissure    = 'fissure_' + self.nomCas,
+                                      nomFicFissure    = self.nomCas + "_fissure",
                                      nbsegRad         = 5,
                                      nbsegCercle      = 8,
                                      areteFaceFissure = 1000)
@ -103,22 +105,26 @@ class faceGauche_2(fissureGenerique):
    return elementsDefaut
  # ---------------------------------------------------------------------------
-  def genereMaillageFissure(self, geometriesSaines, maillagesSains,
+  def genereMaillageFissure(self, geometriesSaines, maillagesSains, \
-                            shapesFissure, shapeFissureParams,
+                                  shapesFissure, shapeFissureParams, \
-                            maillageFissureParams, elementsDefaut, step):
+                                  maillageFissureParams, elementsDefaut, step, \
-    maillageFissure = construitFissureGenerale(maillagesSains,
+                                  mailleur="MeshGems"):
-                                               shapesFissure, shapeFissureParams,
+
-                                               maillageFissureParams, elementsDefaut, step)
+    mailleur = self.mailleur2d3d()
    maillageFissure = construitFissureGenerale(shapesFissure, shapeFissureParams, \
                                               maillageFissureParams, elementsDefaut, \
                                               step, mailleur)
    return maillageFissure
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Quad_Pyramid    = 859,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Triangle   = 634,
+                                          Entity_Quad_Quadrangle = 2542, \
-                                          Entity_Quad_Edge       = 323,
+                                          Entity_Quad_Hexa = 3435, \
-                                          Entity_Quad_Penta      = 288,
+                                          Entity_Node = 44095, \
-                                          Entity_Quad_Hexa       = 3435,
+                                          Entity_Quad_Edge = 323, \
-                                          Entity_Node            = 44095,
+                                          Entity_Quad_Triangle = 634, \
-                                          Entity_Quad_Tetra      = 18400,
+                                          Entity_Quad_Tetra = 18400, \
-                                          Entity_Quad_Quadrangle = 2542)
+                                          Entity_Quad_Pyramid = 859, \
-
+                                          Entity_Quad_Penta = 288 \
                                         )
--- a/src/Tools/blocFissure/CasTests/fissureCoude_1.py
+++ b/src/Tools/blocFissure/CasTests/fissureCoude_1.py
@ -17,14 +17,21 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """Fissure dans un coude"""
 import os
 from blocFissure.gmu.fissureCoude  import fissureCoude
 class fissureCoude_1(fissureCoude):
-  """
+  """problème de fissure du Coude : adaptation maillage"""
-  problème de fissure du Coude :
+
-  adaptation maillage
+  nomProbleme = "fissureCoude_1"
-  """
+  geomParams = dict()
  meshParams = dict()
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
 # ---------------------------------------------------------------------------
  def setParamGeometrieSaine(self):
@ -89,21 +96,22 @@ class fissureCoude_1(fissureCoude):
    nbSegCercle = nombre de secteurs
    areteFaceFissure = taille cible de l'arête des triangles en face de fissure.
    """
-    self.maillageFissureParams = dict(nomRep        = '.',
+    self.maillageFissureParams = dict(nomRep        = os.curdir,
                                      nomFicSain    = self.nomCas,
-                                      nomFicFissure = 'fissure_' + self.nomCas,
+                                      nomFicFissure = self.nomCas + "_fissure",
                                      nbsegRad      = 5,
                                      nbsegCercle   = 6,
                                      areteFaceFissure = 5)
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Node            = 77917,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Edge       = 975,
+                                          Entity_Quad_Quadrangle = 6042, \
-                                          Entity_Quad_Triangle   = 2182,
+                                          Entity_Quad_Hexa = 7794, \
-                                          Entity_Quad_Quadrangle = 6842,
+                                          Entity_Node = 65337, \
-                                          Entity_Quad_Tetra      = 20135,
+                                          Entity_Quad_Edge = 874, \
-                                          Entity_Quad_Hexa       = 8994,
+                                          Entity_Quad_Triangle = 2058, \
-                                          Entity_Quad_Penta      = 972,
+                                          Entity_Quad_Tetra = 16037, \
-                                          Entity_Quad_Pyramid    = 1038)
+                                          Entity_Quad_Pyramid = 738, \
-
+                                          Entity_Quad_Penta = 672 \
                                         )
--- a/src/Tools/blocFissure/CasTests/fissureCoude_10.py
+++ b/src/Tools/blocFissure/CasTests/fissureCoude_10.py
@ -17,17 +17,26 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """Fissure dans un coude - cas test ASCOU17"""
 import os
 from blocFissure.gmu.fissureCoude  import fissureCoude
 class fissureCoude_10(fissureCoude):
-  # cas test ASCOU17
+  """Fissure dans un coude - cas test ASCOU17"""
  nomProbleme = "fissureCoude_10"
  geomParams = dict()
  meshParams = dict()
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
 # ---------------------------------------------------------------------------
  def setParamGeometrieSaine(self):
    """
-    Paramètres géométriques du tuyau coudé sain:
+    Paramètres géométriques du tuyau coudé sain
    angleCoude
    r_cintr
    l_tube_p1
@ -80,7 +89,7 @@ class fissureCoude_10(fissureCoude):
                                   externe     = False)
  # ---------------------------------------------------------------------------
-                                   
+
  def setParamMaillageFissure(self):
    """
    Paramètres du maillage de la fissure pour le tuyau coudé
@ -89,21 +98,22 @@ class fissureCoude_10(fissureCoude):
    nbSegCercle = nombre de secteurs
    areteFaceFissure = taille cible de l'arête des triangles en face de fissure.
    """
-    self.maillageFissureParams = dict(nomRep        = '.',
+    self.maillageFissureParams = dict(nomRep        = os.curdir,
                                      nomFicSain    = self.nomCas,
-                                      nomFicFissure = 'fissure_' + self.nomCas,
+                                      nomFicFissure = self.nomCas + "_fissure",
                                      nbsegRad      = 3,
                                      nbsegCercle   = 8,
                                      areteFaceFissure = 2.5)
-    
+
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Node            = 93352,
+    self.referencesMaillageFissure = dict ( \
-                                          Entity_Quad_Edge       = 1456,
+                                            Entity_Quad_Quadrangle = 6160, \
-                                          Entity_Quad_Triangle   = 8934,
+                                            Entity_Quad_Hexa = 5864, \
-                                          Entity_Quad_Quadrangle = 6978,
+                                            Entity_Node = 78012, \
-                                          Entity_Quad_Tetra      = 31147,
+                                            Entity_Quad_Edge = 1346, \
-                                          Entity_Quad_Hexa       = 6972,
+                                            Entity_Quad_Triangle = 9022, \
-                                          Entity_Quad_Penta      = 1600,
+                                            Entity_Quad_Tetra = 24341, \
-                                          Entity_Quad_Pyramid    = 1696)
+                                            Entity_Quad_Pyramid = 1232, \
-
+                                            Entity_Quad_Penta = 1136 \
                                          )
--- a/src/Tools/blocFissure/CasTests/fissureCoude_2.py
+++ b/src/Tools/blocFissure/CasTests/fissureCoude_2.py
@ -17,14 +17,21 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """Fissure dans un coude"""
 import os
 from blocFissure.gmu.fissureCoude  import fissureCoude
 class fissureCoude_2(fissureCoude):
-  """
+  """problème de fissure du Coude : adaptation maillage"""
-  problème de fissure du Coude :
+
-  adaptation maillage
+  nomProbleme = "fissureCoude_2"
-  """
+  geomParams = dict()
  meshParams = dict()
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
 # ---------------------------------------------------------------------------
  def setParamGeometrieSaine(self):
@ -89,21 +96,22 @@ class fissureCoude_2(fissureCoude):
    nbSegCercle = nombre de secteurs
    areteFaceFissure = taille cible de l'arête des triangles en face de fissure.
    """
-    self.maillageFissureParams = dict(nomRep        = '.',
+    self.maillageFissureParams = dict(nomRep        = os.curdir,
                                      nomFicSain    = self.nomCas,
-                                      nomFicFissure = 'fissure_' + self.nomCas,
+                                      nomFicFissure = self.nomCas + "_fissure",
                                      nbsegRad      = 5,
                                      nbsegCercle   = 6,
                                      areteFaceFissure = 5)
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Node            = 132120,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Edge       = 1411,
+                                          Entity_Quad_Quadrangle = 7828, \
-                                          Entity_Quad_Triangle   = 5342,
+                                          Entity_Quad_Hexa = 10437, \
-                                          Entity_Quad_Quadrangle = 9524,
+                                          Entity_Node = 101695, \
-                                          Entity_Quad_Tetra      = 40902,
+                                          Entity_Quad_Edge = 1199, \
-                                          Entity_Quad_Hexa       = 12981,
+                                          Entity_Quad_Triangle = 4230, \
-                                          Entity_Quad_Penta      = 1980,
+                                          Entity_Quad_Tetra = 30013, \
-                                          Entity_Quad_Pyramid    = 2064)
+                                          Entity_Quad_Pyramid = 1428, \
-
+                                          Entity_Quad_Penta = 1344 \
                                         )
--- a/src/Tools/blocFissure/CasTests/fissureCoude_3.py
+++ b/src/Tools/blocFissure/CasTests/fissureCoude_3.py
@ -17,14 +17,21 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """Fissure dans un coude"""
 import os
 from blocFissure.gmu.fissureCoude  import fissureCoude
 class fissureCoude_3(fissureCoude):
-  """
+  """problème de fissure du Coude - adaptation maillage"""
-  problème de fissure du Coude
+
-  adaptation maillage
+  nomProbleme = "fissureCoude_3"
-  """
+  geomParams = dict()
  meshParams = dict()
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
 # ---------------------------------------------------------------------------
  def setParamGeometrieSaine(self):
@ -89,21 +96,22 @@ class fissureCoude_3(fissureCoude):
    nbSegCercle = nombre de secteurs
    areteFaceFissure = taille cible de l'arête des triangles en face de fissure.
    """
-    self.maillageFissureParams = dict(nomRep        = '.',
+    self.maillageFissureParams = dict(nomRep        = os.curdir,
                                      nomFicSain    = self.nomCas,
-                                      nomFicFissure = 'fissure_' + self.nomCas,
+                                      nomFicFissure = self.nomCas + "_fissure",
                                      nbsegRad      = 5,
                                      nbsegCercle   = 6,
                                      areteFaceFissure = 5)
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Node            = 98643,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Edge       = 1130,
+                                          Entity_Quad_Quadrangle = 10604, \
-                                          Entity_Quad_Triangle   = 1476,
+                                          Entity_Quad_Hexa = 13764, \
-                                          Entity_Quad_Quadrangle = 11100,
+                                          Entity_Node = 89087, \
-                                          Entity_Quad_Tetra      = 15993,
+                                          Entity_Quad_Edge = 1065, \
-                                          Entity_Quad_Hexa       = 14508,
+                                          Entity_Quad_Triangle = 1326, \
-                                          Entity_Quad_Penta      = 624,
+                                          Entity_Quad_Tetra = 12185, \
-                                          Entity_Quad_Pyramid    = 788)
+                                          Entity_Quad_Pyramid = 602, \
-
+                                          Entity_Quad_Penta = 438 \
                                         )
--- a/src/Tools/blocFissure/CasTests/fissureCoude_4.py
+++ b/src/Tools/blocFissure/CasTests/fissureCoude_4.py
@ -17,14 +17,21 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """Fissure dans un coude - ASCOU09A"""
 import os
 from blocFissure.gmu.fissureCoude  import fissureCoude
 class fissureCoude_4(fissureCoude):
-  """
+  """problème de fissure du Coude : ASCOU09A - adaptation maillage"""
-  problème de fissure du Coude : ASCOU09A
+
-  adaptation maillage
+  nomProbleme = "fissureCoude_4"
-  """
+  geomParams = dict()
  meshParams = dict()
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
 # ---------------------------------------------------------------------------
  def setParamGeometrieSaine(self):
@ -89,21 +96,22 @@ class fissureCoude_4(fissureCoude):
    nbSegCercle = nombre de secteurs
    areteFaceFissure = taille cible de l'arête des triangles en face de fissure.
    """
-    self.maillageFissureParams = dict(nomRep        = '.',
+    self.maillageFissureParams = dict(nomRep        = os.curdir,
                                      nomFicSain    = self.nomCas,
-                                      nomFicFissure = 'fissure_' + self.nomCas,
+                                      nomFicFissure = self.nomCas + "_fissure",
                                      nbsegRad      = 5,
                                      nbsegCercle   = 6,
                                      areteFaceFissure = 5)
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Node            = 133832,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Edge       = 1133,
+                                          Entity_Quad_Quadrangle = 11428, \
-                                          Entity_Quad_Triangle   = 1498,
+                                          Entity_Quad_Hexa = 21716, \
-                                          Entity_Quad_Quadrangle = 11892,
+                                          Entity_Node = 124663, \
-                                          Entity_Quad_Tetra      = 18401,
+                                          Entity_Quad_Edge = 1073, \
-                                          Entity_Quad_Hexa       = 22412,
+                                          Entity_Quad_Triangle = 1330, \
-                                          Entity_Quad_Penta      = 600,
+                                          Entity_Quad_Tetra = 14665, \
-                                          Entity_Quad_Pyramid    = 816)
+                                          Entity_Quad_Pyramid = 642, \
-
+                                          Entity_Quad_Penta = 426 \
                                         )
--- a/src/Tools/blocFissure/CasTests/fissureCoude_5.py
+++ b/src/Tools/blocFissure/CasTests/fissureCoude_5.py
@ -17,14 +17,21 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """Fissure dans un coude"""
 import os
 from blocFissure.gmu.fissureCoude  import fissureCoude
 class fissureCoude_5(fissureCoude):
-  """
+  """problème de fissure du Coude : - adaptation maillage"""
-  problème de fissure du Coude :
+
-  adaptation maillage
+  nomProbleme = "fissureCoude_5"
-  """
+  geomParams = dict()
  meshParams = dict()
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
 # ---------------------------------------------------------------------------
  def setParamGeometrieSaine(self):
@ -89,21 +96,22 @@ class fissureCoude_5(fissureCoude):
    nbSegCercle = nombre de secteurs
    areteFaceFissure = taille cible de l'arête des triangles en face de fissure.
    """
-    self.maillageFissureParams = dict(nomRep        = '.',
+    self.maillageFissureParams = dict(nomRep        = os.curdir,
                                      nomFicSain    = self.nomCas,
-                                      nomFicFissure = 'fissure_' + self.nomCas,
+                                      nomFicFissure = self.nomCas + "_fissure",
                                      nbsegRad      = 5,
                                      nbsegCercle   = 8,
                                      areteFaceFissure = 5)
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Node            = 55217,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Edge       = 762,
+                                          Entity_Quad_Quadrangle = 5366, \
-                                          Entity_Quad_Triangle   = 1586,
+                                          Entity_Quad_Hexa = 7120, \
-                                          Entity_Quad_Quadrangle = 5610,
+                                          Entity_Node = 54832, \
-                                          Entity_Quad_Tetra      = 11468,
+                                          Entity_Quad_Edge = 722, \
-                                          Entity_Quad_Hexa       = 7200,
+                                          Entity_Quad_Triangle = 1570, \
-                                          Entity_Quad_Penta      = 516,
+                                          Entity_Quad_Tetra = 11747, \
-                                          Entity_Quad_Pyramid    = 552)
+                                          Entity_Quad_Pyramid = 532, \
-
+                                          Entity_Quad_Penta = 496 \
                                         )
--- a/src/Tools/blocFissure/CasTests/fissureCoude_6.py
+++ b/src/Tools/blocFissure/CasTests/fissureCoude_6.py
@ -17,11 +17,21 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """Fissure dans un coude - ASCOU08"""
 import os
 from blocFissure.gmu.fissureCoude  import fissureCoude
 class fissureCoude_6(fissureCoude):
-# --- cas ASCOU08
+  """ASCOU08"""
  nomProbleme = "fissureCoude_6"
  geomParams = dict()
  meshParams = dict()
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
 # ---------------------------------------------------------------------------
  def setParamGeometrieSaine(self):
@ -78,7 +88,7 @@ class fissureCoude_6(fissureCoude):
                                   externe     = True)
  # ---------------------------------------------------------------------------
-                                   
+
  def setParamMaillageFissure(self):
    """
    Paramètres du maillage de la fissure pour le tuyau coudé
@ -87,22 +97,22 @@ class fissureCoude_6(fissureCoude):
    nbSegCercle = nombre de secteurs
    areteFaceFissure = taille cible de l'arête des triangles en face de fissure.
    """
-    self.maillageFissureParams = dict(nomRep        = '.',
+    self.maillageFissureParams = dict(nomRep        = os.curdir,
                                      nomFicSain    = self.nomCas,
-                                      nomFicFissure = 'fissure_' + self.nomCas,
+                                      nomFicFissure = self.nomCas + "_fissure",
                                      nbsegRad      = 5,
                                      nbsegCercle   = 12,
-                                      areteFaceFissure = 5)                                   
+                                      areteFaceFissure = 5)
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Node            = 63783,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Edge       = 831,
+                                          Entity_Quad_Quadrangle = 7392, \
-                                          Entity_Quad_Triangle   = 742,
+                                          Entity_Quad_Hexa = 9888, \
-                                          Entity_Quad_Quadrangle = 7480,
+                                          Entity_Node = 62571, \
-                                          Entity_Quad_Tetra      = 8084,
+                                          Entity_Quad_Edge = 833, \
-                                          Entity_Quad_Hexa       = 10080,
+                                          Entity_Quad_Triangle = 1048, \
-                                          Entity_Quad_Penta      = 456,
+                                          Entity_Quad_Tetra = 7723, \
-                                          Entity_Quad_Pyramid    = 500)
+                                          Entity_Quad_Pyramid = 452, \
-
+                                          Entity_Quad_Penta = 408 \
-
+                                         )
--- a/src/Tools/blocFissure/CasTests/fissureCoude_7.py
+++ b/src/Tools/blocFissure/CasTests/fissureCoude_7.py
@ -17,11 +17,21 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """Fissure dans un coude"""
 import os
 from blocFissure.gmu.fissureCoude  import fissureCoude
 class fissureCoude_7(fissureCoude):
  """fissure dans un coude"""
  nomProbleme = "fissureCoude_7"
  geomParams = dict()
  meshParams = dict()
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
 # ---------------------------------------------------------------------------
  def setParamGeometrieSaine(self):
@ -79,7 +89,7 @@ class fissureCoude_7(fissureCoude):
                                   externe     = True)
  # ---------------------------------------------------------------------------
-                                   
+
  def setParamMaillageFissure(self):
    """
    Paramètres du maillage de la fissure pour le tuyau coudé
@ -88,21 +98,22 @@ class fissureCoude_7(fissureCoude):
    nbSegCercle = nombre de secteurs
    areteFaceFissure = taille cible de l'arête des triangles en face de fissure.
    """
-    self.maillageFissureParams = dict(nomRep        = '.',
+    self.maillageFissureParams = dict(nomRep        = os.curdir,
                                      nomFicSain    = self.nomCas,
-                                      nomFicFissure = 'fissure_' + self.nomCas,
+                                      nomFicFissure = self.nomCas + "_fissure",
                                      nbsegRad      = 5,
                                      nbsegCercle   = 12,
-                                      areteFaceFissure = 5)                                   
+                                      areteFaceFissure = 5)
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Node            = 75580,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Edge       = 899,
+                                          Entity_Quad_Quadrangle = 7758, \
-                                          Entity_Quad_Triangle   = 1158,
+                                          Entity_Quad_Hexa = 10696, \
-                                          Entity_Quad_Quadrangle = 8022,
+                                          Entity_Node = 71535, \
-                                          Entity_Quad_Tetra      = 13162,
+                                          Entity_Quad_Edge = 882, \
-                                          Entity_Quad_Hexa       = 11272,
+                                          Entity_Quad_Triangle = 1378, \
-                                          Entity_Quad_Penta      = 756,
+                                          Entity_Quad_Tetra = 10847, \
-                                          Entity_Quad_Pyramid    = 812)
+                                          Entity_Quad_Pyramid = 668, \
-
+                                          Entity_Quad_Penta = 612 \
                                         )
--- a/src/Tools/blocFissure/CasTests/fissureCoude_8.py
+++ b/src/Tools/blocFissure/CasTests/fissureCoude_8.py
@ -17,12 +17,21 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """Fissure dans un coude - ASCOU16"""
 import os
 from blocFissure.gmu.fissureCoude  import fissureCoude
 class fissureCoude_8(fissureCoude):
-  # cas test ASCOU15
+  """cas test ASCOU16"""
  nomProbleme = "fissureCoude_8"
  geomParams = dict()
  meshParams = dict()
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
 # ---------------------------------------------------------------------------
  def setParamGeometrieSaine(self):
@ -80,7 +89,7 @@ class fissureCoude_8(fissureCoude):
                                   externe     = False)
  # ---------------------------------------------------------------------------
-                                   
+
  def setParamMaillageFissure(self):
    """
    Paramètres du maillage de la fissure pour le tuyau coudé
@ -89,21 +98,22 @@ class fissureCoude_8(fissureCoude):
    nbSegCercle = nombre de secteurs
    areteFaceFissure = taille cible de l'arête des triangles en face de fissure.
    """
-    self.maillageFissureParams = dict(nomRep        = '.',
+    self.maillageFissureParams = dict(nomRep        = os.curdir,
                                      nomFicSain    = self.nomCas,
-                                      nomFicFissure = 'fissure_' + self.nomCas,
+                                      nomFicFissure = self.nomCas + "_fissure",
                                      nbsegRad      = 4,
                                      nbsegCercle   = 16,
                                      areteFaceFissure = 5)
-    
+
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Node            = 50627,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Edge       = 666,
+                                          Entity_Quad_Quadrangle = 4572, \
-                                          Entity_Quad_Triangle   = 1498,
+                                          Entity_Quad_Hexa = 5128, \
-                                          Entity_Quad_Quadrangle = 4747,
+                                          Entity_Node = 45641, \
-                                          Entity_Quad_Tetra      = 13225,
+                                          Entity_Quad_Edge = 648, \
-                                          Entity_Quad_Hexa       = 5464,
+                                          Entity_Quad_Triangle = 1282, \
-                                          Entity_Quad_Penta      = 864,
+                                          Entity_Quad_Tetra = 11122, \
-                                          Entity_Quad_Pyramid    = 880)
+                                          Entity_Quad_Pyramid = 768, \
-
+                                          Entity_Quad_Penta = 752 \
                                         )
--- a/src/Tools/blocFissure/CasTests/fissureCoude_9.py
+++ b/src/Tools/blocFissure/CasTests/fissureCoude_9.py
@ -17,12 +17,21 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """Fissure dans un coude - ASCOU19"""
 import os
 from blocFissure.gmu.fissureCoude  import fissureCoude
 class fissureCoude_9(fissureCoude):
-  # cas test ASCOU19
+  """cas test ASCOU19"""
  nomProbleme = "fissureCoude_9"
  geomParams = dict()
  meshParams = dict()
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
 # ---------------------------------------------------------------------------
  def setParamGeometrieSaine(self):
@ -87,21 +96,22 @@ class fissureCoude_9(fissureCoude):
    nbSegCercle = nombre de secteurs
    areteFaceFissure = taille cible de l'arête des triangles en face de fissure.
    """
-    self.maillageFissureParams = dict(nomRep        = '.',
+    self.maillageFissureParams = dict(nomRep        = os.curdir,
                                      nomFicSain    = self.nomCas,
-                                      nomFicFissure = 'fissure_' + self.nomCas,
+                                      nomFicFissure = self.nomCas + "_fissure",
                                      nbsegRad      = 6,
                                      nbsegCercle   = 20,
                                      areteFaceFissure = 2.5)
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Node            = 162936,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Edge       = 1254,
+                                          Entity_Quad_Quadrangle = 14864, \
-                                          Entity_Quad_Triangle   = 3238,
+                                          Entity_Quad_Hexa = 26772, \
-                                          Entity_Quad_Quadrangle = 15088,
+                                          Entity_Node = 156163, \
-                                          Entity_Quad_Tetra      = 19305,
+                                          Entity_Quad_Edge = 1237, \
-                                          Entity_Quad_Hexa       = 27472,
+                                          Entity_Quad_Triangle = 3178, \
-                                          Entity_Quad_Penta      = 920,
+                                          Entity_Quad_Tetra = 16952, \
-                                          Entity_Quad_Pyramid    = 1056)
+                                          Entity_Quad_Pyramid = 916, \
-
+                                          Entity_Quad_Penta = 780 \
                                         )
--- a/src/Tools/blocFissure/CasTests/fissure_Coude.py
+++ b/src/Tools/blocFissure/CasTests/fissure_Coude.py
@ -17,6 +17,9 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """Fissure dans un coude"""
 import os
 from blocFissure import gmu
 from blocFissure.gmu.geomsmesh import geompy, smesh
@ -40,12 +43,19 @@ from blocFissure.gmu.insereFissureLongue import insereFissureLongue
 O, OX, OY, OZ = triedreBase()
 class fissure_Coude(fissureGenerique):
-  """
+  """problème de fissure du Coude : version de base
-  problème de fissure du Coude : version de base
+
  maillage hexa
  """
-  nomProbleme = "tuyau_Coude"
+  nomProbleme = "fissure_Coude"
  geomParams = dict()
  meshParams = dict()
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
  circonferentielle = False
  longitudinale = False
  # ---------------------------------------------------------------------------
  def setParamGeometrieSaine(self):
@ -256,16 +266,16 @@ class fissure_Coude(fissureGenerique):
    smesh.SetName(algo1d_long_p2, "algo1d_long_p2")
    smesh.SetName(hypo1d_long_p2, "hypo1d_long_p2")
-    isDone = maillageSain.Compute()
+    _ = maillageSain.GroupOnGeom(P1,'P1',SMESH.NODE)
    _ = maillageSain.GroupOnGeom(P2,'P2',SMESH.NODE)
    _ = maillageSain.GroupOnGeom(EXTUBE,'EXTUBE',SMESH.FACE)
    _ = maillageSain.GroupOnGeom(BORDTU,'BORDTU',SMESH.EDGE)
    _ = maillageSain.GroupOnGeom(CLGV,'CLGV',SMESH.FACE)
    _ = maillageSain.GroupOnGeom(PEAUINT,'PEAUINT',SMESH.FACE)
    _ = maillageSain.GroupOnGeom(PEAUEXT,'PEAUEXT',SMESH.FACE)
    _ = maillageSain.GroupOnGeom(COUDE,'COUDSAIN',SMESH.VOLUME)
-    mp1 = maillageSain.GroupOnGeom(P1,'P1',SMESH.NODE)
+    _ = maillageSain.Compute()
    mp2 = maillageSain.GroupOnGeom(P2,'P2',SMESH.NODE)
    ext = maillageSain.GroupOnGeom(EXTUBE,'EXTUBE',SMESH.FACE)
    btu = maillageSain.GroupOnGeom(BORDTU,'BORDTU',SMESH.EDGE)
    clg = maillageSain.GroupOnGeom(CLGV,'CLGV',SMESH.FACE)
    pei = maillageSain.GroupOnGeom(PEAUINT,'PEAUINT',SMESH.FACE)
    pex = maillageSain.GroupOnGeom(PEAUEXT,'PEAUEXT',SMESH.FACE)
    cou = maillageSain.GroupOnGeom(COUDE,'COUDSAIN',SMESH.VOLUME)
    return [maillageSain, True] # True : maillage hexa
@ -292,14 +302,15 @@ class fissure_Coude(fissureGenerique):
                                   externe     = True)
  # ---------------------------------------------------------------------------
-  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams):
+  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams, \
                                mailleur="MeshGems"):
    logging.info("genereShapeFissure %s", self.nomCas)
    logging.info("shapeFissureParams %s", shapeFissureParams)
-    angleCoude = geomParams['angleCoude']
+    #angleCoude = geomParams['angleCoude']
    r_cintr    = geomParams['r_cintr']
    l_tube_p1  = geomParams['l_tube_p1']
-    l_tube_p2  = geomParams['l_tube_p2']
+    #l_tube_p2  = geomParams['l_tube_p2']
    epais      = geomParams['epais']
    de         = geomParams['de']
@ -317,13 +328,8 @@ class fissure_Coude(fissureGenerique):
    if not lgInfluence:
      lgInfluence = profondeur
-    if longueur > 2*profondeur:
+    self.fissureLongue = bool(longueur > 2*profondeur)
      self.fissureLongue=True
    else:
      self.fissureLongue=False
    self.circonferentielle = False
    self.longitudinale = False
    if self.fissureLongue and (abs(orientation) < 45) :
      self.longitudinale = True
    elif self.fissureLongue:
@ -471,15 +477,16 @@ class fissure_Coude(fissureGenerique):
    else:
      pass
-    coordsNoeudsFissure = genereMeshCalculZoneDefaut(facefiss, 5 ,10)
+    mailleur = self.mailleur2d3d()
    coordsNoeudsFissure = genereMeshCalculZoneDefaut(facefiss, 5 ,10, mailleur)
    return [facefiss, centre, lgInfluence, coordsNoeudsFissure, wiretube, facetubel, facetuber, planfiss, pipefiss]
  # ---------------------------------------------------------------------------
  def setParamMaillageFissure(self):
-    self.maillageFissureParams = dict(nomRep        = '.',
+    self.maillageFissureParams = dict(nomRep        = os.curdir,
                                      nomFicSain    = self.nomCas,
-                                      nomFicFissure = 'fissure_' + self.nomCas,
+                                      nomFicFissure = self.nomCas + "_fissure",
                                      nbsegExt      = 5,
                                      nbsegGen      = 25,
                                      nbsegRad      = 5,
@ -495,21 +502,26 @@ class fissure_Coude(fissureGenerique):
  # ---------------------------------------------------------------------------
  def genereMaillageFissure(self, geometriesSaines, maillagesSains,
-                            shapesFissure, shapeFissureParams,
+                                  shapesFissure, shapeFissureParams, \
-                            maillageFissureParams, elementsDefaut, step):
+                                  maillageFissureParams, elementsDefaut, step, \
-    maillageFissure = insereFissureLongue(geometriesSaines, maillagesSains,
+                                  mailleur="MeshGems"):
-                                          shapesFissure, shapeFissureParams,
+
-                                          maillageFissureParams, elementsDefaut, step)
+    mailleur = self.mailleur2d3d()
    maillageFissure = insereFissureLongue(geometriesSaines, \
                                          shapesFissure, shapeFissureParams, \
                                          maillageFissureParams, elementsDefaut, \
                                          step, mailleur)
    return maillageFissure
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Node            = 77491,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Edge       = 1006,
+                                          Entity_Quad_Quadrangle = 6710, \
-                                          Entity_Quad_Triangle   = 2412,
+                                          Entity_Quad_Hexa = 8656, \
-                                          Entity_Quad_Quadrangle = 6710,
+                                          Entity_Node = 76807, \
-                                          Entity_Quad_Tetra      = 20853,
+                                          Entity_Quad_Edge = 1006, \
-                                          Entity_Quad_Hexa       = 8656,
+                                          Entity_Quad_Triangle = 2342, \
-                                          Entity_Quad_Penta      = 1176,
+                                          Entity_Quad_Tetra = 20392, \
-                                          Entity_Quad_Pyramid    = 1232)
+                                          Entity_Quad_Pyramid = 1232, \
-
+                                          Entity_Quad_Penta = 1176 \
                                         )
--- a/src/Tools/blocFissure/CasTests/fissure_Coude_4.py
+++ b/src/Tools/blocFissure/CasTests/fissure_Coude_4.py
@ -17,15 +17,25 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """Fissure dans un coude - ASCOU09A"""
 import os
 from .fissure_Coude  import fissure_Coude
 class fissure_Coude_4(fissure_Coude):
-  """
+  """probleme de fissure du Coude : ASCOU09A
-  probleme de fissure du Coude : ASCOU09A
+
  adaptation maillage
  """
  nomProbleme = "fissure_Coude_4"
  geomParams = dict()
  meshParams = dict()
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
 # ---------------------------------------------------------------------------
  def setParamGeometrieSaine(self):
    """
@ -64,10 +74,9 @@ class fissure_Coude_4(fissure_Coude):
    orientation : 0° : longitudinale, 90° : circonférentielle, autre : uniquement fissures elliptiques
    externe     : True : fissure face externe, False : fissure face interne
    """
-    print("setParamShapeFissure", self.nomCas)
+    self.shapeFissureParams = dict(nomRep        = os.curdir,
    self.shapeFissureParams = dict(nomRep        = '.',
                                   nomFicSain    = self.nomCas,
-                                   nomFicFissure = 'fissure_' + self.nomCas,
+                                   nomFicFissure = self.nomCas + "_fissure",
                                   profondeur  = 10,
                                   azimut      = 90,
                                   alpha       = 20,
@ -80,12 +89,13 @@ class fissure_Coude_4(fissure_Coude):
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Quad_Pyramid    = 948,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Triangle   = 1562,
+                                          Entity_Quad_Quadrangle = 11852, \
-                                          Entity_Quad_Edge       = 1192,
+                                          Entity_Quad_Hexa       = 22208, \
-                                          Entity_Quad_Penta      = 732,
+                                          Entity_Node            = 133418, \
-                                          Entity_Quad_Hexa       = 22208,
+                                          Entity_Quad_Edge       = 1192, \
-                                          Entity_Node            = 133418,
+                                          Entity_Quad_Triangle   = 1562, \
-                                          Entity_Quad_Tetra      = 18759,
+                                          Entity_Quad_Tetra      = 18759, \
-                                          Entity_Quad_Quadrangle = 11852)
+                                          Entity_Quad_Pyramid    = 948, \
-
+                                          Entity_Quad_Penta      = 732, \
                                         )
--- a/src/Tools/blocFissure/CasTests/tube.py
+++ b/src/Tools/blocFissure/CasTests/tube.py
@ -0,0 +1,135 @@
 # -*- coding: utf-8 -*-
 # Copyright (C) 2014-2020  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
 #
 """problème de fissure plane dans un tube ; passage par fichier xao"""
 import os
 import logging
 from blocFissure import gmu
 from blocFissure.gmu.geomsmesh import geompy, smesh
 from blocFissure.gmu.fissureGenerique import fissureGenerique
 from blocFissure.gmu.genereMeshCalculZoneDefaut import genereMeshCalculZoneDefaut
 from blocFissure.gmu.creeZoneDefautDansObjetSain import creeZoneDefautDansObjetSain
 from blocFissure.gmu.construitFissureGenerale import construitFissureGenerale
 import GEOM
 import SALOMEDS
 import SMESH
 class tube(fissureGenerique):
  """problème de fissure plane dans un tube"""
  nomProbleme = "tube"
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
  # ---------------------------------------------------------------------------
  def genereMaillageSain(self, geometriesSaines, meshParams):
    texte = "genereMaillageSain pour '{}'".format(self.nomCas)
    logging.info(texte)
    ([objetSain], _) = smesh.CreateMeshesFromMED(os.path.join(gmu.pathBloc, "materielCasTests", "Tube.med"))
    smesh.SetName(objetSain.GetMesh(), "{}_objetSain".format(self.nomProbleme))
    return [objetSain, True] # True : maillage hexa
  # ---------------------------------------------------------------------------
  def setParamShapeFissure(self):
    """
    paramètres de la fissure pour méthode construitFissureGenerale
    lgInfluence : distance autour de la shape de fissure a remailler (A ajuster selon le maillage)
    rayonPipe   : le rayon du pile maillé en hexa autour du fond de fissure
    """
    texte = "genereMaillageSain pour '{}'".format(self.nomCas)
    logging.info(texte)
    self.shapeFissureParams = dict(lgInfluence = 0.4,
                                   rayonPipe   = 0.05)
  # ---------------------------------------------------------------------------
  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams, \
                                mailleur="MeshGems"):
    """Importe la géométrie de la fissure"""
    texte = "genereShapeFissure pour '{}'".format(self.nomCas)
    logging.info(texte)
    lgInfluence = shapeFissureParams['lgInfluence']
    (_, shellFiss, _, l_groups, _) = geompy.ImportXAO(os.path.join(gmu.pathBloc, "materielCasTests", "TubeFiss.xao"))
    l_aux = list()
    for group in l_groups:
      if ( group.GetName() in ("Group_1","Group_2","Group_3") ):
        l_aux.append(group)
    fondFiss = geompy.CreateGroup(shellFiss, geompy.ShapeType["EDGE"])
    geompy.UnionList(fondFiss, l_aux )
    geompy.addToStudy( shellFiss, 'shellFiss' )
    geompy.addToStudyInFather( shellFiss, fondFiss, 'fondFiss' )
    mailleur = self.mailleur2d3d()
    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 0.025, 0.1, mailleur)
    centre = None
    return [shellFiss, centre, lgInfluence, coordsNoeudsFissure, fondFiss]
  # ---------------------------------------------------------------------------
  def setParamMaillageFissure(self):
    texte = "setParamMaillageFissure pour '{}'".format(self.nomCas)
    logging.info(texte)
    self.maillageFissureParams = dict(nomRep           = os.curdir,
                                      nomFicSain       = self.nomCas,
                                      nomFicFissure    = self.nomCas + "_fissure",
                                      nbsegRad         = 5,
                                      nbsegCercle      = 8,
                                      areteFaceFissure = 0.5)
  # ---------------------------------------------------------------------------
  def genereZoneDefaut(self, geometriesSaines, maillagesSains, shapesFissure, shapeFissureParams, maillageFissureParams):
    elementsDefaut = creeZoneDefautDansObjetSain(geometriesSaines, maillagesSains, shapesFissure, shapeFissureParams, maillageFissureParams)
    return elementsDefaut
  # ---------------------------------------------------------------------------
  def genereMaillageFissure(self, geometriesSaines, maillagesSains, \
                                  shapesFissure, shapeFissureParams, \
                                  maillageFissureParams, elementsDefaut, step, \
                                  mailleur="MeshGems"):
    texte = "genereMaillageFissure pour '{}'".format(self.nomCas)
    logging.info(texte)
    mailleur = self.mailleur2d3d()
    maillageFissure = construitFissureGenerale(shapesFissure, shapeFissureParams, \
                                               maillageFissureParams, elementsDefaut, \
                                               step, mailleur)
    return maillageFissure
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
    self.referencesMaillageFissure = dict( \
                                          Entity_Quad_Quadrangle = 1630, \
                                          Entity_Quad_Hexa = 3523, \
                                          Entity_Node = 18874, \
                                          Entity_Quad_Edge = 261, \
                                          Entity_Quad_Triangle = 190, \
                                          Entity_Quad_Tetra = 1322, \
                                          Entity_Quad_Pyramid = 172, \
                                          Entity_Quad_Penta = 64 \
                                         )
--- a/src/Tools/blocFissure/CasTests/vis_1.py
+++ b/src/Tools/blocFissure/CasTests/vis_1.py
@ -17,18 +17,15 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """problème de fissure non plane, débouchante non normale"""
 import os
 from blocFissure import gmu
 from blocFissure.gmu.geomsmesh import geompy, smesh
 import math
 import GEOM
 import SALOMEDS
 import SMESH
 #import StdMeshers
 #import GHS3DPlugin
 #import NETGENPlugin
 import logging
 from blocFissure.gmu.fissureGenerique import fissureGenerique
@ -41,57 +38,66 @@ from blocFissure.gmu.construitFissureGenerale import construitFissureGenerale
 O, OX, OY, OZ = triedreBase()
 class vis_1(fissureGenerique):
-  """
+  """problème de fissure non plane, débouchante non normale"""
  problème de fissure non plane, débouchante non normale
  """
  nomProbleme = "vis_1"
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  referencesMaillageFissure = dict()
  # ---------------------------------------------------------------------------
  def genereMaillageSain(self, geometriesSaines, meshParams):
-    logging.info("genereMaillageSain %s", self.nomCas)
+    texte = "genereMaillageSain pour '{}'".format(self.nomCas)
    logging.info(texte)
-    ([objetSain], status) = smesh.CreateMeshesFromMED(os.path.join(gmu.pathBloc, "materielCasTests/visSain.med"))
+    ([objetSain], _) = smesh.CreateMeshesFromMED(os.path.join(gmu.pathBloc, "materielCasTests", "visSain.med"))
-    smesh.SetName(objetSain.GetMesh(), 'objetSain')
+    smesh.SetName(objetSain.GetMesh(), "{}_objetSain".format(self.nomProbleme))
    return [objetSain, True] # True : maillage hexa
  # ---------------------------------------------------------------------------
  def setParamShapeFissure(self):
-    """
+    """paramètres de la fissure pour méthode construitFissureGenerale
-    paramètres de la fissure pour méthode construitFissureGenerale
+
    lgInfluence : distance autour de la shape de fissure a remailler (A ajuster selon le maillage)
    rayonPipe   : le rayon du pile maillé en hexa autour du fond de fissure
    convexe     : optionnel True : la face est convexe (vue de l'exterieur) sert si on ne donne pas de point interne
    pointIn_x   : optionnel coordonnée x d'un point dans le solide sain (pour orienter la face)
    """
-    logging.info("setParamShapeFissure %s", self.nomCas)
+    texte = "setParamShapeFissure pour '{}'".format(self.nomCas)
    logging.info(texte)
    self.shapeFissureParams = dict(lgInfluence = 0.6,
                                   rayonPipe   = 0.1)
  # ---------------------------------------------------------------------------
-  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams):
+  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams, \
-    logging.info("genereShapeFissure %s", self.nomCas)
+                                mailleur="MeshGems"):
    """Importe la géométrie de la fissure et crée le groupe du fond de la fissure"""
    texte = "genereShapeFissure pour '{}'".format(self.nomCas)
    logging.info(texte)
    lgInfluence = shapeFissureParams['lgInfluence']
-    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests/visFiss.brep"))
+    shellFiss = geompy.ImportBREP(os.path.join(gmu.pathBloc, "materielCasTests", "visFiss.brep"))
    fondFiss = geompy.CreateGroup(shellFiss, geompy.ShapeType["EDGE"])
-    geompy.UnionIDs(fondFiss, [6, 8])
+    geompy.UnionIDs(fondFiss, [6, 8, 3])
    geompy.addToStudy( shellFiss, 'shellFiss' )
    geompy.addToStudyInFather( shellFiss, fondFiss, 'fondFiss' )
-
+    mailleur = self.mailleur2d3d()
-    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 0.1 ,0.2)
+    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, 0.1 ,0.2, mailleur)
    centre = None
    return [shellFiss, centre, lgInfluence, coordsNoeudsFissure, fondFiss]
  # ---------------------------------------------------------------------------
  def setParamMaillageFissure(self):
-    self.maillageFissureParams = dict(nomRep           = '.',
+    texte = "setParamMaillageFissure pour '{}'".format(self.nomCas)
    logging.info(texte)
    self.maillageFissureParams = dict(nomRep           = os.curdir,
                                      nomFicSain       = self.nomCas,
-                                      nomFicFissure    = 'fissure_' + self.nomCas,
+                                      nomFicFissure    = self.nomCas + "_fissure",
                                      nbsegRad         = 5,
                                      nbsegCercle      = 32,
                                      areteFaceFissure = 0.1)
@ -102,22 +108,29 @@ class vis_1(fissureGenerique):
    return elementsDefaut
  # ---------------------------------------------------------------------------
-  def genereMaillageFissure(self, geometriesSaines, maillagesSains,
+  def genereMaillageFissure(self, geometriesSaines, maillagesSains, \
-                            shapesFissure, shapeFissureParams,
+                                  shapesFissure, shapeFissureParams, \
-                            maillageFissureParams, elementsDefaut, step):
+                                  maillageFissureParams, elementsDefaut, step, \
-    maillageFissure = construitFissureGenerale(maillagesSains,
+                                  mailleur="MeshGems"):
-                                               shapesFissure, shapeFissureParams,
+
-                                               maillageFissureParams, elementsDefaut, step)
+    texte = "genereMaillageFissure pour '{}'".format(self.nomCas)
    logging.info(texte)
    mailleur = self.mailleur2d3d()
    maillageFissure = construitFissureGenerale(shapesFissure, shapeFissureParams, \
                                               maillageFissureParams, elementsDefaut, \
                                               step, mailleur)
    return maillageFissure
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Quad_Pyramid    = 1284,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Triangle   = 2336,
+                                          Entity_Quad_Quadrangle = 4285 ,\
-                                          Entity_Quad_Edge       = 758,
+                                          Entity_Quad_Hexa       = 6416, \
-                                          Entity_Quad_Penta      = 984,
+                                          Entity_Node            = 85673, \
-                                          Entity_Quad_Hexa       = 6416,
+                                          Entity_Quad_Edge       = 758, \
-                                          Entity_Node            = 85673,
+                                          Entity_Quad_Triangle   = 2336, \
-                                          Entity_Quad_Tetra      = 35990,
+                                          Entity_Quad_Tetra      = 35990, \
-                                          Entity_Quad_Quadrangle = 4285)
+                                          Entity_Quad_Pyramid    = 1284, \
-
+                                          Entity_Quad_Penta      = 984 \
                                         )
--- a/src/Tools/blocFissure/doc/gui.rst
+++ b/src/Tools/blocFissure/doc/gui.rst
@ -6,23 +6,30 @@ With GUI
 To make the use of « Bloc Fissure » easier, a Graphical User Interface (GUI) was developed.
 Inputs are similar to those of :ref:`script mode <script>`. GUI is accessible in the SMESH extension *Add a crack in a mesh*
-.. figure:: images/BF_GUI_capture.png
+.. image:: images/BF_GUI_capture.png
-   :width: 700
+   :scale: 100
   :align: center
   :alt: Window of the graphical interface
-   Windows of the graphical interface
+Window of the graphical interface
 +------------------------------------------------------------------------------------------------------------------+
 |       GUI parameters                                                                                             |
 +======================+===================================+=======================================================+
-| **maillageSain**     | *[string]*                        |  Relative address of the input structure 3D mesh      |
+| **Maillage sain**    | *[string]*                        |  Relative address of the input structure 3D mesh      |
 |                      | ex: mesh/maillage.med             |  in MED format (base is repertoire de travail)        |
 +----------------------+-----------------------------------+-------------------------------------------------------+
-| **FaceFissure**      | *[string]*                        |  Relative address of the input crack geometry         |
+| **Face fissure**     | *[string]*                        |  Relative address of the input crack geometry in      |
-|                      | ex: mesh/fissure.brep             |  in BREP format (base is repertoire de travail)       |
+|                      | ex: mesh/fissure.xao              |  BREP or XAO format (base is repertoire de travail)   |
 +----------------------+-----------------------------------+-------------------------------------------------------+
-| **index edges fond   | *[list of integers]*              |  List of edges number which define the crack front    |
+| **Arêtes fond        | *[list of strings]*               |  Definition of the crack front:                       |
-| fissure**            | ex: [1,2]                         |                                                       |
+| fissure**            | ex: ["F_1", "F_2"]                |  If XAO: list of the names of the edge group(s)       |
 +----------------------+-----------------------------------+-------------------------------------------------------+
 |                      | *[list of integers]*              |  If BREP (or XAO): list of edges number in GEOM       |
 |                      | ex: [1,2]                         |                                                       |
 +----------------------+-----------------------------------+-------------------------------------------------------+
 | **Distance           | *[float]*                         |  Length of influence - distance that defines the      |
 | d'influence**        | ex: 20.0000                       |  size of the extracted Box around the crack           |
 +----------------------+-----------------------------------+-------------------------------------------------------+
 | **min**              | *[float]*                         |  Float defining the minimum size of elements          |
 |                      | ex: 1.00000                       |  to mesh the crack                                    |
@ -30,41 +37,41 @@ Inputs are similar to those of :ref:`script mode <script>`. GUI is accessible in
 | **max**              | *[float]*                         |  Float defining the maximum size of elements          |
 |                      | ex: 10.0000                       |  to mesh the crack                                    |
 +----------------------+-----------------------------------+-------------------------------------------------------+
-| **distance           | *[float]*                         |  Length of influence - distance that defines the      |
+| **Rayon pipe**       | *[float]*                         |  Radius of the tore around the front                  |
 | influence**          | ex: 20.0000                       |  size of the extracted Box around the crack           |
 +----------------------+-----------------------------------+-------------------------------------------------------+
 | **rayon pipe**       | *[float]*                         |  Radius of the tore around the front                  |
 |                      | ex: 5.00000                       |                                                       |
 +----------------------+-----------------------------------+-------------------------------------------------------+
-| **longueur mailles** | *[float]*                         |  Length of the segments of the tore along crack front |
+| **Longueur mailles** | *[float]*                         |  Length of the segments of the tore along crack front |
 |                      | ex: 5.00000                       |                                                       |
 +----------------------+-----------------------------------+-------------------------------------------------------+
-|  **couronnes**       | *[integer]*                       |  Number of radial segment of the tore                 |
+| **Couronnes**        | *[integer]*                       |  Number of radial segment of the tore                 |
 |                      | ex: 5                             |                                                       |
 +----------------------+-----------------------------------+-------------------------------------------------------+
-| **secteurs**         | *[integer]*                       |  Number of sectors of the tore                        |
+| **Secteurs**         | *[integer]*                       |  Number of sectors of the tore                        |
 |                      | ex: 16                            |                                                       |
 +----------------------+-----------------------------------+-------------------------------------------------------+
-| **arete face         | *[float]*                         |  Mesh size of elements for the Box remeshing          |
+| **Triangles face     | *[float]*                         |  Mesh size of elements for the Box remeshing          |
 | fissure**            | ex: 5.0000                        |                                                       |
 +----------------------+-----------------------------------+-------------------------------------------------------+
-| **repertoire de      | *[string]*                        |  Absolute address of the directory where files are    |
+| **Répertoire de      | *[string]*                        |  Absolute address of the directory where files are    |
 | travail**            | ex: /home/A123456                 |  saved                                                |
 +----------------------+-----------------------------------+-------------------------------------------------------+
-| **nom résultat**     | *[string]*                        |  Name of the resulting mesh                           |
+| **Nom du résultat**  | *[string]*                        |  Name of the resulting mesh                           |
 |                      | ex: maillage_fissure              |                                                       |
 +----------------------+-----------------------------------+-------------------------------------------------------+
-| **mode**             | *[choice]*                        |  Verbose mode for Salome messages                     |
+| **Mode**             | *[choice]*                        |  Verbose mode for Salome messages                     |
 |                      | ex: verbose                       |                                                       |
 +----------------------+-----------------------------------+-------------------------------------------------------+
-.. figure:: images/parametres_GUI.png
+.. image:: images/parametres_GUI.png
   :width: 350
   :align: center
   :alt: Tore parameters
-   Tore parameters
+Tore parameters
 - **Exemple**: fills the panels with a test-case
 - **Reset**: clears all the parameters
 - **Précédent**: loads the last set of parameters used
@ -73,7 +80,7 @@ Inputs are similar to those of :ref:`script mode <script>`. GUI is accessible in
 - **Sauver**: save a .dic file with the active parameters
- **Cancel**: exit GUI
+- **Fermer**: exit GUI
- **Sauver**: Launch calculation
+- **OK**: Launch calculation
--- a/src/Tools/blocFissure/doc/images/BF_GUI_capture.png
+++ b/src/Tools/blocFissure/doc/images/BF_GUI_capture.png
--- a/src/Tools/blocFissure/doc/pipes.rst
+++ b/src/Tools/blocFissure/doc/pipes.rst
@ -6,9 +6,10 @@ For bended pipes
 Cracked bended pipes being a common encountered case, a specific module was developed with a Graphic User Interface (GUI). GUI is accessible in the SMESH extension *Meshed Pipe with a crack*. Compared to the classical use of « Bloc Fissure », this extension also generate the pipe mesh and the crack geometry from geometrical information.
-.. figure:: images/Capture_GUI_pipes_2.png
+.. image:: images/Capture_GUI_pipes_2.png
   :width: 800
   :align: center
   :alt: Print screen of GUI
   Print screen of GUI of the extension *Meshed Pipe with a crack*
--- a/src/Tools/blocFissure/doc/principles.rst
+++ b/src/Tools/blocFissure/doc/principles.rst
@ -10,7 +10,7 @@ In order to illustrate « Bloc Fissure » principle, the simple case of a crack
 1. The first step consists in loading the structure mesh (a) as well as the crack surface geometry (b).
-2. The crack is then meshed (c). A length criterion defines the size of the extracted « Box ». This length is called the length of influence. Every element having a node within this zone is included in the « Box ». A second operation adds elements in the Box in order to have continuous faces (d).
+2. The crack is then meshed (c). A length criterion defines the size of the extracted « Box ». This length is called the length of influence. Every element of the structure mesh having a node within this zone is included in the « Box ». A second operation adds those elements in the Box in order to have continuous faces (d).
 3. A geometrical Box is reconstructed from the extracted Box mesh. The reconstruction is limited to faces which intersect the crack (e). A torus is created following the crack front (f).
@ -63,6 +63,7 @@ The length of influence is important. It defines the size of the extracted Box.
 .. image:: images/longueur_influence.png
   :width: 600
   :align: center
   :alt: The length of influence
 Every element having a node at a smaller distance to the crack than the length of influence is selected. Then a filling algorithm fulfill the Box with elements to get a Box. The Box is not limited to rectangular shapes. See the section on :ref:`test cases <test_cases>` to see examples.
@ -90,6 +91,7 @@ For similar reasons, crack front edges must exceed from the structure mesh. The
 .. image:: images/schema_lignes1.png
   :scale: 80
   :alt: Crack front edges
 5) **Loss of element groups:**
--- a/src/Tools/blocFissure/doc/scripts.rst
+++ b/src/Tools/blocFissure/doc/scripts.rst
@ -15,10 +15,12 @@ The main command of « Bloc Fissure » is the casStandard function. It has a sin
 | **maillageSain**     | *[string]*                        |  Absolute address of the input structure 3D mesh      |
 |                      |                                   |  in MED format                                        |
 +----------------------+-----------------------------------+-------------------------------------------------------+
-| **BrepFaceFissure**  | *[string]*                        |  Absolute address of the input crack geometry         |
+| **CAOFaceFissure**   | *[string]*                        |  Absolute address of the input crack geometry         |
-|                      |                                   |  in BREP format                                       |
+|                      |                                   |  in XAO or BREP format                                |
 +----------------------+-----------------------------------+-------------------------------------------------------+
-| **edgeFissIds**      | *[list of integers]*              |  List of edges number which define the crack front    |
+| **edgeFiss**         | *[list of strings]*               |  List of edges group which define the crack front     |
 +----------------------+-----------------------------------+-------------------------------------------------------+
 |                      | *[list of integers]*              |  List of edges number which define the crack front    |
 +----------------------+-----------------------------------+-------------------------------------------------------+
 | **meshBrep**         | *[list of 2 floats]*              |  List of two floats defining respectively minimum and |
 |                      |                                   |  maximum size of elements of the crack mesh           |
@ -47,6 +49,7 @@ Geometrical parameters of the tore are illustrated :
 .. image:: images/parametres.png
   :width: 350
   :align: center
   :alt: Geometrical parameters of the tore
 Different levels of verbose are available. Use one of this 4 optional functions to set verbose type:
@ -68,8 +71,8 @@ Different levels of verbose are available. Use one of this 4 optional functions
  dicoParams = dict(nomCas            = 'cubeFiss',
                    maillageSain      = "/home/A123456/BF/cube.med",
-                    brepFaceFissure   = "/home/A123456/BF/fiss.brep",
+                    CAOFaceFissure    = "/home/A123456/BF/fiss.xao",
-                    edgeFissIds       = [4],
+                    edgeFiss          = ["Fond"],
                    lgInfluence       = 20.,
                    meshBrep          = (5.,10.),
                    rayonPipe         = 5.,
--- a/src/Tools/blocFissure/doc/testcases.rst
+++ b/src/Tools/blocFissure/doc/testcases.rst
@ -92,6 +92,8 @@ All 13 cases are shown Table 2. Two views show the whole cracked structure and a
 |   :width: 400                             |    :width: 400                               |
 |   :align: center                          |    :align: center                            |
 +-------------------------------------------+----------------------------------------------+
 | tube                                                                                     |
 +-------------------------------------------+----------------------------------------------+
 .. _pipeTC:
@ -146,13 +148,13 @@ There is no need to generate them again.
 2) **To execute only selected test cases**:
-modify the file ``execution_Cas.py`` and change::
+modify the file ``CasTests/execution_Cas.py`` and change::
    runall = False. #old : True
 And change from 0 to 1 of the index of the test you want to launch::
-    torun = [ 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]
+    torun = [ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]
 then launch the test cases::
@ -162,17 +164,17 @@ The index of each test is the position of the test in the following table, from
 2 for cubeCoin... from top to bottom, then from left to right.
 +--------------------+--------------------+--------------------+-----------------+-----------------+
-| cubeAngle          | cylindre_2         | eprouvetteDroite_2 | fissureCoude_3  | fissureCoude_8  |
+| cubeAngle          | cylindre_2         | eprouvetteDroite_2 | fissureCoude_3  | fissureCoude_9  |
 +--------------------+--------------------+--------------------+-----------------+-----------------+
-| cubeAngle2         | disquePerce        | faceGauche         | fissureCoude_4  | fissureCoude_10 |
+| cubeAngle2         | disquePerce        | faceGauche         | fissureCoude_4  | fissure_Coude   |
 +--------------------+--------------------+--------------------+-----------------+-----------------+
-| cubeCoin           | ellipse_1          | faceGauche_2       | fissure_Coude_4 | fissureCoude_10 |
+| cubeCoin           | ellipse_1          | faceGauche_2       | fissureCoude_5  | fissure_Coude_4 |
 +--------------------+--------------------+--------------------+-----------------+-----------------+
-| cubeMilieu         | ellipse_2          | fissure_Coude      | fissureCoude_5  | vis_1           |
+| cubeMilieu         | ellipse_2          | fissureCoude_1     | fissureCoude_6  | vis_1           |
 +--------------------+--------------------+--------------------+-----------------+-----------------+
-| cubeTransverse     | eprouvetteCourbe   | fissureCoude_1     | fissureCoude_6  |                 |
+| cubeTransverse     | eprouvetteCourbe   | fissureCoude_10    | fissureCoude_7  | tube            |
 +--------------------+--------------------+--------------------+-----------------+-----------------+
-| cylindre           | eprouvetteDroite   | fissureCoude_2     | fissureCoude_7  |                 |
+| cylindre           | eprouvetteDroite   | fissureCoude_2     | fissureCoude_8  |                 |
 +--------------------+--------------------+--------------------+-----------------+-----------------+
 3) **To execute only one test case**::
--- a/src/Tools/blocFissure/exemple.py
+++ b/src/Tools/blocFissure/exemple.py
@ -26,10 +26,10 @@ initLog.setDebug()
 from blocFissure.gmu.casStandard import casStandard
-dicoParams = dict(nomCas            = 'angleCube',
+dicoParams = dict(nomCas            = "angleCube",
-                  maillageSain      = os.path.join(gmu.pathBloc, 'materielCasTests/CubeAngle.med'),
+                  maillageSain      = os.path.join(gmu.pathBloc, "materielCasTests", "CubeAngle.med"),
-                  brepFaceFissure   = os.path.join(gmu.pathBloc, "materielCasTests/CubeAngleFiss.brep"),
+                  CAOFaceFissure    = os.path.join(gmu.pathBloc, "materielCasTests", "CubeAngleFiss.brep"),
-                  edgeFissIds       = [4],
+                  edgeFiss          = [4],
                  lgInfluence       = 20,
                  meshBrep          = (5,10),
                  rayonPipe         = 5,
--- a/src/Tools/blocFissure/exemple2.py
+++ b/src/Tools/blocFissure/exemple2.py
@ -93,8 +93,8 @@ from blocFissure.gmu.casStandard import casStandard
 dicoParams = dict(nomCas            = 'angleCube2',
                  maillageSain      = 'boite.med',
-                  brepFaceFissure   = "disk.brep",
+                  CAOFaceFissure    = "disk.brep",
-                  edgeFissIds       = [4],
+                  edgeFiss          = [4],
                  lgInfluence       = 50,
                  meshBrep          = (5,10),
                  rayonPipe         = 15,
--- a/src/Tools/blocFissure/fissureLauncher.py
+++ b/src/Tools/blocFissure/fissureLauncher.py
@ -38,8 +38,8 @@ crack = 'fissureQuartEllipse.brep'
 dicoParams = dict(nomCas            = 'fissTuyau',
                  maillageSain      = '/local00/home/I48174/Bureau/supportMaillage/{0}'.format(mesh),
-                  brepFaceFissure   = '/local00/home/I48174/Bureau/supportMaillage/{0}'.format(crack),
+                  CAOFaceFissure    = '/local00/home/I48174/Bureau/supportMaillage/{0}'.format(crack),
-                  edgeFissIds       = [9],
+                  edgeFiss          = [9],
                  lgInfluence       = 250,
                  meshBrep          = (10, 50),
                  rayonPipe         = 35,
@ -51,4 +51,4 @@ dicoParams = dict(nomCas            = 'fissTuyau',
 execInstance = casStandard(dicoParams)
 if salome.sg.hasDesktop():
-    salome.sg.updateObjBrowser()
+    salome.sg.updateObjBrowser()
--- a/src/Tools/blocFissure/gmu/CMakeLists.txt
+++ b/src/Tools/blocFissure/gmu/CMakeLists.txt
@ -31,6 +31,9 @@ SET(plugin_SCRIPTS
  compoundFromList.py
  construitEdgesRadialesDebouchantes.py
  construitFissureGenerale.py
  construitFissureGenerale_a.py
  construitFissureGenerale_b.py
  construitFissureGenerale_c.py
  construitMaillagePipe.py
  construitPartitionsPeauFissure.py
  creePointsPipePeau.py
@ -72,6 +75,10 @@ SET(plugin_SCRIPTS
  insereFissureElliptique.py
  insereFissureGenerale.py
  insereFissureLongue.py
  insereFissureLongue_a.py
  insereFissureLongue_b.py
  insereFissureLongue_c.py
  insereFissureLongue_d.py
  listOfExtraFunctions.py
  mailleAretesEtJonction.py
  mailleFacesFissure.py
--- a/src/Tools/blocFissure/gmu/calculePointsAxiauxPipe.py
+++ b/src/Tools/blocFissure/gmu/calculePointsAxiauxPipe.py
@ -23,43 +23,54 @@ import math
 from .geomsmesh import geompy
 from .geomsmesh import smesh
-  
+
-def calculePointsAxiauxPipe(edgesFondFiss, edgesIdByOrientation, facesDefaut, 
+def calculePointsAxiauxPipe(edgesFondFiss, edgesIdByOrientation, facesDefaut,
                            centreFondFiss, wireFondFiss, wirePipeFiss,
                            lenSegPipe, rayonPipe, nbsegCercle, nbsegRad):
-  """
+  """preparation maillage du pipe :
-  preparation maillage du pipe :
+
  - détections des points a respecter : jonction des edges/faces constituant
    la face de fissure externe au pipe
  - points sur les edges de fond de fissure et edges pipe/face fissure,
-  - vecteurs tangents au fond de fissure (normal au disque maillé)  
+  - vecteurs tangents au fond de fissure (normal au disque maillé)
  """
-  
+
  logging.info('start')
-  # --- option de maillage selon le rayon de courbure du fond de fissure 
+  # --- option de maillage selon le rayon de courbure du fond de fissure
  lenEdgeFondExt = 0
  for edff in edgesFondFiss:
    lenEdgeFondExt += geompy.BasicProperties(edff)[0]
-  
+
-  disfond = []
+  disfond = list()
  for filling in facesDefaut:
    disfond.append(geompy.MinDistance(centreFondFiss, filling))
  disfond.sort()
  rcourb = disfond[0]
  texte = "rcourb: {}, lenEdgeFondExt: {}, lenSegPipe: {}".format(rcourb, lenEdgeFondExt, lenSegPipe)
  logging.info(texte)
  nbSegQuart = 5 # on veut 5 segments min sur un quart de cercle
  alpha = math.pi/(4*nbSegQuart)
  deflexion = rcourb*(1.0 -math.cos(alpha))
  lgmin = lenSegPipe*0.25
-  lgmax = lenSegPipe*1.5               
+  lgmax = lenSegPipe*1.5
-  logging.debug("rcourb: %s, lenFond:%s, deflexion: %s, lgmin: %s, lgmax: %s", rcourb, lenEdgeFondExt, deflexion, lgmin, lgmax)  
+  texte = "==> deflexion: {}, lgmin: {}, lgmax: {}".format(deflexion, lgmin, lgmax)
  logging.info(texte)
  meshFondExt = smesh.Mesh(wireFondFiss)
  algo1d = meshFondExt.Segment()
  hypo1d = algo1d.Adaptive(lgmin, lgmax, deflexion) # a ajuster selon la profondeur de la fissure
-  isDone = meshFondExt.Compute()
+
-  
+  is_done = meshFondExt.Compute()
-  ptGSdic = {} # dictionnaire [paramètre sur la courbe] --> point géométrique
+  text = "calculePointsAxiauxPipe meshFondExt.Compute"
  if is_done:
    logging.info(text)
  else:
    text = "Erreur au calcul du maillage.\n" + text
    logging.info(text)
    raise Exception(text)
  ptGSdic = dict() # dictionnaire [paramètre sur la courbe] --> point géométrique
  allNodeIds = meshFondExt.GetNodesId()
  for nodeId in allNodeIds:
    xyz = meshFondExt.GetNodeXYZ(nodeId)
@ -69,19 +80,19 @@ def calculePointsAxiauxPipe(edgesFondFiss, edgesIdByOrientation, facesDefaut,
    edgeOrder = edgesIdByOrientation[EdgeInWireIndex]
    ptGSdic[(edgeOrder, EdgeInWireIndex, u)] = pt
    #logging.debug("nodeId %s, u %s", nodeId, str(u))
-  usort = sorted(ptGSdic)  
+  usort = sorted(ptGSdic)
  logging.debug("nombre de points obtenus par deflexion %s",len(usort))
-     
+
-  centres = []
+  centres = list()
-  origins = []
+  origins = list()
-  normals = []      
+  normals = list()
  for edu in usort:
    ied = edu[1]
    u = edu[2]
    vertcx = ptGSdic[edu]
    norm = geompy.MakeTangentOnCurve(edgesFondFiss[ied], u)
    plan = geompy.MakePlane(vertcx, norm, 3*rayonPipe)
-    part = geompy.MakePartition([plan], [wirePipeFiss], [], [], geompy.ShapeType["VERTEX"], 0, [], 0)
+    part = geompy.MakePartition([plan], [wirePipeFiss], list(), list(), geompy.ShapeType["VERTEX"], 0, list(), 0)
    liste = geompy.ExtractShapes(part, geompy.ShapeType["VERTEX"], True)
    if len(liste) == 5: # 4 coins du plan plus intersection recherchée
      for point in liste:
@ -99,21 +110,21 @@ def calculePointsAxiauxPipe(edgesFondFiss, edgesIdByOrientation, facesDefaut,
 #      geompy.addToStudyInFather(wireFondFiss, plan, name)
  # --- maillage du pipe étendu, sans tenir compte de l'intersection avec la face de peau
-      
+
  logging.debug("nbsegCercle %s", nbsegCercle)
-  
+
  # -----------------------------------------------------------------------
  # --- points géométriques
-  
+
-  gptsdisks = [] # vertices géométrie de tous les disques
+  gptsdisks = list() # vertices géométrie de tous les disques
-  raydisks = [[] for i in range(nbsegCercle)]
+  raydisks = [list() for i in range(nbsegCercle)]
-  for i in range(len(centres)): # boucle sur les disques
+  for i, centres_i in enumerate(centres): # boucle sur les disques
-    gptdsk = [] # vertices géométrie d'un disque
+    gptdsk = list() # vertices géométrie d'un disque
-    vertcx = centres[i]
+    vertcx = centres_i
    vertpx = origins[i]
    normal = normals[i]
    vec1 = geompy.MakeVector(vertcx, vertpx)
-    
+
    points = [vertcx] # les points du rayon de référence
    for j in range(nbsegRad):
      pt = geompy.MakeTranslationVectorDistance(vertcx, vec1, (j+1)*float(rayonPipe)/nbsegRad)
@ -122,7 +133,7 @@ def calculePointsAxiauxPipe(edgesFondFiss, edgesIdByOrientation, facesDefaut,
    pt = geompy.MakeTranslationVectorDistance(vertcx, vec1, 1.5*rayonPipe)
    rayon = geompy.MakeLineTwoPnt(vertcx, pt)
    raydisks[0].append(rayon)
-    
+
    for k in range(nbsegCercle-1):
      angle = (k+1)*2*math.pi/nbsegCercle
      pts = [vertcx] # les points d'un rayon obtenu par rotation
@ -132,7 +143,7 @@ def calculePointsAxiauxPipe(edgesFondFiss, edgesIdByOrientation, facesDefaut,
      gptdsk.append(pts)
      ray = geompy.MakeRotation(rayon, normal, angle)
      raydisks[k+1].append(ray)
-      
+
    gptsdisks.append(gptdsk)
-    
+
  return (centres, gptsdisks, raydisks)
--- a/src/Tools/blocFissure/gmu/casStandard.py
+++ b/src/Tools/blocFissure/gmu/casStandard.py
@ -17,6 +17,7 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """Cas standard"""
 import os
 from .geomsmesh import geompy, smesh
@ -28,9 +29,6 @@ import math
 import GEOM
 import SALOMEDS
 import SMESH
 #import StdMeshers
 #import GHS3DPlugin
 #import NETGENPlugin
 import logging
 from .fissureGenerique import fissureGenerique
@ -44,13 +42,14 @@ from .construitFissureGenerale import construitFissureGenerale
 O, OX, OY, OZ = triedreBase()
 class casStandard(fissureGenerique):
-  """
+  """problème de fissure standard, défini par :
-  problème de fissure standard, défini par :
+
  - un maillage sain (hexaèdres),
  - une face géométrique de fissure, qui doit légèrement dépasser hors du volume maillé
  - les numéros d'arêtes (edges géométriques) correspondant au fond de fissure
  - les paramètres de maillage de la fissure
  """
  referencesMaillageFissure = None
  # ---------------------------------------------------------------------------
  def __init__ (self, dicoParams, references = None, numeroCas = 0):
@ -66,7 +65,7 @@ class casStandard(fissureGenerique):
    if 'reptrav' in self.dicoParams:
      self.reptrav = self.dicoParams['reptrav']
    else:
-      self.reptrav = '.'  
+      self.reptrav = os.curdir
    self.numeroCas = numeroCas
    if self.numeroCas != 0:
      self.nomCas = self.nomProbleme +"_%d"%(self.numeroCas)
@ -84,7 +83,7 @@ class casStandard(fissureGenerique):
      self.dicoParams['aretesVives'] = 0
    if self.numeroCas == 0: # valeur par défaut : exécution immédiate, sinon execution différée dans le cas d'une liste de problèmes
      self.executeProbleme(step)
-    
+
  # ---------------------------------------------------------------------------
  def genereMaillageSain(self, geometriesSaines, meshParams):
    logging.info("genereMaillageSain %s", self.nomCas)
@ -117,19 +116,39 @@ class casStandard(fissureGenerique):
                                     lenSegPipe  = self.lenSegPipe)
  # ---------------------------------------------------------------------------
-  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams):
+  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams, \
-    logging.info("genereShapeFissure %s", self.nomCas)
+                                mailleur="MeshGems"):
    lgInfluence = shapeFissureParams['lgInfluence']
-    shellFiss = geompy.ImportBREP( self.dicoParams['brepFaceFissure'])
+#   Contrôle de 'brepFaceFissure' pour les anciennes versions
    if ( 'brepFaceFissure' in self.dicoParams ):
      self.dicoParams['CAOFaceFissure'] = self.dicoParams['brepFaceFissure']
    cao_file = self.dicoParams['CAOFaceFissure']
    suffix = os.path.basename(cao_file).split(".")[-1]
    if ( suffix.upper() == "BREP" ):
      shellFiss = geompy.ImportBREP(cao_file)
    elif ( suffix.upper() == "XAO" ):
      (_, shellFiss, _, l_groups, _) = geompy.ImportXAO(cao_file)
    fondFiss = geompy.CreateGroup(shellFiss, geompy.ShapeType["EDGE"])
-    geompy.UnionIDs(fondFiss, self.dicoParams['edgeFissIds'] )
+#   Contrôle de 'edgeFissIds' pour les anciennes versions
    if ( 'edgeFissIds' in self.dicoParams ):
      self.dicoParams['edgeFiss'] = self.dicoParams['edgeFissIds']
    if isinstance(self.dicoParams['edgeFiss'][0],int):
      geompy.UnionIDs(fondFiss, self.dicoParams['edgeFiss'] )
    else:
      l_groups = geompy.GetGroups(shellFiss)
      l_aux = list()
      for group in l_groups:
        if ( group.GetName() in self.dicoParams['edgeFiss'] ):
          l_aux.append(group)
      geompy.UnionList(fondFiss, l_aux )
    geomPublish(initLog.debug, shellFiss, 'shellFiss' )
    geomPublishInFather(initLog.debug, shellFiss, fondFiss, 'fondFiss' )
-    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, self.dicoParams['meshBrep'][0] ,self.dicoParams['meshBrep'][1])
+    coordsNoeudsFissure = genereMeshCalculZoneDefaut(shellFiss, self.dicoParams['meshBrep'][0] ,self.dicoParams['meshBrep'][1], \
                                                     mailleur)
    centre = None
    return [shellFiss, centre, lgInfluence, coordsNoeudsFissure, fondFiss]
@ -150,12 +169,13 @@ class casStandard(fissureGenerique):
    return elementsDefaut
  # ---------------------------------------------------------------------------
-  def genereMaillageFissure(self, geometriesSaines, maillagesSains,
+  def genereMaillageFissure(self, geometriesSaines, maillagesSains, \
-                            shapesFissure, shapeFissureParams,
+                                  shapesFissure, shapeFissureParams, \
-                            maillageFissureParams, elementsDefaut, step):
+                                  maillageFissureParams, elementsDefaut, step, \
-    maillageFissure = construitFissureGenerale(maillagesSains,
+                                  mailleur="MeshGems"):
-                                              shapesFissure, shapeFissureParams,
+    maillageFissure = construitFissureGenerale(shapesFissure, shapeFissureParams, \
-                                              maillageFissureParams, elementsDefaut, step)
+                                               maillageFissureParams, elementsDefaut, \
                                               step, mailleur)
    return maillageFissure
  # ---------------------------------------------------------------------------
@ -163,12 +183,13 @@ class casStandard(fissureGenerique):
    if self.references is not None:
      self.referencesMaillageFissure = self.references
    else:
-      self.referencesMaillageFissure = dict(Entity_Quad_Pyramid    = 0,
+      self.referencesMaillageFissure = dict( \
-                                            Entity_Quad_Triangle   = 0,
+                                            Entity_Quad_Quadrangle = 0, \
-                                            Entity_Quad_Edge       = 0,
+                                            Entity_Quad_Hexa = 0, \
-                                            Entity_Quad_Penta      = 0,
+                                            Entity_Node = 0, \
-                                            Entity_Quad_Hexa       = 0,
+                                            Entity_Quad_Edge = 0, \
-                                            Entity_Node            = 0,
+                                            Entity_Quad_Triangle = 0, \
-                                            Entity_Quad_Tetra      = 0,
+                                            Entity_Quad_Tetra = 0, \
-                                            Entity_Quad_Quadrangle = 0)
+                                            Entity_Quad_Pyramid = 0, \
-
+                                            Entity_Quad_Penta = 0 \
                                           )
--- a/src/Tools/blocFissure/gmu/compoundFromList.py
+++ b/src/Tools/blocFissure/gmu/compoundFromList.py
@ -25,12 +25,11 @@ from .geomsmesh import geomPublishInFather
 from . import initLog
 def compoundFromList(elements, nom=None):
-  """
+  """compoundFromList"""
-  
+
  """
  logging.debug('start')
-  shapeList = []
+  shapeList = list()
  for a in elements:
    if not isinstance(a, list):
      shapeList.append(a)
--- a/src/Tools/blocFissure/gmu/construitEdgesRadialesDebouchantes.py
+++ b/src/Tools/blocFissure/gmu/construitEdgesRadialesDebouchantes.py
@ -17,21 +17,20 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """Construit les arêtes débouchantes"""
 import logging
 from .geomsmesh import geompy
 from .geomsmesh import geomPublish
-from .geomsmesh import geomPublishInFather
+#from .geomsmesh import geomPublishInFather
 from . import initLog
 import GEOM
 from .sortEdges import sortEdges
 def construitEdgesRadialesDebouchantes(idisklim, idiskout, gptsdisks, raydisks,
                                       facesPipePeau, edgeRadFacePipePeau, nbsegCercle):
-  """
+  """construction des listes d'edges radiales sur chaque extrémité débouchante"""
  construction des listes d'edges radiales sur chaque extrémité débouchante
  """
  logging.info('start')
  # --- listes de nappes radiales en filling à chaque extrémité débouchante
@ -95,7 +94,7 @@ def construitEdgesRadialesDebouchantes(idisklim, idiskout, gptsdisks, raydisks,
          vs = geompy.ExtractShapes(obj, geompy.ShapeType["VERTEX"], False)
          if len(vs) > 2:
            eds = geompy.ExtractShapes(obj, geompy.ShapeType["EDGE"], False)
-            [edsorted, minl,maxl] = sortEdges(eds)
+            [edsorted, _, maxl] = sortEdges(eds)
            edge = edsorted[-1]
          else:
            maxl = geompy.BasicProperties(edge)[0]
@ -118,7 +117,7 @@ def construitEdgesRadialesDebouchantes(idisklim, idiskout, gptsdisks, raydisks,
              logging.debug("  edges issues de la partition: %s", ednouv)
              for ii, ed in enumerate(ednouv):
                geomPublish(initLog.debug, ed, "ednouv%d"%ii)
-              [edsorted, minl,maxl] = sortEdges(ednouv)
+              [edsorted, _, maxl] = sortEdges(ednouv)
              logging.debug("  longueur edge trouvée: %s", maxl)
              edge = edsorted[-1]
            else:
@ -134,7 +133,7 @@ def construitEdgesRadialesDebouchantes(idisklim, idiskout, gptsdisks, raydisks,
              logging.debug("nombre vertex candidats %s", len(vxnouv))
              if len(vxnouv) >= 2:
                eds = [geompy.MakeEdge(vxnouv[j],vxnouv[(j+1)%len(vxnouv)]) for j in range(len(vxnouv))]
-                [edsorted2, minl,maxl] = sortEdges(eds)
+                [edsorted2, _, maxl] = sortEdges(eds)
                edge = edsorted2[-1]
                logging.debug("lg edge: %s", maxl)
              else:
@ -144,4 +143,4 @@ def construitEdgesRadialesDebouchantes(idisklim, idiskout, gptsdisks, raydisks,
          geomPublish(initLog.debug, edge, name)
      listEdges.append(edges)
-  return (listEdges, idFacesDebouchantes)
+  return (listEdges, idFacesDebouchantes)
--- a/src/Tools/blocFissure/gmu/construitFissureGenerale.py
+++ b/src/Tools/blocFissure/gmu/construitFissureGenerale.py
@ -17,49 +17,23 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """procédure complète de construction d'une fissure générale"""
 import logging
 import salome
 from .geomsmesh import geompy
 from .geomsmesh import geomPublish
 from .geomsmesh import geomPublishInFather
 from . import initLog
 import GEOM
 from .geomsmesh import smesh
 from salome.smesh import smeshBuilder
 import SMESH
 import math
 import bisect
 import traceback
 # from extractionOrientee import extractionOrientee
 # from extractionOrienteeMulti import extractionOrienteeMulti
 # from sortFaces import sortFaces
 #from sortEdges import sortEdges
 # from eliminateDoubles import eliminateDoubles
 # from substractSubShapes import substractSubShapes
 # from produitMixte import produitMixte
 # from findWireEndVertices import findWireEndVertices
 #from findWireIntermediateVertices import findWireIntermediateVertices
 from .orderEdgesFromWire import orderEdgesFromWire
 # from getSubshapeIds import getSubshapeIds
 from .putName import putName
 # from distance2 import distance2
 from .enleveDefaut import enleveDefaut
 from .shapeSurFissure import shapeSurFissure
 from .regroupeSainEtDefaut import RegroupeSainEtDefaut
 from .triedreBase import triedreBase
 # from checkDecoupePartition import checkDecoupePartition
 # from whichSide import whichSide
 # from whichSideMulti import whichSideMulti
 #from whichSideVertex import whichSideVertex
 #from projettePointSurCourbe import projettePointSurCourbe
 # from prolongeWire import prolongeWire
 from .restreintFaceFissure import restreintFaceFissure
 from .partitionneFissureParPipe import partitionneFissureParPipe
 from .construitPartitionsPeauFissure import construitPartitionsPeauFissure
 from .compoundFromList import compoundFromList
 from .identifieElementsGeometriquesPeau import identifieElementsGeometriquesPeau
 from .identifieFacesEdgesFissureExterne import identifieFacesEdgesFissureExterne
 from .calculePointsAxiauxPipe import calculePointsAxiauxPipe
 from .elimineExtremitesPipe import elimineExtremitesPipe
@ -70,21 +44,21 @@ from .construitMaillagePipe import construitMaillagePipe
 from .mailleAretesEtJonction import mailleAretesEtJonction
 from .mailleFacesFissure import mailleFacesFissure
 from .mailleFacesPeau import mailleFacesPeau
-from .fissError import fissError
+
 from .construitFissureGenerale_a import construitFissureGenerale_a
 from .construitFissureGenerale_b import construitFissureGenerale_b
 from .construitFissureGenerale_c import construitFissureGenerale_c
 # -----------------------------------------------------------------------------
 # --- procédure complète fissure générale
-def construitFissureGenerale(maillagesSains,
+def construitFissureGenerale(shapesFissure, shapeFissureParams, \
-                             shapesFissure, shapeFissureParams,
+                             maillageFissureParams, elementsDefaut, \
-                             maillageFissureParams, elementsDefaut, step=-1):
+                             step=-1, mailleur="MeshGems"):
-  """
+  """procédure complète fissure générale"""
  TODO: a completer
  """
  logging.info('start')
-  
+  logging.info("Usage du mailleur %s", mailleur)
  shapeDefaut       = shapesFissure[0] # faces de fissure, débordant
  fondFiss          = shapesFissure[4] # groupe d'edges de fond de fissure
  rayonPipe = shapeFissureParams['rayonPipe']
  if 'lenSegPipe' in shapeFissureParams:
@ -92,10 +66,6 @@ def construitFissureGenerale(maillagesSains,
  else:
    lenSegPipe = rayonPipe
  nomRep            = maillageFissureParams['nomRep']
  nomFicSain        = maillageFissureParams['nomFicSain']
  nomFicFissure     = maillageFissureParams['nomFicFissure']
  nbsegRad          = maillageFissureParams['nbsegRad']      # nombre de couches selon un rayon du pipe
  nbsegCercle       = maillageFissureParams['nbsegCercle']   # nombre de secteur dans un cercle du pipe
  areteFaceFissure  = maillageFissureParams['areteFaceFissure']
@ -103,26 +73,8 @@ def construitFissureGenerale(maillagesSains,
  if 'aretesVives' in maillageFissureParams:
    lgAretesVives   = maillageFissureParams['aretesVives']
-  pointIn_x = 0.0
+# Point interne
-  pointIn_y = 0.0
+  pointInterne = construitFissureGenerale_a (geompy, shapeFissureParams)
  pointIn_z = 0.0
  isPointInterne = False
  if 'pointIn_x' in shapeFissureParams:
    pointIn_x = shapeFissureParams['pointIn_x']
    isPointInterne = True
  if 'pointIn_y' in shapeFissureParams:
    pointIn_y = shapeFissureParams['pointIn_y']
    isPointInterne = True
  if 'pointIn_z' in shapeFissureParams:
    pointIn_z = shapeFissureParams['pointIn_z']
    isPointInterne = True
  if isPointInterne:
    pointInterne = geompy.MakeVertex(pointIn_x, pointIn_y, pointIn_z)
  else:
    pointInterne = None
  #fichierMaillageSain = nomRep + '/' + nomFicSain + '.med'
  fichierMaillageFissure = nomRep + '/' + nomFicFissure + '.med'
  # fillings des faces en peau
  facesDefaut              = elementsDefaut[0]
@ -143,24 +95,23 @@ def construitFissureGenerale(maillagesSains,
  centreFondFiss           = elementsDefaut[15]
  #tgtCentre                = elementsDefaut[16]
  if lgAretesVives == 0:
-     lgAretesVives = dmoyen
+    lgAretesVives = dmoyen
  O, OX, OY, OZ = triedreBase()
  # --- restriction de la face de fissure au domaine solide :
  #     partition face fissure étendue par fillings, on garde la face interne
-  
+
  facesPortFissure = restreintFaceFissure(shapeDefaut, facesDefaut, pointInterne)
- 
+
  # --- pipe de fond de fissure, prolongé, partition face fissure par pipe
  #     identification des edges communes pipe et face fissure
-  
+
-  (fissPipe, edgesPipeFiss, edgesFondFiss, wirePipeFiss, wireFondFiss) = partitionneFissureParPipe(shapesFissure, elementsDefaut, rayonPipe)
+  (fissPipe, edgesPipeFiss, edgesFondFiss, wirePipeFiss, wireFondFiss) = \
                          partitionneFissureParPipe(shapesFissure, elementsDefaut, rayonPipe)
  edgesFondFiss, edgesIdByOrientation = orderEdgesFromWire(wireFondFiss)
  for i,edge in enumerate(edgesFondFiss):
    geomPublishInFather(initLog.debug, wireFondFiss, edge, "edgeFondFiss%d"%i)
-  
+
  # --- peau et face de fissure
  #
  # --- partition peau défaut - face de fissure prolongée - wire de fond de fissure prolongée
@ -169,190 +120,101 @@ def construitFissureGenerale(maillagesSains,
  #     liste de partitions face externe - fissure : partitionPeauFissFond (None quand pas d'intersection)
  partitionsPeauFissFond = construitPartitionsPeauFissure(facesDefaut, fissPipe)
-    
+
  # --- arêtes vives détectées (dans quadranglesToShapeNoCorner
  #                             et quadranglesToShapeWithCorner)
  aretesVivesC = compoundFromList(bordsPartages, "areteVive")
  aretesVivesCoupees = []  # ensembles des arêtes vives identifiées sur les faces de peau dans l'itération sur partitionsPeauFissFond
  # --- inventaire des faces de peau coupées par la fissure
  #     pour chaque face de peau : 0, 1 ou 2 faces débouchante du fond de fissure
  #                                0, 1 ou plus edges de la face de fissure externe au pipe
  nbFacesFilling = len(partitionsPeauFissFond)
  ptEdgeFond = [ []  for i in range(nbFacesFilling)] # pour chaque face [points edge fond de fissure aux débouchés du pipe]
  fsPipePeau = [ []  for i in range(nbFacesFilling)] # pour chaque face [faces du pipe débouchantes]
  edRadFPiPo = [ []  for i in range(nbFacesFilling)] # pour chaque face [edge radiale des faces du pipe débouchantes ]
  fsFissuExt = [ []  for i in range(nbFacesFilling)] # pour chaque face [faces de fissure externes au pipe]
  edFisExtPe = [ []  for i in range(nbFacesFilling)] # pour chaque face [edge en peau des faces de fissure externes (pas subshape facePeau)]
  edFisExtPi = [ []  for i in range(nbFacesFilling)] # pour chaque face [edge commun au pipe des faces de fissure externes]
  facesPeaux = [None for i in range(nbFacesFilling)] # pour chaque face : la face de peau finale a mailler (percée des faces débouchantes)
  edCircPeau = [ []  for i in range(nbFacesFilling)] # pour chaque face de peau : [subshape edge circulaire aux débouchés du pipe]
  ptCircPeau = [ []  for i in range(nbFacesFilling)] # pour chaque face de peau : [subshape point sur edge circulaire aux débouchés du pipe]
  gpedgeBord = [None for i in range(nbFacesFilling)] # pour chaque face de peau : groupe subshape des edges aux bords liés à la partie saine
  gpedgeVifs = [None for i in range(nbFacesFilling)] # pour chaque face de peau : groupes subshape des edges aux arêtes vives entre fillings
  edFissPeau = [ []  for i in range(nbFacesFilling)] # pour chaque face de peau : [subshape edge en peau des faces de fissure externes]
  ptFisExtPi = [ []  for i in range(nbFacesFilling)] # pour chaque face de peau : [point commun edFissPeau edCircPeau]
  for ifil, partitionPeauFissFond in enumerate(partitionsPeauFissFond):
    if partitionPeauFissFond is not None:
      dataPPFF,aretesVivesCoupees = identifieElementsGeometriquesPeau(ifil, partitionPeauFissFond, edgesPipeFiss,
                                                                      edgesFondFiss, wireFondFiss, aretesVivesC,
                                                                      facesDefaut, centreFondFiss, rayonPipe,
                                                                      aretesVivesCoupees)      
      ptEdgeFond[ifil] = dataPPFF['endsEdgeFond']
      fsPipePeau[ifil] = dataPPFF['facesPipePeau']
      edRadFPiPo[ifil] = dataPPFF['edgeRadFacePipePeau']
      fsFissuExt[ifil] = dataPPFF['facesFissExt']
      edFisExtPe[ifil] = dataPPFF['edgesFissExtPeau']
      edFisExtPi[ifil] = dataPPFF['edgesFissExtPipe']
      facesPeaux[ifil] = dataPPFF['facePeau']
      edCircPeau[ifil] = dataPPFF['edgesCircPeau']
      ptCircPeau[ifil] = dataPPFF['verticesCircPeau']
      gpedgeBord[ifil] = dataPPFF['groupEdgesBordPeau']
      gpedgeVifs[ifil] = dataPPFF['bordsVifs']
      edFissPeau[ifil] = dataPPFF['edgesFissurePeau']
      ptFisExtPi[ifil] = dataPPFF['verticesPipePeau']
-  facesPipePeau = []
+  aretesVivesC = compoundFromList(bordsPartages, "areteVive")
-  edgeRadFacePipePeau = []
+  aretesVivesCoupees = list()  # ensemble des arêtes vives identifiées sur les faces de peau dans l'itération sur partitionsPeauFissFond
-  for ifil in range(nbFacesFilling):
+
-    facesPipePeau += fsPipePeau[ifil]
+  # --- inventaire des faces de peau coupées par la fissure
-    edgeRadFacePipePeau += edRadFPiPo[ifil]
+
-  
+  ptEdgeFond, fsFissuExt, edFisExtPe, edFisExtPi, \
-  for i, avc in enumerate(aretesVivesCoupees):
+    facesPeaux, edCircPeau, ptCircPeau, gpedgeBord, gpedgeVifs, edFissPeau, ptFisExtPi, \
-    name = "areteViveCoupee%d"%i
+    edgeRadFacePipePeau, facesPipePeau = \
-    geomPublish(initLog.debug, avc, name)
+    construitFissureGenerale_b( partitionsPeauFissFond, \
-  
+                                edgesPipeFiss, edgesFondFiss, wireFondFiss, aretesVivesC, \
                                facesDefaut, centreFondFiss, rayonPipe, aretesVivesCoupees )
  # --- identification des faces et edges de fissure externe pour maillage
-  
+
-  (faceFissureExterne, edgesPipeFissureExterneC,
+  (faceFissureExterne, edgesPipeFissureExterneC, wirePipeFissureExterne, edgesPeauFissureExterneC) = \
-    wirePipeFissureExterne, edgesPeauFissureExterneC) = identifieFacesEdgesFissureExterne(fsFissuExt, edFisExtPe,
+      identifieFacesEdgesFissureExterne(fsFissuExt, edFisExtPe, edFisExtPi, edgesPipeFiss)
                                                                                          edFisExtPi, edgesPipeFiss)
  # --- preparation maillage du pipe :
  #     - détections des points a respecter : jonction des edges/faces constituant la face de fissure externe au pipe
  #     - points sur les edges de fond de fissure et edges pipe/face fissure,
  #     - vecteurs tangents au fond de fissure (normal au disque maillé)
-  
+
-  (centres, gptsdisks, raydisks) = calculePointsAxiauxPipe(edgesFondFiss, edgesIdByOrientation, facesDefaut, 
+  (centres, gptsdisks, raydisks) = calculePointsAxiauxPipe(edgesFondFiss, edgesIdByOrientation, facesDefaut, \
-                                                           centreFondFiss, wireFondFiss, wirePipeFiss,
+                                                           centreFondFiss, wireFondFiss, wirePipeFiss, \
                                                           lenSegPipe, rayonPipe, nbsegCercle, nbsegRad)
-   
+
  # --- recherche des points en trop (externes au volume à remailler)
-  #     - on associe chaque extrémité du pipe à une face filling 
+  #     - on associe chaque extrémité du pipe à une face filling
  #     - on part des disques aux extrémités du pipe
  #     - pour chaque disque, on prend les vertices de géométrie,
  #       on marque leur position relative à la face.
  #     - on s'arrete quand tous les noeuds sont dedans
-  
+
  (idFillingFromBout, idisklim, idiskout) = elimineExtremitesPipe(ptEdgeFond, facesDefaut, centres, gptsdisks, nbsegCercle)
  # --- construction des listes d'edges radiales sur chaque extrémité débouchante
-  
+
-  (listEdges, idFacesDebouchantes) = construitEdgesRadialesDebouchantes(idisklim, idiskout, gptsdisks, raydisks,
+  (listEdges, idFacesDebouchantes) = construitEdgesRadialesDebouchantes(idisklim, idiskout, gptsdisks, raydisks, \
                                                                        facesPipePeau, edgeRadFacePipePeau, nbsegCercle)
-    
+
  # --- création des points du maillage du pipe sur la face de peau
-  
+
-  (gptsdisks, idisklim) = creePointsPipePeau(listEdges, idFacesDebouchantes, idFillingFromBout,
+  (gptsdisks, idisklim) = creePointsPipePeau(listEdges, idFacesDebouchantes, idFillingFromBout, \
                                             ptEdgeFond, ptFisExtPi, edCircPeau, gptsdisks, idisklim, nbsegRad)
-  
+
  # --- ajustement precis des points sur edgesPipeFissureExterneC
-  
+
  gptsdisks = ajustePointsEdgePipeFissure(edgesPipeFissureExterneC, wirePipeFissureExterne, gptsdisks, idisklim)
-    
+
   # --- maillage effectif du pipe
  (meshPipe, meshPipeGroups, edgesCircPipeGroup) = construitMaillagePipe(gptsdisks, idisklim, nbsegCercle, nbsegRad)
-  
+
  # --- edges de bord, faces défaut à respecter
-  
+
  (internalBoundary, bordsLibres, grpAretesVives) = mailleAretesEtJonction(internalBoundary, aretesVivesCoupees, lgAretesVives)
  # --- maillage faces de fissure
-  
+
-  (meshFaceFiss, grpFaceFissureExterne, 
+  (meshFaceFiss, _, grpEdgesPeauFissureExterne, _) = \
-   grpEdgesPeauFissureExterne, grpEdgesPipeFissureExterne) = mailleFacesFissure(faceFissureExterne, edgesPipeFissureExterneC, edgesPeauFissureExterneC,
+      mailleFacesFissure(faceFissureExterne, \
-                                                                                meshPipeGroups, areteFaceFissure, rayonPipe, nbsegRad)
+                         edgesPipeFissureExterneC, edgesPeauFissureExterneC, \
                         meshPipeGroups, areteFaceFissure, rayonPipe, nbsegRad, \
                         mailleur)
  # --- maillage faces de peau
-  
+
-  meshesFacesPeau = mailleFacesPeau(partitionsPeauFissFond, idFillingFromBout, facesDefaut,
+  meshesFacesPeau = mailleFacesPeau(partitionsPeauFissFond, idFillingFromBout, facesDefaut, \
-                                    facesPeaux, edCircPeau, ptCircPeau, gpedgeBord, gpedgeVifs, edFissPeau, 
+                                    facesPeaux, edCircPeau, ptCircPeau, gpedgeBord, gpedgeVifs, edFissPeau, \
-                                    bordsLibres, grpEdgesPeauFissureExterne, grpAretesVives,
+                                    bordsLibres, grpEdgesPeauFissureExterne, grpAretesVives, \
-                                    edgesCircPipeGroup, dmoyen, rayonPipe, nbsegRad)
+                                    edgesCircPipeGroup, dmoyen, rayonPipe, nbsegRad, \
                                    mailleur)
  # --- regroupement des maillages du défaut
-  listMeshes = [internalBoundary.GetMesh(),
+  listMeshes = [internalBoundary.GetMesh(), meshPipe.GetMesh(), meshFaceFiss.GetMesh()]
-                meshPipe.GetMesh(),
+  for mfpeau in meshesFacesPeau:
-                meshFaceFiss.GetMesh()]
+    listMeshes.append(mfpeau.GetMesh())
  for mp in meshesFacesPeau:
    listMeshes.append(mp.GetMesh())
  meshBoiteDefaut = smesh.Concatenate(listMeshes, 1, 1, 1e-05,False)
  # pour aider l'algo hexa-tetra à ne pas mettre de pyramides à l'exterieur des volumes repliés sur eux-mêmes
  # on désigne les faces de peau en quadrangles par le groupe "skinFaces"
  group_faceFissOutPipe = None
  group_faceFissInPipe = None
  groups = meshBoiteDefaut.GetGroups()
  for grp in groups:
    if grp.GetType() == SMESH.FACE:
      if grp.GetName() == "fisOutPi":
        group_faceFissOutPipe = grp
      elif grp.GetName() == "fisInPi":
        group_faceFissInPipe = grp
-  # le maillage NETGEN ne passe pas toujours ==> utiliser GHS3D
+# Maillage complet
-  distene=True
+  maillageComplet = construitFissureGenerale_c( maillageSain, meshBoiteDefaut, \
-  if distene:
+                                                zoneDefaut, zoneDefaut_skin, zoneDefaut_internalFaces, zoneDefaut_internalEdges, \
-    algo3d = meshBoiteDefaut.Tetrahedron(algo=smeshBuilder.GHS3D)
+                                                facesPortFissure, \
-  else:
+                                                maillageFissureParams, \
-    algo3d = meshBoiteDefaut.Tetrahedron(algo=smeshBuilder.NETGEN)
+                                                mailleur )
    hypo3d = algo3d.MaxElementVolume(1000.0)
  putName(algo3d.GetSubMesh(), "boiteDefaut")
  putName(algo3d, "algo3d_boiteDefaut")
  isDone = meshBoiteDefaut.Compute()
  putName(meshBoiteDefaut, "boiteDefaut")
  logging.info("meshBoiteDefaut fini")
  faceFissure = meshBoiteDefaut.GetMesh().UnionListOfGroups( [ group_faceFissOutPipe, group_faceFissInPipe ], 'FACE1' )
  maillageSain = enleveDefaut(maillageSain, zoneDefaut, zoneDefaut_skin,
                              zoneDefaut_internalFaces, zoneDefaut_internalEdges)
  putName(maillageSain, nomFicSain+"_coupe")
  extrusionFaceFissure, normfiss = shapeSurFissure(facesPortFissure)
  maillageComplet = RegroupeSainEtDefaut(maillageSain, meshBoiteDefaut,
                                         None, None, 'COMPLET', normfiss)
  logging.info("conversion quadratique")
  maillageComplet.ConvertToQuadratic( 1 )
  logging.info("groupes")
  groups = maillageComplet.GetGroups()
  grps = [ grp for grp in groups if grp.GetName() == 'FONDFISS']
  fond = maillageComplet.GetMesh().CreateDimGroup( grps, SMESH.NODE, 'FONDFISS' )
  logging.info("réorientation face de fissure FACE1")
  grps = [ grp for grp in groups if grp.GetName() == 'FACE1']
  nb = maillageComplet.Reorient2D( grps[0], normfiss, grps[0].GetID(1))
  logging.info("réorientation face de fissure FACE2")
  plansim = geompy.MakePlane(O, normfiss, 10000)
  fissnorm = geompy.MakeMirrorByPlane(normfiss, plansim)
  grps = [ grp for grp in groups if grp.GetName() == 'FACE2']
  nb = maillageComplet.Reorient2D( grps[0], fissnorm, grps[0].GetID(1))
  fond = maillageComplet.GetMesh().CreateDimGroup( grps, SMESH.NODE, 'FACE2' )
  logging.info("export maillage fini")
  maillageComplet.ExportMED(fichierMaillageFissure)
  putName(maillageComplet, nomFicFissure)
  logging.info("fichier maillage fissure %s", fichierMaillageFissure)
  if salome.sg.hasDesktop():
    salome.sg.updateObjBrowser()
  logging.info("maillage fissure fini")
-  
+
  return maillageComplet
--- a/src/Tools/blocFissure/gmu/construitFissureGenerale_a.py
+++ b/src/Tools/blocFissure/gmu/construitFissureGenerale_a.py
@ -0,0 +1,49 @@
 # -*- coding: utf-8 -*-
 # Copyright (C) 2014-2020  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
 #
 """construction de la fissure générale - le point interne"""
 import logging
 # -----------------------------------------------------------------------------
 def construitFissureGenerale_a (geompy, shapeFissureParams):
  """construction de la fissure générale - le point interne"""
  logging.info('start')
  point_in_x = 0.0
  point_in_y = 0.0
  point_in_z = 0.0
  is_point_interne = False
  if 'pointIn_x' in shapeFissureParams:
    point_in_x = shapeFissureParams['pointIn_x']
    is_point_interne = True
  if 'pointIn_y' in shapeFissureParams:
    point_in_y = shapeFissureParams['pointIn_y']
    is_point_interne = True
  if 'pointIn_z' in shapeFissureParams:
    point_in_z = shapeFissureParams['pointIn_z']
    is_point_interne = True
  if is_point_interne:
    pointInterne = geompy.MakeVertex(point_in_x, point_in_y, point_in_z)
  else:
    pointInterne = None
  return pointInterne
--- a/src/Tools/blocFissure/gmu/construitFissureGenerale_b.py
+++ b/src/Tools/blocFissure/gmu/construitFissureGenerale_b.py
@ -0,0 +1,89 @@
 # -*- coding: utf-8 -*-
 # Copyright (C) 2014-2020  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
 #
 """construction de la fissure générale - inventaire des faces de peau coupées par la fissure"""
 import logging
 from .geomsmesh import geomPublish
 from . import initLog
 from .identifieElementsGeometriquesPeau import identifieElementsGeometriquesPeau
 # -----------------------------------------------------------------------------
 def construitFissureGenerale_b( partitionsPeauFissFond, \
                                edgesPipeFiss, edgesFondFiss, wireFondFiss, aretesVivesC, \
                                facesDefaut, centreFondFiss, rayonPipe, aretesVivesCoupees ):
  """construction de la fissure générale - inventaire des faces de peau coupées par la fissure
 pour chaque face de peau : 0, 1 ou 2 faces débouchante du fond de fissure
                           0, 1 ou plus edges de la face de fissure externe au pipe
  """
  logging.info('start')
  nbFacesFilling = len(partitionsPeauFissFond)
  texte = "nbFacesFilling : {} ".format(nbFacesFilling)
  logging.info(texte)
  ptEdgeFond = [ list()  for i in range(nbFacesFilling)] # pour chaque face [points edge fond de fissure aux débouchés du pipe]
  fsPipePeau = [ list()  for i in range(nbFacesFilling)] # pour chaque face [faces du pipe débouchantes]
  edRadFPiPo = [ list()  for i in range(nbFacesFilling)] # pour chaque face [edge radiale des faces du pipe débouchantes ]
  fsFissuExt = [ list()  for i in range(nbFacesFilling)] # pour chaque face [faces de fissure externes au pipe]
  edFisExtPe = [ list()  for i in range(nbFacesFilling)] # pour chaque face [edge en peau des faces de fissure externes (pas subshape facePeau)]
  edFisExtPi = [ list()  for i in range(nbFacesFilling)] # pour chaque face [edge commun au pipe des faces de fissure externes]
  facesPeaux = [None for i in range(nbFacesFilling)] # pour chaque face : la face de peau finale a mailler (percée des faces débouchantes)
  edCircPeau = [ list()  for i in range(nbFacesFilling)] # pour chaque face de peau : [subshape edge circulaire aux débouchés du pipe]
  ptCircPeau = [ list()  for i in range(nbFacesFilling)] # pour chaque face de peau : [subshape point sur edge circulaire aux débouchés du pipe]
  gpedgeBord = [None for i in range(nbFacesFilling)] # pour chaque face de peau : groupe subshape des edges aux bords liés à la partie saine
  gpedgeVifs = [None for i in range(nbFacesFilling)] # pour chaque face de peau : groupes subshape des edges aux arêtes vives entre fillings
  edFissPeau = [ list()  for i in range(nbFacesFilling)] # pour chaque face de peau : [subshape edge en peau des faces de fissure externes]
  ptFisExtPi = [ list()  for i in range(nbFacesFilling)] # pour chaque face de peau : [point commun edFissPeau edCircPeau]
  for ifil, partitionPeauFissFond in enumerate(partitionsPeauFissFond):
    if partitionPeauFissFond is not None:
      dataPPFF,aretesVivesCoupees = identifieElementsGeometriquesPeau(ifil, partitionPeauFissFond, \
                                                                      edgesPipeFiss, edgesFondFiss, wireFondFiss, aretesVivesC, \
                                                                      facesDefaut, centreFondFiss, rayonPipe, aretesVivesCoupees)
      ptEdgeFond[ifil] = dataPPFF['endsEdgeFond']
      fsPipePeau[ifil] = dataPPFF['facesPipePeau']
      edRadFPiPo[ifil] = dataPPFF['edgeRadFacePipePeau']
      fsFissuExt[ifil] = dataPPFF['facesFissExt']
      edFisExtPe[ifil] = dataPPFF['edgesFissExtPeau']
      edFisExtPi[ifil] = dataPPFF['edgesFissExtPipe']
      facesPeaux[ifil] = dataPPFF['facePeau']
      edCircPeau[ifil] = dataPPFF['edgesCircPeau']
      ptCircPeau[ifil] = dataPPFF['verticesCircPeau']
      gpedgeBord[ifil] = dataPPFF['groupEdgesBordPeau']
      gpedgeVifs[ifil] = dataPPFF['bordsVifs']
      edFissPeau[ifil] = dataPPFF['edgesFissurePeau']
      ptFisExtPi[ifil] = dataPPFF['verticesPipePeau']
  facesPipePeau = list()
  edgeRadFacePipePeau = list()
  for ifil in range(nbFacesFilling):
    facesPipePeau += fsPipePeau[ifil]
    edgeRadFacePipePeau += edRadFPiPo[ifil]
  for i, avc in enumerate(aretesVivesCoupees):
    name = "areteViveCoupee%d"%i
    geomPublish(initLog.debug, avc, name)
  return ptEdgeFond, fsFissuExt, edFisExtPe, edFisExtPi, facesPeaux, edCircPeau, \
         ptCircPeau, gpedgeBord, gpedgeVifs, edFissPeau, ptFisExtPi, \
         edgeRadFacePipePeau, facesPipePeau
--- a/src/Tools/blocFissure/gmu/construitFissureGenerale_c.py
+++ b/src/Tools/blocFissure/gmu/construitFissureGenerale_c.py
@ -0,0 +1,124 @@
 # -*- coding: utf-8 -*-
 # Copyright (C) 2014-2020  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
 #
 """construction de la fissure générale - maillage"""
 import os
 import logging
 import salome
 from .geomsmesh import geompy
 import GEOM
 from .geomsmesh import smesh
 from salome.smesh import smeshBuilder
 import SMESH
 from .putName import putName
 from .enleveDefaut import enleveDefaut
 from .shapeSurFissure import shapeSurFissure
 from .regroupeSainEtDefaut import RegroupeSainEtDefaut
 from .triedreBase import triedreBase
 # -----------------------------------------------------------------------------
 def construitFissureGenerale_c(maillageSain, meshBoiteDefaut, \
                              zoneDefaut, zoneDefaut_skin, zoneDefaut_internalFaces, zoneDefaut_internalEdges, \
                              facesPortFissure, \
                              maillageFissureParams, \
                              mailleur="MeshGems"):
  """construction de la fissure générale - maillage"""
  logging.info('start')
  logging.info("Usage du mailleur %s", mailleur)
  nomRep            = maillageFissureParams['nomRep']
  nomFicSain        = maillageFissureParams['nomFicSain']
  nomFicFissure     = maillageFissureParams['nomFicFissure']
  O, _, _, _ = triedreBase()
  # pour aider l'algo hexa-tetra à ne pas mettre de pyramides à l'exterieur des volumes repliés sur eux-mêmes
  # on désigne les faces de peau en quadrangles par le groupe "skinFaces"
  group_faceFissOutPipe = None
  group_faceFissInPipe = None
  groups = meshBoiteDefaut.GetGroups()
  for grp in groups:
    if grp.GetType() == SMESH.FACE:
      if grp.GetName() == "fisOutPi":
        group_faceFissOutPipe = grp
      elif grp.GetName() == "fisInPi":
        group_faceFissInPipe = grp
  # le maillage NETGEN ne passe pas toujours ==> on force l'usage de MG_Tetra
  mailleur = "MeshGems"
  logging.info("Maillage avec %s", mailleur)
  if ( mailleur == "MeshGems"):
    algo3d = meshBoiteDefaut.Tetrahedron(algo=smeshBuilder.MG_Tetra)
  else:
    algo3d = meshBoiteDefaut.Tetrahedron(algo=smeshBuilder.NETGEN)
    hypo3d = algo3d.MaxElementVolume(1000.0)
    hypo3d.SetVerboseLevel( 0 )
    hypo3d.SetStandardOutputLog( 0 )
    hypo3d.SetRemoveLogOnSuccess( 1 )
  putName(algo3d.GetSubMesh(), "boiteDefaut")
  putName(algo3d, "algo3d_boiteDefaut")
  putName(meshBoiteDefaut, "boiteDefaut")
  is_done = meshBoiteDefaut.Compute()
  text = "meshBoiteDefaut.Compute"
  if is_done:
    logging.info(text+" OK")
  else:
    text = "Erreur au calcul du maillage.\n" + text
    logging.info(text)
    raise Exception(text)
  _ = meshBoiteDefaut.GetMesh().UnionListOfGroups( [ group_faceFissOutPipe, group_faceFissInPipe ], \
                                                             'FACE1' )
  maillageSain = enleveDefaut(maillageSain, zoneDefaut, zoneDefaut_skin,
                              zoneDefaut_internalFaces, zoneDefaut_internalEdges)
  putName(maillageSain, nomFicSain+"_coupe")
  _, normfiss = shapeSurFissure(facesPortFissure)
  maillageComplet = RegroupeSainEtDefaut(maillageSain, meshBoiteDefaut, \
                                         None, None, 'COMPLET', normfiss)
  logging.info("conversion quadratique")
  maillageComplet.ConvertToQuadratic( 1 )
  logging.info("groupes")
  groups = maillageComplet.GetGroups()
  grps = [ grp for grp in groups if grp.GetName() == 'FONDFISS']
  _ = maillageComplet.GetMesh().CreateDimGroup( grps, SMESH.NODE, 'FONDFISS' )
  logging.info("réorientation face de fissure FACE1")
  grps = [ grp for grp in groups if grp.GetName() == 'FACE1']
  _ = maillageComplet.Reorient2D( grps[0], normfiss, grps[0].GetID(1))
  logging.info("réorientation face de fissure FACE2")
  plansim = geompy.MakePlane(O, normfiss, 10000)
  fissnorm = geompy.MakeMirrorByPlane(normfiss, plansim)
  grps = [ grp for grp in groups if grp.GetName() == 'FACE2']
  _ = maillageComplet.Reorient2D( grps[0], fissnorm, grps[0].GetID(1))
  _ = maillageComplet.GetMesh().CreateDimGroup( grps, SMESH.NODE, 'FACE2' )
  logging.info("export maillage fini")
  fichierMaillageFissure = os.path.join (nomRep , '{}.med'.format(nomFicFissure))
  maillageComplet.ExportMED(fichierMaillageFissure)
  putName(maillageComplet, nomFicFissure)
  logging.info("fichier maillage fissure %s", fichierMaillageFissure)
  return maillageComplet
--- a/src/Tools/blocFissure/gmu/construitMaillagePipe.py
+++ b/src/Tools/blocFissure/gmu/construitMaillagePipe.py
@ -17,6 +17,7 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """Maillage du pipe"""
 import logging
@ -25,9 +26,7 @@ from .geomsmesh import smesh
 import SMESH
 def construitMaillagePipe(gptsdisks, idisklim, nbsegCercle, nbsegRad):
-  """
+  """maillage effectif du pipe"""
  maillage effectif du pipe
  """
  logging.info('start')
  meshPipe = smesh.Mesh(None, "meshPipe")
  fondFissGroup = meshPipe.CreateEmptyGroup(SMESH.EDGE, "FONDFISS")
@ -38,26 +37,26 @@ def construitMaillagePipe(gptsdisks, idisklim, nbsegCercle, nbsegRad):
  edgeCircPipe1Group = meshPipe.CreateEmptyGroup(SMESH.EDGE, "edgeCircPipe1")
  faceCircPipe0Group = meshPipe.CreateEmptyGroup(SMESH.FACE, "faceCircPipe0")
  faceCircPipe1Group = meshPipe.CreateEmptyGroup(SMESH.FACE, "faceCircPipe1")
  mptsdisks  = [] # vertices maillage de tous les disques
  mEdges     = [] # identifiants edges maillage fond de fissure
  mEdgeFaces = [] # identifiants edges maillage edge face de fissure externe
  mFaces     = [] # identifiants faces maillage fissure
  mVols      = [] # identifiants volumes maillage pipe
-  mptdsk = None
+  mptsdisks  = list() # vertices maillage de tous les disques
  mEdges     = list() # identifiants edges maillage fond de fissure
  mEdgeFaces = list() # identifiants edges maillage edge face de fissure externe
  mFaces     = list() # identifiants faces maillage fissure
  mVols      = list() # identifiants volumes maillage pipe
  mptdsk = list()
  for idisk in range(idisklim[0], idisklim[1]+1): # boucle sur les disques internes
-    
+
    # -----------------------------------------------------------------------
    # --- points
-    
+
    gptdsk = gptsdisks[idisk]
    if idisk > idisklim[0]:
      oldmpts = mptdsk
-    mptdsk = [] # vertices maillage d'un disque
+    mptdsk = list() # vertices maillage d'un disque
    for k in range(nbsegCercle):
      points = gptdsk[k]
-      mptids = []
+      mptids = list()
      for j, pt in enumerate(points):
        if j == 0 and k > 0:
          id = mptdsk[0][0]
@ -67,37 +66,39 @@ def construitMaillagePipe(gptsdisks, idisklim, nbsegCercle, nbsegRad):
        mptids.append(id)
      mptdsk.append(mptids)
    mptsdisks.append(mptdsk)
-    
+
    # -----------------------------------------------------------------------
    # --- groupes edges cercles debouchants
-    
+
    if idisk == idisklim[0]:
-      pts = []
+      pts = list()
      for k in range(nbsegCercle):
        pts.append(mptdsk[k][-1])
-      edges = []
+      edges = list()
-      for k in range(len(pts)):
+      nb_pts = len(pts)
-        k1 = (k+1)%len(pts)
+      for k in range(nb_pts):
        k1 = (k+1)%nb_pts
        idEdge = meshPipe.AddEdge([pts[k], pts[k1]])
        edges.append(idEdge)
      edgeCircPipe0Group.Add(edges)
-       
+
    if idisk == idisklim[1]:
-      pts = []
+      pts = list()
      for k in range(nbsegCercle):
        pts.append(mptdsk[k][-1])
-      edges = []
+      edges = list()
-      for k in range(len(pts)):
+      nb_pts = len(pts)
-        k1 = (k+1)%len(pts)
+      for k in range(nb_pts):
        k1 = (k+1)%nb_pts
        idEdge = meshPipe.AddEdge([pts[k], pts[k1]])
        edges.append(idEdge)
      edgeCircPipe1Group.Add(edges)
-    
+
    # -----------------------------------------------------------------------
    # --- groupes faces  debouchantes
-    
+
    if idisk == idisklim[0]:
-      faces = []
+      faces = list()
      for j in range(nbsegRad):
        for k in range(nbsegCercle):
          k1 = k+1
@ -111,7 +112,7 @@ def construitMaillagePipe(gptsdisks, idisklim, nbsegCercle, nbsegRad):
      faceCircPipe0Group.Add(faces)
    if idisk == idisklim[1]:
-      faces = []
+      faces = list()
      for j in range(nbsegRad):
        for k in range(nbsegCercle):
          k1 = k+1
@ -123,10 +124,10 @@ def construitMaillagePipe(gptsdisks, idisklim, nbsegCercle, nbsegRad):
            idf = meshPipe.AddFace([mptdsk[k][j], mptdsk[k][j+1], mptdsk[k1][j+1], mptdsk[k1][j]]) # quadrangle
          faces.append(idf)
      faceCircPipe1Group.Add(faces)
-          
+
    # -----------------------------------------------------------------------
    # --- mailles volumiques, groupes noeuds et edges de fond de fissure, groupe de face de fissure
-    
+
    if idisk == idisklim[0]:
      mEdges.append(0)
      mEdgeFaces.append(0)
@ -141,28 +142,28 @@ def construitMaillagePipe(gptsdisks, idisklim, nbsegCercle, nbsegRad):
      ide2 = meshPipe.AddEdge([oldmpts[0][-1], mptdsk[0][-1]])
      mEdgeFaces.append(ide2)
      edgeFaceFissGroup.Add([ide2])
-      idFaces = []
+      idFaces = list()
-      idVols = []
+      idVols = list()
-      
+
      for j in range(nbsegRad):
        idf = meshPipe.AddFace([oldmpts[0][j], mptdsk[0][j], mptdsk[0][j+1], oldmpts[0][j+1]])
        faceFissGroup.Add([idf])
        idFaces.append(idf)
-        
+
-        idVolCercle = []
+        idVolCercle = list()
        for k in range(nbsegCercle):
          k1 = k+1
          if k ==  nbsegCercle-1:
            k1 = 0
          if j == 0:
-            idv = meshPipe.AddVolume([mptdsk[k][j], mptdsk[k][j+1], mptdsk[k1][j+1],
+            idv = meshPipe.AddVolume([mptdsk[k][j], mptdsk[k][j+1], mptdsk[k1][j+1], \
                                      oldmpts[k][j], oldmpts[k][j+1], oldmpts[k1][j+1]])
          else:
-            idv = meshPipe.AddVolume([mptdsk[k][j], mptdsk[k][j+1], mptdsk[k1][j+1], mptdsk[k1][j],
+            idv = meshPipe.AddVolume([mptdsk[k][j], mptdsk[k][j+1], mptdsk[k1][j+1], mptdsk[k1][j], \
                                      oldmpts[k][j], oldmpts[k][j+1], oldmpts[k1][j+1], oldmpts[k1][j]])
          idVolCercle.append(idv)
-        idVols.append(idVolCercle)  
+        idVols.append(idVolCercle)
-        
+
      mFaces.append(idFaces)
      mVols.append(idVols)
@ -172,16 +173,20 @@ def construitMaillagePipe(gptsdisks, idisklim, nbsegCercle, nbsegRad):
  nb, new_mesh, new_group = meshPipe.MakeBoundaryElements(SMESH.BND_2DFROM3D, "pipeBoundaries")
  edgesCircPipeGroup = [edgeCircPipe0Group, edgeCircPipe1Group]
-  meshPipeGroups = dict(fondFissGroup = fondFissGroup,
+  meshPipeGroups = dict(fondFissGroup = fondFissGroup, \
-                        nodesFondFissGroup = nodesFondFissGroup,
+                        nodesFondFissGroup = nodesFondFissGroup, \
-                        faceFissGroup = faceFissGroup,
+                        faceFissGroup = faceFissGroup, \
-                        edgeFaceFissGroup = edgeFaceFissGroup,
+                        edgeFaceFissGroup = edgeFaceFissGroup, \
-                        edgeCircPipe0Group = edgeCircPipe0Group,
+                        edgeCircPipe0Group = edgeCircPipe0Group, \
-                        edgeCircPipe1Group = edgeCircPipe1Group,
+                        edgeCircPipe1Group = edgeCircPipe1Group, \
-                        faceCircPipe0Group = faceCircPipe0Group,
+                        faceCircPipe0Group = faceCircPipe0Group, \
-                        faceCircPipe1Group = faceCircPipe1Group,
+                        faceCircPipe1Group = faceCircPipe1Group, \
-                        pipeFissGroup = pipeFissGroup,
+                        pipeFissGroup = pipeFissGroup, \
-                        edgesCircPipeGroup = edgesCircPipeGroup
+                        edgesCircPipeGroup = edgesCircPipeGroup \
                        )
-  
+
-  return (meshPipe, meshPipeGroups, edgesCircPipeGroup)
+  #if meshPipe:
    #text = "Arrêt rapide.\n"
    #logging.info(text)
    #raise Exception(text)
  return (meshPipe, meshPipeGroups, edgesCircPipeGroup)
--- a/src/Tools/blocFissure/gmu/construitPartitionsPeauFissure.py
+++ b/src/Tools/blocFissure/gmu/construitPartitionsPeauFissure.py
@ -34,31 +34,31 @@ from .checkDecoupePartition import checkDecoupePartition
  #     liste de partitions face externe - fissure : partitionPeauFissFond (None quand pas d'intersection)
 def construitPartitionsPeauFissure(facesDefaut, fissPipe):
-  """
+  """partition peau défaut - face de fissure prolongée - wire de fond de fissure prolongée.
-  partition peau défaut - face de fissure prolongée - wire de fond de fissure prolongée.
+
  Il peut y avoir plusieurs faces externes, dont certaines sont découpées par la fissure.
  @param facesDefaut liste de faces externes
  @param fissPipe    partition face de fissure etendue par pipe prolongé
  @return partitionsPeauFissFond : liste de partitions face externe - fissure (None quand pas d'intersection)
  """
-  
+
  logging.info('start')
-  partitionsPeauFissFond = []
+  partitionsPeauFissFond = list()
  ipart = 0
-  for filling in facesDefaut: 
+  for filling in facesDefaut:
-    part = geompy.MakePartition([fissPipe, filling], [], [], [], geompy.ShapeType["FACE"], 0, [], 0)
+    part = geompy.MakePartition([fissPipe, filling], list(), list(), list(), geompy.ShapeType["FACE"], 0, list(), 0)
    isPart = checkDecoupePartition([fissPipe, filling], part)
    if isPart: # on recrée la partition avec toutes les faces filling en outil pour avoir une face de fissure correcte
      otherFD = [fd for fd in facesDefaut if fd != filling]
-      if len(otherFD) > 0:
+      if otherFD:
-        fissPipePart = geompy.MakePartition([fissPipe], otherFD, [], [], geompy.ShapeType["FACE"], 0, [], 0)
+        fissPipePart = geompy.MakePartition([fissPipe], otherFD, list(), list(), geompy.ShapeType["FACE"], 0, list(), 0)
      else:
        fissPipePart = fissPipe
-      part = geompy.MakePartition([fissPipePart, filling], [], [], [], geompy.ShapeType["FACE"], 0, [], 0)
+      part = geompy.MakePartition([fissPipePart, filling], list(), list(), list(), geompy.ShapeType["FACE"], 0, list(), 0)
      partitionsPeauFissFond.append(part)
      geomPublish(initLog.debug, part, 'partitionPeauFissFond%d'%ipart )
    else:
      partitionsPeauFissFond.append(None)
-    ipart = ipart +1
+    ipart += 1
-  return partitionsPeauFissFond
+  return partitionsPeauFissFond
--- a/src/Tools/blocFissure/gmu/creeZoneDefautDansObjetSain.py
+++ b/src/Tools/blocFissure/gmu/creeZoneDefautDansObjetSain.py
@ -18,6 +18,8 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 import os
 import logging
 from .geomsmesh import smesh
 import SMESH
@ -62,7 +64,7 @@ def creeZoneDefautDansObjetSain(geometriesSaines, maillagesSains, shapesFissure,
  nomRep              = maillageFissureParams['nomRep']
  nomFicSain          = maillageFissureParams['nomFicSain']
-  fichierMaillageSain    = nomRep + '/' + nomFicSain + '.med'
+  fichierMaillageSain = os.path.join (nomRep , '{}.med'.format(nomFicSain))
  # --- centre de fond de fissure et tangente
@ -80,10 +82,10 @@ def creeZoneDefautDansObjetSain(geometriesSaines, maillagesSains, shapesFissure,
  [maillageSain, internalBoundary, zoneDefaut, zoneDefaut_skin, zoneDefaut_internalFaces, zoneDefaut_internalEdges] = \
    peauInterne(fichierMaillageSain, shapeDefaut, nomZones)
-  facesDefaut = []
+  facesDefaut = list()
-  centresDefaut = []
+  centresDefaut = list()
-  normalsDefaut =[]
+  normalsDefaut = list()
-  extrusionsDefaut = []
+  extrusionsDefaut = list()
  isPlane = False
  if isHexa and not isPlane:
    meshQuad =  smesh.CopyMesh( zoneDefaut_skin, 'meshQuad', 0, 0)
@ -100,7 +102,7 @@ def creeZoneDefautDansObjetSain(geometriesSaines, maillagesSains, shapesFissure,
  else:
    [facesDefaut, centreDefaut, normalDefaut, extrusionDefaut] = \
      creeZoneDefautGeom( geometrieSaine, shapeDefaut, origShapes, verticesShapes, dmoyen, lgExtrusion)
-    bordsPartages = []
+    bordsPartages = list()
    for face in facesDefaut:
      bordsPartages.append([None,None]) # TODO : traitement des arêtes vives ?
    fillconts = facesDefaut
--- a/src/Tools/blocFissure/gmu/creeZoneDefautMaillage.py
+++ b/src/Tools/blocFissure/gmu/creeZoneDefautMaillage.py
@ -30,62 +30,64 @@ from .fissError import fissError
 def creeZoneDefautMaillage(maillagesSains, shapeDefaut, tailleDefaut,
                           nomZones, coordsNoeudsFissure):
-  """
+  """Identification de la zone à remailler, opérations sur le maillage de l'objet sain.
-  Identification de la zone à remailler, opérations sur le maillage
+
  de l'objet sain.
  La zone à remailler est définie à partir d'un objet géométrique
  ou à partir d'un jeu de points et d'une distance d'influence.
  @param maillagesSains : (le maillage de l'objet initial, booleen isHexa)
  @param shapeDefaut : objet géométrique représentant la fissure
-  (selon les cas, un point central, ou une shape plus complexe,
+  (selon les cas, un point central, ou une shape plus complexe, dont on ne garde que les vertices)
  dont on ne garde que les vertices)
  @param tailleDefaut : distance d'influence définissant la zone à remailler:
  tous les éléments du maillage initial qui pénètrent dans cette zone
  sont détectés
  @param nomZones : préfixe des noms de groupes créés dans le maillage initial. S'il y a un groupe de noeuds
  @coordsNoeudsFissure : jeu de points donné par une liste (x1,y1,z1, x2,y2,z2, ...)
-  @return (origShapes, verticesShapes, dmoyen) liste id subShapes,
+  @return (origShapes, verticesShapes, dmoyen) liste id subShapes, listes noeuds de bord, longueur arête moyenne bord
  listes noeuds de bord, longueur arête moyenne bord
  """
  logging.info("start")
-  
+  logging.debug("distance d'influence (tailleDefaut) = %f" % tailleDefaut)
  #print ("  shapeDefaut : {}".format(shapeDefaut))
  #print ("  nomZones : {}".format(nomZones))
  maillageSain = maillagesSains[0]
  isHexa = maillagesSains[1]
  lists = maillageSain.CreateHoleSkin(tailleDefaut, shapeDefaut, nomZones, coordsNoeudsFissure)
-  logging.debug("lists=%s", lists)
+  #print("lists = {}".format(lists))
  trace = True
-  origShapes = []
+  origShapes = list()
-  verticesShapes = []
+  verticesShapes = list()
-  cumul = 0 # somme des distances carrées entre point ordonnés (taille des arêtes)
+  cumul = 0. # somme des distances carrées entre point ordonnés (taille des arêtes)
-  nb = 0    # nombre d'arêtes évaluées
+  nb = 0     # nombre d'arêtes évaluées
  for aList in lists:
    aShape = aList[0]
    origShapes.append(aShape)
-    logging.debug("  shapeId %s", aShape)
+    vertices = list()
-    vertices = []
+    xyz0 = maillageSain.GetNodeXYZ(aList[1])
-    xyz0 = None
+    ###vertices.append(geompy.MakeVertex(xyz0[0], xyz0[1], xyz0[2])) pourquoi pas le premier ?
-    for inode in range(1, len(aList)):
+    #print ("  node 0 {} : {}".format(aList[1],xyz0))
-      xyz = maillageSain.GetNodeXYZ(aList[inode])
+    #print (xyz0)
-      if xyz0 is not None:
+    for node in aList[2:]:
-        cumul += distance2(xyz, xyz0)
+      xyz = maillageSain.GetNodeXYZ(node)
-        nb += 1
+      #print ("  node {} : {}".format(node,xyz))
      cumul += distance2(xyz, xyz0)
      xyz0 = xyz
-      #logging.debug("    node %s %s", aList[inode], xyz)
+      #logging.debug("    node %s %s", node, xyz)
      vertices.append(geompy.MakeVertex(xyz[0], xyz[1], xyz[2]))
-      pass
+    nb += len(aList) - 2
    verticesShapes.append(vertices)
-    pass
+  #print ("nb = {}".format(nb))
  #print ("cumul = {}".format(cumul))
-  if (nb == 0) :
+  if (nb == 0):
    texte = "La zone à remailler n'est pas détectée correctement.<br>"
    texte += "Cause possible :<ul>"
    texte += "<li>La distance d'influence est trop petite. "
    texte += "L'ordre de grandeur minimal correspond à la taille des mailles du maillage sain dans la zone à remailler.</li></ul>"
    raise fissError(traceback.extract_stack(),texte)
-  dmoyen = math.sqrt(cumul/nb) # ~ taille de l'arête moyenne du maillage global
+  dmoyen = math.sqrt(cumul/float(nb)) # ~ taille de l'arête moyenne du maillage global
  return origShapes, verticesShapes, dmoyen
--- a/src/Tools/blocFissure/gmu/fissureCoude.py
+++ b/src/Tools/blocFissure/gmu/fissureCoude.py
@ -18,6 +18,8 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 import os
 from .geomsmesh import geompy, smesh
 from .geomsmesh import geomPublish
 from .geomsmesh import geomPublishInFather
@ -27,9 +29,6 @@ import math
 import GEOM
 import SALOMEDS
 import SMESH
 #import StdMeshers
 #import GHS3DPlugin
 #import NETGENPlugin
 import logging
 from .fissureGenerique import fissureGenerique
@ -48,7 +47,7 @@ class fissureCoude(fissureGenerique):
  maillage hexa
  """
-  nomProbleme = "tuyau_Coude"
+  nomProbleme = "fissureCoude"
  # ---------------------------------------------------------------------------
  def setParamGeometrieSaine(self):
@ -70,6 +69,7 @@ class fissureCoude(fissureGenerique):
  # ---------------------------------------------------------------------------
  def genereGeometrieSaine(self, geomParams):
    """a écrire"""
    logging.info("genereGeometrieSaine %s", self.nomCas)
    angleCoude = geomParams['angleCoude']
@ -293,16 +293,23 @@ class fissureCoude(fissureGenerique):
    smesh.SetName(algo1d_long_p2, "algo1d_long_p2")
    smesh.SetName(hypo1d_long_p2, "hypo1d_long_p2")
-    isDone = maillageSain.Compute()
+    is_done = maillageSain.Compute()
    text = "maillageSain.Compute"
    if is_done:
      logging.info(text+" OK")
    else:
      text = "Erreur au calcul du maillage.\n" + text
      logging.info(text)
      raise Exception(text)
-    mp1 = maillageSain.GroupOnGeom(P1,'P1',SMESH.NODE)
+    _ = maillageSain.GroupOnGeom(P1,'P1',SMESH.NODE)
-    mp2 = maillageSain.GroupOnGeom(P2,'P2',SMESH.NODE)
+    _ = maillageSain.GroupOnGeom(P2,'P2',SMESH.NODE)
-    ext = maillageSain.GroupOnGeom(EXTUBE,'EXTUBE',SMESH.FACE)
+    _ = maillageSain.GroupOnGeom(EXTUBE,'EXTUBE',SMESH.FACE)
-    btu = maillageSain.GroupOnGeom(BORDTU,'BORDTU',SMESH.EDGE)
+    _ = maillageSain.GroupOnGeom(BORDTU,'BORDTU',SMESH.EDGE)
-    clg = maillageSain.GroupOnGeom(CLGV,'CLGV',SMESH.FACE)
+    _ = maillageSain.GroupOnGeom(CLGV,'CLGV',SMESH.FACE)
-    pei = maillageSain.GroupOnGeom(PEAUINT,'PEAUINT',SMESH.FACE)
+    _ = maillageSain.GroupOnGeom(PEAUINT,'PEAUINT',SMESH.FACE)
-    pex = maillageSain.GroupOnGeom(PEAUEXT,'PEAUEXT',SMESH.FACE)
+    _ = maillageSain.GroupOnGeom(PEAUEXT,'PEAUEXT',SMESH.FACE)
-    cou = maillageSain.GroupOnGeom(COUDE,'COUDSAIN',SMESH.VOLUME)
+    _ = maillageSain.GroupOnGeom(COUDE,'COUDSAIN',SMESH.VOLUME)
    return [maillageSain, True] # True : maillage hexa
@ -335,7 +342,8 @@ class fissureCoude(fissureGenerique):
                                   externe     = True)
  # ---------------------------------------------------------------------------
-  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams):
+  def genereShapeFissure( self, geometriesSaines, geomParams, shapeFissureParams, \
                                mailleur="MeshGems"):
    logging.info("genereShapeFissure %s", self.nomCas)
    logging.info("shapeFissureParams %s", shapeFissureParams)
@ -643,7 +651,8 @@ class fissureCoude(fissureGenerique):
      centre = geompy.MakeRotation(pc, axe, alfrd)
      geomPublish(initLog.debug,  centre, 'centrefissPlace' )
-    coordsNoeudsFissure = genereMeshCalculZoneDefaut(facefiss, profondeur/2. ,profondeur)
+    coordsNoeudsFissure = genereMeshCalculZoneDefaut(facefiss, profondeur/2. ,profondeur, \
                                                     mailleur)
    return [facefiss, centre, lgInfluence, coordsNoeudsFissure, wiretube, edgetube]
@ -656,7 +665,7 @@ class fissureCoude(fissureGenerique):
    nbSegCercle = nombre de secteurs
    areteFaceFissure = taille cible de l'arête des triangles en face de fissure.
    """
-    self.maillageFissureParams = dict(nomRep        = '.',
+    self.maillageFissureParams = dict(nomRep        = os.curdir,
                                      nomFicSain    = self.nomCas,
                                      nomFicFissure = 'fissure_' + self.nomCas,
                                      nbsegRad      = 5,
@ -669,12 +678,13 @@ class fissureCoude(fissureGenerique):
    return elementsDefaut
  # ---------------------------------------------------------------------------
-  def genereMaillageFissure(self, geometriesSaines, maillagesSains,
+  def genereMaillageFissure(self, geometriesSaines, maillagesSains, \
-                            shapesFissure, shapeFissureParams,
+                            shapesFissure, shapeFissureParams, \
-                            maillageFissureParams, elementsDefaut, step):
+                            maillageFissureParams, elementsDefaut, step, \
-    maillageFissure = construitFissureGenerale(maillagesSains,
+                            mailleur="MeshGems"):
-                                               shapesFissure, shapeFissureParams,
+    maillageFissure = construitFissureGenerale(shapesFissure, shapeFissureParams, \
-                                               maillageFissureParams, elementsDefaut, step)
+                                               maillageFissureParams, elementsDefaut, \
                                               step, mailleur)
    return maillageFissure
  # ---------------------------------------------------------------------------
@ -687,4 +697,3 @@ class fissureCoude(fissureGenerique):
                                          Entity_Quad_Hexa       = 8994,
                                          Entity_Quad_Penta      = 972,
                                          Entity_Quad_Pyramid    = 1038)
--- a/src/Tools/blocFissure/gmu/fissureGenerique.py
+++ b/src/Tools/blocFissure/gmu/fissureGenerique.py
@ -17,70 +17,96 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """fissureGenerique"""
 import logging
 from blocFissure import gmu
-from blocFissure.gmu.initEtude import initEtude
+from .initEtude import initEtude
-from blocFissure.gmu.getStatsMaillageFissure import getStatsMaillageFissure
+from .getStatsMaillageFissure import getStatsMaillageFissure
 class fissureGenerique(object):
  """classe générique problème fissure:
 class fissureGenerique():
  """
  classe générique problème fissure:
  génération géométrie et maillage sain
  définition et positionnement d'une fissure
  génération d'un bloc défaut inséré dans le maillage sain
  """
-  nomProbleme = "generique"
+  nomProbleme = "fissureGenerique"
  geomParams = dict()
  meshParams = dict()
  shapeFissureParams = dict()
  maillageFissureParams = dict()
  def __init__(self, numeroCas):
    initEtude()
    self.numeroCas = numeroCas
    self.nomCas = self.nomProbleme +"_%d"%(self.numeroCas)
    self.fissureLongue = False
    self.referencesMaillageFissure = None
  def setParamGeometrieSaine(self):
-    self.geomParams = {}
+    """setParamGeometrieSaine"""
    self.geomParams = dict()
  def genereGeometrieSaine(self, geomParams):
    """genereGeometrieSaine"""
    geometriesSaines = [None]
    return geometriesSaines
  def setParamMaillageSain(self):
-    self.meshParams = {}
+    """setParamMaillageSain"""
    self.meshParams = dict()
  def genereMaillageSain(self, geometriesSaines, meshParams):
    """genereMaillageSain"""
    maillagesSains = [None]
    return maillagesSains
  def setParamShapeFissure(self):
-    self.shapeFissureParams = {}
+    """setParamShapeFissure"""
    self.shapeFissureParams = dict()
-  def genereShapeFissure(self, geometriesSaines, geomParams, shapeFissureParams):
+  def genereShapeFissure(self, geometriesSaines, geomParams, shapeFissureParams, mailleur="MeshGems"):
    """genereShapeFissure"""
    shapesFissure = [None]
    return shapesFissure
  def setParamMaillageFissure(self):
-    self.maillageFissureParams = {}
+    """setParamMaillageFissure"""
    self.maillageFissureParams = dict()
-  def genereZoneDefaut(self, geometriesSaines, maillagesSains, shapesFissure, maillageFissureParams):
+  def genereZoneDefaut(self, geometriesSaines, maillagesSains, shapesFissure, shapeFissureParams, maillageFissureParams):
    """genereZoneDefaut"""
    elementsDefaut = [None]
    return elementsDefaut
-  def genereMaillageFissure(self, geometriesSaines, maillagesSains, shapesFissure,
+  def genereMaillageFissure(self, geometriesSaines, maillagesSains, \
-                            maillageFissureParams, elementsDefaut, step):
+                                  shapesFissure, shapeFissureParams, \
                                  maillageFissureParams, elementsDefaut, step, \
                                  mailleur="MeshGems"):
    """genereMaillageFissure"""
    maillageFissure = None
    return maillageFissure
  def setReferencesMaillageFissure(self):
-    referencesMaillageFissure = {}
+    """setReferencesMaillageFissure"""
    referencesMaillageFissure = dict()
    return referencesMaillageFissure
  def mailleur2d3d(self):
    """Le mailleur : NETGEN ou MeshGems"""
    #mailleur = "MeshGems"
    mailleur = "NETGEN"
    return mailleur
 # ---------------------------------------------------------------------------
  def executeProbleme(self, step=-1):
-    logging.info(" --- executeProbleme %s", self.nomCas)
+    """executeProbleme"""
    texte = " --- fissureGenerique.executeProbleme pour '{}', step = {}".format(self.nomCas,step)
    logging.info(texte)
    if step == 0:
      return
@ -95,24 +121,21 @@ class fissureGenerique():
      return
    self.setParamShapeFissure()
-    shapesFissure = self.genereShapeFissure(geometriesSaines, self.geomParams, self.shapeFissureParams)
+    mailleur = self.mailleur2d3d()
    shapesFissure = self.genereShapeFissure(geometriesSaines, self.geomParams, self.shapeFissureParams, mailleur)
    if step == 3:
      return
    self.setParamMaillageFissure()
-    elementsDefaut = self.genereZoneDefaut(geometriesSaines, maillagesSains, shapesFissure, self.shapeFissureParams, self.maillageFissureParams)
+    elementsDefaut = self.genereZoneDefaut(geometriesSaines, maillagesSains, \
                                           shapesFissure, self.shapeFissureParams, self.maillageFissureParams)
    if step == 4:
      return
-    maillageFissure = self.genereMaillageFissure(geometriesSaines, maillagesSains,
+    maillageFissure = self.genereMaillageFissure(geometriesSaines, maillagesSains, \
-                                                 shapesFissure, self.shapeFissureParams,
+                                                 shapesFissure, self.shapeFissureParams, self.maillageFissureParams, \
-                                                 self.maillageFissureParams, elementsDefaut, step)
+                                                 elementsDefaut, step, mailleur)
    self.setReferencesMaillageFissure()
-    mesures = getStatsMaillageFissure(maillageFissure, self.referencesMaillageFissure, self.maillageFissureParams)
+    ok_maillage = getStatsMaillageFissure(maillageFissure, self.referencesMaillageFissure, self.maillageFissureParams)
-
+    return ok_maillage
--- a/src/Tools/blocFissure/gmu/genereElemsFissureElliptique.py
+++ b/src/Tools/blocFissure/gmu/genereElemsFissureElliptique.py
@ -32,12 +32,13 @@ from .genereMeshCalculZoneDefaut import genereMeshCalculZoneDefaut
 # -----------------------------------------------------------------------------
 # --- création élements géométriques fissure elliptique
-def genereElemsFissureElliptique(shapeFissureParams):
+def genereElemsFissureElliptique(shapeFissureParams, \
                                 mailleur="MeshGems"):
  """
  TODO: a completer
  """
  logging.info('start')
-  
+
  centreDefaut  = shapeFissureParams['centreDefaut']
  vecteurDefaut = shapeFissureParams['vecteurDefaut']
  demiGrandAxe  = shapeFissureParams['demiGrandAxe']
@ -49,7 +50,7 @@ def genereElemsFissureElliptique(shapeFissureParams):
  allonge = demiGrandAxe/demiPetitAxe
  rayonTore = demiPetitAxe/5.0
-  generatrice, FaceGenFiss, Pipe_1, FaceFissure, Plane_1, Pipe1Part = toreFissure(demiPetitAxe, allonge, rayonTore)
+  generatrice, _, Pipe_1, FaceFissure, Plane_1, Pipe1Part = toreFissure(demiPetitAxe, allonge, rayonTore)
  ellipsoide = ellipsoideDefaut(demiPetitAxe, allonge, rayonTore)
  # --- positionnement sur le bloc defaut de generatrice, tore et plan fissure
@ -70,6 +71,7 @@ def genereElemsFissureElliptique(shapeFissureParams):
  shapeDefaut = facefis1
  xyz_defaut = geompy.PointCoordinates(centreDefaut)
-  coordsNoeudsFissure = genereMeshCalculZoneDefaut(facefis1, demiPetitAxe/10.0, demiPetitAxe/5.0)
+  coordsNoeudsFissure = genereMeshCalculZoneDefaut(facefis1, demiPetitAxe/10.0, demiPetitAxe/5.0, \
                                                   mailleur)
  return shapeDefaut, xyz_defaut, tailleDefaut, coordsNoeudsFissure, pipe0, gener1, pipe1, facefis1, plane1, ellipsoide1
--- a/src/Tools/blocFissure/gmu/genereMeshCalculZoneDefaut.py
+++ b/src/Tools/blocFissure/gmu/genereMeshCalculZoneDefaut.py
@ -25,10 +25,17 @@ from salome.smesh import smeshBuilder
 # -----------------------------------------------------------------------------
 # --- maillage face de fissure pour identification zone de defaut
-def genereMeshCalculZoneDefaut(facefiss, minSize, maxSize):
+def genereMeshCalculZoneDefaut(facefiss, minSize, maxSize, \
-  """
+                               mailleur="MeshGems"):
-  -Permet de générer un maillage sur l'objet géométrique 'facefiss' via
+  """Maillage de l'objet géométrique 'facefiss'
-   l'algorithme NETGEN_1D2D :
+
 . Avec l'algorithme MG_CADSurf :
      -SetMaxSize     = dimension max d'un élément (maxSize)
      -SetSecondOrder = élément quadratique (Y=1, N=0)
      -SetOptimize    = élément régulier (Y=1, N=0)
      -SetFineness    = finesse du maillage
 . Avec l'algorithme NETGEN_1D2D :
      -SetMaxSize     = dimension max d'un élément (maxSize)
      -SetSecondOrder = élément quadratique (Y=1, N=0)
      -SetOptimize    = élément régulier (Y=1, N=0)
@ -37,29 +44,52 @@ def genereMeshCalculZoneDefaut(facefiss, minSize, maxSize):
       [0,           1,      2,        3,    4,         5     ]
      -SetMinSize     = dimension min d'un élément (minSize)
      -SetQuadAllowed = permission quadrangle dans maillage triangle
-  -On récupère les coordonnées de chaque noeud de la fissure qu'on stocke
+
 -On récupère les coordonnées de chaque noeud de la fissure qu'on stocke
   dans une liste sous la forme : [X0, Y0, Z0, ..., Xn, Yn, Zn]"""
-   
+
  logging.info('start')
  meshFissure = smesh.Mesh(facefiss)
-  algo2d = meshFissure.Triangle(algo=smeshBuilder.NETGEN_1D2D)
+  text = "Maillage de '{}' avec {}".format(facefiss.GetName(),mailleur)
-  hypo2d = algo2d.Parameters()
+  logging.info(text)
-  hypo2d.SetMaxSize( maxSize )
+  if ( mailleur == "MeshGems"):
-  hypo2d.SetSecondOrder( 0 )
+    algo2d = meshFissure.Triangle(algo=smeshBuilder.MG_CADSurf)
-  hypo2d.SetOptimize( 1 )
+    hypo2d = algo2d.Parameters()
-  hypo2d.SetFineness( 2 )
+    hypo2d.SetPhySize( maxSize )
-  hypo2d.SetMinSize( minSize )
+    hypo2d.SetMinSize( maxSize/4. )
-  hypo2d.SetQuadAllowed( 0 )
+    hypo2d.SetMaxSize( maxSize*2. )
-  isDone = meshFissure.Compute()
+    hypo2d.SetChordalError( maxSize*0.25 )
    hypo2d.SetVerbosity( 0 )
  else:
    algo2d = meshFissure.Triangle(algo=smeshBuilder.NETGEN_1D2D)
    hypo2d = algo2d.Parameters()
    hypo2d.SetMaxSize( maxSize )
    hypo2d.SetSecondOrder( 0 )
    hypo2d.SetOptimize( 1 )
    hypo2d.SetFineness( 2 )
    hypo2d.SetMinSize( minSize )
    hypo2d.SetQuadAllowed( 0 )
  smesh.SetName(algo2d, "algo2d_zoneFiss")
  smesh.SetName(hypo2d, "hypo1d_zoneFiss")
-  coordsNoeudsFissure = []
+  is_done = meshFissure.Compute()
  text = "meshFissure.Compute"
  if is_done:
    logging.info(text+" OK")
  else:
    text = "Erreur au calcul du maillage.\n" + text
    logging.info(text)
    raise Exception(text)
  coordsNoeudsFissure = list()
  nodeIds = meshFissure.GetNodesId()
-  for id in nodeIds:
+  for indice in nodeIds:
-    coords = meshFissure.GetNodeXYZ(id)
+    coords = meshFissure.GetNodeXYZ(indice)
    coordsNoeudsFissure.append(coords[0])
    coordsNoeudsFissure.append(coords[1])
    coordsNoeudsFissure.append(coords[2])
  logging.info('end')
  return coordsNoeudsFissure
--- a/src/Tools/blocFissure/gmu/getStatsMaillageFissure.py
+++ b/src/Tools/blocFissure/gmu/getStatsMaillageFissure.py
@ -17,60 +17,74 @@
 #
 # 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):
-  """
+  """"Statistiques maillage"""
-  TODO: a completer
+
  """
  logging.debug('start')
  nomRep = '.'
  if 'nomRep' in maillageFissureParams:
    nomRep = maillageFissureParams['nomRep']
-  
+  else:
    nomRep = os.path.curdir
  nomFicFissure     = maillageFissureParams['nomFicFissure']
-  fichierStatMaillageFissure = nomRep + '/' + nomFicFissure + '.res'
+  fichierStatMaillageFissure = os.path.join(nomRep, "{}.res".format(nomFicFissure))
-  fichierNewRef = nomRep + '/' + nomFicFissure + '.new'
+  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
+      d_resu[str(key)] = value
-    logging.debug("dico mesures %s", d)      
+    logging.debug("dico mesures %s", d_resu)
-    f = open(fichierStatMaillageFissure, 'w')
+    text_2 = ""
-    f2 = open(fichierNewRef, 'w')
+    ok_maillage = True
-    OK = True
+    with open(fichierStatMaillageFissure, "w") as fic_stat :
-    for key in ('Entity_Quad_Pyramid', 'Entity_Quad_Hexa', 'Entity_Quad_Quadrangle'):
+      for key in ('Entity_Quad_Quadrangle', 'Entity_Quad_Hexa'):
-      if d[key] != referencesMaillageFissure[key]:
+        if d_resu[key] != referencesMaillageFissure[key]:
-        logging.info("Ecart: %s reference: %s calcul: %s", key, referencesMaillageFissure[key], d[key])
+          text = "Ecart"
-        f.write("Ecart: " + key + " reference: " + str(referencesMaillageFissure[key]) + " calcul: " + str(d[key]) + '\n')
+          ok_maillage = False
-        OK = False
+        else:
-      else:
+          text = "Valeur_OK"
-        logging.info("Valeur_OK: %s reference: %s calcul: %s", key, referencesMaillageFissure[key], d[key])
+        text += ": {} reference: {} calcul: {}".format(key,referencesMaillageFissure[key],d_resu[key])
-        f.write("Valeur_OK: " + key + " reference: " + str(referencesMaillageFissure[key]) + " calcul: " + str(d[key]) + '\n')
+        logging.info(text)
-      f2.write(key + " = " + str(d[key]) + ",\n")
+        fic_stat.write(text+"\n")
-    tolerance = 0.05
+        text_2 += "                                          {} = {}, \\\n".format(key,d_resu[key])
-    for key in ('Entity_Quad_Penta', 'Entity_Quad_Tetra', 'Entity_Quad_Triangle', 'Entity_Quad_Edge', 'Entity_Node'):
+      tolerance = 0.05
-      if (d[key] < (1.0 - tolerance)*referencesMaillageFissure[key]) \
+      for key in ('Entity_Node', 'Entity_Quad_Edge', 'Entity_Quad_Triangle', 'Entity_Quad_Tetra', 'Entity_Quad_Pyramid', 'Entity_Quad_Penta'):
-      or (d[key] > (1.0 + tolerance)*referencesMaillageFissure[key]):
+        if (d_resu[key] < (1.0 - tolerance)*referencesMaillageFissure[key]) \
-        logging.info("Ecart: %s reference: %s calcul: %s", key, referencesMaillageFissure[key], d[key])
+        or (d_resu[key] > (1.0 + tolerance)*referencesMaillageFissure[key]):
-        f.write("Ecart: " + key + " reference: " + str(referencesMaillageFissure[key]) + " calcul: " + str(d[key]) + '\n')
+          text = "Ecart"
-        OK = False
+          ok_maillage = False
-      else:
+        else:
-        logging.info("Valeur_OK: %s reference: %s calcul: %s", key, referencesMaillageFissure[key], d[key])
+          text = "Valeur_OK"
-        f.write("Valeur_OK: " + key + " reference: " + str(referencesMaillageFissure[key]) + " calcul: " + str(d[key]) + '\n')
+        text += ": {} reference: {} calcul: {}".format(key,referencesMaillageFissure[key],d_resu[key])
-      f2.write(key + " = " + str(d[key]) + ",\n")
+        logging.info(text)
-    f.close()
+        fic_stat.write(text+"\n")
-    f2.close()
+        text_2 += "                                          {} = {}, \\\n".format(key,d_resu[key])
-  return OK
+
    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
--- a/src/Tools/blocFissure/gmu/identifieElementsDebouchants.py
+++ b/src/Tools/blocFissure/gmu/identifieElementsDebouchants.py
@ -30,24 +30,22 @@ from .fissError import fissError
 from .produitMixte import produitMixte
 from .whichSide import whichSide
-  
+
-def identifieElementsDebouchants(ifil, facesDefaut, partitionPeauFissFond,
+def identifieElementsDebouchants(ifil, facesDefaut, partitionPeauFissFond, \
-                                edgesFondIn, edgesFondFiss, wireFondFiss,
+                                edgesFondIn, edgesFondFiss, wireFondFiss, \
-                                aretesVivesC, fillingFaceExterne,
+                                aretesVivesC, fillingFaceExterne, \
-                                edgesPipeIn, verticesPipePeau, rayonPipe,
+                                edgesPipeIn, verticesPipePeau, rayonPipe, \
                                facesInside, facesOnside):
-  """
+  """elements débouchants (intersection pipe et peau), indexés selon les edges du fond de fissure (edgesFondIn)"""
-  elements débouchants (intersection pipe et peau), indexés selon les edges du fond de fissure (edgesFondIn)
+
  """
  logging.info('start')
- 
+
-  verticesEdgesFondIn = [] # les points du fond de fissure au débouché du pipe sur la peau (indice de edgesFondIn)
+  verticesEdgesFondIn = list() # les points du fond de fissure au débouché du pipe sur la peau (indice de edgesFondIn)
-  pipexts = []             # les segments de pipe associés au points de fond de fissure débouchants (même indice)
+  pipexts = list()             # les segments de pipe associés au points de fond de fissure débouchants (même indice)
-  cercles = []             # les cercles de generation des pipes débouchant (même indice)
+  cercles = list()             # les cercles de generation des pipes débouchant (même indice)
-  facesFissExt = []        # les faces de la fissure externe associés au points de fond de fissure débouchants (même indice)
+  facesFissExt = list()        # les faces de la fissure externe associés au points de fond de fissure débouchants (même indice)
-  edgesFissExtPeau = []    # edges des faces de fissure externe sur la peau (même indice)
+  edgesFissExtPeau = list()    # edges des faces de fissure externe sur la peau (même indice)
-  edgesFissExtPipe = []    # edges des faces de fissure externe sur le pipe (même indice)
+  edgesFissExtPipe = list()    # edges des faces de fissure externe sur le pipe (même indice)
  #logging.debug("edgesFondIn %s", edgesFondIn)
  for iedf, edge in enumerate(edgesFondIn):
@ -78,8 +76,8 @@ def identifieElementsDebouchants(ifil, facesDefaut, partitionPeauFissFond,
    #   La partition filling / pipe reconstruit échoue.
    #   - Si on partitionne le filling avec un simple pipe obtenu par extrusion droite du cercle,
    #     cela donne un point en trop sur le cercle.
-    #   - Si on prend une vraie surface plane (pas un filling), on peut faire la partition avec 
+    #   - Si on prend une vraie surface plane (pas un filling), on peut faire la partition avec
-    #     les pipes reconstruits              
+    #     les pipes reconstruits
    logging.debug("angle=%s", angle)
    #if abs(angle) > 1.e-7:
    sommetAxe = geompy.MakeTranslationVector(centre, norm)
@ -102,15 +100,15 @@ def identifieElementsDebouchants(ifil, facesDefaut, partitionPeauFissFond,
    locPt1 = geompy.MakeVertexOnCurve(localEdgeInFondFiss, 1.0)
    sidePt0 = whichSide(faceTestPeau, locPt0)
    sidePt1 = whichSide(faceTestPeau, locPt1)
-    logging.debug("position centre cercle: %s, extremité edge u0: %s, u1: %s", sideCentre, sidePt0, sidePt1) 
+    logging.debug("position centre cercle: %s, extremité edge u0: %s, u1: %s", sideCentre, sidePt0, sidePt1)
    normFace = geompy.GetNormal(faceTestPeau, ptPeau)
    inclPipe = abs(geompy.GetAngleRadians(norm, normFace))
    lgp = max(rayonPipe/2., abs(3*rayonPipe*math.tan(inclPipe)))
    logging.debug("angle inclinaison Pipe en sortie: %s degres, lgp: %s", inclPipe*180/math.pi, lgp)
-    
+
    # --- position des points extremite du pipe sur l'edge debouchante
    #     il faut la distance curviligne ofp du point central par rapport à une extrémité de l'edge débouchante
-    locEdgePart = geompy.MakePartition([localEdgeInFondFiss],[centre], [], [], geompy.ShapeType["EDGE"], 0, [], 0)
+    locEdgePart = geompy.MakePartition([localEdgeInFondFiss],[centre], list(), list(), geompy.ShapeType["EDGE"], 0, list(), 0)
    edgesLoc = geompy.ExtractShapes(locEdgePart, geompy.ShapeType["EDGE"], False)
    edgesLocSorted =[(geompy.MinDistance(edge, locPt0), kk, edge) for kk, edge in enumerate(edgesLoc)]
    edgesLocSorted.sort()
@ -127,7 +125,7 @@ def identifieElementsDebouchants(ifil, facesDefaut, partitionPeauFissFond,
    geomPublishInFather(initLog.debug, wireFondFiss, p1, "p1_%d"%iedf)
    geomPublishInFather(initLog.debug, wireFondFiss, p2, "p2_%d"%iedf)
-    edgePart = geompy.MakePartition([localEdgeInFondFiss], [p1,p2], [], [], geompy.ShapeType["EDGE"], 0, [], 0)
+    edgePart = geompy.MakePartition([localEdgeInFondFiss], [p1,p2], list(), list(), geompy.ShapeType["EDGE"], 0, list(), 0)
    edps = geompy.ExtractShapes(edgePart, geompy.ShapeType["EDGE"], True)
    for edp in edps:
      if geompy.MinDistance(centre, edp) < 1.e-3:
@ -138,9 +136,9 @@ def identifieElementsDebouchants(ifil, facesDefaut, partitionPeauFissFond,
    for ifa, face in enumerate(facesInside):
      logging.debug("recherche edges communes entre une face inside et (faces onside, edges pipe et fond débouchante)")
-      edgesPeauFis = []
+      edgesPeauFis = list()
-      edgesPipeFis = []
+      edgesPipeFis = list()
-      edgesPipeFnd = []
+      edgesPipeFnd = list()
      try:
        edgesPeauFis = geompy.GetSharedShapesMulti([geompy.MakeCompound(facesOnside), face], geompy.ShapeType["EDGE"])
        logging.debug("    faces onside %s",edgesPeauFis)
@ -174,4 +172,4 @@ def identifieElementsDebouchants(ifil, facesDefaut, partitionPeauFissFond,
            if dist < 1.e-3:
              break
-  return (verticesEdgesFondIn, pipexts, cercles, facesFissExt, edgesFissExtPeau, edgesFissExtPipe)
+  return (verticesEdgesFondIn, pipexts, cercles, facesFissExt, edgesFissExtPeau, edgesFissExtPipe)
--- a/src/Tools/blocFissure/gmu/identifieElementsGeometriquesPeau.py
+++ b/src/Tools/blocFissure/gmu/identifieElementsGeometriquesPeau.py
@ -26,9 +26,9 @@ from .trouveEdgesFissPeau import trouveEdgesFissPeau
 from .identifieFacesPeau import identifieFacesPeau
 from .identifieEdgesPeau import identifieEdgesPeau
-def identifieElementsGeometriquesPeau(ifil, partitionPeauFissFond, edgesPipeFiss,
+def identifieElementsGeometriquesPeau(ifil, partitionPeauFissFond, edgesPipeFiss, \
-                                      edgesFondFiss, wireFondFiss, aretesVivesC,
+                                      edgesFondFiss, wireFondFiss, aretesVivesC, \
-                                      facesDefaut, centreFondFiss, rayonPipe,
+                                      facesDefaut, centreFondFiss, rayonPipe, \
                                      aretesVivesCoupees):
  """
  """
@ -36,16 +36,16 @@ def identifieElementsGeometriquesPeau(ifil, partitionPeauFissFond, edgesPipeFiss
  fillingFaceExterne = facesDefaut[ifil]
  logging.debug("traitement partitionPeauFissFond %s", ifil)
-  
+
  # --- identification edges fond de fissure, edges pipe sur la face de fissure, edges prolongées
  #     edges internes communes pipe et fissure, points communs edges fissure peau et edges circulaires
-  
+
  (edgesPipeIn, verticesPipePeau, edgesFondIn, facesInside, facesOnside) = identifieElementsFissure(ifil, facesDefaut, partitionPeauFissFond,
                                                                                                    edgesPipeFiss, edgesFondFiss, aretesVivesC,
                                                                                                    fillingFaceExterne, centreFondFiss)
-  
+
  # --- elements débouchants (intersection pipe et peau), indexés selon les edges du fond de fissure (edgesFondIn)
-  
+
  (verticesEdgesFondIn, pipexts, cercles,
   facesFissExt, edgesFissExtPeau, edgesFissExtPipe) = identifieElementsDebouchants(ifil, facesDefaut, partitionPeauFissFond,
                                                                                    edgesFondIn, edgesFondFiss, wireFondFiss,
@ -57,20 +57,20 @@ def identifieElementsGeometriquesPeau(ifil, partitionPeauFissFond, edgesPipeFiss
  if len(verticesPipePeau) == 0: # aucune extrémité du pipe sur cette face de peau
    edgesFissExtPeau = trouveEdgesFissPeau(facesInside, facesOnside, edgesPipeIn, edgesFondIn, partitionPeauFissFond, edgesFissExtPeau)
-    
+
  # --- inventaire des faces de peau : face de peau percée du pipe, extrémités du pipe
-  
+
  (facePeau, facesPeauSorted, edgesPeauFondIn) = identifieFacesPeau(ifil, verticesPipePeau, facesOnside, wireFondFiss,
                                                                    verticesEdgesFondIn, pipexts, cercles,
                                                                    fillingFaceExterne, centreFondFiss)
-  
+
  # --- identification précise des edges et disques des faces de peau selon index extremité fissure
-  
+
  (endsEdgeFond, facesPipePeau, edgeRadFacePipePeau,
   edgesCircPeau, verticesCircPeau, groupEdgesBordPeau,
   bordsVifs, edgesFissurePeau, aretesVivesCoupees) = identifieEdgesPeau(edgesFissExtPipe, verticesPipePeau, facePeau, facesPeauSorted,
                                                                         edgesPeauFondIn, fillingFaceExterne, aretesVivesC, aretesVivesCoupees)
-  
+
  dataPPFF = dict(endsEdgeFond        = endsEdgeFond,        # pour chaque face [points edge fond de fissure aux débouchés du pipe]
                  facesPipePeau       = facesPipePeau,       # pour chaque face [faces du pipe débouchantes]
                  edgeRadFacePipePeau = edgeRadFacePipePeau, # pour chaque face [edge radiale des faces du pipe débouchantes ]
@ -84,7 +84,7 @@ def identifieElementsGeometriquesPeau(ifil, partitionPeauFissFond, edgesPipeFiss
                  bordsVifs           = bordsVifs,           # pour chaque face de peau : groupe subshape des edges aux bords correspondant à des arêtes vives
                  edgesFissurePeau    = edgesFissurePeau,    # pour chaque face de peau : [subshape edge en peau des faces de fissure externes]
                  verticesPipePeau    = verticesPipePeau     # pour chaque face de peau : [point commun edFissPeau edCircPeau]
-                  )  
+                 )
  return dataPPFF, aretesVivesCoupees
-  
+
--- a/src/Tools/blocFissure/gmu/identifieFacesEdgesFissureExterne.py
+++ b/src/Tools/blocFissure/gmu/identifieFacesEdgesFissureExterne.py
@ -26,45 +26,50 @@ from .geomsmesh import geomPublishInFather
 from . import initLog
 def identifieFacesEdgesFissureExterne(fsFissuExt, edFisExtPe, edFisExtPi, edgesPipeFiss):
-  """
+  """identification des faces et edges de fissure externe pour maillage"""
  identification des faces et edges de fissure externe pour maillage
  """
  logging.info('start')
- 
+
-  facesFissExt = []
+  logging.debug("---------------------------- fsFissuExt : {} ".format(fsFissuExt))
-  edgesFissExtPeau = []
+  facesFissExt = list()
-  edgesFissExtPipe = []
+  edgesFissExtPeau = list()
  edgesFissExtPipe = list()
  for ifil in range(len(fsFissuExt)): # TODO: éliminer les doublons (comparer tous les vertices triés, avec mesure de distance ?)
    facesFissExt += fsFissuExt[ifil]
    edgesFissExtPeau += edFisExtPe[ifil]
    edgesFissExtPipe += edFisExtPi[ifil]
-  logging.debug("---------------------------- identification faces de fissure externes au pipe :%s ", len(facesFissExt))
+  logging.debug("---------------------------- identification faces de fissure externes au pipe : {}".format(len(facesFissExt)))
  # regroupement des faces de fissure externes au pipe.
-  
+
-  if len(facesFissExt) > 1:
+  if not facesFissExt:
    logging.info("---------------------------- fsFissuExt : {} ".format(fsFissuExt))
    raise Exception("stop identifieFacesEdgesFissureExterne ; aucune face de fissure externe au pipe n'a été trouvée.")
  elif len(facesFissExt) > 1:
    faceFissureExterne = geompy.MakePartition(facesFissExt, [], [], [], geompy.ShapeType["FACE"], 0, [], 0)
    edgesPipeFissureExterneC = geompy.GetInPlace(faceFissureExterne, geompy.MakeCompound(edgesPipeFiss))    # edgesFissExtPipe peut ne pas couvrir toute la longueur
    # edgesPeauFissureExterneC = geompy.GetInPlace(faceFissureExterne, geompy.MakeCompound(edgesFissExtPeau))
    # il peut manquer des edges de faceFissureExterne en contact avec la peau dans edgesFissExtPeau
    (isDone, closedFreeBoundaries, openFreeBoundaries) = geompy.GetFreeBoundary(faceFissureExterne)
-    edgesBordFFE = []
+    edgesBordFFE = list()
    for bound in closedFreeBoundaries:
      edgesBordFFE += geompy.ExtractShapes(bound, geompy.ShapeType["EDGE"], False)
    edgesBordFFEid = [ (ed,geompy.GetSubShapeID(faceFissureExterne, ed)) for ed in edgesBordFFE]
-    logging.debug("edgesBordFFEid %s", edgesBordFFEid)
+    logging.debug("edgesBordFFEid {}".format(edgesBordFFEid))
    edgesPPE = geompy.ExtractShapes(edgesPipeFissureExterneC, geompy.ShapeType["EDGE"], False)
    edgesPPEid = [ geompy.GetSubShapeID(faceFissureExterne, ed) for ed in edgesPPE]
-    logging.debug("edgesPPEid %s", edgesPPEid)
+    logging.debug("edgesPPEid {}".format(edgesPPEid))
    edgesPFE = [ edid[0] for edid in edgesBordFFEid if edid[1] not in edgesPPEid] # on garde toutes les edges de bord non en contact avec le pipe
-    logging.debug("edgesPFE %s", edgesPFE)
+    logging.debug("edgesPFE {}".format(edgesPFE))
    edgesPeauFissureExterneC = geompy.MakeCompound(edgesPFE)
  else:
    faceFissureExterne = facesFissExt[0]
    edgesPeauFissureExterneC = geompy.MakeCompound(edgesFissExtPeau)
    edgesPipeFissureExterneC = geompy.MakeCompound(edgesFissExtPipe)
  wirePipeFissureExterne = geompy.MakeWire(geompy.ExtractShapes(edgesPipeFissureExterneC, geompy.ShapeType["EDGE"], False))
  geomPublish(initLog.debug, faceFissureExterne, "faceFissureExterne")
  geomPublishInFather(initLog.debug, faceFissureExterne, edgesPeauFissureExterneC, "edgesPeauFissureExterne")
  geomPublishInFather(initLog.debug, faceFissureExterne, edgesPipeFissureExterneC, "edgesPipeFissureExterne")
-  
+
-  return (faceFissureExterne, edgesPipeFissureExterneC, wirePipeFissureExterne, edgesPeauFissureExterneC)
+  return (faceFissureExterne, edgesPipeFissureExterneC, wirePipeFissureExterne, edgesPeauFissureExterneC)
--- a/src/Tools/blocFissure/gmu/insereFissureElliptique.py
+++ b/src/Tools/blocFissure/gmu/insereFissureElliptique.py
@ -17,6 +17,9 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """Insertion d'une fissure elliptique"""
 import os
 import logging
 import salome
@ -40,12 +43,12 @@ from .meshBlocPart import meshBlocPart
 from .enleveDefaut import enleveDefaut
 from .regroupeSainEtDefaut import RegroupeSainEtDefaut
 from .putName import putName
- 
+
 # -----------------------------------------------------------------------------
 # --- procedure complete fissure elliptique
-def insereFissureElliptique(geometriesSaines, maillagesSains,
+def insereFissureElliptique(geometriesSaines, maillagesSains, \
-                            shapesFissure, shapeFissureParams,
+                            shapesFissure, shapeFissureParams, \
                            maillageFissureParams, elementsDefaut, step=-1):
  """
  TODO: a completer
@ -81,8 +84,8 @@ def insereFissureElliptique(geometriesSaines, maillagesSains,
  nbsegFis          = maillageFissureParams['nbsegFis']      # 20
  lensegEllipsoide  = maillageFissureParams['lensegEllipso'] # 1.0
-  fichierMaillageSain = nomRep + '/' + nomFicSain + '.med'
+  fichierMaillageSain = os.path.join(nomRep, '{}.med'.format(nomFicSain))
-  fichierMaillageFissure = nomRep + '/' + nomFicFissure + '.med'
+  fichierMaillageFissure = os.path.join(nomRep, '{}.med'.format(nomFicFissure))
  facesDefaut              = elementsDefaut[0]
  centreDefaut             = elementsDefaut[1]
@ -130,11 +133,10 @@ def insereFissureElliptique(geometriesSaines, maillagesSains,
  if step == 7:
    return None
-  [blocPartition, blocp, tore,
+  [ blocPartition, blocp, tore, \
-  faceFissure, facesExternes, facesExtBloc, facesExtElli,
+    faceFissure, facesExternes, facesExtBloc, facesExtElli,
-  aretesInternes, ellipsoidep, sharedFaces, sharedEdges, edgesBords] = \
+    aretesInternes, ellipsoidep, sharedFaces, sharedEdges, edgesBords] = \
-    partitionBlocDefaut(extrusionDefaut, facesDefaut, gener1, pipe1,
+    partitionBlocDefaut(extrusionDefaut, facesDefaut, gener1, pipe1, facefis1, ellipsoide1)
                        facefis1, ellipsoide1)
  if not isHexa:
    edgesBords = None # maillage sain hexa ==> filling, et maillage edges Bords imposés du maillage sain
@ -191,11 +193,11 @@ def insereFissureElliptique(geometriesSaines, maillagesSains,
    return None
  [bloc1, blocComplet] = \
-    meshBlocPart(blocPartition, faceFissure, tore, centres, edges, diams, circles, faces,
+    meshBlocPart(blocPartition, faceFissure, tore, centres, edges, diams, circles, faces, \
-                gencnt, facefissoutore, edgeext, facesExternes, facesExtBloc, facesExtElli,
+                 gencnt, facefissoutore, edgeext, facesExternes, facesExtBloc, facesExtElli, \
-                aretesInternes, internalBoundary, ellipsoidep, sharedFaces, sharedEdges, edgesBords,
+                 aretesInternes, internalBoundary, ellipsoidep, sharedFaces, sharedEdges, edgesBords, \
-                nbsegExt, nbsegGen, nbsegRad, scaleRad, reverses, reverext, nbsegCercle,
+                 nbsegExt, nbsegGen, nbsegRad, scaleRad, reverses, reverext, nbsegCercle,
-                nbsegFis, dmoyen, lensegEllipsoide)
+                 nbsegFis, dmoyen, lensegEllipsoide) \
  if step == 16:
    return None
--- a/src/Tools/blocFissure/gmu/insereFissureGenerale.py
+++ b/src/Tools/blocFissure/gmu/insereFissureGenerale.py
--- a/src/Tools/blocFissure/gmu/insereFissureLongue.py
+++ b/src/Tools/blocFissure/gmu/insereFissureLongue.py
@ -17,6 +17,9 @@
 #
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """procédure complète de construction d'une fissure longue"""
 import os
 import logging
 import salome
@ -44,20 +47,22 @@ from .shapeSurFissure import shapeSurFissure
 from .regroupeSainEtDefaut import RegroupeSainEtDefaut
 from .triedreBase import triedreBase
-# -----------------------------------------------------------------------------
+from .insereFissureLongue_a import insereFissureLongue_a
-# --- procedure complete fissure longue
+from .insereFissureLongue_b import insereFissureLongue_b
 from .insereFissureLongue_c import insereFissureLongue_c
 from .insereFissureLongue_d import insereFissureLongue_d
-def insereFissureLongue(geometriesSaines, maillagesSains,
+# -----------------------------------------------------------------------------
-                        shapesFissure, shapeFissureParams,
+
-                        maillageFissureParams, elementsDefaut, step=-1):
+def insereFissureLongue(geometriesSaines, \
-  """
+                        shapesFissure, shapeFissureParams, \
-  TODO: a completer
+                        maillageFissureParams, elementsDefaut, \
-  """
+                        step=-1, mailleur="MeshGems"):
  """procedure complete fissure longue"""
  logging.info('start')
  logging.info("Usage du mailleur %s", mailleur)
  #geometrieSaine    = geometriesSaines[0]
  #maillageSain      = maillagesSains[0]
  #isHexa            = maillagesSains[1]
  shapeDefaut       = shapesFissure[0] # face de fissure, debordant
  #tailleDefaut      = shapesFissure[2]
  wiretube          = shapesFissure[4] # wire fond de fissure, debordant
@ -79,8 +84,8 @@ def insereFissureLongue(geometriesSaines, maillagesSains,
  #nbsegFis          = maillageFissureParams['nbsegFis']      # 20
  #lensegEllipsoide  = maillageFissureParams['lensegEllipso'] # 1.0
-  #fichierMaillageSain = nomRep + '/' + nomFicSain + '.med'
+  #fichierMaillageSain = os.path.join(nomRep, '{}.med'.format(nomFicSain))
-  fichierMaillageFissure = nomRep + '/' + nomFicFissure + '.med'
+  fichierMaillageFissure = os.path.join(nomRep, '{}.med'.format(nomFicFissure))
  facesDefaut              = elementsDefaut[0]
  #centreDefaut             = elementsDefaut[1]
@ -105,12 +110,12 @@ def insereFissureLongue(geometriesSaines, maillagesSains,
  edgesFilling = geompy.ExtractShapes(fillingFaceExterne, geompy.ShapeType["EDGE"], False)
  O, OX, OY, OZ = triedreBase()
-  
+
  # -----------------------------------------------------------------------------
  # --- peau et face de fissure
  # --- partition peau defaut - face de fissure prolongee - wire de fond de fissure prolongée
-  partitionPeauFissFond = geompy.MakePartition([facePorteFissure, WirePorteFondFissure, fillingFaceExterne], [], [], [], geompy.ShapeType["FACE"], 0, [], 0)
+  partitionPeauFissFond = geompy.MakePartition([facePorteFissure, WirePorteFondFissure, fillingFaceExterne], list(), list(), list(), geompy.ShapeType["FACE"], 0, list(), 0)
  geomPublish(initLog.debug,  partitionPeauFissFond, 'partitionPeauFissFond' )
  edges = geompy.ExtractShapes(WirePorteFondFissure, geompy.ShapeType["EDGE"], False)
@ -149,7 +154,7 @@ def insereFissureLongue(geometriesSaines, maillagesSains,
  [facesInside, facesOutside, facesOnside] = extractionOrientee(fillingFaceExterne, partitionPeauFissFond, centreFondFiss, "FACE", 1.e-3)
  # --- partition peau -face fissure - pipe fond de fissure prolongé
-  partitionPeauFissByPipe = geompy.MakePartition([facesInside[0], facesOnside[0]], [pipefiss], [], [], geompy.ShapeType["FACE"], 0, [], 0)
+  partitionPeauFissByPipe = geompy.MakePartition([facesInside[0], facesOnside[0]], [pipefiss], list(), list(), geompy.ShapeType["FACE"], 0, list(), 0)
  geomPublish(initLog.debug,  partitionPeauFissByPipe, 'partitionPeauFissByPipe' )
  # --- identification face de peau
@ -159,7 +164,7 @@ def insereFissureLongue(geometriesSaines, maillagesSains,
  geomPublishInFather(initLog.debug,partitionPeauFissByPipe, facePeau, "facePeau")
  # --- identification edges de bord face peau
-  edgesBords = []
+  edgesBords = list()
  for i, edge in enumerate(edgesFilling):
    edgepeau = geompy.GetInPlace(facePeau, edge)
    edgesBords.append(edgepeau)
@ -186,7 +191,7 @@ def insereFissureLongue(geometriesSaines, maillagesSains,
  edgesFacePeau = geompy.ExtractShapes(facePeau, geompy.ShapeType["EDGE"], False)
  edgesFacePeauSorted, minlg, maxlg = sortEdges(edgesFacePeau)
  demiCerclesPeau = edgesFacePeauSorted[0:4]
-  verticesDemiCerclesPeau = []
+  verticesDemiCerclesPeau = list()
  for i, edge in enumerate(demiCerclesPeau):
    name = "demiCerclePeau_%d"%i
    geomPublishInFather(initLog.debug,facePeau, edge, name)
@ -201,9 +206,9 @@ def insereFissureLongue(geometriesSaines, maillagesSains,
    geomPublishInFather(initLog.debug,facePeau, vertex, name)
  # --- demi cercles  regroupés
-  groupsDemiCerclesPeau = []
+  groupsDemiCerclesPeau = list()
  for i, vertex in enumerate(verticesEdgePeauFiss):
-    demis = []
+    demis = list()
    for edge in demiCerclesPeau:
      if geompy.MinDistance(vertex, edge) < 1.e-5:
        demis.append(edge)
@ -216,7 +221,7 @@ def insereFissureLongue(geometriesSaines, maillagesSains,
  # --- identification edges commune pipe face fissure externe au pipe
  edgePeauFissId = geompy.GetSubShapeID(partitionPeauFissByPipe, edgePeauFiss)
  edgesFaceFiss = geompy.ExtractShapes(faceFiss, geompy.ShapeType["EDGE"], False)
-  edgesFaceFissPipe = []
+  edgesFaceFissPipe = list()
  for edge in edgesFaceFiss:
    if geompy.GetSubShapeID(partitionPeauFissByPipe, edge) != edgePeauFissId:
      edgesFaceFissPipe.append(edge)
@ -253,13 +258,13 @@ def insereFissureLongue(geometriesSaines, maillagesSains,
  [vertexReference] = geompy.ExtractShapes(disque, geompy.ShapeType["VERTEX"], False)
  pipeFondFiss = geompy.MakePipe(disque, wireFondFiss)
-  pipeFondFiss = geompy.MakePartition([pipeFondFiss], [planfiss, wireFondFiss, planBord1, planBord2], [], [], geompy.ShapeType["SOLID"], 0, [], 0)
+  pipeFondFiss = geompy.MakePartition([pipeFondFiss], [planfiss, wireFondFiss, planBord1, planBord2], list(), list(), geompy.ShapeType["SOLID"], 0, list(), 0)
  #pipe = geompy.MakePipe(disque, WirePorteFondFissure)
-  #pipe = geompy.MakePartition([pipe],[fillingFaceExterne], [], [], geompy.ShapeType["SOLID"], 0, [], 0)
+  #pipe = geompy.MakePartition([pipe],[fillingFaceExterne], list(), list(), geompy.ShapeType["SOLID"], 0, list(), 0)
  #pipes = geompy.ExtractShapes(pipe, geompy.ShapeType["SOLID"], False)
  #pipesSorted, volmin, volmax = sortSolids(pipes)
  #pipeFondFiss = pipesSorted[-1]
-  #pipeFondFiss = geompy.MakePartition([pipeFondFiss], [planfiss, wireFondFiss, planBord1, planBord2], [], [], geompy.ShapeType["SOLID"], 0, [], 0)
+  #pipeFondFiss = geompy.MakePartition([pipeFondFiss], [planfiss, wireFondFiss, planBord1, planBord2], list(), list(), geompy.ShapeType["SOLID"], 0, list(), 0)
  geomPublish(initLog.debug,  disque, 'disque')
  geomPublish(initLog.debug,  wireFondFiss, 'wireFondFiss')
@ -269,7 +274,7 @@ def insereFissureLongue(geometriesSaines, maillagesSains,
  for i, v in enumerate(VerticesEndFondFiss):
    name = "vertexEndFondFiss_%d"%i
    geomPublishInFather(initLog.debug,wireFondFiss, v, name)
-  VerticesEndPipeFiss = []
+  VerticesEndPipeFiss = list()
  for v in VerticesEndFondFiss:
    VerticesEndPipeFiss.append(geompy.GetInPlace(pipeFondFiss, v))
  for i, v in enumerate(VerticesEndPipeFiss):
@ -305,8 +310,8 @@ def insereFissureLongue(geometriesSaines, maillagesSains,
  #     generatrices  = edgesPipeOnplan moins rayon disques (3 grandes et 6 petites)
  edgesIdPipeOnside = getSubshapeIds(pipeFondFiss, edgesPipeOnside)
  edgesIdPipeOnplan = getSubshapeIds(pipeFondFiss, edgesPipeOnplan)
-  rayons = []
+  rayons = list()
-  demiCercles = []
+  demiCercles = list()
  for i, edgeId in enumerate(edgesIdPipeOnside):
    if edgeId in edgesIdPipeOnplan:
      rayons.append(edgesPipeOnside[i])
@ -316,13 +321,13 @@ def insereFissureLongue(geometriesSaines, maillagesSains,
  rayons = rayons + edgesSorted[:4]            # les 4 plus petits sont les rayons
  demiCercles = demiCercles  + edgesSorted[4:] # les suivants sont les arcs de cercle
  rayonsId = getSubshapeIds(pipeFondFiss, rayons)
-  generatrices = []
+  generatrices = list()
  for i, edgeId in enumerate(edgesIdPipeOnplan):
    if edgeId not in rayonsId:
      generatrices.append(edgesPipeOnplan[i])
  # --- generatrices en contact avec la face fissure externe au pipe
-  generFiss = []
+  generFiss = list()
  for edge in generatrices:
    distance = geompy.MinDistance(vertexReference, edge)
    logging.debug("distance %s", distance)
@ -339,9 +344,9 @@ def insereFissureLongue(geometriesSaines, maillagesSains,
  geomPublishInFather(initLog.debug,pipeFondFiss, groupGenerFiss, "GenFiss")
  # --- demi cercles externes regroupés
-  groupsDemiCerclesPipe = []
+  groupsDemiCerclesPipe = list()
  for i, vertex in enumerate(verticesEdgePeauFiss):
-    demis = []
+    demis = list()
    for edge in demiCerclesExternes:
      if geompy.MinDistance(vertex, edge) < 0.1:
        demis.append(edge)
@ -353,7 +358,7 @@ def insereFissureLongue(geometriesSaines, maillagesSains,
  # --- faces fissure dans le pipe
-  facesFissinPipe = []
+  facesFissinPipe = list()
  generFissId = getSubshapeIds(pipeFondFiss, generFiss)
  logging.debug("generatrice fissure %s", generFissId)
  for face in facesPipeOnplan:
@ -374,7 +379,7 @@ def insereFissureLongue(geometriesSaines, maillagesSains,
  # --- edges de fond de fissure
-  edgesFondFiss = []
+  edgesFondFiss = list()
  for i, edge in enumerate(edgesInside):
    anEdge = geompy.GetInPlace(pipeFondFiss, edge)
    logging.debug("  edge %s ", anEdge)
@ -393,7 +398,7 @@ def insereFissureLongue(geometriesSaines, maillagesSains,
  aFilterManager = smesh.CreateFilterManager()
  nbAdded, internalBoundary, _NoneGroup = internalBoundary.MakeBoundaryElements( SMESH.BND_1DFROM2D, '', '', 0, [  ])
-  criteres = []
+  criteres = list()
  unCritere = smesh.GetCriterion(SMESH.EDGE,SMESH.FT_FreeBorders,SMESH.FT_Undefined,0)
  criteres.append(unCritere)
  filtre = smesh.GetFilterFromCriteria(criteres)
@ -408,216 +413,33 @@ def insereFissureLongue(geometriesSaines, maillagesSains,
  # --- maillage pipe fond fissure
-  meshFondFiss = smesh.Mesh(pipeFondFiss)
+  meshFondFiss, groups_demiCercles, group_generFiss, nbSegGenLong, nbSegGenBout = \
-  algo2d = meshFondFiss.Quadrangle(algo=smeshBuilder.QUADRANGLE)
+            insereFissureLongue_a (pipeFondFiss, disques, rayons, demiCercles, demiCerclesPeau, generatrices, \
-  algo3d = meshFondFiss.Prism()
+            VerticesEndPipeFiss, verticesEdgePeauFiss, \
-  putName(algo3d.GetSubMesh(), "pipe")
+            groupFaceFissInPipe, groupEdgeFondFiss, groupsDemiCerclesPipe, groupGenerFiss, \
-  putName(algo3d, "algo3d_pipe")
+            profondeur, rayonPipe, distance2)
  putName(algo2d, "algo2d_pipe")
  for i, face in enumerate(disques):
    algo2d = meshFondFiss.Quadrangle(algo=smeshBuilder.RADIAL_QUAD,geom=face)
    putName(algo2d.GetSubMesh(), "disque", i)
    putName(algo2d, "algo2d_disque", i)
  for i, edge in enumerate(rayons):
    algo1d = meshFondFiss.Segment(geom=edge)
    hypo1d = algo1d.NumberOfSegments(4)
    putName(algo1d.GetSubMesh(), "rayon", i)
    putName(algo1d, "algo1d_rayon", i)
    putName(hypo1d, "hypo1d_rayon", i)
  for i, edge in enumerate(demiCercles):
    algo1d = meshFondFiss.Segment(geom=edge)
    hypo1d = algo1d.NumberOfSegments(6)
    putName(algo1d.GetSubMesh(), "demiCercle", i)
    putName(algo1d, "algo1d_demiCercle", i)
    putName(hypo1d, "hypo1d_demiCercle", i)
  generSorted, minlg, maxlg = sortEdges(generatrices)
  nbSegGenLong = int(math.sqrt(3.0)*maxlg/(profondeur - rayonPipe)) # on veut 2 triangles equilateraux dans la largeur de la face
  nbSegGenBout = 6
  logging.info("min %s, max %s, nombre de segments %s, nombre de generatrices %s", minlg, maxlg, nbSegGenLong, len(generSorted))
  for i, edge in enumerate(generSorted):
    algo1d = meshFondFiss.Segment(geom=edge)
    if i < 6:
      hypo1d = algo1d.NumberOfSegments(nbSegGenBout)
    else:
      hypo1d = algo1d.NumberOfSegments(nbSegGenLong)
    putName(algo1d.GetSubMesh(), "generatrice", i)
    putName(algo1d, "algo1d_generatrice", i)
    putName(hypo1d, "hypo1d_generatrice", i)
  isDone = meshFondFiss.Compute()
  logging.info("meshFondFiss computed")
  disks = []
  for i, face in enumerate(disques[:4]):
    name = "disk%d"%i
    disks.append(meshFondFiss.GroupOnGeom(face, name, SMESH.FACE))
  peauext_pipe = meshFondFiss.GetMesh().UnionListOfGroups( disks, 'PEAUEXT' )
  grpPFOR = meshFondFiss.GroupOnGeom(VerticesEndPipeFiss[0], "PFOR", SMESH.NODE)
  grpPFEX = meshFondFiss.GroupOnGeom(VerticesEndPipeFiss[1], "PFEX", SMESH.NODE)
  grp = meshFondFiss.GroupOnGeom(groupFaceFissInPipe, "fisInPi", SMESH.FACE)
  group_edgeFondFiss = meshFondFiss.GroupOnGeom(groupEdgeFondFiss, "FONDFISS", SMESH.EDGE)
  noeudsFondFissure = meshFondFiss.GroupOnGeom(groupEdgeFondFiss, "nfondfis", SMESH.NODE)
  groups_demiCercles = []
  groupnodes_demiCercles = []
  for i, group in enumerate(groupsDemiCerclesPipe):
    name = "Cercle%d"%i
    groups_demiCercles.append(meshFondFiss.GroupOnGeom(group, name, SMESH.EDGE))
    name = "nCercle%d"%i
    groupnodes_demiCercles.append(meshFondFiss.GroupOnGeom(group, name, SMESH.NODE))
  group_generFiss = meshFondFiss.GroupOnGeom(groupGenerFiss, "GenFiss", SMESH.EDGE)
  groupnode_generFiss = meshFondFiss.GroupOnGeom(groupGenerFiss, "GenFiss", SMESH.NODE)
  grpNode0 = meshFondFiss.IntersectGroups(groupnode_generFiss, groupnodes_demiCercles[0], "Node0")
  grpNode1 = meshFondFiss.IntersectGroups(groupnode_generFiss, groupnodes_demiCercles[1], "Node1")
  idNode0 = grpNode0.GetID(1)
  idNode1 = grpNode1.GetID(1)
  coordsMesh = []
  coordsMesh.append(meshFondFiss.GetNodeXYZ(idNode0))
  coordsMesh.append(meshFondFiss.GetNodeXYZ(idNode1))
  coordsGeom = []
  for vertex in verticesEdgePeauFiss:
    coord = geompy.PointCoordinates(vertex);
    if distance2(coord, coordsMesh[0]) < 0.1:
      meshFondFiss.MoveNode(idNode0, coord[0], coord[1], coord[2])
    if distance2(coord, coordsMesh[1]) < 0.1:
      meshFondFiss.MoveNode(idNode1, coord[0], coord[1], coord[2])
  for groupNodes in groupnodes_demiCercles:
    for idNode in groupNodes.GetListOfID():
      coordMesh = meshFondFiss.GetNodeXYZ(idNode)
      vertex = geompy.MakeVertex(coordMesh[0], coordMesh[1], coordMesh[2])
      minDist = 100000
      minCoord = None
      imin = -1
      for i, edge in enumerate(demiCerclesPeau):
        discoord = geompy.MinDistanceComponents(vertex, edge)
        if discoord[0] <minDist:
          minDist = discoord[0]
          minCoord = discoord[1:]
          imin = i
      if imin >= 0 and minDist > 1.E-6:
        logging.debug("node id moved : %s distance=%s", idNode, minDist)
        meshFondFiss.MoveNode(idNode, coordMesh[0] + minCoord[0], coordMesh[1] + minCoord[1], coordMesh[2] + minCoord[2])
  # --- maillage face de peau
-  meshFacePeau = smesh.Mesh(facePeau)
+  meshFacePeau, groupEdgesPeauFiss = \
-  algo2d = meshFacePeau.Triangle(algo=smeshBuilder.NETGEN_2D)
+            insereFissureLongue_b ( facePeau, edgePeauFiss, groupEdgesBordPeau, bordsLibres, \
-  hypo2d = algo2d.Parameters()
+                                    groupsDemiCerclesPeau, groups_demiCercles, verticesOutCercles, \
-  hypo2d.SetMaxSize( 1000 )
+                                    nbSegGenLong, nbSegGenBout, profondeur, \
-  hypo2d.SetOptimize( 1 )
+                                    mailleur )
  hypo2d.SetFineness( 2 )
  hypo2d.SetMinSize( 2 )
  hypo2d.SetQuadAllowed( 0 )
  putName(algo2d.GetSubMesh(), "facePeau")
  putName(algo2d, "algo2d_facePeau")
  putName(hypo2d, "hypo2d_facePeau")
  #
  lenEdgePeauFiss = geompy.BasicProperties(edgePeauFiss)[0]
  frac = profondeur/lenEdgePeauFiss
  nbSeg = nbSegGenLong +2*nbSegGenBout
  ratio = (nbSegGenBout/float(profondeur)) / (nbSegGenLong/lenEdgePeauFiss)
  logging.info("lenEdgePeauFiss %s, profondeur %s, nbSegGenLong %s, nbSegGenBout %s, frac %s, ratio %s", lenEdgePeauFiss, profondeur, nbSegGenLong, nbSegGenBout, frac, ratio)
  algo1d = meshFacePeau.Segment(geom=edgePeauFiss)
  hypo1d = algo1d.NumberOfSegments(nbSeg,[],[  ])
  hypo1d.SetDistrType( 2 )
  hypo1d.SetConversionMode( 1 )
  hypo1d.SetTableFunction( [ 0, ratio, frac, 1, (1.-frac), 1, 1, ratio ] )
  putName(algo1d.GetSubMesh(), "edgePeauFiss")
  putName(algo1d, "algo1d_edgePeauFiss")
  putName(hypo1d, "hypo1d_edgePeauFiss")
  #
  algo1d = meshFacePeau.UseExisting1DElements(geom=groupEdgesBordPeau)
  hypo1d = algo1d.SourceEdges([ bordsLibres ],0,0)
  putName(algo1d.GetSubMesh(), "bordsLibres")
  putName(algo1d, "algo1d_bordsLibres")
  putName(hypo1d, "hypo1d_bordsLibres")
  #
  for i in range(2):
    algo1d = meshFacePeau.UseExisting1DElements(geom=groupsDemiCerclesPeau[i])
    hypo1d = algo1d.SourceEdges([ groups_demiCercles[i] ],0,0)
    putName(algo1d.GetSubMesh(), "DemiCercles", i)
    putName(algo1d, "algo1d_groupDemiCercles", i)
    putName(hypo1d, "hypo1d_groupDemiCercles", i)
  #
  isDone = meshFacePeau.Compute()
  logging.info("meshFacePeau computed")
  grpTHOR = meshFacePeau.GroupOnGeom(verticesOutCercles[0], "THOR", SMESH.NODE)
  grpTHEX = meshFacePeau.GroupOnGeom(verticesOutCercles[1], "THEX", SMESH.NODE)
  groupEdgesPeauFiss = meshFacePeau.GroupOnGeom(edgePeauFiss, "PeauFis", SMESH.EDGE)
  peauext_face = meshFacePeau.CreateEmptyGroup( SMESH.FACE, 'PEAUEXT' )
  nbAdd = peauext_face.AddFrom( meshFacePeau.GetMesh() )
  # --- maillage face de fissure
-  meshFaceFiss = smesh.Mesh(faceFiss)
+  meshFaceFiss = \
-  algo2d = meshFaceFiss.Triangle(algo=smeshBuilder.NETGEN_2D)
+            insereFissureLongue_c ( faceFiss, edgePeauFiss, groupEdgesPeauFiss, group_generFiss, groupEdgesFaceFissPipe, \
-  hypo2d = algo2d.Parameters()
+                                    profondeur, rayonPipe, \
-  hypo2d.SetMaxSize( (profondeur - rayonPipe)/math.sqrt(3.0) ) # pour avoir deux couches de triangles equilateraux partout sur la fissure
+                                    mailleur )
  hypo2d.SetOptimize( 1 )
  hypo2d.SetFineness( 2 )
  hypo2d.SetMinSize( 2 )
  hypo2d.SetQuadAllowed( 0 )
  putName(algo2d.GetSubMesh(), "faceFiss")
  putName(algo2d, "algo2d_faceFiss")
  putName(hypo2d, "hypo2d_faceFiss")
  #
  algo1d = meshFaceFiss.UseExisting1DElements(geom=edgePeauFiss)
  hypo1d = algo1d.SourceEdges([ groupEdgesPeauFiss ],0,0)
  putName(algo1d.GetSubMesh(), "edgeFissPeau")
  putName(algo1d, "algo1d_edgeFissPeau")
  putName(hypo1d, "hypo1d_edgeFissPeau")
  #
  algo1d = meshFaceFiss.UseExisting1DElements(geom=groupEdgesFaceFissPipe)
  hypo1d = algo1d.SourceEdges([ group_generFiss ],0,0)
  putName(algo1d.GetSubMesh(), "edgeFissPeau")
  putName(algo1d, "algo1d_edgeFissPeau")
  putName(hypo1d, "hypo1d_edgeFissPeau")
  #
  isDone = meshFaceFiss.Compute()
  logging.info("meshFaceFiss computed")
-  grp = meshFaceFiss.GroupOnGeom(faceFiss, "fisOutPi", SMESH.FACE)
+  # --- maillage meshBoiteDefaut
-  meshBoiteDefaut = smesh.Concatenate([internalBoundary.GetMesh(),
+  meshBoiteDefaut, group_faceFissInPipe, group_faceFissOutPipe = \
-                                   meshFondFiss.GetMesh(),
+            insereFissureLongue_d ( internalBoundary, meshFondFiss, meshFacePeau, meshFaceFiss, \
-                                   meshFacePeau.GetMesh(),
+                                    mailleur )
                                   meshFaceFiss.GetMesh()],
                                   1, 1, 1e-05,False)
  # pour aider l'algo hexa-tetra a ne pas mettre de pyramides a l'exterieur des volumes replies sur eux-memes
  # on designe les faces de peau en quadrangles par le groupe "skinFaces"
  group_faceFissOutPipe = None
  group_faceFissInPipe = None
  groups = meshBoiteDefaut.GetGroups()
  for grp in groups:
    if grp.GetType() == SMESH.FACE:
      #if "internalBoundary" in grp.GetName():
      #  grp.SetName("skinFaces")
      if grp.GetName() == "fisOutPi":
        group_faceFissOutPipe = grp
      elif grp.GetName() == "fisInPi":
        group_faceFissInPipe = grp
  # le maillage NETGEN ne passe pas toujours ==> utiliser GHS3D
  distene=True
  if distene:
    algo3d = meshBoiteDefaut.Tetrahedron(algo=smeshBuilder.GHS3D)
  else:
    algo3d = meshBoiteDefaut.Tetrahedron(algo=smeshBuilder.NETGEN)
    hypo3d = algo3d.MaxElementVolume(1000.0)
  putName(algo3d.GetSubMesh(), "boiteDefaut")
  putName(algo3d, "algo3d_boiteDefaut")
  isDone = meshBoiteDefaut.Compute()
  logging.info("meshBoiteDefaut computed")
  putName(meshBoiteDefaut, "boiteDefaut")
  groups = maillageSain.GetGroups()
  grps1 = [ grp for grp in groups if grp.GetName() == 'P1']
@ -674,4 +496,4 @@ def insereFissureLongue(geometriesSaines, maillagesSains,
  if salome.sg.hasDesktop():
    salome.sg.updateObjBrowser()
-  return  maillageComplet
+  return  maillageComplet
--- a/src/Tools/blocFissure/gmu/insereFissureLongue_a.py
+++ b/src/Tools/blocFissure/gmu/insereFissureLongue_a.py
@ -0,0 +1,145 @@
 # -*- coding: utf-8 -*-
 # Copyright (C) 2014-2020  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
 #
 """Insertion de fissure longue - maillage pipe fond fissure"""
 import logging
 import salome
 from .geomsmesh import geompy
 from .geomsmesh import smesh
 from salome.smesh import smeshBuilder
 import SMESH
 from .sortEdges import sortEdges
 from .putName import putName
 import math
 def insereFissureLongue_a (pipeFondFiss, disques, rayons, demiCercles, demiCerclesPeau, generatrices, \
                           VerticesEndPipeFiss, verticesEdgePeauFiss, \
                           groupFaceFissInPipe, groupEdgeFondFiss, groupsDemiCerclesPipe, groupGenerFiss, \
                           profondeur, rayonPipe, distance2):
  """maillage pipe fond fissure"""
  logging.info('start')
  meshFondFiss = smesh.Mesh(pipeFondFiss)
  algo2d = meshFondFiss.Quadrangle(algo=smeshBuilder.QUADRANGLE)
  algo3d = meshFondFiss.Prism()
  putName(algo3d.GetSubMesh(), "pipe")
  putName(algo3d, "algo3d_pipe")
  putName(algo2d, "algo2d_pipe")
  for i, face in enumerate(disques):
    algo2d = meshFondFiss.Quadrangle(algo=smeshBuilder.RADIAL_QUAD,geom=face)
    putName(algo2d.GetSubMesh(), "disque", i)
    putName(algo2d, "algo2d_disque", i)
  for i, edge in enumerate(rayons):
    algo1d = meshFondFiss.Segment(geom=edge)
    hypo1d = algo1d.NumberOfSegments(4)
    putName(algo1d.GetSubMesh(), "rayon", i)
    putName(algo1d, "algo1d_rayon", i)
    putName(hypo1d, "hypo1d_rayon", i)
  for i, edge in enumerate(demiCercles):
    algo1d = meshFondFiss.Segment(geom=edge)
    hypo1d = algo1d.NumberOfSegments(6)
    putName(algo1d.GetSubMesh(), "demiCercle", i)
    putName(algo1d, "algo1d_demiCercle", i)
    putName(hypo1d, "hypo1d_demiCercle", i)
  generSorted, minlg, maxlg = sortEdges(generatrices)
  nbSegGenLong = int(math.sqrt(3.0)*maxlg/(profondeur - rayonPipe)) # on veut 2 triangles equilateraux dans la largeur de la face
  nbSegGenBout = 6
  logging.info("min %s, max %s, nombre de segments %s, nombre de generatrices %s", minlg, maxlg, nbSegGenLong, len(generSorted))
  for i, edge in enumerate(generSorted):
    algo1d = meshFondFiss.Segment(geom=edge)
    if i < 6:
      hypo1d = algo1d.NumberOfSegments(nbSegGenBout)
    else:
      hypo1d = algo1d.NumberOfSegments(nbSegGenLong)
    putName(algo1d.GetSubMesh(), "generatrice", i)
    putName(algo1d, "algo1d_generatrice", i)
    putName(hypo1d, "hypo1d_generatrice", i)
  disks = list()
  for i, face in enumerate(disques[:4]):
    name = "disk%d"%i
    disks.append(meshFondFiss.GroupOnGeom(face, name, SMESH.FACE))
  _ = meshFondFiss.GetMesh().UnionListOfGroups( disks, 'PEAUEXT' )
  _ = meshFondFiss.GroupOnGeom(VerticesEndPipeFiss[0], "PFOR", SMESH.NODE)
  _ = meshFondFiss.GroupOnGeom(VerticesEndPipeFiss[1], "PFEX", SMESH.NODE)
  _ = meshFondFiss.GroupOnGeom(groupFaceFissInPipe, "fisInPi", SMESH.FACE)
  _ = meshFondFiss.GroupOnGeom(groupEdgeFondFiss, "FONDFISS", SMESH.EDGE)
  _ = meshFondFiss.GroupOnGeom(groupEdgeFondFiss, "nfondfis", SMESH.NODE)
  groups_demiCercles = list()
  groupnodes_demiCercles = list()
  for i, group in enumerate(groupsDemiCerclesPipe):
    name = "Cercle%d"%i
    groups_demiCercles.append(meshFondFiss.GroupOnGeom(group, name, SMESH.EDGE))
    name = "nCercle%d"%i
    groupnodes_demiCercles.append(meshFondFiss.GroupOnGeom(group, name, SMESH.NODE))
  group_generFiss = meshFondFiss.GroupOnGeom(groupGenerFiss, "GenFiss", SMESH.EDGE)
  groupnode_generFiss = meshFondFiss.GroupOnGeom(groupGenerFiss, "GenFiss", SMESH.NODE)
  is_done = meshFondFiss.Compute()
  text = "meshFondFiss.Compute"
  if is_done:
    logging.info(text+" OK")
  else:
    text = "Erreur au calcul du maillage.\n" + text
    logging.info(text)
    raise Exception(text)
  grpNode0 = meshFondFiss.IntersectGroups(groupnode_generFiss, groupnodes_demiCercles[0], "Node0")
  grpNode1 = meshFondFiss.IntersectGroups(groupnode_generFiss, groupnodes_demiCercles[1], "Node1")
  idNode0 = grpNode0.GetID(1)
  idNode1 = grpNode1.GetID(1)
  coordsMesh = list()
  coordsMesh.append(meshFondFiss.GetNodeXYZ(idNode0))
  coordsMesh.append(meshFondFiss.GetNodeXYZ(idNode1))
  for vertex in verticesEdgePeauFiss:
    coord = geompy.PointCoordinates(vertex)
    if distance2(coord, coordsMesh[0]) < 0.1:
      meshFondFiss.MoveNode(idNode0, coord[0], coord[1], coord[2])
    if distance2(coord, coordsMesh[1]) < 0.1:
      meshFondFiss.MoveNode(idNode1, coord[0], coord[1], coord[2])
  for groupNodes in groupnodes_demiCercles:
    for idNode in groupNodes.GetListOfID():
      coordMesh = meshFondFiss.GetNodeXYZ(idNode)
      vertex = geompy.MakeVertex(coordMesh[0], coordMesh[1], coordMesh[2])
      minDist = 100000
      minCoord = None
      imin = -1
      for i, edge in enumerate(demiCerclesPeau):
        discoord = geompy.MinDistanceComponents(vertex, edge)
        if discoord[0] <minDist:
          minDist = discoord[0]
          minCoord = discoord[1:]
          imin = i
      if imin >= 0 and minDist > 1.E-6:
        logging.debug("node id moved : %s distance=%s", idNode, minDist)
        meshFondFiss.MoveNode(idNode, coordMesh[0] + minCoord[0], coordMesh[1] + minCoord[1], coordMesh[2] + minCoord[2])
  return meshFondFiss, groups_demiCercles, group_generFiss, nbSegGenLong, nbSegGenBout
--- a/src/Tools/blocFissure/gmu/insereFissureLongue_b.py
+++ b/src/Tools/blocFissure/gmu/insereFissureLongue_b.py
@ -0,0 +1,105 @@
 # -*- coding: utf-8 -*-
 # Copyright (C) 2014-2020  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
 #
 """Insertion de fissure longue - maillage face de peau"""
 import logging
 import salome
 from .geomsmesh import geompy
 from .geomsmesh import smesh
 from salome.smesh import smeshBuilder
 import SMESH
 from .putName import putName
 def insereFissureLongue_b (facePeau, edgePeauFiss, groupEdgesBordPeau, bordsLibres, \
                           groupsDemiCerclesPeau, groups_demiCercles, verticesOutCercles, \
                           nbSegGenLong, nbSegGenBout, profondeur, \
                           mailleur="MeshGems"):
  """maillage face de peau"""
  logging.info('start')
  meshFacePeau = smesh.Mesh(facePeau)
  logging.info("Maillage avec %s", mailleur)
  if ( mailleur == "MeshGems"):
    algo2d = meshFacePeau.Triangle(algo=smeshBuilder.MG_CADSurf)
    hypo2d = algo2d.Parameters()
    hypo2d.SetPhySize( 1000 )
    hypo2d.SetMinSize( 100 )
    hypo2d.SetMaxSize( 3000. )
    hypo2d.SetChordalError( 250. )
    hypo2d.SetVerbosity( 0 )
  else:
    algo2d = meshFacePeau.Triangle(algo=smeshBuilder.NETGEN_2D)
    hypo2d = algo2d.Parameters()
    hypo2d.SetMaxSize( 1000 )
    hypo2d.SetOptimize( 1 )
    hypo2d.SetFineness( 2 )
    hypo2d.SetMinSize( 2 )
    hypo2d.SetQuadAllowed( 0 )
  putName(algo2d.GetSubMesh(), "facePeau")
  putName(algo2d, "algo2d_facePeau")
  putName(hypo2d, "hypo2d_facePeau")
  #
  lenEdgePeauFiss = geompy.BasicProperties(edgePeauFiss)[0]
  frac = profondeur/lenEdgePeauFiss
  nbSeg = nbSegGenLong +2*nbSegGenBout
  ratio = (nbSegGenBout/float(profondeur)) / (nbSegGenLong/lenEdgePeauFiss)
  logging.info("lenEdgePeauFiss %s, profondeur %s, nbSegGenLong %s, nbSegGenBout %s, frac %s, ratio %s", lenEdgePeauFiss, profondeur, nbSegGenLong, nbSegGenBout, frac, ratio)
  algo1d = meshFacePeau.Segment(geom=edgePeauFiss)
  hypo1d = algo1d.NumberOfSegments(nbSeg,list(),[  ])
  hypo1d.SetDistrType( 2 )
  hypo1d.SetConversionMode( 1 )
  hypo1d.SetTableFunction( [ 0, ratio, frac, 1, (1.-frac), 1, 1, ratio ] )
  putName(algo1d.GetSubMesh(), "edgePeauFiss")
  putName(algo1d, "algo1d_edgePeauFiss")
  putName(hypo1d, "hypo1d_edgePeauFiss")
  #
  algo1d = meshFacePeau.UseExisting1DElements(geom=groupEdgesBordPeau)
  hypo1d = algo1d.SourceEdges([ bordsLibres ],0,0)
  putName(algo1d.GetSubMesh(), "bordsLibres")
  putName(algo1d, "algo1d_bordsLibres")
  putName(hypo1d, "hypo1d_bordsLibres")
  #
  for i in range(2):
    algo1d = meshFacePeau.UseExisting1DElements(geom=groupsDemiCerclesPeau[i])
    hypo1d = algo1d.SourceEdges([ groups_demiCercles[i] ],0,0)
    putName(algo1d.GetSubMesh(), "DemiCercles", i)
    putName(algo1d, "algo1d_groupDemiCercles", i)
    putName(hypo1d, "hypo1d_groupDemiCercles", i)
  _ = meshFacePeau.GroupOnGeom(verticesOutCercles[0], "THOR", SMESH.NODE)
  _ = meshFacePeau.GroupOnGeom(verticesOutCercles[1], "THEX", SMESH.NODE)
  groupEdgesPeauFiss = meshFacePeau.GroupOnGeom(edgePeauFiss, "PeauFis", SMESH.EDGE)
  is_done = meshFacePeau.Compute()
  text = "meshFacePeau.Compute"
  if is_done:
    logging.info(text+" OK")
  else:
    text = "Erreur au calcul du maillage.\n" + text
    logging.info(text)
    raise Exception(text)
  peauext_face = meshFacePeau.CreateEmptyGroup( SMESH.FACE, 'PEAUEXT' )
  _ = peauext_face.AddFrom( meshFacePeau.GetMesh() )
  return meshFacePeau, groupEdgesPeauFiss
--- a/src/Tools/blocFissure/gmu/insereFissureLongue_c.py
+++ b/src/Tools/blocFissure/gmu/insereFissureLongue_c.py
@ -0,0 +1,84 @@
 # -*- coding: utf-8 -*-
 # Copyright (C) 2014-2020  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
 #
 """Insertion de fissure longue - maillage face de fissure"""
 import logging
 import salome
 from .geomsmesh import smesh
 from salome.smesh import smeshBuilder
 import SMESH
 from .putName import putName
 import math
 def insereFissureLongue_c (faceFiss, edgePeauFiss, groupEdgesPeauFiss, group_generFiss, groupEdgesFaceFissPipe, \
                           profondeur, rayonPipe, \
                           mailleur="MeshGems"):
  """maillage face de fissure"""
  logging.info('start')
  meshFaceFiss = smesh.Mesh(faceFiss)
  mesh_size = (profondeur - rayonPipe)/math.sqrt(3.0) # pour avoir deux couches de triangles equilateraux partout sur la fissure
  logging.info("Maillage avec %s", mailleur)
  if ( mailleur == "MeshGems"):
    algo2d = meshFaceFiss.Triangle(algo=smeshBuilder.MG_CADSurf)
    hypo2d = algo2d.Parameters()
    hypo2d.SetPhySize( mesh_size )
    hypo2d.SetMinSize( mesh_size/10. )
    hypo2d.SetMaxSize( mesh_size*3. )
    hypo2d.SetChordalError( mesh_size*0.25 )
    hypo2d.SetVerbosity( 0 )
  else:
    algo2d = meshFaceFiss.Triangle(algo=smeshBuilder.NETGEN_2D)
    hypo2d = algo2d.Parameters()
    hypo2d.SetMaxSize( mesh_size )
    hypo2d.SetOptimize( 1 )
    hypo2d.SetFineness( 2 )
    hypo2d.SetMinSize( 2 )
    hypo2d.SetQuadAllowed( 0 )
  putName(algo2d.GetSubMesh(), "faceFiss")
  putName(algo2d, "algo2d_faceFiss")
  putName(hypo2d, "hypo2d_faceFiss")
  #
  algo1d = meshFaceFiss.UseExisting1DElements(geom=edgePeauFiss)
  hypo1d = algo1d.SourceEdges([ groupEdgesPeauFiss ],0,0)
  putName(algo1d.GetSubMesh(), "edgeFissPeau")
  putName(algo1d, "algo1d_edgeFissPeau")
  putName(hypo1d, "hypo1d_edgeFissPeau")
  #
  algo1d = meshFaceFiss.UseExisting1DElements(geom=groupEdgesFaceFissPipe)
  hypo1d = algo1d.SourceEdges([ group_generFiss ],0,0)
  putName(algo1d.GetSubMesh(), "edgeFissPeau")
  putName(algo1d, "algo1d_edgeFissPeau")
  putName(hypo1d, "hypo1d_edgeFissPeau")
  _ = meshFaceFiss.GroupOnGeom(faceFiss, "fisOutPi", SMESH.FACE)
  is_done = meshFaceFiss.Compute()
  text = "meshFaceFiss.Compute"
  if is_done:
    logging.info(text+" OK")
  else:
    text = "Erreur au calcul du maillage.\n" + text
    logging.info(text)
    raise Exception(text)
  return meshFaceFiss
--- a/src/Tools/blocFissure/gmu/insereFissureLongue_d.py
+++ b/src/Tools/blocFissure/gmu/insereFissureLongue_d.py
@ -0,0 +1,79 @@
 # -*- coding: utf-8 -*-
 # Copyright (C) 2014-2020  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
 #
 """Insertion de fissure longue - maillage meshBoiteDefaut"""
 import logging
 import salome
 from .geomsmesh import smesh
 from salome.smesh import smeshBuilder
 import SMESH
 from .putName import putName
 def insereFissureLongue_d (internalBoundary, meshFondFiss, meshFacePeau, meshFaceFiss, \
                           mailleur="MeshGems"):
  """maillage meshBoiteDefaut"""
  logging.info('start')
  logging.info("insereFissureLongue_d (%s)", mailleur)
  meshBoiteDefaut = smesh.Concatenate( [internalBoundary.GetMesh(), \
                                        meshFondFiss.GetMesh(), \
                                        meshFacePeau.GetMesh(), \
                                        meshFaceFiss.GetMesh()], \
                                        1, 1, 1e-05,False)
  # pour aider l'algo hexa-tetra a ne pas mettre de pyramides a l'exterieur des volumes replies sur eux-memes
  # on designe les faces de peau en quadrangles par le groupe "skinFaces"
  group_faceFissOutPipe = None
  group_faceFissInPipe = None
  groups = meshBoiteDefaut.GetGroups()
  for grp in groups:
    if grp.GetType() == SMESH.FACE:
      #if "internalBoundary" in grp.GetName():
      #  grp.SetName("skinFaces")
      if grp.GetName() == "fisOutPi":
        group_faceFissOutPipe = grp
      elif grp.GetName() == "fisInPi":
        group_faceFissInPipe = grp
  # le maillage NETGEN ne passe pas toujours ==> on force l'usage de MG_Tetra
  mailleur = "MeshGems"
  logging.info("Maillage avec %s", mailleur)
  if ( mailleur == "MeshGems"):
    algo3d = meshBoiteDefaut.Tetrahedron(algo=smeshBuilder.MG_Tetra)
  else:
    algo3d = meshBoiteDefaut.Tetrahedron(algo=smeshBuilder.NETGEN)
    hypo3d = algo3d.MaxElementVolume(1000.0)
    hypo3d.SetVerboseLevel( 0 )
    hypo3d.SetStandardOutputLog( 0 )
    hypo3d.SetRemoveLogOnSuccess( 1 )
  putName(algo3d.GetSubMesh(), "boiteDefaut")
  putName(algo3d, "algo3d_boiteDefaut")
  putName(meshBoiteDefaut, "boiteDefaut")
  is_done = meshBoiteDefaut.Compute()
  text = "meshBoiteDefaut.Compute"
  if is_done:
    logging.info(text+" OK")
  else:
    text = "Erreur au calcul du maillage.\n" + text
    logging.info(text)
    raise Exception(text)
  return meshBoiteDefaut, group_faceFissInPipe, group_faceFissOutPipe
--- a/src/Tools/blocFissure/gmu/mailleAretesEtJonction.py
+++ b/src/Tools/blocFissure/gmu/mailleAretesEtJonction.py
@ -25,7 +25,7 @@ from .geomsmesh import smesh
 import SMESH
 from .putName import putName
-  
+
 def mailleAretesEtJonction(internalBoundary, aretesVivesCoupees, lgAretesVives):
  """
  edges de bord, faces défaut à respecter
@ -48,9 +48,10 @@ def mailleAretesEtJonction(internalBoundary, aretesVivesCoupees, lgAretesVives):
  nbAdd = skinFaces.AddFrom( internalBoundary.GetMesh() )
  # --- maillage des éventuelles arêtes vives entre faces reconstruites
-  
+
  grpAretesVives = None
-  if len(aretesVivesCoupees) > 0:
+  if aretesVivesCoupees:
    aretesVivesC = geompy.MakeCompound(aretesVivesCoupees)
    meshAretesVives = smesh.Mesh(aretesVivesC)
    algo1d = meshAretesVives.Segment()
@ -58,9 +59,17 @@ def mailleAretesEtJonction(internalBoundary, aretesVivesCoupees, lgAretesVives):
    putName(algo1d.GetSubMesh(), "aretesVives")
    putName(algo1d, "algo1d_aretesVives")
    putName(hypo1d, "hypo1d_aretesVives")
-    isDone = meshAretesVives.Compute()
+
-    logging.info("aretesVives fini")
+    is_done = meshAretesVives.Compute()
    text = "meshAretesVives.Compute"
    if is_done:
      logging.info(text+" OK")
    else:
      text = "Erreur au calcul du maillage.\n" + text
      logging.info(text)
      raise Exception(text)
    grpAretesVives = meshAretesVives.CreateEmptyGroup( SMESH.EDGE, 'grpAretesVives' )
    nbAdd = grpAretesVives.AddFrom( meshAretesVives.GetMesh() )
-  return (internalBoundary, bordsLibres, grpAretesVives)
+  return (internalBoundary, bordsLibres, grpAretesVives)
--- a/src/Tools/blocFissure/gmu/mailleFacesFissure.py
+++ b/src/Tools/blocFissure/gmu/mailleFacesFissure.py
@ -26,38 +26,56 @@ from salome.smesh import smeshBuilder
 import SMESH
 from .putName import putName
-  
+
-def mailleFacesFissure(faceFissureExterne, edgesPipeFissureExterneC, edgesPeauFissureExterneC,
+def mailleFacesFissure(faceFissureExterne, \
-                        meshPipeGroups, areteFaceFissure, rayonPipe, nbsegRad):
+                       edgesPipeFissureExterneC, edgesPeauFissureExterneC, \
-  """
+                       meshPipeGroups, areteFaceFissure, rayonPipe, nbsegRad, \
-  maillage faces de fissure
+                       mailleur="MeshGems"):
-  """
+  """maillage faces de fissure"""
  logging.info('start')
  meshFaceFiss = smesh.Mesh(faceFissureExterne)
-  algo2d = meshFaceFiss.Triangle(algo=smeshBuilder.NETGEN_1D2D)
+  logging.info("Maillage avec %s", mailleur)
-  hypo2d = algo2d.Parameters()
+  if ( mailleur == "MeshGems"):
-  hypo2d.SetMaxSize( areteFaceFissure )
+    algo2d = meshFaceFiss.Triangle(algo=smeshBuilder.MG_CADSurf)
-  hypo2d.SetSecondOrder( 0 )
+    hypo2d = algo2d.Parameters()
-  hypo2d.SetOptimize( 1 )
+    hypo2d.SetPhySize( areteFaceFissure )
-  hypo2d.SetFineness( 2 )
+    hypo2d.SetMinSize( rayonPipe/float(nbsegRad) )
-  hypo2d.SetMinSize( rayonPipe/float(nbsegRad) )
+    hypo2d.SetMaxSize( areteFaceFissure*3. )
-  hypo2d.SetQuadAllowed( 0 )
+    hypo2d.SetChordalError( areteFaceFissure*0.25 )
    hypo2d.SetVerbosity( 0 )
  else:
    algo2d = meshFaceFiss.Triangle(algo=smeshBuilder.NETGEN_1D2D)
    hypo2d = algo2d.Parameters()
    hypo2d.SetMaxSize( areteFaceFissure )
    hypo2d.SetSecondOrder( 0 )
    hypo2d.SetOptimize( 1 )
    hypo2d.SetFineness( 2 )
    hypo2d.SetMinSize( rayonPipe/float(nbsegRad) )
    hypo2d.SetQuadAllowed( 0 )
  putName(algo2d.GetSubMesh(), "faceFiss")
  putName(algo2d, "algo2d_faceFiss")
  putName(hypo2d, "hypo2d_faceFiss")
-  
+
  texte = "Récupération des arêtes de '{}'".format(edgesPipeFissureExterneC.GetName())
  logging.info(texte)
  algo1d = meshFaceFiss.UseExisting1DElements(geom=edgesPipeFissureExterneC)
  hypo1d = algo1d.SourceEdges([ meshPipeGroups['edgeFaceFissGroup'] ],0,0)
  putName(algo1d.GetSubMesh(), "edgeFissPeau")
  putName(algo1d, "algo1d_edgeFissPeau")
  putName(hypo1d, "hypo1d_edgeFissPeau")
  isDone = meshFaceFiss.Compute()
  logging.info("meshFaceFiss fini")
  grpFaceFissureExterne = meshFaceFiss.GroupOnGeom(faceFissureExterne, "fisOutPi", SMESH.FACE)
  grpEdgesPeauFissureExterne = meshFaceFiss.GroupOnGeom(edgesPeauFissureExterneC,'edgesPeauFissureExterne',SMESH.EDGE)
  grpEdgesPipeFissureExterne = meshFaceFiss.GroupOnGeom(edgesPipeFissureExterneC,'edgesPipeFissureExterne',SMESH.EDGE)
-  return (meshFaceFiss, grpFaceFissureExterne, grpEdgesPeauFissureExterne, grpEdgesPipeFissureExterne)
+  is_done = meshFaceFiss.Compute()
  text = "meshFaceFiss.Compute"
  if is_done:
    logging.info(text+" OK")
  else:
    text = "Erreur au calcul du maillage.\n" + text
    logging.info(text)
    raise Exception(text)
  return (meshFaceFiss, grpFaceFissureExterne, grpEdgesPeauFissureExterne, grpEdgesPipeFissureExterne)
--- a/src/Tools/blocFissure/gmu/mailleFacesPeau.py
+++ b/src/Tools/blocFissure/gmu/mailleFacesPeau.py
@ -18,6 +18,8 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """maillage faces de peau"""
 import logging
 from .geomsmesh import geompy
@ -30,22 +32,23 @@ import SMESH
 from .putName import putName
-def mailleFacesPeau(partitionsPeauFissFond, idFillingFromBout, facesDefaut,
+def mailleFacesPeau(partitionsPeauFissFond, idFillingFromBout, facesDefaut, \
-                    facesPeaux, edCircPeau, ptCircPeau, gpedgeBord, gpedgeVifs, edFissPeau,
+                    facesPeaux, edCircPeau, ptCircPeau, gpedgeBord, gpedgeVifs, edFissPeau, \
-                    bordsLibres, grpEdgesPeauFissureExterne, grpAretesVives,
+                    bordsLibres, grpEdgesPeauFissureExterne, grpAretesVives, \
-                    edgesCircPipeGroup, dmoyen, rayonPipe, nbsegRad):
+                    edgesCircPipeGroup, dmoyen, rayonPipe, nbsegRad, \
-  """
+                    mailleur="MeshGems"):
-  maillage faces de peau
+  """maillage faces de peau"""
  """
  logging.info('start')
  logging.info(mailleur)
  nbFacesFilling = len(partitionsPeauFissFond)
  boutFromIfil = [None for i in range(nbFacesFilling)]
  if idFillingFromBout[0] != idFillingFromBout[1]: # repérage des extremites du pipe quand elles débouchent sur des faces différentes
    boutFromIfil[idFillingFromBout[0]] = 0
    boutFromIfil[idFillingFromBout[1]] = 1
-  
+
-  logging.debug("---------------------------- maillage faces de peau --------------")
+  logging.info("---------------------------- maillage faces de peau --------------")
-  meshesFacesPeau = []
+  logging.info("nbFacesFilling = %d", nbFacesFilling)
  meshesFacesPeau = list()
  for ifil in range(nbFacesFilling):
    meshFacePeau = None
    if partitionsPeauFissFond[ifil] is None: # face de peau maillage sain intacte
@ -57,49 +60,52 @@ def mailleFacesPeau(partitionsPeauFissFond, idFillingFromBout, facesDefaut,
      groupEdgesBordPeau = geompy.CreateGroup(filling, geompy.ShapeType["EDGE"])
      geompy.UnionList(groupEdgesBordPeau, edgesFilling)
      geomPublishInFather(initLog.debug,filling, groupEdgesBordPeau , "EdgesBords")
-      
+
      meshFacePeau = smesh.Mesh(facesDefaut[ifil])
-      
+
      algo1d = meshFacePeau.UseExisting1DElements(geom=groupEdgesBordPeau)
      hypo1d = algo1d.SourceEdges([ bordsLibres ],0,0)
      putName(algo1d.GetSubMesh(), "bordsLibres", ifil)
      putName(algo1d, "algo1d_bordsLibres", ifil)
      putName(hypo1d, "hypo1d_bordsLibres", ifil)
-      
+
    else:
-      
+
-      logging.debug("meshFacePeau %d coupée par la fissure", ifil)
+      logging.info("meshFacePeau %d coupée par la fissure", ifil)
      facePeau           = facesPeaux[ifil] # pour chaque face : la face de peau finale a mailler (percée des faces débouchantes)
      edgesCircPeau      = edCircPeau[ifil] # pour chaque face de peau : [subshape edge circulaire aux débouchés du pipe]
-      verticesCircPeau   = ptCircPeau[ifil] # pour chaque face de peau : [subshape point sur edge circulaire aux débouchés du pipe]
+      _                  = ptCircPeau[ifil] # pour chaque face de peau : [subshape point sur edge circulaire aux débouchés du pipe]
      groupEdgesBordPeau = gpedgeBord[ifil] # pour chaque face de peau : groupe subshape des edges aux bords liés à la partie saine
      bordsVifs          = gpedgeVifs[ifil] # pour chaque face de peau : groupe subshape des edges aux bords correspondant à des arêtes vives
      edgesFissurePeau   = edFissPeau[ifil] # pour chaque face de peau : [subshape edge en peau des faces de fissure externes]
      logging.info("a")
      meshFacePeau = smesh.Mesh(facePeau)
-      
+
      algo1d = meshFacePeau.UseExisting1DElements(geom=groupEdgesBordPeau)
      hypo1d = algo1d.SourceEdges([ bordsLibres ],0,0)
      putName(algo1d.GetSubMesh(), "bordsLibres", ifil)
      putName(algo1d, "algo1d_bordsLibres", ifil)
      putName(hypo1d, "hypo1d_bordsLibres", ifil)
-      
+
      logging.info("b")
      algo1d = meshFacePeau.UseExisting1DElements(geom=geompy.MakeCompound(edgesFissurePeau))
      hypo1d = algo1d.SourceEdges([ grpEdgesPeauFissureExterne ],0,0)
      putName(algo1d.GetSubMesh(), "edgePeauFiss", ifil)
      putName(algo1d, "algo1d_edgePeauFiss", ifil)
      putName(hypo1d, "hypo1d_edgePeauFiss", ifil)
-      
+
      if bordsVifs is not None:
        algo1d = meshFacePeau.UseExisting1DElements(geom=bordsVifs)
        hypo1d = algo1d.SourceEdges([ grpAretesVives ],0,0)
        putName(algo1d.GetSubMesh(), "bordsVifs", ifil)
        putName(algo1d, "algo1d_bordsVifs", ifil)
        putName(hypo1d, "hypo1d_bordsVifs", ifil)
-        
+
      for i, edgeCirc in enumerate(edgesCircPeau):
        logging.info("i = {}".format(i))
        if edgeCirc is not None:
-          algo1d = meshFacePeau.UseExisting1DElements(geom=edgeCirc)
+          algo1d = meshFacePeau.UseExisting1DElements(geom=edgeCirc) # addToStudy() failed ?
          if boutFromIfil[ifil] is None:
            hypo1d = algo1d.SourceEdges([ edgesCircPipeGroup[i] ],0,0)
          else:
@ -108,22 +114,41 @@ def mailleFacesPeau(partitionsPeauFissFond, idFillingFromBout, facesDefaut,
          putName(algo1d.GetSubMesh(), name, ifil)
          putName(algo1d, "algo1d_" + name, ifil)
          putName(hypo1d, "hypo1d_" + name, ifil)
-   
+
-    algo2d = meshFacePeau.Triangle(algo=smeshBuilder.NETGEN_1D2D)
+    logging.info("c")
-    hypo2d = algo2d.Parameters()
+    logging.info("Maillage avec %s", mailleur)
-    hypo2d.SetMaxSize( dmoyen )
+    if ( mailleur == "MeshGems"):
-    hypo2d.SetOptimize( 1 )
+      algo2d = meshFacePeau.Triangle(algo=smeshBuilder.MG_CADSurf)
-    hypo2d.SetFineness( 2 )
+      hypo2d = algo2d.Parameters()
-    hypo2d.SetMinSize( rayonPipe/float(nbsegRad) )
+      hypo2d.SetPhySize( dmoyen )
-    hypo2d.SetQuadAllowed( 0 )
+      hypo2d.SetMinSize( rayonPipe/float(nbsegRad) )
      hypo2d.SetMaxSize( dmoyen*2. )
      hypo2d.SetChordalError( dmoyen*0.25 )
      hypo2d.SetVerbosity( 0 )
    else:
      algo2d = meshFacePeau.Triangle(algo=smeshBuilder.NETGEN_1D2D)
      hypo2d = algo2d.Parameters()
      hypo2d.SetMaxSize( dmoyen )
      hypo2d.SetOptimize( 1 )
      hypo2d.SetFineness( 2 )
      hypo2d.SetMinSize( rayonPipe/float(nbsegRad) )
      hypo2d.SetQuadAllowed( 0 )
    logging.info("d")
    putName(algo2d.GetSubMesh(), "facePeau", ifil)
    putName(algo2d, "algo2d_facePeau", ifil)
    putName(hypo2d, "hypo2d_facePeau", ifil)
-      
+
-    isDone = meshFacePeau.Compute()
+    is_done = meshFacePeau.Compute()
-    logging.info("meshFacePeau %d fini", ifil)
+    text = "meshFacePeau {} .Compute".format(ifil)
    if is_done:
      logging.info(text+" OK")
    else:
      text = "Erreur au calcul du maillage.\n" + text
      logging.info(text)
      raise Exception(text)
    GroupFaces = meshFacePeau.CreateEmptyGroup( SMESH.FACE, "facePeau%d"%ifil )
-    nbAdd = GroupFaces.AddFrom( meshFacePeau.GetMesh() )
+    _ = GroupFaces.AddFrom( meshFacePeau.GetMesh() )
    meshesFacesPeau.append(meshFacePeau)
-  return meshesFacesPeau
+  return meshesFacesPeau
--- a/src/Tools/blocFissure/gmu/meshBlocPart.py
+++ b/src/Tools/blocFissure/gmu/meshBlocPart.py
@ -29,12 +29,13 @@ from .putName import putName
 # -----------------------------------------------------------------------------
 # --- maillage du bloc partitionne
-def meshBlocPart(blocPartition, faceFissure, tore, centres, edges, diams, circles, faces,
+def meshBlocPart(blocPartition, faceFissure, tore, centres, edges, diams, circles, faces, \
-                gencnt, facefissoutore, edgeext, facesExternes, facesExtBloc, facesExtElli,
+                gencnt, facefissoutore, edgeext, facesExternes, facesExtBloc, facesExtElli, \
-                aretesInternes, internalBoundary, ellipsoidep, sharedFaces, sharedEdges, edgesBords,
+                aretesInternes, internalBoundary, ellipsoidep, sharedFaces, sharedEdges, edgesBords, \
-                nbsegExt, nbsegGen, nbsegRad, scaleRad, reverses, reverext, nbsegCercle, nbsegFis, dmoyen, lensegEllipsoide):
+                nbsegExt, nbsegGen, nbsegRad, scaleRad, reverses, reverext, nbsegCercle, nbsegFis, dmoyen, lensegEllipsoide, \
-  """
+                mailleur="MeshGems"):
-  Maillage du bloc partitionné
+  """Maillage du bloc partitionné
  TODO: a completer
  """
  logging.info('start')
@ -43,7 +44,7 @@ def meshBlocPart(blocPartition, faceFissure, tore, centres, edges, diams, circle
  aFilterManager = smesh.CreateFilterManager()
  nbAdded, internalBoundary, _NoneGroup = internalBoundary.MakeBoundaryElements( SMESH.BND_1DFROM2D, '', '', 0, [  ])
-  criteres = []
+  criteres = list()
  unCritere = smesh.GetCriterion(SMESH.EDGE,SMESH.FT_FreeBorders,SMESH.FT_Undefined,0)
  criteres.append(unCritere)
  filtre = smesh.GetFilterFromCriteria(criteres)
@ -54,8 +55,8 @@ def meshBlocPart(blocPartition, faceFissure, tore, centres, edges, diams, circle
  bloc1 = smesh.Mesh(blocPartition)
-  for i in range(len(sharedFaces)):
+  for i, sharedFaces_i in enumerate(sharedFaces):
-    algo2d = bloc1.Triangle(algo=smeshBuilder.NETGEN, geom=sharedFaces[i])
+    algo2d = bloc1.Triangle(algo=smeshBuilder.NETGEN, geom=sharedFaces_i)
    hypo2d = algo2d.Parameters(which=smesh.SIMPLE)
    hypo2d.SetLocalLength(lensegEllipsoide)
    hypo2d.LengthFromEdges()
@ -64,8 +65,8 @@ def meshBlocPart(blocPartition, faceFissure, tore, centres, edges, diams, circle
    putName(algo2d, "algo2d_sharedFaces", i)
    putName(hypo2d, "hypo2d_sharedFaces", i)
-  for i in range(len(sharedEdges)):
+  for i, sharedEdges_i in enumerate(sharedEdges):
-    algo1d = bloc1.Segment(geom=sharedEdges[i])
+    algo1d = bloc1.Segment(geom=sharedEdges_i)
    hypo1d = algo1d.LocalLength(lensegEllipsoide)
    putName(algo1d.GetSubMesh(), "sharedEdges", i)
    putName(algo1d, "algo1d_sharedEdges", i)
@ -89,28 +90,28 @@ def meshBlocPart(blocPartition, faceFissure, tore, centres, edges, diams, circle
  putName(algo1d, "algo1d_tore")
  putName(hypo1d, "hypo1d_tore")
-  for i in range(len(faces)):
+  for i, faces_i in enumerate(faces):
-    algo2d = bloc1.Quadrangle(geom=faces[i])
+    algo2d = bloc1.Quadrangle(geom=faces_i)
    hypo2d = smesh.CreateHypothesis('QuadrangleParams')
    hypo2d.SetTriaVertex( geompy.GetSubShapeID(blocPartition,centres[i]) )
    hypo2d.SetQuadType( StdMeshersBuilder.QUAD_STANDARD )
-    status = bloc1.AddHypothesis(hypo2d,faces[i])
+    status = bloc1.AddHypothesis(hypo2d,faces_i)
    putName(algo2d.GetSubMesh(), "faces", i)
    putName(algo2d, "algo2d_faces", i)
    putName(hypo2d, "hypo2d_faces", i)
-  for i in range(len(edges)):
+  for i, edges_i in enumerate(edges):
-    algo1d = bloc1.Segment(geom=edges[i])
+    algo1d = bloc1.Segment(geom=edges_i)
    if reverses[i] > 0:
-      hypo1d = algo1d.NumberOfSegments(nbsegRad, scaleRad,[ geompy.GetSubShapeID(blocPartition,edges[i]) ])
+      hypo1d = algo1d.NumberOfSegments(nbsegRad, scaleRad,[ geompy.GetSubShapeID(blocPartition,edges_i) ])
    else:
      hypo1d = algo1d.NumberOfSegments(nbsegRad, scaleRad,[  ])
    putName(algo1d.GetSubMesh(), "edges", i)
    putName(algo1d, "algo1d_edges", i)
    putName(hypo1d, "hypo1d_edges", i)
-  for i in range(len(circles)):
+  for i, circles_i in enumerate(circles):
-    algo1d = bloc1.Segment(geom=circles[i])
+    algo1d = bloc1.Segment(geom=circles_i)
    hypo1d = algo1d.NumberOfSegments(nbsegCercle)
    putName(algo1d.GetSubMesh(), "circles", i)
    putName(algo1d, "algo1d_circles", i)
@ -128,22 +129,22 @@ def meshBlocPart(blocPartition, faceFissure, tore, centres, edges, diams, circle
    putName(hypo1d, "hypo1d_edgeext")
  else:
    longTotal = 0
-    longEdgeExts = []
+    longEdgeExts = list()
-    for i in range(len(edgeext)):
+    for i, edgeext_i in enumerate(edgeext):
-      props = geompy.BasicProperties(edgeext[i])
+      props = geompy.BasicProperties(edgeext_i)
      longEdgeExts.append(props[0])
      longTotal += props[0]
-    for i in range(len(edgeext)):
+    for i, edgeext_i in enumerate(edgeext):
      local = longTotal/nbsegFis
      nbLocal = int(round(nbsegFis*longEdgeExts[i]/longTotal))
      densite = int(round(nbLocal/2))
-      algo1d = bloc1.Segment(geom=edgeext[i])
+      algo1d = bloc1.Segment(geom=edgeext_i)
      hypo1d = algo1d.NumberOfSegments(nbLocal)
      hypo1d.SetDistrType( 2 )
      hypo1d.SetConversionMode( 1 )
      hypo1d.SetTableFunction( [ 0, densite, 0.8, 1, 1, 1 ] )
      if reverext[i]:
-        hypo1d.SetReversedEdges([ geompy.GetSubShapeID(blocPartition, edgeext[i]) ])
+        hypo1d.SetReversedEdges([ geompy.GetSubShapeID(blocPartition, edgeext_i) ])
      putName(algo1d.GetSubMesh(), "edgeext", i)
      putName(algo1d, "algo1d_edgeext", i)
      putName(hypo1d, "hypo1d_edgeext", i)
@ -158,11 +159,11 @@ def meshBlocPart(blocPartition, faceFissure, tore, centres, edges, diams, circle
  maxElemArea = 0.5*dmoyen*dmoyen
  logging.debug("dmoyen %s, maxElemArea %s", dmoyen, maxElemArea)
-  for i in range(len(facesExternes)):
+  for i, facesExternes_i in enumerate(facesExternes):
-    algo2d = bloc1.Triangle(algo=smeshBuilder.NETGEN_2D, geom=facesExternes[i])
+    algo2d = bloc1.Triangle(algo=smeshBuilder.NETGEN_2D, geom=facesExternes_i)
    hypo2d = algo2d.MaxElementArea(maxElemArea)
    if edgesBords is None:
-      algo1d = bloc1.Segment(geom=facesExternes[i])
+      algo1d = bloc1.Segment(geom=facesExternes_i)
      hypo1d = algo1d.NumberOfSegments(1)
    putName(algo2d.GetSubMesh(), "facesExternes", i)
    putName(algo2d, "algo2d_facesExternes", i)
@ -171,8 +172,8 @@ def meshBlocPart(blocPartition, faceFissure, tore, centres, edges, diams, circle
      putName(algo1d, "algo1d_facesExternes", i)
      putName(hypo1d, "hypo1d_facesExternes", i)
-  for i in range(len(aretesInternes)):
+  for i, aretesInternes_i in enumerate(aretesInternes):
-    algo1d = bloc1.Segment(geom=aretesInternes[i])
+    algo1d = bloc1.Segment(geom=aretesInternes_i)
    hypo1d = algo1d.NumberOfSegments(nbsegExt)
    putName(algo1d.GetSubMesh(), "aretesInternes", i)
    putName(algo1d, "algo1d_aretesInternes", i)
@ -185,8 +186,6 @@ def meshBlocPart(blocPartition, faceFissure, tore, centres, edges, diams, circle
    putName(algo1d, "algo1d_bordsLibres")
    putName(hypo1d, "hypo1d_bordsLibres")
  #isDone = bloc1.Compute()
  if not declareAlgoEllipsoideFirst:
    algo3d = bloc1.Tetrahedron(algo=smeshBuilder.NETGEN,geom=ellipsoidep)
    hypo3d = algo3d.MaxElementVolume(1000.0)
@ -194,33 +193,40 @@ def meshBlocPart(blocPartition, faceFissure, tore, centres, edges, diams, circle
    putName(algo3d, "algo3d_ellipsoide")
    putName(hypo3d, "hypo3d_ellipsoide")
  isDone = bloc1.Compute()
  nbRemoved = bloc1.RemoveOrphanNodes()
  faceFissure1 = bloc1.GroupOnGeom(faceFissure,'FACE1',SMESH.FACE)
  noeudsFondFissure = bloc1.GroupOnGeom(gencnt,'nfondfis',SMESH.NODE)
-  groups_faceCommuneEllipsoideBloc = []
+  groups_faceCommuneEllipsoideBloc = list()
-  for i in range(len(sharedFaces)):
+  for i, sharedFaces_i in enumerate(sharedFaces):
    name = "faceCommuneEllipsoideBloc_%d"%i
-    groups_faceCommuneEllipsoideBloc.append(bloc1.GroupOnGeom(sharedFaces[i], name, SMESH.FACE))
+    groups_faceCommuneEllipsoideBloc.append(bloc1.GroupOnGeom(sharedFaces_i, name, SMESH.FACE))
-  groups_faceExterneBloc = []
+  groups_faceExterneBloc = list()
-  for i in range(len(facesExtBloc)):
+  for i, facesExtBloc_i in enumerate(facesExtBloc):
    name = "faceExterneBloc_%d"%i
-    groups_faceExterneBloc.append(bloc1.GroupOnGeom(facesExtBloc[i], name, SMESH.FACE))
+    groups_faceExterneBloc.append(bloc1.GroupOnGeom(facesExtBloc_i, name, SMESH.FACE))
-  skinBlocMeshes = []
+  is_done = bloc1.Compute()
-  for i in range(len(groups_faceCommuneEllipsoideBloc)):
+  text = "bloc1.Compute"
  if is_done:
    logging.info(text+" OK")
  else:
    text = "Erreur au calcul du maillage.\n" + text
    logging.info(text)
    raise Exception(text)
  nbRemoved = bloc1.RemoveOrphanNodes()
  skinBlocMeshes = list()
  for i, groups_faceCommuneEllipsoideBloc_i in enumerate(groups_faceCommuneEllipsoideBloc):
    name = "faceCommuneEllipsoideBloc_%d"%i
-    skinBlocMeshes.append(smesh.CopyMesh(groups_faceCommuneEllipsoideBloc[i], name, 0, 0))
+    skinBlocMeshes.append(smesh.CopyMesh(groups_faceCommuneEllipsoideBloc_i, name, 0, 0))
-  for i in range(len(groups_faceExterneBloc)):
+  for i, groups_faceExterneBloc_i in enumerate(groups_faceExterneBloc):
    name = "faceExterneBloc_%d"%i
-    skinBlocMeshes.append(smesh.CopyMesh(groups_faceExterneBloc[i], name, 0, 0))
+    skinBlocMeshes.append(smesh.CopyMesh(groups_faceExterneBloc_i, name, 0, 0))
  meshesBloc = [internalBoundary.GetMesh()]
-  for i in range(len(skinBlocMeshes)):
+  for i, skinBlocMeshes_i in enumerate(skinBlocMeshes):
-    meshesBloc.append(skinBlocMeshes[i].GetMesh())
+    meshesBloc.append(skinBlocMeshes_i.GetMesh())
  blocMesh = smesh.Concatenate(meshesBloc, 1, 1, 1e-05,False)
  algo3d = blocMesh.Tetrahedron(algo=smeshBuilder.NETGEN)
@ -230,7 +236,14 @@ def meshBlocPart(blocPartition, faceFissure, tore, centres, edges, diams, circle
  putName(hypo3d, "hypo3d_bloc")
  is_done = blocMesh.Compute()
  text = "blocMesh.Compute"
  if is_done:
    logging.info(text+" OK")
  else:
    text = "Erreur au calcul du maillage.\n" + text
    logging.info(text)
    raise Exception(text)
  blocComplet = smesh.Concatenate([bloc1.GetMesh(), blocMesh.GetMesh()], 1, 1, 1e-05,False)
-  return bloc1, blocComplet
+  return bloc1, blocComplet
--- a/src/Tools/blocFissure/gmu/orderEdgesFromWire.py
+++ b/src/Tools/blocFissure/gmu/orderEdgesFromWire.py
@ -32,7 +32,7 @@ def orderEdgesFromWire(aWire):
  logging.info("start")
  edges = geompy.ExtractShapes(aWire, geompy.ShapeType["EDGE"], False)
-  idverts = {}
+  idverts = dict()
  for i, edge in enumerate(edges):
    verts = geompy.ExtractShapes(edge, geompy.ShapeType["VERTEX"], True)
 #    idverts[(i,0)] = verts[0]
@ -46,7 +46,7 @@ def orderEdgesFromWire(aWire):
      idverts[(i,0)] = verts[1]
      idverts[(i,1)] = verts[0]
-  idsubs = {}
+  idsubs = dict()
  for kv, sub in idverts.items():
    subid = geompy.GetSubShapeID(aWire, sub)
    if subid in list(idsubs.keys()):
@ -63,7 +63,7 @@ def orderEdgesFromWire(aWire):
        debut = kv[0]
      else:
        fin = kv[0]
-  logging.debug("nombre d'edges: %s, indice edge début: %s, fin: %s",len(edges), debut, fin)
+  logging.debug("nombre d'edges: {}, indice edge début: {}, fin: {}".format(len(edges), debut, fin))
  if debut < 0:
    logging.critical("les edges du wire ne sont pas orientées dans le même sens: pas de début trouvé")
    return edges, list(range(len(edges)))
@ -82,9 +82,9 @@ def orderEdgesFromWire(aWire):
            logging.critical("les edges du wire ne sont pas orientées dans le même sens: une edge à l'envers")
            return edges, list(range(len(edges)))
-  logging.debug("liste des edges ordonnées selon le sens de parcours: %s", orderedList)
+  logging.debug("liste des edges ordonnées selon le sens de parcours : {}".format(orderedList))
  accessList = list(range(len(orderedList)))
  for i,k in enumerate(orderedList):
    accessList[k] = i
-  logging.info("position ordonnée des edges selon le sens de parcours: %s", accessList)
+  logging.info("position ordonnée des edges selon le sens de parcours : {}".format(accessList))
  return edges, accessList
--- a/src/Tools/blocFissure/gmu/peauInterne.py
+++ b/src/Tools/blocFissure/gmu/peauInterne.py
@ -31,63 +31,75 @@ from .fusionMaillageAttributionDefaut import fusionMaillageDefaut
 # --- peau interne du defaut dans le maillage sain
 def peauInterne(fichierMaillage, shapeDefaut, nomZones):
-  """
+  """Retrouve les groupes de défaut dans le maillage sain modifié par CreateHoleSkin (CreeZoneDefautMaillage)
-  Retrouve les groupes de défaut dans le maillage sain modifié par CreateHoleSkin (CreeZoneDefautMaillage)
+
  On récupère le volume et la peau de la zone de défaut, les éventuelles faces et arêtes internes de cette zone.
  Remarque : intérêt du passage par fichierMaillage plutôt que par maillageSain ?
  """
  logging.info("start")
  ([maillageSain], status) = smesh.CreateMeshesFromMED(fichierMaillage)
  groups = maillageSain.GetGroups()
  #print ("groupes :")
  #for grp in groups:
    #print ("\t{}".format(grp.GetName()))
  zoneDefaut = None
  for grp in groups:
    logging.debug("groupe %s",grp.GetName())
    if grp.GetName() == nomZones + "_vol":
      zoneDefaut = grp
      break
  #print ("zoneDefaut = {}".format(zoneDefaut))
  zoneDefaut_skin = None
  for grp in groups:
    if grp.GetName() == nomZones + "_skin":
      zoneDefaut_skin = grp
      break
  #print ("zoneDefaut_skin = {}".format(zoneDefaut_skin))
  zoneDefaut_internalFaces = None
  for grp in groups:
    if grp.GetName() == nomZones + "_internalFaces":
      zoneDefaut_internalFaces = grp
      break
  #print ("zoneDefaut_internalFaces = {}".format(zoneDefaut_internalFaces))
  zoneDefaut_internalEdges = None
  for grp in groups:
    if grp.GetName() == nomZones + "_internalEdges":
      zoneDefaut_internalEdges = grp
      break
-    
+  #print ("zoneDefaut_internalEdges = {}".format(zoneDefaut_internalEdges))
  # --- Le groupe ZoneDefaut ne doit contenir que des Hexaèdres"
-  
+
-  info=maillageSain.GetMeshInfo(zoneDefaut)
+  info = maillageSain.GetMeshInfo(zoneDefaut)
-  keys = list(info.keys()); keys.sort()
+  #print ("info = {}".format(info))
-  nbelem=0
+  nbelem = 0
-  nbhexa=0
+  nbhexa = 0
-  for i in keys:
+  for entity_type in info:
-    #print "  %s  :  %d" % ( i, info[i] )
+    #print (". {} : {})".format(entity_type, info[entity_type]))
-    nbelem+=info[i]
+    nbelem += info[entity_type]
-    if "Entity_Hexa" in str(i):
+    if ("Entity_Hexa" == str(entity_type)):
-      nbhexa+=info[i]
+      nbhexa += info[entity_type]
-  if (nbelem == 0) or (nbhexa < nbelem) :
+      nbhexa += info[entity_type]
  #print ("==> nbelem = {}, nbhexa = {}".format(nbelem,nbhexa))
  if ( (nbelem == 0) or (nbhexa < nbelem) ):
    print ("==> nbelem = {}, nbhexa = {}".format(nbelem,nbhexa))
    texte = "La zone a remailler est incorrecte.<br>"
    texte += "Causes possibles :<ul>"
    texte += "<li>Les mailles à enlever dans le maillage sain n'ont pas été détectées.</li>"
    texte += "<li>Certaines faces du maillage sain sont à l'envers : les normales aux faces en paroi de volume doivent être sortantes.</li>"
-    texte += "<li>Il n'y a pas que des Hexaèdres réglés linéaires dans la zone à remailler (notamment mailles quadratiques, tetraèdres non traités)</li></ul>"
+    texte += "<li>Il n'y a pas que des hexaèdres réglés linéaires dans la zone à remailler (notamment mailles quadratiques, tetraèdres non traités)</li></ul>"
    raise fissError(traceback.extract_stack(),texte)
  nbAdded, maillageSain, DefautBoundary = maillageSain.MakeBoundaryElements( SMESH.BND_2DFROM3D, 'DefBound', '', 0, [ zoneDefaut ])
  internal = maillageSain.GetMesh().CutListOfGroups( [ DefautBoundary ], [ zoneDefaut_skin ], 'internal' )
  internalBoundary = smesh.CopyMesh( internal, 'internalBoundary', 0, 0)
-  
+
  maillageDefautCible = smesh.CopyMesh(zoneDefaut_skin, 'maillageCible', 0, 0)
  listOfCorner = lookForCorner(maillageDefautCible)
-  logging.debug("listOfCorner = %s", listOfCorner)
+  logging.debug("listOfCorner = {}".format(listOfCorner))
-  if len(listOfCorner) > 0:
+  if listOfCorner:
      logging.info("présence de coins à la surface externe de la zone à reconstruire")
      zoneDefaut_skin, internalBoundary = fusionMaillageDefaut(maillageSain, maillageDefautCible, internalBoundary, zoneDefaut_skin, shapeDefaut, listOfCorner)
--- a/src/Tools/blocFissure/gmu/quadranglesToShapeWithCorner.py
+++ b/src/Tools/blocFissure/gmu/quadranglesToShapeWithCorner.py
@ -36,101 +36,101 @@ from .listOfExtraFunctions import createLinesFromMesh
 # -----------------------------------------------------------------------------
 # --- groupe de quadrangles de face transformé en face géométrique par filling
-def quadranglesToShapeWithCorner(meshQuad, shapeDefaut, shapeFissureParams, centreFondFiss, listOfCorners):
+def quadranglesToShapeWithCorner(meshQuad, shapeDefaut, listOfCorners):
-    """ """
+  """ """
-    # TODO: rédiger la docstring
+  # TODO: rédiger la docstring
    logging.info("start")
-    #fillings = [[], []]
+  logging.info("start")
-    tmpFillings = []
+
-    noeuds_bords = []
+  #fillings = [list(), list()]
-    #bords_Partages = [[], []]
+  tmpFillings = list()
-    tmpBords = []
+  noeuds_bords = list()
-    fillconts = []
+  #bords_Partages = [list(), list()]
-    idFilToCont = []
+  tmpBords = list()
-    
+  fillconts = list()
-    facesNonCoupees = []
+  idFilToCont = list()
-    facesCoupees = []
+
-    aretesNonCoupees = []
+  facesNonCoupees = list()
-    aretesCoupees = []
+  facesCoupees = list()
-    
+  aretesNonCoupees = list()
-    setOfNodes = []
+  aretesCoupees = list()
-    setOfLines = []
+
-    listOfEdges = []
+  setOfNodes = list()
-    # On crée une liste contenant le maillage de chaque face.
+  setOfLines = list()
-    listOfNewMeshes = createNewMeshesFromCorner(meshQuad, listOfCorners)
+  listOfEdges = list()
-    for msh in listOfNewMeshes:
+  # On crée une liste contenant le maillage de chaque face.
-        # On crée une liste de noeuds correspondant aux faces suivant
+  listOfNewMeshes = createNewMeshesFromCorner(meshQuad, listOfCorners)
-        # le modèle liste[face][ligne][noeud].
+  for msh in listOfNewMeshes:
-        lines = createLinesFromMesh(msh, listOfCorners[0])
+    # On crée une liste de noeuds correspondant aux faces suivant
-        setOfNodes.append(lines)
+    # le modèle liste[face][ligne][noeud].
-    
+    #lines = createLinesFromMesh(msh, listOfCorners[0])
-    for face in setOfNodes:
+    lines = createLinesFromMesh(msh)
-        tmpFace = []
+    setOfNodes.append(lines)
-        for line in face:
+
-            # On possède l'information 'ID' de chaque noeud composant chaque
+  for face in setOfNodes:
-            # ligne de chaque face. A partir de l'ID, on crée un vertex. Un
+    tmpFace = list()
-            # ensemble de vertices constitue une ligne. Un ensemble de lignes
+    for line in face:
-            # constitue une face.
+      # On possède l'information 'ID' de chaque noeud composant chaque
-            tmpCoords = [meshQuad.GetNodeXYZ(node) for node in line]
+      # ligne de chaque face. A partir de l'ID, on crée un vertex. Un
-            tmpPoints = [geompy.MakeVertex(val[0], val[1], val[2]) for val in tmpCoords]
+      # ensemble de vertices constitue une ligne. Un ensemble de lignes
-            line = geompy.MakeInterpol(tmpPoints, False, False)
+      # constitue une face.
-            tmpFace.append(line)
+      tmpCoords = [meshQuad.GetNodeXYZ(node) for node in line]
-        setOfLines.append(tmpFace)
+      tmpPoints = [geompy.MakeVertex(val[0], val[1], val[2]) for val in tmpCoords]
-    
+      line = geompy.MakeInterpol(tmpPoints, False, False)
-    for i, face in enumerate(setOfLines):
+      tmpFace.append(line)
-        # A partir des lignes de chaque face,
+    setOfLines.append(tmpFace)
-        # on recrée un objet GEOM temporaire par filling.
+
-        filling = geompy.MakeFilling(geompy.MakeCompound(face), 2, 5, 0.0001, 0.0001, 0, GEOM.FOM_Default, True)
+  for i, face in enumerate(setOfLines):
-        geomPublish(initLog.debug, filling, 'filling_{0}'.format(i + 1)) 
+    # A partir des lignes de chaque face,
-        tmpFillings.append(filling)
+    # on recrée un objet GEOM temporaire par filling.
    filling = geompy.MakeFilling(geompy.MakeCompound(face), 2, 5, 0.0001, 0.0001, 0, GEOM.FOM_Default, True)
    geomPublish(initLog.debug, filling, 'filling_{}'.format(i + 1))
    tmpFillings.append(filling)
  for face in setOfNodes:
    # On prend la première ligne qui correspond aux bords partagés
    listOfEdges.append(face[0])
  for edge in listOfEdges:
    # On utilise les points de bords pour créer des aretes vives
    tmpCoords = [meshQuad.GetNodeXYZ(node) for node in list(edge)]
    tmpPoints = [geompy.MakeVertex(val[0], val[1], val[2]) for val in tmpCoords]
    line = geompy.MakeInterpol(tmpPoints, False, False)
    tmpBords.append(line)
  for i, filling in enumerate(tmpFillings):
    tmpPartition = geompy.MakePartition([filling], [shapeDefaut], list(), list(), geompy.ShapeType["FACE"], 0, list(), 0, True)
    tmpExplodeRef = geompy.ExtractShapes(filling, geompy.ShapeType["EDGE"], True)
    tmpExplodeNum = geompy.ExtractShapes(tmpPartition, geompy.ShapeType["EDGE"], True)
    if len(tmpExplodeRef) == len(tmpExplodeNum):
      geomPublish(initLog.debug, filling, "faceNonCoupee_{}".format(i + 1))
      facesNonCoupees.append(filling)
    else:
      geomPublish(initLog.debug, filling, "faceCoupee_{}".format(i + 1))
      facesCoupees.append(filling)
  fillings = facesCoupees, facesNonCoupees
  for i, filling in enumerate(tmpBords):
    tmpPartition = geompy.MakePartition([shapeDefaut], [filling], list(), list(), geompy.ShapeType["SHELL"], 0, list(), 0, True)
    tmpExplodeRef = geompy.ExtractShapes(shapeDefaut, geompy.ShapeType["EDGE"], True) + geompy.ExtractShapes(shapeDefaut, geompy.ShapeType["VERTEX"], True)
    tmpExplodeNum = geompy.ExtractShapes(tmpPartition, geompy.ShapeType["EDGE"], True) + geompy.ExtractShapes(tmpPartition, geompy.ShapeType["VERTEX"], True)
    if len(tmpExplodeRef) == len(tmpExplodeNum):
      geomPublish(initLog.debug, filling, "areteNonCoupee_{}".format(i + 1))
      aretesNonCoupees.append(filling)
    else:
      geomPublish(initLog.debug, filling, "areteCoupee_{}".format(i + 1))
      aretesCoupees.append(filling)
  bords_Partages = aretesCoupees, aretesNonCoupees
    for face in setOfNodes:
        # On prend la première ligne qui correspond aux bords partagés
        listOfEdges.append(face[0])
    for edge in listOfEdges:
        # On utilise les points de bords pour créer des aretes vives
        tmpCoords = [meshQuad.GetNodeXYZ(node) for node in list(edge)]
        tmpPoints = [geompy.MakeVertex(val[0], val[1], val[2]) for val in tmpCoords]
        line = geompy.MakeInterpol(tmpPoints, False, False)
        tmpBords.append(line)
    for i, filling in enumerate(tmpFillings):
        tmpPartition = geompy.MakePartition([filling], [shapeDefaut], [], [], geompy.ShapeType["FACE"], 0, [], 0, True)
        tmpExplodeRef = geompy.ExtractShapes(filling, geompy.ShapeType["EDGE"], True)
        tmpExplodeNum = geompy.ExtractShapes(tmpPartition, geompy.ShapeType["EDGE"], True)
        if len(tmpExplodeRef) == len(tmpExplodeNum):
            geomPublish(initLog.debug, filling, "faceNonCoupee_{0}".format(i + 1))
            facesNonCoupees.append(filling)
        else:
            geomPublish(initLog.debug, filling, "faceCoupee_{0}".format(i + 1))
            facesCoupees.append(filling)
    fillings = facesCoupees, facesNonCoupees
    for i, filling in enumerate(tmpBords):
        tmpPartition = geompy.MakePartition([shapeDefaut], [filling], [], [], geompy.ShapeType["SHELL"], 0, [], 0, True)
        tmpExplodeRef = geompy.ExtractShapes(shapeDefaut, geompy.ShapeType["EDGE"], True) + geompy.ExtractShapes(shapeDefaut, geompy.ShapeType["VERTEX"], True)
        tmpExplodeNum = geompy.ExtractShapes(tmpPartition, geompy.ShapeType["EDGE"], True) + geompy.ExtractShapes(tmpPartition, geompy.ShapeType["VERTEX"], True)
        if len(tmpExplodeRef) == len(tmpExplodeNum):
            geomPublish(initLog.debug, filling, "areteNonCoupee_{0}".format(i + 1))
            aretesNonCoupees.append(filling)
        else:
            geomPublish(initLog.debug, filling, "areteCoupee_{0}".format(i + 1))
            aretesCoupees.append(filling)
    bords_Partages = aretesCoupees, aretesNonCoupees
 # TODO: A enlever
 #    for i, face in enumerate(setOfLines):
-#        for j, line in enumerate(face):
+#      for j, line in enumerate(face):
-#            geomPublish(initLog.debug, line, 'face{0}_ligne{1}'.format(i + 1, j + 1))
+#      geomPublish(initLog.debug, line, 'face{0}_ligne{1}'.format(i + 1, j + 1))
- #TODO: A enlever
+#TODO: A enlever
 #    for i, filling in enumerate(fillings[0]):
-#        geomPublish(initLog.debug, filling, 'filling_{0}'.format(i + 1))
+#      geomPublish(initLog.debug, filling, 'filling_{0}'.format(i + 1))
-#        for j, line in enumerate(setOfLines[i]):
+#      for j, line in enumerate(setOfLines[i]):
-#            geompy.addToStudyInFather(filling, line, 'line_{0}'.format(j + 1))
+#      geompy.addToStudyInFather(filling, line, 'line_{0}'.format(j + 1))
-    
+
-    return fillings, noeuds_bords, bords_Partages, fillconts, idFilToCont
+  return fillings, noeuds_bords, bords_Partages, fillconts, idFilToCont
--- a/src/Tools/blocFissure/gmu/regroupeSainEtDefaut.py
+++ b/src/Tools/blocFissure/gmu/regroupeSainEtDefaut.py
@ -18,17 +18,17 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """Maillage sain sans la zone de defaut"""
 import logging
 from .geomsmesh import geompy
 from .geomsmesh import smesh
 import SMESH
 from .geomsmesh import geompy
 # -----------------------------------------------------------------------------
 # --- maillage complet et fissure
 def RegroupeSainEtDefaut(maillageSain, blocComplet, extrusionFaceFissure, faceGeomFissure, nomVolume, normal = None):
-  """
+  """Maillage sain sans la zone de defaut
-  Maillage sain sans la zone de defaut
+
  TODO: a completer
  """
  logging.info('Concatenation')
@ -36,22 +36,26 @@ def RegroupeSainEtDefaut(maillageSain, blocComplet, extrusionFaceFissure, faceGe
  maillageComplet = smesh.Concatenate([maillageSain.GetMesh(), blocComplet.GetMesh()], 1, 1, 1e-05,False)
  groups = maillageComplet.GetGroups()
-  grps = [ grp for grp in groups if grp.GetName() == 'FACE1']
+  for grp in groups:
-  faceFissure = grps[0]
+    grp_nom = grp.GetName()
-  grps = [ grp for grp in groups if grp.GetName() == 'nfondfis']
+    if ( grp_nom == "FACE1" ):
-  noeudsFondFissure = grps[0]
+      faceFissure = grp
-  grps = [ grp for grp in groups if grp.GetName() == 'fisInPi']
+    elif ( grp_nom == "nfondfis" ):
-  fisInPi = grps[0]
+      noeudsFondFissure = grp
-  grps = [ grp for grp in groups if grp.GetName() == 'fisOutPi']
+    elif ( grp_nom == "fisInPi" ):
-  fisOutPi = grps[0]
+      fisInPi = grp
    elif ( grp_nom == "fisOutPi" ):
      fisOutPi = grp
  # --- TODO: fiabiliser l'orientation dans le cas general
  if normal is None:
    normal  = smesh.MakeDirStruct( 0, 0, 1 )
  logging.debug('après normal = {}'.format(normal))
  maillageComplet.Reorient2D( fisInPi,  normal, [0,0,0])
  logging.debug('après Reorient2D In')
  maillageComplet.Reorient2D( fisOutPi, normal, [0,0,0])
-    
+
-  shapes = []
+  shapes = list()
  if extrusionFaceFissure is not None:
    subIds = geompy.SubShapeAllIDs(extrusionFaceFissure, geompy.ShapeType["SOLID"])
    if len(subIds) > 1:
@ -64,40 +68,47 @@ def RegroupeSainEtDefaut(maillageSain, blocComplet, extrusionFaceFissure, faceGe
 #      shapes = geompy.ExtractShapes(faceGeomFissure, geompy.ShapeType["FACE"], False)
 #    else:
 #      shapes = [faceGeomFissure]
-    
+
-  grpEdges = []
+  grpEdges = list()
-  grpFaces = []
+  grpFaces = list()
-  grpVolumes = []
+  grpVolumes = list()
  if len(shapes) == 0:
    shapes = [None] # calcul uniquement avec les normales des faces mailles de la fissure
  for i, aShape in enumerate(shapes):
-    logging.info('Detection elements affectes par le dedoublement de la face %d'%i)
+    texte = "Detection elements affectes par le dedoublement de la face n° {}".format(i)
    logging.debug(texte)
    affectedGroups = maillageComplet.AffectedElemGroupsInRegion([faceFissure], [noeudsFondFissure], aShape)
-    grps = [ grp for grp in affectedGroups if grp.GetName() == 'affectedEdges']
+    for grp in affectedGroups:
-    affectedEdges = grps[0]
+      grp_nom = grp.GetName()
      if ( grp_nom == "affectedEdges" ):
        affectedEdges = grp
      elif ( grp_nom == "affectedFaces" ):
        affectedFaces = grp
      elif ( grp_nom == "affectedVolumes" ):
        affectedVolumes = grp
    #grps = [ grp for grp in affectedGroups if grp.GetName() == 'affectedEdges']
    #affectedEdges = grps[0]
    affectedEdges.SetName('affEd%d'%i)
    grpEdges.append(affectedEdges)
-    grps = [ grp for grp in affectedGroups if grp.GetName() == 'affectedFaces']
+    #grps = [ grp for grp in affectedGroups if grp.GetName() == 'affectedFaces']
-    affectedFaces = grps[0]
+    #affectedFaces = grps[0]
    affectedFaces.SetName('affFa%d'%i)
    grpFaces.append(affectedFaces)
-    grps = [ grp for grp in affectedGroups if grp.GetName() == 'affectedVolumes']
+    #grps = [ grp for grp in affectedGroups if grp.GetName() == 'affectedVolumes']
-    affectedVolumes = grps[0]
+    #affectedVolumes = grps[0]
    affectedVolumes.SetName('affVo%d'%i)
    grpVolumes.append(affectedVolumes)
  logging.info("union des groupes d'edges") 
  affectedEdges = maillageComplet.UnionListOfGroups(grpEdges, 'affEdges')
  logging.info("union des groupes de faces") 
  affectedFaces = maillageComplet.UnionListOfGroups(grpFaces, 'affFaces')
  logging.info("union des groupes de volumes") 
  affectedVolumes = maillageComplet.UnionListOfGroups(grpVolumes, 'affVols')
  for grp in affectedGroups:
-    logging.debug("nom groupe %s",grp.GetName())
+    texte = "Traitement du groupe '{}'".format(grp.GetName())
-  [ FACE2, FACE2_nodes ] = maillageComplet.DoubleNodeElemGroups([faceFissure], [noeudsFondFissure], affectedGroups, True, True)
+    logging.debug(texte)
  [ FACE2, _ ] = maillageComplet.DoubleNodeElemGroups([faceFissure], [noeudsFondFissure], affectedGroups, True, True)
  FACE2.SetName( 'FACE2' )
  # Groupe de toutes les mailles volumiques
  GroupVol = maillageComplet.CreateEmptyGroup( SMESH.VOLUME, nomVolume )
-  nbAdd = GroupVol.AddFrom( maillageComplet.GetMesh() )
+  _ = GroupVol.AddFrom( maillageComplet.GetMesh() )
  return maillageComplet
--- a/src/Tools/blocFissure/gmu/restreintFaceFissure.py
+++ b/src/Tools/blocFissure/gmu/restreintFaceFissure.py
@ -28,8 +28,8 @@ import traceback
 from .fissError import fissError
 def restreintFaceFissure(shapeDefaut, facesDefaut, pointInterne):
-  """
+  """restriction de la face de fissure au domaine solide
-  restriction de la face de fissure au domaine solide
+
  partition face fissure étendue par fillings
  """
  logging.info('start')
@ -39,7 +39,7 @@ def restreintFaceFissure(shapeDefaut, facesDefaut, pointInterne):
  if pointInterne is not None:
    distfaces = [(geompy.MinDistance(face,pointInterne), i, face) for i, face in enumerate(facesPartShapeDefaut)]
    distfaces.sort()
-    logging.debug("selection de la face la plus proche du point interne, distance=%s",distfaces[0][0])
+    logging.debug("selection de la face la plus proche du point interne, distance={}".format(distfaces[0][0]))
    facesPortFissure = distfaces[0][2]
  else:
    try:
@ -52,8 +52,8 @@ def restreintFaceFissure(shapeDefaut, facesDefaut, pointInterne):
      texte += "<li>le prémaillage de la face de fissure est trop grossier, les mailles à enlever dans le maillage sain "
      texte += "n'ont pas toutes été détectées.</li></ul>"
      raise fissError(traceback.extract_stack(),texte)
-    logging.debug("surfaces faces fissure étendue, min %s, max %s", minSurf, maxSurf)
+    logging.debug("surfaces faces fissure étendue, min {}, max {}".format(minSurf, maxSurf))
    facesPortFissure = facesPartShapeDefautSorted[-1]
-  
+
  geomPublish(initLog.debug, facesPortFissure, "facesPortFissure")
  return facesPortFissure
--- a/src/Tools/blocFissure/gmu/sortEdges.py
+++ b/src/Tools/blocFissure/gmu/sortEdges.py
@ -18,20 +18,17 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """tri par longueur d'edges"""
 import logging
 from .geomsmesh import geompy
 # -----------------------------------------------------------------------------
 # --- tri par longueur d'edges
 def sortEdges(edgesToSort):
-  """
+  """tri des edges par longueur"""
  tri des edges par longueur
  """
  logging.info('start')
-  lenEdges = [(geompy.BasicProperties(edge)[0], i, edge) for i, edge in enumerate(edgesToSort)]
+  l_length = [(geompy.BasicProperties(edge)[0], i, edge) for i, edge in enumerate(edgesToSort)]
-  lenEdges.sort()
+  l_length.sort()
-  edgesSorted = [edge for length, i, edge in lenEdges]
+  edgesSorted = [edge for length, i, edge in l_length]
  return edgesSorted, lenEdges[0][0], lenEdges[-1][0]
  return edgesSorted, l_length[0][0], l_length[-1][0]
--- a/src/Tools/blocFissure/gmu/sortFaces.py
+++ b/src/Tools/blocFissure/gmu/sortFaces.py
@ -18,20 +18,17 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """tri par surface de faces"""
 import logging
 from .geomsmesh import geompy
 # -----------------------------------------------------------------------------
 # --- tri par surface de faces
 def sortFaces(facesToSort):
-  """
+  """tri des faces par surface"""
  tri des faces par surface
  """
  logging.info('start')
-  surFaces = [(geompy.BasicProperties(face)[1], i, face) for i, face in enumerate(facesToSort)]
+  l_surfaces = [(geompy.BasicProperties(face)[1], i, face) for i, face in enumerate(facesToSort)]
-  surFaces.sort()
+  l_surfaces.sort()
-  facesSorted = [face for surf, i, face in surFaces]
+  facesSorted = [face for surf, i, face in l_surfaces]
  return facesSorted, surFaces[0][0], surFaces[-1][0]
  return facesSorted, l_surfaces[0][0], l_surfaces[-1][0]
--- a/src/Tools/blocFissure/gmu/testgmu.py
+++ b/src/Tools/blocFissure/gmu/testgmu.py
@ -18,12 +18,12 @@
 #
 from blocFissure import gmu
-from blocFissure.gmu.initEtude import initEtude
+from .initEtude import initEtude
 initEtude()
-from blocFissure.gmu.triedreBase import triedreBase
+from .triedreBase import triedreBase
 O, OX, OY, OZ = triedreBase()
-from blocFissure.gmu.distance2 import distance2
+from .distance2 import distance2
 a=[10, 20, 30]
 b=[5, 7, 3]
 c=distance2(a,b)
--- a/src/Tools/blocFissure/ihm/fissureCoude_ihm.py
+++ b/src/Tools/blocFissure/ihm/fissureCoude_ihm.py
@ -18,6 +18,8 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 import os
 from blocFissure.gmu.fissureCoude  import fissureCoude
 class fissureCoude_ihm(fissureCoude):
@ -32,8 +34,8 @@ class fissureCoude_ihm(fissureCoude):
 # ---------------------------------------------------------------------------
  def setParamGeometrieSaine(self):
-    """
+    """Paramètres géométriques du tuyau coudé sain:
-    Paramètres géométriques du tuyau coudé sain:
+
    angleCoude
    r_cintr
    l_tube_p1
@ -41,26 +43,26 @@ class fissureCoude_ihm(fissureCoude):
    epais
    de
    """
-    self.geomParams = dict(angleCoude = self.dico['angle'],
+    self.geomParams = dict(angleCoude = self.dico['angle'], \
-                           r_cintr    = self.dico['rCintr'],
+                           r_cintr    = self.dico['rCintr'], \
-                           l_tube_p1  = self.dico['lTubeP1'],
+                           l_tube_p1  = self.dico['lTubeP1'], \
-                           l_tube_p2  = self.dico['lTubeP2'],
+                           l_tube_p2  = self.dico['lTubeP2'], \
-                           epais      = self.dico['epais'],
+                           epais      = self.dico['epais'], \
                           de         = self.dico['dext'])
  # ---------------------------------------------------------------------------
  def setParamMaillageSain(self):
-    self.meshParams = dict(n_long_p1    = self.dico['nbAxeTubeP1'],
+    self.meshParams = dict(n_long_p1    = self.dico['nbAxeTubeP1'], \
-                           n_ep         = self.dico['nbEpaisseur'],
+                           n_ep         = self.dico['nbEpaisseur'], \
-                           n_long_coude = self.dico['nbAxeCoude'],
+                           n_long_coude = self.dico['nbAxeCoude'], \
-                           n_circ_g     = self.dico['nbCirconf'],
+                           n_circ_g     = self.dico['nbCirconf'], \
-                           n_circ_d     = self.dico['nbCirconf'],
+                           n_circ_d     = self.dico['nbCirconf'], \
                           n_long_p2    = self.dico['nbAxeTubeP2'])
 # ---------------------------------------------------------------------------
  def setParamShapeFissure(self):
-    """
+    """paramètres de la fissure pour le tuyau coude
-    paramètres de la fissure pour le tuyau coude
+
    profondeur  : 0 < profondeur <= épaisseur
    rayonPipe   : rayon du pipe correspondant au maillage rayonnant
    lenSegPipe  : longueur des mailles rayonnantes le long du fond de fissure (= rayonPipe par défaut)
@ -74,41 +76,43 @@ class fissureCoude_ihm(fissureCoude):
    externe     : True : fissure face externe, False : fissure face interne
    """
    print("setParamShapeFissure", self.nomCas)
-    self.shapeFissureParams = dict(profondeur  = self.dico['profondeur'],
+    self.shapeFissureParams = dict(profondeur  = self.dico['profondeur'], \
-                                   rayonPipe   = self.dico['rayonTore'],
+                                   rayonPipe   = self.dico['rayonTore'], \
-                                   lenSegPipe  = self.dico['lenSegPipe'],
+                                   lenSegPipe  = self.dico['lenSegPipe'], \
-                                   azimut      = self.dico['azimut'],
+                                   azimut      = self.dico['azimut'], \
-                                   alpha       = self.dico['posiAngul'],
+                                   alpha       = self.dico['posiAngul'], \
-                                   longueur    = self.dico['longueur'],
+                                   longueur    = self.dico['longueur'], \
-                                   orientation = self.dico['orientation'],
+                                   orientation = self.dico['orientation'], \
-                                   lgInfluence = self.dico['influence'],
+                                   lgInfluence = self.dico['influence'], \
-                                   elliptique  = self.dico['cbForceEllipse'],
+                                   elliptique  = self.dico['cbForceEllipse'], \
                                   externe     = self.dico['rbFissExt'])
 # ---------------------------------------------------------------------------
  def setParamMaillageFissure(self):
-    """
+    """Paramètres du maillage de la fissure pour le tuyau coudé
-    Paramètres du maillage de la fissure pour le tuyau coudé
+
    Voir également setParamShapeFissure, paramètres rayonPipe et lenSegPipe.
    nbSegRad = nombre de couronnes
    nbSegCercle = nombre de secteurs
    areteFaceFissure = taille cible de l'arête des triangles en face de fissure.
    """
-    self.maillageFissureParams = dict(nomRep        = '.',
+    self.maillageFissureParams = dict(nomRep        = os.curdir, \
-                                      nomFicSain    = self.nomCas,
+                                      nomFicSain    = self.nomCas, \
-                                      nomFicFissure = 'fissure_' + self.nomCas,
+                                      nomFicFissure = 'fissure_' + self.nomCas, \
-                                      nbsegRad      = self.dico['nbCouronnes'],
+                                      nbsegRad      = self.dico['nbCouronnes'], \
-                                      nbsegCercle   = self.dico['nbSecteurs'],
+                                      nbsegCercle   = self.dico['nbSecteurs'], \
                                      areteFaceFissure = self.dico['aretesFaceFissure'])
  # ---------------------------------------------------------------------------
  def setReferencesMaillageFissure(self):
-    self.referencesMaillageFissure = dict(Entity_Node            = 0,
+    self.referencesMaillageFissure = dict( \
-                                          Entity_Quad_Edge       = 0,
+                                          Entity_Quad_Quadrangle = 0, \
-                                          Entity_Quad_Triangle   = 0,
+                                          Entity_Quad_Hexa = 0, \
-                                          Entity_Quad_Quadrangle = 0,
+                                          Entity_Node = 0, \
-                                          Entity_Quad_Tetra      = 0,
+                                          Entity_Quad_Edge = 0, \
-                                          Entity_Quad_Hexa       = 0,
+                                          Entity_Quad_Triangle = 0, \
-                                          Entity_Quad_Penta      = 0,
+                                          Entity_Quad_Tetra = 0, \
-                                          Entity_Quad_Pyramid    = 0)
+                                          Entity_Quad_Pyramid = 0, \
                                          Entity_Quad_Penta = 0 \
                                          )
--- a/src/Tools/blocFissure/ihm/fissureCoude_plugin.py
+++ b/src/Tools/blocFissure/ihm/fissureCoude_plugin.py
@ -22,6 +22,7 @@
 # if you already have plugins defined in a salome_plugins.py file, add this file at the end.
 # if not, copy this file as ${HOME}/Plugins/smesh_plugins.py or ${APPLI}/Plugins/smesh_plugins.py
 import os
 import math
 import sys
 import traceback
@ -33,26 +34,25 @@ def fissureCoudeDlg(context):
  # get context study, salomeGui
  study = context.study
  sg = context.sg
-  
+
  import os
  #import subprocess
  #import tempfile
  from qtsalome import QFileDialog, QMessageBox, QPalette, QColor, QDialog
  from blocFissure.ihm.fissureCoude_ui import Ui_Dialog
-  
+
  class fissureCoudeDialog(QDialog):
-    
+
    def __init__(self):
      QDialog.__init__(self)
      # Set up the user interface from Designer.
      self.ui = Ui_Dialog()
      self.ui.setupUi(self)
-      
+
      self.blackPalette = self.ui.dsb_angle.palette()
      self.redPalette = QPalette()
      self.redPalette.setColor(QPalette.Text, QColor(255,0,0))
      self.NOK = False
-      
+
      self.initDefaut()
      self.initDialog(self.defaut)
      self.ui.dsb_angle.setSpecialValueText("saisie_obligatoire")
@ -73,7 +73,7 @@ def fissureCoudeDlg(context):
      self.ui.dsb_aretesFaceFissure.setSpecialValueText("automatique")
      self.ui.dsb_influence.setSpecialValueText("automatique")
      self.ui.lb_calcul.hide()
-      
+
      # Connect up the buttons.
      self.ui.pb_valPrec.clicked.connect(self.readValPrec)
      self.ui.pb_reset.clicked.connect(self.resetVal)
@ -81,39 +81,39 @@ def fissureCoudeDlg(context):
      self.ui.pb_sauver.clicked.connect(self.sauver)
      self.ui.buttonBox.accepted.disconnect(self.accept)
      self.ui.buttonBox.accepted.connect(self.execute)
-    
+
    def initDefaut(self):
-      self.defaut = dict(
+      self.defaut = dict( \
-        angle             = -181.0,
+        angle             = -181.0, \
-        rCintr            = 0.0,
+        rCintr            = 0.0, \
-        lTubeP1           = 0.0,
+        lTubeP1           = 0.0, \
-        lTubeP2           = 0.0,
+        lTubeP2           = 0.0, \
-        epais             = 0.0,
+        epais             = 0.0, \
-        dext              = 0.0,
+        dext              = 0.0, \
-        profondeur        = 0.0,
+        profondeur        = 0.0, \
-        longueur          = 0.0,
+        longueur          = 0.0, \
-        azimut            = -181.0,
+        azimut            = -181.0, \
-        orientation       = -1.0,
+        orientation       = -1.0, \
-        posiAngul         = -181.0,
+        posiAngul         = -181.0, \
-        absCurv           = 0.0,
+        absCurv           = 0.0, \
-        nbTranches        = 7,
+        nbTranches        = 7, \
-        nbCouronnes       = 1,
+        nbCouronnes       = 1, \
-        nbSecteurs        = 3,
+        nbSecteurs        = 3, \
-        cbOptDiscrSain    = False,
+        cbOptDiscrSain    = False, \
-        cbOptDiscrFiss    = False,
+        cbOptDiscrFiss    = False, \
-        rbPosiAngul       = True,
+        rbPosiAngul       = True, \
-        rbFissExt         = True,
+        rbFissExt         = True, \
-        cbForceEllipse    = False,
+        cbForceEllipse    = False, \
-        nbAxeTubeP1       = 15,
+        nbAxeTubeP1       = 15, \
-        nbAxeTubeP2       = 15,
+        nbAxeTubeP2       = 15, \
-        nbAxeCoude        = 10,
+        nbAxeCoude        = 10, \
-        nbCirconf         = 20,
+        nbCirconf         = 20, \
-        nbEpaisseur       = 3,
+        nbEpaisseur       = 3, \
-        rayonTore         = 2.0,
+        rayonTore         = 2.0, \
-        aretesFaceFissure = 0.0,
+        aretesFaceFissure = 0.0, \
-        influence         = 0.0,
+        influence         = 0.0, \
        )
-      
+
    def initDialog(self, dico):
      self.ui.dsb_angle.setValue(dico['angle'])
      self.ui.dsb_rCintr.setValue(dico['rCintr'])
@ -158,7 +158,7 @@ def fissureCoudeDlg(context):
      self.ui.cb_forceEllipse.setChecked(dico['cbForceEllipse'])
      incomplet = self.testval(dico)
      pass
-    
+
    def testval(self, dico):
      incomplet = False
      if dico['angle'] < -180.0:
@ -166,109 +166,109 @@ def fissureCoudeDlg(context):
        incomplet = True
      else:
        self.ui.dsb_angle.setPalette(self.blackPalette)
-        
+
      if dico['rCintr'] == 0.0:
        self.ui.dsb_rCintr.setPalette(self.redPalette)
        incomplet = True
      else:
        self.ui.dsb_rCintr.setPalette(self.blackPalette)
-        
+
-      if dico['lTubeP1'] == 0.0:  
+      if dico['lTubeP1'] == 0.0:
        self.ui.dsb_lTubeP1.setPalette(self.redPalette)
        incomplet = True
      else:
        self.ui.dsb_lTubeP1.setPalette(self.blackPalette)
-        
+
-      if dico['lTubeP2'] == 0.0:  
+      if dico['lTubeP2'] == 0.0:
        self.ui.dsb_lTubeP2.setPalette(self.redPalette)
        incomplet = True
      else:
        self.ui.dsb_lTubeP2.setPalette(self.blackPalette)
-        
+
-      if dico['epais'] == 0.0:  
+      if dico['epais'] == 0.0:
        self.ui.dsb_epais.setPalette(self.redPalette)
        incomplet = True
      else:
        self.ui.dsb_epais.setPalette(self.blackPalette)
-        
+
-      if dico['dext'] == 0.0:  
+      if dico['dext'] == 0.0:
        self.ui.dsb_dext.setPalette(self.redPalette)
        incomplet = True
      else:
        self.ui.dsb_dext.setPalette(self.blackPalette)
-        
+
-      if dico['profondeur'] == 0.0:  
+      if dico['profondeur'] == 0.0:
        self.ui.dsb_profondeur.setPalette(self.redPalette)
        incomplet = True
      else:
        self.ui.dsb_profondeur.setPalette(self.blackPalette)
-        
+
-      if dico['longueur'] == 0.0:  
+      if dico['longueur'] == 0.0:
        self.ui.dsb_longueur.setPalette(self.redPalette)
        incomplet = True
      else:
        self.ui.dsb_longueur.setPalette(self.blackPalette)
-        
+
-      if dico['azimut'] < -180.0:  
+      if dico['azimut'] < -180.0:
        self.ui.dsb_azimut.setPalette(self.redPalette)
        incomplet = True
      else:
        self.ui.dsb_azimut.setPalette(self.blackPalette)
-        
+
-      if dico['orientation'] < 0.0:  
+      if dico['orientation'] < 0.0:
        self.ui.dsb_orientation.setPalette(self.redPalette)
        incomplet = True
      else:
        self.ui.dsb_orientation.setPalette(self.blackPalette)
-        
+
-      if dico['posiAngul'] < -180.0 and dico['rbPosiAngul'] == True:  
+      if ( ( dico['posiAngul'] < -180.0 ) and dico['rbPosiAngul'] ):
        self.ui.dsb_posiAngul.setPalette(self.redPalette)
        incomplet = True
      else:
        self.ui.dsb_posiAngul.setPalette(self.blackPalette)
-        
+
-      if dico['absCurv'] == 0.0 and dico['rbPosiAngul'] == False:  
+      if ( ( dico['absCurv'] == 0.0 ) and ( not dico['rbPosiAngul'] ) ):
        self.ui.dsb_absCurv.setPalette(self.redPalette)
        incomplet = True
      else:
        self.ui.dsb_absCurv.setPalette(self.blackPalette)
-        
+
-      if dico['nbTranches'] == 7:  
+      if dico['nbTranches'] == 7:
        self.ui.sb_nbTranches.setPalette(self.redPalette)
        incomplet = True
      else:
        self.ui.sb_nbTranches.setPalette(self.blackPalette)
-        
+
-      if dico['nbCouronnes'] == 1:  
+      if dico['nbCouronnes'] == 1:
        self.ui.sb_nbCouronne.setPalette(self.redPalette)
        incomplet = True
      else:
        self.ui.sb_nbCouronne.setPalette(self.blackPalette)
-        
+
-      if dico['nbSecteurs'] == 3:  
+      if dico['nbSecteurs'] == 3:
        self.ui.sb_nbSecteur.setPalette(self.redPalette)
        incomplet = True
      else:
        self.ui.sb_nbSecteur.setPalette(self.blackPalette)
-        
+
      print("incomplet: ", incomplet)
      return incomplet
-    
+
    def fileDefault(self):
-      filedef = os.path.expanduser("~/.config/salome/dialogFissureCoude.dic")
+      filedef = os.path.expanduser( os.path.join(os.environ["HOME"],".config", "salome", "dialogFissureCoude.dic") )
      print(filedef)
      return filedef
-    
+
    def writeDefault(self, dico):
      filedef = self.fileDefault()
      with open(filedef, 'w') as f:
-          f.write(str(dico))
+        f.write(str(dico))
-    
+
    def readValPrec(self):
      filedef = self.fileDefault()
      if os.path.exists(filedef):
        with open(filedef, 'r') as f:
-            txt = f.read()
+          txt = f.read()
        dico = eval(txt)
        print(dico)
        self.initDialog(dico)
@ -276,7 +276,7 @@ def fissureCoudeDlg(context):
    def resetVal(self):
      #self.initDefaut()
      self.initDialog(self.defaut)
-      
+
    def sauver(self):
      print("sauver")
      fileDiag = QFileDialog(self)
@ -288,8 +288,8 @@ def fissureCoudeDlg(context):
        filedef = fileNames[0]
        dico = self.creeDico()
        with open(filedef, 'w') as f:
-            f.write(str(dico))
+          f.write(str(dico))
-        
+
    def recharger(self):
      print("recharger")
      fileDiag = QFileDialog(self)
@ -302,45 +302,45 @@ def fissureCoudeDlg(context):
        print(filedef)
        if os.path.exists(filedef):
          with open(filedef, 'r') as f:
-              txt = f.read()
+            txt = f.read()
          dico = eval(txt)
          print(dico)
          self.initDialog(dico)
-         
+
    def creeDico(self):
-      dico = dict(
+      dico = dict( \
-        angle             = self.ui.dsb_angle.value(),
+        angle             = self.ui.dsb_angle.value(), \
-        rCintr            = self.ui.dsb_rCintr.value(),
+        rCintr            = self.ui.dsb_rCintr.value(), \
-        lTubeP1           = self.ui.dsb_lTubeP1.value(),
+        lTubeP1           = self.ui.dsb_lTubeP1.value(), \
-        lTubeP2           = self.ui.dsb_lTubeP2.value(),
+        lTubeP2           = self.ui.dsb_lTubeP2.value(), \
-        epais             = self.ui.dsb_epais.value(),
+        epais             = self.ui.dsb_epais.value(), \
-        dext              = self.ui.dsb_dext.value(),
+        dext              = self.ui.dsb_dext.value(), \
-        profondeur        = self.ui.dsb_profondeur.value(),
+        profondeur        = self.ui.dsb_profondeur.value(), \
-        longueur          = self.ui.dsb_longueur.value(),
+        longueur          = self.ui.dsb_longueur.value(), \
-        azimut            = self.ui.dsb_azimut.value(),
+        azimut            = self.ui.dsb_azimut.value(), \
-        orientation       = self.ui.dsb_orientation.value(),
+        orientation       = self.ui.dsb_orientation.value(), \
-        posiAngul         = self.ui.dsb_posiAngul.value(),
+        posiAngul         = self.ui.dsb_posiAngul.value(), \
-        absCurv           = self.ui.dsb_absCurv.value(),
+        absCurv           = self.ui.dsb_absCurv.value(), \
-        nbTranches        = self.ui.sb_nbTranches.value(),
+        nbTranches        = self.ui.sb_nbTranches.value(), \
-        nbCouronnes       = self.ui.sb_nbCouronne.value(),
+        nbCouronnes       = self.ui.sb_nbCouronne.value(), \
-        nbSecteurs        = self.ui.sb_nbSecteur.value(),
+        nbSecteurs        = self.ui.sb_nbSecteur.value(), \
-        cbOptDiscrSain    = self.ui.cb_optDiscrSain.isChecked(),
+        cbOptDiscrSain    = self.ui.cb_optDiscrSain.isChecked(), \
-        cbOptDiscrFiss    = self.ui.cb_optDiscrFiss.isChecked(),
+        cbOptDiscrFiss    = self.ui.cb_optDiscrFiss.isChecked(), \
-        rbPosiAngul       = self.ui.rb_posiAngul.isChecked(),
+        rbPosiAngul       = self.ui.rb_posiAngul.isChecked(), \
-        rbFissExt         = self.ui.rb_fissExt.isChecked(),
+        rbFissExt         = self.ui.rb_fissExt.isChecked(), \
-        cbForceEllipse    = self.ui.cb_forceEllipse.isChecked(),
+        cbForceEllipse    = self.ui.cb_forceEllipse.isChecked(), \
-        nbAxeTubeP1       = self.ui.sb_nbAxeTubeP1.value(),
+        nbAxeTubeP1       = self.ui.sb_nbAxeTubeP1.value(), \
-        nbAxeTubeP2       = self.ui.sb_nbAxeTubeP2.value(),
+        nbAxeTubeP2       = self.ui.sb_nbAxeTubeP2.value(), \
-        nbAxeCoude        = self.ui.sb_nbAxeCoude.value(),
+        nbAxeCoude        = self.ui.sb_nbAxeCoude.value(), \
-        nbCirconf         = self.ui.sb_nbCirconf.value(),
+        nbCirconf         = self.ui.sb_nbCirconf.value(), \
-        nbEpaisseur       = self.ui.sb_nbEpaisseur.value(),
+        nbEpaisseur       = self.ui.sb_nbEpaisseur.value(), \
-        rayonTore         = self.ui.dsb_rayonTore.value(),
+        rayonTore         = self.ui.dsb_rayonTore.value(), \
-        aretesFaceFissure = self.ui.dsb_aretesFaceFissure.value(),
+        aretesFaceFissure = self.ui.dsb_aretesFaceFissure.value(), \
-        influence         = self.ui.dsb_influence.value(),
+        influence         = self.ui.dsb_influence.value(), \
        )
      print(dico)
      return dico
-      
+
    def checkValues(self):
      return self.NOK
@ -351,7 +351,7 @@ def fissureCoudeDlg(context):
      from blocFissure.gmu import geomsmesh
      from blocFissure.gmu.casStandard import casStandard
      from blocFissure.ihm.fissureCoude_ihm import fissureCoude_ihm
-      
+
      dico = self.creeDico()
      NOK = self.testval(dico)
      if not(NOK):
@ -369,14 +369,14 @@ def fissureCoudeDlg(context):
        if dico['aretesFaceFissure'] == 0:
          dico['aretesFaceFissure'] = (areteMinAngle + areteMinCirco)/2.0
          print('aretesFaceFissure', dico['aretesFaceFissure'])
-        if dico['rbPosiAngul'] == False:
+        if not dico['rbPosiAngul']:
          rmoy = (dico['dext'] - dico['epais'])/2.0
          eta = 1
-          if dico['rbFissExt'] == False:
+          if not dico['rbFissExt']:
            eta = -1
          dico['posiAngul'] = (180.0/math.pi)*dico['absCurv']/(dico['rCintr']+(rmoy+eta*dico['epais']/2.0)*math.cos(math.pi*dico['azimut']/180.))
          print('posiAngul' , dico['posiAngul'])
-        
+
        self.writeDefault(dico)
        self.ui.lb_calcul.show()
        probleme = fissureCoude_ihm(0)
@ -384,11 +384,9 @@ def fissureCoudeDlg(context):
        probleme.executeProbleme()
      self.NOK = NOK
      self.accept()
    pass 
 # ----------------------------------------------------------------------------
-                     
+
  window = fissureCoudeDialog()
 #  window.ui.dsb_tolerance.setValue(0.01)
  retry = True
@ -402,5 +400,4 @@ def fissureCoudeDlg(context):
      retry = window.checkValues()
    else:
      print("dialog rejected, exit")
-  pass
+
--- a/src/Tools/blocFissure/ihm/fissureGenerale.ui
+++ b/src/Tools/blocFissure/ihm/fissureGenerale.ui
@ -7,20 +7,20 @@
    <x>0</x>
    <y>0</y>
    <width>664</width>
-    <height>624</height>
+    <height>681</height>
   </rect>
  </property>
  <property name="windowTitle">
   <string>Insertion de fissure dans un maillage sain</string>
  </property>
  <property name="toolTip">
-   <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;Insertion d'un maillage de fissure dans un maillage hexaédrique sain.&lt;/p&gt;&lt;p&gt;Le maillage sain est fourni sous forme de fichier med.&lt;/p&gt;&lt;p&gt;La face de fissure est décrite par une géométrie dans un fichier brep.&lt;/p&gt;&lt;p&gt;La ou les arêtes de fond de fissure sont données par leurs index dans la face de fissure du point de vue de GEOM.&lt;/p&gt;&lt;p&gt;La procédure identifie des mailles saines à enlever et à remailler, construit un maillage régulier rayonnant autour de la ligne de fond de fissure, reconstitue les faces externes en triangles, complète la zone à remailler en tétraèdres.&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
+   <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;Insertion d'un maillage de fissure dans un maillage hexaédrique sain.&lt;/p&gt;&lt;p&gt;Le maillage sain est fourni sous forme de fichier med.&lt;/p&gt;&lt;p&gt;La face de fissure est décrite par une géométrie dans un fichier de cao au format xao ou brep.&lt;/p&gt;&lt;p&gt;Si le format xao est utilisé, le fond de la fissure est identifiable par les noms du ou des groupes d'arêtes créés sur ce fond.&lt;/p&gt;&lt;p&gt; Avec le format brep, le fond de fissure est donné par les index des arêtes du fond dans la face de fissure du point de vue de GEOM. Cela est également possible pour un format xao.&lt;/p&gt;&lt;p&gt;La procédure identifie des mailles saines à enlever et à remailler, construit un maillage régulier rayonnant autour de la ligne de fond de fissure, reconstitue les faces externes en triangles, complète la zone à remailler en tétraèdres.&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
  </property>
  <layout class="QVBoxLayout" name="verticalLayout_3">
   <item>
    <widget class="QGroupBox" name="groupBox">
     <property name="title">
-      <string>Maillage sain et géometries de fissure</string>
+      <string>Maillage sain et géométries de fissure</string>
     </property>
     <layout class="QGridLayout" name="gridLayout_4">
      <item row="1" column="0">
@ -28,14 +28,14 @@
        <item>
         <widget class="QLabel" name="label">
          <property name="text">
-           <string>Index arêtes fond de fissure</string>
+           <string>Arêtes fond de fissure</string>
          </property>
         </widget>
        </item>
        <item>
         <widget class="QLineEdit" name="le_fondfiss">
          <property name="toolTip">
-           <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;Index des arêtes décrivant le fond de fissure, dans la face de fissure.&lt;/p&gt;&lt;p&gt;Sous forme d'une liste Python.&lt;/p&gt;&lt;p&gt;Exemples : &lt;span style=&quot; font-weight:600; font-style:italic; color:#000080;&quot;&gt;[5,9]&lt;/span&gt; ou&lt;span style=&quot; font-weight:600;&quot;/&gt;&lt;span style=&quot; font-weight:600; font-style:italic; color:#000080;&quot;&gt;[3]&lt;/span&gt;&lt;/p&gt;&lt;p&gt;(On peut récupérer ces valeurs à l'aide du dialogue de création de groupes d'edges, dans GEOM)&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
+           <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;Liste des noms des groupes d'arêtes formant le fond de la fissure.&lt;/p&gt;&lt;p&gt;Exemples : &lt;span style=&quot; font-weight:600; font-style:italic; color:#000080;&quot;&gt;["F_1", "F_2"]&lt;/span&gt; ou&lt;span style=&quot; font-weight:600;&quot;/&gt;&lt;span style=&quot; font-weight:600; font-style:italic; color:#000080;&quot;&gt;["Fond"]&lt;/span&gt;&lt;/p&gt;&lt;p&gt;Ou liste des index des arêtes décrivant le fond de fissure dans la face de fissure.&lt;/p&gt;&lt;p&gt;Exemples : &lt;span style=&quot; font-weight:600; font-style:italic; color:#000080;&quot;&gt;[5,9]&lt;/span&gt; ou&lt;span style=&quot; font-weight:600;&quot;/&gt;&lt;span style=&quot; font-weight:600; font-style:italic; color:#000080;&quot;&gt;[3]&lt;/span&gt;&lt;/p&gt;&lt;p&gt;(On peut récupérer ces valeurs à l'aide du dialogue de création de groupes d'edges, dans GEOM)&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
          </property>
         </widget>
        </item>
@ -66,7 +66,7 @@
        <item row="1" column="0">
         <widget class="QPushButton" name="pb_facefiss">
          <property name="toolTip">
-           <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;sélection du fichier brep (géométrie) décrivant la face de fissure.&lt;/p&gt;&lt;p&gt;Un champ rouge correspond à un fichier inexistant.&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
+           <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;sélection du fichier cao (format xao ou brep) décrivant la face de fissure.&lt;/p&gt;&lt;p&gt;Un champ rouge correspond à un fichier inexistant.&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
          </property>
          <property name="text">
           <string>Face fissure</string>
@ -76,7 +76,7 @@
        <item row="1" column="1">
         <widget class="QLineEdit" name="le_facefiss">
          <property name="toolTip">
-           <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;Fichier brep de la géométrie décrivant la face de fissure.&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
+           <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;Fichier cao de la géométrie décrivant la face de fissure (xao ou brep).&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
          </property>
         </widget>
        </item>
@ -110,7 +110,7 @@
          <item>
           <widget class="QLabel" name="label_2">
            <property name="text">
-             <string>Distance influence</string>
+             <string>Distance d'influence</string>
            </property>
           </widget>
          </item>
@ -209,7 +209,7 @@
               <item>
                <widget class="QLabel" name="label_10">
                 <property name="text">
-                  <string>mode</string>
+                  <string>Mode</string>
                 </property>
                </widget>
               </item>
@ -499,7 +499,7 @@
     <item row="1" column="0">
      <widget class="QPushButton" name="pb_nomres">
       <property name="text">
-        <string>Nom résultat</string>
+        <string>Nom du résultat</string>
       </property>
      </widget>
     </item>
--- a/src/Tools/blocFissure/ihm/fissureGenerale_plugin.py
+++ b/src/Tools/blocFissure/ihm/fissureGenerale_plugin.py
@ -19,15 +19,17 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 """Pilotage de la fenêtre de dialogue"""
 # if you already have plugins defined in a salome_plugins.py file, add this file at the end.
 # if not, copy this file as ${HOME}/Plugins/smesh_plugins.py or ${APPLI}/Plugins/smesh_plugins.py
-import sys, traceback
+import sys
-import math
+import traceback
 from blocFissure import gmu
 def fissureGeneraleDlg(context):
-  # get context study, salomeGui
+  """get context study, salomeGui"""
  study = context.study
  sg = context.sg
@ -44,6 +46,7 @@ def fissureGeneraleDlg(context):
  from blocFissure.ihm.fissureGenerale_ui import Ui_Dialog
  class fissureGeneraleDialog(QtWidgets.QDialog):
    """classe du dialogue"""
    def __init__(self):
      print("__init__")
@ -75,28 +78,28 @@ def fissureGeneraleDlg(context):
      self.ui.bb_OkCancel.accepted.connect(self.execute)
    def initDefaut(self):
-      self.defaut = dict(
+      self.defaut = dict( \
-        nomCas            = 'angleCube',
+        nomCas            = "angleCube", \
-        maillageSain      = os.path.join(gmu.pathBloc, 'materielCasTests/CubeAngle.med'),
+        maillageSain      = os.path.join(gmu.pathBloc, "materielCasTests", "CubeAngle.med"), \
-        brepFaceFissure   = os.path.join(gmu.pathBloc, "materielCasTests/CubeAngleFiss.brep"),
+        CAOFaceFissure    = os.path.join(gmu.pathBloc, "materielCasTests", "CubeAngleFiss.brep"), \
-        edgeFissIds       = [4],
+        edgeFiss          = [3], \
-        lgInfluence       = 20,
+        lgInfluence       = 20, \
-        meshBrep          = (5,10),
+        meshBrep          = (5,10), \
-        rayonPipe         = 5,
+        rayonPipe         = 5, \
-        lenSegPipe        = 2.5,
+        lenSegPipe        = 2.5, \
-        nbSegRad          = 5,
+        nbSegRad          = 5, \
-        nbSegCercle       = 32,
+        nbSegCercle       = 32, \
-        areteFaceFissure  = 10,
+        areteFaceFissure  = 10, \
-        areteVives        = 0,
+        areteVives        = 0, \
-        reptrav           = '.',
+        reptrav           = os.curdir, \
-        nomres            = 'maillage_avec_fissure',
+        nomres            = "maillage_avec_fissure", \
        verbosite         = 0)
    def initDialog(self, dico):
      self.ui.le_maillage.setText(dico['maillageSain'])
-      self.ui.le_facefiss.setText(dico['brepFaceFissure'])
+      self.ui.le_facefiss.setText(dico['CAOFaceFissure'])
-      self.ui.le_fondfiss.setText(str(dico['edgeFissIds']))
+      self.ui.le_fondfiss.setText(str(dico['edgeFiss']))
      self.ui.dsb_influence.setValue(dico['lgInfluence'])
      self.ui.dsb_meshBrepMin.setValue(dico['meshBrep'][0])
      self.ui.dsb_meshBrepMax.setValue(dico['meshBrep'][1])
@ -112,8 +115,7 @@ def fissureGeneraleDlg(context):
      self.ui.le_reptrav.setText(os.path.abspath(dico['reptrav']))
      self.ui.le_nomres.setText(os.path.split(dico['nomres'])[1])
      self.ui.cb_log.setCurrentIndex(dico['verbosite'])
-      incomplet = self.testval(dico)
+      #incomplet = self.testval(dico)
      pass
    def testval(self, dico):
      incomplet = False
@ -122,25 +124,40 @@ def fissureGeneraleDlg(context):
        incomplet = True
      else:
        self.ui.le_maillage.setPalette(self.blackPalette)
-      if not os.path.lexists(dico['brepFaceFissure']):
+      cao_file = dico['CAOFaceFissure']
      if not os.path.lexists(cao_file):
        self.ui.le_facefiss.setPalette(self.redPalette)
        incomplet = True
      else:
-        self.ui.le_facefiss.setPalette(self.blackPalette)
+        suffix = os.path.basename(cao_file).split(".")[-1]
-      edgeFissIdsOK=True
+        if ( suffix.upper() not in ("BREP","XAO") ):
-      try:
+          print ("Suffixe inconnu pour le fichier {}".format(cao_file))
-        l = dico['edgeFissIds']
+          self.ui.le_facefiss.setPalette(self.redPalette)
-        for i in l:
+          incomplet = True
-          if not isinstance(i, int):
+        else:
-            print("not isinstance(i, int)")
+          self.ui.le_facefiss.setPalette(self.blackPalette)
      if dico['edgeFiss']:
        edgeFissOK=True
        param_0 = dico['edgeFiss'][0]
        type_param_id = type(param_0)
        for param in dico['edgeFiss'][1:]:
          if not isinstance(param,type_param_id):
            print ("La donnée {} n'est pas du même type que la première de la liste : {}.".format(param,type(param)))
            incomplet = True
-            edgeFissIdsOK=False
+            edgeFissOK=False
-            break
+        if edgeFissOK:
-      except:
+          if isinstance(param_0, int):
-        print("except eval")
+            pass
          elif isinstance(param_0, str):
            pass
          else:
            print("Il faut une liste de noms de groupes d'arêtes ou une liste d'IDs d'arêtes.")
            incomplet = True
            edgeFissOK=False
      else:
        incomplet = True
-        edgeFissIdsOK=False
+        edgeFissOK=False
-      if edgeFissIdsOK:
+      if edgeFissOK:
        self.ui.le_fondfiss.setPalette(self.blackPalette)
      else:
        self.ui.le_fondfiss.setPalette(self.redPalette)
@ -174,19 +191,19 @@ def fissureGeneraleDlg(context):
      return incomplet
    def fileDefault(self):
-      filedef = os.path.expanduser("~/.config/salome/dialogFissureGenerale.dic")
+      filedef = os.path.expanduser( os.path.join(os.environ["HOME"], ".config", "salome", "dialogFissureGenerale.dic") )
      print(filedef)
      return filedef
    def writeDefault(self, dico):
      filedef = self.fileDefault()
-      with open(filedef, 'w') as f:
+      with open(filedef, 'w') as fichier:
-          f.write(str(dico))
+        fichier.write(str(dico))
    def genereExemples(self):
-      maillageSain      = os.path.join(gmu.pathBloc, 'materielCasTests/CubeAngle.med')
+      maillageSain      = os.path.join(gmu.pathBloc, "materielCasTests", "CubeAngle.med")
-      brepFaceFissure   = os.path.join(gmu.pathBloc, "materielCasTests/CubeAngleFiss.brep")
+      CAOFaceFissure    = os.path.join(gmu.pathBloc, "materielCasTests", "CubeAngleFiss.brep")
-      if (os.path.exists(maillageSain) and os.path.exists(brepFaceFissure)):
+      if (os.path.exists(maillageSain) and os.path.exists(CAOFaceFissure )):
        self.initDialog(self.defaut)
      else:
        self.ui.lb_calcul.setText("--- Generation exemples en cours ---")
@ -198,8 +215,8 @@ def fissureGeneraleDlg(context):
    def readValPrec(self):
      filedef = self.fileDefault()
      if os.path.exists(filedef):
-        with open(filedef, 'r') as f:
+        with open(filedef, 'r') as fichier:
-            txt = f.read()
+          txt = fichier.read()
        dico = eval(txt)
        print(dico)
        self.initDialog(dico)
@ -220,7 +237,6 @@ def fissureGeneraleDlg(context):
      elif index == 2:
        initLog.setDebug(logfile)
    def sauver(self):
      print("sauver")
      fileDiag = QFileDialog(self)
@ -234,8 +250,8 @@ def fissureGeneraleDlg(context):
        if filedef[-4:] not in ['.dic']:
          filedef += '.dic'
        dico = self.creeDico()
-        with open(filedef, 'w') as f:
+        with open(filedef, 'w') as fichier:
-          f.write(str(dico))
+          fichier.write(str(dico))
    def recharger(self):
      print("recharger")
@ -248,8 +264,8 @@ def fissureGeneraleDlg(context):
        filedef = fileNames[0]
        print(filedef)
        if os.path.exists(filedef):
-          with open(filedef, 'r') as f:
+          with open(filedef, 'r') as fichier:
-            txt = f.read()
+            txt = fichier.read()
          dico = eval(txt)
          print(dico)
          self.initDialog(dico)
@ -306,21 +322,21 @@ def fissureGeneraleDlg(context):
        self.ui.le_nomres.setText(nomres)
    def creeDico(self):
-      dico = dict(
+      dico = dict( \
-                  maillageSain     = str(self.ui.le_maillage.text()),
+                  maillageSain     = str(self.ui.le_maillage.text()), \
-                  brepFaceFissure  = str(self.ui.le_facefiss.text()),
+                  CAOFaceFissure   = str(self.ui.le_facefiss.text()), \
-                  edgeFissIds      = eval(str(self.ui.le_fondfiss.text())),
+                  edgeFiss         = eval(str(self.ui.le_fondfiss.text())), \
-                  lgInfluence      = self.ui.dsb_influence.value(),
+                  lgInfluence      = self.ui.dsb_influence.value(), \
-                  meshBrep         = [self.ui.dsb_meshBrepMin.value(),self.ui.dsb_meshBrepMax.value()],
+                  meshBrep         = [self.ui.dsb_meshBrepMin.value(),self.ui.dsb_meshBrepMax.value()], \
-                  rayonPipe        = self.ui.dsb_rayonPipe.value(),
+                  rayonPipe        = self.ui.dsb_rayonPipe.value(), \
-                  lenSegPipe       = self.ui.dsb_lenSegPipe.value(),
+                  lenSegPipe       = self.ui.dsb_lenSegPipe.value(), \
-                  nbSegRad         = self.ui.sb_couronnes.value(),
+                  nbSegRad         = self.ui.sb_couronnes.value(), \
-                  nbSegCercle      = self.ui.sb_secteurs.value(),
+                  nbSegCercle      = self.ui.sb_secteurs.value(), \
-                  areteFaceFissure = self.ui.dsb_areteFaceFissure.value(),
+                  areteFaceFissure = self.ui.dsb_areteFaceFissure.value(), \
-                  aretesVives      = self.ui.dsb_aretesVives.value(),
+                  aretesVives      = self.ui.dsb_aretesVives.value(), \
-                  reptrav          = str(self.ui.le_reptrav.text()),
+                  reptrav          = str(self.ui.le_reptrav.text()), \
-                  nomres           = str(self.ui.le_nomres.text()),
+                  nomres           = str(self.ui.le_nomres.text()), \
-                  verbosite        = self.ui.cb_log.currentIndex()
+                  verbosite        = self.ui.cb_log.currentIndex() \
                  )
      print(dico)
      return dico
@ -366,8 +382,6 @@ def fissureGeneraleDlg(context):
      self.ui.lb_calcul.hide()
      #self.accept()
    pass
 # ----------------------------------------------------------------------------
  print("main")
@ -383,5 +397,3 @@ def fissureGeneraleDlg(context):
      retry = window.checkValues()
    else:
      print("dialog rejected, exit")
  pass
--- a/src/Tools/blocFissure/lanceurSoudureArrondieTest.py
+++ b/src/Tools/blocFissure/lanceurSoudureArrondieTest.py
@ -34,8 +34,8 @@ crack = 'fissureSoudureTest.brep'
 dicoParams = dict(nomCas            = 'casTestCoinTriple',
                  maillageSain      = '/local00/home/I48174/Documents/soudure/essaiFissure/{0}'.format(mesh),
-                  brepFaceFissure   = '/local00/home/I48174/Documents/soudure/essaiFissure/{0}'.format(crack),
+                  CAOFaceFissure    = '/local00/home/I48174/Documents/soudure/essaiFissure/{0}'.format(crack),
-                  edgeFissIds       = [4],
+                  edgeFiss          = [4],
                  lgInfluence       = 30,
                  meshBrep          = (5,10),
                  rayonPipe         = 5,
--- a/src/Tools/blocFissure/lanceurSoudureViveTest.py
+++ b/src/Tools/blocFissure/lanceurSoudureViveTest.py
@ -34,8 +34,8 @@ crack = 'fissureSoudureTest.brep'
 dicoParams = dict(nomCas            = 'casTestCoinTriple',
                  maillageSain      = '/local00/home/I48174/Documents/soudure/essaiFissure/{0}'.format(mesh),
-                  brepFaceFissure   = '/local00/home/I48174/Documents/soudure/essaiFissure/{0}'.format(crack),
+                  CAOFaceFissure    = '/local00/home/I48174/Documents/soudure/essaiFissure/{0}'.format(crack),
-                  edgeFissIds       = [4],
+                  edgeFiss          = [4],
                  lgInfluence       = 30,
                  meshBrep          = (5,10),
                  rayonPipe         = 10,
--- a/src/Tools/blocFissure/lanceurTestAubry.py
+++ b/src/Tools/blocFissure/lanceurTestAubry.py
@ -34,8 +34,8 @@ crack = 'hue.brep'
 dicoParams = dict(nomCas            = 'testAubry',
                  maillageSain      = '/local00/home/I48174/Bureau/{0}'.format(mesh),
-                  brepFaceFissure   = '/local00/home/I48174/Bureau/{0}'.format(crack),
+                  CAOFaceFissure    = '/local00/home/I48174/Bureau/{0}'.format(crack),
-                  edgeFissIds       = [8],
+                  edgeFiss          = [8],
                  lgInfluence       = 0.01,
                  meshBrep          = (0.0002,0.003),
                  rayonPipe         = 0.005,
--- a/src/Tools/blocFissure/materielCasTests/CMakeLists.txt
+++ b/src/Tools/blocFissure/materielCasTests/CMakeLists.txt
@ -34,6 +34,7 @@ SET(plugin_SCRIPTS
  fissureGauche2.py
  fissureGauche.py
  genereMateriel.py
  tube.py
  vis.py
 )
--- a/src/Tools/blocFissure/materielCasTests/cubeAngle.py
+++ b/src/Tools/blocFissure/materielCasTests/cubeAngle.py
@ -18,31 +18,32 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
-import sys
+"""Cas-test de blocFissure pour un cube"""
 import logging
 import os
 from blocFissure import gmu
 import salome
 import GEOM
 from salome.geom import geomBuilder
 import SMESH
 from salome.smesh import smeshBuilder
 #=============== Options ====================
 # 1. NOM_OBJET = nom de l'objet
 NOM_OBJET = "CubeAngle"
 #============================================
 salome.salome_init()
 import salome_notebook
 import os
 from blocFissure import gmu
 ###
 ### GEOM component
 ###
 import GEOM
 from salome.geom import geomBuilder
 import math
 import SALOMEDS
 geompy = geomBuilder.New()
 O = geompy.MakeVertex(0, 0, 0)
 OX = geompy.MakeVectorDXDYDZ(1, 0, 0)
 OY = geompy.MakeVectorDXDYDZ(0, 1, 0)
 OZ = geompy.MakeVectorDXDYDZ(0, 0, 1)
 Box_1 = geompy.MakeBoxDXDYDZ(200, 200, 200)
 Vertex_1 = geompy.MakeVertex(0, 0, 100)
@ -51,10 +52,7 @@ Vertex_2 = geompy.MakeVertex(-5, -5, 90)
 Vertex_3 = geompy.MakeVertex(65, 65, 110)
 Box_2 = geompy.MakeBoxTwoPnt(Vertex_3, Vertex_2)
 Common_1 = geompy.MakeCommon(Disk_1, Box_2)
-geompy.ExportBREP(Common_1, os.path.join(gmu.pathBloc, "materielCasTests/CubeAngleFiss.brep"))
+
 geompy.addToStudy( O, 'O' )
 geompy.addToStudy( OX, 'OX' )
 geompy.addToStudy( OY, 'OY' )
 geompy.addToStudy( OZ, 'OZ' )
 geompy.addToStudy( Box_1, 'Box_1' )
 geompy.addToStudy( Vertex_1, 'Vertex_1' )
@ -62,29 +60,42 @@ geompy.addToStudy( Disk_1, 'Disk_1' )
 geompy.addToStudy( Vertex_2, 'Vertex_2' )
 geompy.addToStudy( Vertex_3, 'Vertex_3' )
 geompy.addToStudy( Box_2, 'Box_2' )
-geompy.addToStudy( Common_1, 'Common_1' )
+geompy.addToStudy( Common_1, NOM_OBJET )
 ficcao = os.path.join(gmu.pathBloc, "materielCasTests", "{}Fiss.brep".format(NOM_OBJET))
 text = ".. Exportation de la géométrie de la fissure dans le fichier '{}'".format(ficcao)
 logging.info(text)
 geompy.ExportBREP(Common_1, ficcao)
 ###
 ### SMESH component
 ###
 import  SMESH, SALOMEDS
 from salome.smesh import smeshBuilder
 smesh = smeshBuilder.New()
 from salome.StdMeshers import StdMeshersBuilder
 Mesh_1 = smesh.Mesh(Box_1)
 smesh.SetName(Mesh_1, NOM_OBJET)
 Regular_1D = Mesh_1.Segment()
 Nb_Segments_1 = Regular_1D.NumberOfSegments(15)
 Nb_Segments_1.SetDistrType( 0 )
 Quadrangle_2D = Mesh_1.Quadrangle(algo=smeshBuilder.QUADRANGLE)
 Hexa_3D = Mesh_1.Hexahedron(algo=smeshBuilder.Hexa)
-isDone = Mesh_1.Compute()
+
-smesh.SetName(Mesh_1, 'Mesh_1')
+is_done = Mesh_1.Compute()
-Mesh_1.ExportMED(os.path.join(gmu.pathBloc, "materielCasTests/CubeAngle.med"))
+text = "Mesh_1.Compute"
 if is_done:
  logging.info(text+" OK")
 else:
  text = "Erreur au calcul du maillage.\n" + text
  logging.info(text)
  raise Exception(text)
 ficmed = os.path.join(gmu.pathBloc, "materielCasTests","{}.med".format(NOM_OBJET))
 text = ".. Archivage du maillage dans le fichier '{}'".format(ficmed)
 logging.info(text)
 Mesh_1.ExportMED(ficmed)
 ## set object names
 smesh.SetName(Mesh_1.GetMesh(), 'Mesh_1')
 smesh.SetName(Regular_1D.GetAlgorithm(), 'Regular_1D')
 smesh.SetName(Nb_Segments_1, 'Nb. Segments_1')
 smesh.SetName(Quadrangle_2D.GetAlgorithm(), 'Quadrangle_2D')
--- a/src/Tools/blocFissure/materielCasTests/cubeFin.py
+++ b/src/Tools/blocFissure/materielCasTests/cubeFin.py
@ -18,6 +18,8 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 import logging
 import sys
 import salome
@ -109,9 +111,9 @@ geompy.addToStudy( O_1, 'O' )
 geompy.addToStudy( OX_1, 'OX' )
 geompy.addToStudy( OY_1, 'OY' )
 geompy.addToStudy( OZ_1, 'OZ' )
-geompy.ExportBREP(cubeFin_Transverse, os.path.join(gmu.pathBloc, "materielCasTests/cubeFin_Transverse.brep"))
+geompy.ExportBREP(cubeFin_Transverse, os.path.join(gmu.pathBloc, "materielCasTests", "cubeFin_Transverse.brep"))
-geompy.ExportBREP(cubeFin_Coin, os.path.join(gmu.pathBloc, "materielCasTests/cubeFin_Coin.brep"))
+geompy.ExportBREP(cubeFin_Coin, os.path.join(gmu.pathBloc, "materielCasTests", "cubeFin_Coin.brep"))
-geompy.ExportBREP(cubeFin_Milieu, os.path.join(gmu.pathBloc, "materielCasTests/cubeFin_Milieu.brep"))
+geompy.ExportBREP(cubeFin_Milieu, os.path.join(gmu.pathBloc, "materielCasTests", "cubeFin_Milieu.brep"))
 ###
 ### SMESH component
@ -127,10 +129,18 @@ Nb_Segments_1 = Regular_1D.NumberOfSegments(20)
 Nb_Segments_1.SetDistrType( 0 )
 Quadrangle_2D = cubeFin_1.Quadrangle(algo=smeshBuilder.QUADRANGLE)
 Hexa_3D = cubeFin_1.Hexahedron(algo=smeshBuilder.Hexa)
 isDone = cubeFin_1.Compute()
 DEPL_1 = cubeFin_1.GroupOnGeom(DEPL,'DEPL',SMESH.FACE)
 ENCASTR_1 = cubeFin_1.GroupOnGeom(ENCASTR,'ENCASTR',SMESH.FACE)
 is_done = cubeFin_1.Compute()
 text = "cubeFin_1.Compute"
 if is_done:
  logging.info(text+" OK")
 else:
  text = "Erreur au calcul du maillage.\n" + text
  logging.info(text)
  raise Exception(text)
 ## Set names of Mesh objects
 smesh.SetName(Regular_1D.GetAlgorithm(), 'Regular_1D')
 smesh.SetName(Quadrangle_2D.GetAlgorithm(), 'Quadrangle_2D')
@ -140,7 +150,7 @@ smesh.SetName(ENCASTR_1, 'ENCASTR')
 smesh.SetName(cubeFin_1.GetMesh(), 'cubeFin')
 smesh.SetName(Nb_Segments_1, 'Nb. Segments_1')
-cubeFin_1.ExportMED(os.path.join(gmu.pathBloc, "materielCasTests/cubeFin.med"))
+cubeFin_1.ExportMED(os.path.join(gmu.pathBloc, "materielCasTests", "cubeFin.med"))
 if salome.sg.hasDesktop():
  salome.sg.updateObjBrowser()
--- a/src/Tools/blocFissure/materielCasTests/decoupeCylindre.py
+++ b/src/Tools/blocFissure/materielCasTests/decoupeCylindre.py
@ -18,6 +18,8 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 import logging
 import sys
 import salome
@ -79,14 +81,14 @@ FissInCylindre = geompy.MakeFaceWires([Curve_2, Arc_1], 1)
 Divided_Cylinder_1 = geompy.MakeDividedCylinder(145, 800, GEOM.SQUARE)
 CylindreSain = geompy.MakeRotation(Divided_Cylinder_1, OZ, 45*math.pi/180.0)
 [Compound_1, vertical, radial, Compound_4] = geompy.Propagate(CylindreSain)
-geompy.ExportBREP(FissInCylindre, os.path.join(gmu.pathBloc, "materielCasTests/FissInCylindre.brep"))
+geompy.ExportBREP(FissInCylindre, os.path.join(gmu.pathBloc, "materielCasTests", "FissInCylindre.brep"))
 Vertex_12 = geompy.MakeVertex(0, -145, 500)
 Circle_2 = geompy.MakeCircle(Vertex_12, None, 145)
 Face_1 = geompy.MakeFaceWires([Circle_2], 1)
 Vertex_13 = geompy.MakeVertex(0, 0, 500)
 Disk_1 = geompy.MakeDiskPntVecR(Vertex_13, OZ_1, 170)
 FissInCylindre2 = geompy.MakeCommon(Face_1, Disk_1)
-geompy.ExportBREP(FissInCylindre2, os.path.join(gmu.pathBloc, "materielCasTests/FissInCylindre2.brep"))
+geompy.ExportBREP(FissInCylindre2, os.path.join(gmu.pathBloc, "materielCasTests", "FissInCylindre2.brep"))
 geompy.addToStudy( O, 'O' )
 geompy.addToStudy( OX, 'OX' )
 geompy.addToStudy( OY, 'OY' )
@ -148,6 +150,7 @@ smeshObj_1 = smesh.CreateHypothesis('NumberOfSegments')
 smeshObj_1.SetNumberOfSegments( 5 )
 smeshObj_1.SetDistrType( 0 )
 CylindreSain_1 = smesh.Mesh(CylindreSain)
 smesh.SetName(CylindreSain_1, 'CylindreSain')
 Regular_1D = CylindreSain_1.Segment()
 Nb_Segments_1 = Regular_1D.NumberOfSegments(15,[],[  ])
 Nb_Segments_1.SetDistrType( 0 )
@ -159,9 +162,17 @@ Nb_Segments_2.SetDistrType( 0 )
 Regular_1D_2 = CylindreSain_1.Segment(geom=radial)
 Nb_Segments_3 = Regular_1D_2.NumberOfSegments(6,[],[  ])
 Nb_Segments_3.SetDistrType( 0 )
-isDone = CylindreSain_1.Compute()
+
-smesh.SetName(CylindreSain_1, 'CylindreSain')
+is_done = CylindreSain_1.Compute()
-CylindreSain_1.ExportMED(os.path.join(gmu.pathBloc, "materielCasTests//CylindreSain.med"))
+text = "CylindreSain_1.Compute"
 if is_done:
  logging.info(text+" OK")
 else:
  text = "Erreur au calcul du maillage.\n" + text
  logging.info(text)
  raise Exception(text)
 CylindreSain_1.ExportMED(os.path.join(gmu.pathBloc, "materielCasTests", "CylindreSain.med"))
 SubMesh_1 = Regular_1D_1.GetSubMesh()
 SubMesh_2 = Regular_1D_2.GetSubMesh()
--- a/src/Tools/blocFissure/materielCasTests/disque_perce.py
+++ b/src/Tools/blocFissure/materielCasTests/disque_perce.py
@ -18,6 +18,8 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 import logging
 import sys
 import salome
@ -76,6 +78,7 @@ from salome.smesh import smeshBuilder
 smesh = smeshBuilder.New()
 from salome.StdMeshers import StdMeshersBuilder
 Disque_1 = smesh.Mesh(Disque)
 smesh.SetName(Disque_1, 'Disque')
 Regular_1D = Disque_1.Segment()
 Nb_Segments_1 = Regular_1D.NumberOfSegments(10)
 Nb_Segments_1.SetDistrType( 0 )
@ -86,9 +89,17 @@ Nb_Segments_2.SetDistrType( 0 )
 Regular_1D_2 = Disque_1.Segment(geom=Compound_4)
 status = Disque_1.AddHypothesis(Nb_Segments_2,Compound_4)
 Quadrangle_2D = Disque_1.Quadrangle(algo=smeshBuilder.QUADRANGLE)
-isDone = Disque_1.Compute()
+
-smesh.SetName(Disque_1, 'Disque')
+is_done = Disque_1.Compute()
-Disque_1.ExportMED(os.path.join(gmu.pathBloc, "materielCasTests/disque.med"))
+text = "Disque_1.Compute"
 if is_done:
  logging.info(text+" OK")
 else:
  text = "Erreur au calcul du maillage.\n" + text
  logging.info(text)
  raise Exception(text)
 Disque_1.ExportMED(os.path.join(gmu.pathBloc, "materielCasTests", "disque.med"))
 SubMesh_1 = Regular_1D_1.GetSubMesh()
 SubMesh_2 = Regular_1D_2.GetSubMesh()
--- a/src/Tools/blocFissure/materielCasTests/ellipse.py
+++ b/src/Tools/blocFissure/materielCasTests/ellipse.py
@ -71,7 +71,7 @@ geompy.addToStudy( Vertex_4, 'Vertex_4' )
 geompy.addToStudy( Box_1, 'Box_1' )
 geompy.addToStudy( ellipse1, 'ellipse1' )
 geompy.addToStudyInFather( ellipse1, fondFiss, 'fondFiss' )
-geompy.ExportBREP(ellipse1, os.path.join(gmu.pathBloc, "materielCasTests/ellipse1.brep"))
+geompy.ExportBREP(ellipse1, os.path.join(gmu.pathBloc, "materielCasTests", "ellipse1.brep"))
 if salome.sg.hasDesktop():
--- a/src/Tools/blocFissure/materielCasTests/ellipse_disque.py
+++ b/src/Tools/blocFissure/materielCasTests/ellipse_disque.py
@ -51,7 +51,7 @@ Vertex_2 = geompy.MakeVertex(98, -2, -2)
 Vertex_3 = geompy.MakeVertex(120, 2, 60)
 Box_1 = geompy.MakeBoxTwoPnt(Vertex_3, Vertex_2)
 Ellipse_disque = geompy.MakeCommon(Box_1, Scale_1)
-geompy.ExportBREP(Ellipse_disque, os.path.join(gmu.pathBloc, "materielCasTests/ellipse_disque.brep"))
+geompy.ExportBREP(Ellipse_disque, os.path.join(gmu.pathBloc, "materielCasTests", "ellipse_disque.brep"))
 geompy.addToStudy( O, 'O' )
 geompy.addToStudy( OX, 'OX' )
 geompy.addToStudy( OY, 'OY' )
--- a/src/Tools/blocFissure/materielCasTests/ellipse_probleme.py
+++ b/src/Tools/blocFissure/materielCasTests/ellipse_probleme.py
@ -69,7 +69,7 @@ geompy.addToStudy( Box_1, 'Box_1' )
 geompy.addToStudy( Vertex_4, 'Vertex_4' )
 geompy.addToStudy( Cut_1, 'Cut_1' )
 geompy.addToStudy( ellipse1, 'ellipse1_pb' )
-geompy.ExportBREP(ellipse1, os.path.join(gmu.pathBloc, "materielCasTests/ellipse1_pb.brep"))
+geompy.ExportBREP(ellipse1, os.path.join(gmu.pathBloc, "materielCasTests", "ellipse1_pb.brep"))
 if salome.sg.hasDesktop():
--- a/src/Tools/blocFissure/materielCasTests/eprouvetteCourbe.py
+++ b/src/Tools/blocFissure/materielCasTests/eprouvetteCourbe.py
@ -18,6 +18,8 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 import logging
 import sys
 import salome
@ -60,7 +62,7 @@ EprouvetteCourbe = geompy.MakeCut(Common_1, Cylinder_3)
 geomObj_1 = geompy.MakeMarker(0, 0, 0, 1, 0, 0, 0, 1, 0)
 Sketch_1 = geompy.MakeSketcherOnPlane("Sketcher:F -110.000000 85.000000:T 220.000000 0.000000:T 0.000000 75.000000:T -220.000000 0.000000:WW", geomObj_1 )
 SectionDroite = geompy.MakeFaceWires([Sketch_1], 1)
-geompy.ExportBREP(SectionDroite, os.path.join(gmu.pathBloc, "materielCasTests/EprouvetteCourbeFiss.brep"))
+geompy.ExportBREP(SectionDroite, os.path.join(gmu.pathBloc, "materielCasTests", "EprouvetteCourbeFiss.brep"))
 geompy.addToStudy( O, 'O' )
 geompy.addToStudy( OX, 'OX' )
 geompy.addToStudy( OY, 'OY' )
@ -92,6 +94,7 @@ from salome.smesh import smeshBuilder
 smesh = smeshBuilder.New()
 from salome.StdMeshers import StdMeshersBuilder
 EprouvetteCourbe_1 = smesh.Mesh(EprouvetteCourbe)
 smesh.SetName(EprouvetteCourbe_1, 'EprouvetteCourbe')
 Regular_1D = EprouvetteCourbe_1.Segment()
 Nb_Segments_1 = Regular_1D.NumberOfSegments(50)
 Nb_Segments_1.SetDistrType( 0 )
@ -103,9 +106,17 @@ Nb_Segments_2.SetDistrType( 0 )
 Regular_1D_2 = EprouvetteCourbe_1.Segment(geom=Compound_y)
 Nb_Segments_3 = Regular_1D_2.NumberOfSegments(25)
 Nb_Segments_3.SetDistrType( 0 )
-isDone = EprouvetteCourbe_1.Compute()
+
-smesh.SetName(EprouvetteCourbe_1, 'EprouvetteCourbe')
+is_done = EprouvetteCourbe_1.Compute()
-EprouvetteCourbe_1.ExportMED(os.path.join(gmu.pathBloc, "materielCasTests/EprouvetteCourbe.med"))
+text = "EprouvetteCourbe_1.Compute"
 if is_done:
  logging.info(text+" OK")
 else:
  text = "Erreur au calcul du maillage.\n" + text
  logging.info(text)
  raise Exception(text)
 EprouvetteCourbe_1.ExportMED(os.path.join(gmu.pathBloc, "materielCasTests", "EprouvetteCourbe.med"))
 SubMesh_1 = Regular_1D_1.GetSubMesh()
 SubMesh_2 = Regular_1D_2.GetSubMesh()
--- a/src/Tools/blocFissure/materielCasTests/eprouvetteDroite.py
+++ b/src/Tools/blocFissure/materielCasTests/eprouvetteDroite.py
@ -18,6 +18,8 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 import logging
 import sys
 import salome
@ -61,8 +63,8 @@ Plane_2 = geompy.MakePlane(Vertex_1, Line_1, 2000)
 geomObj_4 = geompy.MakeMarker(0, 0, 0, 1, 0, 0, 0, 1, 0)
 Sketch_2 = geompy.MakeSketcherOnPlane("Sketcher:F 0.000000 0.000000:T 120.000000 0.000000:T 0.000000 100.000000:T -120.000000 20.000000:WW", Plane_2 )
 SectionInclinee = geompy.MakeFaceWires([Sketch_2], 1)
-geompy.ExportBREP(sectionDroite, os.path.join(gmu.pathBloc, "materielCasTests/EprouvetteDroiteFissPb1.brep"))
+geompy.ExportBREP(sectionDroite, os.path.join(gmu.pathBloc, "materielCasTests", "EprouvetteDroiteFissPb1.brep"))
-geompy.ExportBREP(SectionInclinee, os.path.join(gmu.pathBloc, "materielCasTests/EprouvetteDroiteFiss2.brep"))
+geompy.ExportBREP(SectionInclinee, os.path.join(gmu.pathBloc, "materielCasTests", "EprouvetteDroiteFiss2.brep"))
 Vertex_2 = geompy.MakeVertex(110, -10, 200)
 Vertex_3 = geompy.MakeVertex(110, 80, 200)
 Vertex_4 = geompy.MakeVertex(-10, 80, 200)
@ -79,8 +81,8 @@ Line_7 = geompy.MakeLineTwoPnt(Vertex_5, Vertex_6)
 Face_1_vertex_9 = geompy.GetSubShape(Face_1, [9])
 Line_8 = geompy.MakeLineTwoPnt(Vertex_6, Face_1_vertex_9)
 Face_2 = geompy.MakeFaceWires([Line_5, Line_6, Line_7, Line_8], 1)
-geompy.ExportBREP(Face_1, os.path.join(gmu.pathBloc, "materielCasTests/EprouvetteDroiteFiss_1.brep"))
+geompy.ExportBREP(Face_1, os.path.join(gmu.pathBloc, "materielCasTests", "EprouvetteDroiteFiss_1.brep"))
-geompy.ExportBREP(Face_2, os.path.join(gmu.pathBloc, "materielCasTests/EprouvetteDroiteFiss_2.brep"))
+geompy.ExportBREP(Face_2, os.path.join(gmu.pathBloc, "materielCasTests", "EprouvetteDroiteFiss_2.brep"))
 geompy.addToStudy( O, 'O' )
 geompy.addToStudy( OX, 'OX' )
 geompy.addToStudy( OY, 'OY' )
@ -126,6 +128,7 @@ from salome.smesh import smeshBuilder
 smesh = smeshBuilder.New()
 from salome.StdMeshers import StdMeshersBuilder
 eprouvetteDroite_1 = smesh.Mesh(eprouvetteDroite)
 smesh.SetName(eprouvetteDroite_1, 'eprouvetteDroite')
 Regular_1D = eprouvetteDroite_1.Segment()
 Nb_Segments_1 = Regular_1D.NumberOfSegments(50,[],[  ])
 Nb_Segments_1.SetDistrType( 0 )
@ -137,9 +140,17 @@ Nb_Segments_2.SetDistrType( 0 )
 Regular_1D_2 = eprouvetteDroite_1.Segment(geom=Compound_x)
 Nb_Segments_3 = Regular_1D_2.NumberOfSegments(10,[],[  ])
 Nb_Segments_3.SetDistrType( 0 )
-isDone = eprouvetteDroite_1.Compute()
+
-smesh.SetName(eprouvetteDroite_1, 'eprouvetteDroite')
+is_done = eprouvetteDroite_1.Compute()
-eprouvetteDroite_1.ExportMED(os.path.join(gmu.pathBloc, "materielCasTests/eprouvetteDroite.med"))
+text = "eprouvetteDroite_1.Compute"
 if is_done:
  logging.info(text+" OK")
 else:
  text = "Erreur au calcul du maillage.\n" + text
  logging.info(text)
  raise Exception(text)
 eprouvetteDroite_1.ExportMED(os.path.join(gmu.pathBloc, "materielCasTests", "eprouvetteDroite.med"))
 SubMesh_1 = Regular_1D_1.GetSubMesh()
 SubMesh_2 = Regular_1D_2.GetSubMesh()
--- a/src/Tools/blocFissure/materielCasTests/fissureGauche.py
+++ b/src/Tools/blocFissure/materielCasTests/fissureGauche.py
@ -18,6 +18,8 @@
 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
 #
 import logging
 import sys
 import salome
@ -76,7 +78,7 @@ Box_2 = geompy.MakeBoxTwoPnt(Vertex_7, Vertex_6)
 Common_1 = geompy.MakeCommon(Box_2, Cut_2)
 objetSain = geompy.MakePartition([Common_1], [Plane_1, Plane_2, Plane_3], [], [], geompy.ShapeType["SOLID"], 0, [], 0)
 [hauteurs, epaisseurs, Compound_3, Compound_4, Compound_5, Compound_6] = geompy.Propagate(objetSain)
-geompy.ExportBREP(faceFiss1, os.path.join(gmu.pathBloc, "materielCasTests/faceGaucheFiss.brep"))
+geompy.ExportBREP(faceFiss1, os.path.join(gmu.pathBloc, "materielCasTests", "faceGaucheFiss.brep"))
 geompy.addToStudy( O, 'O' )
 geompy.addToStudy( OX, 'OX' )
 geompy.addToStudy( OY, 'OY' )
@ -121,6 +123,7 @@ from salome.smesh import smeshBuilder
 smesh = smeshBuilder.New()
 from salome.StdMeshers import StdMeshersBuilder
 objetSain_1 = smesh.Mesh(objetSain)
 smesh.SetName(objetSain_1, 'objetSain')
 Regular_1D = objetSain_1.Segment()
 Nb_Segments_1 = Regular_1D.NumberOfSegments(10,[],[  ])
 Nb_Segments_1.SetDistrType( 0 )
@ -132,9 +135,17 @@ Nb_Segments_2.SetDistrType( 0 )
 Regular_1D_2 = objetSain_1.Segment(geom=epaisseurs)
 Nb_Segments_3 = Regular_1D_2.NumberOfSegments(5,[],[  ])
 Nb_Segments_3.SetDistrType( 0 )
-isDone = objetSain_1.Compute()
+
-smesh.SetName(objetSain_1, 'objetSain')
+is_done = objetSain_1.Compute()
-objetSain_1.ExportMED(os.path.join(gmu.pathBloc, "materielCasTests/faceGaucheSain.med"))
+text = "objetSain_1.Compute"
 if is_done:
  logging.info(text+" OK")
 else:
  text = "Erreur au calcul du maillage.\n" + text
  logging.info(text)
  raise Exception(text)
 objetSain_1.ExportMED(os.path.join(gmu.pathBloc, "materielCasTests", "faceGaucheSain.med"))
 SubMesh_1 = Regular_1D_1.GetSubMesh()
 SubMesh_2 = Regular_1D_2.GetSubMesh()
--- a/Show More
+++ b/Show More