# Treat compute errors
computeErrors = self.smeshpyD.GetComputeErrors( self.mesh, geom )
for err in computeErrors:
- shapeText = ""
- if self.mesh.HasShapeToMesh():
- try:
- mainIOR = salome.orb.object_to_string(geom)
- for sname in salome.myStudyManager.GetOpenStudies():
- s = salome.myStudyManager.GetStudyByName(sname)
- if not s: continue
- mainSO = s.FindObjectIOR(mainIOR)
- if not mainSO: continue
- if err.subShapeID == 1:
- shapeText = ' on "%s"' % mainSO.GetName()
- subIt = s.NewChildIterator(mainSO)
- while subIt.More():
- subSO = subIt.Value()
- subIt.Next()
- obj = subSO.GetObject()
- if not obj: continue
- go = obj._narrow( geomBuilder.GEOM._objref_GEOM_Object )
- if not go: continue
- ids = go.GetSubShapeIndices()
- if len(ids) == 1 and ids[0] == err.subShapeID:
- shapeText = ' on "%s"' % subSO.GetName()
- break
- if not shapeText:
- shape = self.geompyD.GetSubShape( geom, [err.subShapeID])
- if shape:
- shapeText = " on %s #%s" % (shape.GetShapeType(), err.subShapeID)
- else:
- shapeText = " on subshape #%s" % (err.subShapeID)
- except:
- shapeText = " on subshape #%s" % (err.subShapeID)
+ shapeText = " on %s" % self.GetSubShapeName( err.subShapeID )
errText = ""
stdErrors = ["OK", #COMPERR_OK
"Invalid input mesh", #COMPERR_BAD_INPUT_MESH
pass
return ok
- ## Return submesh objects list in meshing order
+ ## Return a name of a sub-shape by its ID
+ # @param subShapeID a unique ID of a sub-shape
+ # @return a string describing the sub-shape; possible variants:
+ # - "Face_12" (published sub-shape)
+ # - FACE #3 (not published sub-shape)
+ # - sub-shape #3 (invalid sub-shape ID)
+ # - #3 (error in this function)
+ def GetSubShapeName(self, subShapeID ):
+ if not self.mesh.HasShapeToMesh():
+ return ""
+ try:
+ shapeText = ""
+ mainIOR = salome.orb.object_to_string( self.GetShape() )
+ for sname in salome.myStudyManager.GetOpenStudies():
+ s = salome.myStudyManager.GetStudyByName(sname)
+ if not s: continue
+ mainSO = s.FindObjectIOR(mainIOR)
+ if not mainSO: continue
+ if subShapeID == 1:
+ shapeText = '"%s"' % mainSO.GetName()
+ subIt = s.NewChildIterator(mainSO)
+ while subIt.More():
+ subSO = subIt.Value()
+ subIt.Next()
+ obj = subSO.GetObject()
+ if not obj: continue
+ go = obj._narrow( geomBuilder.GEOM._objref_GEOM_Object )
+ if not go: continue
+ try:
+ ids = self.geompyD.GetSubShapeID( self.GetShape(), go )
+ except:
+ continue
+ if ids == subShapeID:
+ shapeText = '"%s"' % subSO.GetName()
+ break
+ if not shapeText:
+ shape = self.geompyD.GetSubShape( self.GetShape(), [subShapeID])
+ if shape:
+ shapeText = '%s #%s' % (shape.GetShapeType(), subShapeID)
+ else:
+ shapeText = 'sub-shape #%s' % (subShapeID)
+ except:
+ shapeText = "#%s" % (subShapeID)
+ return shapeText
+
+ ## Return a list of sub-shapes meshing of which failed, grouped into GEOM groups by
+ # error of an algorithm
+ # @param publish if @c True, the returned groups will be published in the study
+ # @return a list of GEOM groups each named after a failed algorithm
+ def GetFailedShapes(self, publish=False):
+
+ algo2shapes = {}
+ computeErrors = self.smeshpyD.GetComputeErrors( self.mesh, self.GetShape() )
+ for err in computeErrors:
+ shape = self.geompyD.GetSubShape( self.GetShape(), [err.subShapeID])
+ if not shape: continue
+ if err.algoName in algo2shapes:
+ algo2shapes[ err.algoName ].append( shape )
+ else:
+ algo2shapes[ err.algoName ] = [ shape ]
+ pass
+
+ groups = []
+ for algoName, shapes in algo2shapes.items():
+ while shapes:
+ groupType = self.smeshpyD.EnumToLong( shapes[0].GetShapeType() )
+ otherTypeShapes = []
+ sameTypeShapes = []
+ group = self.geompyD.CreateGroup( self.geom, groupType )
+ for shape in shapes:
+ if shape.GetShapeType() == shapes[0].GetShapeType():
+ sameTypeShapes.append( shape )
+ else:
+ otherTypeShapes.append( shape )
+ self.geompyD.UnionList( group, sameTypeShapes )
+ if otherTypeShapes:
+ group.SetName( "%s %s" % ( algoName, shapes[0].GetShapeType() ))
+ else:
+ group.SetName( algoName )
+ groups.append( group )
+ shapes = otherTypeShapes
+ pass
+ if publish:
+ for group in groups:
+ self.geompyD.addToStudyInFather( self.geom, group, group.GetName() )
+ return groups
+
+ ## Return sub-mesh objects list in meshing order
# @return list of list of submesh objects
# @ingroup l2_construct
def GetMeshOrder(self):
return self.mesh.GetMeshOrder()
- ## Return submesh objects list in meshing order
- # @return list of list of submesh objects
+ ## Set order in which concurrent sub-meshes sould be meshed
+ # @param list of sub-meshes
# @ingroup l2_construct
def SetMeshOrder(self, submeshes):
return self.mesh.SetMeshOrder(submeshes)
# @return SMESH.Hypothesis_Status
# @ingroup l2_hypotheses
def AddHypothesis(self, hyp, geom=0):
+ if isinstance( hyp, geomBuilder.GEOM._objref_GEOM_Object ):
+ hyp, geom = geom, hyp
if isinstance( hyp, Mesh_Algorithm ):
hyp = hyp.GetAlgorithm()
pass
# @return an integer value
# @ingroup l1_meshinfo
def NbPolygons(self, elementOrder = SMESH.ORDER_ANY):
- return self.mesh.NbPolygons(elementOrder)
+ return self.mesh.NbPolygonsOfOrder(elementOrder)
## Returns the number of volumes in the mesh
# @return an integer value
# @param GroupsOfNodes a list of groups of nodes IDs for merging
# (e.g. [[1,12,13],[25,4]], then nodes 12, 13 and 4 will be removed and replaced
# by nodes 1 and 25 correspondingly in all elements and groups
+ # @param NodesToKeep nodes to keep in the mesh: a list of groups, sub-meshes or node IDs.
+ # If @a NodesToKeep does not include a node to keep for some group to merge,
+ # then the first node in the group is kept.
# @ingroup l2_modif_trsf
- def MergeNodes (self, GroupsOfNodes):
- self.editor.MergeNodes(GroupsOfNodes)
+ def MergeNodes (self, GroupsOfNodes, NodesToKeep=[]):
+ # NodesToKeep are converted to SMESH_IDSource in meshEditor.MergeNodes()
+ self.editor.MergeNodes(GroupsOfNodes,NodesToKeep)
## Finds the elements built on the same nodes.
# @param MeshOrSubMeshOrGroup Mesh or SubMesh, or Group of elements for searching
if hasattr( self.mesh, name ):
return getattr( self.mesh, name )
if name == "ExtrusionAlongPathObjX":
- return getattr( self.mesh, "ExtrusionAlongPathX" )
- print name, "meshEditor: attribute '%s' NOT FOUND" % name
+ return getattr( self.mesh, "ExtrusionAlongPathX" ) # other method name
+ print "meshEditor: attribute '%s' NOT FOUND" % name
return None
def __deepcopy__(self, memo=None):
new = self.__class__()
return new
+ def FindCoincidentNodes(self,*args): # a 2nd arg added (SeparateCornerAndMediumNodes)
+ if len( args ) == 1:
+ return SMESH._objref_SMESH_MeshEditor.FindCoincidentNodes( self, args[0], False )
+ return SMESH._objref_SMESH_MeshEditor.FindCoincidentNodes( self, *args )
+ def FindCoincidentNodesOnPart(self,*args): # a 3d arg added (SeparateCornerAndMediumNodes)
+ if len( args ) == 2:
+ args += False,
+ return SMESH._objref_SMESH_MeshEditor.FindCoincidentNodesOnPart( self, *args )
+ def MergeNodes(self,*args): # a 2nd arg added (NodesToKeep)
+ if len( args ) == 1:
+ return SMESH._objref_SMESH_MeshEditor.MergeNodes( self, args[0], [] )
+ NodesToKeep = args[1]
+ unRegister = genObjUnRegister()
+ if NodesToKeep:
+ if isinstance( NodesToKeep, list ) and isinstance( NodesToKeep[0], int ):
+ NodesToKeep = self.MakeIDSource( NodesToKeep, SMESH.NODE )
+ if not isinstance( NodesToKeep, list ):
+ NodesToKeep = [ NodesToKeep ]
+ return SMESH._objref_SMESH_MeshEditor.MergeNodes( self, args[0], NodesToKeep )
pass
omniORB.registerObjref(SMESH._objref_SMESH_MeshEditor._NP_RepositoryId, meshEditor)