From fc387c8013f54fc6b714ee7ce40b89e5437d4745 Mon Sep 17 00:00:00 2001 From: jfa Date: Fri, 30 Nov 2007 08:24:29 +0000 Subject: [PATCH] NPAL17920: error in init_smesh routine in smeshDC.py file. --- src/SMESH_SWIG/smeshDC.py | 100 +++++++++++++++++++------------------- 1 file changed, 50 insertions(+), 50 deletions(-) diff --git a/src/SMESH_SWIG/smeshDC.py b/src/SMESH_SWIG/smeshDC.py index b59a3f9f7..c4fe06ac3 100644 --- a/src/SMESH_SWIG/smeshDC.py +++ b/src/SMESH_SWIG/smeshDC.py @@ -43,7 +43,7 @@ try: except ImportError: noNETGENPlugin = 1 pass - + # Types of algo REGULAR = 1 PYTHON = 2 @@ -60,7 +60,7 @@ NETGEN_FULL = FULL_NETGEN # MirrorType enumeration POINT = SMESH_MeshEditor.POINT -AXIS = SMESH_MeshEditor.AXIS +AXIS = SMESH_MeshEditor.AXIS PLANE = SMESH_MeshEditor.PLANE # Smooth_Method enumeration @@ -136,10 +136,10 @@ def TreatHypoStatus(status, hypName, geomName, isAlgo): class smeshDC(SMESH._objref_SMESH_Gen): def init_smesh(self,theStudy,geompyD): - self.SetCurrentStudy(theStudy) self.geompyD=geompyD self.SetGeomEngine(geompyD) - + self.SetCurrentStudy(theStudy) + def Mesh(self, obj=0, name=0): return Mesh(self,self.geompyD,obj,name) @@ -310,7 +310,7 @@ class smeshDC(SMESH._objref_SMESH_Gen): aCriterion.Compare = self.EnumToLong(FT_EqualTo) aTreshold = Compare - if CritType in [FT_BelongToGeom, FT_BelongToPlane, FT_BelongToGenSurface, + if CritType in [FT_BelongToGeom, FT_BelongToPlane, FT_BelongToGenSurface, FT_BelongToCylinder, FT_LyingOnGeom]: # Check treshold if isinstance(aTreshold, geompyDC.GEOM._objref_GEOM_Object): @@ -327,7 +327,7 @@ class smeshDC(SMESH._objref_SMESH_Gen): print "Error: Treshold should be a string." return None elif CritType in [FT_FreeBorders, FT_FreeEdges, FT_BadOrientedVolume]: - # Here we don't need treshold + # Here we do not need treshold if aTreshold == FT_LogicalNOT: aCriterion.UnaryOp = self.EnumToLong(FT_LogicalNOT) elif aTreshold in [FT_LogicalAND, FT_LogicalOR]: @@ -412,7 +412,7 @@ import omniORB omniORB.registerObjref(SMESH._objref_SMESH_Gen._NP_RepositoryId, smeshDC) -## Mother class to define algorithm, recommended to don't use directly. +## Mother class to define algorithm, recommended to do not use directly. # # More details. class Mesh_Algorithm: @@ -527,7 +527,7 @@ class Mesh_Algorithm: # More details. class Mesh_Segment(Mesh_Algorithm): - algo = 0 # algorithm object common for all Mesh_Segment's + algo = 0 # algorithm object common for all Mesh_Segments ## Private constructor. def __init__(self, mesh, geom=0): @@ -646,7 +646,7 @@ class Mesh_Segment(Mesh_Algorithm): # More details. class Mesh_CompositeSegment(Mesh_Segment): - algo = 0 # algorithm object common for all Mesh_CompositeSegment's + algo = 0 # algorithm object common for all Mesh_CompositeSegments ## Private constructor. def __init__(self, mesh, geom=0): @@ -665,7 +665,7 @@ class Mesh_CompositeSegment(Mesh_Segment): # More details. class Mesh_Segment_Python(Mesh_Segment): - algo = 0 # algorithm object common for all Mesh_Segment_Python's + algo = 0 # algorithm object common for all Mesh_Segment_Pythons ## Private constructor. def __init__(self, mesh, geom=0): @@ -700,7 +700,7 @@ class Mesh_Triangle(Mesh_Algorithm): params = 0 # algorithm objects common for all instances of Mesh_Triangle - algoMEF = 0 + algoMEF = 0 algoNET = 0 algoNET_2D = 0 @@ -839,7 +839,7 @@ class Mesh_Triangle(Mesh_Algorithm): if self.params is not None: self.params.SetFineness(theFineness) - ## Set GrowthRate + ## Set GrowthRate # # Only for algoType == NETGEN def SetGrowthRate(self, theRate): @@ -877,7 +877,7 @@ class Mesh_Triangle(Mesh_Algorithm): # More details. class Mesh_Quadrangle(Mesh_Algorithm): - algo = 0 # algorithm object common for all Mesh_Quadrangle's + algo = 0 # algorithm object common for all Mesh_Quadrangles ## Private constructor. def __init__(self, mesh, geom=0): @@ -907,9 +907,9 @@ class Mesh_Tetrahedron(Mesh_Algorithm): params = 0 algoType = 0 - algoNET = 0 # algorithm object common for all Mesh_Tetrahedron's - algoGHS = 0 # algorithm object common for all Mesh_Tetrahedron's - algoFNET = 0 # algorithm object common for all Mesh_Tetrahedron's + algoNET = 0 # algorithm object common for all Mesh_Tetrahedrons + algoGHS = 0 # algorithm object common for all Mesh_Tetrahedrons + algoFNET = 0 # algorithm object common for all Mesh_Tetrahedrons ## Private constructor. def __init__(self, mesh, algoType, geom=0): @@ -961,8 +961,8 @@ class Mesh_Tetrahedron(Mesh_Algorithm): return self.params else: print "Algo doesn't support this hypothesis" - return None - + return None + ## Set MaxSize def SetMaxSize(self, theSize): if self.params == 0: @@ -988,8 +988,8 @@ class Mesh_Tetrahedron(Mesh_Algorithm): if self.params == 0: self.Parameters() self.params.SetFineness(theFineness) - - ## Set GrowthRate + + ## Set GrowthRate def SetGrowthRate(self, theRate): if self.params == 0: self.Parameters() @@ -1015,7 +1015,7 @@ class Mesh_Tetrahedron(Mesh_Algorithm): # More details. class Mesh_Hexahedron(Mesh_Algorithm): - algo = 0 # algorithm object common for all Mesh_Hexahedron's + algo = 0 # algorithm object common for all Mesh_Hexahedrons ## Private constructor. def __init__(self, mesh, geom=0): @@ -1041,8 +1041,8 @@ class Mesh_Netgen(Mesh_Algorithm): is3D = 0 - algoNET23 = 0 # algorithm object common for all Mesh_Netgen's - algoNET2 = 0 # algorithm object common for all Mesh_Netgen's + algoNET23 = 0 # algorithm object common for all Mesh_Netgens + algoNET2 = 0 # algorithm object common for all Mesh_Netgens ## Private constructor. def __init__(self, mesh, is3D, geom=0): @@ -1086,7 +1086,7 @@ class Mesh_Netgen(Mesh_Algorithm): # More details. class Mesh_Projection1D(Mesh_Algorithm): - algo = 0 # algorithm object common for all Mesh_Projection1D's + algo = 0 # algorithm object common for all Mesh_Projection1Ds ## Private constructor. def __init__(self, mesh, geom=0): @@ -1126,7 +1126,7 @@ class Mesh_Projection1D(Mesh_Algorithm): # More details. class Mesh_Projection2D(Mesh_Algorithm): - algo = 0 # algorithm object common for all Mesh_Projection2D's + algo = 0 # algorithm object common for all Mesh_Projection2Ds ## Private constructor. def __init__(self, mesh, geom=0): @@ -1172,7 +1172,7 @@ class Mesh_Projection2D(Mesh_Algorithm): # More details. class Mesh_Projection3D(Mesh_Algorithm): - algo = 0 # algorithm object common for all Mesh_Projection3D's + algo = 0 # algorithm object common for all Mesh_Projection3Ds ## Private constructor. def __init__(self, mesh, geom=0): @@ -1220,7 +1220,7 @@ class Mesh_Projection3D(Mesh_Algorithm): # More details. class Mesh_Prism3D(Mesh_Algorithm): - algo = 0 # algorithm object common for all Mesh_Prism3D's + algo = 0 # algorithm object common for all Mesh_Prism3Ds ## Private constructor. def __init__(self, mesh, geom=0): @@ -1240,7 +1240,7 @@ class Mesh_Prism3D(Mesh_Algorithm): # More details. class Mesh_RadialPrism3D(Mesh_Algorithm): - algo = 0 # algorithm object common for all Mesh_RadialPrism3D's + algo = 0 # algorithm object common for all Mesh_RadialPrism3Ds ## Private constructor. def __init__(self, mesh, geom=0): @@ -1427,8 +1427,8 @@ class Mesh: ## Method that associates given shape to the mesh(entails the mesh recreation) # @param geom shape to be meshed(GEOM_Object) def SetShape(self, geom): - self.mesh = self.smeshpyD.CreateMesh(geom) - + self.mesh = self.smeshpyD.CreateMesh(geom) + ## Return true if hypotheses are defined well # @param theMesh is an instance of Mesh class # @param theSubObject subshape of a mesh shape @@ -1444,7 +1444,7 @@ class Mesh: return self.smeshpyD.GetAlgoState(self.mesh, theSubObject) ## Return geometrical object the given element is built on. - # The returned geometrical object, if not nil, is either found in the + # The returned geometrical object, if not nil, is either found in the # study or is published by this method with the given name # @param theMesh is an instance of Mesh class # @param theElementID an id of the mesh element @@ -1681,7 +1681,7 @@ class Mesh: self.Quadrangle() pass if dim > 2 : - self.Hexahedron() + self.Hexahedron() pass return self.Compute() @@ -1729,7 +1729,7 @@ class Mesh: ## Create a mesh group based on geometric object \a grp # and give a \a name, \n if this parameter is not defined # the name is the same as the geometric group name \n - # Note: Works like GroupOnGeom(). + # Note: Works like GroupOnGeom(). # @param grp is a geometric group, a vertex, an edge, a face or a solid # @param name is the name of the mesh group # @return SMESH_GroupOnGeom @@ -2181,7 +2181,7 @@ class Mesh: def GetShapeID(self, id): return self.mesh.GetShapeID(id) - ## For given element returns ID of result shape after + ## For given element returns ID of result shape after # FindShape() from SMESH_MeshEditor # \n If there is not element for given ID - returns -1 def GetShapeIDForElem(self,id): @@ -2650,9 +2650,9 @@ class Mesh: # @param MaxNbOfIterations maximum number of iterations # @param MaxAspectRatio varies in range [1.0, inf] # @param Method is Laplacian(LAPLACIAN_SMOOTH) or Centroidal(CENTROIDAL_SMOOTH) - def SmoothObject(self, theObject, IDsOfFixedNodes, + def SmoothObject(self, theObject, IDsOfFixedNodes, MaxNbOfIterations, MaxxAspectRatio, Method): - return self.editor.SmoothObject(theObject, IDsOfFixedNodes, + return self.editor.SmoothObject(theObject, IDsOfFixedNodes, MaxNbOfIterations, MaxxAspectRatio, Method) ## Parametric smooth the given elements @@ -2681,13 +2681,13 @@ class Mesh: return self.editor.SmoothParametricObject(theObject, IDsOfFixedNodes, MaxNbOfIterations, MaxAspectRatio, Method) - ## Converts all mesh to quadratic one, deletes old elements, replacing + ## Converts all mesh to quadratic one, deletes old elements, replacing # them with quadratic ones with the same id. def ConvertToQuadratic(self, theForce3d): self.editor.ConvertToQuadratic(theForce3d) ## Converts all mesh from quadratic to ordinary ones, - # deletes old quadratic elements, \n replacing + # deletes old quadratic elements, \n replacing # them with ordinary mesh elements with the same id. def ConvertFromQuadratic(self): return self.editor.ConvertFromQuadratic() @@ -2736,7 +2736,7 @@ class Mesh: ## Generate new elements by extrusion of the elements with given ids # @param IDsOfElements list of elements ids for extrusion - # @param StepVector vector, defining the direction and value of extrusion + # @param StepVector vector, defining the direction and value of extrusion # @param NbOfSteps the number of steps # @param MakeGroups to generate new groups from existing ones def ExtrusionSweep(self, IDsOfElements, StepVector, NbOfSteps, MakeGroups=False): @@ -2751,7 +2751,7 @@ class Mesh: ## Generate new elements by extrusion of the elements with given ids # @param IDsOfElements is ids of elements - # @param StepVector vector, defining the direction and value of extrusion + # @param StepVector vector, defining the direction and value of extrusion # @param NbOfSteps the number of steps # @param ExtrFlags set flags for performing extrusion # @param SewTolerance uses for comparing locations of nodes if flag @@ -2769,7 +2769,7 @@ class Mesh: ## Generate new elements by extrusion of the elements belong to object # @param theObject object wich elements should be processed - # @param StepVector vector, defining the direction and value of extrusion + # @param StepVector vector, defining the direction and value of extrusion # @param NbOfSteps the number of steps # @param MakeGroups to generate new groups from existing ones def ExtrusionSweepObject(self, theObject, StepVector, NbOfSteps, MakeGroups=False): @@ -2782,7 +2782,7 @@ class Mesh: ## Generate new elements by extrusion of the elements belong to object # @param theObject object wich elements should be processed - # @param StepVector vector, defining the direction and value of extrusion + # @param StepVector vector, defining the direction and value of extrusion # @param NbOfSteps the number of steps # @param MakeGroups to generate new groups from existing ones def ExtrusionSweepObject1D(self, theObject, StepVector, NbOfSteps, MakeGroups=False): @@ -2795,8 +2795,8 @@ class Mesh: ## Generate new elements by extrusion of the elements belong to object # @param theObject object wich elements should be processed - # @param StepVector vector, defining the direction and value of extrusion - # @param NbOfSteps the number of steps + # @param StepVector vector, defining the direction and value of extrusion + # @param NbOfSteps the number of steps # @param MakeGroups to generate new groups from existing ones def ExtrusionSweepObject2D(self, theObject, StepVector, NbOfSteps, MakeGroups=False): if ( isinstance( StepVector, geompyDC.GEOM._objref_GEOM_Object)): @@ -2814,7 +2814,7 @@ class Mesh: # @param NodeStart the first or the last node on the edge. It is used to define the direction of extrusion # @param HasAngles allows the shape to be rotated around the path to get the resulting mesh in a helical fashion # @param Angles list of angles - # @param HasRefPoint allows to use base point + # @param HasRefPoint allows to use base point # @param RefPoint point around which the shape is rotated(the mass center of the shape by default). # User can specify any point as the Base Point and the shape will be rotated with respect to this point. # @param MakeGroups to generate new groups from existing ones @@ -2842,7 +2842,7 @@ class Mesh: # @param NodeStart the first or the last node on the edge. It is used to define the direction of extrusion # @param HasAngles allows the shape to be rotated around the path to get the resulting mesh in a helical fashion # @param Angles list of angles - # @param HasRefPoint allows to use base point + # @param HasRefPoint allows to use base point # @param RefPoint point around which the shape is rotated(the mass center of the shape by default). # User can specify any point as the Base Point and the shape will be rotated with respect to this point. # @param MakeGroups to generate new groups from existing ones @@ -2851,7 +2851,7 @@ class Mesh: HasAngles, Angles, HasRefPoint, RefPoint, MakeGroups=False, LinearVariation=False): if ( isinstance( RefPoint, geompyDC.GEOM._objref_GEOM_Object)): - RefPoint = self.smeshpyD.GetPointStruct(RefPoint) + RefPoint = self.smeshpyD.GetPointStruct(RefPoint) if MakeGroups: return self.editor.ExtrusionAlongPathObjectMakeGroups(theObject, PathMesh.GetMesh(), PathShape, NodeStart, HasAngles, @@ -2924,7 +2924,7 @@ class Mesh: # @param IDsOfElements list of elements ids # @param Axis axis of rotation(AxisStruct or geom line) # @param AngleInRadians angle of rotation(in radians) - # @param Copy allows to copy the rotated elements + # @param Copy allows to copy the rotated elements # @param MakeGroups to generate new groups from existing ones (if Copy) def Rotate (self, IDsOfElements, Axis, AngleInRadians, Copy, MakeGroups=False): if IDsOfElements == []: @@ -3024,13 +3024,13 @@ class Mesh: return self.editor.ChangeElemNodes(ide, newIDs) ## If during last operation of MeshEditor some nodes were - # created this method returns list of it's IDs, \n + # created this method returns list of its IDs, \n # if new nodes not created - returns empty list def GetLastCreatedNodes(self): return self.editor.GetLastCreatedNodes() ## If during last operation of MeshEditor some elements were - # created this method returns list of it's IDs, \n + # created this method returns list of its IDs, \n # if new elements not creared - returns empty list def GetLastCreatedElems(self): return self.editor.GetLastCreatedElems() -- 2.39.2