X-Git-Url: http://git.salome-platform.org/gitweb/?a=blobdiff_plain;f=src%2FSMESH_SWIG%2FsmeshBuilder.py;h=8fd7b6166febc11fef4e5f938ad5ca0b99b54e6d;hb=b8ddb1330cad42ad5381912dd267d1e39182daae;hp=ffeaa7cfd19710d8ac6673e8c59c695c584f1744;hpb=cc85955178440fffe36eef234d759e3c3590248f;p=modules%2Fsmesh.git diff --git a/src/SMESH_SWIG/smeshBuilder.py b/src/SMESH_SWIG/smeshBuilder.py old mode 100755 new mode 100644 index ffeaa7cfd..8fd7b6166 --- a/src/SMESH_SWIG/smeshBuilder.py +++ b/src/SMESH_SWIG/smeshBuilder.py @@ -1,4 +1,4 @@ -# Copyright (C) 2007-2016 CEA/DEN, EDF R&D, OPEN CASCADE +# Copyright (C) 2007-2019 CEA/DEN, EDF R&D, OPEN CASCADE # # This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public @@ -318,27 +318,13 @@ def AssureGeomPublished(mesh, geom, name=''): mesh.geompyD.addToStudyInFather( mesh.geom, geom, name ) return -def FirstVertexOnCurve(mesh, edge): - """ - Returns: - the first vertex of a geometrical edge by ignoring orientation - """ - vv = mesh.geompyD.SubShapeAll( edge, geomBuilder.geomBuilder.ShapeType["VERTEX"]) - if not vv: - raise TypeError("Given object has no vertices") - if len( vv ) == 1: return vv[0] - v0 = mesh.geompyD.MakeVertexOnCurve(edge,0.) - xyz = mesh.geompyD.PointCoordinates( v0 ) # coords of the first vertex - xyz1 = mesh.geompyD.PointCoordinates( vv[0] ) - xyz2 = mesh.geompyD.PointCoordinates( vv[1] ) - dist1, dist2 = 0,0 - for i in range(3): - dist1 += abs( xyz[i] - xyz1[i] ) - dist2 += abs( xyz[i] - xyz2[i] ) - if dist1 < dist2: - return vv[0] - else: - return vv[1] +# def FirstVertexOnCurve(mesh, edge): +# """ +# Returns: +# the first vertex of a geometrical edge by ignoring orientation +# """ +# return mesh.geompyD.GetVertexByIndex( edge, 0, False ) + smeshInst = None """ @@ -475,6 +461,24 @@ class smeshBuilder( SMESH._objref_SMESH_Gen, object ): obj,name = name,obj return Mesh(self, self.geompyD, obj, name) + def RemoveMesh( self, mesh ): + """ + Delete a mesh + """ + if isinstance( mesh, Mesh ): + mesh = mesh.GetMesh() + pass + if not isinstance( mesh, SMESH._objref_SMESH_Mesh ): + raise TypeError("%s is not a mesh" % mesh ) + so = salome.ObjectToSObject( mesh ) + if so: + sb = salome.myStudy.NewBuilder() + sb.RemoveObjectWithChildren( so ) + else: + mesh.UnRegister() + pass + return + def EnumToLong(self,theItem): """ Return a long value from enumeration @@ -513,8 +517,8 @@ class smeshBuilder( SMESH._objref_SMESH_Gen, object ): Returns: :class:`SMESH.PointStruct` """ - - [x, y, z] = self.geompyD.PointCoordinates(theVertex) + geompyD = theVertex.GetGen() + [x, y, z] = geompyD.PointCoordinates(theVertex) return PointStruct(x,y,z) def GetDirStruct(self,theVector): @@ -527,13 +531,13 @@ class smeshBuilder( SMESH._objref_SMESH_Gen, object ): Returns: :class:`SMESH.DirStruct` """ - - vertices = self.geompyD.SubShapeAll( theVector, geomBuilder.geomBuilder.ShapeType["VERTEX"] ) + geompyD = theVector.GetGen() + vertices = geompyD.SubShapeAll( theVector, geomBuilder.geomBuilder.ShapeType["VERTEX"] ) if(len(vertices) != 2): print("Error: vector object is incorrect.") return None - p1 = self.geompyD.PointCoordinates(vertices[0]) - p2 = self.geompyD.PointCoordinates(vertices[1]) + p1 = geompyD.PointCoordinates(vertices[0]) + p2 = geompyD.PointCoordinates(vertices[1]) pnt = PointStruct(p2[0]-p1[0], p2[1]-p1[1], p2[2]-p1[2]) dirst = DirStruct(pnt) return dirst @@ -563,28 +567,29 @@ class smeshBuilder( SMESH._objref_SMESH_Gen, object ): :class:`SMESH.AxisStruct` """ import GEOM - edges = self.geompyD.SubShapeAll( theObj, geomBuilder.geomBuilder.ShapeType["EDGE"] ) + geompyD = theObj.GetGen() + edges = geompyD.SubShapeAll( theObj, geomBuilder.geomBuilder.ShapeType["EDGE"] ) axis = None if len(edges) > 1: - vertex1, vertex2 = self.geompyD.SubShapeAll( edges[0], geomBuilder.geomBuilder.ShapeType["VERTEX"] ) - vertex3, vertex4 = self.geompyD.SubShapeAll( edges[1], geomBuilder.geomBuilder.ShapeType["VERTEX"] ) - vertex1 = self.geompyD.PointCoordinates(vertex1) - vertex2 = self.geompyD.PointCoordinates(vertex2) - vertex3 = self.geompyD.PointCoordinates(vertex3) - vertex4 = self.geompyD.PointCoordinates(vertex4) + vertex1, vertex2 = geompyD.SubShapeAll( edges[0], geomBuilder.geomBuilder.ShapeType["VERTEX"] ) + vertex3, vertex4 = geompyD.SubShapeAll( edges[1], geomBuilder.geomBuilder.ShapeType["VERTEX"] ) + vertex1 = geompyD.PointCoordinates(vertex1) + vertex2 = geompyD.PointCoordinates(vertex2) + vertex3 = geompyD.PointCoordinates(vertex3) + vertex4 = geompyD.PointCoordinates(vertex4) v1 = [vertex2[0]-vertex1[0], vertex2[1]-vertex1[1], vertex2[2]-vertex1[2]] v2 = [vertex4[0]-vertex3[0], vertex4[1]-vertex3[1], vertex4[2]-vertex3[2]] normal = [ v1[1]*v2[2]-v2[1]*v1[2], v1[2]*v2[0]-v2[2]*v1[0], v1[0]*v2[1]-v2[0]*v1[1] ] axis = AxisStruct(vertex1[0], vertex1[1], vertex1[2], normal[0], normal[1], normal[2]) axis._mirrorType = SMESH.SMESH_MeshEditor.PLANE elif len(edges) == 1: - vertex1, vertex2 = self.geompyD.SubShapeAll( edges[0], geomBuilder.geomBuilder.ShapeType["VERTEX"] ) - p1 = self.geompyD.PointCoordinates( vertex1 ) - p2 = self.geompyD.PointCoordinates( vertex2 ) + vertex1, vertex2 = geompyD.SubShapeAll( edges[0], geomBuilder.geomBuilder.ShapeType["VERTEX"] ) + p1 = geompyD.PointCoordinates( vertex1 ) + p2 = geompyD.PointCoordinates( vertex2 ) axis = AxisStruct(p1[0], p1[1], p1[2], p2[0]-p1[0], p2[1]-p1[1], p2[2]-p1[2]) axis._mirrorType = SMESH.SMESH_MeshEditor.AXIS elif theObj.GetShapeType() == GEOM.VERTEX: - x,y,z = self.geompyD.PointCoordinates( theObj ) + x,y,z = geompyD.PointCoordinates( theObj ) axis = AxisStruct( x,y,z, 1,0,0,) axis._mirrorType = SMESH.SMESH_MeshEditor.POINT return axis @@ -812,7 +817,7 @@ class smeshBuilder( SMESH._objref_SMESH_Gen, object ): Parameters: sourceMesh: the mesh to copy definition of. - newGeom: the new geomtry. + newGeom: the new geometry. meshName: an optional name of the new mesh. If omitted, the mesh name is kept. toCopyGroups: to create groups in the new mesh. toReuseHypotheses: to reuse hypotheses of the *sourceMesh*. @@ -823,7 +828,7 @@ class smeshBuilder( SMESH._objref_SMESH_Gen, object ): *invalidEntries* are study entries of objects whose counterparts are not found in the *newGeom*, followed by entries of mesh sub-objects that are invalid because they depend on a not found - preceeding sub-shape + preceding sub-shape """ if isinstance( sourceMesh, Mesh ): sourceMesh = sourceMesh.GetMesh() @@ -954,7 +959,8 @@ class smeshBuilder( SMESH._objref_SMESH_Gen, object ): name = aCriterion.ThresholdStr if not name: name = "%s_%s"%(aThreshold.GetShapeType(), id(aThreshold)%10000) - aCriterion.ThresholdID = self.geompyD.addToStudy( aThreshold, name ) + geompyD = aThreshold.GetGen() + aCriterion.ThresholdID = geompyD.addToStudy( aThreshold, name ) # or a name of GEOM object elif isinstance( aThreshold, str ): aCriterion.ThresholdStr = aThreshold @@ -1005,7 +1011,8 @@ class smeshBuilder( SMESH._objref_SMESH_Gen, object ): name = aThreshold.GetName() if not name: name = "%s_%s"%(aThreshold.GetShapeType(), id(aThreshold)%10000) - aCriterion.ThresholdID = self.geompyD.addToStudy( aThreshold, name ) + geompyD = aThreshold.GetGen() + aCriterion.ThresholdID = geompyD.addToStudy( aThreshold, name ) elif isinstance(aThreshold, int): # node id aCriterion.Threshold = aThreshold elif isinstance(aThreshold, list): # 3 point coordinates @@ -1235,8 +1242,6 @@ class smeshBuilder( SMESH._objref_SMESH_Gen, object ): def GetMeshInfo(self, obj): """ Get the mesh statistic. - Use :meth:`smeshBuilder.EnumToLong` to get an integer from - an item of :class:`SMESH.EntityType`. Returns: dictionary { :class:`SMESH.EntityType` - "count of elements" } @@ -1617,14 +1622,15 @@ class Mesh(metaclass = MeshMeta): Parameters: theMesh: a :class:`SMESH.SMESH_Mesh` object """ - - # do not call Register() as this prevents mesh servant deletion at closing study #if self.mesh: self.mesh.UnRegister() self.mesh = theMesh if self.mesh: #self.mesh.Register() self.geom = self.mesh.GetShapeToMesh() + if self.geom: + self.geompyD = self.geom.GetGen() + pass pass def GetMesh(self): @@ -2056,7 +2062,14 @@ class Mesh(metaclass = MeshMeta): def SetMeshOrder(self, submeshes): """ - Set order in which concurrent sub-meshes should be meshed + Set priority of sub-meshes. It works in two ways: + + * For sub-meshes with assigned algorithms of same dimension generating mesh of + *several dimensions*, it sets the order in which the sub-meshes are computed. + * For the rest sub-meshes, it sets the order in which the sub-meshes are checked + when looking for meshing parameters to apply to a sub-shape. To impose the + order in which sub-meshes with uni-dimensional algorithms are computed, + call **submesh.Compute()** in a desired order. Parameters: submeshes: list of lists of :class:`sub-meshes ` @@ -2757,6 +2770,10 @@ class Mesh(metaclass = MeshMeta): Parameters: group (SMESH.SMESH_GroupBase): group to remove + + Note: + This operation can create gaps in numeration of nodes or elements. + Call :meth:`RenumberElements` to remove the gaps. """ self.mesh.RemoveGroupWithContents(group) @@ -3091,8 +3108,6 @@ class Mesh(metaclass = MeshMeta): def GetMeshInfo(self, obj = None): """ Get the mesh statistic. - Use :meth:`smeshBuilder.EnumToLong` to get an integer from - an item of :class:`SMESH.EntityType`. Returns: dictionary { :class:`SMESH.EntityType` - "count of elements" } @@ -3957,6 +3972,10 @@ class Mesh(metaclass = MeshMeta): Returns: True or False + + Note: + This operation can create gaps in numeration of elements. + Call :meth:`RenumberElements` to remove the gaps. """ return self.editor.RemoveElements(IDsOfElements) @@ -3970,6 +3989,10 @@ class Mesh(metaclass = MeshMeta): Returns: True or False + + Note: + This operation can create gaps in numeration of nodes. + Call :meth:`RenumberElements` to remove the gaps. """ return self.editor.RemoveNodes(IDsOfNodes) @@ -3980,6 +4003,10 @@ class Mesh(metaclass = MeshMeta): Returns: number of the removed nodes + + Note: + This operation can create gaps in numeration of nodes. + Call :meth:`RenumberElements` to remove the gaps. """ return self.editor.RemoveOrphanNodes() @@ -4388,7 +4415,8 @@ class Mesh(metaclass = MeshMeta): Returns: A list of edge groups and a list of corresponding node groups, - where the group is a list of IDs of edges or elements. + where the group is a list of IDs of edges or elements, like follows + [[[branch_edges_1],[branch_edges_2]], [[branch_nodes_1],[branch_nodes_2]]]. If a group is closed, the first and last nodes of the group are same. """ if isinstance( edges, Mesh ): @@ -4454,6 +4482,10 @@ class Mesh(metaclass = MeshMeta): Returns: False if proper faces were not found + + Note: + This operation can create gaps in numeration of elements. + Call :meth:`RenumberElements` to remove the gaps. """ return self.editor.DeleteDiag(NodeID1, NodeID2) @@ -4493,8 +4525,8 @@ class Mesh(metaclass = MeshMeta): Reorient faces contained in *the2DObject*. Parameters: - the2DObject: is a :class:`mesh, sub-mesh, group or filter ` or list of IDs of 2D elements - theDirection: is a desired direction of normal of *theFace*. + the2DObject: a :class:`mesh, sub-mesh, group or filter ` or list of IDs of 2D elements + theDirection: a desired direction of normal of *theFace*. It can be either a GEOM vector or a list of coordinates [x,y,z]. theFaceOrPoint: defines a face of *the2DObject* whose normal will be compared with theDirection. It can be either ID of face or a point @@ -4584,6 +4616,10 @@ class Mesh(metaclass = MeshMeta): Returns: True in case of success, False otherwise. + + Note: + This operation can create gaps in numeration of elements. + Call :meth:`RenumberElements` to remove the gaps. """ MaxAngle,Parameters,hasVars = ParseAngles(MaxAngle) @@ -4608,6 +4644,10 @@ class Mesh(metaclass = MeshMeta): Returns: True in case of success, False otherwise. + + Note: + This operation can create gaps in numeration of elements. + Call :meth:`RenumberElements` to remove the gaps. """ MaxAngle,Parameters,hasVars = ParseAngles(MaxAngle) @@ -4631,6 +4671,10 @@ class Mesh(metaclass = MeshMeta): Returns: True in case of success, False otherwise. + + Note: + This operation can create gaps in numeration of elements. + Call :meth:`RenumberElements` to remove the gaps. """ if IDsOfElements == []: IDsOfElements = self.GetElementsId() @@ -4654,6 +4698,10 @@ class Mesh(metaclass = MeshMeta): Returns: True in case of success, False otherwise. + + Note: + This operation can create gaps in numeration of elements. + Call :meth:`RenumberElements` to remove the gaps. """ if ( isinstance( theObject, Mesh )): theObject = theObject.GetMesh() @@ -4671,6 +4719,10 @@ class Mesh(metaclass = MeshMeta): theElements: the faces to be splitted. This can be either :class:`mesh, sub-mesh, group, filter ` or a list of face IDs. By default all quadrangles are split + + Note: + This operation can create gaps in numeration of elements. + Call :meth:`RenumberElements` to remove the gaps. """ unRegister = genObjUnRegister() if isinstance( theElements, Mesh ): @@ -4692,6 +4744,10 @@ class Mesh(metaclass = MeshMeta): Returns: True in case of success, False otherwise. + + Note: + This operation can create gaps in numeration of elements. + Call :meth:`RenumberElements` to remove the gaps. """ if IDsOfElements == []: IDsOfElements = self.GetElementsId() @@ -4708,6 +4764,10 @@ class Mesh(metaclass = MeshMeta): Returns: True in case of success, False otherwise. + + Note: + This operation can create gaps in numeration of elements. + Call :meth:`RenumberElements` to remove the gaps. """ if ( isinstance( theObject, Mesh )): theObject = theObject.GetMesh() @@ -4728,6 +4788,10 @@ class Mesh(metaclass = MeshMeta): * 1 if 1-3 diagonal is better, * 2 if 2-4 diagonal is better, * 0 if error occurs. + + Note: + This operation can create gaps in numeration of elements. + Call :meth:`RenumberElements` to remove the gaps. """ return self.editor.BestSplit(IDOfQuad, self.smeshpyD.GetFunctor(theCriterion)) @@ -4740,6 +4804,10 @@ class Mesh(metaclass = MeshMeta): method: flags passing splitting method: smesh.Hex_5Tet, smesh.Hex_6Tet, smesh.Hex_24Tet. smesh.Hex_5Tet - to split the hexahedron into 5 tetrahedrons, etc. + + Note: + This operation can create gaps in numeration of elements. + Call :meth:`RenumberElements` to remove the gaps. """ unRegister = genObjUnRegister() if isinstance( elems, Mesh ): @@ -4764,6 +4832,10 @@ class Mesh(metaclass = MeshMeta): Parameters: elems: elements to split\: :class:`mesh, sub-mesh, group, filter ` or element IDs; if None (default), all bi-quadratic elements will be split + + Note: + This operation can create gaps in numeration of elements. + Call :meth:`RenumberElements` to remove the gaps. """ unRegister = genObjUnRegister() if elems and isinstance( elems, list ) and isinstance( elems[0], int ): @@ -4795,6 +4867,10 @@ class Mesh(metaclass = MeshMeta): allDomains: if :code:`False`, only hexahedra adjacent to one closest to *startHexPoint* are split, else *startHexPoint* is used to find the facet to split in all domains present in *elems*. + + Note: + This operation can create gaps in numeration of elements. + Call :meth:`RenumberElements` to remove the gaps. """ # IDSource unRegister = genObjUnRegister() @@ -4824,6 +4900,10 @@ class Mesh(metaclass = MeshMeta): def SplitQuadsNearTriangularFacets(self): """ Split quadrangle faces near triangular facets of volumes + + Note: + This operation can create gaps in numeration of elements. + Call :meth:`RenumberElements` to remove the gaps. """ faces_array = self.GetElementsByType(SMESH.FACE) for face_id in faces_array: @@ -4868,6 +4948,10 @@ class Mesh(metaclass = MeshMeta): Returns: True in case of success, False otherwise. + + Note: + This operation can create gaps in numeration of elements. + Call :meth:`RenumberElements` to remove the gaps. """ # Pattern: # 5.---------.6 @@ -4932,6 +5016,10 @@ class Mesh(metaclass = MeshMeta): Returns: True in case of success, False otherwise. + + Note: + This operation can create gaps in numeration of elements. + Call :meth:`RenumberElements` to remove the gaps. """ # Pattern: 5.---------.6 # /|# /| @@ -5089,6 +5177,10 @@ class Mesh(metaclass = MeshMeta): Warning: If *theSubMesh* is provided, the mesh can become non-conformal + + Note: + This operation can create gaps in numeration of nodes or elements. + Call :meth:`RenumberElements` to remove the gaps. """ if isinstance( theSubMesh, Mesh ): @@ -5116,6 +5208,10 @@ class Mesh(metaclass = MeshMeta): Warning: If *theSubMesh* is provided, the mesh can become non-conformal + + Note: + This operation can create gaps in numeration of nodes or elements. + Call :meth:`RenumberElements` to remove the gaps. """ if theSubMesh: @@ -5489,6 +5585,8 @@ class Mesh(metaclass = MeshMeta): if isinstance( Elements, list ): if not Elements: raise RuntimeError("Elements empty!") + if isinstance( Elements[0], Mesh ): + Elements = [ Elements[0].GetMesh() ] if isinstance( Elements[0], int ): Elements = self.GetIDSource( Elements, SMESH.ALL ) unRegister.set( Elements ) @@ -6300,7 +6398,7 @@ class Mesh(metaclass = MeshMeta): SubMeshOrGroup = [ obj.GetMesh() ] break if isinstance( obj, int ): - SubMeshOrGroup = self.GetIDSource( SubMeshOrGroup, SMESH.NODE ) + SubMeshOrGroup = [ self.GetIDSource( SubMeshOrGroup, SMESH.NODE )] unRegister.set( SubMeshOrGroup ) break @@ -6326,6 +6424,10 @@ class Mesh(metaclass = MeshMeta): then the first node in the group is kept. AvoidMakingHoles: prevent merging nodes which cause removal of elements becoming invalid + + Note: + This operation can create gaps in numeration of nodes or elements. + Call :meth:`RenumberElements` to remove the gaps. """ self.editor.MergeNodes( GroupsOfNodes, NodesToKeep, AvoidMakingHoles ) @@ -6375,6 +6477,10 @@ class Mesh(metaclass = MeshMeta): ElementsToKeep: elements to keep in the mesh: a list of groups, sub-meshes or node IDs. If *ElementsToKeep* does not include an element to keep for some group to merge, then the first element in the group is kept. + + Note: + This operation can create gaps in numeration of elements. + Call :meth:`RenumberElements` to remove the gaps. """ unRegister = genObjUnRegister() @@ -6390,6 +6496,10 @@ class Mesh(metaclass = MeshMeta): def MergeEqualElements(self): """ Leave one element and remove all other elements built on the same nodes. + + Note: + This operation can create gaps in numeration of elements. + Call :meth:`RenumberElements` to remove the gaps. """ self.editor.MergeEqualElements() @@ -6422,7 +6532,7 @@ class Mesh(metaclass = MeshMeta): holeNodes = SMESH.FreeBorder(nodeIDs=holeNodes) if not isinstance( holeNodes, SMESH.FreeBorder ): raise TypeError("holeNodes must be either SMESH.FreeBorder or list of integer and not %s" % holeNodes) - self.editor.FillHole( holeNodes, groupName ) + return self.editor.FillHole( holeNodes, groupName ) def FindCoincidentFreeBorders (self, tolerance=0.): """ @@ -6459,6 +6569,10 @@ class Mesh(metaclass = MeshMeta): Returns: a number of successfully sewed groups + + Note: + This operation can create gaps in numeration of nodes or elements. + Call :meth:`RenumberElements` to remove the gaps. """ if freeBorders and isinstance( freeBorders, list ): @@ -6490,6 +6604,10 @@ class Mesh(metaclass = MeshMeta): Returns: :class:`error code ` + + Note: + This operation can create gaps in numeration of nodes or elements. + Call :meth:`RenumberElements` to remove the gaps. """ return self.editor.SewFreeBorders(FirstNodeID1, SecondNodeID1, LastNodeID1, @@ -6503,6 +6621,10 @@ class Mesh(metaclass = MeshMeta): Returns: :class:`error code ` + + Note: + This operation can create gaps in numeration of elements. + Call :meth:`RenumberElements` to remove the gaps. """ return self.editor.SewConformFreeBorders(FirstNodeID1, SecondNodeID1, LastNodeID1, @@ -6515,6 +6637,10 @@ class Mesh(metaclass = MeshMeta): Returns: :class:`error code ` + + Note: + This operation can create gaps in numeration of elements. + Call :meth:`RenumberElements` to remove the gaps. """ return self.editor.SewBorderToSide(FirstNodeIDOnFreeBorder, SecondNodeIDOnFreeBorder, LastNodeIDOnFreeBorder, @@ -6533,6 +6659,10 @@ class Mesh(metaclass = MeshMeta): Returns: :class:`error code ` + + Note: + This operation can create gaps in numeration of nodes. + Call :meth:`RenumberElements` to remove the gaps. """ return self.editor.SewSideElements(IDsOfSide1Elements, IDsOfSide2Elements, @@ -6541,7 +6671,7 @@ class Mesh(metaclass = MeshMeta): def ChangeElemNodes(self, ide, newIDs): """ - Set new nodes for the given element. + Set new nodes for the given element. Number of nodes should be kept. Parameters: ide: the element ID @@ -6902,7 +7032,7 @@ class Mesh(metaclass = MeshMeta): def MakeSlot(self, segmentGroup, width ): """ Create a slot of given width around given 1D elements lying on a triangle mesh. - The slot is consrtucted by cutting faces by cylindrical surfaces made + The slot is constructed by cutting faces by cylindrical surfaces made around each segment. Segments are expected to be created by MakePolyLine(). Returns: @@ -6951,52 +7081,90 @@ class Mesh(metaclass = MeshMeta): def GetLength(self, elemId=None): """ - Get length of 1D element or sum of lengths of all 1D mesh elements + Get length of given 1D elements or of all 1D mesh elements Parameters: - elemId: mesh element ID (if not defined - sum of length of all 1D elements will be calculated) + elemId: either a mesh element ID or a list of IDs or :class:`sub-mesh, group or filter `. By default sum length of all 1D elements will be calculated. Returns: - element's length value if *elemId* is specified or sum of all 1D mesh elements' lengths otherwise + Sum of lengths of given elements """ length = 0 if elemId == None: length = self.smeshpyD.GetLength(self) + elif isinstance(elemId, SMESH._objref_SMESH_IDSource): + length = self.smeshpyD.GetLength(elemId) + elif elemId == []: + length = 0 + elif isinstance(elemId, list) and isinstance(elemId[0], SMESH._objref_SMESH_IDSource): + for obj in elemId: + length += self.smeshpyD.GetLength(obj) + elif isinstance(elemId, list) and isinstance(elemId[0], int): + unRegister = genObjUnRegister() + obj = self.GetIDSource( elemId ) + unRegister.set( obj ) + length = self.smeshpyD.GetLength( obj ) else: length = self.FunctorValue(SMESH.FT_Length, elemId) return length def GetArea(self, elemId=None): """ - Get area of 2D element or sum of areas of all 2D mesh elements - elemId mesh element ID (if not defined - sum of areas of all 2D elements will be calculated) + Get area of given 2D elements or of all 2D mesh elements + + Parameters: + elemId: either a mesh element ID or a list of IDs or :class:`sub-mesh, group or filter `. By default sum area of all 2D elements will be calculated. Returns: - element's area value if *elemId* is specified or sum of all 2D mesh elements' areas otherwise + Area of given element's if *elemId* is specified or sum of all 2D mesh elements' areas otherwise """ area = 0 if elemId == None: area = self.smeshpyD.GetArea(self) + elif isinstance(elemId, SMESH._objref_SMESH_IDSource): + area = self.smeshpyD.GetArea(elemId) + elif elemId == []: + area = 0 + elif isinstance(elemId, list) and isinstance(elemId[0], SMESH._objref_SMESH_IDSource): + for obj in elemId: + area += self.smeshpyD.GetArea(obj) + elif isinstance(elemId, list) and isinstance(elemId[0], int): + unRegister = genObjUnRegister() + obj = self.GetIDSource( elemId ) + unRegister.set( obj ) + area = self.smeshpyD.GetArea( obj ) else: area = self.FunctorValue(SMESH.FT_Area, elemId) return area def GetVolume(self, elemId=None): """ - Get volume of 3D element or sum of volumes of all 3D mesh elements + Get volume of given 3D elements or of all 3D mesh elements Parameters: - elemId: mesh element ID (if not defined - sum of volumes of all 3D elements will be calculated) + elemId: either a mesh element ID or a list of IDs or :class:`sub-mesh, group or filter `. By default sum volume of all 3D elements will be calculated. Returns: - element's volume value if *elemId* is specified or sum of all 3D mesh elements' volumes otherwise + Sum element's volume value if *elemId* is specified or sum of all 3D mesh elements' volumes otherwise """ volume = 0 if elemId == None: - volume = self.smeshpyD.GetVolume(self) + volume= self.smeshpyD.GetVolume(self) + elif isinstance(elemId, SMESH._objref_SMESH_IDSource): + volume= self.smeshpyD.GetVolume(elemId) + elif elemId == []: + volume = 0 + elif isinstance(elemId, list) and isinstance(elemId[0], SMESH._objref_SMESH_IDSource): + for obj in elemId: + volume+= self.smeshpyD.GetVolume(obj) + elif isinstance(elemId, list) and isinstance(elemId[0], int): + unRegister = genObjUnRegister() + obj = self.GetIDSource( elemId ) + unRegister.set( obj ) + volume= self.smeshpyD.GetVolume( obj ) else: volume = self.FunctorValue(SMESH.FT_Volume3D, elemId) return volume