# GEOM GEOM_SWIG : binding of C++ omplementaion with Python # # Copyright (C) 2003 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN, # CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS # # 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. # # 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 # # # # File : geompy.py # Author : Paul RASCLE, EDF # Module : GEOM # $Header$ from batchmode_salome import * import GEOM g=None step = 0 sleeping_time = 0.01 sleeping_time_max = 1.0 while 1: g = lcc.FindOrLoadComponent("FactoryServer", "GEOM") if g is not None: break step = step + 1 if step > 100: break time.sleep(sleeping_time) sleeping_time = max(sleeping_time_max, 2*sleeping_time) pass geom = g._narrow( GEOM.GEOM_Gen ) myBuilder = None myStudyId = 0 father = None BasicOp = None CurvesOp = None PrimOp = None ShapesOp = None HealOp = None InsertOp = None BoolOp = None TrsfOp = None LocalOp = None MeasuOp = None BlocksOp = None GroupOp = None def init_geom(theStudy): global myStudy, myBuilder, myStudyId, BasicOp, CurvesOp, PrimOp, ShapesOp, HealOp global InsertOp, BoolOp, TrsfOp, LocalOp, MeasuOp, BlocksOp, GroupOp, father myStudy = theStudy myStudyId = myStudy._get_StudyId() myBuilder = myStudy.NewBuilder() father = myStudy.FindComponent("GEOM") if father is None: father = myBuilder.NewComponent("GEOM") A1 = myBuilder.FindOrCreateAttribute(father, "AttributeName") FName = A1._narrow(SALOMEDS.AttributeName) FName.SetValue("Geometry") A2 = myBuilder.FindOrCreateAttribute(father, "AttributePixMap") aPixmap = A2._narrow(SALOMEDS.AttributePixMap) aPixmap.SetPixMap("ICON_OBJBROWSER_Geometry") myBuilder.DefineComponentInstance(father,geom) pass # ----------------------------------------------------------------------------- # Assign Operations Interfaces # ----------------------------------------------------------------------------- BasicOp = geom.GetIBasicOperations (myStudyId) CurvesOp = geom.GetICurvesOperations (myStudyId) PrimOp = geom.GetI3DPrimOperations (myStudyId) ShapesOp = geom.GetIShapesOperations (myStudyId) HealOp = geom.GetIHealingOperations (myStudyId) InsertOp = geom.GetIInsertOperations (myStudyId) BoolOp = geom.GetIBooleanOperations (myStudyId) TrsfOp = geom.GetITransformOperations(myStudyId) LocalOp = geom.GetILocalOperations (myStudyId) MeasuOp = geom.GetIMeasureOperations (myStudyId) BlocksOp = geom.GetIBlocksOperations (myStudyId) GroupOp = geom.GetIGroupOperations (myStudyId) pass init_geom(myStudy) # * Get name for sub-shape aSubObj of shape aMainObj # def SubShapeName(aSubObj, aMainObj): name = "SubShape" print name return name # * Publish in study aShape with name aName # def addToStudy(aShape, aName): try: aSObject = geom.AddInStudy(myStudy, aShape, aName, None) except: print "addToStudy() failed" return "" return aShape.GetStudyEntry() # * Publish in study aShape with name aName as sub-object of previously published aFather # def addToStudyInFather(aFather, aShape, aName): try: aSObject = geom.AddInStudy(myStudy, aShape, aName, aFather) except: print "addToStudyInFather() failed" return "" return aShape.GetStudyEntry() # ----------------------------------------------------------------------------- # enumeration ShapeType as a dictionary # ----------------------------------------------------------------------------- ShapeType = {"COMPOUND":0, "COMPSOLID":1, "SOLID":2, "SHELL":3, "FACE":4, "WIRE":5, "EDGE":6, "VERTEX":7, "SHAPE":8} # ----------------------------------------------------------------------------- # Basic primitives # ----------------------------------------------------------------------------- def MakeVertex(theX, theY, theZ): anObj = BasicOp.MakePointXYZ(theX, theY, theZ) if BasicOp.IsDone() == 0: print "MakePointXYZ : ", BasicOp.GetErrorCode() return anObj def MakeVertexWithRef(vertex,x,y,z): anObj = BasicOp.MakePointWithReference(vertex,x,y,z) if BasicOp.IsDone() == 0: print "MakePointWithReference : ", BasicOp.GetErrorCode() return anObj def MakeVertexOnCurve(curve,par): anObj = BasicOp.MakePointOnCurve(curve,par) if BasicOp.IsDone() == 0: print "MakePointOnCurve : ", BasicOp.GetErrorCode() return anObj def MakeVertexOnLinesIntersection(line1,line2): anObj = BasicOp.MakePointOnLinesIntersection(line1,line2) if BasicOp.IsDone() == 0: print "MakePointOnLinesIntersection : ", BasicOp.GetErrorCode() return anObj def MakeVectorDXDYDZ(dx,dy,dz): anObj = BasicOp.MakeVectorDXDYDZ(dx,dy,dz) if BasicOp.IsDone() == 0: print "MakeVectorDXDYDZ : ", BasicOp.GetErrorCode() return anObj def MakeVector(p1,p2): anObj = BasicOp.MakeVectorTwoPnt(p1, p2) if BasicOp.IsDone() == 0: print "MakeVectorTwoPnt : ", BasicOp.GetErrorCode() return anObj def MakeLine(p1, d1): anObj = BasicOp.MakeLine(p1,d1) if BasicOp.IsDone() == 0: print "MakeLine : ", BasicOp.GetErrorCode() return anObj def MakeLineTwoPnt(p1, p2): anObj = BasicOp.MakeLineTwoPnt(p1,p2) if BasicOp.IsDone() == 0: print "MakeLineTwoPnt : ", BasicOp.GetErrorCode() return anObj def MakeLineTwoFaces(f1, f2): anObj = BasicOp.MakeLineTwoFaces(f1,f2) if BasicOp.IsDone() == 0: print "MakeLineTwoFaces : ", BasicOp.GetErrorCode() return anObj def MakePlane(p1,v1,trimsize): anObj = BasicOp.MakePlanePntVec(p1,v1,trimsize) if BasicOp.IsDone() == 0: print "MakePlanePntVec : ", BasicOp.GetErrorCode() return anObj def MakePlaneThreePnt(p1,p2,p3,trimsize): anObj = BasicOp.MakePlaneThreePnt(p1,p2,p3,trimsize) if BasicOp.IsDone() == 0: print "MakePlaneThreePnt : ", BasicOp.GetErrorCode() return anObj def MakePlaneFace(face,trimsize): anObj = BasicOp.MakePlaneFace(face,trimsize) if BasicOp.IsDone() == 0: print "MakePlaneFace : ", BasicOp.GetErrorCode() return anObj def MakeMarker(OX,OY,OZ, XDX,XDY,XDZ, YDX,YDY,YDZ): anObj = BasicOp.MakeMarker(OX,OY,OZ, XDX,XDY,XDZ, YDX,YDY,YDZ) if BasicOp.IsDone() == 0: print "MakeMarker : ", BasicOp.GetErrorCode() return anObj def MakeMarkerPntTwoVec(theOrigin, theXVec, theYVec): """ * Create a local coordinate system. * \param theOrigin Point of coordinate system origin. * \param theXVec Vector of X direction * \param theYVec Vector of Y direction * \return New GEOM_Object, containing the created coordinate system. """ O = PointCoordinates( theOrigin ) OXOY = [] for vec in [ theXVec, theYVec ]: v1, v2 = SubShapeAll( vec, ShapeType["VERTEX"] ) p1 = PointCoordinates( v1 ) p2 = PointCoordinates( v2 ) for i in range( 0, 3 ): OXOY.append( p2[i] - p1[i] ) # anObj = BasicOp.MakeMarker( O[0], O[1], O[2], OXOY[0], OXOY[1], OXOY[2], OXOY[3], OXOY[4], OXOY[5], ) if BasicOp.IsDone() == 0: print "MakeMarker : ", BasicOp.GetErrorCode() return anObj # ----------------------------------------------------------------------------- # Curves # ----------------------------------------------------------------------------- def MakeArc(p1,p2,p3): anObj = CurvesOp.MakeArc(p1,p2,p3) if CurvesOp.IsDone() == 0: print "MakeArc : ", CurvesOp.GetErrorCode() return anObj def MakeCircle(p1,v1,radius): anObj = CurvesOp.MakeCirclePntVecR(p1,v1,radius) if CurvesOp.IsDone() == 0: print "MakeCirclePntVecR : ", CurvesOp.GetErrorCode() return anObj def MakeCircleThreePnt(p1,p2,p3): anObj = CurvesOp.MakeCircleThreePnt(p1,p2,p3) if CurvesOp.IsDone() == 0: print "MakeCircleThreePnt : ", CurvesOp.GetErrorCode() return anObj def MakeCircleCenter2Pnt(p1,p2,p3): anObj = CurvesOp.MakeCircleCenter2Pnt(p1,p2,p3) if CurvesOp.IsDone() == 0: print "MakeCircleCenter2Pnt : ", CurvesOp.GetErrorCode() return anObj def MakeEllipse(p1,v1,radiusMaj,radiusMin): anObj = CurvesOp.MakeEllipse(p1,v1,radiusMaj, radiusMin) if CurvesOp.IsDone() == 0: print "MakeEllipse : ", CurvesOp.GetErrorCode() return anObj def MakePolyline(ListShape): anObj = CurvesOp.MakePolyline(ListShape) if CurvesOp.IsDone() == 0: print "MakePolyline : ", CurvesOp.GetErrorCode() return anObj def MakeBezier(ListShape): anObj = CurvesOp.MakeSplineBezier(ListShape) if CurvesOp.IsDone() == 0: print "MakeSplineBezier : ", CurvesOp.GetErrorCode() return anObj def MakeInterpol(ListShape): anObj = CurvesOp.MakeSplineInterpolation(ListShape) if CurvesOp.IsDone() == 0: print "MakeSplineInterpolation : ", CurvesOp.GetErrorCode() return anObj # : Nine double values, defining origin, # OZ and OX directions of the working plane. def MakeSketcher(Cmd, WPL = [0,0,0, 0,0,1, 1,0,0]): anObj = CurvesOp.MakeSketcher(Cmd, WPL) if CurvesOp.IsDone() == 0: print "MakeSketcher : ", CurvesOp.GetErrorCode() return anObj def MakeSketcherOnPlane(theCommand, theWorkingPlane): """ * Create a sketcher (wire or face), following the textual description, * passed through \a theCommand argument. \n * For format of the description string see the previous method.\n * \param theCommand String, defining the sketcher in local * coordinates of the working plane. * \param theWorkingPlane Planar Face of the working plane. * \return New GEOM_Object, containing the created wire. """ anObj = CurvesOp.MakeSketcherOnPlane(theCommand, theWorkingPlane) if CurvesOp.IsDone() == 0: print "MakeSketcher : ", CurvesOp.GetErrorCode() return anObj # ----------------------------------------------------------------------------- # Create 3D Primitives # ----------------------------------------------------------------------------- def MakeBox(x1,y1,z1,x2,y2,z2): pnt1 = MakeVertex(x1,y1,z1) pnt2 = MakeVertex(x2,y2,z2) return MakeBoxTwoPnt(pnt1,pnt2) def MakeBoxDXDYDZ(dx,dy,dz): anObj = PrimOp.MakeBoxDXDYDZ(dx,dy,dz) if PrimOp.IsDone() == 0: print "MakeBoxDXDYDZ : ", PrimOp.GetErrorCode() return anObj def MakeBoxTwoPnt(point1, point2): anObj = PrimOp.MakeBoxTwoPnt(point1, point2) if PrimOp.IsDone() == 0: print "MakeBoxTwoPnt : ", PrimOp.GetErrorCode() return anObj def MakeCylinder(p1,v1,radius,height): anObj = PrimOp.MakeCylinderPntVecRH(p1,v1,radius,height) if PrimOp.IsDone() == 0: print "MakeCylinderPntVecRH : ", PrimOp.GetErrorCode() return anObj def MakeCylinderRH(radius,height): anObj = PrimOp.MakeCylinderRH(radius,height) if PrimOp.IsDone() == 0: print "MakeCylinderRH : ", PrimOp.GetErrorCode() return anObj def MakeSpherePntR(point,radius): anObj = PrimOp.MakeSpherePntR(point,radius) if PrimOp.IsDone() == 0: print "MakeSpherePntR : ", PrimOp.GetErrorCode() return anObj def MakeSphere(x,y,z,radius): point = MakeVertex(x,y,z) anObj = MakeSpherePntR(point,radius) return anObj def MakeSphereR(radius): anObj = PrimOp.MakeSphereR(radius) if PrimOp.IsDone() == 0: print "MakeSphereR : ", PrimOp.GetErrorCode() return anObj def MakeCone(p1,v1,radius1,radius2,height): anObj = PrimOp.MakeConePntVecR1R2H(p1,v1,radius1,radius2,height) if PrimOp.IsDone() == 0: print "MakeConePntVecR1R2H : ", PrimOp.GetErrorCode() return anObj def MakeConeR1R2H(radius1,radius2,height): anObj = PrimOp.MakeConeR1R2H(radius1,radius2,height) if PrimOp.IsDone() == 0: print "MakeConeR1R2H : ", PrimOp.GetErrorCode() return anObj def MakeTorus(p1,v1,major_radius,minor_radius): anObj = PrimOp.MakeTorusPntVecRR(p1,v1,major_radius,minor_radius) if PrimOp.IsDone() == 0: print "MakeTorusPntVecRR : ", PrimOp.GetErrorCode() return anObj def MakeTorusRR(major_radius,minor_radius): anObj = PrimOp.MakeTorusRR(major_radius,minor_radius) if PrimOp.IsDone() == 0: print "MakeTorusRR : ", PrimOp.GetErrorCode() return anObj def MakePrism(baseShape,point1,point2): anObj = PrimOp.MakePrismTwoPnt(baseShape,point1,point2) if PrimOp.IsDone() == 0: print "MakePrismTwoPnt : ", PrimOp.GetErrorCode() return anObj def MakePrism2Ways(baseShape,point1,point2): anObj = PrimOp.MakePrismTwoPnt2Ways(baseShape,point1,point2) if PrimOp.IsDone() == 0: print "MakePrismTwoPnt2Ways : ", PrimOp.GetErrorCode() return anObj def MakePrismVecH(baseShape,vector,height): anObj = PrimOp.MakePrismVecH(baseShape,vector,height) if PrimOp.IsDone() == 0: print "MakePrismVecH : ", PrimOp.GetErrorCode() return anObj def MakePrismVecH2Ways(baseShape,vector,height): anObj = PrimOp.MakePrismVecH2Ways(baseShape,vector,height) if PrimOp.IsDone() == 0: print "MakePrismVecH2Ways : ", PrimOp.GetErrorCode() return anObj def MakePipe(baseShape,pathShape): anObj = PrimOp.MakePipe(baseShape,pathShape) if PrimOp.IsDone() == 0: print "MakePipe : ", PrimOp.GetErrorCode() return anObj def MakeRevolution(aShape,axis,angle): anObj = PrimOp.MakeRevolutionAxisAngle(aShape,axis,angle) if PrimOp.IsDone() == 0: print "MakeRevolutionAxisAngle : ", PrimOp.GetErrorCode() return anObj def MakeRevolution2Ways(aShape,axis,angle): anObj = PrimOp.MakeRevolutionAxisAngle2Ways(aShape,axis,angle) if PrimOp.IsDone() == 0: print "MakeRevolutionAxisAngle2Ways : ", PrimOp.GetErrorCode() return anObj # ----------------------------------------------------------------------------- # Create base shapes # ----------------------------------------------------------------------------- def MakeEdge(p1,p2): anObj = ShapesOp.MakeEdge(p1,p2) if ShapesOp.IsDone() == 0: print "MakeEdge : ", ShapesOp.GetErrorCode() return anObj def MakeWire(ListShape): anObj = ShapesOp.MakeWire(ListShape) if ShapesOp.IsDone() == 0: print "MakeWire : ", ShapesOp.GetErrorCode() return anObj def MakeFace(aShapeWire,WantPlanarFace): anObj = ShapesOp.MakeFace(aShapeWire,WantPlanarFace) if ShapesOp.IsDone() == 0: print "MakeFace : ", ShapesOp.GetErrorCode() return anObj def MakeFaceWires(ListWires,WantPlanarFace): anObj = ShapesOp.MakeFaceWires(ListWires,WantPlanarFace) if ShapesOp.IsDone() == 0: print "MakeFaceWires : ", ShapesOp.GetErrorCode() return anObj def MakeFaces(ListWires,WantPlanarFace): anObj = MakeFaceWires(ListWires,WantPlanarFace) return anObj def MakeShell(ListOfShapes): anObj = ShapesOp.MakeShell(ListOfShapes) if ShapesOp.IsDone() == 0: print "MakeShell : ", ShapesOp.GetErrorCode() return anObj def MakeSolid(ListOfShells): anObj = ShapesOp.MakeSolidShells(ListOfShells) if ShapesOp.IsDone() == 0: print "MakeSolid : ", ShapesOp.GetErrorCode() return anObj def MakeCompound(ListShape): anObj = ShapesOp.MakeCompound(ListShape) if ShapesOp.IsDone() == 0: print "MakeCompound : ", ShapesOp.GetErrorCode() return anObj def NumberOfFaces(theShape): nb_faces = ShapesOp.NumberOfFaces(theShape) if ShapesOp.IsDone() == 0: print "NumberOfFaces : ", ShapesOp.GetErrorCode() return nb_faces def NumberOfEdges(theShape): nb_edges = ShapesOp.NumberOfEdges(theShape) if ShapesOp.IsDone() == 0: print "NumberOfEdges : ", ShapesOp.GetErrorCode() return nb_edges def ChangeOrientation(Shape): anObj = ShapesOp.ChangeOrientation(Shape) if ShapesOp.IsDone() == 0: print "ChangeOrientation : ", ShapesOp.GetErrorCode() return anObj def OrientationChange(Shape): anObj = ChangeOrientation(Shape) return anObj def GetFreeFacesIDs(theShape): anIDs = ShapesOp.GetFreeFacesIDs(theShape) if ShapesOp.IsDone() == 0: print "GetFreeFacesIDs : ", ShapesOp.GetErrorCode() return anIDs def GetSharedShapes(theShape1, theShape2, theShapeType): aList = ShapesOp.GetSharedShapes(theShape1, theShape2, theShapeType) if ShapesOp.IsDone() == 0: print "GetSharedShapes : ", ShapesOp.GetErrorCode() return aList def GetShapesOnPlane(theShape, theShapeType, theAx1, theState): aList = ShapesOp.GetShapesOnPlane(theShape, theShapeType, theAx1, theState) if ShapesOp.IsDone() == 0: print "GetShapesOnPlane : ", ShapesOp.GetErrorCode() return aList def GetShapesOnPlaneIDs(theShape, theShapeType, theAx1, theState): aList = ShapesOp.GetShapesOnPlaneIDs(theShape, theShapeType, theAx1, theState) if ShapesOp.IsDone() == 0: print "GetShapesOnPlaneIDs : ", ShapesOp.GetErrorCode() return aList def GetShapesOnCylinder(theShape, theShapeType, theAxis, theRadius, theState): aList = ShapesOp.GetShapesOnCylinder(theShape, theShapeType, theAxis, theRadius, theState) if ShapesOp.IsDone() == 0: print "GetShapesOnCylinder : ", ShapesOp.GetErrorCode() return aList def GetShapesOnCylinderIDs(theShape, theShapeType, theAxis, theRadius, theState): aList = ShapesOp.GetShapesOnCylinderIDs(theShape, theShapeType, theAxis, theRadius, theState) if ShapesOp.IsDone() == 0: print "GetShapesOnCylinderIDs : ", ShapesOp.GetErrorCode() return aList def GetShapesOnSphere(theShape, theShapeType, theCenter, theRadius, theState): aList = ShapesOp.GetShapesOnSphere(theShape, theShapeType, theCenter, theRadius, theState) if ShapesOp.IsDone() == 0: print "GetShapesOnSphere : ", ShapesOp.GetErrorCode() return aList def GetShapesOnSphereIDs(theShape, theShapeType, theCenter, theRadius, theState): aList = ShapesOp.GetShapesOnSphereIDs(theShape, theShapeType, theCenter, theRadius, theState) if ShapesOp.IsDone() == 0: print "GetShapesOnSphereIDs : ", ShapesOp.GetErrorCode() return aList def GetShapesOnQuadrangle(theShape, theShapeType, theTopLeftPoint, theTopRigthPoint, theBottomLeftPoint, theBottomRigthPoint, theState): aList = ShapesOp.GetShapesOnQuadrangle(theShape, theShapeType, theTopLeftPoint, theTopRigthPoint, theBottomLeftPoint, theBottomRigthPoint, theState) if ShapesOp.IsDone() == 0: print "GetShapesOnQuadrangle : ", ShapesOp.GetErrorCode() return aList def GetShapesOnQuadrangleIDs(theShape, theShapeType, theTopLeftPoint, theTopRigthPoint, theBottomLeftPoint, theBottomRigthPoint, theState): aList = ShapesOp.GetShapesOnQuadrangleIDs(theShape, theShapeType, theTopLeftPoint, theTopRigthPoint, theBottomLeftPoint, theBottomRigthPoint, theState) if ShapesOp.IsDone() == 0: print "GetShapesOnQuadrangleIDs : ", ShapesOp.GetErrorCode() return aList def GetInPlace(theShapeWhere, theShapeWhat): anObj = ShapesOp.GetInPlace(theShapeWhere, theShapeWhat) if ShapesOp.IsDone() == 0: print "GetInPlace : ", ShapesOp.GetErrorCode() return anObj # ----------------------------------------------------------------------------- # Access to sub-shapes by their unique IDs inside the main shape. # ----------------------------------------------------------------------------- # Obtain a composite sub-shape of , composed from sub-shapes # of , selected by their unique IDs inside def GetSubShape(aShape, ListOfID): anObj = geom.AddSubShape(aShape,ListOfID) return anObj # Obtain unique ID of sub-shape inside def GetSubShapeID(aShape, aSubShape): anID = LocalOp.GetSubShapeIndex(aShape, aSubShape) if LocalOp.IsDone() == 0: print "GetSubShapeIndex : ", LocalOp.GetErrorCode() return anID # ----------------------------------------------------------------------------- # Decompose objects # ----------------------------------------------------------------------------- def SubShapeAll(aShape, aType): ListObj = ShapesOp.MakeExplode(aShape,aType,0) if ShapesOp.IsDone() == 0: print "MakeExplode : ", ShapesOp.GetErrorCode() return ListObj def SubShapeAllIDs(aShape, aType): ListObj = ShapesOp.SubShapeAllIDs(aShape,aType,0) if ShapesOp.IsDone() == 0: print "SubShapeAllIDs : ", ShapesOp.GetErrorCode() return ListObj def SubShapeAllSorted(aShape, aType): ListObj = ShapesOp.MakeExplode(aShape,aType,1) if ShapesOp.IsDone() == 0: print "MakeExplode : ", ShapesOp.GetErrorCode() return ListObj def SubShapeAllSortedIDs(aShape, aType): ListIDs = ShapesOp.SubShapeAllIDs(aShape,aType,1) if ShapesOp.IsDone() == 0: print "SubShapeAllSortedIDs : ", ShapesOp.GetErrorCode() return ListObj # Obtain a compound of sub-shapes of , # selected by they indices in list of all sub-shapes of type def SubShape(aShape, aType, ListOfInd): ListOfIDs = [] AllShapeList = SubShapeAll(aShape, aType) for ind in ListOfInd: ListOfIDs.append(GetSubShapeID(aShape, AllShapeList[ind - 1])) anObj = GetSubShape(aShape, ListOfIDs) return anObj # Obtain a compound of sub-shapes of , # selected by they indices in sorted list of all sub-shapes of type def SubShapeSorted(aShape, aType, ListOfInd): ListOfIDs = [] AllShapeList = SubShapeAllSorted(aShape, aType) for ind in ListOfInd: ListOfIDs.append(GetSubShapeID(aShape, AllShapeList[ind - 1])) anObj = GetSubShape(aShape, ListOfIDs) return anObj # ----------------------------------------------------------------------------- # Healing operations # ----------------------------------------------------------------------------- def ProcessShape(Shape, Operators, Parameters, Values): anObj = HealOp.ProcessShape(Shape, Operators, Parameters, Values) if HealOp.IsDone() == 0: print "ProcessShape : ", HealOp.GetErrorCode() return anObj def SuppressFaces(aShape,ListOfId): anObj = HealOp.SuppressFaces(aShape,ListOfId) if HealOp.IsDone() == 0: print "SuppressFaces : ", HealOp.GetErrorCode() return anObj def MakeSewing(ListShape,precision): comp = MakeCompound(ListShape) anObj = Sew(comp,precision) return anObj def Sew(aShape,precision): anObj = HealOp.Sew(aShape,precision) if HealOp.IsDone() == 0: print "Sew : ", HealOp.GetErrorCode() return anObj def SuppressInternalWires(aShape, Wires): anObj = HealOp.RemoveIntWires(aShape, Wires) if HealOp.IsDone() == 0: print "SuppressInternalWires : ", HealOp.GetErrorCode() return anObj def SuppressHoles(aShape, ListOfId): anObj = HealOp.FillHoles(aShape,ListOfId) if HealOp.IsDone() == 0: print "SuppressHoles : ", HealOp.GetErrorCode() return anObj def CloseContour(aShape, Wires, IsCommonVertex): anObj = HealOp.CloseContour(aShape, Wires, IsCommonVertex) if HealOp.IsDone() == 0: print "CloseContour : ", HealOp.GetErrorCode() return anObj def DivideEdge(aShape, EdgeID, Value, IsByParameter): anObj = HealOp.DivideEdge(aShape, EdgeID, Value, IsByParameter) if HealOp.IsDone() == 0: print "DivideEdge : ", HealOp.GetErrorCode() return anObj def GetFreeBoundary(Shape): anObj = HealOp.GetFreeBoundary(Shape) if HealOp.IsDone() == 0: print "GetFreeBoundaries : ", HealOp.GetErrorCode() return anObj # ----------------------------------------------------------------------------- # Create advanced objects # ----------------------------------------------------------------------------- def MakeCopy(aShape): anObj = InsertOp.MakeCopy(aShape) if InsertOp.IsDone() == 0: print "MakeCopy : ", InsertOp.GetErrorCode() return anObj def MakeFilling(aShape,mindeg,maxdeg,tol2d,tol3d,nbiter,isApprox=0): anObj = PrimOp.MakeFilling(aShape,mindeg,maxdeg,tol2d,tol3d,nbiter,isApprox) if PrimOp.IsDone() == 0: print "MakeFilling : ", PrimOp.GetErrorCode() return anObj def MakeGlueFaces(aShape,aTolerance): anObj = ShapesOp.MakeGlueFaces(aShape,aTolerance) if ShapesOp.IsDone() == 0: print "MakeGlueFaces : ", ShapesOp.GetErrorCode() return anObj # ----------------------------------------------------------------------------- # Boolean (Common, Cut, Fuse, Section) # ----------------------------------------------------------------------------- def MakeBoolean(shape1,shape2,operation): anObj = BoolOp.MakeBoolean(shape1,shape2,operation) if BoolOp.IsDone() == 0: print "MakeBoolean : ", BoolOp.GetErrorCode() return anObj def MakeCommon(s1, s2): return MakeBoolean(s1, s2, 1) def MakeCut(s1, s2): return MakeBoolean(s1, s2, 2) def MakeFuse(s1, s2): return MakeBoolean(s1, s2, 3) def MakeSection(s1, s2): return MakeBoolean(s1, s2, 4) def MakePartition(ListShapes, ListTools=[], ListKeepInside=[], ListRemoveInside=[], Limit=ShapeType["SHAPE"], RemoveWebs=0, ListMaterials=[], KeepNonlimitShapes=0): anObj = BoolOp.MakePartition(ListShapes, ListTools, ListKeepInside, ListRemoveInside, Limit, RemoveWebs, ListMaterials, KeepNonlimitShapes); if BoolOp.IsDone() == 0: print "MakePartition : ", BoolOp.GetErrorCode() return anObj def Partition(ListShapes, ListTools=[], ListKeepInside=[], ListRemoveInside=[], Limit=ShapeType["SHAPE"], RemoveWebs=0, ListMaterials=[], KeepNonlimitShapes=0): anObj = MakePartition(ListShapes, ListTools, ListKeepInside, ListRemoveInside, Limit, RemoveWebs, ListMaterials, KeepNonlimitShapes); return anObj def MakeHalfPartition(theShape, thePlane): anObj = BoolOp.MakeHalfPartition(theShape, thePlane) if BoolOp.IsDone() == 0: print "MakeHalfPartition : ", BoolOp.GetErrorCode() return anObj # ----------------------------------------------------------------------------- # Transform objects # ----------------------------------------------------------------------------- def MakeTranslationTwoPoints(aShape,point1,point2): anObj = TrsfOp.TranslateTwoPointsCopy(aShape,point1,point2) if TrsfOp.IsDone() == 0: print "TranslateTwoPointsCopy : ", TrsfOp.GetErrorCode() return anObj def MakeTranslation(aShape,dx,dy,dz): anObj = TrsfOp.TranslateDXDYDZCopy(aShape,dx,dy,dz) if TrsfOp.IsDone() == 0: print "TranslateDXDYDZCopy : ", TrsfOp.GetErrorCode() return anObj def MakeTranslationVector(theObject, theVector): anObj = TrsfOp.TranslateVectorCopy(theObject, theVector) if TrsfOp.IsDone() == 0: print "TranslateVectorCopy : ", TrsfOp.GetErrorCode() return anObj def MakeRotation(aShape,axis,angle): anObj = TrsfOp.RotateCopy(aShape,axis,angle) if TrsfOp.IsDone() == 0: print "RotateCopy : ", TrsfOp.GetErrorCode() return anObj def MakeRotationThreePoints(aShape, centpoint, point1, point2): anObj = TrsfOp.RotateThreePointsCopy(aShape, centpoint, point1, point2) if TrsfOp.IsDone() == 0: print "RotateThreePointsCopy : ", TrsfOp.GetErrorCode() return anObj def MakeScaleTransform(aShape,theCenterofScale,factor): anObj = TrsfOp.ScaleShapeCopy(aShape,theCenterofScale,factor) if TrsfOp.IsDone() == 0: print "ScaleShapeCopy : ", TrsfOp.GetErrorCode() return anObj def MakeMirrorByPlane(aShape,aPlane): anObj = TrsfOp.MirrorPlaneCopy(aShape,aPlane) if TrsfOp.IsDone() == 0: print "MirrorPlaneCopy : ", TrsfOp.GetErrorCode() return anObj def MakeMirrorByAxis(theObject, theAxis): anObj = TrsfOp.MirrorAxisCopy(theObject, theAxis) if TrsfOp.IsDone() == 0: print "MirrorAxisCopy : ", TrsfOp.GetErrorCode() return anObj def MakeMirrorByPoint(theObject, thePoint): anObj = TrsfOp.MirrorPointCopy(theObject, thePoint) if TrsfOp.IsDone() == 0: print "MirrorPointCopy : ", TrsfOp.GetErrorCode() return anObj def MakePosition(aShape,theStartLCS,theEndLCS): anObj = TrsfOp.PositionShapeCopy(aShape,theStartLCS,theEndLCS) if TrsfOp.IsDone() == 0: print "PositionShapeCopy : ", TrsfOp.GetErrorCode() return anObj def MakeOffset(aShape, anOffset): anObj = TrsfOp.OffsetShapeCopy(aShape, anOffset) if TrsfOp.IsDone() == 0: print "OffsetShapeCopy : ", TrsfOp.GetErrorCode() return anObj # ----------------------------------------------------------------------------- # Patterns # ----------------------------------------------------------------------------- def MakeMultiTranslation1D(aShape,aDir,aStep,aNbTimes): anObj = TrsfOp.MultiTranslate1D(aShape,aDir,aStep,aNbTimes) if TrsfOp.IsDone() == 0: print "MultiTranslate1D : ", TrsfOp.GetErrorCode() return anObj def MakeMultiTranslation2D(aShape,d1,step1,nbtimes1,d2,step2,nbtimes2): anObj = TrsfOp.MultiTranslate2D(aShape,d1,step1,nbtimes1,d2,step2,nbtimes2) if TrsfOp.IsDone() == 0: print "MultiTranslate2D : ", TrsfOp.GetErrorCode() return anObj def MultiRotate1D(aShape,aVec,aNbTimes): anObj = TrsfOp.MultiRotate1D(aShape,aVec,aNbTimes) if TrsfOp.IsDone() == 0: print "MultiRotate1D : ", TrsfOp.GetErrorCode() return anObj def MultiRotate2D(aShape,aVec,anAngle,nbtimes1,aStep,nbtimes2): anObj = TrsfOp.MultiRotate2D(aShape,aVec,anAngle,nbtimes1,aStep,nbtimes2) if TrsfOp.IsDone() == 0: print "MultiRotate2D : ", TrsfOp.GetErrorCode() return anObj def MakeMultiRotation1D(aShape,aDir,aPoint,aNbTimes): aVec = MakeLine(aPoint,aDir) anObj = MultiRotate1D(aShape,aVec,aNbTimes) return anObj def MakeMultiRotation2D(aShape,aDir,aPoint,anAngle,nbtimes1,aStep,nbtimes2): aVec = MakeLine(aPoint,aDir) anObj = MultiRotate2D(aShape,aVec,anAngle,nbtimes1,aStep,nbtimes2) return anObj # ----------------------------------------------------------------------------- # Local operations # ----------------------------------------------------------------------------- def MakeFilletAll(aShape,radius): anObj = LocalOp.MakeFilletAll(aShape,radius) if LocalOp.IsDone() == 0: print "MakeFilletAll : ", LocalOp.GetErrorCode() return anObj def MakeFillet(aShape,radius,aShapeType,ListShape): anObj = None if aShapeType == ShapeType["EDGE"]: anObj = LocalOp.MakeFilletEdges(aShape,radius,ListShape) else: anObj = LocalOp.MakeFilletFaces(aShape,radius,ListShape) if LocalOp.IsDone() == 0: print "MakeFillet : ", LocalOp.GetErrorCode() return anObj def MakeFilletR1R2(aShape,radius1,radius2,aShapeType,ListShape): anObj = None if aShapeType == ShapeType["EDGE"]: anObj = LocalOp.MakeFilletEdgesR1R2(aShape,radius1,radius2,ListShape) else: anObj = LocalOp.MakeFilletFacesR1R2(aShape,radius1,radius2,ListShape) if LocalOp.IsDone() == 0: print "MakeFilletR1R2 : ", LocalOp.GetErrorCode() return anObj def MakeChamferAll(aShape,d): anObj = LocalOp.MakeChamferAll(aShape,d) if LocalOp.IsDone() == 0: print "MakeChamferAll : ", LocalOp.GetErrorCode() return anObj def MakeChamferEdge(aShape,d1,d2,face1,face2): anObj = LocalOp.MakeChamferEdge(aShape,d1,d2,face1,face2) if LocalOp.IsDone() == 0: print "MakeChamferEdge : ", LocalOp.GetErrorCode() return anObj def MakeChamferEdgeAD(aShape,d,angle,face1,face2): anObj = LocalOp.MakeChamferEdgeAD(aShape,d,angle,face1,face2) if LocalOp.IsDone() == 0: print "MakeChamferEdgeAD : ", LocalOp.GetErrorCode() return anObj def MakeChamferFaces(aShape,d1,d2,ListShape): anObj = LocalOp.MakeChamferFaces(aShape,d1,d2,ListShape) if LocalOp.IsDone() == 0: print "MakeChamferFaces : ", LocalOp.GetErrorCode() return anObj def MakeChamferFacesAD(aShape,d,angle,ListShape): anObj = LocalOp.MakeChamferFacesAD(aShape,d,angle,ListShape) if LocalOp.IsDone() == 0: print "MakeChamferFacesAD : ", LocalOp.GetErrorCode() return anObj def MakeChamferEdges(aShape,d1,d2,ListShape): anObj = LocalOp.MakeChamferEdges(aShape,d1,d2,ListShape) if LocalOp.IsDone() == 0: print "MakeChamferEdges : ", LocalOp.GetErrorCode() return anObj def MakeChamferEdgesAD(aShape,d,angle,ListShape): anObj = LocalOp.MakeChamferEdgesAD(aShape,d,angle,ListShape) if LocalOp.IsDone() == 0: print "MakeChamferEdgesAD : ", LocalOp.GetErrorCode() return anObj def MakeChamfer(aShape,d1,d2,aShapeType,ListShape): anObj = None if aShapeType == ShapeType["EDGE"]: anObj = MakeChamferEdge(aShape,d1,d2,ListShape[0],ListShape[1]) else: anObj = MakeChamferFaces(aShape,d1,d2,ListShape) return anObj def Archimede(aShape,weight,WaterDensity,MeshingDeflection): anObj = LocalOp.MakeArchimede(aShape,weight,WaterDensity,MeshingDeflection) if LocalOp.IsDone() == 0: print "MakeArchimede : ", LocalOp.GetErrorCode() return anObj # ----------------------------------------------------------------------------- # Information objects # ----------------------------------------------------------------------------- def PointCoordinates(Point): aTuple = MeasuOp.PointCoordinates(Point) if MeasuOp.IsDone() == 0: print "PointCoordinates : ", MeasuOp.GetErrorCode() return aTuple def BasicProperties(Shape): aTuple = MeasuOp.GetBasicProperties(Shape) if MeasuOp.IsDone() == 0: print "BasicProperties : ", MeasuOp.GetErrorCode() return aTuple def BoundingBox(Shape): aTuple = MeasuOp.GetBoundingBox(Shape) if MeasuOp.IsDone() == 0: print "BoundingBox : ", MeasuOp.GetErrorCode() return aTuple def Inertia(Shape): aTuple = MeasuOp.GetInertia(Shape) if MeasuOp.IsDone() == 0: print "Inertia : ", MeasuOp.GetErrorCode() return aTuple def MinDistance(Shape1, Shape2): aTuple = MeasuOp.GetMinDistance(Shape1, Shape2) if MeasuOp.IsDone() == 0: print "MinDistance : ", MeasuOp.GetErrorCode() return aTuple[0] def Tolerance(Shape): aTuple = MeasuOp.GetTolerance(Shape) if MeasuOp.IsDone() == 0: print "Tolerance : ", MeasuOp.GetErrorCode() return aTuple def WhatIs(Shape): aDescr = MeasuOp.WhatIs(Shape) if MeasuOp.IsDone() == 0: print "WhatIs : ", MeasuOp.GetErrorCode() return aDescr def MakeCDG(aShape): anObj = MeasuOp.GetCentreOfMass(aShape) if MeasuOp.IsDone() == 0: print "GetCentreOfMass : ", MeasuOp.GetErrorCode() return anObj def CheckShape(theShape, theIsCheckGeom = 0): if theIsCheckGeom: (IsValid, Status) = MeasuOp.CheckShapeWithGeometry(theShape) else: (IsValid, Status) = MeasuOp.CheckShape(theShape) if MeasuOp.IsDone() == 0: print "CheckShape : ", MeasuOp.GetErrorCode() else: if IsValid == 0: print Status return IsValid # ----------------------------------------------------------------------------- # Import/Export objects # ----------------------------------------------------------------------------- def Import(filename, formatname): anObj = InsertOp.Import(filename, formatname) if InsertOp.IsDone() == 0: print "Import : ", InsertOp.GetErrorCode() return anObj def ImportBREP(theFileName): return Import(theFileName, "BREP") def ImportIGES(theFileName): return Import(theFileName, "IGES") def ImportSTEP(theFileName): return Import(theFileName, "STEP") def Export(aShape, filename, formatname): InsertOp.Export(aShape, filename, formatname) if InsertOp.IsDone() == 0: print "Export : ", InsertOp.GetErrorCode() def ExportBREP(theObject, theFileName): return Export(theObject, theFileName, "BREP") def ExportIGES(theObject, theFileName): return Export(theObject, theFileName, "IGES") def ExportSTEP(theObject, theFileName): return Export(theObject, theFileName, "STEP") # ----------------------------------------------------------------------------- # Block operations # ----------------------------------------------------------------------------- def MakeQuad(E1, E2, E3, E4): anObj = BlocksOp.MakeQuad(E1, E2, E3, E4) if BlocksOp.IsDone() == 0: print "MakeQuad : ", BlocksOp.GetErrorCode() return anObj def MakeQuad2Edges(E1, E2): anObj = BlocksOp.MakeQuad2Edges(E1, E2) if BlocksOp.IsDone() == 0: print "MakeQuad2Edges : ", BlocksOp.GetErrorCode() return anObj def MakeQuad4Vertices(V1, V2, V3, V4): anObj = BlocksOp.MakeQuad4Vertices(V1, V2, V3, V4) if BlocksOp.IsDone() == 0: print "MakeQuad4Vertices : ", BlocksOp.GetErrorCode() return anObj def MakeHexa(F1, F2, F3, F4, F5, F6): anObj = BlocksOp.MakeHexa(F1, F2, F3, F4, F5, F6) if BlocksOp.IsDone() == 0: print "MakeHexa : ", BlocksOp.GetErrorCode() return anObj def MakeHexa2Faces(F1, F2): anObj = BlocksOp.MakeHexa2Faces(F1, F2) if BlocksOp.IsDone() == 0: print "MakeHexa2Faces : ", BlocksOp.GetErrorCode() return anObj def GetPoint(theShape, theX, theY, theZ, theEpsilon): anObj = BlocksOp.GetPoint(theShape, theX, theY, theZ, theEpsilon) if BlocksOp.IsDone() == 0: print "GetPoint : ", BlocksOp.GetErrorCode() return anObj def GetEdge(theShape, thePoint1, thePoint2): anObj = BlocksOp.GetEdge(theShape, thePoint1, thePoint2) if BlocksOp.IsDone() == 0: print "GetEdge : ", BlocksOp.GetErrorCode() return anObj def GetEdgeNearPoint(theShape, thePoint): anObj = BlocksOp.GetEdgeNearPoint(theShape, thePoint) if BlocksOp.IsDone() == 0: print "GetEdgeNearPoint : ", BlocksOp.GetErrorCode() return anObj def GetFaceByPoints(theShape, thePoint1, thePoint2, thePoint3, thePoint4): anObj = BlocksOp.GetFaceByPoints(theShape, thePoint1, thePoint2, thePoint3, thePoint4) if BlocksOp.IsDone() == 0: print "GetFaceByPoints : ", BlocksOp.GetErrorCode() return anObj def GetFaceByEdges(theShape, theEdge1, theEdge2): anObj = BlocksOp.GetFaceByEdges(theShape, theEdge1, theEdge2) if BlocksOp.IsDone() == 0: print "GetFaceByEdges : ", BlocksOp.GetErrorCode() return anObj def GetOppositeFace(theBlock, theFace): anObj = BlocksOp.GetOppositeFace(theBlock, theFace) if BlocksOp.IsDone() == 0: print "GetOppositeFace : ", BlocksOp.GetErrorCode() return anObj def GetFaceNearPoint(theShape, thePoint): anObj = BlocksOp.GetFaceNearPoint(theShape, thePoint) if BlocksOp.IsDone() == 0: print "GetFaceNearPoint : ", BlocksOp.GetErrorCode() return anObj def GetFaceByNormale(theBlock, theVector): anObj = BlocksOp.GetFaceByNormale(theBlock, theVector) if BlocksOp.IsDone() == 0: print "GetFaceByNormale : ", BlocksOp.GetErrorCode() return anObj def CheckCompoundOfBlocks(theCompound): (IsValid, BCErrors) = BlocksOp.CheckCompoundOfBlocks(theCompound) if BlocksOp.IsDone() == 0: print "CheckCompoundOfBlocks : ", BlocksOp.GetErrorCode() else: if IsValid == 0: Descr = BlocksOp.PrintBCErrors(theCompound, BCErrors) print Descr return IsValid def RemoveExtraEdges(theShape): anObj = BlocksOp.RemoveExtraEdges(theShape) if BlocksOp.IsDone() == 0: print "RemoveExtraEdges : ", BlocksOp.GetErrorCode() return anObj def CheckAndImprove(theShape): anObj = BlocksOp.CheckAndImprove(theShape) if BlocksOp.IsDone() == 0: print "CheckAndImprove : ", BlocksOp.GetErrorCode() return anObj def MakeBlockExplode(theCompound, theMinNbFaces, theMaxNbFaces): aList = BlocksOp.ExplodeCompoundOfBlocks(theCompound, theMinNbFaces, theMaxNbFaces) if BlocksOp.IsDone() == 0: print "MakeBlockExplode : ", BlocksOp.GetErrorCode() return aList def GetBlockNearPoint(theCompound, thePoint): anObj = BlocksOp.GetBlockNearPoint(theCompound, thePoint) if BlocksOp.IsDone() == 0: print "GetBlockNearPoint : ", BlocksOp.GetErrorCode() return anObj def GetBlockByParts(theCompound, theParts): anObj = BlocksOp.GetBlockByParts(theCompound, theParts) if BlocksOp.IsDone() == 0: print "GetBlockByParts : ", BlocksOp.GetErrorCode() return anObj def GetBlocksByParts(theCompound, theParts): aList = BlocksOp.GetBlocksByParts(theCompound, theParts) if BlocksOp.IsDone() == 0: print "GetBlocksByParts : ", BlocksOp.GetErrorCode() return aList def MakeMultiTransformation1D(Block, DirFaceID1, DirFaceID2, NbTimes): anObj = BlocksOp.MakeMultiTransformation1D(Block, DirFaceID1, DirFaceID2, NbTimes) if BlocksOp.IsDone() == 0: print "MakeMultiTransformation1D : ", BlocksOp.GetErrorCode() return anObj def MakeMultiTransformation2D(Block, DirFaceID1U, DirFaceID2U, NbTimesU, DirFaceID1V, DirFaceID2V, NbTimesV): anObj = BlocksOp.MakeMultiTransformation2D(Block, DirFaceID1U, DirFaceID2U, NbTimesU, DirFaceID1V, DirFaceID2V, NbTimesV) if BlocksOp.IsDone() == 0: print "MakeMultiTransformation2D : ", BlocksOp.GetErrorCode() return anObj def Propagate(theShape): listChains = BlocksOp.Propagate(theShape) if BlocksOp.IsDone() == 0: print "Propagate : ", BlocksOp.GetErrorCode() return listChains # ----------------------------------------------------------------------------- # Group operations # ----------------------------------------------------------------------------- def CreateGroup(MainShape, ShapeType): anObj = GroupOp.CreateGroup(MainShape, ShapeType) if GroupOp.IsDone() == 0: print "CreateGroup : ", GroupOp.GetErrorCode() return anObj def AddObject(Group, SubShapeID): GroupOp.AddObject(Group, SubShapeID) if GroupOp.IsDone() == 0: print "AddObject : ", GroupOp.GetErrorCode() def RemoveObject(Group, SubShapeID): GroupOp.RemoveObject(Group, SubShapeID) if GroupOp.IsDone() == 0: print "RemoveObject : ", GroupOp.GetErrorCode() def UnionList (theGroup, theSubShapes): GroupOp.UnionList(theGroup, theSubShapes) if GroupOp.IsDone() == 0: print "UnionList : ", GroupOp.GetErrorCode() def UnionIDs(theGroup, theSubShapes): GroupOp.UnionIDs(theGroup, theSubShapes) if GroupOp.IsDone() == 0: print "UnionIDs : ", GroupOp.GetErrorCode() def DifferenceList (theGroup, theSubShapes): GroupOp.DifferenceList(theGroup, theSubShapes) if GroupOp.IsDone() == 0: print "DifferenceList : ", GroupOp.GetErrorCode() def DifferenceIDs(theGroup, theSubShapes): GroupOp.DifferenceIDs(theGroup, theSubShapes) if GroupOp.IsDone() == 0: print "DifferenceIDs : ", GroupOp.GetErrorCode() def GetObjectIDs(Group): ListIDs = GroupOp.GetObjects(Group) if GroupOp.IsDone() == 0: print "GetObjectIDs : ", GroupOp.GetErrorCode() return ListIDs def GetType(theGroup): aType = GroupOp.GetType(theGroup) if GroupOp.IsDone() == 0: print "GetType : ", GroupOp.GetErrorCode() return aType def GetMainShape(theGroup): anObj = GroupOp.GetMainShape(theGroup) if GroupOp.IsDone() == 0: print "GetMainShape : ", GroupOp.GetErrorCode() return anObj def GetEdgesByLength (theShape, min_length, max_length, include_min = 1, include_max = 1): """ Create group of edges of theShape, whose length is in range [min_length, max_length]. If include_min/max == 0, edges with length == min/max_length will not be included in result. """ edges = SubShapeAll(theShape, ShapeType["EDGE"]) edges_in_range = [] for edge in edges: Props = BasicProperties(edge) if min_length <= Props[0] and Props[0] <= max_length: if (not include_min) and (min_length == Props[0]): skip = 1 else: if (not include_max) and (Props[0] == max_length): skip = 1 else: edges_in_range.append(edge) if len(edges_in_range) <= 0: print "No edges found by given criteria" return 0 group_edges = CreateGroup(theShape, ShapeType["EDGE"]) UnionList(group_edges, edges_in_range) return group_edges # Add Path to the system path # def addPath(Path): if (sys.path.count(Path) < 1): sys.path.append(Path)