X-Git-Url: http://git.salome-platform.org/gitweb/?p=modules%2Fsmesh.git;a=blobdiff_plain;f=src%2FTools%2FMacMesh%2FMacMesh%2FPublishGroups.py;h=9f2f55fc1c79fe6f0e479ac298f92f50b0e9738a;hp=31f2b73297f9a7b19eb895ec2ed3db91382fcd63;hb=0fc0831670e27a5611b941c52dc152fd63964515;hpb=7eda9ca931ed2a11cb5e4637e4ffe19f5c061115 diff --git a/src/Tools/MacMesh/MacMesh/PublishGroups.py b/src/Tools/MacMesh/MacMesh/PublishGroups.py index 31f2b7329..9f2f55fc1 100644 --- a/src/Tools/MacMesh/MacMesh/PublishGroups.py +++ b/src/Tools/MacMesh/MacMesh/PublishGroups.py @@ -1,4 +1,4 @@ -# Copyright (C) 2014-2016 EDF R&D +# 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 @@ -17,24 +17,46 @@ # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com # -# +# import SMESH import math import Config from salome.geom import geomBuilder -geompy = geomBuilder.New( Config.theStudy ) +geompy = geomBuilder.New() from salome.smesh import smeshBuilder -smesh = smeshBuilder.New( Config.theStudy ) +smesh = smeshBuilder.New() ########################################################################################################## def PublishGroups (): + aFilterManager = smesh.CreateFilterManager() + + # Building geometric and mesh compounds and groups ############################################## + if Config.debug : print("Searching for geometric groups and publishing final compound") + + TempGEOList = [] + TempMESHList = [] + + for MacroObj in Config.ListObj : + TempGEOList += MacroObj.GeoChildren + TempMESHList += MacroObj.Mesh + + FinalCompound = geompy.MakeCompound(TempGEOList) + geompy.addToStudy (FinalCompound,Config.StudyName) + MeshCompound = smesh.Concatenate(TempMESHList, 1, 1, 1e-5) + MeshCompound.SetName(Config.StudyName) + + GroupGEO = [] + for group in Config.Groups : + + # Geometric groups definition + TempGEOList = [] aFilterManager = smesh.CreateFilterManager() # Building geometric and mesh compounds and groups ############################################## - if Config.debug : print "Searching for geometric groups and publishing final compound" + if Config.debug : print("Searching for geometric groups and publishing final compound") TempGEOList = [] TempMESHList = [] @@ -56,8 +78,8 @@ def PublishGroups (): TempNames = [] for MacroObj in Config.ListObj : if group in MacroObj.GroupNames : - Occurences = IndexMultiOcc(MacroObj.GroupNames, group) - for Occ in Occurences : + Occurrences = IndexMultiOcc(MacroObj.GroupNames, group) + for Occ in Occurrences : TempGEOList += MacroObj.GetBorder(Occ) GroupGEO.append(geompy.MakeCompound(TempGEOList)) geompy.addToStudyInFather(FinalCompound,GroupGEO[-1],'GR_'+group) @@ -76,28 +98,28 @@ def PublishGroups (): def IndexMultiOcc (Array,Element) : - """ - This function returns the occurrences indices of Element in Array. - As opposed to Array.index(Element) method, this allows determining - multiple entries rather than just the first one! - """ - Output = [] - try : Array.index(Element) - except ValueError : print "No more occurrences" - else : Output.append(Array.index(Element)) - - if not(Output == [-1]) and len(Array) > 1 : - for index, ArrElem in enumerate(Array[Output[0]+1:]) : - if ArrElem is Element : Output.append(index+Output[0]+1) - - return Output - + """ + This function returns the occurrences indices of Element in Array. + As opposed to Array.index(Element) method, this allows determining + multiple entries rather than just the first one! + """ + Output = [] + try : Array.index(Element) + except ValueError : print("No more occurrences") + else : Output.append(Array.index(Element)) + + if not(Output == [-1]) and len(Array) > 1 : + for index, ArrElem in enumerate(Array[Output[0]+1:]) : + if ArrElem is Element : Output.append(index+Output[0]+1) + + return Output + def Publish (ObjToPublish): - for i,GeoObj in enumerate(ObjToPublish) : geompy.addToStudy(GeoObj,"Sub_"+str(i)) - + for i,GeoObj in enumerate(ObjToPublish) : geompy.addToStudy(GeoObj,"Sub_"+str(i)) + def RevolveMesh(MainMesh,**args): """ - This function premits to revolute and scale a 2D mesh while transforming the edge + This function permits to revolute and scale a 2D mesh while transforming the edge groups into face groups. Moreover, the function automatically creates the face groups corresponding to the symmetry lower and upper faces Facultatif arguments are : @@ -111,18 +133,18 @@ def RevolveMesh(MainMesh,**args): ################################################################################ if 'Center' in args : CenterCoor = [float(Coor) for Coor in args['Center']] else : - print "\nThe coordinates of the center of revolution were not given\nThe origin is used by default." + print("\nThe coordinates of the center of revolution were not given\nThe origin is used by default.") CenterCoor = [0.,0.,0.] if 'Direction' in args : Direction = [float(Dir) for Dir in args['Direction']] else : - print "\nThe axis vector of revolution was not given\nThe x-axis is used by default." + print("\nThe axis vector of revolution was not given\nThe x-axis is used by default.") Direction = [1.,0.,0.] if 'AngleDeg' in args : Angle = float(args['AngleDeg'])*math.pi/180. elif 'AngleRad' in args : Angle = float(args['AngleRad']) else : - print "\nThe revolution angle was not given\nAn angle of 10 degrees is used by default." + print("\nThe revolution angle was not given\nAn angle of 10 degrees is used by default.") Angle = 10.*math.pi/180. if 'Scale' in args : Scale = float(args['Scale']) @@ -171,7 +193,7 @@ def RevolveMesh(MainMesh,**args): def ExtrudeMesh(MainMesh,**args): """ - This function premits to extrude and scale a 2D mesh while transforming the edge + This function permits to extrude and scale a 2D mesh while transforming the edge groups into face groups. Moreover, the function automatically creates the face groups corresponding to the symmetry lower and upper faces Facultatif arguments are : @@ -185,12 +207,12 @@ def ExtrudeMesh(MainMesh,**args): ################################################################################ if 'Distance' in args : Distance = float(args['Distance']) else : - print "\nThe extrusion distance was not given\nA default value of 1 is used." + print("\nThe extrusion distance was not given\nA default value of 1 is used.") Distance = 1. if 'Direction' in args : Direction = NormalizeVector([float(Dir) for Dir in args['Direction']],Distance) else : - print "\nThe extrusion vector of revolution was not given\nThe z-axis is used by default." + print("\nThe extrusion vector of revolution was not given\nThe z-axis is used by default.") Direction = NormalizeVector([0.,0.,1.],Distance) if 'Scale' in args : Scale = float(args['Scale']) @@ -237,11 +259,10 @@ def ExtrudeMesh(MainMesh,**args): def NormalizeVector (V,Norm): - """ - This function returns a normalized vector (magnitude = Norm), parallel to the entered one - """ - V = [float(Coor) for Coor in V] - Norm = float(Norm) - MagV = math.sqrt(V[0]*V[0]+V[1]*V[1]+V[2]*V[2]) - return [Coor*Norm/MagV for Coor in V] - + """ + This function returns a normalized vector (magnitude = Norm), parallel to the entered one + """ + V = [float(Coor) for Coor in V] + Norm = float(Norm) + MagV = math.sqrt(V[0]*V[0]+V[1]*V[1]+V[2]*V[2]) + return [Coor*Norm/MagV for Coor in V]