# SPDX-License-Identifier: LGPL-2.1-or-later # *************************************************************************** # * Copyright (c) 2015 Dan Falck * # * Copyright (c) 2021 Schildkroet * # * * # * This program is free software; you can redistribute it and/or modify * # * it under the terms of the GNU Lesser General Public License (LGPL) * # * as published by the Free Software Foundation; either version 2 of * # * the License, or (at your option) any later version. * # * for detail see the LICENTE text file. * # * * # * This program 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 Library General Public License for more details. * # * * # * You should have received a copy of the GNU Library General Public * # * License along with this program; if not, write to the Free Software * # * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 * # * USA * # * * # *************************************************************************** """Selection gates and observers to control selectability while building Path operations""" import FreeCAD import FreeCADGui import Path import Path.Base.Drillable as Drillable import math if False: Path.Log.setLevel(Path.Log.Level.DEBUG, Path.Log.thisModule()) Path.Log.trackModule(Path.Log.thisModule()) else: Path.Log.setLevel(Path.Log.Level.INFO, Path.Log.thisModule()) class PathBaseGate(object): pass class EGate(PathBaseGate): def allow(self, doc, obj, sub): return sub and sub[0:4] == "Edge" class MESHGate(PathBaseGate): def allow(self, doc, obj, sub): return obj.TypeId[0:4] == "Mesh" class VCARVEGate: def allow(self, doc, obj, sub): try: shape = obj.Shape except Exception: return False if math.fabs(shape.Volume) < 1e-9 and len(shape.Wires) > 0: return True if shape.ShapeType == "Face": return True elif shape.ShapeType == "Solid": if sub and sub[0:4] == "Face": return True elif shape.ShapeType == "Compound": if sub and sub[0:4] == "Face": return True if sub: subShape = shape.getElement(sub) if subShape.ShapeType == "Edge": return False return False class ENGRAVEGate(PathBaseGate): def allow(self, doc, obj, sub): try: shape = obj.Shape except Exception: return False if math.fabs(shape.Volume) < 1e-9 and len(shape.Wires) > 0: return True if shape.ShapeType == "Edge": return True if sub: subShape = shape.getElement(sub) if subShape.ShapeType == "Edge": return True return False class CHAMFERGate(PathBaseGate): def allow(self, doc, obj, sub): try: shape = obj.Shape except Exception: return False if math.fabs(shape.Volume) < 1e-9 and len(shape.Wires) > 0: return True if "Edge" == shape.ShapeType or "Face" == shape.ShapeType: return True if sub: subShape = shape.getElement(sub) if subShape.ShapeType == "Edge": return True elif subShape.ShapeType == "Face": return True return False class DRILLGate(PathBaseGate): def allow(self, doc, obj, sub): Path.Log.debug("obj: {} sub: {}".format(obj, sub)) if not hasattr(obj, "Shape"): return False shape = obj.Shape subobj = shape.getElement(sub) if subobj.ShapeType not in ["Edge", "Face"]: return False return Drillable.isDrillable(shape, subobj, vector=None, allowPartial=True) class TAPGate(PathBaseGate): def allow(self, doc, obj, sub): Path.Log.debug("obj: {} sub: {}".format(obj, sub)) if not hasattr(obj, "Shape"): return False shape = obj.Shape subobj = shape.getElement(sub) if subobj.ShapeType not in ["Edge", "Face"]: return False return Drillable.isDrillable(shape, subobj, vector=None) class FACEGate(PathBaseGate): def allow(self, doc, obj, sub): isFace = False try: obj = obj.Shape except Exception: return False if obj.ShapeType == "Compound": if sub and sub[0:4] == "Face": isFace = True elif obj.ShapeType == "Face": # 3D Face, not flat, planar? isFace = True elif obj.ShapeType == "Solid": if sub and sub[0:4] == "Face": isFace = True return isFace class PROFILEGate(PathBaseGate): def allow(self, doc, obj, sub): if sub and sub[0:4] == "Edge": return True try: obj = obj.Shape except Exception: return False if obj.ShapeType == "Compound": if sub and sub[0:4] == "Face": return True elif obj.ShapeType == "Face": return True elif obj.ShapeType == "Solid": if sub and sub[0:4] == "Face": return True elif obj.ShapeType == "Wire": return True return False class POCKETGate(PathBaseGate): def allow(self, doc, obj, sub): pocketable = False try: obj = obj.Shape except Exception: return False if obj.ShapeType == "Edge": pocketable = False elif obj.ShapeType == "Face": pocketable = True elif obj.ShapeType == "Solid": if sub and sub[0:4] == "Face": pocketable = True elif obj.ShapeType == "Compound": if sub and sub[0:4] == "Face": pocketable = True return pocketable class ADAPTIVEGate(PathBaseGate): def allow(self, doc, obj, sub): adaptive = True try: obj = obj.Shape except Exception: return False return adaptive class CONTOURGate(PathBaseGate): def allow(self, doc, obj, sub): pass class PROBEGate: def allow(self, doc, obj, sub): pass class TURNGate(PathBaseGate): def allow(self, doc, obj, sub): Path.Log.debug("obj: {} sub: {}".format(obj, sub)) if hasattr(obj, "Shape") and sub: shape = obj.Shape subobj = shape.getElement(sub) return Drillable.isDrillable(shape, subobj, vector=None) else: return False class ALLGate(PathBaseGate): def allow(self, doc, obj, sub): if sub and sub[0:6] == "Vertex": return True if sub and sub[0:4] == "Edge": return True if sub and sub[0:4] == "Face": return True return False def contourselect(): FreeCADGui.Selection.addSelectionGate(CONTOURGate()) if not Path.Preferences.suppressSelectionModeWarning(): FreeCAD.Console.PrintWarning("Contour Select Mode\n") def eselect(): FreeCADGui.Selection.addSelectionGate(EGate()) if not Path.Preferences.suppressSelectionModeWarning(): FreeCAD.Console.PrintWarning("Edge Select Mode\n") def drillselect(): FreeCADGui.Selection.addSelectionGate(DRILLGate()) if not Path.Preferences.suppressSelectionModeWarning(): FreeCAD.Console.PrintWarning("Drilling Select Mode\n") def tapselect(): FreeCADGui.Selection.addSelectionGate(TAPGate()) if not Path.Preferences.suppressSelectionModeWarning(): FreeCAD.Console.PrintWarning("Tapping Select Mode\n") def engraveselect(): FreeCADGui.Selection.addSelectionGate(ENGRAVEGate()) if not Path.Preferences.suppressSelectionModeWarning(): FreeCAD.Console.PrintWarning("Engraving Select Mode\n") def fselect(): FreeCADGui.Selection.addSelectionGate(FACEGate()) # Was PROFILEGate() if not Path.Preferences.suppressSelectionModeWarning(): FreeCAD.Console.PrintWarning("Profiling Select Mode\n") def chamferselect(): FreeCADGui.Selection.addSelectionGate(CHAMFERGate()) if not Path.Preferences.suppressSelectionModeWarning(): FreeCAD.Console.PrintWarning("Deburr Select Mode\n") def profileselect(): FreeCADGui.Selection.addSelectionGate(PROFILEGate()) if not Path.Preferences.suppressSelectionModeWarning(): FreeCAD.Console.PrintWarning("Profiling Select Mode\n") def pocketselect(): FreeCADGui.Selection.addSelectionGate(POCKETGate()) if not Path.Preferences.suppressSelectionModeWarning(): FreeCAD.Console.PrintWarning("Pocketing Select Mode\n") def adaptiveselect(): FreeCADGui.Selection.addSelectionGate(ADAPTIVEGate()) if not Path.Preferences.suppressSelectionModeWarning(): FreeCAD.Console.PrintWarning("Adaptive Select Mode\n") def slotselect(): FreeCADGui.Selection.addSelectionGate(ALLGate()) if not Path.Preferences.suppressSelectionModeWarning(): FreeCAD.Console.PrintWarning("Slot Cutter Select Mode\n") def surfaceselect(): gate = False if MESHGate() or FACEGate(): gate = True FreeCADGui.Selection.addSelectionGate(gate) if not Path.Preferences.suppressSelectionModeWarning(): FreeCAD.Console.PrintWarning("Surfacing Select Mode\n") def vcarveselect(): FreeCADGui.Selection.addSelectionGate(VCARVEGate()) if not Path.Preferences.suppressSelectionModeWarning(): FreeCAD.Console.PrintWarning("Vcarve Select Mode\n") def probeselect(): FreeCADGui.Selection.addSelectionGate(PROBEGate()) if not Path.Preferences.suppressSelectionModeWarning(): FreeCAD.Console.PrintWarning("Probe Select Mode\n") def customselect(): if not Path.Preferences.suppressSelectionModeWarning(): FreeCAD.Console.PrintWarning("Custom Select Mode\n") def turnselect(): FreeCADGui.Selection.addSelectionGate(TURNGate()) if not Path.Preferences.suppressSelectionModeWarning(): FreeCAD.Console.PrintWarning("Turning Select Mode\n") def select(op): opsel = {} opsel["Contour"] = contourselect # deprecated opsel["Deburr"] = chamferselect opsel["Drilling"] = drillselect opsel["Tapping"] = tapselect opsel["Engrave"] = engraveselect opsel["Helix"] = drillselect opsel["MillFace"] = pocketselect opsel["MillFacing"] = pocketselect opsel["Pocket"] = pocketselect opsel["Pocket 3D"] = pocketselect opsel["Pocket3D"] = pocketselect # deprecated opsel["Pocket Shape"] = pocketselect opsel["Profile Edges"] = eselect # deprecated opsel["Profile Faces"] = fselect # deprecated opsel["Profile"] = profileselect opsel["Slot"] = slotselect opsel["Surface"] = surfaceselect opsel["Waterline"] = surfaceselect opsel["Adaptive"] = adaptiveselect opsel["Vcarve"] = vcarveselect opsel["Probe"] = probeselect opsel["Custom"] = customselect opsel["ThreadMilling"] = drillselect opsel["TurnFace"] = turnselect opsel["TurnProfile"] = turnselect opsel["TurnPartoff"] = turnselect opsel["TurnRough"] = turnselect return opsel[op] def clear(): FreeCADGui.Selection.removeSelectionGate() if not Path.Preferences.suppressSelectionModeWarning(): FreeCAD.Console.PrintWarning("Free Select\n")