# SPDX-License-Identifier: LGPL-2.1-or-later # *************************************************************************** # * Copyright (c) 2017 sliptonic * # * * # * 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 LICENCE 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 * # * * # *************************************************************************** from PySide.QtCore import QT_TRANSLATE_NOOP import FreeCAD import Path import Path.Op.Base as PathOp import PathScripts.PathUtils as PathUtils # lazily loaded modules from lazy_loader.lazy_loader import LazyLoader Draft = LazyLoader("Draft", globals(), "Draft") Part = LazyLoader("Part", globals(), "Part") __title__ = "Base class for PathArea based operations." __author__ = "sliptonic (Brad Collette)" __url__ = "https://www.freecad.org" __doc__ = "Base class and properties for Path.Area based operations." __contributors__ = "russ4262 (Russell Johnson) davidgilkaufman (David Kaufman)" 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()) translate = FreeCAD.Qt.translate class ObjectOp(PathOp.ObjectOp): """Base class for all Path.Area based operations. Provides standard features including debugging properties AreaParams, PathParams and removalshape, all hidden. The main reason for existence is to implement the standard interface to Path.Area so subclasses only have to provide the shapes for the operations.""" def opFeatures(self, obj): """opFeatures(obj) ... returns the base features supported by all Path.Area based operations. The standard feature list is OR'ed with the return value of areaOpFeatures(). Do not overwrite, implement areaOpFeatures(obj) instead.""" return ( PathOp.FeatureTool | PathOp.FeatureDepths | PathOp.FeatureStepDown | PathOp.FeatureHeights | PathOp.FeatureStartPoint | self.areaOpFeatures(obj) | PathOp.FeatureCoolant ) def areaOpFeatures(self, obj): """areaOpFeatures(obj) ... overwrite to add operation specific features. Can safely be overwritten by subclasses.""" return 0 def initOperation(self, obj): """initOperation(obj) ... sets up standard Path.Area properties and calls initAreaOp(). Do not overwrite, overwrite initAreaOp(obj) instead.""" Path.Log.track() # Debugging obj.addProperty("App::PropertyString", "AreaParams", "Path") obj.setEditorMode("AreaParams", 2) # hide obj.addProperty("App::PropertyString", "PathParams", "Path") obj.setEditorMode("PathParams", 2) # hide obj.addProperty("Part::PropertyPartShape", "removalshape", "Path") obj.setEditorMode("removalshape", 2) # hide obj.addProperty( "App::PropertyBool", "SplitArcs", "Path", QT_TRANSLATE_NOOP("App::Property", "Split Arcs into discrete segments"), ) self.initAreaOp(obj) def initAreaOp(self, obj): """initAreaOp(obj) ... overwrite if the receiver class needs initialisation. Can safely be overwritten by subclasses.""" pass def areaOpShapeForDepths(self, obj, job): """areaOpShapeForDepths(obj) ... returns the shape used to make an initial calculation for the depths being used. The default implementation returns the job's Base.Shape""" if job: if job.Stock: Path.Log.debug("job=%s base=%s shape=%s" % (job, job.Stock, job.Stock.Shape)) return job.Stock.Shape else: Path.Log.warning(translate("PathAreaOp", "job %s has no Base.") % job.Label) else: Path.Log.warning(translate("PathAreaOp", "no job for operation %s found.") % obj.Label) return None def areaOpOnChanged(self, obj, prop): """areaOpOnChanged(obj, porp) ... overwrite to process operation specific changes to properties. Can safely be overwritten by subclasses.""" pass def opOnChanged(self, obj, prop): """opOnChanged(obj, prop) ... base implementation of the notification framework - do not overwrite. The base implementation takes a stab at determining Heights and Depths if the operations's Base changes. Do not overwrite, overwrite areaOpOnChanged(obj, prop) instead.""" # Path.Log.track(obj.Label, prop) if prop in ["AreaParams", "PathParams", "removalshape"]: obj.setEditorMode(prop, 2) if hasattr(obj, "Side") and prop == "Base" and len(obj.Base) == 1: (base, subNames) = obj.Base[0] bb = base.Shape.BoundBox # parent boundbox if "Face" in subNames[0]: face = base.Shape.getElement(subNames[0]) fbb = face.BoundBox # face boundbox if bb.XLength == fbb.XLength and bb.YLength == fbb.YLength: obj.Side = "Outside" else: obj.Side = "Inside" elif "Edge" in subNames[0]: edges = [ base.Shape.getElement(sub).copy() for sub in subNames if sub.startswith("Edge") ] wire = Part.Wire(Part.__sortEdges__(edges)) wbb = wire.BoundBox # wire boundbox if not wire.isClosed() or (bb.XLength == wbb.XLength and bb.YLength == wbb.YLength): obj.Side = "Outside" else: obj.Side = "Inside" self.areaOpOnChanged(obj, prop) def opOnDocumentRestored(self, obj): Path.Log.track() for prop in ["AreaParams", "PathParams", "removalshape"]: if hasattr(obj, prop): obj.setEditorMode(prop, 2) if not hasattr(obj, "SplitArcs"): obj.addProperty( "App::PropertyBool", "SplitArcs", "Path", QT_TRANSLATE_NOOP("App::Property", "Split Arcs into discrete segments"), ) self.areaOpOnDocumentRestored(obj) def areaOpOnDocumentRestored(self, obj): """areaOpOnDocumentRestored(obj) ... overwrite to fully restore receiver""" pass def opSetDefaultValues(self, obj, job): """opSetDefaultValues(obj) ... base implementation, do not overwrite. The base implementation sets the depths and heights based on the areaOpShapeForDepths() return value. Do not overwrite, overwrite areaOpSetDefaultValues(obj, job) instead.""" Path.Log.debug("opSetDefaultValues(%s, %s)" % (obj.Label, job.Label)) if PathOp.FeatureDepths & self.opFeatures(obj): try: shape = self.areaOpShapeForDepths(obj, job) except Exception as ee: Path.Log.error(ee) shape = None # Set initial start and final depths if shape is None: Path.Log.debug("shape is None") startDepth = 1.0 finalDepth = 0.0 else: bb = job.Stock.Shape.BoundBox startDepth = bb.ZMax finalDepth = bb.ZMin obj.OpStartDepth.Value = startDepth obj.OpFinalDepth.Value = finalDepth Path.Log.debug( "Default OpDepths are Start: {}, and Final: {}".format( obj.OpStartDepth.Value, obj.OpFinalDepth.Value ) ) Path.Log.debug( "Default Depths are Start: {}, and Final: {}".format(startDepth, finalDepth) ) self.areaOpSetDefaultValues(obj, job) def areaOpSetDefaultValues(self, obj, job): """areaOpSetDefaultValues(obj, job) ... overwrite to set initial values of operation specific properties. Can safely be overwritten by subclasses.""" pass def _buildPathArea(self, obj, baseobject, isHole, start, getsim): """_buildPathArea(obj, baseobject, isHole, start, getsim) ... internal function.""" Path.Log.track() area = Path.Area() area.setPlane(PathUtils.makeWorkplane(baseobject)) area.add(baseobject) areaParams = self.areaOpAreaParams(obj, isHole) areaParams["SectionTolerance"] = FreeCAD.Base.Precision.confusion() * 10 # basically 1e-06 heights = [i for i in self.depthparams] Path.Log.debug("depths: {}".format(heights)) area.setParams(**areaParams) obj.AreaParams = str(area.getParams()) Path.Log.debug("Area with params: {}".format(area.getParams())) sections = area.makeSections(mode=0, project=self.areaOpUseProjection(obj), heights=heights) Path.Log.debug("sections = %s" % sections) # Rest machining self.sectionShapes = self.sectionShapes + [section.toTopoShape() for section in sections] if hasattr(obj, "UseRestMachining") and obj.UseRestMachining: restSections = [] for section in sections: bbox = section.getShape().BoundBox z = bbox.ZMin sectionClearedAreas = [] for op in self.job.Operations.Group: if self in [x.Proxy for x in [op] + op.OutListRecursive if hasattr(x, "Proxy")]: break if hasattr(op, "Active") and op.Active and op.Path: tool = ( op.Proxy.tool if hasattr(op.Proxy, "tool") else op.ToolController.Proxy.getTool(op.ToolController) ) diameter = tool.Diameter.getValueAs("mm") dz = ( 0 if not hasattr(tool, "TipAngle") else -PathUtils.drillTipLength(tool) ) # for drills, dz translates to the full width part of the tool sectionClearedAreas.append( section.getClearedArea( op.Path, diameter, z + dz + self.job.GeometryTolerance.getValueAs("mm"), bbox, ) ) restSection = section.getRestArea( sectionClearedAreas, self.tool.Diameter.getValueAs("mm") ) if restSection is not None: restSections.append(restSection) sections = restSections shapelist = [sec.getShape() for sec in sections] Path.Log.debug("shapelist = %s" % shapelist) pathParams = self.areaOpPathParams(obj, isHole) pathParams["shapes"] = shapelist pathParams["feedrate"] = self.horizFeed pathParams["feedrate_v"] = self.vertFeed pathParams["verbose"] = True pathParams["resume_height"] = obj.SafeHeight.Value pathParams["retraction"] = obj.ClearanceHeight.Value pathParams["return_end"] = True # Note that emitting preambles between moves breaks some dressups and prevents path optimization on some controllers pathParams["preamble"] = False # disable path sorting for offset and zigzag-offset paths if ( hasattr(obj, "ClearingPattern") and obj.ClearingPattern in ["ZigZagOffset", "Offset"] and hasattr(obj, "MinTravel") and not obj.MinTravel ): pathParams["sort_mode"] = 0 if not self.areaOpRetractTool(obj): pathParams["threshold"] = 2.001 * self.radius if self.endVector is not None: if self.endVector[:2] != (0, 0): pathParams["start"] = self.endVector elif PathOp.FeatureStartPoint & self.opFeatures(obj) and obj.UseStartPoint: pathParams["start"] = obj.StartPoint obj.PathParams = str({key: value for key, value in pathParams.items() if key != "shapes"}) Path.Log.debug("Path with params: {}".format(obj.PathParams)) (pp, end_vector) = Path.fromShapes(**pathParams) Path.Log.debug("pp: {}, end vector: {}".format(pp, end_vector)) # Keep track of this segment's end only if it has movement (otherwise end_vector is 0,0,0 and the next segment will unnecessarily start there) if pp.Size > 0: self.endVector = end_vector simobj = None if getsim: areaParams["Thicken"] = True areaParams["ToolRadius"] = self.radius - self.radius * 0.005 area.setParams(**areaParams) sec = area.makeSections(mode=0, project=False, heights=heights)[-1].getShape() simobj = sec.extrude(FreeCAD.Vector(0, 0, baseobject.BoundBox.ZMax)) return pp, simobj def _buildProfileOpenEdges(self, obj, edgeList, isHole, start, getsim): """_buildPathArea(obj, edgeList, isHole, start, getsim) ... internal function.""" Path.Log.track() paths = [] heights = [i for i in self.depthparams] Path.Log.debug("depths: {}".format(heights)) for i in range(0, len(heights)): for baseShape in edgeList: hWire = Part.Wire(Part.__sortEdges__(baseShape.Edges)) hWire.translate(FreeCAD.Vector(0, 0, heights[i] - hWire.BoundBox.ZMin)) pathParams = {} pathParams["shapes"] = [hWire] pathParams["feedrate"] = self.horizFeed pathParams["feedrate_v"] = self.vertFeed pathParams["verbose"] = True pathParams["resume_height"] = obj.SafeHeight.Value pathParams["retraction"] = obj.ClearanceHeight.Value pathParams["return_end"] = True # Note that emitting preambles between moves breaks some dressups and prevents path optimization on some controllers pathParams["preamble"] = False # Always manually setting pathParams["start"] to the first or # last vertex of the wire (depending on obj.Direction) ensures # the edge is always milled in the correct direction. Using # self.endVector would allow Path.fromShapes to reverse the # direction if that would shorten the travel move and thus cause # the edges being milled in seemingly random directions. verts = hWire.Wires[0].Vertexes idx = 0 if obj.Direction == "CCW": idx = len(verts) - 1 x = verts[idx].X y = verts[idx].Y # Zero start value adjustments for Path.fromShapes() bug if Path.Geom.isRoughly(x, 0.0): x = 0.00001 if Path.Geom.isRoughly(y, 0.0): y = 0.00001 pathParams["start"] = FreeCAD.Vector(x, y, verts[0].Z) obj.PathParams = str( {key: value for key, value in pathParams.items() if key != "shapes"} ) Path.Log.debug("Path with params: {}".format(obj.PathParams)) (pp, end_vector) = Path.fromShapes(**pathParams) paths.extend(pp.Commands) Path.Log.debug("pp: {}, end vector: {}".format(pp, end_vector)) self.endVector = end_vector simobj = None return paths, simobj def opExecute(self, obj, getsim=False): """opExecute(obj, getsim=False) ... implementation of Path.Area ops. determines the parameters for _buildPathArea(). Do not overwrite, implement areaOpAreaParams(obj, isHole) ... op specific area param dictionary areaOpPathParams(obj, isHole) ... op specific path param dictionary areaOpShapes(obj) ... the shape for path area to process areaOpUseProjection(obj) ... return true if operation can use projection instead.""" Path.Log.track() # Instantiate class variables for operation reference self.endVector = None self.leadIn = 2.0 # Initiate depthparams and calculate operation heights for operation self.depthparams = self._customDepthParams(obj, obj.StartDepth.Value, obj.FinalDepth.Value) # Set start point if PathOp.FeatureStartPoint & self.opFeatures(obj) and obj.UseStartPoint: start = obj.StartPoint else: start = None # Adjust tuples length received from other PathWB tools/operations shapes = [] for shp in self.areaOpShapes(obj): if len(shp) == 2: (fc, iH) = shp # fc, iH, sub or description tup = fc, iH, "otherOp" shapes.append(tup) else: shapes.append(shp) if len(shapes) > 1: locations = [] for s in shapes: if s[2] == "OpenEdge": shp = Part.makeCompound(s[0]) else: shp = s[0] locations.append({"x": shp.BoundBox.XMax, "y": shp.BoundBox.YMax, "shape": s}) locations = PathUtils.sort_locations(locations, ["x", "y"]) shapes = [j["shape"] for j in locations] sims = [] self.sectionShapes = [] for shape, isHole, sub in shapes: profileEdgesIsOpen = False if sub == "OpenEdge": profileEdgesIsOpen = True if PathOp.FeatureStartPoint & self.opFeatures(obj) and obj.UseStartPoint: osp = obj.StartPoint self.commandlist.append( Path.Command("G0", {"X": osp.x, "Y": osp.y, "F": self.horizRapid}) ) try: if profileEdgesIsOpen: (pp, sim) = self._buildProfileOpenEdges(obj, shape, isHole, start, getsim) else: (pp, sim) = self._buildPathArea(obj, shape, isHole, start, getsim) except Exception as e: FreeCAD.Console.PrintError(e) FreeCAD.Console.PrintError( "Something unexpected happened. Check project and tool config." ) raise e else: ppCmds = pp if profileEdgesIsOpen else pp.Commands self.commandlist.extend(ppCmds) sims.append(sim) if ( self.areaOpRetractTool(obj) and self.endVector is not None and len(self.commandlist) > 1 ): self.endVector[2] = obj.ClearanceHeight.Value self.commandlist.append( Path.Command("G0", {"Z": obj.ClearanceHeight.Value, "F": self.vertRapid}) ) Path.Log.debug("obj.Name: " + str(obj.Name) + "\n\n") return sims def areaOpRetractTool(self, obj): """areaOpRetractTool(obj) ... return False to keep the tool at current level between shapes. Default is True.""" return True def areaOpAreaParams(self, obj, isHole): """areaOpAreaParams(obj, isHole) ... return operation specific area parameters in a dictionary. Note that the resulting parameters are stored in the property AreaParams. Must be overwritten by subclasses.""" pass def areaOpPathParams(self, obj, isHole): """areaOpPathParams(obj, isHole) ... return operation specific path parameters in a dictionary. Note that the resulting parameters are stored in the property PathParams. Must be overwritten by subclasses.""" pass def areaOpShapes(self, obj): """areaOpShapes(obj) ... return all shapes to be processed by Path.Area for this op. Must be overwritten by subclasses.""" pass def areaOpUseProjection(self, obj): """areaOpUseProcjection(obj) ... return True if the operation can use procjection, defaults to False. Can safely be overwritten by subclasses.""" return False # Support methods def _customDepthParams(self, obj, strDep, finDep): finish_step = obj.FinishDepth.Value if hasattr(obj, "FinishDepth") else 0.0 return PathUtils.depth_params( clearance_height=obj.ClearanceHeight.Value, safe_height=obj.SafeHeight.Value, start_depth=strDep, step_down=obj.StepDown.Value, z_finish_step=finish_step, final_depth=finDep, user_depths=None, ) def SetupProperties(): setup = [] return setup