283 lines
12 KiB
Python
283 lines
12 KiB
Python
# -*- coding: utf-8 -*-
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# ***************************************************************************
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# * *
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# * Copyright (c) 2016 sliptonic <shopinthewoods@gmail.com> *
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# * *
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# * This program is free software; you can redistribute it and/or modify *
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# * it under the terms of the GNU Lesser General Public License (LGPL) *
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# * as published by the Free Software Foundation; either version 2 of *
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# * the License, or (at your option) any later version. *
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# * for detail see the LICENCE text file. *
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# * *
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# * This program is distributed in the hope that it will be useful, *
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# * but WITHOUT ANY WARRANTY; without even the implied warranty of *
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# * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
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# * GNU Library General Public License for more details. *
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# * *
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# * You should have received a copy of the GNU Library General Public *
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# * License along with this program; if not, write to the Free Software *
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# * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 *
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# * USA *
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# * *
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# ***************************************************************************
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from __future__ import print_function
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import FreeCAD
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import Part
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import PathScripts.PathLog as PathLog
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import PathScripts.PathPocketBase as PathPocketBase
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import PathScripts.PathUtils as PathUtils
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from PySide import QtCore
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import numpy
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__title__ = "Path Mill Face Operation"
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__author__ = "sliptonic (Brad Collette)"
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__url__ = "http://www.freecadweb.org"
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__doc__ = "Class and implementation of Mill Facing operation."
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__contributors__ = "russ4262 (Russell Johnson)"
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__created__ = "2014"
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__scriptVersion__ = "1d usable"
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__lastModified__ = "2019-07-22 23:49 CST"
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PathLog.setLevel(PathLog.Level.INFO, PathLog.thisModule())
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#PathLog.trackModule(PathLog.thisModule())
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# Qt translation handling
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def translate(context, text, disambig=None):
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return QtCore.QCoreApplication.translate(context, text, disambig)
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class ObjectFace(PathPocketBase.ObjectPocket):
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'''Proxy object for Mill Facing operation.'''
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def initPocketOp(self, obj):
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'''initPocketOp(obj) ... create facing specific properties'''
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obj.addProperty("App::PropertyEnumeration", "BoundaryShape", "Face", QtCore.QT_TRANSLATE_NOOP("App::Property", "Shape to use for calculating Boundary"))
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obj.BoundaryShape = ['Perimeter', 'Boundbox', 'Stock']
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obj.addProperty("App::PropertyBool", "ClearEdges", "Face", QtCore.QT_TRANSLATE_NOOP("App::Property", "Clear edges of surface (Only applicable to BoundBox)"))
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if not hasattr(obj, 'ExcludeRaisedAreas'):
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obj.addProperty("App::PropertyBool", "ExcludeRaisedAreas", "Face", QtCore.QT_TRANSLATE_NOOP("App::Property", "Exclude milling raised areas inside the face."))
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def pocketInvertExtraOffset(self):
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return True
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def areaOpOnChanged(self, obj, prop):
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'''areaOpOnChanged(obj, prop) ... facing specific depths calculation.'''
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PathLog.track(prop)
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if prop == "StepOver" and obj.StepOver == 0:
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obj.StepOver = 1
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# default depths calculation not correct for facing
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if prop == "Base":
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job = PathUtils.findParentJob(obj)
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if job:
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obj.OpStartDepth = job.Stock.Shape.BoundBox.ZMax
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if len(obj.Base) >= 1:
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print('processing')
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sublist = []
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for i in obj.Base:
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o = i[0]
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for s in i[1]:
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sublist.append(o.Shape.getElement(s))
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# If the operation has a geometry identified the Finaldepth
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# is the top of the bboundbox which includes all features.
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# Otherwise, top of part.
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obj.OpFinalDepth = Part.makeCompound(sublist).BoundBox.ZMax
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elif job:
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obj.OpFinalDepth = job.Proxy.modelBoundBox(job).ZMax
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def areaOpShapes(self, obj):
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'''areaOpShapes(obj) ... return top face'''
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# Facing is done either against base objects
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holeShape = None
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if obj.Base:
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PathLog.debug("obj.Base: {}".format(obj.Base))
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faces = []
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holes = []
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holeEnvs = []
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oneBase = [obj.Base[0][0], True]
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sub0 = getattr(obj.Base[0][0].Shape, obj.Base[0][1][0])
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minHeight = sub0.BoundBox.ZMax
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for b in obj.Base:
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for sub in b[1]:
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shape = getattr(b[0].Shape, sub)
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if isinstance(shape, Part.Face):
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faces.append(shape)
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if shape.BoundBox.ZMin < minHeight:
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minHeight = shape.BoundBox.ZMin
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if oneBase[0] is not b[0]:
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oneBase[1] = False
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if numpy.isclose(abs(shape.normalAt(0, 0).z), 1): # horizontal face
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for wire in shape.Wires[1:]:
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if obj.ExcludeRaisedAreas is True:
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ip = self.isPocket(b[0], shape, wire)
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if ip is False:
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holes.append((b[0].Shape, wire))
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else:
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holes.append((b[0].Shape, wire))
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else:
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PathLog.error('The base subobject, "{0}," is not a face. Ignoring "{0}."'.format(sub))
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if obj.ExcludeRaisedAreas is True and len(holes) > 0:
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for shape, wire in holes:
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f = Part.makeFace(wire, 'Part::FaceMakerSimple')
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env = PathUtils.getEnvelope(shape, subshape=f, depthparams=self.depthparams)
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holeEnvs.append(env)
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holeShape = Part.makeCompound(holeEnvs)
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PathLog.debug("Working on a collection of faces {}".format(faces))
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planeshape = Part.makeCompound(faces)
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# If no base object, do planing of top surface of entire model
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else:
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planeshape = Part.makeCompound([base.Shape for base in self.model])
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PathLog.debug("Working on a shape {}".format(obj.Label))
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# Find the correct shape depending on Boundary shape.
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PathLog.debug("Boundary Shape: {}".format(obj.BoundaryShape))
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bb = planeshape.BoundBox
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# Apply offset for clearing edges
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offset = 0;
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if obj.ClearEdges == True:
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offset = self.radius + 0.1
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bb.XMin = bb.XMin - offset
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bb.YMin = bb.YMin - offset
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bb.XMax = bb.XMax + offset
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bb.YMax = bb.YMax + offset
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if obj.BoundaryShape == 'Boundbox':
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bbperim = Part.makeBox(bb.XLength, bb.YLength, 1, FreeCAD.Vector(bb.XMin, bb.YMin, bb.ZMin), FreeCAD.Vector(0, 0, 1))
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env = PathUtils.getEnvelope(partshape=bbperim, depthparams=self.depthparams)
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if obj.ExcludeRaisedAreas is True and oneBase[1] is True:
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includedFaces = self.getAllIncludedFaces(oneBase[0], env, faceZ=minHeight)
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if len(includedFaces) > 0:
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includedShape = Part.makeCompound(includedFaces)
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includedEnv = PathUtils.getEnvelope(oneBase[0].Shape, subshape=includedShape, depthparams=self.depthparams)
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env = env.cut(includedEnv)
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elif obj.BoundaryShape == 'Stock':
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stock = PathUtils.findParentJob(obj).Stock.Shape
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env = stock
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if obj.ExcludeRaisedAreas is True and oneBase[1] is True:
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includedFaces = self.getAllIncludedFaces(oneBase[0], stock, faceZ=minHeight)
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if len(includedFaces) > 0:
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stockEnv = PathUtils.getEnvelope(partshape=stock, depthparams=self.depthparams)
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includedShape = Part.makeCompound(includedFaces)
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includedEnv = PathUtils.getEnvelope(oneBase[0].Shape, subshape=includedShape, depthparams=self.depthparams)
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env = stockEnv.cut(includedEnv)
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else:
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env = PathUtils.getEnvelope(partshape=planeshape, depthparams=self.depthparams)
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if holeShape is not None:
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PathLog.info("Processing holes...")
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holeEnv = PathUtils.getEnvelope(partshape=holeShape, depthparams=self.depthparams)
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newEnv = env.cut(holeEnv)
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return [(newEnv, False)]
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else:
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return [(env, False)]
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def areaOpSetDefaultValues(self, obj, job):
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'''areaOpSetDefaultValues(obj, job) ... initialize mill facing properties'''
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obj.StepOver = 50
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obj.ZigZagAngle = 45.0
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obj.ExcludeRaisedAreas = False
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obj.ClearEdges = False
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# need to overwrite the default depth calculations for facing
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if job and len(job.Model.Group) > 0:
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obj.OpStartDepth = job.Stock.Shape.BoundBox.ZMax
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obj.OpFinalDepth = job.Proxy.modelBoundBox(job).ZMax
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# If the operation has a geometry identified the Finaldepth
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# is the top of the bboundbox which includes all features.
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if len(obj.Base) >= 1:
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obj.OpFinalDepth = Part.makeCompound(obj.Base).BoundBox.ZMax
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def isPocket(self, b, f, w):
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e = w.Edges[0]
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for fi in range(0, len(b.Shape.Faces)):
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face = b.Shape.Faces[fi]
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for ei in range(0, len(face.Edges)):
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edge = face.Edges[ei]
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if e.isSame(edge) is True:
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if f is face:
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# Alternative: run loop to see if all edges are same
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pass # same source face, look for another
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else:
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if face.CenterOfMass.z < f.CenterOfMass.z:
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return True
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return False
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def getAllIncludedFaces(self, base, env, faceZ):
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included = []
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eXMin = env.BoundBox.XMin
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eXMax = env.BoundBox.XMax
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eYMin = env.BoundBox.YMin
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eYMax = env.BoundBox.YMax
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# eZMin = env.BoundBox.ZMin
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eZMin = faceZ
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# eZMax = env.BoundBox.ZMax
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def isOverlap(fMn, fMx, eMn, eMx):
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if fMx > eMn:
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if fMx <= eMx:
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return True
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elif fMx >= eMx and fMn <= eMx:
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return True
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if fMn < eMx:
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if fMn >= eMn:
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return True
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elif fMn <= eMn and fMx >= eMn:
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return True
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return False
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for fi in range(0, len(base.Shape.Faces)):
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incl = False
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face = base.Shape.Faces[fi]
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fXMin = face.BoundBox.XMin
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fXMax = face.BoundBox.XMax
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fYMin = face.BoundBox.YMin
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fYMax = face.BoundBox.YMax
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# fZMin = face.BoundBox.ZMin
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fZMax = face.BoundBox.ZMax
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if fZMax > eZMin:
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if isOverlap(fXMin, fXMax, eXMin, eXMax) is True:
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if isOverlap(fYMin, fYMax, eYMin, eYMax) is True:
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incl = True
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if incl is True:
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included.append(face)
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return included
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def SetupProperties():
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setup = PathPocketBase.SetupProperties()
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setup.append("BoundaryShape")
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setup.append("ExcludeRaisedAreas")
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setup.append("ClearEdges")
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return setup
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def Create(name, obj=None):
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'''Create(name) ... Creates and returns a Mill Facing operation.'''
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if obj is None:
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obj = FreeCAD.ActiveDocument.addObject("Path::FeaturePython", name)
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obj.Proxy = ObjectFace(obj, name)
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return obj
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