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create/src/Mod/Path/PathScripts/PathAreaOp.py
luz paz b75cd3dd52 Path: Fix header uniformity and remove trailing whitespace 
This PR fixes header uniformity across all Path files. It also removes all trailing whitespace.
2020-11-05 19:57:21 +01:00

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# -*- coding: utf-8 -*-
# ***************************************************************************
# * Copyright (c) 2017 sliptonic <shopinthewoods@gmail.com> *
# * *
# * 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 *
# * *
# ***************************************************************************
import FreeCAD
import Path
import PathScripts.PathLog as PathLog
import PathScripts.PathOp as PathOp
import PathScripts.PathUtils as PathUtils
import PathScripts.PathGeom as PathGeom
import math
from PySide import QtCore
# lazily loaded modules
from lazy_loader.lazy_loader import LazyLoader
Draft = LazyLoader('Draft', globals(), 'Draft')
Part = LazyLoader('Part', globals(), 'Part')
if FreeCAD.GuiUp:
import FreeCADGui
__title__ = "Base class for PathArea based operations."
__author__ = "sliptonic (Brad Collette)"
__url__ = "https://www.freecadweb.org"
__doc__ = "Base class and properties for Path.Area based operations."
LOGLEVEL = PathLog.Level.INFO
PathLog.setLevel(LOGLEVEL, PathLog.thisModule())
if LOGLEVEL is PathLog.Level.DEBUG:
PathLog.trackModule()
# Qt translation handling
def translate(context, text, disambig=None):
return QtCore.QCoreApplication.translate(context, text, disambig)
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.'''
# pylint: disable=unused-argument
return 0
def initOperation(self, obj):
'''initOperation(obj) ... sets up standard Path.Area properties and calls initAreaOp().
Do not overwrite, overwrite initAreaOp(obj) instead.'''
PathLog.track()
# These are static while document is open, if it contains a 3D Surface Op
self.initWithRotation = False
# 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.Proxy = self
self.setupAdditionalProperties(obj)
self.initAreaOp(obj)
def setupAdditionalProperties(self, obj):
if not hasattr(obj, 'EnableRotation'):
obj.addProperty("App::PropertyEnumeration", "EnableRotation", "Rotation", QtCore.QT_TRANSLATE_NOOP("App::Property", "Enable rotation to gain access to pockets/areas not normal to Z axis."))
obj.EnableRotation = ['Off', 'A(x)', 'B(y)', 'A & B']
def initAreaOp(self, obj):
'''initAreaOp(obj) ... overwrite if the receiver class needs initialisation.
Can safely be overwritten by subclasses.'''
pass # pylint: disable=unnecessary-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:
PathLog.debug("job=%s base=%s shape=%s" % (job, job.Stock, job.Stock.Shape))
return job.Stock.Shape
else:
PathLog.warning(translate("PathAreaOp", "job %s has no Base.") % job.Label)
else:
PathLog.warning(translate("PathAreaOp", "no job for op %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 # pylint: disable=unnecessary-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.'''
# PathLog.track(obj.Label, prop)
if prop in ['AreaParams', 'PathParams', 'removalshape']:
obj.setEditorMode(prop, 2)
if prop == 'Base' and len(obj.Base) == 1:
(base, sub) = obj.Base[0]
bb = base.Shape.BoundBox # parent boundbox
subobj = base.Shape.getElement(sub[0])
fbb = subobj.BoundBox # feature boundbox
if hasattr(obj, 'Side'):
if bb.XLength == fbb.XLength and bb.YLength == fbb.YLength:
obj.Side = "Outside"
else:
obj.Side = "Inside"
self.areaOpOnChanged(obj, prop)
def opOnDocumentRestored(self, obj):
for prop in ['AreaParams', 'PathParams', 'removalshape']:
if hasattr(obj, prop):
obj.setEditorMode(prop, 2)
self.setupAdditionalProperties(obj)
self.areaOpOnDocumentRestored(obj)
def areaOpOnDocumentRestored(self, obj):
'''areaOpOnDocumentRestored(obj) ... overwrite to fully restore receiver'''
pass # pylint: disable=unnecessary-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.'''
PathLog.debug("opSetDefaultValues(%s, %s)" % (obj.Label, job.Label))
# Initial setting for EnableRotation is taken from Job settings/SetupSheet
# User may override on per-operation basis as needed.
if hasattr(job.SetupSheet, 'SetupEnableRotation'):
obj.EnableRotation = job.SetupSheet.SetupEnableRotation
else:
obj.EnableRotation = 'Off'
PathLog.debug("opSetDefaultValues(): Enable Rotation: {}".format(obj.EnableRotation))
if PathOp.FeatureDepths & self.opFeatures(obj):
try:
shape = self.areaOpShapeForDepths(obj, job)
except Exception as ee: # pylint: disable=broad-except
PathLog.error(ee)
shape = None
# Set initial start and final depths
if shape is None:
PathLog.debug("shape is None")
startDepth = 1.0
finalDepth = 0.0
else:
bb = job.Stock.Shape.BoundBox
startDepth = bb.ZMax
finalDepth = bb.ZMin
# Adjust start and final depths if rotation is enabled
if obj.EnableRotation != 'Off':
self.initWithRotation = True
self.stockBB = PathUtils.findParentJob(obj).Stock.Shape.BoundBox # pylint: disable=attribute-defined-outside-init
# Calculate rotational distances/radii
opHeights = self.opDetermineRotationRadii(obj) # return is list with tuples [(xRotRad, yRotRad, zRotRad), (clrOfst, safOfset)]
(xRotRad, yRotRad, zRotRad) = opHeights[0] # pylint: disable=unused-variable
PathLog.debug("opHeights[0]: " + str(opHeights[0]))
PathLog.debug("opHeights[1]: " + str(opHeights[1]))
if obj.EnableRotation == 'A(x)':
startDepth = xRotRad
if obj.EnableRotation == 'B(y)':
startDepth = yRotRad
else:
startDepth = max(xRotRad, yRotRad)
finalDepth = -1 * startDepth
obj.StartDepth.Value = startDepth
obj.FinalDepth.Value = finalDepth
obj.OpStartDepth.Value = startDepth
obj.OpFinalDepth.Value = finalDepth
PathLog.debug("Default OpDepths are Start: {}, and Final: {}".format(obj.OpStartDepth.Value, obj.OpFinalDepth.Value))
PathLog.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 # pylint: disable=unnecessary-pass
def _buildPathArea(self, obj, baseobject, isHole, start, getsim):
'''_buildPathArea(obj, baseobject, isHole, start, getsim) ... internal function.'''
# pylint: disable=unused-argument
PathLog.track()
area = Path.Area()
area.setPlane(PathUtils.makeWorkplane(baseobject))
area.add(baseobject)
areaParams = self.areaOpAreaParams(obj, isHole) # pylint: disable=assignment-from-no-return
if hasattr(obj, 'ExpandProfile') and obj.ExpandProfile != 0:
areaParams = self.areaOpAreaParamsExpandProfile(obj, isHole) # pylint: disable=assignment-from-no-return
heights = [i for i in self.depthparams]
PathLog.debug('depths: {}'.format(heights))
area.setParams(**areaParams)
obj.AreaParams = str(area.getParams())
PathLog.debug("Area with params: {}".format(area.getParams()))
sections = area.makeSections(mode=0, project=self.areaOpUseProjection(obj), heights=heights)
PathLog.debug("sections = %s" % sections)
shapelist = [sec.getShape() for sec in sections]
PathLog.debug("shapelist = %s" % shapelist)
pathParams = self.areaOpPathParams(obj, isHole) # pylint: disable=assignment-from-no-return
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
if not self.areaOpRetractTool(obj):
pathParams['threshold'] = 2.001 * self.radius
if self.endVector is not None:
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'})
PathLog.debug("Path with params: {}".format(obj.PathParams))
(pp, end_vector) = Path.fromShapes(**pathParams)
PathLog.debug('pp: {}, end vector: {}'.format(pp, end_vector))
self.endVector = end_vector # pylint: disable=attribute-defined-outside-init
simobj = None
if getsim:
areaParams['Thicken'] = True
areaParams['ToolRadius'] = self.radius - self.radius * .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.'''
# pylint: disable=unused-argument
PathLog.track()
paths = []
heights = [i for i in self.depthparams]
PathLog.debug('depths: {}'.format(heights))
lstIdx = len(heights) - 1
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 = {} # pylint: disable=assignment-from-no-return
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
if self.endVector is None:
V = hWire.Wires[0].Vertexes
lv = len(V) - 1
pathParams['start'] = FreeCAD.Vector(V[0].X, V[0].Y, V[0].Z)
if obj.Direction == 'CCW':
pathParams['start'] = FreeCAD.Vector(V[lv].X, V[lv].Y, V[lv].Z)
else:
pathParams['start'] = self.endVector
obj.PathParams = str({key: value for key, value in pathParams.items() if key != 'shapes'})
PathLog.debug("Path with params: {}".format(obj.PathParams))
(pp, end_vector) = Path.fromShapes(**pathParams)
paths.extend(pp.Commands)
PathLog.debug('pp: {}, end vector: {}'.format(pp, end_vector))
self.endVector = end_vector # pylint: disable=attribute-defined-outside-init
simobj = None
if getsim and False:
areaParams['ToolRadius'] = self.radius - self.radius * .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 paths, simobj
def opExecute(self, obj, getsim=False): # pylint: disable=arguments-differ
'''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.'''
PathLog.track()
# Instantiate class variables for operation reference
self.endVector = None # pylint: disable=attribute-defined-outside-init
self.rotateFlag = False # pylint: disable=attribute-defined-outside-init
self.leadIn = 2.0 # pylint: disable=attribute-defined-outside-init
self.cloneNames = [] # pylint: disable=attribute-defined-outside-init
self.guiMsgs = [] # pylint: disable=attribute-defined-outside-init
self.tempObjectNames = [] # pylint: disable=attribute-defined-outside-init
self.stockBB = PathUtils.findParentJob(obj).Stock.Shape.BoundBox # pylint: disable=attribute-defined-outside-init
self.useTempJobClones('Delete') # Clear temporary group and recreate for temp job clones
self.rotStartDepth = None # pylint: disable=attribute-defined-outside-init
if obj.EnableRotation != 'Off':
# Calculate operation heights based upon rotation radii
opHeights = self.opDetermineRotationRadii(obj)
(self.xRotRad, self.yRotRad, self.zRotRad) = opHeights[0] # pylint: disable=attribute-defined-outside-init
(self.clrOfset, self.safOfst) = opHeights[1] # pylint: disable=attribute-defined-outside-init
# Set clearance and safe heights based upon rotation radii
if obj.EnableRotation == 'A(x)':
strDep = self.xRotRad
elif obj.EnableRotation == 'B(y)':
strDep = self.yRotRad
else:
strDep = max(self.xRotRad, self.yRotRad)
finDep = -1 * strDep
self.rotStartDepth = strDep
obj.ClearanceHeight.Value = strDep + self.clrOfset
obj.SafeHeight.Value = strDep + self.safOfst
# Create visual axes when debugging.
if PathLog.getLevel(PathLog.thisModule()) == 4:
self.visualAxis()
else:
strDep = obj.StartDepth.Value
finDep = obj.FinalDepth.Value
# Set axial feed rates based upon horizontal feed rates
safeCircum = 2 * math.pi * obj.SafeHeight.Value
self.axialFeed = 360 / safeCircum * self.horizFeed # pylint: disable=attribute-defined-outside-init
self.axialRapid = 360 / safeCircum * self.horizRapid # pylint: disable=attribute-defined-outside-init
# Initiate depthparams and calculate operation heights for rotational 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
aOS = self.areaOpShapes(obj) # pylint: disable=assignment-from-no-return
# Adjust tuples length received from other PathWB tools/operations beside PathPocketShape
shapes = []
for shp in aOS:
if len(shp) == 2:
(fc, iH) = shp
# fc, iH, sub, angle, axis, strtDep, finDep
tup = fc, iH, 'otherOp', 0.0, 'S', obj.StartDepth.Value, obj.FinalDepth.Value
shapes.append(tup)
else:
shapes.append(shp)
if len(shapes) > 1:
jobs = list()
for s in shapes:
if s[2] == 'OpenEdge':
shp = Part.makeCompound(s[0])
else:
shp = s[0]
jobs.append({
'x': shp.BoundBox.XMax,
'y': shp.BoundBox.YMax,
'shape': s
})
jobs = PathUtils.sort_jobs(jobs, ['x', 'y'])
shapes = [j['shape'] for j in jobs]
sims = []
numShapes = len(shapes)
for ns in range(0, numShapes):
profileEdgesIsOpen = False
(shape, isHole, sub, angle, axis, strDep, finDep) = shapes[ns] # pylint: disable=unused-variable
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}))
if ns < numShapes - 1:
nextAxis = shapes[ns + 1][4]
else:
nextAxis = 'L'
self.depthparams = self._customDepthParams(obj, strDep, finDep)
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: # pylint: disable=broad-except
FreeCAD.Console.PrintError(e)
FreeCAD.Console.PrintError("Something unexpected happened. Check project and tool config.")
else:
if profileEdgesIsOpen:
ppCmds = pp
else:
ppCmds = pp.Commands
if obj.EnableRotation != 'Off' and self.rotateFlag is True:
# Rotate model to index for cut
if axis == 'X':
axisOfRot = 'A'
elif axis == 'Y':
axisOfRot = 'B'
elif axis == 'Z':
axisOfRot = 'C'
else:
axisOfRot = 'A'
# Rotate Model to correct angle
ppCmds.insert(0, Path.Command('G0', {axisOfRot: angle, 'F': self.axialRapid}))
# Raise cutter to safe height
ppCmds.insert(0, Path.Command('G0', {'Z': obj.SafeHeight.Value, 'F': self.vertRapid}))
# Return index to starting position if axis of rotation changes.
if numShapes > 1:
if ns != numShapes - 1:
if axis != nextAxis:
ppCmds.append(Path.Command('G0', {axisOfRot: 0.0, 'F': self.axialRapid}))
# Eif
# Save gcode commands to object command list
self.commandlist.extend(ppCmds)
sims.append(sim)
# Eif
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}))
# Raise cutter to safe height and rotate back to original orientation
# based on next rotational operation in job
if self.rotateFlag is True:
resetAxis = False
lastJobOp = None
nextJobOp = None
opIdx = 0
JOB = PathUtils.findParentJob(obj)
jobOps = JOB.Operations.Group
numJobOps = len(jobOps)
for joi in range(0, numJobOps):
jo = jobOps[joi]
if jo.Name == obj.Name:
opIdx = joi
lastOpIdx = opIdx - 1
nextOpIdx = opIdx + 1
if lastOpIdx > -1:
lastJobOp = jobOps[lastOpIdx]
if nextOpIdx < numJobOps:
nextJobOp = jobOps[nextOpIdx]
if lastJobOp is not None:
if hasattr(lastJobOp, 'EnableRotation'):
PathLog.debug('Last Op, {}, has `EnableRotation` set to {}'.format(lastJobOp.Label, lastJobOp.EnableRotation))
if lastJobOp.EnableRotation != obj.EnableRotation:
resetAxis = True
# if ns == numShapes - 1: # If last shape, check next op EnableRotation setting
if nextJobOp is not None:
if hasattr(nextJobOp, 'EnableRotation'):
PathLog.debug('Next Op, {}, has `EnableRotation` set to {}'.format(nextJobOp.Label, nextJobOp.EnableRotation))
if nextJobOp.EnableRotation != obj.EnableRotation:
resetAxis = True
# Raise to safe height if rotation activated
self.commandlist.append(Path.Command('G0', {'Z': obj.SafeHeight.Value, 'F': self.vertRapid}))
# reset rotational axes if necessary
if resetAxis is True:
self.commandlist.append(Path.Command('G0', {'A': 0.0, 'F': self.axialRapid}))
self.commandlist.append(Path.Command('G0', {'B': 0.0, 'F': self.axialRapid}))
self.useTempJobClones('Delete') # Delete temp job clone group and contents
self.guiMessage('title', None, show=True) # Process GUI messages to user
for ton in self.tempObjectNames: # remove temporary objects by name
FreeCAD.ActiveDocument.removeObject(ton)
PathLog.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.'''
# pylint: disable=unused-argument
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.'''
# pylint: disable=unused-argument
pass # pylint: disable=unnecessary-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.'''
# pylint: disable=unused-argument
pass # pylint: disable=unnecessary-pass
def areaOpShapes(self, obj):
'''areaOpShapes(obj) ... return all shapes to be processed by Path.Area for this op.
Must be overwritten by subclasses.'''
# pylint: disable=unused-argument
pass # pylint: disable=unnecessary-pass
def areaOpUseProjection(self, obj):
'''areaOpUseProcjection(obj) ... return True if the operation can use procjection, defaults to False.
Can safely be overwritten by subclasses.'''
# pylint: disable=unused-argument
return False
# Rotation-related methods
def opDetermineRotationRadii(self, obj):
'''opDetermineRotationRadii(obj)
Determine rotational radii for 4th-axis rotations, for clearance/safe heights '''
parentJob = PathUtils.findParentJob(obj)
xlim = 0.0
ylim = 0.0
# Determine boundbox radius based upon xzy limits data
if math.fabs(self.stockBB.ZMin) > math.fabs(self.stockBB.ZMax):
zlim = self.stockBB.ZMin
else:
zlim = self.stockBB.ZMax
if obj.EnableRotation != 'B(y)':
# Rotation is around X-axis, cutter moves along same axis
if math.fabs(self.stockBB.YMin) > math.fabs(self.stockBB.YMax):
ylim = self.stockBB.YMin
else:
ylim = self.stockBB.YMax
if obj.EnableRotation != 'A(x)':
# Rotation is around Y-axis, cutter moves along same axis
if math.fabs(self.stockBB.XMin) > math.fabs(self.stockBB.XMax):
xlim = self.stockBB.XMin
else:
xlim = self.stockBB.XMax
xRotRad = math.sqrt(ylim**2 + zlim**2)
yRotRad = math.sqrt(xlim**2 + zlim**2)
zRotRad = math.sqrt(xlim**2 + ylim**2)
clrOfst = parentJob.SetupSheet.ClearanceHeightOffset.Value
safOfst = parentJob.SetupSheet.SafeHeightOffset.Value
return [(xRotRad, yRotRad, zRotRad), (clrOfst, safOfst)]
def faceRotationAnalysis(self, obj, norm, surf):
'''faceRotationAnalysis(obj, norm, surf)
Determine X and Y independent rotation necessary to make normalAt = Z=1 (0,0,1) '''
PathLog.track()
praInfo = "faceRotationAnalysis()"
rtn = True
orientation = 'X'
angle = 500.0
precision = 6
for i in range(0, 13):
if PathGeom.Tolerance * (i * 10) == 1.0:
precision = i
break
def roundRoughValues(precision, val):
# Convert VALxe-15 numbers to zero
if PathGeom.isRoughly(0.0, val) is True:
return 0.0
# Convert VAL.99999999 to next integer
elif math.fabs(val % 1) > 1.0 - PathGeom.Tolerance:
return round(val)
else:
return round(val, precision)
nX = roundRoughValues(precision, norm.x)
nY = roundRoughValues(precision, norm.y)
nZ = roundRoughValues(precision, norm.z)
praInfo += "\n -normalAt(0,0): " + str(nX) + ", " + str(nY) + ", " + str(nZ)
saX = roundRoughValues(precision, surf.x)
saY = roundRoughValues(precision, surf.y)
saZ = roundRoughValues(precision, surf.z)
praInfo += "\n -Surface.Axis: " + str(saX) + ", " + str(saY) + ", " + str(saZ)
# Determine rotation needed and current orientation
if saX == 0.0:
if saY == 0.0:
orientation = "Z"
if saZ == 1.0:
angle = 0.0
elif saZ == -1.0:
angle = -180.0
else:
praInfo += "_else_X" + str(saZ)
elif saY == 1.0:
orientation = "Y"
angle = 90.0
elif saY == -1.0:
orientation = "Y"
angle = -90.0
else:
if saZ != 0.0:
angle = math.degrees(math.atan(saY / saZ))
orientation = "Y"
elif saY == 0.0:
if saZ == 0.0:
orientation = "X"
if saX == 1.0:
angle = -90.0
elif saX == -1.0:
angle = 90.0
else:
praInfo += "_else_X" + str(saX)
else:
orientation = "X"
ratio = saX / saZ
angle = math.degrees(math.atan(ratio))
if ratio < 0.0:
praInfo += " NEG-ratio"
# angle -= 90
else:
praInfo += " POS-ratio"
angle = -1 * angle
if saX < 0.0:
angle = angle + 180.0
elif saZ == 0.0:
# if saY != 0.0:
angle = math.degrees(math.atan(saX / saY))
orientation = "Y"
if saX + nX == 0.0:
angle = -1 * angle
if saY + nY == 0.0:
angle = -1 * angle
if saZ + nZ == 0.0:
angle = -1 * angle
if saY == -1.0 or saY == 1.0:
if nX != 0.0:
angle = -1 * angle
# Enforce enabled rotation in settings
praInfo += "\n -Initial orientation: {}".format(orientation)
if orientation == 'Y':
axis = 'X'
if obj.EnableRotation == 'B(y)': # Required axis disabled
if angle == 180.0 or angle == -180.0:
axis = 'Y'
else:
rtn = False
elif orientation == 'X':
axis = 'Y'
if obj.EnableRotation == 'A(x)': # Required axis disabled
if angle == 180.0 or angle == -180.0:
axis = 'X'
else:
rtn = False
elif orientation == 'Z':
axis = 'X'
if math.fabs(angle) == 0.0:
angle = 0.0
rtn = False
if angle == 500.0:
angle = 0.0
rtn = False
if rtn is False:
if orientation == 'Z' and angle == 0.0 and obj.ReverseDirection is True:
if obj.EnableRotation == 'B(y)':
axis = 'Y'
rtn = True
if rtn is True:
self.rotateFlag = True # pylint: disable=attribute-defined-outside-init
if obj.ReverseDirection is True:
if angle < 180.0:
angle = angle + 180.0
else:
angle = angle - 180.0
angle = round(angle, precision)
praInfo += "\n -Rotation analysis: angle: " + str(angle) + ", axis: " + str(axis)
if rtn is True:
praInfo += "\n - ... rotation triggered"
else:
praInfo += "\n - ... NO rotation triggered"
return (rtn, angle, axis, praInfo)
def guiMessage(self, title, msg, show=False):
'''guiMessage(title, msg, show=False)
Handle op related GUI messages to user'''
if msg is not None:
self.guiMsgs.append((title, msg))
if show is True:
if len(self.guiMsgs) > 0:
if FreeCAD.GuiUp:
from PySide.QtGui import QMessageBox
for entry in self.guiMsgs:
(title, msg) = entry
QMessageBox.warning(None, title, msg)
self.guiMsgs = [] # pylint: disable=attribute-defined-outside-init
return True
else:
for entry in self.guiMsgs:
(title, msg) = entry
PathLog.warning("{}:: {}".format(title, msg))
self.guiMsgs = [] # pylint: disable=attribute-defined-outside-init
return True
return False
def visualAxis(self):
'''visualAxis()
Create visual X & Y axis for use in orientation of rotational operations
Triggered only for PathLog.debug'''
if not FreeCAD.ActiveDocument.getObject('xAxCyl'):
xAx = 'xAxCyl'
yAx = 'yAxCyl'
# zAx = 'zAxCyl'
VA = FreeCAD.ActiveDocument.addObject("App::DocumentObjectGroup", "visualAxis")
if FreeCAD.GuiUp:
FreeCADGui.ActiveDocument.getObject('visualAxis').Visibility = False
vaGrp = FreeCAD.ActiveDocument.getObject("visualAxis")
FreeCAD.ActiveDocument.addObject("Part::Cylinder", xAx)
cyl = FreeCAD.ActiveDocument.getObject(xAx)
cyl.Label = xAx
cyl.Radius = self.xRotRad
cyl.Height = 0.01
cyl.Placement = FreeCAD.Placement(FreeCAD.Vector(0, 0, 0), FreeCAD.Rotation(FreeCAD.Vector(0, 1, 0), 90))
cyl.purgeTouched()
if FreeCAD.GuiUp:
cylGui = FreeCADGui.ActiveDocument.getObject(xAx)
cylGui.ShapeColor = (0.667, 0.000, 0.000)
cylGui.Transparency = 85
cylGui.Visibility = False
vaGrp.addObject(cyl)
FreeCAD.ActiveDocument.addObject("Part::Cylinder", yAx)
cyl = FreeCAD.ActiveDocument.getObject(yAx)
cyl.Label = yAx
cyl.Radius = self.yRotRad
cyl.Height = 0.01
cyl.Placement = FreeCAD.Placement(FreeCAD.Vector(0, 0, 0), FreeCAD.Rotation(FreeCAD.Vector(1, 0, 0), 90))
cyl.purgeTouched()
if FreeCAD.GuiUp:
cylGui = FreeCADGui.ActiveDocument.getObject(yAx)
cylGui.ShapeColor = (0.000, 0.667, 0.000)
cylGui.Transparency = 85
cylGui.Visibility = False
vaGrp.addObject(cyl)
VA.purgeTouched()
def useTempJobClones(self, cloneName):
'''useTempJobClones(cloneName)
Manage use of temporary model clones for rotational operation calculations.
Clones are stored in 'rotJobClones' group.'''
if FreeCAD.ActiveDocument.getObject('rotJobClones'):
if cloneName == 'Start':
if PathLog.getLevel(PathLog.thisModule()) < 4:
for cln in FreeCAD.ActiveDocument.getObject('rotJobClones').Group:
FreeCAD.ActiveDocument.removeObject(cln.Name)
elif cloneName == 'Delete':
if PathLog.getLevel(PathLog.thisModule()) < 4:
for cln in FreeCAD.ActiveDocument.getObject('rotJobClones').Group:
FreeCAD.ActiveDocument.removeObject(cln.Name)
FreeCAD.ActiveDocument.removeObject('rotJobClones')
else:
FreeCAD.ActiveDocument.getObject('rotJobClones').purgeTouched()
else:
FreeCAD.ActiveDocument.addObject("App::DocumentObjectGroup", "rotJobClones")
if FreeCAD.GuiUp:
FreeCADGui.ActiveDocument.getObject('rotJobClones').Visibility = False
if cloneName != 'Start' and cloneName != 'Delete':
FreeCAD.ActiveDocument.getObject('rotJobClones').addObject(FreeCAD.ActiveDocument.getObject(cloneName))
if FreeCAD.GuiUp:
FreeCADGui.ActiveDocument.getObject(cloneName).Visibility = False
def cloneBaseAndStock(self, obj, base, angle, axis, subCount):
'''cloneBaseAndStock(obj, base, angle, axis, subCount)
Method called to create a temporary clone of the base and parent Job stock.
Clones are destroyed after usage for calculations related to rotational operations.'''
# Create a temporary clone and stock of model for rotational use.
rndAng = round(angle, 8)
if rndAng < 0.0: # neg sign is converted to underscore in clone name creation.
tag = axis + '_' + axis + '_' + str(math.fabs(rndAng)).replace('.', '_')
else:
tag = axis + str(rndAng).replace('.', '_')
clnNm = obj.Name + '_base_' + '_' + str(subCount) + '_' + tag
stckClnNm = obj.Name + '_stock_' + '_' + str(subCount) + '_' + tag
if clnNm not in self.cloneNames:
self.cloneNames.append(clnNm)
self.cloneNames.append(stckClnNm)
if FreeCAD.ActiveDocument.getObject(clnNm):
FreeCAD.ActiveDocument.getObject(clnNm).Shape = base.Shape
else:
FreeCAD.ActiveDocument.addObject('Part::Feature', clnNm).Shape = base.Shape
self.useTempJobClones(clnNm)
if FreeCAD.ActiveDocument.getObject(stckClnNm):
FreeCAD.ActiveDocument.getObject(stckClnNm).Shape = PathUtils.findParentJob(obj).Stock.Shape
else:
FreeCAD.ActiveDocument.addObject('Part::Feature', stckClnNm).Shape = PathUtils.findParentJob(obj).Stock.Shape
self.useTempJobClones(stckClnNm)
if FreeCAD.GuiUp:
FreeCADGui.ActiveDocument.getObject(stckClnNm).Transparency = 90
FreeCADGui.ActiveDocument.getObject(clnNm).ShapeColor = (1.000, 0.667, 0.000)
clnBase = FreeCAD.ActiveDocument.getObject(clnNm)
clnStock = FreeCAD.ActiveDocument.getObject(stckClnNm)
tag = base.Name + '_' + tag
return (clnBase, clnStock, tag)
def getFaceNormAndSurf(self, face):
'''getFaceNormAndSurf(face)
Return face.normalAt(0,0) or face.normal(0,0) and face.Surface.Axis vectors
'''
norm = FreeCAD.Vector(0.0, 0.0, 0.0)
surf = FreeCAD.Vector(0.0, 0.0, 0.0)
if hasattr(face, 'normalAt'):
n = face.normalAt(0, 0)
elif hasattr(face, 'normal'):
n = face.normal(0, 0)
if hasattr(face.Surface, 'Axis'):
s = face.Surface.Axis
else:
s = n
norm.x = n.x
norm.y = n.y
norm.z = n.z
surf.x = s.x
surf.y = s.y
surf.z = s.z
return (norm, surf)
def applyRotationalAnalysis(self, obj, base, angle, axis, subCount):
'''applyRotationalAnalysis(obj, base, angle, axis, subCount)
Create temp clone and stock and apply rotation to both.
Return new rotated clones
'''
if axis == 'X':
vect = FreeCAD.Vector(1, 0, 0)
elif axis == 'Y':
vect = FreeCAD.Vector(0, 1, 0)
# Commented out to fix PocketShape InverseAngle rotation problem
# if obj.InverseAngle is True:
# angle = -1 * angle
# if math.fabs(angle) == 0.0:
# angle = 0.0
# Create a temporary clone of model for rotational use.
(clnBase, clnStock, tag) = self.cloneBaseAndStock(obj, base, angle, axis, subCount)
# Rotate base to such that Surface.Axis of pocket bottom is Z=1
clnBase = Draft.rotate(clnBase, angle, center=FreeCAD.Vector(0.0, 0.0, 0.0), axis=vect, copy=False)
clnStock = Draft.rotate(clnStock, angle, center=FreeCAD.Vector(0.0, 0.0, 0.0), axis=vect, copy=False)
clnBase.purgeTouched()
clnStock.purgeTouched()
return (clnBase, angle, clnStock, tag)
def applyInverseAngle(self, obj, clnBase, clnStock, axis, angle):
'''applyInverseAngle(obj, clnBase, clnStock, axis, angle)
Apply rotations to incoming base and stock objects.'''
if axis == 'X':
vect = FreeCAD.Vector(1, 0, 0)
elif axis == 'Y':
vect = FreeCAD.Vector(0, 1, 0)
# Rotate base to inverse of original angle
clnBase = Draft.rotate(clnBase, (-2 * angle), center=FreeCAD.Vector(0.0, 0.0, 0.0), axis=vect, copy=False)
clnStock = Draft.rotate(clnStock, (-2 * angle), center=FreeCAD.Vector(0.0, 0.0, 0.0), axis=vect, copy=False)
clnBase.purgeTouched()
clnStock.purgeTouched()
# Update property and angle values
obj.InverseAngle = True
# obj.AttemptInverseAngle = False
angle = -1 * angle
PathLog.debug(translate("Path", "Rotated to inverse angle."))
return (clnBase, clnStock, angle)
def sortTuplesByIndex(self, TupleList, tagIdx):
'''sortTuplesByIndex(TupleList, tagIdx)
sort list of tuples based on tag index provided
return (TagList, GroupList)
'''
# Separate elements, regroup by orientation (axis_angle combination)
TagList = ['X34.2']
GroupList = [[(2.3, 3.4, 'X')]]
for tup in TupleList:
if tup[tagIdx] in TagList:
# Determine index of found string
i = 0
for orn in TagList:
if orn == tup[4]:
break
i += 1
GroupList[i].append(tup)
else:
TagList.append(tup[4]) # add orientation entry
GroupList.append([tup]) # add orientation entry
# Remove temp elements
TagList.pop(0)
GroupList.pop(0)
return (TagList, GroupList)
def warnDisabledAxis(self, obj, axis, sub=''):
'''warnDisabledAxis(self, obj, axis)
Provide user feedback if required axis is disabled'''
if axis == 'X' and obj.EnableRotation == 'B(y)':
msg = translate('Path', "{}:: {} is inaccessible.".format(obj.Name, sub)) + " "
msg += translate('Path', "Selected feature(s) require 'Enable Rotation: A(x)' for access.")
PathLog.warning(msg)
return True
elif axis == 'Y' and obj.EnableRotation == 'A(x)':
msg = translate('Path', "{}:: {} is inaccessible.".format(obj.Name, sub)) + " "
msg += translate('Path', "Selected feature(s) require 'Enable Rotation: B(y)' for access.")
PathLog.warning(msg)
return True
else:
return False
def isFaceUp(self, base, face):
up = face.extrude(FreeCAD.Vector(0.0, 0.0, 5.0))
dwn = face.extrude(FreeCAD.Vector(0.0, 0.0, -5.0))
upCmn = base.Shape.common(up)
dwnCmn = base.Shape.common(dwn)
# Identify orientation based on volumes of common() results
if len(upCmn.Edges) > 0 and round(upCmn.Volume, 6) == 0.0:
return True
elif len(dwnCmn.Edges) > 0 and round(dwnCmn.Volume, 6) == 0.0:
return False
if (len(upCmn.Edges) > 0 and len(dwnCmn.Edges) > 0 and
round(dwnCmn.Volume, 6) > round(upCmn.Volume, 6)):
return True
return False
def _customDepthParams(self, obj, strDep, finDep):
finish_step = obj.FinishDepth.Value if hasattr(obj, "FinishDepth") else 0.0
cdp = 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)
return cdp
# Eclass
def SetupProperties():
setup = ['EnableRotation']
return setup
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