def _stitchMultiExtruder(self):
files = []
resultFile = open(sliceRun.getExportFilename(self.filelist[0]), "w")
resultFile.write(';TYPE:CUSTOM\n')
resultFile.write(profile.getAlterationFileContents('start.gcode'))
for filename in self.filelist:
if os.path.isfile(
sliceRun.getExportFilename(filename, 'multi_extrude_tmp')):
files.append(
open(
sliceRun.getExportFilename(filename,
'multi_extrude_tmp'), "r"))
else:
return
currentExtruder = 0
resultFile.write('T%d\n' % (currentExtruder))
layerNr = -1
hasLine = True
while hasLine:
hasLine = False
for f in files:
layerHasLine = False
for line in f:
hasLine = True
if line.startswith(';LAYER:'):
break
if 'Z' in line:
lastZ = float(re.search('Z([^\s]+)', line).group(1))
if not layerHasLine:
nextExtruder = files.index(f)
resultFile.write(';LAYER:%d\n' % (layerNr))
resultFile.write(';EXTRUDER:%d\n' % (nextExtruder))
if nextExtruder != currentExtruder:
resultFile.write(';TYPE:CUSTOM\n')
profile.setTempOverride('extruder', nextExtruder)
resultFile.write(
profile.getAlterationFileContents(
'switchExtruder.gcode'))
profile.resetTempOverride()
currentExtruder = nextExtruder
layerHasLine = True
resultFile.write(line)
layerNr += 1
for f in files:
f.close()
for filename in self.filelist:
os.remove(sliceRun.getExportFilename(filename,
'multi_extrude_tmp'))
resultFile.write(';TYPE:CUSTOM\n')
resultFile.write(profile.getAlterationFileContents('end.gcode'))
resultFile.close()
def _stitchMultiExtruder(self):
files = []
resultFile = open(sliceRun.getExportFilename(self.filelist[0]), "w")
resultFile.write(';TYPE:CUSTOM\n')
resultFile.write(profile.getAlterationFileContents('start.gcode'))
for filename in self.filelist:
if os.path.isfile(sliceRun.getExportFilename(filename, 'multi_extrude_tmp')):
files.append(open(sliceRun.getExportFilename(filename, 'multi_extrude_tmp'), "r"))
else:
return
currentExtruder = 0
resultFile.write('T%d\n' % (currentExtruder))
layerNr = -1
hasLine = True
while hasLine:
hasLine = False
for f in files:
layerHasLine = False
for line in f:
hasLine = True
if line.startswith(';LAYER:'):
break
if 'Z' in line:
lastZ = float(re.search('Z([^\s]+)', line).group(1))
if not layerHasLine:
nextExtruder = files.index(f)
resultFile.write(';LAYER:%d\n' % (layerNr))
resultFile.write(';EXTRUDER:%d\n' % (nextExtruder))
if nextExtruder != currentExtruder:
resultFile.write(';TYPE:CUSTOM\n')
profile.setTempOverride('extruder', nextExtruder)
resultFile.write(profile.getAlterationFileContents('switchExtruder.gcode'))
profile.resetTempOverride()
currentExtruder = nextExtruder
layerHasLine = True
resultFile.write(line)
layerNr += 1
for f in files:
f.close()
for filename in self.filelist:
os.remove(sliceRun.getExportFilename(filename, 'multi_extrude_tmp'))
resultFile.write(';TYPE:CUSTOM\n')
resultFile.write(profile.getAlterationFileContents('end.gcode'))
resultFile.close()
def OnRun(self):
resultFile = open(self.resultFilename, "w")
put = profile.setTempOverride
self.progressLog = []
for action in self.actionList:
wx.CallAfter(self.SetTitle, "Building: [%d/%d]" % (self.actionList.index(action) + 1, len(self.actionList)))
if not action.usePreviousSlice:
p = subprocess.Popen(action.sliceCmd, stdout=subprocess.PIPE, stderr=subprocess.STDOUT)
line = p.stdout.readline()
maxValue = 1
while(len(line) > 0):
line = line.rstrip()
if line[0:9] == "Progress[" and line[-1:] == "]":
progress = line[9:-1].split(":")
if len(progress) > 2:
maxValue = int(progress[2])
wx.CallAfter(self.SetProgress, progress[0], int(progress[1]), maxValue)
else:
print line
self.progressLog.append(line)
wx.CallAfter(self.statusText.SetLabel, line)
if self.abort:
p.terminate()
wx.CallAfter(self.statusText.SetLabel, "Aborted by user.")
resultFile.close()
return
line = p.stdout.readline()
self.returnCode = p.wait()
put('machine_center_x', action.centerX - self.extruderOffset[action.extruder][0])
put('machine_center_y', action.centerY - self.extruderOffset[action.extruder][1])
put('clear_z', action.clearZ)
put('extruder', action.extruder)
put('print_temperature', action.temperature)
if action == self.actionList[0]:
resultFile.write(';TYPE:CUSTOM\n')
resultFile.write('T%d\n' % (action.extruder))
currentExtruder = action.extruder
prevTemp = action.temperature
resultFile.write(profile.getAlterationFileContents('start.gcode'))
else:
#reset the extrusion length, and move to the next object center.
resultFile.write(';TYPE:CUSTOM\n')
if prevTemp != action.temperature:
resultFile.write('M104 S%d\n' % (int(action.temperature)))
prevTemp = action.temperature
resultFile.write(profile.getAlterationFileContents('nextobject.gcode'))
resultFile.write(';PRINTNR:%d\n' % self.actionList.index(action))
profile.resetTempOverride()
if not action.usePreviousSlice:
f = open(sliceRun.getExportFilename(action.filename, "project_tmp"), "r")
data = f.read(4096)
while data != '':
resultFile.write(data)
data = f.read(4096)
f.close()
savedCenterX = action.centerX
savedCenterY = action.centerY
else:
f = open(sliceRun.getExportFilename(action.filename, "project_tmp"), "r")
for line in f:
if line[0] != ';':
if 'X' in line:
line = self._adjustNumberInLine(line, 'X', action.centerX - savedCenterX)
if 'Y' in line:
line = self._adjustNumberInLine(line, 'Y', action.centerY - savedCenterY)
resultFile.write(line)
f.close()
if not action.leaveResultForNextSlice:
os.remove(sliceRun.getExportFilename(action.filename, "project_tmp"))
wx.CallAfter(self.progressGauge.SetValue, 10000)
self.totalDoneFactor = 0.0
wx.CallAfter(self.progressGauge2.SetValue, self.actionList.index(action) + 1)
resultFile.write(';TYPE:CUSTOM\n')
resultFile.write('G1 Z%f F%f\n' % (self.actionList[-1].clearZ, profile.getProfileSettingFloat('max_z_speed') * 60))
resultFile.write(profile.getAlterationFileContents('end.gcode'))
resultFile.close()
gcode = gcodeInterpreter.gcode()
gcode.load(self.resultFilename)
self.abort = True
sliceTime = time.time() - self.sliceStartTime
status = "Build: %s" % (self.resultFilename)
status += "\nSlicing took: %02d:%02d" % (sliceTime / 60, sliceTime % 60)
status += "\nFilament: %.2fm %.2fg" % (gcode.extrusionAmount / 1000, gcode.calculateWeight() * 1000)
status += "\nPrint time: %02d:%02d" % (int(gcode.totalMoveTimeMinute / 60), int(gcode.totalMoveTimeMinute % 60))
cost = gcode.calculateCost()
if cost != False:
status += "\nCost: %s" % (cost)
profile.replaceGCodeTags(self.resultFilename, gcode)
wx.CallAfter(self.statusText.SetLabel, status)
wx.CallAfter(self.OnSliceDone)
def getAlterationFile(fileName): return profile.getAlterationFileContents(fileName)
def _engineSettings(self, extruderCount):
settings = {
'layerThickness':
int(profile.getProfileSettingFloat('layer_height') * 1000),
'initialLayerThickness':
int(profile.getProfileSettingFloat('bottom_thickness') * 1000) if
profile.getProfileSettingFloat('bottom_thickness') > 0.0 else int(
profile.getProfileSettingFloat('layer_height') * 1000),
'filamentDiameter':
int(profile.getProfileSettingFloat('filament_diameter') * 1000),
'filamentFlow':
int(profile.getProfileSettingFloat('filament_flow')),
'extrusionWidth':
int(profile.calculateEdgeWidth() * 1000),
'insetCount':
int(profile.calculateLineCount()),
'downSkinCount':
int(profile.calculateSolidLayerCount())
if profile.getProfileSetting('solid_bottom') == 'True' else 0,
'upSkinCount':
int(profile.calculateSolidLayerCount())
if profile.getProfileSetting('solid_top') == 'True' else 0,
'infillOverlap':
int(profile.getProfileSettingFloat('fill_overlap')),
'initialSpeedupLayers':
int(4),
'initialLayerSpeed':
int(profile.getProfileSettingFloat('bottom_layer_speed')),
'printSpeed':
int(profile.getProfileSettingFloat('print_speed')),
'infillSpeed':
int(profile.getProfileSettingFloat('infill_speed')) if
int(profile.getProfileSettingFloat('infill_speed')) > 0 else int(
profile.getProfileSettingFloat('print_speed')),
'moveSpeed':
int(profile.getProfileSettingFloat('travel_speed')),
'fanSpeedMin':
int(profile.getProfileSettingFloat('fan_speed'))
if profile.getProfileSetting('fan_enabled') == 'True' else 0,
'fanSpeedMax':
int(profile.getProfileSettingFloat('fan_speed_max'))
if profile.getProfileSetting('fan_enabled') == 'True' else 0,
'supportAngle':
int(-1) if profile.getProfileSetting('support') == 'None' else int(
profile.getProfileSettingFloat('support_angle')),
'supportEverywhere':
int(1) if profile.getProfileSetting('support') == 'Everywhere' else
int(0),
'supportLineDistance':
int(100 * profile.calculateEdgeWidth() * 1000 /
profile.getProfileSettingFloat('support_fill_rate'))
if profile.getProfileSettingFloat('support_fill_rate') > 0 else -1,
'supportXYDistance':
int(1000 * profile.getProfileSettingFloat('support_xy_distance')),
'supportZDistance':
int(1000 * profile.getProfileSettingFloat('support_z_distance')),
'supportExtruder':
0 if profile.getProfileSetting('support_dual_extrusion')
== 'First extruder' else
(1 if profile.getProfileSetting('support_dual_extrusion') ==
'Second extruder' and profile.minimalExtruderCount() > 1 else -1),
'retractionAmount':
int(profile.getProfileSettingFloat('retraction_amount') * 1000)
if profile.getProfileSetting('retraction_enable') == 'True' else 0,
'retractionSpeed':
int(profile.getProfileSettingFloat('retraction_speed')),
'retractionMinimalDistance':
int(
profile.getProfileSettingFloat('retraction_min_travel') *
1000),
'retractionAmountExtruderSwitch':
int(
profile.getProfileSettingFloat('retraction_dual_amount') *
1000),
'minimalExtrusionBeforeRetraction':
int(
profile.getProfileSettingFloat('retraction_minimal_extrusion')
* 1000),
'enableCombing':
1 if profile.getProfileSetting('retraction_combing') == 'True' else
0,
'multiVolumeOverlap':
int(profile.getProfileSettingFloat('overlap_dual') * 1000),
'objectSink':
int(profile.getProfileSettingFloat('object_sink') * 1000),
'minimalLayerTime':
int(profile.getProfileSettingFloat('cool_min_layer_time')),
'minimalFeedrate':
int(profile.getProfileSettingFloat('cool_min_feedrate')),
'coolHeadLift':
1 if profile.getProfileSetting('cool_head_lift') == 'True' else 0,
'startCode':
profile.getAlterationFileContents('start.gcode', extruderCount),
'endCode':
profile.getAlterationFileContents('end.gcode', extruderCount),
'extruderOffset[1].X':
int(profile.getMachineSettingFloat('extruder_offset_x1') * 1000),
'extruderOffset[1].Y':
int(profile.getMachineSettingFloat('extruder_offset_y1') * 1000),
'extruderOffset[2].X':
int(profile.getMachineSettingFloat('extruder_offset_x2') * 1000),
'extruderOffset[2].Y':
int(profile.getMachineSettingFloat('extruder_offset_y2') * 1000),
'extruderOffset[3].X':
int(profile.getMachineSettingFloat('extruder_offset_x3') * 1000),
'extruderOffset[3].Y':
int(profile.getMachineSettingFloat('extruder_offset_y3') * 1000),
'fixHorrible':
0,
}
fanFullHeight = int(
profile.getProfileSettingFloat('fan_full_height') * 1000)
settings['fanFullOnLayerNr'] = (fanFullHeight -
settings['initialLayerThickness'] -
1) / settings['layerThickness'] + 1
if settings['fanFullOnLayerNr'] < 0:
settings['fanFullOnLayerNr'] = 0
if profile.getProfileSettingFloat('fill_density') == 0:
settings['sparseInfillLineDistance'] = -1
elif profile.getProfileSettingFloat('fill_density') == 100:
settings['sparseInfillLineDistance'] = settings['extrusionWidth']
#Set the up/down skins height to 10000 if we want a 100% filled object.
# This gives better results then normal 100% infill as the sparse and up/down skin have some overlap.
settings['downSkinCount'] = 10000
settings['upSkinCount'] = 10000
else:
settings['sparseInfillLineDistance'] = int(
100 * profile.calculateEdgeWidth() * 1000 /
profile.getProfileSettingFloat('fill_density'))
if profile.getProfileSetting('platform_adhesion') == 'Brim':
settings['skirtDistance'] = 0
settings['skirtLineCount'] = int(
profile.getProfileSettingFloat('brim_line_count'))
elif profile.getProfileSetting('platform_adhesion') == 'Raft':
settings['skirtDistance'] = 0
settings['skirtLineCount'] = 0
settings['raftMargin'] = int(
profile.getProfileSettingFloat('raft_margin') * 1000)
settings['raftLineSpacing'] = int(
profile.getProfileSettingFloat('raft_line_spacing') * 1000)
settings['raftBaseThickness'] = int(
profile.getProfileSettingFloat('raft_base_thickness') * 1000)
settings['raftBaseLinewidth'] = int(
profile.getProfileSettingFloat('raft_base_linewidth') * 1000)
settings['raftInterfaceThickness'] = int(
profile.getProfileSettingFloat('raft_interface_thickness') *
1000)
settings['raftInterfaceLinewidth'] = int(
profile.getProfileSettingFloat('raft_interface_linewidth') *
1000)
else:
settings['skirtDistance'] = int(
profile.getProfileSettingFloat('skirt_gap') * 1000)
settings['skirtLineCount'] = int(
profile.getProfileSettingFloat('skirt_line_count'))
settings['skirtMinLength'] = int(
profile.getProfileSettingFloat('skirt_minimal_length') * 1000)
if profile.getProfileSetting(
'fix_horrible_union_all_type_a') == 'True':
settings['fixHorrible'] |= 0x01
if profile.getProfileSetting(
'fix_horrible_union_all_type_b') == 'True':
settings['fixHorrible'] |= 0x02
if profile.getProfileSetting('fix_horrible_use_open_bits') == 'True':
settings['fixHorrible'] |= 0x10
if profile.getProfileSetting(
'fix_horrible_extensive_stitching') == 'True':
settings['fixHorrible'] |= 0x04
if settings['layerThickness'] <= 0:
settings['layerThickness'] = 1000
if profile.getMachineSetting('gcode_flavor') == 'UltiGCode':
settings['gcodeFlavor'] = 1
if profile.getProfileSetting('spiralize') == 'True':
settings['spiralizeMode'] = 1
if profile.getProfileSetting('wipe_tower') == 'True':
settings['wipeTowerSize'] = int(
math.sqrt(
profile.getProfileSettingFloat('wipe_tower_volume') *
1000 * 1000 * 1000 / settings['layerThickness']))
if profile.getProfileSetting('ooze_shield') == 'True':
settings['enableOozeShield'] = 1
return settings
def OnRun(self):
resultFile = open(self.resultFilename, "w")
put = profile.setTempOverride
self.progressLog = []
for action in self.actionList:
wx.CallAfter(self.SetTitle, "Building: [%d/%d]" % (self.actionList.index(action) + 1, len(self.actionList)))
if not action.usePreviousSlice:
p = sliceRun.startSliceCommandProcess(action.sliceCmd)
line = p.stdout.readline()
maxValue = 1
while(len(line) > 0):
line = line.rstrip()
if line[0:9] == "Progress[" and line[-1:] == "]":
progress = line[9:-1].split(":")
if len(progress) > 2:
maxValue = int(progress[2])
wx.CallAfter(self.SetProgress, progress[0], int(progress[1]), maxValue)
else:
self.progressLog.append(line)
wx.CallAfter(self.statusText.SetLabel, line)
if self.abort:
p.terminate()
wx.CallAfter(self.statusText.SetLabel, "Aborted by user.")
resultFile.close()
return
line = p.stdout.readline()
self.returnCode = p.wait()
put('machine_center_x', action.centerX - self.extruderOffset[action.extruder][0])
put('machine_center_y', action.centerY - self.extruderOffset[action.extruder][1])
put('clear_z', action.clearZ)
put('extruder', action.extruder)
put('print_temperature', action.temperature)
if action == self.actionList[0]:
resultFile.write(';TYPE:CUSTOM\n')
resultFile.write('T%d\n' % (action.extruder))
currentExtruder = action.extruder
prevTemp = action.temperature
startGCode = profile.getAlterationFileContents('start.gcode')
startGCode = startGCode.replace('?filename?', 'Multiple files')
resultFile.write(startGCode)
else:
#reset the extrusion length, and move to the next object center.
resultFile.write(';TYPE:CUSTOM\n')
if prevTemp != action.temperature and action.temperature > 0:
resultFile.write('M104 S%d\n' % (int(action.temperature)))
prevTemp = action.temperature
resultFile.write(profile.getAlterationFileContents('nextobject.gcode'))
resultFile.write(';PRINTNR:%d\n' % self.actionList.index(action))
profile.resetTempOverride()
if not action.usePreviousSlice:
f = open(sliceRun.getExportFilename(action.filename, "project_tmp"), "r")
data = f.read(4096)
while data != '':
resultFile.write(data)
data = f.read(4096)
f.close()
savedCenterX = action.centerX
savedCenterY = action.centerY
else:
f = open(sliceRun.getExportFilename(action.filename, "project_tmp"), "r")
for line in f:
if line[0] != ';':
if 'X' in line:
line = self._adjustNumberInLine(line, 'X', action.centerX - savedCenterX)
if 'Y' in line:
line = self._adjustNumberInLine(line, 'Y', action.centerY - savedCenterY)
resultFile.write(line)
f.close()
if not action.leaveResultForNextSlice:
os.remove(sliceRun.getExportFilename(action.filename, "project_tmp"))
wx.CallAfter(self.progressGauge.SetValue, 10000)
self.totalDoneFactor = 0.0
wx.CallAfter(self.progressGauge2.SetValue, self.actionList.index(action) + 1)
resultFile.write(';TYPE:CUSTOM\n')
if len(self.actionList) > 1 and self.actionList[-1].clearZ > 1:
#only move to higher Z if we have sliced more then 1 object. This solves the "move into print after printing" problem with the print-all-at-once option.
resultFile.write('G1 Z%f F%f\n' % (self.actionList[-1].clearZ, profile.getProfileSettingFloat('max_z_speed') * 60))
resultFile.write(profile.getAlterationFileContents('end.gcode'))
resultFile.close()
gcode = gcodeInterpreter.gcode()
gcode.load(self.resultFilename)
self.abort = True
sliceTime = time.time() - self.sliceStartTime
status = "Build: %s" % (self.resultFilename)
status += "\nSlicing took: %02d:%02d" % (sliceTime / 60, sliceTime % 60)
status += "\nFilament: %.2fm %.2fg" % (gcode.extrusionAmount / 1000, gcode.calculateWeight() * 1000)
status += "\nPrint time: %02d:%02d" % (int(gcode.totalMoveTimeMinute / 60), int(gcode.totalMoveTimeMinute % 60))
cost = gcode.calculateCost()
if cost != False:
status += "\nCost: %s" % (cost)
profile.replaceGCodeTags(self.resultFilename, gcode)
wx.CallAfter(self.statusText.SetLabel, status)
wx.CallAfter(self.OnSliceDone)
