def parseGcode(self, fileName, gcodeText, repository):
"Parse gcode text and store the vector output."
self.fileName = fileName
self.gcodeText = gcodeText
self.repository = repository
self.initializeActiveLocation()
self.cornerHigh = Vector3(-999999999.0, -999999999.0, -999999999.0)
self.cornerLow = Vector3(999999999.0, 999999999.0, 999999999.0)
self.lines = gcodec.getTextLines(gcodeText)
self.isThereALayerStartWord = gcodec.isThereAFirstWord(
'(<layer>', self.lines, 1)
self.parseInitialization()
for line in self.lines[self.lineIndex:]:
self.parseCorner(line)
self.cornerHighComplex = self.cornerHigh.dropAxis(2)
self.cornerLowComplex = self.cornerLow.dropAxis(2)
self.scale = repository.scale.value
self.scaleCornerHigh = self.scale * self.cornerHighComplex
self.scaleCornerLow = self.scale * self.cornerLowComplex
self.cornerImaginaryTotal = self.cornerHigh.y + self.cornerLow.y
self.margin = complex(10.0, 10.0)
self.marginCornerHigh = self.scaleCornerHigh + self.margin
self.marginCornerLow = self.scaleCornerLow - self.margin
self.screenSize = self.marginCornerHigh - self.marginCornerLow
self.initializeActiveLocation()
self.colorNames = [
'brown', 'red', 'orange', 'yellow', 'green', 'blue', 'purple'
]
for self.lineIndex in xrange(self.lineIndex, len(self.lines)):
line = self.lines[self.lineIndex]
self.parseLine(line)
def parseGcode( self, fileName, gcodeText, repository ):
"Parse gcode text and store the vector output."
self.fileName = fileName
self.gcodeText = gcodeText
self.repository = repository
self.initializeActiveLocation()
self.cornerHigh = Vector3(-999999999.0, -999999999.0, -999999999.0)
self.cornerLow = Vector3(999999999.0, 999999999.0, 999999999.0)
self.lines = gcodec.getTextLines(gcodeText)
self.isThereALayerStartWord = gcodec.isThereAFirstWord('(<layer>', self.lines, 1 )
self.parseInitialization()
for line in self.lines[self.lineIndex :]:
self.parseCorner(line)
self.cornerHighComplex = self.cornerHigh.dropAxis(2)
self.cornerLowComplex = self.cornerLow.dropAxis(2)
self.scale = repository.scale.value
self.scaleCornerHigh = self.scale * self.cornerHighComplex
self.scaleCornerLow = self.scale * self.cornerLowComplex
self.cornerImaginaryTotal = self.cornerHigh.y + self.cornerLow.y
self.margin = complex( 10.0, 10.0 )
self.marginCornerHigh = self.scaleCornerHigh + self.margin
self.marginCornerLow = self.scaleCornerLow - self.margin
self.screenSize = self.marginCornerHigh - self.marginCornerLow
self.initializeActiveLocation()
self.colorNames = ['brown', 'red', 'orange', 'yellow', 'green', 'blue', 'purple']
for self.lineIndex in xrange( self.lineIndex, len( self.lines ) ):
line = self.lines[ self.lineIndex ]
self.parseLine(line)
def parseGcode( self, fileName, gcodeText, repository ):
"Parse gcode text and store the vector output."
self.repository = repository
self.fileName = fileName
self.gcodeText = gcodeText
self.initializeActiveLocation()
self.cornerHigh = Vector3(-999999999.0, -999999999.0, -999999999.0)
self.cornerLow = Vector3(999999999.0, 999999999.0, 999999999.0)
self.goAroundExtruderOffTravel = repository.goAroundExtruderOffTravel.value
self.lines = gcodec.getTextLines(gcodeText)
self.isThereALayerStartWord = gcodec.isThereAFirstWord('(<layer>', self.lines, 1 )
self.parseInitialization()
for line in self.lines[self.lineIndex :]:
self.parseCorner(line)
if len( self.layerTops ) > 0:
self.layerTops[-1] += 912345678.9
if len( self.layerTops ) > 1:
self.oneMinusBrightnessOverTopLayerIndex = ( 1.0 - repository.bottomLayerBrightness.value ) / float( len( self.layerTops ) - 1 )
self.firstTopLayer = len( self.layerTops ) - self.repository.numberOfFillTopLayers.value
self.centerComplex = 0.5 * ( self.cornerHigh.dropAxis(2) + self.cornerLow.dropAxis(2) )
self.centerBottom = Vector3( self.centerComplex.real, self.centerComplex.imag, self.cornerLow.z )
self.scale = repository.scale.value
self.scaleCenterBottom = self.scale * self.centerBottom
self.scaleCornerHigh = self.scale * self.cornerHigh.dropAxis(2)
self.scaleCornerLow = self.scale * self.cornerLow.dropAxis(2)
print( "The lower left corner of the behold window is at %s, %s" % ( self.cornerLow.x, self.cornerLow.y ) )
print( "The upper right corner of the behold window is at %s, %s" % ( self.cornerHigh.x, self.cornerHigh.y ) )
self.cornerImaginaryTotal = self.cornerHigh.y + self.cornerLow.y
margin = complex( 5.0, 5.0 )
self.marginCornerLow = self.scaleCornerLow - margin
self.screenSize = margin + 2.0 * ( self.scaleCornerHigh - self.marginCornerLow )
self.initializeActiveLocation()
for self.lineIndex in xrange( self.lineIndex, len( self.lines ) ):
line = self.lines[ self.lineIndex ]
self.parseLine(line)
def parseGcode( self, fileName, gcodeText, repository ):
"Parse gcode text and store the vector output."
self.repository = repository
self.fileName = fileName
self.gcodeText = gcodeText
self.initializeActiveLocation()
self.cornerHigh = Vector3(-999999999.0, -999999999.0, -999999999.0)
self.cornerLow = Vector3(999999999.0, 999999999.0, 999999999.0)
self.goAroundExtruderOffTravel = repository.goAroundExtruderOffTravel.value
self.lines = gcodec.getTextLines(gcodeText)
self.isThereALayerStartWord = gcodec.isThereAFirstWord('(<layer>', self.lines, 1 )
self.parseInitialization()
for line in self.lines[self.lineIndex :]:
self.parseCorner(line)
if len( self.layerTops ) > 0:
self.layerTops[-1] += 912345678.9
if len( self.layerTops ) > 1:
self.oneMinusBrightnessOverTopLayerIndex = ( 1.0 - repository.bottomLayerBrightness.value ) / float( len( self.layerTops ) - 1 )
self.firstTopLayer = len( self.layerTops ) - self.repository.numberOfFillTopLayers.value
self.centerComplex = 0.5 * ( self.cornerHigh.dropAxis(2) + self.cornerLow.dropAxis(2) )
self.centerBottom = Vector3( self.centerComplex.real, self.centerComplex.imag, self.cornerLow.z )
self.scale = repository.scale.value
self.scaleCenterBottom = self.scale * self.centerBottom
self.scaleCornerHigh = self.scale * self.cornerHigh.dropAxis(2)
self.scaleCornerLow = self.scale * self.cornerLow.dropAxis(2)
print( "The lower left corner of the behold window is at %s, %s" % ( self.cornerLow.x, self.cornerLow.y ) )
print( "The upper right corner of the behold window is at %s, %s" % ( self.cornerHigh.x, self.cornerHigh.y ) )
self.cornerImaginaryTotal = self.cornerHigh.y + self.cornerLow.y
margin = complex( 5.0, 5.0 )
self.marginCornerLow = self.scaleCornerLow - margin
self.screenSize = margin + 2.0 * ( self.scaleCornerHigh - self.marginCornerLow )
self.initializeActiveLocation()
for self.lineIndex in xrange( self.lineIndex, len( self.lines ) ):
line = self.lines[ self.lineIndex ]
self.parseLine(line)
def parseGcode(self, fileName, gcodeText, repository):
"Parse gcode text and store the vector output."
self.fileName = fileName
self.gcodeText = gcodeText
self.repository = repository
self.initializeActiveLocation()
self.cornerMaximum = Vector3(-999999999.0, -999999999.0, -999999999.0)
self.cornerMinimum = Vector3(999999999.0, 999999999.0, 999999999.0)
self.lines = archive.getTextLines(gcodeText)
self.isThereALayerStartWord = gcodec.isThereAFirstWord("(<layer>", self.lines, 1)
self.parseInitialization()
for line in self.lines[self.lineIndex :]:
self.parseCorner(line)
self.cornerMaximumComplex = self.cornerMaximum.dropAxis()
self.cornerMinimumComplex = self.cornerMinimum.dropAxis()
self.scale = repository.scale.value
self.scaleCornerHigh = self.scale * self.cornerMaximumComplex
self.scaleCornerLow = self.scale * self.cornerMinimumComplex
self.cornerImaginaryTotal = self.cornerMaximum.y + self.cornerMinimum.y
self.margin = complex(10.0, 10.0)
self.marginCornerHigh = self.scaleCornerHigh + self.margin
self.marginCornerLow = self.scaleCornerLow - self.margin
self.screenSize = self.marginCornerHigh - self.marginCornerLow
self.initializeActiveLocation()
self.colorNames = ["brown", "red", "orange", "yellow", "green", "blue", "purple"]
for self.lineIndex in xrange(self.lineIndex, len(self.lines)):
line = self.lines[self.lineIndex]
self.parseLine(line)
def parseGcode( self, fileName, gcodeText, repository ):
"Parse gcode text and store the vector output."
self.repository = repository
self.fileName = fileName
self.gcodeText = gcodeText
self.initializeActiveLocation()
self.cornerMaximum = Vector3(-999999999.0, -999999999.0, -999999999.0)
self.cornerMinimum = Vector3(999999999.0, 999999999.0, 999999999.0)
self.goAroundExtruderOffTravel = repository.goAroundExtruderOffTravel.value
self.lines = archive.getTextLines(gcodeText)
self.isThereALayerStartWord = gcodec.isThereAFirstWord('(<layer>', self.lines, 1 )
if self.isThereALayerStartWord:
self.parseInitialization()
else:
print('')
print('')
print('')
print('Warning, there are no skeinforge comments in this text, probably because they have been removed by export.')
print('So there is no loop information, and therefore the lines will not be colored.')
print('')
print('To see the full information in an exported file, either deselect Delete Comments in export, or')
print('select Save Penultimate Gcode in export, and open the generated file with the suffix _penultimate.gcode.')
print('')
print('')
print('')
for line in self.lines[self.lineIndex :]:
self.parseCorner(line)
self.oldZ = - 999999999999.0
if len( self.layerTops ) > 0:
self.layerTops[-1] += 912345678.9
if len( self.layerTops ) > 1:
self.oneMinusBrightnessOverTopLayerIndex = ( 1.0 - repository.bottomLayerBrightness.value ) / float( len( self.layerTops ) - 1 )
self.firstTopLayer = len( self.layerTops ) - self.repository.numberOfFillTopLayers.value
self.centerComplex = 0.5 * ( self.cornerMaximum.dropAxis() + self.cornerMinimum.dropAxis() )
self.centerBottom = Vector3( self.centerComplex.real, self.centerComplex.imag, self.cornerMinimum.z )
self.scale = repository.scale.value
self.scaleCenterBottom = self.scale * self.centerBottom
self.scaleCornerHigh = self.scale * self.cornerMaximum.dropAxis()
self.scaleCornerLow = self.scale * self.cornerMinimum.dropAxis()
print("The lower left corner of the skeiniso window is at %s, %s" % (self.cornerMinimum.x, self.cornerMinimum.y))
print("The upper right corner of the skeiniso window is at %s, %s" % (self.cornerMaximum.x, self.cornerMaximum.y))
self.cornerImaginaryTotal = self.cornerMaximum.y + self.cornerMinimum.y
margin = complex( 5.0, 5.0 )
self.marginCornerLow = self.scaleCornerLow - margin
self.screenSize = margin + 2.0 * ( self.scaleCornerHigh - self.marginCornerLow )
self.initializeActiveLocation()
for self.lineIndex in xrange( self.lineIndex, len(self.lines) ):
line = self.lines[self.lineIndex]
self.parseLine(line)
def getCraftedGcode( self, gcodeText, towerRepository ):
"Parse gcode text and store the tower gcode."
self.lines = archive.getTextLines(gcodeText)
self.towerRepository = towerRepository
self.parseInitialization()
if gcodec.isThereAFirstWord('(<operatingLayerEnd>', self.lines, self.lineIndex ):
self.parseUntilOperatingLayer()
for lineIndex in xrange( self.lineIndex, len(self.lines) ):
self.parseLine( lineIndex )
concatenateEndIndex = min( len( self.threadLayers ), towerRepository.towerStartLayer.value )
for threadLayer in self.threadLayers[ : concatenateEndIndex ]:
self.addEntireLayer( threadLayer )
self.threadLayers = self.threadLayers[ concatenateEndIndex : ]
self.addTowers()
self.distanceFeedRate.addLines( self.lines[ self.shutdownLineIndex : ] )
return self.distanceFeedRate.output.getvalue()
def getCraftedGcode( self, gcodeText, towerRepository ):
"Parse gcode text and store the tower gcode."
self.lines = archive.getTextLines(gcodeText)
self.towerRepository = towerRepository
self.parseInitialization()
if gcodec.isThereAFirstWord('(<operatingLayerEnd>', self.lines, self.lineIndex ):
self.parseUntilOperatingLayer()
for lineIndex in xrange( self.lineIndex, len(self.lines) ):
self.parseLine( lineIndex )
concatenateEndIndex = min( len( self.threadLayers ), towerRepository.towerStartLayer.value )
for threadLayer in self.threadLayers[ : concatenateEndIndex ]:
self.addEntireLayer( threadLayer )
self.threadLayers = self.threadLayers[ concatenateEndIndex : ]
self.addTowers()
self.distanceFeedRate.addLines( self.lines[ self.shutdownLineIndex : ] )
return self.distanceFeedRate.output.getvalue()
