328 lines
9.2 KiB
Python
328 lines
9.2 KiB
Python
from __future__ import absolute_import
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import sys
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import math
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import re
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import os
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import base64
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import zlib
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import logging
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from octoprint.util import util3d
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preferences = {
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"extruder_offset_x1": -22.0,
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"extruder_offset_y1": 0.0,
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"extruder_offset_x2": 0.0,
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"extruder_offset_y2": 0.0,
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"extruder_offset_x3": 0.0,
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"extruder_offset_y3": 0.0,
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}
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def getPreference(key, default=None):
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if preferences.has_key(key):
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return preferences[key]
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else:
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return default
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class AnalysisAborted(Exception):
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pass
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class gcodePath(object):
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def __init__(self, newType, pathType, layerThickness, startPoint):
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self.type = newType
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self.pathType = pathType
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self.layerThickness = layerThickness
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self.list = [startPoint]
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class gcode(object):
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def __init__(self):
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self._logger = logging.getLogger(__name__)
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self.regMatch = {}
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self.layerList = []
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self.extrusionAmount = 0
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self.extrusionVolume = None
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self.totalMoveTimeMinute = 0
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self.progressCallback = None
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self._abort = False
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def load(self, filename):
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if os.path.isfile(filename):
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self._fileSize = os.stat(filename).st_size
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gcodeFile = open(filename, 'r')
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self._load(gcodeFile)
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gcodeFile.close()
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def loadList(self, l):
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self._load(l)
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def abort(self):
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self._abort = True
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def _load(self, gcodeFile):
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filePos = 0
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pos = util3d.Vector3()
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posOffset = util3d.Vector3()
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currentE = 0.0
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totalExtrusion = 0.0
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maxExtrusion = 0.0
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currentExtruder = 0
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extrudeAmountMultiply = 1.0
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totalMoveTimeMinute = 0.0
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filamentDiameter = 0.0
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scale = 1.0
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posAbs = True
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posAbsExtruder = True;
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feedRate = 3600
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layerThickness = 0.1
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pathType = 'CUSTOM';
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currentLayer = []
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unknownGcodes={}
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unknownMcodes={}
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currentPath = gcodePath('move', pathType, layerThickness, pos.copy())
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currentPath.list[0].e = totalExtrusion
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currentPath.list[0].extrudeAmountMultiply = extrudeAmountMultiply
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currentLayer.append(currentPath)
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for line in gcodeFile:
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if self._abort:
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raise AnalysisAborted()
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if type(line) is tuple:
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line = line[0]
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if self.progressCallback != None:
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if isinstance(gcodeFile, (file)):
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self.progressCallback(float(filePos) / float(self._fileSize))
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elif isinstance(gcodeFile, (list)):
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self.progressCallback(float(filePos) / float(len(gcodeFile)))
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filePos += 1
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#Parse Cura_SF comments
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if line.startswith(';TYPE:'):
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pathType = line[6:].strip()
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if pathType != "CUSTOM":
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startCodeDone = True
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if ';' in line:
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# Slic3r GCode comment parser
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comment = line[line.find(';')+1:].strip()
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if comment == 'fill':
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pathType = 'FILL'
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elif comment == 'perimeter':
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pathType = 'WALL-INNER'
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elif comment == 'skirt':
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pathType = 'SKIRT'
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elif comment.startswith("filament_diameter"):
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filamentDiameter = float(line.split("=", 1)[1].strip())
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# Cura Gcode comment parser
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if comment.startswith('LAYER:'):
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self.layerList.append(currentLayer)
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currentLayer = []
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elif comment.startswith("CURA_PROFILE_STRING"):
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curaOptions = self._parseCuraProfileString(comment)
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if "filament_diameter" in curaOptions.keys():
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try:
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filamentDiameter = float(curaOptions["filament_diameter"])
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except:
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filamentDiameter = 0.0
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line = line[0:line.find(';')]
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T = self.getCodeInt(line, 'T')
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if T is not None:
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if currentExtruder > 0:
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posOffset.x -= getPreference('extruder_offset_x%d' % (currentExtruder), 0.0)
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posOffset.y -= getPreference('extruder_offset_y%d' % (currentExtruder), 0.0)
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currentExtruder = T
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if currentExtruder > 0:
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posOffset.x += getPreference('extruder_offset_x%d' % (currentExtruder), 0.0)
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posOffset.y += getPreference('extruder_offset_y%d' % (currentExtruder), 0.0)
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G = self.getCodeInt(line, 'G')
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if G is not None:
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if G == 0 or G == 1: #Move
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x = self.getCodeFloat(line, 'X')
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y = self.getCodeFloat(line, 'Y')
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z = self.getCodeFloat(line, 'Z')
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e = self.getCodeFloat(line, 'E')
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f = self.getCodeFloat(line, 'F')
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oldPos = pos.copy()
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if x is not None:
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if posAbs:
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pos.x = x * scale + posOffset.x
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else:
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pos.x += x * scale
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if y is not None:
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if posAbs:
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pos.y = y * scale + posOffset.y
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else:
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pos.y += y * scale
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if z is not None:
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if posAbs:
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pos.z = z * scale + posOffset.z
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else:
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pos.z += z * scale
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if f is not None:
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feedRate = f
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if x is not None or y is not None or z is not None:
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totalMoveTimeMinute += (oldPos - pos).vsize() / feedRate
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moveType = 'move'
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if e is not None:
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if posAbsExtruder:
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if e > currentE:
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moveType = 'extrude'
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if e < currentE:
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moveType = 'retract'
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totalExtrusion += e - currentE
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currentE = e
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else:
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if e > 0:
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moveType = 'extrude'
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if e < 0:
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moveType = 'retract'
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totalExtrusion += e
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currentE += e
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if totalExtrusion > maxExtrusion:
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maxExtrusion = totalExtrusion
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if moveType == 'move' and oldPos.z != pos.z:
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if oldPos.z > pos.z and abs(oldPos.z - pos.z) > 5.0 and pos.z < 1.0:
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oldPos.z = 0.0
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layerThickness = abs(oldPos.z - pos.z)
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if currentPath.type != moveType or currentPath.pathType != pathType:
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currentPath = gcodePath(moveType, pathType, layerThickness, currentPath.list[-1])
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currentLayer.append(currentPath)
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newPos = pos.copy()
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newPos.e = totalExtrusion
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newPos.extrudeAmountMultiply = extrudeAmountMultiply
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currentPath.list.append(newPos)
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elif G == 4: #Delay
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S = self.getCodeFloat(line, 'S')
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if S is not None:
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totalMoveTimeMinute += S / 60
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P = self.getCodeFloat(line, 'P')
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if P is not None:
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totalMoveTimeMinute += P / 60 / 1000
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elif G == 20: #Units are inches
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scale = 25.4
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elif G == 21: #Units are mm
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scale = 1.0
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elif G == 28: #Home
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x = self.getCodeFloat(line, 'X')
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y = self.getCodeFloat(line, 'Y')
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z = self.getCodeFloat(line, 'Z')
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if x is None and y is None and z is None:
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pos = util3d.Vector3()
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else:
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if x is not None:
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pos.x = 0.0
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if y is not None:
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pos.y = 0.0
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if z is not None:
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pos.z = 0.0
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elif G == 90: #Absolute position
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posAbs = True
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posAbsExtruder = True
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elif G == 91: #Relative position
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posAbs = False
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posAbsExtruder = False
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elif G == 92:
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x = self.getCodeFloat(line, 'X')
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y = self.getCodeFloat(line, 'Y')
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z = self.getCodeFloat(line, 'Z')
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e = self.getCodeFloat(line, 'E')
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if e is not None:
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currentE = e
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if x is not None:
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posOffset.x = pos.x - x
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if y is not None:
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posOffset.y = pos.y - y
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if z is not None:
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posOffset.z = pos.z - z
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else:
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if G not in unknownGcodes:
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self._logger.info("Unknown G code: %r" % G)
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unknownGcodes[G] = True
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else:
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M = self.getCodeInt(line, 'M')
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if M is not None:
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if M == 1: #Message with possible wait (ignored)
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pass
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elif M == 80: #Enable power supply
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pass
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elif M == 81: #Suicide/disable power supply
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pass
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elif M == 82: # Use absolute extruder positions
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posAbsExtruder = True
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elif M == 83: # Use relative extruder positions
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posAbsExtruder = False
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elif M == 84: #Disable step drivers
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pass
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elif M == 92: #Set steps per unit
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pass
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elif M == 101: #Enable extruder
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pass
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elif M == 103: #Disable extruder
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pass
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elif M == 104: #Set temperature, no wait
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pass
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elif M == 105: #Get temperature
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pass
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elif M == 106: #Enable fan
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pass
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elif M == 107: #Disable fan
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pass
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elif M == 108: #Extruder RPM (these should not be in the final GCode, but they are)
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pass
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elif M == 109: #Set temperature, wait
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pass
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elif M == 110: #Reset N counter
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pass
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elif M == 113: #Extruder PWM (these should not be in the final GCode, but they are)
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pass
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elif M == 140: #Set bed temperature
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pass
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elif M == 190: #Set bed temperature & wait
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pass
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elif M == 221: #Extrude amount multiplier
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s = self.getCodeFloat(line, 'S')
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if s != None:
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extrudeAmountMultiply = s / 100.0
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else:
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if M not in unknownMcodes:
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self._logger.info("Unknown M code: %r" % M)
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unknownMcodes[M] = True
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self.layerList.append(currentLayer)
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self.extrusionAmount = maxExtrusion
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if filamentDiameter is not None and filamentDiameter > 0:
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self.extrusionVolume = math.pi * math.pow(filamentDiameter / 2.0, 2) * maxExtrusion / 1000.0
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self.totalMoveTimeMinute = totalMoveTimeMinute
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def getCodeInt(self, line, code):
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if code not in self.regMatch:
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self.regMatch[code] = re.compile(code + '([^\s]+)')
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m = self.regMatch[code].search(line)
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if m == None:
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return None
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try:
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return int(m.group(1))
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except:
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return None
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def getCodeFloat(self, line, code):
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if code not in self.regMatch:
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self.regMatch[code] = re.compile(code + '([^\s]+)')
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m = self.regMatch[code].search(line)
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if m == None:
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return None
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try:
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return float(m.group(1))
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except:
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return None
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def _parseCuraProfileString(self, comment):
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return {key: value for (key, value) in map(lambda x: x.split("=", 1), zlib.decompress(base64.b64decode(comment[len("CURA_PROFILE_STRING:"):])).split("\b"))}
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if __name__ == '__main__':
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for filename in sys.argv[1:]:
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gcode().load(filename)
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