174 lines
6.4 KiB
Python
174 lines
6.4 KiB
Python
from FlatCAMPostProc import *
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class line_xyz(FlatCAMPostProc):
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coordinate_format = "%.*f"
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feedrate_format = '%.*f'
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def start_code(self, p):
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units = ' ' + str(p['units']).lower()
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coords_xy = p['toolchange_xy']
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gcode = ''
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if str(p['options']['type']) == 'Geometry':
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gcode += '(TOOL DIAMETER: ' + str(p['options']['tool_dia']) + units + ')\n'
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gcode += '(Feedrate: ' + str(p['feedrate']) + units + '/min' + ')\n'
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if str(p['options']['type']) == 'Geometry':
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gcode += '(Feedrate_Z: ' + str(p['feedrate_z']) + units + '/min' + ')\n'
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gcode += '(Feedrate rapids ' + str(p['feedrate_rapid']) + units + '/min' + ')\n' + '\n'
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gcode += '(Z_Cut: ' + str(p['z_cut']) + units + ')\n'
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if str(p['options']['type']) == 'Geometry':
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if p['multidepth'] is True:
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gcode += '(DepthPerCut: ' + str(p['depthpercut']) + units + ' <=>' + \
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str(math.ceil(abs(p['z_cut']) / p['depthpercut'])) + ' passes' + ')\n'
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gcode += '(Z_Move: ' + str(p['z_move']) + units + ')\n'
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gcode += '(Z Toolchange: ' + str(p['toolchangez']) + units + ')\n'
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if coords_xy is not None:
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gcode += '(X,Y Toolchange: ' + "%.4f, %.4f" % (coords_xy[0], coords_xy[1]) + units + ')\n'
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else:
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gcode += '(X,Y Toolchange: ' + "None" + units + ')\n'
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gcode += '(Z Start: ' + str(p['startz']) + units + ')\n'
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gcode += '(Z End: ' + str(p['endz']) + units + ')\n'
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gcode += '(Steps per circle: ' + str(p['steps_per_circle']) + ')\n'
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if str(p['options']['type']) == 'Excellon' or str(p['options']['type']) == 'Excellon Geometry':
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gcode += '(Postprocessor Excellon: ' + str(p['pp_excellon_name']) + ')\n'
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else:
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gcode += '(Postprocessor Geometry: ' + str(p['pp_geometry_name']) + ')\n'
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gcode += '(Spindle Speed: %s RPM)\n' % str(p['spindlespeed'])
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gcode += ('G20\n' if p.units.upper() == 'IN' else 'G21\n')
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gcode += 'G90\n'
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gcode += 'G94\n'
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return gcode
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def startz_code(self, p):
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if p.startz is not None:
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g = 'G00 ' + 'X' + self.coordinate_format%(p.coords_decimals, p.x) + \
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' Y' + self.coordinate_format%(p.coords_decimals, p.y) + \
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' Z' + self.coordinate_format%(p.coords_decimals, p.startz)
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return g
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else:
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return ''
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def lift_code(self, p):
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g = 'G00 ' + 'X' + self.coordinate_format % (p.coords_decimals, p.x) + \
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' Y' + self.coordinate_format % (p.coords_decimals, p.y) + \
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' Z' + self.coordinate_format % (p.coords_decimals, p.z_move)
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return g
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def down_code(self, p):
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g = 'G01 ' + 'X' + self.coordinate_format % (p.coords_decimals, p.x) + \
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' Y' + self.coordinate_format % (p.coords_decimals, p.y) + \
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' Z' + self.coordinate_format % (p.coords_decimals, p.z_cut)
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return g
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def toolchange_code(self, p):
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toolchangez = p.toolchangez
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toolchangexy = p.toolchange_xy
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gcode = ''
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if toolchangexy is not None:
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toolchangex = toolchangexy[0]
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toolchangey = toolchangexy[1]
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else:
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if str(p['options']['type']) == 'Excellon':
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toolchangex = p.oldx
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toolchangey = p.oldy
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else:
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toolchangex = p.x
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toolchangey = p.y
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no_drills = 1
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if int(p.tool) == 1 and p.startz is not None:
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toolchangez = p.startz
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if p.units.upper() == 'MM':
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toolC_formatted = format(p.toolC, '.2f')
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else:
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toolC_formatted = format(p.toolC, '.4f')
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if str(p['options']['type']) == 'Excellon':
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for i in p['options']['Tools_in_use']:
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if i[0] == p.tool:
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no_drills = i[2]
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return """G00 X{toolchangex} Y{toolchangey} Z{toolchangez}
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T{tool}
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M5
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M6
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(MSG, Change to Tool Dia = {toolC}, Total drills for current tool = {t_drills})
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M0""".format(toolchangex=self.coordinate_format%(p.coords_decimals, toolchangex),
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toolchangey=self.coordinate_format % (p.coords_decimals, toolchangey),
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toolchangez=self.coordinate_format % (p.coords_decimals, toolchangez),
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tool=int(p.tool),
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t_drills=no_drills,
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toolC=toolC_formatted)
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else:
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return """G00 X{toolchangex} Y{toolchangey} Z{toolchangez}
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T{tool}
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M5
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M6
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(MSG, Change to Tool Dia = {toolC})
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M0""".format(toolchangex=self.coordinate_format%(p.coords_decimals, toolchangex),
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toolchangey=self.coordinate_format % (p.coords_decimals, toolchangey),
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toolchangez=self.coordinate_format % (p.coords_decimals, toolchangez),
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tool=int(p.tool),
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toolC=toolC_formatted)
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def up_to_zero_code(self, p):
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g = 'G01 ' + 'X' + self.coordinate_format % (p.coords_decimals, p.x) + \
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' Y' + self.coordinate_format % (p.coords_decimals, p.y) + \
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' Z0'
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return g
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def position_code(self, p):
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return ('X' + self.coordinate_format + ' Y' + self.coordinate_format) % \
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(p.coords_decimals, p.x, p.coords_decimals, p.y)
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def rapid_code(self, p):
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g = ('G00 ' + self.position_code(p)).format(**p)
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g += ' Z' + self.coordinate_format % (p.coords_decimals, p.z_move)
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return g
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def linear_code(self, p):
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g = ('G01 ' + self.position_code(p)).format(**p)
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g += ' Z' + self.coordinate_format % (p.coords_decimals, p.z_cut)
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return g
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def end_code(self, p):
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coords_xy = p['toolchange_xy']
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if coords_xy is not None:
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g = 'G00 X{x} Y{y}'.format(x=coords_xy[0], y=coords_xy[1]) + "\n"
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else:
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g = ('G00 ' + self.position_code(p)).format(**p)
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g += ' Z' + self.coordinate_format % (p.coords_decimals, p.endz)
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return g
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def feedrate_code(self, p):
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return 'G01 F' + str(self.feedrate_format %(p.fr_decimals, p.feedrate))
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def feedrate_z_code(self, p):
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return 'G01 F' + str(self.feedrate_format %(p.fr_decimals, p.feedrate_z))
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def spindle_code(self, p):
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if p.spindlespeed:
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return 'M03 S' + str(p.spindlespeed)
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else:
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return 'M03'
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def dwell_code(self, p):
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if p.dwelltime:
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return 'G4 P' + str(p.dwelltime)
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def spindle_stop_code(self,p):
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return 'M05'
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