# ########################################################## # FlatCAM: 2D Post-processing for Manufacturing # # http://flatcam.org # # File Author: Marius Adrian Stanciu (c) # # Date: 3/10/2019 # # MIT Licence # # ########################################################## from appPreProcessor import * # for Roland Preprocessors it is mandatory for the preprocessor name (python file and class name, both of them must be # the same) to contain the following keyword, case-sensitive: 'Roland' without the quotes. class Roland_MDX_20(PreProc): include_header = False coordinate_format = "%.1f" feedrate_format = '%.1f' feedrate_rapid_format = '%.1f' def start_code(self, p): gcode = ';;^IN;' + '\n' gcode += '^PA;' return gcode def startz_code(self, p): return '' def lift_code(self, p): if p.units.upper() == 'IN': z = p.z_move / 25.4 else: z = p.z_move gcode = self.feedrate_rapid_code(p) + '\n' gcode += self.position_code(p).format(**p) + ',' + str(float(z * 40.0)) + ';' return gcode def down_code(self, p): if p.units.upper() == 'IN': z = p.z_cut / 25.4 else: z = p.z_cut gcode = self.feedrate_code(p) + '\n' gcode += self.position_code(p).format(**p) + ',' + str(float(z * 40.0)) + ';' return gcode def toolchange_code(self, p): return '' def up_to_zero_code(self, p): gcode = self.feedrate_code(p) + '\n' gcode += self.position_code(p).format(**p) + ',' + '0' + ';' return gcode def position_code(self, p): if p.units.upper() == 'IN': x = p.x / 25.4 y = p.y / 25.4 else: x = p.x y = p.y return ('Z' + self.coordinate_format + ',' + self.coordinate_format) % (float(x * 40.0), float(y * 40.0)) def rapid_code(self, p): if p.units.upper() == 'IN': z = p.z_move / 25.4 else: z = p.z_move gcode = self.feedrate_rapid_code(p) + '\n' gcode += self.position_code(p).format(**p) + ',' + str(float(z * 40.0)) + ';' return gcode def linear_code(self, p): if p.units.upper() == 'IN': z = p.z / 25.4 else: z = p.z gcode = self.feedrate_code(p) + '\n' gcode += self.position_code(p).format(**p) + ',' + str(float(z * 40.0)) + ';' return gcode def end_code(self, p): if p.units.upper() == 'IN': z = p.z_end / 25.4 else: z = p.z_end gcode = self.feedrate_rapid_code(p) + '\n' gcode += self.position_code(p).format(**p) + ',' + str(float(z * 40.0)) + ';' return gcode def feedrate_code(self, p): fr_sec = p.feedrate / 60 # valid feedrate for MDX20 is between 0.1mm/sec and 15mm/sec (6mm/min to 900mm/min) if p.feedrate >= 900: fr_sec = 15 if p.feedrate < 6: fr_sec = 6 return 'V' + str(self.feedrate_format % fr_sec) + ';' def z_feedrate_code(self, p): fr_sec = p.z_feedrate / 60 # valid feedrate for MDX20 is between 0.1mm/sec and 15mm/sec (6mm/min to 900mm/min) if p.z_feedrate >= 900: fr_sec = 15 if p.z_feedrate < 6: fr_sec = 6 return 'V' + str(self.feedrate_format % fr_sec) + ';' def feedrate_rapid_code(self, p): fr_sec = p.feedrate_rapid / 60 # valid feedrate for MDX20 is between 0.1mm/sec and 15mm/sec (6mm/min to 900mm/min) if p.feedrate_rapid >= 900: fr_sec = 15 if p.feedrate_rapid < 6: fr_sec = 6 return 'V' + str(self.feedrate_format % fr_sec) + ';' def spindle_code(self, p): return '!MC1' def dwell_code(self, p): return'' def spindle_stop_code(self, p): return '!MC0'