manual_probe: Add Z_OFFSET_APPLY_ENDSTOP for delta
Current Z_OFFSET_APPLY_ENDSTOP command only works for printers with cartesian architecture which have separate Z axis defined. But this functionality (persisting Z babystep value to endstops) is exactly as convinient for delta printers, therefore this PR implements it. Signed-off-by: Jan Herich <jan.herich@gmail.com>
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@ -13,9 +13,25 @@ class ManualProbe:
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self.gcode_move = self.printer.load_object(config, "gcode_move")
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self.gcode.register_command('MANUAL_PROBE', self.cmd_MANUAL_PROBE,
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desc=self.cmd_MANUAL_PROBE_help)
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# Endstop value for cartesian printers with separate Z axis
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zconfig = config.getsection('stepper_z')
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self.z_position_endstop = zconfig.getfloat('position_endstop', None,
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note_valid=False)
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# Endstop values for linear delta printers with vertical A,B,C towers
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a_tower_config = config.getsection('stepper_a')
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self.a_position_endstop = a_tower_config.getfloat('position_endstop',
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None,
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note_valid=False)
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b_tower_config = config.getsection('stepper_b')
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self.b_position_endstop = b_tower_config.getfloat('position_endstop',
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None,
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note_valid=False)
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c_tower_config = config.getsection('stepper_c')
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self.c_position_endstop = c_tower_config.getfloat('position_endstop',
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None,
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note_valid=False)
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# Conditionally register appropriate commands depending on printer
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# Cartestian printers with separate Z Axis
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if self.z_position_endstop is not None:
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self.gcode.register_command(
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'Z_ENDSTOP_CALIBRATE', self.cmd_Z_ENDSTOP_CALIBRATE,
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@ -24,6 +40,12 @@ class ManualProbe:
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'Z_OFFSET_APPLY_ENDSTOP',
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self.cmd_Z_OFFSET_APPLY_ENDSTOP,
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desc=self.cmd_Z_OFFSET_APPLY_ENDSTOP_help)
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# Linear delta printers with A,B,C towers
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if 'delta' == config.getsection('printer').get('kinematics'):
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self.gcode.register_command(
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'Z_OFFSET_APPLY_ENDSTOP',
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self.cmd_Z_OFFSET_APPLY_DELTA_ENDSTOPS,
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desc=self.cmd_Z_OFFSET_APPLY_ENDSTOP_help)
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self.reset_status()
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def manual_probe_finalize(self, kin_pos):
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if kin_pos is not None:
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@ -66,6 +88,29 @@ class ManualProbe:
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"with the above and restart the printer." % (new_calibrate))
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configfile.set('stepper_z', 'position_endstop',
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"%.3f" % (new_calibrate,))
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def cmd_Z_OFFSET_APPLY_DELTA_ENDSTOPS(self,gcmd):
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offset = self.gcode_move.get_status()['homing_origin'].z
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configfile = self.printer.lookup_object('configfile')
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if offset == 0:
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self.gcode.respond_info("Nothing to do: Z Offset is 0")
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else:
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new_a_calibrate = self.a_position_endstop - offset
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new_b_calibrate = self.b_position_endstop - offset
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new_c_calibrate = self.c_position_endstop - offset
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self.gcode.respond_info(
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"stepper_a: position_endstop: %.3f\n"
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"stepper_b: position_endstop: %.3f\n"
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"stepper_c: position_endstop: %.3f\n"
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"The SAVE_CONFIG command will update the printer config file\n"
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"with the above and restart the printer." % (new_a_calibrate,
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new_b_calibrate,
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new_c_calibrate))
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configfile.set('stepper_a', 'position_endstop',
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"%.3f" % (new_a_calibrate,))
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configfile.set('stepper_b', 'position_endstop',
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"%.3f" % (new_b_calibrate,))
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configfile.set('stepper_c', 'position_endstop',
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"%.3f" % (new_c_calibrate,))
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cmd_Z_OFFSET_APPLY_ENDSTOP_help = "Adjust the z endstop_position"
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# Verify that a manual probe isn't already in progress
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