mirror of https://github.com/Desuuuu/klipper.git
184 lines
7.9 KiB
Python
184 lines
7.9 KiB
Python
# Helper code for implementing homing operations
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#
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# Copyright (C) 2016-2021 Kevin O'Connor <kevin@koconnor.net>
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#
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# This file may be distributed under the terms of the GNU GPLv3 license.
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import logging, math, collections
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HOMING_START_DELAY = 0.001
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ENDSTOP_SAMPLE_TIME = .000015
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ENDSTOP_SAMPLE_COUNT = 4
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# State tracking during toolhead homing/probing operations
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class Homing:
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def __init__(self, printer):
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self.printer = printer
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self.toolhead = printer.lookup_object('toolhead')
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self.changed_axes = []
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self.verify_retract = True
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if self.printer.get_start_args().get("debuginput"):
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self.verify_retract = False
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def set_axes(self, axes):
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self.changed_axes = axes
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def get_axes(self):
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return self.changed_axes
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def _fill_coord(self, coord):
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# Fill in any None entries in 'coord' with current toolhead position
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thcoord = list(self.toolhead.get_position())
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for i in range(len(coord)):
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if coord[i] is not None:
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thcoord[i] = coord[i]
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return thcoord
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def set_homed_position(self, pos):
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self.toolhead.set_position(self._fill_coord(pos))
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def _calc_endstop_rate(self, mcu_endstop, movepos, speed):
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startpos = self.toolhead.get_position()
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axes_d = [mp - sp for mp, sp in zip(movepos, startpos)]
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move_d = math.sqrt(sum([d*d for d in axes_d[:3]]))
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move_t = move_d / speed
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max_steps = max([(abs(s.calc_position_from_coord(startpos)
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- s.calc_position_from_coord(movepos))
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/ s.get_step_dist())
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for s in mcu_endstop.get_steppers()])
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if max_steps <= 0.:
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return .001
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return move_t / max_steps
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def homing_move(self, movepos, endstops, speed,
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probe_pos=False, verify_movement=False):
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# Notify start of homing/probing move
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self.printer.send_event("homing:homing_move_begin",
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[es for es, name in endstops])
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# Note start location
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self.toolhead.flush_step_generation()
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kin = self.toolhead.get_kinematics()
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for s in kin.get_steppers():
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s.set_tag_position(s.get_commanded_position())
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start_mcu_pos = [(s, name, s.get_mcu_position())
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for es, name in endstops for s in es.get_steppers()]
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# Start endstop checking
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print_time = self.toolhead.get_last_move_time()
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endstop_triggers = []
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for mcu_endstop, name in endstops:
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rest_time = self._calc_endstop_rate(mcu_endstop, movepos, speed)
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wait = mcu_endstop.home_start(print_time, ENDSTOP_SAMPLE_TIME,
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ENDSTOP_SAMPLE_COUNT, rest_time)
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endstop_triggers.append(wait)
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all_endstop_trigger = multi_complete(self.printer, endstop_triggers)
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self.toolhead.dwell(HOMING_START_DELAY)
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# Issue move
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error = None
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try:
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self.toolhead.drip_move(movepos, speed, all_endstop_trigger)
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except self.printer.command_error as e:
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error = "Error during homing move: %s" % (str(e),)
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# Wait for endstops to trigger
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move_end_print_time = self.toolhead.get_last_move_time()
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for mcu_endstop, name in endstops:
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did_trigger = mcu_endstop.home_wait(move_end_print_time)
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if not did_trigger and error is None:
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error = "Failed to home %s: Timeout during homing" % (name,)
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# Determine stepper halt positions
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self.toolhead.flush_step_generation()
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end_mcu_pos = [(s, name, spos, s.get_mcu_position())
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for s, name, spos in start_mcu_pos]
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if probe_pos:
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for s, name, spos, epos in end_mcu_pos:
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md = (epos - spos) * s.get_step_dist()
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s.set_tag_position(s.get_tag_position() + md)
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self.set_homed_position(kin.calc_tag_position())
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else:
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self.toolhead.set_position(movepos)
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# Signal homing/probing move complete
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try:
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self.printer.send_event("homing:homing_move_end",
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[es for es, name in endstops])
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except self.printer.command_error as e:
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if error is None:
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error = str(e)
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if error is not None:
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raise self.printer.command_error(error)
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# Check if some movement occurred
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if verify_movement:
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for s, name, spos, epos in end_mcu_pos:
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if spos == epos:
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if probe_pos:
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raise self.printer.command_error(
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"Probe triggered prior to movement")
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raise self.printer.command_error(
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"Endstop %s still triggered after retract" % (name,))
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def home_rails(self, rails, forcepos, movepos):
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# Notify of upcoming homing operation
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self.printer.send_event("homing:home_rails_begin", self, rails)
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# Alter kinematics class to think printer is at forcepos
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homing_axes = [axis for axis in range(3) if forcepos[axis] is not None]
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forcepos = self._fill_coord(forcepos)
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movepos = self._fill_coord(movepos)
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self.toolhead.set_position(forcepos, homing_axes=homing_axes)
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# Perform first home
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endstops = [es for rail in rails for es in rail.get_endstops()]
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hi = rails[0].get_homing_info()
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self.homing_move(movepos, endstops, hi.speed)
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# Perform second home
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if hi.retract_dist:
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# Retract
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axes_d = [mp - fp for mp, fp in zip(movepos, forcepos)]
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move_d = math.sqrt(sum([d*d for d in axes_d[:3]]))
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retract_r = min(1., hi.retract_dist / move_d)
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retractpos = [mp - ad * retract_r
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for mp, ad in zip(movepos, axes_d)]
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self.toolhead.move(retractpos, hi.retract_speed)
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# Home again
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forcepos = [rp - ad * retract_r
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for rp, ad in zip(retractpos, axes_d)]
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self.toolhead.set_position(forcepos)
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self.homing_move(movepos, endstops, hi.second_homing_speed,
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verify_movement=self.verify_retract)
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# Signal home operation complete
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self.toolhead.flush_step_generation()
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kin = self.toolhead.get_kinematics()
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for s in kin.get_steppers():
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s.set_tag_position(s.get_commanded_position())
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ret = self.printer.send_event("homing:home_rails_end", self, rails)
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if any(ret):
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# Apply any homing offsets
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adjustpos = kin.calc_tag_position()
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for axis in homing_axes:
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movepos[axis] = adjustpos[axis]
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self.toolhead.set_position(movepos)
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def home_axes(self, axes):
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self.changed_axes = axes
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try:
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self.toolhead.get_kinematics().home(self)
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except self.printer.command_error:
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self.printer.lookup_object('stepper_enable').motor_off()
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raise
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# Return a completion that completes when all completions in a list complete
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def multi_complete(printer, completions):
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if len(completions) == 1:
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return completions[0]
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cb = (lambda e: all([c.wait() for c in completions]))
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return printer.get_reactor().register_callback(cb)
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class PrinterHoming:
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def __init__(self, config):
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self.printer = config.get_printer()
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# Register g-code commands
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gcode = self.printer.lookup_object('gcode')
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gcode.register_command('G28', self.cmd_G28)
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def new_homing_state(self):
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return Homing(self.printer)
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def cmd_G28(self, gcmd):
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# Move to origin
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axes = []
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for pos, axis in enumerate('XYZ'):
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if gcmd.get(axis, None) is not None:
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axes.append(pos)
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if not axes:
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axes = [0, 1, 2]
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homing_state = Homing(self.printer)
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homing_state.home_axes(axes)
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def load_config(config):
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return PrinterHoming(config)
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