mirror of https://github.com/Desuuuu/klipper.git
homing: Pass list of endstops (not steppers) to the homing code
The homing code wants the list of endstops to enable during a homing operation - it's confusing to pass the steppers. Signed-off-by: Kevin O'Connor <kevin@koconnor.net>
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31db4cc772
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7785d3a87d
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@ -51,14 +51,14 @@ class CartKinematics:
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homepos[axis] = s.position_endstop
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homepos[axis] = s.position_endstop
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coord = [None, None, None, None]
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coord = [None, None, None, None]
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coord[axis] = pos
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coord[axis] = pos
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homing_state.home(list(coord), homepos, [s], homing_speed)
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homing_state.home(coord, homepos, s.get_endstops(), homing_speed)
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# Retract
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# Retract
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coord[axis] = rpos
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coord[axis] = rpos
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homing_state.retract(list(coord), homing_speed)
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homing_state.retract(coord, homing_speed)
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# Home again
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# Home again
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coord[axis] = r2pos
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coord[axis] = r2pos
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homing_state.home(
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homing_state.home(coord, homepos, s.get_endstops(),
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list(coord), homepos, [s], homing_speed/2.0, second_home=True)
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homing_speed/2.0, second_home=True)
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# Set final homed position
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# Set final homed position
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coord[axis] = s.position_endstop + s.get_homed_offset()
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coord[axis] = s.position_endstop + s.get_homed_offset()
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homing_state.set_homed_position(coord)
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homing_state.set_homed_position(coord)
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@ -59,14 +59,14 @@ class CoreXYKinematics:
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homepos[axis] = s.position_endstop
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homepos[axis] = s.position_endstop
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coord = [None, None, None, None]
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coord = [None, None, None, None]
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coord[axis] = pos
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coord[axis] = pos
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homing_state.home(list(coord), homepos, [s], homing_speed)
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homing_state.home(coord, homepos, s.get_endstops(), homing_speed)
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# Retract
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# Retract
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coord[axis] = rpos
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coord[axis] = rpos
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homing_state.retract(list(coord), homing_speed)
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homing_state.retract(coord, homing_speed)
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# Home again
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# Home again
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coord[axis] = r2pos
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coord[axis] = r2pos
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homing_state.home(
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homing_state.home(coord, homepos, s.get_endstops(),
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list(coord), homepos, [s], homing_speed/2.0, second_home=True)
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homing_speed/2.0, second_home=True)
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if axis == 2:
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if axis == 2:
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# Support endstop phase detection on Z axis
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# Support endstop phase detection on Z axis
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coord[axis] = s.position_endstop + s.get_homed_offset()
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coord[axis] = s.position_endstop + s.get_homed_offset()
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@ -102,6 +102,7 @@ class DeltaKinematics:
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def home(self, homing_state):
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def home(self, homing_state):
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# All axes are homed simultaneously
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# All axes are homed simultaneously
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homing_state.set_axes([0, 1, 2])
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homing_state.set_axes([0, 1, 2])
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endstops = [es for s in self.steppers for es in s.get_endstops()]
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s = self.steppers[0] # Assume homing speed same for all steppers
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s = self.steppers[0] # Assume homing speed same for all steppers
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self.need_home = False
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self.need_home = False
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# Initial homing
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# Initial homing
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@ -109,14 +110,14 @@ class DeltaKinematics:
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homepos = [0., 0., self.max_z, None]
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homepos = [0., 0., self.max_z, None]
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coord = list(homepos)
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coord = list(homepos)
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coord[2] = -1.5 * math.sqrt(self.arm_length2-self.max_xy2)
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coord[2] = -1.5 * math.sqrt(self.arm_length2-self.max_xy2)
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homing_state.home(list(coord), homepos, self.steppers, homing_speed)
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homing_state.home(coord, homepos, endstops, homing_speed)
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# Retract
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# Retract
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coord[2] = homepos[2] - s.homing_retract_dist
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coord[2] = homepos[2] - s.homing_retract_dist
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homing_state.retract(list(coord), homing_speed)
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homing_state.retract(coord, homing_speed)
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# Home again
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# Home again
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coord[2] -= s.homing_retract_dist
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coord[2] -= s.homing_retract_dist
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homing_state.home(list(coord), homepos, self.steppers
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homing_state.home(coord, homepos, endstops,
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, homing_speed/2.0, second_home=True)
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homing_speed/2.0, second_home=True)
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# Set final homed position
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# Set final homed position
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spos = self._cartesian_to_actuator(homepos)
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spos = self._cartesian_to_actuator(homepos)
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spos = [spos[i] + self.steppers[i].position_endstop - self.max_z
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spos = [spos[i] + self.steppers[i].position_endstop - self.max_z
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@ -29,58 +29,57 @@ class Homing:
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return thcoord
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return thcoord
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def retract(self, newpos, speed):
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def retract(self, newpos, speed):
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self.toolhead.move(self._fill_coord(newpos), speed)
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self.toolhead.move(self._fill_coord(newpos), speed)
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def home(self, forcepos, movepos, steppers, speed, second_home=False):
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def home(self, forcepos, movepos, endstops, speed, second_home=False):
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# Alter kinematics class to think printer is at forcepos
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# Alter kinematics class to think printer is at forcepos
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self.toolhead.set_position(self._fill_coord(forcepos))
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self.toolhead.set_position(self._fill_coord(forcepos))
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# Start homing and issue move
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# Start homing and issue move
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if not second_home:
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if not second_home:
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est_move_d = sum([abs(forcepos[i]-movepos[i])
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est_move_d = sum([abs(forcepos[i]-movepos[i])
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for i in range(3) if movepos[i] is not None])
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for i in range(3) if movepos[i] is not None])
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est_steps = sum(
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est_steps = sum([est_move_d / s.get_step_dist()
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[est_move_d / mcu_stepper.get_step_dist()
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for es, n in endstops for s in es.get_steppers()])
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for s in steppers
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for mcu_endstop, mcu_stepper, name in s.get_endstops()])
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self.toolhead.dwell(est_steps * HOMING_STEP_DELAY, check_stall=False)
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self.toolhead.dwell(est_steps * HOMING_STEP_DELAY, check_stall=False)
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print_time = self.toolhead.get_last_move_time()
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print_time = self.toolhead.get_last_move_time()
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endstops = []
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start_mcu_pos = [(s, name, s.get_mcu_position())
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for s in steppers:
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for es, name in endstops for s in es.get_steppers()]
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for mcu_endstop, mcu_stepper, name in s.get_endstops():
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for mcu_endstop, name in endstops:
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mcu_endstop.home_start(
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min_step_dist = min([s.get_step_dist()
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print_time, ENDSTOP_SAMPLE_TIME, ENDSTOP_SAMPLE_COUNT,
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for s in mcu_endstop.get_steppers()])
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mcu_stepper.get_step_dist() / speed)
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mcu_endstop.home_start(
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endstops.append((mcu_endstop, mcu_stepper, name,
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print_time, ENDSTOP_SAMPLE_TIME, ENDSTOP_SAMPLE_COUNT,
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mcu_stepper.get_mcu_position()))
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min_step_dist / speed)
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self.toolhead.move(self._fill_coord(movepos), speed)
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self.toolhead.move(self._fill_coord(movepos), speed)
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move_end_print_time = self.toolhead.get_last_move_time()
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move_end_print_time = self.toolhead.get_last_move_time()
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self.toolhead.reset_print_time(print_time)
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self.toolhead.reset_print_time(print_time)
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for mcu_endstop, mcu_stepper, name, last_pos in endstops:
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for mcu_endstop, name in endstops:
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mcu_endstop.home_finalize(move_end_print_time)
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mcu_endstop.home_finalize(move_end_print_time)
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# Wait for endstops to trigger
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# Wait for endstops to trigger
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for mcu_endstop, mcu_stepper, name, last_pos in endstops:
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for mcu_endstop, name in endstops:
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try:
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try:
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mcu_endstop.home_wait()
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mcu_endstop.home_wait()
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except mcu_endstop.error as e:
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except mcu_endstop.error as e:
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raise EndstopError("Failed to home stepper %s: %s" % (
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raise EndstopError("Failed to home stepper %s: %s" % (
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name, str(e)))
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name, str(e)))
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post_home_pos = mcu_stepper.get_mcu_position()
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# Verify retract led to some movement on second home
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if second_home and self.verify_retract and last_pos == post_home_pos:
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if second_home and self.verify_retract:
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raise EndstopError("Endstop %s still triggered after retract" % (
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for s, name, pos in start_mcu_pos:
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name,))
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if s.get_mcu_position() == pos:
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raise EndstopError(
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"Endstop %s still triggered after retract" % (name,))
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def set_homed_position(self, pos):
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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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self.toolhead.set_position(self._fill_coord(pos))
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def query_endstops(print_time, query_flags, steppers):
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def query_endstops(print_time, query_flags, steppers):
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if query_flags == "get_mcu_position":
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if query_flags == "get_mcu_position":
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# Only the commanded position is requested
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# Only the commanded position is requested
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return [(name.upper(), mcu_stepper.get_mcu_position())
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return [(s.name.upper(), s.mcu_stepper.get_mcu_position())
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for s in steppers
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for s in steppers]
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for mcu_endstop, mcu_stepper, name in s.get_endstops()]
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for s in steppers:
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for s in steppers:
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for mcu_endstop, mcu_stepper, name in s.get_endstops():
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for mcu_endstop, name in s.get_endstops():
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mcu_endstop.query_endstop(print_time)
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mcu_endstop.query_endstop(print_time)
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out = []
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out = []
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for s in steppers:
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for s in steppers:
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for mcu_endstop, mcu_stepper, name in s.get_endstops():
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for mcu_endstop, name in s.get_endstops():
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try:
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try:
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out.append((name, mcu_endstop.query_endstop_wait()))
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out.append((name, mcu_endstop.query_endstop_wait()))
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except mcu_endstop.error as e:
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except mcu_endstop.error as e:
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@ -150,6 +150,8 @@ class MCU_endstop:
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if stepper.get_mcu() is not self._mcu:
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if stepper.get_mcu() is not self._mcu:
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raise pins.error("Endstop and stepper must be on the same mcu")
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raise pins.error("Endstop and stepper must be on the same mcu")
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self._steppers.append(stepper)
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self._steppers.append(stepper)
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def get_steppers(self):
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return list(self._steppers)
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def build_config(self):
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def build_config(self):
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self._oid = self._mcu.create_oid()
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self._oid = self._mcu.create_oid()
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self._mcu.add_config_cmd(
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self._mcu.add_config_cmd(
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@ -118,7 +118,7 @@ class PrinterHomingStepper(PrinterStepper):
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if self.mcu_endstop.get_mcu().is_fileoutput():
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if self.mcu_endstop.get_mcu().is_fileoutput():
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self.homing_endstop_accuracy = self.homing_stepper_phases
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self.homing_endstop_accuracy = self.homing_stepper_phases
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def get_endstops(self):
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def get_endstops(self):
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return [(self.mcu_endstop, self.mcu_stepper, self.name)]
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return [(self.mcu_endstop, self.name)]
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def get_homing_speed(self):
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def get_homing_speed(self):
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# Round the configured homing speed so that it is an even
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# Round the configured homing speed so that it is an even
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# number of ticks per step.
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# number of ticks per step.
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@ -162,8 +162,7 @@ class PrinterMultiStepper(PrinterHomingStepper):
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if extraendstop is not None:
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if extraendstop is not None:
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mcu_endstop = pins.setup_pin(printer, 'endstop', extraendstop)
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mcu_endstop = pins.setup_pin(printer, 'endstop', extraendstop)
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mcu_endstop.add_stepper(extra.mcu_stepper)
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mcu_endstop.add_stepper(extra.mcu_stepper)
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self.endstops.append(
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self.endstops.append((mcu_endstop, extra.name))
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(mcu_endstop, extra.mcu_stepper, extra.name))
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else:
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else:
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self.mcu_endstop.add_stepper(extra.mcu_stepper)
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self.mcu_endstop.add_stepper(extra.mcu_stepper)
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self.step_const = self.step_multi_const
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self.step_const = self.step_multi_const
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