2016-07-07 21:52:44 +02:00
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# Code for handling the kinematics of cartesian robots
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2016-05-25 17:37:40 +02:00
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#
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# Copyright (C) 2016 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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2016-07-07 21:52:44 +02:00
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import logging
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import stepper, homing
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2016-05-25 17:37:40 +02:00
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2016-07-10 18:23:35 +02:00
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StepList = (0, 1, 2)
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2016-05-25 17:37:40 +02:00
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2016-07-07 21:20:18 +02:00
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class CartKinematics:
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2017-09-03 21:17:02 +02:00
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def __init__(self, toolhead, printer, config):
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2017-07-24 19:54:46 +02:00
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self.steppers = [stepper.PrinterHomingStepper(
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2016-11-17 23:24:03 +01:00
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printer, config.getsection('stepper_' + n), n)
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for n in ['x', 'y', 'z']]
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2017-09-03 21:17:02 +02:00
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max_velocity, max_accel = toolhead.get_max_velocity()
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2017-04-11 17:37:09 +02:00
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self.max_z_velocity = config.getfloat(
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'max_z_velocity', max_velocity, above=0., maxval=max_velocity)
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2017-04-11 17:37:09 +02:00
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self.max_z_accel = config.getfloat(
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'max_z_accel', max_accel, above=0., maxval=max_accel)
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2016-11-14 19:40:35 +01:00
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self.need_motor_enable = True
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2016-09-30 22:00:32 +02:00
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self.limits = [(1.0, -1.0)] * 3
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2017-09-03 21:17:02 +02:00
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# Setup stepper max halt velocity
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2017-10-12 06:48:01 +02:00
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max_halt_velocity = toolhead.get_max_axis_halt()
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self.steppers[0].set_max_jerk(max_halt_velocity, max_accel)
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self.steppers[1].set_max_jerk(max_halt_velocity, max_accel)
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self.steppers[2].set_max_jerk(
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min(max_halt_velocity, self.max_z_velocity), max_accel)
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2016-07-07 21:20:18 +02:00
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def set_position(self, newpos):
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2016-11-19 17:34:42 +01:00
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for i in StepList:
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2017-04-05 01:20:54 +02:00
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self.steppers[i].mcu_stepper.set_position(newpos[i])
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2016-11-18 17:27:16 +01:00
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def home(self, homing_state):
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# Each axis is homed independently and in order
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2016-11-18 17:27:16 +01:00
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for axis in homing_state.get_axes():
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2016-07-26 05:47:30 +02:00
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s = self.steppers[axis]
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2016-09-30 22:00:32 +02:00
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self.limits[axis] = (s.position_min, s.position_max)
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# Determine moves
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if s.homing_positive_dir:
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2016-09-15 18:20:16 +02:00
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pos = s.position_endstop - 1.5*(
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s.position_endstop - s.position_min)
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2016-07-26 05:47:30 +02:00
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rpos = s.position_endstop - s.homing_retract_dist
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r2pos = rpos - s.homing_retract_dist
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else:
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pos = s.position_endstop + 1.5*(
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s.position_max - s.position_endstop)
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rpos = s.position_endstop + s.homing_retract_dist
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r2pos = rpos + s.homing_retract_dist
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# Initial homing
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homing_speed = s.get_homing_speed()
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2016-07-26 05:47:30 +02:00
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homepos = [None, None, None, None]
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homepos[axis] = s.position_endstop
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coord = [None, None, None, None]
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coord[axis] = pos
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homing_state.home(list(coord), homepos, [s], homing_speed)
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# Retract
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coord[axis] = rpos
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homing_state.retract(list(coord), homing_speed)
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# Home again
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coord[axis] = r2pos
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2016-12-09 00:12:20 +01:00
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homing_state.home(
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list(coord), homepos, [s], homing_speed/2.0, second_home=True)
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2016-12-09 00:12:20 +01:00
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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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2016-12-09 00:12:20 +01:00
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homing_state.set_homed_position(coord)
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2017-10-04 01:28:20 +02:00
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def query_endstops(self, print_time, query_flags):
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return homing.query_endstops(print_time, query_flags, self.steppers)
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def motor_off(self, print_time):
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2016-09-30 22:00:32 +02:00
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self.limits = [(1.0, -1.0)] * 3
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for stepper in self.steppers:
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stepper.motor_enable(print_time, 0)
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2016-11-14 19:40:35 +01:00
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self.need_motor_enable = True
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def _check_motor_enable(self, print_time, move):
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need_motor_enable = False
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for i in StepList:
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if move.axes_d[i]:
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self.steppers[i].motor_enable(print_time, 1)
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need_motor_enable |= self.steppers[i].need_motor_enable
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self.need_motor_enable = need_motor_enable
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2016-12-09 00:14:46 +01:00
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def _check_endstops(self, move):
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end_pos = move.end_pos
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for i in StepList:
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if (move.axes_d[i]
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and (end_pos[i] < self.limits[i][0]
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or end_pos[i] > self.limits[i][1])):
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2016-09-30 22:00:32 +02:00
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if self.limits[i][0] > self.limits[i][1]:
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2016-11-18 18:42:39 +01:00
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raise homing.EndstopMoveError(
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end_pos, "Must home axis first")
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raise homing.EndstopMoveError(end_pos)
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def check_move(self, move):
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limits = self.limits
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xpos, ypos = move.end_pos[:2]
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if (xpos < limits[0][0] or xpos > limits[0][1]
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or ypos < limits[1][0] or ypos > limits[1][1]):
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self._check_endstops(move)
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if not move.axes_d[2]:
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# Normal XY move - use defaults
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return
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# Move with Z - update velocity and accel for slower Z axis
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2016-12-09 00:14:46 +01:00
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self._check_endstops(move)
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2016-12-01 21:29:26 +01:00
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z_ratio = move.move_d / abs(move.axes_d[2])
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move.limit_speed(
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self.max_z_velocity * z_ratio, self.max_z_accel * z_ratio)
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def move(self, print_time, move):
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if self.need_motor_enable:
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self._check_motor_enable(print_time, move)
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2016-07-07 21:20:18 +02:00
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for i in StepList:
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axis_d = move.axes_d[i]
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if not axis_d:
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continue
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mcu_stepper = self.steppers[i].mcu_stepper
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move_time = print_time
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start_pos = move.start_pos[i]
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axis_r = abs(axis_d) / move.move_d
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accel = move.accel * axis_r
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cruise_v = move.cruise_v * axis_r
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# Acceleration steps
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2016-11-10 18:44:04 +01:00
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if move.accel_r:
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accel_d = move.accel_r * axis_d
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mcu_stepper.step_const(
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move_time, start_pos, accel_d, move.start_v * axis_r, accel)
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start_pos += accel_d
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move_time += move.accel_t
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# Cruising steps
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if move.cruise_r:
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cruise_d = move.cruise_r * axis_d
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mcu_stepper.step_const(
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move_time, start_pos, cruise_d, cruise_v, 0.)
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start_pos += cruise_d
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move_time += move.cruise_t
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# Deceleration steps
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if move.decel_r:
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decel_d = move.decel_r * axis_d
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mcu_stepper.step_const(
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move_time, start_pos, decel_d, cruise_v, -accel)
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