cartesian: Convert cartesian kinematics to use the iterative solver
Signed-off-by: Kevin O'Connor <kevin@koconnor.net>
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@ -4,7 +4,7 @@
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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
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import stepper, homing
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import stepper, homing, chelper
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StepList = (0, 1, 2)
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@ -21,6 +21,12 @@ class CartKinematics:
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'max_z_accel', max_accel, above=0., maxval=max_accel)
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self.need_motor_enable = True
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self.limits = [(1.0, -1.0)] * 3
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# Setup iterative solver
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ffi_main, ffi_lib = chelper.get_ffi()
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self.cmove = ffi_main.gc(ffi_lib.move_alloc(), ffi_lib.free)
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self.move_fill = ffi_lib.move_fill
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for a, s in zip('xyz', self.steppers):
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s.setup_cartesian_itersolve(a)
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# Setup stepper max halt velocity
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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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@ -32,9 +38,10 @@ class CartKinematics:
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self.dual_carriage_steppers = []
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if config.has_section('dual_carriage'):
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dc_config = config.getsection('dual_carriage')
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self.dual_carriage_axis = dc_config.getchoice(
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'axis', {'x': 0, 'y': 1})
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dc_axis = dc_config.getchoice('axis', {'x': 'x', 'y': 'y'})
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self.dual_carriage_axis = {'x': 0, 'y': 1}[dc_axis]
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dc_stepper = stepper.LookupMultiHomingStepper(printer, dc_config)
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dc_stepper.setup_cartesian_itersolve(dc_axis)
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dc_stepper.set_max_jerk(max_halt_velocity, max_accel)
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self.dual_carriage_steppers = [
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self.steppers[self.dual_carriage_axis], dc_stepper]
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@ -139,34 +146,15 @@ class CartKinematics:
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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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self.move_fill(
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self.cmove, print_time,
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move.accel_t, move.cruise_t, move.decel_t,
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move.start_pos[0], move.start_pos[1], move.start_pos[2],
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move.axes_d[0], move.axes_d[1], move.axes_d[2],
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move.start_v, move.cruise_v, move.accel)
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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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step_const = self.steppers[i].step_const
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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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if move.accel_r:
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accel_d = move.accel_r * axis_d
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step_const(move_time, start_pos, accel_d,
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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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step_const(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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step_const(move_time, start_pos, decel_d, cruise_v, -accel)
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if move.axes_d[i]:
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self.steppers[i].step_itersolve(self.cmove)
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# Dual carriage support
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def _activate_carriage(self, carriage):
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toolhead = self.printer.lookup_object('toolhead')
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