kinematics: Add dual_carriage to hybrid-corexyz (#4296)
- Add dual_carriage abilities for hybrid-corexy and hybrid-corexz - Introduce the module idex_mode - Fix add_stepper to the correct rail in hybrid-corexy Signed-off-by: Fabrice GALLET <tircown@gmail.com>
This commit is contained in:
parent
274d52729a
commit
4d559633e3
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@ -322,6 +322,15 @@ The following information is available in the `toolhead` object
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the printer had to be paused because the toolhead moved faster than
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the printer had to be paused because the toolhead moved faster than
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moves could be read from the G-Code input.
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moves could be read from the G-Code input.
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# dual_carriage
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The following information is available in
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[dual_carriage](Config_Reference.md#dual_carriage)
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on a hybrid_corexy or hybrid_corexz robot
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- `mode`: The current mode. Possible values are: "FULL_CONTROL"
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- `active_carriage`: The current active carriage.
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Possible values are: "CARRIAGE_0", "CARRIAGE_1"
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# virtual_sdcard
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# virtual_sdcard
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The following information is available in the
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The following information is available in the
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@ -80,6 +80,7 @@ defs_trapq = """
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defs_kin_cartesian = """
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defs_kin_cartesian = """
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struct stepper_kinematics *cartesian_stepper_alloc(char axis);
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struct stepper_kinematics *cartesian_stepper_alloc(char axis);
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struct stepper_kinematics *cartesian_reverse_stepper_alloc(char axis);
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"""
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"""
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defs_kin_corexy = """
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defs_kin_corexy = """
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@ -49,3 +49,42 @@ cartesian_stepper_alloc(char axis)
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}
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}
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return sk;
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return sk;
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}
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}
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static double
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cart_reverse_stepper_x_calc_position(struct stepper_kinematics *sk
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, struct move *m, double move_time)
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{
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return -move_get_coord(m, move_time).x;
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}
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static double
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cart_reverse_stepper_y_calc_position(struct stepper_kinematics *sk
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, struct move *m, double move_time)
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{
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return -move_get_coord(m, move_time).y;
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}
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static double
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cart_reverse_stepper_z_calc_position(struct stepper_kinematics *sk
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, struct move *m, double move_time)
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{
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return -move_get_coord(m, move_time).z;
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}
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struct stepper_kinematics * __visible
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cartesian_reverse_stepper_alloc(char axis)
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{
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struct stepper_kinematics *sk = malloc(sizeof(*sk));
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memset(sk, 0, sizeof(*sk));
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if (axis == 'x') {
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sk->calc_position_cb = cart_reverse_stepper_x_calc_position;
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sk->active_flags = AF_X;
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} else if (axis == 'y') {
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sk->calc_position_cb = cart_reverse_stepper_y_calc_position;
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sk->active_flags = AF_Y;
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} else if (axis == 'z') {
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sk->calc_position_cb = cart_reverse_stepper_z_calc_position;
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sk->active_flags = AF_Z;
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}
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return sk;
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}
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@ -4,7 +4,7 @@
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#
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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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# This file may be distributed under the terms of the GNU GPLv3 license.
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import logging
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import logging
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import stepper
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import stepper, idex_modes
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# The hybrid-corexy kinematic is also known as Markforged kinematics
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# The hybrid-corexy kinematic is also known as Markforged kinematics
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class HybridCoreXYKinematics:
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class HybridCoreXYKinematics:
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@ -15,7 +15,7 @@ class HybridCoreXYKinematics:
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self.rails = [ stepper.PrinterRail(config.getsection('stepper_x')),
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self.rails = [ stepper.PrinterRail(config.getsection('stepper_x')),
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stepper.LookupMultiRail(config.getsection('stepper_y')),
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stepper.LookupMultiRail(config.getsection('stepper_y')),
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stepper.LookupMultiRail(config.getsection('stepper_z'))]
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stepper.LookupMultiRail(config.getsection('stepper_z'))]
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self.rails[2].get_endstops()[0][0].add_stepper(
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self.rails[1].get_endstops()[0][0].add_stepper(
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self.rails[0].get_steppers()[0])
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self.rails[0].get_steppers()[0])
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self.rails[0].setup_itersolve('corexy_stepper_alloc', '-')
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self.rails[0].setup_itersolve('corexy_stepper_alloc', '-')
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self.rails[1].setup_itersolve('cartesian_stepper_alloc', 'y')
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self.rails[1].setup_itersolve('cartesian_stepper_alloc', 'y')
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@ -23,6 +23,26 @@ class HybridCoreXYKinematics:
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ranges = [r.get_range() for r in self.rails]
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ranges = [r.get_range() for r in self.rails]
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self.axes_min = toolhead.Coord(*[r[0] for r in ranges], e=0.)
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self.axes_min = toolhead.Coord(*[r[0] for r in ranges], e=0.)
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self.axes_max = toolhead.Coord(*[r[1] for r in ranges], e=0.)
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self.axes_max = toolhead.Coord(*[r[1] for r in ranges], e=0.)
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self.dc_module = None
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if config.has_section('dual_carriage'):
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dc_config = config.getsection('dual_carriage')
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# dummy for cartesian config users
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dc_config.getchoice('axis', {'x': 'x'}, default='x')
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# setup second dual carriage rail
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self.rails.append(stepper.PrinterRail(dc_config))
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self.rails[1].get_endstops()[0][0].add_stepper(
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self.rails[3].get_steppers()[0])
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self.rails[3].setup_itersolve('cartesian_stepper_alloc', 'y')
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dc_rail_0 = idex_modes.DualCarriagesRail(
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self.printer, self.rails[0], axis=0, active=True,
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stepper_alloc_active=('corexy_stepper_alloc','-'),
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stepper_alloc_inactive=('cartesian_reverse_stepper_alloc','y'))
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dc_rail_1 = idex_modes.DualCarriagesRail(
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self.printer, self.rails[3], axis=0, active=False,
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stepper_alloc_active=('corexy_stepper_alloc','+'),
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stepper_alloc_inactive=('cartesian_stepper_alloc','y'))
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self.dc_module = idex_modes.DualCarriages(self.printer,
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dc_rail_0, dc_rail_1, axis=0)
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for s in self.get_steppers():
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for s in self.get_steppers():
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s.set_trapq(toolhead.get_trapq())
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s.set_trapq(toolhead.get_trapq())
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toolhead.register_step_generator(s.generate_steps)
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toolhead.register_step_generator(s.generate_steps)
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@ -39,7 +59,15 @@ class HybridCoreXYKinematics:
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return [s for rail in self.rails for s in rail.get_steppers()]
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return [s for rail in self.rails for s in rail.get_steppers()]
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def calc_position(self, stepper_positions):
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def calc_position(self, stepper_positions):
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pos = [stepper_positions[rail.get_name()] for rail in self.rails]
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pos = [stepper_positions[rail.get_name()] for rail in self.rails]
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return [pos[0] + pos[1], pos[1], pos[2]]
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if (self.dc_module is not None and 'CARRIAGE_1' == \
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self.dc_module.get_status()['active_carriage']):
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return [pos[0] - pos[1], pos[1], pos[2]]
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else:
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return [pos[0] + pos[1], pos[1], pos[2]]
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def update_limits(self, i, range):
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self.limits[i] = range
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def override_rail(self, i, rail):
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self.rails[i] = rail
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def set_position(self, newpos, homing_axes):
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def set_position(self, newpos, homing_axes):
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for i, rail in enumerate(self.rails):
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for i, rail in enumerate(self.rails):
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rail.set_position(newpos)
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rail.set_position(newpos)
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@ -62,7 +90,14 @@ class HybridCoreXYKinematics:
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homing_state.home_rails([rail], forcepos, homepos)
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homing_state.home_rails([rail], forcepos, homepos)
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def home(self, homing_state):
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def home(self, homing_state):
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for axis in homing_state.get_axes():
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for axis in homing_state.get_axes():
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self._home_axis(homing_state, axis, self.rails[axis])
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if (self.dc_module is not None and axis == 0):
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self.dc_module.save_idex_state()
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for i in [0,1]:
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self.dc_module.toggle_active_dc_rail(i)
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self._home_axis(homing_state, axis, self.rails[0])
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self.dc_module.restore_idex_state()
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else:
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self._home_axis(homing_state, axis, self.rails[axis])
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def _motor_off(self, print_time):
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def _motor_off(self, print_time):
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self.limits = [(1.0, -1.0)] * 3
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self.limits = [(1.0, -1.0)] * 3
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def _check_endstops(self, move):
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def _check_endstops(self, move):
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@ -93,7 +128,7 @@ class HybridCoreXYKinematics:
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return {
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return {
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'homed_axes': "".join(axes),
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'homed_axes': "".join(axes),
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'axis_minimum': self.axes_min,
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'axis_minimum': self.axes_min,
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'axis_maximum': self.axes_max,
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'axis_maximum': self.axes_max
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}
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}
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def load_kinematics(toolhead, config):
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def load_kinematics(toolhead, config):
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@ -4,7 +4,7 @@
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#
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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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# This file may be distributed under the terms of the GNU GPLv3 license.
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import logging
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import logging
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import stepper
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import stepper, idex_modes
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# The hybrid-corexz kinematic is also known as Markforged kinematics
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# The hybrid-corexz kinematic is also known as Markforged kinematics
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class HybridCoreXZKinematics:
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class HybridCoreXZKinematics:
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@ -23,6 +23,26 @@ class HybridCoreXZKinematics:
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ranges = [r.get_range() for r in self.rails]
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ranges = [r.get_range() for r in self.rails]
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self.axes_min = toolhead.Coord(*[r[0] for r in ranges], e=0.)
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self.axes_min = toolhead.Coord(*[r[0] for r in ranges], e=0.)
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self.axes_max = toolhead.Coord(*[r[1] for r in ranges], e=0.)
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self.axes_max = toolhead.Coord(*[r[1] for r in ranges], e=0.)
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self.dc_module = None
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if config.has_section('dual_carriage'):
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dc_config = config.getsection('dual_carriage')
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# dummy for cartesian config users
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dc_config.getchoice('axis', {'x': 'x'}, default='x')
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# setup second dual carriage rail
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self.rails.append(stepper.PrinterRail(dc_config))
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self.rails[2].get_endstops()[0][0].add_stepper(
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self.rails[3].get_steppers()[0])
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self.rails[3].setup_itersolve('cartesian_stepper_alloc', 'z')
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dc_rail_0 = idex_modes.DualCarriagesRail(
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self.printer, self.rails[0], axis=0, active=True,
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stepper_alloc_active=('corexz_stepper_alloc','-'),
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stepper_alloc_inactive=('cartesian_reverse_stepper_alloc','z'))
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dc_rail_1 = idex_modes.DualCarriagesRail(
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self.printer, self.rails[3], axis=0, active=False,
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stepper_alloc_active=('corexz_stepper_alloc','+'),
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stepper_alloc_inactive=('cartesian_stepper_alloc','z'))
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self.dc_module = idex_modes.DualCarriages(self.printer,
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dc_rail_0, dc_rail_1, axis=0)
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for s in self.get_steppers():
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for s in self.get_steppers():
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s.set_trapq(toolhead.get_trapq())
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s.set_trapq(toolhead.get_trapq())
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toolhead.register_step_generator(s.generate_steps)
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toolhead.register_step_generator(s.generate_steps)
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@ -39,7 +59,15 @@ class HybridCoreXZKinematics:
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return [s for rail in self.rails for s in rail.get_steppers()]
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return [s for rail in self.rails for s in rail.get_steppers()]
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def calc_position(self, stepper_positions):
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def calc_position(self, stepper_positions):
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pos = [stepper_positions[rail.get_name()] for rail in self.rails]
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pos = [stepper_positions[rail.get_name()] for rail in self.rails]
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return [pos[0] + pos[2], pos[1], pos[2]]
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if (self.dc_module is not None and 'CARRIAGE_1' == \
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self.dc_module.get_status()['active_carriage']):
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return [pos[0] - pos[2], pos[1], pos[2]]
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else:
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return [pos[0] + pos[2], pos[1], pos[2]]
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def update_limits(self, i, range):
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self.limits[i] = range
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def override_rail(self, i, rail):
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self.rails[i] = rail
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def set_position(self, newpos, homing_axes):
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def set_position(self, newpos, homing_axes):
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for i, rail in enumerate(self.rails):
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for i, rail in enumerate(self.rails):
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rail.set_position(newpos)
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rail.set_position(newpos)
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@ -62,7 +90,14 @@ class HybridCoreXZKinematics:
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homing_state.home_rails([rail], forcepos, homepos)
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homing_state.home_rails([rail], forcepos, homepos)
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def home(self, homing_state):
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def home(self, homing_state):
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for axis in homing_state.get_axes():
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for axis in homing_state.get_axes():
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self._home_axis(homing_state, axis, self.rails[axis])
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if (self.dc_module is not None and axis == 0):
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self.dc_module.save_idex_state()
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for i in [0,1]:
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self.dc_module.toggle_active_dc_rail(i)
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self._home_axis(homing_state, axis, self.rails[0])
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self.dc_module.restore_idex_state()
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else:
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self._home_axis(homing_state, axis, self.rails[axis])
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def _motor_off(self, print_time):
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def _motor_off(self, print_time):
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self.limits = [(1.0, -1.0)] * 3
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self.limits = [(1.0, -1.0)] * 3
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def _check_endstops(self, move):
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def _check_endstops(self, move):
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@ -93,7 +128,7 @@ class HybridCoreXZKinematics:
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return {
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return {
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'homed_axes': "".join(axes),
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'homed_axes': "".join(axes),
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'axis_minimum': self.axes_min,
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'axis_minimum': self.axes_min,
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'axis_maximum': self.axes_max,
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'axis_maximum': self.axes_max
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}
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}
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def load_kinematics(toolhead, config):
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def load_kinematics(toolhead, config):
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@ -0,0 +1,105 @@
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# Support for duplication and mirroring modes for IDEX printers
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#
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# Copyright (C) 2021 Fabrice Gallet <tircown@gmail.com>
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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 math
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class DualCarriages:
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def __init__(self, printer, rail_0, rail_1, axis):
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self.printer = printer
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self.axis = axis
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self.dc = (rail_0, rail_1)
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self.saved_state = None
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self.printer.add_object('dual_carriage', self)
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gcode = self.printer.lookup_object('gcode')
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gcode.register_command(
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'SET_DUAL_CARRIAGE', self.cmd_SET_DUAL_CARRIAGE,
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desc=self.cmd_SET_DUAL_CARRIAGE_help)
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def toggle_active_dc_rail(self, index):
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toolhead = self.printer.lookup_object('toolhead')
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toolhead.flush_step_generation()
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pos = toolhead.get_position()
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kin = toolhead.get_kinematics()
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for i, dc in enumerate(self.dc):
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dc_rail = dc.get_rail()
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if i != index:
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dc.inactivate(pos)
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kin.override_rail(3, dc_rail)
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elif dc.is_active() is False:
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newpos = pos[:self.axis] + [dc.axis_position] \
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+ pos[self.axis+1:]
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dc.activate(newpos)
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kin.override_rail(self.axis, dc_rail)
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toolhead.set_position(newpos)
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kin.update_limits(self.axis, dc_rail.get_range())
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def get_status(self, eventtime):
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dc0, dc1 = self.dc
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if (dc0.is_active() is True):
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return { 'mode': 'FULL_CONTROL', 'active_carriage': 'CARRIAGE_0' }
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else:
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return { 'mode': 'FULL_CONTROL', 'active_carriage': 'CARRIAGE_1' }
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def save_idex_state(self):
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dc0, dc1 = self.dc
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if (dc0.is_active() is True):
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mode, active_carriage = ('FULL_CONTROL', 'CARRIAGE_0')
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else:
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mode, active_carriage = ('FULL_CONTROL', 'CARRIAGE_1')
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self.saved_state = {
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'mode': mode,
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'active_carriage': active_carriage,
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|
'axis_positions': (dc0.axis_position, dc1.axis_position)
|
||||||
|
}
|
||||||
|
def restore_idex_state(self):
|
||||||
|
if self.saved_state is not None:
|
||||||
|
# set carriage 0 active
|
||||||
|
if (self.saved_state['active_carriage'] == 'CARRIAGE_0'
|
||||||
|
and self.dc[0].is_active() is False):
|
||||||
|
self.toggle_active_dc_rail(0)
|
||||||
|
# set carriage 1 active
|
||||||
|
elif (self.saved_state['active_carriage'] == 'CARRIAGE_1'
|
||||||
|
and self.dc[1].is_active() is False):
|
||||||
|
self.toggle_active_dc_rail(1)
|
||||||
|
cmd_SET_DUAL_CARRIAGE_help = "Set which carriage is active"
|
||||||
|
def cmd_SET_DUAL_CARRIAGE(self, gcmd):
|
||||||
|
index = gcmd.get_int('CARRIAGE', minval=0, maxval=1)
|
||||||
|
if (not(self.dc[0].is_active() == self.dc[1].is_active() == True)
|
||||||
|
and self.dc[index].is_active() is False):
|
||||||
|
self.toggle_active_dc_rail(index)
|
||||||
|
|
||||||
|
class DualCarriagesRail:
|
||||||
|
ACTIVE=1
|
||||||
|
INACTIVE=2
|
||||||
|
def __init__(self, printer, rail, axis, active, stepper_alloc_active,
|
||||||
|
stepper_alloc_inactive=None):
|
||||||
|
self.printer = printer
|
||||||
|
self.rail = rail
|
||||||
|
self.axis = axis
|
||||||
|
self.status = (self.INACTIVE, self.ACTIVE)[active]
|
||||||
|
self.stepper_alloc_active = stepper_alloc_active
|
||||||
|
self.stepper_alloc_inactive = stepper_alloc_inactive
|
||||||
|
self.axis_position = -1
|
||||||
|
def _stepper_alloc(self, position, active=True):
|
||||||
|
toolhead = self.printer.lookup_object('toolhead')
|
||||||
|
self.axis_position = position[self.axis]
|
||||||
|
self.rail.set_trapq(None)
|
||||||
|
if active is True:
|
||||||
|
self.status = self.ACTIVE
|
||||||
|
if self.stepper_alloc_active is not None:
|
||||||
|
self.rail.setup_itersolve(*self.stepper_alloc_active)
|
||||||
|
self.rail.set_position(position)
|
||||||
|
self.rail.set_trapq(toolhead.get_trapq())
|
||||||
|
else:
|
||||||
|
self.status = self.INACTIVE
|
||||||
|
if self.stepper_alloc_inactive is not None:
|
||||||
|
self.rail.setup_itersolve(*self.stepper_alloc_inactive)
|
||||||
|
self.rail.set_position(position)
|
||||||
|
self.rail.set_trapq(toolhead.get_trapq())
|
||||||
|
def get_rail(self):
|
||||||
|
return self.rail
|
||||||
|
def is_active(self):
|
||||||
|
return self.status == self.ACTIVE
|
||||||
|
def activate(self, position):
|
||||||
|
self._stepper_alloc(position, active=True)
|
||||||
|
def inactivate(self, position):
|
||||||
|
self._stepper_alloc(position, active=False)
|
Loading…
Reference in New Issue