stepper: Add get/set_tag_position() and convert calc_position()
Rename calc_position() to calc_tag_position() and have it calculate the value of the position from the last stepper set_tag_position() call. This enables the calc_tag_position() code to be more flexible as it can be run with arbitrary positions. Signed-off-by: Kevin O'Connor <kevin@koconnor.net>
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@ -330,11 +330,12 @@ Useful steps:
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seconds) to a cartesian coordinate (in millimeters), and then
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seconds) to a cartesian coordinate (in millimeters), and then
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calculate the desired stepper position (in millimeters) from that
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calculate the desired stepper position (in millimeters) from that
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cartesian coordinate.
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cartesian coordinate.
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4. Implement the `calc_position()` method in the new kinematics class.
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4. Implement the `calc_tag_position()` method in the new kinematics
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This method calculates the position of the toolhead in cartesian
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class. This method calculates the position of the toolhead in
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coordinates from the current position of each stepper. It does not
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cartesian coordinates from the position of each stepper (as
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need to be efficient as it is typically only called during homing
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returned by `stepper.get_tag_position()`). It does not need to be
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and probing operations.
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efficient as it is typically only called during homing and probing
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operations.
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5. Other methods. Implement the `check_move()`, `get_status()`,
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5. Other methods. Implement the `check_move()`, `get_status()`,
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`get_steppers()`, `home()`, and `set_position()` methods. These
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`get_steppers()`, `home()`, and `set_position()` methods. These
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functions are typically used to provide kinematic specific
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functions are typically used to provide kinematic specific
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@ -83,7 +83,10 @@ class ManualProbeHelper:
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if toolhead_pos == self.last_toolhead_pos:
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if toolhead_pos == self.last_toolhead_pos:
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return self.last_kinematics_pos
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return self.last_kinematics_pos
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self.toolhead.get_last_move_time()
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self.toolhead.get_last_move_time()
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kin_pos = self.toolhead.get_kinematics().calc_position()
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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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kin_pos = kin.calc_tag_position()
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self.last_toolhead_pos = toolhead_pos
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self.last_toolhead_pos = toolhead_pos
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self.last_kinematics_pos = kin_pos
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self.last_kinematics_pos = kin_pos
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return kin_pos
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return kin_pos
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@ -690,11 +690,12 @@ class GCodeParser:
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steppers = kin.get_steppers()
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steppers = kin.get_steppers()
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mcu_pos = " ".join(["%s:%d" % (s.get_name(), s.get_mcu_position())
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mcu_pos = " ".join(["%s:%d" % (s.get_name(), s.get_mcu_position())
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for s in steppers])
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for s in steppers])
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stepper_pos = " ".join(
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for s in steppers:
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["%s:%.6f" % (s.get_name(), s.get_commanded_position())
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s.set_tag_position(s.get_commanded_position())
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for s in steppers])
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stepper_pos = " ".join(["%s:%.6f" % (s.get_name(), s.get_tag_position())
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kinematic_pos = " ".join(["%s:%.6f" % (a, v)
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for s in steppers])
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for a, v in zip("XYZE", kin.calc_position())])
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kin_pos = " ".join(["%s:%.6f" % (a, v)
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for a, v in zip("XYZ", kin.calc_tag_position())])
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toolhead_pos = " ".join(["%s:%.6f" % (a, v) for a, v in zip(
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toolhead_pos = " ".join(["%s:%.6f" % (a, v) for a, v in zip(
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"XYZE", self.toolhead.get_position())])
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"XYZE", self.toolhead.get_position())])
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gcode_pos = " ".join(["%s:%.6f" % (a, v)
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gcode_pos = " ".join(["%s:%.6f" % (a, v)
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@ -703,16 +704,15 @@ class GCodeParser:
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for a, v in zip("XYZE", self.base_position)])
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for a, v in zip("XYZE", self.base_position)])
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homing_pos = " ".join(["%s:%.6f" % (a, v)
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homing_pos = " ".join(["%s:%.6f" % (a, v)
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for a, v in zip("XYZ", self.homing_position)])
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for a, v in zip("XYZ", self.homing_position)])
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self.respond_info(
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self.respond_info("mcu: %s\n"
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"mcu: %s\n"
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"stepper: %s\n"
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"stepper: %s\n"
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"kinematic: %s\n"
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"kinematic: %s\n"
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"toolhead: %s\n"
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"toolhead: %s\n"
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"gcode: %s\n"
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"gcode: %s\n"
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"gcode base: %s\n"
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"gcode base: %s\n"
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"gcode homing: %s"
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"gcode homing: %s" % (
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% (mcu_pos, stepper_pos, kin_pos, toolhead_pos,
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mcu_pos, stepper_pos, kinematic_pos, toolhead_pos,
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gcode_pos, base_pos, homing_pos))
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gcode_pos, base_pos, homing_pos))
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def request_restart(self, result):
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def request_restart(self, result):
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if self.is_printer_ready:
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if self.is_printer_ready:
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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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@ -67,8 +67,10 @@ class Homing:
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if error is None:
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if error is None:
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error = "Failed to home %s: %s" % (name, str(e))
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error = "Failed to home %s: %s" % (name, str(e))
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if probe_pos:
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if probe_pos:
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self.set_homed_position(
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kin = self.toolhead.get_kinematics()
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list(self.toolhead.get_kinematics().calc_position()) + [None])
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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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self.set_homed_position(kin.calc_tag_position())
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else:
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else:
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self.toolhead.set_position(movepos)
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self.toolhead.set_position(movepos)
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for mcu_endstop, name in endstops:
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for mcu_endstop, name in endstops:
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@ -116,7 +118,10 @@ class Homing:
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ret = self.printer.send_event("homing:homed_rails", self, rails)
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ret = self.printer.send_event("homing:homed_rails", self, rails)
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if any(ret):
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if any(ret):
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# Apply any homing offsets
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# Apply any homing offsets
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adjustpos = self.toolhead.get_kinematics().calc_position()
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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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adjustpos = kin.calc_tag_position()
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for axis in homing_axes:
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for axis in homing_axes:
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movepos[axis] = adjustpos[axis]
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movepos[axis] = adjustpos[axis]
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self.toolhead.set_position(movepos)
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self.toolhead.set_position(movepos)
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@ -53,8 +53,8 @@ class CartKinematics:
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if flags == "Z":
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if flags == "Z":
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return self.rails[2].get_steppers()
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return self.rails[2].get_steppers()
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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):
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def calc_tag_position(self):
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return [rail.get_commanded_position() for rail in self.rails]
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return [rail.get_tag_position() for rail in self.rails]
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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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@ -125,8 +125,9 @@ class CartKinematics:
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self.rails[dc_axis].set_trapq(None)
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self.rails[dc_axis].set_trapq(None)
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dc_rail.set_trapq(toolhead.get_trapq())
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dc_rail.set_trapq(toolhead.get_trapq())
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self.rails[dc_axis] = dc_rail
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self.rails[dc_axis] = dc_rail
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extruder_pos = toolhead.get_position()[3]
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pos = toolhead.get_position()
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toolhead.set_position(self.calc_position() + [extruder_pos])
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pos[dc_axis] = dc_rail.get_commanded_position()
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toolhead.set_position(pos)
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if self.limits[dc_axis][0] <= self.limits[dc_axis][1]:
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if self.limits[dc_axis][0] <= self.limits[dc_axis][1]:
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self.limits[dc_axis] = dc_rail.get_range()
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self.limits[dc_axis] = dc_rail.get_range()
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cmd_SET_DUAL_CARRIAGE_help = "Set which carriage is active"
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cmd_SET_DUAL_CARRIAGE_help = "Set which carriage is active"
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@ -43,8 +43,8 @@ class CoreXYKinematics:
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if flags == "Z":
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if flags == "Z":
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return self.rails[2].get_steppers()
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return self.rails[2].get_steppers()
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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):
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def calc_tag_position(self):
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pos = [rail.get_commanded_position() for rail in self.rails]
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pos = [rail.get_tag_position() for rail in self.rails]
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return [0.5 * (pos[0] + pos[1]), 0.5 * (pos[0] - pos[1]), pos[2]]
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return [0.5 * (pos[0] + pos[1]), 0.5 * (pos[0] - pos[1]), pos[2]]
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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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@ -92,8 +92,8 @@ class DeltaKinematics:
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def _actuator_to_cartesian(self, spos):
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def _actuator_to_cartesian(self, spos):
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sphere_coords = [(t[0], t[1], sp) for t, sp in zip(self.towers, spos)]
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sphere_coords = [(t[0], t[1], sp) for t, sp in zip(self.towers, spos)]
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return mathutil.trilateration(sphere_coords, self.arm2)
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return mathutil.trilateration(sphere_coords, self.arm2)
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def calc_position(self):
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def calc_tag_position(self):
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spos = [rail.get_commanded_position() for rail in self.rails]
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spos = [rail.get_tag_position() for rail in self.rails]
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return self._actuator_to_cartesian(spos)
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return self._actuator_to_cartesian(spos)
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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 rail in self.rails:
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for rail in self.rails:
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@ -9,7 +9,7 @@ class NoneKinematics:
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pass
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pass
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def get_steppers(self, flags=""):
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def get_steppers(self, flags=""):
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return []
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return []
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def calc_position(self):
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def calc_tag_position(self):
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return [0, 0, 0]
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return [0, 0, 0]
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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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pass
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pass
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@ -40,10 +40,10 @@ class PolarKinematics:
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if flags == "Z":
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if flags == "Z":
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return self.rails[1].get_steppers()
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return self.rails[1].get_steppers()
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return list(self.steppers)
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return list(self.steppers)
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def calc_position(self):
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def calc_tag_position(self):
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bed_angle = self.steppers[0].get_commanded_position()
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bed_angle = self.steppers[0].get_tag_position()
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arm_pos = self.rails[0].get_commanded_position()
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arm_pos = self.rails[0].get_tag_position()
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z_pos = self.rails[1].get_commanded_position()
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z_pos = self.rails[1].get_tag_position()
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return [math.cos(bed_angle) * arm_pos, math.sin(bed_angle) * arm_pos,
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return [math.cos(bed_angle) * arm_pos, math.sin(bed_angle) * arm_pos,
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z_pos]
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z_pos]
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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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@ -31,9 +31,9 @@ class WinchKinematics:
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self.set_position([0., 0., 0.], ())
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self.set_position([0., 0., 0.], ())
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def get_steppers(self, flags=""):
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def get_steppers(self, flags=""):
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return list(self.steppers)
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return list(self.steppers)
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def calc_position(self):
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def calc_tag_position(self):
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# Use only first three steppers to calculate cartesian position
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# Use only first three steppers to calculate cartesian position
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spos = [s.get_commanded_position() for s in self.steppers[:3]]
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spos = [s.get_tag_position() for s in self.steppers[:3]]
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return mathutil.trilateration(self.anchors[:3], [sp*sp for sp in spos])
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return mathutil.trilateration(self.anchors[:3], [sp*sp for sp in spos])
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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 s in self.steppers:
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for s in self.steppers:
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@ -29,7 +29,7 @@ class MCU_stepper:
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"Stepper dir pin must be on same mcu as step pin")
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"Stepper dir pin must be on same mcu as step pin")
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self._dir_pin = dir_pin_params['pin']
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self._dir_pin = dir_pin_params['pin']
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self._invert_dir = dir_pin_params['invert']
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self._invert_dir = dir_pin_params['invert']
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self._mcu_position_offset = 0.
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self._mcu_position_offset = self._tag_position = 0.
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self._min_stop_interval = 0.
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self._min_stop_interval = 0.
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self._reset_cmd_id = self._get_position_cmd = None
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self._reset_cmd_id = self._get_position_cmd = None
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self._active_callbacks = []
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self._active_callbacks = []
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@ -107,6 +107,10 @@ class MCU_stepper:
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if mcu_pos >= 0.:
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if mcu_pos >= 0.:
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return int(mcu_pos + 0.5)
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return int(mcu_pos + 0.5)
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return int(mcu_pos - 0.5)
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return int(mcu_pos - 0.5)
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def get_tag_position(self):
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return self._tag_position
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def set_tag_position(self, position):
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self._tag_position = position
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def set_stepper_kinematics(self, sk):
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def set_stepper_kinematics(self, sk):
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old_sk = self._stepper_kinematics
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old_sk = self._stepper_kinematics
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self._stepper_kinematics = sk
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self._stepper_kinematics = sk
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self.endstops = []
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self.endstops = []
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self.add_extra_stepper(config)
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self.add_extra_stepper(config)
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self.get_commanded_position = self.steppers[0].get_commanded_position
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self.get_commanded_position = self.steppers[0].get_commanded_position
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self.get_tag_position = self.steppers[0].get_tag_position
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self.set_tag_position = self.steppers[0].set_tag_position
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# Primary endstop position
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# Primary endstop position
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mcu_endstop = self.endstops[0][0]
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mcu_endstop = self.endstops[0][0]
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if hasattr(mcu_endstop, "get_position_endstop"):
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if hasattr(mcu_endstop, "get_position_endstop"):
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