klipper-dgus/klippy/extras/gcode_move.py

274 lines
13 KiB
Python

# G-Code G1 movement commands (and associated coordinate manipulation)
#
# Copyright (C) 2016-2021 Kevin O'Connor <kevin@koconnor.net>
#
# This file may be distributed under the terms of the GNU GPLv3 license.
import logging
class GCodeMove:
def __init__(self, config):
self.printer = printer = config.get_printer()
printer.register_event_handler("klippy:ready", self._handle_ready)
printer.register_event_handler("klippy:shutdown", self._handle_shutdown)
printer.register_event_handler("toolhead:set_position",
self.reset_last_position)
printer.register_event_handler("toolhead:manual_move",
self.reset_last_position)
printer.register_event_handler("gcode:command_error",
self.reset_last_position)
printer.register_event_handler("extruder:activate_extruder",
self._handle_activate_extruder)
printer.register_event_handler("homing:home_rails_end",
self._handle_home_rails_end)
self.is_printer_ready = False
# Register g-code commands
gcode = printer.lookup_object('gcode')
handlers = [
'G1', 'G20', 'G21',
'M82', 'M83', 'G90', 'G91', 'G92', 'M220', 'M221',
'SET_GCODE_OFFSET', 'SAVE_GCODE_STATE', 'RESTORE_GCODE_STATE',
]
for cmd in handlers:
func = getattr(self, 'cmd_' + cmd)
desc = getattr(self, 'cmd_' + cmd + '_help', None)
gcode.register_command(cmd, func, False, desc)
gcode.register_command('G0', self.cmd_G1)
gcode.register_command('M114', self.cmd_M114, True)
gcode.register_command('GET_POSITION', self.cmd_GET_POSITION, True)
self.Coord = gcode.Coord
# G-Code coordinate manipulation
self.absolute_coord = self.absolute_extrude = True
self.base_position = [0.0, 0.0, 0.0, 0.0]
self.last_position = [0.0, 0.0, 0.0, 0.0]
self.homing_position = [0.0, 0.0, 0.0, 0.0]
self.speed = 25.
self.speed_factor = 1. / 60.
self.extrude_factor = 1.
# G-Code state
self.saved_states = {}
self.move_transform = self.move_with_transform = None
self.position_with_transform = (lambda: [0., 0., 0., 0.])
def _handle_ready(self):
self.is_printer_ready = True
if self.move_transform is None:
toolhead = self.printer.lookup_object('toolhead')
self.move_with_transform = toolhead.move
self.position_with_transform = toolhead.get_position
self.reset_last_position()
def _handle_shutdown(self):
if not self.is_printer_ready:
return
self.is_printer_ready = False
logging.info("gcode state: absolute_coord=%s absolute_extrude=%s"
" base_position=%s last_position=%s homing_position=%s"
" speed_factor=%s extrude_factor=%s speed=%s",
self.absolute_coord, self.absolute_extrude,
self.base_position, self.last_position,
self.homing_position, self.speed_factor,
self.extrude_factor, self.speed)
def _handle_activate_extruder(self):
self.reset_last_position()
self.extrude_factor = 1.
self.base_position[3] = self.last_position[3]
def _handle_home_rails_end(self, homing_state, rails):
self.reset_last_position()
for axis in homing_state.get_axes():
self.base_position[axis] = self.homing_position[axis]
def set_move_transform(self, transform, force=False):
if self.move_transform is not None and not force:
raise self.printer.config_error(
"G-Code move transform already specified")
old_transform = self.move_transform
if old_transform is None:
old_transform = self.printer.lookup_object('toolhead', None)
self.move_transform = transform
self.move_with_transform = transform.move
self.position_with_transform = transform.get_position
return old_transform
def _get_gcode_position(self):
p = [lp - bp for lp, bp in zip(self.last_position, self.base_position)]
p[3] /= self.extrude_factor
return p
def _get_gcode_speed(self):
return self.speed / self.speed_factor
def _get_gcode_speed_override(self):
return self.speed_factor * 60.
def get_status(self, eventtime=None):
move_position = self._get_gcode_position()
return {
'speed_factor': self._get_gcode_speed_override(),
'speed': self._get_gcode_speed(),
'extrude_factor': self.extrude_factor,
'absolute_coordinates': self.absolute_coord,
'absolute_extrude': self.absolute_extrude,
'homing_origin': self.Coord(*self.homing_position),
'position': self.Coord(*self.last_position),
'gcode_position': self.Coord(*move_position),
}
def reset_last_position(self):
if self.is_printer_ready:
self.last_position = self.position_with_transform()
# G-Code movement commands
def cmd_G1(self, gcmd):
# Move
params = gcmd.get_command_parameters()
try:
for pos, axis in enumerate('XYZ'):
if axis in params:
v = float(params[axis])
if not self.absolute_coord:
# value relative to position of last move
self.last_position[pos] += v
else:
# value relative to base coordinate position
self.last_position[pos] = v + self.base_position[pos]
if 'E' in params:
v = float(params['E']) * self.extrude_factor
if not self.absolute_coord or not self.absolute_extrude:
# value relative to position of last move
self.last_position[3] += v
else:
# value relative to base coordinate position
self.last_position[3] = v + self.base_position[3]
if 'F' in params:
gcode_speed = float(params['F'])
if gcode_speed <= 0.:
raise gcmd.error("Invalid speed in '%s'"
% (gcmd.get_commandline(),))
self.speed = gcode_speed * self.speed_factor
except ValueError as e:
raise gcmd.error("Unable to parse move '%s'"
% (gcmd.get_commandline(),))
self.move_with_transform(self.last_position, self.speed)
# G-Code coordinate manipulation
def cmd_G20(self, gcmd):
# Set units to inches
raise gcmd.error('Machine does not support G20 (inches) command')
def cmd_G21(self, gcmd):
# Set units to millimeters
pass
def cmd_M82(self, gcmd):
# Use absolute distances for extrusion
self.absolute_extrude = True
def cmd_M83(self, gcmd):
# Use relative distances for extrusion
self.absolute_extrude = False
def cmd_G90(self, gcmd):
# Use absolute coordinates
self.absolute_coord = True
def cmd_G91(self, gcmd):
# Use relative coordinates
self.absolute_coord = False
def cmd_G92(self, gcmd):
# Set position
offsets = [ gcmd.get_float(a, None) for a in 'XYZE' ]
for i, offset in enumerate(offsets):
if offset is not None:
if i == 3:
offset *= self.extrude_factor
self.base_position[i] = self.last_position[i] - offset
if offsets == [None, None, None, None]:
self.base_position = list(self.last_position)
def cmd_M114(self, gcmd):
# Get Current Position
p = self._get_gcode_position()
gcmd.respond_raw("X:%.3f Y:%.3f Z:%.3f E:%.3f" % tuple(p))
def cmd_M220(self, gcmd):
# Set speed factor override percentage
value = gcmd.get_float('S', 100., above=0.) / (60. * 100.)
self.speed = self._get_gcode_speed() * value
self.speed_factor = value
def cmd_M221(self, gcmd):
# Set extrude factor override percentage
new_extrude_factor = gcmd.get_float('S', 100., above=0.) / 100.
last_e_pos = self.last_position[3]
e_value = (last_e_pos - self.base_position[3]) / self.extrude_factor
self.base_position[3] = last_e_pos - e_value * new_extrude_factor
self.extrude_factor = new_extrude_factor
cmd_SET_GCODE_OFFSET_help = "Set a virtual offset to g-code positions"
def cmd_SET_GCODE_OFFSET(self, gcmd):
move_delta = [0., 0., 0., 0.]
for pos, axis in enumerate('XYZE'):
offset = gcmd.get_float(axis, None)
if offset is None:
offset = gcmd.get_float(axis + '_ADJUST', None)
if offset is None:
continue
offset += self.homing_position[pos]
delta = offset - self.homing_position[pos]
move_delta[pos] = delta
self.base_position[pos] += delta
self.homing_position[pos] = offset
# Move the toolhead the given offset if requested
if gcmd.get_int('MOVE', 0):
speed = gcmd.get_float('MOVE_SPEED', self.speed, above=0.)
for pos, delta in enumerate(move_delta):
self.last_position[pos] += delta
self.move_with_transform(self.last_position, speed)
cmd_SAVE_GCODE_STATE_help = "Save G-Code coordinate state"
def cmd_SAVE_GCODE_STATE(self, gcmd):
state_name = gcmd.get('NAME', 'default')
self.saved_states[state_name] = {
'absolute_coord': self.absolute_coord,
'absolute_extrude': self.absolute_extrude,
'base_position': list(self.base_position),
'last_position': list(self.last_position),
'homing_position': list(self.homing_position),
'speed': self.speed, 'speed_factor': self.speed_factor,
'extrude_factor': self.extrude_factor,
}
cmd_RESTORE_GCODE_STATE_help = "Restore a previously saved G-Code state"
def cmd_RESTORE_GCODE_STATE(self, gcmd):
state_name = gcmd.get('NAME', 'default')
state = self.saved_states.get(state_name)
if state is None:
raise gcmd.error("Unknown g-code state: %s" % (state_name,))
# Restore state
self.absolute_coord = state['absolute_coord']
self.absolute_extrude = state['absolute_extrude']
self.base_position = list(state['base_position'])
self.homing_position = list(state['homing_position'])
self.speed = state['speed']
self.speed_factor = state['speed_factor']
self.extrude_factor = state['extrude_factor']
# Restore the relative E position
e_diff = self.last_position[3] - state['last_position'][3]
self.base_position[3] += e_diff
# Move the toolhead back if requested
if gcmd.get_int('MOVE', 0):
speed = gcmd.get_float('MOVE_SPEED', self.speed, above=0.)
self.last_position[:3] = state['last_position'][:3]
self.move_with_transform(self.last_position, speed)
def cmd_GET_POSITION(self, gcmd):
toolhead = self.printer.lookup_object('toolhead', None)
if toolhead is None:
raise gcmd.error("Printer not ready")
kin = toolhead.get_kinematics()
steppers = kin.get_steppers()
mcu_pos = " ".join(["%s:%d" % (s.get_name(), s.get_mcu_position())
for s in steppers])
cinfo = [(s.get_name(), s.get_commanded_position()) for s in steppers]
stepper_pos = " ".join(["%s:%.6f" % (a, v) for a, v in cinfo])
kinfo = zip("XYZ", kin.calc_position(dict(cinfo)))
kin_pos = " ".join(["%s:%.6f" % (a, v) for a, v in kinfo])
toolhead_pos = " ".join(["%s:%.6f" % (a, v) for a, v in zip(
"XYZE", toolhead.get_position())])
gcode_pos = " ".join(["%s:%.6f" % (a, v)
for a, v in zip("XYZE", self.last_position)])
base_pos = " ".join(["%s:%.6f" % (a, v)
for a, v in zip("XYZE", self.base_position)])
homing_pos = " ".join(["%s:%.6f" % (a, v)
for a, v in zip("XYZ", self.homing_position)])
gcmd.respond_info("mcu: %s\n"
"stepper: %s\n"
"kinematic: %s\n"
"toolhead: %s\n"
"gcode: %s\n"
"gcode base: %s\n"
"gcode homing: %s"
% (mcu_pos, stepper_pos, kin_pos, toolhead_pos,
gcode_pos, base_pos, homing_pos))
def load_config(config):
return GCodeMove(config)