klipper/klippy/extras/manual_stepper.py

129 lines
5.6 KiB
Python

# Support for a manual controlled stepper
#
# Copyright (C) 2019-2021 Kevin O'Connor <kevin@koconnor.net>
#
# This file may be distributed under the terms of the GNU GPLv3 license.
import stepper, chelper
from . import force_move
class ManualStepper:
def __init__(self, config):
self.printer = config.get_printer()
if config.get('endstop_pin', None) is not None:
self.can_home = True
self.rail = stepper.PrinterRail(
config, need_position_minmax=False, default_position_endstop=0.)
self.steppers = self.rail.get_steppers()
else:
self.can_home = False
self.rail = stepper.PrinterStepper(config)
self.steppers = [self.rail]
self.velocity = config.getfloat('velocity', 5., above=0.)
self.accel = self.homing_accel = config.getfloat('accel', 0., minval=0.)
self.next_cmd_time = 0.
# Setup iterative solver
ffi_main, ffi_lib = chelper.get_ffi()
self.trapq = ffi_main.gc(ffi_lib.trapq_alloc(), ffi_lib.trapq_free)
self.trapq_append = ffi_lib.trapq_append
self.trapq_finalize_moves = ffi_lib.trapq_finalize_moves
self.rail.setup_itersolve('cartesian_stepper_alloc', 'x')
self.rail.set_trapq(self.trapq)
# Register commands
stepper_name = config.get_name().split()[1]
gcode = self.printer.lookup_object('gcode')
gcode.register_mux_command('MANUAL_STEPPER', "STEPPER",
stepper_name, self.cmd_MANUAL_STEPPER,
desc=self.cmd_MANUAL_STEPPER_help)
def sync_print_time(self):
toolhead = self.printer.lookup_object('toolhead')
print_time = toolhead.get_last_move_time()
if self.next_cmd_time > print_time:
toolhead.dwell(self.next_cmd_time - print_time)
else:
self.next_cmd_time = print_time
def do_enable(self, enable):
self.sync_print_time()
stepper_enable = self.printer.lookup_object('stepper_enable')
if enable:
for s in self.steppers:
se = stepper_enable.lookup_enable(s.get_name())
se.motor_enable(self.next_cmd_time)
else:
for s in self.steppers:
se = stepper_enable.lookup_enable(s.get_name())
se.motor_disable(self.next_cmd_time)
self.sync_print_time()
def do_set_position(self, setpos):
self.rail.set_position([setpos, 0., 0.])
def do_move(self, movepos, speed, accel, sync=True):
self.sync_print_time()
cp = self.rail.get_commanded_position()
dist = movepos - cp
axis_r, accel_t, cruise_t, cruise_v = force_move.calc_move_time(
dist, speed, accel)
self.trapq_append(self.trapq, self.next_cmd_time,
accel_t, cruise_t, accel_t,
cp, 0., 0., axis_r, 0., 0.,
0., cruise_v, accel)
self.next_cmd_time = self.next_cmd_time + accel_t + cruise_t + accel_t
self.rail.generate_steps(self.next_cmd_time)
self.trapq_finalize_moves(self.trapq, self.next_cmd_time + 99999.9)
toolhead = self.printer.lookup_object('toolhead')
toolhead.note_kinematic_activity(self.next_cmd_time)
if sync:
self.sync_print_time()
def do_homing_move(self, movepos, speed, accel, triggered, check_trigger):
if not self.can_home:
raise self.printer.command_error(
"No endstop for this manual stepper")
self.homing_accel = accel
pos = [movepos, 0., 0., 0.]
endstops = self.rail.get_endstops()
phoming = self.printer.lookup_object('homing')
phoming.manual_home(self, endstops, pos, speed,
triggered, check_trigger)
cmd_MANUAL_STEPPER_help = "Command a manually configured stepper"
def cmd_MANUAL_STEPPER(self, gcmd):
enable = gcmd.get_int('ENABLE', None)
if enable is not None:
self.do_enable(enable)
setpos = gcmd.get_float('SET_POSITION', None)
if setpos is not None:
self.do_set_position(setpos)
speed = gcmd.get_float('SPEED', self.velocity, above=0.)
accel = gcmd.get_float('ACCEL', self.accel, minval=0.)
homing_move = gcmd.get_int('STOP_ON_ENDSTOP', 0)
if homing_move:
movepos = gcmd.get_float('MOVE')
self.do_homing_move(movepos, speed, accel,
homing_move > 0, abs(homing_move) == 1)
elif gcmd.get_float('MOVE', None) is not None:
movepos = gcmd.get_float('MOVE')
sync = gcmd.get_int('SYNC', 1)
self.do_move(movepos, speed, accel, sync)
elif gcmd.get_int('SYNC', 0):
self.sync_print_time()
# Toolhead wrappers to support homing
def flush_step_generation(self):
self.sync_print_time()
def get_position(self):
return [self.rail.get_commanded_position(), 0., 0., 0.]
def set_position(self, newpos, homing_axes=()):
self.do_set_position(newpos[0])
def get_last_move_time(self):
self.sync_print_time()
return self.next_cmd_time
def dwell(self, delay):
self.next_cmd_time += max(0., delay)
def drip_move(self, newpos, speed, drip_completion):
self.do_move(newpos[0], speed, self.homing_accel)
def get_kinematics(self):
return self
def get_steppers(self):
return self.steppers
def calc_position(self, stepper_positions):
return [stepper_positions[self.rail.get_name()], 0., 0.]
def load_config_prefix(config):
return ManualStepper(config)