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z_calibration.py
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z_calibration.py
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# Klipper plugin for a self-calibrating Z offset.
#
# Copyright (C) 2021-2023 Titus Meyer <[email protected]>
#
# This file may be distributed under the terms of the GNU GPLv3 license.
import logging
from mcu import MCU_endstop
class ZCalibrationHelper:
def __init__(self, config):
self.state = None
self.z_endstop = None
self.z_homing = None
self.last_state = False
self.last_z_offset = 0.
self.position_z_endstop = None
self.config = config
self.printer = config.get_printer()
self.switch_offset = config.getfloat('switch_offset', 0.0, above=0.)
# max_deviation is deprecated
self.max_deviation = config.getfloat('max_deviation', None, above=0.)
config.deprecate('max_deviation')
self.offset_margins = self._get_offset_margins('offset_margins',
'-1.0,1.0')
self.speed = config.getfloat('speed', 50.0, above=0.)
# clearance is deprecated
self.clearance = config.getfloat('clearance', None, above=0.)
config.deprecate('clearance')
self.safe_z_height = config.getfloat('safe_z_height', None, above=0.)
self.samples = config.getint('samples', None, minval=1)
self.tolerance = config.getfloat('samples_tolerance', None, above=0.)
self.retries = config.getint('samples_tolerance_retries',
None, minval=0)
atypes = {'none': None, 'median': 'median', 'average': 'average'}
self.samples_result = config.getchoice('samples_result', atypes,
'none')
self.lift_speed = config.getfloat('lift_speed', None, above=0.)
self.probing_speed = config.getfloat('probing_speed', None, above=0.)
self.second_speed = config.getfloat('probing_second_speed',
None, above=0.)
self.retract_dist = config.getfloat('probing_retract_dist',
None, above=0.)
self.position_min = config.getfloat('position_min', None)
self.first_fast = config.getboolean('probing_first_fast', False)
self.nozzle_site = self._get_xy("nozzle_xy_position", True)
self.switch_site = self._get_xy("switch_xy_position", True)
self.switch_xy_offsets = self._get_xy("switch_xy_offsets", True)
self.bed_site = self._get_xy("bed_xy_position", True)
self.wiggle_offsets = self._get_xy("wiggle_xy_offsets", True)
gcode_macro = self.printer.load_object(config, 'gcode_macro')
self.start_gcode = gcode_macro.load_template(config, 'start_gcode', '')
self.switch_gcode = gcode_macro.load_template(config,
'before_switch_gcode',
'')
self.end_gcode = gcode_macro.load_template(config, 'end_gcode', '')
self.query_endstops = self.printer.load_object(config,
'query_endstops')
self.printer.register_event_handler("klippy:connect",
self.handle_connect)
self.printer.register_event_handler("homing:home_rails_end",
self.handle_home_rails_end)
self.gcode = self.printer.lookup_object('gcode')
self.gcode.register_command('CALIBRATE_Z', self.cmd_CALIBRATE_Z,
desc=self.cmd_CALIBRATE_Z_help)
self.gcode.register_command('PROBE_Z_ACCURACY',
self.cmd_PROBE_Z_ACCURACY,
desc=self.cmd_PROBE_Z_ACCURACY_help)
self.gcode.register_command('CALCULATE_SWITCH_OFFSET',
self.cmd_CALCULATE_SWITCH_OFFSET,
desc=self.cmd_CALCULATE_SWITCH_OFFSET_help)
def get_status(self, eventtime):
return {'last_query': self.last_state,
'last_z_offset': self.last_z_offset}
def handle_connect(self):
# get z-endstop object
for endstop, name in self.query_endstops.endstops:
if name == 'z':
# check for virtual endstops..
if not isinstance(endstop, MCU_endstop):
raise self.printer.config_error("A virtual endstop for z"
" is not supported for %s"
% (self.config.get_name()))
self.z_endstop = EndstopWrapper(self.config, endstop)
# get z-endstop position from safe_z_home
if self.nozzle_site is None:
safe_z_home = self.printer.lookup_object('safe_z_home',
default=None)
if safe_z_home is None:
raise self.printer.config_error("No nozzle position"
" configured for %s"
% (self.config.get_name()))
self.nozzle_site = [safe_z_home.home_x_pos,
safe_z_home.home_y_pos,
None]
# check/calculate switch position by offsets
if self.switch_site is None:
if self.switch_xy_offsets is None:
raise self.printer.config_error("No switch position"
" configured for %s"
% (self.config.get_name()))
self.switch_site = [self.nozzle_site[0] + self.switch_xy_offsets[0],
self.nozzle_site[1] + self.switch_xy_offsets[1],
None]
# get probing settings
probe = self.printer.lookup_object('probe', default=None)
if probe is None:
raise self.printer.config_error("A probe is needed for %s"
% (self.config.get_name()))
if self.samples is None:
self.samples = probe.sample_count
if self.tolerance is None:
self.tolerance = probe.samples_tolerance
if self.retries is None:
self.retries = probe.samples_retries
if self.lift_speed is None:
self.lift_speed = probe.lift_speed
# clearance is deprecated
if self.clearance is not None and self.clearance == 0:
self.clearance = 20 # defaults to 20mm
if self.safe_z_height is None:
self.safe_z_height = probe.z_offset * 2
if self.safe_z_height < 3:
self.safe_z_height = 20 # defaults to 20mm
if self.samples_result is None:
self.samples_result = probe.samples_result
def handle_home_rails_end(self, homing_state, rails):
# get z homing position
for rail in rails:
if rail.get_steppers()[0].is_active_axis('z'):
# get homing settings from z rail
self.z_homing = rail.position_endstop
if self.probing_speed is None:
self.probing_speed = rail.homing_speed
if self.second_speed is None:
self.second_speed = rail.second_homing_speed
if self.retract_dist is None:
self.retract_dist = rail.homing_retract_dist
if self.position_min is None:
self.position_min = rail.position_min
self.position_z_endstop = rail.position_endstop
def _build_config(self):
pass
cmd_CALIBRATE_Z_help = ("Automatically calibrates the nozzle offset"
" to the print surface")
def cmd_CALIBRATE_Z(self, gcmd):
if self.z_homing is None:
raise gcmd.error("Must home axes first")
site_attr = gcmd.get("BED_POSITION", None)
if site_attr is not None:
# set bed site from BED_POSITION parameter
self.bed_site = self._parse_xy("BED_POSITION", site_attr)
elif self._get_xy("bed_xy_position", True) is not None:
# set bed site from configuration
self.bed_site = self._get_xy("bed_xy_position", False)
else:
# else get the mesh's zero reference position
try:
mesh = self.printer.lookup_object('bed_mesh', default=None)
if (hasattr(mesh.bmc, 'zero_ref_pos')
and mesh.bmc.zero_ref_pos is not None):
self.bed_site = mesh.bmc.zero_ref_pos
else:
# trying to read the deprecated rri
rri = mesh.bmc.relative_reference_index
self.bed_site = mesh.bmc.points[rri]
logging.debug("Z-CALIBRATION probe bed_x=%.3f bed_y=%.3f"
% (self.bed_site[0], self.bed_site[1]))
except:
raise gcmd.error("Either use the BED_POSITION parameter,"
" configure a bed_xy_position or define"
" a mesh with a zero_reference_position"
" for %s" % (self.config.get_name()))
self._log_config()
state = CalibrationState(self, gcmd)
state.calibrate_z()
cmd_PROBE_Z_ACCURACY_help = ("Probe Z-Endstop accuracy at"
" Nozzle-Endstop position")
def cmd_PROBE_Z_ACCURACY(self, gcmd):
if self.z_homing is None:
raise gcmd.error("Must home axes first")
speed = gcmd.get_float("PROBE_SPEED", self.second_speed, above=0.)
lift_speed = gcmd.get_float("LIFT_SPEED", self.lift_speed, above=0.)
sample_count = gcmd.get_int("SAMPLES", self.samples, minval=1)
sample_retract_dist = gcmd.get_float("SAMPLE_RETRACT_DIST",
self.retract_dist, above=0.)
toolhead = self.printer.lookup_object('toolhead')
pos = toolhead.get_position()
self._move_safe_z(pos, lift_speed)
# move to z-endstop position
self._move(list(self.nozzle_site), self.speed)
pos = toolhead.get_position()
gcmd.respond_info("PROBE_ACCURACY at X:%.3f Y:%.3f Z:%.3f"
" (samples=%d retract=%.3f"
" speed=%.1f lift_speed=%.1f)\n"
% (pos[0], pos[1], pos[2],
sample_count, sample_retract_dist,
speed, lift_speed))
# Probe bed sample_count times
positions = []
while len(positions) < sample_count:
# Probe position
pos = self._probe(self.z_endstop, self.position_min, speed)
positions.append(pos)
# Retract
liftpos = [None, None, pos[2] + sample_retract_dist]
self._move(liftpos, lift_speed)
# Calculate maximum, minimum and average values
max_value = max([p[2] for p in positions])
min_value = min([p[2] for p in positions])
range_value = max_value - min_value
avg_value = self._calc_mean(positions)[2]
median = self._calc_median(positions)[2]
# calculate the standard deviation
deviation_sum = 0
for i in range(len(positions)):
deviation_sum += pow(positions[i][2] - avg_value, 2.)
sigma = (deviation_sum / len(positions)) ** 0.5
# Show information
gcmd.respond_info(
"probe accuracy results: maximum %.6f, minimum %.6f, range %.6f,"
" average %.6f, median %.6f, standard deviation %.6f" % (
max_value, min_value, range_value, avg_value, median, sigma))
cmd_CALCULATE_SWITCH_OFFSET_help = ("Calculates a switch_offset based on"
" the current z position")
def cmd_CALCULATE_SWITCH_OFFSET(self, gcmd):
if self.last_z_offset is None:
raise gcmd.error("Must run CALIBRATE_Z first")
toolhead = self.printer.lookup_object('toolhead')
pos = toolhead.get_position()
new_switch_offset = self.switch_offset - (pos[2] - self.last_z_offset)
if new_switch_offset > 0.0:
gcmd.respond_info("switch_offset=%.3f - (current_z=%.3f - z_offset=%.3f"
") --> new switch_offset=%.3f"
% (self.switch_offset, pos[2],
self.last_z_offset, new_switch_offset))
else:
gcmd.respond_info("The resulting switch offset is negative! Either"
" the nozzle is still too far away or something"
" else is wrong...")
def _get_xy(self, name, optional=False):
if optional and self.config.get(name, None) is None:
return None
else:
return self._parse_xy(name, self.config.get(name))
def _parse_xy(self, name, site):
try:
x_pos, y_pos = site.split(',')
return [float(x_pos), float(y_pos), None]
except:
raise self.config.error("Unable to parse %s in %s"
% (name, self.config.get_name()))
def _get_offset_margins(self, name, default):
try:
margins = self.config.get(name, default).split(',')
for i, val in enumerate(margins):
margins[i] = float(val)
if len(margins) == 1:
val = abs(margins[0])
margins[0] = -val
margins.append(val)
return margins
except:
raise self.config.error("Unable to parse %s in %s"
% (name, self.config.get_name()))
def _probe(self, mcu_endstop, z_position, speed, wiggle=False):
toolhead = self.printer.lookup_object('toolhead')
pos = toolhead.get_position()
pos[2] = z_position
# probe
phoming = self.printer.lookup_object('homing')
curpos = phoming.probing_move(mcu_endstop, pos, speed)
# retract
self._move([None, None, curpos[2] + self.retract_dist],
self.lift_speed)
if wiggle and self.wiggle_offsets is not None:
self._move([curpos[0] + self.wiggle_offsets[0],
curpos[1] + self.wiggle_offsets[1],
None],
self.speed)
self._move([curpos[0], curpos[1], None], self.speed)
self.gcode.respond_info("probe at %.3f,%.3f is z=%.6f"
% (curpos[0], curpos[1], curpos[2]))
return curpos
def _move(self, coord, speed):
self.printer.lookup_object('toolhead').manual_move(coord, speed)
def _move_safe_z(self, pos, lift_speed):
# clearance is deprecated
if self.clearance is not None:
if pos[2] < self.clearance:
# no clearance, better to move up (relative)
self._move([None, None, pos[2] + self.clearance], lift_speed)
else:
if pos[2] < self.safe_z_height:
# no safe z position, better to move up (absolute)
self._move([None, None, self.safe_z_height], lift_speed)
def _calc_mean(self, positions):
count = float(len(positions))
return [sum([pos[i] for pos in positions]) / count
for i in range(3)]
def _calc_median(self, positions):
z_sorted = sorted(positions, key=(lambda p: p[2]))
middle = len(positions) // 2
if (len(positions) & 1) == 1:
# odd number of samples
return z_sorted[middle]
# even number of samples
return self._calc_mean(z_sorted[middle-1:middle+1])
def _log_config(self):
logging.debug("Z-CALIBRATION: switch_offset=%.3f,"
" offset_margins=%.3f,%.3f, speed=%.3f,"
" samples=%i, tolerance=%.3f, retries=%i,"
" samples_result=%s, lift_speed=%.3f,"
" safe_z_height=%.3f, probing_speed=%.3f,"
" second_speed=%.3f, retract_dist=%.3f,"
" position_min=%.3f, probe_nozzle_x=%.3f,"
" probe_nozzle_y=%.3f, probe_switch_x=%.3f,"
" probe_switch_y=%.3f, probe_bed_x=%.3f,"
" probe_bed_y=%.3f"
% (self.switch_offset, self.offset_margins[0],
self.offset_margins[1], self.speed,
self.samples, self.tolerance, self.retries,
self.samples_result, self.lift_speed,
self.safe_z_height, self.probing_speed,
self.second_speed, self.retract_dist,
self.position_min, self.nozzle_site[0],
self.nozzle_site[1], self.switch_site[0],
self.switch_site[1], self.bed_site[0],
self.bed_site[1]))
class EndstopWrapper:
def __init__(self, config, endstop):
self.mcu_endstop = endstop
# Wrappers
self.get_mcu = self.mcu_endstop.get_mcu
self.add_stepper = self.mcu_endstop.add_stepper
self.get_steppers = self.mcu_endstop.get_steppers
self.home_start = self.mcu_endstop.home_start
self.home_wait = self.mcu_endstop.home_wait
self.query_endstop = self.mcu_endstop.query_endstop
class CalibrationState:
def __init__(self, helper, gcmd):
self.helper = helper
self.gcmd = gcmd
self.gcode = helper.gcode
self.z_endstop = helper.z_endstop
self.probe = helper.printer.lookup_object('probe')
self.toolhead = helper.printer.lookup_object('toolhead')
self.gcode_move = helper.printer.lookup_object('gcode_move')
self.max_deviation = helper.max_deviation
self.offset_margins = helper.offset_margins
def _probe_on_site(self, endstop, site, check_probe=False, split_xy=False,
wiggle=False):
pos = self.toolhead.get_position()
self.helper._move_safe_z(pos, self.helper.lift_speed)
# move to position
if split_xy:
self.helper._move([site[0], pos[1], None], self.helper.speed)
self.helper._move([site[0], site[1], site[2]], self.helper.speed)
else:
self.helper._move(site, self.helper.speed)
if check_probe:
# check if probe is attached and switch is closed
time = self.toolhead.get_last_move_time()
if self.probe.mcu_probe.query_endstop(time):
raise self.helper.printer.command_error("Probe switch not"
" closed - Probe not"
" attached?")
if self.helper.first_fast:
# first probe just to get down faster
self.helper._probe(endstop, self.helper.position_min,
self.helper.probing_speed, wiggle=wiggle)
retries = 0
positions = []
while len(positions) < self.helper.samples:
# probe with second probing speed
curpos = self.helper._probe(endstop,
self.helper.position_min,
self.helper.second_speed,
wiggle=wiggle)
positions.append(curpos[:3])
# check tolerance
z_positions = [p[2] for p in positions]
if max(z_positions) - min(z_positions) > self.helper.tolerance:
if retries >= self.helper.retries:
self.helper.end_gcode.run_gcode_from_command()
raise self.gcmd.error("Probe samples exceed tolerance")
self.gcmd.respond_info("Probe samples exceed tolerance."
" Retrying...")
retries += 1
positions = []
# calculate result
if self.helper.samples_result == 'median':
return self.helper._calc_median(positions)[2]
return self.helper._calc_mean(positions)[2]
def _add_probe_offset(self, site):
# calculate bed position by using the probe's offsets
probe_offsets = self.probe.get_offsets()
probe_site = list(site)
probe_site[0] -= probe_offsets[0]
probe_site[1] -= probe_offsets[1]
return probe_site
def _set_new_gcode_offset(self, offset):
# reset gcode z offset to 0
gcmd_offset = self.gcode.create_gcode_command("SET_GCODE_OFFSET",
"SET_GCODE_OFFSET",
{'Z': 0.0})
self.gcode_move.cmd_SET_GCODE_OFFSET(gcmd_offset)
# set new gcode z offset
gcmd_offset = self.gcode.create_gcode_command("SET_GCODE_OFFSET",
"SET_GCODE_OFFSET",
{'Z_ADJUST': offset})
self.gcode_move.cmd_SET_GCODE_OFFSET(gcmd_offset)
def calibrate_z(self):
self.helper.start_gcode.run_gcode_from_command()
# probe the nozzle
nozzle_zero = self._probe_on_site(self.z_endstop,
self.helper.nozzle_site,
check_probe=False,
split_xy=True,
wiggle=True)
# probe the probe-switch
self.helper.switch_gcode.run_gcode_from_command()
# probe the body of the switch
switch_zero = self._probe_on_site(self.z_endstop,
self.helper.switch_site,
check_probe=True)
# probe position on bed
probe_site = self._add_probe_offset(self.helper.bed_site)
probe_zero = self._probe_on_site(self.probe.mcu_probe,
probe_site,
check_probe=True)
# calculate the offset
offset = probe_zero - (switch_zero - nozzle_zero
+ self.helper.switch_offset)
# print result
self.gcmd.respond_info("Z-CALIBRATION: probe=%.3f - (switch=%.3f"
" - nozzle=%.3f + switch_offset=%.3f) -->"
" new offset=%.6f"
% (probe_zero, switch_zero, nozzle_zero,
self.helper.switch_offset, offset))
self.gcmd.respond_info("HINT: z position_endstop=%.3f - offset=%.6f"
" --> possible z position_endstop=%.3f"
% (self.helper.position_z_endstop, offset,
self.helper.position_z_endstop - offset))
# check offset margins
if (self.max_deviation is not None # deprecated
and abs(offset) > self.max_deviation):
self.helper.end_gcode.run_gcode_from_command()
raise self.helper.printer.command_error("Offset is greater than"
" allowed: offset=%.3f"
" > max_deviation=%.3f"
% (offset,
self.max_deviation))
elif (offset < self.offset_margins[0]
or offset > self.offset_margins[1]):
self.helper.end_gcode.run_gcode_from_command()
raise self.helper.printer.command_error("Offset %.3f is outside"
" the configured range of"
" min=%.3f and max=%.3f"
% (offset,
self.offset_margins[0],
self.offset_margins[1]))
# set new offset
self._set_new_gcode_offset(offset)
# set states
self.helper.last_state = True
self.helper.last_z_offset = offset
self.helper.end_gcode.run_gcode_from_command()
def load_config(config):
return ZCalibrationHelper(config)