klipper/klippy/extras/quad_gantry_level.py

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# Mechanicaly conforms a moving gantry to the bed with 4 Z steppers
#
# Copyright (C) 2018 Maks Zolin <mzolin@vorondesign.com>
#
# This file may be distributed under the terms of the GNU GPLv3 license.
import logging
from . import probe, z_tilt
# Leveling code for XY rails that are controlled by Z steppers as in:
#
# Z stepper1 ----> O O <---- Z stepper2
# | * <-- probe1 probe2 --> * |
# | |
# | | <--- Y2 rail
# Y1 rail -----> | |
# | |
# |=============================|
# | ^ |
# | | |
# | X rail --/ |
# | |
# | * <-- probe0 probe3 --> * |
# Z stepper0 ----> O O <---- Z stepper3
class QuadGantryLevel:
def __init__(self, config):
self.printer = config.get_printer()
self.retry_helper = z_tilt.RetryHelper(config,
"Possibly Z motor numbering is wrong")
self.max_adjust = config.getfloat("max_adjust", 4, above=0)
self.horizontal_move_z = config.getfloat("horizontal_move_z", 5.0)
self.probe_helper = probe.ProbePointsHelper(config, self.probe_finalize)
if len(self.probe_helper.probe_points) != 4:
raise config.error(
"Need exactly 4 probe points for quad_gantry_level")
self.z_helper = z_tilt.ZAdjustHelper(config, 4)
gantry_corners = config.get('gantry_corners').split('\n')
try:
gantry_corners = [line.split(',', 1)
for line in gantry_corners if line.strip()]
self.gantry_corners = [(float(zp[0].strip()), float(zp[1].strip()))
for zp in gantry_corners]
except:
raise config.error("Unable to parse gantry_corners in %s" % (
config.get_name()))
if len(self.gantry_corners) < 2:
raise config.error(
"quad_gantry_level requires at least two gantry_corners")
# Register QUAD_GANTRY_LEVEL command
self.gcode = self.printer.lookup_object('gcode')
self.gcode.register_command(
'QUAD_GANTRY_LEVEL', self.cmd_QUAD_GANTRY_LEVEL,
desc=self.cmd_QUAD_GANTRY_LEVEL_help)
cmd_QUAD_GANTRY_LEVEL_help = (
"Conform a moving, twistable gantry to the shape of a stationary bed")
def cmd_QUAD_GANTRY_LEVEL(self, gcmd):
self.retry_helper.start(gcmd)
self.probe_helper.start_probe(gcmd)
def probe_finalize(self, offsets, positions):
# Mirror our perspective so the adjustments make sense
# from the perspective of the gantry
z_positions = [self.horizontal_move_z - p[2] for p in positions]
points_message = "Gantry-relative probe points:\n%s\n" % (
" ".join(["%s: %.6f" % (z_id, z_positions[z_id])
for z_id in range(len(z_positions))]))
self.gcode.respond_info(points_message)
# Calculate slope along X axis between probe point 0 and 3
ppx0 = [positions[0][0] + offsets[0], z_positions[0]]
ppx3 = [positions[3][0] + offsets[0], z_positions[3]]
slope_x_pp03 = self.linefit(ppx0, ppx3)
# Calculate slope along X axis between probe point 1 and 2
ppx1 = [positions[1][0] + offsets[0], z_positions[1]]
ppx2 = [positions[2][0] + offsets[0], z_positions[2]]
slope_x_pp12 = self.linefit(ppx1, ppx2)
logging.info("quad_gantry_level f1: %s, f2: %s"
% (slope_x_pp03, slope_x_pp12))
# Calculate gantry slope along Y axis between stepper 0 and 1
a1 = [positions[0][1] + offsets[1],
self.plot(slope_x_pp03, self.gantry_corners[0][0])]
a2 = [positions[1][1] + offsets[1],
self.plot(slope_x_pp12, self.gantry_corners[0][0])]
slope_y_s01 = self.linefit(a1, a2)
# Calculate gantry slope along Y axis between stepper 2 and 3
b1 = [positions[0][1] + offsets[1],
self.plot(slope_x_pp03, self.gantry_corners[1][0])]
b2 = [positions[1][1] + offsets[1],
self.plot(slope_x_pp12, self.gantry_corners[1][0])]
slope_y_s23 = self.linefit(b1, b2)
logging.info("quad_gantry_level af: %s, bf: %s"
% (slope_y_s01, slope_y_s23))
# Calculate z height of each stepper
z_height = [0,0,0,0]
z_height[0] = self.plot(slope_y_s01, self.gantry_corners[0][1])
z_height[1] = self.plot(slope_y_s01, self.gantry_corners[1][1])
z_height[2] = self.plot(slope_y_s23, self.gantry_corners[1][1])
z_height[3] = self.plot(slope_y_s23, self.gantry_corners[0][1])
ainfo = zip(["z","z1","z2","z3"], z_height[0:4])
apos = " ".join(["%s: %06f" % (x) for x in ainfo])
self.gcode.respond_info("Actuator Positions:\n" + apos)
z_ave = sum(z_height) / len(z_height)
self.gcode.respond_info("Average: %0.6f" % z_ave)
z_adjust = []
for z in z_height:
z_adjust.append(z_ave - z)
adjust_max = max(z_adjust)
if adjust_max > self.max_adjust:
raise self.gcode.error("Aborting quad_gantry_level"
" required adjustment %0.6f"
" is greater than max_adjust %0.6f"
% (adjust_max, self.max_adjust))
speed = self.probe_helper.get_lift_speed()
self.z_helper.adjust_steppers(z_adjust, speed)
return self.retry_helper.check_retry(z_positions)
def linefit(self,p1,p2):
if p1[1] == p2[1]:
# Straight line
return 0,p1[1]
m = (p2[1] - p1[1])/(p2[0] - p1[0])
b = p1[1] - m * p1[0]
return m,b
def plot(self,f,x):
return f[0]*x + f[1]
def load_config(config):
return QuadGantryLevel(config)