408 lines
17 KiB
Python
408 lines
17 KiB
Python
import logging
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import re
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import math
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import gi
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gi.require_version("Gtk", "3.0")
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from gi.repository import Gtk, Pango
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from ks_includes.KlippyGcodes import KlippyGcodes
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from ks_includes.screen_panel import ScreenPanel
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# Find the screw closest to the point,
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# but return None if the distance is above max_distance.
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# If remove is set to true, the screw is also removed
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# from the list of passed in screws.
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def find_closest(screws, point, max_distance, remove=False):
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if len(screws) == 0:
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return None
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closest = screws[0]
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min_distance = math.hypot(closest[0] - point[0], closest[1] - point[1])
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for screw in screws[1:]:
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distance = math.hypot(screw[0] - point[0], screw[1] - point[1])
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if distance < min_distance:
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closest = screw
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min_distance = distance
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if min_distance > max_distance:
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return None
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if remove:
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screws.remove(closest)
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return closest
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class Panel(ScreenPanel):
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def __init__(self, screen, title):
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super().__init__(screen, title)
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self.response_count = 0
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self.screw_dict = {}
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self.screws = []
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self.y_cnt = 0
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self.x_cnt = 0
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self.x_offset = 0
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self.y_offset = 0
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self.buttons = {'dm': self._gtk.Button("motor-off", _("Disable Motors"), "color3")}
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self.buttons['dm'].connect("clicked", self.disable_motors)
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screw_positions = []
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rotation = None
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self.probe_z_height = 0
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self.lift_speed = 5
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self.horizontal_move_z = 5
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self.horizontal_speed = 50
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grid = self._gtk.HomogeneousGrid()
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grid.attach(self.buttons['dm'], 0, 0, 1, 1)
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if "screws_tilt_adjust" in self._printer.get_config_section_list():
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self.buttons['screws'] = self._gtk.Button("refresh", _("Screws Adjust"), "color4")
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self.buttons['screws'].connect("clicked", self.screws_tilt_calculate)
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grid.attach(self.buttons['screws'], 0, 1, 1, 1)
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self.screws = self._get_screws("screws_tilt_adjust")
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logging.info(f"screws_tilt_adjust: {self.screws}")
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probe = self._printer.get_probe()
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if probe:
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if "x_offset" in probe:
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self.x_offset = round(float(probe['x_offset']), 1)
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if "y_offset" in probe:
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self.y_offset = round(float(probe['y_offset']), 1)
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logging.debug(f"offset X: {self.x_offset} Y: {self.y_offset}")
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# bed_screws uses NOZZLE positions
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# screws_tilt_adjust uses PROBE positions and
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# to be offseted for the buttons to work equal to bed_screws
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new_screws = [
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[round(screw[0] + self.x_offset, 1), round(screw[1] + self.y_offset, 1)]
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for screw in self.screws
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]
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self.screws = new_screws
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logging.info(f"screws with offset: {self.screws}")
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elif "bed_screws" in self._printer.get_config_section_list():
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self.screws = self._get_screws("bed_screws")
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logging.info(f"bed_screws: {self.screws}")
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nscrews = len(self.screws)
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# KS config
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valid_positions = True
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valid_screws = ["bl", "fl", "fr", "br", "bm", "fm", "lm", "rm", "center"]
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if self.ks_printer_cfg is not None:
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screw_positions = self.ks_printer_cfg.get("screw_positions", "")
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if screw_positions:
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screw_positions = [str(i.strip()) for i in screw_positions.split(',')]
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logging.info(f"Positions: {screw_positions}")
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for screw in screw_positions:
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if screw not in valid_screws:
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logging.error(f"Unknown screw: {screw}")
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self._screen.show_popup_message(_("Unknown screw position") + f": {screw}")
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valid_positions = False
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if not (3 <= len(screw_positions) <= 9):
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valid_positions = False
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else:
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if nscrews in (3, 5, 7):
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valid_positions = False
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screw_positions = valid_screws
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rotation = self.ks_printer_cfg.getint("screw_rotation", 0)
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logging.info(f"Rotation: {rotation}")
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else:
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if nscrews in (3, 5, 7):
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valid_positions = False
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screw_positions = valid_screws
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if 'bed_screws' in self._config.get_config():
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rotation = self._config.get_config()['bed_screws'].getint("rotation", 0)
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logging.debug(f"Rotation: {rotation}")
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# get dimensions
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x_positions = {x[0] for x in self.screws}
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y_positions = {y[1] for y in self.screws}
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logging.info(f"X: {x_positions}\nY: {y_positions}")
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self.x_cnt = len(x_positions)
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self.y_cnt = len(y_positions)
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min_x = min(x_positions)
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max_x = max(x_positions)
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mid_x = round((min_x + max_x) / 2)
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min_y = min(y_positions)
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max_y = max(y_positions)
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mid_y = round((min_y + max_y) / 2)
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max_distance = math.ceil(
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math.hypot(max_x - min_x, max_y - min_y)
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/ min(self.x_cnt, self.y_cnt, 3)
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)
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logging.debug(f"Using max_distance: {max_distance} to fit: {len(self.screws)} screws.")
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remaining_screws = self.screws[:]
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fl = find_closest(remaining_screws, (min_x, min_y), max_distance, remove="fl" in screw_positions)
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bl = find_closest(remaining_screws, (min_x, max_y), max_distance, remove="bl" in screw_positions)
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br = find_closest(remaining_screws, (max_x, max_y), max_distance, remove="br" in screw_positions)
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fr = find_closest(remaining_screws, (max_x, min_y), max_distance, remove="fr" in screw_positions)
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fm = find_closest(remaining_screws, (mid_x, min_y), max_distance, remove="fm" in screw_positions)
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bm = find_closest(remaining_screws, (mid_x, max_y), max_distance, remove="bm" in screw_positions)
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lm = find_closest(remaining_screws, (min_x, mid_y), max_distance, remove="lm" in screw_positions)
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rm = find_closest(remaining_screws, (max_x, mid_y), max_distance, remove="rm" in screw_positions)
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center = find_closest(remaining_screws, (mid_x, mid_y), max_distance, remove="center" in screw_positions)
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if len(remaining_screws) != 0:
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logging.debug(f"Screws not used: {remaining_screws}")
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logging.debug(f"Using {len(self.screws) - len(remaining_screws)}/{len(self.screws)}-screw locations")
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button_scale = 2
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self.buttons['bl'] = self._gtk.Button("bed-level-t-l", scale=button_scale)
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self.buttons['br'] = self._gtk.Button("bed-level-t-r", scale=button_scale)
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self.buttons['fl'] = self._gtk.Button("bed-level-b-l", scale=button_scale)
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self.buttons['fr'] = self._gtk.Button("bed-level-b-r", scale=button_scale)
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self.buttons['lm'] = self._gtk.Button("bed-level-l-m", scale=button_scale)
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self.buttons['rm'] = self._gtk.Button("bed-level-r-m", scale=button_scale)
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self.buttons['fm'] = self._gtk.Button("bed-level-b-m", scale=button_scale)
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self.buttons['bm'] = self._gtk.Button("bed-level-t-m", scale=button_scale)
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self.buttons['center'] = self._gtk.Button("increase", scale=button_scale)
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bedgrid = Gtk.Grid()
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if valid_positions:
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if "bl" in screw_positions and bl:
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bedgrid.attach(self.buttons['bl'], 1, 0, 1, 1)
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if "fl" in screw_positions and fl:
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bedgrid.attach(self.buttons['fl'], 1, 2, 1, 1)
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if "fr" in screw_positions and fr:
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bedgrid.attach(self.buttons['fr'], 3, 2, 1, 1)
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if "br" in screw_positions and br:
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bedgrid.attach(self.buttons['br'], 3, 0, 1, 1)
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if "bm" in screw_positions and bm:
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bedgrid.attach(self.buttons['bm'], 2, 0, 1, 1)
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if "fm" in screw_positions and fm:
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bedgrid.attach(self.buttons['fm'], 2, 2, 1, 1)
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if "lm" in screw_positions and lm:
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bedgrid.attach(self.buttons['lm'], 1, 1, 1, 1)
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if "rm" in screw_positions and rm:
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bedgrid.attach(self.buttons['rm'], 3, 1, 1, 1)
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if "center" in screw_positions and center:
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bedgrid.attach(self.buttons['center'], 2, 1, 1, 1)
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self.buttons['center'].connect("clicked", self.go_to_position, center)
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else:
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label = Gtk.Label(
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_("Bed screw configuration:") + f" {nscrews}\n\n"
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+ _("Not supported for auto-detection, it needs to be configured in klipperscreen.conf")
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)
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label.set_line_wrap_mode(Pango.WrapMode.WORD_CHAR)
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label.set_line_wrap(True)
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grid.attach(label, 1, 0, 3, 2)
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self.content.add(grid)
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return
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if rotation == 90:
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# fl lm bl
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# fm bm
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# fr rm br
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self.buttons['bl'].connect("clicked", self.go_to_position, fl)
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self.buttons['bm'].connect("clicked", self.go_to_position, lm)
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self.buttons['br'].connect("clicked", self.go_to_position, bl)
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self.buttons['rm'].connect("clicked", self.go_to_position, bm)
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self.buttons['fr'].connect("clicked", self.go_to_position, br)
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self.buttons['fm'].connect("clicked", self.go_to_position, rm)
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self.buttons['fl'].connect("clicked", self.go_to_position, fr)
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self.buttons['lm'].connect("clicked", self.go_to_position, fm)
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self.screw_dict = {
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'bl': fl,
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'bm': lm,
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'br': bl,
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'rm': bm,
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'fr': br,
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'fm': rm,
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'fl': fr,
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'lm': fm
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}
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elif rotation == 180:
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# fr fm fl
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# rm lm
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# br bm bl
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self.buttons['bl'].connect("clicked", self.go_to_position, fr)
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self.buttons['bm'].connect("clicked", self.go_to_position, fm)
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self.buttons['br'].connect("clicked", self.go_to_position, fl)
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self.buttons['rm'].connect("clicked", self.go_to_position, lm)
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self.buttons['fr'].connect("clicked", self.go_to_position, bl)
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self.buttons['fm'].connect("clicked", self.go_to_position, bm)
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self.buttons['fl'].connect("clicked", self.go_to_position, br)
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self.buttons['lm'].connect("clicked", self.go_to_position, rm)
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self.screw_dict = {
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'bl': fr,
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'bm': fm,
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'br': fl,
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'rm': lm,
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'fr': bl,
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'fm': bm,
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'fl': br,
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'lm': rm
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}
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elif rotation == 270:
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# br rm fr
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# bm fm
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# bl lm fl
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self.buttons['bl'].connect("clicked", self.go_to_position, br)
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self.buttons['bm'].connect("clicked", self.go_to_position, rm)
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self.buttons['br'].connect("clicked", self.go_to_position, fr)
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self.buttons['rm'].connect("clicked", self.go_to_position, fm)
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self.buttons['fr'].connect("clicked", self.go_to_position, fl)
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self.buttons['fm'].connect("clicked", self.go_to_position, lm)
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self.buttons['fl'].connect("clicked", self.go_to_position, bl)
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self.buttons['lm'].connect("clicked", self.go_to_position, bm)
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self.screw_dict = {
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'bl': br,
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'bm': rm,
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'br': fr,
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'rm': fm,
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'fr': fl,
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'fm': lm,
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'fl': bl,
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'lm': bm
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}
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else:
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# bl bm br
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# lm rm
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# fl fm fr
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self.buttons['bl'].connect("clicked", self.go_to_position, bl)
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self.buttons['bm'].connect("clicked", self.go_to_position, bm)
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self.buttons['br'].connect("clicked", self.go_to_position, br)
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self.buttons['rm'].connect("clicked", self.go_to_position, rm)
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self.buttons['fr'].connect("clicked", self.go_to_position, fr)
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self.buttons['fm'].connect("clicked", self.go_to_position, fm)
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self.buttons['fl'].connect("clicked", self.go_to_position, fl)
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self.buttons['lm'].connect("clicked", self.go_to_position, lm)
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self.screw_dict = {
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'bl': bl,
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'bm': bm,
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'br': br,
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'rm': rm,
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'fr': fr,
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'fm': fm,
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'fl': fl,
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'lm': lm
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}
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self.screw_dict['center'] = center
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grid.attach(bedgrid, 1, 0, 3, 2)
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self.content.add(grid)
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def activate(self):
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for key, value in self.screw_dict.items():
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self.buttons[key].set_label(f"{value}")
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def home(self):
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# Test if all axes have been homed. Home if necessary.
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if self._printer.get_stat("toolhead", "homed_axes") != "xyz":
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self._screen._ws.klippy.gcode_script("G28")
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# do Z_TILT_CALIBRATE if applicable.
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if self._printer.config_section_exists("z_tilt"):
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self._screen._ws.klippy.gcode_script("Z_TILT_ADJUST")
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def go_to_position(self, widget, position):
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self.home()
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logging.debug(f"Going to position: {position}")
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script = [
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f"{KlippyGcodes.MOVE_ABSOLUTE}",
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f"G1 Z{self.horizontal_move_z} F{self.lift_speed * 60}\n",
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f"G1 X{position[0]} Y{position[1]} F{self.horizontal_speed * 60}\n",
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f"G1 Z{self.probe_z_height} F{self.lift_speed * 60}\n"
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]
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self._screen._ws.klippy.gcode_script(
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"\n".join(script)
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)
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def disable_motors(self, widget):
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self._screen._ws.klippy.gcode_script(
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"M18" # Disable motors
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)
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def process_busy(self, busy):
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for button in self.buttons:
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if button == "screws":
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self.buttons[button].set_sensitive(
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self._printer.config_section_exists("screws_tilt_adjust")
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and (not busy))
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continue
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self.buttons[button].set_sensitive((not busy))
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def process_update(self, action, data):
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if action == "notify_busy":
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self.process_busy(data)
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return
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if action != "notify_gcode_response":
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return
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if data.startswith('!!'):
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self.response_count = 0
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self.buttons['screws'].set_sensitive(True)
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return
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result = re.match(
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"^// (.*) : [xX= ]+([\\-0-9\\.]+), [yY= ]+([\\-0-9\\.]+), [zZ= ]+[\\-0-9\\.]+ :" +
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" (Adjust ->|adjust) ([CW]+ [0-9:]+)",
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data
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)
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# screws_tilt_adjust uses PROBE positions and was offseted for the buttons to work equal to bed_screws
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# for the result we need to undo the offset
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if result:
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x = round(float(result[2]) + self.x_offset, 1)
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y = round(float(result[3]) + self.y_offset, 1)
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for key, value in self.screw_dict.items():
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if value and x == value[0] and y == value[1]:
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logging.debug(f"X: {x} Y: {y} Adjust: {result[5]} Pos: {key}")
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self.buttons[key].set_label(result[5])
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break
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self.response_count += 1
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if self.response_count >= len(self.screws) - 1:
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self.buttons['screws'].set_sensitive(True)
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else:
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result = re.match(
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"^// (.*) : [xX= ]+([\\-0-9\\.]+), [yY= ]+([\\-0-9\\.]+), [zZ= ]+[\\-0-9\\.]",
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data
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)
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# screws_tilt_adjust uses PROBE positions and was offseted for the buttons to work equal to bed_screws
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# for the result we need to undo the offset
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if result and re.search('base', result[1]):
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x = round(float(result[2]) + self.x_offset, 1)
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y = round(float(result[3]) + self.y_offset, 1)
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logging.debug(f"X: {x} Y: {y} is the reference")
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for key, value in self.screw_dict.items():
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if value and x == value[0] and y == value[1]:
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logging.debug(f"X: {x} Y: {y} Pos: {key}")
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self.buttons[key].set_label(_("Reference"))
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def _get_screws(self, config_section_name):
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screws = []
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config_section = self._printer.get_config_section(config_section_name)
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logging.debug(config_section_name)
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for item in config_section:
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logging.debug(f"{item}: {config_section[item]}")
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if item == 'probe_speed':
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self.lift_speed = float(config_section[item])
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elif item == 'speed':
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self.horizontal_speed = float(config_section[item])
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elif item == 'horizontal_move_z':
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self.horizontal_move_z = float(config_section[item])
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elif item == 'probe_height':
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self.probe_z_height = float(config_section[item])
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else:
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result = re.match(r"([\-0-9\.]+)\s*,\s*([\-0-9\.]+)", config_section[item])
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if result:
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screws.append([
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round(float(result[1]), 1),
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round(float(result[2]), 1)
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])
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return sorted(screws, key=lambda s: (float(s[1]), float(s[0])))
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def screws_tilt_calculate(self, widget):
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self.home()
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self.response_count = 0
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self.buttons['screws'].set_sensitive(False)
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self._screen._ws.klippy.gcode_script("SCREWS_TILT_CALCULATE")
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