import re import logging import gi gi.require_version("Gtk", "3.0") from gi.repository import Gtk, Pango from ks_includes.KlippyGcodes import KlippyGcodes from ks_includes.screen_panel import ScreenPanel class Panel(ScreenPanel): distances = ['.1', '.5', '1', '5', '10', '25', '50'] distance = distances[-2] def __init__(self, screen, title): super().__init__(screen, title) if self.ks_printer_cfg is not None: dis = self.ks_printer_cfg.get("move_distances", '') if re.match(r'^[0-9,\.\s]+$', dis): dis = [str(i.strip()) for i in dis.split(',')] if 1 < len(dis) <= 7: self.distances = dis self.distance = self.distances[-2] self.settings = {} self.menu = ['move_menu'] self.buttons = { 'x+': self._gtk.Button("arrow-right", "X+", "color1"), 'x-': self._gtk.Button("arrow-left", "X-", "color1"), 'y+': self._gtk.Button("arrow-up", "Y+", "color2"), 'y-': self._gtk.Button("arrow-down", "Y-", "color2"), 'z+': self._gtk.Button("z-farther", "Z+", "color3"), 'z-': self._gtk.Button("z-closer", "Z-", "color3"), 'home': self._gtk.Button("home", _("Home"), "color4"), 'motors_off': self._gtk.Button("motor-off", _("Disable Motors"), "color4"), } self.buttons['x+'].connect("clicked", self.move, "X", "+") self.buttons['x-'].connect("clicked", self.move, "X", "-") self.buttons['y+'].connect("clicked", self.move, "Y", "+") self.buttons['y-'].connect("clicked", self.move, "Y", "-") self.buttons['z+'].connect("clicked", self.move, "Z", "+") self.buttons['z-'].connect("clicked", self.move, "Z", "-") self.buttons['home'].connect("clicked", self.home) script = {"script": "M18"} self.buttons['motors_off'].connect("clicked", self._screen._confirm_send_action, _("Are you sure you wish to disable motors?"), "printer.gcode.script", script) adjust = self._gtk.Button("settings", None, "color2", 1, Gtk.PositionType.LEFT, 1) adjust.connect("clicked", self.load_menu, 'options', _('Settings')) adjust.set_hexpand(False) grid = Gtk.Grid(row_homogeneous=True, column_homogeneous=True) if self._screen.vertical_mode: if self._screen.lang_ltr: grid.attach(self.buttons['x+'], 2, 1, 1, 1) grid.attach(self.buttons['x-'], 0, 1, 1, 1) grid.attach(self.buttons['z+'], 2, 2, 1, 1) grid.attach(self.buttons['z-'], 0, 2, 1, 1) else: grid.attach(self.buttons['x+'], 0, 1, 1, 1) grid.attach(self.buttons['x-'], 2, 1, 1, 1) grid.attach(self.buttons['z+'], 0, 2, 1, 1) grid.attach(self.buttons['z-'], 2, 2, 1, 1) grid.attach(adjust, 1, 2, 1, 1) grid.attach(self.buttons['y+'], 1, 0, 1, 1) grid.attach(self.buttons['y-'], 1, 1, 1, 1) else: if self._screen.lang_ltr: grid.attach(self.buttons['x+'], 2, 1, 1, 1) grid.attach(self.buttons['x-'], 0, 1, 1, 1) else: grid.attach(self.buttons['x+'], 0, 1, 1, 1) grid.attach(self.buttons['x-'], 2, 1, 1, 1) grid.attach(self.buttons['y+'], 1, 0, 1, 1) grid.attach(self.buttons['y-'], 1, 1, 1, 1) grid.attach(self.buttons['z+'], 3, 0, 1, 1) grid.attach(self.buttons['z-'], 3, 1, 1, 1) grid.attach(self.buttons['home'], 0, 0, 1, 1) grid.attach(self.buttons['motors_off'], 2, 0, 1, 1) distgrid = Gtk.Grid() for j, i in enumerate(self.distances): self.labels[i] = self._gtk.Button(label=i) self.labels[i].set_direction(Gtk.TextDirection.LTR) self.labels[i].connect("clicked", self.change_distance, i) ctx = self.labels[i].get_style_context() ctx.add_class("horizontal_togglebuttons") if i == self.distance: ctx.add_class("horizontal_togglebuttons_active") distgrid.attach(self.labels[i], j, 0, 1, 1) for p in ('pos_x', 'pos_y', 'pos_z'): self.labels[p] = Gtk.Label() self.labels['move_dist'] = Gtk.Label(label=_("Move Distance (mm)")) bottomgrid = Gtk.Grid(row_homogeneous=True, column_homogeneous=True) bottomgrid.set_direction(Gtk.TextDirection.LTR) bottomgrid.attach(self.labels['pos_x'], 0, 0, 1, 1) bottomgrid.attach(self.labels['pos_y'], 1, 0, 1, 1) bottomgrid.attach(self.labels['pos_z'], 2, 0, 1, 1) bottomgrid.attach(self.labels['move_dist'], 0, 1, 3, 1) if not self._screen.vertical_mode: bottomgrid.attach(adjust, 3, 0, 1, 2) self.labels['move_menu'] = Gtk.Grid(row_homogeneous=True, column_homogeneous=True) self.labels['move_menu'].attach(grid, 0, 0, 1, 3) self.labels['move_menu'].attach(bottomgrid, 0, 3, 1, 1) self.labels['move_menu'].attach(distgrid, 0, 4, 1, 1) self.content.add(self.labels['move_menu']) printer_cfg = self._printer.get_config_section("printer") # The max_velocity parameter is not optional in klipper config. # The minimum is 1, but least 2 values are needed to create a scale max_velocity = max(int(float(printer_cfg["max_velocity"])), 2) if "max_z_velocity" in printer_cfg: max_z_velocity = max(int(float(printer_cfg["max_z_velocity"])), 2) else: max_z_velocity = max_velocity configurable_options = [ {"invert_x": {"section": "main", "name": _("Invert X"), "type": "binary", "value": "False", "callback": self.reinit_panels}}, {"invert_y": {"section": "main", "name": _("Invert Y"), "type": "binary", "value": "False", "callback": self.reinit_panels}}, {"invert_z": {"section": "main", "name": _("Invert Z"), "type": "binary", "value": "False"}}, {"move_speed_xy": { "section": "main", "name": _("XY Speed (mm/s)"), "type": "scale", "value": "50", "range": [1, max_velocity], "step": 1}}, {"move_speed_z": { "section": "main", "name": _("Z Speed (mm/s)"), "type": "scale", "value": "10", "range": [1, max_z_velocity], "step": 1}} ] self.labels['options_menu'] = self._gtk.ScrolledWindow() self.labels['options'] = Gtk.Grid() self.labels['options_menu'].add(self.labels['options']) self.options = {} for option in configurable_options: name = list(option)[0] self.options.update(self.add_option('options', self.settings, name, option[name])) def reinit_panels(self, value): logging.info(self._screen.panels) self._screen.panels_reinit.append("bed_level") self._screen.panels_reinit.append("bed_mesh") def process_update(self, action, data): if action != "notify_status_update": return if "toolhead" in data and "max_velocity" in data["toolhead"]: max_vel = max(int(float(data["toolhead"]["max_velocity"])), 2) adj = self.options['move_speed_xy'].get_adjustment() adj.set_upper(max_vel) if "gcode_move" in data or "toolhead" in data and "homed_axes" in data["toolhead"]: homed_axes = self._printer.get_stat("toolhead", "homed_axes") for i, axis in enumerate(('x', 'y', 'z')): if axis not in homed_axes: self.labels[f"pos_{axis}"].set_text(f"{axis.upper()}: ?") elif "gcode_move" in data and "gcode_position" in data["gcode_move"]: self.labels[f"pos_{axis}"].set_text( f"{axis.upper()}: {data['gcode_move']['gcode_position'][i]:.2f}") def change_distance(self, widget, distance): logging.info(f"### Distance {distance}") self.labels[f"{self.distance}"].get_style_context().remove_class("horizontal_togglebuttons_active") self.labels[f"{distance}"].get_style_context().add_class("horizontal_togglebuttons_active") self.distance = distance def move(self, widget, axis, direction): if self._config.get_config()['main'].getboolean(f"invert_{axis.lower()}", False): direction = "-" if direction == "+" else "+" dist = f"{direction}{self.distance}" config_key = "move_speed_z" if axis == "Z" else "move_speed_xy" speed = None if self.ks_printer_cfg is None else self.ks_printer_cfg.getint(config_key, None) if speed is None: speed = self._config.get_config()['main'].getint(config_key, 20) speed = 60 * max(1, speed) script = f"{KlippyGcodes.MOVE_RELATIVE}\nG0 {axis}{dist} F{speed}" self._screen._send_action(widget, "printer.gcode.script", {"script": script}) if self._printer.get_stat("gcode_move", "absolute_coordinates"): self._screen._ws.klippy.gcode_script("G90") def back(self): if len(self.menu) > 1: self.unload_menu() return True return False def home(self, widget): if "delta" in self._printer.get_config_section("printer")['kinematics']: self._screen._send_action(widget, "printer.gcode.script", {"script": 'G28'}) return name = "homing" disname = self._screen._config.get_menu_name("move", name) menuitems = self._screen._config.get_menu_items("move", name) self._screen.show_panel("menu", disname, items=menuitems)