import logging import re 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): def __init__(self, screen, title): super().__init__(screen, title) self.current_extruder = self._printer.get_stat("toolhead", "extruder") macros = self._printer.get_config_section_list("gcode_macro ") self.load_filament = any("LOAD_FILAMENT" in macro.upper() for macro in macros) self.unload_filament = any("UNLOAD_FILAMENT" in macro.upper() for macro in macros) self.speeds = ['1', '2', '5', '25'] self.distances = ['5', '10', '15', '25'] if self.ks_printer_cfg is not None: dis = self.ks_printer_cfg.get("extrude_distances", '5, 10, 15, 25') if re.match(r'^[0-9,\s]+$', dis): dis = [str(i.strip()) for i in dis.split(',')] if 1 < len(dis) < 5: self.distances = dis vel = self.ks_printer_cfg.get("extrude_speeds", '1, 2, 5, 25') if re.match(r'^[0-9,\s]+$', vel): vel = [str(i.strip()) for i in vel.split(',')] if 1 < len(vel) < 5: self.speeds = vel self.distance = int(self.distances[1]) self.speed = int(self.speeds[1]) self.buttons = { 'extrude': self._gtk.Button("extrude", _("Extrude"), "color4"), 'load': self._gtk.Button("arrow-down", _("Load"), "color3"), 'unload': self._gtk.Button("arrow-up", _("Unload"), "color2"), 'retract': self._gtk.Button("retract", _("Retract"), "color1"), 'temperature': self._gtk.Button("heat-up", _("Temperature"), "color4"), 'spoolman': self._gtk.Button("spoolman", "Spoolman", "color3"), } self.buttons['extrude'].connect("clicked", self.extrude, "+") self.buttons['load'].connect("clicked", self.load_unload, "+") self.buttons['unload'].connect("clicked", self.load_unload, "-") self.buttons['retract'].connect("clicked", self.extrude, "-") self.buttons['temperature'].connect("clicked", self.menu_item_clicked, { "name": "Temperature", "panel": "temperature" }) self.buttons['spoolman'].connect("clicked", self.menu_item_clicked, { "name": "Spoolman", "panel": "spoolman" }) extgrid = self._gtk.HomogeneousGrid() limit = 5 i = 0 for extruder in self._printer.get_tools(): if self._printer.extrudercount > 1: self.labels[extruder] = self._gtk.Button(f"extruder-{i}", f"T{self._printer.get_tool_number(extruder)}") self.labels[extruder].connect("clicked", self.change_extruder, extruder) else: self.labels[extruder] = self._gtk.Button("extruder", "") if extruder == self.current_extruder: self.labels[extruder].get_style_context().add_class("button_active") if i < limit: extgrid.attach(self.labels[extruder], i, 0, 1, 1) i += 1 if i < (limit - 1): extgrid.attach(self.buttons['temperature'], i + 1, 0, 1, 1) if i < (limit - 2) and self._printer.spoolman: extgrid.attach(self.buttons['spoolman'], i + 2, 0, 1, 1) distgrid = Gtk.Grid() for j, i in enumerate(self.distances): self.labels[f"dist{i}"] = self._gtk.Button(label=i) self.labels[f"dist{i}"].connect("clicked", self.change_distance, int(i)) ctx = self.labels[f"dist{i}"].get_style_context() if ((self._screen.lang_ltr is True and j == 0) or (self._screen.lang_ltr is False and j == len(self.distances) - 1)): ctx.add_class("distbutton_top") elif ((self._screen.lang_ltr is False and j == 0) or (self._screen.lang_ltr is True and j == len(self.distances) - 1)): ctx.add_class("distbutton_bottom") else: ctx.add_class("distbutton") if int(i) == self.distance: ctx.add_class("distbutton_active") distgrid.attach(self.labels[f"dist{i}"], j, 0, 1, 1) speedgrid = Gtk.Grid() for j, i in enumerate(self.speeds): self.labels[f"speed{i}"] = self._gtk.Button(label=i) self.labels[f"speed{i}"].connect("clicked", self.change_speed, int(i)) ctx = self.labels[f"speed{i}"].get_style_context() if ((self._screen.lang_ltr is True and j == 0) or (self._screen.lang_ltr is False and j == len(self.speeds) - 1)): ctx.add_class("distbutton_top") elif ((self._screen.lang_ltr is False and j == 0) or (self._screen.lang_ltr is True and j == len(self.speeds) - 1)): ctx.add_class("distbutton_bottom") else: ctx.add_class("distbutton") if int(i) == self.speed: ctx.add_class("distbutton_active") speedgrid.attach(self.labels[f"speed{i}"], j, 0, 1, 1) distbox = Gtk.Box(orientation=Gtk.Orientation.VERTICAL) self.labels['extrude_dist'] = Gtk.Label(_("Distance (mm)")) distbox.pack_start(self.labels['extrude_dist'], True, True, 0) distbox.add(distgrid) speedbox = Gtk.Box(orientation=Gtk.Orientation.VERTICAL) self.labels['extrude_speed'] = Gtk.Label(_("Speed (mm/s)")) speedbox.pack_start(self.labels['extrude_speed'], True, True, 0) speedbox.add(speedgrid) filament_sensors = self._printer.get_filament_sensors() sensors = Gtk.Grid() sensors.set_size_request(self._gtk.content_width, -1) if len(filament_sensors) > 0: sensors.set_column_spacing(5) sensors.set_row_spacing(5) sensors.set_halign(Gtk.Align.CENTER) sensors.set_valign(Gtk.Align.CENTER) for s, x in enumerate(filament_sensors): if s > limit: break name = x[23:].strip() self.labels[x] = { 'label': Gtk.Label(self.prettify(name)), 'switch': Gtk.Switch(), 'box': Gtk.Box() } self.labels[x]['label'].set_halign(Gtk.Align.CENTER) self.labels[x]['label'].set_hexpand(True) self.labels[x]['label'].set_ellipsize(Pango.EllipsizeMode.END) self.labels[x]['switch'].set_property("width-request", round(self._gtk.font_size * 2)) self.labels[x]['switch'].set_property("height-request", round(self._gtk.font_size)) self.labels[x]['switch'].connect("notify::active", self.enable_disable_fs, name, x) self.labels[x]['box'].pack_start(self.labels[x]['label'], True, True, 10) self.labels[x]['box'].pack_start(self.labels[x]['switch'], False, False, 0) self.labels[x]['box'].get_style_context().add_class("filament_sensor") sensors.attach(self.labels[x]['box'], s, 0, 1, 1) grid = Gtk.Grid() grid.set_column_homogeneous(True) grid.attach(extgrid, 0, 0, 4, 1) if self._screen.vertical_mode: grid.attach(self.buttons['extrude'], 0, 1, 2, 1) grid.attach(self.buttons['retract'], 2, 1, 2, 1) grid.attach(self.buttons['load'], 0, 2, 2, 1) grid.attach(self.buttons['unload'], 2, 2, 2, 1) grid.attach(distbox, 0, 3, 4, 1) grid.attach(speedbox, 0, 4, 4, 1) grid.attach(sensors, 0, 5, 4, 1) else: grid.attach(self.buttons['extrude'], 0, 2, 1, 1) grid.attach(self.buttons['load'], 1, 2, 1, 1) grid.attach(self.buttons['unload'], 2, 2, 1, 1) grid.attach(self.buttons['retract'], 3, 2, 1, 1) grid.attach(distbox, 0, 3, 2, 1) grid.attach(speedbox, 2, 3, 2, 1) grid.attach(sensors, 0, 4, 4, 1) self.content.add(grid) def enable_buttons(self, enable): for button in self.buttons: if button in ("temperature", "spoolman"): continue self.buttons[button].set_sensitive(enable) def activate(self): if self._printer.state == "printing": self.enable_buttons(False) def process_update(self, action, data): if action == "notify_gcode_response": if "action:cancel" in data or "action:paused" in data: self.enable_buttons(True) elif "action:resumed" in data: self.enable_buttons(False) return if action != "notify_status_update": return for x in self._printer.get_tools(): if x in data: self.update_temp( x, self._printer.get_dev_stat(x, "temperature"), self._printer.get_dev_stat(x, "target"), self._printer.get_dev_stat(x, "power"), lines=2, ) if ("toolhead" in data and "extruder" in data["toolhead"] and data["toolhead"]["extruder"] != self.current_extruder): for extruder in self._printer.get_tools(): self.labels[extruder].get_style_context().remove_class("button_active") self.current_extruder = data["toolhead"]["extruder"] self.labels[self.current_extruder].get_style_context().add_class("button_active") for x in self._printer.get_filament_sensors(): if x in data: if 'enabled' in data[x]: self._printer.set_dev_stat(x, "enabled", data[x]['enabled']) self.labels[x]['switch'].set_active(data[x]['enabled']) if 'filament_detected' in data[x]: self._printer.set_dev_stat(x, "filament_detected", data[x]['filament_detected']) if self._printer.get_stat(x, "enabled"): if data[x]['filament_detected']: self.labels[x]['box'].get_style_context().remove_class("filament_sensor_empty") self.labels[x]['box'].get_style_context().add_class("filament_sensor_detected") else: self.labels[x]['box'].get_style_context().remove_class("filament_sensor_detected") self.labels[x]['box'].get_style_context().add_class("filament_sensor_empty") logging.info(f"{x}: {self._printer.get_stat(x)}") def change_distance(self, widget, distance): logging.info(f"### Distance {distance}") self.labels[f"dist{self.distance}"].get_style_context().remove_class("distbutton_active") self.labels[f"dist{distance}"].get_style_context().add_class("distbutton_active") self.distance = distance def change_extruder(self, widget, extruder): logging.info(f"Changing extruder to {extruder}") for tool in self._printer.get_tools(): self.labels[tool].get_style_context().remove_class("button_active") self.labels[extruder].get_style_context().add_class("button_active") self._screen._send_action(widget, "printer.gcode.script", {"script": f"T{self._printer.get_tool_number(extruder)}"}) def change_speed(self, widget, speed): logging.info(f"### Speed {speed}") self.labels[f"speed{self.speed}"].get_style_context().remove_class("distbutton_active") self.labels[f"speed{speed}"].get_style_context().add_class("distbutton_active") self.speed = speed def extrude(self, widget, direction): self._screen._ws.klippy.gcode_script(KlippyGcodes.EXTRUDE_REL) self._screen._send_action(widget, "printer.gcode.script", {"script": f"G1 E{direction}{self.distance} F{self.speed * 60}"}) def load_unload(self, widget, direction): if direction == "-": if not self.unload_filament: self._screen.show_popup_message("Macro UNLOAD_FILAMENT not found") else: self._screen._send_action(widget, "printer.gcode.script", {"script": f"UNLOAD_FILAMENT SPEED={self.speed * 60}"}) if direction == "+": if not self.load_filament: self._screen.show_popup_message("Macro LOAD_FILAMENT not found") else: self._screen._send_action(widget, "printer.gcode.script", {"script": f"LOAD_FILAMENT SPEED={self.speed * 60}"}) def enable_disable_fs(self, switch, gparams, name, x): if switch.get_active(): self._printer.set_dev_stat(x, "enabled", True) self._screen._ws.klippy.gcode_script(f"SET_FILAMENT_SENSOR SENSOR={name} ENABLE=1") if self._printer.get_stat(x, "filament_detected"): self.labels[x]['box'].get_style_context().add_class("filament_sensor_detected") else: self.labels[x]['box'].get_style_context().add_class("filament_sensor_empty") else: self._printer.set_dev_stat(x, "enabled", False) self._screen._ws.klippy.gcode_script(f"SET_FILAMENT_SENSOR SENSOR={name} ENABLE=0") self.labels[x]['box'].get_style_context().remove_class("filament_sensor_empty") self.labels[x]['box'].get_style_context().remove_class("filament_sensor_detected")