import logging import re import gi gi.require_version("Gtk", "3.0") from gi.repository import Gtk from ks_includes.KlippyGcodes import KlippyGcodes from ks_includes.screen_panel import ScreenPanel class Panel(ScreenPanel): z_deltas = ["0.01", "0.05"] z_delta = z_deltas[-1] speed_deltas = ['5', '25'] s_delta = speed_deltas[-1] extrude_deltas = ['1', '2'] e_delta = extrude_deltas[-1] speed = extrusion = 100 z_offset = 0.0 def __init__(self, screen, title): super().__init__(screen, title) if self.ks_printer_cfg is not None: bs = self.ks_printer_cfg.get("z_babystep_values", "0.01, 0.05") if re.match(r'^[0-9,\.\s]+$', bs): bs = [str(i.strip()) for i in bs.split(',')] if 1 < len(bs) < 3: self.z_deltas = bs self.z_delta = self.z_deltas[-1] zgrid = Gtk.Grid() for j, i in enumerate(self.z_deltas): self.labels[f"zdelta{i}"] = self._gtk.Button(label=i) self.labels[f"zdelta{i}"].connect("clicked", self.change_percent_delta, "z_offset", float(i)) ctx = self.labels[f"zdelta{i}"].get_style_context() if j == 0: ctx.add_class("distbutton_top") elif j == len(self.z_deltas) - 1: ctx.add_class("distbutton_bottom") else: ctx.add_class("distbutton") if i == self.z_delta: ctx.add_class("distbutton_active") zgrid.attach(self.labels[f"zdelta{i}"], j, 0, 1, 1) spdgrid = Gtk.Grid() for j, i in enumerate(self.speed_deltas): self.labels[f"sdelta{i}"] = self._gtk.Button(label=f"{i}%") self.labels[f"sdelta{i}"].connect("clicked", self.change_percent_delta, "speed", int(i)) ctx = self.labels[f"sdelta{i}"].get_style_context() if j == 0: ctx.add_class("distbutton_top") elif j == len(self.speed_deltas) - 1: ctx.add_class("distbutton_bottom") else: ctx.add_class("distbutton") if i == self.s_delta: ctx.add_class("distbutton_active") spdgrid.attach(self.labels[f"sdelta{i}"], j, 0, 1, 1) extgrid = Gtk.Grid() for j, i in enumerate(self.extrude_deltas): self.labels[f"edelta{i}"] = self._gtk.Button(label=f"{i}%") self.labels[f"edelta{i}"].connect("clicked", self.change_percent_delta, "extrude", int(i)) ctx = self.labels[f"edelta{i}"].get_style_context() if j == 0: ctx.add_class("distbutton_top") elif j == len(self.extrude_deltas) - 1: ctx.add_class("distbutton_bottom") else: ctx.add_class("distbutton") if i == self.e_delta: ctx.add_class("distbutton_active") extgrid.attach(self.labels[f"edelta{i}"], j, 0, 1, 1) grid = self._gtk.HomogeneousGrid() grid.set_row_homogeneous(False) self.labels['z+'] = self._gtk.Button("z-farther", "Z+", "color1") self.labels['z-'] = self._gtk.Button("z-closer", "Z-", "color1") self.labels['zoffset'] = self._gtk.Button("refresh", ' 0.00' + _("mm"), "color1", self.bts, Gtk.PositionType.LEFT, 1) self.labels['speed+'] = self._gtk.Button("speed+", _("Speed +"), "color3") self.labels['speed-'] = self._gtk.Button("speed-", _("Speed -"), "color3") self.labels['speedfactor'] = self._gtk.Button("refresh", " 100%", "color3", self.bts, Gtk.PositionType.LEFT, 1) self.labels['extrude+'] = self._gtk.Button("flow+", _("Extrusion +"), "color4") self.labels['extrude-'] = self._gtk.Button("flow-", _("Extrusion -"), "color4") self.labels['extrudefactor'] = self._gtk.Button("refresh", " 100%", "color4", self.bts, Gtk.PositionType.LEFT, 1) if self._screen.vertical_mode: grid.attach(self.labels['z+'], 0, 0, 1, 1) grid.attach(self.labels['z-'], 1, 0, 1, 1) grid.attach(self.labels['zoffset'], 2, 0, 1, 1) grid.attach(zgrid, 0, 1, 3, 1) grid.attach(self.labels['speed-'], 0, 2, 1, 1) grid.attach(self.labels['speed+'], 1, 2, 1, 1) grid.attach(self.labels['speedfactor'], 2, 2, 1, 1) grid.attach(spdgrid, 0, 3, 3, 1) grid.attach(self.labels['extrude-'], 0, 4, 1, 1) grid.attach(self.labels['extrude+'], 1, 4, 1, 1) grid.attach(self.labels['extrudefactor'], 2, 4, 1, 1) grid.attach(extgrid, 0, 5, 3, 1) else: grid.attach(self.labels['zoffset'], 0, 0, 1, 1) grid.attach(self.labels['z+'], 0, 1, 1, 1) grid.attach(self.labels['z-'], 0, 2, 1, 1) grid.attach(zgrid, 0, 3, 1, 1) grid.attach(self.labels['speedfactor'], 1, 0, 1, 1) grid.attach(self.labels['speed+'], 1, 1, 1, 1) grid.attach(self.labels['speed-'], 1, 2, 1, 1) grid.attach(spdgrid, 1, 3, 1, 1) grid.attach(self.labels['extrudefactor'], 2, 0, 1, 1) grid.attach(self.labels['extrude+'], 2, 1, 1, 1) grid.attach(self.labels['extrude-'], 2, 2, 1, 1) grid.attach(extgrid, 2, 3, 1, 1) self.labels['z+'].connect("clicked", self.change_babystepping, "+") self.labels['zoffset'].connect("clicked", self.change_babystepping, "reset") self.labels['z-'].connect("clicked", self.change_babystepping, "-") self.labels['speed+'].connect("clicked", self.change_speed, "+") self.labels['speedfactor'].connect("clicked", self.change_speed, "reset") self.labels['speed-'].connect("clicked", self.change_speed, "-") self.labels['extrude+'].connect("clicked", self.change_extrusion, "+") self.labels['extrudefactor'].connect("clicked", self.change_extrusion, "reset") self.labels['extrude-'].connect("clicked", self.change_extrusion, "-") self.content.add(grid) def process_update(self, action, data): if action != "notify_status_update": return if "gcode_move" in data: if "homing_origin" in data["gcode_move"]: self.labels['zoffset'].set_label(f' {data["gcode_move"]["homing_origin"][2]:.3f}mm') self.z_offset = float(data["gcode_move"]["homing_origin"][2]) if "extrude_factor" in data["gcode_move"]: self.extrusion = round(float(data["gcode_move"]["extrude_factor"]) * 100) self.labels['extrudefactor'].set_label(f" {self.extrusion:3}%") if "speed_factor" in data["gcode_move"]: self.speed = round(float(data["gcode_move"]["speed_factor"]) * 100) self.labels['speedfactor'].set_label(f" {self.speed:3}%") def change_babystepping(self, widget, direction): if direction == "reset": self.labels['zoffset'].set_label(' 0.00mm') self._screen._send_action(widget, "printer.gcode.script", {"script": "SET_GCODE_OFFSET Z=0 MOVE=1"}) return elif direction == "+": self.z_offset += float(self.z_delta) elif direction == "-": self.z_offset -= float(self.z_delta) self.labels['zoffset'].set_label(f' {self.z_offset:.3f}mm') self._screen._send_action(widget, "printer.gcode.script", {"script": f"SET_GCODE_OFFSET Z_ADJUST={direction}{self.z_delta} MOVE=1"}) def change_extrusion(self, widget, direction): if direction == "+": self.extrusion += int(self.e_delta) elif direction == "-": self.extrusion -= int(self.e_delta) elif direction == "reset": self.extrusion = 100 self.extrusion = max(self.extrusion, 1) self.labels['extrudefactor'].set_label(f" {self.extrusion:3}%") self._screen._send_action(widget, "printer.gcode.script", {"script": KlippyGcodes.set_extrusion_rate(self.extrusion)}) def change_speed(self, widget, direction): if direction == "+": self.speed += int(self.s_delta) elif direction == "-": self.speed -= int(self.s_delta) elif direction == "reset": self.speed = 100 self.speed = max(self.speed, 1) self.labels['speedfactor'].set_label(f" {self.speed:3}%") self._screen._send_action(widget, "printer.gcode.script", {"script": KlippyGcodes.set_speed_rate(self.speed)}) def change_percent_delta(self, widget, array, delta): logging.info(f"### Delta {delta}") widget.get_style_context().add_class("distbutton_active") if array == "z_offset": self.labels[f"zdelta{self.z_delta}"].get_style_context().remove_class("distbutton_active") self.z_delta = delta elif array == "speed": self.labels[f"sdelta{self.s_delta}"].get_style_context().remove_class("distbutton_active") self.s_delta = delta elif array == "extrude": self.labels[f"edelta{self.e_delta}"].get_style_context().remove_class("distbutton_active") self.e_delta = delta