class KaTrainGui(Screen, KaTrainBase): """Top level class responsible for tying everything together""" zen = NumericProperty(0) controls = ObjectProperty(None) def __init__(self, **kwargs): super().__init__(**kwargs) self.engine = None self.new_game_popup = None self.fileselect_popup = None self.config_popup = None self.ai_settings_popup = None self.teacher_settings_popup = None self.timer_settings_popup = None self.idle_analysis = False self.message_queue = Queue() self._keyboard = Window.request_keyboard(None, self, "") self._keyboard.bind(on_key_down=self._on_keyboard_down) Clock.schedule_interval(self.animate_pondering, 0.1) def log(self, message, level=OUTPUT_INFO): super().log(message, level) if level == OUTPUT_KATAGO_STDERR and "ERROR" not in self.controls.status.text: if "starting" in message.lower(): self.controls.set_status("KataGo engine starting...", STATUS_INFO) if message.startswith("Tuning"): self.controls.set_status( "KataGo is tuning settings for first startup, please wait." + message, STATUS_INFO) return if "ready" in message.lower(): self.controls.set_status("KataGo engine ready.", STATUS_INFO) if (level == OUTPUT_ERROR or (level == OUTPUT_KATAGO_STDERR and "error" in message.lower() and "tuning" not in message.lower())) and getattr( self, "controls", None): self.controls.set_status(f"ERROR: {message}", STATUS_ERROR) def animate_pondering(self, *_args): if not self.idle_analysis: self.board_controls.engine_status_pondering = -1 else: self.board_controls.engine_status_pondering += 5 @property def play_analyze_mode(self): return self.play_mode.mode def toggle_continuous_analysis(self): if self.idle_analysis: self.controls.set_status("", STATUS_INFO) self.idle_analysis = not self.idle_analysis self.update_state() def start(self): if self.engine: return self.board_gui.trainer_config = self.config("trainer") self.engine = KataGoEngine(self, self.config("engine")) threading.Thread(target=self._message_loop_thread, daemon=True).start() self._do_new_game() def update_gui(self, cn, redraw_board=False): # Handle prisoners and next player display prisoners = self.game.prisoner_count top, bot = [w.__self__ for w in self.board_controls.circles] # no weakref if self.next_player_info.player == "W": top, bot = bot, top self.controls.players["W"].active = True self.controls.players["B"].active = False else: self.controls.players["W"].active = False self.controls.players["B"].active = True self.board_controls.mid_circles_container.clear_widgets() self.board_controls.mid_circles_container.add_widget(bot) self.board_controls.mid_circles_container.add_widget(top) self.controls.players["W"].captures = prisoners["W"] self.controls.players["B"].captures = prisoners["B"] # update engine status dot if not self.engine or not self.engine.katago_process or self.engine.katago_process.poll( ) is not None: self.board_controls.engine_status_col = Theme.ENGINE_DOWN_COLOR elif len(self.engine.queries) == 0: self.board_controls.engine_status_col = Theme.ENGINE_READY_COLOR else: self.board_controls.engine_status_col = Theme.ENGINE_BUSY_COLOR self.board_controls.queries_remaining = len(self.engine.queries) # redraw board/stones if redraw_board: self.board_gui.draw_board() self.board_gui.redraw_board_contents_trigger() self.controls.update_evaluation() self.controls.update_timer(1) # update move tree self.controls.move_tree.current_node = self.game.current_node def update_state(self, redraw_board=False): # redirect to message queue thread self("update_state", redraw_board=redraw_board) def _do_update_state( self, redraw_board=False ): # is called after every message and on receiving analyses and config changes # AI and Trainer/auto-undo handlers if not self.game or not self.game.current_node: return cn = self.game.current_node last_player, next_player = self.players_info[ cn.player], self.players_info[cn.next_player] if self.play_analyze_mode == MODE_PLAY and self.nav_drawer.state != "open" and self.popup_open is None: teaching_undo = cn.player and last_player.being_taught and cn.parent if (teaching_undo and cn.analysis_complete and cn.parent.analysis_complete and not cn.children and not self.game.end_result): self.game.analyze_undo(cn) # not via message loop if ( cn.analysis_complete and next_player.ai and not cn.children and not self.game.end_result and not (teaching_undo and cn.auto_undo is None) ): # cn mismatch stops this if undo fired. avoid message loop here or fires repeatedly. self._do_ai_move(cn) Clock.schedule_once(self.board_gui.play_stone_sound, 0.25) if len(self.engine.queries) == 0 and self.idle_analysis: self("analyze-extra", "extra", continuous=True) Clock.schedule_once( lambda _dt: self.update_gui(cn, redraw_board=redraw_board), -1) # trigger? def update_player(self, bw, **kwargs): super().update_player(bw, **kwargs) if self.game: sgf_name = self.game.root.get_property("P" + bw) self.players_info[ bw].name = None if not sgf_name or SGF_INTERNAL_COMMENTS_MARKER in sgf_name else sgf_name if self.controls: self.controls.update_players() self.update_state() for player_setup_block in PlayerSetupBlock.INSTANCES: player_setup_block.update_player_info(bw, self.players_info[bw]) def set_note(self, note): self.game.current_node.note = note # The message loop is here to make sure moves happen in the right order, and slow operations don't hang the GUI def _message_loop_thread(self): while True: game, msg, args, kwargs = self.message_queue.get() try: self.log( f"Message Loop Received {msg}: {args} for Game {game}", OUTPUT_EXTRA_DEBUG) if game != self.game.game_id: self.log( f"Message skipped as it is outdated (current game is {self.game.game_id}", OUTPUT_EXTRA_DEBUG) continue fn = getattr(self, f"_do_{msg.replace('-','_')}") fn(*args, **kwargs) if msg != "update_state": self._do_update_state() except Exception as exc: self.log( f"Exception in processing message {msg} {args}: {exc}", OUTPUT_ERROR) traceback.print_exc() def __call__(self, message, *args, **kwargs): if self.game: if message.endswith( "popup"): # gui code needs to run in main kivy thread. fn = getattr(self, f"_do_{message.replace('-', '_')}") Clock.schedule_once(lambda _dt: fn(*args, **kwargs), -1) else: # game related actions self.message_queue.put( [self.game.game_id, message, args, kwargs]) def _do_new_game(self, move_tree=None, analyze_fast=False, sgf_filename=None): self.idle_analysis = False mode = self.play_analyze_mode if (move_tree is not None and mode == MODE_PLAY) or (move_tree is None and mode == MODE_ANALYZE): self.play_mode.switch_ui_mode( ) # for new game, go to play, for loaded, analyze self.board_gui.animating_pv = None self.engine.on_new_game() # clear queries self.game = Game(self, self.engine, move_tree=move_tree, analyze_fast=analyze_fast, sgf_filename=sgf_filename) if move_tree: for bw, player_info in self.players_info.items(): player_info.player_type = PLAYER_HUMAN player_info.player_subtype = PLAYING_NORMAL player_info.sgf_rank = move_tree.root.get_property(bw + "R") player_info.calculated_rank = None self.update_player(bw) self.controls.graph.initialize_from_game(self.game.root) self.update_state(redraw_board=True) def _do_insert_mode(self, mode="toggle"): self.game.set_insert_mode(mode) if self.play_analyze_mode != MODE_ANALYZE: self.play_mode.switch_ui_mode() def _do_ai_move(self, node=None): if node is None or self.game.current_node == node: mode = self.next_player_info.strategy settings = self.config(f"ai/{mode}") if settings is not None: generate_ai_move(self.game, mode, settings) else: self.log(f"AI Mode {mode} not found!", OUTPUT_ERROR) def _do_undo(self, n_times=1): if n_times == "smart": n_times = 1 if self.play_analyze_mode == MODE_PLAY and self.last_player_info.ai and self.next_player_info.human: n_times = 2 self.board_gui.animating_pv = None self.game.undo(n_times) def _do_resign(self): self.game.current_node.end_state = f"{self.game.current_node.player}+R" def _do_redo(self, n_times=1): self.board_gui.animating_pv = None self.game.redo(n_times) def _do_find_mistake(self, fn="redo"): self.board_gui.animating_pv = None getattr(self.game, fn)(9999, stop_on_mistake=self.config("trainer/eval_thresholds")[-4]) def _do_cycle_children(self, *args): self.board_gui.animating_pv = None self.game.cycle_children(*args) def _do_switch_branch(self, *args): self.board_gui.animating_pv = None self.controls.move_tree.switch_branch(*args) def _do_play(self, coords): self.board_gui.animating_pv = None try: self.game.play(Move(coords, player=self.next_player_info.player)) except IllegalMoveException as e: self.controls.set_status(f"Illegal Move: {str(e)}", STATUS_ERROR) def _do_analyze_extra(self, mode, **kwargs): self.game.analyze_extra(mode, **kwargs) def _do_play_to_end(self): self.game.play_to_end() def _do_select_box(self): self.controls.set_status(i18n._("analysis:region:start"), STATUS_INFO) self.board_gui.selecting_region_of_interest = True def _do_new_game_popup(self): self.controls.timer.paused = True if not self.new_game_popup: self.new_game_popup = I18NPopup( title_key="New Game title", size=[dp(800), dp(800)], content=NewGamePopup(self)).__self__ self.new_game_popup.content.popup = self.new_game_popup self.new_game_popup.open() self.new_game_popup.content.update_from_current_game() def _do_timer_popup(self): self.controls.timer.paused = True if not self.timer_settings_popup: self.timer_settings_popup = I18NPopup( title_key="timer settings", size=[dp(600), dp(500)], content=ConfigTimerPopup(self)).__self__ self.timer_settings_popup.content.popup = self.timer_settings_popup self.timer_settings_popup.open() def _do_teacher_popup(self): self.controls.timer.paused = True if not self.teacher_settings_popup: self.teacher_settings_popup = I18NPopup( title_key="teacher settings", size=[dp(800), dp(800)], content=ConfigTeacherPopup(self)).__self__ self.teacher_settings_popup.content.popup = self.teacher_settings_popup self.teacher_settings_popup.open() def _do_config_popup(self): self.controls.timer.paused = True if not self.config_popup: self.config_popup = I18NPopup(title_key="general settings title", size=[dp(1200), dp(950)], content=ConfigPopup(self)).__self__ self.config_popup.content.popup = self.config_popup self.config_popup.open() def _do_ai_popup(self): self.controls.timer.paused = True if not self.ai_settings_popup: self.ai_settings_popup = I18NPopup( title_key="ai settings", size=[dp(750), dp(750)], content=ConfigAIPopup(self)).__self__ self.ai_settings_popup.content.popup = self.ai_settings_popup self.ai_settings_popup.open() def load_sgf_file(self, file, fast=False, rewind=True): try: move_tree = KaTrainSGF.parse_file(file) except (ParseError, FileNotFoundError) as e: self.log( i18n._("Failed to load SGF").format(error=e), OUTPUT_ERROR) return self._do_new_game(move_tree=move_tree, analyze_fast=fast, sgf_filename=file) if not rewind: self.game.redo(999) def _do_analyze_sgf_popup(self): if not self.fileselect_popup: popup_contents = LoadSGFPopup() popup_contents.filesel.path = os.path.abspath( os.path.expanduser(self.config("general/sgf_load", "."))) self.fileselect_popup = I18NPopup(title_key="load sgf title", size=[dp(1200), dp(800)], content=popup_contents).__self__ def readfile(*_args): filename = popup_contents.filesel.filename self.fileselect_popup.dismiss() path, file = os.path.split(filename) if path != self.config("general/sgf_load"): self.log(f"Updating sgf load path default to {path}", OUTPUT_DEBUG) self._config["general"]["sgf_load"] = path self.save_config("general") self.load_sgf_file(filename, popup_contents.fast.active, popup_contents.rewind.active) popup_contents.filesel.on_success = readfile popup_contents.filesel.on_submit = readfile self.fileselect_popup.open() self.fileselect_popup.content.filesel.ids.list_view._trigger_update() def _do_save_game(self, filename=None): filename = filename or self.game.sgf_filename if not filename: return self("save-game-as-popup") try: msg = self.game.write_sgf(filename) self.log(msg, OUTPUT_INFO) self.controls.set_status(msg, STATUS_INFO, check_level=False) except Exception as e: self.log(f"Failed to save SGF to {filename}: {e}", OUTPUT_ERROR) def _do_save_game_as_popup(self): popup_contents = SaveSGFPopup( suggested_filename=self.game.generate_filename()) save_game_popup = I18NPopup(title_key="save sgf title", size=[dp(1200), dp(800)], content=popup_contents).__self__ def readfile(*_args): filename = popup_contents.filesel.filename if not filename.lower().endswith(".sgf"): filename += ".sgf" save_game_popup.dismiss() path, file = os.path.split(filename.strip()) if not path: path = popup_contents.filesel.path # whatever dir is shown if path != self.config("general/sgf_save"): self.log(f"Updating sgf save path default to {path}", OUTPUT_DEBUG) self._config["general"]["sgf_save"] = path self.save_config("general") self._do_save_game(os.path.join(path, file)) popup_contents.filesel.on_success = readfile popup_contents.filesel.on_submit = readfile save_game_popup.open() def load_sgf_from_clipboard(self): clipboard = Clipboard.paste() if not clipboard: self.controls.set_status("Ctrl-V pressed but clipboard is empty.", STATUS_INFO) return url_match = re.match(r"(?P<url>https?://[^\s]+)", clipboard) if url_match: self.log("Recognized url: " + url_match.group(), OUTPUT_INFO) http = urllib3.PoolManager() response = http.request("GET", url_match.group()) clipboard = response.data.decode("utf-8") try: move_tree = KaTrainSGF.parse_sgf(clipboard) except Exception as exc: self.controls.set_status( i18n._("Failed to import from clipboard").format( error=exc, contents=clipboard[:50]), STATUS_INFO) return move_tree.nodes_in_tree[-1].analyze( self.engine, analyze_fast=False) # speed up result for looking at end of game self._do_new_game(move_tree=move_tree, analyze_fast=True) self("redo", 9999) self.log("Imported game from clipboard.", OUTPUT_INFO) def on_touch_up(self, touch): if (self.board_gui.collide_point(*touch.pos) or self.board_controls.collide_point(*touch.pos) or self.controls.move_tree.collide_point(*touch.pos)): if touch.is_mouse_scrolling: if touch.button == "scrollup": self("redo") elif touch.button == "scrolldown": self("undo") return super().on_touch_up(touch) @property def shortcuts(self): return { "q": self.analysis_controls.show_children, "w": self.analysis_controls.eval, "e": self.analysis_controls.hints, "t": self.analysis_controls.ownership, "r": self.analysis_controls.policy, "enter": ("ai-move", ), "numpadenter": ("ai-move", ), "a": ("analyze-extra", "extra"), "s": ("analyze-extra", "equalize"), "d": ("analyze-extra", "sweep"), "f": ("analyze-extra", "alternative"), "g": ("select-box", ), "i": ("insert-mode", ), "p": ("play", None), "l": ("play-to-end", ), "b": ("undo", "branch"), "down": ("switch-branch", 1), "up": ("switch-branch", -1), "f5": ("timer-popup", ), "f6": ("teacher-popup", ), "f7": ("ai-popup", ), "f8": ("config-popup", ), } @property def popup_open(self) -> Popup: app = App.get_running_app() first_child = app.root_window.children[0] return first_child if isinstance(first_child, Popup) else None def _on_keyboard_down(self, _keyboard, keycode, _text, modifiers): ctrl_pressed = "ctrl" in modifiers if self.controls.note.focus: return # when making notes, don't allow keyboard shortcuts popup = self.popup_open if popup: if keycode[1] in ["f5", "f6", "f7", "f8"]: # switch between popups popup.dismiss() return elif keycode[1] in ["enter", "numpadenter"]: fn = getattr(popup.content, "on_submit", None) if fn: fn() return else: return shift_pressed = "shift" in modifiers shortcuts = self.shortcuts if keycode[1] == "tab": self.play_mode.switch_ui_mode() elif keycode[1] == "alt": self.nav_drawer.set_state("toggle") elif keycode[1] == "spacebar": self.toggle_continuous_analysis() elif keycode[1] == "k": self.board_gui.toggle_coordinates() elif keycode[1] in ["pause", "break", "f15"] and not ctrl_pressed: self.controls.timer.paused = not self.controls.timer.paused elif keycode[1] in ["`", "~", "f12"]: self.zen = (self.zen + 1) % 3 elif keycode[1] in ["left", "z"]: self("undo", 1 + shift_pressed * 9 + ctrl_pressed * 9999) elif keycode[1] in ["right", "x"]: self("redo", 1 + shift_pressed * 9 + ctrl_pressed * 9999) elif keycode[1] == "home": self("undo", 9999) elif keycode[1] == "end": self("redo", 9999) elif keycode[1] == "pageup": self.controls.move_tree.make_selected_node_main_branch() elif keycode[1] == "n" and not ctrl_pressed: self("find-mistake", "undo" if shift_pressed else "redo") elif keycode[1] == "delete" and ctrl_pressed: self.controls.move_tree.delete_selected_node() elif keycode[1] == "c" and not ctrl_pressed: self.controls.move_tree.toggle_selected_node_collapse() elif keycode[1] == "n" and ctrl_pressed: self("new-game-popup") elif keycode[1] == "l" and ctrl_pressed: self("analyze-sgf-popup") elif keycode[1] == "s" and ctrl_pressed: self("save-game") elif keycode[1] == "d" and ctrl_pressed: self("save-game-as-popup") elif keycode[1] == "c" and ctrl_pressed: Clipboard.copy(self.game.root.sgf()) self.controls.set_status(i18n._("Copied SGF to clipboard."), STATUS_INFO) elif keycode[1] == "v" and ctrl_pressed: self.load_sgf_from_clipboard() elif keycode[1] in shortcuts.keys() and not ctrl_pressed: shortcut = shortcuts[keycode[1]] if isinstance(shortcut, Widget): shortcut.trigger_action(duration=0) else: self(*shortcut) elif keycode[1] == "f9" and self.debug_level >= OUTPUT_EXTRA_DEBUG: import yappi yappi.set_clock_type("cpu") yappi.start() self.log("starting profiler", OUTPUT_ERROR) elif keycode[1] == "f10" and self.debug_level >= OUTPUT_EXTRA_DEBUG: import time import yappi stats = yappi.get_func_stats() filename = f"callgrind.{int(time.time())}.prof" stats.save(filename, type="callgrind") self.log(f"wrote profiling results to {filename}", OUTPUT_ERROR) return True
f"{gamedata['players']['black']['username']} ({rank_to_string(gamedata['players']['black']['rank'])})", ) if any(gamedata["players"][p]["username"] == "katrain-dev-beta" for p in ["white", "black"]): sgf_dir = "sgf_ogs_beta/" except Exception as e: _, _, tb = sys.exc_info() logger.log( f"error while processing gamedata: {e}\n{traceback.format_tb(tb)}", OUTPUT_ERROR) score = game.current_node.format_score() game.game_id += f"_{score}" logger.log(f"PROPERTIES {game.root.properties}", OUTPUT_ERROR) game.external_game = True filename = os.path.join(sgf_dir, game.generate_filename()) sgf = game.write_sgf(filename, trainer_config={ "eval_show_ai": True, "save_feedback": [True], "eval_thresholds": [] }) logger.log(f"Game ended. Score was {score} -> saved sgf to {sgf}", OUTPUT_ERROR) sys.stderr.flush() sys.stdout.flush() time.sleep(0.1) # ensure our logging gets handled print(f"= {score}\n") sys.stdout.flush() continue elif line.startswith("quit"):