def main(): args = parse_args() agent = load_agent(args) board_size = args.board_size game = GameState.new_game(board_size) if args.playas == 'black': human_play = Player.black elif args.playas == 'white': human_play = Player.white else: raise ValueError('Unknown option for playas: {}'.format(args.playas)) while not game.is_over(): print_board(game.board) if game.nplayer == human_play: human_move = input('-- ') if len(human_move) > 1: point = point_from_coord(human_move.strip()) move = Move.play(point) else: move = Move.pass_turn() else: move = agent.select_move(game) print_move(game.nplayer, move) game = game.apply_move(move) winner = game.winner() if winner is None: print("Tie") elif winner == Player.black: print("Black win") else: print("White win")
def main(): board_size = 3 game = GameState.new_game(board_size) bots = { Player.black: MCTSAgent(362000, 1., 128), Player.white: MCTSAgent(362000, 1., 128), # Player.black : MinimaxAgent(5, None), # Player.white : MinimaxAgent(5, None), } while not game.is_over(): time.sleep(0.1) print_board(game.board) bot_move = bots[game.nplayer].select_move(game) print_move(game.nplayer, bot_move) game = game.apply_move(bot_move) print_board(game.board) winner = game.winner() if winner is None: print("Tie") elif winner == Player.black: print("Black won") else: print("White won")
def main(): board_size = 9 game = GameState.new_game(board_size) bots = { # Player.black : RandomAgent(), # Player.white : RandomAgent(), Player.black: FastRandomAgent(board_size), Player.white: FastRandomAgent(board_size), } while not game.is_over(): time.sleep(0.1) # slow down so we can observe #print(chr(27) + "[2J") #clear screen print_board(game.board) bot_move = bots[game.nplayer].select_move(game) print_move(game.nplayer, bot_move) game = game.apply_move(bot_move) winner = game.winner() if winner is None: print("Tie") elif winner == Player.black: print("Black win") else: print("White win")
def main(): args = parse_args() board_size = args.size game = GameState.new_game(board_size) #bot = RandomAgent() bot = MCTSAgent(100, 1., 64) while not game.is_over(): print_board(game.board) if game.nplayer == Player.black: human_move = input('-- ') if len(human_move) > 1: point = point_from_coord(human_move.strip()) move = Move.play(point) else: move = Move.pass_turn() else: move = bot.select_move(game) print_move(game.nplayer, move) game = game.apply_move(move) winner = game.winner() if winner is None: print("Tie") elif winner == Player.black: print("Black win") else: print("White win")
def play(self): while not self.stopped: if self.game_state.nplayer == self.our_color: self.play_our_move() else: self.play_their_move() print_board(self.game_state.board) print('Estimated result: ') score = AreaScore(self.game_state.board) print(score)
def generate_game(board_size, rounds, max_moves, temperature): boards, moves = [], [] encoder = get_encoder_by_name('oneplane', board_size) game = GameState.new_game(board_size) bot = MCTSAgent(100, 1., 1) num_moves = 0 while not game.is_over(): print_board(game.board) move = bot.select_move(game) if move.is_play: boards.append(encoder.encode(game)) move_one_hot = np.zeros(encoder.num_points()) move_one_hot[encoder.encode_point(move.pt)] = 1 moves.append(move_one_hot) print_move(game.nplayer, move) game = game.apply_move(move) num_moves += 1 if num_moves > max_moves: break return np.array(boards), np.array(moves)
def main(): args = parse_args() with open(args.file) as fd: data = fd.read() sgf = sgf_game.from_string(data) gs, first_move_done = new_game_from_handicap(sgf) print_board(gs.board) for item in sgf.main_sequence_iter(): color, move_tuple = item.get_move() point = None if color is not None: if move_tuple is not None: row, col = move_tuple point = Point(row + 1, col + 1) move = Move.play(point) print('Move ({},{})'.format(row + 1, col + 1)) else: move = Move.pass_turn() gs = gs.apply_move(move) print_board(gs.board)
def main(): board_size = 3 game = GameState.new_game(board_size) #bot = MinimaxAgent(5, None) bot = MCTSAgent(362000, 0.1, 64) while not game.is_over(): print_board(game.board) if game.nplayer == Player.black: human_move = input('-- ') point = point_from_coord(human_move.strip()) move = Move.play(point) else: move = bot.select_move(game) print_move(game.nplayer, move) game = game.apply_move(move) print_board(game.board) winner = game.winner() if winner is None: print("Tie") elif winner == Player.black: print("Human won") else: print("Bot won")
def handle_showboard(self): print_board(self.game_state.board) return response.success()