def __init__(self, player_array): ''' :param playerArray: Array of possible players :param boardSize: Board will have size [boardSize x boardSize] ''' # player_class = player_array['random'] players = list(player_array.values()) self.player1_color = 0 self.player2_color = 1 self.player1 = player_creator.create_player(players[0], self.player1_color, self.player2_color, BOARD_SIZE) self.player2 = player_creator.create_player(players[-1], self.player2_color, self.player1_color, BOARD_SIZE) self.board = GameBoard(board_size=BOARD_SIZE) self.sleep_time_ms = 200 self.gui = ReversiView(players=player_array, boardSize=BOARD_SIZE) self.gui.set_game(self) self.gui.set_board(self.board) self.clear_game() self.paused = False print('gui created')
def __init__(self, player_array): """ :param player_array: Array of possible players """ player_class = player_array['random'] self.player1_color = 0 self.player2_color = 1 self.player1 = player_class(self.player1_color, self.player2_color) self.player2 = player_class(self.player2_color, self.player1_color) self.board = GameBoard() self.sleep_time_ms = 200 self.gui = ReversiView(player_array) self.gui.set_game(self) self.gui.set_board(self.board) self.clear_game() self.paused = False print('gui created')
def __init__(self, player_array): ''' :param playerArray: Array of possible players :param boardSize: Board will have size [boardSize x boardSize] ''' player_class = player_array['random'] self.player1_color = 0 self.player2_color = 1 self.player1 = player_class(self.player1_color, self.player2_color) self.player2 = player_class(self.player2_color, self.player1_color) self.board = GameBoard() self.sleep_time_ms = 0 self.gui = ReversiView(player_array) self.gui.set_game(self) self.gui.set_board(self.board) self.clear_game() self.paused = False print('gui created')
class ReversiCreator(object): ''' Creator of the Reversi game with the GUI. ''' def __init__(self, player_array): ''' :param playerArray: Array of possible players :param boardSize: Board will have size [boardSize x boardSize] ''' player_class = player_array['random'] self.player1_color = 0 self.player2_color = 1 self.player1 = player_class(self.player1_color, self.player2_color) self.player2 = player_class(self.player2_color, self.player1_color) self.board = GameBoard() self.sleep_time_ms = 0 self.gui = ReversiView(player_array) self.gui.set_game(self) self.gui.set_board(self.board) self.clear_game() self.paused = False print('gui created') def clear_game(self): ''' Sets the game state to the initial value. ''' print('clear_game') self.max_times_ms = [0, 0] self.board.init_board() self.board.clear() stones = self.board.get_score() self.gui.print_board_state() self.gui.print_num_stones(stones) self.gui.inform(['', ''], 'black') def pause(self, to_pause): ''' Pause the game when it computer vs computer. :param to_pause: to pause or unpause. ''' self.paused = to_pause def get_player_move(self, q): ''' Returns current player move to Queue, meant for threaded call. Now deprecaded. :param q: Queue for returning the move with spent time. ''' start_time = time.time() move = self.current_player.move(self.board.get_board_copy()) endTime = time.time() moveTime = (endTime - start_time) * 1000 q.put({'time': moveTime, 'move': move}) def play_game(self, interactivePlayerColor=-1): ''' This function contains game loop that plays the game. Loop is exited when paused or interactive game. :param interactivePlayerColor: id of interactive player. If no interactive player then -1. ''' print('play game with interractive %d' % interactivePlayerColor) player_move_overtime = -1 next_player_id = -1 self.paused = False wrong_move = False #print('play_game') #print(self.player1.my_color) #print(self.player2.my_color) while self.board.can_play( self.current_player, self.current_player_color) and not self.paused: if interactivePlayerColor == self.current_player_color: inform_str = 'It is your turn' self.gui.inform(inform_str, 'green') break #q = multiprocessing.Queue() #p = multiprocessing.Process(target=self.get_player_move, args=(q,)) #p.start() # Wait for 1 second #p.join(1) #if p.is_alive(): # print("running too long - killing it") # p.terminate() # p.join() # player_move_overtime = self.current_player_color #if player_move_overtime != -1: # inform_str = 'Player %d move took to long - killed' % (self.current_player_color); # self.gui.inform(inform_str, 'red') # break #returned_move = q.get() #move_time = returned_move['time'] #move = returned_move['move'] start_time = time.time() move = self.current_player.move(self.board.get_board_copy()) endTime = time.time() move_time = (endTime - start_time) * 1000 if move_time > 1000: print("running too long - killing it") player_move_overtime = self.current_player_color if player_move_overtime != -1: inform_str = 'Player %d move took to long - killed' % ( self.current_player_color) self.gui.inform(inform_str, 'red') break self.max_times_ms[self.current_player_color] = max( self.max_times_ms[self.current_player_color], move_time) if move is None: print('Move is not correct!!!!') inform_str = 'Player %d return None instad of a valid move.' % ( self.current_player_color) self.gui.inform(inform_str, 'red') self.gui.wrong_move = True wrong_move = True break else: print('Player %d wants move [%d,%d]. Move takes %.3f ms.' % (self.current_player_color, move[0], move[1], move_time)) next_player_id = -1 if self.board.is_correct_move(move, self.current_player, self.current_player_color): print('Move is correct') wrong_move = False self.gui.wrong_move = False next_player_id = self.play_move(move) else: print('Move is not correct!!!!') inform_str = 'Player %d made wrong move [%d,%d]' % ( self.current_player_color, move[0], move[1]) self.gui.inform(inform_str, 'red') self.gui.wrong_move = True wrong_move = True break self.gui.print_board_state() self.gui.print_score() self.gui.print_move_max_times(self.max_times_ms) time.sleep(self.sleep_time_ms / 1000.0) if next_player_id == -1 and not self.paused and not wrong_move: self.print_final_info() def play_move(self, move): ''' Play move for current player. :param move: [x,y] move to play using current_player. ''' self.board.play_move(move, self.current_player, self.current_player_color) self.change_player() if not self.board.can_play(self.current_player, self.current_player_color): inform_str = 'No possible move for Player %d' % ( self.current_player_color) self.gui.inform(inform_str, 'red') self.change_player() if self.board.can_play(self.current_player, self.current_player_color): inform_str = 'Player %d plays again ' % ( self.current_player_color) self.gui.inform(inform_str, 'black') else: print('Game over') self.print_final_info() return -1 return self.current_player_color def change_player(self): ''' Change the current_player. ''' if self.current_player == self.player1: self.current_player = self.player2 self.current_player_color = self.player2_color else: self.current_player = self.player1 self.current_player_color = self.player1_color def print_final_info(self): ''' Prints the info after game is finished. ''' print('print_final_info') stones = self.board.get_score() self.gui.print_num_stones(stones) self.gui.print_move_max_times(self.max_times_ms) final_score = 'Final score:\tPlayer%d:Player%d\t[%d:%d]' % ( self.player1_color, self.player2_color, stones[0], stones[1]) print(final_score) who_wins = 'Draw' if stones[0] > stones[1]: who_wins = 'Player %d wins!' % (self.player1_color) elif stones[1] > stones[0]: who_wins = 'Player %d wins!' % (self.player2_color) print(who_wins) self.gui.inform([final_score, who_wins], 'green')
class ReversiCreator(object): """ Creator of the Reversi game with the GUI. """ def __init__(self, player_array): """ :param player_array: Array of possible players """ player_class = player_array['random'] self.player1_color = 0 self.player2_color = 1 self.player1 = player_class(self.player1_color, self.player2_color) self.player2 = player_class(self.player2_color, self.player1_color) self.board = GameBoard() self.sleep_time_ms = 200 self.gui = ReversiView(player_array) self.gui.set_game(self) self.gui.set_board(self.board) self.clear_game() self.paused = False print('gui created') def clear_game(self): """ Sets the game state to the initial value. """ print('clear_game') self.max_times_ms = [0, 0] self.board.init_board() self.board.clear() stones = self.board.get_score() self.gui.print_board_state() self.gui.print_num_stones(stones) self.gui.inform(['', ''], 'black') def pause(self, to_pause): """ Pause the game when it computer vs computer. :param to_pause: to pause or unpause. """ self.paused = to_pause def play_game(self, interactive_player_color=-1): """ This function contains game loop that plays the game. Loop is exited when paused or interactive game. :param interactive_player_color: id of interactive player. """ print('play game with interractive %d' % interactive_player_color) player_move_overtime = -1 next_player_id = -1 self.paused = False wrong_move = False while self.board.can_play( self.current_player_color) and not self.paused: if interactive_player_color == self.current_player_color: info_str = 'It is your turn' self.gui.inform(info_str, 'green') break start_time = time.time() move = self.current_player.move(self.board.get_board_copy()) end_time = time.time() move_time = (end_time - start_time) * 1000 if move_time > 1000: print("running too long - killing it") player_move_overtime = self.current_player_color if player_move_overtime != -1: info_str = 'Player %d move took to long - killed' % ( self.current_player_color) self.gui.inform(info_str, 'red') break self.max_times_ms[self.current_player_color] = max( move_time, self.max_times_ms[self.current_player_color]) if move is None: print('Move is not correct!!!!') info_str = 'Player %d return None instad of a valid move.' % ( self.current_player_color) self.gui.inform(info_str, 'red') self.gui.wrong_move = True wrong_move = True break else: print('Player %d wants move [%d,%d]. Move takes %.3f ms.' % (self.current_player_color, move[0], move[1], move_time)) next_player_id = -1 if self.board.is_correct_move(move, self.current_player_color): print('Move is correct') wrong_move = False self.gui.wrong_move = False next_player_id = self.play_move(move) else: print('Move is not correct!') info_str = 'Player %d made wrong move [%d,%d]' % ( self.current_player_color, move[0], move[1]) self.gui.inform(info_str, 'red') self.gui.wrong_move = True wrong_move = True break self.gui.print_board_state() self.gui.print_score() self.gui.print_move_max_times(self.max_times_ms) time.sleep(self.sleep_time_ms / 1000.0) current_player_oponent_color = self.get_opponent_player_color( self.current_player_color) if (next_player_id == -1 and self.board.can_play(current_player_oponent_color)): print("Opponent player can play an current can not") self.change_player() next_player_id = current_player_oponent_color if next_player_id == -1 and not self.paused and not wrong_move: self.print_final_info() def play_move(self, move): """ Play move for current player. :param move: [x,y] move to play using current_player. """ self.board.play_move(move, self.current_player_color) self.change_player() if not self.board.can_play(self.current_player_color): info_str = 'No possible move for Player %d' % ( self.current_player_color) self.gui.inform(info_str, 'red') self.change_player() if self.board.can_play(self.current_player_color): info_str = 'Player %d plays again ' % ( self.current_player_color) self.gui.inform(info_str, 'black') else: print('Game over') self.print_final_info() return -1 return self.current_player_color def get_opponent_player_color(self, player_color): if player_color == self.player1_color: return self.player2_color else: return self.player1_color def change_player(self): """ Change the current_player. """ if self.current_player == self.player1: self.current_player = self.player2 self.current_player_color = self.player2_color else: self.current_player = self.player1 self.current_player_color = self.player1_color def print_final_info(self): """ Prints the info after game is finished. """ print('print_final_info') stones = self.board.get_score() self.gui.print_num_stones(stones) self.gui.print_move_max_times(self.max_times_ms) final_score = 'Final score:\tPlayer%d:Player%d\t[%d:%d]' % ( self.player1_color, self.player2_color, stones[0], stones[1]) print(final_score) who_wins = 'Draw' if stones[0] > stones[1]: who_wins = 'Player %d wins!' % (self.player1_color) elif stones[1] > stones[0]: who_wins = 'Player %d wins!' % (self.player2_color) print(who_wins) self.gui.inform([final_score, who_wins], 'green')