Python实现的井字棋（Tic Tac Toe）游戏示例_Python

本文实例讲述了Python实现的井字棋（Tic Tac Toe）游戏。分享给大家供大家参考，具体如下：

说明

用python实现了井字棋，整个框架是本人自己构思的，自认为比较满意。另外，90%+的代码也是本人逐字逐句敲的。

minimax算法还没完全理解，所以参考了这里的代码，并作了修改。

特点

可以选择人人、人机、机人、机机四种对战模式之一
电脑玩家的AI使用了minimax算法，带apha-beta剪枝
电脑玩家在思考时，时时刻刻都有一个“假想敌”。以便使得minimax算法运转起来

代码

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									#作者：hhh5460

									#时间：2017年6月26日

									# 棋盘

									class Board(object):

									 def __init__(self):

									  #self._board = '-'*9 # 坑！！

									  self._board = ['-' for _ in range(9)]

									  self._history = [] # 棋谱

									 # 按指定动作，放入棋子

									 def _move(self, action, take):

									  if self._board[action] == '-':

									   self._board[action] = take

									   self._history.append((action, take)) # 加入棋谱

									 # 撤销动作，拿走棋子

									 def _unmove(self, action):

									  self._board[action] = '-'

									  self._history.pop()

									 # 棋盘快照

									 def get_board_snapshot(self):

									  return self._board[:]

									 # 取棋盘上的合法走法

									 def get_legal_actions(self):

									  actions = []

									  for i in range(9):

									   if self._board[i] == '-':

									    actions.append(i)

									  return actions

									 # 判断走法是否合法

									 def is_legal_action(self, action):

									  return self._board[action] == '-'

									 # 终止检测

									 def teminate(self):

									  board = self._board

									  lines = [board[0:3], board[3:6], board[6:9], board[0::3], board[1::3], board[2::3], board[0::4], board[2:7:2]]

									  if ['X']*3 in lines or ['O']*3 in lines or '-' not in board:

									   return True

									  else:

									   return False

									 # 胜负检查

									 def get_winner(self):

									  board = self._board

									  lines = [board[0:3], board[3:6], board[6:9], board[0::3], board[1::3], board[2::3], board[0::4], board[2:7:2]]

									  if ['X']*3 in lines:

									   return 0

									  elif ['O']*3 in lines:

									   return 1

									  else:

									   return 2

									 # 打印棋盘

									 def print_b(self):

									  board = self._board

									  for i in range(len(board)):

									   print(board[i], end='')

									   if (i+1)%3 == 0:

									    print()

									 # 打印棋谱

									 def print_history(self):

									  print(self._history)

									# 玩家

									class Player(object):

									 '''

									 玩家只做两件事：思考、落子

									  1. 思考 --> 得到走法

									  2. 落子 --> 执行走法，改变棋盘

									 '''

									 def __init__(self, take='X'): # 默认执的棋子为 take = 'X'

									  self.take=take

									 def think(self, board):

									  pass

									 def move(self, board, action):

									  board._move(action, self.take)

									# 人类玩家

									class HumanPlayer(Player):

									 def __init__(self, take):

									  super().__init__(take)

									 def think(self, board):

									  while True:

									   action = input('Please input a num in 0-8:')

									   if len(action)==1 and action in '012345678' and board.is_legal_action(int(action)):

									    return int(action)

									# 电脑玩家

									class AIPlayer(Player):

									 def __init__(self, take):

									  super().__init__(take)

									 def think(self, board):

									  print('AI is thinking ...')

									  take = ['X','O'][self.take=='X']

									  player = AIPlayer(take)  # 假想敌！！！

									  _, action = self.minimax(board, player)

									  #print('OK')

									  return action

									 # 极大极小法搜索，α-β剪枝

									 def minimax(self, board, player, depth=0) :

									  '''参考：https://stackoverflow.com/questions/44089757/minimax-algorithm-for-tic-tac-toe-python'''

									  if self.take == "O":

									   bestVal = -10

									  else:

									   bestVal = 10

									  if board.teminate() :

									   if board.get_winner() == 0 :

									    return -10 + depth, None

									   elif board.get_winner() == 1 :

									    return 10 - depth, None

									   elif board.get_winner() == 2 :

									    return 0, None

									  for action in board.get_legal_actions() : # 遍历合法走法

									   board._move(action, self.take)

									   val, _ = player.minimax(board, self, depth+1) # 切换到 假想敌！！！

									   board._unmove(action) # 撤销走法，回溯

									   if self.take == "O" :

									    if val > bestVal:

									     bestVal, bestAction = val, action

									   else :

									    if val < bestVal:

									     bestVal, bestAction = val, action

									  return bestVal, bestAction

									# 游戏

									class Game(object):

									 def __init__(self):

									  self.board = Board()

									  self.current_player = None

									 # 生成玩家

									 def mk_player(self, p, take='X'): # p in [0,1]

									  if p==0:

									   return HumanPlayer(take)

									  else:

									   return AIPlayer(take)

									 # 切换玩家

									 def switch_player(self, player1, player2):

									  if self.current_player is None:

									   return player1

									  else:

									   return [player1, player2][self.current_player == player1]

									 # 打印赢家

									 def print_winner(self, winner): # winner in [0,1,2]

									  print(['Winner is player1','Winner is player2','Draw'][winner])

									 # 运行游戏

									 def run(self):

									  ps = input("Please select two player's type:\n\t0.Human\n\t1.AI\nSuch as:0 0\n")

									  p1, p2 = [int(p) for p in ps.split(' ')]

									  player1, player2 = self.mk_player(p1, 'X'), self.mk_player(p2, 'O') # 先手执X，后手执O

									  print('\nGame start!\n')

									  self.board.print_b() # 显示棋盘

									  while True:

									   self.current_player = self.switch_player(player1, player2) # 切换当前玩家

									   action = self.current_player.think(self.board) # 当前玩家对棋盘进行思考后，得到招法

									   self.current_player.move(self.board, action) # 当前玩家执行招法，改变棋盘

									   self.board.print_b() # 显示当前棋盘

									   if self.board.teminate(): # 根据当前棋盘，判断棋局是否终止

									    winner = self.board.get_winner() # 得到赢家 0,1,2

									    break

									  self.print_winner(winner)

									  print('Game over!')

									  self.board.print_history()

									if __name__ == '__main__':

									 Game().run()