欢迎来到代码驿站!

Python代码

当前位置:首页 > 软件编程 > Python代码

python小项目之五子棋游戏

时间:2020-12-31 15:00:43|栏目:Python代码|点击:

本文实例为大家分享了python五子棋游戏的具体代码,供大家参考,具体内容如下

1.项目简介

在刚刚学习完python套接字的时候做的一个五子棋小游戏,可以在局域网内双人对战,也可以和电脑对战

2.实现思路

局域网对战

对于局域网功能来说,首先建立连接(tcp),然后每次下棋时将棋子的坐标发送给对方,当接收到坐标后实例化成棋子对象,这个接收时用了select函数,因为pygame需要循环渲染图片,所以要用非阻塞方式接收消息

select()的机制中提供一fd_set的数据结构,实际上是一long类型的数组, 每一个数组元素都能与一打开的文件句柄(不管是Socket句柄,还是其他文件或命名管道或设备句柄)建立联系,建立联系的工作由程序员完成, 当调用select()时,由内核根据IO状态修改fd_set的内容,由此来通知执行了select()的进程哪一Socket或文件可读或可写,主要用于Socket通信当中

主要代码如下:

# 接收cli的消息
if is_people:
 rs, ws, es = select.select(inputs, [], [], 0)
  for r in rs:
    if r is tcpclisock:
    try:
     data = r.recv(BUFSIZ)
      islink = True
      print(data.decode('utf8'))
      if data.decode('utf8') == 'again':
       is_recieve1 = True
      if data.decode('utf8') == 'yes':
       is_playagain = True
       is_play = True
      if data.decode('utf8') == 'no':
       is_recieve2 = True
       islink = False
      if not is_play and not result:
       me = storn.Storn_Black(eval(data))
       black_chesses.append(me)
        chesses.append(me)
       is_play = True
     except error:
      islink = False

电脑对战

电脑对战的思路也很简单,用了应该是最常见的也是最简单的方法,就是循环遍历棋盘的每一个点,判断该点的价值,选取价值最大的点落子,这个需要对五子棋的棋型有一定了解,这里介绍几种常见的棋型(约定1为己方棋子,2为对方棋子,0为空)

活四(011110):这时候四颗棋子相连,同时两端为空,已经阻止不了一方的胜利了,此时价值应该设置最高
死四(011112|10111|11011):四颗棋子,只有一个地方能形成连五,如果是自己的棋可以赢,是对方的也可以阻止对方赢棋,此时价值次高

就这样把每种棋型判断一下,获得该点的价值,主要代码如下:

# 判断每个点的价值
def point_value(pos, white_chesses, black_chesses, identify1, identify2):
 value = 0
 for i in range(1,9):
  # *1111_ 活四
  if get_point(pos, i, 1, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 2, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 3, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 4, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 5, white_chesses, black_chesses) == 0:
   value += 40000
  # *11112 死四1
  if get_point(pos, i, 1, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 2, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 3, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 4, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 5, white_chesses, black_chesses) == identify2:
   value += 30000
  # 1*111 死四2
  if get_point(pos, i, -1, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 1, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 2, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 3, white_chesses, black_chesses) == identify1:
   value += 30000
  # 11*11 死四3
  if get_point(pos, i, -2, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, -1, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 1, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 2, white_chesses, black_chesses) == identify1:
   value += 30000
  # *111_ 活三1
  if get_point(pos, i, 1, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 2, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 3, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 4, white_chesses, black_chesses) == 0:
   value += 20000
  # *1_11_ 活三2
  if get_point(pos, i, 1, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 2, white_chesses, black_chesses) == 0 and \
   get_point(pos, i, 3, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 4, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 5, white_chesses, black_chesses) == 0:
   value += 20000
  # *1112 死三1
  if get_point(pos, i, 1, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 2, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 3, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 4, white_chesses, black_chesses) == identify2:
   value += 15000
  # _1_112 死三2
  if get_point(pos, i, 1, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 2, white_chesses, black_chesses) == 0 and \
   get_point(pos, i, 3, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 4, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 5, white_chesses, black_chesses) == identify2:
   value += 15000
  # _11_12 死三3
  if get_point(pos, i, 1, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 2, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 3, white_chesses, black_chesses) == 0 and \
   get_point(pos, i, 4, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 5, white_chesses, black_chesses) == identify2:
   value += 15000
  # 1__11 死三4
  if get_point(pos, i, -1, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 1, white_chesses, black_chesses) == 0 and \
   get_point(pos, i, 2, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 3, white_chesses, black_chesses) == identify1:
   value += 15000
  # 1_1_1 死三5
  if get_point(pos, i, -1, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 1, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 2, white_chesses, black_chesses) == 0 and \
   get_point(pos, i, 3, white_chesses, black_chesses) == identify1:
   value += 15000
  # 2_111_2 死三6
  if get_point(pos, i, -1, white_chesses, black_chesses) == identify2 and \
   get_point(pos, i, 1, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 2, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 3, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 4, white_chesses, black_chesses) == 0 and \
   get_point(pos, i, 5, white_chesses, black_chesses) == identify2:
   value += 15000
  # __11__ 活二1
  if get_point(pos, i, -1, white_chesses, black_chesses) == 0 and \
   get_point(pos, i, 1, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 2, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 3, white_chesses, black_chesses) == 0 and \
   get_point(pos, i, 4, white_chesses, black_chesses) == 0:
   value += 1000
  # _1_1_ 活二2
  if get_point(pos, i, 1, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 2, white_chesses, black_chesses) == 0 and \
   get_point(pos, i, 3, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 4, white_chesses, black_chesses) == 0:
   value += 1000
  # *1__
  if get_point(pos, i, 1, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 2, white_chesses, black_chesses) == 0 and \
   get_point(pos, i, 3, white_chesses, black_chesses) == 0:
   value += 30
  # *1_
  if get_point(pos, i, 1, white_chesses, black_chesses) == identify1 and \
   get_point(pos, i, 2, white_chesses, black_chesses) == 0:
   value += 20
  # *1
  if get_point(pos, i, 1, white_chesses, black_chesses) == identify1:
   value += 10
 return value

电脑选择落子位置时,要判断是进攻还是防守,需要两次遍历棋盘,获取进攻时的最大价值和防守的最大价值,主要代码如下:

# 电脑选取落子的位置
def ai(white_chesses, black_chesses, chesses):
 value = max1 = max2 = 0
 pos1 = pos2 = ()
 # 进攻时
 for i in range(0,15):
   row = 28 + i * 40
   for j in range(0,15):
    col = 28 + j * 40
    pos = (row,col)
   if is_empty(pos, chesses):
     continue
    value = point_value(pos, white_chesses, black_chesses, 1, 2)
    if value > max1:
     max1 = value
     pos1 = (row,col)
 
  # 防守时
  for i in range(0,15):
   for j in range(0,15):
    row = 28 + i * 40
    col = 28 + j * 40
    if is_empty((row,col), chesses):
     continue
   value = point_value((row,col), white_chesses, black_chesses, 2, 1)
    if value > max2:
     max2 = value
     pos2 = (row,col)
  if max1 > max2:
   return pos1
  else:
   return pos2

3.游戏截图

上一篇:python networkx 包绘制复杂网络关系图的实现

栏    目:Python代码

下一篇:python使用win32com库播放mp3文件的方法

本文标题:python小项目之五子棋游戏

本文地址:http://www.codeinn.net/misctech/38764.html

推荐教程

广告投放 | 联系我们 | 版权申明

重要申明:本站所有的文章、图片、评论等,均由网友发表或上传并维护或收集自网络,属个人行为,与本站立场无关。

如果侵犯了您的权利,请与我们联系,我们将在24小时内进行处理、任何非本站因素导致的法律后果,本站均不负任何责任。

联系QQ:914707363 | 邮箱:codeinn#126.com(#换成@)

Copyright © 2020 代码驿站 版权所有