python实现五子棋双人对弈

本文实例为大家分享了python实现五子棋双人对弈的具体代码,供大家参考,具体内容如下

我用的是pygame模块来制作窗口

代码如下:


 	# 1、引入pygame 和 pygame.locals
 	import pygame
 	from pygame.locals import *
 	import time
 	import sys
 	 
 	initChessList = []
 	initRole = 2 # 代表白子下 2:代表当前是黑子下
 	resultFlag = 0
 	userFlag = True
 	 
 	class StornPoint():
 	     def __init__(self, x, y, value = 0):
 	     '''
 	     :param x: 代表x轴坐标
 	     :param y: 代表y轴坐标
 	     :param value: 当前坐标点的棋子:0:没有棋子 1:白子 2:黑子
 	     '''
 	     self.x = x
 	     self.y = y
 	     self.value = value
 	     pass
 	 
 	 
 	def initChessSquare(x, y):
 	     '''
 	     初始化棋盘的坐标
 	     :param x:
 	     :param y:
 	     :return:
 	     '''
 	     # 使用二维列表保存了棋盘是的坐标系,和每个落子点的数值
 	     for i in range(15): # 每一行的交叉点坐标
 	     rowList = []
 	     for j in range(15): # 每一列的交叉点坐标
 	         pointX = x + j*40
 	         pointY = y + i*40
 	         # value = 0
 	         sp = StornPoint(pointX, pointY, 0)
 	         rowList.append(sp)
 	         pass
 	     initChessList.append(rowList)
 	     pass
 	 
 	# 处理事件
 	def eventHandler():
 	     global userFlag
 	     '''
 	     监听各种事件
 	     :return:
 	     '''
 	     for event in pygame.event.get():
 	 
 	     global initRole
 	     # 监听点积退出按钮事件
 	     if event.type == QUIT:
 	     pygame.quit()
 	         sys.exit()
 	         pass
 	     # 监听鼠标点积事件
 	     if event.type == MOUSEBUTTONDOWN:
 	         x, y = pygame.mouse.get_pos() #
 	         print((x, y))
 	         i = j = 0
 	         for temp in initChessList:
 	         for point in temp:
 	             if x >= point.x - 15 and x <= point.x + 15 \
 	             and y >= point.y - 15 and y <= point.y + 15:
 	             # 当前区域没有棋子,并且是白子下
 	             if point.value == 0 and initRole == 1 and userFlag:
 	                 point.value = 1
 	                 judgeResult(i, j, 1)
 	                 initRole = 2 # 切换棋子颜色
 	                 pass
 	             elif point.value == 0 and initRole == 2 and userFlag:
 	                 point.value = 2
 	                 judgeResult(i, j, 2)
 	                 initRole = 1 # 切换棋子颜色
 	                 pass
 	             break
 	             pass
 	             j += 1
 	             pass
 	         i += 1
 	         j = 0
 	         pass
 	     pass
 	 
 	     pass
 	 
 	# 判断输赢函数
 	def judgeResult(i, j, value):
 	     global resultFlag
 	 
 	     flag = False # 用于判断是否已经判决出输赢
 	     for x in range(j - 4, j + 5): # 水平方向有没有出现5连
 	     if x >= 0 and x + 4 < 15 :
 	         if initChessList[i][x].value == value and \
 	         initChessList[i][x + 1].value == value and \
 	         initChessList[i][x + 2].value == value and \
 	         initChessList[i][x + 3].value == value and \
 	         initChessList[i][x + 4].value == value :
 	         flag = True
 	         break
 	         pass
 	     for x in range(i - 4, i + 5): # 垂直方向有没有出现5连
 	     if x >= 0 and x + 4 < 15:
 	         if initChessList[x][j].value == value and \
 	             initChessList[x + 1][j].value == value and \
 	             initChessList[x + 2][j].value == value and \
 	             initChessList[x + 3][j].value == value and \
 	             initChessList[x + 4][j].value == value:
 	         flag = True
 	         break
 	         pass
 	 
 	     # 判断东北方向的对角线是否出现了5连
 	     for x, y in zip(range(j + 4, j - 5, -1), range(i - 4, i + 5)):
 	     if x >= 0 and x+4 < 15 and y + 4 >= 0 and y < 15:
 	         if initChessList[y][x].value == value and \
 	             initChessList[y - 1][x + 1].value == value and \
 	             initChessList[y - 2][x + 2].value == value and \
 	             initChessList[y - 3][x + 3].value == value and \
 	             initChessList[y - 4][x + 4].value == value:
 	         flag = True
 	         break
 	         pass
 	         pass
 	     pass
 	 
 	     # 判断西北方向的对角是否出现了五连
 	     for x, y in zip(range(j - 4, j + 5), range(i - 4, i + 5)):
 	     if x >= 0 and x + 4 < 15 and y >= 0 and y + 4 < 15:
 	         if initChessList[y][x].value == value and \
 	             initChessList[y + 1][x + 1].value == value and \
 	         initChessList[y + 2][x + 2].value == value and \
 	             initChessList[y + 3][x + 3].value == value and \
 	             initChessList[y + 4][x + 4].value == value:
 	         flag = True
 	         break
 	         pass
 	         pass
 	     pass
 	 
 	     if flag:
 	     resultFlag = value
 	     pass
 	     pass
 	 
 	# 加载素材
 	def main():
 	     initRole = 2 # 代表白子下 2:代表当前是黑子下
 	     global resultFlag, initChessList
 	     initChessSquare(27, 27) # 初始化棋牌
 	     pygame.init() # 初始化游戏环境
 	     # 创建游戏窗口
 	     screen = pygame.display.set_mode((620,620), 0, 0) # 第一个参数是元组:窗口的长和宽
 	     # 添加游戏标题
 	     pygame.display.set_caption("五子棋小游戏")
 	     # 图片的加载
 	     background = pygame.image.load('images/bg.png')
 	     blackStorn = pygame.image.load('images/storn_black.png')
 	     whiteStorn = pygame.image.load('images/storn_white.png')
 	     winStornW = pygame.image.load('images/white.png')
 	     winStornB = pygame.image.load('images/black.png')
 	     rect = blackStorn.get_rect()
 	 
 	     while True:
 	     screen.blit(background, (0, 0))
 	     # 更新棋盘棋子
 	     for temp in initChessList:
 	         for point in temp:
 	         if point.value == 1:
 	             screen.blit(whiteStorn, (point.x - 18, point.y - 18))
 	             pass
 	         elif point.value == 2:
 	             screen.blit(blackStorn, (point.x - 18, point.y - 18))
 	             pass
 	         pass
 	         pass
 	     # 如果已经判决出输赢
 	     if resultFlag > 0:
 	         initChessList = [] # 清空棋盘
 	         initChessSquare(27, 27) # 重新初始化棋盘
 	         if resultFlag == 1:
 	         screen.blit(winStornW, (50,100))
 	         else:
 	         screen.blit(winStornB, (50,100))
 	         pass
 	     pygame.display.update()
 	 
 	     if resultFlag >0:
 	         time.sleep(3)
 	         resultFlag = 0
 	         pass
 	     eventHandler()
 	     pass
 	 
 	     pass
 	 
 	if __name__ == "__main__":
 	     main()
 	     pass

插图:放在同一目录下的images文件夹里

bg.png

python实现五子棋双人对弈插图

storn_white.png

python实现五子棋双人对弈插图1

storn_black.png

python实现五子棋双人对弈插图2

white.png

python实现五子棋双人对弈插图3

black.png

python实现五子棋双人对弈插图4

以上就是本文的全部内容,希望对大家的学习有所帮助,也希望大家多多支持我们。

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