python实现网络五子棋

本文实例为大家分享了python实现网络五子棋的具体代码，供大家参考，具体内容如下

import osimport socketimport threadingfrom tkinter import *from tkinter.messagebox import *def drawQiPan(): for i in range(0, 15):cv.create_line(20, 20 + 40 * i, 580, 20 + 40 * i, width=2) for i in range(0, 15):cv.create_line(20 + 40 * i, 20, 20 + 40 * i, 580, width=2) cv.pack()# 走棋函数def callPos(event): global turn global MyTurn if MyTurn == -1: # 第一次确认自己的角色MyTurn = turn else:if MyTurn != turn: showinfo(title='提示', message='还没轮到自己下棋') return # print('clicked at',event.x,event.y,true) x = event.x // 40 y = event.y // 40 print('clicked at', x, y, turn) if maps[x][y] != ' ':showinfo(title='提示', message='已有棋子') else:img1 = images[turn]cv.create_image((x * 40 + 20, y * 40 + 20), image=img1)cv.pack()maps[x][y] = str(turn)pos = str(x) + ',' + str(y)sendMessage('move|' + pos)print('服务器走的位置', pos)label1['text'] = '服务器走的位置' + pos# 输出输赢信息if win_lose(): if turn == 0:showinfo(title='提示', message='黑方你赢了')sendMessage('over|黑方你赢了') else:showinfo(title='提示', message='白方你赢了')sendMessage('over|白方你赢了')# 换下一方走棋if turn == 0: turn = 1else: turn = 0# 发送消息def sendMessage(pos): global s global addr s.sendto(pos.encode(), addr)# 退出函数def callExit(event): pos = 'exit|' sendMessage(pos) os.exit()# 画对方棋子def drawOtherChess(x, y): global turn img1 = images[turn] cv.create_image((x * 40 + 20, y * 40 + 20), image=img1) cv.pack() maps[x][y] = str(turn) # 换下一方走棋 if turn == 0:turn = 1 else:turn = 0# 判断整个棋盘的输赢def win_lose(): a = str(turn) print('a=', a) for i in range(0, 11):for j in range(0, 11): if maps[i][j] == a and maps[i + 1][j + 1] == a and maps[i + 2][j + 2] == a and maps[i + 3][j + 3] == a and maps[i + 4][j + 4] == a:print('x=y轴上形成五子连珠')return True for i in range(4, 15):for j in range(0, 11): if maps[i][j] == a and maps[i - 1][j + 1] == a and maps[i - 2][j + 2] == a and maps[i - 3][j + 3] == a and maps[i - 4][j + 4] == a:print('x=-y轴上形成五子连珠')return True for i in range(0, 15):for j in range(4, 15): if maps[i][j] == a and maps[i][j - 1] == a and maps[i][j - 2] == a and maps[i][j - 2] == a and maps[i][j - 4] == a:print('Y轴上形成了五子连珠')return True for i in range(0, 11):for j in range(0, 15): if maps[i][j] == a and maps[i + 1][j] == a and maps[i + 2][j] == a and maps[i + 3][j] == a and maps[i + 4][j] == a:print('X轴形成五子连珠')return True return False# 输出map地图def print_map(): for j in range(0, 15):for i in range(0, 15): print(maps[i][j], end=’ ’)print(’w’)# 接受消息def receiveMessage(): global s while True: # 接受客户端发送的消息global addrdata, addr = s.recvfrom(1024)data = data.decode(’utf-8’)a = data.split('|')if not data: print(’client has exited!’) breakelif a[0] == ’join’: # 连接服务器的请求 print(’client 连接服务器！’) label1['text'] = ’client连接服务器成功，请你走棋！’elif a[0] == ’exit’: print(’client对方退出!’) label1['text'] = ’client对方退出，游戏结束！’elif a[0] == ’over’: print(’对方赢信息！’) label1['text'] = data.split('|')[0] showinfo(title='提示', message=data.split('1')[1])elif a[0] == ’move’: print(’received:’, data, ’from’, addr) p = a[1].split(',') x = int(p[0]) y = int(p[1]) print(p[0], p[1]) label1['text'] = '客户端走的位置' + p[0] + p[1] drawOtherChess(x, y) s.close()def startNewThread(): # 启动新线程来接受客户端消息 thread = threading.Thread(target=receiveMessage, args=()) thread.setDaemon(True) thread.start()if __name__ == ’__main__’: root = Tk() root.title('网络五子棋v2.0-服务器端') images = [PhotoImage(file=’./images/BlackStone.png’), PhotoImage(file=’./images/WhiteStone.png’)] turn = 0 MyTurn = -1 maps = [[' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' '] for y in range(15)] cv = Canvas(root, bg=’green’, width=610, height=610) drawQiPan() cv.bind('<Button-1>', callPos) cv.pack() label1 = Label(root, text='服务器端...') label1.pack() button1 = Button(root, text='退出游戏') button1.bind('<Button-1>', callExit) button1.pack() # 创建UDP SOCKET s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM) s.bind((’localhost’, 8000)) addr = (’localhost’, 8000) startNewThread() root.mainloop()客户端：

from tkinter import *from tkinter.messagebox import *import socketimport threadingimport os# 主程序root = Tk()root.title('网络五子棋v2.0--UDP客户端')imgs = [PhotoImage(file=’./images/BlackStone.png’), PhotoImage(file=’./images/WhiteStone.png’)]turn = 0MyTurn = -1# 画对方棋子def drawOtherChess(x, y): global turn img1 = imgs[turn] cv.create_image((x * 40 + 20, y * 40 + 20), image=img1) cv.pack() maps[x][y] = str(turn) # 换下一方走棋 if turn == 0:turn = 1 else:turn = 0# 发送消息def sendMessage(position): global s s.sendto(position.encode(), (host, port))# 退出函数def callExit(event): position = 'exit|' sendMessage(position) os.exit()# 走棋函数def callback(event): global turn global MyTurn if MyTurn == -1:MyTurn = turn else:if MyTurn != turn: showinfo(title='提示', message='还没轮到自己走棋') return # print('clicked at',event.x,event.y) x = event.x // 40 y = event.y // 40 print('clicked at', x, y, turn) if maps[x][y] != ' ':showinfo(title='提示', message='已有棋子') else:img1 = imgs[turn]cv.create_image((x * 40 + 20, y * 40 + 20), image=img1)cv.pack()maps[x][y] = str(turn)position = str(x) + ’,’ + str(y)sendMessage('move|' + position)print('客户端走的位置', position)label1['text'] = '客户端走的位置' + position# 输出输赢信息if win_lose(): if turn == 0:showinfo(title='提示', message='黑方你赢了')sendMessage('over|黑方你赢了！') else:showinfo(title='提示', message='白方你赢了！')sendMessage('over|白方你赢了！')# 换下一方走棋：if turn == 0: turn = 1else: turn = 0# 画棋盘def drawQiPan(): # 画棋盘 for i in range(0, 15):cv.create_line(20, 20 + 40 * i, 580, 20 + 40 * i, width=2) for i in range(0, 15):cv.create_line(20 + 40 * i, 20, 20 + 40 * i, 580, width=2) cv.pack()# 输赢判断def win_lose(): a = str(turn) print('a=', a) for i in range(0, 11):for j in range(0, 11): if maps[i][j] == a and maps[i + 1][j + 1] == a and maps[i + 2][j + 2] == a and maps[i + 3][j + 3] == a and maps[i + 4][j + 4] == a:print('x=y轴上形成五子连珠')return True for i in range(4, 15):for j in range(0, 11): if maps[i][j] == a and maps[i - 1][j + 1] == a and maps[i - 2][j + 2] == a and maps[i - 3][j + 3] == a and maps[i - 4][j + 4] == a:print('x=-y轴上形成五子连珠')return True for i in range(0, 15):for j in range(4, 15): if maps[i][j] == a and maps[i][j - 1] == a and maps[i][j - 2] == a and maps[i][j - 2] == a and maps[i][j - 4] == a:print('Y轴上形成了五子连珠')return True for i in range(0, 11):for j in range(0, 15): if maps[i][j] == a and maps[i + 1][j] == a and maps[i + 2][j] == a and maps[i + 3][j] == a and maps[i + 4][j] == a:print('X轴形成五子连珠')return True return False# 接受消息def receiveMessage(): # 接受消息 global s while True:data = s.recv(1024).decode(’utf-8’)a = data.split('|')if not data: print(’server has exited!’) breakelif a[0] == ’exit’: print(’对方退出！’) label1['text'] = ’对方退出！游戏结束！’elif a[0] == ’over’: print(’对方赢信息！’) label1['text'] = data.split('|')[0] showinfo(title='提示', message=data.split('|')[1])elif a[0] == ’move’: print(’received:’, data) p = a[1].split(',') x = int(p[0]) y = int(p[1]) print(p[0], p[1]) label1['text'] = '服务器走的位置' + p[0] + p[1] drawOtherChess(x, y) s.close()# 启动线程接受客户端消息def startNewThread(): thread = threading.Thread(target=receiveMessage, args=()) thread.setDaemon(True) thread.start()if __name__ == ’__main__’: # 主程序 maps = [[' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' '] for y in range(15)] cv = Canvas(root, bg=’green’, width=610, height=610) drawQiPan() cv.bind('<Button-1>', callback) cv.pack() label1 = Label(root, text='客户端...') label1.pack() button1 = Button(root, text='退出游戏') button1.bind('<Button-1>', callExit) button1.pack() # 创建UDP s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM) port = 8000 host = ’localhost’ pos = ’join|’ sendMessage(pos) startNewThread() root.mainloop()

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