python五子棋源碼

㈠ 請用python編一個小游戲，如五子棋，連連看，貪吃蛇，掃雷，計算器等等

#!/usr/bin/python
from Tkinter import *
import random
class snake(Frame):
def __init__(self, master=None):
Frame.__init__(self, master)
self.body = [(0,0)]
self.bodyid = []
self.food = [ -1, -1 ]
self.foodid = -1
self.gridcount = 10
self.size = 500
self.di = 3
self.speed = 500
self.top = self.winfo_toplevel()
self.top.resizable(False, False)
self.grid()
self.canvas = Canvas(self)
self.canvas.grid()
self.canvas.config(width=self.size, height=self.size,relief=RIDGE)
self.drawgrid()
s = self.size/self.gridcount
id = self.canvas.create_rectangle(self.body[0][0]*s,self.body[0][1]*s,
(self.body[0][0]+1)*s, (self.body[0][1]+1)*s, fill="yellow")
self.bodyid.insert(0, id)
self.bind_all("<KeyRelease>", self.keyrelease)
self.drawfood()
self.after(self.speed, self.drawsnake)
def drawgrid(self):
s = self.size/self.gridcount
for i in range(0, self.gridcount+1):
self.canvas.create_line(i*s, 0, i*s, self.size)
self.canvas.create_line(0, i*s, self.size, i*s)
def drawsnake(self):
s = self.size/self.gridcount
head = self.body[0]
new = [head[0], head[1]]
if self.di == 1:
new[1] = (head[1]-1) % self.gridcount
elif self.di == 2:
new[0] = (head[0]+1) % self.gridcount
elif self.di == 3:
new[1] = (head[1]+1) % self.gridcount
else:
new[0] = (head[0]-1) % self.gridcount
next = ( new[0], new[1] )
if next in self.body:
exit()
elif next == (self.food[0], self.food[1]):
self.body.insert(0, next)
self.bodyid.insert(0, self.foodid)
self.drawfood()
else:
tail = self.body.pop()
id = self.bodyid.pop()
self.canvas.move(id, (next[0]-tail[0])*s, (next[1]-tail[1])*s)
self.body.insert(0, next)
self.bodyid.insert(0, id)
self.after(self.speed, self.drawsnake)
def drawfood(self):
s = self.size/self.gridcount
x = random.randrange(0, self.gridcount)
y = random.randrange(0, self.gridcount)
while (x, y) in self.body:
x = random.randrange(0, self.gridcount)
y = random.randrange(0, self.gridcount)
id = self.canvas.create_rectangle(x*s,y*s, (x+1)*s, (y+1)*s, fill="yellow")
self.food[0] = x
self.food[1] = y
self.foodid = id
def keyrelease(self, event):
if event.keysym == "Up" and self.di != 3:
self.di = 1
elif event.keysym == "Right" and self.di !=4:
self.di = 2
elif event.keysym == "Down" and self.di != 1:
self.di = 3
elif event.keysym == "Left" and self.di != 2:
self.di = 4
app = snake()
app.master.title("Greedy Snake")
app.mainloop()

貪食蛇

㈡ 求一個編寫的五子棋小游戲python的代碼，求借鑒啊！！急急急。。。

#五子棋importappuifw,e32,key_codes
fromgraphicsimport*defcn(x):returnx.decode('utf-8')
defquit():_quit=1
globalrunning
running=1
defredraw(rect):canvas.blit(img)defdefault():
globalcon,color,font
con={"l":15,"x":15,"y":33,"r":13,"n":15}
color={"bg":0x7777bb,"fg":0x333333,"p1":0x000000,"p2":0xffffff,"w":0xff0000}
font=u"SansMT936_S60"definitial():
globalimg,canvas,con,color,cur_x,cur_y,turn,pos1,pos2,pos
appuifw.app.screen='full'
appuifw.app.body=canvas=appuifw.Canvas()
img=Image.new((240,320))
img.clear(color["bg"])
cur_x=7
cur_y=7
turn=1
pos1=[]
pos2=[]
pos=[]
foriinrange(con["n"]*con["n"]):
pos.append(0)defpaint_back():
globalimg,color,font
#img.text((90,25),cn('歡樂五子棋'),color["fg"],font)
foriinrange(con["x"],con["x"]+con["l"]*con["n"]-1,con["l"]):
img.line((i,con["y"],i,con["y"]+con["l"]*(con["n"]-1)),color["fg"])
foriinrange(con["y"],con["y"]+con["l"]*con["n"]-1,con["l"]):
img.line((con["x"],i,con["x"]+con["l"]*(con["n"]-1),i),color["fg"])
img.text((40,270),cn('玩家1'),color["p1"],font)
img.text((160,270),cn('玩家2'),color["p2"],font)
img.point((90,263),color["p1"],width=con["r"],fill=color["p1"])
img.point((144,263),color["p2"],width=con["r"],fill=color["p2"])

defpaint_cur(x,y,sh):
globalimg,con,color,pos1,pos2,running
ifrunning<>1:return
ax=con["x"]+con["l"]*x
ay=con["y"]+con["l"]*y
b=con["l"]/2
ifsh<>0:
c=color["p"+str(sh)]
ifrp((x,y))<>0:
c=color["w"]
ifsh==0:
c=color["bg"]
img.line((ax-b,ay-2,ax-b,ay-b,ax-2,ay-b),c)
img.line((ax-b,ay+2,ax-b,ay+b,ax-2,ay+b),c)
img.line((ax+b,ay-2,ax+b,ay-b,ax+2,ay-b),c)
img.line((ax+b,ay+2,ax+b,ay+b,ax+2,ay+b),c)
redraw(())defpaint_q(x,y,z):
globalimg,con,color
ax=con["x"]+con["l"]*x
ay=con["y"]+con["l"]*y
b=con["l"]/2
ifz==0:
c=color["bg"]
else:
c=color["p"+str(z)]
img.point((ax,ay),c,width=con["r"],fill=c)
redraw(())
ifz==0:
img.line((ax-b,ay,ax+b,ay),c)
img.line((ax,ay-b,ax,ay+b),c)

defk_up():
globalcur_x,cur_y,con,turn
paint_cur(cur_x,cur_y,0)
cur_y=cur_y-1
ifcur_y==-1:
cur_y=con["n"]-1
paint_cur(cur_x,cur_y,turn)defk_down():
globalcur_x,cur_y,con,turn
paint_cur(cur_x,cur_y,0)
cur_y=cur_y+1
ifcur_y==con["n"]:
cur_y=0
paint_cur(cur_x,cur_y,turn)defk_left():
globalcur_x,cur_y,con,turn
paint_cur(cur_x,cur_y,0)
cur_x=cur_x-1
ifcur_x==-1:
cur_x=con["n"]-1
paint_cur(cur_x,cur_y,turn)defk_right():
globalcur_x,cur_y,con,turn
paint_cur(cur_x,cur_y,0)
cur_x=cur_x+1
ifcur_x==con["n"]:
cur_x=0
paint_cur(cur_x,cur_y,turn)defrp(x):
globalcon,pos
if(x[0]<0orx[0]>=con["n"]orx[1]<0orx[1]>=con["n"]):return0
#printx,pos[x[0]*con["n"]+x[1]]
returnpos[x[0]*con["n"]+x[1]]defwp(x,y):
globalcon,pos
pos[x[0]*con["n"]+x[1]]=y

defwin():
foriinpos1:
k=0
forjinrange(0,6):
ifrp((i[0]+j,i[1]))==1:
k=k+1
else:
break
ifk>=5:
return1
k=0
forjinrange(0,6):
ifrp((i[0],i[1]+j))==1:
k=k+1
else:
break
ifk>=5:
return1
k=0
forjinrange(0,6):
ifrp((i[0]+j,i[1]+j))==1:
k=k+1
else:
break
ifk>=5:
return1
k=0
forjinrange(0,6):
ifrp((i[0]+j,i[1]-j))==1:
k=k+1
else:
break
ifk>=5:
return1foriinpos2:
k=0
forjinrange(0,6):
ifrp((i[0]+j,i[1]))==2:
k=k+1
else:
break
ifk>=5:
return2
k=0
forjinrange(0,6):
ifrp((i[0],i[1]+j))==2:
k=k+1
else:
break
ifk>=5:
return2
k=0
forjinrange(0,6):
ifrp((i[0]+j,i[1]+j))==2:
k=k+1
else:
break
ifk>=5:
return2
k=0
forjinrange(0,6):
ifrp((i[0]+j,i[1]-j))==2:
k=k+1
else:
break
ifk>=5:
return2
return0

defk_enter():
globalcur_x,cur_y,turn,pos1,pos2,con,color,font,running
ifrunning<>1:return
ifrp((cur_x,cur_y))==0:
ifturn==1:
pos1.append((cur_x,cur_y))
img.rectangle((35,255,100,272),color["bg"])
img.rectangle((135,255,200,272),color["p2"])
ifturn==2:
pos2.append((cur_x,cur_y))
img.rectangle((35,255,100,272),color["p1"])
img.rectangle((135,255,200,272),color["bg"])
paint_q(cur_x,cur_y,turn)
wp((cur_x,cur_y),turn)
ifwin()<>0:
#img.text((80,300),cn('玩家')+str(turn)+cn("獲勝！"),color["fg"],font)
img.rectangle((35,255,100,272),color["bg"])
img.rectangle((135,255,200,272),color["bg"])
paint_cur(cur_x,cur_y,0)
running=2
turn=3-turn
paint_cur(cur_x,cur_y,turn)defbindkey():
canvas.bind(key_codes.EKeyUpArrow,k_up)
canvas.bind(key_codes.EKeyDownArrow,k_down)
canvas.bind(key_codes.EKeyLeftArrow,k_left)
canvas.bind(key_codes.EKeyRightArrow,k_right)
canvas.bind(key_codes.EKeySelect,k_enter)default()
initial()
paint_back()
paint_cur(cur_x,cur_y,1)
img.rectangle((35,255,100,272),color["p1"])
bindkey()redraw(())
appuifw.app.exit_key_handler=quit()
_quit=0
while(1-_quit):
e32.ao_sleep(0.2)
redraw(())

㈢ 五子棋源代碼html

js代碼：
定義canvas及黑白棋變數
<font color="#2f4f4f" face="微軟雅黑" size="3">var canvas;
var context;
var isWhite = true;//設置是否該輪到白棋
var isWell = false;//設置該局棋盤是否贏了，如果贏了就不能再走了
var img_b = new Image();
img_b.src = "images/b.png";//白棋圖片
var img_w = new Image();
img_w.src = "images/c.png";//黑棋圖片</font>
為棋盤的二維數組用來保存棋盤信息
<font color="#2f4f4f" face="微軟雅黑" size="3"> var chessData = new Array(15);//初始化0為沒有走過的，1為白棋走的，2為黑棋走的
for (var x = 0; x < 15; x++) {
chessData[x] = new Array(15);
for (var y = 0; y < 15; y++) {
chessData[x][y] = 0;
}
}</font>
繪制棋盤的線
<font color="#2f4f4f" face="微軟雅黑" size="3"> for (var i = 0; i <= 640; i += 40) {
context.beginPath();
context.moveTo(0, i);
context.lineTo(640, i);
context.closePath();
context.stroke();
context.beginPath();
context.moveTo(i, 0);
context.lineTo(i, 640);
context.closePath();
context.stroke();
}
}</font>
判斷該棋局的輸贏
<font color="#2f4f4f" face="微軟雅黑" size="3"> if (count1 >= 5 || count2 >= 5 || count3 >= 5 || count4 >= 5) {
if (chess == 1) {
alert("白棋贏了");
}
else {
alert("黑棋贏了");
}
isWell = true;//設置該局棋盤已經贏了，不可以再走了
}</font>
html代碼：
<font color="#2f4f4f" face="微軟雅黑" size="3"><body onload="drawRect()">
<div>
<canvas width="640" id="canvas" onmousedown="play(event)" height="640">你的瀏覽器不支持HTML5 canvas ，請使用 google chrome 瀏覽器 打開.
</canvas>
</div>
</body></font>

㈣ 在線等！求一個python 五子棋源代碼，最好是有「人人對弈」和「人機對弈」功能的，不勝感謝！

試試這個吧。
import numpy as np
import pygame
import sys
import traceback
import
from pygame.locals import *

pygame.init()
pygame.mixer.init()

#顏色
background=(201,202,187)
checkerboard=(80,80,80)
button=(52,53,44)

#音樂
play_chess_sound = pygame.mixer.Sound("music/play_chess.wav")
play_chess_sound.set_volume(0.2)
button_sound = pygame.mixer.Sound("music/button.wav")
button_sound.set_volume(0.2)
victor_sound = pygame.mixer.Sound("music/victory.wav")
victor_sound.set_volume(0.2)

#繪制棋盤
def Draw_a_chessboard(screen):
#填充背景色
screen.fill(background)
Background=pygame.image.load("background.jpg").convert_alpha()
screen.blit(Background,(0,0))
#畫棋盤
for i in range(21):
pygame.draw.line(screen, checkerboard, (40*i+3, 3), (40*i+3, 803))
pygame.draw.line(screen, checkerboard, (3, 40*i+3), (803, 40*i+3))
#畫邊線
pygame.draw.line(screen, checkerboard, (3, 3), (803, 3),5)
pygame.draw.line(screen, checkerboard, (3, 3), (3, 803),5)
pygame.draw.line(screen, checkerboard, (803, 3), (803, 803),5)
pygame.draw.line(screen, checkerboard, (3, 803), (803, 803),5)

#畫定位點
pygame.draw.circle(screen, checkerboard, (163, 163), 6)
pygame.draw.circle(screen, checkerboard, (163, 643), 6)
pygame.draw.circle(screen, checkerboard, (643, 163), 6)
pygame.draw.circle(screen, checkerboard, (643, 643), 6)
pygame.draw.circle(screen, checkerboard, (403, 403), 6)

#畫『悔棋』『重新開始』跟『退出』按鈕
pygame.draw.rect(screen,button,[900,350,120,100],5)
pygame.draw.rect(screen,button,[900,500,200,100],5)
pygame.draw.rect(screen,button,[900,650,200,100],5)
s_font=pygame.font.Font('font.ttf',40)
text1=s_font.render("悔棋",True,button)
text2=s_font.render("重新開始",True,button)
text3=s_font.render("退出遊戲",True,button)
screen.blit(text1,(920,370))
screen.blit(text2,(920,520))
screen.blit(text3,(920,670))

#繪制棋子（橫坐標，縱坐標，屏幕，棋子顏色（1代表黑，2代表白））
def Draw_a_chessman(x,y,screen,color):
if color==1:
Black_chess=pygame.image.load("Black_chess.png").convert_alpha()
screen.blit(Black_chess,(40*x+3-15,40*y+3-15))
if color==2:
White_chess=pygame.image.load("White_chess.png").convert_alpha()
screen.blit(White_chess,(40*x+3-15,40*y+3-15))

#繪制帶有棋子的棋盤
def Draw_a_chessboard_with_chessman(map,screen):
screen.fill(background)
Draw_a_chessboard(screen)
for i in range(24):
for j in range(24):
Draw_a_chessman(i+1,j+1,screen,map[i][j])

#定義存儲棋盤的列表,
#列表為24列24行是因為判斷是否勝利函數里的索引會超出19
#列表大一點不會對游戲有什麼影響
map=[]
for i in range(24):
map.append([0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0])

#清零map列表
def clear():
global map
for i in range(24):
for j in range(24):
map[i][j]=0

#判斷是否勝利
def win(i, j):
k = map[i][j]
p=[]
for a in range(20):
p.append(0)
for i3 in range(i-4,i+5):
for j3 in range(j-4,j+5):
if (map[i3][j3] == k and i3 - i == j3 - j and i3 <= i and j3 <= j):
p[0]+=1
if (map[i3][j3] == k and j3 == j and i3 <= i and j3 <= j):
p[1]+=1
if (map[i3][j3] == k and i3 == i and i3 <= i and j3 <= j):
p[2]+=1
if (map[i3][j3] == k and i3 - i == j3 - j and i3 >= i and j3 >= j):
p[3]+=1
if (map[i3][j3] == k and j3 == j and i3 >= i and j3 >= j):
p[4]+=1
if (map[i3][j3] == k and i3 == i and i3 >= i and j3 >= j):
p[5]+=1
if (map[i3][j3] == k and i - i3 == j3 - j and i3 <= i and j3 >= j):
p[6]+=1
if (map[i3][j3] == k and i3 - i == j - j3 and i3 >= i and j3 <= j):
p[7]+=1
if (map[i3][j3] == k and j - j3 == i - i3 and i3 <= i + 1 and i3 >= i - 3 and j3 <= j + 1 and j3 >= j - 3):
p[8]+=1
if (map[i3][j3] == k and j == j3 and i3 <= i + 1 and i3 >= i - 3 and j3 <= j + 1 and j3 >= j - 3):
p[9]+=1
if (map[i3][j3] == k and i == i3 and i3 <= i + 1 and i3 >= i - 3 and j3 <= j + 1 and j3 >= j - 3):
p[10]+=1
if (map[i3][j3] == k and j - j3 == i - i3 and i3 >= i - 1 and i3 <= i + 3 and j3 >= j - 1 and j3 <= j + 3):
p[11]+=1
if (map[i3][j3] == k and j == j3 and i3 >= i - 1 and i3 <= i + 3 and j3 >= j - 1 and j3 <= j + 3):
p[12]+=1
if (map[i3][j3] == k and i == i3 and i3 >= i - 1 and i3 <= i + 3 and j3 >= j - 1 and j3 <= j + 3):
p[13]+=1
if (map[i3][j3] == k and i - i3 == j3 - j and i3 <= i + 1 and i3 >= i - 3 and j3 >= j - 1 and j3 <= j + 3):
p[14]+=1
if (map[i3][j3] == k and i3 - i == j - j3 and i3 >= i - 1 and i3 <= i + 3 and j3 <= j + 1 and j3 >= j - 3):
p[15]+=1
if (map[i3][j3] == k and j - j3 == i - i3 and i3 <= i + 2 and i3 >= i - 2 and j3 <= j + 2 and j3 >= j - 2):
p[16]+=1
if (map[i3][j3] == k and j == j3 and i3 <= i + 2 and i3 >= i - 2 and j3 <= j + 2 and j3 >= j - 2):
p[17]+=1
if (map[i3][j3] == k and i == i3 and i3 <= i + 2 and i3 >= i - 2 and j3 <= j + 2 and j3 >= j - 2):
p[18]+=1
if (map[i3][j3] == k and i - i3 == j3 - j and i3 <= i + 2 and i3 >= i - 2 and j3 <= j + 2 and j3 >= j - 2):
p[19]+=1
for b in range(20):
if p[b]==5:
return True
return False

#繪制提示器（類容，屏幕，字大小）
def text(s,screen,x):
#先把上一次的類容用一個矩形覆蓋
pygame.draw.rect(screen,background,[850,100,1200,100])
#定義字體跟大小
s_font=pygame.font.Font('font.ttf',x)
#定義類容，是否抗鋸齒，顏色
s_text=s_font.render(s,True,button)
#將字放在窗口指定位置
screen.blit(s_text,(880,100))
pygame.display.flip()

#用於控制順序
t=True

#用於結束游戲後阻止落子
running=True

#主函數
def main():
#將 t，map，running設置為可改的
global t,map,running,maps,r,h
#將map置零
clear()
#定義儲存所有棋盤狀態的列表（用於悔棋）
map2=.deep(map)
maps=[map2]

#定義窗口
screen = pygame.display.set_mode([1200,806])

#定義窗口名字
pygame.display.set_caption("五子棋")

#在窗口畫出棋盤，提示器以及按鈕
Draw_a_chessboard(screen)
pygame.display.flip()
clock=pygame.time.Clock()
while True:
#只有running為真才能落子，主要用於游戲結束後防止再次落子
if running:
if t:
color=1
text('黑棋落子',screen,54)
else:
color=2
text('白棋落子',screen,54)

for event in pygame.event.get():
#點擊x則關閉窗口
if event.type ==pygame.QUIT:
pygame.quit()
sys.exit()

#點擊窗口裡面類容則完成相應指令
elif event.type == MOUSEBUTTONDOWN:
if event.button == 1:
x,y=event.pos[0],event.pos[1]
for i in range(19):
for j in range(19):
#點擊棋盤相應位置
if i*40+3+20<x<i*40+3+60 and j*40+3+20<y<j*40+3+60 and not map[i][j] and running:
#在棋盤相應位置落相應顏色棋子
Draw_a_chessman(i+1,j+1,screen,color)
#播放音效
play_chess_sound.play(0)
#在map裡面記錄落子位置
map[i][j]=color

#將map存入maps
map3=.deep(map)
maps.append(map3)

#判斷落子後是否有五子一線
if win(i,j):
if t:
text('黑棋勝利，請重新游戲',screen,30)
else:
text('白棋勝利，請重新游戲',screen,30)
#播放音效
victor_sound.play(0)
#阻止再往棋盤落子
running=False
pygame.display.flip()
t=not t
#如果點擊『重新開始』
if 900<x<1100 and 500<y<600:
#取消阻止
running=True
#播放音效
button_sound.play(0)
#重新開始
main()

#點擊『退出遊戲』，退出遊戲
elif 900<x<1100 and 650<y<750:
#播放音效
button_sound.play(0)
pygame.quit()
sys.exit()

#點擊『悔棋』
elif 900<x<1020 and 350<y<450 and len(maps)!=1:
#播放音效
button_sound.play(0)
#刪除maps里最後一個元素
del maps[len(maps)-1]
#再將最後一個元素給map
map=.deep(maps[len(maps)-1])
#切換順序
t=not t
#將map顯示出來
Draw_a_chessboard_with_chessman(map,screen)
#悔棋完成，阻止再次悔棋
x,y=0,0
clock.tick(60)
if __name__ == "__main__":
try:
main()
except SystemExit:
pass
except:
traceback.print_exc()
pygame.quit()
input()

㈤ 求一個c++實現人機對戰，人人對戰的五子棋游戲源代碼，急用，謝謝

五子棋範例的源程序：目錄renju下的內容

程序在附件中，需要請免費下載

renju.dsw
renju.dsp
這兩個是項目文件。包含整個項目的文件配置等信息

RESOURCE.H
renju.rc
這是整個工程中使用的Windows資源列表。包括置於res子目錄下的圖標，
點陣圖以及游標等內容。

Renju.h
這是應用程序的主頭文件。包含了通用於工程的其他頭文件。以及
CRenjuApp類的聲明。
renju.cpp
這是應用程序的主源程序。包含整個程序的入口點。CRenjuApp類的實現。

StdAfx.h
StdAfx.cpp
這對文件由用於將一些預編譯信息納入程序。編譯後將產生stdafx.obj

define.h
這是一個包含程序中的數據表示的定義的頭文件。

NewGame.h
NewGame.cpp
這一對文件定義並實現用於新游戲的設置的對話框。

renjuDlg.h
renjuDlg.cpp
這一對文件定義並實現了，五子棋的主界面。

Eveluation.h
Eveluation.cpp
這一對文件定義並實現了估值核心類。

MoveGenerator.h
MoveGenerator.cpp
這一對文件定義並實現了走法產生器。

SearchEngine.h
SearchEngine.cpp
這一對文件定義了搜索引擎介面。

HistoryHeuristic.h
HistoryHeuristic.cpp
這一對文件定義並實現歷史啟發類。

TranspositionTable.h
TranspositionTable.cpp
這一對文件定義並實現置換表類。

NegaScout_TT_HH.h
NegaScout_TT_HH.cpp
這一對文件定義並實現歷史啟發和置換表增強的NegaScout搜索引擎。

Directory of renju es

chess.rc2//資源文件
chess.ico//圖標文件

若滿意請及時採納，謝謝