Python pygame实现中国象棋单机版源码
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2022-10-29 09:58:02
python中国象棋单机版鼠标点击操作;两天制作,较为粗糙,很多效果还未实现。# -*- coding: utf-8 -*-"""created on sun jun 13 15:41:56 2021...
python中国象棋单机版
鼠标点击操作;两天制作,较为粗糙,很多效果还未实现。
# -*- coding: utf-8 -*- """ created on sun jun 13 15:41:56 2021 @author: administrator """ import pygame from pygame.locals import * import sys import math pygame.init() screen=pygame.display.set_mode((450,550)) pygame.display.set_caption('中国象棋') img_board=pygame.image.load('f:/images/中国象棋/board.png') img_redsoldier=pygame.image.load('f:/images/中国象棋/chess_redsoldier.png') img_redcannon=pygame.image.load('f:/images/中国象棋/chess_redcannon.png') img_redcar=pygame.image.load('f:/images/中国象棋/chess_redcar.png') img_redhorse=pygame.image.load('f:/images/中国象棋/chess_redhorse.png') img_redelephant=pygame.image.load('f:/images/中国象棋/chess_redelephant.png') img_redattendant=pygame.image.load('f:/images/中国象棋/chess_redattendant.png') img_chief=pygame.image.load('f:/images/中国象棋/chess_chief.png') img_blacksoldier=pygame.image.load('f:/images/中国象棋/chess_blacksoldier.png') img_blackcannon=pygame.image.load('f:/images/中国象棋/chess_blackcannon.png') img_blackcar=pygame.image.load('f:/images/中国象棋/chess_blackcar.png') img_blackhorse=pygame.image.load('f:/images/中国象棋/chess_blackhorse.png') img_blackelephant=pygame.image.load('f:/images/中国象棋/chess_blackelephant.png') img_blackattendant=pygame.image.load('f:/images/中国象棋/chess_blackattendant.png') img_general=pygame.image.load('f:/images/中国象棋/chess_general.png') screen.blit(img_board,(0,0)) pygame.display.update() red_chess=[[0,6],[2,6],[4,6],[6,6],[8,6],[1,7],[7,7],[0,9],[1,9],[2,9],[3,9],[4,9],[5,9],[6,9],[7,9],[8,9]] black_chess=[[0,3],[2,3],[4,3],[6,3],[8,3],[1,2],[7,2],[0,0],[1,0],[2,0],[3,0],[4,0],[5,0],[6,0],[7,0],[8,0]] #画棋子 def draw_chess(): for i in range(len(red_chess)): if 0<=i<=4: screen.blit(img_redsoldier,(red_chess[i][0]*50,red_chess[i][1]*50)) elif 5<=i<=6: screen.blit(img_redcannon,(red_chess[i][0]*50,red_chess[i][1]*50)) elif i==7 or i==15: screen.blit(img_redcar,(red_chess[i][0]*50,red_chess[i][1]*50)) elif i==8 or i==14: screen.blit(img_redhorse,(red_chess[i][0]*50,red_chess[i][1]*50)) elif i==9 or i==13: screen.blit(img_redelephant,(red_chess[i][0]*50,red_chess[i][1]*50)) elif i==10 or i==12: screen.blit(img_redattendant,(red_chess[i][0]*50,red_chess[i][1]*50)) else: screen.blit(img_chief,(red_chess[i][0]*50,red_chess[i][1]*50)) for i in range(len(black_chess)): if 0<=i<=4: screen.blit(img_blacksoldier,(black_chess[i][0]*50,black_chess[i][1]*50)) elif 5<=i<=6: screen.blit(img_blackcannon,(black_chess[i][0]*50,black_chess[i][1]*50)) elif i==7 or i==15: screen.blit(img_blackcar,(black_chess[i][0]*50,black_chess[i][1]*50)) elif i==8 or i==14: screen.blit(img_blackhorse,(black_chess[i][0]*50,black_chess[i][1]*50)) elif i==9 or i==13: screen.blit(img_blackelephant,(black_chess[i][0]*50,black_chess[i][1]*50)) elif i==10 or i==12: screen.blit(img_blackattendant,(black_chess[i][0]*50,black_chess[i][1]*50)) else: screen.blit(img_general,(black_chess[i][0]*50,black_chess[i][1]*50)) pygame.display.update() #返回1表示正常移动,返回2表示有子被吃,返回0表示拒绝移动 #兵移动规则,红兵chess1为red_chess,chess2为black_chess def soldier_rule(chess1,chess2,current_pos,next_pos): if chess1==red_chess: pos,index=[5,6],1 elif chess1==black_chess: pos,index=[3,4],-1 if current_pos[1] in pos: if current_pos[0]==next_pos[0] and current_pos[1]==next_pos[1]+index and next_pos not in chess1: for i in range(len(chess2)): if chess2[i]==next_pos: chess2[i]=[-1,-1] current_pos=next_pos return [current_pos,2] current_pos=next_pos return [current_pos,1] else: if current_pos[0]==next_pos[0] and current_pos[1]==next_pos[1]+index and next_pos not in chess1: for i in range(len(chess2)): if chess2[i]==next_pos: chess2[i]=[-1,-1] current_pos=next_pos return [current_pos,2] current_pos=next_pos return [current_pos,1] elif current_pos[1]==next_pos[1] and current_pos[0]+1==next_pos[0] and next_pos not in chess1: for i in range(len(chess2)): if chess2[i]==next_pos: chess2[i]=[-1,-1] current_pos=next_pos return [current_pos,2] current_pos=next_pos return [current_pos,1] elif current_pos[1]==next_pos[1] and current_pos[0]-1==next_pos[0] and next_pos not in chess1: for i in range(len(chess2)): if chess2[i]==next_pos: chess2[i]=[-1,-1] current_pos=next_pos return [current_pos,2] current_pos=next_pos return [current_pos,1] #车移动规则,红车前两个参数为red_chess、black_chess,黑车前两个参数为black_chess、red_chess def car_rule(chess1,chess2,current_pos,next_pos): if next_pos not in chess1 and current_pos[0]==next_pos[0]: a,b=current_pos,next_pos if a[1]>b[1]: a,b=b,a for i in range(a[1]+1,b[1]): if [a[0],i] in black_chess+red_chess: return 0 for i in range(len(chess2)): if chess2[i]==next_pos: chess2[i]=[-1,-1] current_pos=next_pos return [current_pos,2] current_pos=next_pos return [current_pos,1] elif next_pos not in chess1 and current_pos[1]==next_pos[1]: a,b=current_pos,next_pos if a[0]>b[0]: a,b=b,a for i in range(a[0]+1,b[0]): if [i,a[1]] in black_chess+red_chess: return 0 for i in range(len(chess2)): if chess2[i]==next_pos: chess2[i]=[-1,-1] current_pos=next_pos return [current_pos,2] current_pos=next_pos return [current_pos,1] #炮移动规则 def cannon_rule(chess1,chess2,current_pos,next_pos): if next_pos not in chess1 and current_pos[0]==next_pos[0]: num=0 a,b=current_pos,next_pos if a[1]>b[1]: a,b=b,a for i in range(a[1]+1,b[1]): if [a[0],i] in black_chess+red_chess: num+=1 if num==1: for i in range(len(chess2)): if chess2[i]==next_pos: chess2[i]=[-1,-1] current_pos=next_pos return [current_pos,2] return 0 elif num==0: current_pos=next_pos return [current_pos,1] else: return 0 elif next_pos not in chess1 and current_pos[1]==next_pos[1]: num=0 a,b=current_pos,next_pos if a[0]>b[0]: a,b=b,a for i in range(a[0]+1,b[0]): if [i,a[1]] in black_chess+red_chess: num+=1 if num==1: for i in range(len(chess2)): if chess2[i]==next_pos: chess2[i]=[-1,-1] current_pos=next_pos return [current_pos,2] return 0 elif num==0: current_pos=next_pos return [current_pos,1] else: return 0 #马移动规则,红马chess为black_chess def horse_rule(chess,current_pos,next_pos): index=[[2,-1],[1,-2],[-1,-2],[-2,-1],[-2,1],[-1,2],[1,2],[2,1]] leg=[[1,0],[0,-1],[0,-1],[-1,0],[-1,0],[0,1],[0,1],[1,0]] if next_pos not in red_chess+black_chess: for i in range(len(index)): if current_pos[0]+index[i][0]==next_pos[0] and current_pos[1]+index[i][1]==next_pos[1]: if [current_pos[0]+leg[i][0],current_pos[1]+leg[i][1]] not in black_chess+red_chess: current_pos=next_pos return [current_pos,1] elif next_pos in chess: for i in range(len(index)): if current_pos[0]+index[i][0]==next_pos[0] and current_pos[1]+index[i][1]==next_pos[1]: if [current_pos[0]+leg[i][0],current_pos[1]+leg[i][1]] not in black_chess+red_chess: for i in range(len(chess)): if chess[i]==next_pos: chess[i]=[-1,-1] current_pos=next_pos return [current_pos,2] #象移动规则,红相chess为black_chess def elephant_rule(chess,current_pos,next_pos): index=[[2,-2],[-2,-2],[-2,2],[2,2]] leg=[[1,-1],[-1,-1],[-1,1],[1,1]] if chess==black_chess: pos=[5,7,9] elif chess==red_chess: pos=[0,2,4] if next_pos not in red_chess+black_chess and next_pos[1] in pos: for i in range(len(index)): if current_pos[0]+index[i][0]==next_pos[0] and current_pos[1]+index[i][1]==next_pos[1]: if [current_pos[0]+leg[i][0],current_pos[1]+leg[i][1]] not in black_chess+red_chess: current_pos=next_pos return [current_pos,1] elif next_pos in chess and next_pos[1] in pos: for i in range(len(index)): if current_pos[0]+index[i][0]==next_pos[0] and current_pos[1]+index[i][1]==next_pos[1]: if [current_pos[0]+leg[i][0],current_pos[1]+leg[i][1]] not in black_chess+red_chess: for i in range(len(chess)): if chess[i]==next_pos: chess[i]=[-1,-1] current_pos=next_pos return [current_pos,2] #士移动规则 def attendant_rule(chess1,chess2,current_pos,next_pos): if chess1==red_chess: pos1=[[3,9],[3,7],[5,7],[5,9]] pos2=[4,8] elif chess1==black_chess: pos1=[[3,0],[3,2],[5,2],[5,0]] pos2=[4,1] if current_pos in pos1 and next_pos==pos2 and next_pos not in chess1: if next_pos not in chess2: current_pos=next_pos return [current_pos,1] else: for i in range(len(chess2)): if chess2[i]==next_pos: chess2[i]=[-1,-1] current_pos=next_pos return [current_pos,2] elif current_pos==pos2 and next_pos in pos1 and next_pos not in chess1: if next_pos not in chess2: current_pos=next_pos return [current_pos,1] else: for i in range(len(chess2)): if chess2[i]==next_pos: chess2[i]=[-1,-1] current_pos=next_pos return [current_pos,2] #将帅移动规则 def boss_rule(chess1,chess2,current_pos,next_pos,j_pos): if chess1==red_chess: pos=[7,8,9] elif chess1==black_chess: pos=[0,1,2] flag=0 if next_pos not in chess1: if next_pos[0]==j_pos[0]: for i in range(j_pos[1]+1,next_pos[1]): if [j_pos[0],j_pos[1]+i] in black_chess+red_chess: flag=1 break if flag==0: return 0 if next_pos not in chess1 and 3<=next_pos[0]<=5 and next_pos[1] in pos: if next_pos not in chess2: if current_pos[0]==next_pos[0]: if current_pos[1]+1==next_pos[1] or current_pos[1]-1==next_pos[1]: current_pos=next_pos return [current_pos,1] elif current_pos[1]==next_pos[1]: if current_pos[0]+1==next_pos[0] or current_pos[0]-1==next_pos[0]: current_pos=next_pos return [current_pos,1] else: if current_pos[0]==next_pos[0]: if current_pos[1]+1==next_pos[1] or current_pos[1]-1==next_pos[1]: for i in range(len(chess2)): if chess2[i]==next_pos: chess2[i]=[-1,-1] current_pos=next_pos return [current_pos,2] elif current_pos[1]==next_pos[1]: if current_pos[0]+1==next_pos[0] or current_pos[0]-1==next_pos[0]: for i in range(len(chess2)): if chess2[i]==next_pos: chess2[i]=[-1,-1] current_pos=next_pos return [current_pos,2] #棋子移动 def move(chess1,chess2,next_pos): x=0 if i in range(5): #兵 x=soldier_rule(chess1,chess2,chess1[i],next_pos) if x!=none and x!=0: chess1[i]=x[0] print(chess1[i]) screen.blit(img_board,(0,0)) draw_chess() elif i==5 or i==6: #炮 x=cannon_rule(chess1,chess2,chess1[i],next_pos) if x!=none and x!=0: chess1[i]=x[0] print(chess1[i]) screen.blit(img_board,(0,0)) draw_chess() elif i==7 or i==15: #車 x=car_rule(chess1,chess2,chess1[i],next_pos) if x!=none and x!=0: chess1[i]=x[0] print(chess1[i]) screen.blit(img_board,(0,0)) draw_chess() elif i==8 or i==14: #馬 x=horse_rule(chess2,chess1[i],next_pos) if x!=none and x!=0: chess1[i]=x[0] print(chess1[i]) screen.blit(img_board,(0,0)) draw_chess() elif i==9 or i==13: #相 x=elephant_rule(chess2,chess1[i],next_pos) if x!=none and x!=0: chess1[i]=x[0] print(chess1[i]) screen.blit(img_board,(0,0)) draw_chess() elif i==10 or i==12: #仕 x=attendant_rule(chess1,chess2,chess1[i],next_pos) if x!=none and x!=0: chess1[i]=x[0] print(chess1[i]) screen.blit(img_board,(0,0)) draw_chess() else: #帥 x=boss_rule(chess1,chess2,chess1[i],next_pos,chess2[11]) if x!=none and x!=0: chess1[i]=x[0] print(chess1[i]) screen.blit(img_board,(0,0)) draw_chess() return x white=(255,255,255) black=(0,0,0) def draw_text(text,x,y,size): pygame.font.init() fontobj=pygame.font.sysfont('simhei',size ) textsurfaceobj=fontobj.render(text, true, white,black) textrectobj=textsurfaceobj.get_rect() textrectobj.center=(x,y) screen.blit(textsurfaceobj, textrectobj) pygame.display.update() #判断游戏是否结束 def game_over(): if red_chess[11]==[-1,-1]: draw_text('黑方胜利',225,525,15) return 1 elif black_chess[11]==[-1,-1]: draw_text('红方胜利',225,525,15) return 1 if __name__=='__main__': all_pos,progress=[],[] for i in range(10): for j in range(9): all_pos.append([j,i]) draw_text('红方先走',225,525,15) chess_kind=0 while true: draw_chess() for event in pygame.event.get(): if event.type==quit: pygame.quit() sys.exit() elif event.type==mousebuttondown: pos=pygame.mouse.get_pos() print(pos) if chess_kind==0: chess1,chess2=red_chess,black_chess elif chess_kind==1: chess1,chess2=black_chess,red_chess for i in range(len(chess1)): if chess1[i][0]*50<pos[0]<(chess1[i][0]+1)*50 and chess1[i][1]*50<pos[1]<(chess1[i][1]+1)*50: flag=false while true: for event in pygame.event.get(): if event.type==mousebuttondown: pos=pygame.mouse.get_pos() next_pos=[pos[0]//50,pos[1]//50] flag=true break if flag==true: break progress.append(move(chess1,chess2,next_pos)) if progress[-1]!=none and progress[-1]!=0: if chess_kind==0: chess_kind=1 elif chess_kind==1: chess_kind=0 if chess_kind==1: draw_text('轮到黑方',225,525,15) elif chess_kind==0: draw_text('轮到红方',225,525,15) if game_over()==1: while true: for event in pygame.event.get(): if event.type==quit: pygame.quit() sys.exit() break
棋盘图片:
棋子图片:
运行效果:
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