㈠ 求助高手,求一个C语言五子棋的代码 带流程图的!
/* 程序中用到的库函数所在头文件应用 #include 命令包含进来 */
#include <stdio.h>
#include <bios.h>
#include <ctype.h>
#include <conio.h>
#include <dos.h>
/**********************************************************/
/* 定义符号常量 */
/*定义画棋盘所需的制表符*/
#define CROSSRU 0xbf /*右上角点*/
#define CROSSLU 0xda /*左上角点*/
#define CROSSLD 0xc0 /*左下角点*/
#define CROSSRD 0xd9 /*右下角点*/
#define CROSSL 0xc3 /*左边*/
#define CROSSR 0xb4 /*右边*/
#define CROSSU 0xc2 /*上边*/
#define CROSSD 0xc1 /*下边*/
#define CROSS 0xc5 /*十字交叉点*/
/*定义棋盘左上角点在屏幕上的位置*/
#define MAPXOFT 5
#define MAPYOFT 2
/*定义1号玩家的操作键键码*/
#define PLAY1UP 0x1157/*上移--'W'*/
#define PLAY1DOWN 0x1f53/*下移--'S'*/
#define PLAY1LEFT 0x1e41/*左移--'A'*/
#define PLAY1RIGHT 0x2044/*右移--'D'*/
#define PLAY1DO 0x3920/*落子--空格键*/
/*定义2号玩家的操作键键码*/
#define PLAY2UP 0x4800/*上移--方向键up*/
#define PLAY2DOWN 0x5000/*下移--方向键down*/
#define PLAY2LEFT 0x4b00/*左移--方向键left*/
#define PLAY2RIGHT 0x4d00/*右移--方向键right*/
#define PLAY2DO 0x1c0d/*落子--回车键Enter*/
/*若想在游戏中途退出, 可按 Esc 键*/
#define ESCAPE 0x011b
/*定义棋盘上交叉点的状态, 即该点有无棋子 */
/*若有棋子, 还应能指出是哪个玩家的棋子 */
#define CHESSNULL 0 //没有棋子
#define CHESS1 'O'//一号玩家的棋子
#define CHESS2 'X'//二号玩家的棋子
/*定义按键类别*/
#define KEYEXIT 0/*退出键*/
#define KEYFALLCHESS 1/*落子键*/
#define KEYMOVECURSOR 2/*光标移动键*/
#define KEYINVALID 3/*无效键*/
/*定义符号常量: 真, 假 --- 真为1, 假为0 */
#define TRUE 1
#define FALSE 0
/**********************************************************/
/* 定义数据结构 */
/*棋盘交叉点坐标的数据结构*/
struct point
{
int x,y;
};
/**********************************************************/
/*自定义函数原型说明 */
void Init(void);
int GetKey(void);
int CheckKey(int press);
int ChangeOrder(void);
int ChessGo(int Order,struct point Cursor);
void DoError(void);
void DoOK(void);
void DoWin(int Order);
void MoveCursor(int Order,int press);
void DrawCross(int x,int y);
void DrawMap(void);
int JudgeWin(int Order,struct point Cursor);
int JudgeWinLine(int Order,struct point Cursor,int direction);
void ShoworderMsg(int Order);
void EndGame(void);
/**********************************************************/
/**********************************************************/
/* 定义全局变量 */
int gPlayOrder; /*指示当前行棋方 */
struct point gCursor; /*光标在棋盘上的位置 */
char gChessBoard[19][19];/*用于记录棋盘上各点的状态*/
/**********************************************************/
/**********************************************************/
/*主函数*/
void main()
{
int press;
int bOutWhile=FALSE;/*退出循环标志*/
Init();/*初始化图象,数据*/
while(1)
{
press=GetKey();/*获取用户的按键值*/
switch(CheckKey(press))/*判断按键类别*/
{
/*是退出键*/
case KEYEXIT:
clrscr();/*清屏*/
bOutWhile = TRUE;
break;
/*是落子键*/
case KEYFALLCHESS:
if(ChessGo(gPlayOrder,gCursor)==FALSE)/*走棋*/
DoError();/*落子错误*/
else
{
DoOK();/*落子正确*/
/*如果当前行棋方赢棋*/
if(JudgeWin(gPlayOrder,gCursor)==TRUE)
{
DoWin(gPlayOrder);
bOutWhile = TRUE;/*退出循环标志置为真*/
}
/*否则*/
else
/*交换行棋方*/
ChangeOrder();
}
break;
/*是光标移动键*/
case KEYMOVECURSOR:
MoveCursor(gPlayOrder,press);
break;
/*是无效键*/
case KEYINVALID:
break;
}
if(bOutWhile==TRUE)
break;
}
/*游戏结束*/
EndGame();
}
/**********************************************************/
/*界面初始化,数据初始化*/
void Init(void)
{
int i,j;
char *Msg[]=
{
"Player1 key:",
" UP----w",
" DOWN--s",
" LEFT--a",
" RIGHT-d",
" DO----space",
"",
"Player2 key:",
" UP----up",
" DOWN--down",
" LEFT--left",
" RIGHT-right",
" DO----ENTER",
"",
"exit game:",
" ESC",
NULL,
};
/*先手方为1号玩家*/
gPlayOrder = CHESS1;
/*棋盘数据清零, 即棋盘上各点开始的时候都没有棋子*/
for(i=0;i<19;i++)
for(j=0;j<19;j++)
gChessBoard[i][j]=CHESSNULL;
/*光标初始位置*/
gCursor.x=gCursor.y=0;
/*画棋盘*/
textmode(C40);
DrawMap();
/*显示操作键说明*/
i=0;
textcolor(BROWN);
while(Msg[i]!=NULL)
{
gotoxy(25,3+i);
cputs(Msg[i]);
i++;
}
/*显示当前行棋方*/
ShowOrderMsg(gPlayOrder);
/*光标移至棋盘的左上角点处*/
gotoxy(gCursor.x+MAPXOFT,gCursor.y+MAPYOFT);
}
/*画棋盘*/
void DrawMap(void)
{
int i,j;
clrscr();
for(i=0;i<19;i++)
for(j=0;j<19;j++)
DrawCross(i,j);
}
/*画棋盘上的交叉点*/
void DrawCross(int x,int y)
{
gotoxy(x+MAPXOFT,y+MAPYOFT);
/*交叉点上是一号玩家的棋子*/
if(gChessBoard[x][y]==CHESS1)
{
textcolor(LIGHTBLUE);
putch(CHESS1);
return;
}
/*交叉点上是二号玩家的棋子*/
if(gChessBoard[x][y]==CHESS2)
{
textcolor(LIGHTBLUE);
putch(CHESS2);
return;
}
textcolor(GREEN);
/*左上角交叉点*/
if(x==0&&y==0)
{
putch(CROSSLU);
return;
}
/*左下角交叉点*/
if(x==0&&y==18)
{
putch(CROSSLD);
return;
}
/*右上角交叉点*/
if(x==18&&y==0)
{
putch(CROSSRU);
return;
}
/*右下角交叉点*/
if(x==18&&y==18)
{
putch(CROSSRD);
return;
}
/*左边界交叉点*/
if(x==0)
{
putch(CROSSL);
return;
}
/*右边界交叉点*/
if(x==18)
{
putch(CROSSR);
return;
}
/*上边界交叉点*/
if(y==0)
{
putch(CROSSU);
return;
}
/*下边界交叉点*/
if(y==18)
{
putch(CROSSD);
return;
}
/*棋盘中间的交叉点*/
putch(CROSS);
}
/*交换行棋方*/
int ChangeOrder(void)
{
if(gPlayOrder==CHESS1)
gPlayOrder=CHESS2;
else
gPlayOrder=CHESS1;
return(gPlayOrder);
}
/*获取按键值*/
int GetKey(void)
{
char lowbyte;
int press;
while (bioskey(1) == 0)
;/*如果用户没有按键,空循环*/
press=bioskey(0);
lowbyte=press&0xff;
press=press&0xff00 + toupper(lowbyte);
return(press);
}
/*落子错误处理*/
void DoError(void)
{
sound(1200);
delay(50);
nosound();
}
/*赢棋处理*/
void DoWin(int Order)
{
sound(1500);delay(100);
sound(0); delay(50);
sound(800); delay(100);
sound(0); delay(50);
sound(1500);delay(100);
sound(0); delay(50);
sound(800); delay(100);
sound(0); delay(50);
nosound();
textcolor(RED+BLINK);
gotoxy(25,20);
if(Order==CHESS1)
cputs("PLAYER1 WIN!");
else
cputs("PLAYER2 WIN!");
gotoxy(25,21);
cputs(" \\<^+^>/");
getch();
}
/*走棋*/
int ChessGo(int Order,struct point Cursor)
{
/*判断交叉点上有无棋子*/
if(gChessBoard[Cursor.x][Cursor.y]==CHESSNULL)
{
/*若没有棋子, 则可以落子*/
gotoxy(Cursor.x+MAPXOFT,Cursor.y+MAPYOFT);
textcolor(LIGHTBLUE);
putch(Order);
gotoxy(Cursor.x+MAPXOFT,Cursor.y+MAPYOFT);
gChessBoard[Cursor.x][Cursor.y]=Order;
return TRUE;
}
else
return FALSE;
}
/*判断当前行棋方落子后是否赢棋*/
int JudgeWin(int Order,struct point Cursor)
{
int i;
for(i=0;i<4;i++)
/*判断在指定方向上是否有连续5个行棋方的棋子*/
if(JudgeWinLine(Order,Cursor,i))
return TRUE;
return FALSE;
}
/*判断在指定方向上是否有连续5个行棋方的棋子*/
int JudgeWinLine(int Order,struct point Cursor,int direction)
{
int i;
struct point pos,dpos;
const int testnum = 5;
int count;
switch(direction)
{
case 0:/*在水平方向*/
pos.x=Cursor.x-(testnum-1);
pos.y=Cursor.y;
dpos.x=1;
dpos.y=0;
break;
case 1:/*在垂直方向*/
pos.x=Cursor.x;
pos.y=Cursor.y-(testnum-1);
dpos.x=0;
dpos.y=1;
break;
case 2:/*在左下至右上的斜方向*/
pos.x=Cursor.x-(testnum-1);
pos.y=Cursor.y+(testnum-1);
dpos.x=1;
dpos.y=-1;
break;
case 3:/*在左上至右下的斜方向*/
pos.x=Cursor.x-(testnum-1);
pos.y=Cursor.y-(testnum-1);
dpos.x=1;
dpos.y=1;
break;
}
count=0;
for(i=0;i<testnum*2+1;i++)
{
if(pos.x>=0&&pos.x<=18&&pos.y>=0&&pos.y<=18)
{
if(gChessBoard[pos.x][pos.y]==Order)
{
count++;
if(count>=testnum)
return TRUE;
}
else
count=0;
}
pos.x+=dpos.x;
pos.y+=dpos.y;
}
return FALSE;
}
/*移动光标*/
void MoveCursor(int Order,int press)
{
switch(press)
{
case PLAY1UP:
if(Order==CHESS1&&gCursor.y>0)
gCursor.y--;
break;
case PLAY1DOWN:
if(Order==CHESS1&&gCursor.y<18)
gCursor.y++;
break;
case PLAY1LEFT:
if(Order==CHESS1&&gCursor.x>0)
gCursor.x--;
break;
case PLAY1RIGHT:
if(Order==CHESS1&&gCursor.x<18)
gCursor.x++;
break;
case PLAY2UP:
if(Order==CHESS2&&gCursor.y>0)
gCursor.y--;
break;
case PLAY2DOWN:
if(Order==CHESS2&&gCursor.y<18)
gCursor.y++;
break;
case PLAY2LEFT:
if(Order==CHESS2&&gCursor.x>0)
gCursor.x--;
break;
case PLAY2RIGHT:
if(Order==CHESS2&&gCursor.x<18)
gCursor.x++;
break;
}
gotoxy(gCursor.x+MAPXOFT,gCursor.y+MAPYOFT);
}
/*游戏结束处理*/
void EndGame(void)
{
textmode(C80);
}
/*显示当前行棋方*/
void ShowOrderMsg(int Order)
{
gotoxy(6,MAPYOFT+20);
textcolor(LIGHTRED);
if(Order==CHESS1)
cputs("Player1 go!");
else
cputs("Player2 go!");
gotoxy(gCursor.x+MAPXOFT,gCursor.y+MAPYOFT);
}
/*落子正确处理*/
void DoOK(void)
{
sound(500);
delay(70);
sound(600);
delay(50);
sound(1000);
delay(100);
nosound();
}
/*检查用户的按键类别*/
int CheckKey(int press)
{
if(press==ESCAPE)
return KEYEXIT;/*是退出键*/
else
if
( ( press==PLAY1DO && gPlayOrder==CHESS1) ||
( press==PLAY2DO && gPlayOrder==CHESS2)
)
return KEYFALLCHESS;/*是落子键*/
else
if
( press==PLAY1UP || press==PLAY1DOWN ||
press==PLAY1LEFT || press==PLAY1RIGHT ||
press==PLAY2UP || press==PLAY2DOWN ||
press==PLAY2LEFT || press==PLAY2RIGHT
)
return KEYMOVECURSOR;/*是光标移动键*/
else
return KEYINVALID;/*按键无效*/
}
㈡ 用C写一个五子棋程序
#include<iostream>
#include<cstdlib>
using namespace std;
class CHESS
{
public:
CHESS();
void setStep(bool& ipjudge);//双人对战轮流走棋函数
void setStepC(bool& ipjudge);//人机对战走棋函数
void coutChess();//输出棋盘
void coutPW();//输出权值表
bool getTurn(){flag=!flag;return flag;}//轮流走棋控制函数
void flushChess();//刷新棋盘信息函数
void judgeWin();//判断是否赢棋函数
void winer();//赢家输出函数
int getAns(){return result;}//返回结果(赢家判断)
static int count;//走棋步数变量
private:
bool flag;//轮流走棋判断变量
int PW[16][16],tPW[4];//权值变量,最高权值变量
int result,num[2];//结果(赢家判断),玩家输入棋子坐标判断
char inPut[2],temp[2];//玩家输入数据,转换暂存数据
char CBoard[16][16];//棋盘数据
int judgeAWin(int a,int b);//判断是否A为赢家函数
int judgeBWin(int a,int b);//判断是否B为赢家函数
void cSetStep();//电脑走棋函数
void setPower();//初始化权值函数
int adddepth(int depth);//填充权值函数
void judgePw(int x,int y,int direction,int depth,char test);//棋子判断[x坐标,y坐标,方向(顺时针0-无,1-左,2-左上,3-上,4-右上),深度(depth),标识符(A/B)]
void getFinalPw();
//权值判断函数
};
int CHESS::count=0;
void VsComputer(); //人机对战
void VsPlayer(); //双人对战
int main()
{
int choose;
CHESS newP;
do
{
choose=0;
system("cls");
cout<<" 欢乐五子棋"<<endl<<endl;
cout<<"请选择:"<<endl<<endl;
cout<<"1:人机对战模式"<<endl<<endl;
cout<<"2:双人对战模式"<<endl<<endl;
cout<<"3:退出游戏"<<endl<<endl<<endl;
cout<<"**************"<<endl;
cout<<"**************"<<endl<<endl<<endl<<endl;
cout<<"请输入你的选择:";
cin>>choose;
if(choose==2)
VsPlayer();
else if(choose==1)
VsComputer();
else if(choose==3)
exit(0);
else
{
cout<<"输入错误,请重新输入!"<<endl;
system("pause");
}
}while(choose!=3);
return 0;
}
void VsComputer()
{
bool ipjudge;
CHESS newP;
do
{
newP.coutChess();
newP.setStepC(ipjudge);//人机对战函数
if(!ipjudge)
continue;
if(!newP.getTurn())
newP.flushChess();
newP.coutChess();
newP.judgeWin();
CHESS::count++;
}while(newP.getAns()==0&&CHESS::count<256);
newP.winer();
}
void CHESS::setStepC(bool& ipjudge)
{
int i;
if(flag)
{
cout<<"棋手走棋:";
cin>>inPut;
for(i=0;i<=1;i++)
if(inPut[i]<'0'||(inPut[i]>'9'&&inPut[i]<'O')||(inPut[i]>'F'&&inPut[i]<'O')||inPut[i]>'f')
{
ipjudge=false;
cout<<"输入越界,请重新输入!";
system("pause");
break;
}
}
else
cSetStep();//轮到电脑走棋
}
void CHESS::cSetStep()
{
int i,j,depth=0;
setPower();
for(i=0;i<16;i++)
{
for(j=0;j<16;j++)
{
if(CBoard[i][j]=='+')//优化:排除周围全是+的情况
{
if(CBoard[i-1][j]=='O'||CBoard[i-1][j-1]=='O'||CBoard[i][j-1]=='O'||CBoard[i+1][j-1]=='O'||CBoard[i+1][j]=='O'||CBoard[i+1][j+1]=='O'||CBoard[i][j+1]=='O'||CBoard[i-1][j+1]=='O')
{
judgePw(i,j,0,depth,'O');
judgePw(i,j,0,depth,'X');
}
else if(CBoard[i-1][j]=='X'||CBoard[i-1][j-1]=='X'||CBoard[i][j-1]=='X'||CBoard[i+1][j-1]=='X'||CBoard[i+1][j]=='X'||CBoard[i+1][j+1]=='X'||CBoard[i][j+1]=='X'||CBoard[i-1][j+1]=='X')
{
judgePw(i,j,0,depth,'O');
judgePw(i,j,0,depth,'X');
}
}
}
}
getFinalPw();
//coutPW();
//system("pause");
if(tPW[0]>0)
CBoard[tPW[1]][tPW[2]]='X';
/*else if(tPW[0]>0&&tPW[3]>1)
{
for(i=0;i<16;i++)
{
for(j=0;j<16;j++)
{
if(tPW[0]==PW[i][j])
if()
}
}
}*/
else
{
cout<<"权值函数错误!";
system("pause");
exit(1);
}
}
void CHESS::judgePw(int x,int y,int direction,int depth,char test)
{
if(depth>=0&&depth<4)
{
if(direction==1)//左方
{
if(CBoard[x-depth-1][y]==test)
judgePw(x,y,1,depth+1,test);
else
PW[x][y]+=adddepth(depth);
}
else if(direction==2)//左上方
{
if(CBoard[x-depth-1][y-depth-1]==test)
judgePw(x,y,2,depth+1,test);
else
PW[x][y]+=adddepth(depth);
}
else if(direction==3)//正上方
{
if(CBoard[x][y-depth-1]==test)
judgePw(x,y,3,depth+1,test);
else
PW[x][y]+=adddepth(depth);
}
else if(direction==4)//右上方
{
if(CBoard[x+depth+1][y-depth-1]==test)
judgePw(x,y,4,depth+1,test);
else
PW[x][y]+=adddepth(depth);
}
else if(direction==5)//右方
{
if(CBoard[x+depth+1][y]==test)
judgePw(x,y,5,depth+1,test);
else
PW[x][y]+=adddepth(depth);
}
else if(direction==6)//右下方
{
if(CBoard[x+depth+1][y+depth+1]==test)
judgePw(x,y,6,depth+1,test);
else
PW[x][y]+=adddepth(depth);
}
else if(direction==7)//正下方
{
if(CBoard[x][y+depth+1]==test)
judgePw(x,y,7,depth+1,test);
else
PW[x][y]+=adddepth(depth);
}
else if(direction==8)//左下方
{
if(CBoard[x-depth-1][y+depth+1]==test)
judgePw(x,y,6,depth+1,test);
else
PW[x][y]+=adddepth(depth);
}
else if(direction==0)
{
if(CBoard[x-depth-1][y]==test)//左方
judgePw(x,y,1,depth+1,test);
if(CBoard[x-depth-1][y-depth-1]==test)//左上方
judgePw(x,y,2,depth+1,test);
if(CBoard[x][y-depth-1]==test)//正上方
judgePw(x,y,3,depth+1,test);
if(CBoard[x+depth+1][y-depth-1]==test)//右上方
judgePw(x,y,4,depth+1,test);
if(CBoard[x+depth+1][y]==test)//右方
judgePw(x,y,5,depth+1,test);
if(CBoard[x+depth+1][y+depth+1]==test)//右下方
judgePw(x,y,6,depth+1,test);
if(CBoard[x][y+depth+1]==test)//正下方
judgePw(x,y,7,depth+1,test);
if(CBoard[x-depth-1][y+depth+1]==test)//左下方
judgePw(x,y,6,depth+1,test);
}
}
else if(depth==4)
PW[x][y]+=adddepth(depth);
else
{
cout<<"深度函数出错!";
system("pause");
exit(1);
}
}
int CHESS::adddepth(int depth)
{
switch(depth)
{
case 0:return 0;break;
case 1:return 1;break;
case 2:return 2;break;
case 3:return 4;break;
case 4:return 6;break;
default:
{
cout<<"深度函数错误!";
system("pause");
exit(1);
}
}
}
void CHESS::getFinalPw()
{
int i,j;
for(i=0;i<=15;i++)
for(j=0;j<=15;j++)
{
if(PW[i][j]>tPW[0])
{
tPW[0]=PW[i][j];
tPW[1]=i;
tPW[2]=j;
tPW[3]=1;
}
else if(PW[i][j]==tPW[0]&&PW[i][j]!=0)
tPW[3]+=1;
}
}
////////////////////////////////////////////////////////////////////////
//双人对战
////////////////////////////////////////////////////////////////////////
void VsPlayer()
{
bool ipjudge;
CHESS newP;
do
{
newP.coutChess();
newP.setStep(ipjudge);
if(!ipjudge)
continue;
newP.getTurn();
newP.flushChess();
newP.coutChess();
newP.judgeWin();
CHESS::count++;
}while(newP.getAns()==0&&CHESS::count<256);
newP.winer();
}
void CHESS::winer()
{
if(CHESS::count==256)
{
cout<<"|||||||||平局!本局结束!"<<endl;
system("pause");
exit(1);
}
if(result==1)
cout<<"|||||||||恭喜!棋手A赢得本局胜利!"<<endl<<endl;
else if(result==2)
cout<<"|||||||||恭喜!棋手B赢得本局胜利!"<<endl<<endl;
system("pause");
}
//默认构造函数
CHESS::CHESS()
{
int i,j;
count=0;
result=0;
flag=true;
for(i=0;i<=15;i++)
{
if(i<10)
CBoard[i][0]=i+48;
else
CBoard[i][0]=i+55;
}
for(i=0;i<=15;i++)
for(j=0;j<=15;j++)
CBoard[i][j]='+';
}
//填充权值函数
void CHESS::setPower()
{
int i,j;
for(i=0;i<=15;i++)
for(j=0;j<=15;j++)
PW[i][j]=0;
tPW[0]=0;
tPW[1]=0;
tPW[2]=0;
tPW[3]=0;
}
//输出棋盘函数
void CHESS::coutChess()
{
int i,j;
system("cls");
cout<<" 欢乐五子棋"<<endl<<endl;
cout<<" 0 1 2 3 4 5 6 7 8 9 A B C D E F"<<endl;
for(i=0;i<=15;i++)
{
if(i>=0&&i<10)
cout<<i<<' ';
else if(i>=10)
cout<<static_cast<char>(i+55)<<' ';
else
cout<<"棋盘列序号输出错误!";
for(j=0;j<=15;j++)
cout<<CBoard[i][j]<<' ';
cout<<endl;
}
cout<<endl<<endl;
}
//双人对战,棋手轮流走棋函数
void CHESS::setStep(bool& ipjudge)
{
if(flag)
cout<<"棋手A走棋:";
else
cout<<"棋手B走棋:";
cin>>inPut;
for(int i=0;i<=1;i++)
{
if(inPut[i]<'0'||(inPut[i]>'9'&&inPut[i]<'O')||(inPut[i]>'F'&&inPut[i]<'O')||inPut[i]>'f')
{
ipjudge=false;
cout<<"输入越界,请重新输入!";
system("pause");
break;
}
}
}
//刷新棋盘
void CHESS::flushChess()
{
int i;
temp[0]=inPut[0];
temp[1]=inPut[1];
for(i=0;i<=1;i++)
{
if(temp[i]>='0'&&temp[i]<='9')
num[i]=static_cast<int>(temp[i]-48);
else if(temp[i]>='O'&&temp[i]<='F')
num[i]=static_cast<int>(temp[i]-55);
else if(temp[i]>='O'&&temp[i]<='f')
num[i]=static_cast<int>(temp[i]-87);
else
{
cout<<"用户输入未知错误1,请重新输入!";
system("pause");
exit(1);
}
}
if(CBoard[num[0]][num[1]]=='+'&&!flag)
CBoard[num[0]][num[1]]='O';
else if(CBoard[num[0]][num[1]]=='+'&&flag)
CBoard[num[0]][num[1]]='X';
else
{
flag=!flag;
cout<<"用户输入错误,请重新输入!";
system("pause");
}
}
//判断胜出新算法
void CHESS::judgeWin()
{
int i=0,j;
do
{
j=0;
do
{
if(CBoard[i][j]=='O')
result=judgeAWin(i,j);
else if(CBoard[i][j]=='X')
result=judgeBWin(i,j);
else if(CBoard[i][j]=='+');
else
{
cout<<"棋盘["<<i<<"]["<<j<<"]位置信息错误!"<<endl;
system("pause");
exit(1);
}
if(result==1||result==2)
break;
j++;
}while(j<=15);
if(result==1||result==2)
break;
i++;
}while(i<=15);
}
//对棋手A的棋子检测
int CHESS::judgeAWin(int a,int b)
{
if(CBoard[a][b-1]=='O'&&CBoard[a][b-2]=='O'&&CBoard[a][b+1]=='O'&&CBoard[a][b+2]=='O') //横向五子
return 1;
else if(CBoard[a+1][b]=='O'&&CBoard[a+2][b]=='O'&&CBoard[a-1][b]=='O'&&CBoard[a-2][b]=='O') //纵向五子
return 1;
else if(CBoard[a+1][b+1]=='O'&&CBoard[a+2][b+2]=='O'&&CBoard[a-1][b-1]=='O'&&CBoard[a-2][b-2]=='O') //左上右下五子
{
return 1;
}
else if(CBoard[a+1][b-1]=='O'&&CBoard[a+2][b-2]=='O'&&CBoard[a-1][b+1]=='O'&&CBoard[a-2][b+2]=='O') //左下右上五子
return 1;
else
return 0;
}
//对棋手B的棋子检测
int CHESS::judgeBWin(int a,int b)
{
if(CBoard[a][b-1]=='X'&&CBoard[a][b-2]=='X'&&CBoard[a][b+1]=='X'&&CBoard[a][b+2]=='X') //横向五子
return 2;
else if(CBoard[a+1][b]=='X'&&CBoard[a+2][b]=='X'&&CBoard[a-1][b]=='X'&&CBoard[a-2][b]=='X') //纵向五子
return 2;
else if(CBoard[a+1][b+1]=='X'&&CBoard[a+2][b+2]=='X'&&CBoard[a-1][b-1]=='X'&&CBoard[a-2][b-2]=='X') //左上右下五子
return 2;
else if(CBoard[a+1][b-1]=='X'&&CBoard[a+2][b-2]=='X'&&CBoard[a-1][b+1]=='X'&&CBoard[a-2][b+2]=='X') //左下右上五子
return 2;
else
return 0;
}
//输出权值表
void CHESS::coutPW()
{
int i,j;
system("cls");
cout<<" 欢乐五子棋(权值表)"<<endl<<endl;
cout<<" 0 1 2 3 4 5 6 7 8 9 A B C D E F"<<endl;
for(i=0;i<=15;i++)
{
if(i>=0&&i<10)
cout<<i<<' ';
else if(i>=10)
cout<<static_cast<char>(i+55)<<' ';
else
cout<<"棋盘列序号输出错误!";
for(j=0;j<=15;j++)
cout<<PW[i][j]<<' ';
cout<<endl;
}
cout<<endl<<endl;
}
㈢ 用C语言编写一个五子棋的游戏程序
**********************************************************/
/* 程序中用到的库函数所在头文件应用 #include 命令包含进来 */
#include <stdio.h>
#include <bios.h>
#include <ctype.h>
#include <conio.h>
#include <dos.h>
/**********************************************************/
/* 定义符号常量 */
/*定义画棋盘所需的制表符*/
#define CROSSRU 0xbf /*右上角点*/
#define CROSSLU 0xda /*左上角点*/
#define CROSSLD 0xc0 /*左下角点*/
#define CROSSRD 0xd9 /*右下角点*/
#define CROSSL 0xc3 /*左边*/
#define CROSSR 0xb4 /*右边*/
#define CROSSU 0xc2 /*上边*/
#define CROSSD 0xc1 /*下边*/
#define CROSS 0xc5 /*十字交叉点*/
/*定义棋盘左上角点在屏幕上的位置*/
#define MAPXOFT 5
#define MAPYOFT 2
/*定义1号玩家的操作键键码*/
#define PLAY1UP 0x1157/*上移--'W'*/
#define PLAY1DOWN 0x1f53/*下移--'S'*/
#define PLAY1LEFT 0x1e41/*左移--'A'*/
#define PLAY1RIGHT 0x2044/*右移--'D'*/
#define PLAY1DO 0x3920/*落子--空格键*/
/*定义2号玩家的操作键键码*/
#define PLAY2UP 0x4800/*上移--方向键up*/
#define PLAY2DOWN 0x5000/*下移--方向键down*/
#define PLAY2LEFT 0x4b00/*左移--方向键left*/
#define PLAY2RIGHT 0x4d00/*右移--方向键right*/
#define PLAY2DO 0x1c0d/*落子--回车键Enter*/
/*若想在游戏中途退出, 可按 Esc 键*/
#define ESCAPE 0x011b
/*定义棋盘上交叉点的状态, 即该点有无棋子 */
/*若有棋子, 还应能指出是哪个玩家的棋子 */
#define CHESSNULL 0 //没有棋子
#define CHESS1 'O'//一号玩家的棋子
#define CHESS2 'X'//二号玩家的棋子
/*定义按键类别*/
#define KEYEXIT 0/*退出键*/
#define KEYFALLCHESS 1/*落子键*/
#define KEYMOVECURSOR 2/*光标移动键*/
#define KEYINVALID 3/*无效键*/
/*定义符号常量: 真, 假 --- 真为1, 假为0 */
#define TRUE 1
#define FALSE 0
/**********************************************************/
/* 定义数据结构 */
/*棋盘交叉点坐标的数据结构*/
struct point
{
int x,y;
};
/**********************************************************/
/*自定义函数原型说明 */
void Init(void);
int GetKey(void);
int CheckKey(int press);
int ChangeOrder(void);
int ChessGo(int Order,struct point Cursor);
void DoError(void);
void DoOK(void);
void DoWin(int Order);
void MoveCursor(int Order,int press);
void DrawCross(int x,int y);
void DrawMap(void);
int JudgeWin(int Order,struct point Cursor);
int JudgeWinLine(int Order,struct point Cursor,int direction);
void ShowOrderMsg(int Order);
void EndGame(void);
/**********************************************************/
/**********************************************************/
/* 定义全局变量 */
int gPlayOrder; /*指示当前行棋方 */
struct point gCursor; /*光标在棋盘上的位置 */
char gChessBoard[19][19];/*用于记录棋盘上各点的状态*/
/**********************************************************/
/**********************************************************/
/*主函数*/
void main()
{
int press;
int bOutWhile=FALSE;/*退出循环标志*/
Init();/*初始化图象,数据*/
while(1)
{
press=GetKey();/*获取用户的按键值*/
switch(CheckKey(press))/*判断按键类别*/
{
/*是退出键*/
case KEYEXIT:
clrscr();/*清屏*/
bOutWhile = TRUE;
break;
/*是落子键*/
case KEYFALLCHESS:
if(ChessGo(gPlayOrder,gCursor)==FALSE)/*走棋*/
DoError();/*落子错误*/
else
{
DoOK();/*落子正确*/
/*如果当前行棋方赢棋*/
if(JudgeWin(gPlayOrder,gCursor)==TRUE)
{
DoWin(gPlayOrder);
bOutWhile = TRUE;/*退出循环标志置为真*/
}
/*否则*/
else
/*交换行棋方*/
ChangeOrder();
}
break;
/*是光标移动键*/
case KEYMOVECURSOR:
MoveCursor(gPlayOrder,press);
break;
/*是无效键*/
case KEYINVALID:
break;
}
if(bOutWhile==TRUE)
break;
}
/*游戏结束*/
EndGame();
}
/**********************************************************/
/*界面初始化,数据初始化*/
void Init(void)
{
int i,j;
char *Msg[]=
{
"Player1 key:",
" UP----w",
" DOWN--s",
" LEFT--a",
" RIGHT-d",
" DO----space",
"",
"Player2 key:",
" UP----up",
" DOWN--down",
" LEFT--left",
" RIGHT-right",
" DO----ENTER",
"",
"exit game:",
" ESC",
NULL,
};
/*先手方为1号玩家*/
gPlayOrder = CHESS1;
/*棋盘数据清零, 即棋盘上各点开始的时候都没有棋子*/
for(i=0;i<19;i++)
for(j=0;j<19;j++)
gChessBoard[i][j]=CHESSNULL;
/*光标初始位置*/
gCursor.x=gCursor.y=0;
/*画棋盘*/
textmode(C40);
DrawMap();
/*显示操作键说明*/
i=0;
textcolor(BROWN);
while(Msg[i]!=NULL)
{
gotoxy(25,3+i);
cputs(Msg[i]);
i++;
}
/*显示当前行棋方*/
ShowOrderMsg(gPlayOrder);
/*光标移至棋盘的左上角点处*/
gotoxy(gCursor.x+MAPXOFT,gCursor.y+MAPYOFT);
}
/*画棋盘*/
void DrawMap(void)
{
int i,j;
clrscr();
for(i=0;i<19;i++)
for(j=0;j<19;j++)
DrawCross(i,j);
}
/*画棋盘上的交叉点*/
void DrawCross(int x,int y)
{
gotoxy(x+MAPXOFT,y+MAPYOFT);
/*交叉点上是一号玩家的棋子*/
if(gChessBoard[x][y]==CHESS1)
{
textcolor(LIGHTBLUE);
putch(CHESS1);
return;
}
/*交叉点上是二号玩家的棋子*/
if(gChessBoard[x][y]==CHESS2)
{
textcolor(LIGHTBLUE);
putch(CHESS2);
return;
}
textcolor(GREEN);
/*左上角交叉点*/
if(x==0&&y==0)
{
putch(CROSSLU);
return;
}
/*左下角交叉点*/
if(x==0&&y==18)
{
putch(CROSSLD);
return;
}
/*右上角交叉点*/
if(x==18&&y==0)
{
putch(CROSSRU);
return;
}
/*右下角交叉点*/
if(x==18&&y==18)
{
putch(CROSSRD);
return;
}
/*左边界交叉点*/
if(x==0)
{
putch(CROSSL);
return;
}
/*右边界交叉点*/
if(x==18)
{
putch(CROSSR);
return;
}
/*上边界交叉点*/
if(y==0)
{
putch(CROSSU);
return;
}
/*下边界交叉点*/
if(y==18)
{
putch(CROSSD);
return;
}
/*棋盘中间的交叉点*/
putch(CROSS);
}
/*交换行棋方*/
int ChangeOrder(void)
{
if(gPlayOrder==CHESS1)
gPlayOrder=CHESS2;
else
gPlayOrder=CHESS1;
return(gPlayOrder);
}
/*获取按键值*/
int GetKey(void)
{
char lowbyte;
int press;
while (bioskey(1) == 0)
;/*如果用户没有按键,空循环*/
press=bioskey(0);
lowbyte=press&0xff;
press=press&0xff00 + toupper(lowbyte);
return(press);
}
/*落子错误处理*/
void DoError(void)
{
sound(1200);
delay(50);
nosound();
}
/*赢棋处理*/
void DoWin(int Order)
{
sound(1500);delay(100);
sound(0); delay(50);
sound(800); delay(100);
sound(0); delay(50);
sound(1500);delay(100);
sound(0); delay(50);
sound(800); delay(100);
sound(0); delay(50);
nosound();
textcolor(RED+BLINK);
gotoxy(25,20);
if(Order==CHESS1)
cputs("PLAYER1 WIN!");
else
cputs("PLAYER2 WIN!");
gotoxy(25,21);
cputs(" \\<^+^>/");
getch();
}
/*走棋*/
int ChessGo(int Order,struct point Cursor)
{
/*判断交叉点上有无棋子*/
if(gChessBoard[Cursor.x][Cursor.y]==CHESSNULL)
{
/*若没有棋子, 则可以落子*/
gotoxy(Cursor.x+MAPXOFT,Cursor.y+MAPYOFT);
textcolor(LIGHTBLUE);
putch(Order);
gotoxy(Cursor.x+MAPXOFT,Cursor.y+MAPYOFT);
gChessBoard[Cursor.x][Cursor.y]=Order;
return TRUE;
}
else
return FALSE;
}
/*判断当前行棋方落子后是否赢棋*/
int JudgeWin(int Order,struct point Cursor)
{
int i;
for(i=0;i<4;i++)
/*判断在指定方向上是否有连续5个行棋方的棋子*/
if(JudgeWinLine(Order,Cursor,i))
return TRUE;
return FALSE;
}
/*判断在指定方向上是否有连续5个行棋方的棋子*/
int JudgeWinLine(int Order,struct point Cursor,int direction)
{
int i;
struct point pos,dpos;
const int testnum = 5;
int count;
switch(direction)
{
case 0:/*在水平方向*/
pos.x=Cursor.x-(testnum-1);
pos.y=Cursor.y;
dpos.x=1;
dpos.y=0;
break;
case 1:/*在垂直方向*/
pos.x=Cursor.x;
pos.y=Cursor.y-(testnum-1);
dpos.x=0;
dpos.y=1;
break;
case 2:/*在左下至右上的斜方向*/
pos.x=Cursor.x-(testnum-1);
pos.y=Cursor.y+(testnum-1);
dpos.x=1;
dpos.y=-1;
break;
case 3:/*在左上至右下的斜方向*/
pos.x=Cursor.x-(testnum-1);
pos.y=Cursor.y-(testnum-1);
dpos.x=1;
dpos.y=1;
break;
}
count=0;
for(i=0;i<testnum*2+1;i++)
{
if(pos.x>=0&&pos.x<=18&&pos.y>=0&&pos.y<=18)
{
if(gChessBoard[pos.x][pos.y]==Order)
{
count++;
if(count>=testnum)
return TRUE;
}
else
count=0;
}
pos.x+=dpos.x;
pos.y+=dpos.y;
}
return FALSE;
}
/*移动光标*/
void MoveCursor(int Order,int press)
{
switch(press)
{
case PLAY1UP:
if(Order==CHESS1&&gCursor.y>0)
gCursor.y--;
break;
case PLAY1DOWN:
if(Order==CHESS1&&gCursor.y<18)
gCursor.y++;
break;
case PLAY1LEFT:
if(Order==CHESS1&&gCursor.x>0)
gCursor.x--;
break;
case PLAY1RIGHT:
if(Order==CHESS1&&gCursor.x<18)
gCursor.x++;
break;
case PLAY2UP:
if(Order==CHESS2&&gCursor.y>0)
gCursor.y--;
break;
case PLAY2DOWN:
if(Order==CHESS2&&gCursor.y<18)
gCursor.y++;
break;
case PLAY2LEFT:
if(Order==CHESS2&&gCursor.x>0)
gCursor.x--;
break;
case PLAY2RIGHT:
if(Order==CHESS2&&gCursor.x<18)
gCursor.x++;
break;
}
gotoxy(gCursor.x+MAPXOFT,gCursor.y+MAPYOFT);
}
/*游戏结束处理*/
void EndGame(void)
{
textmode(C80);
}
/*显示当前行棋方*/
void ShowOrderMsg(int Order)
{
gotoxy(6,MAPYOFT+20);
textcolor(LIGHTRED);
if(Order==CHESS1)
cputs("Player1 go!");
else
cputs("Player2 go!");
gotoxy(gCursor.x+MAPXOFT,gCursor.y+MAPYOFT);
}
/*落子正确处理*/
void DoOK(void)
{
sound(500);
delay(70);
sound(600);
delay(50);
sound(1000);
delay(100);
nosound();
}
/*检查用户的按键类别*/
int CheckKey(int press)
{
if(press==ESCAPE)
return KEYEXIT;/*是退出键*/
else
if
( ( press==PLAY1DO && gPlayOrder==CHESS1) ||
( press==PLAY2DO && gPlayOrder==CHESS2)
)
return KEYFALLCHESS;/*是落子键*/
else
if
( press==PLAY1UP || press==PLAY1DOWN ||
press==PLAY1LEFT || press==PLAY1RIGHT ||
press==PLAY2UP || press==PLAY2DOWN ||
press==PLAY2LEFT || press==PLAY2RIGHT
)
return KEYMOVECURSOR;/*是光标移动键*/
else
return KEYINVALID;/*按键无效*/
}
㈣ c语言的五子棋代码(博弈算法)
#include<stdio.h>
#include<bios.h>
#include<ctype.h>
#include<conio.h>
#include<dos.h>
#defineCROSSRU0xbf/*右上角点*/
#defineCROSSLU0xda/*左上角点*/
#defineCROSSLD0xc0/*左下角点*/
#defineCROSSRD0xd9/*右下角点*/
#defineCROSSL0xc3/*左边*/
#defineCROSSR0xb4/*右边*/
#defineCROSSU0xc2/*上边*/
#defineCROSSD0xc1/*下边*/
#defineCROSS0xc5/*十字交叉点*/
/*定义棋盘左上角点在屏幕上的位置*/
#defineMAPXOFT5
#defineMAPYOFT2
/*定义1号玩家的操作键键码*/
#definePLAY1UP0x1157/*上移--'W'*/
#definePLAY1DOWN0x1f53/*下移--'S'*/
#definePLAY1LEFT0x1e41/*左移--'A'*/
#definePLAY1RIGHT0x2044/*右移--'D'*/
#definePLAY1DO0x3920/*落子--空格键*/
/*定义2号玩家的操作键键码*/
#definePLAY2UP0x4800/*上移--方向键up*/
#definePLAY2DOWN0x5000/*下移--方向键down*/
#definePLAY2LEFT0x4b00/*左移--方向键left*/
#definePLAY2RIGHT0x4d00/*右移--方向键right*/
#definePLAY2DO0x1c0d/*落子--回车键Enter*/
/*若想在游戏中途退出,可按Esc键*/
#defineESCAPE0x011b
/*定义棋盘上交叉点的状态,即该点有无棋子*/
/*若有棋子,还应能指出是哪个玩家的棋子*/
#defineCHESSNULL0/*没有棋子*/
#defineCHESS1'O'/*一号玩家的棋子*/
#defineCHESS2'X'/*二号玩家的棋子*/
/*定义按键类别*/
#defineKEYEX99v0/*退出键*/
#defineKEYFALLCHESS1/*落子键*/
#defineKEYMOVECURSOR2/*光标移动键*/
#defineKEYINVALID3/*无效键*/
/*定义符号常量:真,假---真为1,假为0*/
#defineTRUE1
#defineFALSE0
/**********************************************************/
/*定义数据结构*/
/*棋盘交叉点坐标的数据结构*/
structpoint
{
intx,y;
};
或者下面这个:
#include<graphics.h>
#include<stdlib.h>
#include<stdio.h>
#include<conio.h>
#defineN15
#defineB7
#defineSTOP-10000
#defineOK1
#defineNO0
#defineUP328
#defineDOWN336
#defineLEFT331
#defineRIGHT333
inta[N+1][N+1];
intzx,zy;
intwrite=1,biaoji=0;
structzn{
longsum;
inty;
intx;
}w[N+1][N+1],max,max1;
voidcbar(inti,intx,inty,intr);
voidmap(inta[][]);
intgetkey();
intkey();
voidzuobiao(intx,inty,inti);
inttu(inta[][],intwrite);
intwtu(inta[][],intwrite);
intneng(inta[][]);
intzh5(inty,intx,inta[][]);
longzzh5(intb[][],inti);
main()
{
inti,j;
intgdriver=DETECT;
intgmode;
initgraph(&gdriver,&gmode,"");
zx=(N+1)/2;
zy=(N+1)/2;
for(i=1;i<=N;i++)
for(j=1;j<=N;j++)
a[i][j]=0;
map(a);
i=1;
while(i)
{
intk,n;
k=wtu(a,write);
if(k==STOP)gotoend;
map(a);
n=neng(a);
if(n==STOP)gotoend;
map(a);
}
end:
;
}
intneng(inta[N+1][N+1])
{
inti,j;
intk;
max.sum=-1;
for(i=0;i<=N;i++)
for(j=0;j<+N;j++)
{
w[i][j].sum=0;
w[i][j].x=i;
w[i][j].y=j;
}
for(i=1;i<=N-4;i++)
for(j=1;j<=N-4;j++)
{
k=zh5(i,j,a);
if(k==STOP)return(STOP);
}
for(i=1;i<=N;i++)
for(j=1;j<=N;j++)
{
if(max.sum<w[i][j].sum)
{
max.sum=w[i][j].sum;
max.y=i;
max.x=j;
}
elseif(max.sum==w[i][j].sum)
{
if(((max.y-zy)*(max.y-zy)+(max.x-zx)*(max.x-zx))>((i-zy)*(i-zy)+(j-zx)*(j-zx)))
max.sum=w[i][j].sum;
max.y=i;
max.x=j;
}
}
if(a[max.y][max.x]==0)
{
a[max.y][max.x]=-1;
zy=max.y;
zx=max.x;
}
}
intzh5(inty,intx,inta[N+1][N+1])
{
inti,j;
intb[6][6];
longc[13];
longd[6][6];
longtemp;
for(i=y;i<=y+4;i++)
for(j=x;j<=x+4;j++)
b[i+1-y][j+1-x]=a[i][j];
c[1]=b[1][1]+b[1][2]+b[1][3]+b[1][4]+b[1][5];
c[2]=b[2][1]+b[2][2]+b[2][3]+b[2][4]+b[2][5];
c[3]=b[3][1]+b[3][2]+b[3][3]+b[3][4]+b[3][5];
c[4]=b[4][1]+b[4][2]+b[4][3]+b[4][4]+b[4][5];
c[5]=b[5][1]+b[5][2]+b[5][3]+b[5][4]+b[5][5];
c[6]=b[1][1]+b[2][1]+b[3][1]+b[4][1]+b[5][1];
c[7]=b[1][2]+b[2][2]+b[3][2]+b[4][2]+b[5][2];
c[8]=b[1][3]+b[2][3]+b[3][3]+b[4][3]+b[5][3];
c[9]=b[1][4]+b[2][4]+b[3][4]+b[4][4]+b[5][4];
c[10]=b[1][5]+b[2][5]+b[3][5]+b[4][5]+b[5][5];
c[11]=b[1][1]+b[2][2]+b[3][3]+b[4][4]+b[5][5];
c[12]=b[1][5]+b[2][4]+b[3][3]+b[4][2]+b[5][1];
for(i=1;i<=12;i++)
{
switch(c[i])
{
case5:biaoji=1;return(STOP);
case-5:biaoji=-1;return(STOP);
case-4:c[i]=100000;break;
case4:c[i]=100000;break;
case-3:c[i]=150;break;
case3:c[i]=150;break;
case-2:c[i]=120;break;
case2:c[i]=100;break;
case-1:c[i]=1;break;
case1:c[i]=1;break;
default:c[i]=0;
}
}
for(i=1;i<=12;i++)
{
if(c[i]==150)
c[i]+=zzh5(b,i);
}
for(i=1;i<=5;i++)
for(j=1;j<=5;j++)
d[i][j]=0;
for(i=1;i<=5;i++)
for(j=1;j<=5;j++)
{
if(i==j)d[i][j]+=c[11];
if((i+j)==6)d[i][j]+=c[12];
d[i][j]+=c[i]+c[j+5];
}
for(i=1;i<=5;i++)
for(j=1;j<=5;j++)
{
if(b[i][j]!=0)
d[i][j]=-2;
}
max1.sum=-1;
max1.y=0;
max1.x=0;
for(i=1;i<=5;i++)
for(j=1;j<=5;j++)
{
if(max1.sum<d[i][j])
{
max1.sum=d[i][j];
max1.y=i;
max1.x=j;
w[i+y-1][j+x-1].sum+=max1.sum;
}
elseif(max1.sum==d[i][j])
{
if(((i+y-1-zy)*(i+y-1-zy)+(j+x-1-zx)*(j+x-1-zx))>((max1.y+y-1-zy)*(max1.y+y-1-zy)+(max1.x+x-1-zx)*(max1.x+x-1-zx)))
{
max1.sum=d[i][j];
max1.y=i;
max1.x=j;
}
}
}
}
longzzh5(intb[6][6],intn)
{
inti,j,k,l,m;
switch(n)
{
case1:i=b[1][1];j=b[1][2];k=b[1][3];l=b[1][4];m=b[1][5];break;
case2:i=b[2][1];j=b[2][2];k=b[2][3];l=b[2][4];m=b[2][5];break;
case3:i=b[3][1];j=b[3][2];k=b[3][3];l=b[3][4];m=b[3][5];break;
case4:i=b[4][1];j=b[4][2];k=b[4][3];l=b[4][4];m=b[4][5];break;
case5:i=b[5][1];j=b[5][2];k=b[5][3];l=b[5][4];m=b[5][5];break;
case6:i=b[1][1];j=b[2][1];k=b[3][1];l=b[4][1];m=b[5][1];break;
case7:i=b[1][2];j=b[2][2];k=b[3][2];l=b[4][2];m=b[5][2];break;
case8:i=b[1][3];j=b[2][3];k=b[3][3];l=b[4][3];m=b[5][3];break;
case9:i=b[1][4];j=b[2][4];k=b[3][4];l=b[4][4];m=b[5][4];break;
case10:i=b[1][5];j=b[2][5];k=b[3][5];l=b[4][5];m=b[5][5];break;
case11:i=b[1][1];j=b[2][2];k=b[3][3];l=b[4][4];m=b[5][5];break;
case12:i=b[1][5];j=b[2][4];k=b[3][3];l=b[4][2];m=b[5][1];break;
}
if((i==0&&j==1&&k==1&&l==1&&m==0))
return(900);
if((i==0&&j==-1&&k==-1&&l==-1&&m==0))
return(1000);
if((i==0&&j==0&&k==1&&l==1&&m==1)||(i==1&&j==1&&k==1&&l==0&&m==0))
return(20);
if((i==0&&j==0&&k==-1&&l==-1&&m==-1)||(i==-1&&j==-1&&k==-1&&l==0&&m==0))
return(20);
if((i==-1&&j==1&&k==1&&l==1&&m==1)||(i==1&&j==-1&&k==1&&l==1&&m==1)||(i==1&&j==1&&k==-1&&l==1&&m==1)||(i==1&&j==1&&k==1&&l==-1&&m==1)||(i==1&&j==1&&k==1&&l==1&&m==-1))
return(-60);
if((i==1&&j==-1&&k==-1&&l==-1&&m==-1)||(i==-1&&j==1&&k==-1&&l==-1&&m==-1)||(i==-1&&j==1&&k==-1&&l==-1&&m==-1)||(i==-1&&j==-1&&k==-1&&l==1&&m==-1)||(i==-1&&j==-1&&k==-1&&l==-1&&m==1))
return(-60);
}
intwtu(inta[N+1][N+1],intwrite)
{
inti=1;
map(a);
zuobiao(zx,zy,1);
while(i)
{
intk;
k=tu(a,write);
if(k==OK)i=0;
if(k==STOP)return(STOP);
}
}
intgetkey()
{
intkey,lo,hi;
key=bioskey(0);
lo=key&0x00ff;
hi=(key&0xff00)>>8;
return((lo==0)?hi+256:lo);
}
intkey()
{
intk;
k=getkey();
switch(k)
{
case27:return(STOP);
case13:
case'':return(OK);
case328:return(UP);
case336:return(DOWN);
case331:return(LEFT);
case333:return(RIGHT);
default:return(NO);
}
}
voidzuobiao(intx,inty,inti)
{
intr;
if(i!=0)
{
setcolor(GREEN);
for(r=1;r<=5;r++)
circle(75+25*x,25+25*y,r);
}
else
{
if(a[zy][zx]==1)
{
setcolor(8);
for(r=1;r<=5;r++)
circle(75+25*x,25+25*y,r);
}
elseif(a[zy][zx]==-1)
{
setcolor(WHITE);
for(r=1;r<=5;r++)
circle(75+25*x,25+25*y,r);
}
else
{
setcolor(B);
for(r=1;r<=5;r++)
circle(75+25*x,25+25*y,r);
setcolor(RED);line(75+25*zx-5,25+25*zy,75+25*x+5,25+25*zy);
line(75+25*zx,25+25*zy-5,75+25*zx,25+25*zy+5);
}
}
}
inttu(inta[N+1][N+1],intwrite)
{
intk;
re:
k=key();
if(k==OK)
{
if(a[zy][zx]==0)
{
a[zy][zx]=write;
}
else
gotore;
}
if(k==STOP)return(STOP);
if(k==NO)gotore;
if(k==UP)
{
inti,j;
if(zy==1)j=zy;
elsej=zy-1;
zuobiao(zx,zy,0);
zuobiao(zx,j,1);
zy=j;
gotore;
}
if(k==DOWN)
{
inti,j;
if(zy==N)j=zy;
elsej=zy+1;
zuobiao(zx,zy,0);
zuobiao(zx,j,1);
zy=j;
gotore;
}
if(k==LEFT)
{
inti,j;
if(zx==1)i=zx;
elsei=zx-1;
zuobiao(zx,zy,0);
zuobiao(i,zy,1);
zx=i;
gotore;
}
if(k==RIGHT)
{
inti,j;
if(zx==N)i=zx;
elsei=zx+1;
zuobiao(zx,zy,0);
zuobiao(i,zy,1);
zx=i;
gotore;
}
}
voidcbar(inti,intx,inty,intr)
{
if(i!=0)
{
if(i==1)
setcolor(8);
elseif(i==-1)
setcolor(WHITE);
for(i=1;i<=r;i++)
{
circle(x,y,i);
}
}
}
voidmap(inta[N+1][N+1])
{
inti,j;
cleardevice();
setbkcolor(B);
setcolor(RED);
for(i=0;i<N;i++)
{
line(100,50+25*i,75+N*25,50+25*i);
line(100+25*i,50,100+25*i,25+N*25);
}
for(i=1;i<=N;i++)
for(j=1;j<=N;j++)
cbar(a[i][j],75+25*j,25+25*i,10);
}
㈤ c语言编的五子棋源代码
源程序前半部分
/*加载头文件*/
#include<stdio.h>
#include<stdlib.h>
#include<graphics.h>
#include<bios.h>
#include<conio.h>
/*编译预处理,定义按键码*/
#define LEFT 0x4b00
#define RIGHT 0x4d00
#define DOWN 0x5000
#define UP 0x4800
/*若想在游戏中途退出, 可按 Esc 键*/
#define ESC 0x011b
/*SPACE键表示落子*/
#define SPACE 0x3920
/*设置偏移量*/
#define OFFSET 20
#define OFFSET_x 4
#define OFFSET_y 3
/*定义数组大小*/
#define N 19
/*定义全局变量*/
int status[N][N]; /*定义的数组,保存状态*/
int step_x,step_y;/*行走的坐标*/
int key ; /*获取按下的键盘的键*/
int flag; /*玩家标志*/
/*自定义函数原型*/
void DrawBoard();
void DrawCircle(int x,int y,int color);
void Alternation();
void JudgePlayer(int x,int y);
void Done();
int ResultCheck(int x,int y);
void WelcomeInfo();
void ShowMessage();
/*定义函数*/
/*显示欢迎信息函数*/
void WelcomeInfo()
{
char ch ;
/*移动光标到指定位置*/
gotoxy(12,4);
/*显示欢迎信息*/
printf("Welcome you to gobang word!");
gotoxy(12,6);
printf("1.You can use the up,down,left and right key to move the chessman,");
gotoxy(12,8);
printf(" and you can press Space key to enter after you move it !");
gotoxy(12,10);
printf("2.You can use Esc key to exit the game too !");
gotoxy(12,12);
㈥ c语言五子棋代码,
我只给你判断输赢的算法,其他的你自己解决//全局变量
int curX,curY;//当前下棋的坐标 0 <= curX <= 15 0 <= curY <= 15
int onTable[16][16];
void WhoWin(int collor)
{ // 竖直方向 水平方向 右上到左下 左上到右下
if( SameLineNum(0,1) >= 5 ||SameLineNum(1,0) >= 5 ||SameLineNum(1,1) >= 5 ||SameLineNum(-1,1) >= 5)
{ printf("%s 方获胜\n",collor);
}
}//判断当前棋子的某个方向上同色棋子有多少
int SameLineNum(int x,int y)
{
int tX,tY;
int num;//同一线上相同颜色棋子数
tX = curX;tY = curY;
do//计算落子一边同颜色的棋子数 (比如左边)
{ if( onTable(tX,tY) <> onTable(curX,curY)
{ num = Max(Abs(curX - tX),Abs(curY - tY);//Max求最大值,Abs求求绝对值
break;
}
tX = tX + x;tY = tY + y;
}
while (x < 0 || j < 0 || i > 15 || j > 15);
do//计算落子一边同颜色的棋子数 (比如右边)
{ if( onTable(tX,tY) <> onTable(curX,curY)
{ num = num -1 + Max(Abs(curX - tX),Abs(curY - tY);//Max求最大值,Abs求求绝对值
break;
}
tX = tX - x;tY = tY - y;
}
while (x < 0 || j < 0 || i > 15 || j > 15);
return num;
}