C语言小游戏代码
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C语言简易骰子游戏代码
f-=a;g+=a;
printf("\n\n您的积分为:%d 电脑的积分为:%d\n",f,g);
}
}
}
else
printf("\n对不起!\n您下注的分数不能超过您的积分!\n请重新下注!\n");
if(f<=10)
{
if(b==0)
break;
switch(b)
{
case 1 :printf("\n我买大\n");break;
case 2 :printf("\n我买小\n");break;
case 3 :printf("\n我买豹子\n");break;
default :printf("\n请选择0~3之间的数\n");
}
if(b>0&&b<=3)
{
srand((unsigned)time(NULL));
printf("\n电脑出:");
for(i=0;i<3;i++)
{
t[i]=rand()%6+1;
printf("\n\n您的积分为:%d 电脑的积分为:%d\n",f,g);
}
}
if(b==1&&c<10||b==2&&c>=10||b==3&&(t[0]!=t[1]||t[0]!=t[2]))
{
e++;
printf("\n您总共赢了%d局!输了%d局!",d,e);
printf("\n\n您的积分为:%d 电脑的积分为:%d\n",f,g);
}
}
}
else
printf("\n对不起!\n您下注的分数不能超过您的积分!\n请重新下注!\n");
if(f<=10)
{
if(b==0)
break;
switch(b)
{
case 1 :printf("\n我买大\n");break;
case 2 :printf("\n我买小\n");break;
case 3 :printf("\n我买豹子\n");break;
default :printf("\n请选择0~3之间的数\n");
}
if(b>0&&b<=3)
{
srand((unsigned)time(NULL));
printf("\n电脑出:");
for(i=0;i<3;i++)
{
t[i]=rand()%6+1;
printf("\n\n您的积分为:%d 电脑的积分为:%d\n",f,g);
}
}
if(b==1&&c<10||b==2&&c>=10||b==3&&(t[0]!=t[1]||t[0]!=t[2]))
{
e++;
printf("\n您总共赢了%d局!输了%d局!",d,e);
c语言华容道代码
C语言华容道代码华容道是一个经典的逻辑游戏,其中包含一个11x11 的棋盘和15个大小不一的棋子。
游戏的目标是将红色棋子移到最下方的任意空位。
以下是一个简单的华容道游戏的C语言实现:注意:这只是一个非常基本的版本,不包括游戏图形界面或错误处理等高级特性。
c#include <stdio.h>#include <stdlib.h>#define SIZE 15typedef struct {int data[SIZE][SIZE];} board;board boardInit() {board b;for(int i=0; i<SIZE; i++) {for(int j=0; j<SIZE; j++) {b.data[i][j] = 0;}}return b;}void printBoard(board b) {for(int i=0; i<SIZE; i++) {for(int j=0; j<SIZE; j++) {printf("%d ", b.data[i][j]);}printf("\n");}}void moveUp(board *b, int x, int y) {if(x > 0 && b->data[x-1][y] == 0) {int temp = b->data[x][y];b->data[x][y] = b->data[x-1][y];b->data[x-1][y] = temp;}}void moveDown(board *b, int x, int y) {if(x < SIZE-1 && b->data[x+1][y] == 0) {int temp = b->data[x][y];b->data[x][y] = b->data[x+1][y];b->data[x+1][y] = temp;}}void moveLeft(board *b, int x, int y) {if(y > 0 && b->data[x][y-1] == 0) {int temp = b->data[x][y];b->data[x][y] = b->data[x][y-1];b->data[x][y-1] = temp;}}void moveRight(board *b, int x, int y) {if(y < SIZE-1 && b->data[x][y+1] == 0) {int temp = b->data[x][y];b->data[x][y] = b->data[x][y+1];b->data[x][y+1] = temp;}}void solve(board *b) {int visited[SIZE][SIZE];for(int i=0; i<SIZE; i++) {for(int j=0; j<SIZE; j++) {visited[i][j] = 0;}}for(int i=0; i<SIZE; i++) {for(int j=0; j<SIZE; j++) {if(b->data[i][j] == 1 && visited[i][j] == 0) { // Start from the top-left corner (red piece)visited[i][j] = 1; // Mark the current position as visited (to avoid infinite loops)if(i > 0) moveUp(b, i, j); // Move up if possible (top empty) and mark it as visited (to avoid infinite loops)if(j > 0) moveLeft(b, i, j); // Move left if possible (left empty) and mark it as visited (to avoid infinite loops)}}}} // The solution should be at the bottom of the board now (in any empty slot)。
c语言小游戏
settextstyle(0,0,6);
outtextxy(50,200,"Let's play!!");
sleep(1);
}
/*开机动画*/
kjdh()
{
setbkcolor(1);
cleardevice();
setcolor(13);
}
n++;
}
}
/*目标小旗*/
mbxq(int x,int y)
{
setlinestyle(0,0,1);
setcolor(4);
moveto(x,y);
lineto(x,y-20);
lineto(250,400);
lineto(300,450);
lineto(580,200);
lineto(640,200);
setcolor(3);
rectangle(210,370,240,400);
rectangle(610,170,640,200);
lineto(x+10,y-20);
lineto(x,y-10);
}
/*地图1*/
map1()
{
setlinestyle(0,0,3);
setbkcolor(0);
setcolor(2);
moveto(50,480);
lineto(200,400);
{
x=random(640);
y=random(480);
z=random(16);
putpixel(x,y,z);
}
}
/*画旗*/
outtextxy(50,200,"Let's play!!");
sleep(1);
}
/*开机动画*/
kjdh()
{
setbkcolor(1);
cleardevice();
setcolor(13);
}
n++;
}
}
/*目标小旗*/
mbxq(int x,int y)
{
setlinestyle(0,0,1);
setcolor(4);
moveto(x,y);
lineto(x,y-20);
lineto(250,400);
lineto(300,450);
lineto(580,200);
lineto(640,200);
setcolor(3);
rectangle(210,370,240,400);
rectangle(610,170,640,200);
lineto(x+10,y-20);
lineto(x,y-10);
}
/*地图1*/
map1()
{
setlinestyle(0,0,3);
setbkcolor(0);
setcolor(2);
moveto(50,480);
lineto(200,400);
{
x=random(640);
y=random(480);
z=random(16);
putpixel(x,y,z);
}
}
/*画旗*/
C语言编程游戏代码
#include <stdio.h>#include <stdlib.h>#include <dos.h>#include <conio.h>#include <time.h>#define L 1#define LX 15#define L Y 4static struct BLOCK{int x0,y0,x1,y1,x2,y2,x3,y3;int color,next;intb[]={{0,1,1,1,2,1,3,1,4,1},{1,0,1,3,1,2,1,1,4,0},{1,1,2,2,1,2,2,1,1,2},{0,1,1,1,1,0,2,0,2,4}, {0,0,0,1,1,2,1,1,2,3},{0,0,1,0,1,1,2,1,3,8},{1,0,1,1,2,2,2,1,2,5},{0,2,1,2,1,1,2,1,2,6},{0,1,0,2,1,1,1 ,0,3,9},{0,1,1,1,1,2,2,2,3,10},{1,1,1,2,2,1,2,0,3,7},{ 1,0,1,1,1,2,2,2,7,12},{0,1,1,1,2,1,2,0,7,13},{0 ,0,1,2,1,1,1,0,7,14},{0,1,0,2,1,1,2,1,7,11},{0,2,1,2,1,1,1,0,5,16},{0,1,1,1,2,2,2,1,5,17},{1,0,1,1,1, 2,2,0,5,18},{0,0,0,1,1,11,2,1,5,15},{0,1,1,1,1,0,2,1,6,2,0},{0,1,1,2,1,1,1,0,6,21},{0,1,1,2,1,1,2,1,6 ,22},{1,0,1,1,1,2,2,1,6,19}};static int d[10]={33000,3000,1600,1200,900,800,600,400,300,200};int Llevel,Lcurrent,Lnext,Lable,lx,ly,Lsum;unsigned Lpoint;int La[19][10],FLAG,sum;unsigned ldelay;void scrint(),datainit(),dispb(),eraseeb();void throw(),judge(),delayp(),move(0,note(0,show();int Ldrop(),Ljudge(),nextb(),routejudge();}main(){char c;datainit();Label=nextb();Label=Ldrop();while(1){delayp();if(Label!=0){Ljudge();Lable=nextb();}ldelay--;if(ldelay==0){Label=Ldrop();ldelay=d[0];}if(FLAG!=0) break;while(getch()!='\r');goto xy(38,16);cputs("again?");c=getch();while(c!='n'&&c!='N')c lscr();}int nextb(){if(La[(b[Lnext].y0)][(3+b[Lnext].x0)]!=0||La[(b[Lnext].y1)][(3+b[Lnext].x1)]!=0|| La[(b[Lnext].y2)][(3+b[Lnext].x2)]!=0||La[(b[Lnext].y3)][3+b[Lnext].x3)]!=0) {FLAG=L;return (-1);}erase b(0,3,5,Lnext);Lcurrent=Lnext;lx=3;ly=0;Label=0;ldelay=d[0];Lsum ++;Lpoint+=1;Lnext=random(23);dispb(0,3,5,Lnext);text color(7);goto xy(3,14);printf("%#5d",Lsum);goto xy(3,17);printf("%#5d",Lpoint);return(0);}void delayp(){char key;if(kbhit()!=0){key=getch();move(key);if(key=='\\')getch();}}void move(funkey)char funkey;{int tempcode;case 'k';if(lx+b[current].x0>0){if(La[ly+(b[Lcurrent].y0)][lx-1+(b[Lcurrent].x0)]==0&&La[(ly+b[current].y1)][(lx-1+b[curr ent].x1]==0&&La[ly+b[current].y2)][lx-1+b[Lcurrent].x2)]==0&&La[ly+(b[current].y3)][lx-1+(b [Lcurrent].x3)]==0){eraseb(L,lx,lyLcurrent);lx--;dispb(L,lx,ly,Lcurrent);}}break;case 0x20;tempcode=b[Lcurrent].next;if (lx+b[tempcode].x0>=0 && lx+b[tempcode].x3<=9 && ly+b[tempcode].y1<=19 && ly+b[tempcode].y2<=19){if(routejudge()!+-1){if(La+(b[tempcode].y0)][lx+(b[tempcode].x0)]==0 && La[ly+(b[tempcode].y1)][lx+(b[tempcode].x1)]==0 && La[ly+(b[tempcode].y2)][lx+(b[tempcode].x2)]==0 && La[ly+(b[tempcode].y3)][lx+(b[tempcode].x3)]==0)eraseb(L,lx,ly,Lcurrent);Lcurrent=tempcode;dispb(L,lx,ly,Lcurrent);}}break;case 'M';if(lx+b[Lcurrent].x3<9){if(La[ly+(b[Lcurrent].y0)][lx+(b[Lcurrent].x0)]==0 &&La[ly+(b[Lcurrent].y1)][lx+(b[Lcurrent].x1)]==0 && La[ly+(b[Lcurrent].y2)][lx+(b[Lcurrent].x2)]==0 && La[ly+(b[Lcurrent].y3)][lx+(b[Lcurrent].x3)]==0){eraseb(L,lx,ly,Lcurrent);lx++;disb(L,lx,ly,Lcurrent);}}break;case 'p';throw();break;case 0x1b;clrscr();exit(0);break;default:break;}void throw(){int tempy;tempy=ly;while(ly+b[Lcurrent].y1<19 && ly+b[current].y2<19&&La[ly+(b[Lcurrent].y0)][lx+(b[Lcurrent].x0)]==0 && La[ly+(b[Lcurrent].y1)][lx+(b[Lcurrent].x1)]==0 && La[ly+(b[Lcurrent].y2)][lx+(b[Lcurrent].x2)]==0 && La[ly+(b[Lcurrent].y3)][lx+(b[Lcurrent].x3)]==0)ly++;ly--;eraseb(L,lx,tempy,Lcurrent);dispb(L,lx,ly,Lcurrent);La[ly+b[Lcurrent].y0)][lx+(b[current].x0)]=La[ly+b[Lcurrent].y1)][lx+(b[current].x1)]=La[l y+b[Lcurrent].y2)][lx+(b[current].x2)]=La[ly+b[Lcurrent].y3)][lx+(b[current].x3)]=b[Lcurrent].c olor;Label=-1;}int routejudge(){int i,j;for(i=0;i<3;i++)for(j=0;j<3;j++)if(La[ly+i][lx+j]!=0)return(-1);else return(1);}int Ldrop(){if(ly+b[Lcurrent].y1>=18||ly+b[Lcurrent].y2>=18{La[ly+b[Lcurrent].y0)][lx+(b[current].x0)]=3;La[ly+b[Lcurrent].y1)][lx+(b[current].x1)]=1;La[ly+b[Lcurrent].y2)][lx+(b[current].x2)]=5;La[ly+b[Lcurrent].y3)][lx+(b[current].x3)]=b[Lcurrent].color;return(-1);}if(La(ly+1+(b[Lcurrent].y0)][lx+(b[Lcurrent].x0)]!=0||La(ly+1+(b[Lcurrent].y1)][lx+(b[Lcur rent].x1)]!=0||La(ly+1+(b[Lcurrent].y2)][lx+(b[Lcurrent].x2)]!=0||La(ly+1+(b[Lcurrent].y3)][lx+( b[Lcurrent].x3)]!=0){La[ly+b[Lcurrent].y0)][lx+(b[current].x0)]=La[ly+b[Lcurrent].y1)][lx+(b[cu rrent].x1)]=0BLa[ly+b[Lcurrent].y2)][lx+(b[current].x2)]=La[ly+b[Lcurrent].y3)][lx+(b[current].x3)]=b[Lcurren t].color){return(-1);eraseb(L,lx,ly,Lcurrent);dispb(L,lx,++ly,Lcurrent);return(0);}}int Ljudge(){int i,j,k,lines,f;static int p[5]={0,1,3,6,10};lines=0;for(k=0;k<=3;k++){f=0;if((ly+k)>18)continue;for(i=0;i<10;i++){if(La[ly+k]==0);i>0;i--){f++;break;}if(f==0){movetext(LX,L Y,LX+19,L Y+ly+k-1,LX,L Y+1);for(i=(ly+k);i>0;i--){for(j=0;j<10;j++)La[j]=La[i-1][j];{for(j=0;j<10;j++)La[0][j]=0;lines++;}}}}}Lpoint+=p[lines]*10;return(0);}void scrint(){int i;char lft[20];textbackground(1);clrscr();goto xy(30,9);cputs("enter your name");scanf("%s",lft);goto xy(25,14);scanf("%s",lft);textbackground(0);clrscr();goto xy(17,1);printf("%s",lft);goto xy(5,3);puts("next");goto xy(4,13);cputs("block");goto xy(4,16);cputs("point");for(i=0;i<19;i++){goto xy(LX-2,L Y+1);cputs("** **");}goto xy(LX-2,L Y+19);cputs("**********************");void datainit(){int i,j;)for(i=0;i<19;i++){for(j=0;j<10;j++){La[j]=0;Label=0;FLAG=0;ldelay=d[0];Lsum=0;Lpoint=0;randomize();Lnext=random(23);}}}void dispb(LRflag,x,y,blockcode){int realx,realy;if(LRflag==L){realx=LX+x*2;realy=L Y+y;}realx=x;raly=y;textcolor(b[blockcode].color);goto xy(realx+2*b[blockcode].x0,realy+b[blockcode].y0); cputs("**");goto xy(realx+2*b[blockcode].x1,realy+b[blockcode].y1); cputs("**");goto xy(realx+2*b[blockcode].x2,realy+b[blockcode].y2); cputs("**");goto xy(realx+2*b[blockcode].x3,realy+b[blockcode].y3); cputs("**");}void eraseb(LRflag,x,y,blockcode)int LRflag,x,y,blockcode;int realx,realy;if(LRflag==L){realx=LX+x*2;realy=L Y+y;}else{realx=Lx+x*2;realy=L Y+y;}textcolor(0);goto xy(realx+2*b[blockcode].x0,realy+b[blockcode].y0);cputs("**");goto xy(realx+2*b[blockcode].x1,realy+b[blockcode].y1);cputs("**");goto xy(realx+2*b[blockcode].x2,realy+b[blockcode].y2);cputs("**");goto xy(realx+2*b[blockcode].x3,realy+b[blockcode].y3);cputs("**");}。
简单的迷宫小游戏C语言程序源代码
简单的迷宫小游戏C语言程序源代码#include <stdio.h>#include <conio.h>#include <windows.h>#include <time.h>#define Height 31 //迷宫的高度,必须为奇数#define Width 25 //迷宫的宽度,必须为奇数#define Wall 1#define Road 0#define Start 2#define End 3#define Esc 5#define Up 1#define Down 2#define Left 3#define Right 4int map[Height+2][Width+2];void gotoxy(int x,int y) //移动坐标{COORD coord;coord.X=x;coord.Y=y;SetConsoleCursorPosition( GetStdHandle( STD_OUTPUT_HA NDLE ), coord );}void hidden()//隐藏光标{HANDLE hOut = GetStdHandle(STD_OUTPUT_HANDLE);CONSOLE_CURSOR_INFO cci;GetConsoleCursorInfo(hOut,&cci); cci.bVisible=0;//赋1为显示,赋0为隐藏SetConsoleCursorInfo(hOut,&cci);}void create(int x,int y) //随机生成迷宫{int c[4][2]={0,1,1,0,0,-1,-1,0}; //四个方向int i,j,t;//将方向打乱for(i=0;i<4;i++){j=rand()%4;t=c[i][0];c[i][0]=c[j][0];c[j][0]=t;t=c[i][1];c[i][1]=c[j][1];c[j][1]=t;}map[x][y]=Road;for(i=0;i<4;i++)if(map[x+2*c[i][0]][y+2*c[i][1]]==Wall) {map[x+c[i][0]][y+c[i][1]]=Road; create(x+2*c[i][0],y+2*c[i][1]);}}int get_key() //接收按键{char c;while(c=getch()){if(c==27) return Esc; //Escif(c!=-32)continue;c=getch();if(c==72) return Up; //上if(c==80) return Down; //下if(c==75) return Left; //左if(c==77) return Right; //右}return 0;}void paint(int x,int y) //画迷宫{gotoxy(2*y-2,x-1);switch(map[x][y]){case Start:printf("入");break; //画入口case End:printf("出");break; //画出口case Wall:printf("※");break; //画墙case Road:printf(" ");break; //画路}}void game(){int x=2,y=1; //玩家当前位置,刚开始在入口处int c; //用来接收按键while(1){gotoxy(2*y-2,x-1);printf("☆"); //画出玩家当前位置if(map[x][y]==End) //判断是否到达出口{gotoxy(30,24);printf("到达终点,按任意键结束"); getch();break;}c=get_key();if(c==Esc){gotoxy(0,24);break;}switch(c){case Up: //向上走if(map[x-1][y]!=Wall){paint(x,y);x--;}break;case Down: //向下走if(map[x+1][y]!=Wall){paint(x,y);x++;}break;case Left: //向左走if(map[x][y-1]!=Wall){paint(x,y);y--;}break;case Right: //向右走if(map[x][y+1]!=Wall){paint(x,y);y++;}break;}}}int main(){int i,j;srand((unsigned)time(NULL)); //初始化随即种子hidden(); //隐藏光标for(i=0;i<=Height+1;i++)for(j=0;j<=Width+1;j++)if(i==0||i==Height+1||j==0||j==Width+1) //初始化迷宫map[i][j]=Road;else map[i][j]=Wall;create(2*(rand()%(Height/2)+1),2*(rand()%(Width/2)+1)); //从随机一个点开始生成迷宫,该点行列都为偶数for(i=0;i<=Height+1;i++) //边界处理{map[i][0]=Wall;map[i][Width+1]=Wall;}for(j=0;j<=Width+1;j++) //边界处理{map[0][j]=Wall;map[Height+1][j]=Wall;}map[2][1]=Start; //给定入口map[Height-1][Width]=End; //给定出口for(i=1;i<=Height;i++)for(j=1;j<=Width;j++) //画出迷宫paint(i,j);game(); //开始游戏getch();return 0;}。
C语言小游戏源代码
a=random(8); /*产生随机数*/
b=(a+2)%8; /*得到下第二个的数组下标*/
change(a,b); /*交换*/
}
update();
}
update(){ /*在屏幕上画出整个九格图像,关于定位的问题自己分析*/
pos=GetTheNull(); /*得到空格*/
switch(key){ /*测试按键*/
case 72: /*按下*/
if(pos<=5) change(pos,pos+3);
int i;
for(i=0;i<=8;i++){
if (num[i]==0)
return i;
}
}
change(int a,int b){ /*交换num[a],num[b]*/
int temp;
}
if(key==27) break; /*退出*/
}
clrscr(); /*清屏*/
}
newGame(){ /*新建游戏,实际上就是把有数字的八个方格打散,
这种效果的实现就是随机的两两交换,而怎么不与空的那个交换呢?
而这些的前提是其中的0不能与其第奇数个作奇数次交换.
为了省事,不处理0...
其中产道理,请自己思考
*/
int i,a,b;
for(i=0;i<8;i++) num[i]=i+1;
num[8]=0; /*将数组复原*/
for(i=0;i<300;i++){
这涉及有没有解的问题
不管怎么样,九格游戏最后的结果只有两个:
b=(a+2)%8; /*得到下第二个的数组下标*/
change(a,b); /*交换*/
}
update();
}
update(){ /*在屏幕上画出整个九格图像,关于定位的问题自己分析*/
pos=GetTheNull(); /*得到空格*/
switch(key){ /*测试按键*/
case 72: /*按下*/
if(pos<=5) change(pos,pos+3);
int i;
for(i=0;i<=8;i++){
if (num[i]==0)
return i;
}
}
change(int a,int b){ /*交换num[a],num[b]*/
int temp;
}
if(key==27) break; /*退出*/
}
clrscr(); /*清屏*/
}
newGame(){ /*新建游戏,实际上就是把有数字的八个方格打散,
这种效果的实现就是随机的两两交换,而怎么不与空的那个交换呢?
而这些的前提是其中的0不能与其第奇数个作奇数次交换.
为了省事,不处理0...
其中产道理,请自己思考
*/
int i,a,b;
for(i=0;i<8;i++) num[i]=i+1;
num[8]=0; /*将数组复原*/
for(i=0;i<300;i++){
这涉及有没有解的问题
不管怎么样,九格游戏最后的结果只有两个:
C语言小游戏源代码《打砖块》
C 语言小游戏源代码《打砖块》#include "graphics.h"#include "stdio.h"#include "conio.h" /* 所需的头文件*/int on; /* 声明具有开关作用的全局变量*/ static int score;/* 声明静态的记分器变量*//* 定义开始界面函数*/int open(){setviewport(100,100,500,380,1); /* 设置图形窗口区域*/setcolor(4); /* 设置作图色*/rectangle(0,0,399,279); /* 以矩形填充所设的图形窗口区域*/ setfillstyle(SOLID_FILL,7); /* 设置填充方式*/floodfill(50,50,4); /* 设置填充范围*/setcolor(8);settextstyle(0,0,9); /* 文本字体设置*/outtextxy(90,80,"BALL"); /* 输出文本内容*/settextstyle(0,0,1);outtextxy(110,180,"version 1.0");outtextxy(110,190,"made by ddt");setcolor(128);settextstyle(0,0,1);outtextxy(120,240,"Press any key to continue "); }/* 定义退出界面函数*/int quitwindow(){char s[100]; /* 声明用于存放字符串的数组*/setviewport(100,150,540,420,1);setcolor(YELLOW);rectangle(0,0,439,279);setfillstyle(SOLID_FILL,7);floodfill(50,50,14);setcolor(12);settextstyle(0,0,8);outtextxy(120,80,"End");settextstyle(0,0,2);outtextxy(120,200,"quit? Y/N");sprintf(s,"Your score is:%d",score);/* 格式化输出记分器的值*/outtextxy(120,180,s);on=1; /* 初始化开关变量*/}/* 主函数*/main(){int gdriver,gmode;gdriver=DETECT; /* 设置图形适配器*/gmode=VGA; /* 设置图形模式*/registerbgidriver(EGAVGA_driver); /* 建立独立图形运行程序*/ initgraph(&gdriver,&gmode,""); /* 图形系统初试化*/ setbkcolor(14);open(); /* 调用开始界面函数*/getch(); /* 暂停*/while(1) /* 此大循环体控制游戏的反复重新进行*/{int driver,mode,l=320,t=400,r,a,b,dl=5,n,x=200,y=400,r1=10,dx=- 2,dy=-2;/* 初始化小球相关参数*/intleft[100],top[100],right[100],bottom[100],i,j,k,off=1,m,num[100][10 0];/*方砖阵列相关参数*/static int pp;static int phrase; /* 一系列起开关作用的变量*/ int oop=15;pp=1;score=0;driver=DETECT;mode=VGA;registerbgidriver(EGAVGA_driver);initgraph(&driver,&mode,"");setbkcolor(10);cleardevice(); /**/ clearviewport(); /* 清除现行图形窗口内容*/b=t+6;r=l+60;setcolor(1);rectangle(0,0,639,479);setcolor(4);rectangle(l,t,r,b);setfillstyle(SOLID_FILL,1);floodfill(l+2,t+2,4);for(i=0,k=0;i<=6;i++) /* 此循环绘制方砖阵列*/ {top[i]=k;bottom[i]=top[i]+20;k=k+21;oop--;for(j=0,m=0;j<=7;j++){left[j]=m;right[j]=left[j]+80;m=m+81;setcolor(4);rectangle(left[j],top[i],right[j],bottom[i]);setfillstyle(SOLID_FILL,j+oop); floodfill(left[j]+1,top[i]+1,4);num[i][j]=pp++;}}while(1) /* 此循环控制整个动画*/ {while(!kbhit()){x=x+dx; /* 小球运动的圆心变量控制*/ y=y+dy;if(x+r1>r||x+r1<r)phrase=0;} {if((x-r1<=r||x+r1<=r)&&x+r1>=l){if(y<t)phrase=1;if(y+r1>=t&&phrase==1){dy=-dy;y=t-1-r1;}}if(off==0)continue;for(i=0;i<=6;i++) /*for(j=0;j<=7;j++) 此循环用于判断、控制方砖阵列的撞击、擦除* /if((x+r1<=right[j]&&x+r1>=left[j])||(x-r1<=right[j]&&x- r1>=left[j])){if(( y-r1>top[i]&&y-r1<=bottom[i])||(y+r1>=top[i]&&y+r1<=bottom[i] )) {if(num[i][j]==0){continue; }setcolor(10);rectangle(left[j],top[i],right[j],bottom[i]);setfillstyle(SOLID_FILL,10);floodfill(left[j]+1,top[i]+1,10); dy=-dy;num[i][j]=0;score=score+10;printf("%d\b\b\b",score);}}if((y+r1>=top[i]&&y+r1<=bottom[i])||(y-r1>=top[i]&&y-r1<=bottom[i])){if((x+r1>=left[j]&&x+r1<right[j])||(x-r1<=right[j]&&x-r1>left[j])){if(num[i][j]==0){ continue;}setcolor(10);rectangle(left[j],top[i],right[j],bottom[i]);setfillstyle(SOLID_FILL,10);floodfill(left[j]+1,top[i]+1,10);dx=-dx;num[i][j]=0;score=score+10;printf("%d\b\b\b",score);}}}if(x+r1>639) /* 控制小球的弹射范围*/{dx=-dx;x=638-r1;}if(x<=r1){dx=-dx;x=r1+1;}if(y+r1>=479){off=0;quitwindow();break;}if(y<=r1){dy=-dy;y=r1+1;}if(score==560){off=0;quitwindow();break;} setcolor(6); circle(x,y,r1);setfillstyle(SOLID_FILL,14);floodfill(x,y,6);delay(1000);setcolor(10);circle(x,y,r1);setfillstyle(SOLID_FILL,10);floodfill(x,y,10); }a=getch();setcolor(10);rectangle(l,t,r,b);setfillstyle(SOLID_FILL,10);floodfill(l+2,t+2,10);if(a==77&&l<=565) /* 键盘控制设定*/ {dl=20;l=l+dl;}if(a==75&&l>=15){dl=-20;l=l+dl;}if(a=='y'&&on==1)break;if(a=='n'&&on==1)break;if(a==27){quitwindow();off=0;}r=l+60;setcolor(4);rectangle(l,t,r,b);setfillstyle(SOLID_FILL,1);floodfill(l+5,t+5,4);delay(100);}if(a=='y'&&on==1) /* 是否退出游戏*/ {break;}if(a=='n'&&on==1){ continue;}}closegraph();}。
C语言游戏代码(里面揽括扫雷_俄罗斯方块_推箱子_五子棋_贪吃蛇)
五子棋#include <stdio.h>#include <bios.h>#include <ctype.h>#include <conio.h>#include <dos.h>#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 KEYINV ALID 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*/printf("Welcome ");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();ShowOrderMsg(gPlayOrder);}break;/*是光标移动键*/case KEYMOVECURSOR:MoveCursor(gPlayOrder,press);break;/*是无效键*/case KEYINV ALID: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; elsegPlayOrder=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!");elsecputs("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;}elsereturn 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++)/*????????i<testnum*2-1*/ {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;}elsecount=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!");elsecputs("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*/elseif( ( press==PLAY1DO && gPlayOrder==CHESS1) || ( press==PLAY2DO && gPlayOrder==CHESS2))return KEYFALLCHESS;/*是落子键*/elseif( press==PLAY1UP || press==PLAY1DOWN || press==PLAY1LEFT || press==PLAY1RIGHT || press==PLAY2UP || press==PLAY2DOWN ||press==PLAY2LEFT || press==PLAY2RIGHT)return KEYMOVECURSOR;/*是光标移动键*/elsereturn KEYINV ALID;/*按键无效*/}贪吃蛇#define N 200#include <graphics.h>#include <stdlib.h>#include <dos.h>#define LEFT 0x4b00#define RIGHT 0x4d00#define DOWN 0x5000#define UP 0x4800#define ESC 0x011bint i,key;int score=0;/*得分*/int gamespeed=50000;/*游戏速度自己调整*/ struct Food{int x;/*食物的横坐标*/int y;/*食物的纵坐标*/int yes;/*判断是否要出现食物的变量*/ }food;/*食物的结构体*/struct Snake{int x[N];int y[N];int node;/*蛇的节数*/int direction;/*蛇移动方向*/int life;/* 蛇的生命,0活着,1死亡*/}snake;void Init(void);/*图形驱动*/void Close(void);/*图形结束*/void DrawK(void);/*开始画面*/void GameOver(void);/*结束游戏*/void GamePlay(void);/*玩游戏具体过程*/void PrScore(void);/*输出成绩*//*主函数*/void main(void){Init();/*图形驱动*/DrawK();/*开始画面*/GamePlay();/*玩游戏具体过程*/Close();/*图形结束*/}/*图形驱动*/void Init(void){int gd=DETECT,gm;initgraph(&gd,&gm,"c:\\tc");cleardevice();}/*开始画面,左上角坐标为(50,40),右下角坐标为(610,460)的围墙*/ void DrawK(void){/*setbkcolor(LIGHTGREEN);*/setcolor(11);setlinestyle(SOLID_LINE,0,THICK_WIDTH);/*设置线型*/for(i=50;i<=600;i+=10)/*画围墙*/{rectangle(i,40,i+10,49); /*上边*/rectangle(i,451,i+10,460);/*下边*/}for(i=40;i<=450;i+=10){rectangle(50,i,59,i+10); /*左边*/rectangle(601,i,610,i+10);/*右边*/}}/*玩游戏具体过程*/void GamePlay(void){randomize();/*随机数发生器*/food.yes=1;/*1表示需要出现新食物,0表示已经存在食物*/snake.life=0;/*活着*/snake.direction=1;/*方向往右*/snake.x[0]=100;snake.y[0]=100;/*蛇头*/snake.x[1]=110;snake.y[1]=100;snake.node=2;/*节数*/PrScore();/*输出得分*/while(1)/*可以重复玩游戏,压ESC键结束*/{while(!kbhit())/*在没有按键的情况下,蛇自己移动身体*/{if(food.yes==1)/*需要出现新食物*/{food.x=rand()%400+60;food.y=rand()%350+60;while(food.x%10!=0)/*食物随机出现后必须让食物能够在整格内,这样才可以让蛇吃到*/ food.x++;while(food.y%10!=0)food.y++;food.yes=0;/*画面上有食物了*/}if(food.yes==0)/*画面上有食物了就要显示*/{setcolor(GREEN);rectangle(food.x,food.y,food.x+10,food.y-10);}for(i=snake.node-1;i>0;i--)/*蛇的每个环节往前移动,也就是贪吃蛇的关键算法*/{snake.x[i]=snake.x[i-1];snake.y[i]=snake.y[i-1];}/*1,2,3,4表示右,左,上,下四个方向,通过这个判断来移动蛇头*/switch(snake.direction){case 1:snake.x[0]+=10;break;case 2: snake.x[0]-=10;break;case 3: snake.y[0]-=10;break;case 4: snake.y[0]+=10;break;}for(i=3;i<snake.node;i++)/*从蛇的第四节开始判断是否撞到自己了,因为蛇头为两节,第三节不可能拐过来*/{if(snake.x[i]==snake.x[0]&&snake.y[i]==snake.y[0]){GameOver();/*显示失败*/snake.life=1;break;}}if(snake.x[0]<55||snake.x[0]>595||snake.y[0]<55||snake.y[0]>455)/*蛇是否撞到墙壁*/{GameOver();/*本次游戏结束*/snake.life=1; /*蛇死*/}if(snake.life==1)/*以上两种判断以后,如果蛇死就跳出内循环,重新开始*/ break;if(snake.x[0]==food.x&&snake.y[0]==food.y)/*吃到食物以后*/{setcolor(0);/*把画面上的食物东西去掉*/rectangle(food.x,food.y,food.x+10,food.y-10);snake.x[snake.node]=-20;snake.y[snake.node]=-20;/*新的一节先放在看不见的位置,下次循环就取前一节的位置*/snake.node++;/*蛇的身体长一节*/food.yes=1;/*画面上需要出现新的食物*/score+=10;PrScore();/*输出新得分*/}setcolor(4);/*画出蛇*/for(i=0;i<snake.node;i++)rectangle(snake.x[i],snake.y[i],snake.x[i]+10,snake.y[i]-10);delay(gamespeed);setcolor(0);/*用黑色去除蛇的的最后一节*/rectangle(snake.x[snake.node-1],snake.y[snake.node-1],snake.x[snake.node-1]+10,snake.y[snake.node-1]-10);} /*endwhile(!kbhit)*/if(snake.life==1)/*如果蛇死就跳出循环*/break;key=bioskey(0);/*接收按键*/if(key==ESC)/*按ESC键退出*/break;elseif(key==UP&&snake.direction!=4)/*判断是否往相反的方向移动*/snake.direction=3;elseif(key==RIGHT&&snake.direction!=2)snake.direction=1;elseif(key==LEFT&&snake.direction!=1)snake.direction=2;elseif(key==DOWN&&snake.direction!=3)snake.direction=4;}/*endwhile(1)*/}/*游戏结束*/void GameOver(void){cleardevice();PrScore();setcolor(RED);settextstyle(0,0,4);outtextxy(200,200,"GAME OVER");getch();}/*输出成绩*/void PrScore(void){char str[10];setfillstyle(SOLID_FILL,YELLOW);bar(50,15,220,35);setcolor(6);settextstyle(0,0,2);sprintf(str,"score:%d",score);outtextxy(55,20,str);}/*图形结束*/void Close(void){getch();closegraph();}扫雷游戏/*模拟扫雷游戏*/#include <graphics.h>#include <math.h>#include <stdio.h>#include <dos.h>#include <stdlib.h>#include <conio.h>#include <alloc.h>union REGS regs;int size=15;/*用于表示每个方块的大小(正方形的边长)*/int pix,piy=50;/*pix,piy是矩阵的偏移量*/char b[2]="1";/*用于显示方格周围的雷的个数*/int pan[30][16];/*用于记录盘面的情况:0:没有、9:有雷、1~8:周围雷的个数*/int pan1[30][16];/*pan1[][]纪录当前的挖雷情况,0:没有操作、1:打开了、2:标记了*/int tt;/*纪录时间参数*/int Eflags;/*用于标记鼠标按钮的有效性,0:有效,1:无效,2:这是鼠标的任意键等于重新开始*/int Msinit();void Draw(int x,int y,int sizex,int sizey);void Facedraw(int x,int y,int sizel,int k);void Dead(int sizel,int x,int y);void Setmouse(int xmax,int ymax,int x,int y);int Msread(int *xp,int *yp,int *bup,struct time t1,int k);void Draw1(int x,int y);int Open(int x,int y);float Random();void Have(int sum,int x,int y,int xx,int yy);void Help();void Coread();void Ddraw2(int x,int y);/*下面是主函数*/main(){int mode=VGAHI,devices=VGA;/*图形模式初始化的变量*/char ams; /*鼠标操作中的标志变量*/int xms,yms,bms; /*鼠标的状态变量*/int i,j,k,k1=0; /*i,j,k是循环变量*/int x=9,y=9,flags=0; /*x,y矩阵的大小*/int sum=10; /*sum 盘面的雷的总数目,是个x,y的函数*/int x1=0,y1=0; /*用于记录光标当前的位置*/int x11=0,y11=0; /*暂时保存鼠标位置的值*/int sizel=10; /*脸的大小*/int cflags=1; /*这是菜单操作标志变量,没有弹出1,弹出0*/struct time t1={0,0,0,0}; /*时间结构体,头文件已定义*/int co[3]; /*暂时纪录历史纪录*/void far *Map; /*用于保存鼠标图片*/char name[3][20]; /*名字字符串,用于记录名字*/FILE * p; /*文件指针用于文件操作*/Msinit(); /*鼠标初始化*//*registerbgidriver(EGA VGA_driver);*/initgraph(&devices,&mode,"C:\\tc"); /*图形模式初始化*//*为图片指针分配内存*/if((Map=farmalloc(imagesize(0,0,20,20)))==NULL)/*图片的大小是20*20*/{printf("Memory ererr!\n");printf("Press any key to out!\n");exit(1);}/*用于检验文件是否完整*/while((p = fopen("score.dat", "r")) == NULL) /*如果不能打开就新建一个*/{if((p = fopen("score.dat", "w")) == NULL)/*如果不能新建就提示错误并推出*/{printf("The file cannot open!\n");printf("Presss any key to exit!\n");getch();exit(1);}/*写入初始内容*/fprintf(p,"%d %d %d,%s\n%s\n%s\n",999,999,999,"xiajia","xiajia","xiajia");fclose(p);}/*暂时读出历史纪录。
五子棋游戏 C语言 代码 源代码
#include <stdio.h>#include <stdlib.h>#define m 30int main (void){int count;//计数器算横纵行的结果int w,h;int u;int l;int i,size;//i声明步数。
size声明int r[m][m] = {0};//数组声明(棋子位置)int x, y;//声明落子坐标int n;//声明棋盘大小nchar a[20],b[20];printf ("请输入棋盘大小n\n");//编辑棋盘直到棋盘长度宽度大于4小于30 scanf ("%d", &n);if (n<=4 || n>m){do{printf ("输入的棋盘大小:4<n<%d\n", m);scanf ("%d", &n);}while (n<=4 || n>m);}getchar ();//声明玩家printf ("请输入玩家1姓名:\n");gets(a);printf ("请输入玩家2姓名:\n");gets(b);for ( i = 1, size = n*n;i <= size; i++)//编辑棋盘{if (i%2 == 1)//如果i能被2整除,为玩家a相关信息{do//玩家a棋子信息{printf ("%s该你下棋了,第%d个棋子\n", a, i);scanf ("%d%d", &x, &y);if (x > n || x < 0)//判断坐标是否在棋盘内,如果不是则重新输入{do{printf ("0<=横坐标<=%d请重新输入横坐标\n", n);scanf ("%d", &x);}while (x>m || x<0);}if (y > n || y < 0)//判断坐标是否在棋盘内,如果不是则重新输入{do{printf ("0<=纵坐标<=%d请重新输入纵坐标\n", n);scanf ("%d", &y);}while (y < 0 || y > n);}}while ((r[x][y] == 1 && (printf ("这个位置上已经有棋子了,请重新输入\n")))|| r[x][y] == 2&& (printf ("这个位置上已经有棋子了,请重新输入\n")) );r[x][y] = 1;for (u = 0;u < n; u++)//不同情况下判断玩家a获胜方式{for (l = 0;l < n;l++){count = 0;for (w = u,h = l;r[w][h] == 1 && h < n; h++)count++;if (count == 5){printf ("%s是胜利者\n", a);goto e;//直接跳转,其余代码不在运行count = 0;for (w = u, h = l; r[w][h] == 1 && w < n; w++)count ++;if (count == 5){printf ("%s是胜利者\n", a);goto e;}count = 0;for (w = u,h = l; r[w][h] == 1 && w < n && h<n;w++,h++)count++;if (count == 5){printf ("%s是胜利者\n", a);goto e;}count = 0;for (w =u ,h =l;r[w][h] == 1 && h > 0;h--)count++;if (count == 5){printf ("%s是胜利者\n", a);goto e;}}}}system("cls");for (int j = n;j>=0;j--){printf ("%-2d", j);for (int k = 0;k < n;k++)//画棋盘,声明两玩家棋子图片{if (r[k][j] == 0)printf ("╋");else if(r[k][j] == 1)printf ("○");else if (r[k][j] == 2)printf ("●"); }printf ("\n");}printf (" ");for (int k = 0;k < n;k++)printf ("%-2d", k);}else if (i%2 == 0)//如果i不能被2整除,为玩家b相关信息{do{printf ("\n%s该你下棋了,第%d个棋子\n", b, i);scanf ("%d%d", &x, &y);if (x > n || x < 0){do{printf ("0<=横坐标<=%d请重新输入横坐标\n", n);scanf ("%d", &x);}while (x>n || x<0);}if (y >n|| y < 0){do{printf ("0<=纵坐标<=%d请重新输入纵坐标\n", n);scanf ("%d", &y);}while (y < 0 || y > n);}}while ((r[x][y] == 1 && (printf ("这个位置上已经有棋子了,请重新输入\n")))|| r[x][y] == 2&& (printf ("这个位置上已经有棋子了,请重新输入\n")) );r[x][y] = 2;system("cls");for (int j = n;j>=0;j--){printf ("%-2d", j);for (int k = 0;k < n;k++){if (r[k][j] == 0)printf ("╋");else if(r[k][j] == 1)printf ("○");else if (r[k][j] == 2)printf ("●");}printf ("\n");}printf (" ");for (int k = 0;k < n;k++)printf ("%-2d", k); printf ("\n");count = 0;for (u = 0;u < n; u++){for (l = 0;l < n;l++){count = 0;for (w = u,h = l;r[w][h] == 2 && h < n; h++)count++;if (count == 5){printf ("%s是胜利者\n", b);goto e;}count = 0;for (w = u, h = l; r[w][h] == 2 && w < n; w++)count ++;if (count == 5){printf ("%s是胜利者\n", b);goto e;}count = 0;for (w = u,h = l; r[w][h] == 2 && w < n && h<n;w++,h++)count++;if (count == 5){printf ("%s是胜利者\n", b);goto e;}count = 0;for (w =u ,h =l;r[w][h] == 2 && h > 0;h--)count++;if (count == 5){printf ("%s是胜利者\n", b);goto e;}}}}}e: for (int j = n;j>=0;j--)//游戏结束界面棋盘固定重新显示{printf ("%-2d", j);for (int k = 0;k < n;k++){if (r[k][j] == 0)printf ("╋");else if(r[k][j] == 1)printf ("○");else if (r[k][j] == 2)printf ("●");}printf ("\n");}printf (" ");for (int k = 0;k < n;k++)printf ("%-2d", k); printf ("\n");printf ("\a游戏愉快,Powered by Techmessager\n");//结束语句return 0;}。
飞机大战c语言代码
飞机大战这种游戏较为复杂,无法直接给出完整的C语言源代码。
但是,我可以提供一个简单的基本构架,以便你了解如何利用C语言开始编写一个飞机大战游戏。
若要构建完整游戏,你需要进一步完善该基本结构并添加更多功能。
以下是C语言实现一个简易飞机大战游戏的基本雏形:#include <stdio.h>#include <stdlib.h>#include <conio.h>#include <windows.h>// 常量,用于界定屏幕尺寸#define SCREEN_WIDTH 50#define SCREEN_HEIGHT 20// 玩家结构体typedef struct {int x, y;} Player;// 敌人结构体typedef struct {int x, y;} Enemy;// 子弹结构体typedef struct {int x, y;} Bullet;// 按ASCII码清屏void clearScreen() {system("cls");}// 跳转到指定坐标void gotoxy(int x, int y) {COORD coord;coord.X = x;coord.Y = y;SetConsoleCursorPosition(GetStdHandle(STD_OUTPUT_HANDLE), coord);}// 游戏循环void gameLoop() {Player player;Enemy enemy[10];Bullet bullet;int i;// 初始化游戏player.x = SCREEN_WIDTH / 2;player.y = SCREEN_HEIGHT - 1;// 敌人的初始位置for (i = 0; i < 10; i++) {enemy[i].x = i * 5 + 1;enemy[i].y = 1;}// 游戏主循环while (1) {clearScreen();// 绘制玩家gotoxy(player.x, player.y);printf("^");// 绘制敌人for (i = 0; i < 10; i++) {gotoxy(enemy[i].x, enemy[i].y);printf("V");}// 绘制子弹 (若存在)if (bullet.y >= 0) {gotoxy(bullet.x, bullet.y);printf("|");// 更新子弹位置bullet.y -= 1;// 判断是否击中敌人for (i = 0; i < 10; i++) {if (bullet.x == enemy[i].x && bullet.y == enemy[i].y) { enemy[i].y = -1; // 隐藏已经被击中的敌人}}}// 检测操作if (_kbhit()) {char input = _getch();switch (input) {case 'a': // 往左移动player.x -= 1;break;case 'd': // 往右移动player.x += 1;break;case ' ': // 发射子弹bullet.x = player.x;bullet.y = player.y - 1;break;case 'q': // 退出游戏exit(0);break;}}// 刷新画布Sleep(100);}}int main() {gameLoop();return 0;}这个代码示例使用了C语言(在Windows操作系统下运行),为玩家提供了移动(A,D键)和射击(空格键)功能。