c语言程序游戏

A. 怎样用c语言编写一个小游戏

“贪吃蛇”C代码：

#include <stdio.h>

#include <stdlib.h>

#include <conio.h>

#include <time.h>

#include <Windows.h>

#define W 78 //游戏框的宽,x轴

#define H 26 //游戏框的高,y轴

int dir=3; //方向变量，初值3表示向“左”

int Flag=0; //吃了食物的标志(1是0否)

int score=0; //玩家得分

struct food{ int x; //食物的x坐标

int y; //食物的y坐标

}fod; //结构体fod有2个成员

struct snake{ int len; //身长

int speed; //速度

int x[100];

int y[100];

}snk; //结构体snk有4个成员

void gtxy( int x,int y) //控制光标移动的函数

{ COORD coord;

coord.X=x;

coord.Y=y;

SetConsoleCursorPosition(GetStdHandle(STD_OUTPUT_HANDLE), coord);

}

void gtxy( int x,int y); //以下声明要用到的几个自编函数

void csh( ); //初始化界面

void keymove( ); //按键操作移动蛇

void putFod( ); //投放食物

int Over( ); //游戏结束(1是0否)

void setColor(unsigned short p, unsigned short q); //设定显示颜色

int main( ) //主函数

{ csh( );

while(1)

{ Sleep(snk.speed);

keymove( );

putFod( );

if(Over( ))

{system(“cls”);

gtxy(W/2+1,H/2); printf(“游戏结束！T__T”);

gtxy(W/2+1,H/2+2); printf(“玩家总分：%d分”,score);

getch( );

break;

}

}

return 0;

}

void csh( ) //初始化界面

{ int i;

gtxy(0,0);

CONSOLE_CURSOR_INFO cursor_info={1,0}; //以下两行是隐藏光标的设置

SetConsoleCursorInfo(GetStdHandle(STD_OUTPUT_HANDLE),&cursor_info);

for(i=0;i<=W;i=i+2) //横坐标要为偶数，因为这个要打印的字符占2个位置

{ setColor(2, 0); //设定打印颜色为绿字黑底

gtxy(i,0); printf("■"); //打印上边框

gtxy(i,H); printf("■"); //打印下边框

}

for(i=1;i<H;i++)

{ gtxy(0,i); printf("■"); //打印左边框

gtxy(W,i); printf("■"); //打印右边框

}

while(1)

{ srand((unsigned)time(NULL)); //初始化随机数发生器srand( )

fod.x=rand()%(W-4)+2; //随机函数rand( )产生一个从0到比”(W-4)”小1的数再加2

fod.y=rand()%(H-2)+1; //随机函数rand( )产生一个从0到比”(H-2)”小1的数再加1

if (fod.x%2==0) break; //fod.x是食物的横坐标,要是2的倍数(为偶数)

}

setColor(12, 0); //设定打印颜色为淡红字黑底

gtxy(fod.x,fod.y); printf("●"); //到食物坐标处打印初试食物

snk.len=3; //蛇身长

snk.speed=350; //刷新蛇的时间，即是移动速度

snk.x[0]=W/2+1; //蛇头横坐标要为偶数(因为W/2=39)

snk.y[0]=H/2; //蛇头纵坐标

setColor(9, 0); //设定打印颜色为淡蓝字黑底

gtxy(snk.x[0], snk.y[0]); printf("■"); //打印蛇头

for(i=1;i<snk.len;i++)

{ snk.x[i]=snk.x[i-1]+2; snk.y[i]=snk.y[i-1];

gtxy(snk.x[i],snk.y[i]); printf("■"); //打印蛇身

}

setColor(7, 0); //恢复默认的白字黑底

return;

}

void keymove( ) //按键操作移动蛇

{ int key;

if( kbhit( ) ) //如有按键输入才执行下面操作

{ key=getch( );

if (key==224) //值为224表示按下了方向键，下面要再次获取键值

{ key=getch( );

if(key==72&&dir!=2)dir=1; //72表示按下了向上方向键

if(key==80&&dir!=1)dir=2; //80为向下

if(key==75&&dir!=4)dir=3; //75为向左

if(key==77&&dir!=3)dir=4; //77为向右

}

if (key==32)

{ while(1) if((key=getch( ))==32) break; } //32为空格键，这儿用来暂停

}

if (Flag==0) //如没吃食物，才执行下面操作擦掉蛇尾

{ gtxy(snk.x[snk.len-1],snk.y[snk.len-1]); printf(" "); }

int i;

for (i = snk.len - 1; i > 0; i--) //从蛇尾起每节存储前一节坐标值（蛇头除外）

{ snk.x[i]=snk.x[i-1]; snk.y[i]=snk.y[i-1]; }

switch (dir) //判断蛇头该往哪个方向移动，并获取最新坐标值

{ case 1: snk.y[0]--; break; //dir=1要向上移动

case 2: snk.y[0]++; break; //dir=2要向下移动

case 3: snk.x[0]-=2; break; //dir=3要向左移动

case 4: snk.x[0]+=2; break; //dir=4要向右移动

}

setColor(9, 0);

gtxy(snk.x[0], snk.y[0]); printf("■"); //打印蛇头

if (snk.x[0] == fod.x && snk.y[0] == fod.y) //如吃到食物则执行以下操作

{ printf("07"); snk.len++; score += 100; snk.speed -= 5; Flag = 1; } //007是响铃

else Flag = 0; //没吃到食物Flag的值为0

if(snk.speed<150) snk.speed= snk.speed+5; //作弊码，不让速度无限加快

}

void putFod( ) //投放食物

{ if (Flag == 1) //如吃到食物才执行以下操作，生成另一个食物

{ while (1)

{ int i,n= 1;

srand((unsigned)time(NULL)); //初始化随机数发生器srand( )

fod.x = rand( ) % (W - 4) + 2; //产生在游戏框范围内的一个x坐标值

fod.y = rand( ) % (H - 2) + 1; //产生在游戏框范围内的一个y坐标值

for (i = 0; i < snk.len; i++) //随机生成的食物不能在蛇的身体上

{ if (fod.x == snk.x[i] &&fod.y == snk.y[i]) { n= 0; break;} }

if (n && fod.x % 2 == 0) break; //n不为0且横坐标为偶数，则食物坐标取值成功

}

setColor(12, 0);

gtxy(fod.x, fod.y); printf("●"); //光标到取得的坐标处打印食物

}

return;

}

int Over( ) //判断游戏是否结束的函数

{ int i;

setColor(7, 0);

gtxy(2,H+1); printf(“暂停键：space.”); //以下打印一些其它信息

gtxy(2,H+2); printf(“游戏得分：%d”,score);

if (snk.x[0] == 0 || snk.x[0] == W) return 1; //蛇头触碰左右边界

if (snk.y[0] == 0 || snk.y[0] == H) return 1; //蛇头触碰上下边界

for (i = 1; i < snk.len; i++)

{ if (snk.x[0] == snk.x[i] && snk.y[0] == snk.y[i]) return 1; } //蛇头触碰自身

return 0; //没碰到边界及自身时就返回0

}

void setColor(unsigned short ForeColor = 7, unsigned short BackGroundColor = 0)

{ HANDLE handle = GetStdHandle(STD_OUTPUT_HANDLE);

SetConsoleTextAttribute( handle, ForeColor + BackGroundColor * 0x10 );

} //用来设定颜色的函数

B. 一种C语言小游戏程序设计(程序已经附上)

"扫雷"小游戏C代码

#include<stdio.h>
#include<math.h>
#include<time.h>
#include<stdlib.h>
main( )
{char a[102][102],b[102][102],c[102][102],w;
int i,j; /*循环变量*/
int x,y,z[999]; /*雷的位置*/
int t,s; /*标记*/
int m,n,lei; /*计数*/
int u,v; /*输入*/
int hang,lie,ge,mo; /*自定义变量*/
srand((int)time(NULL)); /*启动随机数发生器*/
leb1: /*选择模式*/
printf(" 请选择模式： 1.标准 2.自定义 ");
scanf("%d",&mo);
if(mo==2) /*若选择自定义模式，要输入三个参数*/
{do
{t=0; printf("请输入 行数 列数 雷的个数 ");
scanf("%d%d%d",&hang,&lie,&ge);
if(hang<2){printf("行数太少 "); t=1;}
if(hang>100){printf("行数太多 ");t=1;}
if(lie<2){printf("列数太少 ");t=1;}
if(lie>100){printf("列数太多 ");t=1;}
if(ge<1){printf("至少要有一个雷 ");t=1;}
if(ge>=(hang*lie)){printf("雷太多了 ");t=1;}
}while(t==1);
}
else{hang=10,lie=10,ge=10;} /*否则就是选择了标准模式(默认参数)*/
for(i=1;i<=ge;i=i+1) /*确定雷的位置*/
{do
{t=0; z[i]=rand( )%(hang*lie);
for(j=1;j<i;j=j+1){if(z[i]==z[j]) t=1;}
}while(t==1);
}
for(i=0;i<=hang+1;i=i+1) /*初始化a,b,c*/
{for(j=0;j<=lie+1;j=j+1) {a[i][j]='1'; b[i][j]='1'; c[i][j]='0';} }
for(i=1;i<=hang;i=i+1)
{for(j=1;j<=lie;j=j+1) {a[i][j]='+';} }
for(i=1;i<=ge;i=i+1) /*把雷放入c*/
{x=z[i]/lie+1; y=z[i]%lie+1; c[x][y]='#';}
for(i=1;i<=hang;i=i+1) /*计算b中数字*/
{for(j=1;j<=lie;j=j+1)
{m=48;
if(c[i-1][j-1]=='#')m=m+1; if(c[i][j-1]=='#')m=m+1;
if(c[i-1][j]=='#')m=m+1; if(c[i+1][j+1]=='#')m=m+1;
if(c[i][j+1]=='#')m=m+1; if(c[i+1][j]=='#')m=m+1;
if(c[i+1][j-1]=='#')m=m+1; if(c[i-1][j+1]=='#')m=m+1;
b[i][j]=m;
}
}
for(i=1;i<=ge;i=i+1) /*把雷放入b中*/
{x=z[i]/lie+1; y=z[i]%lie+1; b[x][y]='#';}

lei=ge; /*以下是游戏设计*/
do
{leb2: /*输出*/
system("cls");printf(" ");

printf(" ");
for(i=1;i<=lie;i=i+1)
{w=(i-1)/10+48; printf("%c",w);
w=(i-1)%10+48; printf("%c ",w);
}
printf(" |");
for(i=1;i<=lie;i=i+1){printf("---|");}
printf(" ");
for(i=1;i<=hang;i=i+1)
{w=(i-1)/10+48; printf("%c",w);
w=(i-1)%10+48; printf("%c |",w);
for(j=1;j<=lie;j=j+1)
{if(a[i][j]=='0')printf(" |");
else printf(" %c |",a[i][j]);
}
if(i==2)printf(" 剩余雷个数");
if(i==3)printf(" %d",lei);
printf(" |");
for(j=1;j<=lie;j=j+1){printf("---|");}
printf(" ");
}

scanf("%d%c%d",&u,&w,&v); /*输入*/
u=u+1,v=v+1;
if(w!='#'&&a[u][v]=='@')
goto leb2;
if(w=='#')
{if(a[u][v]=='+'){a[u][v]='@'; lei=lei-1;}
else if(a[u][v]=='@'){a[u][v]='?'; lei=lei+1;}
else if(a[u][v]=='?'){a[u][v]='+';}
goto leb2;
}
a[u][v]=b[u][v];

leb3: /*打开0区*/
t=0;
if(a[u][v]=='0')
{for(i=1;i<=hang;i=i+1)
{for(j=1;j<=lie;j=j+1)
{s=0;
if(a[i-1][j-1]=='0')s=1; if(a[i-1][j+1]=='0')s=1;
if(a[i-1][j]=='0')s=1; if(a[i+1][j-1]=='0')s=1;
if(a[i+1][j+1]=='0')s=1; if(a[i+1][j]=='0')s=1;
if(a[i][j-1]=='0')s=1; if(a[i][j+1]=='0')s=1;
if(s==1)a[i][j]=b[i][j];
}
}
for(i=1;i<=hang;i=i+1)
{for(j=lie;j>=1;j=j-1)
{s=0;
if(a[i-1][j-1]=='0')s=1; if(a[i-1][j+1]=='0')s=1;
if(a[i-1][j]=='0')s=1; if(a[i+1][j-1]=='0')s=1;
if(a[i+1][j+1]=='0')s=1; if(a[i+1][j]=='0')s=1;
if(a[i][j-1]=='0')s=1; if(a[i][j+1]=='0')s=1;
if(s==1)a[i][j]=b[i][j];
}
}
for(i=hang;i>=1;i=i-1)
{for(j=1;j<=lie;j=j+1)
{s=0;
if(a[i-1][j-1]=='0')s=1; if(a[i-1][j+1]=='0')s=1;
if(a[i-1][j]=='0')s=1; if(a[i+1][j-1]=='0')s=1;
if(a[i+1][j+1]=='0')s=1; if(a[i+1][j]=='0')s=1;
if(a[i][j-1]=='0')s=1; if(a[i][j+1]=='0')s=1;
if(s==1)a[i][j]=b[i][j];
}
}
for(i=hang;i>=1;i=i-1)
{for(j=lie;j>=1;j=j-1)
{s=0;
if(a[i-1][j-1]=='0')s=1; if(a[i-1][j+1]=='0')s=1;
if(a[i-1][j]=='0')s=1; if(a[i+1][j-1]=='0')s=1;
if(a[i+1][j+1]=='0')s=1;if(a[i+1][j]=='0')s=1;
if(a[i][j-1]=='0')s=1; if(a[i][j+1]=='0')s=1;
if(s==1)a[i][j]=b[i][j];
}
}

for(i=1;i<=hang;i=i+1) /*检测0区*/
{for(j=1;j<=lie;j=j+1)
{if(a[i][j]=='0')
{if(a[i-1][j-1]=='+'||a[i-1][j-1]=='@'||a[i-1][j-1]=='?')t=1;
if(a[i-1][j+1]=='+'||a[i-1][j+1]=='@'||a[i-1][j+1]=='?')t=1;
if(a[i+1][j-1]=='+'||a[i+1][j-1]=='@'||a[i+1][j-1]=='?')t=1;
if(a[i+1][j+1]=='+'||a[i+1][j+1]=='@'||a[i+1][j+1]=='?')t=1;
if(a[i+1][j]=='+'||a[i+1][j]=='@'||a[i+1][j]=='?')t=1;
if(a[i][j+1]=='+'||a[i][j+1]=='@'||a[i][j+1]=='?')t=1;
if(a[i][j-1]=='+'||a[i][j-1]=='@'||a[i][j-1]=='?')t=1;
if(a[i-1][j]=='+'||a[i-1][j]=='@'||a[i-1][j]=='?')t=1;
}
}
}
if(t==1)goto leb3;
}

n=0; /*检查结束*/
for(i=1;i<=hang;i=i+1)
{for(j=1;j<=lie;j=j+1)
{if(a[i][j]!='+'&&a[i][j]!='@'&&a[i][j]!='?')n=n+1;}
}
}
while(a[u][v]!='#'&&n!=(hang*lie-ge));

for(i=1;i<=ge;i=i+1) /*游戏结束*/
{x=z[i]/lie+1; y=z[i]%lie+1; a[x][y]='#'; }
printf(" ");
for(i=1;i<=lie;i=i+1)
{w=(i-1)/10+48; printf("%c",w);
w=(i-1)%10+48; printf("%c ",w);
}
printf(" |");
for(i=1;i<=lie;i=i+1){printf("---|");}
printf(" ");
for(i=1;i<=hang;i=i+1)
{w=(i-1)/10+48; printf("%c",w);
w=(i-1)%10+48; printf("%c |",w);
for(j=1;j<=lie;j=j+1)
{if(a[i][j]=='0')printf(" |");
else printf(" %c |",a[i][j]);
}
if(i==2)printf(" 剩余雷个数");
if(i==3)printf(" %d",lei); printf(" |");
for(j=1;j<=lie;j=j+1) {printf("---|");}
printf(" ");
}
if(n==(hang*lie-ge)) printf("你成功了! ");
else printf(" 游戏结束! ");
printf(" 重玩请输入1 ");
t=0;
scanf("%d",&t);
if(t==1)goto leb1;
}

/*注：在DEV c++上运行通过。行号和列号都从0开始，比如要确定第0行第9列不是“雷”，就在0和9中间加入一个字母，可以输入【0a9】三个字符再按回车键。3行7列不是雷，则输入【3a7】回车；第8行第5列是雷，就输入【8#5】回车，9行0列是雷则输入【9#0】并回车*/

C. 用C语言设计小游戏的程序急！！！

用c++实现的"贪吃蛇"游戏源码
// greedsnake.cpp
#include <bios.h>
#include <conio.h>
#include <dos.h>
#include <graphics.h>
#include <stdlib.h>
#include <time.h>
#include "conf.h"

typedef struct node
{
int x,y;
struct node *next;
}Node;

typedef struct
{
Node *head,*tail;
int length;
}Snake;
typedef struct
{
int left,top,right,bottom;
}Frame;

typedef enum //四个方向
{
up,down,left,right
}Direction;

typedef enum
{
false,true
}bool;//*/

void InitGraphMode(); //初始化图形驱动
void CloseGraphMode();
void Foot(int,int);
void Head(int,int);
void CreateFrame(); //完成整个游戏框架的绘制
void CreateSnake(); //创建一条两个节点的蛇,蛇的每一节是队列中的一个节点
bool PlayGame(); //游戏的主体函数,
int Hit(int,int); //判断是否越界,或者撞到自身,两个参数分别是新的头接点的x,y坐标
bool GameOver(); //绘制游戏结束时弹出的对话框
void Enqueue(Node); //入队函数
Node Dequeue(); //出队函数
void ClearKeyBuf(); //清除键盘缓冲,此函数可以消除不停的按无效键的影响

Snake snake;
Frame frame;
void main()
{
InitGraphMode();
do
{
CreateFrame();
}while(PlayGame());
CloseGraphMode();
}
void InitGraphMode()
{
int gdriver=DETECT,gmode;
initgraph(&gdriver,&gmode,"../bgi/");
cleardevice();
}
void CloseGraphMode()
{
cleardevice();
closegraph();
}
void CreateFrame()
{
setbkcolor(CYAN);
//下面的四行代码用于计算主框架的左上角和右下角的坐标
frame.left=(getmaxx()+1-BlockWidth*RowOfFrame)/2;
frame.top=(getmaxy()+1-BlockHeight*ColumnOfFrame)/2;
frame.right=frame.left+BlockWidth*RowOfFrame;
frame.bottom=frame.top+BlockHeight*ColumnOfFrame;
Head(frame.left+100,frame.top-20);
setfillstyle(SOLID_FILL,LIGHTGRAY);
bar(frame.left,frame.top,frame.right,frame.bottom);
setlinestyle(SOLID_LINE,1,1);
setcolor(DARKGRAY);
line(frame.left,frame.top,frame.right,frame.top);
line(frame.left,frame.top,frame.left,frame.bottom);
setlinestyle(SOLID_LINE,1,1);
setcolor(WHITE);
line(frame.left,frame.bottom,frame.right,frame.bottom);
line(frame.right,frame.top,frame.right,frame.bottom);
setlinestyle(DOTTED_LINE,1,1);
setcolor(BLUE);
for(int row=1;row<RowOfFrame;row++)
line(frame.left+row*BlockWidth,frame.top,frame.left+row*BlockWidth,frame.bottom);
for(int column=1;column<ColumnOfFrame;column++)
line(frame.left,frame.top+column*BlockHeight,frame.right,frame.top+column*BlockHeight);
Foot(frame.left,frame.bottom+20);
}
void CreateSnake()
{
Node *node1=new Node;
Node *node2=new Node;
node1->x=frame.left+BlockWidth;
node1->y=frame.top;
node1->next=NULL;
snake.tail=node1;
node2->x=frame.left;
node2->y=frame.top;
node2->next=snake.tail;
snake.head=node2;
snake.length=2;
setfillstyle(SOLID_FILL,BLUE);
bar(snake.head->x+1,snake.head->y+1,snake.head->x+BlockWidth-1,snake.head->y+BlockHeight-1);
bar(snake.tail->x+1,snake.tail->y+1,snake.tail->x+BlockWidth-1,snake.tail->y+BlockHeight-1);
}

bool PlayGame()
{
int speed=300,key;
Direction CurrentDirection=right;
Node randomNode;
Node newNode,outNode;
bool neednode=true;
bool overlap=false;
int randx,randy;
CreateSnake();

while(true)
{
if(neednode==true)
{
randomize();
do
{
randx=frame.left+rand()%RowOfFrame*BlockWidth;
randy=frame.top+rand()%ColumnOfFrame*BlockHeight;
for(Node *p=snake.head;p!=NULL;p=p->next)//hit itself
if(randx==p->x&&randy==p->y)
{overlap=true;break;}
}
while(overlap==true);
randomNode.x=randx;
randomNode.y=randy;
randomNode.next=NULL;
setfillstyle(SOLID_FILL,RED);
bar(randomNode.x+1,randomNode.y+1,randomNode.x+BlockWidth-1,randomNode.y+BlockHeight-1);
neednode=false;
}

if((key=bioskey(1))!=0)
{
switch(key)
{
case ESC: return false;
case UP:
if(CurrentDirection!=down)
CurrentDirection=up;
ClearKeyBuf();
break;
case DOWN:
if(CurrentDirection!=up)
CurrentDirection=down;
ClearKeyBuf();
break;
case LEFT:
if(CurrentDirection!=right)
CurrentDirection=left;
ClearKeyBuf();
break;
case RIGHT:
if(CurrentDirection!=left)

CurrentDirection=right;
ClearKeyBuf();
break;
case PAGEUP:speed=speed-100;
if(speed<100)
speed=100;
ClearKeyBuf();
break;
case PAGEDOWN:speed=speed+100;
if(speed>500)
speed=500;
ClearKeyBuf();
break;
default :break;
}
}
int headx=snake.tail->x;
int heady=snake.tail->y;
switch(CurrentDirection)
{
case up: heady-=BlockHeight;break;
case down: heady+=BlockHeight;break;
case left: headx-=BlockWidth;break;
case right: headx+=BlockWidth;break;
}
if(Hit(headx,heady)) //whether the snake hit the wall or itself
return GameOver();
else
{ //eat
if(headx==randomNode.x&&heady==randomNode.y)
{
Enqueue(randomNode);
setfillstyle(SOLID_FILL,BLUE);
bar(randomNode.x+1,randomNode.y+1,randomNode.x-1+BlockWidth,randomNode.y-1+BlockHeight);
neednode=true;
}
else //no eat
{
newNode.x=headx;
newNode.y=heady;
newNode.next=NULL;
Enqueue(newNode);
outNode=Dequeue();
setfillstyle(SOLID_FILL,LIGHTGRAY);
bar(outNode.x+1,outNode.y+1,outNode.x+BlockWidth-1,outNode.y+BlockHeight-1);
setfillstyle(SOLID_FILL,BLUE);
bar(newNode.x+1,newNode.y+1,newNode.x-1+BlockWidth,newNode.y-1+BlockHeight);
}
}
delay(speed);
}
}
void ClearKeyBuf()
{
do
bioskey(0);
while(bioskey(1));
}

void Foot(int x,int y)
{
setcolor(BLUE);
outtextxy(x,y,"writer:[T]RealXL E-MAIL:[email protected]");
}
void Head(int x,int y)
{
setcolor(RED);
outtextxy(x,y,"GREEDY SNAKE");
}
void Enqueue(Node inNode)
{
Node *p=new Node;
p->x=inNode.x;
p->y=inNode.y;
p->next=inNode.next;
snake.tail->next=p;
snake.tail=p;
snake.length++;
}
Node Dequeue()
{
Node *p=snake.head;
Node outNode=*p;
snake.head=p->next;
snake.length--;
delete p;
return outNode;
}

int Hit(int x,int y)
{
if(x<frame.left||x>=frame.right||y<frame.top||y>=frame.bottom)//hit the wall
return 1;

Node *p=snake.head->next;
for(int i=snake.length-1;i>3;i--,p=p->next)//hit itself
if(x==p->x&&y==p->y)
return 1;
return 0;
}

bool GameOver()
{
int x=getmaxx()/2-50;
int y=getmaxy()/2-20;
setfillstyle(SOLID_FILL,DARKGRAY);
bar(x+3,y+3,x+103,y+43);
setfillstyle(SOLID_FILL,MAGENTA);
bar(x,y,x+100,y+40);
setlinestyle(0,3,1);
setcolor(RED);
rectangle(x,y,x+100,y+40);
outtextxy(x+20,y+10,"GAGE OVER!");
char c;
while(true) //按q或Q表示退出程序,按r或R表示重新开始游戏
{
c=getch();
if(c=='q'||c=='Q')
return false;
else if(c=='r'||c=='R')
return true;
}
}

C++五子棋源程序：

#include
#include
#include
#define backcolor CYAN
#define defaultcolor BLACK
#define linecolor MAGENTA
#define player1_color RED
#define player2_color WHITE
#define error_color RED
#define winner_color RED

const int left=40;
const int top=390;
const int d=30;
const int line_num=9;
const int turn=0;
const int r=d/3;
const int j=10;
int x,y,k=1,step=(line_num+1)*(line_num+1);
union REGS regs1,regs2;
class player1;
class player2;
class qipan{
public:
qipan();
~qipan(){};
void init_qipan();
friend void fall(player1 &num1,player2 &num2,qipan &num);
friend void input(player1 &num1,player2 &num2,qipan &num);

private:
int point[line_num+1][line_num+1];

};
class player1{
public:
player1();
~player1(){};
friend void fall(player1 &num1,player2 &num2,qipan &num);
friend void input(player1 &num1,player2 &num2);
friend int judge_winner(player1 &num1,player2 &num2);
private:
int point1[line_num+1][line_num+1];
};
class player2{
public:
player2();
~player2(){};
friend void fall(player1 &num1,player2 &num2,qipan &num);
friend void input(player1 &num1,player2 &num2,qipan &num);
friend int judge_winner(player1 &num1,player2 &num2);
private:
int point2[line_num+1][line_num+1];
};
void input(player1 &num1,player2 &num2);
void fall(player1 &num1,player2 &num2,qipan &num);
int judge_winner(qipan &num,player1 &num1,player2 &num2);
void inputerror();
void display_winner(int);

void main()
{
int driver=DETECT,mode;
initgraph(&driver,&mode,"e:\tc30\bgi");

qipan num;
player1 num1;
player2 num2;
while(step--)
{
input(num1,num2,num);
fall(num1,num2,num);
if(judge_winner(num1,num2))
{
display_winner(k);
}
}

// getchar();
}
qipan::qipan(void)
{ int j,i;
char ch[2]="0";
setbkcolor(backcolor);
setcolor(linecolor);
for(i=0;i<=line_num;i++)
{
line(left,top-i*d,left+line_num*d,top-i*d);
}
for(i=0;i<=line_num;i++)
{
line(left+i*d,top,left+i*d,top-line_num*d);
}
for(i=0;i<=line_num;i++)
{ if(*ch=='9'+1) *ch='a';
settextstyle(DEFAULT_FONT,HORIZ_DIR,1);
outtextxy(left+i*d-2,top+r+3,ch);
(*ch)=(*ch)+1;
}
*ch='0';
for(i=0;i<=line_num;i++)
{if(*ch=='9'+1) *ch='a';
settextstyle(DEFAULT_FONT,HORIZ_DIR,1);
outtextxy(left-r-10,top-d*i-3,ch);
(*ch)=(*ch)+1;
}

setcolor(defaultcolor);

for(i=0;i<=line_num;i++)
{
for(j=0;j<=line_num;j++)
point[i][j]=0;
}
}

void fall(player1 &num1,player2 &num2,qipan &num)
{
int flag=k%2;
if(flag)
{ setcolor(player2_color);
num2.point2[x][y]=1;
num.point[x][y]=2;
circle(left+d*x,top-d*y,r);
setfillstyle(1,player2_color);
floodfill(left+d*x,top-d*y,player2_color);
}
else
{ num1.point1[x][y]=1;
num.point[x][y]=1;
setcolor(player1_color);
circle(left+d*x,top-d*y,r);
setfillstyle(1,player1_color);
floodfill(left+d*x,top-d*y,player1_color);
}

setcolor(defaultcolor);
}

void input(player1 &num1,player2 &num2,qipan &num)
{ char xx,yy;

k++;
while(1)
{
regs1.h.ah=0;
xx=int86(22,®s1,®s1)-'0';
if(xx==('q'-'0')||xx==('Q'-'0'))
{ step=0;
return;
}
regs1.h.ah=0;
yy=int86(22,®s1,®s1)-'0';

if(yy==('q'-'0')||yy==('Q'-'0'))
{
step=0;
return ;
}
if(xx<0||xx>line_num)
{ inputerror();
continue;
}
if(yy<0||yy>line_num)
{inputerror();
continue;
}

if(num.point[xx][yy]==0)
{
break;
}
else
{
inputerror();
continue;
}
}

x=(int)xx;
y=(int)yy;

setcolor(backcolor);
settextstyle(DEFAULT_FONT,HORIZ_DIR,1);
outtextxy(left+d*line_num/3,top+d*2,"Input error");
setcolor(defaultcolor);
}

player1::player1()
{
int i,j;
for(i=0;i<=line_num;i++)
{
for(j=0;j<=line_num;j++)
point1[i][j]=0;
}
}

player2::player2()
{ int i,j;
for(i=0;i<=line_num;i++)
{
for(j=0;j<=line_num;j++)
point2[i][j]=0;
}
}
void inputerror(void)
{ setcolor(error_color);
settextstyle(DEFAULT_FONT,HORIZ_DIR,1);
outtextxy(left+d*line_num/3,top+d*2,"Input error");
setcolor(defaultcolor);
}

int judge_winner(player1 &num1,player2 &num2)
{
int count=0,m=0,n=0,a=0,b=0,xx0,yy0;
int flag=k%2;
xx0=x; yy0=y;
if(!flag)
{ //left <-------> right
while(xx0>=1&&m<4) {xx0--;m++;}
while(n<9&&xx0<=line_num)
{
if(num1.point1[xx0][y]==1)
{
count++;
if(count==5) return 1;
}
else
{
count=0;
}
n++;
xx0++;
}
//up <------> down
count=0; xx0=x; m=0; n=0;
while(yy0>=1&&m<4){yy0--;m++;}
while(n<9&&yy0<=line_num)
{
if(num1.point1[x][yy0]==1)
{
count++;
if(count==5)
return 1;
}
else
{
count=0;
}
n++;
yy0++;
}
//left up ----- right down
xx0=x;
yy0=y;
m=0;
n=0;
count=0;
while(xx0>=1&&m<4){ xx0--; a++; m++;} m=0;
while(yy0<=line_num&&m<4){ yy0++; b++; m++;}
if(a<=b)
{
xx0=x-a; yy0=y+a;
}
else
{
xx0=x-b; yy0=y+b;
}
while(xx0<=line_num&&yy0>=0&&n<9)
{
if(num1.point1[xx0][yy0]==1)
{
count++;
if(count==5)
return 1;
}
else
{
count=0;
}
xx0++;
yy0--;
n++;
}
//right up <-----> left down
count=0;
a=0;
b=0;
n=0;
m=0;
xx0=x;
yy0=y;
while(xx0while(yy0if(a<=b)
{
xx0=x+a;
yy0=y+a;
}
else
{
xx0=x+b;
yy0=y+b;
}
while(xx0>=0&&yy0>=0&&n<9)
{
if(num1.point1[xx0][yy0]==1)
{
count++;
if(count==5)
return 1;
}
else
count=0;
xx0--;
yy0--;
n++;
}
//no winer
return 0;
}
else
{
//left <-------> right
while(xx0>=1&&m<4) {xx0--;m++;}
while(n<9&&xx0<=line_num)
{
if(num1.point1[xx0][y]==1)
{
count++;
if(count==5) return 1;
}
else
{
count=0;
}
n++;
xx0++;
}
//up <------> down
count=0; xx0=x; m=0; n=0;
while(yy0>=1&&m<4){yy0--;m++;}
while(n<9&&yy0<=line_num)
{
if(num2.point2[x][yy0]==1)
{
count++;
if(count==5)
return 1;
}
else
{
count=0;
}
n++;
yy0++;
}
//left up ----- right down
xx0=x;
yy0=y;
m=0;
n=0;
count=0;
while(xx0>=1&&m<4){ xx0--; a++; m++;} m=0;
while(yy0<=line_num&&m<4){ yy0++; b++; m++;}
if(a<=b)
{
xx0=x-a; yy0=y+a;
}
else
{
xx0=x-b; yy0=y+b;
}
while(xx0<=line_num&&yy0>=0&&n<9)
{
if(num2.point2[xx0][yy0]==1)
{
count++;
if(count==5)
return 1;
}
else
{
count=0;
}
xx0++;
yy0--;
n++;
}
//right up <-----> left down
count=0;
a=0;
b=0;
n=0;
m=0;
xx0=x;
yy0=y;
while(xx0while(yy0if(a<=b)
{
xx0=x+a;
yy0=y+a;
}
else
{
xx0=x+b;
yy0=y+b;
}
while(xx0>=0&&yy0>=0&&n<9)
{
if(num2.point2[xx0][yy0]==1)
{
count++;
if(count==5)
return 1;
}
else
count=0;
xx0--;
yy0--;
n++;
}
//no winer
return 0;

}
}

void display_winner(int k)
{
int flag=k%2;
if(!flag)
{ setcolor(winner_color);
settextstyle(DEFAULT_FONT,HORIZ_DIR,2);
outtextxy(left+d*2,top+40,"Red is winner");
setcolor(defaultcolor);
step=0;
getchar();
}
else
{ setcolor(winner_color);
settextstyle(DEFAULT_FONT,HORIZ_DIR,2);
outtextxy(left+2*d,top+40,"White is winner");
setcolor(defaultcolor);
step=0;

}
}

D. 用C语言编写小游戏

用c语言编写一个五子棋吧，不怎么难，给你程序，自己参考一下

/*3.3.4 源程序*/
#include "graphics.h" /*图形系统头文件*/
#define LEFT 0x4b00 /*光标左键值*/
#define RIGHT 0x4d00 /*光标右键值*/
#define DOWN 0x5000 /*光标下键值*/
#define UP 0x4800 /*光标上键值*/
#define ESC 0x011b /* ESC键值*/
#define ENTER 0x1c0d /* 回车键值*/
int a[8][8]={0},key,score1,score2;/*具体分数以及按键与存放棋子的变量*/
char playone[3],playtwo[3];/*两个人的得分转换成字符串输出*/
void playtoplay(void);/*人人对战函数*/
void DrawQp(void);/*画棋盘函数*/
void SetPlayColor(int x);/*设置棋子第一次的颜色*/
void MoveColor(int x,int y);/*恢复原来棋盘状态*/
int QpChange(int x,int y,int z);/*判断棋盘的变化*/
void DoScore(void);/*处理分数*/
void PrintScore(int n);/*输出成绩*/
void playWin(void);/*输出胜利者信息*/
/******主函数*********/
void main(void)
{
int gd=DETECT,gr;
initgraph(&gd,&gr,"c:\\tc"); /*初始化图形系统*/
DrawQp();/*画棋盘*/
playtoplay();/*人人对战*/
getch();
closegraph();/*关闭图形系统*/
}
void DrawQp()/*画棋盘*/
{
int i,j;
score1=score2=0;/*棋手一开始得分都为0*/
setbkcolor(BLUE);
for(i=100;i<=420;i+=40)
{
line(100,i,420,i);/*画水平线*/
line(i,100,i,420); /*画垂直线*/
}
setcolor(0);/*取消圆周围的一圈东西*/
setfillstyle(SOLID_FILL,15);/*白色实体填充模式*/
fillellipse(500,200,15,15); /*在显示得分的位置画棋*/
setfillstyle(SOLID_FILL,8); /*黑色实体填充模式*/
fillellipse(500,300,15,15);
a[3][3]=a[4][4]=1;/*初始两个黑棋*/
a[3][4]=a[4][3]=2;/*初始两个白棋*/
setfillstyle(SOLID_FILL,WHITE);
fillellipse(120+3*40,120+3*40,15,15);
fillellipse(120+4*40,120+4*40,15,15);
setfillstyle(SOLID_FILL,8);
fillellipse(120+3*40,120+4*40,15,15);
fillellipse(120+4*40,120+3*40,15,15);
score1=score2=2; /*有棋后改变分数*/
DoScore();/*输出开始分数*/
}
void playtoplay()/*人人对战*/
{
int x,y,t=1,i,j,cc=0;
while(1)/*换棋手走棋*/
{
x=120,y=80;/*每次棋子一开始出来的坐标,x为行坐标,y为列坐标*/
while(1) /*具体一个棋手走棋的过程*/
{
PrintScore(1);/*输出棋手1的成绩*/
PrintScore(2);/*输出棋手2的成绩*/
SetPlayColor(t);/*t变量是用来判断棋手所执棋子的颜色*/
fillellipse(x,y,15,15);
key=bioskey(0);/*接收按键*/
if(key==ESC)/*跳出游戏*/
break;
else
if(key==ENTER)/*如果按键确定就可以跳出循环*/
{
if(y!=80&&a[(x-120)/40][(y-120)/40]!=1
&&a[(x-120)/40][(y-120)/40]!=2)/*如果落子位置没有棋子*/
{
if(t%2==1)/*如果是棋手1移动*/
a[(x-120)/40][(y-120)/40]=1;
else/*否则棋手2移动*/
a[(x-120)/40][(y-120)/40]=2;
if(!QpChange(x,y,t))/*落子后判断棋盘的变化*/
{
a[(x-120)/40][(y-120)/40]=0;/*恢复空格状态*/
cc++;/*开始统计尝试次数*/
if(cc>=64-score1-score2) /*如果尝试超过空格数则停步*/
{
MoveColor(x,y);
fillellipse(x,y,15,15);
break;
}
else
continue;/*如果按键无效*/
}
DoScore();/*分数的改变*/
break;/*棋盘变化了，则轮对方走棋*/
}
else/*已经有棋子就继续按键*/
continue;
}
else /*四个方向按键的判断*/
if(key==LEFT&&x>120)/*左方向键*/
{
MoveColor(x,y);
fillellipse(x,y,15,15);
SetPlayColor(t);
x-=40;
fillellipse(x,y,15,15);
}
else
if(key==RIGHT&&x<400&&y>80)/*右方向键*/
{
MoveColor(x,y);
fillellipse(x,y,15,15);
SetPlayColor(t);
x+=40;
fillellipse(x,y,15,15);
}
else
if(key==UP&&y>120)/*上方向键*/
{
MoveColor(x,y);
fillellipse(x,y,15,15);
SetPlayColor(t);
y-=40;
fillellipse(x,y,15,15);
}
else
if(key==DOWN&&y<400)/*下方向键*/
{
MoveColor(x,y);
fillellipse(x,y,15,15);
SetPlayColor(t);
y+=40;
fillellipse(x,y,15,15);
}
}
if(key==ESC)/*结束游戏*/
break;
if((score1+score2)==64||score1==0||score2==0)/*格子已经占满或一方棋子为0判断胜负*/
{
playWin();/*输出最后结果*/
break;
}
t=t%2+1; /*一方走后，改变棋子颜色即轮对方走*/
cc=0; /*计数值恢复为0*/
} /*endwhile*/
}
void SetPlayColor(int t)/*设置棋子颜色*/
{
if(t%2==1)
setfillstyle(SOLID_FILL,15);/*白色*/
else
setfillstyle(SOLID_FILL,8);/*灰色*/
}
void MoveColor(int x,int y)/*走了一步后恢复原来格子的状态*/
{
if(y<100)/*如果是从起点出发就恢复蓝色*/
setfillstyle(SOLID_FILL,BLUE);
else/*其他情况如果是1就恢复白色棋子,2恢复黑色棋子,或恢复蓝色棋盘*/
switch(a[(x-120)/40][(y-120)/40])
{
case 1:
setfillstyle(SOLID_FILL,15);break; /*白色*/
case 2:
setfillstyle(SOLID_FILL,8);break; /*黑色*/
default:
setfillstyle(SOLID_FILL,BLUE); /*蓝色*/
}
}
int QpChange(int x,int y,int t)/*判断棋盘的变化*/
{
int i,j,k,kk,ii,jj,yes;
yes=0;
i=(x-120)/40; /*计算数组元素的行下标*/
j=(y-120)/40; /*计算数组元素的列下标*/
SetPlayColor(t);/*设置棋子变化的颜色*/
/*开始往8个方向判断变化*/
if(j<6)/*往右边*/
{
for(k=j+1;k<8;k++)
if(a[i][k]==a[i][j]||a[i][k]==0)/*遇到自己的棋子或空格结束*/
break;
if(a[i][k]!=0&&k<8)
{
for(kk=j+1;kk<k&&k<8;kk++)/*判断右边*/
{
a[i][kk]=a[i][j]; /*改变棋子颜色*/
fillellipse(120+i*40,120+kk*40,15,15);
}
if(kk!=j+1) /*条件成立则有棋子改变过颜色*/
yes=1;
}
}
if(j>1)/*判断左边*/
{
for(k=j-1;k>=0;k--)
if(a[i][k]==a[i][j]||!a[i][k])
break;
if(a[i][k]!=0&&k>=0)
{
for(kk=j-1;kk>k&&k>=0;kk--)
{
a[i][kk]=a[i][j];
fillellipse(120+i*40,120+kk*40,15,15);
}
if(kk!=j-1)
yes=1;
}
}
if(i<6)/*判断下边*/
{
for(k=i+1;k<8;k++)
if(a[k][j]==a[i][j]||!a[k][j])
break;
if(a[k][j]!=0&&k<8)
{
for(kk=i+1;kk<k&&k<8;kk++)
{
a[kk][j]=a[i][j];
fillellipse(120+kk*40,120+j*40,15,15);
}
if(kk!=i+1)
yes=1;
}
}
if(i>1)/*判断上边*/
{
for(k=i-1;k>=0;k--)
if(a[k][j]==a[i][j]||!a[k][j])
break;
if(a[k][j]!=0&&k>=0)
{
for(kk=i-1;kk>k&&k>=0;kk--)
{
a[kk][j]=a[i][j];
fillellipse(120+kk*40,120+j*40,15,15);
}
if(kk!=i-1)
yes=1;
}
}
if(i>1&&j<6)/*右上*/
{
for(k=i-1,kk=j+1;k>=0&&kk<8;k--,kk++)
if(a[k][kk]==a[i][j]||!a[k][kk])
break;
if(a[k][kk]&&k>=0&&kk<8)
{
for(ii=i-1,jj=j+1;ii>k&&k>=0;ii--,jj++)
{
a[ii][jj]=a[i][j];
fillellipse(120+ii*40,120+jj*40,15,15);
}
if(ii!=i-1)
yes=1;
}
}
if(i<6&&j>1)/*左下*/
{
for(k=i+1,kk=j-1;k<8&&kk>=0;k++,kk--)
if(a[k][kk]==a[i][j]||!a[k][kk])
break;
if(a[k][kk]!=0&&k<8&&kk>=0)
{
for(ii=i+1,jj=j-1;ii<k&&k<8;ii++,jj--)
{
a[ii][jj]=a[i][j];
fillellipse(120+ii*40,120+jj*40,15,15);
}
if(ii!=i+1)
yes=1;
}
}
if(i>1&&j>1)/*左上*/
{
for(k=i-1,kk=j-1;k>=0&&kk>=0;k--,kk--)
if(a[k][kk]==a[i][j]||!a[k][kk])
break;
if(a[k][kk]!=0&&k>=0&&kk>=0)
{
for(ii=i-1,jj=j-1;ii>k&&k>=0;ii--,jj--)
{
a[ii][jj]=a[i][j];
fillellipse(120+ii*40,120+jj*40,15,15);
}
if(ii!=i-1)
yes=1;
}
}
if(i<6&&j<6)/* 右下*/
{
for(k=i+1,kk=j+1;kk<8&&kk<8;k++,kk++)
if(a[k][kk]==a[i][j]||!a[k][kk])
break;
if(a[k][kk]!=0&&kk<8&&k<8)
{
for(ii=i+1,jj=j+1;ii<k&&k<8;ii++,jj++)
{
a[ii][jj]=a[i][j];
fillellipse(120+ii*40,120+jj*40,15,15);
}
if(ii!=i+1)
yes=1;
}
}
return yes;/*返回是否改变过棋子颜色的标记*/
}
void DoScore()/*处理分数*/
{
int i,j;
score1=score2=0;/*重新开始计分数*/
for(i=0;i<8;i++)
for(j=0;j<8;j++)
if(a[i][j]==1)/*分别统计两个人的分数*/
score1++;
else
if(a[i][j]==2)
score2++;
}
void PrintScore(int playnum)/*输出成绩*/
{
if(playnum==1)/*清除以前的成绩*/
{
setfillstyle(SOLID_FILL,BLUE);
bar(550,100,640,400);
}
setcolor(RED);
settextstyle(0,0,4);/*设置文本输出样式*/
if(playnum==1)/*判断输出哪个棋手的分,在不同的位置输出*/
{
sprintf(playone,"%d",score1);
outtextxy(550,200,playone);
}
else
{
sprintf(playtwo,"%d",score2);
outtextxy(550,300,playtwo);
}
setcolor(0);
}
void playWin()/*输出最后的胜利者结果*/
{
settextstyle(0,0,4);
setcolor(12);
if(score2>score1)/*开始判断最后的结果*/
outtextxy(100,50,"black win!");
else
if(score2<score1)
outtextxy(100,50,"white win!");
else
outtextxy(60,50,"you all win!");
}

E. 用C语言编写的小游戏代码是什么

“猜数字小游戏”，每个数字后按空格，最后按回车确认

#include<stdio.h>

#include<stdlib.h>

#include<time.h>

int a[4],b[4];

int count=0; //计算猜测次数

void csh( ); //初始化

void start( ); //开始游戏

int main( )

{ csh( );

start( );

}

void csh( ) //初始化

{ printf(" 猜 数 字 小 游 戏 ");

printf(“ 猜四个数字，如数字与顺序都正确记为A，数字正确位置不对记为B. ”);

}

void start( ) //开始游戏

{int m,n; //m是完全猜对的个数,n是顺序不对的个数

while(1)

{srand((unsigned)time(NULL)); //初始化随机数发生器srand( )

while(1) { for(int i=0;i<4;i++) a[i]=rand( )%10; //rand( )函数每次随机产生一个0-9的数

if( (a[3]!=a[2]&&a[3]!=a[1]&&a[3]!=a[0])&&

(a[2]!=a[1]&&a[2]!=a[0])&&a[1]!=a[0] ) break; } //4个随机数各自不相等

printf(" 请依次输入4个一位整数: ");

while(1)

{for(int i=0;i<4;i++) scanf(“%d”,&b[i]);

printf(" 你输入的是:%d %d %d %d ",b[0],b[1],b[2],b[3]);

m=0;n=0;

for(int i=0;i<4;i++)

{for(int j=0;j<4;j++)

{ if(b[i]==a[j]&&i==j)m=m+1; if(b[i]==a[j]&&i!=j)n=n+1; }

}

count=count+1;

printf(" %dA %dB 你试了%d次 ",m,n,count);

if(m==4)break;

if(count==8){ count=0; break; }

}

printf(" ");

if(m==4)printf(" 你猜对了(^-^)！ 就是：%d %d %d %d ",a[0],a[1],a[2],a[3]);

else printf(" 你输了(T-T)！哈哈！应该是:%d %d %d %d ",a[0],a[1],a[2],a[3]);

int z;

printf(" （要继续吗？1或0） ");

scanf(“%d”,&z);

if(z==0) break;

}

}

F. C语言编程 猜数游戏

#include
#include
//用到了rand函数，所以要有这个头文件
#include
//用到了time函数，所以要有这个头文件
int
main()
{
int
number;
//number用于存储随机数
int
guess=0;
//guess用于存储玩家猜的数
srand((unsigned)
time(null));//用系统时间作为rand函数使用的种子
number=rand()%100;
//随机除以100，取余数
number++;
//余数加1
printf("猜数字游戏\n");
printf("该数字在1到100之间\n");
while(guess!=number)
{
printf("请输入您所猜的数：");
scanf("%d",&guess);
//如果玩家猜的数较小，给予提示
if
(guess
number)
{
printf("大了\n");
}
}
//猜中则循环结束，输出猜中的数字
printf("猜对了，这个数字就是：%d\n",number);
return
0;
}

G. 小游戏C语言程序

下落的小鸟

#include<stdio.h>
#include<stdlib.h>
#include<conio.h>
#include<time.h>
#include<Windows.h>
int Grade = 1, Score = 0, Max_blank = 9, Distance = 18;
struct Birds{int x; int y;}; //定义一种Birds数据类型(含3个成员)
Birds *Bird = (Birds*)malloc(sizeof(Birds)); //定义Birds类型 指针变量Bird并赋初值
struct Bg{int x, y; int l_blank; Bg *pri; Bg *next;}; //定义一种Bg数据类型(含5个成员)
Bg *Bg1 = (Bg*)malloc(sizeof(Bg)); //定义Bg类型 指针变量Bg1并赋初值

void Position(int x, int y) //光标定位函数(用于指定位置输出)
{COORD pos = { x - 1, y - 1 };
HANDLE Out = GetStdHandle(STD_OUTPUT_HANDLE);
SetConsoleCursorPosition(Out, pos);
}

void Csh( ) //初始化界面

{

printf("══════════════════════════════════════ ");

printf(" ■■ ■■ C语言版 Flappy Bird ");

printf(" ■■ ■■ ");

printf(" ■■ ■■ ");

printf(" ■■ ■■ 瞎搞人：yyposs原创 ");

printf(" ■■ ■■ 瞎搞日期：2014.2 ");

printf(" ■■ ■■ ");

printf(" ■■ ■■ 改编：鸣蝉百2021.7 ");

printf(" ■■ ■■ 操作：按向上方向键让小鸟起飞 ");

printf(" ■■ ");

printf(" ■■ ");

printf(" ■■ ■■ ");

printf(" ■■ ■■ ");

printf(" ■■ ■■ ");

printf(" ■■ ■■ ");

printf(" ■■ ■■ DEVc++运行通过 ");

printf("══════════════════════════════════════ ");

printf(" 按键继续…");

getch( );

system("cls");

}

void PrFK( ) //输出方框(游戏范围区)

{int i;

Position(1, 1); printf("╔"); Position(79, 1); printf("╗");

Position(1, 24); printf("╚"); Position(79, 24); printf("╝");

for (i = 3; i <= 78; i += 2){Position(i, 1); printf("═"); Position(i, 24); printf("═");}

for(i=2;i<=23;i++)

{ Position(1,i); printf("║");if(i<11)printf("0%d",i-1);else printf("%d",i-1);

Position(79,i); printf("║");

}

Position(4, 25); printf("小鸟即将出现，请准备按键起飞… ");

getch( );

Position(4, 25); printf(" ");

}

void CreatBg( ) //创建障碍物坐标(便于打印输出)
{Bg *Bg2 = (Bg*)malloc(sizeof(Bg));
Bg1->x = 90; Bg1->y = 8; //确定障碍物的一对基本坐标(此时值是在游戏框之外)
Bg2->x = Bg1->x + Distance; Bg2->y = 9; //下一障碍物的基本坐标x、y
Bg1->l_blank = Max_blank - Grade; //障碍物上下两部分之间的空白距离l_blank
Bg2->l_blank = Max_blank - Grade;
Bg1->next = Bg2; Bg1->pri = Bg2;
Bg2->next = Bg1; Bg2->pri = Bg1;
}

void InsertBg(Bg *p) //随机改变障碍物的y坐标，让空白通道有上下变化
{int temp;
Bg *Bgs = (Bg*)malloc(sizeof(Bg));
Bgs->x = p->pri->x + Distance;
Bgs->l_blank = Max_blank - Grade;
srand((int)time(0)); //启动随机数发生器
temp = rand( ); //产生一个随机数并赋值给temp
if (temp % 2 == 0)
{if ((temp % 4 + p->pri->y + Max_blank - Grade)<21)
Bgs->y = p->pri->y + temp % 4;
else Bgs->y = p->pri->y;
}
else
{if ((p->pri->y - temp % 4)>2)Bgs->y = p->pri->y - temp % 4;
else Bgs->y = p->pri->y;
}
Bgs->pri = p->pri; Bgs->next = p;
p->pri->next = Bgs; p->pri = Bgs;
}

void CreatBird( ) //建立小鸟的坐标(初始打印输出小鸟的位置)
{Bird->x = 41; Bird->y = 10;}

int CheckYN(Bg *q) //判断游戏结束与否(值为0是要结束，为1没有要结束)
{Bg *p = q; int i = 0;
while (++i <= 5)
{if (Bird->y>23)return 0;
if (Bird->x == p->x&&Bird->y <= p->y)return 0;
if ((Bird->x == p->x || Bird->x == p->x + 1 || Bird->x == p->x + 2) && Bird->y == p->y)return 0;
if (Bird->x == p->x&&Bird->y>p->y + p->l_blank)return 0;
if ((Bird->x == p->x || Bird->x == p->x + 1 || Bird->x == p->x + 2) && Bird->y == p->y + p->l_blank)
return 0;
p = p->next;
}
return 1;
}

void Check_Bg(Bg *q) //核查开头的障碍物坐标是否在游戏区内
{Bg *p = q; int i = 0, temp;
while (++i <= 5)
{if (p->x>-4)p = p->next;
else
{srand((int)time(0)); temp = rand();
if (temp % 2 == 0)
{if ((temp % 4 + p->y + Max_blank - Grade)<21)p->y = p->y + temp % 4;
else p->y = p->y; p->x = p->pri->x + Distance;
p->l_blank = Max_blank - Grade;
}
else
{if ((p->y - temp % 4)>2)p->y = p->y - temp % 4;
else p->y = p->y; p->x = p->pri->x + Distance;
p->l_blank = Max_blank - Grade;
}
}
}
}

void Prt_Bg(Bg *q) //打印输出障碍物(依据其x、y坐标进行相应输出)
{Bg *p = q; int i = 0, k, j;
while (++i <= 5)
{if (p->x>0 && p->x <= 78)
{for (k = 2; k<p->y; k++){Position(p->x + 1, k); printf("■"); printf("■"); printf(" ");}
Position(p->x, p->y);
printf("■"); printf("■"); printf("■"); printf(" ");
Position(p->x, p->y + p->l_blank);
printf("■"); printf("■"); printf("■"); printf(" ");
k = k + p->l_blank + 1;
for (k; k <= 23; k++){Position(p->x + 1, k); printf("■"); printf("■"); printf(" ");}
}
p = p->next;
if (p->x == 0)
{for (j = 2; j<p->y; j++){Position(p->x + 1, j); printf(" "); printf(" ");}
Position(p->x + 1, p->y);
printf(" "); printf(" "); printf(" ");
Position(p->x + 1, p->y + Max_blank - Grade);
printf(" "); printf(" "); printf(" ");
j = j + Max_blank - Grade + 1;
for (j; j <= 22; j++){Position(p->x + 1, j); printf(" "); printf(" ");}
}
}
}

void PrtBird( ) //打印输出小鸟
{Position(Bird->x, Bird->y - 1); printf(" ");
Position(Bird->x, Bird->y); printf("Ю");
Position(38, 2); printf("Score:%d", Score);
}
void Loop_Bg(Bg *q) //障碍物x坐标左移，并记录成绩
{Bg *p = q; int i = 0;
while (++i <= 5)
{p->x = p->x - 1; p = p->next;
if (Bird->x == p->x)
{Score += 1;
if (Score % 4 == 0 && Grade<4)Grade++;
}
}
}

int main( )
{int i = 0; int t;

while (1)

{
Csh( );PrFK( );CreatBg( );
InsertBg(Bg1);InsertBg(Bg1);InsertBg(Bg1);
CreatBird( );
while (1)
{if (!CheckYN(Bg1))break;
Check_Bg(Bg1);Prt_Bg(Bg1);
PrtBird( );Loop_Bg(Bg1);
Bird->y = Bird->y + 1;
if (GetAsyncKeyState(VK_UP)) //按下了向上方向键
{Position(Bird->x, Bird->y - 1);printf(" ");
Bird->y = Bird->y - 4;
}
Sleep(200); //程序延时200毫秒(数值大小决定游戏速度快慢)
i = 0;
}
Position(6, 25);
printf("游戏结束! 请输入：0.退出 1.重玩");

scanf("%d",&t);

if (t==0)break;

system("cls"); Score = 0;

}
return 0;
}

H. C语言可以写哪些小游戏

C语言可以编手机游戏. 你叫他去死 不过我这有 贪吃蛇的代码,你倒可以看看 （用TC 编译一定过）

#include
#include
#include
#include
#include
#define Enter 7181
#define ESC 283
#define UP 18432
#define DOWN 20480
#define LEFT 19200
#define RIGHT 19712
#ifdef __cplusplus
#define __CPPARGS ...
#else
#define __CPPARGS
#endif
void interrupt (*oldhandler)(__CPPARGS);
void interrupt newhandler(__CPPARGS);
void SetTimer(void interrupt (*IntProc)(__CPPARGS));
void KillTimer(void);
void Initgra(void);
void TheFirstBlock(void);
void DrawMap(void);
void Initsnake(void);
void Initfood(void);
void Snake_Headmv(void);
void Flag(int,int,int,int);
void GameOver(void);
void Snake_Bodymv(void);
void Snake_Bodyadd(void);
void PrntScore(void);
void Timer(void);
void Win(void);
void TheSecondBlock(void);
void Food(void);
void Dsnkorfd(int,int,int);
void Delay(int);
struct Snake
{int x;int y;int color;}Snk[12];
struct Food
{int x;int y;int color;}Fd;
int flag1=1,flag2=0,flag3=0,flag4=0,flag5=0,flag6=0,
checkx,checky,num,key=0,Times,Score,Hscore,Snkspeed,TimerCounter,TureorFalse;
char Sco[2],Time[6];
void main()
{ Initgra();
SetTimer(newhandler);
TheFirstBlock();
while(1)
{DrawMap();
Snake_Headmv();
GameOver();
Snake_Bodymv();
Snake_Bodyadd();
PrntScore();
Timer();
Win();
if(key==ESC)
break;
if(key==Enter)
{cleardevice();
TheFirstBlock();
}
TheSecondBlock();
Food();
Delay(Snkspeed);
}
closegraph();
KillTimer();
}
void interrupt newhandler(__CPPARGS)
{
TimerCounter++;
oldhandler();
}
void SetTimer(void interrupt (*IntProc)(__CPPARGS))
{
oldhandler=getvect(0x1c);
disable();
setvect(0x1c,IntProc);
enable();
}

void KillTimer()
{
disable();
setvect(0x1c,oldhandler);
enable();
}
void Initgra()
{int gd=DETECT,gm;
initgraph(&gd,&gm,"d:\\tc");
}
void TheFirstBlock()
{setcolor(11);
settextstyle(0,0,4);
outtextxy(100,220,"The First Block");
loop:key=bioskey(0);
if(key==Enter)
{cleardevice();
Initsnake();
Initfood();
Score=0;
Hscore=1;
Snkspeed=10;
num=2;
Times=0;
key=0;
TureorFalse=1;
TimerCounter=0;
Time[0]='0';Time[1]='0';Time[2]=':';Time[3]='1';Time[4]='0';Time[5]='\0';
}
else if(key==ESC) cleardevice();
else goto loop;
}
void DrawMap()
{line(10,10,470,10);
line(470,10,470,470);
line(470,470,10,470);
line(10,470,10,10);
line(480,20,620,20);
line(620,20,620,460);
line(620,460,480,460);
line(480,460,480,20);
}
void Initsnake()
{randomize();
num=2;
Snk[0].x=random(440);
Snk[0].x=Snk[0].x-Snk[0].x%20+50;
Snk[0].y=random(440);
Snk[0].y=Snk[0].y-Snk[0].y%20+50;
Snk[0].color=4;
Snk[1].x=Snk[0].x;
Snk[1].y=Snk[0].y+20;
Snk[1].color=4;
}
void Initfood()
{randomize();
Fd.x=random(440);
Fd.x=Fd.x-Fd.x%20+30;
Fd.y=random(440);
Fd.y=Fd.y-Fd.y%20+30;
Fd.color=random(14)+1;
}
void Snake_Headmv()
{if(bioskey(1))
{key=bioskey(0);
switch(key)
{case UP:Flag(1,0,0,0);break;
case DOWN:Flag(0,1,0,0);break;
case LEFT:Flag(0,0,1,0);break;
case RIGHT:Flag(0,0,0,1);break;

default:break;
}
}
if(flag1)
{checkx=Snk[0].x;
checky=Snk[0].y;
Dsnkorfd(Snk[0].x,Snk[0].y,0);
Snk[0].y-=20;
Dsnkorfd(Snk[0].x,Snk[0].y,Snk[0].color);
}
if(flag2)
{checkx=Snk[0].x;
checky=Snk[0].y;
Dsnkorfd(Snk[0].x,Snk[0].y,0);
Snk[0].y+=20;
Dsnkorfd(Snk[0].x,Snk[0].y,Snk[0].color);
}
if(flag3)
{checkx=Snk[0].x;
checky=Snk[0].y;
Dsnkorfd(Snk[0].x,Snk[0].y,0);
Snk[0].x-=20;
Dsnkorfd(Snk[0].x,Snk[0].y,Snk[0].color);
}
if(flag4)
{checkx=Snk[0].x;
checky=Snk[0].y;
Dsnkorfd(Snk[0].x,Snk[0].y,0);
Snk[0].x+=20;
Dsnkorfd(Snk[0].x,Snk[0].y,Snk[0].color);
}
}
void Flag(int a,int b,int c,int d)
{flag1=a;flag2=b;flag3=c;flag4=d;}
void GameOver()
{int i;
if(Snk[0].x460||Snk[0].y460)
{cleardevice();
setcolor(11);
settextstyle(0,0,4);
outtextxy(160,220,"Game Over");
loop1:key=bioskey(0);
if(key==Enter)
{cleardevice();
TheFirstBlock();
}
else
if(key==ESC)
cleardevice();
else
goto loop1;
}
for(i=3;i<num;i++)
{if(Snk[0].x==Snk[i].x&&Snk[0].y==Snk[i].y)
{cleardevice();
setcolor(11);
settextstyle(0,0,4);
outtextxy(160,220,"Game Over");
loop2:key=bioskey(0);
if(key==Enter)
{cleardevice();
TheFirstBlock();
}
else
if(key==ESC)
cleardevice();
else goto loop2;
}
}
}
void Snake_Bodymv()
{int i,s,t;
for(i=1;i<num;i++)
{Dsnkorfd(checkx,checky,Snk[i].color);
Dsnkorfd(Snk[i].x,Snk[i].y,0);
s=Snk[i].x;
t=Snk[i].y;
Snk[i].x=checkx;
Snk[i].y=checky;
checkx=s;
checky=t;
}
}
void Food()
{if(flag5)
{randomize();
Fd.x=random(440);
Fd.x=Fd.x-Fd.x%20+30;
Fd.y=random(440);
Fd.y=Fd.y-Fd.y%20+30;
Fd.color=random(14)+1;
flag5=0;
}
Dsnkorfd(Fd.x,Fd.y,Fd.color);
}
void Snake_Bodyadd()
{if(Snk[0].x==Fd.x&&Snk[0].y==Fd.y)
{if(Snk[num-1].x>Snk[num-2].x)
{num++;
Snk[num-1].x=Snk[num-2].x+20;
Snk[num-1].y=Snk[num-2].y;
Snk[num-1].color=Fd.color;
}
else
if(Snk[num-1].x<Snk[num-2].x)
{num++;
Snk[num-1].x=Snk[num-2].x-20;
Snk[num-1].y=Snk[num-2].y;
Snk[num-1].color=Fd.color;
}
else
if(Snk[num-1].y>Snk[num-2].y)
{num++;
Snk[num-1].x=Snk[num-2].x;
Snk[num-1].y=Snk[num-2].y+20;
Snk[num-1].color=Fd.color;
}
else
if(Snk[num-1].y<Snk[num-2].y)
{num++;
Snk[num-1].x=Snk[num-2].x;
Snk[num-1].y=Snk[num-2].y-20;
Snk[num-1].color=Fd.color;
}
flag5=1;
Score++;
}
}
void PrntScore()
{if(Hscore!=Score)
{setcolor(11);
settextstyle(0,0,3);
outtextxy(490,100,"SCORE");
setcolor(2);
setfillstyle(1,0);
rectangle(520,140,580,180);
floodfill(530,145,2);
Sco[0]=(char)(Score+48);
Sco[1]='\0';
Hscore=Score;
setcolor(4);
settextstyle(0,0,3);
outtextxy(540,150,Sco);
}
}
void Timer()
{if(TimerCounter>18)
{Time[4]=(char)(Time[4]-1);
if(Time[4]<'0')
{Time[4]='9';
Time[3]=(char)(Time[3]-1);
}
if(Time[3]<'0')
{Time[3]='5';
Time[1]=(char)(Time[1]-1);
}
if(TureorFalse)
{setcolor(11);
settextstyle(0,0,3);
outtextxy(490,240,"TIMER");
setcolor(2);
setfillstyle(1,0);
rectangle(490,280,610,320);
floodfill(530,300,2);
setcolor(11);
settextstyle(0,0,3);
outtextxy(495,290,Time);
TureorFalse=0;
}
if(Time[1]=='0'&&Time[3]=='0'&&Time[4]=='0')
{setcolor(11);
settextstyle(0,0,4);
outtextxy(160,220,"Game Over");
loop:key=bioskey(0);
if(key==Enter)
{cleardevice();
TheFirstBlock();
}
else if(key==ESC) cleardevice();
else goto loop;
}
TimerCounter=0;
TureorFalse=1;
}
}
void Win()
{if(Score==3)
Times++;
if(Times==2)
{cleardevice();
setcolor(11);
settextstyle(0,0,4);
outtextxy(160,220,"You Win");
loop:key=bioskey(0);
if(key==Enter)
{cleardevice();
TheFirstBlock();
key=0;
}
else if(key==ESC) cleardevice();
else goto loop;
}
}
void TheSecondBlock()
{if(Score==3)
{cleardevice();
setcolor(11);
settextstyle(0,0,4);
outtextxy(100,220,"The Second Block");
loop:key=bioskey(0);
if(key==Enter)
{cleardevice();
Initsnake();
Initfood();
Score=0;
Hscore=1;
Snkspeed=8;
num=2;
key=0;
}
else if(key==ESC) cleardevice();
else goto loop;
}
}
void Dsnkorfd(int x,int y,int color)
{setcolor(color);
setfillstyle(1,color);
circle(x,y,10);
floodfill(x,y,color);
}
void Delay(int times)
{int i;
for(i=1;i<=times;i++)
delay(15000);
}

I. 教你如何使用C语言编写简单小游戏

编写程序，实现如下表所示的5-魔方阵。
17

24

1

8

15

23

5

7

14

16

4

6

13

20

22

10

12

19

21

3

11

18

25

2

9

5-魔方阵
问题分析
所谓“n-魔方阵”，指的是使用1〜n2共n2个自然数排列成一个n×n的方阵，其中n为奇数；该方阵的每行、每列及对角线元素之和都相等，并为一个只与n有关的常数，该常数为n×(n2+1)/2。
例如5-魔方阵，其第一行、第一列及主对角线上各元素之和如下：
第一行元素之和：17+24+1+8+15=65
第一列元素之和：17+23+4+10+11=65
主对角线上元素之和：17+5+13+21+9=65
而
n×(n2+1)/2=5×(52+1)/2=65
可以验证，5-魔方阵中其余各行、各列及副对角线上的元素之和也都为65。
假定阵列的行列下标都从0开始，则魔方阵的生成方法为：在第0行中间置1，对从2开始的其余n2-1个数依次按下列规则存放：
(1)
假定当前数的下标为(i，j)，则下一个数的放置位置为当前位置的右上方，即下标为(i-1，j+1)的位置。
(2)
如果当前数在第0行，即i-1小于0，则将下一个数放在最后一行的下一列上，即下标为(n-1，j+1)的位置。
(3)
如果当前数在最后一列上，即j+1大于n-1，则将下一个数放在上一行的第一列上，即下标为(i-1，0)的位置。
(4)
如果当前数是n的倍数，则将下一个数直接放在当前位置的正下方，即下标为(i+1，j）的位置。
算法设计
在设计算法时釆用了下面一些方法：
定义array()函数，array()函数的根据输入的n值，生成并显示一个魔方阵，当发现n不是奇数时，就加1使之成为奇数。
使用动态内存分配与释放函数malloc()与free()，在程序执行过程中动态分配与释放内存，这样做的好处是使代码具有通用性，同时提高内存的使用率。
在分配内存时还要注意，由于一个整型数要占用两个内存，因此，如果魔方阵中要存放的数有max个，则分配内存时要分配2*max个单元，从而有malloc(max+max)。在malloc()函数中使用max+max而不是2*max是考虑了程序运行的性能。
显然应该使用二维数组来表示魔方阵，但虽然数组是二维形式的，而由于内存是一维线性的，因此在存取数组元素时，要将双下标转换为单个索引编号。在程序中直接定义了指针变量来指向数组空间，即使用malloc()函数分配的内存。