android貪吃蛇代碼

⑴ 求貪吃蛇的C++程序代碼

#include<graphics.h>
#include<stdlib.h>
#include<dos.h>
#define LEFT 0x4b00
#define RIGHT 0x4d00
#define DOWN 0x5000
#define UP 0x4800
#define ESC 0x011b
int i,key;
int score=0;
int gamespeed=32000;
struct Food /*食物的結構體*/
{
int x; /*食物的橫坐標*/
int y; /*食物的縱坐標*/
int yes; /*食物是否出現的變數*/
}food;
struct Snack /*蛇的結構體*/
{
int x[N];
int y[N];
int node; /*蛇的節數*/
int direction; /*蛇的方向*/
int life; /*蛇的生命，0活著，1死亡*/
}snake;
void Init(void); /*圖形驅動*/
void Close(void); /*關閉游戲函數*/
void DrawK(void); /*畫圖函數*/
void GameOver(void);/*輸出失敗函數*/
void GamePlay(); /*游戲控制函數 主要程序*/
void PrScore(void); /*分數輸出函數*/

DELAY(char ch)/*調節游戲速度*/
{
if(ch=='3')
{
delay(gamespeed); /*delay是延遲函數*/
delay(gamespeed);
}
else if(ch=='2')
{
delay(gamespeed);
}
}

Menu()/*游戲開始菜單*/
{
char ch;
printf("Please choose the gamespeed:\n");
printf("1-Fast 2-Normal 3-Slow\n");
printf("\nPlease Press The numbers..\n");
do
{ch=getch();}
while(ch!='1'&&ch!='2'&&ch!='3');
clrscr();
return(ch);
}

/*主函數*/
void main(void)
{
int ch;
ch=Menu();
Init();
DrawK();
GamePlay(ch);
Close();
}

void Init(void)
{
int gd=DETECT,gm;
initgraph(&gd,&gm,"c:\\tc");
cleardevice();
}

void DrawK(void)
{
setcolor(11);
setlinestyle(SOLID_LINE,0,THICK_WIDTH);
for(i=50;i<=600;i+=10)
{
rectangle(i,40,i+10,49); /*畫出上邊框*/
rectangle(i,451,i+10,460); /*畫出下邊框*/
}
for(i=40;i<=450;i+=10)
{
rectangle(50,i,59,i+10); /*畫出左邊框*/
rectangle(601,i,610,i+10); /*畫出右邊框*/
}
}

void GamePlay(char ch)
{
randomize(); /*隨機數發生器*/
food.yes=1; /*1代表要出現食物，0表示以存在食物*/
snake.life=0;
snake.direction=1;
snake.x[0]=100;snake.y[0]=100;
snake.x[1]=110;snake.y[1]=100;
snake.node=2;
PrScore();
while(1) /*可以重復游戲*/
{
while(!kbhit()) /*在沒有按鍵的情況下蛇自己移動*/
{
if(food.yes==1) /*需要食物*/
{
food.x=rand()%400+60;
food.y=rand()%350+60; /*使用rand函數隨機產生食物坐標*/
while(food.x%10!=0)
food.x++;
while(food.y%10!=0)
food.y++; /*判斷食物是否出現在整格里*/
food.yes=0; /*現在有食物了*/
}
if(food.yes==0) /*有食物了就要顯示出來*/
{
setcolor(GREEN);
rectangle(food.x,food.y,food.x+10,food.y-10);
}
for(i=snake.node-1;i>0;i--) /*貪吃蛇的移動演算法*/
{
snake.x[i]=snake.x[i-1];
snake.y[i]=snake.y[i-1]; /*貪吃蛇的身體移動演算法*/
}

switch(snake.direction) /*貪吃蛇的頭部移動演算法，以此來控制移動*/
{
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++) /*判斷是否頭部與身體相撞*/
{
if(snake.x[i]==snake.x[0]&&snake.y[i]==snake.y[0])
{
GameOver();
snake.life=1;
break;
}
}
/*下面是判斷是否撞到牆壁*/
if(snake.x[0]<55||snake.x[0]>595||snake.y[0]<55||snake.y[0]>455)
{
GameOver();
snake.life=1;
}
if(snake.life==1) /*如果死亡就退出循環*/
break;
if(snake.x[0]==food.x&&snake.y[0]==food.y) /*判斷蛇是否吃到食物*/
{
setcolor(0);
rectangle(food.x,food.y,food.x+10,food.y-10); /*吃的食物後用黑色將食物擦去*/
snake.x[snake.node]=-20;snake.y[snake.node]=-20; /*現把增加的一節放到看不到的地方去*/

snake.node++;
food.yes=1;
score+=10;
PrScore();
}
setcolor(4); /*每次移動後將後面的身體擦去*/
for(i=0;i<snake.node;i++)
rectangle(snake.x[i],snake.y[i],snake.x[i]+10,snake.y[i]-10);
delay(gamespeed);
DELAY(ch);
setcolor(0);
rectangle(snake.x[snake.node-1],snake.y[snake.node-1],snake.x[snake.node-1]+10,snake.y[snake.node-1]-10);

}
if(snake.life==1)
break;
key=bioskey(0); /*接受按鍵*/
if(key==ESC)
break;
else
if(key==UP&&snake.direction!=4)/*判斷是否改變方向*/
snake.direction=3;
else
if(key==RIGHT&&snake.direction!=2)
snake.direction=1;
else
if(key==LEFT&&snake.direction!=1)
snake.direction=2;
else
if(key==DOWN&&snake.direction!=3)
snake.direction=4;
}
}

void GameOver(void)
{
cleardevice();
setcolor(RED);
settextstyle(0,0,4);
outtextxy(200,200,"GAME OVER");
getch();
}

void PrScore(void)
{
char str[10];
setfillstyle(SOLID_FILL,YELLOW);
bar(50,15,220,35);
setcolor(6);
settextstyle(0,0,2);
sprintf(str,"scord:%d",score);
outtextxy(55,20,str);
}
void Close(void)
{
getch();
closegraph();
}

⑵ 求一個C++的貪吃蛇游戲源代碼，要標註解釋的。

/*因為當時只考慮到了代碼可通過，沒有考慮代碼的質量，所以重復利用率差，不要隨意改動哦
運行是完全通過的但是會一閃一閃的*/
#include<iostream>
#include<conio.h>
#include<time.h>
#include<windows.h>
#define X 15
#define Y 15
int score=0;
char ch[X][Y];
char lch = 's';
char nch = 's';
class Snake
{
public:
Snake() { nx = 8;ny = 8;lx = 9;ly = 9;next = NULL; }
Snake(Snake&r);//建立蛇身
void input();//把數據輸入到圖像
void control();//控制貪吃蛇
void show();//顯示圖像
void check();//檢測食物是否被吃掉
bool gameover();//檢測游戲是否結束
int nx;
int ny;
int lx;
int ly;
Snake*next;
};
Snake *head;
namespace Food
{
int x;
int y;
void NEW()
{
Snake*p=head;
x = rand() % X;
y = rand() % Y;
while(p!=NULL)
{
if(p->nx==x&&p->ny==y)
{
x = rand() % X;
y = rand() % Y;
p = head;
}
else
p=p->next;
}
ch[x][y]='$';
}
};
Snake::Snake(Snake&r)
{
this->nx = r.lx;
this->ny = r.ly;
r.next = this;
this->next = NULL;
}
void Snake::show()//顯示圖像
{
system("cls");
//std::cout << " ------------------------------ \n";
for (int y = 0; y<Y; ++y)
{
//std::cout << "|";
for (int x = 0; x < X; ++x)
std::cerr << ch[x][y] << " " ;
std::cerr <<"|"<< std::endl;
}
std::cout << " ------------------------------ \n";
printf("x = %d,y = %d\n",nx,ny);
printf("x = %0X,y = %0X\n",&nx,&ny);
printf("score = %d\n",score);
}
void Snake::control()//鍵盤控制
{

if (_kbhit() == 1)
{
nch = _getch();
lx = nx;
ly = ny;
if (nch == 'w' || nch == 's' || nch == 'a' || nch == 'd')
{
lch = nch;
switch (nch)
{
case 'w':if (ny == 0) ny = Y - 1; else --ny; break;
case 's':if (ny == Y - 1) ny = 0; else ++ny; break;
case 'a':if (nx == 0) nx = X - 1; else --nx; break;
case 'd':if (nx == X - 1) nx = 0; else ++nx; break;
}
}
else
{
switch (lch)
{
case 'w':if (ny == 0) ny = Y - 1; else --ny; break;
case 's':if (ny == Y - 1) ny = 0; else ++ny; break;
case 'a':if (nx == 0) nx = X - 1; else --nx; break;
case 'd':if (nx == X - 1) nx = 0; else ++nx; break;
}
}
}
else
{
lx = nx;
ly = ny;
if (nch == 'w' || nch == 's' || nch == 'a' || nch == 'd')
{
lch = nch;
switch (nch)
{
case 'w':if (ny == 0) ny = Y - 1; else --ny; break;
case 's':if (ny == Y - 1) ny = 0; else ++ny; break;
case 'a':if (nx == 0) nx = X - 1; else --nx; break;
case 'd':if (nx == X - 1) nx = 0; else ++nx; break;
}
}
else
{
switch (lch)
{
case 'w':if (ny == 0) ny = Y - 1; else --ny; break;
case 's':if (ny == Y - 1) ny = 0; else ++ny; break;
case 'a':if (nx == 0) nx = X - 1; else --nx; break;
case 'd':if (nx == X - 1) nx = 0; else ++nx; break;
}
}
}
}
void Snake::input()//把對象輸入到圖像
{
Snake*p = head;
ch[p->lx][p->ly] = ' ';
ch[p->nx][p->ny] = '*';
while (p->next != NULL)
{
p->next->lx = p->next->nx;
p->next->ly = p->next->ny;
p->next->nx = p->lx;
p->next->ny = p->ly;
p = p->next;
ch[p->lx][p->ly] = ' ';
ch[p->nx][p->ny] = '*';
}
}
void Snake::check()//檢測食物是否被吃掉
{
Snake*p=head;
if (p->nx == Food::x&&p->ny == Food::y)
{
Snake*p = head;
while (p->next != NULL)
{
p = p->next;
}
p->next = new Snake(*p);
Food::NEW();
++score;
}
}
bool Snake::gameover()//檢測游戲是否結束
{
Snake*p = head;
Snake*pn = head->next;
while (p != NULL)
{
while (pn != NULL)
{
if (p->nx == pn->nx&&p->ny == pn->ny)
{
std::cout << "Game Over\n";
return true;
}
pn = pn->next;
}
p = p->next;
}
return 0;
}
int main()
{
//初始化
srand(time(NULL));
for (int y = 0; y<Y; ++y)
for (int x = 0; x<X; ++x)
ch[x][y] = ' ';
head = new Snake;
Food::NEW();
std::cout<<"游戲規則:\n1.wsad(小寫)控制蛇\n2.若蛇節數超過2，那麼無法反方向運動，\n若反方向運動則GameOver\n3.'*'為蛇,'$'為食物\n";
system("pause");
//開始游戲
while (1)
{
head->control();
head->input();
head->check();
if(head->gameover())
break;
head->show();
Sleep(100);
}
Sleep(1000);
system("pause");
return 0;
}

/*------------------------------------------------------------------------------------
當然你也可以用下面這個，經過一些奇怪的演算法，當然可讀性極差，不閃，但是有時有些莫名其妙的bug的，這是把輸出圖像變成了一個一維數組，用一維數組來模擬直角坐標系
------------------------------------------------------------------------------------*/
#include<iostream>
#include<windows.h>
#include<conio.h>
#include<time.h>
#define X 32
#define Y 17
char ch[544];
char nch = 's';
char lch = 's';
int score = 0;
class Snake
{
public:
Snake();//創建蛇頭
void Add();//添加蛇身
void Show();//顯示圖像
bool GameOver();//檢測游戲是否結束
void Input();//輸入數據
void Check();//檢測食物是否被吃
void Control();//輸入控制
void INIT();
int GetX(){return nx;}
int GetY(){return ny;}
Snake *next;
private:
int lx;
int ly;
int nx;
int ny;
};
Snake*head;
Snake*finally;
namespace Food
{
int x;
int y;
void GetXY()
{
std::cout<<"Food x = "<<x<<"Food y = "<<y<<"\n";
}
void NEW()
{
Snake*p=head;
x = (rand()%15)+1;
y = (rand()%15)+1;
while(p!=NULL)
{
if(p->GetX()==x&&p->GetY()==y)
{
x = (rand()%15)+1;
y = (rand()%15)+1;
p=head;
}
p=p->next;
}
ch[y*32+x*2-1]='$';
}
};
void Snake :: INIT()//初始化
{
for(int n=0;n<=543;++n)
ch[n]=' ';
for(int n=1;n<30;++n)
ch[n]='-';
for(int n=1;n<30;++n)
ch[n+512]='-';
for(int n=0;n<=16;++n)
ch[n*32+31]='\n';
for(int n=1;n<=16;++n)
ch[n*32+30]='|';
for(int n=1;n<=16;++n)
ch[n*32]='|';
ch[543]='\0';
next=NULL;
Food::NEW();
lx = 4;
ly = 4;
nx = 4;
ny = 5;
ch[ly*32+lx*2-1]='*';
}
Snake :: Snake()//創建蛇頭head
{
}
void Snake :: Add()//添加蛇身
{
finally->next = new Snake;
finally->next->nx=finally->lx;
finally->next->ny=finally->ly;
finally->next->next=NULL;
finally=finally->next;
}
void Snake :: Control()//控制輸入
{
if(kbhit()==1){
nch=getch();
if(nch=='w'||nch=='s'||nch=='a'||nch=='d'){
lch=nch;
switch(nch)
{
case 'w':if(ny==1) ny=15;else ny--;break;
case 's':if(ny==15) ny=1;else ny++;break;
case 'a':if(nx==1) nx=15;else nx--;break;
case 'd':if(nx==15) nx=1;else nx++;break;
}
}else{
switch(lch)
{
case 'w':if(ny==1) ny=15;else ny--;break;
case 's':if(ny==15) ny=1;else ny++;break;
case 'a':if(nx==1) nx=15;else nx--;break;
case 'd':if(nx==15) nx=1;else nx++;break;
}
}
}else{
switch(lch)
{
case 'w':if(ny==1) ny=15;else ny--;break;
case 's':if(ny==15) ny=1;else ny++;break;
case 'a':if(nx==1) nx=15;else nx--;break;
case 'd':if(nx==15) nx=1;else nx++;break;
}
}
}
void Snake :: Show()//顯示圖像
{
std::cerr<<ch<<"\nscore = "<<score<<"\t";
}
void Snake :: Input()//輸入數據
{
Snake*p = head;
ch[(p->lx)*2+(p->ly)*32-1] = ' ';
ch[(p->nx)*2+(p->ny)*32-1] = '*';
while (p->next != NULL)
{
p->next->lx = p->next->nx;
p->next->ly = p->next->ny;
p->next->nx = p->lx;
p->next->ny = p->ly;
p = p->next;
ch[(p->lx)*2+(p->ly)*32-1] = ' ';
ch[(p->nx)*2+(p->ny)*32-1] = '*';
}
head->lx=head->nx;
head->ly=head->ny;
}
bool Snake :: GameOver()//檢測游戲是否結束
{
Snake *p = head;
Snake *pl ;
while(p!=NULL)
{
pl=p->next;
while(pl!=NULL)
{
if(p->nx==pl->nx&&p->ny==pl->ny){
std::cout<<"\nGameOver\n";
return true;
}
pl=pl->next;
}
p=p->next;
}
return false;
}
void Snake :: Check()//檢測食物是否被吃掉
{
if(head->nx==Food::x&&head->ny==Food::y)
{
Food::NEW();
head->Add();
score++;
}
}
int main(int argc,char *argv[])
{
srand(time(NULL));
head=new Snake;
head->INIT();
finally = head;
while(1)
{
head->Control();//控制輸出
head->Input();//輸入數據
system("cls");
head->Show();//顯示圖像
Sleep(150);
if(head->GameOver())//檢測游戲是否結束
break;
head->Check();//檢測食物是否被吃
}
Sleep(1000);
printf("請按任意鍵退出\n");
_getch();

return 0;
}

⑶ 求貪吃蛇的c語言代碼，覺得挺好玩的

。。4555555555555

⑷ 貪吃蛇c語言代碼

#include<stdio.h>
#include<stdlib.h>
#include<Windows.h>
#include<conio.h>
#include<time.h>
char gamemap[20][40];//游戲地圖大小 20*40
int score=0;//當前分數
//記錄蛇的結點
int x[800];//每個結點的行編號
int y[800];//每個結點的列編號
int len = 0;//蛇的長度

//記錄水果信息
int fx=0;//食物的橫坐標
int fy=0;//食物的縱坐標
int fcount=0;//食物的數目

//主要函數操作
void createfood();//生成食物
void PrintgameMap(int x[],int y[]);//畫游戲地圖
void move(int x[],int y[]);//移動蛇

int main()
{
srand(time(NULL));
//初始化蛇頭和身體的位置,默認剛開始蛇長為2
x[len] = 9;
y[len] = 9;
len++;
x[len] = 9;
y[len] = 8;
len++;

createfood();
PrintgameMap(x,y);
move(x,y);
return 0;
}
void createfood()
{
if(0==fcount)
{
int tfx=rand()%18+1;
int tfy=rand()%38+1;
int i,j;
int have=0;//為0表示食物不是食物的一部分
for(i=0;i<len;i++)
{
for(j=0;j<len;j++)
{
if(x[i]==fx&&y[j]==fy)
{
have=1;
break;
}
else
{
have=0;
}
}
if(1==have)//若為蛇的一部分，執行下一次循環
{
continue;
}
else//否則生成新的水果
{
fcount++;
fx=tfx;
fy=tfy;
break;
}
}

}
}
//游戲地圖
void PrintgameMap(int x[],int y[])
{
int snake = 0,food=0;

int i, j;
//畫游戲地圖,並畫出蛇的初始位置
for (i = 0; i < 20; i++)
{
for (j = 0; j < 40; j++)
{
if (i == 0 && j >= 1 && j <= 38)
{
gamemap[i][j] = '=';

}
else if (i == 19 && j >= 1 && j <= 38)
{
gamemap[i][j] = '=';
}
else if (j == 0 || j == 39)
{
gamemap[i][j] = '#';
}
else
{
gamemap[i][j] = ' ';
}
//判斷蛇是否在當前位置
int k;
for ( k = 0; k < len; k++)
{

if (i == x[k]&&j == y[k])
{
snake = 1;
break;
}
else
{
snake = 0;
}
}
{
if(fcount&&fx==i&&fy==j)
{
food=1;
}
else
{
food=0;
}
}
//若蛇在當前位置
if (1==snake )
{
printf("*");
}
else if(1==food)
{
printf("f");
}
//若蛇不在當前位置並且當前位置沒有水果
else
{
printf("%c", gamemap[i][j]);
}

}
printf("\n");

}

printf("score:%d",score);
}
//移動
void move(int x[],int y[])
{
char s;
s=getch();
int move=0,beat=0;
while (1)
{

int cx[800];
int cy[800];
memcpy(cx, x, sizeof(int)*len);
memcpy(cy, y, sizeof(int)*len);
//頭

if (s=='w')
{

x[0]--;
move=1;
if(x[0]<=0)
{
printf("Game over\n");
break;
}

}
else if (s=='s')
{
x[0]++;
move=1;
if(x[0]>=19)
{
printf("Game over\n");
break;
}

}
else if (s=='a')
{
y[0] --;
move=1;
if(y[0]<=0)
{
printf("Game over\n");
break;
}

}
else if (s=='d')
{
y[0]++;
move=1;
if(y[0]>=39)
{
printf("Game over\n");
break;
}
}

//身體
int i;
for ( i = 1; i < len; i++)
{

x[i] = cx[i - 1];
y[i] = cy[i - 1];

}
for(i=1;i<len;i++)//要是咬到了自己
{
if(x[0]==x[i]&&y[0]==y[i])
{
beat=1;
}
else
{
beat=0;
}
}
if(1==beat)
{
printf("Game over\n");
break;
}
if(1==move)
{
if(fcount&&x[0]==fx&&y[0]==fy)//如果吃到了果子
{
//拷貝當前蛇頭地址到第二個結點
memcpy(x+1,cx,sizeof(int)*len);
memcpy(y+1,cy,sizeof(int)*len);
len++;
fcount--;
fx=0;
fy=0;
score++;
createfood();
}
Sleep(70);
system("cls");
PrintgameMap( x, y);

}
else
continue;
if(kbhit())//判斷是否按下按鍵
{
s=getch();
}

}

}

⑸ 如何用慧編程做貪吃蛇代碼

用慧編程做貪吃蛇代碼過程如下：
1、我們需要建立四個頭文件，然後分別設置蛇的狀態，上下左右，這是蛇能夠有方向可走的前提，然後我們再設置蛇身的節點，定義一個簡單的函數，這樣蛇的全身以及他的行走方向就弄完了。
2、貪吃蛇不能穿牆代碼。
3、第二步，一個函數這個函數的目的是貪吃蛇不能穿牆，很簡單的代碼分別設置長寬的最大位移，在內部范圍內設置為一即可通過，否則不能穿牆。貪吃蛇隨機生成一個食物。
4、設置一個隨機函數。這樣貪吃蛇代碼就做好了。
慧編程是一款面向STEAM教育領域的積木式和代碼編程軟體，基於圖形化編程開發。

⑹ 貪吃蛇代碼

TC下的代碼
#include <dos.h>
#include<alloc.h>
#include <stdlib.h>
#include <stdio.h>
#include "graphics.h"
#include<math.h>
typedef struct
{
int x;
int y;
}node;
struct
{
node info[40];
int length;
}snake;
char light[60][48];
void main()
{
int search(int m,int n);
void Light(int m,int n,int color);
int settle(int key);
char met=1;
int i,j,direction,key1,key2=0,rm,rn;
int driver=DETECT,mode=0;
initgraph(&driver,&mode," ");
setcolor(10);
rectangle(0,0,580,450);
snake.length=3;
for(i=0;i<60;i++)
for(j=0;j<48;j++)
light[i][j]=0;
snake.info[0].x=32;
snake.info[1].x=32;
snake.info[2].x=32;
snake.info[0].y=24;
snake.info[1].y=25;
snake.info[2].y=26;
for(i=0;i<3;i++)
Light(snake.info[i].x,snake.info[i].y,8);
do
{
if(met==1)
{
do
{
rm=random(57);
rn=random(44);
met=0;
}while(search(rm,rn));
}
Light(rm,rn,10);
if(!bioskey(1))
{
key1=key2;
}
else
{
key1=bioskey(0);
if((key2==0x4b00&&key1==0x4d00)||(key1==0x4b00&&key2==0x4d00)||(key1==0x4800&&key2==0x5000)||(key1==0x5000&&key2==0x4800)||(key1==0x5000&&key2==0))
key1=key2;
else key2=key1;
}
if(key1) met=settle(key1);
if(met==2) return;
for(i=0;i<snake.length;i++)
Light(snake.info[i].x,snake.info[i].y,8);
for(i=0;i<13-snake.length*0.3;i++) delay(12000);

}while(snake.length<40);
getch();
}
void Light(int m,int n,int color)
{
setfillstyle(1,color);
bar(10*m,10*n,10*m+8,10*n+8);
if(color==8) light[m][n]=2;
if(color==10) light[m][n]=1;
if(color==0) light[m][n]=0;
}
int search(int m,int n)
{
if(light[m][n]==2)
return(1);
return 0;
}
int settle(int key)
{
int i,rx,ry;
rx=snake.info[snake.length-1].x;ry=snake.info[snake.length-1].y;
for(i=snake.length-1;i>0;i--)
{
snake.info[i].x=snake.info[i-1].x;
snake.info[i].y=snake.info[i-1].y;
}
switch(key)
{
case 0x4800:
snake.info[i].y--;
break;
case 0x5000:
snake.info[i].y++;
break;
case 0x4b00:
snake.info[i].x--;
break;
case 0x4d00:
snake.info[i].x++;
break;
}

if(light[snake.info[i].x][snake.info[i].y]==1)
{
snake.length++;
snake.info[snake.length-1].x=rx;
snake.info[snake.length-1].y=ry;
Light(snake.info[i].x,snake.info[i].y,0);
return(1);
}
if(snake.info[i].x>58||snake.info[i].y>44||snake.info[i].x<0||snake.info[i].y<0||light[snake.info[i].x][snake.info[i].y]==2)
{
return(2);
}
Light(rx,ry,0);
return(0);
}