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296289990@qq.com 6 years ago
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俄罗斯方块.c
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/********头文件*********/
#include<stdio.h>
#include<windows.h>
#include<conio.h>
#include<time.h>
/********宏定义********/
#define FrameX 13
#define FrameY 3
#define Frame_height 20 //定义游戏窗口高度
#define Frame_width 18//定义游戏窗口宽度
/********全局变量*********/
int i,j,Temp,Temp1,Temp2;
int a[80][80]={0};//a数组中2,1,0分别代表边框方块和无图案
int b[4];//每种方块都由四个█组成b数组用来标记四个█的位置以构造图形
struct Tetris
{
int x; //中心方块的x轴坐标
int y; //中心方块的y轴坐标
int flag;//标记方块类型的序号
int next;//下一个方块类型的序号
int speed;//俄罗斯方块产生的速度
int number;//产生俄罗斯方块的个数
int score;//游戏分数
int level;//游戏等级
};
HANDLE hOut;//控制台句柄
/******函数声明*******/
int color(int c);
static void gotoxy(int x, int y);//移动光标位置
void DrawGameframe(); //绘制游戏边框
void Flag(struct Tetris * );//随机产生俄罗斯方块序号
void MakeTetris(struct Tetris *);//制作俄罗斯方块
void PrintTetris(struct Tetris *);//打印俄罗斯方块
void CleanTetris(struct Tetris *);//清除俄罗斯方块的痕迹
int ifMove(struct Tetris *);//判断能否移动
void Del_Fullline(struct Tetris *);//判断是否满行
void GamePlay();//开始游戏
void regulation();//游戏规则
void explation();//按键说明
void welcome();//欢迎界面
void Replay(struct Tetris *);//重新开始游戏
void title();//欢迎界面上方标题
void close();//关闭游戏
/*****文字颜色函数******/
int color(int c){
SetConsoleTextAttribute(GetStdHandle(STD_OUTPUT_HANDLE),c);//更改文字颜色
return 0;
}
/*****获取屏幕光标位置*******/
static void gotoxy(int x, int y){
COORD point = { x, y };//光标要设置的位置x,y
HANDLE HOutput = GetStdHandle(STD_OUTPUT_HANDLE);//使用GetStdHandle(STD_OUTPUT_HANDLE)来获取标准输出的句柄
SetConsoleCursorPosition(HOutput, point);//设置光标位置
}
/*****欢迎界面标题********/
void title(){
color(15);
gotoxy(30,3);
printf("趣味俄罗斯方块\n");
//标题
color(11);
gotoxy(18,5);
printf("");
gotoxy(18,6);
printf("██");
gotoxy(18,7);
printf("");
//T字方块
color(14);
gotoxy(26,6);
printf("██");
gotoxy(28,7);
printf("██");
//Z字方块
color(10);
gotoxy(36,6);
printf("██");
gotoxy(36,7);
printf("██");
//田字方块
color(13);
gotoxy(45,5);
printf("");
gotoxy(45,6);
printf("");
gotoxy(45,7);
printf("");
gotoxy(45,8);
printf("");
//直线方块
color(12);
gotoxy(56,6);
printf("");
gotoxy(52,7);
printf("███\n");
//7字方块
}
/*******菜单选项边框*******/
void welcome()
{
int n;
int i,j=1;
color(14);
for(i=9;i<=20;i++){
for(j=15;j<=60;j++){
gotoxy(j,i);
if(i==9||i==20) printf("=");
else if(j==15||j==59) printf("::");
}
}
/*******菜单选项的文字********/
color(12);
gotoxy(25,12);
printf("1.开始游戏");
gotoxy(40,12);
printf("2.按键说明");
gotoxy(25,17);
printf("3.游戏规则");
gotoxy(40,17);
printf("4.退出");
gotoxy(21,22);
printf("请选择[1,2,3,4]:[ ]\b\b");
scanf("%d",&n);
switch(n){
case 1:
system("cls");
DrawGameframe();
break;
case 2:
break;
case 3:
break;
case 4:
break;
}
}
/*******游戏窗口*******/
void DrawGameframe()
{
/***********游戏名称***********/
gotoxy(FrameX+Frame_width-7,FrameY-2);
color(11);
printf("趣味俄罗斯方块");
/**********下一个出现方块********/
gotoxy(FrameX+2*Frame_width+3,FrameY+7);
color(2);
printf("**********");
gotoxy(FrameX+2*Frame_width+13,FrameY+7);
color(3);
printf("下一个出现方块");
gotoxy(FrameX+2*Frame_width+3,FrameY+13);
color(2);
printf("**********");
/**********按键说明***********/
gotoxy(FrameX+2*Frame_width+3,FrameY+17);
color(14);
printf("↑键:旋转");
gotoxy(FrameX+2*Frame_width+3,FrameY+19);
printf("空格:暂停游戏");
gotoxy(FrameX+2*Frame_width+3,FrameY+15);
printf("Esc:退出游戏");
/*********游戏边框***********/
gotoxy(FrameX,FrameY);
color(12);
printf("");
gotoxy(FrameX+2*Frame_width-2,FrameY);
printf("");
gotoxy(FrameX,FrameY+Frame_height);
printf("");
gotoxy(FrameX+2*Frame_width-2,FrameY+Frame_height);
printf("");
a[FrameX][FrameY+Frame_height]=2;
a[FrameX+2*Frame_width-2][FrameY+Frame_height]=2;//防止方块出界
for(i=2;i<2*Frame_width-2;i+=2){
gotoxy(FrameX+i,FrameY);
printf("");
}
for(i=2;i<Frame_width-2;i+=2){
gotoxy(FrameX+i,FrameY+Frame_height);
printf("");
a[FrameX+i][FrameY+Frame_height]=2;
}
for(i=1;i<Frame_height;i++){
gotoxy(FrameX,FrameY+i);
printf("");
a[FrameX][FrameY+i]=2;
}
for(i=1;i<Frame_height;i++){
gotoxy(FrameX+2*Frame_width-2,FrameY+i);
printf("");
a[FrameX+2*Frame_width-2][FrameY+i]=2;
}
}
/********制作俄罗斯方块*********/
void MakeTetris(struct Tetris *tetris){
a[tetris->x][tetris->y]=b[0];//中心方块的图形状态
switch(tetris->flag){
case 1: //田字方块
color(10);
a[tetris->x][tetris->y-1]=b[1];
a[tetris->x+2][tetris->y-1]=b[2];
a[tetris->x+2][tetris->y]=b[3];
break;
case 2: //横直线方块
color(13);
a[tetris->x-2][tetris->y]=b[1];
a[tetris->x+2][tetris->y]=b[2];
a[tetris->x+4][tetris->y]=b[3];
break;
case 3: //竖直线方块
color(13);
a[tetris->x][tetris->y-1]=b[1];
a[tetris->x][tetris->y-2]=b[2];
a[tetris->x][tetris->y+1]=b[3];
break;
case 4: //T字方块
color(11);
a[tetris->x-2][tetris->y]=b[1];
a[tetris->x+2][tetris->y]=b[2];
a[tetris->x][tetris->y-1]=b[3];
break;
case 5: //顺时针90°T字方块
color(11);
a[tetris->x][tetris->y-1]=b[1];
a[tetris->x-2][tetris->y]=b[2];
a[tetris->x][tetris->y+1]=b[3];
break;
case 6: //顺时针180°T字方块
color(11);
a[tetris->x][tetris->y-1]=b[1];
a[tetris->x-2][tetris->y]=b[2];
a[tetris->x+2][tetris->y]=b[3];
break;
case 7: //顺时针270°T字方块
color(11);
a[tetris->x][tetris->y-1]=b[1];
a[tetris->x][tetris->y+1]=b[2];
a[tetris->x+2][tetris->y]=b[3];
break;
case 8: //Z字方块
color(14);
a[tetris->x+2][tetris->y+1]=b[1];
a[tetris->x][tetris->y+1]=b[2];
a[tetris->x-2][tetris->y]=b[3];
break;
case 9: //顺时针Z字方块
color(14);
a[tetris->x][tetris->y-1]=b[1];
a[tetris->x-2][tetris->y]=b[2];
a[tetris->x-2][tetris->y+1]=b[3];
break;
case 10: //反Z字方块
color(14);
a[tetris->x][tetris->y-1]=b[1];
a[tetris->x-2][tetris->y-1]=b[2];
a[tetris->x+2][tetris->y]=b[3];
break;
case 11: //顺时针反Z字方块
color(14);
a[tetris->x][tetris->y+1]=b[1];
a[tetris->x-2][tetris->y-1]=b[2];
a[tetris->x-2][tetris->y]=b[3];
break;
case 12: //7字方块
color(12);
a[tetris->x][tetris->y-1]=b[1];
a[tetris->x][tetris->y+1]=b[2];
a[tetris->x-2][tetris->y-1]=b[3];
break;
case 13: //顺时针90°7字方块
color(12);
a[tetris->x-2][tetris->y]=b[1];
a[tetris->x+2][tetris->y-1]=b[2];
a[tetris->x+2][tetris->y]=b[3];
break;
case 14: //顺时针180°7字方块
color(12);
a[tetris->x][tetris->y-1]=b[1];
a[tetris->x][tetris->y+1]=b[2];
a[tetris->x+2][tetris->y+1]=b[3];
break;
case 15: //顺时针270°7字方块
color(12);
a[tetris->x][tetris->y-1]=b[1];
a[tetris->x][tetris->y+1]=b[2];
a[tetris->x+2][tetris->y]=b[3];
break;
case 16: //反7字方块
color(12);
a[tetris->x][tetris->y-1]=b[1];
a[tetris->x][tetris->y+1]=b[2];
a[tetris->x+2][tetris->y-1]=b[3];
break;
case 17: //顺时针90°反7字方块
color(12);
a[tetris->x-2][tetris->y]=b[1];
a[tetris->x+2][tetris->y+1]=b[2];
a[tetris->x+2][tetris->y]=b[3];
break;
case 18: //顺时针180°反7字方块
color(12);
a[tetris->x][tetris->y-1]=b[1];
a[tetris->x][tetris->y+1]=b[2];
a[tetris->x-2][tetris->y+1]=b[3];
break;
case 19: //顺时针270°反7字方块
color(12);
a[tetris->x-2][tetris->y]=b[1];
a[tetris->x-2][tetris->y-1]=b[2];
a[tetris->x+2][tetris->y]=b[3];
break;
}
}
/******打印俄罗斯方块*******/
void PrintfTetris(struct Tetris *tetris){
for(i=0;i<4;i++) b[i]=1;
MakeTetris(tetris);
for(i=tetris->x-2;i<=tetris->x+4;i+=2){
for(j=tetris->y-1;j<=tetris->y+1;j++){
if(a[i][j]==1&&j>FrameY){
gotoxy(i,j);
printf("");
}
}
}
//打印菜单信息
gotoxy(FrameX+2*Frame_width+3,FrameY+1);
color(4);
printf("level:");
color(12);
printf("%d",tetris->level);
gotoxy(FrameX+2*Frame_width+3,FrameY+3);
color(4);
printf("score:");
color(12);
printf("%d",tetris->score);
gotoxy(FrameX+2*Frame_width+3,FrameY+3);
color(4);
printf("speed");
color(12);
printf("%dms",tetris->speed);
}
/******判断方块能否移动******/
int ifMove(struct Tetris *tetris)
{
if(a[tetris->flag][tetris->y]!=0){
return 0;
}
else{
if(
(tetris->flag==1&&(a[tetris->x][tetris->y-1]==0&&
a[tetris->x][tetris->y-1]==0&&a[tetris->x+2][tetris->y]==0))||
(tetris->flag==2&&(a[tetris->x-2][tetris->y]==0&&
a[tetris->x+2][tetris->y]==0&&a[tetris->x+4][tetris->y]==0))||
(tetris->flag==3&&(a[tetris->x][tetris->y-1]==0&&
a[tetris->x][tetris->y-2]==0&&a[tetris->x][tetris->y+1]==0))||
(tetris->flag==4&&(a[tetris->x-2][tetris->y]==0&&
a[tetris->x+2][tetris->y]==0&&a[tetris->x][tetris->y+1]==0))||
(tetris->flag==5&&(a[tetris->x][tetris->y-1]==0&&
a[tetris->x][tetris->y+1]==0&&a[tetris->x-2][tetris->y]==0))||
(tetris->flag==6&&(a[tetris->x][tetris->y-1]==0&&
a[tetris->x-2][tetris->y]==0&&a[tetris->x+2][tetris->y]==0))||
(tetris->flag==7&&(a[tetris->x][tetris->y-1]==0&&
a[tetris->x][tetris->y+1]==0&&a[tetris->x+2][tetris->y]==0))||
(tetris->flag==8&&(a[tetris->x][tetris->y+1]==0&&
a[tetris->x-2][tetris->y]==0&&a[tetris->x+2][tetris->y+1]==0))||
(tetris->flag==9&&(a[tetris->x][tetris->y-1]==0&&
a[tetris->x-2][tetris->y]==0&&a[tetris->x-2][tetris->y+1]==0))||
(tetris->flag==10&&(a[tetris->x][tetris->y-1]==0&&
a[tetris->x-2][tetris->y-1]==0&&a[tetris->x+2][tetris->y]==0))||
(tetris->flag==11&&(a[tetris->x][tetris->y+1]==0&&
a[tetris->x-2][tetris->y-1]==0&&a[tetris->x-2][tetris->y]==0))||
(tetris->flag==12&&(a[tetris->x][tetris->y-1]==0&&
a[tetris->x][tetris->y+1]==0&&a[tetris->x-2][tetris->y-1]==0))||
(tetris->flag==13&&(a[tetris->x-2][tetris->y]==0&&
a[tetris->x+2][tetris->y-1]==0&&a[tetris->x+2][tetris->y]==0))||
(tetris->flag==14&&(a[tetris->x][tetris->y-1]==0&&
a[tetris->x][tetris->y+1]==0&&a[tetris->x+2][tetris->y+1]==0))||
(tetris->flag==15&&(a[tetris->x-2][tetris->y]==0&&
a[tetris->x-2][tetris->y+1]==0&&a[tetris->x+2][tetris->y]==0))||
(tetris->flag==16&&(a[tetris->x][tetris->y+1]==0&&
a[tetris->x][tetris->y-1]==0&&a[tetris->x+2][tetris->y-1]==0))||
(tetris->flag==17&&(a[tetris->x-2][tetris->y]==0&&
a[tetris->x+2][tetris->y+1]==0&&a[tetris->x+2][tetris->y]==0))||
(tetris->flag==18&&(a[tetris->x][tetris->y-1]==0&&
a[tetris->x][tetris->y+1]==0&&a[tetris->x-2][tetris->y+1]==0))||
(tetris->flag==19&&(a[tetris->x-2][tetris->y]==0&&
a[tetris->x-2][tetris->y-1]==0&&a[tetris->x+2][tetris->y]==0)))
{
return 1;
}
}
return 0;
}
/*******清除俄罗斯方块的痕迹********/
void CleanTetris(struct Tetris *tetris){
for(i=0;i<4;i++){
b[i]=0;
}
MakeTetris(tetris);
for(i=tetris->x-2;i<=tetris->x+4;i+=2){
for(tetris->y-2;i<=tetris->y+1;j++){
if(a[i][j]==0&&j>FrameY){
gotoxy(i,j);
printf(" ");
}
}
}
}
/*******判断是否满行********/
void Del_Fulline(struct Tetris *tetris){
int k,del_rows=0;
for(j=FrameY+Frame_height-1;j>=FrameY+1;j--){
k=0;
for(i=FrameX+2;i<FrameX+2*Frame_width-2;i+=2){
if(a[i][j]==1){
k++;
if(k==Frame_width-2){
for(k=FrameX+2;k<FrameX+2*Frame_width-2;k+=2){
a[k][j]=0;
gotoxy(k,j);
printf("");
}
for(k=j-1;k>FrameY;k--){
for(i=FrameX+2;i<FrameX+2*Frame_width-2;i+=2){
if(a[i][k]==1){
a[i][k]=0;
gotoxy(i,k);
printf(" ");
a[i][k+1]=1;
gotoxy(i,k+1);
printf("");
}
}
}
j++;
del_rows++;
}
}
}
}
tetris->score+=100*del_rows;
if(del_rows>0&&(tetris->score%1000==0||tetris->score/1000>tetris->level-1)){
tetris->speed-+20;
tetris->level++;
}
}
/******随机产生俄罗斯方块类型的序号*******/
void Flag(struct Tetris *tetris){
tetris->number++;
srand(time(NULL));
if(tetris->number==1){
tetris->flag=rand()%19+1;
}
tetris->next=rand()%19+1;
}
/*******主函数*******/
int main(){
title();
welcome();
return 0;
}

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