c语言练手项目【编写天天酷跑游戏2.0】EASYX图形库的运用。代码开源,素材已打包

天天酷跑项目的开发

项目前言

项目是基于Windows,easyX图形库进行开发的,

开发环境:Visual Studio 2022

项目技术最低要求:

常量,变量,数组,循环,函数。
c语言练手项目【编写天天酷跑游戏2.0】EASYX图形库的运用。代码开源,素材已打包_第1张图片

文章目录

  • 天天酷跑项目的开发
    • 项目前言
    • 游戏背景的实现
    • 实现玩家的奔跑
    • 实现人物的跳跃
      • 获取玩家的输入
    • 优化帧等待
    • 随机出现小乌龟障碍
    • 使用结构体优化障碍
      • 使用结构体后,重新初始化游戏
    • 实现下蹲技能
    • 添加柱子障碍物
    • 碰撞检测
    • 实现血条
    • 判断游戏结束 添加背景音乐 添加初始界面
    • 优化死亡BUG
    • 跨越障碍后计算得分
    • 判断游戏胜利
    • 源代码

游戏背景的实现

  • 使用initgraph()初始化界面;
  • 加载背景资源

写好游戏的图像化界面的框架

c语言练手项目【编写天天酷跑游戏2.0】EASYX图形库的运用。代码开源,素材已打包_第2张图片

由于easyX不支持透明图片的的贴图,所以我们要自己写一个透明贴图的函数这里给出3个

// 适用于 y <0 以及y>0的任何情况
void putimagePNG2(int x, int y, IMAGE* picture);
void putimagePNG2(int x, int y, int winWidth, IMAGE* picture);
void putimagePNG(int  picture_x, int picture_y, IMAGE* picture);

// 适用于 y <0 以及x<0的任何情况
void putimagePNG2(int x, int y, IMAGE* picture) {
    IMAGE imgTmp;
    if (y < 0) {
        SetWorkingImage(picture);
        getimage(&imgTmp, 0, -y,
            picture->getwidth(), picture->getheight() + y);
        SetWorkingImage();
        y = 0;
        picture = &imgTmp;
    }

    if (x < 0) {
        SetWorkingImage(picture);
        getimage(&imgTmp, -x, 0, picture->getwidth() + x, picture->getheight());
        SetWorkingImage();
        x = 0;
        picture = &imgTmp;
    }

    putimagePNG(x, y, picture);
}

// 适用于 y <0 以及y>0的任何情况
void putimagePNG2(int x, int y, int winWidth, IMAGE* picture) {
    IMAGE imgTmp;
    if (y < 0) {
        SetWorkingImage(picture);
        getimage(&imgTmp, 0, -y,
            picture->getwidth(), picture->getheight() + y);
        SetWorkingImage();
        y = 0;
        picture = &imgTmp;
    }

    if (x < 0) {
        SetWorkingImage(picture);
        getimage(&imgTmp, -x, 0, picture->getwidth() + x, picture->getheight());
        SetWorkingImage();
        x = 0;
        picture = &imgTmp;
    }
    else if (x >= winWidth) {
        return;
    }
    else if (x > winWidth - picture->getwidth()) {
        SetWorkingImage(picture);
        getimage(&imgTmp, 0, 0, winWidth - x, picture->getheight());
        SetWorkingImage();
        picture = &imgTmp;
    }

    putimagePNG(x, y, picture);
}


// 载入PNG图并去透明部分
void putimagePNG(int  picture_x, int picture_y, IMAGE* picture) //x为载入图片的X坐标,y为Y坐标
{
    DWORD* dst = GetImageBuffer();    // GetImageBuffer()函数,用于获取绘图设备的显存指针,EASYX自带
    DWORD* draw = GetImageBuffer();
    DWORD* src = GetImageBuffer(picture); //获取picture的显存指针
    int picture_width = picture->getwidth(); //获取picture的宽度,EASYX自带
    int picture_height = picture->getheight(); //获取picture的高度,EASYX自带
    int graphWidth = getwidth();       //获取绘图区的宽度,EASYX自带
    int graphHeight = getheight();     //获取绘图区的高度,EASYX自带
    int dstX = 0;    //在显存里像素的角标

    // 实现透明贴图 公式: Cp=αp*FP+(1-αp)*BP , 贝叶斯定理来进行点颜色的概率计算
    for (int iy = 0; iy < picture_height; iy++)
    {
        for (int ix = 0; ix < picture_width; ix++)
        {
            int srcX = ix + iy * picture_width; //在显存里像素的角标
            int sa = ((src[srcX] & 0xff000000) >> 24); //0xAArrggbb;AA是透明度
            int sr = ((src[srcX] & 0xff0000) >> 16); //获取RGB里的R
            int sg = ((src[srcX] & 0xff00) >> 8);   //G
            int sb = src[srcX] & 0xff;              //B
            if (ix >= 0 && ix <= graphWidth && iy >= 0 && iy <= graphHeight && dstX <= graphWidth * graphHeight)
            {
                dstX = (ix + picture_x) + (iy + picture_y) * graphWidth; //在显存里像素的角标
                int dr = ((dst[dstX] & 0xff0000) >> 16);
                int dg = ((dst[dstX] & 0xff00) >> 8);
                int db = dst[dstX] & 0xff;
                draw[dstX] = ((sr * sa / 255 + dr * (255 - sa) / 255) << 16)  //公式: Cp=αp*FP+(1-αp)*BP  ; αp=sa/255 , FP=sr , BP=dr
                    | ((sg * sa / 255 + dg * (255 - sa) / 255) << 8)         //αp=sa/255 , FP=sg , BP=dg
                    | (sb * sa / 255 + db * (255 - sa) / 255);              //αp=sa/255 , FP=sb , BP=db
            }
        }
    }
}



//定义相关的变量
IMAGE imgBgs[3]; // 背景图片
int bgX[3];  //背景图片的x坐标
int bgSpeed[3] = { 1, 2, 4 };//三重背景以不同速度行驶

三张背景图片需要载入

在这里插入图片描述
在这里插入图片描述
在这里插入图片描述

//直接在初始化中加载到内存
    char name[64];
    for (int i = 0; i < 3; i++) {
        // "res/bg001.png"    "res/bg002.png"     "res/bg003.png"   
        sprintf(name, "res/bg%03d.png", i + 1);
        loadimage(&imgBgs[i], name);

        bgX[i] = 0;
    }

注:这里的图片在main.cpp文件夹中的res文件夹下。

再在updateBg的函数中进行渲染;

  	putimagePNG2(bgX[0], 0, &imgBgs[0]);
    putimagePNG2(bgX[1], 119, &imgBgs[1]);
    putimagePNG2(bgX[2], 330, &imgBgs[2]);

编译如果遇到C4996错误只需要在项目属性c/c++中关掉SDL检查即可。

如果出现loadimage()的错误,可能是字符集的问题;只需要在项目属性-高级-字符集-使用多字节字符集即可

看一下执行结果。

c语言练手项目【编写天天酷跑游戏2.0】EASYX图形库的运用。代码开源,素材已打包_第3张图片

如果不使用透明贴图函数

c语言练手项目【编写天天酷跑游戏2.0】EASYX图形库的运用。代码开源,素材已打包_第4张图片

图片成功渲染,但是在实际的游戏中,背景是会移动的且遵守基本的物理。

接下来我们需要移动背景。远处的移动慢,中处更快,最近处看起来最快,所以速度可以取int bgSpeed[3] = { 1, 2, 4 };

void moveBg() {
    for (int i = 0; i < 3; i++) {
        bgX[i] -= bgSpeed[i];
        if (bgX[i] < -WIN_WIDTH) {
            bgX[i] = 0;
        }
    }

在main函数中载入死循环 这样背景就可以无休止的移动了

int main(void) {
    init();
    while (1) {
        BeginBatchDraw();
        updateBg();
        EndBatchDraw();
        moveBg();

        Sleep(30);
    }
//使用beginbatchdraw 和endbatchdraw进行优化渲染。
    
}

实现玩家的奔跑

IMAGE imgHeros[12];//玩家的帧图片
int heroX; //玩家的x坐标
int heroY; //玩家的y坐标
int heroIndex; //玩家奔跑的图片帧序号

c语言练手项目【编写天天酷跑游戏2.0】EASYX图形库的运用。代码开源,素材已打包_第5张图片

初始化的时候也初始化玩家

    // 加载Hero奔跑的图片帧素材
    for (int i = 0; i < 12; i++) {
        // "res/hero1.png"  ... "res/hero12.png"
        sprintf(name, "res/hero%d.png", i + 1);
        loadimage(&imgHeros[i], name);
    }
// 设置玩家的初始位置
    heroX = WIN_WIDTH * 0.5 - imgHeros[0].getwidth() * 0.5;
    heroY = 345 - imgHeros[0].getheight();
    heroIndex = 0;

在Main函数中给hero贴图

   putimagePNG2(heroX, heroY, &imgHeros[heroIndex]);

c语言练手项目【编写天天酷跑游戏2.0】EASYX图形库的运用。代码开源,素材已打包_第6张图片

更改人物帧图片,让人物看起来会动

  heroIndex = (heroIndex + 1) % 12;

c语言练手项目【编写天天酷跑游戏2.0】EASYX图形库的运用。代码开源,素材已打包_第7张图片

RUN:

c语言练手项目【编写天天酷跑游戏2.0】EASYX图形库的运用。代码开源,素材已打包_第8张图片

实现人物的跳跃

初始化函数中

c语言练手项目【编写天天酷跑游戏2.0】EASYX图形库的运用。代码开源,素材已打包_第9张图片

heroJump = false;
jumpHeightMax = 345 - imgHeros[0].getheight() - 120;
heroJumpOff = -4;
bool heroJump; //表示玩家正在跳跃
int jumpHeightMax;
int heroJumpOff;

c语言练手项目【编写天天酷跑游戏2.0】EASYX图形库的运用。代码开源,素材已打包_第10张图片

int jump()
{
    // 实现跳跃
    if (heroJump) {
        if (heroY < jumpHeightMax) {
            heroJumpOff = 4;
        }

        heroY += heroJumpOff;

        if (heroY > 345 - imgHeros[0].getheight()) {
            heroJump = false;
            heroJumpOff = -4;
        }
    }
    else { //不跳跃
        heroIndex = (heroIndex + 1) % 12;
    }
}
void jump() {
    heroJump = true;
}

获取玩家的输入

// 处理用户按键的输入
void keyEvent() {
    char ch;

    if (_kbhit()) { //如果有按键按下,_kbhit()返回  true  
        ch = _getch();    // _getch()不需要按下回车即可直接读取
        if (ch == ' ') {
            jump();
        }
    } 
}

main()

int main(void) {
    init();
    while (1) {
        keyEvent();
        BeginBatchDraw();

        updateBg();
        putimagePNG2(heroX, heroY, &imgHeros[heroIndex]);
        EndBatchDraw();
        moveBg();
        HeroIndex();
        jump(heroJump);
        Sleep(15);
    }

    
}

c语言练手项目【编写天天酷跑游戏2.0】EASYX图形库的运用。代码开源,素材已打包_第11张图片

优化帧等待

bool update;   //表示是否需要马上刷新画面

init()尾部

update = true;

void jump() {
    heroJump = true;
    update = true;
}
int getDelay() {
    static unsigned long long lastTime = 0;
    unsigned long long currentTime = GetTickCount();
    if (lastTime == 0) {
        lastTime = currentTime;
        return 0;
    }
    else {
        int ret = currentTime - lastTime;
        lastTime = currentTime;
        return ret;
    }
}

main函数主体

int main(void) {
    int timer = 0;
    init();
    while (1) {
        keyEvent();
      
        timer += getDelay();//10
        if (timer > 30) {
            timer = 0;
            update = true;
        }

        if (update)
        {
            update = false;
            BeginBatchDraw();
            updateBg();
            putimagePNG2(heroX, heroY, &imgHeros[heroIndex]);
            EndBatchDraw();
            moveBg();
            HeroIndex();
            jump(heroJump);
         

        } 
       
    }

    return 0;
}


随机出现小乌龟障碍

定义乌龟相关的变量

IMAGE imgTortoise; //小乌龟
int torToiseX; //小乌龟的水平坐标
int torToiseY; //小乌龟的垂直坐标
bool torToiseExist; //当前窗口是否有小乌龟

在init()函数中,初始化乌龟

    // 加载小乌龟素材
    loadimage(&imgTortoise, "res/t1.png");
    torToiseExist = false;
    torToiseY = 345 - imgTortoise.getheight() + 5;

定义一个函数创建小乌龟

void creatTortoise() {
    // 创建小乌龟
    static int frameCount = 0;
    static int torToiseFre = 100;
    frameCount++;
    if (frameCount > torToiseFre) {
        frameCount = 0;
        if (!torToiseExist) {
            torToiseExist = true;
            torToiseX = WIN_WIDTH;
            torToiseFre = 200 + rand() % 300;
        }
    }

    if (torToiseExist) {
        torToiseX -= bgSpeed[2];
        if (torToiseX < -imgTortoise.getwidth()) {
            torToiseExist = false;
        }
    }
}


创建函数对乌龟进行渲染

void updateEnemy() {
    // 渲染小乌龟
    if (torToiseExist) {
        putimagePNG2(torToiseX, torToiseY, WIN_WIDTH, &imgTortoise);
    }
}

再把creattortorise

c语言练手项目【编写天天酷跑游戏2.0】EASYX图形库的运用。代码开源,素材已打包_第12张图片

在main函数中调用if语句中

    update = false;
            BeginBatchDraw();
            updateBg();
            putimagePNG2(heroX, heroY, &imgHeros[heroIndex]);
            updateEnemy();
            EndBatchDraw();
            moveBg();
            HeroIndex();
            creatTortoise();
            jump(heroJump);
          

使用结构体优化障碍

添加头文件\#include

#define OBSTACLE_COUNT 10
typedef enum {
    TORTOISE, //乌龟  0
    LION, //狮子 1
    OBSTACLE_TYPE_COUNT  // 2
} obstacle_type;

vector>obstacleImgs; //存放所有障碍物的各个图片

typedef struct obstacle {
    obstacle_type type; //障碍物的类型 
    int imgIndex; //当前显示的图片的序号
    int x, y; //障碍物的坐标
    int speed;
    int power; //杀伤力
    bool exist;
}obstacle_t;

使用结构体后,重新初始化游戏

obstacle_t obstacles[OBSTACLE_COUNT];

// 游戏的初始化
void init() {
	// 创建游戏窗口
	initgraph(WIN_WIDTH, WIN_HEIGHT);

	// 加载背景资源
	char name[64];
	for (int i = 0; i < 3; i++) {
		// "res/bg001.png"    "res/bg002.png"     "res/bg003.png"   
		sprintf(name, "res/bg%03d.png", i + 1);
		loadimage(&imgBgs[i], name);

		bgX[i] = 0;
	}

	// 加载Hero奔跑的图片帧素材
	for (int i = 0; i < 12; i++) {
		// "res/hero1.png"  ... "res/hero12.png"
		sprintf(name, "res/hero%d.png", i + 1);
		loadimage(&imgHeros[i], name);
	}

	// 设置玩家的初始位置
	heroX = WIN_WIDTH * 0.5 - imgHeros[0].getwidth() * 0.5;
	heroY = 345 - imgHeros[0].getheight();
	heroIndex = 0;

	heroJump = false;
	jumpHeightMax = 345 - imgHeros[0].getheight() - 120;
	heroJumpOff = -4;

	update = true;

 
	IMAGE imgTort;
	loadimage(&imgTort, "res/t1.png");
	vector imgTortArray;
	imgTortArray.push_back(imgTort);
	obstacleImgs.push_back(imgTortArray);

	IMAGE imgLion;
	vector imgLionArray;
	for (int i = 0; i < 6; i++) {
		sprintf(name, "res/p%d.png", i + 1);
		loadimage(&imgLion, name);
		imgLionArray.push_back(imgLion);
	}
	obstacleImgs.push_back(imgLionArray);

	// 初始化障碍物池
	for (int i = 0; i < OBSTACLE_COUNT; i++) {
		obstacles[i].exist = false;
	}
}

创建函数初始化障碍物(我们将用此函数创建所有的障碍物)

void createObstacle() {
    int i;
    for (i = 0; i < OBSTACLE_COUNT; i++) {
        if (obstacles[i].exist == false) {
            break;
        }
    }
    if (i >= OBSTACLE_COUNT) {
        return;
    }

    obstacles[i].exist = true;
    obstacles[i].imgIndex = 0;
    obstacles[i].type = (obstacle_type)(rand() % OBSTACLE_TYPE_COUNT);
    obstacles[i].x = WIN_WIDTH;
    obstacles[i].y = 345 + 5 - obstacleImgs[obstacles[i].type][0].getheight();
    if (obstacles[i].type == TORTOISE) {
        obstacles[i].speed = 0;
        obstacles[i].power = 5; //自己修改
    }
    else if (obstacles[i].type == LION) {
        obstacles[i].speed = 4;
        obstacles[i].power = 20;
    }
}

再写一个函数进行创建障碍物的数据计算

void createObstacleData() {
 
		static int frameCount = 0;
	static int enemyFre = 50;
	frameCount++;
	if (frameCount > enemyFre) {
		frameCount = 0;
		enemyFre = 50 + rand() % 50; // 50..99
		createObstacle();
	}

 

	// 更新所有障碍物的坐标
	for (int i = 0; i < OBSTACLE_COUNT; i++) {
		if (obstacles[i].exist) {
			obstacles[i].x -= obstacles[i].speed + bgSpeed[2];
			if (obstacles[i].x < -obstacleImgs[obstacles[i].type][0].getwidth() * 2) {
				obstacles[i].exist = false;
			}

			int len = obstacleImgs[obstacles[i].type].size();
			obstacles[i].imgIndex = (obstacles[i].imgIndex + 1) % len;
		}
	}
}

在对敌人初始化

void updateEnemy() {
	// 渲染小乌龟
	//if (torToiseExist) {
	//    putimagePNG2(torToiseX, torToiseY, WIN_WIDTH, &imgTortoise);
	//}
	for (int i = 0; i < OBSTACLE_COUNT; i++) {
		if (obstacles[i].exist) {
			putimagePNG2(obstacles[i].x, obstacles[i].y, WIN_WIDTH,
				&obstacleImgs[obstacles[i].type][obstacles[i].imgIndex]);
		}
	}
}

一下是main函数的主体

		if (update)
		{
			update = false;
			BeginBatchDraw();
			updateBg();
			putimagePNG2(heroX, heroY, &imgHeros[heroIndex]);
			updateEnemy();
			EndBatchDraw();
			updateEnemy();
			moveBg();
			HeroIndex();
			createObstacleData();
			jump(heroJump);
		}

实现下蹲技能

IMAGE imgHeroDown[2];
bool heroDown; //表示玩家是否处于下蹲状态

init()中对其初始化

// 初始化障碍物池
	for (int i = 0; i < OBSTACLE_COUNT; i++) {
		obstacles[i].exist = false;
	}
	// 加载下蹲素材
	loadimage(&imgHeroDown[0], "res/d1.png");
	loadimage(&imgHeroDown[1], "res/d2.png");
	heroDown = false;

我们写一个heroupdown函数集成up和down方便进行管理

void heroupdown()
{
	 // 实现跳跃
		if (heroJump) {
			if (heroY < jumpHeightMax) {
				heroJumpOff = 4;
			}

			heroY += heroJumpOff;

			if (heroY > 345 - imgHeros[0].getheight()) {
				heroJump = false;
				heroJumpOff = -4;
			}
		}
		else if (heroDown) {
			static int count = 0;
			int delays[2] = { 4, 10 };
			count++;
			if (count >= delays[heroIndex]) {
				count = 0;
				heroIndex++;
				if (heroIndex >= 2) {
					heroIndex = 0;
					heroDown = false;
				}
			}
		}
		else { //不跳跃
			heroIndex = (heroIndex + 1) % 12;
		}
}
 
void down() {
	update = true;
	heroDown = true;
	heroIndex = 0;
}

在接受键盘进行响应

void keyEvent() {
	char ch;

	if (_kbhit()) { //如果有按键按下,_kbhit()返回  true  
		ch = _getch();    // _getch()不需要按下回车即可直接读取
		if (ch == ' ') {
			jump();
		}
		else if (ch == 'a') {
			down();
		}
	}
}
void updateHero() {
    if (!heroDown) {
        putimagePNG2(heroX, heroY, &imgHeros[heroIndex]);
    }
    else {
        int y = 345 - imgHeroDown[heroIndex].getheight();
        putimagePNG2(heroX, y, &imgHeroDown[heroIndex]);
    }
    
}

main函数主体

int main(void) {
	int timer = 0;
	init();
	while (1) {
		keyEvent();

		timer += getDelay();//10
		if (timer > 20) {
			timer = 0;
			update = true;
		}

		if (update)
		{
			update = false;
			BeginBatchDraw();
			updateBg();
			//putimagePNG2(heroX, heroY, &imgHeros[heroIndex]);
			
			updateHero(); 
			updateEnemy();
			EndBatchDraw();

			
			moveBg();
			
			heroupdown();

 		 createObstacleData();
		}
	}

	return 0;
}

添加柱子障碍物

老规矩 加载-初始化

typedef enum {
	TORTOISE, //乌龟  0
	LION, //狮子 1
	OBSTACLE_TYPE_COUNT  // 2
	HOOK1,      //勾子
	HOOK2,
	HOOK3,
	HOOK4,
} obstacle_type;

void createObstacle() {

	srand((unsigned)time(NULL));
	int i;
	for (i = 0; i < OBSTACLE_COUNT; i++) {
		if (obstacles[i].exist == false) {
			break;
		}
	}
	if (i >= OBSTACLE_COUNT) {
		return;
	}

	obstacles[i].exist = true;
	obstacles[i].imgIndex = 0;
	//obstacles[i].type = (obstacle_type)(rand() % OBSTACLE_TYPE_COUNT);
	obstacles[i].type = (obstacle_type)(rand() % 3);
	 
	obstacles[i].x = WIN_WIDTH;
	obstacles[i].y = 345 + 5 - obstacleImgs[obstacles[i].type][0].getheight();
	if (obstacles[i].type == HOOK1) {
		obstacles[i].type = (obstacle_type)((int)(obstacles[i].type) + rand() % 4);
	 }
	if (obstacles[i].type == TORTOISE) {
		obstacles[i].speed = 0;
		obstacles[i].power = 5; //自己修改
	}
	else if (obstacles[i].type == LION) {
		obstacles[i].speed = 4;
		obstacles[i].power = 20;
	}
	else if (obstacles[i].type >= HOOK1 && obstacles[i].type <= HOOK4) {
		obstacles[i].speed = 0;
		obstacles[i].power = 20;
		obstacles[i].y = 0;
	}
	
}


碰撞检测

typedef struct obstacle {
	obstacle_type type; //障碍物的类型
	int imgIndex; //当前显示的图片的序号
	int x, y; //障碍物的坐标
	int speed;
	int power; //杀伤力
	bool exist;
	bool hited;//是否撞击
}obstacle_t;

void  preLoadSound(const char* name) {
    char cmd[512];
    sprintf_s(cmd, sizeof(cmd), "open %s alias %s-1", name, name);
    mciSendString(cmd, 0, 0, 0);
    sprintf_s(cmd, sizeof(cmd), "open %s alias %s-2", name, name);
    mciSendString(cmd, 0, 0, 0);
}

bool rectIntersect(int x01, int y01, int x02, int y02,
	int x11, int y11, int x12, int y12)
{
	int zx = abs(x01 + x02 - x11 - x12);
	int x = abs(x01 - x02) + abs(x11 - x12);
	int zy = abs(y01 + y02 - y11 - y12);
	int y = abs(y01 - y02) + abs(y11 - y12);
	return  (zx <= x && zy <= y);
}

void  playSound(const char* name) {
    static int index = 1;
    char cmd[512];

    if (index == 1) {
        sprintf_s(cmd, sizeof(cmd), "play %s-1", name);
        mciSendString(cmd, 0, 0, 0);
        sprintf_s(cmd, sizeof(cmd), "close %s-2", name);
        mciSendString(cmd, 0, 0, 0);
        sprintf_s(cmd, sizeof(cmd), "open %s alias %s-2", name, name);
        mciSendString(cmd, 0, 0, 0);
        index++;
    }
    else if (index == 2) {
        sprintf_s(cmd, sizeof(cmd), "play %s-2", name);
        mciSendString(cmd, 0, 0, 0);
        sprintf_s(cmd, sizeof(cmd), "close %s-1", name);
        mciSendString(cmd, 0, 0, 0);
        sprintf_s(cmd, sizeof(cmd), "open %s alias %s-1", name, name);
        mciSendString(cmd, 0, 0, 0);
        index = 1;
    }
}

void checkHit()
{
	for (int i = 0; i < OBSTACLE_COUNT; i++)
	{
		if (obstacles[i].exist && obstacles[i].hited == false)
		{

			int a1x, a1y, a2x, a2y;
			int off = 20;
			if (!heroDown)//非下蹲 奔跑 跳跃
			{
				a1x = heroX + off;
				a1y = heroY + off;

				a2x = heroX + imgHeros[heroIndex].getwidth() - off;
				a2y = heroY + imgHeros[heroIndex].getheight();


			}
			else { //下蹲状态
				a1x = heroX + off;
				a1y = 345 - imgHeroDown[heroIndex].getheight();

				a2x = heroX + imgHeroDown[heroIndex].getwidth() - off;
				a2y = 345;
			}

			IMAGE img = obstacleImgs[obstacles[i].type][obstacles[i].imgIndex];

			int b1x = obstacles[i].x + off;
			int b1y = obstacles[i].y + off;
			int b2x = obstacles[i].x + img.getwidth() - off;
			int b2y = obstacles[i].y + img.getheight() - 10;

			if (rectIntersect(a1x, a1y, a2x, a2y, b1x, b1y, b2x, b2y))
			{
			
				heroBlood -= obstacles[i].power;
				 
				playSound("res/hit.mp3");
				obstacles[i].hited = true;
			}
		}
	}

}

c语言练手项目【编写天天酷跑游戏2.0】EASYX图形库的运用。代码开源,素材已打包_第13张图片

实现血条

优化下蹲:

int delays[2] = { 6, 10 };

改成
int delays[2] = { 8, 30 };

头文件

#include
#pragma comment(lib, “winmm.lib”)

void updateBloodBar() {
    drawBloodBar(10, 10, 200, 10, 2, BLUE, DARKGRAY, RED, heroBlood / 100.0);
}

void drawBloodBar(int x, int y, int width, int height, int lineWidth, int boardColor, int emptyColor, int fillColor, float percent) {
    LINESTYLE lineStyle;
    getlinestyle(&lineStyle);
    int lineColor = getlinecolor();
    int fileColor = getfillcolor();

    if (percent < 0) {
        percent = 0;
    }

    setlinecolor(BLUE);
    setlinestyle(PS_SOLID | PS_ENDCAP_ROUND, lineWidth);
    setfillcolor(emptyColor);
    fillrectangle(x, y, x + width, y + height);
    setlinestyle(PS_SOLID | PS_ENDCAP_FLAT, 0);
    setfillcolor(fillColor);
    setlinecolor(fillColor);
    if (percent > 0) {
        fillrectangle(x + 0.5 * lineWidth, y + lineWidth * 0.5, x + width * percent, y + height - 0.5 * lineWidth);
    }
    
    setlinecolor(lineColor);
    setfillcolor(fillColor);
    setlinestyle(&lineStyle);
}
void init() {
	// 创建游戏窗口
	initgraph(WIN_WIDTH, WIN_HEIGHT);

	// 加载背景资源
	char name[64];
	for (int i = 0; i < 3; i++) {
		// "res/bg001.png"    "res/bg002.png"     "res/bg003.png"   
		sprintf(name, "res/bg%03d.png", i + 1);
		loadimage(&imgBgs[i], name);

		bgX[i] = 0;
	}

	// 加载Hero奔跑的图片帧素材
	for (int i = 0; i < 12; i++) {
		// "res/hero1.png"  ... "res/hero12.png"
		sprintf(name, "res/hero%d.png", i + 1);
		loadimage(&imgHeros[i], name);
	}

	// 设置玩家的初始位置
	heroX = WIN_WIDTH * 0.5 - imgHeros[0].getwidth() * 0.5;
	heroY = 345 - imgHeros[0].getheight();
	heroIndex = 0;

	heroJump = false;
	jumpHeightMax = 345 - imgHeros[0].getheight() - 120;
	heroJumpOff = -4;

	update = true;

 
	IMAGE imgTort;
	loadimage(&imgTort, "res/t1.png");
	vector imgTortArray;
	imgTortArray.push_back(imgTort);
	obstacleImgs.push_back(imgTortArray);

	IMAGE imgLion;
	vector imgLionArray;
	for (int i = 0; i < 6; i++) {
		sprintf(name, "res/p%d.png", i + 1);
		loadimage(&imgLion, name);
		imgLionArray.push_back(imgLion);
	}
	obstacleImgs.push_back(imgLionArray);

	// 初始化障碍物池
	for (int i = 0; i < OBSTACLE_COUNT; i++) {
		obstacles[i].exist = false;
	}
	// 加载下蹲素材
	loadimage(&imgHeroDown[0], "res/d1.png");
	loadimage(&imgHeroDown[1], "res/d2.png");
	heroDown = false;

	// 加载“柱子”障碍物
	IMAGE imgH;
	vector imgHookArray;
	for (int i = 0; i < 4; i++) {
		sprintf_s(name, sizeof(name), "res/h%d.png", i + 1); //帧图片不够,补帧
		loadimage(&imgH, name, 63, 260, true);
		imgHookArray.push_back(imgH);
		obstacleImgs.push_back(imgHookArray);
		imgHookArray.pop_back();
	}
	heroBlood = 100;
	// 预加载音效
	preLoadSound("res/hit.mp3");

}

main : updateBloodBar();

判断游戏结束 添加背景音乐 添加初始界面

用屁股想 是初始化函数中

    mciSendString("play res/bg.mp3", 0, 0, 0);

c语言练手项目【编写天天酷跑游戏2.0】EASYX图形库的运用。代码开源,素材已打包_第14张图片

    if (rectIntersect(a1x, a1y, a2x, a2y, b1x, b1y, b2x, b2y)) {
                heroBlood -= obstacles[i].power;
                printf("血量剩余 %d\n", heroBlood);
                playSound("res/hit.mp3");
                obstacles[i].hited = true;
            }
void checkOver() {
    if (heroBlood <= 0) {
        loadimage(0, "res/over.png");
        FlushBatchDraw();
        mciSendString("stop res/bg.mp3", 0, 0, 0);
        system("pause");

        // 暂停之后,充币复活,或者直接开始下一局
        heroBlood = 100;
        mciSendString("play res/bg.mp3", 0, 0, 0);
    }
}
int main(void) {
	int timer = 0;
	init();
	// 显示初始画面
	loadimage(0, "res/over.png");
	system("pause");
	while (1) {
		keyEvent();

		timer += getDelay();//10
		if (timer > 20) {
			timer = 0;
			update = true;
		}

		if (update)
		{
			update = false;
			BeginBatchDraw();
			updateBg();
			 
			updateHero(); 
			updateEnemy();
			updateBloodBar();
			EndBatchDraw();

		
			moveBg();
			
			heroupdown();

 		  createObstacleData();
		  checkHit();
		  checkOver();
		}
	}

	return 0;
}

优化死亡BUG

int lastObsIndex; //last obstacle index
void createObstacle() {

	srand((unsigned)time(NULL));
	int i;
	for (i = 0; i < OBSTACLE_COUNT; i++) {
		if (obstacles[i].exist == false) {
			break;
		}
	}
	if (i >= OBSTACLE_COUNT) {
		return;
	}

	obstacles[i].exist = true;
	obstacles[i].imgIndex = 0;
	//obstacles[i].type = (obstacle_type)(rand() % OBSTACLE_TYPE_COUNT);
	obstacles[i].type = (obstacle_type)(rand() % 3);
	 
	obstacles[i].x = WIN_WIDTH;
	obstacles[i].y = 345 + 5 - obstacleImgs[obstacles[i].type][0].getheight();
	if (lastObsIndex >= HOOK1 && lastObsIndex <= HOOK4 &&
		obstacles[i].type == LION &&
		obstacles[lastObsIndex].x > (WIN_WIDTH - 500)) {
		obstacles[i].type = TORTOISE;
	}
	lastObsIndex = i;
	if (obstacles[i].type == HOOK1) {
		obstacles[i].type = (obstacle_type)((int)(obstacles[i].type) + rand() % 4);
	 }
	if (obstacles[i].type == TORTOISE) {
		obstacles[i].speed = 0;
		obstacles[i].power = 5; //自己修改
	}
	else if (obstacles[i].type == LION) {
		obstacles[i].speed = 4;
		obstacles[i].power = 20;
	}
	else if (obstacles[i].type >= HOOK1 && obstacles[i].type <= HOOK4) {
		obstacles[i].speed = 0;
		obstacles[i].power = 20;
		obstacles[i].y = 0;
	}
	
}

 

跨越障碍后计算得分

int score; //分数
lastObsIndex = -1;
	score = 0;
void checkScore() {
    for (int i = 0; i < OBSTACLE_COUNT; i++) {
        if (obstacles[i].exist &&
                obstacles[i].passed == false &&
                obstacles[i].x + obstacleImgs[obstacles[i].type][0].getwidth() < heroX) {
            score++;
            obstacles[i].passed = true;
            printf("score: %d\n", score);
        }
    }
}
typedef struct obstacle {
	obstacle_type type; //障碍物的类型
	int imgIndex; //当前显示的图片的序号
	int x, y; //障碍物的坐标
	int speed;
	int power; //杀伤力
	bool exist;
	bool hited;
	bool passed;
}obstacle_t;
int main(void) {
	int timer = 0;
	init();
	// 显示初始画面
	loadimage(0, "res/over.png");
	system("pause");
	while (1) {
		keyEvent();

		timer += getDelay();//10
		if (timer > 20) {
			timer = 0;
			update = true;
		}

		if (update)
		{
			update = false;
			BeginBatchDraw();
			updateBg();
			 
			updateHero(); 
			updateEnemy();
			updateBloodBar();
			EndBatchDraw();

		
			moveBg();
			
			heroupdown();

 		  createObstacleData();
		  checkHit();
		  checkOver();
		  checkScore();
		}
	}

	return 0;
}
void updateScore() {
    // 50 => "50"   '5'     '5'-'0' == 5   
    char str[8];
    sprintf(str, "%d", score);

    int x = 20;
    int y = 25;

    for (int i = 0; str[i]; i++) {
        int sz = str[i] - '0';
        putimagePNG(x, y, &imgSZ[sz]);
        x += imgSZ[sz].getwidth() + 5;
    }
}

 		   updateBloodBar();
            updateScore();
            EndBatchDraw();

            checkOver();
            checkScore();

判断游戏胜利

写main函数中的位置 这里不再赘述

#define WIN_SCORE   100
void checkWin() {
    if (score >= WIN_SCORE) {
        FlushBatchDraw();
        mciSendString("play res/win.mp3", 0, 0, 0);
        Sleep(2000);
        loadimage(0, "res/win.png");
        FlushBatchDraw();
        mciSendString("stop res/bg.mp3", 0, 0, 0);
        system("pause");

        heroBlood = 100;
        score = 0;
        mciSendString("play res/bg.mp3 repeat", 0, 0, 0);
    }
}

源代码

#include 
#include 
#include 
#include 
#include 
#include 
#pragma comment(lib, "winmm.lib")


#define WIN_SCORE   100
#define WIN_WIDTH 1012
#define WIN_HEIGHT 396
#define OBSTACLE_COUNT 10

using namespace std;


IMAGE imgHeros[12];
IMAGE imgBgs[3];
IMAGE imgHeroDown[2];
int bgX[3]; 
int bgSpeed[3] = { 1, 2, 4 };
int heroX;
int heroY;
int heroIndex;
bool heroJump;
int jumpHeightMax;
int heroJumpOff;
bool update;
bool heroDown; 
int heroBlood;
int score;
int lastObsIndex;


typedef enum {
	TORTOISE, //乌龟  0
	LION, //狮子 1	 
	HOOK1,      //勾子
	HOOK2,
	HOOK3,
	HOOK4,
	OBSTACLE_TYPE_COUNT ,
} obstacle_type;

vector>obstacleImgs; //存放所有障碍物的各个图片

typedef struct obstacle {
	obstacle_type type; //障碍物的类型
	int imgIndex; //当前显示的图片的序号
	int x, y; //障碍物的坐标
	int speed;
	int power; //杀伤力
	bool exist;
	bool hited;
	bool passed;
}obstacle_t;

obstacle_t obstacles[OBSTACLE_COUNT];



void  preLoadSound(const char* name);
void drawBloodBar(int x, int y, int width, int height, int lineWidth, int boardColor, int emptyColor, int fillColor, float percent);

void init();
void moveBg();
void jump();
void heroupdown();
int getDelay();
void keyEvent();
void updateBg();
void updateEnemy();
void jump(bool herJump);
bool rectIntersect(int a1X, int a1Y, int a2X, int a2Y,
	int b1X, int b1Y, int b2X, int b2Y);
void updateEnemy();
void updateBloodBar();
void createObstacleData();
void createObstacle();
 void putimagePNG2(int x, int y, IMAGE* picture);
void putimagePNG2(int x, int y, int winWidth, IMAGE* picture);
void putimagePNG(int  picture_x, int picture_y, IMAGE* picture);
void HeroIndex();
void  playSound(const char* name);

void  preLoadSound(const char* name) {
	char cmd[512];
	sprintf_s(cmd, sizeof(cmd), "open %s alias %s-1", name, name);
	mciSendString(cmd, 0, 0, 0);
	sprintf_s(cmd, sizeof(cmd), "open %s alias %s-2", name, name);
	mciSendString(cmd, 0, 0, 0);
}


void drawBloodBar(int x, int y, int width, int height, int lineWidth, int boardColor, int emptyColor, int fillColor, float percent) {
	LINESTYLE lineStyle;
	getlinestyle(&lineStyle);
	int lineColor = getlinecolor();
	int fileColor = getfillcolor();

	if (percent < 0) {
		percent = 0;
	}

	setlinecolor(BLUE);
	setlinestyle(PS_SOLID | PS_ENDCAP_ROUND, lineWidth);
	setfillcolor(emptyColor);
	fillrectangle(x, y, x + width, y + height);
	setlinestyle(PS_SOLID | PS_ENDCAP_FLAT, 0);
	setfillcolor(fillColor);
	setlinecolor(fillColor);
	if (percent > 0) {
		fillrectangle(x + 0.5 * lineWidth, y + lineWidth * 0.5, x + width * percent, y + height - 0.5 * lineWidth);
	}

	setlinecolor(lineColor);
	setfillcolor(fillColor);
	setlinestyle(&lineStyle);
}


bool rectIntersect(int x01, int y01, int x02, int y02,
	int x11, int y11, int x12, int y12)
{
	int zx = abs(x01 + x02 - x11 - x12);
	int x = abs(x01 - x02) + abs(x11 - x12);
	int zy = abs(y01 + y02 - y11 - y12);
	int y = abs(y01 - y02) + abs(y11 - y12);
	return  (zx <= x && zy <= y);
}


void  playSound(const char* name) {
	static int index = 1;
	char cmd[512];

	if (index == 1) {
		sprintf_s(cmd, sizeof(cmd), "play %s-1", name);
		mciSendString(cmd, 0, 0, 0);
		sprintf_s(cmd, sizeof(cmd), "close %s-2", name);
		mciSendString(cmd, 0, 0, 0);
		sprintf_s(cmd, sizeof(cmd), "open %s alias %s-2", name, name);
		mciSendString(cmd, 0, 0, 0);
		index++;
	}
	else if (index == 2) {
		sprintf_s(cmd, sizeof(cmd), "play %s-2", name);
		mciSendString(cmd, 0, 0, 0);
		sprintf_s(cmd, sizeof(cmd), "close %s-1", name);
		mciSendString(cmd, 0, 0, 0);
		sprintf_s(cmd, sizeof(cmd), "open %s alias %s-1", name, name);
		mciSendString(cmd, 0, 0, 0);
		index = 1;
	}
}


void putimagePNG(int  picture_x, int picture_y, IMAGE* picture) //x为载入图片的X坐标,y为Y坐标
{
	DWORD* dst = GetImageBuffer();    // GetImageBuffer()函数,用于获取绘图设备的显存指针,EASYX自带
	DWORD* draw = GetImageBuffer();
	DWORD* src = GetImageBuffer(picture); //获取picture的显存指针
	int picture_width = picture->getwidth(); //获取picture的宽度,EASYX自带
	int picture_height = picture->getheight(); //获取picture的高度,EASYX自带
	int graphWidth = getwidth();       //获取绘图区的宽度,EASYX自带
	int graphHeight = getheight();     //获取绘图区的高度,EASYX自带
	int dstX = 0;    //在显存里像素的角标

	// 实现透明贴图 公式: Cp=αp*FP+(1-αp)*BP , 贝叶斯定理来进行点颜色的概率计算
	for (int iy = 0; iy < picture_height; iy++)
	{
		for (int ix = 0; ix < picture_width; ix++)
		{
			int srcX = ix + iy * picture_width; //在显存里像素的角标
			int sa = ((src[srcX] & 0xff000000) >> 24); //0xAArrggbb;AA是透明度
			int sr = ((src[srcX] & 0xff0000) >> 16); //获取RGB里的R
			int sg = ((src[srcX] & 0xff00) >> 8);   //G
			int sb = src[srcX] & 0xff;              //B
			if (ix >= 0 && ix <= graphWidth && iy >= 0 && iy <= graphHeight && dstX <= graphWidth * graphHeight)
			{
				dstX = (ix + picture_x) + (iy + picture_y) * graphWidth; //在显存里像素的角标
				int dr = ((dst[dstX] & 0xff0000) >> 16);
				int dg = ((dst[dstX] & 0xff00) >> 8);
				int db = dst[dstX] & 0xff;
				draw[dstX] = ((sr * sa / 255 + dr * (255 - sa) / 255) << 16)  //公式: Cp=αp*FP+(1-αp)*BP  ; αp=sa/255 , FP=sr , BP=dr
					| ((sg * sa / 255 + dg * (255 - sa) / 255) << 8)         //αp=sa/255 , FP=sg , BP=dg
					| (sb * sa / 255 + db * (255 - sa) / 255);              //αp=sa/255 , FP=sb , BP=db
			}
		}
	}
}

// 适用于 y <0 以及x<0的任何情况
void putimagePNG2(int x, int y, IMAGE* picture) {
	IMAGE imgTmp;
	if (y < 0) {
		SetWorkingImage(picture);
		getimage(&imgTmp, 0, -y,
			picture->getwidth(), picture->getheight() + y);
		SetWorkingImage();
		y = 0;
		picture = &imgTmp;
	}

	if (x < 0) {
		SetWorkingImage(picture);
		getimage(&imgTmp, -x, 0, picture->getwidth() + x, picture->getheight());
		SetWorkingImage();
		x = 0;
		picture = &imgTmp;
	}

	putimagePNG(x, y, picture);
}

// 适用于 y <0 以及y>0的任何情况
void putimagePNG2(int x, int y, int winWidth, IMAGE* picture) {
	IMAGE imgTmp;
	if (y < 0) {
		SetWorkingImage(picture);
		getimage(&imgTmp, 0, -y,
			picture->getwidth(), picture->getheight() + y);
		SetWorkingImage();
		y = 0;
		picture = &imgTmp;
	}

	if (x < 0) {
		SetWorkingImage(picture);
		getimage(&imgTmp, -x, 0, picture->getwidth() + x, picture->getheight());
		SetWorkingImage();
		x = 0;
		picture = &imgTmp;
	}
	else if (x >= winWidth) {
		return;
	}
	else if (x > winWidth - picture->getwidth()) {
		SetWorkingImage(picture);
		getimage(&imgTmp, 0, 0, winWidth - x, picture->getheight());
		SetWorkingImage();
		picture = &imgTmp;
	}

	putimagePNG(x, y, picture);
}

void jump() {
	heroJump = true;
	update = true;
}

void down() {
	update = true;
	heroDown = true;
	heroIndex = 0;
}

void heroupdown()
{
	 // 实现跳跃
		if (heroJump) {
			if (heroY < jumpHeightMax) {
				heroJumpOff = 4;
			}

			heroY += heroJumpOff;

			if (heroY > 345 - imgHeros[0].getheight()) {
				heroJump = false;
				heroJumpOff = -4;
			}
		}
		else if (heroDown) {
			static int count = 0;
			int delays[2] = { 8, 30 };
			count++;
			if (count >= delays[heroIndex]) {
				count = 0;
				heroIndex++;
				if (heroIndex >= 2) {
					heroIndex = 0;
					heroDown = false;
				}
			}
		}
		else { //不跳跃
			heroIndex = (heroIndex + 1) % 12;
		}
}
 
void updateBloodBar() {
	drawBloodBar(10, 10, 200, 10, 2, BLUE, DARKGRAY, RED, heroBlood / 100.0);
}
void moveBg() {
	for (int i = 0; i < 3; i++) {
		bgX[i] -= bgSpeed[i];
		if (bgX[i] < -WIN_WIDTH) {
			bgX[i] = 0;
		}
	}
}


void createObstacleData() {
 
	static int frameCount = 0;
	static int enemyFre = 50;
	frameCount++;
	if (frameCount > enemyFre) {
		frameCount = 0;
		enemyFre = 50 + rand() % 50; // 50..99
		createObstacle();
	}

 

	// 更新所有障碍物的坐标
	for (int i = 0; i < OBSTACLE_COUNT; i++) {
		if (obstacles[i].exist) {
			obstacles[i].x -= obstacles[i].speed + bgSpeed[2];
			if (obstacles[i].x < -obstacleImgs[obstacles[i].type][0].getwidth() * 2) {
				obstacles[i].exist = false;
			}

			int len = obstacleImgs[obstacles[i].type].size();
			obstacles[i].imgIndex = (obstacles[i].imgIndex + 1) % len;
		}
	}
}
void checkHit()
{
	for (int i = 0; i < OBSTACLE_COUNT; i++)
	{
		if (obstacles[i].exist && obstacles[i].hited == false)
		{

			int a1x, a1y, a2x, a2y;
			int off = 20;
			if (!heroDown)//非下蹲 奔跑 跳跃
			{
				a1x = heroX + off;
				a1y = heroY + off;

				a2x = heroX + imgHeros[heroIndex].getwidth() - off;
				a2y = heroY + imgHeros[heroIndex].getheight();


			}
			else { //下蹲状态
				a1x = heroX + off;
				a1y = 345 - imgHeroDown[heroIndex].getheight();

				a2x = heroX + imgHeroDown[heroIndex].getwidth() - off;
				a2y = 345;
			}

			IMAGE img = obstacleImgs[obstacles[i].type][obstacles[i].imgIndex];

			int b1x = obstacles[i].x + off;
			int b1y = obstacles[i].y + off;
			int b2x = obstacles[i].x + img.getwidth() - off;
			int b2y = obstacles[i].y + img.getheight() - 10;

			if (rectIntersect(a1x, a1y, a2x, a2y, b1x, b1y, b2x, b2y)) {
				heroBlood -= obstacles[i].power;
				printf("血量剩余 %d\n", heroBlood);
				playSound("res/hit.mp3");
				obstacles[i].hited = true;
			}
		}
	}

}


void checkOver() {
	if (heroBlood <= 0) {
		loadimage(0, "res/over.png");
		FlushBatchDraw();
		mciSendString("stop res/bg.mp3", 0, 0, 0);
		system("pause");

		// 暂停之后,充币复活,或者直接开始下一局
		heroBlood = 100;
		mciSendString("play res/bg.mp3", 0, 0, 0);
	}
}

void createObstacle() {

	srand((unsigned)time(NULL));
	int i;
	for (i = 0; i < OBSTACLE_COUNT; i++) {
		if (obstacles[i].exist == false) {
			break;
		}
	}
	if (i >= OBSTACLE_COUNT) {
		return;
	}

	obstacles[i].exist = true;
	obstacles[i].imgIndex = 0;
	//obstacles[i].type = (obstacle_type)(rand() % OBSTACLE_TYPE_COUNT);
	obstacles[i].type = (obstacle_type)(rand() % 3);
	 
	obstacles[i].x = WIN_WIDTH;
	obstacles[i].y = 345 + 5 - obstacleImgs[obstacles[i].type][0].getheight();
	if (lastObsIndex >= HOOK1 && lastObsIndex <= HOOK4 &&
		obstacles[i].type == LION &&
		obstacles[lastObsIndex].x > (WIN_WIDTH - 500)) {
		obstacles[i].type = TORTOISE;
	}
	lastObsIndex = i;
	if (obstacles[i].type == HOOK1) {
		obstacles[i].type = (obstacle_type)((int)(obstacles[i].type) + rand() % 4);
	 }
	if (obstacles[i].type == TORTOISE) {
		obstacles[i].speed = 0;
		obstacles[i].power = 5; //自己修改
	}
	else if (obstacles[i].type == LION) {
		obstacles[i].speed = 4;
		obstacles[i].power = 20;
	}
	else if (obstacles[i].type >= HOOK1 && obstacles[i].type <= HOOK4) {
		obstacles[i].speed = 0;
		obstacles[i].power = 20;
		obstacles[i].y = 0;
	}
	
}

 

//渲染游戏背景
void updateBg()
{
	putimagePNG2(bgX[0], 0, &imgBgs[0]);
	putimagePNG2(bgX[1], 119, &imgBgs[1]);
	putimagePNG2(bgX[2], 330, &imgBgs[2]);
}
//
 处理用户按键的输入
//void keyEvent() {
//	char ch;
//
//	if (_kbhit()) { //如果有按键按下,_kbhit()返回  true
//		ch = _getch();    // _getch()不需要按下回车即可直接读取
//		if (ch == ' ') {
//			jump();
//		}
//	}
//}

 // 处理用户按键的输入
void keyEvent() {
	char ch;

	if (_kbhit()) { //如果有按键按下,_kbhit()返回  true  
		ch = _getch();    // _getch()不需要按下回车即可直接读取
		if (ch == ' ') {
			jump();
		}
		else if (ch == 's') {
			down();
		}
	}
}

void jump(bool heroJump)
{
	// 实现跳跃
	if (heroJump) {
		if (heroY < jumpHeightMax) {
			heroJumpOff = 4;
		}

		heroY += heroJumpOff;

		if (heroY > 345 - imgHeros[0].getheight()) {
			heroJump = false;
			heroJumpOff = -4;
		}
	}
	else { //不跳跃
		heroIndex = (heroIndex + 1) % 12;
	}
	update = true;
}
 
void updateEnemy() {
	 
	for (int i = 0; i < OBSTACLE_COUNT; i++) {
		if (obstacles[i].exist) {
			putimagePNG2(obstacles[i].x, obstacles[i].y, WIN_WIDTH,
				&obstacleImgs[obstacles[i].type][obstacles[i].imgIndex]);
		}
	}
}
// 游戏的初始化
void init() {
	// 创建游戏窗口
	initgraph(WIN_WIDTH, WIN_HEIGHT);

	// 加载背景资源
	char name[64];
	for (int i = 0; i < 3; i++) {
		// "res/bg001.png"    "res/bg002.png"     "res/bg003.png"   
		sprintf(name, "res/bg%03d.png", i + 1);
		loadimage(&imgBgs[i], name);

		bgX[i] = 0;
	}

	// 加载Hero奔跑的图片帧素材
	for (int i = 0; i < 12; i++) {
		// "res/hero1.png"  ... "res/hero12.png"
		sprintf(name, "res/hero%d.png", i + 1);
		loadimage(&imgHeros[i], name);
	}

	// 设置玩家的初始位置
	heroX = WIN_WIDTH * 0.5 - imgHeros[0].getwidth() * 0.5;
	heroY = 345 - imgHeros[0].getheight();
	heroIndex = 0;

	heroJump = false;
	jumpHeightMax = 345 - imgHeros[0].getheight() - 120;
	heroJumpOff = -4;

	update = true;

 
	IMAGE imgTort;
	loadimage(&imgTort, "res/t1.png");
	vector imgTortArray;
	imgTortArray.push_back(imgTort);
	obstacleImgs.push_back(imgTortArray);

	IMAGE imgLion;
	vector imgLionArray;
	for (int i = 0; i < 6; i++) {
		sprintf(name, "res/p%d.png", i + 1);
		loadimage(&imgLion, name);
		imgLionArray.push_back(imgLion);
	}
	obstacleImgs.push_back(imgLionArray);

	// 初始化障碍物池
	for (int i = 0; i < OBSTACLE_COUNT; i++) {
		obstacles[i].exist = false;
	}
	// 加载下蹲素材
	loadimage(&imgHeroDown[0], "res/d1.png");
	loadimage(&imgHeroDown[1], "res/d2.png");
	heroDown = false;

	// 加载“柱子”障碍物
	IMAGE imgH;
	vector imgHookArray;
	for (int i = 0; i < 4; i++) {
		sprintf_s(name, sizeof(name), "res/h%d.png", i + 1); //帧图片不够,补帧
		loadimage(&imgH, name, 63, 260, true);
		imgHookArray.push_back(imgH);
		obstacleImgs.push_back(imgHookArray);
		imgHookArray.pop_back();
	}
	heroBlood = 100;
	// 预加载音效
	preLoadSound("res/hit.mp3");
	lastObsIndex = -1;
	score = 0;

}

void checkScore() {
	for (int i = 0; i < OBSTACLE_COUNT; i++) {
		if (obstacles[i].exist &&
			obstacles[i].passed == false &&
			obstacles[i].x + obstacleImgs[obstacles[i].type][0].getwidth() < heroX) {
			score++;
			obstacles[i].passed = true;
			printf("score: %d\n", score);
		}
	}
}

void updateHero() {
	if (!heroDown) {
		putimagePNG2(heroX, heroY, &imgHeros[heroIndex]);
	}
	else {
		int y = 345 - imgHeroDown[heroIndex].getheight();
		putimagePNG2(heroX, y, &imgHeroDown[heroIndex]);
	}

}


void HeroIndex()
{
	heroIndex = (heroIndex + 1) % 12;
}


void checkWin() {
	if (score >= WIN_SCORE) {
		FlushBatchDraw();
		mciSendString("play res/win.mp3", 0, 0, 0);
		Sleep(2000);
		loadimage(0, "res/win.png");
		FlushBatchDraw();
		mciSendString("stop res/bg.mp3", 0, 0, 0);
		system("pause");

		heroBlood = 100;
		score = 0;
		mciSendString("play res/bg.mp3 repeat", 0, 0, 0);
	}
}

int getDelay() {
	static unsigned long long lastTime = 0;
	unsigned long long currentTime = GetTickCount();
	if (lastTime == 0) {
		lastTime = currentTime;
		return 0;
	}
	else {
		int ret = currentTime - lastTime;
		lastTime = currentTime;
		return ret;
	}
}

int main(void) {
	int timer = 0;
	init();
	// 显示初始画面
	loadimage(0, "res/over.png");
	system("pause");
	while (1) {
		keyEvent();

		timer += getDelay();//10
		if (timer > 20) {
			timer = 0;
			update = true;
		}

		if (update)
		{
			update = false;
			BeginBatchDraw();
			updateBg();
			 
			updateHero(); 
			updateEnemy();
			updateBloodBar();
			checkWin();
			EndBatchDraw();

		
			moveBg();
			
			heroupdown();

 		  createObstacleData();
		  checkHit();
		  checkOver();
		  checkScore();
		  
		}
	}

	return 0;
}




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