文末有源代码,以及本游戏使用的所有素材,将plane2文件复制在src文件下可以直接运行。
实现效果:结构设计JFrame jf = new JFrame("飞机大战"); //创建窗体
jf.setSize(670,800);
jf.setLocationRelativeTo(null);
jf.setDefaultCloseOperation(WindowConstants.EXIT_ON_CLOSE);
jf.setLayout(new BorderLayout()); //布局
//创建三个JPanel,左上为按钮,左下为分数显示 右为游戏页面
JPanel left = new JPanel();
JPanel leftUp = new JPanel(); //左上
JPanel leftDown = new JPanel(); //左下
game = new JPanel(); //游戏显示区
left.setPreferredSize(new Dimension(170,800));
left.setBackground(new Color(-3355444));
jf.add(left,BorderLayout.WEST);
jf.add(game,BorderLayout.CENTER);
game.requestFocus();
left.setLayout(new BorderLayout());
leftUp.setPreferredSize(new Dimension(0,250));
leftUp.setBackground(new Color(-3355444));
left.add(leftUp,BorderLayout.NORTH);
leftDown.setBackground(new Color(-6710887));
leftDown.setPreferredSize(new Dimension(0,550));
left.add(leftDown,BorderLayout.SOUTH);
绘制背景地图飞行道具类
public boolean judge_crash(FlyObject fo){
if(x sizeX<fo.x || y sizeY<fo.y || x > fo.x fo.sizeX || y > fo.y fo.sizeY ){
return false;
}else{
return true;
}
}
绘制线程: 如何让我们的游戏动起来
要想绘制动态的背景,首先我们要先画一张静态的背景图,那么如何绘制一张静态的背景图呢?
获取包中的图片:
String fileName_0 = "src\\plane2\\z_img\\img_bg_0.jpg"; //相对地址(和绝对地址区分开)
BufferedImage bufferedImage;
bufferedImage = ImageIO.read(new File(fileName_0)); //将文件读出记录在bufferedImage中,记得抛出异常
g.drawImage(bufferedImage,0,0,null); // 将bufferedImage中的内容画在画笔g对应的地方
我们的地图是一张可以从上往下无缝滚动的图片,就像是这样的地图
接下来,如何画出连续的图片呢?
在绘制函数中,有一个函数可以完美实现我们的需求
img – the specified image to be drawn. This method does nothing if img is null.
dx1 – the x coordinate of the first corner of the destination rectangle.
dy1 – the y coordinate of the first corner of the destination rectangle.
dx2 – the x coordinate of the second corner of the destination rectangle.
dy2 – the y coordinate of the second corner of the destination rectangle.
sx1 – the x coordinate of the first corner of the source rectangle.
sy1 – the y coordinate of the first corner of the source rectangle.
sx2 – the x coordinate of the second corner of the source rectangle.
sy2 – the y coordinate of the second corner of the source rectangle.
observer – object to be notified as more of the image is scaled and converted.
public abstract boolean drawImage(Image img,
int dx1, int dy1, int dx2, int dy2,
int sx1, int sy1, int sx2, int sy2,
ImageObserver observer);
比如说,我们的图片高度为712个像素点,我们在下一时刻,图片向下移动了m个像素点,那么我们就将这张图片的0 ~ 712-m 部分,绘制到游戏界面的m ~ 712部分,
再将712-m ~ 712 部分绘制到游戏界面的0 ~ m 部分;
接下来,我们就要确定 m 的值,这个就很简单了,在绘制线程中,定义一个整数变量m ,每次绘制完 m 就可以了。(个人建议m =2比较舒服)
/**
* @author liTianLu
* @Date 2022/5/21 23:33
* @purpose 绘制背景
* 提醒: 这里我写了四种地图的绘制,后面在选择地图时会用到。
*/
public class BackGround {
Graphics g;
BufferedImage bufferedImage_1;
BufferedImage bufferedImage_2;
BufferedImage bufferedImage_3;
BufferedImage bufferedImage_4;
int w;
int h;
String fileName_1 = "src\\plane2\\z_img\\img_bg_1.jpg"; //地图1
String fileName_2 = "src\\plane2\\z_img\\img_bg_2.jpg"; //地图2
String fileName_3 = "src\\plane2\\z_img\\img_bg_3.jpg"; //地图3
String fileName_4 = "src\\plane2\\z_img\\img_bg_4.jpg"; //地图4
public BackGround(Graphics g) throws IOException {
this.g = g;
bufferedImage_1 = ImageIO.read(new File(fileName_1));
bufferedImage_2 = ImageIO.read(new File(fileName_2));
bufferedImage_3 = ImageIO.read(new File(fileName_3));
bufferedImage_4 = ImageIO.read(new File(fileName_4));
w = bufferedImage_1.getWidth();
h = bufferedImage_1.getHeight();
}
/**
* i : 向下移动了i个像素
* num : 用来控制绘制哪一个地图
*/
public void draw(int i , int num){
switch(num){
case 1 :
g.drawImage(bufferedImage_1,0,i,w,i h,0,0,w,h,null);
g.drawImage(bufferedImage_1,0,0,w,i,0,h-i,w,h,null);
break;
case 2 :
g.drawImage(bufferedImage_2,0,i,w,i h,0,0,w,h,null);
g.drawImage(bufferedImage_2,0,0,w,i,0,h-i,w,h,null);
break;
case 3 :
g.drawImage(bufferedImage_3,0,i,w,i h,0,0,w,h,null);
g.drawImage(bufferedImage_3,0,0,w,i,0,h-i,w,h,null);
break;
case 4 :
g.drawImage(bufferedImage_4,0,i,w,i h,0,0,w,h,null);
g.drawImage(bufferedImage_4,0,0,w,i,0,h-i,w,h,null);
break;
}
}
public int getH() {
return h;
}
}
backGround.draw(m, player.mapNum);
m = m 2;
if(m>= backGround.getH()){
m = 0;
}
我的飞机的绘制
使用的飞机素材图片:
飞机扇动翅膀的原理与视频的原理相同,不停更换图片,形成视觉暂留效果
//这里仅使用了三张图片来回切换,更多的图片会有更好的效果
public void draw(int i){ //此处的i是用来控制显示哪一张图片的
int j = i0; // 150ms换一张
if (j<10){
g.drawImage(plane_img,x,y,x sizeX,y sizeY,0,0,sizeX,sizeY,null);
}else if(j<20) {
g.drawImage(plane_img,x,y,x sizeX,y sizeY,0,sizeY,sizeX,2*sizeY,null);
}else if(j<30){
g.drawImage(plane_img,x,y,x sizeX,y sizeY,288,0,424,112,null);
}
}
敌方飞机,敌方子弹等飞行物的绘制原理与MyPlane相同,后面不在赘述。(为了简化开发流程,飞行物可以不”扇动翅膀“)
移动线程@Override
//键盘按压时,设置速度
public void keyPressed(KeyEvent e) {
int c = e.getKeyCode();
if(DrawThread.myPlane!=null){
switch (c){
case 37:
DrawThread.myPlane.setSpeedX(-speed);
break;
case 38:
DrawThread.myPlane.setSpeedY(-speed);
break;
case 39:
DrawThread.myPlane.setSpeedX(speed);
break;
case 40:
DrawThread.myPlane.setSpeedY(speed);
break;
}
}
}
@Override
//键盘释放时,速度设为0
public void keyReleased(KeyEvent e) {
int c = e.getKeyCode();
switch (c){
case 37:
case 39:
DrawThread.myPlane.setSpeedX(0);
break;
case 38:
case 40:
DrawThread.myPlane.setSpeedY(0);
break;
}
}
敌方飞机线程 : 如何生成敌方飞机呢?
每隔一段时间,在游戏面板的顶部,产生一个敌方飞机
/**
* @author liTianLu
* @Date 2022/5/22 0:30
* @purpose 产生敌机的线程
*/
@Override
public void run() {
int sleepTime = 800;
while (true){
if(DrawThread.player.score>=500){ //当分数高于500时,加快敌机产生的频率
sleepTime = 300;
}
EnemyPlane enemyPlane = null;
try {
enemyPlane = new EnemyPlane();
} catch (IOException e) {
e.printStackTrace();
}
enemyPlanes.add(enemyPlane);
new Thread(new EnemyBulletThread(enemyPlane)).start(); //启动一个发射子弹线程
try {
sleep(sleepTime random.nextInt(300));
} catch (InterruptedException e) {
e.printStackTrace();
}
}
}
敌方子弹线程 : 使每一个敌方飞机开火
我们为每一个敌方飞机创建一个生成子弹的线程,要确定子弹产生的具体位置,就要知道敌方飞机的位置,所以我们要传入一个敌方飞机对象给该线程。
public EnemyBulletThread(EnemyPlane enemyPlane){
this.enemyPlane = enemyPlane;
}
@Override
public void run() {
try {
sleep(2000);
} catch (InterruptedException e) {
e.printStackTrace();
}
while(enemyPlane.isAlive() ){
EnemyBullet enemyBullet = null;
int enemyBullet_x = enemyPlane.getX() 25;
int enemyBullet_y = enemyPlane.getY() 66;
try {
enemyBullet = new EnemyBullet(enemyBullet_x,enemyBullet_y);
} catch (IOException e) {
e.printStackTrace();
}
enemyBullets.add(enemyBullet);
try {
sleep(2000 random.nextInt(2000));
} catch (InterruptedException e) {
e.printStackTrace();
}
}
}
检测碰撞线程 : 在子弹与敌机碰撞时,移除敌机
synchronized (MyPlane.myBulletList){
if(MyPlane.myBulletList.size()!=0){
for (int i = 0; i < MyPlane.myBulletList.size(); i ) {
MyPlane.myBulletList.get(i).setY(MyPlane.myBulletList.get(i).getY() MyPlane.myBulletList.get(i).getSpeedY() );
if(MyPlane.myBulletList.get(i).getY() <= -100){
MyPlane.myBulletList.remove(i);
continue;
}
}
}
}
synchronized (MyPlane.myBulletList){
for (int i = 0; i < MyPlane.myBulletList.size(); i ) {
for (int j = 0; j < EnemyPlaneThread.enemyPlanes.size() ;j ) {
if(MyPlane.myBulletList.get(i).judge_crash(EnemyPlaneThread.enemyPlanes.get(j)) ){
EnemyPlaneThread.enemyPlanes.get(j).setAlive(false); //关线程
DrawThread.player.score =5; //分数 5
EnemyPlaneThread.enemyPlanes.remove(j);
MyPlane.myBulletList.remove(i);
j = -1;
}
if(i >= MyPlane.myBulletList.size()){
break;
}
}
}
}
其他功能:显示玩家hp,掉落道具,得分,升级,更换地图
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