Unity3d实现Flappy Bird游戏_C#

本文实例为大家分享了unity3d实现flappy bird的具体代码，供大家参考，具体内容如下

一、小鸟

在游戏中，小鸟并不做水平位移，而是通过障碍物的移动让小鸟有水平运动的感觉，小鸟只需要对鼠标的点击调整竖直加速度就可以了，同时加上水平旋转模仿原版的flappybird的运动。同时，还要对竖直位置进行判断，否则游戏不能正常结束。

这里贴上小鸟上附加的脚本代码

player.cs

				?

									using unityengine;

									using system.collections;

									public class player : monobehaviour {

									 private rigidbody body;

									 public vector3 jumpforce = new vector3(0, 300, 0);

									 private bool state = true; //确保只执行一次

									 private int bestscore = 0;

									 // use this for initialization

									 void start () {

									  body = transform.getcomponent<rigidbody>();  

									 }

									 void oncollisionenter(collision collisioninfo)

									 {

									  if (state)

									  {

									   //碰撞游戏结束

									   state = false;

									   score.instance.state = false;

									   audiomanager.instance.playhit();

									   audiomanager.instance.playdie();

									   invoke("endgame", 0.4f);

									  }

									 }

									 // update is called once per frame

									 void update () 

									 {

									  //下限

									  if (transform.position.y < -20)

									  {

									   if (state)

									   {

									    state = false;

									    score.instance.state = false;

									    audiomanager.instance.playdie();

									    invoke("endgame", 0.4f);

									   }

									  }

									  //上限

									  if (transform.position.y > 20)

									  {

									   if (state)

									   {

									    state = false;

									    score.instance.state = false;

									    audiomanager.instance.playdie();

									    invoke("endgame", 0.4f);

									   }

									  }

									  //判断鼠标左键点击或者空格

									  if (input.getkeydown(keycode.space)||input.getmousebuttondown(0))

									  {

									   audiomanager.instance.playfly();

									   body.velocity = vector3.zero;

									   //加速度

									   body.addforce(jumpforce);

									   //控制旋转量

									   this.transform.rotation = quaternion.euler(45, 270, 0);

									  }   

									  else

									  {

									    //旋转

									   if (transform.rotation.eulerangles.x >= 280||transform.rotation.eulerangles.x<=50)

									   {

									    transform.rotate(-150 * time.deltatime, 0, 0);

									   }

									  }

									 }

									 public void endgame()

									 {

									  //保存最佳成绩

									  playerprefs.setint("playerscore", score.instance.score);

									  bestscore = playerprefs.getint("playerbestscore");

									  if (score.instance.score > bestscore)

									   bestscore = score.instance.score;

									  playerprefs.setint("playerbestscore", bestscore);

									  //跳转到结束场景

									  application.loadlevel("end");

									 }

									}

二、障碍物

障碍物只要定时产生，随机设定偏移量，然后添加向左运动的速度就行了，同时要设定自动销毁的时间，回收障碍物，否则内存占用会越来越大。

这里用了三个脚本，分别是上下障碍物和障碍物生成脚本。附加到一个空物体上就行了。

generateobstacle.cs

				?

									using unityengine;

									using system.collections;

									public class genrateobstacle : monobehaviour {

									 public gameobject obstacle;

									 public gameobject obstacle1;

									 public float starttime = 1f;

									 public float gaptime=1.5f;

									 public float gapdistance = 13;

									 private vector3 gapvector;

									 private vector3 midvector;

									 // use this for initialization

									 void start () {

									  invokerepeating("initiateobstacle", starttime, gaptime);

									  gapvector = new vector3(0, gapdistance / 2, 0);

									 }

									 void initiateobstacle()

									 {

									  midvector = new vector3(8,random.range(-3.2f, 3.2f),0);

									  instantiate(obstacle, midvector+gapvector,new quaternion(0,0,180,0));

									  instantiate(obstacle1, midvector-gapvector, quaternion.identity);

									 }

									}

obstacle.cs

				?

									using unityengine;

									using system.collections;

									public class obstacle : monobehaviour {

									 public float speed = -8f;

									 private rigidbody body;

									 private transform player;

									 private bool ispassed = false;

									 // use this for initialization

									 void start () {

									  destroy(this.gameobject, 4);

									  body = this.getcomponent<rigidbody>();

									  body.velocity = new vector3(speed, 0, 0);

									  player = gameobject.findgameobjectwithtag("bird").transform;

									 }

									 // update is called once per frame

									 void update () {

									  if (player.transform.position.x > transform.position.x && ispassed == false)

									  {

									   ispassed = true;

									   score.instance.getscore();

									  }

									 }

									}

obstacle1.cs

				?

									using unityengine;

									using system.collections;

									public class obstacle1 : monobehaviour {

									 public float speed = -8f;

									 private rigidbody body;

									 private transform player;

									 private bool ispassed = false;

									 // use this for initialization

									 void start()

									 {

									  destroy(this.gameobject, 4);

									  body = this.getcomponent<rigidbody>();

									  body.velocity = new vector3(speed, 0, 0);

									  player = gameobject.findgameobjectwithtag("bird").transform;

									 }

									}