Unity实现简易打飞碟改进版(Hit UFO)
前言
这是中山大学数据科学与计算机学院2019年3D游戏编程与设计的第六次作业
所有项目与代码已上传至github当中,欢迎大家访问。
github个人主页: https://starashzero.github.io
3D游戏编程与设计主页: https://starashzero.github.io/3DGameDesign
本次作业项目地址: https://github.com/StarashZero/3DGameDesign/tree/master/hw6
游戏简介
鼠标作为武器,打爆飞碟!
游戏玩法
点击飞出来的UFO(各种圆盘)即可得分。
游戏规则
- 正常模式共有五轮飞碟,飞碟数列遵循斐波那契数列,当所有飞碟发射完毕时游戏结束。
- 无限模式拥有无限轮数
(其实就是重复) - 红色飞碟为1分,绿色飞碟为2分,蓝色飞碟为3分
(RGB!) - 物理学模式下飞碟会互相碰撞,这不是一个bug,是一个feature!
游戏试玩
项目要求
在Hit UFO初版的基础上
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按 adapter模式 设计图修改飞碟游戏
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使它同时支持物理运动与运动学(变换)运动
项目代码结构
在初版项目的基础上进行了进一步的封装,同时需要实现物理学运动,所以增加了几个文件。
UML图:
各部分代码解释
许多文件的代码都是没有变动或者变动较少的,新增或有修改我会指出。
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Singleton.cs
public class Singleton<T> : MonoBehaviour where T: MonoBehaviour { protected static T instance; public static T Instance { get { if (instance == null) { instance = (T)FindObjectOfType(typeof(T)); if (instance == null) { Debug.LogError("An instance of " + typeof(T) + " is needed in the scene, but there is none"); } } return instance; } } }场景单实例类,当所需的实例第一次被需要时,在场景内搜索该实例,下一次使用时不需要搜索直接返回。
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DiskData.cs
public class DiskData : MonoBehaviour { public float speed; //水平速度 public int points; //得分 public Vector3 direction; //初始方向 }飞碟数据,携带飞碟的飞行速度、得分、以及飞行方向。
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DiskFactory.cs
public class DiskFactory : MonoBehaviour { public GameObject disk_Prefab; //飞碟预制 private List<DiskData> used; //正被使用的飞碟 private List<DiskData> free; //空闲的飞碟 public void Start() { used = new List<DiskData>(); free = new List<DiskData>(); disk_Prefab = GameObject.Instantiate<GameObject>(Resources.Load<GameObject>("Prefabs/Disk_Prefab"), Vector3.zero, Quaternion.identity); disk_Prefab.SetActive(false); } public GameObject GetDisk(int round) { GameObject disk; //如果有空闲的飞碟,则直接使用,否则生成一个新的 if (free.Count > 0) { disk = free[0].gameObject; free.Remove(free[0]); } else { disk = GameObject.Instantiate<GameObject>(disk_Prefab, Vector3.zero, Quaternion.identity); disk.AddComponent<DiskData>(); } //按照round来设置飞碟属性 //飞碟的等级 = 0~2之间的随机数 * 轮次数 //0~4: 红色飞碟 //4~7: 绿色飞碟 //7~10: 蓝色飞碟 float level = UnityEngine.Random.Range(0, 2f) * (round + 1); if (level < 4) { disk.GetComponent<DiskData>().points = 1; disk.GetComponent<DiskData>().speed = 4.0f; disk.GetComponent<DiskData>().direction = new Vector3(UnityEngine.Random.Range(-1f, 1f) > 0 ? 2 : -2, 1, 0); disk.GetComponent<Renderer>().material.color = Color.red; } else if (level > 7) { disk.GetComponent<DiskData>().points = 3; disk.GetComponent<DiskData>().speed = 8.0f; disk.GetComponent<DiskData>().direction = new Vector3(UnityEngine.Random.Range(-1f, 1f) > 0 ? 2 : -2, 1, 0); disk.GetComponent<Renderer>().material.color = Color.blue; } else { disk.GetComponent<DiskData>().points = 2; disk.GetComponent<DiskData>().speed = 6.0f; disk.GetComponent<DiskData>().direction = new Vector3(UnityEngine.Random.Range(-1f, 1f) > 0 ? 2 : -2, 1, 0); disk.GetComponent<Renderer>().material.color = Color.green; } used.Add(disk.GetComponent<DiskData>()); return disk; } public void FreeDisk(GameObject disk) { //找到使用中的飞碟,将其踢出并加入到空闲队列 foreach (DiskData diskData in used) { if (diskData.gameObject.GetInstanceID() == disk.GetInstanceID()) { disk.SetActive(false); free.Add(diskData); used.Remove(diskData); break; } } } }飞碟工厂,负责生产与释放飞碟。
- GetDisk:
GetDisk用于生产飞碟,首先从free空闲队列中查找是否有可用的飞碟,如果没有则新建一个飞碟。
飞碟属性的设置依赖轮次数,将一个0~2之间的随机数乘以轮次数获得level,再根据level来设置属性。
这样就具有了轮次越多优质飞碟越多的特性,且前期不会产生高分飞碟。 - FreeDisk:
FreeDisk用于释放飞碟,将飞碟从used队列中移除并添加到free队列中。
- GetDisk:
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SSAction.cs
public class SSAction : ScriptableObject { public bool enable = true; public bool destroy = false; public GameObject gameObject { get; set; } public Transform transform { get; set; } public ISSActionCallback callback { get; set; } protected SSAction() { } // Start is called before the first frame update public virtual void Start() { throw new System.NotImplementedException(); } // Update is called once per frame public virtual void Update() { throw new System.NotImplementedException(); } }动作的基类,与之前的项目用途一致。
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CCFlyAction.cs
CCFlyAction有一些少量修改。
因为CCFlyAction是运动学的飞行,因此生成CCFlyAction时会将对象的刚体设为运动学的。public override void Start() { gameObject.GetComponent<Rigidbody>().isKinematic = true; }完整代码
public class CCFlyAction : SSAction { float gravity; //重力加速度 float speed; //水平速度 Vector3 direction; //飞行方向 float time; //时间 //生产函数(工厂模式) public static CCFlyAction GetSSAction(Vector3 direction, float speed) { CCFlyAction action = ScriptableObject.CreateInstance<CCFlyAction>(); action.gravity = 9.8f; action.time = 0; action.speed = speed; action.direction = direction; return action; } public override void Start() { gameObject.GetComponent<Rigidbody>().isKinematic = true; } public override void Update() { time += Time.deltaTime; transform.Translate(Vector3.down * gravity * time * Time.deltaTime); transform.Translate(direction * speed * Time.deltaTime); //如果飞碟到达底部,则动作结束,进行回调 if (this.transform.position.y < -6) { this.destroy = true; this.enable = false; this.callback.SSActionEvent(this); } } }飞行动作,将飞行拆分成水平和垂直两个方向的运动,水平速度恒定,垂直方向施加重力加速度。
当飞碟到达底部时,动作结束,将进行回调。 -
ISSActionCallback
public enum SSActionEventType : int { Started, Competed } public interface ISSActionCallback { //回调函数 void SSActionEvent(SSAction source, SSActionEventType events = SSActionEventType.Competed, int intParam = 0, string strParam = null, Object objectParam = null); }回调函数接口,与之前项目用途一致。
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SSActionManager.cs
public class SSActionManager : MonoBehaviour { //动作集,以字典形式存在 private Dictionary<int, SSAction> actions = new Dictionary<int, SSAction>(); //等待被加入的动作队列(动作即将开始) private List<SSAction> waitingAdd = new List<SSAction>(); //等待被删除的动作队列(动作已完成) private List<int> waitingDelete = new List<int>(); protected void Update() { //将waitingAdd中的动作保存 foreach (SSAction ac in waitingAdd) actions[ac.GetInstanceID()] = ac; waitingAdd.Clear(); //运行被保存的事件 foreach (KeyValuePair<int, SSAction> kv in actions) { SSAction ac = kv.Value; if (ac.destroy) { waitingDelete.Add(ac.GetInstanceID()); } else if (ac.enable) { ac.Update(); } } //销毁waitingDelete中的动作 foreach (int key in waitingDelete) { SSAction ac = actions[key]; actions.Remove(key); Destroy(ac); } waitingDelete.Clear(); } //准备运行一个动作,将动作初始化,并加入到waitingAdd public void RunAction(GameObject gameObject, SSAction action, ISSActionCallback manager) { action.gameObject = gameObject; action.transform = gameObject.transform; action.callback = manager; waitingAdd.Add(action); action.Start(); } // Start is called before the first frame update protected void Start() { } }动作管理者的基类,和之前项目用途一致。
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CCActionManager.cs
现在CCActionManager需要实现IActionManager的接口了public class CCActionManager : SSActionManager, ISSActionCallback, IActionManager { //飞行动作 CCFlyAction flyAction; //控制器 FirstController controller; protected new void Start() { controller = (FirstController)SSDirector.GetInstance().CurrentScenceController; } public void Fly(GameObject disk, float speed, Vector3 direction) { flyAction = CCFlyAction.GetSSAction(direction, speed); RunAction(disk, flyAction, this); } //回调函数 public void SSActionEvent(SSAction source, SSActionEventType events = SSActionEventType.Competed, int intParam = 0, string strParam = null, Object objectParam = null) { //飞碟结束飞行后进行回收 controller.FreeDisk(source.gameObject); } }飞行动作管理者,负责生成飞行动作,并接受飞行动作的回调信息,使飞碟被回收。
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IUserAction.cs
IUserAction进行了少量修改
现在IUserAction提供了设置飞行模式的接口void SetFlyMode(bool isPhysis);完整代码
public interface IUserAction { void SetFlyMode(bool isPhysis); void Hit(Vector3 position); void Restart(); void SetMode(bool isInfinite); }用户动作接口,提供点击、重置、选择模式三个函数的接口。
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SSDirector.cs
public class SSDirector : System.Object { private static SSDirector _instance; public ISceneController CurrentScenceController { get; set; } public static SSDirector GetInstance() { if (_instance == null) { _instance = new SSDirector(); } return _instance; } }导演类,与之前项目用途一致。
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ISceneController.cs
public interface ISceneController { void LoadResources(); }场景控制类接口,与之前项目用途一致。
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FirstController
FirstController进行了大量修改
FirstController现在只负责与UserAction交互及少量功能函数了,其他功能下放置RoundControllerpublic class FirstController : MonoBehaviour, ISceneController, IUserAction { DiskFactory diskFactory; //飞碟工厂 RoundController roundController; UserGUI userGUI; void Start() { SSDirector.GetInstance().CurrentScenceController = this; gameObject.AddComponent<DiskFactory>(); gameObject.AddComponent<CCActionManager>(); gameObject.AddComponent<PhysisActionManager>(); gameObject.AddComponent<RoundController>(); gameObject.AddComponent<UserGUI>(); LoadResources(); } public void LoadResources() { diskFactory = Singleton<DiskFactory>.Instance; roundController = Singleton<RoundController>.Instance; userGUI = Singleton<UserGUI>.Instance; } public void Hit(Vector3 position) { Camera ca = Camera.main; Ray ray = ca.ScreenPointToRay(position); RaycastHit[] hits; hits = Physics.RaycastAll(ray); for (int i = 0; i < hits.Length; i++) { RaycastHit hit = hits[i]; if (hit.collider.gameObject.GetComponent<DiskData>() != null) { //将飞碟移至底端,触发飞行动作的回调 hit.collider.gameObject.transform.position = new Vector3(0, -7, 0); //积分 roundController.Record(hit.collider.gameObject.GetComponent<DiskData>()); //更新GUI数据 userGUI.SetPoints(roundController.GetPoints()); } } } public void Restart() { userGUI.SetMessage(""); userGUI.SetPoints(0); roundController.Reset(); } public void SetMode(bool isInfinite) { roundController.SetMode(isInfinite); } public void SetFlyMode(bool isPhysis) { roundController.SetFlyMode(isPhysis); } public void FreeDisk(GameObject disk) { diskFactory.FreeDisk(disk); } void Update() { } }场景控制器,负责游戏主要逻辑。
- SendDisk:
SendDisk用于发射一个飞碟,首先从工厂获得一个飞碟,再为其设置初始位置和飞行动作。 - Hit:
Hit用于处理用户的点击动作,将用户点击到的飞碟移除,并计算分数。 - Restart:
Restart用于重置游戏。 - Update:
Update用于发射飞碟与更新状态,飞碟每1s发射一次,每次做多5只,避免太过拥挤,当飞碟发射完毕后判断是否重置或者结束游戏。
- SendDisk:
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UserGUI.cs
UserGUI进行了少量修改
添加了两个设置飞行模式的按钮if (GUI.Button(new Rect(20, 200, 100, 40), "Kinematics")) { userAction.SetFlyMode(false); } if (GUI.Button(new Rect(20, 250, 100, 40), "Physis")) { userAction.SetFlyMode(true); }并且将UserGUI的成员设置成了私有(为了更好的封装),现在需要通过函数来修改UserGUI的变量了
public void SetMessage(string gameMessage) { this.gameMessage = gameMessage; } public void SetPoints(int points) { this.points = points; }完整代码
public class UserGUI : MonoBehaviour { IUserAction userAction; string gameMessage; int points; public void SetMessage(string gameMessage) { this.gameMessage = gameMessage; } public void SetPoints(int points) { this.points = points; } void Start() { points = 0; gameMessage = ""; userAction = SSDirector.GetInstance().CurrentScenceController as IUserAction; } void OnGUI() { //小字体初始化 GUIStyle style = new GUIStyle(); style.normal.textColor = Color.white; style.fontSize = 30; //大字体初始化 GUIStyle bigStyle = new GUIStyle(); bigStyle.normal.textColor = Color.white; bigStyle.fontSize = 50; GUI.Label(new Rect(300, 30, 50, 200), "Hit UFO", bigStyle); GUI.Label(new Rect(20, 0, 100, 50), "Points: " + points, style); GUI.Label(new Rect(310, 100, 50, 200), gameMessage, style); if (GUI.Button(new Rect(20, 50, 100, 40), "Restart")) { userAction.Restart(); } if (GUI.Button(new Rect(20, 100, 100, 40), "Normal Mode")) { userAction.SetMode(false); } if (GUI.Button(new Rect(20, 150, 100, 40), "Infinite Mode")) { userAction.SetMode(true); } if (GUI.Button(new Rect(20, 200, 100, 40), "Kinematics")) { userAction.SetFlyMode(false); } if (GUI.Button(new Rect(20, 250, 100, 40), "Physis")) { userAction.SetFlyMode(true); } if (Input.GetButtonDown("Fire1")) { userAction.Hit(Input.mousePosition); } } }界面类,构建UI并捕捉用户动作。
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IActionManager
public interface IActionManager { void Fly(GameObject disk, float speed, Vector3 direction); }动作管理类的接口,要求动作管理类的Adapter模式就是基于这个接口来实现,不过我认为在本次项目中并没有体现的很好,因为设计的两个动作管理类都是可以实现这个接口的功能的,因此感觉只起到了接口多态的作用。
不过拥有这个接口后,以后可以将非Fly类型的动作管理类通过Adapter模式转换成Fly类型的动作管理类。 -
PhysisFlyAction
PhysisFlyAction是新增的代码
PhysisFlyAction实现物体的物理学飞行
由于预制体已经添加了刚体属性,并且选择了Use Gravity,因此只需要为物体增加一个水平初速度即可。public class PhysisFlyAction : SSAction { float speed; //水平速度 Vector3 direction; //飞行方向 //生产函数(工厂模式) public static PhysisFlyAction GetSSAction(Vector3 direction, float speed) { PhysisFlyAction action = ScriptableObject.CreateInstance<PhysisFlyAction>(); action.speed = speed; action.direction = direction; return action; } public override void Start() { gameObject.GetComponent<Rigidbody>().isKinematic = false; //为物体增加水平初速度 gameObject.GetComponent<Rigidbody>().velocity = speed * direction; } public override void Update() { //如果飞碟到达底部,则动作结束,进行回调 if (this.transform.position.y < -6) { this.destroy = true; this.enable = false; this.callback.SSActionEvent(this); } } } -
PhysisActionManager
PhysisActionManager是新增的代码。
虽然是新增的,但是代码几乎与CCActionManager一致,只是从管理CCFlyAction变为管理PhysisFlyActionpublic class PhysisActionManager : SSActionManager, ISSActionCallback, IActionManager { //飞行动作 PhysisFlyAction flyAction; //控制器 FirstController controller; protected new void Start() { controller = (FirstController)SSDirector.GetInstance().CurrentScenceController; } public void Fly(GameObject disk, float speed, Vector3 direction) { flyAction = PhysisFlyAction.GetSSAction(direction, speed); RunAction(disk, flyAction, this); } //回调函数 public void SSActionEvent(SSAction source, SSActionEventType events = SSActionEventType.Competed, int intParam = 0, string strParam = null, Object objectParam = null) { //飞碟结束飞行后进行回收 controller.FreeDisk(source.gameObject); } } -
RoundController
RoundController承接了初版中FirstController每回合对飞碟的发送、计分等功能的代码
目的是减轻FirstController的负担并使代码结构更加清晰public class RoundController : MonoBehaviour { FirstController controller; IActionManager actionManager; //动作管理者 DiskFactory diskFactory; //飞碟工厂 ScoreRecorder scoreRecorder; UserGUI userGUI; int[] roundDisks; //对应轮次的飞碟数量 bool isInfinite; //游戏当前模式 int round; //游戏当前轮次 int sendCnt; //当前已发送的飞碟数量 float sendTime; //发送时间 void Start() { controller = (FirstController)SSDirector.GetInstance().CurrentScenceController; actionManager = Singleton<CCActionManager>.Instance; diskFactory = Singleton<DiskFactory>.Instance; scoreRecorder = new ScoreRecorder(); userGUI = Singleton<UserGUI>.Instance; sendCnt = 0; round = 0; sendTime = 0; isInfinite = false; roundDisks = new int[] { 3, 5, 8, 13, 21 }; } public void Reset() { sendCnt = 0; round = 0; sendTime = 0; scoreRecorder.Reset(); } public void Record(DiskData disk) { scoreRecorder.Record(disk); } public int GetPoints() { return scoreRecorder.GetPoints(); } public void SetMode(bool isInfinite) { this.isInfinite = isInfinite; } public void SetFlyMode(bool isPhysis) { actionManager = isPhysis ? Singleton<PhysisActionManager>.Instance : Singleton<CCActionManager>.Instance as IActionManager; } public void SendDisk() { //从工厂生成一个飞碟 GameObject disk = diskFactory.GetDisk(round); //设置飞碟的随机位置 disk.transform.position = new Vector3(-disk.GetComponent<DiskData>().direction.x * 7, UnityEngine.Random.Range(0f, 8f), 0); disk.SetActive(true); //设置飞碟的飞行动作 actionManager.Fly(disk, disk.GetComponent<DiskData>().speed, disk.GetComponent<DiskData>().direction); } // Update is called once per frame void Update() { sendTime += Time.deltaTime; //每隔1s发送一次飞碟 if (sendTime > 1) { sendTime = 0; //每次发送至多5个飞碟 for (int i = 0; i < 5 && sendCnt < roundDisks[round]; i++) { sendCnt++; SendDisk(); } //判断是否需要重置轮次,不需要则输出游戏结束 if (sendCnt == roundDisks[round] && round == roundDisks.Length - 1) { if (isInfinite) { round = 0; sendCnt = 0; userGUI.SetMessage(""); } else { userGUI.SetMessage("Game Over!"); } } //更新轮次 if (sendCnt == roundDisks[round] && round < roundDisks.Length - 1) { sendCnt = 0; round++; } } } } -
ScoreRecorder
ScoreRecorder是新增的代码
实现了对游戏计分的功能public class ScoreRecorder { int points; //游戏当前分数 public ScoreRecorder() { points = 0; } public void Record(DiskData disk) { points += disk.points; } public int GetPoints() { return points; } public void Reset() { points = 0; } }
