《Genesis-3D开源游戏引擎完整实例教程-2D射击游戏篇08:弹幕系统》本系列完结

时间:2023-01-09 11:32:17

8.弹幕系统

弹幕系统概述:

弹幕系统的设计体现了射击游戏的基本要素,玩家要在敌人放出的大量子弹(弹幕)的细小空隙间闪避,能在玩家闪躲弹幕的时候给玩家带来快感,接近满屏的子弹,增加了对玩家的视觉冲击力。

弹幕系统原理:

每一个敌机都持有一个弹幕实例,每个弹幕实例中包含多个子弹实例,通过配置弹幕的属性,使每个子弹实例在轨迹管理器的作用下,形成一种有规律性的直线运动,在视觉上给玩家展现出弹幕的效果。如图8-1所示。

《Genesis-3D开源游戏引擎完整实例教程-2D射击游戏篇08:弹幕系统》本系列完结
图8-1

实现方法:

步骤1:

子弹类,定义子弹的属性和借口。

01 public class Bullet
02 {
03     //从模板创建子弹Actor
04     public void CreateActor ()
05     {
06         _obj = ActorManager.CreateFromTemplate(@"asset:bullet01.template",false);
07  
08     }
09  
10     //激活,显示子弹
11     public void ActiveObj (Vector2 startPos)
12     {
13         _obj.Active();
14         if (_obj.GetChildCount()>0)
15         {
16             _obj.GetChild(0).Active();
17         }
18  
19         _obj.WorldPosition = new Vector3 (startPos.X,startPos.Y,2.0f);
20     }
21  
22     //隐藏子弹
23     public void DeactiveObj ()
24     {
25         _obj.Deactive();
26         if (_obj.GetChildCount()>0)
27         {
28             _obj.GetChild(0).Deactive();
29         }
30     }
31     private Actor _obj = new Actor();
32     private UInt32 _id; 
33     private UInt32 _target_id;
34     private Vector2 _startPos;
35     private bool _isShooted = false;
36 }

步骤2:

配置弹幕发射子弹的属性。

01 public class Barrage
02   {
03       //发射子弹
04       public void ShootBullet (float elapsedTime, Vector3 pos)
05       {
06           timer +=  elapsedTime;
07           if (timer >= _shoot_interval && _needshoot_id <= (Bullets.Count - 1))
08           {
09               Vector2 posV2 = new Vector2(pos.X,pos.Y);
10               Bullets[_needshoot_id].ActiveObj(posV2);
11               Bullets[_needshoot_id].SetShooted(true);
12               _needshoot_id ++;
13               timer = 0.0f;
14           }
15       private UInt32 _id;
16       private UInt32 _obj_id;                  
17       private float _start_speed;
18       private float _accel_speed;
19       private float _shoot_interval;
20       private float _shoot_direction;
21       private float _direction_offset;
22       private List< Bullet> Bullets; 
23       private TrajectoryType _tt ;
24       private float timer = 0.0f;
25       private int _needshoot_id = 0;
26       private Actor _owner;
27       }
28   }

步骤3:

设计弹幕管理器,管理每一个弹幕实例的发射。

01 public class BarrageMgr
02   {
03       //请求子弹
04       public bool AskForBullets (int count, List< Bullet> bullets, Actor owner)
05       {
06           if (ReloadBullet.Count == 0)
07           {
08               return false;
09           }
10  
11           if (count >= ReloadBullet.Count)
12           {
13               count = ReloadBullet.Count;
14           }
15  
16           for (int i = 0; i < count; i++)
17           {
18               ReloadBullet[i].DeactiveObj();
19               Vector2 pos = new Vector2(owner.WorldPosition.X,owner.WorldPosition.Y);
20  
21               ReloadBullet[i].setPos(pos);
22               bullets.Add(ReloadBullet[i]);
23  
24           }
25           ReloadBullet.RemoveRange(0,count);
26           return true;
27       }
28       //处理轨迹
29       public void DealTrajectory (Barrage barrage,float elapsedTime)
30       {
31           _trajectoryMgr.MoveBarrage(barrage,elapsedTime);   
32       }
33       //更新弹幕位置
34       public void Tick(float elapsedTime)
35       {
36           foreach (KeyValuePair< uint,Barrage> pair in _barrageDict)
37           {
38  
39               Barrage barrage = pair.Value;
40    
41               DealTrajectory(barrage,elapsedTime);
42               barrage.DestroyBullet();
43               if (!barrage.IsOwnerActive() && barrage.IsAllBulletsDeactive())
44               {
45                   barrage.Reload();
46               }
47           }
48           Debug.Dbgout( _barrageDict.Count.ToString() );
49       }
50  
51   }

步骤4:

设计轨迹管理器,使子弹形成一种有规律性的直线运动。

01 public class Trajectory
02 {
03     //直线轨迹算法
04     public static Vector2 GoStraight(Vector2 start_pos, float direction,
05                                      float start_speed, float accel_speed, float use_time, outVector2 pos)
06     {
07         float angle = direction * (float)Math.PI / 180.0f;
08         float seconds = (float)use_time;
09         float move_length = start_speed * seconds + accel_speed * seconds * seconds / 2.0f;
10         pos.X = move_length * (float)Math.Cos(angle) + start_pos.X;
11         pos.Y = move_length * (float)Math.Sin(angle) + start_pos.Y;
12         return pos;
13     }
14      
15     //这里的跟踪算法主要适用于匀速圆周运动类型的要跟踪,速率不变,一定的旋转角度
16     //追踪轨迹算法
17     public static Vector2 Tracking(Vector2 start_pos, ref float direction, Vector2 dest_pos,
18                                    float start_speed, float accel_speed, float track_degree,float use_time)
19     {
20         Vector2 newpos = new Vector2(0, 0);
21          
22         if (direction < 0)
23         {
24             direction += 360;
25         }
26         else
27         {
28             direction = direction % 360;
29         }
30          
31         //判断目标与飞行的夹角
32         float degree =(float) (Math.Atan2(dest_pos.Y - start_pos.Y,
33                                    dest_pos.X - start_pos.X) * 180 / Math.PI);
34         if (degree < 0)
35         {
36             degree += 360;
37         }
38          
39         //最小目标夹角
40         float dest_degree = (float)Math.Abs(degree - direction) % 360;
41         if (dest_degree > 180)
42         {
43             dest_degree = 360 - dest_degree;
44         }
45         if (dest_degree < 0.000001)
46         {
47             GoStraight(start_pos, direction, start_speed, accel_speed, use_time,out newpos);
48             return newpos;
49         }
50          
51         //计算最终旋转的夹角
52         float use_seconds = use_time / 1000.0f;
53         float rotate_degree = track_degree * use_seconds;
54         if (rotate_degree > dest_degree)
55         {
56             rotate_degree = dest_degree;
57         }
58         double inner_degree = degree - direction;
59         if (inner_degree > 180)
60         {
61             direction -= rotate_degree;
62         }
63         else if (inner_degree <= 180 && inner_degree >= 0)
64         {
65             direction += rotate_degree;
66         }
67         else if (inner_degree < -180)
68         {
69             direction += rotate_degree;
70         }
71         else if (inner_degree >= -180 && inner_degree <= 0)
72         {
73             direction -= rotate_degree;
74         }
75              
76         GoStraight(start_pos, direction, start_speed, accel_speed, use_time, out newpos);
77         return newpos;
78     }  
79  
80 }


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