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GWConquest/Assets/Standard Assets/ParticleSystems/Scripts/AfterburnerPhysicsForce.cs

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Dust & Asteroid Effects
3 years ago
 
  1. using System;
  2. using UnityEngine;
  3. 

  4. namespace UnityStandardAssets.Effects
  5. {
  6.     [RequireComponent(typeof (SphereCollider))]
  7.     public class AfterburnerPhysicsForce : MonoBehaviour
  8.     {
  9.         public float effectAngle = 15;
  10.         public float effectWidth = 1;
  11.         public float effectDistance = 10;
  12.         public float force = 10;
  13. 

  14.         private Collider[] m_Cols;
  15.         private SphereCollider m_Sphere;
  16. 

  17. 

  18.         private void OnEnable()
  19.         {
  20.             m_Sphere = (GetComponent<Collider>() as SphereCollider);
  21.         }
  22. 

  23. 

  24.         private void FixedUpdate()
  25.         {
  26.             m_Cols = Physics.OverlapSphere(transform.position + m_Sphere.center, m_Sphere.radius);
  27.             for (int n = 0; n < m_Cols.Length; ++n)
  28.             {
  29.                 if (m_Cols[n].attachedRigidbody != null)
  30.                 {
  31.                     Vector3 localPos = transform.InverseTransformPoint(m_Cols[n].transform.position);
  32.                     localPos = Vector3.MoveTowards(localPos, new Vector3(0, 0, localPos.z), effectWidth*0.5f);
  33.                     float angle = Mathf.Abs(Mathf.Atan2(localPos.x, localPos.z)*Mathf.Rad2Deg);
  34.                     float falloff = Mathf.InverseLerp(effectDistance, 0, localPos.magnitude);
  35.                     falloff *= Mathf.InverseLerp(effectAngle, 0, angle);
  36.                     Vector3 delta = m_Cols[n].transform.position - transform.position;
  37.                     m_Cols[n].attachedRigidbody.AddForceAtPosition(delta.normalized*force*falloff,
  38.                                                                  Vector3.Lerp(m_Cols[n].transform.position,
  39.                                                                               transform.TransformPoint(0, 0, localPos.z),
  40.                                                                               0.1f));
  41.                 }
  42.             }
  43.         }
  44. 

  45. 

  46.         private void OnDrawGizmosSelected()
  47.         {
  48.             //check for editor time simulation to avoid null ref

  49.             if(m_Sphere == null)
  50.                 m_Sphere = (GetComponent<Collider>() as SphereCollider);
  51. 

  52.             m_Sphere.radius = effectDistance*.5f;
  53.             m_Sphere.center = new Vector3(0, 0, effectDistance*.5f);
  54.             var directions = new Vector3[] {Vector3.up, -Vector3.up, Vector3.right, -Vector3.right};
  55.             var perpDirections = new Vector3[] {-Vector3.right, Vector3.right, Vector3.up, -Vector3.up};
  56.             Gizmos.color = new Color(0, 1, 0, 0.5f);
  57.             for (int n = 0; n < 4; ++n)
  58.             {
  59.                 Vector3 origin = transform.position + transform.rotation*directions[n]*effectWidth*0.5f;
  60. 

  61.                 Vector3 direction =
  62.                     transform.TransformDirection(Quaternion.AngleAxis(effectAngle, perpDirections[n])*Vector3.forward);
  63. 

  64.                 Gizmos.DrawLine(origin, origin + direction*m_Sphere.radius*2);
  65.             }
  66.         }
  67.     }
  68. }