using UnityEngine; using System.Collections; using UnityEngine.AI; namespace BoatAttack.Boat { /// /// AIController is for non-human boats to control the engine of the boat /// public class AIcontroller : MonoBehaviour { public NavMeshPath navPath;//navigation path; private Vector3[] pathPoint = null; public Vector3 curWPPos; public int curPoint = 0; public int curWP = 0; public bool foundPath; private int pathPointNum; public Engine engine;//cache for AIs engine private Vector3 tempFrom;//nav from position private Vector3 tempTo;//nav to position private float targetSide;//side of destination, positive on right side, negative on left side private WaypointGroup.Waypoint[] WPs; // Use this for initialization void Start () { float delay = WaypointGroup.raceDelay; engine = GetComponent(); Invoke("GetNearestWP", delay); } // Update is called once per frame private void LateUpdate() { if (pathPoint != null) { if (pathPoint.Length > curPoint && foundPath) { /* if (Vector3.Distance(transform.position, pathPoint[pathPoint.Length - 1]) < WaypointGroup.Instance.GetWaypoint(curWP).WPradius * 2) // If we are close to the waypoint get the next one { GetNextWP(); // Get next waypoint }*/ if ((Vector3.Distance(transform.position, pathPoint[curPoint])) < 8) // If we are close to the current point on the path get the next { curPoint++; // Move on to next point if (curPoint >= pathPoint.Length) GetNextWP(); } } } } // Update is called once per frame void FixedUpdate () { if (pathPoint != null && pathPoint.Length > curPoint) { //\\\\\\\\Get angle to the destination and the side Vector3 normDir = pathPoint[curPoint] - transform.position; normDir = normDir.normalized; float dot = Vector3.Dot(normDir, transform.forward); //float angle = Mathf.Acos (dot) * Mathf.Rad2Deg; targetSide = Vector3.Cross(transform.forward, normDir).y;//positive on right side, negative on left side engine.Turn(Mathf.Clamp(targetSide, -1.0f, 1.0f)); engine.Accel(dot > 0 ? 1f : 0.25f); } } void GetNearestWP() { WaypointGroup.Waypoint wp = WaypointGroup.Instance.GetClosestWaypoint(transform.position); //if (Vector3.Dot(wp.point - transform.position, transform.forward) < 0) AssignWP(WaypointGroup.Instance.GetNextWaypoint(wp)); //else //AssignWP(WaypointGroup.Instance.GetClosestWaypoint(transform.position)); } void GetNextWP() { AssignWP(WaypointGroup.Instance.GetWaypoint(curWP)); } void AssignWP(WaypointGroup.Waypoint wp) { var offset = (Random.value * 2f - 1f) * wp.WPwidth * Vector3.left; curWPPos = wp.point + wp.rotation * offset; curWP++; if (curWP >= WaypointGroup.Instance.WPs.Count) curWP = 0; CalculatePath(); } /// /// Calculates a new path to the next waypoint /// void CalculatePath() { navPath = new NavMeshPath(); // New nav path NavMesh.CalculatePath(transform.position, curWPPos, 255, navPath); if (navPath.status == NavMeshPathStatus.PathComplete) // if the path is good(complete) use it { pathPoint = navPath.corners; curPoint = 1; foundPath = true; } else if(navPath == null || navPath.status == NavMeshPathStatus.PathInvalid) // if the path is bad, we havent found a path { foundPath = false; } } // Draw some helper gizmos void OnDrawGizmosSelected() { var c = Color.green; c.a = 0.5f; Gizmos.color = c; if (foundPath) { Gizmos.DrawLine(transform.position + (Vector3.up * 0.1f), WaypointGroup.Instance.GetWaypoint(curWP).point); Gizmos.DrawSphere(curWPPos, 1); c = Color.red; Gizmos.color = c; if (pathPoint[curPoint] != Vector3.zero) Gizmos.DrawLine(transform.position + (Vector3.up * 0.1f), pathPoint[curPoint]); c = Color.yellow; Gizmos.color = c; for (int i = 0; i < pathPoint.Length - 1; i++) { if (i == pathPoint.Length - 1) Gizmos.DrawLine(pathPoint[pathPoint.Length - 1], pathPoint[i]); else Gizmos.DrawLine(pathPoint[i], pathPoint[i + 1]); } } } } }