// Use this for initialization
void Start()
{
if (m_target == null)
{
return;
}
m_updateStopDistance = false;
m_targetPosition = m_target.position;
m_distanceToTarget = (m_targetPosition - transform.position).magnitude;
m_currentStopDistance = UnityEngine.Random.Range(m_stopDistanceMin, m_stopDistanceMax);
m_currentCollisionCount = 0;
m_currentCollisionHitArray = new RaycastHit[20]; //Change the size here if you want more collisions to be considered
//Load up terrain trees if we are avoiding collisions
if (m_avoidTreeCollisions)
{
m_terrainTreeManager = new TreeManager();
m_terrainTreeManager.LoadTreesFromTerrain();
}
//Load up our own colliders - we will filter them out when checking for hits
Collider[] colliders = GetComponentsInChildren <Collider>();
foreach (Collider collider in colliders)
{
m_myColliders.Add(collider.GetInstanceID(), collider);
}
}
/// <summary>
/// Fix up grounding and ground based rotation
/// </summary>
void LateUpdate()
{
if (m_target == null)
{
return;
}
if (m_groundToTerrain || m_rotateToTerrain)
{
Vector3 position = transform.position;
Terrain terrain = GetTerrain(position);
if (terrain == null)
{
return;
}
position.y = terrain.SampleHeight(position);
if (m_groundToTerrain)
{
transform.position = position;
}
if (m_rotateToTerrain)
{
Vector3 terrainLocalPos = terrain.transform.InverseTransformPoint(position);
Vector3 normalizedPos = new Vector3(Mathf.InverseLerp(0.0f, terrain.terrainData.size.x, terrainLocalPos.x),
Mathf.InverseLerp(0.0f, terrain.terrainData.size.y, terrainLocalPos.y),
Mathf.InverseLerp(0.0f, terrain.terrainData.size.z, terrainLocalPos.z));
Vector3 normal = terrain.terrainData.GetInterpolatedNormal(normalizedPos.x, normalizedPos.z);
//float steepness = terrain.terrainData.GetSteepness(normalizedPos.x, normalizedPos.z);
transform.rotation = Quaternion.FromToRotation(transform.up, normal) * transform.rotation;
}
}
//Update collisions if seleted
if (m_avoidObjectCollisions)
{
//Do sphere cast
m_currentCollisionCount = Physics.SphereCastNonAlloc(transform.position, m_collisionRange, transform.forward, m_currentCollisionHitArray, 0f, m_objectCollisionLayer, QueryTriggerInteraction.UseGlobal);
}
if (m_avoidTreeCollisions)
{
//Load trees if not loaded
if (m_terrainTreeManager == null)
{
m_terrainTreeManager = new TreeManager();
m_terrainTreeManager.LoadTreesFromTerrain();
}
//Do tree check
m_currentTreeCollisionCount = m_terrainTreeManager.GetTrees(transform.position, m_collisionRange + (m_collisionRange / 2f), ref m_currentTreeCollisionHitArray);
}
}