IEnumerator DoSomething()
{
Routine = true;
yield return(new WaitForSeconds(TimeForNewPath));
GetNewPath();
validpath = navMeshAgent.CalculatePath(target, navpath);
if (!validpath)
{
Debug.Log("no path");
validpath = navMeshAgent.CalculatePath(target, navpath);
}
yield return(new WaitForSeconds(RestTime));
Routine = false;
}
// Calculates the distance of the target to npc. Compare the return value with sight range.
public float CalculatePathLength(NavMeshAgent navMeshAgent, Vector3 targetPosition)
{
NavMeshPath path = new NavMeshPath();
if (navMeshAgent.enabled)
{
navMeshAgent.CalculatePath(targetPosition, path);
}
Vector3[] allWayPoints = new Vector3[path.corners.Length + 2];
allWayPoints[0] = entity.transform.position;
allWayPoints[allWayPoints.Length - 1] = targetPosition;
for (int i = 0; i < path.corners.Length; i++)
{
allWayPoints[i + 1] = path.corners[i];
}
float pathLength = 0f;
for (int i = 0; i < allWayPoints.Length - 1; i++)
{
pathLength += Vector3.Distance(allWayPoints[i], allWayPoints[i + 1]);
}
return(pathLength);
}
public void onJump(int id)
{
if (5009 == id)
{//死亡印记
if (m_linkProfessionRole.m_LockRole != null)
{
NavMeshPath path = new NavMeshPath();
NavMeshAgent nav = transform.GetComponent <NavMeshAgent>();
Vector3 pos = transform.position;
int i = 2;
for (; i <= 2 && i >= 0; i--)
{
Vector3 endPos = m_linkProfessionRole.m_LockRole.m_curModel.position + transform.forward * i;
if (nav.CalculatePath(endPos, path))
{
float dis = Vector3.Distance(pos, endPos);
transform.DOJump(endPos, 0.2f * dis + endPos.y, 1, 0.01f);
break;
}
}
GameObject inst = GameObject.Instantiate(ASSASSIN_S1) as GameObject;
inst.transform.SetParent(m_linkProfessionRole.m_LockRole.m_curModel, false);
GameObject.Destroy(inst, 3f);
}
}
m_linkProfessionRole.ShowAll();
}
IEnumerator ReserveSpawn()
{
_reserveCount++;
yield return(new WaitForSeconds(Random.Range(0, _spawnTime)));
GameObject obj = Managers.Game.Spawn(Define.WorldObject.Monster, monsterName);
Vector3 randPos;
NavMeshAgent nma = obj.GetOrAddComponent <NavMeshAgent>();
while (true)
{
Vector3 randDir = Random.insideUnitSphere * Random.Range(0, _spawnRadius);
randDir.y = 0;
randPos = _spawnPos + randDir;
NavMeshPath path = new NavMeshPath();
if (nma.CalculatePath(randPos, path))
{
break;
}
}
obj.transform.position = randPos;
_reserveCount--;
}
private bool IsAltarReachable()
{
NavMeshPath _tryPath = new NavMeshPath();
_agent.CalculatePath(_altar.transform.position, _tryPath);
float _pathDistance = 0;
for (int i = 0; i < _tryPath.corners.Length; i++)
{
if (i + 1 < _tryPath.corners.Length)
{
_pathDistance += Vector3.Distance(_tryPath.corners[i], _tryPath.corners[i + 1]);
}
}
if (_tryPath.status == NavMeshPathStatus.PathPartial)
{
return(false);
}
else if (_tryPath.status == NavMeshPathStatus.PathComplete && _pathDistance <= _maxDistance)
{
return(true);
}
else
{
return(false);
}
}
/// <summary>
/// Generates the random positions and checks if they are validly placed on the navmesh
/// </summary>
/// <param name="a_iAmountOfPoints">The amount of patrol points</param>
/// <param name="a_fRange">The range the points can be generated away from the center point</param>
private void GeneratePositions(int a_iAmountOfPoints, float a_fRange)
{
for (int i = 0; i < a_iAmountOfPoints; i++) //Loop through the points
{
PatrolPoints ppPatrolPlaceholder = new PatrolPoints(); //Temporary placeholder to add later
bool bCanReachTarget = false; //Can the point actually be reached
while (bCanReachTarget == false) //Loop until point is valid
{
ppPatrolPlaceholder.SetRandomPos(m_v3PatrolCenter, a_fRange); //Get random position
NavMeshPath nmpPath = new NavMeshPath(); //Create new nav path
m_aAgentRef.CalculatePath(ppPatrolPlaceholder.m_v3PatrolPointPosition, nmpPath); //
if (nmpPath.status == NavMeshPathStatus.PathPartial || nmpPath.status == NavMeshPathStatus.PathInvalid) //If path is not valid
{
Debug.Log("Bad Point");
}
else
{
bCanReachTarget = true;
}
}
ppPatrolPlaceholder.m_iIndex = i; //Set index of point
m_lPatrolPointList.Add(ppPatrolPlaceholder); //Add it to list
}
}
IEnumerator NavTargetUpdate()
{
yield return(new WaitForSeconds(1.0f));
while (true)
{
NavMeshPath path = new NavMeshPath();
nav.CalculatePath(playerPos.position, path);
if (path.status == NavMeshPathStatus.PathComplete)
{
if (!playerSpotted)
{
yield return(new WaitForSeconds(Random.Range(0.0f, 0.5f)));
anim.SetTrigger("PlayerSpotted");
playerSpotted = true;
spotDelay = 2.8f;
}
if (spotDelay <= 0)
{
nav.SetPath(path);
}
}
yield return(new WaitForSeconds(navTargetRefreshDelay));
}
}
public IEnumerator wander()
{
Vector3 newPos = RandomNavmeshLocation(wanderRadius); // gets random point on navmesh
while (true)
{
NavMeshPath path = new NavMeshPath();
navMeshAgent.CalculatePath(newPos, path);
if (path.status != NavMeshPathStatus.PathComplete) // checks to make sure that a path can be calcultaed with given random point
{
Debug.Log("Invalid path");
newPos = NavMeshUtils.RandomNavSphere(transform.position, wanderRadius, -1);
}
else
{
break;
}
}
AICurrentTargetLocation = newPos;
navMeshAgent.SetDestination(newPos);
yield return new WaitUntil(() => Vector3.Distance(gameObject.transform.position, newPos) <= 0.25f);
wanderCoroutine = null;
}
public bool IsReachable(NavMeshAgent nmAgent, float radiusA, float radiusB)
{
if (this._pathForCalc == null)
{
this._pathForCalc = new NavMeshPath();
}
bool flag1 = true;
bool flag2;
if (((Behaviour)nmAgent).get_isActiveAndEnabled())
{
nmAgent.CalculatePath(this.Position, this._pathForCalc);
flag2 = flag1 & this._pathForCalc.get_status() == 0;
float num1 = 0.0f;
Vector3[] corners = this._pathForCalc.get_corners();
for (int index = 0; index < corners.Length - 1; ++index)
{
float num2 = Vector3.Distance(corners[index], corners[index + 1]);
num1 += num2;
float num3 = this.CommandType != CommandType.Forward ? radiusB : radiusA;
if ((double)num1 > (double)num3)
{
flag2 = false;
break;
}
}
}
else
{
flag2 = false;
}
return(flag2);
}
void ChaseTarget()
{
// Do not chase if currently attacking
if (currentlyAttacking || blocking || takingDamage)
{
return;
}
// Walk towards target
walking = true;
// Find closest point on navmesh from the player controllers center, check if it is reachable
NavMeshHit hit;
NavMeshPath path = new NavMeshPath();
if (NavMesh.SamplePosition(playerPos, out hit, 2f, NavMesh.AllAreas))
{
agent.CalculatePath(hit.position, path);
if (path.status == NavMeshPathStatus.PathComplete)
{
agent.SetDestination(hit.position);
}
else
{
OutOfReach();
}
}
else
{
OutOfReach();
}
}
void Fleeing()
{
//If the smoke grenade does not exist anymore
if (go_SmokeAOE == null)
{
//Sets the ReturnToPost state
SetNewState("ReturnToPost");
}
else if (!SmokeGrenadeSeen) //If the smoke grenade hasn't been seen
{
//Calculate the distance between itself and the smoke grenade while ignoring the Y position
float Distance = Vector3.Distance(new Vector3(transform.position.x, 1f, transform.position.z), new Vector3(go_SmokeAOE.transform.position.x, 1f, go_SmokeAOE.transform.position.z));
//If the distance is less than the maximum fleeing distance
if (Distance < fl_NPC_FleeingDist)
{
//Calculate the direction between itself and the smoke grenade while ignoring the Y position
Vector3 Direction = new Vector3(transform.position.x, 1f, transform.position.z) - new Vector3(go_SmokeAOE.transform.position.x, 1f, go_SmokeAOE.transform.position.z);
//Calculate the new position
Vector3 NewPosition = new Vector3(transform.position.x, 1f, transform.position.z) + Direction;
//Set the target position to the new position
v3_NPC_TargetPos = NewPosition;
}
//Create local variable for setting a new path
NavMeshPath NewPath = new NavMeshPath();
//Calculate a path for the target position and store it in a variable
nm_Agent.CalculatePath(v3_NPC_TargetPos, NewPath);
//Replace the current path as the stored path
nm_Agent.path = NewPath;
}
}
// Update is called once per frame
void Update()
{
UnityEngine.Collider[] col = Physics.OverlapSphere(transform.position, 10f);
if (col.Length > 0)
{
for (int i = 0; i < col.Length; i++)
{
Transform tf_Target = col[i].transform;
if (tf_Target.name == "Player")
{
NavMeshPath path = new NavMeshPath();
agent.CalculatePath(tf_Target.position, path);
Vector3[] wayPoints = new Vector3[path.corners.Length + 2];
wayPoints[0] = transform.position;
wayPoints[wayPoints.Length - 1] = tf_Target.position;
float _distance = 0f;
for (int j = 0; j < path.corners.Length; j++)
{
wayPoints[j + 1] = path.corners[j];
_distance += Vector3.Distance(wayPoints[j], wayPoints[j + 1]);
}
if (_distance <= 10f)
{
agent.SetDestination(tf_Target.position);
}
}
}
}
}
public override void OnBehaviourPlay(Playable playable, FrameData info)
{
NavMeshPath path = new NavMeshPath();
meshAgent.CalculatePath(destination.position, path);
if (path.corners.Length < 2)
{
return;
}
Vector3 previousCorner = path.corners[0];
float lengthSoFar = 0.0f;
int i = 1;
while (i < path.corners.Length)
{
Vector3 currentCorner = path.corners[i];
lengthSoFar += Vector3.Distance(previousCorner, currentCorner);
previousCorner = currentCorner;
i++;
}
double navTime = lengthSoFar / meshAgent.speed;
Debug.Log("NavTime: " + navTime);
}
private void NavAgentPath()
{//导航路径 整合
NavMeshPath path = new NavMeshPath();
navAgent.CalculatePath(targetPos, path);
way = new Vector3[path.corners.Length];
for (int i = 0; i < path.corners.Length; i++)
{
way[i] = path.corners[i];//将用导航网格获得的路径关键点,添加到这个数组中
}//那么此时way这个数组中包含的就是从这个机器人当前位置 到目的位置 所要经过的所有关键点
//那么接下来 机器人导航按照上面所说的路径来
//先计算这个路径的总长度。用来判断是否到达目的地的关键要素
length = 0;
for (int i = 0; i < way.Length - 1; i++)
{
length += (way[i + 1] - way[i]).magnitude;//计算两点之间的长度
}
//for(int i = 0; i < way.Length; i++)
//{
// print(way[i]);
//}
//l++;
//print("way数组的长度" + way.Length);
//print("遍历完"+l);
}
//Move around player Function
void CheckCover()
{
Debug.Log("funciona!");
float minDistance = 1000;
float HidingSpotDistance;
float playerToHideDistance;
for (int i = 0; i < hidingPoints.Length; i++)
{
HidingSpotDistance = Vector3.Distance(transform.position, hidingPoints [i].transform.position);
playerToHideDistance = Vector3.Distance(playerPos.position, hidingPoints [i].transform.position);
if (HidingSpotDistance < minDistance && HidingSpotDistance > stopHidingRange && HidingSpotDistance < playerToHideDistance)
{
hideSpotPos = hidingPoints [i].transform.position;
minDistance = Vector3.Distance(transform.position, hidingPoints [i].transform.position);
}
}
if (minDistance < 1000)
{
bool checkpath;
NavMeshPath myPath = new NavMeshPath();
checkpath = myNav.CalculatePath(hideSpotPos, myPath);
if (myPath.status == NavMeshPathStatus.PathComplete)
{
StartGetCover();
}
}
}
/// <summary>
/// Calculate the path to player using nav path
/// </summary>
/// <param name="targetPos"></param>
/// <returns></returns>
private float PathLength(Vector3 targetPos)
{
NavMeshPath path = new NavMeshPath();
if (nav.enabled)
{
nav.CalculatePath(targetPos, path);
}
Vector3[] allWayPoints = new Vector3[path.corners.Length + 2];
allWayPoints[0] = npcT.position;
allWayPoints[allWayPoints.Length - 1] = targetPos;
for (int i = 0; i < path.corners.Length; i++)
{
allWayPoints[i + 1] = path.corners[i];
}
float pathLength = 0;
for (int i = 0; i < allWayPoints.Length - 1; i++)
{
pathLength += Vector3.Distance(allWayPoints[i], allWayPoints[i + 1]);
}
return(pathLength);
}
GameObject GetRetreatRedBase(BluePoliceSim threat)
{
GameObject selectedRedBase = simControlScript.RedBases[0];
float minRangeRatio = float.MaxValue;
foreach (GameObject redBase in simControlScript.RedBases)
{
NavMeshPath thisPath = new NavMeshPath();
if (thisNavAgent.CalculatePath(redBase.transform.position, thisPath))
{
float thisLength = PathLength(thisPath);
float threatRange = threat.GetRangeTo(redBase);
if (threatRange > 0f)
{
float thisRatio = thisLength / threatRange;
if (thisRatio < minRangeRatio)
{
minRangeRatio = thisRatio;
selectedRedBase = redBase;
}
}
}
}
return(selectedRedBase);
}
IEnumerator ReserveSpawn()
{
++_reserveCount;
yield return(new WaitForSeconds(UnityEngine.Random.Range(0, _spawnTime)));
GameObject Obj = Managers.Game.Spawn(Define.eWorldObject.Monster, "Knight");
NavMeshAgent nma = Obj.GetComponent <NavMeshAgent>();
Vector3 randPos;
while (true)
{
Vector3 randDir = Random.insideUnitSphere * Random.Range(0, _SpawnRadius);
randPos.y = 0;
randPos = _SpawnPosition + randDir;
// 갈 수 있나
NavMeshPath path = new NavMeshPath();
if (nma.CalculatePath(randPos, path))
{
break;
}
}
Obj.transform.position = randPos;
--_reserveCount;
}
public NullableVector3 FindCover(Transform attacker, NavMeshAgent na, float coverCheckRadius, int numberOfChecks, LayerMask coverCriteria)
{
NullableVector3 cover = null;
NavMeshPath coverPath = null;
for (int i = 0; i < numberOfChecks; i++)
{
// Obtains a random position within a certain vicinity of the agent
Vector3 randomPosition = ai.transform.position + Random.insideUnitSphere * coverCheckRadius;
NavMeshHit coverCheck;
// Checks if there is an actual point on the navmesh close to the randomly selected position
if (NavMesh.SamplePosition(randomPosition, out coverCheck, na.height * 2, NavMesh.AllAreas))
{
if (AIFunction.LineOfSight(coverCheck.position, attacker, coverCriteria) == false) // If line of sight is not established
{
// Ensures that the agent can actually move to the cover position.
NavMeshPath newPathToTest = new NavMeshPath();
if (na.CalculatePath(coverCheck.position, newPathToTest))
{
// Checks if the new cover position is easier to get to than the old one.
if (cover == null || AIFunction.NavMeshPathLength(newPathToTest) < AIFunction.NavMeshPathLength(coverPath)) // Use OR statement, and check navmesh path cost between transform.position and the cover point currently being checked.
{
// If so, new cover position is established, and navmesh path is stored for next comparison
cover = new NullableVector3(coverCheck.position);
coverPath = newPathToTest;
}
}
}
}
}
return(cover);
}
public float AgentWalkDistance(Vector3 start, Vector3 end, Color color)
{
//move agent to the start position
Vector3 initialPosition = transform.position;
_agent.Move(start - initialPosition);
//test to see if agent has path or not
float distance = Mathf.Infinity;
NavMeshPath navMeshPath = _agent.path;
if (!_agent.CalculatePath(end, navMeshPath))
{
_agent.Move(initialPosition - start); return(distance);
}
Vector3[] path = navMeshPath.corners;
if (path.Length < 2)
{
_agent.Move(initialPosition - start); return(distance);
}
//get walking path distance
distance = 0;
for (int i = 1; i < path.Length; i++)
{
distance += Vector3.Distance(path[i - 1], path[i]);
Debug.DrawLine(path[i - 1], path[i], color); //visualizing the path, not necessary to return
}
_agent.Move(initialPosition - start);
return(distance);
}
public void CalculatePathAndMoveAgent()
{
agent = GetComponent <NavMeshAgent>();
agent.CalculatePath(finishPoint.transform.position, path);
if (path.status == NavMeshPathStatus.PathComplete)
{
agent.SetDestination(finishPoint.transform.position);
}
else if (path.status == NavMeshPathStatus.PathInvalid)
{
print("Path invalid");
}
else if (path.status == NavMeshPathStatus.PathPartial)
{
print("Path partial (GETTING BLOCKED)");
fntScript = GetComponent <FindNearestTurret>();
if (fntScript.target == null)
{
agent.SetDestination(finishPoint.transform.position);
}
else
{
Destroy(fntScript.target.gameObject);
}
}
}
public static float WalkDistance(Vector3 to, NavMeshAgent usedAgent)
{
NavMeshPath path = new NavMeshPath();
usedAgent.CalculatePath(to, path);
return(CalcPathDistance(path));
}
public void DetectNewObstacle(Vector3 obstaclePos)
{
//print ("method get called");
//print (Vector3.Distance (obstaclePos, transform.position));
if (Vector3.Distance(obstaclePos, this.transform.position) < detectRadius)
{
print("flee obj");
Vector3 fleeDirection = (transform.position - obstaclePos).normalized;
Vector3 newGoal = this.transform.position + fleeDirection * fleeRadius;
// creating a path must make sure the environment is baked
NavMeshPath path = new NavMeshPath();
agent.CalculatePath(newGoal, path);
if (path.status == NavMeshPathStatus.PathInvalid)
{
Debug.Log("Invalid Path");
}
// path is not invalid then flee mother f****r
if (path.status != NavMeshPathStatus.PathInvalid)
{
//Debug.Log (path.corners[0]);
agent.SetDestination(path.corners[path.corners.Length - 1]);
agent.speed = 20f;
agent.angularSpeed = 500f;
print("fleeing");
}
}
}
IEnumerator shootAndKill()
{
RaycastHit rh2;
Debug.Log("preshot");
float gaa = Vector3.Distance(this.transform.position, target.position);
Physics.Raycast(this.transform.position, target.position - this.transform.position, out rh2);
Debug.DrawRay(this.transform.position + new Vector3(0, 2, 0), target.position - this.transform.position, Color.blue);
Debug.Log("preshot2");
if ((rh2.transform.gameObject.tag == "Statute" || rh2.transform.gameObject.tag == "Player" || rh2.transform.gameObject.tag == "gate") && gaa < range)
{
Debug.Log("wszedl do shotu");
anim.SetInteger("controller", 2);
nma.isStopped = true;
Rigidbody tmp = Instantiate(rb, transsexualista.position, transsexualista.rotation);
tmp.gameObject.GetComponent <Rigidbody>().AddForce(this.transform.forward * shootforce, ForceMode.Impulse);
yield return(new WaitForSeconds(tor));
StartCoroutine(shootAndKill());
Debug.Log("postshot");
}
else
{
Debug.Log("nie wszedl do shotu");
anim.SetInteger("controller", 1);
Debug.Log(target.name);
nma.CalculatePath(target.position, nmp);
nma.path = nmp;
yield return(new WaitForSeconds(tor));
StartCoroutine(shootAndKill());
Debug.Log("postnoshot");
}
}
public void SetDestination(Vector3 destination)
{
//if(!canComputePath) return;
NavMeshHit hit;
if (!NavMesh.SamplePosition(destination, out hit, 30, NavMesh.AllAreas))
{
Debug.LogWarning("Creature Die Because off of navmesh");
owner.Creature.Die();
return;
}
destination = hit.position;
Destination = destination;
if (!nav.isOnNavMesh)
{
Debug.LogWarning("Creature Die Because off of navmesh");
owner.Creature.Die();
return;
}
nav.CalculatePath(Destination, computingPath);
//owner.StartCoroutine(WaitAndCanComputePath());
}
void Update()
{
SetAgentPosition();
if (Input.GetMouseButtonDown(0) && !Input.GetKey(KeyCode.LeftShift))
{
var ray = Camera.main.ScreenPointToRay(Input.mousePosition);
if (Physics.Raycast(ray.origin, ray.direction, out m_HitInfo))
{
//m_Agent.destination = m_HitInfo.point;
m_Path = new NavMeshPath();
endDestination = m_HitInfo.point;
m_Agent.CalculatePath(endDestination, m_Path);
pathIter = 1;
m_Agent.isStopped = false;
}
}
if (m_Path.corners == null || m_Path.corners.Length == 0)
{
return;
}
if (pathIter >= m_Path.corners.Length)
{
destination = new Vector3(float.PositiveInfinity, float.PositiveInfinity, float.PositiveInfinity);
m_Agent.isStopped = true;
return;
}
else
{
destination = m_Path.corners[pathIter];
}
if (destination.x < float.PositiveInfinity)
{
Vector3 direction = destination - AgentPosition;
var newDir = Vector3.RotateTowards(transform.forward, direction, 50 * Time.deltaTime, 0.0f);
var newRot = Quaternion.LookRotation(newDir);
transform.rotation = Quaternion.Slerp(transform.rotation, newRot, Time.deltaTime * 2f);
float distance = Vector3.Distance(AgentPosition, destination);
if (distance > m_Agent.radius + 0.1)
{
Vector3 movement = transform.forward * Time.deltaTime * 2f;
m_Agent.Move(movement);
}
else
{
++pathIter;
if (pathIter >= m_Path.corners.Length)
{
destination = new Vector3(float.PositiveInfinity, float.PositiveInfinity, float.PositiveInfinity);
m_Agent.isStopped = true;
}
}
}
}
public bool CanReachPosition(Vector3 position)
{
NavMeshPath path = new NavMeshPath();
navMeshAgent.CalculatePath(position, path);
return(path.status == NavMeshPathStatus.PathComplete);
}
//소리가 이동하는 총 거리를 계산합니다.
float CalculatePathLength(Vector3 targetPosition)
{
NavMeshPath path = new NavMeshPath();
if (nav.enabled)
{
nav.CalculatePath(targetPosition, path);
}
//각 코너를 저장합니다.
Vector3[] allWayPoints = new Vector3[path.corners.Length + 2];
//처음과 끝은 플레이어와 NPC의 위치
allWayPoints[0] = transform.position;
allWayPoints[allWayPoints.Length - 1] = targetPosition;
for (int i = 0; i < path.corners.Length; i++)
{
allWayPoints[i + 1] = path.corners[i];
}
float pathLength = 0f;
//거리를 더합니다
for (int i = 0; i < allWayPoints.Length - 1; i++)
{
pathLength += Vector3.Distance(allWayPoints[i], allWayPoints[i + 1]);
}
return(pathLength);
}
void MoveCheck(Ray screenRay)
{
if (m_CalculatedPath.status == NavMeshPathStatus.PathComplete)
{
m_Agent.SetPath(m_CalculatedPath);
m_CalculatedPath.ClearCorners();
}
if (Physics.RaycastNonAlloc(screenRay, m_RaycastHitCache, 1000.0f, m_LevelLayer) > 0)
{
Vector3 point = m_RaycastHitCache[0].point;
//avoid recomputing path for close enough click
if (Vector3.SqrMagnitude(point - m_LastRaycastResult) > 1.0f)
{
NavMeshHit hit;
if (NavMesh.SamplePosition(point, out hit, 0.5f, NavMesh.AllAreas))
{//sample just around where we hit, avoid setting destination outside of navmesh (ie. on building)
m_LastRaycastResult = point;
//m_Agent.SetDestination(hit.position);
m_Agent.CalculatePath(hit.position, m_CalculatedPath);
}
}
}
}
public static float CalculatePathLength(Vector3 targetPosition, Vector3 originalPosition, GameObject originalObject)
{
NavMeshPath path = new NavMeshPath();
NavMeshAgent nav = originalObject.GetComponent <NavMeshAgent>();
if (nav.enabled)
{
nav.CalculatePath(targetPosition, path);
}
Vector3[] allWayPoints = new Vector3[path.corners.Length + 2];
allWayPoints[0] = originalPosition;
allWayPoints[allWayPoints.Length - 1] = targetPosition;
for (int i = 0; i < path.corners.Length; i++)
{
allWayPoints[i + 1] = path.corners[i];
}
float pathLength = 0f;
for (int i = 0; i < allWayPoints.Length - 1; i++)
{
pathLength += Vector3.Distance(allWayPoints[i], allWayPoints[i + 1]);
}
return(pathLength / 2);
}
