void AnimEvent_PlaySfxGroup(string active_group)
{
string szSeparateExt = ";";
string[] v = active_group.Split(szSeparateExt.ToCharArray());
Debug.Assert(v.Length >= 2, "AnimEvent_ActiveSfxGroup is invalid : " + active_group);
bool active = false;
active = (v.Length < 2) ? true : (v[1].Equals("true") ? true : false);
SetParam(v[0], delegate(GameObject go)
{
if (go != null)
{
Debug.Log("Active Sfx Group : " + active_group + " frameCount : " + Time.frameCount);
if (active)
{
SendEventToOwner(SfxEventType.ActiveSfxGroup, v[0]);
}
else
{
SendEventToOwner(SfxEventType.DeActiveSfxGroup, v[0]);
}
}
});
}
sealed public override void _Init()
{
Debug.Assert(_uiState < UiState.Inited, @"UiCtrl(" + name + @") has already initialized.");
if (!_isCreated)
{
_Create();
}
_ChangeUiState(UiState.Inited);
_RelayUiParam();
if (_uiParamBase != null && _uiParamBase.onLoadCompleted != null)
{
_uiParamBase.onLoadCompleted(this);
}
OnInit();
// Refresh () is executed when refreshFlag is specified in OnInit ().
TryRefresh();
if (!_uiId.IsInvalid())
{
Debug.Log("<color=lightblue>Ui Activate :" + _uiId + "</color>");
}
}
//each time you want to get a new average, feed it the most recent value
//and this method will return an average over the last SampleSize updates
public Vector3 Update(Vector3 MostRecentValue)
{
Debug.Assert(m_iNextUpdateSlot < m_History.Count, "next update slot is fault count : " + m_iNextUpdateSlot);
if (m_iNextUpdateSlot < m_History.Count)
{
//overwrite the oldest value with the newest
m_History[m_iNextUpdateSlot++] = MostRecentValue;
}
//make sure m_iNextUpdateSlot wraps around.
if (m_iNextUpdateSlot >= m_History.Count)
{
m_iNextUpdateSlot = 0;
}
//now to calculate the average of the history list
//c++ code make a copy here, I use Zero method instead.
//Another approach could be creating public clone() method in Vector2D ...
Vector3 sum = m_ZeroValue;
sum = Vector3.zero;
for (int i = 0; i < m_History.Count; ++i)
{
sum += m_History[i];
}
sum = sum / m_History.Count;
return(sum);
}
/// <summary>
/// play sound using sfx
/// </summary>
/// <param name="index"> 0: method , 1: min , 2: max </param>
public void AnimEvent_PlaySound(string index)
{
Debug.Assert(soundCue != null, "sfx - soundCue is null :" + gameObject.name);
if (soundCue != null)
{
string szSeparateExt = ";";
string[] v = index.Split(szSeparateExt.ToCharArray());
Debug.Assert(v.Length >= 2, "PlaySound is invalid : " + gameObject.name + " arg : " + index);
if (v.Length == 2)
{
soundCue.method = (SoundCue.eMethod)System.Convert.ToInt32(v[0]);
soundCue.playMin = soundCue.playMax = System.Convert.ToInt32(v[1]);
}
else if (v.Length > 2)
{
soundCue.method = (SoundCue.eMethod)System.Convert.ToInt32(v[0]);
soundCue.playMin = System.Convert.ToInt32(v[1]);
soundCue.playMax = System.Convert.ToInt32(v[2]);
}
soundCue.PlaySound();
SendEventToOwner(SfxEventType.PlaySound, index);
}
}
protected void _ChangeUiState(UiState state)
{
Debug.Assert(_uiState != state);
_uiState = state;
_onUiStateChanged(this, state);
}
static string MakeFilePathForAccount(string fileName, string accountName, bool isOffline)
{
Debug.Assert(accountName != null);
string offMode = isOffline ? "_offline" : string.Empty;
return(string.Format("{0}/{1}{2}_{3}", Application.persistentDataPath, accountName, offMode, fileName));
}
public SteeringBehaviour(AIAgent _entity)
{
m_entity = _entity;
m_fWaypointSeekDistSq = wayPointSeekDist * wayPointSeekDist;
Debug.Assert(m_entity != null, "entity is null");
}
/// <summary>
/// Called after subframe managers of MainFrame are initialized
/// </summary>
public void PostInit()
{
if (Application.isPlaying)
{
Debug.Assert(IsMainFramePosInitReady());
}
_postInitCalled = true;
}
public void SetResultCb <T>(UiCallbackType <T> cb)
{
_resultCbD = cb;
if (_resultCbD == null)
{
return;
}
Debug.Assert(GetResultType() == typeof(T), @"SetResultCb() - Callback types do not match. '" + this.GetType().ToString() + @"' The return type of type '" + GetResultType());
}
public void SetDummyObject(string dummyObject_id)
{
GameObject _DummyObject = GetObjectInItem(dummyObject_id);
Debug.Assert(_DummyObject != null, "EAWeapon DummyObject is null");
if (_DummyObject != null)
{
fireDummyObject = _DummyObject;
}
}
void OnDestroy()
{
if (onSceneDestroy != null)
{
onSceneDestroy();
}
Debug.Log("EASceneLogic.OnDestroy()");
Debug.Assert(instance != null);
instance = null;
}
public static Camera FindMainCamera()
{
for (int i = 0; i < Camera.allCameras.Length; i++)
{
Camera cam = Camera.allCameras[i];
if (cam.tag == Tags.MainCamera)
{
return(cam);
}
}
Debug.Assert(false, "No MainCamera");
return(null);
}
void _ChangeState(State newState)
{
if (_state == newState)
{
Debug.Log("same State:" + newState);
return;
}
Debug.Log("Change State:" + newState);
// DownloadFiles만 같은 State로 전환가능. 나머진 불가.
if (_state != State.DownloadEachFile && _state == newState)
{
Debug.Assert(false, "Invalid State Transition: " + _state + "-->" + newState);
return;
}
_state = newState;
switch (_state)
{
case State.DownloadMasterFile:
_StartDownloadMasterFile();
break;
case State.CalcDownloadList:
StartCoroutine(_BuildDownloadList());
break;
case State.ShowConfirmMsg:
_ShowDownloadConfirmMsg();
break;
case State.DownloadEachFile:
_StartDownloadBundleFile();
break;
case State.End:
OnComplete(_errorDesc);
break;
case State.ConfirmRetry:
_ShowRetryConfirmMsg();
break;
case State.WaitRetry:
Debug.Log("WaitRetry. ContinuousNetworkErrorCnt:" + _continuousNetworkErrorCnt);
_retryWaitTimer = 1;
break;
}
}
public static Camera GetCamera(int depth)
{
for (int i = 0; i < Camera.allCameras.Length; i++)
{
Camera cam = Camera.allCameras[i];
if (cam.depth == depth)
{
return(cam);
}
}
Debug.Assert(false, "No Camera for depth: " + depth);
return(null);
}
public virtual void SetNextWaypoint()
{
Debug.Assert(m_WayPoints.Count > 0);
int limit = (m_WayPoints.Count == 0) ? 1 : m_WayPoints.Count;
if (m_bLooped)
{
currentIdx = (currentIdx + 1) % limit;
}
else
{
currentIdx = Math.Min(currentIdx + 1, limit - 1);
}
}
public override void _Deactivate()
{
if (this == null)
{
Debug.Assert(false);
return;
}
if (gameObject == null)
{
Debug.Assert(false);
return;
}
SetActive(false);
}
private Object Load(string path)
{
Object obj = null;
obj = CoreLoad <Object>(path);
if (obj != null)
{
return(obj);
}
obj = Resources.Load <Object>(path);
Debug.Assert(obj != null, "resource Load is null path : " + path);
return(obj);
}
public T Load <T>(string path) where T : Object
{
T obj = null;
obj = CoreLoad <T>(path);
if (obj != null)
{
return(obj);
}
obj = (T)Resources.Load <T>(path);
Debug.Assert(obj != null, "resource Load is null path : " + path);
return(obj);
}
// initialization
void Init()
{
if (null == _mainAudio)
{
_mainAudio = gameObject.AddComponent <AudioSource>();
_subAudio = gameObject.AddComponent <AudioSource>();
mainAudioOriVolume = _mainAudio.volume;
_mainAudio.volume = GetVolume(SOUND_TYPE.BGM) * _mainAudio.volume;
_mainAudio.loop = true;
_mainAudio.playOnAwake = false;
_subAudio.playOnAwake = false;
}
if (null == _defaultClip)
{
_defaultClip = ResourceManager.instance.Load <AudioClip>("Sound/se/Btn_Default");
}
Debug.Assert(_mainAudio != null, "main audio is null");
}
public EA_CEffectNode CreateEffect(EA_EffectBaseInfo info)
{
info.m_eEffectState = eEffectState.ES_Load;
// Temporarily specify ObjId (sometimes temporary use by external system)
bool bCreateTempId = false;
if (CObjGlobal.InvalidEffectID == info.m_GDEffectId)
{
info.m_GDEffectId = (GDEffectID)m_pIDGenerator.GenerateID();
bCreateTempId = true;
}
EA_CEffectNode pEffectNode = null;
if (bCreateTempId == false)
{
pEffectNode = GetEffectGroup(info.m_GDEffectId);
}
if (pEffectNode == null)
{
pEffectNode = new EA_CEffectNode();
if (pEffectNode != null)
{
m_mapEffectList.Add(info.m_GDEffectId, pEffectNode);
}
}
// Enter and apply the generated information
Debug.Assert(info != null, "No Effect Info");
if (pEffectNode != null)
{
pEffectNode.SetObjInfo(info);
}
return(pEffectNode);
}
private T CoreLoad <T>(string path) where T : Object
{
T obj = null;
if (EAAssetBundleLoadModule.instance != null &&
EAAssetBundleLoadModule.instance.GetUseBundle() == true)
{
obj = EAAssetBundleLoadModule.instance.Load <T>(path);
if (obj != null)
{
return(obj);
}
Debug.Assert(obj != null, "bundle resource Load is null path : " + path);
}
#if UNITY_EDITOR
obj = EAAssetBundleLoadModule.LoadLocal <T>(path);
#endif
return(obj);
}
/// <summary>
///
/// </summary>
/// <param name="parts_basic"></param>
/// <returns></returns>
private GameObject Attach(SkinnedMeshRenderer parts_basic)
{
Transform mesh = GetTransform("mesh");
GameObject go = EAFrameUtil.AddChild(mesh.gameObject, parts_basic.gameObject);
if (go != null)
{
go.SetActive(true);
SkinnedMeshRenderer parts = go.GetComponent <SkinnedMeshRenderer>();
if (parts != null)
{
EASKinInfo skinInfo = parts.GetComponent <EASKinInfo>();
Debug.Assert(skinInfo != null, "SkinInfo not valid : " + parts_basic.gameObject.name);
if (skinInfo != null)
{
Transform[] bones = new Transform[skinInfo.BoneNames.Length];
for (int i = 0; i < skinInfo.BoneNames.Length; i++)
{
bones[i] = GetTransform(skinInfo.BoneNames[i]);
}
parts.rootBone = GetTransform(skinInfo.RootboneName);
parts.bones = bones;
Bounds b = parts.localBounds;
b.center = Vector3.zero;
parts.localBounds = b;
}
}
}
return(go);
}
public void LoadScene(string sceneName, bool isPassFadeOutEffect = false, bool isPassFadeInEffect = false, float fadeOutValue = 0.5f, float fadeInValue = 0.5f, float fadeInDelayValue = 0.5f)
{
if (_state != State.None)
{
Debug.Assert(false, "warning loading scene");
return;
}
this.isPassFadeInEffect = isPassFadeInEffect;
this.fadeOutValue = fadeOutValue;
this.fadeInValue = fadeInValue;
this.fadeInDelayValue = fadeInDelayValue;
if (isPassFadeOutEffect == false)
{
// Do screen fade effect
StartLoad(sceneName);
}
else
{
StartLoad(sceneName);
}
}
/**
* this simply sums up all the active behaviors X their weights and
* truncates the result to the max available steering force before
* returning
*/
private Vector3 CalculateWeightedSum()
{
if (On(behaviour_type.wall_avoidance))
{
steeringForce += WallAvoidance(m_entity.World().Walls()) * m_fWeightWallAvoidance;
}
if (On(behaviour_type.obstacle_avoidance))
{
steeringForce += ObstacleAvoidance(m_entity.World().Obstacles()) * m_fWeightObstacleAvoidance;
}
if (On(behaviour_type.evade))
{
Debug.Assert(m_pTargetAgent1 != null, "Evade target not assigned");
steeringForce += Evade(m_pTargetAgent1) * m_fWeightEvade;
}
//these next three can be combined for flocking behavior (wander is
//also a good behavior to add into this mix)
if (On(behaviour_type.separation))
{
steeringForce += Separation(m_entity.GetAIGroup().Agents()) * m_fWeightSeparation;
}
if (On(behaviour_type.allignment))
{
steeringForce += Alignment(m_entity.GetAIGroup().Agents()) * m_fWeightAlignment;
}
if (On(behaviour_type.cohesion))
{
steeringForce += Cohesion(m_entity.GetAIGroup().Agents()) * m_fWeightCohesion;
}
if (On(behaviour_type.wander))
{
steeringForce += Wander() * m_fWeightWander;
}
if (On(behaviour_type.seek))
{
steeringForce += Seek(m_entity.VTarget()) * m_fWeightSeek;
}
if (On(behaviour_type.flee))
{
steeringForce += Flee(m_entity.VTarget()) * m_fWeightFlee;
}
if (On(behaviour_type.arrive))
{
steeringForce += Arrive(m_entity.VTarget(), m_deceleration) * m_fWeightArrive;
}
if (On(behaviour_type.pursuit))
{
Debug.Assert(m_pTargetAgent1 != null, "pursuit target not assigned");
steeringForce += Pursuit(m_pTargetAgent1) * m_fWeightPursuit;
}
if (On(behaviour_type.offset_pursuit))
{
Debug.Assert(m_pTargetAgent1 != null, "pursuit target not assigned");
Debug.Assert(m_vOffset.magnitude > 0, "No offset assigned");
//steeringForce += OffsetPursuit(m_pTargetAgent1, m_vOffset) * m_fWeightOffestPursuit;
}
if (On(behaviour_type.interpose))
{
Debug.Assert(m_pTargetAgent1 != null && m_pTargetAgent2 != null, "Interpose agents not assigned");
steeringForce += Interpose(m_pTargetAgent1, m_pTargetAgent2) * m_fWeightInterpose;
}
if (On(behaviour_type.hide))
{
Debug.Assert(m_pTargetAgent1 != null, "Hide target not assigned");
steeringForce += Hide(m_pTargetAgent1, m_entity.World().Obstacles());
}
if (On(behaviour_type.follow_path))
{
steeringForce += FollowPath() * m_fWeightFollowPath;
}
steeringForce = MathUtil.Truncate(steeringForce, m_entity.MaxForce());
return(steeringForce);
}
//returns a random integer between x and y
public static int RandInt(int x, int y)
{
Debug.Assert(y >= x, "<RandInt>: y is less than x");
return(rand.Next(int.MaxValue - x) % (y - x + 1) + x);
}
public void FireShoot()
{
EAActor pActor = GetOwnerActor();
Debug.Assert(pActor != null, "FireShoot Actor is null");
if (fireDummyObject != null && pActor != null)
{
ObjectInfo ObjInfo = new ObjectInfo();
ObjInfo.spawnPos[0] = fireDummyObject.transform.position.x;
ObjInfo.spawnPos[1] = fireDummyObject.transform.position.y;
ObjInfo.spawnPos[2] = fireDummyObject.transform.position.z;
ObjInfo.spawnAngle[0] = fireDummyObject.transform.rotation.eulerAngles.x;
ObjInfo.spawnAngle[1] = fireDummyObject.transform.rotation.eulerAngles.y;
ObjInfo.spawnAngle[2] = fireDummyObject.transform.rotation.eulerAngles.z;
ObjInfo.m_ModelTypeIndex = WeaponInfo.uProjectileModelType;
ObjInfo.m_objClassType = WeaponInfo.m_objProjectileClassType;
ObjInfo.SetObjName("projectile");
ItemObjInfo itemInfo = new ItemObjInfo();
EA_CCharBPlayer pCharBase = pActor.GetCharBase();
if (pCharBase != null)
{
itemInfo.m_HavenUser = pCharBase.GetObjID();
}
if (ObjInfo.m_objClassType == default(Type))
{
ObjInfo.m_objClassType = typeof(EAProjectile);
}
itemInfo.m_eItemType = eItemObjType.IK_Projectile;
EA_CItem pItem = EACObjManager.instance.CreateItem(ObjInfo, itemInfo);
// Create if no bullet. Do not use pool
if (pItem.GetLinkEntity() == null)
{
GameObject pGameObject = new GameObject("projectile", ObjInfo.m_objClassType);
pGameObject.transform.position = new Vector3(ObjInfo.spawnPos[0], ObjInfo.spawnPos[1], ObjInfo.spawnPos[2]);
pGameObject.transform.eulerAngles = new Vector3(ObjInfo.spawnAngle[0], ObjInfo.spawnAngle[1], ObjInfo.spawnAngle[2]);
pItem.SetLinkEntity(pGameObject);
pItem.SetLinkItem(pGameObject.GetComponent <EAProjectile>());
}
GameObject item = pItem.GetLinkEntity();
EAProjectile pProjectile = null;
if (item != null)
{
pProjectile = item.GetComponent <EAProjectile>();
}
if (pProjectile != null)
{
if (ProjectileTransform.instance != null)
{
pProjectile.transform.SetParent(ProjectileTransform.instance.transform);
}
// use sphereCollider
Collider c = pProjectile.GetComponent <Collider>();
if (c == null)
{
SphereCollider sc = pProjectile.gameObject.AddComponent <SphereCollider>();
sc.radius = WeaponInfo.projectileRadius;
}
pProjectile.SetProjectileDir(fireDummyObject.transform.forward);
pProjectile.SetOwnActor(itemInfo.m_HavenUser);
pProjectile.SetWeapon(GetItemBase().GetObjID());
pProjectile.SetWeaponInfo(WeaponInfo);
Debug.Log("fire shoot - weapon user id :" + itemInfo.m_HavenUser + " projectile type : " + WeaponInfo.projectileType);
}
pItem.Use();
}
}
/**
* this method sums up the active behaviors by assigning a probabilty
* of being calculated to each behavior. It then tests the first priority
* to see if it should be calculated this simulation-step. If so, it
* calculates the steering force resulting from this behavior. If it is
* more than zero it returns the force. If zero, or if the behavior is
* skipped it continues onto the next priority, and so on.
*
* NOTE: Not all of the behaviors have been implemented in this method,
* just a few, so you get the general idea
*/
private Vector3 CalculateDithered()
{
//reset the steering force
steeringForce = Vector3.zero;
if (On(behaviour_type.wall_avoidance) && MathUtil.RandFloat() < Prm.prWallAvoidance)
{
steeringForce += WallAvoidance(m_entity.World().Walls()) * (m_fWeightWallAvoidance / Prm.prWallAvoidance);
if (!MathUtil.IsZero(steeringForce))
{
steeringForce = MathUtil.Truncate(steeringForce, m_entity.MaxForce());
return(steeringForce);
}
}
if (On(behaviour_type.obstacle_avoidance) && MathUtil.RandFloat() < Prm.prObstacleAvoidance)
{
steeringForce += ObstacleAvoidance(m_entity.World().Obstacles()) * (m_fWeightObstacleAvoidance / Prm.prObstacleAvoidance);
if (!MathUtil.IsZero(steeringForce))
{
steeringForce = MathUtil.Truncate(steeringForce, m_entity.MaxForce());
return(steeringForce);
}
}
if (On(behaviour_type.separation) && MathUtil.RandFloat() < Prm.prSeparation)
{
steeringForce += Separation(m_entity.GetAIGroup().Agents()) * (m_fWeightSeparation / Prm.prSeparation);
if (!MathUtil.IsZero(steeringForce))
{
steeringForce = MathUtil.Truncate(steeringForce, m_entity.MaxForce());
return(steeringForce);
}
}
if (On(behaviour_type.flee) && MathUtil.RandFloat() < Prm.prFlee)
{
steeringForce += Flee(m_entity.VTarget()) * (m_fWeightFlee / Prm.prFlee);
if (!MathUtil.IsZero(steeringForce))
{
steeringForce = MathUtil.Truncate(steeringForce, m_entity.MaxForce());
return(steeringForce);
}
}
if (On(behaviour_type.evade) && MathUtil.RandFloat() < Prm.prEvade)
{
Debug.Assert(m_pTargetAgent1 != null, "Evade target not assigned");
steeringForce += Evade(m_pTargetAgent1) * (m_fWeightEvade / Prm.prEvade);
if (!MathUtil.IsZero(steeringForce))
{
MathUtil.Truncate(steeringForce, m_entity.MaxForce());
return(steeringForce);
}
}
if (On(behaviour_type.allignment) && MathUtil.RandFloat() < Prm.prAlignment)
{
steeringForce += Alignment(m_entity.GetAIGroup().Agents()) * (m_fWeightAlignment / Prm.prAlignment);
if (!MathUtil.IsZero(steeringForce))
{
steeringForce = MathUtil.Truncate(steeringForce, m_entity.MaxForce());
return(steeringForce);
}
}
if (On(behaviour_type.cohesion) && MathUtil.RandFloat() < Prm.prCohesion)
{
steeringForce += Cohesion(m_entity.GetAIGroup().Agents()) * (m_fWeightCohesion / Prm.prCohesion);
if (!MathUtil.IsZero(steeringForce))
{
steeringForce = MathUtil.Truncate(steeringForce, m_entity.MaxForce());
return(steeringForce);
}
}
if (On(behaviour_type.wander) && MathUtil.RandFloat() < Prm.prWander)
{
steeringForce += Wander() * (m_fWeightWander / Prm.prWander);
if (!MathUtil.IsZero(steeringForce))
{
steeringForce = MathUtil.Truncate(steeringForce, m_entity.MaxForce());
return(steeringForce);
}
}
if (On(behaviour_type.seek) && MathUtil.RandFloat() < Prm.prSeek)
{
steeringForce += Seek(m_entity.VTarget()) * (m_fWeightSeek / Prm.prSeek);
if (!MathUtil.IsZero(steeringForce))
{
steeringForce = MathUtil.Truncate(steeringForce, m_entity.MaxForce());
return(steeringForce);
}
}
if (On(behaviour_type.arrive) && MathUtil.RandFloat() < Prm.prArrive)
{
steeringForce += Arrive(m_entity.VTarget(), m_deceleration) * (m_fWeightArrive / Prm.prArrive);
if (!MathUtil.IsZero(steeringForce))
{
steeringForce = MathUtil.Truncate(steeringForce, m_entity.MaxForce());
return(steeringForce);
}
}
return(steeringForce);
}
/**
* this method calls each active steering behavior in order of priority
* and acumulates their forces until the max steering force magnitude
* is reached, at which time the function returns the steering force
* accumulated to that point
*/
private Vector3 CalculatePrioritized()
{
Vector3 force = Vector3.zero;
if (On(behaviour_type.wall_avoidance))
{
force = WallAvoidance(m_entity.World().Walls()) * m_fWeightWallAvoidance;
if (!AccumulateForce(ref steeringForce, force))
{
return(steeringForce);
}
}
if (On(behaviour_type.obstacle_avoidance))
{
force = ObstacleAvoidance(m_entity.World().Obstacles()) * m_fWeightObstacleAvoidance;
if (!AccumulateForce(ref steeringForce, force))
{
return(steeringForce);
}
}
if (On(behaviour_type.evade))
{
Debug.Assert(m_pTargetAgent1 != null, "Evade target not assigned");
force = Evade(m_pTargetAgent1) * m_fWeightEvade;
if (!AccumulateForce(ref steeringForce, force))
{
return(steeringForce);
}
}
if (On(behaviour_type.flee))
{
force = Flee(m_entity.VTarget()) * m_fWeightFlee;
if (!AccumulateForce(ref steeringForce, force))
{
return(steeringForce);
}
}
//these next three can be combined for flocking behavior (wander is
//also a good behavior to add into this mix)
if (On(behaviour_type.separation))
{
force = Separation(m_entity.GetAIGroup().Agents()) * m_fWeightSeparation;
if (!AccumulateForce(ref steeringForce, force))
{
return(steeringForce);
}
}
if (On(behaviour_type.allignment))
{
force = Alignment(m_entity.GetAIGroup().Agents()) * m_fWeightAlignment;
if (!AccumulateForce(ref steeringForce, force))
{
return(steeringForce);
}
}
if (On(behaviour_type.cohesion))
{
force = Cohesion(m_entity.GetAIGroup().Agents()) * m_fWeightCohesion;
if (!AccumulateForce(ref steeringForce, force))
{
return(steeringForce);
}
}
if (On(behaviour_type.seek))
{
force = Seek(m_entity.VTarget()) * m_fWeightSeek;
if (!AccumulateForce(ref steeringForce, force))
{
return(steeringForce);
}
}
if (On(behaviour_type.arrive))
{
force = Arrive(m_entity.VTarget(), m_deceleration) * m_fWeightArrive;
if (!AccumulateForce(ref steeringForce, force))
{
return(steeringForce);
}
}
if (On(behaviour_type.wander))
{
force = Wander() * m_fWeightWander;
if (!AccumulateForce(ref steeringForce, force))
{
return(steeringForce);
}
}
if (On(behaviour_type.pursuit))
{
Debug.Assert(m_pTargetAgent1 != null, "pursuit target not assigned");
force = Pursuit(m_pTargetAgent1) * m_fWeightPursuit;
if (!AccumulateForce(ref steeringForce, force))
{
return(steeringForce);
}
}
if (On(behaviour_type.offset_pursuit))
{
//Debug.Assert(m_pTargetAgent1 != null ,"pursuit target not assigned");
//Debug.Assert(m_vOffset != Vector3.zero,"No offset assigned");
//force = OffsetPursuit(m_pTargetAgent1, m_vOffset);
//if (!AccumulateForce(ref steeringForce, force))
//{
// return steeringForce;
//}
}
if (On(behaviour_type.interpose))
{
Debug.Assert(m_pTargetAgent1 != null && m_pTargetAgent2 != null, "Interpose agents not assigned");
force = Interpose(m_pTargetAgent1, m_pTargetAgent2) * m_fWeightInterpose;
if (!AccumulateForce(ref steeringForce, force))
{
return(steeringForce);
}
}
if (On(behaviour_type.hide))
{
Debug.Assert(m_pTargetAgent1 != null, "Hide target not assigned");
force = Hide(m_pTargetAgent1, m_entity.World().Obstacles()) * m_fWeightHide;
if (!AccumulateForce(ref steeringForce, force))
{
return(steeringForce);
}
}
if (On(behaviour_type.follow_path))
{
force = FollowPath() * m_fWeightFollowPath;
if (!AccumulateForce(ref steeringForce, force))
{
return(steeringForce);
}
}
return(steeringForce);
}
/// <summary>
///
/// </summary>
protected void FindWeapon()
{
EA_CCharBPlayer pActor = GetCharBase();
EA_Equipment pEquipment = null;
//2017 1126 Consider even without weapons
m_pCurWeapon = null;
if (pActor != null)
{
pEquipment = EA_ItemManager.instance.Equip_FindEqipment(pActor.GetObjID());
}
if (pEquipment != null)
{
EA_CItemUnit pItemUnit = pEquipment.GetCurrentItem();
if (pItemUnit != null)
{
EA_CItem pItem = EACObjManager.instance.GetItemObject(pItemUnit.GetObjId());
if (pItem != null)
{
Debug.Assert(pItem.GetLinkItem() != null, "EAActor FindWeapon pItem.GetLinkItem() is null");
if (pItem.GetLinkItem() != null)
{
m_pCurWeapon = (EAWeapon)pItem.GetLinkItem() as EAWeapon;
}
}
}
}
// [5/28/2018 puos] bug fixed
if (m_pCurWeapon == null)
{
if (pActor != null)
{
pEquipment = EA_ItemManager.instance.Equip_FindEqipment(pActor.GetObjID());
}
if (pEquipment != null)
{
EA_CItemUnit pItemUnit = pEquipment.GetCurrentItem();
if (pItemUnit != null)
{
EA_CItem pItem = EACObjManager.instance.GetItemObject(pItemUnit.GetObjId());
if (pItem != null)
{
Debug.Assert(pItem.GetLinkItem() != null, "EAActor FindWeapon2 pItem.GetLinkItem() is null");
if (pItem.GetLinkItem() != null)
{
m_pCurWeapon = (EAWeapon)pItem.GetLinkItem() as EAWeapon;
}
}
}
}
}
}
void OnDestroy()
{
Debug.Assert(instance != null);
}
