protected void RunActionControl(int nPlayIndex, int nTransIndex)
{
NgUtil.LogDevelop("RunActionControl() - nPlayIndex " + nPlayIndex);
CancelInvoke();
m_bCalledDelayCreate = false;
// ������ �ð��� ���� �����̵��� �ص���...
ResumeTimeScale();
// Play ---------------------------------------
m_bStartAliveAnimation = false;
switch (nPlayIndex)
{
/*AutoRet*/
case 0: break;
case 1: break;
/*OneShot*/
case 2: SetTimeScale(m_fPlayToolbarTimes[nPlayIndex]); break;
/*Repeat*/
case m_nRepeatIndex:
case m_nRepeatIndex + 1:
case m_nRepeatIndex + 2:
case m_nRepeatIndex + 3:
case m_nRepeatIndex + 4: {
// repeat�����̸�.. �̵����� �ɼ��� ����.
if (nPlayIndex != m_nPlayIndex)
{
nTransIndex = 0;
}
break;
}
}
// Trans ---------------------------------------
if (0 < nTransIndex)
{
// init multishot
// if (m_nTransIndex != nTransIndex && (m_nTransIndex != 0 && nTransIndex != 0))
// m_nMultiShotCount = 1;
float fTransHalfDist = (Camera.main != null ? (Vector3.Magnitude(Camera.main.transform.position) * 0.8f) : 1) * m_fTransRate;
GameObject instEffectObject = FxmTestMain.inst.GetInstanceEffectObject();
GameObject simRoot = NgObject.CreateGameObject(instEffectObject.transform.parent.gameObject, "simulate");
FxmTestSimulate simComponent = simRoot.AddComponent <FxmTestSimulate>();
instEffectObject.transform.parent = simRoot.transform;
FxmTestMain.inst.ChangeRoot_InstanceEffectObject(simRoot);
simComponent.Init(this, m_nMultiShotCount);
switch (nTransIndex)
{
case 1: // Move
{
simComponent.SimulateMove(m_nTransAxis, fTransHalfDist, m_fDistPerTime, (m_nRotateIndex == 0));
break;
}
case 2: // scale
{
simComponent.SimulateScale(m_nTransAxis, fTransHalfDist * 0.3f, m_fStartPosition, m_fDistPerTime, (m_nRotateIndex == 0));
break;
}
case 3: // Arc
{
simComponent.SimulateArc(fTransHalfDist * 0.7f, m_fDistPerTime, (m_nRotateIndex == 0));
break;
}
case 4: // fall
{
simComponent.SimulateFall(fTransHalfDist * 0.7f, m_fDistPerTime, (m_nRotateIndex == 0));
break;
}
case 5: // raise
{
simComponent.SimulateRaise(fTransHalfDist * 0.7f, m_fDistPerTime, (m_nRotateIndex == 0));
break;
}
case 6: // circle
{
simComponent.SimulateCircle(fTransHalfDist * 0.5f, m_fDistPerTime, (m_nRotateIndex == 0));
break;
}
case 7: // tornado
{
simComponent.SimulateTornado(fTransHalfDist * 0.3f, fTransHalfDist * 0.7f, m_fDistPerTime, (m_nRotateIndex == 0));
break;
}
}
}
// �̵�ó�����̸�... �ڵ��ݺ��ǹǷ� ����repeat�ɼ��� ����.
if (0 < nTransIndex)
{
if (m_nRepeatIndex <= nPlayIndex)
{
nPlayIndex = 0;
}
}
// ���� ������ ����
m_nPlayIndex = nPlayIndex;
m_nTransIndex = nTransIndex;
if (IsRepeat())
{
m_fCreateTime = Time.time;
}
}
protected void RunActionControl(int nPlayIndex, int nTransIndex)
{
NgUtil.LogDevelop("RunActionControl() - nPlayIndex " + nPlayIndex);
base.CancelInvoke();
this.m_bCalledDelayCreate = false;
this.ResumeTimeScale();
this.m_bStartAliveAnimation = false;
switch (nPlayIndex)
{
case 2:
this.SetTimeScale(this.m_fPlayToolbarTimes[nPlayIndex]);
break;
case 3:
case 4:
case 5:
case 6:
case 7:
if (nPlayIndex != this.m_nPlayIndex)
{
nTransIndex = 0;
}
break;
}
if (0 < nTransIndex)
{
float num = ((!(Camera.main != null)) ? 1f : (Vector3.Magnitude(Camera.main.transform.position) * 0.8f)) * this.m_fTransRate;
GameObject instanceEffectObject = FxmTestMain.inst.GetInstanceEffectObject();
GameObject gameObject = NgObject.CreateGameObject(instanceEffectObject.transform.parent.gameObject, "simulate");
FxmTestSimulate fxmTestSimulate = gameObject.AddComponent <FxmTestSimulate>();
instanceEffectObject.transform.parent = gameObject.transform;
FxmTestMain.inst.ChangeRoot_InstanceEffectObject(gameObject);
fxmTestSimulate.Init(this, this.m_nMultiShotCount);
switch (nTransIndex)
{
case 1:
fxmTestSimulate.SimulateMove(this.m_nTransAxis, num, this.m_fDistPerTime, this.m_nRotateIndex == 0);
break;
case 2:
fxmTestSimulate.SimulateScale(this.m_nTransAxis, num * 0.3f, this.m_fStartPosition, this.m_fDistPerTime, this.m_nRotateIndex == 0);
break;
case 3:
fxmTestSimulate.SimulateArc(num * 0.7f, this.m_fDistPerTime, this.m_nRotateIndex == 0);
break;
case 4:
fxmTestSimulate.SimulateFall(num * 0.7f, this.m_fDistPerTime, this.m_nRotateIndex == 0);
break;
case 5:
fxmTestSimulate.SimulateRaise(num * 0.7f, this.m_fDistPerTime, this.m_nRotateIndex == 0);
break;
case 6:
fxmTestSimulate.SimulateCircle(num * 0.5f, this.m_fDistPerTime, this.m_nRotateIndex == 0);
break;
case 7:
fxmTestSimulate.SimulateTornado(num * 0.3f, num * 0.7f, this.m_fDistPerTime, this.m_nRotateIndex == 0);
break;
}
}
if (0 < nTransIndex && 3 <= nPlayIndex)
{
nPlayIndex = 0;
}
this.m_nPlayIndex = nPlayIndex;
this.m_nTransIndex = nTransIndex;
if (this.IsRepeat())
{
this.m_fCreateTime = Time.time;
}
}
protected void RunActionControl(int nPlayIndex, int nTransIndex)
{
NgUtil.LogDevelop("RunActionControl() - nPlayIndex " + nPlayIndex);
CancelInvoke("CreateInstanceEffect");
m_bCalledDelayCreate = false;
// 정지된 시계일 경우 움직이도록 해두자...
ResumeTimeScale();
// Play ---------------------------------------
m_bStartAliveAnimation = false;
switch (nPlayIndex)
{
/*AutoRet*/
case 0: break;
case 1: break;
/*OneShot*/
case 2: SetTimeScale(m_fPlayToolbarTimes[nPlayIndex]); break;
/*Repeat*/
case m_nRepeatIndex:
case m_nRepeatIndex + 1:
case m_nRepeatIndex + 2:
case m_nRepeatIndex + 3:
case m_nRepeatIndex + 4: {
// repeat선택이면.. 이동관련 옵션을 끈다.
if (nPlayIndex != m_nPlayIndex)
{
nTransIndex = 0;
}
break;
}
}
// Trans ---------------------------------------
if (0 < nTransIndex)
{
// init multishot
// if (m_nTransIndex != nTransIndex && (m_nTransIndex != 0 && nTransIndex != 0))
// m_nMultiShotCount = 1;
float fTransHalfDist = (Camera.mainCamera != null ? (Vector3.Magnitude(Camera.mainCamera.transform.position) * 0.65f) : 1) * m_fTransRate;
GameObject instEffectObject = FXMakerMain.inst.GetInstanceEffectObject();
GameObject simRoot = NgObject.CreateGameObject(instEffectObject.transform.parent.gameObject, "simulate");
FXMakerSimulate simComponent = simRoot.AddComponent <FXMakerSimulate>();
instEffectObject.transform.parent = simRoot.transform;
FXMakerMain.inst.ChangeRoot_InstanceEffectObject(simRoot);
simComponent.Init(this, m_nMultiShotCount);
switch (nTransIndex)
{
case 1: // Move
{
simComponent.SimulateMove(m_nTransAxis, fTransHalfDist, FXMakerOption.inst.m_fScaleTransSpeed * m_fDistPerTime, (m_nRotateIndex == 0));
break;
}
case 2: // scale
{
simComponent.SimulateScale(m_nTransAxis, fTransHalfDist * 0.3f, FXMakerOption.inst.m_fScaleTransSpeed * m_fDistPerTime, (m_nRotateIndex == 0));
break;
}
case 3: // Arc
{
simComponent.SimulateArc(fTransHalfDist * 0.7f, FXMakerOption.inst.m_fScaleTransSpeed * m_fDistPerTime, (m_nRotateIndex == 0));
break;
}
case 4: // fall
{
simComponent.SimulateFall(fTransHalfDist * 0.7f, FXMakerOption.inst.m_fScaleTransSpeed * m_fDistPerTime, (m_nRotateIndex == 0));
break;
}
case 5: // raise
{
simComponent.SimulateRaise(fTransHalfDist * 0.7f, FXMakerOption.inst.m_fScaleTransSpeed * m_fDistPerTime, (m_nRotateIndex == 0));
break;
}
case 6: // circle
{
simComponent.SimulateCircle(fTransHalfDist * 0.5f, FXMakerOption.inst.m_fScaleTransSpeed * m_fDistPerTime, (m_nRotateIndex == 0));
break;
}
case 7: // tornado
{
simComponent.SimulateTornado(fTransHalfDist * 0.3f, fTransHalfDist * 0.7f, FXMakerOption.inst.m_fScaleTransSpeed * m_fDistPerTime, (m_nRotateIndex == 0));
break;
}
}
}
// 이동처리중이면... 자동반복되므로 기존repeat옵션은 끈다.
if (0 < nTransIndex)
{
if (m_nRepeatIndex <= nPlayIndex)
{
nPlayIndex = 0;
}
}
// 최족 결정값 저장
m_nPlayIndex = nPlayIndex;
m_nTransIndex = nTransIndex;
if (IsRepeat())
{
m_fCreateTime = Time.time;
}
}
