khanat-code-old/code/nel/src/3d/particle_system_model.cpp

// NeL - MMORPG Framework <http://dev.ryzom.com/projects/nel/>
// Copyright (C) 2010  Winch Gate Property Limited
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as
// published by the Free Software Foundation, either version 3 of the
// License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program.  If not, see <http://www.gnu.org/licenses/>.

#include "std3d.h"

#include "nel/misc/debug.h"
#include "nel/misc/common.h"
#include "nel/misc/hierarchical_timer.h"
#include "nel/3d/particle_system_model.h"
#include "nel/3d/particle_system_shape.h"
#include "nel/3d/particle_system.h"
#include "nel/3d/scene.h"
#include "nel/3d/anim_detail_trav.h"
#include "nel/3d/clip_trav.h"
#include "nel/3d/render_trav.h"
#include "nel/3d/skeleton_model.h"

#include "nel/3d/cluster.h" // ask trap




namespace NL3D {


uint64 PSStatsRegisterPSModelObserver = 0;
uint64 PSStatsRemovePSModelObserver = 0;
uint64 PSStatsUpdateOpacityInfos = 0;
uint64 PSStatsUpdateLightingInfos = 0;
uint64 PSStatsGetAABBox = 0;
uint64 PSStatsReallocRsc = 0;
uint64 PSStatsReleasePSPointer = 0;
uint64 PSStatsRefreshRscDeletion = 0;
uint64 PSStatsReleaseRsc = 0;
uint64 PSStatsReleaseRscAndInvalidate = 0;
uint64 PSStatsGetNumTriangles = 0;
uint64 PSStatsCheckAgainstPyramid = 0;
uint64 PSStatsTraverseAnimDetail = 0;
uint64 PSStatsDoAnimate = 0;
uint64 PSStatsDoAnimatePart1 = 0;
uint64 PSStatsDoAnimatePart2 = 0;
uint64 PSStatsDoAnimatePart3 = 0;
uint64 PSStatsTraverseRender = 0;
uint64 PSStatsTraverseClip = 0;
uint64 PSStatsClipSystemInstanciated = 0;
uint64 PSStatsClipSystemNotInstanciated = 0;
uint64 PSStatsClipSystemCheckAgainstPyramid = 0;
uint64 PSStatsInsertInVisibleList = 0;
uint64 PSStatsCheckDestroyCondition = 0;
uint64 PSStatsForceInstanciate = 0;
uint64 PSStatsTraverseAnimDetailPart1 = 0;
uint64 PSStatsTraverseAnimDetailPart2 = 0;
uint64 PSStatsTraverseAnimDetailPart3 = 0;
uint64 PSStatsTraverseAnimDetailPart4 = 0;
//
uint64 PSAnim1 = 0;
uint64 PSAnim2 = 0;
uint64 PSAnim3 = 0;
uint64 PSAnim4 = 0;
uint64 PSAnim5 = 0;
uint64 PSAnim6 = 0;
uint64 PSAnim7 = 0;
uint64 PSAnim8 = 0;
uint64 PSAnim9 = 0;
uint64 PSAnim10 = 0;
uint64 PSAnim11 = 0;
//
uint PSStatsNumDoAnimateCalls = 0;
float PSMaxET = 0.f;
uint PSMaxNBPass = 0;
//
uint64 PSStatsZonePlane = 0;
uint64 PSStatsZoneSphere = 0;
uint64 PSStatsZoneDisc = 0;
uint64 PSStatsZoneRectangle = 0;
uint64 PSStatsZoneCylinder = 0;
//
uint64 PSMotion1 = 0;
uint64 PSMotion2 = 0;
uint64 PSMotion3 = 0;
uint64 PSMotion4 = 0;
uint64 PSStatCollision = 0;
uint64 PSStatEmit = 0;
uint64 PSStatRender = 0;







///=====================================================================================
/// ctor
CParticleSystemModel::CParticleSystemModel() : _ParticleSystem(NULL),
											   _Scene(NULL),
											   _EllapsedTime(0.01f),
											   _EllapsedTimeRatio(1.f),
											   _AnimType(CParticleSystem::AnimVisible),
											   _AutoGetEllapsedTime(true),
											   _ToolDisplayEnabled(false),
											   _TransparencyStateTouched(true),
											   _LightableStateTouched(true),
											   _EditionMode(false),
											   _Invalidated(false),
											   _InsertedInVisibleList(false),
											   _InClusterAndVisible(false),
											   _EmitterActive(true),
											   _SoundActive(true),
											   _BypassGlobalUserParam(0),
											   _UserColor(CRGBA::White),
											   _ZBias(0.f),
											   _LastVisibility(CHrcTrav::Show)
{
	setOpacity(false);
	setTransparency(true);
	IAnimatable::resize(AnimValueLast);
	_TriggerAnimatedValue.Value = true;

	// AnimDetail behavior: Must be traversed in AnimDetail, even if no channel mixer registered
	CTransform::setIsForceAnimDetail(true);

	for(uint k = 0; k < MaxPSUserParam; ++k)
	{
		_UserParam[k].Value = 0.f;
	}

	// RenderFilter: We are a Landscape
	_RenderFilterType= UScene::FilterPS;
}

///=====================================================================================
void CParticleSystemModel::setEditionMode(bool enable /*= true*/)
{
	if (enable)
	{
		/// we need to have the system resources instanciated if we want to work with it
		if (!_ParticleSystem)
		{
			nlassert(_Scene);
			nlassert(Shape);
			reallocRsc();
		}
	}
	_EditionMode = enable;
}

///=====================================================================================
void CParticleSystemModel::registerPSModelObserver(IPSModelObserver *obs)
{
	MINI_TIMER(PSStatsRegisterPSModelObserver)
	nlassert(!isPSModelObserver(obs)); // this observer has already been registered
	_Observers.push_back(obs);
}

///=====================================================================================
void CParticleSystemModel::removePSModelObserver(IPSModelObserver *obs)
{
	MINI_TIMER(PSStatsRemovePSModelObserver);
	nlassert(isPSModelObserver(obs)); // the observer must have been registered
	std::vector<IPSModelObserver *>::iterator it = std::find(_Observers.begin(), _Observers.end(), obs);
	_Observers.erase(it);
}


///=====================================================================================
bool CParticleSystemModel::isPSModelObserver(IPSModelObserver *obs)
{
	return std::find(_Observers.begin(), _Observers.end(), obs) != _Observers.end();
}


///=====================================================================================
void CParticleSystemModel::registerBasic()
{
	// register the model
	CScene::registerModel(ParticleSystemModelId, TransformShapeId, CParticleSystemModel::creator);
}

///=====================================================================================
void CParticleSystemModel::updateOpacityInfos(void)
{
	MINI_TIMER(PSStatsUpdateOpacityInfos);
	nlassert(_ParticleSystem);
	if (!_TransparencyStateTouched) return;
	nlassert(_ParticleSystem);
	setOpacity(_ParticleSystem->hasOpaqueObjects() || _ToolDisplayEnabled);
	setTransparency(_ParticleSystem->hasTransparentObjects());
	_TransparencyStateTouched = false;
}

///=====================================================================================
void CParticleSystemModel::updateLightingInfos(void)
{
	MINI_TIMER(PSStatsUpdateLightingInfos)
	nlassert(_ParticleSystem);
	if (!_LightableStateTouched) return;
	CTransform::setIsLightable(_ParticleSystem->hasLightableObjects());
	_LightableStateTouched = false;
}

///=====================================================================================
void CParticleSystemModel::getAABBox(NLMISC::CAABBox &bbox) const
{
	MINI_TIMER(PSStatsGetAABBox)
	if (_ParticleSystem)
	{
		_ParticleSystem->computeBBox(bbox);
	}
	else
	{
		NLMISC::safe_cast<CParticleSystemShape *>((IShape *) Shape)->getAABBox(bbox);
	}
}

///=====================================================================================
CParticleSystemModel::~CParticleSystemModel()
{
	nlassert(_Scene);
	releaseRsc();
	// Auto detach me from skeleton. Must do it here, not in ~CTransform().
	if(_FatherSkeletonModel)
	{
		// detach me from the skeleton.
		// clip and hrc hierarchy is modified.
		_FatherSkeletonModel->detachSkeletonSon(this);
		nlassert(_FatherSkeletonModel==NULL);
	}
}


///=====================================================================================
/// Called when the resource (attached system) for this system must be reallocated
void CParticleSystemModel::reallocRsc()
{
	//MINI_TIMER(PSStatsReallocRsc)
	nlassert(_ParticleSystem == NULL);
	#ifdef PS_FAST_ALLOC
		CParticleSystemShape		*shape = NLMISC::safe_cast<CParticleSystemShape *>((IShape *) Shape);
		if (shape->isShared())
		{
			// there's a single CparticleSystemInstance even if there are several models
			_ParticleSystem = shape->instanciatePS(*_Scene, &shape->Allocator);
		}
		else
		{
			_ParticleSystem = shape->instanciatePS(*_Scene, &_Allocator);
		}
	#else
		_ParticleSystem = NLMISC::safe_cast<CParticleSystemShape *>((IShape *) Shape)->instanciatePS(*_Scene);
	#endif
	nlassert(_ParticleSystem);
	nlassert(_Scene);
	CParticleSystemManager &psmgt = _Scene->getParticleSystemManager();
	_ModelHandle = psmgt.addSystemModel(this);
	_AnimType = _ParticleSystem->getAnimType();
	if (_ParticleSystem->getAnimType() == CParticleSystem::AnimAlways)
	{
		_AnimatedModelHandle = psmgt.addPermanentlyAnimatedSystem(this);
	}
	// touch user params animated value. If the system rsc have been released before, this force to restore them
	for (uint k = 0; k < MaxPSUserParam; ++k)
	{
		touch((uint)CParticleSystemModel::PSParam0 + k, OwnerBit);
	}
	_ParticleSystem->setUserColor(_UserColor);
	//
	if (!_EmitterActive) _ParticleSystem->activateEmitters(false);
	if (!_SoundActive) _ParticleSystem->stopSound();
	//
	if (_ZBias != 0.f) _ParticleSystem->setZBias(_ZBias);
}

///=====================================================================================
void CParticleSystemModel::releasePSPointer()
{
	MINI_TIMER(PSStatsReleasePSPointer)
	nlassert(_ParticleSystem != NULL);
	sint numRefs = _ParticleSystem.getNbRef();
	if (numRefs == 1)
	{
		// Backup user params (in animated value) so that they will be restored when the system is recreated
		for (uint k = 0; k < MaxPSUserParam; ++k)
		{
			_UserParam[k].Value = _ParticleSystem->getUserParam(k);
		}
	}
	//
	nlassert(_Scene);
	_Scene->getParticleSystemManager().removeSystemModel(_ModelHandle);
	if (_ParticleSystem->getAnimType() == CParticleSystem::AnimAlways)
	{
		if (_AnimatedModelHandle.Valid)
		{
			_Scene->getParticleSystemManager().removePermanentlyAnimatedSystem(_AnimatedModelHandle);
		}
	}
	//
	_ParticleSystem = NULL; // one less ref with the smart ptr
	#ifdef PS_FAST_ALLOC
		CParticleSystemShape		*shape = NLMISC::safe_cast<CParticleSystemShape *>((IShape *) Shape);
		if (shape->isShared())
		{
			if (numRefs == 1)
			{
				// release allocator in the shape
				shape->Allocator.release();
			}
		}
	#endif
}

///=====================================================================================
void CParticleSystemModel::refreshRscDeletion(const std::vector<CPlane>	&worldFrustumPyramid,  const NLMISC::CVector &viewerPos)
{
	MINI_TIMER(PSStatsRefreshRscDeletion)
	if (_EditionMode) return;
	/** Here we test whether the system has not gone out of scope.
	  * Why do we test this here addtionnaly to the clip traversal ?
	  * Simply because the clip traversal is not called if the cluster it is inserted in is not parsed.
	  * This is not good, because we want to keep few CParticleSystem instance.
	  * This method solve that problem. This is called by the particle system manager when each scene has rendered
	  */


	nlassert(_ParticleSystem);
	CParticleSystemShape		*shape = NLMISC::safe_cast<CParticleSystemShape *>((IShape *) Shape);

	/* NLMISC::CVector sysPos = getTransformMode() == DirectMatrix ?
							 getMatrix().getPos()			    :
							 getPos(); */

	NLMISC::CVector sysPos = getWorldMatrix().getPos();

	NLMISC::CVector v = sysPos - viewerPos;
	/// test if not too far
	const float dist2 = v * v;

	if (dist2 > shape->_MaxViewDist * shape->_MaxViewDist) // too far ?
	{
		releasePSPointer();
		if (shape->_DestroyModelWhenOutOfRange)
		{
			_Invalidated = true;
		}
		return;
	}

	/// frustum test
	if (shape->_DestroyWhenOutOfFrustum)
	{
		if (checkAgainstPyramid(worldFrustumPyramid) == false)
		{
			if (shape->_DestroyModelWhenOutOfRange)
			{
				_Invalidated = true;
			}
			releasePSPointer();
			return;
		}
	}

	return;
}

///=====================================================================================
void CParticleSystemModel::releaseRsc()
{
	MINI_TIMER(PSStatsReleaseRsc)
	if (!_ParticleSystem) return;
	releasePSPointer();
}

///=====================================================================================
void CParticleSystemModel::releaseRscAndInvalidate()
{
	MINI_TIMER(PSStatsReleaseRscAndInvalidate)
	if (!_ParticleSystem) return;
	releasePSPointer();
	_Invalidated = true;

	static std::vector<IPSModelObserver *> copyVect;
	copyVect.resize(_Observers.size());
	std::copy(_Observers.begin(), _Observers.end(), copyVect.begin());

	for (std::vector<IPSModelObserver *>::iterator it = copyVect.begin(); it != copyVect.end(); ++it)
	{
		(*it)->invalidPS(this); // if this crash, then you forgot to call removePSModelObserver !
	}
	#ifdef PS_FAST_ALLOC
		CParticleSystemShape		*shape = NLMISC::safe_cast<CParticleSystemShape *>((IShape *) Shape);
		if (!shape->isShared())
		{
			_Allocator.release();
		}
		// else ..
		// if system if shared, the allocator is placed in the shape, so no-op there
	#endif
}

///=====================================================================================
IAnimatedValue* CParticleSystemModel::getValue (uint valueId)
{
	nlassert(valueId < AnimValueLast);
	if (valueId < OwnerBit) return CTransformShape::getValue(valueId);
	if (valueId < PSTrigger)
	{

		return &_UserParam[valueId - (uint)  PSParam0];
	}
	return &_TriggerAnimatedValue;
}

///=====================================================================================
const char *CParticleSystemModel::getPSParamName (uint valueId)
{
	nlassert(valueId < AnimValueLast);
	const char *name[] = { "PSParam0", "PSParam1", "PSParam2", "PSParam3" };
	return name[valueId - (uint) PSParam0];
}

///=====================================================================================
const char *CParticleSystemModel::getValueName (uint valueId) const
{
	nlassert(valueId < AnimValueLast);
	if (valueId < OwnerBit) return CTransformShape::getValueName(valueId);
	if (valueId < PSTrigger) return getPSParamName(valueId);
	return "PSTrigger";
}

///=====================================================================================
ITrack* CParticleSystemModel::getDefaultTrack (uint valueId)
{
	nlassert(valueId < AnimValueLast);
	nlassert(Shape);

	CParticleSystemShape *pss = NLMISC::safe_cast<CParticleSystemShape *>((IShape *) Shape);

	switch (valueId)
	{
		case PosValue:			return pss->getDefaultPos();
		case RotQuatValue:		return pss->getDefaultRotQuat();
		case ScaleValue:		return pss->getDefaultScale();
	}
	if (valueId < OwnerBit) return CTransformShape::getDefaultTrack(valueId); // delegate to parent

	// this value belong to us
	if (valueId < PSTrigger)
	{
		return pss->getUserParamDefaultTrack(valueId - (uint) PSParam0);
	}
	return pss->getDefaultTriggerTrack();
}

///=====================================================================================
void CParticleSystemModel::registerToChannelMixer(CChannelMixer *chanMixer, const std::string &prefix /* =std::string() */)
{
	CTransformShape::registerToChannelMixer(chanMixer, prefix);
	addValue(chanMixer, PSParam0, OwnerBit, prefix, true);
	addValue(chanMixer, PSParam1, OwnerBit, prefix, true);
	addValue(chanMixer, PSParam2, OwnerBit, prefix, true);
	addValue(chanMixer, PSParam3, OwnerBit, prefix, true);
	addValue(chanMixer, PSTrigger, OwnerBit, prefix, true);
}


///=====================================================================================
float CParticleSystemModel::getNumTriangles (float distance)
{
	MINI_TIMER(PSStatsGetNumTriangles)
	if (!_ParticleSystem) return 0;
	if (!_InsertedInVisibleList) return 0;
	return (float) _ParticleSystem->getWantedNumTris(distance);
}

///=========================================================================================
bool CParticleSystemModel::checkAgainstPyramid(const std::vector<CPlane>	&pyramid) const
{
	MINI_TIMER(PSStatsCheckAgainstPyramid)
	nlassert(_ParticleSystem);
	NLMISC::CAABBox bbox;
	_ParticleSystem->computeBBox(bbox);
	const CMatrix		&mat = getWorldMatrix();

	// Transform the pyramid in Object space.
	for(sint i=0; i < (sint) pyramid.size(); i++)
	{
		// test whether the bbox is entirely in the neg side of the plane
		if (!bbox.clipBack(pyramid[i]  * mat  ))
		{
			return false;
		}
	}
	return true;

}

//////////////////////////////////////////////
// CParticleSystem AnimDetail implementation  //
//////////////////////////////////////////////

///=====================================================================================
void	CParticleSystemModel::traverseAnimDetail()
{
	MINI_TIMER(PSStatsTraverseAnimDetail)
	CTransformShape::traverseAnimDetail();
	CParticleSystem *ps = getPS();
	if (!_WorldVis) return;
	if (_Invalidated) return;
	if (getVisibility() == CHrcTrav::Hide) return;

	{
		MINI_TIMER(PSStatsTraverseAnimDetailPart1)
		if (!_EditionMode && !_InClusterAndVisible)
		{
			CParticleSystemShape		*pss = NLMISC::safe_cast<CParticleSystemShape *>((IShape *)Shape);
			if (pss->_DestroyWhenOutOfFrustum)
			{
				if (pss->_DestroyModelWhenOutOfRange)
				{
					releaseRscAndInvalidate();
				}
				else // remove rsc but do not invalidate the system
				{
					releaseRsc();
				}
				return;
			}
			if (!ps) return;
		}

		// check for trigger. If the trigger is false, and there is a system instanciated, we delete it.
		if (!_EditionMode)
		{
			if (!_TriggerAnimatedValue.Value)
			{
				// system is off, or hasn't been instanciated now...
				if (ps)
				{
					releaseRsc();
				}
				return;
			}
		}
	}

	{
		MINI_TIMER(PSStatsTraverseAnimDetailPart2)

		// the system or its center is in the view frustum, but it may not have been instanciated from its shape now
		if (!ps)
		{
			nlassert(_Scene);
			nlassert(Shape);
			reallocRsc();
			ps = _ParticleSystem;
		}
	}

	CClipTrav			&clipTrav= getOwnerScene()->getClipTrav();

	{
		MINI_TIMER(PSStatsTraverseAnimDetailPart3)
		if (_InClusterAndVisible ||  ps->getAnimType() == CParticleSystem::AnimInCluster)
		{
			bool animate = true;
			if (ps->isSharingEnabled()) /// with shared system, we only animate one version!
			{
				if (ps->_LastUpdateDate == clipTrav.CurrentDate)
				{
					animate = false;
				}
				else
				{
					ps->_LastUpdateDate = clipTrav.CurrentDate;
				}
			}
			else
			{
				ps->_LastUpdateDate = clipTrav.CurrentDate;
			}
			ps->_LastUpdateDate = clipTrav.CurrentDate;
			if (animate)
			{
				if (ps->getAnimType() != CParticleSystem::AnimAlways) // if the animation is always perfomred,
																	  // then animation is done by the particle system manager
																	  // just before the render trav
				{
					doAnimate();
				}
			}
		}
	}

	{
		MINI_TIMER(PSStatsTraverseAnimDetailPart4)
		// add a render model if in cluster & not hidden
		if (_InClusterAndVisible)
		{
			getOwnerScene()->getRenderTrav().addRenderModel(this);
		}
	}
}

///=====================================================================================
void	CParticleSystemModel::doAnimate()
{
	++ PSStatsNumDoAnimateCalls;
	MINI_TIMER(PSStatsDoAnimate)
	nlassert(!_Invalidated);
	CParticleSystem		*ps = getPS();
	CClipTrav			&clipTrav= getOwnerScene()->getClipTrav();
	const CMatrix		&mat= getWorldMatrix();
	//
	{
		MINI_TIMER(PSStatsDoAnimatePart1)

		// Set the 'hide' flag. This prevent trails from being created is the system is hidden, moved, and then showed in the next frame.
		ps->hide(!this->isHrcVisible());
		ps->setSysMat(&mat);
		ps->setUserMatrix(&_UserMatrix);
		ps->setViewMat(clipTrav.ViewMatrix);
		updateOpacityInfos();
		updateLightingInfos();
	}
	//ps->setSysMat(getWorldMatrix());
	nlassert(ps->getScene());


	{
		MINI_TIMER(PSStatsDoAnimatePart2)

		// setup the number of faces we allow
		ps->setNumTris((uint) getNumTrianglesAfterLoadBalancing());


		// set the global user param that are bypassed
		nlctassert(MaxPSUserParam < 8); // there should be less than 8 parameters because of mask stored in a byte
		ps->_BypassGlobalUserParam = _BypassGlobalUserParam;

		// setup system user parameters for parameters that have been touched
		for (uint k = 0; k < MaxPSUserParam; ++k)
		{
			if (isTouched((uint)CParticleSystemModel::PSParam0 + k))
			{
				ps->setUserParam(k, _UserParam[k].Value);
				clearFlag((uint)CParticleSystemModel::PSParam0 + k);
			}
		}
		if (isAutoGetEllapsedTimeEnabled())
		{
			setEllapsedTime(ps->getScene()->getEllapsedTime() * getEllapsedTimeRatio());
		}
	}
	{
		MINI_TIMER(PSStatsDoAnimatePart3)
		TAnimationTime delay = getEllapsedTime();
		// animate particles
		CParticleSystemShape		*pss= NLMISC::safe_cast<CParticleSystemShape *>((IShape *)Shape);
		if (_EditionMode)
		{
			pss->_ProcessOrder.clear(); // force to eval each frame because ps could be modified
		}
		ps->step(CParticleSystem::Anim, delay, *pss, *this);
	}
}


//////////////////////////////////////////////
// CParticleSystem Render implementation  //
//////////////////////////////////////////////
void	CParticleSystemModel::traverseRender()
{
	MINI_TIMER(PSStatsTraverseRender)
/*
	if (!_OutOfFrustum)
	{*/
	if (_ParticleSystem)
	{
		if (CTransform::isLightable())
		{
			// affect global lighting color
			const CLightContribution &lc = getLightContribution();
			NLMISC::CRGBA lighting(0, 0, 0, 255);
			for(uint k = 0; k < NL3D_MAX_LIGHT_CONTRIBUTION; ++k)
			{
				if (lc.PointLight[k] == NULL) break;
				NLMISC::CRGBA currLightContrib;
				currLightContrib.modulateFromui(lc.PointLight[k]->getDiffuse(), lc.AttFactor[k]);
				lighting.add(lighting, currLightContrib);
			}
			// add local ambient
			//lighting.add(lighting, lc.LocalAmbient);
			//lighting.add(lighting,lc.MergedPointLight);
			// add sun diffuse
			nlassert(_Scene);
			NLMISC::CRGBA sunDiffuse;
			sunDiffuse.modulateFromui(_Scene->getSunDiffuse(), lc.SunContribution);
			lighting.add(lighting, sunDiffuse);
			NLMISC::CRGBA sunAmbient;
			sunAmbient.modulateFromui(_Scene->getSunAmbient(), lc.SunContribution);
			lighting.add(lighting, sunAmbient);
			_ParticleSystem->setLightingColor(lighting);
		}
		CTransformShape::traverseRender();
	}
	//}
}


/*
 * CParticleSystem Clip implementation
 * IMPORTANT : the _Visible attribute is interpreted as 'in traversed clusters'. We need this because we want
 * to know when a p.s is in clusters, but not visible. As a matter of fact we may need to have system that are animated
 * as long as in cluster, but not visible.
 */

void	CParticleSystemModel::traverseClip()
{
	MINI_TIMER(PSStatsTraverseClip)
	// disable H_AUTO, because slowdown when lot of models (eg 1000-2000 tested in forest)
	//H_AUTO ( NL3D_Particles_Clip );

//	    CTransformShape::traverseClip();
		// Traverse the Clip sons.
		uint	numClipChildren= clipGetNumChildren();
		for(uint i=0;i<numClipChildren;i++)
			clipGetChild(i)->traverseClip();

		if (!_WorldVis) return;
		if (_Invalidated) return;
		CClipTrav			&clipTrav= getOwnerScene()->getClipTrav();


		if (_ClipDate != clipTrav.CurrentDate)
		{
			_InsertedInVisibleList = false;
			_InClusterAndVisible = false;
			_ClipDate = clipTrav.CurrentDate;
		}
		if (_InClusterAndVisible) return; // already visible


		CParticleSystem *ps = _ParticleSystem;


		if (ps) // system instanciated
		{
			MINI_TIMER(PSStatsClipSystemInstanciated)
			// if there are no more particles, no need to even clip..
			if (checkDestroyCondition(ps)) return;
			// check for anim mode change
			if (_AnimType != ps->getAnimType())
			{
				CParticleSystemManager &psmgt = _Scene->getParticleSystemManager();
				if (_AnimType == CParticleSystem::AnimAlways) // was previously always animated ?
				{
					if (_AnimatedModelHandle.Valid)
					{
						psmgt.removePermanentlyAnimatedSystem(_AnimatedModelHandle);
					}
				}
				_AnimType = ps->getAnimType();
				if (_AnimType == CParticleSystem::AnimAlways)
				{
					_AnimatedModelHandle = 	psmgt.addPermanentlyAnimatedSystem(this);
				}
			}
		}

		// check whether display filtered or not
		if( !(_Scene->getFilterRenderFlags() & _RenderFilterType) )
		{
			_Visible = false;
			return;
		}

		// special case : system sticked to a skeleton
		if( _AncestorSkeletonModel!=NULL )
		{
			bool visible = _AncestorSkeletonModel->isClipVisible();
			// Special test: if we are sticked to a skeletonModel, and if we are still visible, maybe we don't have to
			if(_Visible && _FatherSkeletonModel)
			{
				// if our skeletonModel father is displayed with a Lod, maybe we are not to be displayed
				if(_FatherSkeletonModel->isDisplayedAsLodCharacter())
				{
					// We are visible only if we where sticked to the skeleton with forceCLod==true.
					// This is also true if we are actually a skeletonModel
					if(!getShowWhenLODSticked())
						// otherWise we are not visible. eg: this is the case of skins and some sticked object
						visible = false;
				}
			}
			//
			if (visible)
			{
				{
					MINI_TIMER(PSStatsInsertInVisibleList)
					insertInVisibleList();
				}
				_InClusterAndVisible = true;
				return;
			}
			else // not visible, may need animation however..
			{
				if (!ps) // no resc allocated
				{
					CParticleSystemShape		*pss= NLMISC::safe_cast<CParticleSystemShape *>((IShape *)Shape);
					nlassert(pss);
					// invalidate the system if too far
					const CVector pos = _AncestorSkeletonModel->getWorldMatrix().getPos();
					const CVector d = pos - clipTrav.CamPos;
					if (d * d > pss->_MaxViewDist * pss->_MaxViewDist)
					{
						_Visible = false;
						if (pss->_DestroyModelWhenOutOfRange)
						{
							_Invalidated = true;
						}
					}
				}
				else
				{
					// NB : The test to see whether the system is not too far is performed by the particle system manager
					if (!_EditionMode)
					{
						{
							MINI_TIMER(PSStatsInsertInVisibleList)
							insertInVisibleList();
						}
					}
				}
			}
			return;
		}


		//
		const std::vector<CPlane>	&pyramid= clipTrav.WorldPyramid;
		/** traverse the sons
		  * we must do this before us, because this object may delete himself from the scene
		  */

		// now the pyramid is directly expressed in the world
		const CMatrix		&mat= getWorldMatrix();


		// Transform the pyramid in Object space.


		if(!ps) ///====================== system resource not allocated, test if it entered the scope
		{
			MINI_TIMER(PSStatsClipSystemNotInstanciated)
			CParticleSystemShape		*pss= NLMISC::safe_cast<CParticleSystemShape *>((IShape *)Shape);
			nlassert(pss);

			// the system wasn't present the last time, we use its center to see if it's back in the view frustum,
			// or if it is near enough.
			// if this is the case, we say it isn't clipped, so it will be reinstanciated from the shape
			// during the DetailAnimTraversal

			const CVector pos = getWorldMatrix().getPos();

			const CVector d = pos - clipTrav.CamPos;


			// check whether system not too far
			if (d * d > pss->_MaxViewDist * pss->_MaxViewDist)
			{
				_Visible = false;
				if (pss->_DestroyModelWhenOutOfRange)
				{
					_Invalidated = true;
				}
				return;
			}

			// test the shape to see whether we have a precomputed bbox
			if (!pss->_UsePrecomputedBBox)
			{
				///============================= the system has no precomputed bbox
				/// frustum test
				for(sint i=0; i < (sint)pyramid.size(); i++)
				{
					if ( (pyramid[i]   *  mat  ).d > 0.0f )  // in its basis, the system is at the center

					{
						{
							MINI_TIMER(PSStatsInsertInVisibleList)
							insertInVisibleList();
						}
						return;
					}
				}
				{
					MINI_TIMER(PSStatsInsertInVisibleList)
					insertInVisibleList();
				}
				_InClusterAndVisible = true;
				return;
			}
			else
			{
				///============================= the system has a precomputed bbox
				/// frustum test
				for(sint i=0; i < (sint)pyramid.size(); i++)
				{
					if ( !pss->_PrecomputedBBox.clipBack(pyramid[i]  * mat  ) )
					{
						{
							MINI_TIMER(PSStatsInsertInVisibleList)
							insertInVisibleList();
						}
						return;
					}
				}
				{
					MINI_TIMER(PSStatsInsertInVisibleList)
					insertInVisibleList();
				}
				_InClusterAndVisible = true;
				return;

			}
		}

		//=========================================================================================================
		// the system is already instanciated

		nlassert(ps);
		/// Pyramid test. IMPORTANT : The test to see whether the system is not too far is performed by the particle system manager
		// In edition mode, it isn't done by the manager (system never removed), so we do it here in this case
		if (_EditionMode)
		{
			CParticleSystemShape		*pss= NLMISC::safe_cast<CParticleSystemShape *>((IShape *)Shape);
			nlassert(pss);
			const CVector pos = getWorldMatrix().getPos();
			const CVector d = pos - clipTrav.CamPos;
			// check whether system not too far
			if (d * d > ps->getMaxViewDist() * ps->getMaxViewDist())
			{
				return; // not visible
			}
		}
		if (checkAgainstPyramid(pyramid) == false)
		{
			MINI_TIMER(PSStatsClipSystemCheckAgainstPyramid)
			if (!_EditionMode)
			{
				// system near, but maybe not in cluster..
				{
					MINI_TIMER(PSStatsInsertInVisibleList)
					insertInVisibleList();
				}
			}
			return;
		}

		{
			{
				MINI_TIMER(PSStatsInsertInVisibleList)
				insertInVisibleList();
			}
		}
		_InClusterAndVisible = true;
}


//===================================================================
bool	CParticleSystemModel::clip()
{
	// no-op clip() because all done in special traverse()
	return true;
}


//===================================================================
bool	CParticleSystemModel::checkDestroyCondition(CParticleSystem *ps)
{
	MINI_TIMER(PSStatsCheckDestroyCondition)
	nlassert(ps);
	if (!_EditionMode)
	{
		/** NB : we don't do this test here for always animated system, as it is done
		 * by the CParticleSystemManager, because this code is not sure to be executed if the system has been clipped by a cluster
		 */
		if (ps->getAnimType() != CParticleSystem::AnimAlways)
		{
			if (ps->isDestroyConditionVerified())
			{
				releaseRscAndInvalidate();
				return true;
			}
		}
	}
	return false;
}

//===================================================================
void CParticleSystemModel::bypassGlobalUserParamValue(uint userParamIndex,bool byPass /*=true*/)
{
	nlctassert(MaxPSUserParam < 8); // there should be less than 8 parameters because of mask stored in a byte
	nlassert(userParamIndex < MaxPSUserParam);
	if (byPass) _BypassGlobalUserParam |= (1 << userParamIndex);
	else _BypassGlobalUserParam &= ~(1 << userParamIndex);
}

//===================================================================
bool CParticleSystemModel::isGlobalUserParamValueBypassed(uint userParamIndex) const
{
	nlctassert(MaxPSUserParam < 8); // there should be less than 8 parameters because of mask stored in a byte
	nlassert(userParamIndex < MaxPSUserParam);
	return (_BypassGlobalUserParam & (1 << userParamIndex)) != 0;
}

//===================================================================
void CParticleSystemModel::enableDisplayTools(bool enable /*=true*/)
{
	_ToolDisplayEnabled = enable;
	touchTransparencyState();
	touchLightableState();
}

//===================================================================
void CParticleSystemModel::invalidateAutoAnimatedHandle()
{
	_AnimatedModelHandle.Valid  = false;
}

//===================================================================
void CParticleSystemModel::activateEmitters(bool active)
{
	if (active == _EmitterActive) return;
	_EmitterActive = active;
	if (_ParticleSystem) _ParticleSystem->activateEmitters(active);
}

//===================================================================
bool CParticleSystemModel::hasActiveEmitters() const
{
	#ifdef NL_DEBUG
		if (_ParticleSystem)
		{
			if (_ParticleSystem->hasEmittersTemplates())
			{
				nlassert(_ParticleSystem->hasActiveEmitters() == _EmitterActive);
			}
		}
	#endif
	return _EmitterActive;
}

//===================================================================
void CParticleSystemModel::setUserColor(NLMISC::CRGBA userColor)
{
	if (_ParticleSystem) _ParticleSystem->setUserColor(userColor);
	_UserColor = userColor;
}

//===================================================================
void CParticleSystemModel::forceInstanciate()
{
	MINI_TIMER(PSStatsForceInstanciate)
	if (_Invalidated) return;
	if (_ParticleSystem) return;
	reallocRsc();
}

//===================================================================
void CParticleSystemModel::setZBias(float value)
{
	if (value == _ZBias) return;
	_ZBias = value;
	if (_ParticleSystem) _ParticleSystem->setZBias(_ZBias);
}

//===================================================================
void CParticleSystemModel::forceSetUserMatrix(const NLMISC::CMatrix &userMatrix)
{
	_UserMatrix = userMatrix;
	if (getPS())
	{
		getPS()->setUserMatrix(&_UserMatrix);
	}
}

//===================================================================
void CParticleSystemModel::stopSound()
{
	if (!_SoundActive) return;
	if (_ParticleSystem) _ParticleSystem->stopSound();
	_SoundActive = false;
}

//===================================================================
void CParticleSystemModel::reactivateSound()
{
	if (_SoundActive) return;
	if (_ParticleSystem) _ParticleSystem->reactivateSound();
	_SoundActive = true;
}

//===================================================================
void CParticleSystemModel::update()
{
	CTransformShape::update();
	if (_LocalVis != _LastVisibility)
	{
		if (_ParticleSystem)
		{
			_ParticleSystem->onShow(_LocalVis == CHrcTrav::Show);
		}
		_LastVisibility = _LocalVis;
	}
}


} // NL3D