genesis-3d_engine/Engine/addons/particles/affectors/particleLimitAffectorSerialization.cc

/****************************************************************************
Copyright (c) 2011-2013,WebJet Business Division,CYOU

http://www.genesis-3d.com.cn

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****************************************************************************/
#include "stdneb.h"
#include "particles/affectors/particleLimitAffector.h"

namespace Particles
{
	using namespace Serialization;

	const static char* s_SeparateAxis = "SeparateAxis";
	const static char* s_Dampen = "Dampen";
	const static char* s_MinMaxState = "MinMaxState";

	const static char* s_KeyFrameCount = "KeyFrameCount";
	const static char* s_CurveKey = "CurveKey";
	const static char* s_CurveValue = "CurveValue";

	const static char* s_RandomAxis = "RandomAxis";

	const static char* s_DampenXMin = "DampenXMin";
	const static char* s_DampenXMax = "DampenXMax";

	const static char* s_DampenYMin = "DampenXMin";
	const static char* s_DampenYMax = "DampenXMax";

	const static char* s_DampenZMin = "DampenZMin";
	const static char* s_DampenZMax = "DampenZMax";

	const static char* s_DampenMAGMin = "DampenMAGMin";
	const static char* s_DampenMAGMax = "DampenMAGMax";

	const static char* s_DampenRandom = "RandomDampen";


	class DampenAffectorSerialization
	{
	public:
		//------------------------------------------------------------------------
		void Load( LimitAffector* obj,  SVersion ver, SerializeReader* pReader )
		{
			if ( 1 == ver )
			{
				Load_1(obj, pReader);
				return;
			}	
			else if( 2 == ver)
			{
				Load_2(obj, pReader);
				return;
			}
			else if( 3 == ver)
			{
				Load_3(obj,pReader);
				return;
			}
			else if( 4 == ver)
			{
				Load_4(obj,pReader);
				return;
			}
			n_error(" %s Load unknown version.\n", obj->GetClassName().AsCharPtr() );
		}	

		//------------------------------------------------------------------------
		void Load_1(LimitAffector* obj, SerializeReader* pReader)
		{
			bool rnd;
			pReader->SerializeBool(s_RandomAxis,rnd);
			if(rnd)
			{
				obj->getMinMaxCurve(Affector_LimitX)->SetCurveState(Math::MinMaxCurve::TwoCurves);
				obj->getMinMaxCurve(Affector_LimitY)->SetCurveState(Math::MinMaxCurve::TwoCurves);
				obj->getMinMaxCurve(Affector_LimitZ)->SetCurveState(Math::MinMaxCurve::TwoCurves);
			}
			else
			{
				obj->getMinMaxCurve(Affector_LimitX)->SetCurveState(Math::MinMaxCurve::Curve);
				obj->getMinMaxCurve(Affector_LimitY)->SetCurveState(Math::MinMaxCurve::Curve);
				obj->getMinMaxCurve(Affector_LimitZ)->SetCurveState(Math::MinMaxCurve::Curve);
			}

			float dampen;
			pReader->SerializeFloat(s_Dampen,dampen);
			//obj->SetDampen(dampen);

			Util::Array<Math::float2> keyframelist1;		
			Util::Array<Math::float2> keyframelist2;		
			Math::MinMaxCurve* curve = obj->getMinMaxCurve(Affector_LimitX);
			_serializeLoadCurveOld(pReader, keyframelist1, s_DampenXMin, s_CurveKey);	
			_serializeLoadCurveOld(pReader, keyframelist2, s_DampenXMax, s_CurveKey);
			_setCurveOld(keyframelist1,keyframelist2,curve);	


			curve = obj->getMinMaxCurve(Affector_LimitY);
			_serializeLoadCurveOld(pReader, keyframelist1, s_DampenYMin, s_CurveKey);		
			_serializeLoadCurveOld(pReader, keyframelist2, s_DampenYMax, s_CurveKey);
			_setCurveOld(keyframelist1,keyframelist2,curve);		


			curve = obj->getMinMaxCurve(Affector_LimitZ);
			_serializeLoadCurveOld(pReader, keyframelist1, s_DampenZMin, s_CurveKey);	
			_serializeLoadCurveOld(pReader, keyframelist2, s_DampenZMax, s_CurveKey);
			_setCurveOld(keyframelist1,keyframelist2,curve);
		}
		//ver2--------------------------------------------------------------------
		void Load_2(LimitAffector* obj, SerializeReader* pReader)
		{
			bool rnd;
			pReader->SerializeBool(s_RandomAxis,rnd);
			if(rnd)
			{
				obj->getMinMaxCurve(Affector_LimitX)->SetCurveState(Math::MinMaxCurve::TwoCurves);
				obj->getMinMaxCurve(Affector_LimitY)->SetCurveState(Math::MinMaxCurve::TwoCurves);
				obj->getMinMaxCurve(Affector_LimitZ)->SetCurveState(Math::MinMaxCurve::TwoCurves);
			}
			else
			{
				obj->getMinMaxCurve(Affector_LimitX)->SetCurveState(Math::MinMaxCurve::Curve);
				obj->getMinMaxCurve(Affector_LimitY)->SetCurveState(Math::MinMaxCurve::Curve);
				obj->getMinMaxCurve(Affector_LimitZ)->SetCurveState(Math::MinMaxCurve::Curve);
			}

			pReader->SerializeBool(s_DampenRandom,rnd);
			if(rnd)
			{
				obj->getMinMaxCurve(Affector_LimitValue)->SetCurveState(Math::MinMaxCurve::TwoCurves);
			}
			else
			{
				obj->getMinMaxCurve(Affector_LimitValue)->SetCurveState(Math::MinMaxCurve::Curve);
			}

			Util::Array<Math::float2> keyframelist1;
			Util::Array<Math::float2> keyframelist2;		
			Math::MinMaxCurve* curve = obj->getMinMaxCurve(Affector_LimitX);
			_serializeLoadCurveOld(pReader, keyframelist1, s_DampenXMin, s_CurveKey);		
			_serializeLoadCurveOld(pReader, keyframelist2, s_DampenXMax, s_CurveKey);
			_setCurveOld(keyframelist1,keyframelist2,curve);			


			curve = obj->getMinMaxCurve(Affector_LimitY);
			_serializeLoadCurveOld(pReader, keyframelist1, s_DampenYMin, s_CurveKey);		
			_serializeLoadCurveOld(pReader, keyframelist2, s_DampenYMax, s_CurveKey);
			_setCurveOld(keyframelist1,keyframelist2,curve);		

			curve = obj->getMinMaxCurve(Affector_LimitZ);
			_serializeLoadCurveOld(pReader, keyframelist1, s_DampenZMin, s_CurveKey);		
			_serializeLoadCurveOld(pReader, keyframelist2, s_DampenZMax, s_CurveKey);
			_setCurveOld(keyframelist1,keyframelist2,curve);	

			curve = obj->getMinMaxCurve(Affector_LimitValue);
			_serializeLoadCurveOld(pReader, keyframelist1, s_DampenMAGMin, s_CurveKey);
			_serializeLoadCurveOld(pReader, keyframelist2, s_DampenMAGMax, s_CurveKey);
			_setCurveOld(keyframelist1,keyframelist2,curve);
		}
		//------------------------------------------------------------------------
		void Load_3(LimitAffector* obj, SerializeReader* pReader)
		{
			_serializeLoadMinMaxCurveOld(pReader,*obj->getMinMaxCurve(Affector_LimitX),"DampenX",s_CurveKey);
			_serializeLoadMinMaxCurveOld(pReader,*obj->getMinMaxCurve(Affector_LimitY),"DampenY",s_CurveKey);
			_serializeLoadMinMaxCurveOld(pReader,*obj->getMinMaxCurve(Affector_LimitZ),"DampenZ",s_CurveKey);
			_serializeLoadMinMaxCurveOld(pReader,*obj->getMinMaxCurve(Affector_LimitValue),"DampenMAG",s_CurveKey);
		}
		//------------------------------------------------------------------------
		void Load_4(LimitAffector* obj, SerializeReader* pReader)
		{
			_serializeLoadMinMaxCurve(pReader,*obj->getMinMaxCurve(Affector_LimitX),"DampenX",s_CurveKey);
			_serializeLoadMinMaxCurve(pReader,*obj->getMinMaxCurve(Affector_LimitY),"DampenY",s_CurveKey);
			_serializeLoadMinMaxCurve(pReader,*obj->getMinMaxCurve(Affector_LimitZ),"DampenZ",s_CurveKey);
			_serializeLoadMinMaxCurve(pReader,*obj->getMinMaxCurve(Affector_LimitValue),"DampenMAG",s_CurveKey);
		}
		//------------------------------------------------------------------------
		void Save( const LimitAffector* obj, SerializeWriter* pWriter )
		{
			_serializeSaveMinMaxCurve(pWriter,*((LimitAffector* )obj)->getMinMaxCurve(Affector_LimitX),"DampenX",s_CurveKey);
			_serializeSaveMinMaxCurve(pWriter,*((LimitAffector* )obj)->getMinMaxCurve(Affector_LimitY),"DampenY",s_CurveKey);
			_serializeSaveMinMaxCurve(pWriter,*((LimitAffector* )obj)->getMinMaxCurve(Affector_LimitZ),"DampenZ",s_CurveKey);
			_serializeSaveMinMaxCurve(pWriter,*((LimitAffector* )obj)->getMinMaxCurve(Affector_LimitValue),"DampenMAG",s_CurveKey);
		}
	};

	//------------------------------------------------------------------------
	// @ISerialization::GetVersion. when change storage, must add SerializeVersion count
	SVersion LimitAffector::GetVersion() const
	{
		return 4;	
	}

	//------------------------------------------------------------------------
	// @ISerialization::Load 
	void LimitAffector::Load( SVersion ver, SerializeReader* pReader, const Serialization::SerializationArgs* args )
	{
		pReader->SerializeSuper<Super>(this, args);
		DampenAffectorSerialization Serialize;
		Serialize.Load( this, ver, pReader );
	}

	//------------------------------------------------------------------------
	// @ISerialization::Save
	void LimitAffector::Save( SerializeWriter* pWriter ) const
	{
		pWriter->SerializeSuper<Super>(this);
		DampenAffectorSerialization Serialize;
		Serialize.Save( this, pWriter );
	}
	//------------------------------------------------------------------------
	void LimitAffector::CopyFrom( const ParticleAffectorPtr& target )
	{
		Super::CopyFrom( target );
		n_assert( target->GetRtti() == this->GetRtti() ); 
		GPtr<LimitAffector> source = target.downcast<LimitAffector>();

		_serializeCopyMinMaxCurve(source->mLimitX,this->mLimitX);
		_serializeCopyMinMaxCurve(source->mLimitY,this->mLimitY);
		_serializeCopyMinMaxCurve(source->mLimitZ,this->mLimitZ);
		_serializeCopyMinMaxCurve(source->mLimitValue,this->mLimitValue);
	}


}