genesis-3d_engine/Engine/app/graphicfeature/components/lightcomponent.h

/****************************************************************************
Copyright (c) 2011-2013,WebJet Business Division,CYOU
 
http://www.genesis-3d.com.cn

Permission is hereby granted, free of charge, to any person obtaining a copy
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OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
****************************************************************************/
#ifndef __LIAHGTCOMPONENT_H__
#define __LIAHGTCOMPONENT_H__
#include "appframework/component.h"
#include "graphicsystem/Light/Light.h"
#include "util/variant.h"
#include "math/color.h"
#include "math/float3.h"
#include "math/matrix44.h"
//------------------------------------------------------------------------------
namespace App
{

typedef TypeConvert<Graphic::Light::LightType> LightTypeConvert;

class LightComponent : public App::Component, public Graphic::LightListener
{
	__DeclareSubClass(LightComponent, Component);
public:

	enum ShadowMapQuality
	{
		eLow = 0,
		eMiddle,
		eHigh,
		eQualityCounts,
	};
	
	enum ShadowMapSplitCount
	{
		eOneCountsSplit = 1,
		eTwoCountsSplit = 2,
		eFourCountsSplit = 4,
		eMaxSplitCounts = 4,
	};

	enum ShadowMapProjType
	{
		eBoxShadow = 0,
		eSphereShadow,
	};

	

	LightComponent();
	virtual ~LightComponent();

	/// set light enabled
	void SetEnabled( bool bEnable);

	/// get light enabled
	bool IsEnabled();

    /// override to register accepted messages
    virtual void SetupAcceptedMessages();
    /// handle a single message
    virtual void HandleMessage(const GPtr<Messaging::Message>& msg);

	/// get light color
	Math::Color32 GetLightColor() const;
	/// set light color by Math::Color32
	void SetLightColor(const Math::Color32& c);
	/// set light color by r<><72>g<EFBFBD><67>b<EFBFBD><62>a
	void SetLightColor(ubyte inR, ubyte inG, ubyte inB, ubyte inA);

	/// set shadow color 
	void SetShadowColor(const Math::Color32& color);
	/// get shadow color
	Math::Color32 GetShadowColor() const;
	/// set shadow strength
	void SetShadowStrength(float shadowStrength);
	/// get shadow strength
	float GetShadowStrength() const;

	/// set shadow distance
	void SetShadowDistance(float shadowDistance);
	/// get shadow distance
	float GetShadowDistance() const;

	Math::float4 GetLightColorF() const;
	void SetLightColorF(const Math::float4& color);

	/// get light intensity
	float GetLightIntensity() const;
	/// set light intensity
	void SetLightIntensity(float f);

	/// get light type
	Graphic::Light::LightType GetLightType(void) const;
	/// set light type
	void SetLightType(Graphic::Light::LightType ltype);

	/// set Lightmapping
	void SetLightmapType (Graphic::Light::LightMapType mode);
	/// get Lightmapping
	Graphic::Light::LightMapType GetLightmapType() const;

	/// Set LightmapModeShadow
	void SetLightmapModeShadow(bool bLightmapShadow);
	/// Get LightmapModeShadow
	bool GetLightmapModeShadow() const;
	/// get light dir
	Math::float3 GetLightDir() const;

	/// set light dir
	void SetLightDir(const Math::float3& dir);

	/// get light pos
	Math::float3 GetLightPos() const;

	/// set light pos
	void SetLightPos(const Math::float3& pos);

	/// set constant attenuation(spot,point)
	void SetConstantAttenuation(const float& ca);
	/// get constant attenuation(spot,point)
	const float& GetConstantAttenuation() const;

	/// set linear attenuation(spot,point)
	void SetLinearAttenuation(const float& la);
	/// get linear attenuation(spot,point)
	const float& GetLinearAttenuation() const;

	/// set quadratic attenuation(spot,point)
	void SetQuadraticAttenuation(const float& qa);
	/// get quadratic attenuation(spot,point)
	const float& GetQuadraticAttenuation() const;

	/// set light range
	void  SetLightRange(const float& range);
	const float& GetLightRange() const;

	void SetAttenuations(float constAtt, float linearAtt, float quadAtt);

	/// set quadratic attenuation(spot)
	void SetCosCutOff(const float& cco);
	/// get quadratic attenuation(spot)
	const float& GetCosCutOff() const;
	/// set cos half of the outerAngle
	void SetCosHalfOuterAngle(const float& cosHalfOuterAngle);
	/// get cos half of the outerAngle
	const float& GetCosHalfOuterAngle() const;

	/// set cos half of the innerAngle
	void SetCosHalfInnerAngle(const float& cosHalfInnerAngle);
	/// get cos half of the innerAngle
	const float& GetCosHalfInnerAngle() const;

	/// set exponent(spot)
	void SetSpotExponent(const float& expo);
	/// get exponent(spot)
	const float& GetSpotExponent() const;

	/// set falloff
	void SetFalloff(const float& falloff);
	/// get falloff
	const float& GetFalloff() const;

	/// set exponent(directional with shadow)
	void SetDepthBias(const float& bias);
	/// get exponent(directional with shadow)
	const float& GetDepthBias() const;

	/// set scene AABB(directional with shadow)
	void SetSceneMax(const float& sm);
	/// get scene AABB(directional with shadow)
	const float& GetSceneMax() const;

	/// enable shadow(sunlight)
	void SetEnableShadow(bool enable = true);

	/// set shadow map quality
	void SetShadowMapQuality(ShadowMapQuality quality = eMiddle);
	
	/// get shadow map quality
	LightComponent::ShadowMapQuality GetshadowMapQuality();
	
	/// set shadow map splitCount
	void SetShadowSplitCount(ShadowMapSplitCount splitCount);
	
	/// get shadow map splitCount
	LightComponent::ShadowMapSplitCount GetShadowSplitCount( );

	/// set shadow every split distance
	void SetShadowSplitDistances(ShadowMapSplitCount splitCount,float firstDistance = 1.0f, float secondDistance = 1.0f, float thirdDistance = 1.0f);
	/// get shadow every split distance
	void GetShadowSplitDistances(ShadowMapSplitCount splitCount,float & outFirstDistance, float & outSecondDistance, float& outThirdDistance);
	/// set shadow projection type
	void SetShadowProjType(ShadowMapProjType shadowProjection);
	/// get shadow projection type
	ShadowMapProjType GetShadowProjType();

	/// is shadow enabled(sunlight)
	const bool IsShadowEnable() const;

	/// @Component::_SetupGlobalLightFrustum called when the light type is Directional. 
	virtual void _SetupGlobalLightFrustum();

	virtual void _SetupGlobalLightFrustum_NoCascade();
	//virtual void _SetupGlobalLightFrustumEx();

	/// @Component::SetupCallbacks setup callbacks for this component, call by Actor in OnActivate()
	virtual void SetupCallbacks();

	// @ISerialization::GetVersion. when change storage, must add SerializeVersion count
	virtual Version GetVersion() const;

	// @ISerialization::Load 
	virtual void Load( Version ver, AppReader* pReader, const Serialization::SerializationArgs* args );

	// @ISerialization::Save
	virtual void Save( AppWriter* pWriter ) const;

	// copy from other component
	virtual void CopyFrom( const GPtr<Component>& pComponent );

	virtual void SetupAllResource();
	virtual bool IsAllResourceLoaded();
protected:
	/// called from Actor::ActivateComponents()
	virtual void OnActivate();
	/// called from Actor::DeactivateComponents()
	virtual void OnDeactivate();

	virtual void OnRenderSceneChanged();

	/// @Component::_OnBeginFrame called after movement has happened. 
	virtual void _OnBeginFrame();

	/// called before rendering happens
	virtual void _OnFrame();

	/// @Component::_OnEndFrame called after movement has happened. 
	virtual void _OnEndFrame();

	/// @Component::Component called after movement has happened. 
	/// this will change the light postion and dir when Actor change
	virtual void _OnMoveAfter();
	

private:

	virtual void RenderShadowMapBegin(Graphic::Light* sender);

	GPtr<Graphic::Light> m_light;
	float m_sceneMax;
	// directional light special
	bool m_lightDirty; 
	bool m_bQualityChange;
	float m_depthBias;
	ShadowMapQuality m_shadowMapQuality;
	ShadowMapSplitCount m_shadowSplitCount;
	ShadowMapProjType m_shadowProjection;
	friend class LightComponentSerialization;
	
	bool m_CacheShadowState;
	Math::float4 m_ShadowColor;
	float m_ShadowStrength;
	float m_ShadowDistance;
	float m_splitPercentages[eMaxSplitCounts+1][eMaxSplitCounts+1];

	


private:
	/// get shadow map size by shadowmapQuality
	int GetShaowMapSize(ShadowMapQuality quality);

	void SetShadowMapHandle();

};

//------------------------------------------------------------------------
inline
void 
LightComponent::SetEnabled( bool bEnable)
{
	if (m_light->IsEnabled() != bEnable)
	{
		if (bEnable)
		{
			m_light->SetEnabled( true );
			this->SetEnableShadow( m_CacheShadowState );
		}
		else
		{
			m_CacheShadowState = m_light->IsEnableShadow();
			this->SetEnableShadow( false );
			m_light->SetEnabled( false );
		}
	}
	
}
inline
bool 
LightComponent::IsEnabled()
{
	return m_light->IsEnabled();
}
//------------------------------------------------------------------------
inline
Math::float4
LightComponent::GetLightColorF() const
{
	return m_light->GetLightColor( false );
}
//------------------------------------------------------------------------
inline
void
LightComponent::SetLightColorF(const Math::float4& color)
{
	m_light->SetLightColor(color);
}
//------------------------------------------------------------------------
inline
Math::Color32 
LightComponent::GetLightColor() const
{
	return Math::Color32( Math::n_scalartoByte( m_light->GetLightColor( false ).x() ),
		           Math::n_scalartoByte( m_light->GetLightColor( false ).y() ),
				   Math::n_scalartoByte( m_light->GetLightColor( false ).z() ),
				   Math::n_scalartoByte( m_light->GetLightColor( false ).w() )
					); 
}
//------------------------------------------------------------------------
inline
void 
LightComponent::SetLightColor(const Math::Color32& color)
{
	Math::ColorF cf(color);
	Math::float4 lcolor( cf.r, cf.g,cf.b,cf.a);
	m_light->SetLightColor(lcolor);
}
//------------------------------------------------------------------------
inline
void 
LightComponent::SetLightColor(ubyte inR, ubyte inG, ubyte inB, ubyte inA)
{
	Math::Color32 color(inR, inG, inB, inA);
	Math::ColorF cf(color);
	m_light->SetLightColor(Math::float4(cf.r, cf.g,cf.b,cf.a));
}
//------------------------------------------------------------------------
inline
void
LightComponent::SetShadowColor(const Math::Color32& color)
{
	Math::ColorF cf(color);
	m_ShadowColor.set(color[0],color[1],color[2],color[3]);
}
//------------------------------------------------------------------------
inline
Math::Color32 
LightComponent::GetShadowColor() const
{
	return Math::Color32( Math::n_scalartoByte( m_ShadowColor.x() ),
		Math::n_scalartoByte( m_ShadowColor.y() ),
		Math::n_scalartoByte( m_ShadowColor.z() ),
		Math::n_scalartoByte( m_ShadowColor.w() )
		); 
}

//------------------------------------------------------------------------
inline
void
LightComponent::SetShadowStrength(float shadowStrength)
{
	m_ShadowStrength = shadowStrength;
}
//------------------------------------------------------------------------
inline
float 
LightComponent::GetShadowStrength() const
{
	return m_ShadowStrength;
}

//------------------------------------------------------------------------
inline
void
LightComponent::SetShadowDistance(float shadowDistance)
{
	m_ShadowDistance = shadowDistance;
}
//------------------------------------------------------------------------
inline
float 
LightComponent::GetShadowDistance() const
{
	return m_ShadowDistance;
}
//------------------------------------------------------------------------
inline
float 
LightComponent::GetLightIntensity() const
{
	return m_light->GetLightIntensity();
}
//------------------------------------------------------------------------
inline
void 
LightComponent::SetLightIntensity(float f)
{
	m_light->SetLightIntensity(f);
}
//------------------------------------------------------------------------
inline
Graphic::Light::LightType 
LightComponent::GetLightType(void) const
{
	return m_light->GetLightType();
}
//------------------------------------------------------------------------
inline
Math::float3
LightComponent::GetLightDir() const
{
	Math::float4 f4 = m_light->GetLightDir();
	return Math::float3(f4.x(), f4.y(),f4.z());
}
//------------------------------------------------------------------------
inline
Math::float3
LightComponent::GetLightPos() const
{
	Math::float4 f4 = m_light->GetLightPos();
	return Math::float3(f4.x(), f4.y(),f4.z());
}

inline void
LightComponent::SetConstantAttenuation(const float& ca)
{
	m_light->SetConstantAttenuation(ca);
}

inline const float&
LightComponent::GetConstantAttenuation() const
{
	return m_light->GetConstantAttenuation();
}

inline void
LightComponent::SetLinearAttenuation(const float& la)
{
	m_light->SetLinearAttenuation(la);
}

inline const float&
LightComponent::GetLinearAttenuation() const
{
	return m_light->GetLinearAttenuation();
}

inline void
LightComponent::SetQuadraticAttenuation(const float& qa)
{
	m_light->SetQuadraticAttenuation(qa);
}

inline const float&
LightComponent::GetQuadraticAttenuation() const
{
	return m_light->GetQuadraticAttenuation();
}
inline void  
LightComponent::SetLightRange(const float& range)
{
	m_light->SetLightRange( range );
}

inline const float&
LightComponent::GetLightRange() const
{
	return m_light->GetLightRange();
}

inline void
LightComponent::SetCosCutOff(const float& cco)
{
	m_light->SetCosHalfOuterAngle(cco);
}
inline void
LightComponent::SetAttenuations(float constAtt, float linearAtt, float quadAtt)
{
	m_light->SetAttenuations(constAtt, linearAtt, quadAtt);
}

inline const float&
LightComponent::GetCosCutOff() const
{
	return m_light->GetCosHalfOuterAngle();
}

inline void
	LightComponent::SetCosHalfOuterAngle(const float& cosHalfOuterAngle)
{
	m_light->SetCosHalfOuterAngle(cosHalfOuterAngle);
}

inline const float&
	LightComponent::GetCosHalfOuterAngle() const
{
	return m_light->GetCosHalfOuterAngle();	
}

inline void
	LightComponent::SetCosHalfInnerAngle(const float& cosHalfInnerAngle)
{
	m_light->SetCosHalfInnerAngle(cosHalfInnerAngle);
}

inline const float&
	LightComponent::GetCosHalfInnerAngle() const
{
	return m_light->GetCosHalfInnerAngle();
}

inline void
LightComponent::SetSpotExponent(const float& expo)
{
	m_light->SetExponent(expo);
}

inline const float&
LightComponent::GetSpotExponent() const
{
	return m_light->GetExponent();	
}

inline void 
	LightComponent::SetFalloff(const float& falloff)
{
	m_light->SetFalloff(falloff);
}

inline const float& 
	LightComponent::GetFalloff() const
{
	return m_light->GetFalloff();
}

inline void
LightComponent::SetDepthBias(const float& bias)
{
	m_depthBias = bias;
}

inline const float&
LightComponent::GetDepthBias() const
{
	return m_depthBias;	
}

inline void 
LightComponent::SetSceneMax(const float& sm)
{
	m_sceneMax = sm;
}

inline const float&
LightComponent::GetSceneMax() const
{
	return m_sceneMax;	
}

inline const bool
LightComponent::IsShadowEnable() const
{
	bool bShadowEnabled = false;

	if (!m_light->IsEnabled())
	{
		bShadowEnabled = m_CacheShadowState;
	}
	else
	{
		bShadowEnabled = m_light->IsEnableShadow();
	}

	return bShadowEnabled;
}

/// set Lightmapping
inline void 
	LightComponent::SetLightmapType (Graphic::Light::LightMapType mode)
{
	m_light->SetLightmapType( mode );
}
/// get Lightmapping
inline Graphic::Light::LightMapType
	LightComponent::GetLightmapType() const
{
	return m_light->GetLightmapType();
}

/// Set LightmapModeShadow
inline void 
	LightComponent::SetLightmapModeShadow(bool bLightmapShadow)
{
	m_light->SetLightmapModeShadow(bLightmapShadow);
}
/// Get LightmapModeShadow
inline bool 
	LightComponent::GetLightmapModeShadow() const
{
	return m_light->GetLightmapModeShadow();
}

}; // namespace GraphicsFeature
//------------------------------------------------------------------------------

#endif //__LIAHGTCOMPONENT_H__