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/*
-----------------------------------------------------------------------------
This source file is part of OGRE
(Object-oriented Graphics Rendering Engine)
For the latest info, see http://www.ogre3d.org

Copyright (c) 2000-2013 Torus Knot Software Ltd
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
-----------------------------------------------------------------------------
*/
#ifndef _ShaderExPerPixelLighting_
#define _ShaderExPerPixelLighting_

#include "OgreShaderPrerequisites.h"
#ifdef RTSHADER_SYSTEM_BUILD_EXT_SHADERS
#include "OgreShaderParameter.h"
#include "OgreShaderSubRenderState.h"
#include "OgreVector4.h"
#include "OgreLight.h"
#include "OgreCommon.h"

namespace Ogre {
namespace RTShader {

/** \addtogroup Core
*  @{
*/
/** \addtogroup RTShader
*  @{
*/

#define SGX_LIB_PERPIXELLIGHTING					"SGXLib_PerPixelLighting"
#define SGX_FUNC_TRANSFORMNORMAL					"SGX_TransformNormal"
#define SGX_FUNC_TRANSFORMPOSITION					"SGX_TransformPosition"
#define SGX_FUNC_LIGHT_DIRECTIONAL_DIFFUSE			"SGX_Light_Directional_Diffuse"
#define SGX_FUNC_LIGHT_DIRECTIONAL_DIFFUSESPECULAR	"SGX_Light_Directional_DiffuseSpecular"
#define SGX_FUNC_LIGHT_POINT_DIFFUSE				"SGX_Light_Point_Diffuse"
#define SGX_FUNC_LIGHT_POINT_DIFFUSESPECULAR		"SGX_Light_Point_DiffuseSpecular"
#define SGX_FUNC_LIGHT_SPOT_DIFFUSE					"SGX_Light_Spot_Diffuse"
#define SGX_FUNC_LIGHT_SPOT_DIFFUSESPECULAR			"SGX_Light_Spot_DiffuseSpecular"	

/** Per pixel Lighting extension sub render state implementation.
Derives from SubRenderState class.
*/
class _OgreRTSSExport PerPixelLighting : public SubRenderState
{

// Interface.
public:
	/** Class default constructor */	
	PerPixelLighting();

	/** 
	@see SubRenderState::getType.
	*/
	virtual const String& getType() const;

	/** 
	@see SubRenderState::getType.
	*/
	virtual int getExecutionOrder() const;

	/** 
	@see SubRenderState::updateGpuProgramsParams.
	*/
	virtual void updateGpuProgramsParams(Renderable* rend, Pass* pass, const AutoParamDataSource* source, const LightList* pLightList);

	/** 
	@see SubRenderState::copyFrom.
	*/
	virtual void copyFrom(const SubRenderState& rhs);


	/** 
	@see SubRenderState::preAddToRenderState.
	*/
	virtual bool preAddToRenderState(const RenderState* renderState, Pass* srcPass, Pass* dstPass);


	
	static String Type;

// Protected types:
protected:
	
	// Per light parameters.
	struct _OgreRTSSExport LightParams
	{
		Light::LightTypes		mType;				// Light type.		
		// Light position.
		UniformParameterPtr mPosition;
		// Light direction.
		UniformParameterPtr mDirection;
		// Attenuation parameters.
		UniformParameterPtr mAttenuatParams;
		// Spot light parameters.
		UniformParameterPtr mSpotParams;
		// Diffuse colour.
		UniformParameterPtr mDiffuseColour;
		// Specular colour.
		UniformParameterPtr mSpecularColour;

	};

	typedef vector<LightParams>::type LightParamsList;
	typedef LightParamsList::iterator LightParamsIterator;
	typedef LightParamsList::const_iterator	LightParamsConstIterator;

// Protected methods
protected:

	/** 
	Set the track per vertex colour type. Ambient, Diffuse, Specular and Emissive lighting components source
	can be the vertex colour component. To establish such a link one should provide the matching flags to this
	sub render state.
	*/
	void setTrackVertexColourType(TrackVertexColourType type) { mTrackVertexColourType = type; }

	/** 
	Return the current track per vertex type.
	*/
	TrackVertexColourType getTrackVertexColourType() const { return mTrackVertexColourType; }


	/** 
	Set the light count per light type that this sub render state will generate.
	@see ShaderGenerator::setLightCount.
	*/
	void setLightCount(const int lightCount[3]);

	/** 
	Get the light count per light type that this sub render state will generate.
	@see ShaderGenerator::getLightCount.
	*/
	void getLightCount(int lightCount[3]) const;
	/** 
	Set the specular component state. If set to true this sub render state will compute a specular
	lighting component in addition to the diffuse component.
	@param enable Pass true to enable specular component computation.
	*/
	void setSpecularEnable(bool enable) { mSpecularEnable = enable; }

	/** 
	Get the specular component state. 
	*/
	bool getSpecularEnable() const { return mSpecularEnable; }


	/** 
	@see SubRenderState::resolveParameters.
	*/
	virtual bool resolveParameters(ProgramSet* programSet);

	/** Resolve global lighting parameters */
	bool resolveGlobalParameters(ProgramSet* programSet);

	/** Resolve per light parameters */
	bool resolvePerLightParameters(ProgramSet* programSet);

	/** 
	@see SubRenderState::resolveDependencies.
	*/
	virtual bool resolveDependencies(ProgramSet* programSet);

	/** 
	@see SubRenderState::addFunctionInvocations.
	*/
	virtual bool addFunctionInvocations(ProgramSet* programSet);
	

	/** 
	Internal method that adds related vertex shader functions invocations.
	*/
	bool addVSInvocation(Function* vsMain, const int groupOrder, int& internalCounter);

	
	/** 
	Internal method that adds global illumination component functions invocations.
	*/
	bool addPSGlobalIlluminationInvocation(Function* psMain, const int groupOrder, int& internalCounter);

	/** 
	Internal method that adds per light illumination component functions invocations.
	*/
	bool addPSIlluminationInvocation(LightParams* curLightParams, Function* psMain, const int groupOrder, int& internalCounter);

	/** 
	Internal method that adds the final colour assignments.
	*/
	bool addPSFinalAssignmentInvocation(Function* psMain, const int groupOrder, int& internalCounter);


// Attributes.
protected:	
	// Track per vertex colour type.
	TrackVertexColourType mTrackVertexColourType;
	// Specular component enabled/disabled.
	bool mSpecularEnable;
	// Light list.
	LightParamsList mLightParamsList;
	// World view matrix parameter.
	UniformParameterPtr mWorldViewMatrix;
	// World view matrix inverse transpose parameter.
	UniformParameterPtr mWorldViewITMatrix;
	// Vertex shader input position parameter.
	ParameterPtr mVSInPosition;
	// Vertex shader output view position (position in camera space) parameter.
	ParameterPtr mVSOutViewPos;
	// Pixel shader input view position (position in camera space) parameter.
	ParameterPtr mPSInViewPos;
	// Vertex shader input normal.
	ParameterPtr mVSInNormal;
	// Vertex shader output normal.
	ParameterPtr mVSOutNormal;
	// Pixel shader input normal.
	ParameterPtr mPSInNormal;
	// Pixel shader temporary diffuse calculation parameter.
	ParameterPtr mPSTempDiffuseColour;
	// Pixel shader temporary specular calculation parameter.
	ParameterPtr mPSTempSpecularColour;
	// Pixel shader input/local diffuse parameter.	
	ParameterPtr mPSDiffuse;
	// Pixel shader input/local specular parameter.	
	ParameterPtr mPSSpecular;
	// Pixel shader output diffuse parameter.	
	ParameterPtr mPSOutDiffuse;
	// Pixel shader output specular parameter.	
	ParameterPtr mPSOutSpecular;
	// Derived scene colour parameter.
	UniformParameterPtr mDerivedSceneColour;
	// Ambient light colour parameter.
	UniformParameterPtr mLightAmbientColour;
	// Derived ambient light colour parameter.
	UniformParameterPtr mDerivedAmbientLightColour;
	// Surface ambient colour parameter.
	UniformParameterPtr mSurfaceAmbientColour;
	// Surface diffuse colour parameter.
	UniformParameterPtr mSurfaceDiffuseColour;
	// Surface specular colour parameter.
	UniformParameterPtr mSurfaceSpecularColour;
	// Surface emissive colour parameter.
	UniformParameterPtr mSurfaceEmissiveColour;
	// Surface shininess parameter.
	UniformParameterPtr mSurfaceShininess;
	// Shared blank light.
	static Light msBlankLight;
};


/** 
A factory that enables creation of PerPixelLighting instances.
@remarks Sub class of SubRenderStateFactory
*/
class _OgreRTSSExport PerPixelLightingFactory : public SubRenderStateFactory
{
public:

	/** 
	@see SubRenderStateFactory::getType.
	*/
	virtual const String& getType() const;

	/** 
	@see SubRenderStateFactory::createInstance.
	*/
	virtual SubRenderState* createInstance(ScriptCompiler* compiler, PropertyAbstractNode* prop, Pass* pass, SGScriptTranslator* translator);

	/** 
	@see SubRenderStateFactory::writeInstance.
	*/
	virtual void writeInstance(MaterialSerializer* ser, SubRenderState* subRenderState, Pass* srcPass, Pass* dstPass);

	
protected:

	/** 
	@see SubRenderStateFactory::createInstanceImpl.
	*/
	virtual SubRenderState* createInstanceImpl();


};

/** @} */
/** @} */

}
}

#endif
#endif