framework/referencerenderer/rrShadingContext.hpp - third_party/vulkan-cts - Git at Google

 #ifndef _RRSHADINGCONTEXT_HPP
 #define _RRSHADINGCONTEXT_HPP
 /*-------------------------------------------------------------------------
  * drawElements Quality Program Reference Renderer
  * -----------------------------------------------
  *
  * Copyright 2014 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  *
  *//*!
  * \file
  * \brief Shading context
  *//*--------------------------------------------------------------------*/

 #include "rrDefs.hpp"
 #include "rrGenericVector.hpp"
 #include "rrFragmentPacket.hpp"

 namespace rr
 {

 /*--------------------------------------------------------------------*//*!
  * \brief Fragment shading context
  *
  * Contains per-primitive information used in fragment shading
  *//*--------------------------------------------------------------------*/
 struct FragmentShadingContext
 {
 								FragmentShadingContext (const GenericVec4* varying0, const GenericVec4* varying1, const GenericVec4* varying2, GenericVec4* outputArray, float* fragmentDepths, int primitiveID, int numFragmentOutputs, int numSamples, FaceType visibleFace_);

 	const GenericVec4*			varyings[3];		//!< Vertex shader outputs. Pointer will be NULL if there is no such vertex.
 	GenericVec4* const			outputArray;		//!< Fragment output array
 	const int					primitiveID;		//!< Geometry shader output
 	const int					numFragmentOutputs;	//!< Fragment output count
 	const int					numSamples;			//!< Number of samples
 	float*						fragmentDepths;		//!< Fragment packet depths. Pointer will be NULL if there is no depth buffer. Each sample has per-sample depth values
 	FaceType					visibleFace;		//!< Which face (front or back) is visible
 };

 // Write output

 template <typename T>
 void writeFragmentOutput (const FragmentShadingContext& context, int packetNdx, int fragNdx, int outputNdx, const T& value)
 {
 	DE_ASSERT(packetNdx >= 0);
 	DE_ASSERT(fragNdx >= 0 && fragNdx < 4);
 	DE_ASSERT(outputNdx >= 0 && outputNdx < context.numFragmentOutputs);

 	context.outputArray[outputNdx + context.numFragmentOutputs*(fragNdx + packetNdx*4)] = value;
 }

 // Read Varying

 template <typename T>
 tcu::Vector<T, 4> readPointVarying (const FragmentPacket& packet, const FragmentShadingContext& context, int varyingLoc, int fragNdx)
 {
 	DE_UNREF(fragNdx);
 	DE_UNREF(packet);

 	return context.varyings[0][varyingLoc].get<T>();
 }

 template <typename T>
 tcu::Vector<T, 4> readLineVarying (const FragmentPacket& packet, const FragmentShadingContext& context, int varyingLoc, int fragNdx)
 {
 	return   packet.barycentric[0][fragNdx] * context.varyings[0][varyingLoc].get<T>()
 		   + packet.barycentric[1][fragNdx] * context.varyings[1][varyingLoc].get<T>();
 }

 template <typename T>
 tcu::Vector<T, 4> readTriangleVarying (const FragmentPacket& packet, const FragmentShadingContext& context, int varyingLoc, int fragNdx)
 {
 	return   packet.barycentric[0][fragNdx] * context.varyings[0][varyingLoc].get<T>()
 		   + packet.barycentric[1][fragNdx] * context.varyings[1][varyingLoc].get<T>()
 		   + packet.barycentric[2][fragNdx] * context.varyings[2][varyingLoc].get<T>();
 }

 template <typename T>
 tcu::Vector<T, 4> readVarying (const FragmentPacket& packet, const FragmentShadingContext& context, int varyingLoc, int fragNdx)
 {
 	if (context.varyings[1] == DE_NULL)	return readPointVarying<T>		(packet, context, varyingLoc, fragNdx);
 	if (context.varyings[2] == DE_NULL)	return readLineVarying<T>		(packet, context, varyingLoc, fragNdx);
 										return readTriangleVarying<T>	(packet, context, varyingLoc, fragNdx);
 }

 // Derivative

 template <typename T, int Size>
 void dFdxLocal (tcu::Vector<T, Size> outFragmentdFdx[4], const tcu::Vector<T, Size> func[4])
 {
 	const tcu::Vector<T, Size> dFdx[2] =
 	{
 		func[1] - func[0],
 		func[3] - func[2]
 	};

 	outFragmentdFdx[0] = dFdx[0];
 	outFragmentdFdx[1] = dFdx[0];
 	outFragmentdFdx[2] = dFdx[1];
 	outFragmentdFdx[3] = dFdx[1];
 }

 template <typename T, int Size>
 void dFdyLocal (tcu::Vector<T, Size> outFragmentdFdy[4], const tcu::Vector<T, Size> func[4])
 {
 	const tcu::Vector<T, Size> dFdy[2] =
 	{
 		func[2] - func[0],
 		func[3] - func[1]
 	};

 	outFragmentdFdy[0] = dFdy[0];
 	outFragmentdFdy[1] = dFdy[1];
 	outFragmentdFdy[2] = dFdy[0];
 	outFragmentdFdy[3] = dFdy[1];
 }

 template <typename T>
 inline void dFdxVarying (tcu::Vector<T, 4> outFragmentdFdx[4], const FragmentPacket& packet, const FragmentShadingContext& context, int varyingLoc)
 {
 	const tcu::Vector<T, 4> func[4] =
 	{
 		readVarying<T>(packet, context, varyingLoc, 0),
 		readVarying<T>(packet, context, varyingLoc, 1),
 		readVarying<T>(packet, context, varyingLoc, 2),
 		readVarying<T>(packet, context, varyingLoc, 3),
 	};

 	dFdxLocal(outFragmentdFdx, func);
 }

 template <typename T>
 inline void dFdyVarying (tcu::Vector<T, 4> outFragmentdFdy[4], const FragmentPacket& packet, const FragmentShadingContext& context, int varyingLoc)
 {
 	const tcu::Vector<T, 4> func[4] =
 	{
 		readVarying<T>(packet, context, varyingLoc, 0),
 		readVarying<T>(packet, context, varyingLoc, 1),
 		readVarying<T>(packet, context, varyingLoc, 2),
 		readVarying<T>(packet, context, varyingLoc, 3),
 	};

 	dFdyLocal(outFragmentdFdy, func);
 }

 // Fragent depth

 inline float readFragmentDepth (const FragmentShadingContext& context, int packetNdx, int fragNdx, int sampleNdx)
 {
 	// Reading or writing to fragment depth values while there is no depth buffer is legal but not supported by rr
 	DE_ASSERT(context.fragmentDepths);
 	return context.fragmentDepths[(packetNdx * 4 + fragNdx) * context.numSamples + sampleNdx];
 }

 inline void writeFragmentDepth (const FragmentShadingContext& context, int packetNdx, int fragNdx, int sampleNdx, float depthValue)
 {
 	// Reading or writing to fragment depth values while there is no depth buffer is legal but not supported by rr
 	DE_ASSERT(context.fragmentDepths);
 	context.fragmentDepths[(packetNdx * 4 + fragNdx) * context.numSamples + sampleNdx] = depthValue;
 }

 } // rr

 #endif // _RRSHADINGCONTEXT_HPP
	#ifndef _RRSHADINGCONTEXT_HPP
	#define _RRSHADINGCONTEXT_HPP
	/*-------------------------------------------------------------------------
	* drawElements Quality Program Reference Renderer
	* -----------------------------------------------
	*
	* Copyright 2014 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*
	//!
	* \file
	* \brief Shading context
	//--------------------------------------------------------------------*/

	#include "rrDefs.hpp"
	#include "rrGenericVector.hpp"
	#include "rrFragmentPacket.hpp"

	namespace rr
	{

	/--------------------------------------------------------------------//*!
	* \brief Fragment shading context
	*
	* Contains per-primitive information used in fragment shading
	//--------------------------------------------------------------------*/
	struct FragmentShadingContext
	{
	FragmentShadingContext (const GenericVec4* varying0, const GenericVec4* varying1, const GenericVec4* varying2, GenericVec4* outputArray, float* fragmentDepths, int primitiveID, int numFragmentOutputs, int numSamples, FaceType visibleFace_);

	const GenericVec4* varyings[3]; //!< Vertex shader outputs. Pointer will be NULL if there is no such vertex.
	GenericVec4* const outputArray; //!< Fragment output array
	const int primitiveID; //!< Geometry shader output
	const int numFragmentOutputs; //!< Fragment output count
	const int numSamples; //!< Number of samples
	float* fragmentDepths; //!< Fragment packet depths. Pointer will be NULL if there is no depth buffer. Each sample has per-sample depth values
	FaceType visibleFace; //!< Which face (front or back) is visible
	};

	// Write output

	template <typename T>
	void writeFragmentOutput (const FragmentShadingContext& context, int packetNdx, int fragNdx, int outputNdx, const T& value)
	{
	DE_ASSERT(packetNdx >= 0);
	DE_ASSERT(fragNdx >= 0 && fragNdx < 4);
	DE_ASSERT(outputNdx >= 0 && outputNdx < context.numFragmentOutputs);

	context.outputArray[outputNdx + context.numFragmentOutputs(fragNdx + packetNdx4)] = value;
	}

	// Read Varying

	template <typename T>
	tcu::Vector<T, 4> readPointVarying (const FragmentPacket& packet, const FragmentShadingContext& context, int varyingLoc, int fragNdx)
	{
	DE_UNREF(fragNdx);
	DE_UNREF(packet);

	return context.varyings[0][varyingLoc].get<T>();
	}

	template <typename T>
	tcu::Vector<T, 4> readLineVarying (const FragmentPacket& packet, const FragmentShadingContext& context, int varyingLoc, int fragNdx)
	{
	return packet.barycentric[0][fragNdx] * context.varyings[0][varyingLoc].get<T>()
	+ packet.barycentric[1][fragNdx] * context.varyings[1][varyingLoc].get<T>();
	}

	template <typename T>
	tcu::Vector<T, 4> readTriangleVarying (const FragmentPacket& packet, const FragmentShadingContext& context, int varyingLoc, int fragNdx)
	{
	return packet.barycentric[0][fragNdx] * context.varyings[0][varyingLoc].get<T>()
	+ packet.barycentric[1][fragNdx] * context.varyings[1][varyingLoc].get<T>()
	+ packet.barycentric[2][fragNdx] * context.varyings[2][varyingLoc].get<T>();
	}

	template <typename T>
	tcu::Vector<T, 4> readVarying (const FragmentPacket& packet, const FragmentShadingContext& context, int varyingLoc, int fragNdx)
	{
	if (context.varyings[1] == DE_NULL) return readPointVarying<T> (packet, context, varyingLoc, fragNdx);
	if (context.varyings[2] == DE_NULL) return readLineVarying<T> (packet, context, varyingLoc, fragNdx);
	return readTriangleVarying<T> (packet, context, varyingLoc, fragNdx);
	}

	// Derivative

	template <typename T, int Size>
	void dFdxLocal (tcu::Vector<T, Size> outFragmentdFdx[4], const tcu::Vector<T, Size> func[4])
	{
	const tcu::Vector<T, Size> dFdx[2] =
	{
	func[1] - func[0],
	func[3] - func[2]
	};

	outFragmentdFdx[0] = dFdx[0];
	outFragmentdFdx[1] = dFdx[0];
	outFragmentdFdx[2] = dFdx[1];
	outFragmentdFdx[3] = dFdx[1];
	}

	template <typename T, int Size>
	void dFdyLocal (tcu::Vector<T, Size> outFragmentdFdy[4], const tcu::Vector<T, Size> func[4])
	{
	const tcu::Vector<T, Size> dFdy[2] =
	{
	func[2] - func[0],
	func[3] - func[1]
	};

	outFragmentdFdy[0] = dFdy[0];
	outFragmentdFdy[1] = dFdy[1];
	outFragmentdFdy[2] = dFdy[0];
	outFragmentdFdy[3] = dFdy[1];
	}

	template <typename T>
	inline void dFdxVarying (tcu::Vector<T, 4> outFragmentdFdx[4], const FragmentPacket& packet, const FragmentShadingContext& context, int varyingLoc)
	{
	const tcu::Vector<T, 4> func[4] =
	{
	readVarying<T>(packet, context, varyingLoc, 0),
	readVarying<T>(packet, context, varyingLoc, 1),
	readVarying<T>(packet, context, varyingLoc, 2),
	readVarying<T>(packet, context, varyingLoc, 3),
	};

	dFdxLocal(outFragmentdFdx, func);
	}

	template <typename T>
	inline void dFdyVarying (tcu::Vector<T, 4> outFragmentdFdy[4], const FragmentPacket& packet, const FragmentShadingContext& context, int varyingLoc)
	{
	const tcu::Vector<T, 4> func[4] =
	{
	readVarying<T>(packet, context, varyingLoc, 0),
	readVarying<T>(packet, context, varyingLoc, 1),
	readVarying<T>(packet, context, varyingLoc, 2),
	readVarying<T>(packet, context, varyingLoc, 3),
	};

	dFdyLocal(outFragmentdFdy, func);
	}

	// Fragent depth

	inline float readFragmentDepth (const FragmentShadingContext& context, int packetNdx, int fragNdx, int sampleNdx)
	{
	// Reading or writing to fragment depth values while there is no depth buffer is legal but not supported by rr
	DE_ASSERT(context.fragmentDepths);
	return context.fragmentDepths[(packetNdx * 4 + fragNdx) * context.numSamples + sampleNdx];
	}

	inline void writeFragmentDepth (const FragmentShadingContext& context, int packetNdx, int fragNdx, int sampleNdx, float depthValue)
	{
	// Reading or writing to fragment depth values while there is no depth buffer is legal but not supported by rr
	DE_ASSERT(context.fragmentDepths);
	context.fragmentDepths[(packetNdx * 4 + fragNdx) * context.numSamples + sampleNdx] = depthValue;
	}

	} // rr

	#endif // _RRSHADINGCONTEXT_HPP