framework/opengl/simplereference/sglrShaderProgram.hpp - third_party/vulkan-cts - Git at Google

 #ifndef _SGLRSHADERPROGRAM_HPP
 #define _SGLRSHADERPROGRAM_HPP
 /*-------------------------------------------------------------------------
  * drawElements Quality Program OpenGL ES Utilities
  * ------------------------------------------------
  *
  * 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 SGLR shader program.
  *//*--------------------------------------------------------------------*/

 #include "tcuDefs.hpp"
 #include "rrShaders.hpp"
 #include "gluShaderUtil.hpp"

 #include <vector>
 #include <string>

 namespace sglr
 {

 namespace rc
 {
 class Texture1D;
 class Texture2D;
 class TextureCube;
 class Texture2DArray;
 class Texture3D;
 class TextureCubeArray;
 } // rc

 class ShaderProgram;

 namespace pdec
 {

 enum VaryingFlags
 {
 	VARYINGFLAG_NONE		= 0,
 	VARYINGFLAG_FLATSHADE	= (1 << 0),
 };

 struct VertexAttribute
 {
 						VertexAttribute				(const std::string& name_, rr::GenericVecType type_) : name(name_), type(type_) { }

 	std::string			name;
 	rr::GenericVecType	type;
 };

 struct VertexToFragmentVarying
 {
 						VertexToFragmentVarying		(rr::GenericVecType type_, int flags = VARYINGFLAG_NONE) : type(type_), flatshade((flags & VARYINGFLAG_FLATSHADE) != 0) { }

 	rr::GenericVecType	type;
 	bool				flatshade;
 };

 struct VertexToGeometryVarying
 {
 						VertexToGeometryVarying		(rr::GenericVecType type_, int flags = VARYINGFLAG_NONE) : type(type_), flatshade((flags & VARYINGFLAG_FLATSHADE) != 0) { }

 	rr::GenericVecType	type;
 	bool				flatshade;
 };

 struct GeometryToFragmentVarying
 {
 						GeometryToFragmentVarying	(rr::GenericVecType type_, int flags = VARYINGFLAG_NONE) : type(type_), flatshade((flags & VARYINGFLAG_FLATSHADE) != 0) { }

 	rr::GenericVecType	type;
 	bool				flatshade;
 };

 struct FragmentOutput
 {
 						FragmentOutput				(rr::GenericVecType type_) : type(type_) { }

 	rr::GenericVecType	type;
 };

 struct Uniform
 {
 						Uniform						(const std::string& name_, glu::DataType type_) : name(name_), type(type_) { }

 	std::string			name;
 	glu::DataType		type;
 };

 struct VertexSource
 {
 						VertexSource				(const std::string& str) : source(str) { }

 	std::string			source;
 };

 struct FragmentSource
 {
 						FragmentSource				(const std::string& str) : source(str) { }

 	std::string			source;
 };

 struct GeometrySource
 {
 						GeometrySource				(const std::string& str) : source(str) { }

 	std::string			source;
 };

 struct GeometryShaderDeclaration
 {
 									GeometryShaderDeclaration	(rr::GeometryShaderInputType inputType_,
 																 rr::GeometryShaderOutputType outputType_,
 																 size_t numOutputVertices_,
 																 size_t numInvocations_ = 1)
 									: inputType			(inputType_)
 									, outputType		(outputType_)
 									, numOutputVertices	(numOutputVertices_)
 									, numInvocations	(numInvocations_)
 									{
 									}

 	rr::GeometryShaderInputType		inputType;
 	rr::GeometryShaderOutputType	outputType;
 	size_t							numOutputVertices;
 	size_t							numInvocations;
 };

 class ShaderProgramDeclaration
 {
 public:
 											ShaderProgramDeclaration		(void);

 	ShaderProgramDeclaration&				operator<<						(const VertexAttribute&);
 	ShaderProgramDeclaration&				operator<<						(const VertexToFragmentVarying&);
 	ShaderProgramDeclaration&				operator<<						(const VertexToGeometryVarying&);
 	ShaderProgramDeclaration&				operator<<						(const GeometryToFragmentVarying&);
 	ShaderProgramDeclaration&				operator<<						(const FragmentOutput&);
 	ShaderProgramDeclaration&				operator<<						(const Uniform&);
 	ShaderProgramDeclaration&				operator<<						(const VertexSource&);
 	ShaderProgramDeclaration&				operator<<						(const FragmentSource&);
 	ShaderProgramDeclaration&				operator<<						(const GeometrySource&);
 	ShaderProgramDeclaration&				operator<<						(const GeometryShaderDeclaration&);

 private:
 	inline bool								hasGeometryShader				(void) const							{ return m_geometryShaderSet; }
 	inline size_t							getVertexInputCount				(void) const							{ return m_vertexAttributes.size(); }
 	inline size_t							getVertexOutputCount			(void) const							{ return hasGeometryShader() ? m_vertexToGeometryVaryings.size() : m_vertexToFragmentVaryings.size(); }
 	inline size_t							getFragmentInputCount			(void) const							{ return hasGeometryShader() ? m_geometryToFragmentVaryings.size() : m_vertexToFragmentVaryings.size(); }
 	inline size_t							getFragmentOutputCount			(void) const							{ return m_fragmentOutputs.size(); }
 	inline size_t							getGeometryInputCount			(void) const							{ return hasGeometryShader() ? m_vertexToGeometryVaryings.size() : 0; }
 	inline size_t							getGeometryOutputCount			(void) const							{ return hasGeometryShader() ? m_geometryToFragmentVaryings.size() : 0; }

 	bool									valid							(void) const;

 	std::vector<VertexAttribute>			m_vertexAttributes;
 	std::vector<VertexToFragmentVarying>	m_vertexToFragmentVaryings;
 	std::vector<VertexToGeometryVarying>	m_vertexToGeometryVaryings;
 	std::vector<GeometryToFragmentVarying>	m_geometryToFragmentVaryings;
 	std::vector<FragmentOutput>				m_fragmentOutputs;
 	std::vector<Uniform>					m_uniforms;
 	std::string								m_vertexSource;
 	std::string								m_fragmentSource;
 	std::string								m_geometrySource;
 	GeometryShaderDeclaration				m_geometryDecl;

 	bool									m_vertexShaderSet;
 	bool									m_fragmentShaderSet;
 	bool									m_geometryShaderSet;

 	friend class ::sglr::ShaderProgram;
 };

 } // pdec

 struct UniformSlot
 {
 	std::string		name;
 	glu::DataType	type;

 	union
 	{
 		deInt32		i;
 		deInt32		i4[4];
 		float		f;
 		float		f4[4];
 		float		m3[3*3];	//!< row major, can be fed directly to tcu::Matrix constructor
 		float		m4[4*4];	//!< row major, can be fed directly to tcu::Matrix constructor
 	} value;

 	union
 	{
 		const void*					ptr;

 		const rc::Texture1D*		tex1D;
 		const rc::Texture2D*		tex2D;
 		const rc::TextureCube*		texCube;
 		const rc::Texture2DArray*	tex2DArray;
 		const rc::Texture3D*		tex3D;
 		const rc::TextureCubeArray*	texCubeArray;
 	} sampler;

 	inline UniformSlot (void)
 		: type(glu::TYPE_LAST)
 	{
 		value.i = 0;
 		sampler.ptr = DE_NULL;
 	}
 };

 class ShaderProgram : private rr::VertexShader, private rr::GeometryShader, private rr::FragmentShader
 {
 public:
 											ShaderProgram		(const pdec::ShaderProgramDeclaration&);
 	virtual									~ShaderProgram		(void);

 	const UniformSlot&						getUniformByName	(const char* name) const;

 	inline const rr::VertexShader*			getVertexShader		(void) const { return static_cast<const rr::VertexShader*>(this);   }
 	inline const rr::FragmentShader*		getFragmentShader	(void) const { return static_cast<const rr::FragmentShader*>(this); }
 	inline const rr::GeometryShader*		getGeometryShader	(void) const { return static_cast<const rr::GeometryShader*>(this); }

 private:
 	virtual void							shadeVertices		(const rr::VertexAttrib* inputs, rr::VertexPacket* const* packets, const int numPackets) const = 0;
 	virtual void							shadeFragments		(rr::FragmentPacket* packets, const int numPackets, const rr::FragmentShadingContext& context) const = 0;
 	virtual void							shadePrimitives		(rr::GeometryEmitter& output, int verticesIn, const rr::PrimitivePacket* packets, const int numPackets, int invocationID) const;

 	std::vector<std::string>				m_attributeNames;
 protected:
 	std::vector<UniformSlot>				m_uniforms;

 private:
 	const std::string						m_vertSrc;
 	const std::string						m_fragSrc;
 	const std::string						m_geomSrc;
 	const bool								m_hasGeometryShader;

 	friend class ReferenceContext;	// for uniform access
 	friend class GLContext;			// for source string access
 } DE_WARN_UNUSED_TYPE;

 } // sglr

 #endif // _SGLRSHADERPROGRAM_HPP
	#ifndef _SGLRSHADERPROGRAM_HPP
	#define _SGLRSHADERPROGRAM_HPP
	/*-------------------------------------------------------------------------
	* drawElements Quality Program OpenGL ES Utilities
	* ------------------------------------------------
	*
	* 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 SGLR shader program.
	//--------------------------------------------------------------------*/

	#include "tcuDefs.hpp"
	#include "rrShaders.hpp"
	#include "gluShaderUtil.hpp"

	#include <vector>
	#include <string>

	namespace sglr
	{

	namespace rc
	{
	class Texture1D;
	class Texture2D;
	class TextureCube;
	class Texture2DArray;
	class Texture3D;
	class TextureCubeArray;
	} // rc

	class ShaderProgram;

	namespace pdec
	{

	enum VaryingFlags
	{
	VARYINGFLAG_NONE = 0,
	VARYINGFLAG_FLATSHADE = (1 << 0),
	};

	struct VertexAttribute
	{
	VertexAttribute (const std::string& name_, rr::GenericVecType type_) : name(name_), type(type_) { }

	std::string name;
	rr::GenericVecType type;
	};

	struct VertexToFragmentVarying
	{
	VertexToFragmentVarying (rr::GenericVecType type_, int flags = VARYINGFLAG_NONE) : type(type_), flatshade((flags & VARYINGFLAG_FLATSHADE) != 0) { }

	rr::GenericVecType type;
	bool flatshade;
	};

	struct VertexToGeometryVarying
	{
	VertexToGeometryVarying (rr::GenericVecType type_, int flags = VARYINGFLAG_NONE) : type(type_), flatshade((flags & VARYINGFLAG_FLATSHADE) != 0) { }

	rr::GenericVecType type;
	bool flatshade;
	};

	struct GeometryToFragmentVarying
	{
	GeometryToFragmentVarying (rr::GenericVecType type_, int flags = VARYINGFLAG_NONE) : type(type_), flatshade((flags & VARYINGFLAG_FLATSHADE) != 0) { }

	rr::GenericVecType type;
	bool flatshade;
	};

	struct FragmentOutput
	{
	FragmentOutput (rr::GenericVecType type_) : type(type_) { }

	rr::GenericVecType type;
	};

	struct Uniform
	{
	Uniform (const std::string& name_, glu::DataType type_) : name(name_), type(type_) { }

	std::string name;
	glu::DataType type;
	};

	struct VertexSource
	{
	VertexSource (const std::string& str) : source(str) { }

	std::string source;
	};

	struct FragmentSource
	{
	FragmentSource (const std::string& str) : source(str) { }

	std::string source;
	};

	struct GeometrySource
	{
	GeometrySource (const std::string& str) : source(str) { }

	std::string source;
	};

	struct GeometryShaderDeclaration
	{
	GeometryShaderDeclaration (rr::GeometryShaderInputType inputType_,
	rr::GeometryShaderOutputType outputType_,
	size_t numOutputVertices_,
	size_t numInvocations_ = 1)
	: inputType (inputType_)
	, outputType (outputType_)
	, numOutputVertices (numOutputVertices_)
	, numInvocations (numInvocations_)
	{
	}

	rr::GeometryShaderInputType inputType;
	rr::GeometryShaderOutputType outputType;
	size_t numOutputVertices;
	size_t numInvocations;
	};

	class ShaderProgramDeclaration
	{
	public:
	ShaderProgramDeclaration (void);

	ShaderProgramDeclaration& operator<< (const VertexAttribute&);
	ShaderProgramDeclaration& operator<< (const VertexToFragmentVarying&);
	ShaderProgramDeclaration& operator<< (const VertexToGeometryVarying&);
	ShaderProgramDeclaration& operator<< (const GeometryToFragmentVarying&);
	ShaderProgramDeclaration& operator<< (const FragmentOutput&);
	ShaderProgramDeclaration& operator<< (const Uniform&);
	ShaderProgramDeclaration& operator<< (const VertexSource&);
	ShaderProgramDeclaration& operator<< (const FragmentSource&);
	ShaderProgramDeclaration& operator<< (const GeometrySource&);
	ShaderProgramDeclaration& operator<< (const GeometryShaderDeclaration&);

	private:
	inline bool hasGeometryShader (void) const { return m_geometryShaderSet; }
	inline size_t getVertexInputCount (void) const { return m_vertexAttributes.size(); }
	inline size_t getVertexOutputCount (void) const { return hasGeometryShader() ? m_vertexToGeometryVaryings.size() : m_vertexToFragmentVaryings.size(); }
	inline size_t getFragmentInputCount (void) const { return hasGeometryShader() ? m_geometryToFragmentVaryings.size() : m_vertexToFragmentVaryings.size(); }
	inline size_t getFragmentOutputCount (void) const { return m_fragmentOutputs.size(); }
	inline size_t getGeometryInputCount (void) const { return hasGeometryShader() ? m_vertexToGeometryVaryings.size() : 0; }
	inline size_t getGeometryOutputCount (void) const { return hasGeometryShader() ? m_geometryToFragmentVaryings.size() : 0; }

	bool valid (void) const;

	std::vector<VertexAttribute> m_vertexAttributes;
	std::vector<VertexToFragmentVarying> m_vertexToFragmentVaryings;
	std::vector<VertexToGeometryVarying> m_vertexToGeometryVaryings;
	std::vector<GeometryToFragmentVarying> m_geometryToFragmentVaryings;
	std::vector<FragmentOutput> m_fragmentOutputs;
	std::vector<Uniform> m_uniforms;
	std::string m_vertexSource;
	std::string m_fragmentSource;
	std::string m_geometrySource;
	GeometryShaderDeclaration m_geometryDecl;

	bool m_vertexShaderSet;
	bool m_fragmentShaderSet;
	bool m_geometryShaderSet;

	friend class ::sglr::ShaderProgram;
	};

	} // pdec

	struct UniformSlot
	{
	std::string name;
	glu::DataType type;

	union
	{
	deInt32 i;
	deInt32 i4[4];
	float f;
	float f4[4];
	float m3[3*3]; //!< row major, can be fed directly to tcu::Matrix constructor
	float m4[4*4]; //!< row major, can be fed directly to tcu::Matrix constructor
	} value;

	union
	{
	const void* ptr;

	const rc::Texture1D* tex1D;
	const rc::Texture2D* tex2D;
	const rc::TextureCube* texCube;
	const rc::Texture2DArray* tex2DArray;
	const rc::Texture3D* tex3D;
	const rc::TextureCubeArray* texCubeArray;
	} sampler;

	inline UniformSlot (void)
	: type(glu::TYPE_LAST)
	{
	value.i = 0;
	sampler.ptr = DE_NULL;
	}
	};

	class ShaderProgram : private rr::VertexShader, private rr::GeometryShader, private rr::FragmentShader
	{
	public:
	ShaderProgram (const pdec::ShaderProgramDeclaration&);
	virtual ~ShaderProgram (void);

	const UniformSlot& getUniformByName (const char* name) const;

	inline const rr::VertexShader* getVertexShader (void) const { return static_cast<const rr::VertexShader*>(this); }
	inline const rr::FragmentShader* getFragmentShader (void) const { return static_cast<const rr::FragmentShader*>(this); }
	inline const rr::GeometryShader* getGeometryShader (void) const { return static_cast<const rr::GeometryShader*>(this); }

	private:
	virtual void shadeVertices (const rr::VertexAttrib* inputs, rr::VertexPacket* const* packets, const int numPackets) const = 0;
	virtual void shadeFragments (rr::FragmentPacket* packets, const int numPackets, const rr::FragmentShadingContext& context) const = 0;
	virtual void shadePrimitives (rr::GeometryEmitter& output, int verticesIn, const rr::PrimitivePacket* packets, const int numPackets, int invocationID) const;

	std::vector<std::string> m_attributeNames;
	protected:
	std::vector<UniformSlot> m_uniforms;

	private:
	const std::string m_vertSrc;
	const std::string m_fragSrc;
	const std::string m_geomSrc;
	const bool m_hasGeometryShader;

	friend class ReferenceContext; // for uniform access
	friend class GLContext; // for source string access
	} DE_WARN_UNUSED_TYPE;

	} // sglr

	#endif // _SGLRSHADERPROGRAM_HPP