modules/glshared/glsShaderRenderCase.hpp - third_party/vulkan-cts - Git at Google

 #ifndef _GLSSHADERRENDERCASE_HPP
 #define _GLSSHADERRENDERCASE_HPP
 /*-------------------------------------------------------------------------
  * drawElements Quality Program OpenGL (ES) Module
  * -----------------------------------------------
  *
  * 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 Shader execute test.
  *//*--------------------------------------------------------------------*/

 #include "tcuDefs.hpp"
 #include "tcuTestCase.hpp"
 #include "tcuVector.hpp"
 #include "tcuMatrix.hpp"
 #include "tcuTexture.hpp"
 #include "tcuSurface.hpp"
 #include "gluRenderContext.hpp"
 #include "gluContextInfo.hpp"
 #include "gluShaderProgram.hpp"

 #include <sstream>
 #include <string>

 namespace glu
 {
 class RenderContext;
 class Texture2D;
 class TextureCube;
 class Texture2DArray;
 class Texture3D;
 } // glu

 namespace deqp
 {
 namespace gls
 {

 // LineStream \todo [2011-10-17 pyry] Move to proper place!

 class LineStream
 {
 public:
 						LineStream		(int indent = 0)	{ m_indent = indent; }
 						~LineStream		(void)				{}

 	const char*			str				(void) const		{ m_string = m_stream.str(); return m_string.c_str(); }
 	LineStream&			operator<<		(const char* line)	{ for (int i = 0; i < m_indent; i++) { m_stream << "\t"; } m_stream << line << "\n"; return *this; }

 private:
 	int					m_indent;
 	std::ostringstream	m_stream;
 	mutable std::string	m_string;
 };

 class QuadGrid;

 // TextureBinding

 class TextureBinding
 {
 public:
 	enum Type
 	{
 		TYPE_NONE = 0,
 		TYPE_2D,
 		TYPE_CUBE_MAP,
 		TYPE_2D_ARRAY,
 		TYPE_3D,

 		TYPE_LAST
 	};

 								TextureBinding		(const glu::Texture2D* tex2D, const tcu::Sampler& sampler);
 								TextureBinding		(const glu::TextureCube* texCube, const tcu::Sampler& sampler);
 								TextureBinding		(const glu::Texture2DArray* tex2DArray, const tcu::Sampler& sampler);
 								TextureBinding		(const glu::Texture3D* tex3D, const tcu::Sampler& sampler);
 								TextureBinding		(void);

 	void						setSampler			(const tcu::Sampler& sampler);
 	void						setTexture			(const glu::Texture2D* tex2D);
 	void						setTexture			(const glu::TextureCube* texCube);
 	void						setTexture			(const glu::Texture2DArray* tex2DArray);
 	void						setTexture			(const glu::Texture3D* tex3D);

 	Type						getType				(void) const { return m_type;		}
 	const tcu::Sampler&			getSampler			(void) const { return m_sampler;	}
 	const glu::Texture2D*		get2D				(void) const { DE_ASSERT(getType() == TYPE_2D);			return m_binding.tex2D;		}
 	const glu::TextureCube*		getCube				(void) const { DE_ASSERT(getType() == TYPE_CUBE_MAP);	return m_binding.texCube;	}
 	const glu::Texture2DArray*	get2DArray			(void) const { DE_ASSERT(getType() == TYPE_2D_ARRAY);	return m_binding.tex2DArray;}
 	const glu::Texture3D*		get3D				(void) const { DE_ASSERT(getType() == TYPE_3D);			return m_binding.tex3D;		}

 private:
 	Type					m_type;
 	tcu::Sampler			m_sampler;
 	union
 	{
 		const glu::Texture2D*		tex2D;
 		const glu::TextureCube*		texCube;
 		const glu::Texture2DArray*	tex2DArray;
 		const glu::Texture3D*		tex3D;
 	} m_binding;
 };

 // ShaderEvalContext.

 class ShaderEvalContext
 {
 public:
 	// Limits.
 	enum
 	{
 		MAX_USER_ATTRIBS	= 4,
 		MAX_TEXTURES		= 4,
 	};

 	struct ShaderSampler
 	{
 		tcu::Sampler				sampler;
 		const tcu::Texture2D*		tex2D;
 		const tcu::TextureCube*		texCube;
 		const tcu::Texture2DArray*	tex2DArray;
 		const tcu::Texture3D*		tex3D;

 		inline ShaderSampler (void)
 			: tex2D		(DE_NULL)
 			, texCube	(DE_NULL)
 			, tex2DArray(DE_NULL)
 			, tex3D		(DE_NULL)
 		{
 		}
 	};

 							ShaderEvalContext		(const QuadGrid& quadGrid);
 							~ShaderEvalContext		(void);

 	void					reset					(float sx, float sy);

 	// Inputs.
 	tcu::Vec4				coords;
 	tcu::Vec4				unitCoords;
 	tcu::Vec4				constCoords;

 	tcu::Vec4				in[MAX_USER_ATTRIBS];
 	ShaderSampler			textures[MAX_TEXTURES];

 	// Output.
 	tcu::Vec4				color;
 	bool					isDiscarded;

 	// Functions.
 	inline void				discard					(void)	{ isDiscarded = true; }
 	tcu::Vec4				texture2D				(int unitNdx, const tcu::Vec2& coords);

 private:
 	const QuadGrid&			quadGrid;
 };

 // ShaderEvalFunc.

 typedef void (*ShaderEvalFunc) (ShaderEvalContext& c);

 inline void evalCoordsPassthroughX		(ShaderEvalContext& c) { c.color.x() = c.coords.x(); }
 inline void evalCoordsPassthroughXY		(ShaderEvalContext& c) { c.color.xy() = c.coords.swizzle(0,1); }
 inline void evalCoordsPassthroughXYZ	(ShaderEvalContext& c) { c.color.xyz() = c.coords.swizzle(0,1,2); }
 inline void evalCoordsPassthrough		(ShaderEvalContext& c) { c.color = c.coords; }
 inline void evalCoordsSwizzleWZYX		(ShaderEvalContext& c) { c.color = c.coords.swizzle(3,2,1,0); }

 // ShaderEvaluator
 // Either inherit a class with overridden evaluate() or just pass in an evalFunc.

 class ShaderEvaluator
 {
 public:
 						ShaderEvaluator			(void);
 						ShaderEvaluator			(ShaderEvalFunc evalFunc);
 	virtual				~ShaderEvaluator		(void);

 	virtual void		evaluate				(ShaderEvalContext& ctx);

 private:
 						ShaderEvaluator			(const ShaderEvaluator&);	// not allowed!
 	ShaderEvaluator&	operator=				(const ShaderEvaluator&);	// not allowed!

 	ShaderEvalFunc		m_evalFunc;
 };

 // ShaderRenderCase.

 class ShaderRenderCase : public tcu::TestCase
 {
 public:
 								ShaderRenderCase		(tcu::TestContext& testCtx, glu::RenderContext& renderCtx, const glu::ContextInfo& ctxInfo, const char* name, const char* description, bool isVertexCase, ShaderEvalFunc evalFunc);
 								ShaderRenderCase		(tcu::TestContext& testCtx, glu::RenderContext& renderCtx, const glu::ContextInfo& ctxInfo, const char* name, const char* description, bool isVertexCase, ShaderEvaluator& evaluator);
 	virtual						~ShaderRenderCase		(void);

 	void						init					(void);
 	void						deinit					(void);

 	IterateResult				iterate					(void);

 protected:
 	virtual void				setupShaderData			(void);
 	virtual void				setup					(int programID);
 	virtual void				setupUniforms			(int programID, const tcu::Vec4& constCoords);

 	tcu::IVec2					getViewportSize			(void) const;

 	class CompileFailed : public tcu::TestError
 	{
 	public:
 		inline CompileFailed (const char* file, int line) : tcu::TestError("Failed to compile shader program", DE_NULL, file, line) {}
 	};

 private:
 								ShaderRenderCase		(const ShaderRenderCase&);		// not allowed!
 	ShaderRenderCase&			operator=				(const ShaderRenderCase&);		// not allowed!

 	void						setupDefaultInputs		(int programID);

 	void						render					(tcu::Surface& result, int programID, const QuadGrid& quadGrid);
 	void						computeVertexReference	(tcu::Surface& result, const QuadGrid& quadGrid);
 	void						computeFragmentReference(tcu::Surface& result, const QuadGrid& quadGrid);
 	bool						compareImages			(const tcu::Surface& resImage, const tcu::Surface& refImage, float errorThreshold);

 protected:
 	glu::RenderContext&			m_renderCtx;
 	const glu::ContextInfo&		m_ctxInfo;

 	bool						m_isVertexCase;
 	ShaderEvaluator				m_defaultEvaluator;
 	ShaderEvaluator&			m_evaluator;
 	std::string					m_vertShaderSource;
 	std::string					m_fragShaderSource;
 	tcu::Vec4					m_clearColor;

 	std::vector<tcu::Mat4>		m_userAttribTransforms;
 	std::vector<TextureBinding>	m_textures;

 	glu::ShaderProgram*			m_program;
 };

 // Helpers.
 // \todo [2012-04-10 pyry] Move these to separate utility?

 const char*		getIntUniformName			(int number);
 const char*		getFloatUniformName			(int number);
 const char*		getFloatFractionUniformName	(int number);

 void			setupDefaultUniforms		(const glu::RenderContext& context, deUint32 programID);

 } // gls
 } // deqp

 #endif // _GLSSHADERRENDERCASE_HPP
	#ifndef _GLSSHADERRENDERCASE_HPP
	#define _GLSSHADERRENDERCASE_HPP
	/*-------------------------------------------------------------------------
	* drawElements Quality Program OpenGL (ES) Module
	* -----------------------------------------------
	*
	* 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 Shader execute test.
	//--------------------------------------------------------------------*/

	#include "tcuDefs.hpp"
	#include "tcuTestCase.hpp"
	#include "tcuVector.hpp"
	#include "tcuMatrix.hpp"
	#include "tcuTexture.hpp"
	#include "tcuSurface.hpp"
	#include "gluRenderContext.hpp"
	#include "gluContextInfo.hpp"
	#include "gluShaderProgram.hpp"

	#include <sstream>
	#include <string>

	namespace glu
	{
	class RenderContext;
	class Texture2D;
	class TextureCube;
	class Texture2DArray;
	class Texture3D;
	} // glu

	namespace deqp
	{
	namespace gls
	{

	// LineStream \todo [2011-10-17 pyry] Move to proper place!

	class LineStream
	{
	public:
	LineStream (int indent = 0) { m_indent = indent; }
	~LineStream (void) {}

	const char* str (void) const { m_string = m_stream.str(); return m_string.c_str(); }
	LineStream& operator<< (const char* line) { for (int i = 0; i < m_indent; i++) { m_stream << "\t"; } m_stream << line << "\n"; return *this; }

	private:
	int m_indent;
	std::ostringstream m_stream;
	mutable std::string m_string;
	};

	class QuadGrid;

	// TextureBinding

	class TextureBinding
	{
	public:
	enum Type
	{
	TYPE_NONE = 0,
	TYPE_2D,
	TYPE_CUBE_MAP,
	TYPE_2D_ARRAY,
	TYPE_3D,

	TYPE_LAST
	};

	TextureBinding (const glu::Texture2D* tex2D, const tcu::Sampler& sampler);
	TextureBinding (const glu::TextureCube* texCube, const tcu::Sampler& sampler);
	TextureBinding (const glu::Texture2DArray* tex2DArray, const tcu::Sampler& sampler);
	TextureBinding (const glu::Texture3D* tex3D, const tcu::Sampler& sampler);
	TextureBinding (void);

	void setSampler (const tcu::Sampler& sampler);
	void setTexture (const glu::Texture2D* tex2D);
	void setTexture (const glu::TextureCube* texCube);
	void setTexture (const glu::Texture2DArray* tex2DArray);
	void setTexture (const glu::Texture3D* tex3D);

	Type getType (void) const { return m_type; }
	const tcu::Sampler& getSampler (void) const { return m_sampler; }
	const glu::Texture2D* get2D (void) const { DE_ASSERT(getType() == TYPE_2D); return m_binding.tex2D; }
	const glu::TextureCube* getCube (void) const { DE_ASSERT(getType() == TYPE_CUBE_MAP); return m_binding.texCube; }
	const glu::Texture2DArray* get2DArray (void) const { DE_ASSERT(getType() == TYPE_2D_ARRAY); return m_binding.tex2DArray;}
	const glu::Texture3D* get3D (void) const { DE_ASSERT(getType() == TYPE_3D); return m_binding.tex3D; }

	private:
	Type m_type;
	tcu::Sampler m_sampler;
	union
	{
	const glu::Texture2D* tex2D;
	const glu::TextureCube* texCube;
	const glu::Texture2DArray* tex2DArray;
	const glu::Texture3D* tex3D;
	} m_binding;
	};

	// ShaderEvalContext.

	class ShaderEvalContext
	{
	public:
	// Limits.
	enum
	{
	MAX_USER_ATTRIBS = 4,
	MAX_TEXTURES = 4,
	};

	struct ShaderSampler
	{
	tcu::Sampler sampler;
	const tcu::Texture2D* tex2D;
	const tcu::TextureCube* texCube;
	const tcu::Texture2DArray* tex2DArray;
	const tcu::Texture3D* tex3D;

	inline ShaderSampler (void)
	: tex2D (DE_NULL)
	, texCube (DE_NULL)
	, tex2DArray(DE_NULL)
	, tex3D (DE_NULL)
	{
	}
	};

	ShaderEvalContext (const QuadGrid& quadGrid);
	~ShaderEvalContext (void);

	void reset (float sx, float sy);

	// Inputs.
	tcu::Vec4 coords;
	tcu::Vec4 unitCoords;
	tcu::Vec4 constCoords;

	tcu::Vec4 in[MAX_USER_ATTRIBS];
	ShaderSampler textures[MAX_TEXTURES];

	// Output.
	tcu::Vec4 color;
	bool isDiscarded;

	// Functions.
	inline void discard (void) { isDiscarded = true; }
	tcu::Vec4 texture2D (int unitNdx, const tcu::Vec2& coords);

	private:
	const QuadGrid& quadGrid;
	};

	// ShaderEvalFunc.

	typedef void (*ShaderEvalFunc) (ShaderEvalContext& c);

	inline void evalCoordsPassthroughX (ShaderEvalContext& c) { c.color.x() = c.coords.x(); }
	inline void evalCoordsPassthroughXY (ShaderEvalContext& c) { c.color.xy() = c.coords.swizzle(0,1); }
	inline void evalCoordsPassthroughXYZ (ShaderEvalContext& c) { c.color.xyz() = c.coords.swizzle(0,1,2); }
	inline void evalCoordsPassthrough (ShaderEvalContext& c) { c.color = c.coords; }
	inline void evalCoordsSwizzleWZYX (ShaderEvalContext& c) { c.color = c.coords.swizzle(3,2,1,0); }

	// ShaderEvaluator
	// Either inherit a class with overridden evaluate() or just pass in an evalFunc.

	class ShaderEvaluator
	{
	public:
	ShaderEvaluator (void);
	ShaderEvaluator (ShaderEvalFunc evalFunc);
	virtual ~ShaderEvaluator (void);

	virtual void evaluate (ShaderEvalContext& ctx);

	private:
	ShaderEvaluator (const ShaderEvaluator&); // not allowed!
	ShaderEvaluator& operator= (const ShaderEvaluator&); // not allowed!

	ShaderEvalFunc m_evalFunc;
	};

	// ShaderRenderCase.

	class ShaderRenderCase : public tcu::TestCase
	{
	public:
	ShaderRenderCase (tcu::TestContext& testCtx, glu::RenderContext& renderCtx, const glu::ContextInfo& ctxInfo, const char* name, const char* description, bool isVertexCase, ShaderEvalFunc evalFunc);
	ShaderRenderCase (tcu::TestContext& testCtx, glu::RenderContext& renderCtx, const glu::ContextInfo& ctxInfo, const char* name, const char* description, bool isVertexCase, ShaderEvaluator& evaluator);
	virtual ~ShaderRenderCase (void);

	void init (void);
	void deinit (void);

	IterateResult iterate (void);

	protected:
	virtual void setupShaderData (void);
	virtual void setup (int programID);
	virtual void setupUniforms (int programID, const tcu::Vec4& constCoords);

	tcu::IVec2 getViewportSize (void) const;

	class CompileFailed : public tcu::TestError
	{
	public:
	inline CompileFailed (const char* file, int line) : tcu::TestError("Failed to compile shader program", DE_NULL, file, line) {}
	};

	private:
	ShaderRenderCase (const ShaderRenderCase&); // not allowed!
	ShaderRenderCase& operator= (const ShaderRenderCase&); // not allowed!

	void setupDefaultInputs (int programID);

	void render (tcu::Surface& result, int programID, const QuadGrid& quadGrid);
	void computeVertexReference (tcu::Surface& result, const QuadGrid& quadGrid);
	void computeFragmentReference(tcu::Surface& result, const QuadGrid& quadGrid);
	bool compareImages (const tcu::Surface& resImage, const tcu::Surface& refImage, float errorThreshold);

	protected:
	glu::RenderContext& m_renderCtx;
	const glu::ContextInfo& m_ctxInfo;

	bool m_isVertexCase;
	ShaderEvaluator m_defaultEvaluator;
	ShaderEvaluator& m_evaluator;
	std::string m_vertShaderSource;
	std::string m_fragShaderSource;
	tcu::Vec4 m_clearColor;

	std::vector<tcu::Mat4> m_userAttribTransforms;
	std::vector<TextureBinding> m_textures;

	glu::ShaderProgram* m_program;
	};

	// Helpers.
	// \todo [2012-04-10 pyry] Move these to separate utility?

	const char* getIntUniformName (int number);
	const char* getFloatUniformName (int number);
	const char* getFloatFractionUniformName (int number);

	void setupDefaultUniforms (const glu::RenderContext& context, deUint32 programID);

	} // gls
	} // deqp

	#endif // _GLSSHADERRENDERCASE_HPP