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

 #ifndef _GLSFBOUTIL_HPP
 #define _GLSFBOUTIL_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 Utilities for framebuffer objects.
  *//*--------------------------------------------------------------------*/

 #include "gluRenderContext.hpp"
 #include "gluContextInfo.hpp"
 #include "glwDefs.hpp"
 #include "glwEnums.hpp"
 #include "glwFunctions.hpp"
 #include "gluTextureUtil.hpp"
 #include "tcuTestLog.hpp"
 #include "tcuDefs.hpp"

 #include <map>
 #include <set>
 #include <vector>
 #include <algorithm>
 #include <iterator>

 namespace deqp
 {
 namespace gls
 {

 //! A pair of iterators to present a range.
 //! \note This must be POD to allow static initialization.
 //! \todo [2013-12-03 lauri] Move this to decpp?
 template <typename T>
 struct Range
 {
 	typedef const T*	const_iterator;

 	const T*	m_begin;
 	const T*	m_end;

 	const T*	begin		(void) const { return m_begin; }
 	const T*	end			(void) const { return m_end; }
 };

 #define GLS_ARRAY_RANGE(ARR) { DE_ARRAY_BEGIN(ARR), DE_ARRAY_END(ARR) }

 #define GLS_NULL_RANGE { DE_NULL, DE_NULL }


 //! A pair type that, unlike stl::pair, is POD so it can be statically initialized.
 template <typename T1, typename T2>
 struct Pair
 {
 	typedef	T1	first_type;
 	typedef T2	second_type;
 	T1			first;
 	T2			second;
 };

 namespace FboUtil
 {

 //! Configurations for framebuffer objects and their attachments.

 class FboVerifier;
 class FboBuilder;

 typedef deUint32		FormatKey;

 #define GLS_UNSIZED_FORMATKEY(FORMAT, TYPE) \
 	(deUint32(TYPE) << 16 | deUint32(FORMAT))

 typedef Range<FormatKey>	FormatKeys;

 struct ImageFormat
 {
 	glw::GLenum				format;

 	//! Type if format is unsized, GL_NONE if sized.
 	glw::GLenum				unsizedType;

 	bool					operator<		(const ImageFormat& other) const
 	{
 		return (format < other.format ||
 				(format == other.format && unsizedType < other.unsizedType));
 	}

 	static ImageFormat		none			(void)
 	{
 		ImageFormat fmt = { GL_NONE, GL_NONE };
 		return fmt;
 	}
 };

 std::ostream& operator<< (std::ostream& stream, const ImageFormat& format);

 static inline ImageFormat formatKeyInfo(FormatKey key)
 {
 	ImageFormat fmt = { key & 0xffff, key >> 16 };
 	return fmt;
 }

 enum FormatFlags
 {
 	ANY_FORMAT			= 0,
 	COLOR_RENDERABLE	= 1 << 0,
 	DEPTH_RENDERABLE	= 1 << 1,
 	STENCIL_RENDERABLE	= 1 << 2,
 	RENDERBUFFER_VALID	= 1 << 3,
 	TEXTURE_VALID		= 1 << 4,
 	REQUIRED_RENDERABLE	= 1 << 5, //< Without this, renderability is allowed, not required.
 };

 static inline FormatFlags operator|(FormatFlags f1, FormatFlags f2)
 {
 	return FormatFlags(deUint32(f1) | deUint32(f2));
 }

 FormatFlags formatFlag(glw::GLenum context);

 typedef std::set<ImageFormat> Formats;

 class FormatDB
 {
 public:
 	void								addCoreFormat				(ImageFormat format, FormatFlags flags);
 	void								addExtensionFormat			(ImageFormat format, FormatFlags flags, const std::set<std::string>& requiredExtensions);

 	Formats								getFormats					(FormatFlags requirements) const;
 	bool								isKnownFormat				(ImageFormat format) const;
 	FormatFlags							getFormatInfo				(ImageFormat format) const;
 	std::set<std::set<std::string> >	getFormatFeatureExtensions	(ImageFormat format, FormatFlags requirements) const;

 private:
 	struct ExtensionInfo
 	{
 		FormatFlags					flags;
 		std::set<std::string>		requiredExtensions;

 		bool						operator<			(const ExtensionInfo& other) const;
 	};

 	typedef std::map<ImageFormat, FormatFlags>					FormatMap;
 	typedef std::map<ImageFormat, std::set<ExtensionInfo> >		FormatExtensionMap;

 	FormatMap							m_formatFlags;
 	FormatExtensionMap					m_formatExtensions;
 };

 typedef Pair<FormatFlags, FormatKeys>				FormatEntry;
 typedef Range<FormatEntry>							FormatEntries;

 // \todo [2013-12-20 lauri] It turns out that format properties in extensions
 // are actually far too fine-grained for this bundling to be reasonable,
 // especially given the syntactic cumbersomeness of static arrays. It's better
 // to list each entry separately.

 struct FormatExtEntry
 {
 	const char*									extensions;
 	deUint32									flags;
 	Range<FormatKey>							formats;
 };

 typedef Range<FormatExtEntry>						FormatExtEntries;

 // Check support for GL_* and DEQP_* extensions
 bool				checkExtensionSupport		(const glu::RenderContext& ctx, const std::string& extension);

 // Accepts GL_* and DEQP_* extension strings and converts DEQP_* strings to a human readable string
 std::string			getExtensionDescription		(const std::string& extensionName);

 void				addFormats					(FormatDB& db, FormatEntries stdFmts);
 void				addExtFormats				(FormatDB& db, FormatExtEntries extFmts, const glu::RenderContext* ctx);
 glu::TransferFormat	transferImageFormat			(const ImageFormat& imgFormat);

 namespace config
 {

 struct Config
 {
 	virtual						~Config			(void) {};
 };

 struct Image : public Config
 {
 	ImageFormat					internalFormat;
 	glw::GLsizei				width;
 	glw::GLsizei				height;

 protected:
 								Image			(void)
 									: internalFormat	(ImageFormat::none())
 									, width				(0)
 									, height			(0) {}
 };

 struct Renderbuffer : public Image
 {
 						Renderbuffer	(void) : numSamples(0) {}

 	glw::GLsizei		numSamples;
 };

 struct Texture : public Image
 {
 							Texture			(void) : numLevels(1) {}

 	glw::GLint				numLevels;
 };

 struct TextureFlat : public Texture
 {
 };

 struct Texture2D : public TextureFlat
 {
 };

 struct TextureCubeMap : public TextureFlat
 {
 };

 struct TextureLayered : public Texture
 {
 							TextureLayered	(void) : numLayers(1) {}
 	glw::GLsizei			numLayers;
 };

 struct Texture3D : public TextureLayered
 {
 };

 struct Texture2DArray : public TextureLayered
 {
 };

 struct Attachment : public Config
 {
 							Attachment		(void) : target(GL_FRAMEBUFFER), imageName(0) {}

 	glw::GLenum				target;
 	glw::GLuint				imageName;

 	//! Returns `true` iff this attachment is "framebuffer attachment
 	//! complete" when bound to attachment point `attPoint`, and the current
 	//! image with name `imageName` is `image`, using `vfr` to check format
 	//! renderability.
 	bool					isComplete		(glw::GLenum attPoint, const Image* image,
 											 const FboVerifier& vfr) const;
 };

 struct RenderbufferAttachment : public Attachment
 {
 				RenderbufferAttachment	(void)
 				: renderbufferTarget(GL_RENDERBUFFER) {}

 	glw::GLenum renderbufferTarget;
 };

 struct TextureAttachment : public Attachment
 {
 							TextureAttachment	(void) : level(0) {}

 	glw::GLint				level;
 };

 struct TextureFlatAttachment : public TextureAttachment
 {
 							TextureFlatAttachment (void) : texTarget(GL_NONE) {}

 	glw::GLenum				texTarget;
 };

 struct TextureLayerAttachment : public TextureAttachment
 {
 							TextureLayerAttachment (void) : layer(0) {}

 	glw::GLsizei			layer;
 };

 glw::GLenum		attachmentType	(const Attachment& att);
 glw::GLsizei	imageNumSamples	(const Image& img);

 //! Mapping from attachment points to attachment configurations.
 typedef std::map<glw::GLenum, const Attachment*> AttachmentMap;

 //! Mapping from object names to texture configurations.
 typedef std::map<glw::GLuint, const Texture*> TextureMap;

 //! Mapping from object names to renderbuffer configurations.
 typedef std::map<glw::GLuint, const Renderbuffer*> RboMap;

 //! A framebuffer configuration.
 struct Framebuffer
 {
 	AttachmentMap			attachments;
 	TextureMap				textures;
 	RboMap					rbos;

 	void					attach			(glw::GLenum attPoint, const Attachment* att);
 	void					setTexture		(glw::GLuint texName, const Texture& texCfg);
 	void					setRbo			(glw::GLuint rbName, const Renderbuffer& rbCfg);
 	const Image*			getImage		(glw::GLenum type, glw::GLuint imgName) const;
 };

 } // config

 class FboBuilder : public config::Framebuffer
 {
 public:
 	void						glAttach		(glw::GLenum attPoint,
 												 const config::Attachment* att);
 	glw::GLuint					glCreateTexture	(const config::Texture& texCfg);
 	glw::GLuint					glCreateRbo		(const config::Renderbuffer& rbCfg);
 								FboBuilder		(glw::GLuint fbo, glw::GLenum target,
 												 const glw::Functions& gl);
 								~FboBuilder		(void);
 	glw::GLenum					getError		(void) { return m_error; }

 	//! Allocate a new configuration of type `Config` (which must be a
 	//! subclass of `config::Config`), and return a referenc to it. The newly
 	//! allocated object will be freed when this builder object is destroyed.
 	template<typename Config>
 	Config&						makeConfig		(void)
 	{
 		Config* cfg = new Config();
 		m_configs.insert(cfg);
 		return *cfg;
 	}

 private:
 	typedef std::set<config::Config*> Configs;

 	void						checkError		(void);

 	glw::GLenum					m_error;		//< The first GL error encountered.
 	glw::GLenum					m_target;
 	const glw::Functions&		m_gl;
 	Configs						m_configs;
 };

 struct ValidStatusCodes
 {
 								ValidStatusCodes		(void);

 	bool						isFBOStatusValid		(glw::GLenum fboStatus) const;
 	bool						isFBOStatusRequired		(glw::GLenum fboStatus) const;
 	bool						isErrorCodeValid		(glw::GLenum errorCode) const;
 	bool						isErrorCodeRequired		(glw::GLenum errorCode) const;

 	void						addErrorCode			(glw::GLenum error, const char* description);
 	void						addFBOErrorStatus		(glw::GLenum status, const char* description);
 	void						setAllowComplete		(bool);

 	void						logLegalResults			(tcu::TestLog& log) const;
 	void						logRules				(tcu::TestLog& log) const;

 private:
 	struct RuleViolation
 	{
 		glw::GLenum				errorCode;
 		std::set<std::string>	rules;
 	};

 	void						logRule					(tcu::TestLog& log, const std::string& ruleName, const std::set<std::string>& rules) const;
 	void						addViolation			(std::vector<RuleViolation>& dst, glw::GLenum code, const char* description) const;

 	std::vector<RuleViolation>	m_errorCodes;			//!< Allowed GL errors, GL_NO_ERROR is not allowed
 	std::vector<RuleViolation>	m_errorStatuses;		//!< Allowed FBO error statuses, GL_FRAMEBUFFER_COMPLETE is not allowed
 	bool						m_allowComplete;		//!< true if (GL_NO_ERROR && GL_FRAMEBUFFER_COMPLETE) is allowed
 };

 void logFramebufferConfig (const config::Framebuffer& cfg, tcu::TestLog& log);

 class Checker
 {
 public:
 								Checker					(const glu::RenderContext&);
 	virtual						~Checker				(void) {}

 	void						addGLError				(glw::GLenum error, const char* description);
 	void						addPotentialGLError		(glw::GLenum error, const char* description);
 	void						addFBOStatus			(glw::GLenum status, const char* description);
 	void						addPotentialFBOStatus	(glw::GLenum status, const char* description);

 	ValidStatusCodes			getStatusCodes			(void) { return m_statusCodes; }

 	virtual void				check					(glw::GLenum				attPoint,
 														 const config::Attachment&	att,
 														 const config::Image*		image) = 0;

 protected:
 	const glu::RenderContext&	m_renderCtx;

 private:
 	ValidStatusCodes			m_statusCodes;	//< Allowed return values for glCheckFramebufferStatus.
 };

 class CheckerFactory
 {
 public:
 	virtual Checker*	createChecker	(const glu::RenderContext&) = 0;
 };

 typedef std::set<glw::GLenum> AttachmentPoints;
 typedef std::set<ImageFormat> Formats;

 class FboVerifier
 {
 public:
 								FboVerifier				(const FormatDB&			formats,
 														 CheckerFactory&			factory,
 														 const glu::RenderContext&	renderCtx);

 	ValidStatusCodes			validStatusCodes		(const config::Framebuffer& cfg) const;

 private:
 	const FormatDB&				m_formats;
 	CheckerFactory&				m_factory;
 	const glu::RenderContext&	m_renderCtx;
 };

 } // FboUtil
 } // gls
 } // deqp

 #endif // _GLSFBOUTIL_HPP
	#ifndef _GLSFBOUTIL_HPP
	#define _GLSFBOUTIL_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 Utilities for framebuffer objects.
	//--------------------------------------------------------------------*/

	#include "gluRenderContext.hpp"
	#include "gluContextInfo.hpp"
	#include "glwDefs.hpp"
	#include "glwEnums.hpp"
	#include "glwFunctions.hpp"
	#include "gluTextureUtil.hpp"
	#include "tcuTestLog.hpp"
	#include "tcuDefs.hpp"

	#include <map>
	#include <set>
	#include <vector>
	#include <algorithm>
	#include <iterator>

	namespace deqp
	{
	namespace gls
	{

	//! A pair of iterators to present a range.
	//! \note This must be POD to allow static initialization.
	//! \todo [2013-12-03 lauri] Move this to decpp?
	template <typename T>
	struct Range
	{
	typedef const T* const_iterator;

	const T* m_begin;
	const T* m_end;

	const T* begin (void) const { return m_begin; }
	const T* end (void) const { return m_end; }
	};

	#define GLS_ARRAY_RANGE(ARR) { DE_ARRAY_BEGIN(ARR), DE_ARRAY_END(ARR) }

	#define GLS_NULL_RANGE { DE_NULL, DE_NULL }


	//! A pair type that, unlike stl::pair, is POD so it can be statically initialized.
	template <typename T1, typename T2>
	struct Pair
	{
	typedef T1 first_type;
	typedef T2 second_type;
	T1 first;
	T2 second;
	};

	namespace FboUtil
	{

	//! Configurations for framebuffer objects and their attachments.

	class FboVerifier;
	class FboBuilder;

	typedef deUint32 FormatKey;

	#define GLS_UNSIZED_FORMATKEY(FORMAT, TYPE) \
	(deUint32(TYPE) << 16 \| deUint32(FORMAT))

	typedef Range<FormatKey> FormatKeys;

	struct ImageFormat
	{
	glw::GLenum format;

	//! Type if format is unsized, GL_NONE if sized.
	glw::GLenum unsizedType;

	bool operator< (const ImageFormat& other) const
	{
	return (format < other.format \|\|
	(format == other.format && unsizedType < other.unsizedType));
	}

	static ImageFormat none (void)
	{
	ImageFormat fmt = { GL_NONE, GL_NONE };
	return fmt;
	}
	};

	std::ostream& operator<< (std::ostream& stream, const ImageFormat& format);

	static inline ImageFormat formatKeyInfo(FormatKey key)
	{
	ImageFormat fmt = { key & 0xffff, key >> 16 };
	return fmt;
	}

	enum FormatFlags
	{
	ANY_FORMAT = 0,
	COLOR_RENDERABLE = 1 << 0,
	DEPTH_RENDERABLE = 1 << 1,
	STENCIL_RENDERABLE = 1 << 2,
	RENDERBUFFER_VALID = 1 << 3,
	TEXTURE_VALID = 1 << 4,
	REQUIRED_RENDERABLE = 1 << 5, //< Without this, renderability is allowed, not required.
	};

	static inline FormatFlags operator\|(FormatFlags f1, FormatFlags f2)
	{
	return FormatFlags(deUint32(f1) \| deUint32(f2));
	}

	FormatFlags formatFlag(glw::GLenum context);

	typedef std::set<ImageFormat> Formats;

	class FormatDB
	{
	public:
	void addCoreFormat (ImageFormat format, FormatFlags flags);
	void addExtensionFormat (ImageFormat format, FormatFlags flags, const std::set<std::string>& requiredExtensions);

	Formats getFormats (FormatFlags requirements) const;
	bool isKnownFormat (ImageFormat format) const;
	FormatFlags getFormatInfo (ImageFormat format) const;
	std::set<std::set<std::string> > getFormatFeatureExtensions (ImageFormat format, FormatFlags requirements) const;

	private:
	struct ExtensionInfo
	{
	FormatFlags flags;
	std::set<std::string> requiredExtensions;

	bool operator< (const ExtensionInfo& other) const;
	};

	typedef std::map<ImageFormat, FormatFlags> FormatMap;
	typedef std::map<ImageFormat, std::set<ExtensionInfo> > FormatExtensionMap;

	FormatMap m_formatFlags;
	FormatExtensionMap m_formatExtensions;
	};

	typedef Pair<FormatFlags, FormatKeys> FormatEntry;
	typedef Range<FormatEntry> FormatEntries;

	// \todo [2013-12-20 lauri] It turns out that format properties in extensions
	// are actually far too fine-grained for this bundling to be reasonable,
	// especially given the syntactic cumbersomeness of static arrays. It's better
	// to list each entry separately.

	struct FormatExtEntry
	{
	const char* extensions;
	deUint32 flags;
	Range<FormatKey> formats;
	};

	typedef Range<FormatExtEntry> FormatExtEntries;

	// Check support for GL_* and DEQP_* extensions
	bool checkExtensionSupport (const glu::RenderContext& ctx, const std::string& extension);

	// Accepts GL_* and DEQP_* extension strings and converts DEQP_* strings to a human readable string
	std::string getExtensionDescription (const std::string& extensionName);

	void addFormats (FormatDB& db, FormatEntries stdFmts);
	void addExtFormats (FormatDB& db, FormatExtEntries extFmts, const glu::RenderContext* ctx);
	glu::TransferFormat transferImageFormat (const ImageFormat& imgFormat);

	namespace config
	{

	struct Config
	{
	virtual ~Config (void) {};
	};

	struct Image : public Config
	{
	ImageFormat internalFormat;
	glw::GLsizei width;
	glw::GLsizei height;

	protected:
	Image (void)
	: internalFormat (ImageFormat::none())
	, width (0)
	, height (0) {}
	};

	struct Renderbuffer : public Image
	{
	Renderbuffer (void) : numSamples(0) {}

	glw::GLsizei numSamples;
	};

	struct Texture : public Image
	{
	Texture (void) : numLevels(1) {}

	glw::GLint numLevels;
	};

	struct TextureFlat : public Texture
	{
	};

	struct Texture2D : public TextureFlat
	{
	};

	struct TextureCubeMap : public TextureFlat
	{
	};

	struct TextureLayered : public Texture
	{
	TextureLayered (void) : numLayers(1) {}
	glw::GLsizei numLayers;
	};

	struct Texture3D : public TextureLayered
	{
	};

	struct Texture2DArray : public TextureLayered
	{
	};

	struct Attachment : public Config
	{
	Attachment (void) : target(GL_FRAMEBUFFER), imageName(0) {}

	glw::GLenum target;
	glw::GLuint imageName;

	//! Returns `true` iff this attachment is "framebuffer attachment
	//! complete" when bound to attachment point `attPoint`, and the current
	//! image with name `imageName` is `image`, using `vfr` to check format
	//! renderability.
	bool isComplete (glw::GLenum attPoint, const Image* image,
	const FboVerifier& vfr) const;
	};

	struct RenderbufferAttachment : public Attachment
	{
	RenderbufferAttachment (void)
	: renderbufferTarget(GL_RENDERBUFFER) {}

	glw::GLenum renderbufferTarget;
	};

	struct TextureAttachment : public Attachment
	{
	TextureAttachment (void) : level(0) {}

	glw::GLint level;
	};

	struct TextureFlatAttachment : public TextureAttachment
	{
	TextureFlatAttachment (void) : texTarget(GL_NONE) {}

	glw::GLenum texTarget;
	};

	struct TextureLayerAttachment : public TextureAttachment
	{
	TextureLayerAttachment (void) : layer(0) {}

	glw::GLsizei layer;
	};

	glw::GLenum attachmentType (const Attachment& att);
	glw::GLsizei imageNumSamples (const Image& img);

	//! Mapping from attachment points to attachment configurations.
	typedef std::map<glw::GLenum, const Attachment*> AttachmentMap;

	//! Mapping from object names to texture configurations.
	typedef std::map<glw::GLuint, const Texture*> TextureMap;

	//! Mapping from object names to renderbuffer configurations.
	typedef std::map<glw::GLuint, const Renderbuffer*> RboMap;

	//! A framebuffer configuration.
	struct Framebuffer
	{
	AttachmentMap attachments;
	TextureMap textures;
	RboMap rbos;

	void attach (glw::GLenum attPoint, const Attachment* att);
	void setTexture (glw::GLuint texName, const Texture& texCfg);
	void setRbo (glw::GLuint rbName, const Renderbuffer& rbCfg);
	const Image* getImage (glw::GLenum type, glw::GLuint imgName) const;
	};

	} // config

	class FboBuilder : public config::Framebuffer
	{
	public:
	void glAttach (glw::GLenum attPoint,
	const config::Attachment* att);
	glw::GLuint glCreateTexture (const config::Texture& texCfg);
	glw::GLuint glCreateRbo (const config::Renderbuffer& rbCfg);
	FboBuilder (glw::GLuint fbo, glw::GLenum target,
	const glw::Functions& gl);
	~FboBuilder (void);
	glw::GLenum getError (void) { return m_error; }

	//! Allocate a new configuration of type `Config` (which must be a
	//! subclass of `config::Config`), and return a referenc to it. The newly
	//! allocated object will be freed when this builder object is destroyed.
	template<typename Config>
	Config& makeConfig (void)
	{
	Config* cfg = new Config();
	m_configs.insert(cfg);
	return *cfg;
	}

	private:
	typedef std::set<config::Config*> Configs;

	void checkError (void);

	glw::GLenum m_error; //< The first GL error encountered.
	glw::GLenum m_target;
	const glw::Functions& m_gl;
	Configs m_configs;
	};

	struct ValidStatusCodes
	{
	ValidStatusCodes (void);

	bool isFBOStatusValid (glw::GLenum fboStatus) const;
	bool isFBOStatusRequired (glw::GLenum fboStatus) const;
	bool isErrorCodeValid (glw::GLenum errorCode) const;
	bool isErrorCodeRequired (glw::GLenum errorCode) const;

	void addErrorCode (glw::GLenum error, const char* description);
	void addFBOErrorStatus (glw::GLenum status, const char* description);
	void setAllowComplete (bool);

	void logLegalResults (tcu::TestLog& log) const;
	void logRules (tcu::TestLog& log) const;

	private:
	struct RuleViolation
	{
	glw::GLenum errorCode;
	std::set<std::string> rules;
	};

	void logRule (tcu::TestLog& log, const std::string& ruleName, const std::set<std::string>& rules) const;
	void addViolation (std::vector<RuleViolation>& dst, glw::GLenum code, const char* description) const;

	std::vector<RuleViolation> m_errorCodes; //!< Allowed GL errors, GL_NO_ERROR is not allowed
	std::vector<RuleViolation> m_errorStatuses; //!< Allowed FBO error statuses, GL_FRAMEBUFFER_COMPLETE is not allowed
	bool m_allowComplete; //!< true if (GL_NO_ERROR && GL_FRAMEBUFFER_COMPLETE) is allowed
	};

	void logFramebufferConfig (const config::Framebuffer& cfg, tcu::TestLog& log);

	class Checker
	{
	public:
	Checker (const glu::RenderContext&);
	virtual ~Checker (void) {}

	void addGLError (glw::GLenum error, const char* description);
	void addPotentialGLError (glw::GLenum error, const char* description);
	void addFBOStatus (glw::GLenum status, const char* description);
	void addPotentialFBOStatus (glw::GLenum status, const char* description);

	ValidStatusCodes getStatusCodes (void) { return m_statusCodes; }

	virtual void check (glw::GLenum attPoint,
	const config::Attachment& att,
	const config::Image* image) = 0;

	protected:
	const glu::RenderContext& m_renderCtx;

	private:
	ValidStatusCodes m_statusCodes; //< Allowed return values for glCheckFramebufferStatus.
	};

	class CheckerFactory
	{
	public:
	virtual Checker* createChecker (const glu::RenderContext&) = 0;
	};

	typedef std::set<glw::GLenum> AttachmentPoints;
	typedef std::set<ImageFormat> Formats;

	class FboVerifier
	{
	public:
	FboVerifier (const FormatDB& formats,
	CheckerFactory& factory,
	const glu::RenderContext& renderCtx);

	ValidStatusCodes validStatusCodes (const config::Framebuffer& cfg) const;

	private:
	const FormatDB& m_formats;
	CheckerFactory& m_factory;
	const glu::RenderContext& m_renderCtx;
	};

	} // FboUtil
	} // gls
	} // deqp

	#endif // _GLSFBOUTIL_HPP