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

 #ifndef _GLSSTATEQUERYUTIL_HPP
 #define _GLSSTATEQUERYUTIL_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 State Query test utils.
  *//*--------------------------------------------------------------------*/

 #include "tcuDefs.hpp"
 #include "tcuTestLog.hpp"
 #include "tcuTestContext.hpp"
 #include "tcuResultCollector.hpp"
 #include "glwDefs.hpp"
 #include "deMath.h"

 namespace glu
 {
 class CallLogWrapper;
 } // glu

 namespace deqp
 {
 namespace gls
 {
 namespace StateQueryUtil
 {

 #define GLS_COLLECT_GL_ERROR(RES, ERR, MSG) \
 	do \
 	{ \
 		const deUint32 err = (ERR); \
 		if (err != GL_NO_ERROR) \
 			(RES).fail(std::string("Got Error ") + glu::getErrorStr(err).toString() + ": " + (MSG)); \
 	} \
 	while (deGetFalse())

 /*--------------------------------------------------------------------*//*!
  * \brief Rounds given float to the nearest integer (half up).
  *
  * Returns the nearest integer for a float argument. In the case that there
  * are two nearest integers at the equal distance (aka. the argument is of
  * form x.5), the integer with the higher value is chosen. (x.5 rounds to x+1)
  *//*--------------------------------------------------------------------*/
 template <typename T>
 T roundGLfloatToNearestIntegerHalfUp (float val)
 {
 	return (T)(deFloatFloor(val + 0.5f));
 }

 /*--------------------------------------------------------------------*//*!
  * \brief Rounds given float to the nearest integer (half down).
  *
  * Returns the nearest integer for a float argument. In the case that there
  * are two nearest integers at the equal distance (aka. the argument is of
  * form x.5), the integer with the higher value is chosen. (x.5 rounds to x)
  *//*--------------------------------------------------------------------*/
 template <typename T>
 T roundGLfloatToNearestIntegerHalfDown (float val)
 {
 	return (T)(deFloatCeil(val - 0.5f));
 }

 template <typename T>
 class StateQueryMemoryWriteGuard
 {
 public:
 					StateQueryMemoryWriteGuard	(void);

 					operator T&					(void);
 	T*				operator &					(void);

 	bool			isUndefined					(void) const;
 	bool			isMemoryContaminated		(void) const;
 	bool			isPreguardContaminated		(void) const;
 	bool			isPostguardContaminated		(void) const;
 	bool			verifyValidity				(tcu::TestContext& testCtx) const;
 	bool			verifyValidity				(tcu::ResultCollector& result) const;

 	const T&		get							(void) const { return m_value; }

 private:
 	enum
 	{
 		WRITE_GUARD_VALUE = 0xDE
 	};

 	T				m_preguard;
 	T				m_value;
 	T				m_postguard; // \note guards are not const qualified since the GL implementation might modify them
 };

 template <typename T>
 StateQueryMemoryWriteGuard<T>::StateQueryMemoryWriteGuard (void)
 {
 	DE_STATIC_ASSERT(sizeof(T) * 3 == sizeof(StateQueryMemoryWriteGuard<T>)); // tightly packed

 	for (size_t i = 0; i < sizeof(T); ++i)
 	{
 		((deUint8*)&m_preguard)[i]	= (deUint8)WRITE_GUARD_VALUE;
 		((deUint8*)&m_value)[i]		= (deUint8)WRITE_GUARD_VALUE;
 		((deUint8*)&m_postguard)[i]	= (deUint8)WRITE_GUARD_VALUE;
 	}
 }

 template <typename T>
 StateQueryMemoryWriteGuard<T>::operator T& (void)
 {
 	return m_value;
 }

 template <typename T>
 T* StateQueryMemoryWriteGuard<T>::operator & (void)
 {
 	return &m_value;
 }

 template <typename T>
 bool StateQueryMemoryWriteGuard<T>::isUndefined () const
 {
 	for (size_t i = 0; i < sizeof(T); ++i)
 		if (((deUint8*)&m_value)[i] != (deUint8)WRITE_GUARD_VALUE)
 			return false;
 	return true;
 }

 template <typename T>
 bool StateQueryMemoryWriteGuard<T>::isMemoryContaminated () const
 {
 	return isPreguardContaminated() || isPostguardContaminated();
 }

 template <typename T>
 bool StateQueryMemoryWriteGuard<T>::isPreguardContaminated (void) const
 {
 	for (size_t i = 0; i < sizeof(T); ++i)
 		if (((deUint8*)&m_preguard)[i] != (deUint8)WRITE_GUARD_VALUE)
 			return true;
 	return false;
 }

 template <typename T>
 bool StateQueryMemoryWriteGuard<T>::isPostguardContaminated (void) const
 {
 	for (size_t i = 0; i < sizeof(T); ++i)
 		if (((deUint8*)&m_postguard)[i] != (deUint8)WRITE_GUARD_VALUE)
 			return true;
 	return false;
 }

 template <typename T>
 bool StateQueryMemoryWriteGuard<T>::verifyValidity (tcu::TestContext& testCtx) const
 {
 	using tcu::TestLog;

 	if (isPreguardContaminated())
 	{
 		testCtx.getLog() << TestLog::Message << "// ERROR: Pre-guard value was modified " << TestLog::EndMessage;
 		if (testCtx.getTestResult() == QP_TEST_RESULT_PASS ||
 			testCtx.getTestResult() == QP_TEST_RESULT_LAST)
 			testCtx.setTestResult(QP_TEST_RESULT_FAIL, "Get* did an illegal memory write");

 		return false;
 	}
 	else if (isPostguardContaminated())
 	{
 		testCtx.getLog() << TestLog::Message << "// ERROR: Post-guard value was modified " << TestLog::EndMessage;
 		if (testCtx.getTestResult() == QP_TEST_RESULT_PASS ||
 			testCtx.getTestResult() == QP_TEST_RESULT_LAST)
 			testCtx.setTestResult(QP_TEST_RESULT_FAIL, "Get* did an illegal memory write");

 		return false;
 	}
 	else if (isUndefined())
 	{
 		testCtx.getLog() << TestLog::Message << "// ERROR: Get* did not return a value" << TestLog::EndMessage;
 		if (testCtx.getTestResult() == QP_TEST_RESULT_PASS ||
 			testCtx.getTestResult() == QP_TEST_RESULT_LAST)
 			testCtx.setTestResult(QP_TEST_RESULT_FAIL, "Get* did not return a value");

 		return false;
 	}

 	return true;
 }

 template <typename T>
 bool StateQueryMemoryWriteGuard<T>::verifyValidity (tcu::ResultCollector& result) const
 {
 	using tcu::TestLog;

 	if (isPreguardContaminated())
 	{
 		result.fail("pre-guard value was modified");
 		return false;
 	}
 	else if (isPostguardContaminated())
 	{
 		result.fail("post-guard value was modified");
 		return false;
 	}
 	else if (isUndefined())
 	{
 		result.fail("Get* did not return a value");
 		return false;
 	}

 	return true;
 }

 template<typename T>
 std::ostream& operator<< (std::ostream& str, const StateQueryMemoryWriteGuard<T>& guard)
 {
 	return str << guard.get();
 }

 // Verifiers

 enum QueryType
 {
 	QUERY_BOOLEAN = 0,
 	QUERY_BOOLEAN_VEC4,
 	QUERY_ISENABLED,
 	QUERY_INTEGER,
 	QUERY_INTEGER64,
 	QUERY_FLOAT,

 	// indexed
 	QUERY_INDEXED_BOOLEAN,
 	QUERY_INDEXED_BOOLEAN_VEC4,
 	QUERY_INDEXED_ISENABLED,
 	QUERY_INDEXED_INTEGER,
 	QUERY_INDEXED_INTEGER_VEC4,
 	QUERY_INDEXED_INTEGER64,
 	QUERY_INDEXED_INTEGER64_VEC4,

 	// attributes
 	QUERY_ATTRIBUTE_INTEGER,
 	QUERY_ATTRIBUTE_FLOAT,
 	QUERY_ATTRIBUTE_PURE_INTEGER,
 	QUERY_ATTRIBUTE_PURE_UNSIGNED_INTEGER,

 	// fb
 	QUERY_FRAMEBUFFER_INTEGER,

 	// program
 	QUERY_PROGRAM_INTEGER,
 	QUERY_PROGRAM_INTEGER_VEC3,

 	// program pipeline
 	QUERY_PIPELINE_INTEGER,

 	// texture param
 	QUERY_TEXTURE_PARAM_INTEGER,
 	QUERY_TEXTURE_PARAM_FLOAT,
 	QUERY_TEXTURE_PARAM_PURE_INTEGER,
 	QUERY_TEXTURE_PARAM_PURE_UNSIGNED_INTEGER,
 	QUERY_TEXTURE_PARAM_INTEGER_VEC4,
 	QUERY_TEXTURE_PARAM_FLOAT_VEC4,
 	QUERY_TEXTURE_PARAM_PURE_INTEGER_VEC4,
 	QUERY_TEXTURE_PARAM_PURE_UNSIGNED_INTEGER_VEC4,

 	// texture level
 	QUERY_TEXTURE_LEVEL_INTEGER,
 	QUERY_TEXTURE_LEVEL_FLOAT,

 	// pointer
 	QUERY_POINTER,

 	// object states
 	QUERY_ISTEXTURE,

 	// query queries
 	QUERY_QUERY,

 	// sampler state
 	QUERY_SAMPLER_PARAM_INTEGER,
 	QUERY_SAMPLER_PARAM_FLOAT,
 	QUERY_SAMPLER_PARAM_PURE_INTEGER,
 	QUERY_SAMPLER_PARAM_PURE_UNSIGNED_INTEGER,
 	QUERY_SAMPLER_PARAM_INTEGER_VEC4,
 	QUERY_SAMPLER_PARAM_FLOAT_VEC4,
 	QUERY_SAMPLER_PARAM_PURE_INTEGER_VEC4,
 	QUERY_SAMPLER_PARAM_PURE_UNSIGNED_INTEGER_VEC4,

 	QUERY_LAST
 };

 enum DataType
 {
 	DATATYPE_BOOLEAN = 0,
 	DATATYPE_INTEGER,
 	DATATYPE_INTEGER64,
 	DATATYPE_FLOAT16,
 	DATATYPE_FLOAT,
 	DATATYPE_UNSIGNED_INTEGER,
 	DATATYPE_INTEGER_VEC3,
 	DATATYPE_FLOAT_VEC4,
 	DATATYPE_INTEGER_VEC4,
 	DATATYPE_INTEGER64_VEC4,
 	DATATYPE_UNSIGNED_INTEGER_VEC4,
 	DATATYPE_BOOLEAN_VEC4,
 	DATATYPE_POINTER,

 	DATATYPE_LAST
 };

 class QueriedState
 {
 public:
 	typedef glw::GLint		GLIntVec3[3];
 	typedef glw::GLint		GLIntVec4[4];
 	typedef glw::GLuint		GLUintVec4[4];
 	typedef glw::GLfloat	GLFloatVec4[4];
 	typedef bool			BooleanVec4[4];
 	typedef glw::GLint64	GLInt64Vec4[4];

 							QueriedState			(void);
 	explicit				QueriedState			(glw::GLint);
 	explicit				QueriedState			(glw::GLint64);
 	explicit				QueriedState			(bool);
 	explicit				QueriedState			(glw::GLfloat);
 	explicit				QueriedState			(glw::GLuint);
 	explicit				QueriedState			(const GLIntVec3&);
 	explicit				QueriedState			(void*);
 	explicit				QueriedState			(const GLIntVec4&);
 	explicit				QueriedState			(const GLUintVec4&);
 	explicit				QueriedState			(const GLFloatVec4&);
 	explicit				QueriedState			(const BooleanVec4&);
 	explicit				QueriedState			(const GLInt64Vec4&);

 	bool					isUndefined				(void) const;
 	DataType				getType					(void) const;

 	glw::GLint&				getIntAccess			(void);
 	glw::GLint64&			getInt64Access			(void);
 	bool&					getBoolAccess			(void);
 	glw::GLfloat&			getFloatAccess			(void);
 	glw::GLuint&			getUintAccess			(void);
 	GLIntVec3&				getIntVec3Access		(void);
 	void*&					getPtrAccess			(void);
 	GLIntVec4&				getIntVec4Access		(void);
 	GLUintVec4&				getUintVec4Access		(void);
 	GLFloatVec4&			getFloatVec4Access		(void);
 	BooleanVec4&			getBooleanVec4Access	(void);
 	GLInt64Vec4&			getInt64Vec4Access		(void);

 private:
 	DataType				m_type;
 	union
 	{
 		glw::GLint			vInt;
 		glw::GLint64		vInt64;
 		bool				vBool;
 		glw::GLfloat		vFloat;
 		glw::GLuint			vUint;
 		GLIntVec3			vIntVec3;
 		void*				vPtr;
 		GLIntVec4			vIntVec4;
 		GLUintVec4			vUintVec4;
 		GLFloatVec4			vFloatVec4;
 		BooleanVec4			vBooleanVec4;
 		GLInt64Vec4			vInt64Vec4;
 	} m_v;
 };

 // query functions

 void queryState									(tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLenum pname, QueriedState& state);
 void queryIndexedState							(tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLenum target, int index, QueriedState& state);
 void queryAttributeState						(tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLenum target, int index, QueriedState& state);
 void queryFramebufferState						(tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLenum target, glw::GLenum pname, QueriedState& state);
 void queryProgramState							(tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLuint program, glw::GLenum pname, QueriedState& state);
 void queryPipelineState							(tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLuint pipeline, glw::GLenum pname, QueriedState& state);
 void queryTextureParamState						(tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLenum target, glw::GLenum pname, QueriedState& state);
 void queryTextureLevelState						(tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLenum target, int level, glw::GLenum pname, QueriedState& state);
 void queryPointerState							(tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLenum pname, QueriedState& state);
 void queryObjectState							(tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLuint handle, QueriedState& state);
 void queryQueryState							(tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLenum target, glw::GLenum pname, QueriedState& state);
 void querySamplerState							(tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLuint sampler, glw::GLenum pname, QueriedState& state);

 // verification functions

 void verifyBoolean								(tcu::ResultCollector& result, QueriedState& state, bool expected);
 void verifyInteger								(tcu::ResultCollector& result, QueriedState& state, int expected);
 void verifyIntegerMin							(tcu::ResultCollector& result, QueriedState& state, int minValue);
 void verifyIntegerMax							(tcu::ResultCollector& result, QueriedState& state, int maxValue);
 void verifyIntegersEqual						(tcu::ResultCollector& result, QueriedState& stateA, QueriedState& stateB);
 void verifyFloat								(tcu::ResultCollector& result, QueriedState& state, float expected);
 void verifyFloatMin								(tcu::ResultCollector& result, QueriedState& state, float minValue);
 void verifyFloatMax								(tcu::ResultCollector& result, QueriedState& state, float maxValue);
 void verifyIntegerVec3							(tcu::ResultCollector& result, QueriedState& state, const tcu::IVec3& expected);
 void verifyIntegerVec4							(tcu::ResultCollector& result, QueriedState& state, const tcu::IVec4& expected);
 void verifyUnsignedIntegerVec4					(tcu::ResultCollector& result, QueriedState& state, const tcu::UVec4& expected);
 void verifyFloatVec4							(tcu::ResultCollector& result, QueriedState& state, const tcu::Vec4& expected);
 void verifyBooleanVec4							(tcu::ResultCollector& result, QueriedState& state, const tcu::BVec4& expected);
 void verifyPointer								(tcu::ResultCollector& result, QueriedState& state, const void* expected);
 void verifyNormalizedI32Vec4					(tcu::ResultCollector& result, QueriedState& state, const tcu::IVec4& expected);

 // Helper functions that both query and verify

 void verifyStateBoolean							(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		bool expected,			QueryType type);
 void verifyStateInteger							(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		int expected,			QueryType type);
 void verifyStateIntegerMin						(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		int minValue,			QueryType type);
 void verifyStateIntegerMax						(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		int maxValue,			QueryType type);
 void verifyStateIntegerEqualToOther				(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		glw::GLenum other,		QueryType type);
 void verifyStateFloat							(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		float reference,		QueryType type);
 void verifyStateFloatMin						(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		float minValue,			QueryType type);
 void verifyStateFloatMax						(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		float maxValue,			QueryType type);
 void verifyStatePointer							(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		const void* expected,	QueryType type);
 void verifyStateIndexedBoolean					(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		int index,				bool expected,				QueryType type);
 void verifyStateIndexedBooleanVec4				(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		int index,				const tcu::BVec4& expected,	QueryType type);
 void verifyStateIndexedInteger					(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		int index,				int expected,				QueryType type);
 void verifyStateIndexedIntegerMin				(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		int index,				int minValue,				QueryType type);
 void verifyStateAttributeInteger				(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		int index,				int expected,				QueryType type);
 void verifyStateFramebufferInteger				(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		glw::GLenum pname,		int expected,				QueryType type);
 void verifyStateFramebufferIntegerMin			(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		glw::GLenum pname,		int minValue,				QueryType type);
 void verifyStateProgramInteger					(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLuint program,	glw::GLenum pname,		int expected,				QueryType type);
 void verifyStateProgramIntegerVec3				(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLuint program,	glw::GLenum pname,		const tcu::IVec3& expected,	QueryType type);
 void verifyStatePipelineInteger					(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLuint pipeline,	glw::GLenum pname,		int expected,				QueryType type);
 void verifyStateTextureParamInteger				(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		glw::GLenum pname,		int expected,				QueryType type);
 void verifyStateTextureParamFloat				(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		glw::GLenum pname,		float expected,				QueryType type);
 void verifyStateTextureParamFloatVec4			(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		glw::GLenum pname,		const tcu::Vec4& expected,	QueryType type);
 void verifyStateTextureParamNormalizedI32Vec4	(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		glw::GLenum pname,		const tcu::IVec4& expected,	QueryType type);
 void verifyStateTextureParamIntegerVec4			(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		glw::GLenum pname,		const tcu::IVec4& expected,	QueryType type);
 void verifyStateTextureParamUnsignedIntegerVec4	(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		glw::GLenum pname,		const tcu::UVec4& expected,	QueryType type);
 void verifyStateTextureLevelInteger				(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		int level,				glw::GLenum pname,			int expected,		QueryType type);
 void verifyStateObjectBoolean					(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLuint handle,		bool expected,			QueryType type);
 void verifyStateQueryInteger					(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target,		glw::GLenum pname,		int expected,				QueryType type);
 void verifyStateSamplerParamInteger				(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLuint sampler,	glw::GLenum pname,		int expected,				QueryType type);
 void verifyStateSamplerParamFloat				(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLuint sampler,	glw::GLenum pname,		float expected,				QueryType type);
 void verifyStateSamplerParamFloatVec4			(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLuint sampler,	glw::GLenum pname,		const tcu::Vec4& expected,	QueryType type);
 void verifyStateSamplerParamNormalizedI32Vec4	(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLuint sampler,	glw::GLenum pname,		const tcu::IVec4& expected,	QueryType type);
 void verifyStateSamplerParamIntegerVec4			(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLuint sampler,	glw::GLenum pname,		const tcu::IVec4& expected,	QueryType type);
 void verifyStateSamplerParamUnsignedIntegerVec4	(tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLuint sampler,	glw::GLenum pname,		const tcu::UVec4& expected,	QueryType type);

 } // StateQueryUtil
 } // gls
 } // deqp

 #endif // _GLSSTATEQUERYUTIL_HPP
	#ifndef _GLSSTATEQUERYUTIL_HPP
	#define _GLSSTATEQUERYUTIL_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 State Query test utils.
	//--------------------------------------------------------------------*/

	#include "tcuDefs.hpp"
	#include "tcuTestLog.hpp"
	#include "tcuTestContext.hpp"
	#include "tcuResultCollector.hpp"
	#include "glwDefs.hpp"
	#include "deMath.h"

	namespace glu
	{
	class CallLogWrapper;
	} // glu

	namespace deqp
	{
	namespace gls
	{
	namespace StateQueryUtil
	{

	#define GLS_COLLECT_GL_ERROR(RES, ERR, MSG) \
	do \
	{ \
	const deUint32 err = (ERR); \
	if (err != GL_NO_ERROR) \
	(RES).fail(std::string("Got Error ") + glu::getErrorStr(err).toString() + ": " + (MSG)); \
	} \
	while (deGetFalse())

	/--------------------------------------------------------------------//*!
	* \brief Rounds given float to the nearest integer (half up).
	*
	* Returns the nearest integer for a float argument. In the case that there
	* are two nearest integers at the equal distance (aka. the argument is of
	* form x.5), the integer with the higher value is chosen. (x.5 rounds to x+1)
	//--------------------------------------------------------------------*/
	template <typename T>
	T roundGLfloatToNearestIntegerHalfUp (float val)
	{
	return (T)(deFloatFloor(val + 0.5f));
	}

	/--------------------------------------------------------------------//*!
	* \brief Rounds given float to the nearest integer (half down).
	*
	* Returns the nearest integer for a float argument. In the case that there
	* are two nearest integers at the equal distance (aka. the argument is of
	* form x.5), the integer with the higher value is chosen. (x.5 rounds to x)
	//--------------------------------------------------------------------*/
	template <typename T>
	T roundGLfloatToNearestIntegerHalfDown (float val)
	{
	return (T)(deFloatCeil(val - 0.5f));
	}

	template <typename T>
	class StateQueryMemoryWriteGuard
	{
	public:
	StateQueryMemoryWriteGuard (void);

	operator T& (void);
	T* operator & (void);

	bool isUndefined (void) const;
	bool isMemoryContaminated (void) const;
	bool isPreguardContaminated (void) const;
	bool isPostguardContaminated (void) const;
	bool verifyValidity (tcu::TestContext& testCtx) const;
	bool verifyValidity (tcu::ResultCollector& result) const;

	const T& get (void) const { return m_value; }

	private:
	enum
	{
	WRITE_GUARD_VALUE = 0xDE
	};

	T m_preguard;
	T m_value;
	T m_postguard; // \note guards are not const qualified since the GL implementation might modify them
	};

	template <typename T>
	StateQueryMemoryWriteGuard<T>::StateQueryMemoryWriteGuard (void)
	{
	DE_STATIC_ASSERT(sizeof(T) * 3 == sizeof(StateQueryMemoryWriteGuard<T>)); // tightly packed

	for (size_t i = 0; i < sizeof(T); ++i)
	{
	((deUint8*)&m_preguard)[i] = (deUint8)WRITE_GUARD_VALUE;
	((deUint8*)&m_value)[i] = (deUint8)WRITE_GUARD_VALUE;
	((deUint8*)&m_postguard)[i] = (deUint8)WRITE_GUARD_VALUE;
	}
	}

	template <typename T>
	StateQueryMemoryWriteGuard<T>::operator T& (void)
	{
	return m_value;
	}

	template <typename T>
	T* StateQueryMemoryWriteGuard<T>::operator & (void)
	{
	return &m_value;
	}

	template <typename T>
	bool StateQueryMemoryWriteGuard<T>::isUndefined () const
	{
	for (size_t i = 0; i < sizeof(T); ++i)
	if (((deUint8*)&m_value)[i] != (deUint8)WRITE_GUARD_VALUE)
	return false;
	return true;
	}

	template <typename T>
	bool StateQueryMemoryWriteGuard<T>::isMemoryContaminated () const
	{
	return isPreguardContaminated() \|\| isPostguardContaminated();
	}

	template <typename T>
	bool StateQueryMemoryWriteGuard<T>::isPreguardContaminated (void) const
	{
	for (size_t i = 0; i < sizeof(T); ++i)
	if (((deUint8*)&m_preguard)[i] != (deUint8)WRITE_GUARD_VALUE)
	return true;
	return false;
	}

	template <typename T>
	bool StateQueryMemoryWriteGuard<T>::isPostguardContaminated (void) const
	{
	for (size_t i = 0; i < sizeof(T); ++i)
	if (((deUint8*)&m_postguard)[i] != (deUint8)WRITE_GUARD_VALUE)
	return true;
	return false;
	}

	template <typename T>
	bool StateQueryMemoryWriteGuard<T>::verifyValidity (tcu::TestContext& testCtx) const
	{
	using tcu::TestLog;

	if (isPreguardContaminated())
	{
	testCtx.getLog() << TestLog::Message << "// ERROR: Pre-guard value was modified " << TestLog::EndMessage;
	if (testCtx.getTestResult() == QP_TEST_RESULT_PASS \|\|
	testCtx.getTestResult() == QP_TEST_RESULT_LAST)
	testCtx.setTestResult(QP_TEST_RESULT_FAIL, "Get* did an illegal memory write");

	return false;
	}
	else if (isPostguardContaminated())
	{
	testCtx.getLog() << TestLog::Message << "// ERROR: Post-guard value was modified " << TestLog::EndMessage;
	if (testCtx.getTestResult() == QP_TEST_RESULT_PASS \|\|
	testCtx.getTestResult() == QP_TEST_RESULT_LAST)
	testCtx.setTestResult(QP_TEST_RESULT_FAIL, "Get* did an illegal memory write");

	return false;
	}
	else if (isUndefined())
	{
	testCtx.getLog() << TestLog::Message << "// ERROR: Get* did not return a value" << TestLog::EndMessage;
	if (testCtx.getTestResult() == QP_TEST_RESULT_PASS \|\|
	testCtx.getTestResult() == QP_TEST_RESULT_LAST)
	testCtx.setTestResult(QP_TEST_RESULT_FAIL, "Get* did not return a value");

	return false;
	}

	return true;
	}

	template <typename T>
	bool StateQueryMemoryWriteGuard<T>::verifyValidity (tcu::ResultCollector& result) const
	{
	using tcu::TestLog;

	if (isPreguardContaminated())
	{
	result.fail("pre-guard value was modified");
	return false;
	}
	else if (isPostguardContaminated())
	{
	result.fail("post-guard value was modified");
	return false;
	}
	else if (isUndefined())
	{
	result.fail("Get* did not return a value");
	return false;
	}

	return true;
	}

	template<typename T>
	std::ostream& operator<< (std::ostream& str, const StateQueryMemoryWriteGuard<T>& guard)
	{
	return str << guard.get();
	}

	// Verifiers

	enum QueryType
	{
	QUERY_BOOLEAN = 0,
	QUERY_BOOLEAN_VEC4,
	QUERY_ISENABLED,
	QUERY_INTEGER,
	QUERY_INTEGER64,
	QUERY_FLOAT,

	// indexed
	QUERY_INDEXED_BOOLEAN,
	QUERY_INDEXED_BOOLEAN_VEC4,
	QUERY_INDEXED_ISENABLED,
	QUERY_INDEXED_INTEGER,
	QUERY_INDEXED_INTEGER_VEC4,
	QUERY_INDEXED_INTEGER64,
	QUERY_INDEXED_INTEGER64_VEC4,

	// attributes
	QUERY_ATTRIBUTE_INTEGER,
	QUERY_ATTRIBUTE_FLOAT,
	QUERY_ATTRIBUTE_PURE_INTEGER,
	QUERY_ATTRIBUTE_PURE_UNSIGNED_INTEGER,

	// fb
	QUERY_FRAMEBUFFER_INTEGER,

	// program
	QUERY_PROGRAM_INTEGER,
	QUERY_PROGRAM_INTEGER_VEC3,

	// program pipeline
	QUERY_PIPELINE_INTEGER,

	// texture param
	QUERY_TEXTURE_PARAM_INTEGER,
	QUERY_TEXTURE_PARAM_FLOAT,
	QUERY_TEXTURE_PARAM_PURE_INTEGER,
	QUERY_TEXTURE_PARAM_PURE_UNSIGNED_INTEGER,
	QUERY_TEXTURE_PARAM_INTEGER_VEC4,
	QUERY_TEXTURE_PARAM_FLOAT_VEC4,
	QUERY_TEXTURE_PARAM_PURE_INTEGER_VEC4,
	QUERY_TEXTURE_PARAM_PURE_UNSIGNED_INTEGER_VEC4,

	// texture level
	QUERY_TEXTURE_LEVEL_INTEGER,
	QUERY_TEXTURE_LEVEL_FLOAT,

	// pointer
	QUERY_POINTER,

	// object states
	QUERY_ISTEXTURE,

	// query queries
	QUERY_QUERY,

	// sampler state
	QUERY_SAMPLER_PARAM_INTEGER,
	QUERY_SAMPLER_PARAM_FLOAT,
	QUERY_SAMPLER_PARAM_PURE_INTEGER,
	QUERY_SAMPLER_PARAM_PURE_UNSIGNED_INTEGER,
	QUERY_SAMPLER_PARAM_INTEGER_VEC4,
	QUERY_SAMPLER_PARAM_FLOAT_VEC4,
	QUERY_SAMPLER_PARAM_PURE_INTEGER_VEC4,
	QUERY_SAMPLER_PARAM_PURE_UNSIGNED_INTEGER_VEC4,

	QUERY_LAST
	};

	enum DataType
	{
	DATATYPE_BOOLEAN = 0,
	DATATYPE_INTEGER,
	DATATYPE_INTEGER64,
	DATATYPE_FLOAT16,
	DATATYPE_FLOAT,
	DATATYPE_UNSIGNED_INTEGER,
	DATATYPE_INTEGER_VEC3,
	DATATYPE_FLOAT_VEC4,
	DATATYPE_INTEGER_VEC4,
	DATATYPE_INTEGER64_VEC4,
	DATATYPE_UNSIGNED_INTEGER_VEC4,
	DATATYPE_BOOLEAN_VEC4,
	DATATYPE_POINTER,

	DATATYPE_LAST
	};

	class QueriedState
	{
	public:
	typedef glw::GLint GLIntVec3[3];
	typedef glw::GLint GLIntVec4[4];
	typedef glw::GLuint GLUintVec4[4];
	typedef glw::GLfloat GLFloatVec4[4];
	typedef bool BooleanVec4[4];
	typedef glw::GLint64 GLInt64Vec4[4];

	QueriedState (void);
	explicit QueriedState (glw::GLint);
	explicit QueriedState (glw::GLint64);
	explicit QueriedState (bool);
	explicit QueriedState (glw::GLfloat);
	explicit QueriedState (glw::GLuint);
	explicit QueriedState (const GLIntVec3&);
	explicit QueriedState (void*);
	explicit QueriedState (const GLIntVec4&);
	explicit QueriedState (const GLUintVec4&);
	explicit QueriedState (const GLFloatVec4&);
	explicit QueriedState (const BooleanVec4&);
	explicit QueriedState (const GLInt64Vec4&);

	bool isUndefined (void) const;
	DataType getType (void) const;

	glw::GLint& getIntAccess (void);
	glw::GLint64& getInt64Access (void);
	bool& getBoolAccess (void);
	glw::GLfloat& getFloatAccess (void);
	glw::GLuint& getUintAccess (void);
	GLIntVec3& getIntVec3Access (void);
	void*& getPtrAccess (void);
	GLIntVec4& getIntVec4Access (void);
	GLUintVec4& getUintVec4Access (void);
	GLFloatVec4& getFloatVec4Access (void);
	BooleanVec4& getBooleanVec4Access (void);
	GLInt64Vec4& getInt64Vec4Access (void);

	private:
	DataType m_type;
	union
	{
	glw::GLint vInt;
	glw::GLint64 vInt64;
	bool vBool;
	glw::GLfloat vFloat;
	glw::GLuint vUint;
	GLIntVec3 vIntVec3;
	void* vPtr;
	GLIntVec4 vIntVec4;
	GLUintVec4 vUintVec4;
	GLFloatVec4 vFloatVec4;
	BooleanVec4 vBooleanVec4;
	GLInt64Vec4 vInt64Vec4;
	} m_v;
	};

	// query functions

	void queryState (tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLenum pname, QueriedState& state);
	void queryIndexedState (tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLenum target, int index, QueriedState& state);
	void queryAttributeState (tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLenum target, int index, QueriedState& state);
	void queryFramebufferState (tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLenum target, glw::GLenum pname, QueriedState& state);
	void queryProgramState (tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLuint program, glw::GLenum pname, QueriedState& state);
	void queryPipelineState (tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLuint pipeline, glw::GLenum pname, QueriedState& state);
	void queryTextureParamState (tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLenum target, glw::GLenum pname, QueriedState& state);
	void queryTextureLevelState (tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLenum target, int level, glw::GLenum pname, QueriedState& state);
	void queryPointerState (tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLenum pname, QueriedState& state);
	void queryObjectState (tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLuint handle, QueriedState& state);
	void queryQueryState (tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLenum target, glw::GLenum pname, QueriedState& state);
	void querySamplerState (tcu::ResultCollector& result, glu::CallLogWrapper& gl, QueryType type, glw::GLuint sampler, glw::GLenum pname, QueriedState& state);

	// verification functions

	void verifyBoolean (tcu::ResultCollector& result, QueriedState& state, bool expected);
	void verifyInteger (tcu::ResultCollector& result, QueriedState& state, int expected);
	void verifyIntegerMin (tcu::ResultCollector& result, QueriedState& state, int minValue);
	void verifyIntegerMax (tcu::ResultCollector& result, QueriedState& state, int maxValue);
	void verifyIntegersEqual (tcu::ResultCollector& result, QueriedState& stateA, QueriedState& stateB);
	void verifyFloat (tcu::ResultCollector& result, QueriedState& state, float expected);
	void verifyFloatMin (tcu::ResultCollector& result, QueriedState& state, float minValue);
	void verifyFloatMax (tcu::ResultCollector& result, QueriedState& state, float maxValue);
	void verifyIntegerVec3 (tcu::ResultCollector& result, QueriedState& state, const tcu::IVec3& expected);
	void verifyIntegerVec4 (tcu::ResultCollector& result, QueriedState& state, const tcu::IVec4& expected);
	void verifyUnsignedIntegerVec4 (tcu::ResultCollector& result, QueriedState& state, const tcu::UVec4& expected);
	void verifyFloatVec4 (tcu::ResultCollector& result, QueriedState& state, const tcu::Vec4& expected);
	void verifyBooleanVec4 (tcu::ResultCollector& result, QueriedState& state, const tcu::BVec4& expected);
	void verifyPointer (tcu::ResultCollector& result, QueriedState& state, const void* expected);
	void verifyNormalizedI32Vec4 (tcu::ResultCollector& result, QueriedState& state, const tcu::IVec4& expected);

	// Helper functions that both query and verify

	void verifyStateBoolean (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, bool expected, QueryType type);
	void verifyStateInteger (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, int expected, QueryType type);
	void verifyStateIntegerMin (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, int minValue, QueryType type);
	void verifyStateIntegerMax (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, int maxValue, QueryType type);
	void verifyStateIntegerEqualToOther (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, glw::GLenum other, QueryType type);
	void verifyStateFloat (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, float reference, QueryType type);
	void verifyStateFloatMin (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, float minValue, QueryType type);
	void verifyStateFloatMax (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, float maxValue, QueryType type);
	void verifyStatePointer (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, const void* expected, QueryType type);
	void verifyStateIndexedBoolean (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, int index, bool expected, QueryType type);
	void verifyStateIndexedBooleanVec4 (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, int index, const tcu::BVec4& expected, QueryType type);
	void verifyStateIndexedInteger (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, int index, int expected, QueryType type);
	void verifyStateIndexedIntegerMin (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, int index, int minValue, QueryType type);
	void verifyStateAttributeInteger (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, int index, int expected, QueryType type);
	void verifyStateFramebufferInteger (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, glw::GLenum pname, int expected, QueryType type);
	void verifyStateFramebufferIntegerMin (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, glw::GLenum pname, int minValue, QueryType type);
	void verifyStateProgramInteger (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLuint program, glw::GLenum pname, int expected, QueryType type);
	void verifyStateProgramIntegerVec3 (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLuint program, glw::GLenum pname, const tcu::IVec3& expected, QueryType type);
	void verifyStatePipelineInteger (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLuint pipeline, glw::GLenum pname, int expected, QueryType type);
	void verifyStateTextureParamInteger (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, glw::GLenum pname, int expected, QueryType type);
	void verifyStateTextureParamFloat (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, glw::GLenum pname, float expected, QueryType type);
	void verifyStateTextureParamFloatVec4 (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, glw::GLenum pname, const tcu::Vec4& expected, QueryType type);
	void verifyStateTextureParamNormalizedI32Vec4 (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, glw::GLenum pname, const tcu::IVec4& expected, QueryType type);
	void verifyStateTextureParamIntegerVec4 (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, glw::GLenum pname, const tcu::IVec4& expected, QueryType type);
	void verifyStateTextureParamUnsignedIntegerVec4 (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, glw::GLenum pname, const tcu::UVec4& expected, QueryType type);
	void verifyStateTextureLevelInteger (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, int level, glw::GLenum pname, int expected, QueryType type);
	void verifyStateObjectBoolean (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLuint handle, bool expected, QueryType type);
	void verifyStateQueryInteger (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLenum target, glw::GLenum pname, int expected, QueryType type);
	void verifyStateSamplerParamInteger (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLuint sampler, glw::GLenum pname, int expected, QueryType type);
	void verifyStateSamplerParamFloat (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLuint sampler, glw::GLenum pname, float expected, QueryType type);
	void verifyStateSamplerParamFloatVec4 (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLuint sampler, glw::GLenum pname, const tcu::Vec4& expected, QueryType type);
	void verifyStateSamplerParamNormalizedI32Vec4 (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLuint sampler, glw::GLenum pname, const tcu::IVec4& expected, QueryType type);
	void verifyStateSamplerParamIntegerVec4 (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLuint sampler, glw::GLenum pname, const tcu::IVec4& expected, QueryType type);
	void verifyStateSamplerParamUnsignedIntegerVec4 (tcu::ResultCollector& result, glu::CallLogWrapper& gl, glw::GLuint sampler, glw::GLenum pname, const tcu::UVec4& expected, QueryType type);

	} // StateQueryUtil
	} // gls
	} // deqp

	#endif // _GLSSTATEQUERYUTIL_HPP